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Direktori : /usr/share/locale/de/LC_MESSAGES/
Current File : //usr/share/locale/de/LC_MESSAGES/gcc.mo
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For bug reporting instructions, please see:

For bug reporting instructions, please see:
%s.

Go ahead? (y or n) 
Linker options
==============


Obsolete options:

Options starting with -g, -f, -m, -O, -W, or --param are automatically
 passed on to the various sub-processes invoked by %s.  In order to pass
 other options on to these processes the -W<letter> options must be used.

ldd output with constructors/destructors.

write_c_file - output name is %s, prefix is %s
                           Display specific types of command line options.
                 from        %qD        %s        included from    %#qD    -F, --fullname                      Print full filename
    -f, --function                      Print function level info
    -h, --hotonly                       Only print info for hot objects/functions
    -n, --normalize <int64_t>           Normalize the profile
    -o, --object                        Print object level info
    -o, --output <dir>                  Output directory
    -s, --scale <float or simple-frac>  Scale the profile counters
    -t <float>, --hot_threshold <float> Set the threshold for hotness
    -v, --verbose                       Verbose mode
    -w, --weight <w1,w2>                Set weights (float point values)
    Included at %s:%d:    inlined from %qs    inlined from %qs at %r%s:%d%R    inlined from %qs at %r%s:%d:%d%R   by earlier handler for %<%T%>   in pointer to member conversion   in pointer to member function conversion  %q#D  %q+T does not have %<constexpr%> destructor  %q+T has a non-trivial destructor  %q+T is not an aggregate, does not have a trivial default constructor, and has no %<constexpr%> constructor that is not a copy or move constructor  %qE  %qE is not equivalent to %qE  %qT is a closure type, which is only literal in C++17 and later  %qT is an ambiguous base class of %qT  %qT is not derived from %qT  (Use '-v --help' to display command line options of sub-processes).
  -###                     Like -v but options quoted and commands not executed.
  --help                   Display this information.
  --help={common|optimizers|params|target|warnings|[^]{joined|separate|undocumented}}[,...].
  --sysroot=<directory>    Use <directory> as the root directory for headers
                           and libraries.
  --target-help            Display target specific command line options.
  --version                Display compiler version information.
  -B <directory>           Add <directory> to the compiler's search paths.
  -D, --debug			    Display debugging dumps
  -E                       Preprocess only; do not compile, assemble or link.
  -H, --human-readable            Output human readable numbers
  -S                       Compile only; do not assemble or link.
  -Wa,<options>            Pass comma-separated <options> on to the assembler.
  -Wl,<options>            Pass comma-separated <options> on to the linker.
  -Wp,<options>            Pass comma-separated <options> on to the preprocessor.
  -Xassembler <arg>        Pass <arg> on to the assembler.
  -Xlinker <arg>           Pass <arg> on to the linker.
  -Xpreprocessor <arg>     Pass <arg> on to the preprocessor.
  -a, --all-blocks                Show information for every basic block
  -b, --branch-probabilities      Include branch probabilities in output
  -c                       Compile and assemble, but do not link.
  -c, --branch-counts             Output counts of branches taken
                                    rather than percentages
  -d, --display-progress          Display progress information
  -dumpmachine             Display the compiler's target processor.
  -dumpspecs               Display all of the built in spec strings.
  -dumpversion             Display the version of the compiler.
  -f, --function-summaries        Output summaries for each function
  -h, --help                            Print this help, then exit
  -h, --help                      Print this help, then exit
  -i, --json-format               Replaced with -j, --json-format
  -j, --human-readable            Replaced with -H, --human-readable
  -j, --json-format               Output JSON intermediate format
                                    into .gcov.json.gz file
  -k, --use-colors                Emit colored output
  -l, --long-file-names           Use long output file names for included
                                    source files
  -m, --demangled-names           Output demangled function names
  -n, --no-output                 Do not create an output file
  -no-canonical-prefixes   Do not canonicalize paths when building relative
                           prefixes to other gcc components.
  -o <file>                Place the output into <file>.
  -o, --object-directory DIR|FILE Search for object files in DIR or called FILE
  -p, --preserve-paths            Preserve all pathname components
  -pass-exit-codes         Exit with highest error code from a phase.
  -pie                     Create a dynamically linked position independent
                           executable.
  -pipe                    Use pipes rather than intermediate files.
  -print-file-name=<lib>   Display the full path to library <lib>.
  -print-libgcc-file-name  Display the name of the compiler's companion library.
  -print-multi-directory   Display the root directory for versions of libgcc.
  -print-multi-lib         Display the mapping between command line options and
                           multiple library search directories.
  -print-multi-os-directory Display the relative path to OS libraries.
  -print-multiarch         Display the target's normalized GNU triplet, used as
                           a component in the library path.
  -print-prog-name=<prog>  Display the full path to compiler component <prog>.
  -print-search-dirs       Display the directories in the compiler's search path.
  -print-sysroot           Display the target libraries directory.
  -print-sysroot-headers-suffix Display the sysroot suffix used to find headers.
  -q, --use-hotness-colors        Emit perf-like colored output for hot lines
  -r, --relative-only             Only show data for relative sources
  -s, --source-prefix DIR         Source prefix to elide
  -save-temps              Do not delete intermediate files.
  -save-temps=<arg>        Do not delete intermediate files.
  -shared                  Create a shared library.
  -specs=<file>            Override built-in specs with the contents of <file>.
  -std=<standard>          Assume that the input sources are for <standard>.
  -t, --stdout                    Output to stdout instead of a file
  -time                    Time the execution of each subprocess.
  -u, --unconditional-branches    Show unconditional branch counts too
  -v                       Display the programs invoked by the compiler.
  -v, --version                         Print version number, then exit
  -v, --version                   Print version number, then exit
  -w, --verbose                   Print verbose informations
  -x <language>            Specify the language of the following input files.
                           Permissible languages include: c c++ assembler none
                           'none' means revert to the default behavior of
                           guessing the language based on the file's extension.
  -x, --hash-filenames            Hash long pathnames
  Known valid arguments for %s option:
     a constructor taking a single argument of its own class type is invalid  a qualified-id is required  after user-defined conversion:  ambiguous template argument for non-type template parameter is treated as function type  an inherited constructor is not a candidate for initialization from an expression of the same or derived type  and each type can be converted to the other  as it is a non-system directory that duplicates a system directory
  base %qT  base class %qT of %q+T is non-literal  because conversion sequence for the argument is better  because the following virtual functions are pure within %qT:  but %d required  but does not declare %<%T(const %T&)%>  but does not declare %<operator=(const %T&)%>  by %qD  candidate conversions include %qD and %qD  candidate expects %d argument, %d provided  candidate expects %d arguments, %d provided  candidate expects at least %d argument, %d provided  candidate expects at least %d arguments, %d provided  cannot convert %qE (type %qT) to type %qT  cannot deduce a template for %qT from non-template type %qT  conversion from return type %qT of template conversion function specialization to %qT is not an exact match  conversion of argument %d would be ill-formed:  couldn%'t deduce template parameter %qD  crosses initialization of %q#D  declared here  deduced conflicting types for parameter %qT (%qT and %qT)  deduced conflicting values for non-type parameter %qE (%qE and %qE)  enters %<catch%> block  enters %<constexpr if%> statement  enters %<try%> block  enters OpenMP structured block  enters scope of %q#D which has non-trivial destructor  enters scope of %q#D, which has non-trivial destructor  enters synchronized or atomic statement  exits OpenMP structured block  expected %qD but got %qD  expected a class template, got %qE  expected a class template, got %qT  expected a constant of type %qT, got %qT  expected a template of type %qD, got %qT  expected a type, got %qE  expected a type, got %qT  for conversion from %qH to %qI  from definition of %q#D  from here  in call to %qD  in evaluation of %<%Q(%#T, %#T)%>  in thrown expression  inconsistent parameter pack deduction with %qT and %qT  inherited here  initializing argument %P of %qD  member function type %qT is not a valid template argument  merge [options] <dir1> <dir2>         Merge coverage file contents
  mismatched types %qT and %qT  no known conversion for argument %d from %qH to %qI  no known conversion for implicit %<this%> parameter from %qH to %qI  no known conversion from %qH to %qI  non-static data member %qD has non-literal type  non-static data member %qD has volatile type  or %<operator=(const %T&)%>  or a %<transaction_may_cancel_outer%> function  overlap [options] <dir1> <dir2>       Compute the overlap of two profiles
  passing %qT as %<this%> argument discards qualifiers  profiling support are only provided in archive format  return type %qT of explicit conversion function cannot be converted to %qT with a qualification conversion  rewrite [options] <dir>               Rewrite coverage file contents
  since %q+#D declared in base class  skips initialization of %q#D  substitution of deduced template arguments resulted in errors seen above  template argument %qE does not match %qE  template argument %qE does not match pointer-to-member constant %qE  template argument deduction/substitution failed:  template parameter %qD is not a parameter pack, but argument %qD is  template parameters of a template template argument are inconsistent with other deduced template arguments  trying to instantiate %qD  types %qT and %qT have incompatible cv-qualifiers  variable-sized array type %qT is not a valid template argument  when initialized here  when instantiating default argument for call to %qD (BB %d) (operand type is %qT) (operand types are %qT and %qT) (operand types are %qT, %qT, and %qT) All options with the desired characteristics have already been displayed
 No options with the desired characteristics were found
 None found.  Use --help=%s to show *all* the options supported by the %s front-end.
 [see %<-fno-allow-invalid-boz%>] because all of its copy and move constructors are deleted candidate 1: %q#F candidate 2: %q#F conflicting code gen style switches are used declared here the expression has a constant value but is not a C++ constant-expression zstd!$ACC LOOP %s loops don't form rectangular iteration space at %L!$ACC LOOP cannot be a DO CONCURRENT loop at %L!$ACC LOOP cannot be a DO WHILE or DO without loop control at %L!$ACC LOOP iteration variable must be of type integer at %L!$ACC ROUTINE already applied at %C!$ACC ROUTINE with GANG, WORKER, or VECTOR clause is not permitted in PURE procedure at %C!$ACC at %C starts a commented line as it neither is followed by a space nor is a continuation line!$OMP ATOMIC CAPTURE capture statement must read from a scalar variable of intrinsic type at %L!$OMP ATOMIC CAPTURE capture statement must set a scalar variable of intrinsic type at %L!$OMP ATOMIC CAPTURE capture statement reads from different variable than update statement writes into at %L!$OMP ATOMIC CAPTURE update statement must set a scalar variable of intrinsic type at %L!$OMP ATOMIC READ at %L incompatible with ACQ_REL or RELEASE clauses!$OMP ATOMIC READ statement must read from a scalar variable of intrinsic type at %L!$OMP ATOMIC UPDATE at %L incompatible with ACQ_REL or ACQUIRE clauses!$OMP ATOMIC WRITE at %L incompatible with ACQ_REL or ACQUIRE clauses!$OMP ATOMIC assignment intrinsic IAND, IOR or IEOR must have two arguments at %L!$OMP ATOMIC assignment intrinsic must be MIN, MAX, IAND, IOR or IEOR at %L!$OMP ATOMIC assignment must be var = var op expr or var = expr op var at %L!$OMP ATOMIC assignment must have an operator or intrinsic on right hand side at %L!$OMP ATOMIC assignment operator must be binary +, *, -, /, .AND., .OR., .EQV. or .NEQV. at %L!$OMP ATOMIC intrinsic arguments except one must not reference %qs at %L!$OMP ATOMIC intrinsic arguments must be scalar at %L!$OMP ATOMIC statement must set a scalar variable of intrinsic type at %L!$OMP ATOMIC var = var op expr not mathematically equivalent to var = var op (expr) at %L!$OMP ATOMIC with ALLOCATABLE variable at %L!$OMP DECLARE REDUCTION %s not found at %L!$OMP DECLARE REDUCTION %s not found for type %s at %L!$OMP DECLARE SIMD should refer to containing procedure %qs at %L!$OMP DECLARE TARGET variable %qs at %L isn't SAVEd!$OMP REQUIRES at %C must appear in the specification part of a program unit!$OMP REQUIRES clause %<atomic_default_mem_order(%s)%> specified at %L overrides a previous %<atomic_default_mem_order(%s)%> (which might be through using a module)!$OMP REQUIRES clause %<atomic_default_mem_order(%s)%> specified via module %qs use at %L but same clause is not specified for the program unit!$OMP REQUIRES clause %<atomic_default_mem_order(%s)%> specified via module %qs use at %L overrides a previous %<atomic_default_mem_order(%s)%> (which might be through using a module)!$OMP REQUIRES clause %qs specified at %L comes after using a device construct/routine!$OMP REQUIRES clause %qs specified via module %qs use at %L but same clause is not specified for the program unit!$OMP REQUIRES clause %qs specified via module %qs use at %L comes after using a device construct/routine!$OMP at %C starts a commented line as it neither is followed by a space nor is a continuation line"%.*s""::" was expected after module nature at %C but was not found"USE :: module" at %C# %s %.2f %.2f
#include "..." search starts here:
#include <...> search starts here:
#pragma GCC memregs must precede any function decls#pragma GCC memregs takes a number [0..16]#pragma GHS endXXX does not match previous startXXX#pragma GHS endXXXX found without previous startXXX$ descriptor at %L$ should be the last specifier in format at %L%#qT declared here%#qT defined here%%:canon_for_mlib takes 1 or more pairs of parameters%%:target_mode_check takes an even number of parameters%%LOC() as an rvalue at %C%%d, %%e, %%f, %%g operand modifiers are for memory references or constant values only%+qD causes a section type conflict%+qD causes a section type conflict with %qD%+qD declared %qE after being used%+qD declared %qs after being used%+qD declared weak after being used%+qD without %<retain%> attribute and %qD with %<retain%> attribute are placed in a section with the same name%<!%> not valid in GIMPLE%<#pragma %s%> may only be used in compound statements%<#pragma GCC aarch64%> requires a string parameter%<#pragma GCC ivdep%> must be inside a function%<#pragma GCC optimize (string [,string]...)%> does not have a final %<)%>%<#pragma GCC optimize%> is not a string or number%<#pragma GCC optimize%> is not allowed inside functions%<#pragma GCC optimize%> string is badly formed%<#pragma GCC option%> is not a string%<#pragma GCC option%> is not allowed inside functions%<#pragma GCC pch_preprocess%> must be first%<#pragma GCC pop_options%> without a corresponding %<#pragma GCC push_options%>%<#pragma GCC target (string [,string]...)%> does not have a final %<)%>%<#pragma GCC target%> is not supported for this machine%<#pragma GCC target%> string is badly formed%<#pragma GCC unroll%> must be inside a function%<#pragma GCC unroll%> requires an assignment-expression that evaluates to a non-negative integral constant less than %u%<#pragma GCC visibility push()%> must specify %<default%>, %<internal%>, %<hidden%> or %<protected%>%<#pragma GCC visibility%> must be followed by %<push%> or %<pop%>%<#pragma STDC FLOAT_CONST_DECIMAL64%> is not supported for C++%<#pragma STDC FLOAT_CONST_DECIMAL64%> is not supported on this target%<#pragma acc %s data%> has no data movement clause%<#pragma acc routine%> must be applied before definition%<#pragma acc routine%> must be applied before use%<#pragma acc routine%> must be at file scope%<#pragma acc routine%> names a set of overloads%<#pragma acc routine%> not immediately followed by a single function declaration or definition%<#pragma acc routine%> not immediately followed by function declaration or definition%<#pragma acc update%> must contain at least one %<device%> or %<host%> or %<self%> clause%<#pragma align%> must appear before the declaration of %qD, ignoring%<#pragma implementation%> for %qs appears after file is included%<#pragma message: %s%>%<#pragma omp allocate%> not yet supported%<#pragma omp atomic capture%> uses two different expressions for memory%<#pragma omp atomic capture%> uses two different variables for memory%<#pragma omp atomic read%> incompatible with %<acq_rel%> or %<release%> clauses%<#pragma omp atomic update%> incompatible with %<acq_rel%> or %<acquire%> clauses%<#pragma omp atomic update%> uses two different expressions for memory%<#pragma omp atomic update%> uses two different variables for memory%<#pragma omp atomic write%> incompatible with %<acq_rel%> or %<acquire%> clauses%<#pragma omp cancel%> must specify one of %<parallel%>, %<for%>, %<sections%> or %<taskgroup%> clauses%<#pragma omp cancellation point%> must specify one of %<parallel%>, %<for%>, %<sections%> or %<taskgroup%> clauses%<#pragma omp critical%> with %<hint%> clause requires a name, except when %<omp_sync_hint_none%> is used%<#pragma omp declare %s%> followed by %<#pragma omp declare %s%>%<#pragma omp declare %s%> must be followed by function declaration or definition%<#pragma omp declare %s%> must be followed by function declaration or definition or another %<#pragma omp declare %s%>%<#pragma omp declare %s%> not immediately followed by a function declaration or definition%<#pragma omp declare %s%> not immediately followed by a single function declaration or definition%<#pragma omp declare %s%> not immediately followed by function declaration or definition%<#pragma omp declare reduction%> combiner refers to variable %qD which is not %<omp_out%> nor %<omp_in%>%<#pragma omp declare reduction%> initializer refers to variable %qD which is not %<omp_priv%> nor %<omp_orig%>%<#pragma omp declare reduction%> not at file or block scope%<#pragma omp declare target%> without corresponding %<#pragma omp end declare target%>%<#pragma omp end declare target%> without corresponding %<#pragma omp declare target%>%<#pragma omp ordered%> with %<depend%> clause may only be used in compound statements%<#pragma omp requires%> may only be used at file or namespace scope%<#pragma omp requires%> may only be used at file scope%<#pragma omp scan%> may only be used in a loop construct with %<inscan%> %<reduction%> clause%<#pragma omp section%> may only be used in %<#pragma omp sections%> construct%<#pragma omp simd%> used with class iteration variable %qE%<#pragma omp target data%> must contain at least one %<map%>, %<use_device_ptr%> or %<use_device_addr%> clause%<#pragma omp target data%> with map-type other than %<to%>, %<from%>, %<tofrom%> or %<alloc%> on %<map%> clause%<#pragma omp target enter data%> must contain at least one %<map%> clause%<#pragma omp target enter data%> with map-type other than %<to%> or %<alloc%> on %<map%> clause%<#pragma omp target exit data%> must contain at least one %<map%> clause%<#pragma omp target exit data%> with map-type other than %<from%>, %<release%> or %<delete%> on %<map%> clause%<#pragma omp target update%> must contain at least one %<from%> or %<to%> clauses%<#pragma omp target%> with map-type other than %<to%>, %<from%>, %<tofrom%> or %<alloc%> on %<map%> clause%<#pragma pack (pop)%> encountered without matching %<#pragma pack (push)%>%<#pragma pack%> has no effect with %<-fpack-struct%> - ignored%<#pragma pack(pop, %E)%> encountered without matching %<#pragma pack(push, %E)%>%<#pragma redefine_extname%> ignored due to conflict with %<asm%> declaration%<#pragma redefine_extname%> ignored due to conflict with previous %<#pragma redefine_extname%>%<#pragma redefine_extname%> ignored due to conflict with previous rename%<#pragma scalar_storage_order%> is not supported for C++%<#pragma vtable%> no longer supported%<#pragma weak%> declaration of %q+D not allowed, ignored%<#pragma%> is not allowed here%<$%>operand number used after format without operand number%<%%%> constraint used with last operand%<%%%c%> yields only last 2 digits of year%<%%%c%> yields only last 2 digits of year in some locales%<%.*s%> directive argument is not a nul-terminated string%<%.*s%> directive output between %wu and %wu bytes causes result to exceed %<INT_MAX%>%<%.*s%> directive output between %wu and %wu bytes exceeds %<INT_MAX%>%<%.*s%> directive output between %wu and %wu bytes exceeds minimum required size of 4095%<%.*s%> directive output between %wu and %wu bytes may cause result to exceed %<INT_MAX%>%<%.*s%> directive output between %wu and %wu bytes may exceed minimum required size of 4095%<%.*s%> directive output may be truncated writing %wu byte into a region of size %wu%<%.*s%> directive output may be truncated writing %wu bytes into a region of size %wu%<%.*s%> directive output may be truncated writing %wu byte into a region of size between %wu and %wu%<%.*s%> directive output may be truncated writing %wu bytes into a region of size between %wu and %wu%<%.*s%> directive output may be truncated writing %wu or more bytes into a region of size %wu%<%.*s%> directive output may be truncated writing %wu or more bytes into a region of size between %wu and %wu%<%.*s%> directive output may be truncated writing between %wu and %wu bytes into a region of size %wu%<%.*s%> directive output may be truncated writing between %wu and %wu bytes into a region of size between %wu and %wu%<%.*s%> directive output may be truncated writing likely %wu or more bytes into a region of size %wu%<%.*s%> directive output may be truncated writing likely %wu or more bytes into a region of size between %wu and %wu%<%.*s%> directive output may be truncated writing up to %wu bytes into a region of size %wu%<%.*s%> directive output may be truncated writing up to %wu bytes into a region of size between %wu and %wu%<%.*s%> directive output of %wu bytes causes result to exceed %<INT_MAX%>%<%.*s%> directive output of %wu bytes exceeds %<INT_MAX%>%<%.*s%> directive output of %wu bytes exceeds minimum required size of 4095%<%.*s%> directive output truncated writing %wu byte into a region of size %wu%<%.*s%> directive output truncated writing %wu bytes into a region of size %wu%<%.*s%> directive output truncated writing %wu byte into a region of size between %wu and %wu%<%.*s%> directive output truncated writing %wu bytes into a region of size between %wu and %wu%<%.*s%> directive output truncated writing %wu or more bytes into a region of size %wu%<%.*s%> directive output truncated writing %wu or more bytes into a region of size between %wu and %wu%<%.*s%> directive output truncated writing between %wu and %wu bytes into a region of size %wu%<%.*s%> directive output truncated writing between %wu and %wu bytes into a region of size between %wu and %wu%<%.*s%> directive output truncated writing likely %wu or more bytes into a region of size %wu%<%.*s%> directive output truncated writing likely %wu or more bytes into a region of size between %wu and %wu%<%.*s%> directive output truncated writing up to %wu bytes into a region of size %wu%<%.*s%> directive output truncated writing up to %wu bytes into a region of size between %wu and %wu%<%.*s%> directive precision out of range%<%.*s%> directive width out of range%<%.*s%> directive writing %wu byte into a region of size %wu%<%.*s%> directive writing %wu bytes into a region of size %wu%<%.*s%> directive writing %wu byte into a region of size between %wu and %wu%<%.*s%> directive writing %wu bytes into a region of size between %wu and %wu%<%.*s%> directive writing %wu or more bytes into a region of size %wu%<%.*s%> directive writing %wu or more bytes into a region of size between %wu and %wu%<%.*s%> directive writing between %wu and %wu bytes into a region of size %wu%<%.*s%> directive writing between %wu and %wu bytes into a region of size between %wu and %wu%<%.*s%> directive writing likely %wu or more bytes into a region of size %wu%<%.*s%> directive writing likely %wu or more bytes into a region of size between %wu and %wu%<%.*s%> directive writing up to %wu bytes into a region of size %wu%<%.*s%> directive writing up to %wu bytes into a region of size between %wu and %wu%<%D::%D%> is not a class member%<%D::%D%> is not a member of %qT%<%E (%E)%> attribute ignored on functions declared %qs%<%E (%E)%> attribute ignored with deallocation functions declared %qs%<%E::%E%> has not been declared%<%E::%E%> is not a class or namespace%<%E::%E%> is not a class, namespace, or enumeration%<%E::%E%> is not a type%<%E::%E%> scoped attribute directive ignored%<%T%s%D%> names destructor%<%T::%D%> names constructor in %qT%<%T::%D%> names the constructor, not the type%<%T::%E%> has not been declared%<%T::%E%> is not a type%<%T::%E%> names the constructor, not the type%<%c%> is not a valid character in an identifier%<%c%> is not a valid first character for an identifier%<%c%E%> not found in protocol(s)%<%s %E%> declared inside parameter list will not be visible outside of this definition or declaration%<%s %s%> construct not closely nested inside of %qs%<%s + %s%> at %L must be less than or equal to BIT_SIZE(%qs)%<%s taskgroup%> construct not closely nested inside of %<taskgroup%> region%<%s%> must be by itself for %<-mharden-sls=%>%<%s=%s%> and %<%s-%s%> are incompatible%<&%> constraint used with no register class%<&%> not allowed by itself in line %d%<&%> should come before %<...%>%<&&%> not valid in GIMPLE%<)%> expected at %C%<*%> in boolean context, suggest %<&&%> instead%<*this%> capture only available with %<-std=c++17%> or %<-std=gnu++17%>%<-%s%> conflicts with the other architecture options, which specify a %s processor%<--help%> argument %q.*s is ambiguous, please be more specific%<-I-%> specified twice%<-MG%> may only be used with %<-M%> or %<-MM%>%<-W%serror=%s%>: no option %<-%s%>%<-W%serror=%s%>: no option %<-%s%>; did you mean %<-%s%>?%<-Wabi%> warns about differences from the most up-to-date ABI, which is also used by default%<-Wabi%> won%'t warn about anything%<-Wabi=1%> is not supported, using =2%<-Werror=%> argument %qs is not valid for %s%<-Werror=%s%>: %<-%s%> is not an option that controls warnings%<-Wformat-contains-nul%> ignored without %<-Wformat%>%<-Wformat-extra-args%> ignored without %<-Wformat%>%<-Wformat-nonliteral%> ignored without %<-Wformat%>%<-Wformat-security%> ignored without %<-Wformat%>%<-Wformat-y2k%> ignored without %<-Wformat%>%<-Wformat-zero-length%> ignored without %<-Wformat%>%<-Wmisleading-indentation%> is disabled from this point onwards, since column-tracking was disabled due to the size of the code/headers%<-f%s%> and %<%s=%s%> are incompatible%<-f%s%> is not supported with CONST16 instructions%<-f%s%> not supported: ignored%<-f%sleading-underscore%> not supported on this target machine%<-fPIC%> and %<-fpic%> are not supported on this target%<-fPIC%> is not supported%<-fPIC%>/%<-fpic%> not supported for this target%<-fPIE%> is not supported%<-fabi-compat-version=1%> is not supported, using =2%<-fabi-version=1%> is no longer supported%<-fabi-version=12%> (GCC 8.1) accidentally changes the calling convention for %qT%<-fabi-version=13%> (GCC 8.2) fixes the calling convention for %qT, which was accidentally changed in 8.1%<-falign-%s%> is not between 0 and %d%<-falign-labels=%d%> is not supported%<-falign-loops=%d%> is not supported%<-faligned-new=%d%> is not a power of two%<-fasan-shadow-offset%> should only be used with %<-fsanitize=kernel-address%>%<-fassociative-math%> disabled; other options take precedence%<-fcall-saved-REG%> is not supported for out registers%<-fcf-protection%> is not compatible with this target%<-fcf-protection=branch%> is not supported for this target%<-fcf-protection=full%> is not supported for this target%<-fcf-protection=return%> is not supported for this target%<-fd-lines-as-code%> has no effect in free form%<-fd-lines-as-comments%> has no effect in free form%<-fdata-sections%> not supported for this target%<-fdbg-cnt=%s:%d-%d%> has smaller upper limit than the lower%<-fdirectives-only%> is incompatible with %<-Wunused-macros%>%<-fdirectives-only%> is incompatible with %<-traditional%>%<-femit-struct-debug-detailed=dir:...%> must allow at least as much as %<-femit-struct-debug-detailed=ind:...%>%<-fexcess-precision=standard%> for Ada%<-fexcess-precision=standard%> for C++%<-fexcess-precision=standard%> for Fortran%<-ffunction-sections%> not supported for this target%<-fhandle-exceptions%> has been renamed %<-fexceptions%> (and is now on by default)%<-fipa-modref%> is incompatible with %<-flive-patching=inline-only-static|inline-clone%>%<-flinker-output=rel%> and %<-fltrans%> are mutually exclusive%<-fno-fat-lto-objects%> are supported only with linker plugin%<-fno-gnu89-inline%> is only supported in GNU99 or C99 mode%<-fobjc-abi-version%> %d is not supported for 32 bit targets with %<-fnext-runtime%>%<-fobjc-abi-version%> 2 must be used for 64 bit targets with %<-fnext-runtime%>%<-fobjc-exceptions%> is required to enable Objective-C exception syntax%<-fobjc-gc%> is ignored for %<-fgnu-runtime%>%<-fobjc-sjlj-exceptions%> is ignored for %<-fgnu-runtime%>%<-fobjc-sjlj-exceptions%> is ignored for %<-fnext-runtime%> when %<-fobjc-abi-version%> greater than 1%<-fobjc-sjlj-exceptions%> is the only supported exceptions system for %<-fnext-runtime%> with %<-fobjc-abi-version%> argument less than 2%<-foffload-abi%> option can be specified only for offload compiler%<-fopenacc-dim%> operand is malformed at %qs%<-fpic%> and %<-fPIC%> not supported without %<-mdsbt%> on this target%<-fpic%> and %<-mapcs-reent%> are incompatible%<-fpic%> is not supported%<-fpie%> is not supported%<-fprefetch-loop-arrays%> is not supported with %<-Os%>%<-fprefetch-loop-arrays%> not supported for this target%<-fprefetch-loop-arrays%> not supported for this target (try %<-march%> switches)%<-frecord-gcc-switches%> is not supported by the current target%<-freorder-blocks-and-partition%> does not support unwind info on this architecture%<-freorder-blocks-and-partition%> does not work on this architecture%<-freorder-blocks-and-partition%> does not work with exceptions on this architecture%<-freorder-blocks-and-partition%> not supported on this architecture%<-fsanitize-address-use-after-scope%> requires %<-fstack-reuse=none%> option%<-fsanitize-recover=%s%> is not supported%<-fsanitize=%s%> is incompatible with %<-fsanitize=%s%>%<-fsanitize=address%> and %<-fsanitize=kernel-address%> are not supported for this target%<-fsanitize=address%> not supported for this target%<-fsanitize=all%> option is not valid%<-fsanitize=kernel-address%> with stack protection is not supported without %<-fasan-shadow-offset=%> for this target%<-fsanitize=pointer-compare%> must be combined with %<-fsanitize=address%> or %<-fsanitize=kernel-address%>%<-fsanitize=pointer-subtract%> must be combined with %<-fsanitize=address%> or %<-fsanitize=kernel-address%>%<-fsplit-stack%> currently only supported on GNU/Linux%<-fsplit-stack%> currently only supported on PowerPC64 GNU/Linux with glibc-2.18 or later%<-fsplit-stack%> does not support 2 register parameters for a nested function%<-fsplit-stack%> does not support 3 register parameters%<-fsplit-stack%> does not support fastcall with nested function%<-fsplit-stack%> is not supported by this compiler configuration%<-fsplit-stack%> requires assembler support for CFI directives%<-fstack-check=%> and %<-fstack-clash_protection%> are mutually exclusive; disabling %<-fstack-check=%>%<-fstack-check=specific%> for Thumb-1%<-fstack-check=specific%> not implemented for MIPS16%<-fstack-clash-protection%> is not supported on targets where the stack grows from lower to higher addresses%<-fstack-limit-%> options are ignored with %<-mfdpic%>; use %<-mstack-check-l1%>%<-fstack-limit-%> options are not supported on this cpu%<-fstack-protector%> not supported for this target%<-fuse-cxa-atexit%> is not supported for msp430-elf%<-fuse-linker-plugin%>, but %s not found%<-fwpa%> and %<-fltrans%> are mutually exclusive%<-g%> is only supported when using GAS on this processor%<-g%> option disabled%<-g%> with %<-mno-apcs-frame%> may not give sensible debugging%<-gdwarf%s%> is ambiguous; use %<-gdwarf-%s%> for DWARF version or %<-gdwarf%> %<-g%s%> for debug level%<-gdwarf-6%> is output as version 5 with incompatibilities%<-ginline-points%> is forced disabled without %<-gstatement-frontiers%>%<-ginternal-reset-location-views%> is forced disabled without %<-gvariable-location-views%>%<-gnat%> misspelled as %<-gant%>%<-gsplit-dwarf%> is not supported on this platform, ignored%<-gsplit-dwarf%> is not supported with LTO, disabling%<-iplugindir%> <dir> option not passed from the gcc driver%<-m%s%> not supported in this configuration%<-m64%> requires a PowerPC64 cpu%<-mabi=%s%> not supported with %<-fsanitize=address%>%<-mabi=%s%> not supported with %<-fsanitize=kernel-address%>%<-mabi=%s%> not supported with %<-fsanitize=thread%>%<-mabi=2fp+%> option only support when FPU available, must be enable %<-mext-fpu-sp%> or %<-mext-fpu-dp%>%<-mabi=ms%> not supported with X32 ABI%<-maix64%> required: 64-bit computation with 32-bit addressing not yet supported%<-maix64%> requires PowerPC64 architecture remain enabled%<-malign-functions%> is obsolete, use %<-falign-functions%>%<-malign-functions=%d%> is not between 0 and %d%<-malign-jumps%> is obsolete, use %<-falign-jumps%>%<-malign-jumps=%d%> is not between 0 and %d%<-malign-loops%> is obsolete, use %<-falign-loops%>%<-malign-loops=%d%> is not between 0 and %d%<-mapcs-stack-check%> incompatible with %<-mno-apcs-frame%>%<-march=%s%> is not compatible with the selected ABI%<-march=%s%> requires %<-mfp32%>%<-march=%s%>: %s must separate with _%<-march=%s%>: Expect number after %<%dp%>.%<-march=%s%>: Extension `%s' appear more than one time.%<-march=%s%>: ISA string is not in canonical order. %<%c%>%<-march=%s%>: ISA string must begin with rv32 or rv64%<-march=%s%>: first ISA subset must be %<e%>, %<i%> or %<g%>%<-march=%s%>: name of %s must be more than 1 letter%<-march=%s%>: rv%de is not a valid base ISA%<-march=%s%>: unexpected ISA string at end: %qs%<-march=%s%>: unsupported ISA subset %<%c%>%<-masm=intel%> not supported in this configuration%<-max-stackframe=%d%> is not usable, not between 0 and %d%<-mbackchain%> %<-mpacked-stack%> %<-mhard-float%> are not supported in combination%<-mbranch-cost=%d%> is not between 0 and 5%<-mcall-aixdesc%> incompatible with %<-mabi=elfv2%>%<-mcall-ms2sysv-xlogues%> is not compatible with %s%<-mcall-ms2sysv-xlogues%> isn%'t currently supported with SEH%<-mcmodel incompatible with other toc options%>%<-mcmodel%> incompatible with other toc options%<-mcmodel=%> is not supported in 32-bit mode%<-mcode-region=either%> requires the large memory model (%<-mlarge%>)%<-mcode-region=upper%> requires the large memory model (%<-mlarge%>)%<-mcorea%> and %<-mcoreb%> can%'t be used together%<-mcorea%> should be used with %<-mmulticore%>%<-mcoreb%> should be used with %<-mmulticore%>%<-mcpu=%> is deprecated; use %<-mtune=%> or %<-march=%> instead%<-mcpu=%s%> conflicts with %<-march=%s%>%<-mcpu=%s%> has invalid silicon revision%<-mcpu=%s%> is not valid%<-mcpu=%s%>: unknown CPU%<-mdata-region=either%> requires the large memory model (%<-mlarge%>)%<-mdata-region=upper%> requires the large memory model (%<-mlarge%>)%<-mdiv%> requires %<-march%> to subsume the %<M%> extension%<-mdouble-float%> ignored without %<-mhard-float%>%<-mdynamic-no-pic%> overrides %<-fpic%>, %<-fPIC%>, %<-fpie%> or %<-fPIE%>%<-mes0%> can only be used with C%<-mexr%> is used without %<-ms%>%<-mexr%> is used without %<-ms%> or %<-msx%>%<-mfdivdu%> ignored without %<-mhard-float%>%<-mfdpic%> is not supported, please use a bfin-linux-uclibc target%<-mfentry%> is supported only for 64-bit CPUs%<-mfentry%> isn%'t supported for 32-bit in combination with %<-fpic%>%<-mfloat-abi=hard%> and VFP%<-mfloat-abi=hard%>: selected architecture lacks an FPU%<-mfpxx%> can only be used with the o32 ABI%<-mfpxx%> requires %<-mlra%>%<-mfunction-return%> and %<-fcf-protection%> are not compatible%<-mfunction-return=%s%> and %<-mcmodel=large%> are not compatible%<-mfused-madd%> is deprecated; use %<-ffp-contract=%> instead%<-mgp32%> and %<-mfp64%> can only be combined if the target supports the mfhc1 and mthc1 instructions%<-mgp32%> and %<-mfp64%> can only be combined when using the o32 ABI%<-mgp32%> used with a 64-bit ABI%<-mgp64%> used with a 32-bit ABI%<-mgp64%> used with a 32-bit processor%<-mgpopt%> not supported with PIC%<-mgprel-sec=%> argument is not a valid regular expression%<-mgprel-sec=%> not supported with PIC%<-mhard-dfp%> can%'t be used in conjunction with %<-msoft-float%>%<-mhard-float%> is not supported by the selected CPU%<-mincoming-stack-boundary=%d%> is not between %d and 12%<-mindirect-branch%> and %<-fcf-protection%> are not compatible%<-mindirect-branch=%s%> and %<-mcmodel=large%> are not compatible%<-mintel-syntax%> and %<-mno-intel-syntax%> are deprecated; use %<-masm=intel%> and %<-masm=att%> instead%<-mips3d%> requires %<-mpaired-single%>%<-misr-secure=%d%> argument not in between 0 and 3%<-misr-vector-size=%d%> argument must be 4 or 16%<-mlarge%> requires a 430X-compatible %<-mmcu=%>%<-mlong-double-64%> not allowed with %<-m64%>%<-mloongson-ext2%> must be used with %<-mloongson-ext%>%<-mloongson-mmi%> must be used with %<-mhard-float%>%<-mmsa%> must be used with %<-mfp64%> and %<-mhard-float%>%<-mmul=g13%> cannot be used with %<-mcpu=g10%>%<-mmul=g13%> cannot be used with %<-mcpu=g14%>%<-mmul=g14%> cannot be used with %<-mcpu=g10%>%<-mmul=g14%> cannot be used with %<-mcpu=g13%>%<-mmulticore%> can only be used with BF561%<-mn%> is not supported for linux targets%<-mno-%s%> turns off %<-m%s%>%<-mno-allow-string-insns%> forbids the generation of the RMPA instruction%<-mno-altivec%> disables vsx%<-mno-dpfp-lrsr%> supported only with %<-mdpfp%>%<-mno-exr%> is valid only with %<-ms%> or %<-msx%> - option ignored%<-mno-fentry%> isn%'t compatible with SEH%<-mno-gpopt%> needs %<-mexplicit-relocs%>%<-mno-mpy%> supported only for ARC700 or ARCv2%<-mno-pic-data-is-text-relative%> cannot be used without %<-fpic%>/%<-fPIC%>%<-mnop-mcount%> is not compatible with this target%<-mnop-mcount%> is not implemented for %<-fPIC%>%<-mpcrel%> %<-fPIC%> is not currently supported on selected cpu%<-mpic-register=%> is useless without %<-fpic%>%<-mpic-symbol-stubs%> is not required for 64-bit code (ignored)%<-mpreferred-stack-boundary%> is not supported for this target%<-mpreferred-stack-boundary=%d%> is not between %d and %d%<-mpreferred-stack-boundary=%d%> must be between %d and %d%<-mquad-memory%> is not available in little endian mode%<-mquad-memory%> requires 64-bit mode%<-mquad-memory-atomic%> requires 64-bit mode%<-mr0rel-sec=%> argument is not a valid regular expression%<-mr0rel-sec=%> not supported with PIC%<-mregparm%> is ignored for Intel MCU psABI%<-mregparm%> is ignored in 64-bit mode%<-mregparm=%d%> is not between 0 and %d%<-mrelax%> is only supported for RTP PIC%<-mriscv-attribute%> RISC-V ELF attribute requires GNU as 2.32 [%<-mriscv-attribute%>]%<-mrtd%> is ignored in 64bit mode%<-ms2600%> is used without %<-ms%>%<-mshared-library-id=%> specified without %<-mid-shared-library%>%<-mshared-library-id=%s%> is not between 0 and %d%<-msmart%> is incompatible with %<-mhigh-registers%>%<-mspfp_fast%> not available on ARC600 or ARC601%<-msse5%> was removed%<-msseregparm%> used without SSE enabled%<-mstack-guard%> implies use of %<-mstack-size%>%<-mstringop-strategy=rep_8byte%> not supported for 32-bit code%<-mtune=%> expects mn10300, am33, am33-2, or am34%<-mtune=x86-64%> is deprecated; use %<-mtune=k8%> or %<-mtune=generic%> instead as appropriate%<-muintr%> not supported for 32-bit code%<-mvrsave=no%> is deprecated; use %<-mno-vrsave%> instead%<-mvrsave=yes%> is deprecated; use %<-mvrsave%> instead%<-mvsx%> and %<-mno-altivec%> are incompatible%<-mvsx%> needs indexed addressing%<-mvsx%> requires hardware floating point%<-mxl-multiply-high%> can be used only with %<-mcpu=v6.00.a%> or greater%<-mxl-multiply-high%> requires %<-mno-xl-soft-mul%>%<-mxl-reorder%> can be used only with %<-mcpu=v8.30.a%> or greater%<-mxl-reorder%> requires %<-mxl-pattern-compare%> for %<-mcpu=v8.30.a%>%<-pipe%> ignored because %<-save-temps%> specified%<-pipe%> not supported%<-static-libgfortran%> is not supported in this configuration%<-x %s%> after last input file has no effect%<.%s%> designator used multiple times in the same initializer list%<...%> handler must be the last handler for its try block%<...%> not allowed in designated initializer list%<::%> needed in PROCEDURE binding with explicit target at %C%<::%D%> has not been declared%<::%D%> has not been declared; did you mean %qs?%<::%E%> has not been declared%<::%E%> is not a class or namespace%<::%E%> is not a class, namespace, or enumeration%<::%E%> is not a type%<::main%> must return %<int%>%<<:%> is an alternate spelling for %<[%>. Insert whitespace between %<<%> and %<::%>%<<::%> cannot begin a template-argument list%<<<%> in boolean context, did you mean %<<%>?%<=> target%> is invalid for DEFERRED binding at %C%<>>%> operator is treated as two right angle brackets in C++11%<>>%> should be %<> >%> within a nested template argument list%<?:%> using integer constants in boolean context%<?:%> using integer constants in boolean context, the expression will always evaluate to %<true%>%<@catch%> parameter cannot be protocol-qualified%<@catch%> parameter is not a known Objective-C class type%<@dynamic%> is not available in Objective-C 1.0%<@dynamic%> not in @implementation context%<@dynamic%> requires the @interface of the class to be available%<@encode%> must specify a type as an argument%<@end%> missing in implementation context%<@end%> must appear in an @implementation context%<@interface%> of class %qE not found%<@optional%> is allowed in @protocol context only%<@optional%> is not available in Objective-C 1.0%<@package%> is not available in Objective-C 1.0%<@package%> presently has the same effect as %<@public%>%<@property%> is not available in Objective-C 1.0%<@required%> is allowed in @protocol context only%<@required%> is not available in Objective-C 1.0%<@synchronized%> argument is not an object%<@synthesize%> cannot be used in categories%<@synthesize%> is not available in Objective-C 1.0%<@synthesize%> not in @implementation context%<@synthesize%> requires the @interface of the class to be available%<@throw%> (rethrow) used outside of a %<@catch%> block%<@throw%> argument is not an object%<@try%> without %<@catch%> or %<@finally%>%<CPU_TYPE%> and %<MPY_TYPE%> column headings are missing from %<devices.csv%>%<CPU_TYPE%> column heading is missing from %<devices.csv%>%<CTABLE_ENTRY%> base address is not a multiple of 256%<CTABLE_ENTRY%> index %%<DETACH%> clause at %L must not be used together with %<MERGEABLE%> clause%<G0%> in format at %L%<GCC ivdep%> directive not at the start of a loop at %C%<GCC novector%> directive not at the start of a loop at %C%<GCC unroll%> directive not at the start of a loop at %C%<GCC unroll%> directive requires a non-negative integral constant less than or equal to %u at %C%<GCC vector%> directive not at the start of a loop at %C%<HLE_ACQUIRE%> not used with %<ACQUIRE%> or stronger memory model%<HLE_RELEASE%> not used with %<RELEASE%> or stronger memory model%<LEXER_DEBUGGING_ENABLED_P%> is not set to true%<MOLD%> argument of %<TRANSFER%> intrinsic at %L is an array and shall not have storage size 0 when %<SOURCE%> argument has size greater than 0%<MOLD%> argument of %<TRANSFER%> intrinsic at %L must not be %s%<MOLD%> argument of %<TRANSFER%> intrinsic at %L must not be a %s%<MPY_TYPE%> column heading is missing from %<devices.csv%>%<SOURCE%> argument of %<TRANSFER%> intrinsic at %L must not be a %s%<TREE_PURPOSE%> is non-NULL in %<TYPE_ARG_TYPES%> list%<TYPE_ARRAY_MAX_SIZE%> not %<INTEGER_CST%>%<TYPE_BINFO%> is not %<TREE_BINFO%>%<TYPE_BINFO%> type is not %<TYPE_MAIN_VARIANT%>%<TYPE_CACHED_VALUES%> is not %<TREE_VEC%>%<TYPE_CACHED_VALUES_P%> is %i while %<TYPE_CACHED_VALUES%> is %p%<TYPE_CACHED_VALUES_P%> is set while it should not be%<TYPE_CANONICAL%> has different %<TYPE_CANONICAL%>%<TYPE_CANONICAL%> is not compatible%<TYPE_CANONICAL%> of main variant is not main variant%<TYPE_FIELDS%> defined in incomplete type%<TYPE_LANG_SLOT_1 (binfo)%> field is non-NULL%<TYPE_MAIN_VARIANT%> has different %<TYPE_MAIN_VARIANT%>%<TYPE_MAX_VALUE_RAW%> non-NULL%<TYPE_METHOD_BASETYPE%> is not main variant%<TYPE_METHOD_BASETYPE%> is not record nor union%<TYPE_MODE%> of %<TYPE_CANONICAL%> is not compatible%<TYPE_NEXT_PTR_TO%> is not %<POINTER_TYPE%>%<TYPE_NEXT_REF_TO%> is not %<REFERENCE_TYPE%>%<TYPE_OFFSET_BASETYPE%> is not record nor union%<TYPE_VALUES_RAW%> field is non-NULL%<TYPE_VFIELD%> is not %<FIELD_DECL%> nor %<TREE_LIST%>%<V%> modifier on non-integer register%<[%E] =%> used in a GNU-style designated initializer for class %qT%<[*]%> not allowed in other than function prototype scope%<[*]%> not in a declaration%<[super ...]%> must appear in a method context%<_Alignas%> specifiers cannot reduce alignment of %qE%<_Alignas%> specifiers cannot reduce alignment of compound literal%<_Alignas%> specifiers cannot reduce alignment of unnamed field%<_Atomic%> %qD in %<aligned%> clause%<_Atomic%> %qD in %<firstprivate%> clause on %<target%> construct%<_Atomic%> %qD in %<linear%> clause%<_Atomic%> %qD in %qs clause%<_Atomic%> %qD in implicit %<firstprivate%> clause on %<target%> construct%<_Atomic%> %qD in implicit %<map%> clause%<_Atomic%> %qE in %<reduction%> clause%<_Atomic%> %qE in %qs clause%<_Atomic%> applied to a qualified type%<_Atomic%> expression in %<#pragma omp atomic%>%<_Atomic%> in Objective-C%<_Atomic%> iteration variable %qE%<_Atomic%> qualified type in %<#pragma omp declare reduction%>%<_Atomic%>-qualified array type%<_Atomic%>-qualified function type%<_Atomic%>-qualified parameter type %qT of %q+D%<_Atomic%>-qualified return type of %qD%<_Float%d%s%> is not supported on this target%<_Generic%> association has function type%<_Generic%> association has incomplete type%<_Generic%> association has variable length type%<_Generic%> selector matches multiple associations%<_Generic%> selector of type %qT is not compatible with any association%<_Generic%> specifies two compatible types%<_Noreturn%> in empty declaration%<_Sat%> is used without %<_Fract%> or %<_Accum%>%<__BELOW100__%> attribute only applies to variables%<__GIMPLE%> only valid with %<-fgimple%>%<__RTL%> function cannot be compiled with %<-flto%>%<__alignof%> applied to a bit-field%<__auto_type%> followed by %<[[]]%> attributes%<__auto_type%> in empty declaration%<__auto_type%> may only be used with a single declarator%<__auto_type%> requires a plain identifier as declarator%<__auto_type%> requires an initialized data declaration%<__auto_type%> used with a bit-field initializer%<__builtin_arc_aligned%> with non-constant alignment%<__builtin_bit_cast%> destination type %qT is an array type%<__builtin_bit_cast%> destination type %qT is not trivially copyable%<__builtin_bit_cast%> source size %qE not equal to destination type size %qE%<__builtin_bit_cast%> source type %qT is not trivially copyable%<__builtin_complex%> operand not of real binary floating-point type%<__builtin_complex%> operands of different types%<__builtin_convertvector%> first argument must be an integer or floating vector%<__builtin_convertvector%> number of elements of the first argument vector and the second argument vector type should be the same%<__builtin_convertvector%> second argument must be an integer or floating vector type%<__builtin_eh_return%> not supported on this target%<__builtin_has_attribute%> with dependent argument not supported yet%<__builtin_longjmp%> second argument must be 1%<__builtin_mffsl%> not supported with %<-msoft-float%>%<__builtin_mtfsb0%> and %<__builtin_mtfsb1%> not supported with %<-msoft-float%>%<__builtin_next_arg%> called without an argument%<__builtin_rx_%s%> takes %<C%>, %<Z%>, %<S%>, %<O%>, %<I%>, or %<U%>%<__builtin_saveregs%> not supported by this subtarget%<__builtin_saveregs%> not supported by this target%<__builtin_set_fpscr_drn%> is not supported in 32-bit mode%<__builtin_set_fpscr_drn%> not supported with %<-msoft-float%>%<__builtin_set_fpscr_rn%> not supported with %<-msoft-float%>%<__builtin_set_thread_pointer%> is not supported on this target%<__builtin_shuffle%> argument vector(s) inner type must have the same size as inner type of the mask%<__builtin_shuffle%> argument vectors must be of the same type%<__builtin_shuffle%> arguments must be vectors%<__builtin_shuffle%> last argument must be an integer vector%<__builtin_shuffle%> number of elements of the argument vector(s) and the mask vector should be the same%<__builtin_thread_pointer%> is not supported on this target%<__builtin_unreachable%> or %<__builtin_trap%> call with arguments%<__delay_cycles%> is limited to 32-bit loop counts%<__delay_cycles%> only takes constant arguments%<__delay_cycles%> only takes non-negative cycle counts%<__gcc_host_wide_int__%> is not defined as %<long%> or %<long long%>%<__gcc_host_wide_int__%> is not defined as a type%<__int%d%> is not supported by this target%<__int%d%> is not supported on this target%<__label__%> declarations are only allowed in function scopes%<__label__%> not at the beginning of a block%<__restrict%> can only be specified for objects and functions%<__thread%> before %<extern%>%<__thread%> before %<static%>%<__thread%> before %qD%<__thread%> can only be specified for objects and functions%<__transaction_atomic%> without transactional memory support enabled%<__transaction_cancel%> not within %<__transaction_atomic%>%<__transaction_cancel%> within a %<__transaction_relaxed%>%<__transaction_cancel%> without transactional memory support enabled%<__transaction_relaxed%> without transactional memory support enabled%<a%d%> argument of %qs intrinsic at %L must be %s(%d)%<a1%> argument of %qs intrinsic at %L must be INTEGER, REAL or CHARACTER%<acc update%> must contain at least one %<device%> or %<host%> or %<self%> clause at %L%<alias%> attribute ignored because function is defined%<alignas%> argument has non-integral type %qT%<aligned%> clause alignment expression must be integral%<aligned%> clause alignment expression must be positive constant integer expression%<allocate%> clause allocator expression has type %qT rather than %<omp_allocator_handle_t%>%<allocator%> clause allocator expression has type %qT rather than %<omp_allocator_handle_t%>%<always_inline%> function might not be inlinable%<amdgpu_hsa_kernel%> attribute requires string constant arguments%<and%> of mutually exclusive equal-tests is always 0%<asm%> clobber conflict with input operand%<asm%> clobber conflict with output operand%<asm%> declaration ignored due to conflict with previous rename%<asm%> in %<constexpr%> function only available with %<-std=c++20%> or %<-std=gnu++20%>%<asm%> not allowed in %<transaction_safe%> function%<asm%> not allowed in atomic transaction%<asm%> operand %d probably does not match constraints%<asm%> operand constraint incompatible with operand size%<asm%> operand has impossible constraints%<asm%> operand requires impossible reload%<asm%> qualifier %qT ignored outside of function body%<asm%> qualifier outside of function body%<asm%> specifier for variable %qE conflicts with %<asm%> clobber list%<asm%> specifiers are not permitted on non-static data members%<assign%> can be unsafe for Objective-C objects; please state explicitly if you need it%<assign%> property %qs is using bit-field instance variable %qs%<async%> expression must be integral%<atexit%> failed%<atomic%> property %qs is using bit-field instance variable %qs%<atomic_cancel%>%<atomic_default_mem_order%> clause used lexically after first %<atomic%> construct without memory order clause%<auto%> can only be specified for variables or function declarations%<auto%> changes meaning in C++11; please remove it%<auto%> conflicts with other OpenACC loop specifiers%<auto%> in file-scope empty declaration%<auto%> not allowed in alias declaration%<auto%> parameter not permitted in this context%<bank_switch%> has no effect on non-interrupt functions%<bind%> clause not specified on a %<loop%> construct not nested inside another OpenMP construct%<bind(parallel)%> on a %<loop%> construct nested inside %<simd%> construct%<bind(teams)%> on a %<loop%> region not strictly nested inside of a %<teams%> region%<builtin_return_address%> contains only 2 bytes of address%<cancel for%> inside %<nowait%> for construct%<cancel for%> inside %<ordered%> for construct%<cancel sections%> inside %<nowait%> sections construct%<catch%> is not supported%<concept%> only available with %<-std=c++20%> or %<-fconcepts%>%<const%> %qs cannot be declared %<mutable%>%<const%> and %<volatile%> function specifiers on %qD invalid in field declaration%<const%> and %<volatile%> function specifiers on %qD invalid in parameter declaration%<const%> and %<volatile%> function specifiers on %qD invalid in type declaration%<const%> and %<volatile%> function specifiers on %qD invalid in variable declaration%<const%> can only be specified for objects and functions%<const%> qualified %<depobj%> expression%<const%> qualified %qE may appear only in %<shared%> or %<firstprivate%> clauses%<const%> qualified %qE without %<mutable%> member may appear only in %<shared%> or %<firstprivate%> clauses%<const%>, %<volatile%> or %<__restrict%>-qualified type %qT in %<#pragma omp declare reduction%>%<consteval%> function %q+D overriding non-%<consteval%> function%<constexpr%> call flows off the end of the function%<constexpr%> constructor does not have empty body%<constexpr%> constructor for union %qT must initialize exactly one non-static data member%<constexpr%> destructors only available with %<-std=c++20%> or %<-std=gnu++20%>%<constexpr%> evaluation depth exceeds maximum of %d (use %<-fconstexpr-depth=%> to increase the maximum)%<constexpr%> evaluation operation count exceeds limit of %wd (use %<-fconstexpr-ops-limit=%> to increase the limit)%<constexpr%> lambda only available with %<-std=c++17%> or %<-std=gnu++17%>%<constexpr%> loop iteration count exceeds limit of %d (use %<-fconstexpr-loop-limit=%> to increase the limit)%<constexpr%> needed for in-class initialization of static data member %q#D of non-integral type%<constexpr%> static data member %qD must have an initializer%<constexpr%> variable %qD has variably-modified type %qT%<constinit%> can only be applied to a variable with static or thread storage duration%<constinit%> on function return type is not allowed%<constinit%> variable %qD does not have a constant initializer%<critical%> region may not be nested inside a %<critical%> region with the same name%<custom-%s=%> argument should be a non-negative integer%<custom-%s=%> is not recognized as FPU instruction%<custom-%s=%> requires argument%<custom-fpu-cfg%> option does not support %<no-%>%<custom-fpu-cfg%> option requires configuration argument%<decl-specifier%> in declaration of deduction guide%<decl-specifier%> invalid in condition%<declare variant%> on constructor %qD%<declare variant%> on defaulted %qD%<declare variant%> on deleted %qD%<declare variant%> on destructor %qD%<declare variant%> on virtual %qD%<decltype%> cannot resolve address of overloaded function%<decltype%> evaluates to %qT, which is not a class or enumeration type%<decltype(auto)%> cannot be cv-qualified%<decltype(auto)%> type specifier only available with %<-std=c++14%> or %<-std=gnu++14%>%<default%> label not within a switch statement%<default%> target was not set%<delete[]%> is not a constant expression%<depend%> clause with %<depobj%> dependence type on array section%<depend%> clause with %<sink%> modifier refers to iteration never in the iteration space%<depend%> clause with %<sink%> modifier waiting for lexically later iteration%<depend%> clause with %<source%> modifier specified together with %<depend%> clauses with %<sink%> modifier on the same construct%<depend(%s)%> is only allowed in %<omp ordered%>%<depobj%> dependence type specified in %<depend%> clause on %<depobj%> construct%<depobj%> expression is not lvalue expression%<detach%> clause event handle has type %qT rather than %<omp_event_handle_t%>%<detach%> clause must not be used together with %<mergeable%> clause%<device%> id must be integral%<dim%> argument of %qs intrinsic at %L is not a valid codimension index%<dim%> argument of %qs intrinsic at %L is not a valid dimension index%<dim%> argument of %s intrinsic at %L is not a valid dimension index%<dist_schedule%> chunk size expression must be integral%<distribute%> region must be strictly nested inside %<teams%> construct%<dynamic_cast%> not permitted with %<-fno-rtti%>%<dynamic_cast<%#T>(%#D)%> can never succeed%<else%> without a previous %<if%>%<enum %E%> declared in %<for%> loop initial declaration%<explicit%> can only be specified for constructors%<explicit%> in friend declaration%<explicit%> outside class declaration%<explicit(bool)%> only available with %<-std=c++20%> or %<-std=gnu++20%>%<export%> not part of following module-directive%<extern "C"%> linkage started here%<externally_visible%> attribute have effect only on public objects%<fallthrough%> attribute at top level%<fallthrough%> attribute not followed by %<;%>%<fallthrough%> attribute specified with a parameter%<fast_interrupt%> attribute directive ignored%<flatten%> attribute is ignored on aliases%<flush%> list specified together with memory order clause%<fopen%>: %s: %m%<for%> loop initial declarations are only allowed in C99 or C11 mode%<friend%> can only be specified inside a class%<friend%> used outside of class%<gang%> num expression must be integral%<gang%> num value must be positive%<gang%> static expression must be integral%<gang%> static value must be positive%<generic%> CPU can be used only for %<-mtune=%> switch%<generic%> CPU can be used only for %<target("tune=")%> attribute%<getter%> attribute of property %qD conflicts with previous declaration%<gnu_inline%> attribute present on %q+D%<goto%> in %<constexpr%> function%<goto%> is not a constant expression%<grainsize%> expression must be integral%<grainsize%> value must be positive%<h%> applied to non-register operand%<hint%> expression must be constant integer expression%<hint%> expression must be integral%<if constexpr%> only available with %<-std=c++17%> or %<-std=gnu++17%>%<ifunc%> resolver for %qD must return %qT%<ifunc%> resolver for %qD should return %qT%<inbranch%> clause is incompatible with %<notinbranch%>%<inline%> can only be specified for functions%<inline%> in empty declaration%<inline%> is not allowed in declaration of friend template specialization %qD%<inline%> specified for friend class declaration%<inline%> specifier invalid for function %qs declared out of global scope%<inline%> specifier invalid for variable %qD declared at block scope%<inscan%> %<reduction%> clause on %qs construct%<inscan%> %<reduction%> clause on construct other than %<for%>, %<simd%>, %<for simd%>, %<parallel for%>, %<parallel for simd%>%<inscan%> %<reduction%> clause used together with %<linear%> clause for a variable other than loop iterator%<inscan%> %<reduction%> clause with array section%<inscan%> REDUCTION clause on construct other than DO, SIMD, DO SIMD, PARALLEL DO, PARALLEL DO SIMD at %L%<inscan%> and non-%<inscan%> %<reduction%> clauses on the same construct%<inscan%> and non-%<inscan%> %<reduction%> clauses on the same construct at %L%<intel%> CPU can be used only for %<-mtune=%> switch%<intel%> CPU can be used only for %<target("tune=")%> attribute%<iterator%> modifier incompatible with %qs%<iterator%> modifier may not be specified on %<depobj%> construct%<l1-cache-size%> parameter is not a power of two %d%<lang_*%> check: failed in %s, at %s:%d%<lastprivate%> clause on a %<loop%> construct refers to a variable %qD which is not the loop iterator%<linear%> clause for variable other than loop iterator specified on construct combined with %<distribute%>%<linear%> clause may not be specified together with %<ordered%> clause with a parameter%<linear%> clause step %qE is neither constant nor a parameter%<linear%> clause step expression must be integral%<linear%> clause step is a parameter %qD not specified in %<uniform%> clause%<location_t%> is not defined as a type%<locus%> is not defined as a type%<long long long%> is too long for GCC%<long%> and %<short%> specified together%<long%> switch expression not converted to %<int%> in ISO C%<lp_array%> does not match %<region_tree%>%<lp_array%> is corrupted for lp %i%<lto_obj_file_open()%> failed%<main%> declared %<_Noreturn%>%<master%> region may not be closely nested inside of work-sharing, %<loop%>, explicit %<task%> or %<taskloop%> region%<memset%> used with constant zero length parameter; this could be due to transposed parameters%<memset%> used with length equal to number of elements without multiplication by element size%<ms_hook_prologue%> attribute is not compatible with %<-mfentry%> for 32-bit%<ms_hook_prologue%> attribute is not compatible with nested function%<msp430_set_driver_var%> expects 2 arguments%<mutexinoutset%> kind in %<depend%> clause on a %<taskwait%> construct%<namespace %E%> is ambiguous%<namespace%> definition is not allowed here%<new%> of %<initializer_list%> does not extend the lifetime of the underlying array%<new%> of type %qT with extended alignment %d%<no-custom-%s%> does not accept arguments%<nogroup%> clause must not be used together with %<reduction%> clause%<nonatomic%> attribute of property %qD conflicts with previous declaration%<nonmonotonic%> schedule modifier specified together with %<ordered%> clause%<nonnull%> argument %qD compared to NULL%<noreturn%> function does return%<nowait%> clause must not be used together with %<copyprivate%>%<num_tasks%> value must be positive%<num_teams%> value must be positive%<num_threads%> value must be positive%<offsetof%> within non-standard-layout type %qT is conditionally-supported%<operator %s%>%<operator %s%> in %<%s%E%>%<operator delete%> must return type %qT%<operator delete%> takes type %qT as first parameter%<operator delete[]%> cannot be a destroying delete%<operator new%> must not return NULL unless it is declared %<throw()%> (or %<-fcheck-new%> is in effect)%<operator new%> must return type %qT%<operator new%> takes type %<size_t%> (%qT) as first parameter%<operator%s%>%<operator%s%> in %<%E %s %E%>%<operator%s%> in %<%E%s%>%<operator%s%> in %<%s%E%>%<operator=%> should return a reference to %<*this%>%<operator[]%>%<operator[]%> in %<%E[%E]%>%<or%> of unmatched not-equal tests is always 1%<order%> clause must not be used together with %<ordered%>%<ordered simd threads%> must be closely nested inside of %<%s simd%> region%<ordered%> %<simd%> must be closely nested inside %<simd%> region%<ordered%> clause parameter is less than %<collapse%>%<ordered%> clause with parameter may not be specified on %qs construct%<ordered%> clause with parameter on range-based %<for%> loop%<ordered%> construct with %<depend%> clause must be closely nested inside a loop with %<ordered%> clause with a parameter%<ordered%> construct with %<depend%> clause must be closely nested inside an %<ordered%> loop%<ordered%> region may not be closely nested inside of %<critical%>, %<ordered%>, explicit %<task%> or %<taskloop%> region%<ordered%> region must be closely nested inside a loop region with an %<ordered%> clause%<ordered%> region without %<depend%> clause may not be closely nested inside a loop region with an %<ordered%> clause with a parameter%<pch_preprocess%> pragma should only be used with %<-fpreprocessed%>%<pex_init%> failed: %m%<pragma omp requires%> requires at least one clause%<priority%> expression must be integral%<priority%> value must be non-negative%<readonly%> attribute conflicts with %<setter%> attribute%<readonly%> attribute of property %qD conflicts with previous declaration%<region_array%> does not match %<region_tree%>%<region_array%> is corrupted for region %i%<register%> in file-scope empty declaration%<register%> storage class specifier used%<reinterpret_cast%> from integer to pointer%<reinterpret_cast%> from type %qT to type %qT casts away qualifiers%<reinterpret_cast%> is not a constant expression%<reinterpret_cast<%T>(%E)%> is not a constant expression%<requires%> only available with %<-std=c++20%> or %<-fconcepts%>%<return%> with a value, in function returning void%<return%> with no value, in function returning non-void%<safelen%> clause expression must be positive constant integer expression%<scalar_storage_order%> is not supported because endianness is not uniform%<seq%> overrides other OpenACC loop specifiers%<setter%> attribute of property %qD conflicts with previous declaration%<setter%> specified here%<shape%> argument of %<reshape%> intrinsic at %L has more than %d elements%<shape%> argument of %<reshape%> intrinsic at %L must be an array of constant size%<signed%> and %<unsigned%> specified together%<simdlen%> clause expression must be positive constant integer expression%<simdlen%> clause value is bigger than %<safelen%> clause value%<sizeof%> applied to a bit-field%<sizeof%> on array function parameter %qE will return size of %qT%<sizeof...%> argument must be surrounded by parentheses%<source%> argument of %<shape%> intrinsic at %L must not be an assumed size array%<static%> %qs cannot be declared %<mutable%>%<static%> may not be used when defining (as opposed to declaring) a static data member%<static%> specifier invalid for function %qs declared out of global scope%<static_assert%> without a message only available with %<-std=c++17%> or %<-std=gnu++17%>%<static_cast%> from type %qT to type %qT casts away qualifiers%<std::%s%> is defined in header %qs; did you forget to %<#include %s%>?%<std::%s%> is only available from %s onwards%<std::source_location::__impl%> does not contain only non-static data members %<_M_file_name%>, %<_M_function_name%>, %<_M_line%> and %<_M_column%>%<std::tuple_element<%u, %T>::type%> is %<void%>%<std::tuple_size<%T>::value%> is not an integral constant expression%<strong%> using directive no longer supported%<struct %E%> declared in %<for%> loop initial declaration%<symver%> attribute argument %qs must contain one or two %<@%>%<symver%> attribute argument not a string constant%<symver%> attribute is only applicable to symbols%<symver%> attribute only applies to functions and variables%<target%> construct with nested %<teams%> construct contains directives outside of the %<teams%> construct%<target("rtd")%> is ignored in 64bit mode%<target("sseregparm")%> used without SSE enabled%<target("tune=x86-64")%> is deprecated; use %<target("tune=k8")%> or %<target("tune=generic")%> instead as appropriate%<target_clones%> attribute needs GLIBC (2.23 and newer) that exports hardware capability bits%<task%> reduction modifier on a construct with a %<nowait%> clause%<teams%> construct must be closely nested inside of %<target%> construct or not nested in any OpenMP construct%<template%> keyword not permitted in destructor name%<template%> must follow a nested-name-specifier%<this%> allowed in OpenMP only in %<declare simd%> clauses%<this%> cannot be captured by reference%<this%> is unavailable for static member functions%<this%> may not be used in this context%<this%> not allowed in %<allocate%> clause%<this%> was not captured for this lambda function%<thread_limit%> expression must be integral%<thread_limit%> value must be positive%<threadprivate%> %qD is not file, namespace or block scope variable%<threadprivate%> %qE directive not in %qT definition%<threadprivate%> %qE has incomplete type%<throw%> will always call %<terminate%>%<tile%> argument needs integral type%<tile%> argument needs positive integral constant%<transaction_may_cancel_outer%> function call not within outer transaction or %<transaction_may_cancel_outer%>%<transaction_safe_dynamic%> may only be specified for a virtual function%<tree%> is not defined as a pointer type%<tree%> is not defined as a type%<try%> in %<constexpr%> function only available with %<-std=c++20%> or %<-std=gnu++20%>%<typedef%> was ignored in this declaration%<typeid%> is not a constant expression because %qE is of polymorphic type%<typeid%> of qualified function type %qT%<typeid%> operator cannot appear in a constant-expression%<typename %T::%D%> names %q#T, which is not a class template%<typename %T::%D%> names %q#T, which is not a type%<typeof%> applied to a bit-field%<union %E%> declared in %<for%> loop initial declaration%<using enum%> of %qT before its enum-specifier%<using enum%> of dependent type %qT%<using enum%> of incomplete type %qT%<using enum%> of non-enumeration type %q#T%<using enum%> only available with %<-std=c++20%> or %<-std=gnu++20%>%<using%> with enumeration scope %q#T only available with %<-std=c++20%> or %<-std=gnu++20%>%<va_start%> used in function with fixed arguments%<vec_lvsl%> is deprecated for little endian; use assignment for unaligned loads and stores%<vec_lvsr%> is deprecated for little endian; use assignment for unaligned loads and stores%<vector%> length expression must be integral%<vector%> length value must be positive%<verify_gimple%> failed%<virtual%> can only be specified for functions%<virtual%> outside class declaration%<virtual%> specified more than once in base-specifier%<void%> as only parameter may not be qualified%<void%> must be the only parameter%<volatile%> can only be specified for objects and functions%<volatile%>-qualified parameter is deprecated%<volatile%>-qualified return type is deprecated%<volatile%>-qualified structured binding is deprecated%<wait%> expression must be integral%<warn_if_not_aligned%> may not be specified for %q+D%<weakref%> attribute ignored because function is defined%<weakref%> attribute ignored because variable is initialized%<weakref%> attribute should be accompanied with an %<alias%> attribute%<weakref%> cannot be versioned%<worker%> num expression must be integral%<worker%> num value must be positive%<||%> not valid in GIMPLE%<~%> on a boolean expression%<~%> on an expression of type %<bool%>%<~auto%> only available with %<-std=c++14%> or %<-std=gnu++14%>%G%<%.*s%> directive argument is null%G%qD accessing %wu byte at offsets %s and %s may overlap %wu byte at offset %s%G%qD accessing %wu bytes at offsets %s and %s may overlap %wu byte at offset %s%G%qD accessing %wu byte at offsets %s and %s may overlap up to %wu bytes at offset %s%G%qD accessing %wu bytes at offsets %s and %s may overlap up to %wu bytes at offset %s%G%qD accessing %wu byte at offsets %s and %s overlaps %wu byte at offset %s%G%qD accessing %wu byte at offsets %s and %s overlaps %wu bytes at offset %s%G%qD accessing %wu byte at offsets %s and %s overlaps %wu or more bytes at offset %s%G%qD accessing %wu bytes at offsets %s and %s overlaps %wu or more bytes at offset %s%G%qD accessing %wu byte at offsets %s and %s overlaps between %wu and %wu bytes at offset %s%G%qD accessing %wu bytes at offsets %s and %s overlaps between %wu and %wu bytes at offset %s%G%qD accessing %wu byte may overlap %wu byte%G%qD accessing %wu bytes may overlap %wu byte%G%qD accessing %wu byte may overlap up to %wu bytes%G%qD accessing %wu bytes may overlap up to %wu bytes%G%qD accessing %wu bytes at offsets %s and %s overlaps %wu byte at offset %s%G%qD accessing %wu bytes at offsets %s and %s overlaps %wu bytes at offset %s%G%qD accessing %wu or more bytes at offsets %s and %s may overlap %wu byte at offset %s%G%qD accessing %wu or more bytes at offsets %s and %s may overlap up to %wu bytes at offset %s%G%qD accessing %wu or more bytes at offsets %s and %s overlaps %wu byte at offset %s%G%qD accessing %wu or more bytes at offsets %s and %s overlaps %wu bytes at offset %s%G%qD accessing %wu or more bytes at offsets %s and %s overlaps %wu or more bytes at offset %s%G%qD accessing %wu or more bytes at offsets %s and %s overlaps between %wu and %wu bytes at offset %s%G%qD accessing between %wu and %wu bytes at offsets %s and %s may overlap %wu byte at offset %s%G%qD accessing between %wu and %wu bytes at offsets %s and %s may overlap up to %wu bytes at offset %s%G%qD accessing between %wu and %wu bytes at offsets %s and %s overlaps %wu byte at offset %s%G%qD accessing between %wu and %wu bytes at offsets %s and %s overlaps %wu bytes at offset %s%G%qD accessing between %wu and %wu bytes at offsets %s and %s overlaps %wu or more bytes at offset %s%G%qD accessing between %wu and %wu bytes at offsets %s and %s overlaps between %wu and %wu bytes at offset %s%G%qD accessing between %wu and %wu bytes may overlap %wu byte%G%qD accessing between %wu and %wu bytes may overlap up to %wu bytes%G%qD destination unchanged after copying no bytes%G%qD destination unchanged after copying no bytes from a string of length %E%G%qD forming offset %s is out of bounds%G%qD forming offset %s is out of the bounds [0, %wu]%G%qD forming offset %s is out of the bounds [0, %wu] of object %qD with type %qT%G%qD forming offset %s is out of the bounds of object %qD with type %qT%G%qD of a string of length %wu and an array of size %wu evaluates to nonzero%G%qD of a string of length %wu or more and an array of size %wu evaluates to nonzero%G%qD of a string of length %wu, an array of size %wu and bound of %wu evaluates to nonzero%G%qD of strings of length %wu and %wu and bound of %wu evaluates to nonzero%G%qD offset %s from the object at %qE is out of the bounds of %qT%G%qD offset %s from the object at %qE is out of the bounds of referenced subobject %qD with type %qT at offset %wi%G%qD offset %s is out of bounds%G%qD offset %s is out of the bounds [0, %wu]%G%qD offset %s is out of the bounds [0, %wu] of object %qD with type %qT%G%qD offset %s is out of the bounds of object %qD with type %qT%G%qD output may be truncated copying %E byte from a string of length %wu%G%qD output may be truncated copying %E bytes from a string of length %wu%G%qD output may be truncated copying between %wu and %wu bytes from a string of length %wu%G%qD output truncated before terminating nul copying %E byte from a string of the same length%G%qD output truncated before terminating nul copying %E bytes from a string of the same length%G%qD output truncated before terminating nul copying as many bytes from a string as its length%G%qD output truncated copying %E byte from a string of length %wu%G%qD output truncated copying %E bytes from a string of length %wu%G%qD output truncated copying between %wu and %wu bytes from a string of length %wu%G%qD pointer overflow between offset %s and size %s%G%qD pointer overflow between offset %s and size %s accessing array %qD with type %qT%G%qD source argument is the same as destination%G%qD specified bound %E equals destination size%G%qD specified bound %E equals source length%G%qD specified bound %E exceeds destination size %wu%G%qD specified bound %wu exceeds maximum object size %wu%G%qD specified bound between %wu and %wu exceeds maximum object size %wu%G%qD specified bound depends on the length of the source argument%G%qD writing %wu byte into a region of size %wu%G%qD writing %wu bytes into a region of size %wu%G%qD writing %wu byte into a region of size between %wu and %wu%G%qD writing %wu bytes into a region of size between %wu and %wu%G%qD writing between %wu and %wu bytes into a region of size %wu%G%qD writing between %wu and %wu bytes into a region of size between %wu and %wu%G%qD writing one too many bytes into a region of a size that depends on %<strlen%>%G%qE is used uninitialized%G%qE may be used uninitialized%G%qs pointer is null%Gargument %u null where non-null expected%Gargument to %<alloca%> is too large%Gargument to %<alloca%> is zero%Gargument to %<alloca%> may be too large%Gargument to variable-length array is too large%Gargument to variable-length array is zero%Gargument to variable-length array may be too large%Gnull destination pointer%Gnull format string%Gunbounded use of %<alloca%>%Gunbounded use of variable-length array%Guse of %<alloca%>%Guse of %<alloca%> within a loop%Gwriting %wu byte into a region of size %wu%Gwriting %wu bytes into a region of size %wu%Gwriting %wu byte into a region of size between %wu and %wu%Gwriting %wu bytes into a region of size between %wu and %wu%Gwriting between %wu and %wu bytes into a region of size %wu%Gwriting between %wu and %wu bytes into a region of size between %wu and %wu%Gwriting one too many bytes into a region of a size that depends on %<strlen%>%K%<asm%> not allowed in %<transaction_safe%> function%K%qD accessing %E byte in a region of size %E%K%qD accessing %E bytes in a region of size %E%K%qD accessing %E or more bytes in a region of size %E%K%qD accessing between %E and %E bytes in a region of size %E%K%qD argument missing terminating nul%K%qD called on a pointer to an unallocated object %qE%K%qD called on pointer %qE with nonzero offset%s%K%qD called on pointer returned from a mismatched allocation function%K%qD called on pointer to an unallocated object%K%qD called on unallocated object %qD%K%qD expecting %E byte in a region of size %E%K%qD expecting %E bytes in a region of size %E%K%qD expecting %E or more bytes in a region of size %E%K%qD expecting between %E and %E bytes in a region of size %E%K%qD may access %E byte in a region of size %E%K%qD may access %E bytes in a region of size %E%K%qD may access %E or more bytes in a region of size %E%K%qD may access between %E and %E bytes in a region of size %E%K%qD may read %E byte from a region of size %E%K%qD may read %E bytes from a region of size %E%K%qD may read %E or more bytes from a region of size %E%K%qD may read between %E and %E bytes from a region of size %E%K%qD may write %E byte into a region of size %E%K%qD may write %E bytes into a region of size %E%K%qD may write %E or more bytes into a region of size %E%K%qD may write between %E and %E bytes into a region of size %E%K%qD reading %E byte from a region of size %E%K%qD reading %E bytes from a region of size %E%K%qD reading %E or more bytes from a region of size %E%K%qD reading between %E and %E bytes from a region of size %E%K%qD specified bound %E equals destination size%K%qD specified bound %E exceeds destination size %E%K%qD specified bound %E exceeds maximum object size %E%K%qD specified bound %E exceeds source size %E%K%qD specified bound %E may exceed destination size %E%K%qD specified bound %E may exceed maximum object size %E%K%qD specified bound %E may exceed source size %E%K%qD specified bound %s exceeds maximum object size %E%K%qD specified bound %s exceeds the size %E of unterminated array%K%qD specified bound %s exceeds the size of at most %E of unterminated array%K%qD specified bound %s may exceed the size of at most %E of unterminated array%K%qD specified bound [%E, %E] exceeds destination size %E%K%qD specified bound [%E, %E] exceeds maximum object size %E%K%qD specified bound [%E, %E] exceeds source size %E%K%qD specified bound [%E, %E] may exceed destination size %E%K%qD specified bound [%E, %E] may exceed maximum object size %E%K%qD specified bound [%E, %E] may exceed source size %E%K%qD specified size %E exceeds maximum object size %E%K%qD specified size %E may exceed maximum object size %E%K%qD specified size between %E and %E exceeds maximum object size %E%K%qD specified size between %E and %E may exceed maximum object size %E%K%qD writing %E byte into a region of size %E overflows the destination%K%qD writing %E bytes into a region of size %E overflows the destination%K%qD writing %E or more bytes into a region of size %E overflows the destination%K%qD writing between %E and %E bytes into a region of size %E overflows the destination%K%s %wd out of range %wd - %wd%Kaccessing %E byte in a region of size %E%Kaccessing %E bytes in a region of size %E%Kaccessing %E or more bytes in a region of size %E%Kaccessing between %E and %E bytes in a region of size %E%Kargument %d must be a constant immediate%Kargument %d must be a constant immediate in range [0,15]%Kargument %d to %qE must be a constant immediate in range [0-%d]%Kargument %i is null but the corresponding size argument %i value is %s%Kargument %i of variable length array %s is null but the corresponding bound argument %i value is %s%Kargument %i range [%E, %E] exceeds maximum object size %E%Kargument %i range [%E, %E] is negative%Kargument %i to %<%T[static %E]%> is null where non-null expected%Kargument %i value %qE exceeds maximum object size %E%Kargument %i value %qE is negative%Kargument %i value %s is negative%Kargument %i value is zero%Kargument must be a 16-bit constant immediate%Kbound argument %i value %s is negative for a variable length array argument %i of type %s%Kcall to %qs declared with attribute error: %s%Kcall to %qs declared with attribute warning: %s%Kcoproc must be a constant immediate in range [0-%d] enabled with +cdecp<N>%Kcoprocessor %d is not enabled with +cdecp%d%Kexpecting %E byte in a region of size %E%Kexpecting %E bytes in a region of size %E%Kexpecting %E or more bytes in a region of size %E%Kexpecting between %E and %E bytes in a region of size %E%Kfirst argument of %qD must be a pointer, second integer constant%Kinvalid use of %<__builtin_va_arg_pack ()%>%Kinvalid use of %<__builtin_va_arg_pack_len ()%>%Klane %wd out of range %wd - %wd%Klane index must be a constant immediate%Klast argument of %qD is not integer constant between 0 and 3%Kmay access %E byte in a region of size %E%Kmay access %E bytes in a region of size %E%Kmay access %E or more bytes in a region of size %E%Kmay access between %E and %E bytes in a region of size %E%Kmay read %E byte from a region of size %E%Kmay read %E bytes from a region of size %E%Kmay read %E or more bytes from a region of size %E%Kmay read between %E and %E bytes from a region of size %E%Kmay write %E byte into a region of size %E%Kmay write %E bytes into a region of size %E%Kmay write %E or more bytes into a region of size %E%Kmay write between %E and %E bytes into a region of size %E%Kproduct %<%E * %E%> of arguments %i and %i exceeds %<SIZE_MAX%>%Kproduct %<%E * %E%> of arguments %i and %i exceeds maximum object size %E%Kreading %E byte from a region of size %E%Kreading %E bytes from a region of size %E%Kreading %E or more bytes from a region of size %E%Kreading between %E and %E bytes from a region of size %E%Ksaturation bit range must be a constant immediate%Ksaturation bit range must be in the range [%wd, %wd]%Kspecified bound %E exceeds destination size %E%Kspecified bound %E exceeds maximum object size %E%Kspecified bound %E exceeds source size %E%Kspecified bound %E may exceed destination size %E%Kspecified bound %E may exceed maximum object size %E%Kspecified bound %E may exceed source size %E%Kspecified bound [%E, %E] exceeds destination size %E%Kspecified bound [%E, %E] exceeds maximum object size %E%Kspecified bound [%E, %E] exceeds source size %E%Kspecified bound [%E, %E] may exceed maximum object size %E%Kspecified bound [%E, %E] may exceed source size %E%Kspecified size %E exceeds maximum object size %E%Kspecified size %E may exceed maximum object size %E%Kspecified size between %E and %E exceeds maximum object size %E%Kspecified size between %E and %E may exceed maximum object size %E%Ktotal size and element size must be a non-zero constant immediate%Kwriting %E byte into a region of size %E overflows the destination%Kwriting %E bytes into a region of size %E overflows the destination%Kwriting %E or more bytes into a region of size %E overflows the destination%Kwriting between %E and %E bytes into a region of size %E overflows the destination%d constructor found
%d constructors found
%d destructor found
%d destructors found
%d exits recorded for loop %d (having %d exits)%d frame table found
%d frame tables found
%i-bit mode not compiled in%llu bytes%p has no semantic routine%q#D cannot be overloaded with %q#D%q#D conflicts with a previous declaration%q#D conflicts with version inherited from %qT%q#D declared here%q#D does not have external linkage%q#D does not refer to the unqualified type, so it is not used for linkage%q#D explicitly defaulted here%q#D has incomplete type%q#D hides constructor for %q#D%q#D inherits from multiple base subobjects%q#D invalid; an anonymous union can only have non-static data members%q#D invalid; an anonymous union may only have public non-static data members%q#D is a static data member; it can only be initialized at its definition%q#D is implicitly declared as deleted because %qT declares a move constructor or move assignment operator%q#D is implicitly deleted because the default definition would be ill-formed:%q#D is inaccessible within this context%q#D is not a function template%q#D is not a non-static data member of %qT%q#D is not a valid template argument for type %qT because a reference variable does not have a constant address%q#D is not const%q#D is private within this context%q#D is protected within this context%q#D is public, but requires an existing %q#T object%q#D is volatile%q#D not declared in class%q#D previously declared here%q#D previously defined here%q#D redeclared as different kind of entity%q#D should be initialized%q#D, declared using local type %qT, is used but never defined%q#D, declared using unnamed type, is used but never defined%q#F is implicitly deleted because its exception-specification does not match the implicit exception-specification %qX%q#T has no member named %qE%q#T has no member named %qE; did you mean %q#D? (accessible via %q#D)%q#T has no member named %qE; did you mean %q#D? (not accessible from this context)%q#T has no member named %qE; did you mean %qE?%q#T has no user-provided default constructor%q#T has pointer data members%q#T has virtual base classes%q#T has virtual functions and accessible non-virtual destructor%q#T is not a class%q#T is not a class or namespace%q#T is not a template%q#T is not a valid type for a template non-type parameter%q#T only defines a private destructor and has no friends%q#T only defines private constructors and has no friends%q#T used where a %qT was expected%q#T used where a floating-point value was expected%q#T was previously declared here%q+#D cannot be declared%q+#D is not a static data member of %q#T%q+#D marked %<final%>, but is not virtual%q+#D marked %<override%>, but does not override%q+D alias between function and variable is not supported%q+D aliased to external symbol %qE%q+D aliased to undefined symbol %qE%q+D already declared with dllexport attribute: dllimport ignored%q+D declared as a friend%q+D declared as variadic function%q+D declared with an exception specification%q+D defined as variadic function without prototype%q+D defined both normally and as %qE attribute%q+D has incompatible attributes %qs and %qs%q+D in declare target directive does not have mappable type%q+D is static but declared in inline function %qD which is not static%q+D is usually a function%q+D offset %E in %qT isn%'t aligned to %u%q+D offset %E in %qT may not be aligned to %u%q+D redeclared as different kind of symbol%q+D redeclared inline with %<gnu_inline%> attribute%q+D redeclared inline without %<gnu_inline%> attribute%q+D redeclared without dllimport attribute after being referenced with dll linkage%q+D redeclared without dllimport attribute: previous dllimport ignored%q+D static data member inside of declare target directive%q+D takes only zero or two arguments%q+E is not a constant expression%q+F declared %<static%> but never defined%q+F used but never defined%q+T is not literal because:%qD alias between functions of incompatible types %qT and %qT%qD appears both in data and map clauses%qD appears more than once in %<aligned%> clauses%qD appears more than once in %<allocate%> clauses%qD appears more than once in %<nontemporal%> clauses%qD appears more than once in data clauses%qD appears more than once in map clauses%qD appears more than once in motion clauses%qD appears more than once in reduction clauses%qD argument %d promotes to %qT where %qT is expected in a call to built-in function declared without prototype%qD argument %d type is %qT where %qT is expected in a call to built-in function declared without prototype%qD argument %i declared attribute %<nonstring%>%qD argument %i declared attribute %<nonstring%> is smaller than the specified bound %wu%qD argument %i declared attribute %<nonstring%> is smaller than the specified bound [%E, %E]%qD argument %i declared attribute %<nonstring%> may be smaller than the specified bound [%E, %E]%qD attribute directive ignored%qD attribute is meaningless since members of the anonymous namespace get local symbols%qD attribute requires a single NTBS argument%qD called in a constant expression%qD called in a constant expression before its definition is complete%qD can be marked override%qD cannot appear in a constant-expression%qD cannot be %qs%qD cannot be declared %<virtual%>, since it is always static%qD cannot be defaulted%qD cannot be used as a function%qD cannot have default arguments%qD changed semantics in GCC 4.4%qD clearing an object of non-trivial type %#qT%s%qD clearing an object of type %#qT containing a pointer-to-member%s%qD clearing an object of type %#qT with no trivial copy-assignment%s%qD conflicts with used function%qD copying an object of non-trivial type %#qT from an array of %#qT%qD copying an object of type %#qT with %qs member %qD from an array of %#qT; use assignment or copy-initialization instead%qD declared %<static%> in %<constexpr%> context%qD declared %<static%> in %qs function%qD declared %<thread_local%> in %<constexpr%> context%qD declared %<thread_local%> in %qs function%qD declared %<transaction_safe_dynamic%>%qD declared as a %<virtual%> field%qD declared as a %<virtual%> parameter%qD declared as a %<virtual%> type%qD declared as a %<virtual%> variable%qD declared as a non-parameter%qD declared as an %<inline%> field%qD declared as an %<inline%> parameter%qD declared as an %<inline%> type%qD declared as array of %qT%qD declared as reference but not initialized%qD declared here%qD declared here as %q#D%qD declared here, later in the translation unit%qD defined but not used%qD defined here%qD does not have %<const char *%> type%qD does not have a mappable type in %qs clause%qD does not have integral or enumeration type%qD does not have integral type%qD does not name an enumeration in %qT%qD does not refer to a function%qD does not refer to a namespace scope function%qD has a non-structural type%qD has a previous declaration here%qD has already been defined%qD has an incomplete type %qT%qD has incomplete type%qD has invalid argument list%qD has not been declared in %qD%qD has not been declared within %qD%qD has the same name as the class in which it is declared%qD in %<reduction%> clause is a zero size array%qD inherits the %E ABI tag that %qT (used in its return type) has%qD inherits the %E ABI tag that %qT (used in its type) has%qD invalid in %q#T because of local member %q#D with same name%qD invalid in %q#T because of local method %q#D with same name%qD invalid in lambda%qD is a function, not a type%qD is a namespace%qD is a usual (non-placement) deallocation function%qD is a usual (non-placement) deallocation function in C++14 (or with %<-fsized-deallocation%>)%qD is already a friend of %qT%qD is already a friend of class %qT%qD is already defined in %qT%qD is already defined in class %qT%qD is already defined in the class %qT%qD is an enumeration template%qD is both a direct base and an indirect virtual base%qD is declared in header %qs%qD is defined with tls model %s%qD is deprecated%qD is deprecated: %s%qD is initialized with itself%qD is instantiated for an empty pack%qD is mutable%qD is normally a non-static function%qD is not a class or namespace%qD is not a class type%qD is not a function argument%qD is not a function template%qD is not a member of %qD%qD is not a member of %qD; did you mean %qs?%qD is not a member of %qT%qD is not a member of %qT; did you mean %qs?%qD is not a member template function%qD is not a namespace-name%qD is not a namespace-name; did you mean %qs?%qD is not a pointer variable%qD is not a static data member%qD is not a static data member of a class template%qD is not a template%qD is not a template function%qD is not a type%qD is not a valid template argument because %qD is a variable, not the address of a variable%qD is not a variable%qD is not a variable in %<aligned%> clause%qD is not a variable in %<allocate%> clause%qD is not a variable in %<nontemporal%> clause%qD is not a variable in %qs clause%qD is not a variable in clause %<firstprivate%>%qD is not a variable in clause %<lastprivate%>%qD is not a variable in clause %qs%qD is not a variable template%qD is not an argument in %<uniform%> clause%qD is not captured%qD is not compatible with %qD%qD is not defined outside of function scope%qD is not lvalue expression nor array section in %<depend%> clause%qD is not public%qD is not usable as a %<constexpr%> function because:%qD is static but used in inline function %qD which is not static%qD is threadprivate variable in %qs clause%qD is too small to hold all values of %q#T%qD is used uninitialized%qD may be used uninitialized%qD may be used uninitialized in this function%qD may not be declared as static%qD may not be declared within a namespace%qD moving an object of non-trivial type %#qT and size %E into a region of size %E%qD moving an object of non-trivially copyable type %#qT; use %<new%> and %<delete%> instead%qD moving an object of type %#qT with deleted copy constructor; use %<new%> and %<delete%> instead%qD moving an object of type %#qT with deleted destructor%qD must be a global variable in %<#pragma acc declare link%>%qD must be a non-member function%qD must be a non-static member function%qD must be a variable declared in the same scope as %<#pragma acc declare%>%qD must be either a non-static member function or a non-member function%qD must have an argument of class or enumerated type%qD must have either one or two arguments%qD must have either zero or one argument%qD must have exactly one argument%qD must have exactly two arguments%qD must have no arguments%qD must not have variable number of arguments%qD not defined%qD redeclared with different access%qD redeclared with different visibility%qD referenced in target region does not have a mappable type%qD renamed after being referenced in assembly%qD should be initialized%qD should be initialized in the member initialization list%qD should have been declared inside %qD%qD should return by value%qD source argument is the same as destination%qD specified both in declare target %<link%> and %<to%> clauses%qD specified both in declare target %<link%> and implicitly in %<to%> clauses%qD specified in %<allocate%> clause but not in an explicit privatization clause%qD specified in %<inscan%> %<reduction%> clause but not in %<scan%> directive clause%qD specified in %qs clause but not in %<inscan%> %<reduction%> clause on the containing construct%qD specifies less restrictive attribute than its target %qD: %s%qD specifies less restrictive attributes than its target %qD: %s%qD specifies more restrictive attribute than its target %qD: %s%qD specifies more restrictive attributes than its target %qD: %s%qD target declared here%qD used as a variant with incompatible %<construct%> selector sets%qD used before its definition%qD used in its own initializer%qD used without template arguments%qD violates the C++ One Definition Rule%qD was declared %<extern%> and later %<static%>%qD was declared %qs which implies default visibility%qD was declared here%qD was hidden%qD was not declared %<constexpr%>%qD was not declared in this scope%qD was not declared in this scope, and no declarations were found by argument-dependent lookup at the point of instantiation%qD was not declared in this scope; did you mean %qs?%qD was not initialized with a constant expression%qD was previously declared here%qD was used with no declaration before its definition%qD was used with no prototype before its definition%qD will be initialized after%qD writing to an object of a non-trivial type %#qT leaves %wu byte unchanged%qD writing to an object of a non-trivial type %#qT leaves %wu bytes unchanged%qD writing to an object of non-trivial type %#qT%s%qD writing to an object of non-trivially copyable type %#qT%s%qD writing to an object of type %#qT containing a pointer to data member%s%qD writing to an object of type %#qT with %qs member %qD%qD writing to an object of type %#qT with no trivial copy-assignment%qD writing to an object of type %#qT with no trivial copy-assignment%s%qD writing to an object with a deleted copy constructor%qD: visibility attribute ignored because it conflicts with previous declaration%qE 2.95 vtable-compatibility attribute applies only to C++ classes%qE 2.95 vtable-compatibility attribute applies only when compiling a kext%qE appears more than once in %<aligned%> clauses%qE appears more than once in %<allocate%> clauses%qE appears more than once in %<nontemporal%> clauses%qE appears more than once in data clauses%qE appears more than once in map clauses%qE appears more than once on the same %<declare target%> directive%qE argument %Z may overlap destination object %qE%qE arguments %Z may overlap destination object %qE%qE argument %Z overlaps destination object %qE%qE arguments %Z overlap destination object %qE%qE argument is not a function%qE argument must be one of %qs, %qs, %qs, or %qs%qE argument not a string%qE argument not an identifier%qE arguments %Z and maybe %Z overlap destination object %qE%qE attribute address out of range%qE attribute allows only an integer constant argument%qE attribute applied to %qD with void return type%qE attribute applied to %qT after its definition%qE attribute applied to extern "C" declaration %qD%qE attribute applied to non-class, non-enum type %qT%qE attribute applied to non-function, non-variable %qD%qE attribute applies only to functions%qE attribute applies only to initialized variables with external linkage%qE attribute argument %E is not a power of 2%qE attribute argument %E is not an integer constant%qE attribute argument %E is not in the range [0, %wu]%qE attribute argument %E is not positive%qE attribute argument %i has type %qT%qE attribute argument %i is invalid%qE attribute argument %i value %qE does not refer to a function parameter%qE attribute argument %i value %qE does not refer to a variable argument list%qE attribute argument %i value %qE exceeds the number of function parameters %u%qE attribute argument %i value %qE is not an integer constant%qE attribute argument %i value %qE refers to a variadic function parameter of unknown type%qE attribute argument %i value %qE refers to parameter type %qT%qE attribute argument %qE exceeds %u%qE attribute argument %qE is not an integer constant%qE attribute argument %qE is not an integer constant between 0 and 3%qE attribute argument %qE is not recognised%qE attribute argument 1 does not name a function%qE attribute argument 1 is ambiguous%qE attribute argument 1 must take a pointer type as its first argument%qE attribute argument 1 must take a pointer type as its first argument; have %qT%qE attribute argument cannot be a constant arithmetic expression%qE attribute argument cannot be a string%qE attribute argument has type %qT%qE attribute argument is invalid%qE attribute argument must be a string constant%qE attribute argument not a string constant%qE attribute argument not an integer constant%qE attribute argument should be between 0 to 255%qE attribute argument should be between 18 to 255%qE attribute argument value %qE does not refer to a function parameter%qE attribute argument value %qE does not refer to a variable argument list%qE attribute argument value %qE exceeds %wu%qE attribute argument value %qE exceeds the number of function parameters %u%qE attribute argument value %qE is negative%qE attribute argument value %qE is not an integer constant%qE attribute argument value %qE refers to a variadic function parameter of unknown type%qE attribute argument value %qE refers to parameter type %qT%qE attribute can only be applied to functions or to class or enumeration types%qE attribute can only be applied to functions or to structure, union or enumeration types%qE attribute can only be applied to non-static data members%qE attribute cannot be applied to a bit-field%qE attribute cannot be specified for local variables%qE attribute conflicts with %qE attribute%qE attribute directive ignored%qE attribute does not apply to functions%qE attribute does not apply to types%qE attribute does not take any arguments%qE attribute doesn%'t apply to functions%qE attribute duplicated%qE attribute follows %qE%qE attribute has no effect%qE attribute has no effect on functions with static linkage%qE attribute has no effect on unit local functions%qE attribute have effect only on public objects%qE attribute ignored%qE attribute ignored because %qD does not have thread storage duration%qE attribute ignored because %qD is not a variable%qE attribute ignored because %qT is already defined%qE attribute ignored due to conflict with %qs attribute%qE attribute ignored due to conflict with attribute %qs%qE attribute ignored for %qE%qE attribute ignored for field of type %qT%qE attribute ignored for type %qT%qE attribute ignored on a declaration of a different kind than referenced symbol%qE attribute ignored on a function returning %qT%qE attribute ignored on a redeclaration of the referenced symbol%qE attribute ignored on functions returning %qT; valid only for pointer return types%qE attribute ignored on non-class types%qE attribute ignored on objects of type %qT%qE attribute ignored on types%qE attribute ignored without %<-mcmse%> option.%qE attribute ignored without %<-mistack%>%qE attribute ignored.  Large memory model (%<-mlarge%>) is required.%qE attribute ignored. Use %<-fcf-protection%> option to enable it%qE attribute ignored; valid only for functions%qE attribute is for pointer types only%qE attribute is not supported because endianness is not uniform%qE attribute is not supported for R8C target%qE attribute is not supported on this platform%qE attribute is only applicable on functions%qE attribute is only valid for Objective-C objects%qE attribute is only valid on %<struct%> type%qE attribute is specific to ELF targets%qE attribute is supported only for SH2A%qE attribute is used for non-class method%qE attribute may be put on a typedef only; attribute is ignored%qE attribute must appear before %qs attribute%qE attribute must apply to a declaration%qE attribute not allowed with auto storage class%qE attribute not available to functions that return value on the stack%qE attribute not available to functions with arguments passed on the stack%qE attribute not available to functions with variable number of arguments%qE attribute on a function not returning a pointer%qE attribute on function returning %<void%>%qE attribute on non-volatile variable%qE attribute only affects top level objects%qE attribute only applies to SH2A%qE attribute only applies to base type of a function pointer%qE attribute only applies to function types%qE attribute only applies to functions%qE attribute only applies to interrupt functions%qE attribute only applies to types%qE attribute only applies to variables%qE attribute only applies to variables in static storage%qE attribute only applies to variadic functions%qE attribute only available for 32-bit%qE attribute only supported for reduced Tiny cores%qE attribute only supported on boolean types%qE attribute only valid for ARC EM architecture%qE attribute only valid for ARCv2 architecture%qE attribute requires a string argument%qE attribute requires a string constant argument%qE attribute requires a void return type%qE attribute requires an integer argument%qE attribute requires an integer constant argument%qE attribute requires prototypes with named arguments%qE attribute takes no arguments%qE attribute with unsupported boolean precision%qE attribute without arguments on a non-prototype%qE cannot be applied to non-pointer type %qT%qE cannot be used as a function%qE cannot be used as a member pointer, since it is of type %qT%qE cannot have both %qs and %qs attributes%qE declared %<threadprivate%> after first use%qE declared as function returning a function%qE declared as function returning an array%qE declared here%qE defined as wrong kind of tag%qE does not constrain a type%qE does not have %<omp_depend_t%> type in %<depend%> clause with %<depobj%> dependence type%qE does not have a mappable type in %qs clause%qE does not have pointer or array type%qE does not name a type%qE does not name a type; did you mean %qs?%qE evaluates to false%qE fails to be a typedef or built in type%qE has both %<extern%> and initializer%qE has const type for %<reduction%>%qE has invalid type for %<reduction(%s)%>%qE has not been declared%qE implies default visibility, but %qD has already been declared with a different visibility%qE in %<aligned%> clause is neither a pointer nor an array%qE in %<aligned%> clause is neither a pointer nor an array nor a reference to pointer or array%qE in %<reduction%> clause is a zero size array%qE in %q#T does not name a template type%qE in %q#T does not name a type%qE in namespace %qE does not name a template type%qE in namespace %qE does not name a template type; did you mean %qs?%qE in namespace %qE does not name a type%qE in namespace %qE does not name a type; did you mean %qs?%qE incompatible attribute ignored%qE initialized and declared %<extern%>%qE is a member of a union%qE is a pointer; did you mean to use %<->%>?%qE is an unrecognized format function type%qE is deprecated%qE is deprecated: %s%qE is neither a variable nor a function name in clause %qs%qE is neither function nor member function; cannot be declared friend%qE is not a class or namespace%qE is not a class template%qE is not a class, namespace, or enumeration%qE is not a constant expression%qE is not a constant expression because allocated storage has not been deallocated%qE is not a constant expression because it refers to a result of %<operator new%>%qE is not a constant expression because it refers to an incompletely initialized variable%qE is not a constant expression because it refers to mutable subobjects of %qT%qE is not a template%qE is not a type%qE is not a valid %<asm%> qualifier%qE is not a valid template argument for %qT because it is not the address of a variable%qE is not a valid template argument for type %qT%qE is not a valid template argument for type %qT because %qD does not have external linkage%qE is not a valid template argument for type %qT because %qD has no linkage%qE is not a valid template argument for type %qT because it is a pointer%qE is not a valid template argument for type %qT because it is not an lvalue%qE is not a valid template argument for type %qT because it is of type %qT%qE is not a valid template argument for type %qT because of conflicts in cv-qualification%qE is not a valid template argument for type %qT because string literals can never be used in this context%qE is not a valid template argument of type %qT because %qD has no linkage%qE is not a valid template argument of type %qT because %qE is not a variable%qE is not a valid template argument of type %qT in C++98 because %qD does not have external linkage%qE is not a variable in %<aligned%> clause%qE is not a variable in %<allocate%> clause%qE is not a variable in %<nontemporal%> clause%qE is not a variable in %qs clause%qE is not a variable in clause %<firstprivate%>%qE is not a variable in clause %<lastprivate%>%qE is not a variable in clause %qs%qE is not an Objective-C class name or alias%qE is not an argument in %<uniform%> clause%qE is not at beginning of declaration%qE is not initialized%qE is not lvalue expression nor array section in %<depend%> clause%qE is not of type %qT%qE is not recognized as a module control-line%qE is not the entire pattern of the pack expansion%qE is only allowed in Objective-C dialects%qE is only applicable to Objective-C class interfaces, attribute ignored%qE is predetermined %qs for %qs%qE may not respond to %<%c%E%>%qE may only occur after a module interface declaration%qE may only occur once in an export declaration%qE may write a terminating nul past the end of the destination%qE missing template arguments%qE must be %<threadprivate%> for %<copyin%>%qE needs isa option %s%qE needs unknown isa option%qE not specified in enclosing %<target%>%qE not specified in enclosing %qs%qE not specified in enclosing OpenACC %qs construct%qE output %wu byte%qE output %wu bytes%qE output %wu byte into a destination of size %wu%qE output %wu bytes into a destination of size %wu%qE output %wu or more bytes%qE output %wu or more bytes (assuming %wu)%qE output %wu or more bytes (assuming %wu) into a destination of size %wu%qE output %wu or more bytes into a destination of size %wu%qE output between %wu and %wu bytes%qE output between %wu and %wu bytes into a destination of size %wu%qE output may be truncated before the last format character%qE output truncated before the last format character%qE redeclared as different kind of symbol%qE redeclared with conflicting %qs attributes%qE requires %<-fgnu-tm%>%qE requires a %<declare%> directive for use in a %<routine%> function%qE requires an argument%qE requires the SVE ISA extension%qE should not have %<omp_depend_t%> type in %<depend%> clause with dependence type other than %<depobj%>%qE specified here%qE undeclared (first use in this function)%qE undeclared (first use in this function); did you mean %qs?%qE undeclared here (not in a function)%qE undeclared here (not in a function); did you mean %qs?%qE used with %<auto%>%qE used with %<register%>%qE used with %<typedef%>%qE with %<link%> clause used in %<routine%> function%qE writing a terminating nul past the end of the destination%qF declared %<static%> but never defined%qF requires %<-mvx%>%qF requires z14 or higher%qF requires z15 or higher%qT and %qT are in disjoint named address spaces%qT as type rather than plain %<decltype(auto)%>%qT declared here%qT declared with a mismatched class-key %qs%qT declared with greater visibility than its base %qT%qT declared with greater visibility than the type of its field %qD%qT defined as %qs here%qT defined with direct virtual base%qT defined with multiple direct bases%qT does not have the %E ABI tag that %qT (used in the type of %qD) has%qT does not have the %E ABI tag that base %qT has%qT first declared as %qs here%qT has a base %qT whose type depends on the type %qT which has no linkage%qT has a base %qT whose type has no linkage%qT has a base %qT whose type uses the anonymous namespace%qT has a field %qD whose type depends on the type %qT which has no linkage%qT has a field %qD whose type has no linkage%qT has a field %qD whose type uses the anonymous namespace%qT has a previous declaration here%qT has no member named %qE%qT has no member named %qE; did you mean %qE?%qT has no non-static data member named %qD%qT is a variably modified type%qT is already a friend of %qT%qT is an ambiguous base class of dynamic type %qT of its operand%qT is an ambiguous base of %qT%qT is an inaccessible base of %qT%qT is not a base of %qT%qT is not a class or namespace%qT is not a class type%qT is not a class, namespace, or enumeration%qT is not a class, struct, or union type%qT is not a direct base of %qT%qT is not a member class template of %qT%qT is not a member of %qT%qT is not a nested class of %qT%qT is not a pointer-to-object type%qT is not a template%qT is not a template type%qT is not a valid type for a template non-type parameter because it is not structural%qT is not an %<asm%> qualifier%qT is not an accessible base of %qT%qT is not an enumeration type%qT is promoted to %qT when passed through %<...%>%qT is/uses unnamed type%qT may not intend to support class template argument deduction%qT not permitted in template argument%qT referred to as %qs%qT referred to as enum%qT resolves to %qT, which is not a class type%qT resolves to %qT, which is not an enumeration type%qV qualifiers cannot be applied to %qT%qc conversion used unquoted%qc conversion used within a quoted sequence%qc directive redundant after prior occurence of the same%qs%qs LHS in clobber statement%qs accessing uninitialized byte at offset %d%qs already defined as specific binding for the generic %qs at %C%qs always evaluates to true in %<if constexpr%>%qs and %<%s-%s%> are incompatible%qs and %<%s=%s%> are incompatible%qs and %qs are incompatible%qs and %qs arguments of %qs intrinsic at %L must have identical shape.%qs and %qs arguments of %qs intrinsic at %L must have the same type%qs and %qs attributes are not compatible%qs and %qs cannot be mixed FUNCTION/SUBROUTINE for GENERIC %qs at %L%qs and %qs for GENERIC %qs at %L are ambiguous%qs appears to be a misspelled %qs handler, missing %<__vector%> prefix%qs argument has invalid operand number (argument %lu)%qs argument missing terminating nul%qs argument of %qs intrinsic at %L cannot be INTENT(IN)%qs argument of %qs intrinsic at %L cannot be of type %s%qs argument of %qs intrinsic at %L has invalid permutation of dimensions (dimension %qd duplicated)%qs argument of %qs intrinsic at %L has invalid shape in dimension %d (%ld/%ld)%qs argument of %qs intrinsic at %L has negative element (%d)%qs argument of %qs intrinsic at %L has out-of-range dimension (%d)%qs argument of %qs intrinsic at %L has wrong number of elements (%d/%d)%qs argument of %qs intrinsic at %L is empty%qs argument of %qs intrinsic at %L is not a valid dimension index%qs argument of %qs intrinsic at %L must be %s%qs argument of %qs intrinsic at %L must be ALLOCATABLE%qs argument of %qs intrinsic at %L must be INTEGER%qs argument of %qs intrinsic at %L must be INTEGER or PROCEDURE%qs argument of %qs intrinsic at %L must be INTEGER or REAL%qs argument of %qs intrinsic at %L must be INTEGER or REAL or CHARACTER%qs argument of %qs intrinsic at %L must be INTEGER, LOGICAL, or a BOZ literal constant%qs argument of %qs intrinsic at %L must be REAL or COMPLEX%qs argument of %qs intrinsic at %L must be a POINTER%qs argument of %qs intrinsic at %L must be a POINTER or a TARGET%qs argument of %qs intrinsic at %L must be a POINTER, ALLOCATABLE or procedure pointer%qs argument of %qs intrinsic at %L must be a constant%qs argument of %qs intrinsic at %L must be a data entity%qs argument of %qs intrinsic at %L must be a logical array%qs argument of %qs intrinsic at %L must be a pointer or target VARIABLE or FUNCTION%qs argument of %qs intrinsic at %L must be a scalar%qs argument of %qs intrinsic at %L must be a variable%qs argument of %qs intrinsic at %L must be an array%qs argument of %qs intrinsic at %L must be an interoperable data entity: %s%qs argument of %qs intrinsic at %L must be default real%qs argument of %qs intrinsic at %L must be double precision%qs argument of %qs intrinsic at %L must be less than rank %d%qs argument of %qs intrinsic at %L must be numeric or LOGICAL%qs argument of %qs intrinsic at %L must be of a dummy variable%qs argument of %qs intrinsic at %L must be of a kind not wider than the default kind (%d)%qs argument of %qs intrinsic at %L must be of an OPTIONAL dummy variable%qs argument of %qs intrinsic at %L must be of an extensible type%qs argument of %qs intrinsic at %L must be of intrinsic type%qs argument of %qs intrinsic at %L must be of kind %d%qs argument of %qs intrinsic at %L must be of rank %d%qs argument of %qs intrinsic at %L must be of rank 1 or 2%qs argument of %qs intrinsic at %L must be positive%qs argument of %qs intrinsic at %L must be the same kind as %qs%qs argument of %qs intrinsic at %L must be the same type and kind as %qs%qs argument of %qs intrinsic at %L must have a numeric type%qs argument of %qs intrinsic at %L must have a type of either REAL or INTEGER%qs argument of %qs intrinsic at %L must have length at least 1%qs argument of %qs intrinsic at %L must have the same rank as %qs or be a scalar%qs argument of %qs intrinsic at %L must not be OPTIONAL%qs argument of %qs intrinsic at %L must not be a subobject of %qs%qs argument of %qs intrinsic at %L must not be present if %<x%> is COMPLEX%qs argument of %qs intrinsic at %L must provide at least as many elements as there are .TRUE. values in %qs (%ld/%d)%qs argument of %qs intrinsic at %L not yet supported%qs argument of %qs intrinsic at %L shall be of type integer, real or character%qs argument of %qs intrinsic at %L shall have the same type as %qs at %L%qs argument of %qs intrinsic at %L shall not be TYPE(*)%qs argument of %qs intrinsic at %L shall not be a procedure%qs argument of %qs intrinsic at %L shall not be an assumed-size array%qs argument of %qs intrinsic at %L shall not be coindexed%qs argument of %qs intrinsic at %L shall specify a valid integer kind%qs argument of intrinsic %qs at %L of must have rank %d or be a scalar%qs argument references non-pointer operand (argument %lu, operand %lu)%qs argument with out-of-range operand number (argument %lu, operand %lu)%qs at %C is a DEC extension, enable with %<-fdec-structure%>%qs at %C is a redefinition of the declaration in the corresponding interface for MODULE PROCEDURE %qs%qs at %C is already defined as FINAL procedure%qs at %C is not a member of the %qs structure%qs at %C is not a member of the %qs structure; did you mean %qs?%qs at %C is not a variable%qs at %C is not an inquiry reference to an intrinsic type component%qs at %C is not an inquiry reference to an intrinsic type component %qs%qs at %C is the name of a recursive function and so refers to the result variable. Use an explicit RESULT variable for direct recursion (12.5.2.1)%qs at %L already is initialized at %L%qs at %L associated to expression cannot be used in a variable definition context (%s)%qs at %L associated to vector-indexed target cannot be used in a variable definition context (%s)%qs at %L cannot have the VALUE attribute because it is not a dummy argument%qs at %L has a type, which is not consistent with the CALL at %L%qs at %L has attributes specified outside its INTERFACE body%qs at %L has the CONTIGUOUS attribute but is not an array pointer or an assumed-shape or assumed-rank array%qs at %L is ambiguous%qs at %L is an array and OPTIONAL; If it is not present, then it cannot be the actual argument of an ELEMENTAL procedure unless there is a non-optional argument with the same rank (Fortran 2018, 15.5.2.12)%qs at %L is host associated at %L into a contained procedure with an internal procedure of the same name%qs at %L is not a VALUE%qs at %L is not a function%qs at %L is not a module procedure%qs at %L is of the ABSTRACT type %qs%qs at %L must be less than BIT_SIZE(%qs)%qs at %L must be less than or equal to BIT_SIZE(%qs)%qs at %L must be less than or equal to the BIT_SIZE of INTEGER(KIND=%d)%qs at %L must be nonnegative%qs at %L must have constant character length in this context%qs at %L must have the same number of formal arguments as the overridden procedure%qs at %L must not be DEFERRED as it overrides a non-DEFERRED binding%qs at %L overrides a FUNCTION and must also be a FUNCTION%qs at %L overrides a NOPASS binding and must also be NOPASS%qs at %L overrides a PUBLIC procedure and must not be PRIVATE%qs at %L overrides a PURE procedure and must also be PURE%qs at %L overrides a SUBROUTINE and must also be a SUBROUTINE%qs at %L overrides a binding with PASS and must also be PASS%qs at %L overrides a non-ELEMENTAL procedure and must not be ELEMENTAL, either%qs at %L overrides a procedure binding declared NON_OVERRIDABLE%qs at %L overrides an ELEMENTAL procedure and must also be ELEMENTAL%qs at %L shall be an INTENT(OUT) variable%qs at %L should be a FUNCTION%qs at %L should be a SUBROUTINE%qs at %L should be of type integer(kind=omp_event_handle_kind)%qs attribute cannot be applied to a function that does not take variable arguments%qs attribute directive ignored%qs attribute ignored%qs attribute not supported for %qE in %<__builtin_has_attribute%>%qs attribute not supported for %qT in %<__builtin_has_attribute%>%qs attribute not supported in %<__builtin_has_attribute%>%qs attribute only applies to functions%qs attribute only applies to variadic functions%qs attribute requires prototypes with named arguments%qs attribute without arguments on a non-prototype%qs cannot appear in a constant-expression%qs cannot appear in a typedef declaration%qs cannot be constant evaluated because the argument cannot be encoded%qs cannot be constant evaluated because the argument cannot be interpreted%qs cannot be constant evaluated because the type is too large%qs cannot be constant evaluated on the target%qs cannot be extended at %C because it is BIND(C)%qs cannot be extended at %C because it is a SEQUENCE type%qs cannot be used for type declarations%qs clause at %L specified more than once%qs clause may not appear on non-rectangular %qs%qs clause on %<requires%> directive not supported yet%qs clause specified together with %<inscan%> %<reduction%> clause%qs clause used lexically after first target construct or offloading API%qs combined with %<auto%> qualifier for %qE%qs combined with %<register%> qualifier for %qE%qs construct inside of %qs region%qs declared INTRINSIC at %L does not exist%qs declared as function returning a function%qs declared as function returning an array%qs declared at %L is also the name of an intrinsic.  It can only be called via an explicit interface or if declared EXTERNAL.%qs declared at %L may shadow the intrinsic of the same name.  In order to call the intrinsic, explicit INTRINSIC declarations may be required.%qs declared in a non-class scope%qs defined in a non-class scope%qs does not support MIPS16 code%qs does not support feature %qs%qs entity cannot have an initializer at %C%qs entity cannot have attributes at %C%qs expects 1 argument but %d given%qs expects 2 arguments but %d given%qs expects a constant argument%qs expects a fixed-point value as argument%qs expects a fixed-point value as first argument%qs expects an integer value as second argument%qs expression must be integral%qs expression of %<volatile%>-qualified type is deprecated%qs failed%qs feature modifier is incompatible with the use of floating-point types%qs feature modifier is incompatible with the use of vector types%qs function cannot have arguments%qs function cannot have different interrupt type%qs function cannot return a value%qs function uses %<auto%> type specifier without trailing return type%qs function with trailing return type has %<decltype(auto)%> as its type rather than plain %<auto%>%qs function with trailing return type has %qT as its type rather than plain %<auto%>%qs function with trailing return type not declared with %<auto%> type specifier%qs has both %<extern%> and initializer%qs has overflowed%qs in %<%s %E%>%qs in %s clause at %L is not a proper array section%qs in ALIGNED clause at %L requires a scalar positive constant integer alignment expression%qs in ALIGNED clause must be POINTER, ALLOCATABLE, Cray pointer or C_PTR at %L%qs in DEPEND clause at %L is a zero size array section%qs in EXTENDS expression at %C is not a derived type%qs in LINEAR clause at %L requires a constant integer linear-step expression or dummy argument specified in UNIFORM clause%qs in LINEAR clause at %L requires a scalar integer linear-step expression%qs in cannot appear in COMMON at %L [F2008:C5100]%qs in gimple IL%qs in the pointer assignment at %L cannot be an l-value since it is a procedure%qs in variable definition context (%s) at %L is not a variable%qs incompatible with explicitly disabled options%qs initialized and declared %<extern%>%qs into non-mode-precision operand%qs intrinsic subprogram at %L has been deprecated.  Use INT intrinsic subprogram.%qs intrinsic with CHARACTER argument at %L%qs intrinsic with KIND argument at %L%qs intrinsic with RADIX argument at %L%qs is a reserved identifier in AVR-LibC.  Consider %<#include <avr/interrupt.h>%> before using the %qs macro%qs is already IMPORTed from host scoping unit at %C%qs is an invalid argument to %<-mcpu=%>%qs is an opaque type, and you cannot set it to other values%qs is an unknown %<-save-temps%> option%qs is corrupted%qs is deprecated%qs is deprecated and not recommended in any circumstances%qs is deprecated; use -fno-zero-initialized-in-bss%qs is deprecated; use -fstack-check%qs is incompatible with %qs%qs is incompatible with the use of floating-point types%qs is incompatible with the use of vector types%qs is narrower than values of its type%qs is neither a defined operator nor a structure component in dotted string at %C%qs is not a constant expression because %qT contains a pointer to member type%qs is not a constant expression because %qT contains a pointer type%qs is not a constant expression because %qT contains a reference type%qs is not a constant expression because %qT contains a union type%qs is not a constant expression because %qT contains a volatile subobject%qs is not a constant expression because %qT is a pointer to member type%qs is not a constant expression because %qT is a pointer type%qs is not a constant expression because %qT is a reference type%qs is not a constant expression because %qT is a union type%qs is not a constant expression because %qT is volatile%qs is not a directory%qs is not a gcov data file%qs is not a valid base register in %<-mstack-protector-guard-reg=%>%qs is not a valid base register in %qs%qs is not a valid number in %<-mstack-protector-guard-offset=%>%qs is not a valid number in %qs%qs is not a valid offset in %<-mstack-protector-guard-offset=%>%qs is not a valid offset in %qs%qs is not a valid option to the preprocessor%qs is not an option that controls warnings%qs is not defined as a type%qs is not supported by arch %s%qs is not supported for 64-bit Darwin; it is incompatible with the installed C and C++ libraries%qs is not supported for this target%qs is not supported in this compiler configuration%qs is not supported in this configuration%qs is not supported on little endian systems%qs is not supported on this target%qs is not supported with %qs%qs is not supported with the current options%qs is not valid for %<-mmacosx-version-min%>%qs is not valid for %qs%qs is of a PRIVATE type and cannot be a dummy argument of %qs, which is PUBLIC at %L%qs is only valid for the cell processor%qs is version %q.*s, expected version %q.*s%qs length expression must be integral%qs length expression must be positive constant integer expression%qs matching variant is deprecated.%qs matching variant requires z14 or higher%qs matching variant requires z15 or higher%qs must be a module procedure or an external procedure with an explicit interface at %L%qs must be of same type and kind as %qs at %L in %qs%qs must be the first clause of %qs%qs must be used with %qs%qs must not appear in the array specification at %L in the same ALLOCATE statement where it is itself allocated%qs needs a valid base register%qs not allowed outside STRUCTURE at %C%qs not at element boundary%qs not supported by your assembler%qs not supported on this target%qs of %qs is PRIVATE at %L%qs of module %qs, imported at %C, is also the name of the current program unit%qs of non-mode-precision operand%qs only supported in OpenACC code%qs pointer is null%qs profile count data file not found%qs property cannot be set%qs requires %qs%qs requires %qs or %qs%qs requires ISA 3.0 IEEE 128-bit floating point%qs requires PowerPC64 architecture, enabling%qs requires VSX support%qs requires a target that provides the %qs instruction%qs requires branch-likely instructions%qs requires full ISA 2.06 support%qs requires full ISA 3.0 support%qs requires the %qs (or newer), and %qs or %qs options%qs requires the %qs and %qs options%qs requires the %qs option%qs requires the ELFv2 ABI%qs should be from a scalar to a like vector%qs specified bound %s exceeds maximum object size %E%qs specified bound %s exceeds the size %E of unterminated array%qs specified bound %s exceeds the size of at most %E of unterminated array%qs specified bound %s may exceed the size of at most %E of unterminated array%qs specified for auto variable %qE%qs specified for parameter %qE%qs specified for structure field%qs specified for structure field %qE%qs specified for unnamed parameter%qs specified with %<decltype%>%qs specified with %<typeof%>%qs specified with %qT%qs specifies a conflicting level of parallelism%qs symbol %q+D must have static linkage%qs symbol %q+D ultimately targets itself%qs tag used in naming %q#T%qs unsupported for this ABI%qs used with %qE%qs uses dynamic stack allocation%qs uses register r29%qs value must be positive%qs variable is neither a pointer nor an array%qs variable is neither a pointer nor reference to pointer%qs variable is neither a pointer, nor an array nor reference to pointer or array%qs variable is not a pointer%qs with an always-false condition%qs: [%u] bad %<next_regno%> for empty chain (%u)%qs: [%u] bad %<oldest_regno%> (%u)%qs: [%u] non-empty register in chain (%s %u %i)%qs: loop in %<next_regno%> chain (%u)%r%s:%d:%R   %r%s:%d:%R   [ skipping %d instantiation contexts, use -ftemplate-backtrace-limit=0 to disable ]
%r%s:%d:%R   in %<constexpr%> expansion of %qs%r%s:%d:%d:%R   %r%s:%d:%d:%R   [ skipping %d instantiation contexts, use -ftemplate-backtrace-limit=0 to disable ]
%r%s:%d:%d:%R   in %<constexpr%> expansion of %qs%s%s
%s  Same as %s.%s !$ACC LOOP loops not perfectly nested at %L%s %#qD%s %#qS%s %<%s%.*s%> expects a matching %<%T%s%> argument%s %<%s%.*s%> expects a matching %<%s%s%> argument%s %<%s%.*s%> expects argument of type %<%T%s%>, but argument %d has type %qT%s %<%s%.*s%> expects argument of type %<%s%s%>, but argument %d has type %qT%s %<%s(%E)%> %p %d%s %qE does not fully implement the %qE protocol%s %qs%s %qs construct inside of %s %qs region%s %qs is an invalid argument to builtin %qs%s %s %p %d%s %s%s
%s %wd out of range %wd - %wd%s '%s'
%s - %u-bit integer numbers unsupported (mode %qs)%s - %u-bit-precision complex floating-point numbers unsupported (mode %qs)%s - %u-bit-precision decimal floating-point numbers unsupported (mode %qs)%s - %u-bit-precision floating-point numbers unsupported (mode %qs)%s - unsupported mode %qs%s argument to IMAGE_INDEX must be a rank one array at %L%s at %C is a DEC extension, enable with %<-fdec%>%s at %C is a DEC extension, enable with %<-fdec-static%>%s at %C is a DEC extension, enable with %<-fdec-structure%>%s at %L%s at %L is a DEC extension, enable with %<-fdec-static%>%s at %L must be INTEGER%s at %L must be a scalar%s at %L must be integer%s attribute applied to %s %s at %L%s attribute at %L is not allowed outside of the specification part of a module%s attribute conflicts with %s attribute at %L%s attribute conflicts with %s attribute in %qs at %L%s attribute not allowed in BLOCK DATA program unit at %L%s attribute of %qs conflicts with %s attribute at %L%s between %L and %L%s between the MODULE PROCEDURE declaration in MODULE %qs and the declaration at %L in (SUB)MODULE %qs%s cannot be a DO CONCURRENT loop at %L%s cannot be a DO WHILE or DO without loop control at %L%s cannot be used in %<asm%> here%s clause at %L requires a scalar INTEGER expression%s clause variable %qs at %L is neither a POINTER nor an array%s collapsed loops don't form rectangular iteration space at %L%s conflicts with i386 (arch flags ignored)%s conflicts with ppc (arch flags ignored)%s conflicts with ppc64 (arch flags ignored)%s conflicts with x86_64 (arch flags ignored)%s contains too many lines%s does not have a default initializer%s does not support %%n$ operand number formats%s does not support %s%s does not support %s with the %<%%%c%> %s format%s does not support block_ends_with_call_p%s does not support block_ends_with_condjump_p%s does not support can_duplicate_block_p%s does not support can_merge_blocks_p%s does not support can_remove_branch_p%s does not support create_basic_block%s does not support delete_basic_block%s does not support dump_bb_for_graph%s does not support duplicate_block%s does not support flow_call_edges_add%s does not support force_nonfallthru%s does not support make_forwarder_block%s does not support merge_blocks%s does not support move_block_after%s does not support predict_edge%s does not support predicted_by_p%s does not support redirect_edge_and_branch%s does not support redirect_edge_and_branch_force%s does not support split_block%s does not support split_edge%s does not support the %<%%%c%> %s format%s does not support the %<%%%s%c%> %s format%s does not support the %qs %s length modifier%s does not take any feature options%s expects a compile time integer constant%s expects a compile time long integer constant as first argument%s expression list treated as compound expression%s from %s called in %s%s from %s referenced in %s%s functions cannot be abstract%s ignored with %s and %<%%%c%> %s format%s ignored with %s in %s format%s incompatible with %<-mword-relocations%>%s instructions aren%'t allowed in a function with the %<no_caller_saved_registers%> attribute%s instructions aren%'t allowed in an exception service routine%s instructions aren%'t allowed in an interrupt service routine%s is not supported by this configuration%s iteration variable must be of type integer at %L%s iteration variable must not be THREADPRIVATE at %L%s iteration variable present on clause other than PRIVATE or LASTPRIVATE at %L%s iteration variable present on clause other than PRIVATE, LASTPRIVATE or LINEAR at %L%s method is not virtual and cannot override%s must be a function instead of %s%s must contain at least one MAP clause at %L%s namespace %qD conflicts with reachable definition%s not supported for variable length aggregates%s not supported on this target%s only supports non-pic code on M-profile targets%s only supports non-pic code on M-profile targets with the MOVT instruction%s out of range: Range is %i to %i, value is %i%s procedure at %L is already declared as %s procedure%s procedure at %L is already declared as %s procedure. 
F2008: A pointer function assignment is ambiguous if it is the first executable statement after the specification block. Please add any other kind of executable statement before it. FIXME%s returned %d exit status%s signal terminated program %s%s specifier at %L not allowed in OPEN statement for unformatted I/O%s specifier in %s statement at %L has invalid value %qs%s specifier in %s statement at %L has value %qs%s statement at %C cannot follow %s statement at %L%s statement at %C cannot terminate a non-block DO loop%s statement at %C follows another accessibility specification%s statement at %C in PURE procedure%s statement at %C is not applicable to construct %qs%s statement at %C is not within a construct%s statement at %C is not within construct %qs%s statement at %C leaves CRITICAL construct%s statement at %C leaves DO CONCURRENT construct%s statement at %C leaving OpenACC structured block%s statement at %C leaving OpenMP structured block%s statement expected at %L%s statement is not allowed inside of BLOCK DATA at %C%s statement is not allowed inside of BLOCK at %C%s statement must appear in a MODULE%s statement not allowed in PURE procedure at %C%s string ill-formed
%s tag%s tag at %L must be a character string of default kind%s tag at %L must be of type %s%s tag at %L must be scalar%s tag with INQUIRE%s terminated with signal %d [%s]%s%s used with %<%%%c%> %s format%s used within a quoted sequence%s variable %qE is private in outer context%s%#qD%s%#qD (deleted)%s%#qD (near match)%s%#qD (reversed)%s%#qD (rewritten)%s%<%D(%T)%> (built-in)%s%<%D(%T, %T)%> (built-in)%s%<%D(%T, %T, %T)%> (built-in)%s%qT (conversion)%s%qs%s is invalid%s%qs%s is not allowed%s%s%s %sversion %s (%s)
%s	compiled by GNU C version %s, %s%s%s %sversion %s (%s) compiled by CC, %s%sGGC heuristics: --param ggc-min-expand=%d --param ggc-min-heapsize=%d
%s%swarning: %s header version %s differs from library version %s.
%s-%s is an empty range%s: %<-fcompare-debug%> failure%s: %<-fcompare-debug%> failure (length)%s: %d basic blocks and %d edges/basic block%s: %d basic blocks and %d registers; increase %<--param max-gcse-memory%> above %wu%s: %m%s: %s%s: %s compiler not installed on this system%s: %s: %s%s: In instantiation of %q#D:
%s: In substitution of %qS:
%s: PCH file was invalid%s: all warnings being treated as errors%s: attempt to rename spec %qs to already defined spec %qs%s: cannot open as COFF file%s: could not determine length of compare-debug file %s%s: could not open compare-debug file %s%s: couldn%'t open PCH file: %m%s: linker input file not found: %m%s: linker input file unused because linking not done%s: not a COFF file%s: section %s.%d is missing%s: some warnings being treated as errors%s:%d: confused by earlier errors, bailing out
%s:%s: %E: %E%s:'%s' has arcs from exit block
%s:'%s' has arcs to entry block
%s:'%s' lacks entry and/or exit blocks
%s:already seen blocks for '%s'
%s:cannot open data file, assuming not executed
%s:cannot open notes file
%s:corrupted
%s:graph is unsolvable for '%s'
%s:no functions found
%s:no lines for '%s'
%s:not a gcov data file
%s:not a gcov notes file
%s:overflowed
%s:profile mismatch for '%s'
%s:source file is newer than notes file '%s'
%s:stamp mismatch with notes file
%s:version '%.4s', prefer '%.4s'
%s:version '%.4s', prefer version '%.4s'
%u name provided for structured binding%u names provided for structured binding'' ' flag'!' flag'#' flag'%%%c' is not a valid operand prefix'%%&' used without any local dynamic TLS references'%%l' operand isn't a label'%s' file is already processed
'%s' must have %d operands (excluding match_dups)'%s' must have at least %d operands (excluding match_dups)'%s' must have no more than %d operands (excluding match_dups)''' flag'(' flag'+' flag'-' flag'0' flag'B' operand has multiple bits set'B' operand is not constant'E' modifier'I' flag'O' modifier'^' flag'_' flag'a' flag'm' flag'o' operand is not constant'q' flag(%s) is false(C)(Obsolete after 10.3.9) Set MH_NOPREFIXBINDING, in an executable.(Obsolete after 10.4)	Set MH_NOMULTIDEFS in an umbrella framework.(Obsolete after 10.4) -multiply_defined <treatment>	Provided a mechanism for warning about symbols defined in multiple dylibs.(Obsolete after 10.4) -multiply_defined_unused <treatment>	Provided a mechanism for warning about symbols defined in the current executable also being defined in linked dylibs.(Obsolete after 10.4) Multi modules are ignored at runtime since macOS 10.4.(Obsolete and unhandled by ld64, ignored)	ld should produce an executable (only handled by ld_classic).(Obsolete)	This is the default.(Obsolete) -sectobjectsymbols <segname> <sectname>	Setting a local symbol at the start of a section is no longer supported.(Obsolete) -sectorder <segname> <sectname> <orderfile>	Replaced by a more general option "-order_file".(Obsolete) Allowed linking to proceed with "-flat_namespace" when a linked bundle contained a symbol also exported from the main executable.(Obsolete) Current linkers never dead-strip these items, so the option is not needed.(Obsolete) LD_PREBIND is no longer supported.(Obsolete) Object files with LINKEDIT sections are no longer supported.(Obsolete) This is the default.(Obsolete, ignored)	Old support similar to "-whyload".(Obsolete, ld_classic only) -sectcreate <segname> <sectname> <file>	Allowed creation of a section from a file.(Obsolete, ld_classic only) -seg_addr_table_filename <path>.(a pointer to member can only be formed with %<&%E%>)(an out of class initialization is required)(anonymous namespace)(anonymous)(if this is not what you intended, make sure the function template has already been declared and add %<<>%> after the function name here)(if you use %<-fpermissive%> or %<-std=c++11%>, or %<-std=gnu++11%> G++ will accept your code)(if you use %<-fpermissive%>, G++ will accept your code, but allowing the use of an undeclared name is deprecated)(messages without a matching method signature will be assumed to return %<id%> and accept %<...%> as arguments)(near initialization for %qs)(no argument)(perhaps %<typename %T::%E%> was intended)(perhaps a semicolon is missing after the definition of %qT)(so you should pass %qT not %qT to %<va_arg%>)(static destructors for %s)(static initializers for %s)(the message is displayed only once per source file)
({anonymous})*** WARNING *** there are active plugins, do not report this as a bug unless you can reproduce it without enabling any plugins.
*this--help=<class>	Display descriptions of a specific class of options.  <class> is one or more of optimizers, target, warnings, undocumented, params.--param inline-unit-growth limit reached--param large-function-growth limit reached--param large-stack-frame-growth limit reached--param max-inline-insns-auto limit reached--param max-inline-insns-single limit reached--param=evrp-mode=[legacy|ranger|legacy-first|ranger-first|ranger-trace|ranger-debug|trace|debug] Specifies the mode Early VRP should operate in.--param=openacc-kernels=[decompose|parloops]	Specify mode of OpenACC 'kernels' constructs handling.--param=parloops-schedule=[static|dynamic|guided|auto|runtime]	Schedule type of omp schedule for loops parallelized by parloops.-A<question>=<answer>	Assert the <answer> to <question>.  Putting '-' before <question> disables the <answer> to <question>.-D<macro>[=<val>]	Define a <macro> with <val> as its value.  If just <macro> is given, <val> is taken to be 1.-E or -x required when input is from standard input-F <dir>	Add <dir> to the end of the main framework include path.-G<number>	Put global and static data smaller than <number> bytes into a special section (on some targets).-Hd <dir>	Write D interface files to directory <dir>.-Hf <file>	Write D interface to <file>.-I <dir>	Add <dir> to the end of the main include path.-J<directory>	Put MODULE files in 'directory'.-MF <file>	Write dependency output to the given file.-MQ <target>	Add a target that may require quoting.-MT <target>	Add a target that does not require quoting.-O<number>	Set optimization level to <number>.-U<macro>	Undefine <macro>.-Waligned-new=[none|global|all]	Warn even if 'new' uses a class member allocation function.-Walloc-size-larger-than=<bytes>	Warn for calls to allocation functions that attempt to allocate objects larger than the specified number of bytes.-Walloca-larger-than=<number>	Warn on unbounded uses of alloca, and on bounded uses of alloca whose bound can be larger than <number> bytes.-Wframe-larger-than=<byte-size>	Warn if a function's stack frame requires in excess of <byte-size>.-Wlarger-than=<byte-size>	Warn if an object's size exceeds <byte-size>.-Wnormalized=[none|id|nfc|nfkc]	Warn about non-normalized Unicode strings.-Wstack-usage=<byte-size>	Warn if stack usage might exceed <byte-size>.-Wvla-larger-than=<number>	Warn on unbounded uses of variable-length arrays, and on bounded uses of variable-length arrays whose bound can be larger than <number> bytes.-Xbind-now and -Xbind-lazy are incompatible-Xf <file>	Write JSON output to the given <file>.-allowable_client <name>	The output dylib is private to the client <name>.-arch <name>	Generate output for architecture <name>.-aux-info <file>	Emit declaration information into <file>.-bundle not allowed with -dynamiclib-bundle_loader <executable>	Treat <executable> (that will be loading this bundle) as if it was one of the dynamic libraries the bundle is linked against for symbol resolution.-bundle_loader not allowed with -dynamiclib-c or -S required for Ada-c required for gnat2scil-c required for gnat2why-client_name <name>	Enable the executable being built to link against a private dylib (using allowable_client).-client_name not allowed with -dynamiclib-compatibility_version <number>	Set the version for the client interface.  Client programs must record a value less than or equal to <number>, or the binding will fail at runtime.-current_version <number>	Set the current version for the library to <number>.-current_version only allowed with -dynamiclib-d<letters>	Enable dumps from specific passes of the compiler.-dumpbase <file>	Set the file basename to be used for dumps.-dumpbase-ext .<ext>    Drop a trailing .<ext> from the dump basename to name auxiliary output files.-dumpdir <dir>	Set the directory name to be used for dumps.-dylinker_install_name <path>	Only used for building dyld.-exported_symbols_list <filename>	Export global symbols in <filename> in linked output file; any symbols not mentioned will be treated as "hidden".-f%s ignored (not supported for DJGPP)
-fada-spec-parent=unit	Dump Ada specs as child units of given parent.-faligned-new=<N>	Use C++17 over-aligned type allocation for alignments greater than N.-fasan-shadow-offset=<number>	Use custom shadow memory offset.-fblas-matmul-limit=<n>	Size of the smallest matrix for which matmul will use BLAS.-fbounds-check=[on|safeonly|off]	Turn array bounds checks on, in @safe code only, or off.-fcall-saved-<register>	Mark <register> as being preserved across functions.-fcall-used-<register>	Mark <register> as being corrupted by function calls.-fcf-protection=[full|branch|return|none|check]	Instrument functions with checks to verify jump/call/return control-flow transfer instructions have valid targets.-fcheck=[...]	Specify which runtime checks are to be performed.-fcoarray=<none|single|lib>	Specify which coarray parallelization should be used.-fcompare-debug[=<opts>]	Compile with and without e.g. -gtoggle, and compare the final-insns dump.-fconst-string-class=<name>	Use class <name> for constant strings.-fconstexpr-cache-depth=<number>	Specify maximum constexpr recursion cache depth.-fconstexpr-depth=<number>	Specify maximum constexpr recursion depth.-fconstexpr-loop-limit=<number>	Specify maximum constexpr loop iteration count.-fconstexpr-ops-limit=<number>	Specify maximum number of constexpr operations during a single constexpr evaluation.-fconvert=<big-endian|little-endian|native|swap>	The endianness used for unformatted files.-fdbg-cnt=<counter>[:<lower_limit1>-]<upper_limit1>[:<lower_limit2>-<upper_limit2>:...][,<counter>:...]	Set the debug counter limit.-fdebug-prefix-map=<old>=<new>	Map one directory name to another in debug information.-fdebug=<level|ident>	Compile in debug code, code <= <level>, or code identified by <ident>.-fdiagnostics-color=[never|always|auto]	Colorize diagnostics.-fdiagnostics-column-origin=<number>	Set the number of the first column.  The default is 1-based as per GNU style, but some utilities may expect 0-based, for example.-fdiagnostics-column-unit=[display|byte]	Select whether column numbers are output as display columns (default) or raw bytes.-fdiagnostics-format=[text|json]	Select output format.-fdiagnostics-show-location=[once|every-line]	How often to emit source location at the beginning of line-wrapped diagnostics.-fdiagnostics-urls=[never|always|auto]	Embed URLs in diagnostics.-fdisable-[tree|rtl|ipa]-<pass>=range1+range2	Disable an optimization pass.-fdoc-dir=<dir>	Write documentation file to directory <dir>.-fdoc-file=<file>	Write documentation to <file>.-fdoc-inc=<file>	Include a Ddoc macro <file>.-fdump-<type>	Dump various compiler internals to a file.-fdump-final-insns=filename	Dump to filename the insns at the end of translation.-fdump-go-spec=filename	Write all declarations to file as Go code.-femit-struct-debug-baseonly	Aggressive reduced debug info for structs.-femit-struct-debug-detailed=<spec-list>	Detailed reduced debug info for structs.-femit-struct-debug-reduced	Conservative reduced debug info for structs.-fenable-[tree|rtl|ipa]-<pass>=range1+range2	Enable an optimization pass.-fexcess-precision=[fast|standard]	Specify handling of excess floating-point precision.-fexec-charset=<cset>	Convert all strings and character constants to character set <cset>.-ffile-prefix-map=<old>=<new>	Map one directory name to another in compilation result.-ffixed-<register>	Mark <register> as being unavailable to the compiler.-ffixed-line-length-<n>	Use n as character line width in fixed mode.-ffp-contract=[off|on|fast]	Perform floating-point expression contraction.-ffpe-summary=[...]	Print summary of floating point exceptions.-ffpe-trap=[...]	Stop on following floating point exceptions.-ffree-line-length-<n>	Use n as character line width in free mode.-fgnat-encodings=[all|gdb|minimal]	Select the balance between GNAT encodings and standard DWARF emitted in the debug information.-fgo-c-header=<file>	Write Go struct definitions to file as C code.-fgo-debug-escape-hash=<string>	Hash value to debug escape analysis.-fgo-dump-<type>	Dump Go frontend internal information.-fgo-embedcfg=<file>	List embedded files via go:embed.-fgo-optimize-<type>	Turn on optimization passes in the frontend.-fgo-pkgpath=<string>	Set Go package path.-fgo-prefix=<string>	Set package-specific prefix for exported Go names.-fgo-relative-import-path=<path>	Treat a relative import as relative to path.-finit-character=<n>	Initialize local character variables to ASCII value n.-finit-integer=<n>	Initialize local integer variables to n.-finit-logical=<true|false>	Initialize local logical variables.-finit-real=<zero|snan|nan|inf|-inf>	Initialize local real variables.-finline-arg-packing	Perform argument packing inline.-finline-limit=<number>	Limit the size of inlined functions to <number>.-finline-matmul-limit=<n>	Specify the size of the largest matrix for which matmul will be inlined.-finput-charset=<cset>	Specify the default character set for source files.-finstrument-functions-exclude-file-list=filename,...	Do not instrument functions listed in files.-finstrument-functions-exclude-function-list=name,...	Do not instrument listed functions.-fira-algorithm=[CB|priority]	Set the used IRA algorithm.-fira-region=[one|all|mixed]	Set regions for IRA.-fira-verbose=<number>	Control IRA's level of diagnostic messages.-flive-patching=[inline-only-static|inline-clone]	Control IPA optimizations to provide a safe compilation for live-patching.  At the same time, provides multiple-level control on the enabled IPA optimizations.-flto-compression-level=<number>	Use zlib/zstd compression level <number> for IL.-fmacro-prefix-map=<old>=<new>	Map one directory name to another in __FILE__, __BASE_FILE__, and __builtin_FILE().-fmax-array-constructor=<n>	Maximum number of objects in an array constructor.-fmax-errors=<number>	Maximum number of errors to report.-fmax-identifier-length=<n>	Maximum identifier length.-fmax-stack-var-size=<n>	Size in bytes of the largest array that will be put on the stack.-fmax-subrecord-length=<n>	Maximum length for subrecords.-fmessage-length=<number>	Limit diagnostics to <number> characters per line.  0 suppresses line-wrapping.-fmodule-file=<package.module>=<filespec>	use <filespec> as source file for <package.module>.-fno-threadsafe-statics	Do not generate thread-safe code for initializing local statics.-foffload-abi=[lp64|ilp32]	Set the ABI to use in an offload compiler.-foffload=<targets>=<options>	Specify offloading targets and options for them.-fopt-info[-<type>=filename]	Dump compiler optimization details.-force_flat_namespace not allowed with -dynamiclib-fpack-struct=<number>	Set initial maximum structure member alignment.-fpermitted-flt-eval-methods=[c11|ts-18661]	Specify which values of FLT_EVAL_METHOD are permitted.-fplugin-arg-<name>-<key>[=<value>]	Specify argument <key>=<value> for plugin <name>.-fprofile-reproducible=[serial|parallel-runs|multithreaded]	Control level of reproducibility of profile gathered by -fprofile-generate.-fprofile-update=[single|atomic|prefer-atomic]	Set the profile update method.-framework <name>	The linker should search for the framework <name> in the framework search path.-frandom-seed=<string>	Make compile reproducible using <string>.-freorder-blocks-algorithm=[simple|stc]	Set the used basic block reordering algorithm.-fsanitize-sections=<sec1,sec2,...>	Sanitize global variables in user-defined sections.-fsanitize=address is not supported in this configuration-fsched-stalled-insns-dep=<number>	Set dependence distance checking in premature scheduling of queued insns.-fsched-stalled-insns=<number>	Set number of queued insns that can be prematurely scheduled.-fsched-verbose=<number>	Set the verbosity level of the scheduler.-fsimd-cost-model=[unlimited|dynamic|cheap|very-cheap]	Specifies the vectorization cost model for code marked with a simd directive.-fsso-struct=[big-endian|little-endian|native]	Set the default scalar storage order.-fstack-check=[no|generic|specific]	Insert stack checking code into the program.-fstack-limit-register=<register>	Trap if the stack goes past <register>.-fstack-limit-symbol=<name>	Trap if the stack goes past symbol <name>.-fstack-reuse=[all|named_vars|none]	Set stack reuse level for local variables.-ftabstop=<number>      Distance between tab stops for column reporting.-ftemplate-depth=<number>	Specify maximum template instantiation depth.-ftls-model=[global-dynamic|local-dynamic|initial-exec|local-exec]	Set the default thread-local storage code generation model.-ftrack-macro-expansion=<0|1|2>	Track locations of tokens coming from macro expansion and display them in error messages.-ftree-parallelize-loops=<number>	Enable automatic parallelization of loops.-fuse-linker-plugin is not supported in this configuration-fvect-cost-model=[unlimited|dynamic|cheap|very-cheap]	Specifies the cost model for vectorization.-fversion=<level|ident>	Compile in version code >= <level> or identified by <ident>.-fvisibility=[default|internal|hidden|protected]	Set the default symbol visibility.-fvisibility=[private|protected|public|package]	Set the default symbol visibility.-fvtable-verify=preinit is not supported in this configuration-fvtable-verify=std is not supported in this configuration-fwide-exec-charset=<cset>	Convert all wide strings and character constants to character set <cset>.-gnat<options>	Specify options to GNAT.-gz is not supported in this configuration-gz=<format>	Generate compressed debug sections in format <format>.-gz=zlib is not supported in this configuration-idirafter <dir>	Add <dir> to the end of the system include path.-iframework <dir>	Add <dir> to the end of the system framework include path.-imacros <file>	Accept definition of macros in <file>.-image_base <address>	Specify <address> as the base address for a dylib or bundle.-imultiarch <dir>	Set <dir> to be the multiarch include subdirectory.-imultilib <dir>	Set <dir> to be the multilib include subdirectory.-include <file>	Include the contents of <file> before other files.-init <symbol_name>	The symbol <symbol_name> will be used as the first initialiser for a dylib.-install_name <name>	Set the install name for a dylib.-install_name only allowed with -dynamiclib-iplugindir=<dir>	Set <dir> to be the default plugin directory.-iprefix <path>	Specify <path> as a prefix for next two options.-iquote <dir>	Add <dir> to the end of the quote include path.-isysroot <dir>	Set <dir> to be the system root directory.-isystem <dir>	Add <dir> to the start of the system include path.-iwithprefix <dir>	Add <dir> to the end of the system include path.-iwithprefixbefore <dir>	Add <dir> to the end of the main include path.-keep_private_externs not allowed with -dynamiclib-mabi=ABI	Generate code that conforms to the given ABI.-mabs=MODE	Select the IEEE 754 ABS/NEG instruction execution mode.-march=	Generate code for given RISC-V ISA (e.g. RV64IM).  ISA strings must be lower-case.-march=ARCH	Generate code for the specified chip or CPU version.-march=ISA	Generate code for the given ISA.-mas100-syntax is incompatible with -gdwarf-mbig-endian and -mlittle-endian may not be used together-mbranch-cost=COST	Set the cost of branches to roughly COST instructions.-mbranch-cost=N	Set the cost of branches to roughly N instructions.-mcall-ABI	Select ABI calling convention.-mcode-readable=SETTING	Specify when instructions are allowed to access code.-mcode-region requires the large memory model (-mlarge)-mcpu=	Use features of and schedule code for given CPU.-mcpu=CPU	Compile code for ARC variant CPU.-mcpu=CPU	Use features of and schedule code for given CPU.-mcpu=PROCESSOR		Use features of and schedule code for given CPU.-mcpu=PROCESSOR	Use architecture of and optimize the output for PROCESSOR.-mcpu=m16c	Compile code for M16C variants.-mcpu=m32c	Compile code for M32C variants.-mcpu=m32cm	Compile code for M32CM variants.-mcpu=r8c	Compile code for R8C variants.-mdata-region requires the large memory model (-mlarge)-mdebug=	Enable debug output.-mdouble=<BITS>	Use <BITS> bits wide double type.-memregs=	Number of memreg bytes (default: 16, range: 0..16).-mfloat-abi=soft and -mfloat-abi=hard may not be used together-mflush-func=FUNC	Use FUNC to flush the cache before calling stack trampolines.-mhard-float not supported-mipsN	Generate code for ISA level N.-mlarge-data-threshold=<number>	Data greater than given threshold will go into .ldata section in x86-64 medium model.-mlong-double=<BITS>	Use <BITS> bits wide long double type.-mmax-stackframe=SIZE	Warn when a stackframe is larger than the specified size.-mmcu=MCU	Select the target MCU.-mmcu=MCU	Select the target System-On-Chip variant that embeds this PRU.-mmpy-option=MPY	Compile ARCv2 code with a multiplier design option.-mnan=ENCODING	Select the IEEE 754 NaN data encoding.-mno-serialize-volatile	Do not serialize volatile memory references with MEMW instructions.-moverride=<string>	Power users only! Override CPU optimization parameters.-mpointer-size=[no,32,short,64,long]	Set the default pointer size.-mr10k-cache-barrier=SETTING	Specify when r10k cache barriers should be inserted.-msdata=[none,data,sysv,eabi]	Select method for sdata handling.-msim	Use simulator runtime.-msingle-float and -msoft-float cannot both be specified-msmall-data-limit=N	Put global and static data smaller than <number> bytes into a special section (on some targets).-mstack-size=<number>	Set the private segment size per wave-front, in bytes.-msve-vector-bits=<number>	Set the number of bits in an SVE vector register.-mtarget-linker <version>	Specify that ld64 <version> is the toolchain linker for the current invocation.-mtls-size=[16,32]	Specify bit size of immediate TLS offsets.-mtpf-trace-hook-epilogue-check requires integer in range 0..4095-mtpf-trace-hook-epilogue-target requires integer in range 0..4095-mtpf-trace-hook-prologue-check requires integer in range 0..4095-mtpf-trace-hook-prologue-target requires integer in range 0..4095-mtraceback=[full,part,no]	Select type of traceback table.-mtune=	Schedule code for given CPU.-mtune=ARCH	Tune alignment for the specified chip or CPU version.-mtune=PROCESSOR	Optimize the output for PROCESSOR.-mtune=TUNE	Tune code for given ARC variant.-mx32 is not supported on Solaris-o <file>	Place output into <file>.-pagezero_size <size>	Allows setting the page 0 size to 4kb when required.-pg and -fomit-frame-pointer are incompatible-pie is not supported in this configuration-private_bundle not allowed with -dynamiclib-read_only_relocs <treatment>	Allow relocations in read-only pages (not recommended).-sectalign <segname> <sectname> <value>	Set section <sectname> in segment <segname> to have alignment <value> which must be an integral power of two expressed in hexadecimal form.-sectcreate <segname> <sectname> <file>	Create section <sectname> in segment <segname> from the contents of <file>.-seg_addr_table <file>	Specify the base addresses for dynamic libraries; <file> contains a line for each library.-segaddr <name> <address>	Set the base address of segment <name> to <address> which must be aligned to a page boundary (currently 4kb).-segprot <segname> <max_prot> <init_prot>	The virtual memory protections for segment <segname> have maximum and initial values <max_prot> and <init_prot> respectively.  The specified values may contain "r", "w", "x" or "-" the latter meaning "no access".-segs_read_only_addr <address>	Specify that <address> is the base address of the read-only segments of a dylib.-segs_read_write_addr <address>	Specify that <address> is the base address address of the read-write segments of a dylib.-stdlib=[libstdc++|libc++]	The standard library to be used for C++ headers and runtime.-sub_library <name>	Library named <name> will be re-exported (only useful for dylibs).-sub_umbrella <name>	Framework named <name> will be re-exported (only useful for dylibs).-trigraphs	Support ISO C trigraphs.-umbrella <framework>	The specified framework will be re-exported.-undefined <treatment>	Specify the handling for undefined symbols (default is error).-unexported_symbols_list <filename>	Do not export the global symbols listed in <filename>.-weak_reference_mismatches <treatment>	Specifies what to do if a symbol import conflicts between file (weak in one and not in another) the default is to treat the symbol as non-weak.... to the previous %qs clause here... with %qs clause here... without %qs clause near to here...following parameter %P which has a default argument...this statement, but the latter is misleadingly indented as if it were guarded by the %qs.NOT. operator in expression at %L must have a LOGICAL operand.XOR. operator at %C/* Prototypes for external procedures generated from %s
   by GNU Fortran %s%s.

   Use of this interface is discouraged, consider using the
   BIND(C) feature of standard Fortran instead.  */

128-bit %<long double%> not supported for VAX floats31 bit ABI.387 instruction set disabled, using SSE arithmetics64 bit ABI.64-bit ABI not supported in ESA/390 mode: Unable to initialize enum with class or pointer to struct. Use static const variable instead.; use assignment instead; use assignment or value-initialization instead; use copy-assignment instead; use copy-assignment or copy-initialization instead; use copy-initialization instead; use value-initialization instead<During initialization>
<anonymous><brace-enclosed initializer list><built-in><command-line><declaration error><enumerator><erroneous-expression><expression error><lambda<lambda><missing><return value> <return-value><statement><structured bindings><tag-error><template arguments error><template parameter error><throw-expression><type error><type-error><typedef-error><typeprefixerror><ubsan routine call><unknown operator><unknown><unnamed %s><unnamed-fixed:<unnamed-float:<unnamed-unsigned:<unnamed><unparsed><unresolved overloaded function type>A BOZ literal constant at %L cannot appear as an actual argument in a function referenceA BOZ literal constant at %L cannot appear as an actual argument in a subroutine referenceA factor for tuning the upper bound that swing modulo scheduler uses for scheduling a loop.A floatig point to integer truncation may be replaced with rounding to save mode switching.A non-default set of initial values has been requested, which violates the ABIA parameter name is required at %CA synonym for -std=c89 (for C) or -std=c++98 (for C++).A threshold on the average loop count considered by the swing modulo scheduler.A type parameter list is required at %CAAPCS does not support %<-mcallee-super-interworking%>AAPCS does not support %<-mcaller-super-interworking%>ABI for flattened struct with zero-length bit-fields changed in GCC 10ABI requires %<-march=rv%d%>ABI variant code generation (for use with -mabi= option):ABSTRACT INTERFACE %qs at %L must not have an assumed character length result (F2008: C418)ABSTRACT INTERFACE %qs must not be referenced at %LABSTRACT INTERFACE at %CABSTRACT type %qs used at %LABSTRACT type at %CAC-IMPLIED-DO final expression references control variable at %LAC-IMPLIED-DO initial expression references control variable at %LAC-IMPLIED-DO step expression references control variable at %LACC CACHE directive must be inside of loop %CACCESS specification at %L was already specifiedACQUIRED_LOCK variableACQUIRED_LOCK= argument at %L must be a scalar LOGICAL variableACTION type conflicts with READONLY specifier at %LALLOCATABLE attribute at %C in a STRUCTURE definitionALLOCATABLE attribute at %C in a TYPE definitionALLOCATABLE object %qs in %s clause at %LALLOCATABLE specified outside of INTERFACE body at %LALLOCATE objectALLOCATE of coarray at %C in CRITICAL blockALLOCATE of coarray at %C in DO CONCURRENT blockALLOCATED intrinsic at %L requires an array or scalar allocatable entityALTERNATE RETURN not permitted at %LAPCS reentrant code not supported.  IgnoredARMv8-M Security Extensions incompatible with selected FPUASSIGN statement at %CASSIGN statement at %L requires a scalar default INTEGER variableASSIGNED GOTO statement at %L requires a scalar INTEGER variableASSIGNED variable in FORMAT tag at %LASSOCIATE construct at %CASSOCIATE name %qs in %s clause at %LASSOCIATE name %qs in SHARED clause at %LASYNCHRONOUS attribute at %CASYNCHRONOUS statement at %CASYNCHRONOUS= at %L not allowed in Fortran 95ATOM argument at %L of the %s intrinsic function shall be a coarray or coindexedATOM argument at %L to intrinsic function %s shall be an integer of ATOMIC_INT_KINDATOM argument at %L to intrinsic function %s shall be an integer of ATOMIC_INT_KIND or a logical of ATOMIC_LOGICAL_KINDATOM argument of the %s intrinsic function at %L shall be definableAUX pointer initialized for edge %d->%dAVX vector argument without AVX enabled changes the ABIAVX vector return without AVX enabled changes the ABIAVX512F vector argument without AVX512F enabled changes the ABIAVX512F vector return without AVX512F enabled changes the ABIAbbreviation for "-g -feliminate-unused-debug-symbols".Abbreviation for "-g -fno-eliminate-unused-debug-symbols".Absolute value of SHIFT shall be less than or equal to SIZE at %CAbstract interface %qs is invalid in procedure pointer assignment at %LAccept argument mismatches in procedure calls.Accept extensions to support legacy code.Access data in the same section from shared anchor points.Access offset before parent offsetAccess overlaps with its siblingAccess size greater or equal to its parent sizeAccess specification of the %s operator at %C has already been specifiedAccess specification of the .%s. operator at %C has already been specifiedAccess terminates outside of its parentAccumulate outgoing function arguments and acquire/release the needed stack space for outgoing function arguments in function prologue/epilogue.  Without this option, outgoing arguments are pushed before calling a function and popped afterwards.  This option can lead to reduced code size for functions that call many functions that get their arguments on the stack like, for example printf.Actual CLASS array argument for %qs must be a full array at %LActual argument at %L for INTENT(%s) dummy %qs of ELEMENTAL subroutine %qs is a scalar, but another actual argument is an arrayActual argument at %L of %qs intrinsic shall be an associated pointerActual argument at %L to allocatable or pointer dummy argument %qs must have a deferred length type parameter if and only if the dummy has oneActual argument at %L to assumed-type dummy is of derived type with type-bound or FINAL proceduresActual argument contains too few elements for dummy argument %qs (%lu/%lu) at %LActual argument for %qs cannot be an assumed-size array at %LActual argument for %qs must be ALLOCATABLE at %LActual argument for %qs must be a pointer at %LActual argument of EVENT_TYPE or with EVENT_TYPE component at %L requires an explicit interface for procedure %qsActual argument of LOCK_TYPE or with LOCK_TYPE component at %L requires an explicit interface for procedure %qsActual argument to %qs at %L must be a coarrayActual argument to %qs at %L must be polymorphicActual argument to %qs at %L must be simply contiguous or an element of such an arrayActual argument to %qs at %L must be unlimited polymorphic since the formal argument is a pointer or allocatable unlimited polymorphic entity [F2008: 12.5.2.5]Actual argument to %qs at %L must have the same declared typeActual argument to contiguous pointer dummy %qs at %L must be simply contiguousActual argument to non-INTENT(INOUT) dummy %qs at %L, which is EVENT_TYPE or has a EVENT_TYPE componentActual argument to non-INTENT(INOUT) dummy %qs at %L, which is LOCK_TYPE or has a LOCK_TYPE componentActual string length does not match the declared one for dummy argument '%s' (%ld/%ld)Actual string length is shorter than the declared one for dummy argument '%s' (%ld/%ld)Add a common subexpression elimination pass after loop optimizations.Add description attributes to some DWARF DIEs that have no name attribute.Add explicit checks for division by zero.Add explicit checks for division overflow in INT_MIN / -1.Add extra commentary to assembler output.Add extra information to the executable that can speed up dynamic loading (provided that dependent libraries are unchanged).Add the .lower prefix to section names when compiling with -m{code,data}-region=lower (disabled by default).Additional debug prints.After diagnosing undefined behavior attempt to continue execution.Aggressively optimize loops using language constraints.Alias and target%'s comdat groups differsAlias and target%'s section differsAlias for --help=target.Alias for -mcpu=g10.Alias for -mcpu=g13.Alias for -mcpu=g14.Alias has call edgesAlias has more than one alias referenceAlias has non-alias referenceAlign all labels.Align all loops to 32 byte boundary.Align code and data to 32 bits.Align destination of the string operations.Align doubles at 64-bit boundaries.Align function entry to 4 byte.Align labels which are only reached by jumping.Align some doubles on dword boundary.Align the start of functions.Align the start of loops.Align to the base type of the bit-field.Align to the base type of the bit-field. Don't assume that unaligned accesses are handled by the system.Align variables on a 32-bit boundary.All intrinsics procedures are available regardless of selected standard.All memory accesses use I/O load/store instructions.All the LEN type parameters in the TYPE IS statement at %C must be ASSUMEDAllocatable %qs at %L cannot have an initializerAllocatable array %qs at %L must have a deferred shape or assumed rankAllocatable coarray variable %qs at %L must have deferred shapeAllocatable component %s at %L must have a codimension as it has a noncoarray subcomponent of type EVENT_TYPEAllocatable component %s at %L must have a codimension as it has a noncoarray subcomponent of type LOCK_TYPEAllocatable component %s at %L of type EVENT_TYPE must have a codimensionAllocatable component %s at %L of type LOCK_TYPE must have a codimensionAllocatable component of structure at %C must have a deferred shapeAllocatable component or deferred-shaped array near %C in DATA statementAllocatable function %qs at %L must have an explicit function interfaceAllocate local variables on the stack to allow indirect recursion.Allocate-object at %C is not a nonprocedure pointer nor an allocatable variableAllocate-object at %L also appears at %LAllocate-object at %L is neither a data pointer nor an allocatable variableAllocate-object at %L is subobject of object at %LAllocate-object at %L must be ALLOCATABLE or a POINTERAllocate-object at %L with a deferred type parameter requires either a type-spec or SOURCE tag or a MOLD tagAllocating %s at %L with type-spec requires the same character-length parameter as in the declarationAllocating %s of ABSTRACT base type at %L requires a type-spec or source-exprAllow (or do not allow) gcc to use the LOOP instruction.Allow a BOZ literal constant to appear in an invalid context and with X instead of Z.Allow access to instance variables as if they were local declarations within instance method implementations.Allow arbitrary character line width in fixed mode.Allow arbitrary character line width in free mode.Allow bit-fields to cross word boundaries.Allow branches to be packed with other instructions.Allow built-in functions ceil, floor, round, trunc to raise "inexact" exceptions.Allow dollar signs in entity names.Allow fast jumps to the message dispatcher.Allow function addresses to be held in registers.Allow gcc to generate LIW instructions.Allow gcc to generate the SETLB and Lcc instructions.Allow hardware floating-point instructions to cover both 32-bit and 64-bit operations.Allow implicit conversions between vectors with differing numbers of subparts and/or differing element types.Allow interposing function (or variables) by ones with different semantics (or initializer) respectively by dynamic linker.Allow math optimizations that may violate IEEE or ISO standards.Allow optimization for floating-point arithmetic which may change the result of the operation due to rounding.Allow premature scheduling of queued insns.Allow readonly data in sdata.Allow sign extension in fusion operations.Allow speculative motion of more loads.Allow speculative motion of non-loads.Allow speculative motion of some loads.Allow the arguments of the '?' operator to have different types.Allow the compiler to introduce new data races on stores.Allow the store merging pass to introduce unaligned stores if it is legal to do so.Allow the use of MDMX instructions.Allow the use of MT instructions.Allow the use of hardware floating point instructions for V850E2V3 and up.Allow the use of hardware floating-point ABI and instructions.Allow to use truncation instead of rounding towards zero for fractional fixed-point types.Allow two instructions to be issued per cycle.Allow usage of __gcc_isr pseudo instructions in ISR prologues and epilogues.Allow use r15 for inline ASM.Allow variadic functions without named parameter.Already inside a CONTAINS block at %CAlternate RETURN statement at %C is only allowed within a SUBROUTINEAlternate RETURN statement at %L requires a SCALAR-INTEGER return specifierAlternate calling convention.Alternate return at %L is not permitted in a DTIO procedureAlternate return cannot appear in operator interface at %LAlternate return dummy argument cannot appear in a SUBROUTINE with the BIND(C) attribute at %LAlternate return specifier in elemental subroutine %qs at %L is not allowedAlternate return specifier in function %qs at %L is not allowedAlternate-return argument at %CAlthough not referenced, %qs has ambiguous interfaces at %LAltiVec argument passed to unprototyped functionAltiVec not supported in this targetAlways align function entry, jump target and return address.Always generate long calls.Always save $lp in the stack.Always treat bitfields as int-sized.Always use Dynamic Realigned Argument Pointer (DRAP) to realign stack.Always use JSR, never BSR, for calls.Ambiguous !$OMP DECLARE REDUCTION from module %s at %LAmbiguous interfaces in %s for %qs at %L and %qs at %LAmbiguous symbol in TYPE definition at %CAmend appropriate diagnostic messages with the command line option that controls them.An alias for minterlink-compressed provided for backward-compatibility.An alternate return at %L without a * dummy argumentAn indirect edge from %s is not marked as indirect or has associated indirect_info, the corresponding statement is: An outer FORALL construct already has an index with this name %LAnalyze and remove doubleword swaps from VSX computations.Analyzed alias has no referenceAnnotate assembler instructions with estimated addresses.Append a second underscore if the name already contains an underscore.Append underscores to externally visible names.Apply negative sign to zero values.Apply special rules for compiling runtime package.Apply variable expansion when loops are unrolled.Approximate the effect of function calls to simplify analysis.Argument %<A%> with INTENT(INOUT) at %L of the intrinsic subroutine %s shall not have a vector subscriptArgument %<S%> of NEAREST at %L shall not be zeroArgument %qs appears twice in call to %qs at %LArgument %qs of %qs intrinsic at %L must be in type conformance to argument %qs at %LArgument %qs of %qs with PASS(%s) at %L may not be ALLOCATABLEArgument %qs of %qs with PASS(%s) at %L may not have the POINTER attributeArgument %qs of %qs with PASS(%s) at %L must be of the derived type %qsArgument %qs of %qs with PASS(%s) at %L must be of the derived-type %qsArgument %qs of %qs with PASS(%s) at %L must be scalarArgument %qs of MOD at %L shall not be zeroArgument %qs of MODULO at %L shall not be zeroArgument %qs of elemental procedure %qs at %L must have its INTENT specified or have the VALUE attributeArgument %qs of elemental procedure at %L cannot have the ALLOCATABLE attributeArgument %qs of elemental procedure at %L cannot have the POINTER attributeArgument %qs of elemental procedure at %L must be scalarArgument %qs of pure function %qs at %L must be INTENT(IN) or VALUEArgument %qs of pure function %qs at %L with VALUE attribute but without INTENT(IN)Argument %qs of pure subroutine %qs at %L must have its INTENT specified or have the VALUE attributeArgument %qs of pure subroutine %qs at %L with VALUE attribute but without INTENTArgument '%s' of statement function '%s' at %L must be scalarArgument CPTR at %L to C_F_POINTER shall have the type TYPE(C_PTR)Argument CPTR at %L to C_F_PROCPOINTER shall have the type TYPE(C_FUNPTR)Argument C_PTR_1 at %L to C_ASSOCIATED shall have the type TYPE(C_PTR) or TYPE(C_FUNPTR)Argument C_PTR_2 at %L to C_ASSOCIATED shall have the same type as C_PTR_1: %s instead of %sArgument FPTR at %L to C_F_POINTER must be a pointerArgument FPTR at %L to C_F_POINTER shall not be coindexedArgument FPTR at %L to C_F_PROCPOINTER shall be a procedure pointerArgument FPTR at %L to C_F_PROCPOINTER shall not be coindexedArgument NCOPIES of REPEAT intrinsic is negative (its value is %ld)Argument NCOPIES of REPEAT intrinsic is negative at %LArgument NCOPIES of REPEAT intrinsic is too largeArgument NCOPIES of REPEAT intrinsic is too large at %LArgument X at %L to C_FUNLOC shall be a procedure or a procedure pointerArgument X at %L to C_FUNLOC shall not be coindexedArgument X at %L to C_LOC shall be not be a zero-sized stringArgument X at %L to C_LOC shall have either the POINTER or the TARGET attributeArgument X at %L to C_LOC shall not be coindexedArgument at %L to C_LOC shall not be polymorphicArgument dim at %L must be of INTEGER typeArgument dim at %L must be scalarArgument mismatch for the overriding procedure %qs at %L: %sArgument must be a constant between 0 and 31.Argument must be a value between 0 and 3.Argument must be a value between 0 and 7.Argument of %s at %L must be of length oneArgument of %s function at %L is negativeArgument of %s function at %L is too large for the collating sequence of kind %dArgument of %s function at %L outside of range [0,127]Argument of ACOS at %L must be between -1 and 1Argument of ACOSD at %L must be between -1 and 1Argument of ACOSH at %L must not be less than 1Argument of ASIN at %L must be between -1 and 1Argument of ASIND at %L must be between -1 and 1Argument of ATANH at %L must be inside the range -1 to 1Argument of FINAL procedure at %L must be of type %qsArgument of FINAL procedure at %L must not be ALLOCATABLEArgument of FINAL procedure at %L must not be INTENT(OUT)Argument of FINAL procedure at %L must not be OPTIONALArgument of FINAL procedure at %L must not be a POINTERArgument of IACHAR at %L must be of length oneArgument of IACHAR function at %L outside of range 0..127Argument of ICHAR at %L must be of length oneArgument of LOG at %L cannot be less than or equal to zeroArgument of LOG10 at %L cannot be less than or equal to zeroArgument of SELECT statement at %L cannot be %sArgument of SELECT statement at %L must be a scalar expressionArgument of SQRT at %L has a negative valueArgument to %<-fcheck%> is not valid: %sArgument to %<-ffpe-summary%> is not valid: %sArgument to %<-ffpe-trap%> is not valid: %sArgument types of %qs intrinsic at %L must match (%s/%s)Arguments of %qs at %L and %L cannot both be BOZ literal constantsArguments of %qs have different kind type parameters at %LArithmetic IF statement at %CArithmetic IF statement at %L requires a scalar REAL or INTEGER expressionArithmetic NaN at %LArithmetic NaN converting %s to %s at %L. This check can be disabled with the option %<-fno-range-check%>Arithmetic OK at %LArithmetic OK converting %s to %s at %LArithmetic overflow at %LArithmetic overflow converting %s to %s at %L. This check can be disabled with the option %<-fno-range-check%>Arithmetic underflow at %LArithmetic underflow converting %s to %s at %L. This check can be disabled with the option %<-fno-range-check%>Array %qs at %L cannot have a deferred shapeArray %qs at %L is a variable, which does not reduce to a constant expressionArray %qs at %L is larger than limit set by %<-fmax-stack-var-size=%>, moved from stack to static storage. This makes the procedure unsafe when called recursively, or concurrently from multiple threads. Consider using %<-frecursive%>, or increase the %<-fmax-stack-var-size=%> limit, or change the code to use an ALLOCATABLE array.Array %qs at %L with non-constant bounds cannot be an EQUIVALENCE objectArray %qs is not permitted in reduction at %LArray bound mismatch for dimension 1 of array (%ld/%ld)Array bound mismatch for dimension 2 of array (%ld/%ld)Array component of structure at %C must have an explicit shapeArray component of structure at %C must have explicit or deferred shapeArray constructor including type specification at %CArray constructor value at %L shall not be unlimited polymorphic [F2008: C4106]Array entity required at %LArray in initializer list at %L must have an explicit shapeArray index at %L is an array of rank %dArray index at %L must be of INTEGER type, found %sArray index at %L must be scalarArray is not contiguous at %LArray of interoperable type at %L to C_LOC which is nonallocatable and neither assumed size nor explicit sizeArray operands are incommensurate at %LArray operands are incommensurate converting %s to %s at %LArray pointer %qs at %L must have a deferred shape or assumed rankArray reference at %C cannot have more than %d dimensionsArray reference at %C has more than 7 dimensionsArray reference at %L is out of bounds (%ld < %ld) in codimension %dArray reference at %L is out of bounds (%ld < %ld) in dimension %dArray reference at %L is out of bounds (%ld > %ld) in codimension %dArray reference at %L is out of bounds (%ld > %ld) in dimension %dArray reference at %L out of bounds (%ld < %ld) in loop beginning at %LArray reference at %L out of bounds (%ld > %ld) in loop beginning at %LArray reference in EQUIVALENCE at %C cannot be an array sectionArray reference out of boundsArray section at %L to C_LOCArray section designator, e.g. '(:)', is required besides the coarray designator '[...]' at %CArray section with a vector subscript at %L shall not be the target of a pointerArray sections: %qs not allowed in !$ACC DECLARE at %LArray specification at %C has more than %d dimensionsArray specification at %C with more than 7 dimensionsArray specification for symbol %qs in COMMON at %C must be explicitArray specification must be deferred at %LArray specification or array-valued SOURCE= expression required in ALLOCATE statement at %LArray specification required in ALLOCATE statement at %LArray-section actual argument at %L is incompatible with the non-assumed-shape dummy argument %qs due to VOLATILE attributeArray-section actual argument with vector subscripts at %L is incompatible with INTENT(OUT), INTENT(INOUT), VOLATILE or ASYNCHRONOUS attribute of the dummy argument %qsAs extending type %qs at %L has a coarray component, parent type %qs shall also have oneAssembler options
=================

Assigned GOTO statement at %CAssigned label is not a target labelAssigning value other than 0 or 1 to LOGICAL has undefined result at %LAssignment of scalar to unallocated arrayAssignment operator interface at %L must be a SUBROUTINEAssignment operator interface at %L must have two argumentsAssignment operator interface at %L must not redefine an INTRINSIC type assignmentAssignment to a FORALL index variable at %LAssignment to a LEN or KIND part_ref at %L is not allowedAssignment to a constant expression at %CAssignment to an allocatable polymorphic variable at %LAssignment to an allocatable polymorphic variable at %L requires %<-frealloc-lhs%>Assignment to coindexed variable at %L in a PURE procedureAssignment to contiguous pointer from non-contiguous target at %LAssignment to polymorphic coarray at %L is not permittedAssociate-name %qs at %L is used as arrayAssociate-name %qs cannot appear in a variable definition context (%s) at %L because its target at %L cannot, eitherAssociating entity %qs at %L is a procedure nameAssociating entity %qs at %L is a procedure pointerAssociating selector-expression at %L yields a procedureAssociation target at %C must not be coindexedAssociation target at %L cannot be a BOZ literal constantAssume ES is zero throughout program execution, use ES: for read-only data.Assume ICPLBs are enabled at runtime.Assume a large TLS segment.Assume all symbols have 32-bit values.Assume all variable arg functions are prototyped.Assume assembler support for (DWARF2+) .loc directives.Assume assembler support for view in (DWARF2+) .loc directives.Assume code will be assembled by GAS.Assume code will be linked by GNU ld.Assume code will be linked by HP ld.Assume common declarations may be overridden with ones with a larger trailing array.Assume data segments are relative to text segment.Assume floating-point operations can trap.Assume incoming stack aligned to this power of 2.Assume labels and symbols can be addressed using 16 bit absolute addresses.Assume loading data from flash is slower than fetching instructions.Assume memory references are ordered and barriers are not needed.Assume no NaNs or infinities are generated.Assume normal C execution environment.Assume pointer overflow wraps around.Assume possible double misalignment.Assume round to nearest is selected for purposes of scheduling.Assume signed arithmetic overflow wraps around.Assume small address space.Assume strict aliasing rules apply.Assume target CPU is configured as big endian.Assume target CPU is configured as little endian.Assume that all data in static storage can be accessed by LDS / STS.  This option is only useful for reduced Tiny devices.Assume that floating-point stores and loads are not likely to cause conflict when placed into one instruction group.Assume that loops with an exit will terminate and not loop indefinitely.Assume that receivers of Objective-C messages may be nil.Assume that run-time support has been provided, so omit -lsim from the linker command line.Assume that standard D runtime libraries and "D main" exist.Assume that the reciprocal estimate instructions provide more accuracy.Assume that the source file is fixed form.Assume that the source file is free form.Assume that values of enumeration type are always within the minimum range of that type.Assume that zero displacement conditional branches are fast.Assume the VxWorks RTP environment.Assume the VxWorks vThreads environment.Assume unified syntax for inline assembly code.Assume we are finalizing for phsa and its libhsail-rt.  Enables additional phsa-specific optimizations (default).Assumed or deferred character length variable %qs in constant expression at %LAssumed rank array %qs in %s clause at %LAssumed shape array %qs at %L is not permitted in an initialization expressionAssumed shape array at %L must be a dummy argumentAssumed size array %qs at %L is not permitted in an initialization expressionAssumed size array %qs in %s clause at %LAssumed size array %qs in COPYPRIVATE clause at %LAssumed size array %qs in namelist %qs at %C is not allowedAssumed size array %qs in namelist %qs at %L is not allowedAssumed size array at %L must be a dummy argumentAssumed size polymorphic objects or components, such as that at %C, have not yet been implementedAssumed type at %CAssumed type at %C is not allowed for componentsAssumed type of variable %s at %L is only permitted for dummy variablesAssumed-rank argument at %L is only permitted as actual argument to intrinsic inquiry functionsAssumed-rank argument at %L is only permitted as first actual argument to the intrinsic inquiry function %sAssumed-rank argument requires an explicit interface at %LAssumed-rank array %qs at %L is not permitted in an initialization expressionAssumed-rank array at %CAssumed-rank array at %L may not have the VALUE or CODIMENSION attributeAssumed-rank array at %L must be a dummy argumentAssumed-rank variable %s at %L as actual argument to an inquiry function shall be the first argumentAssumed-rank variable %s at %L may only be used as actual argumentAssumed-rank variable %s at %L shall not have a subobject referenceAssumed-shape actual argument at %L is incompatible with the non-assumed-shape dummy argument %qs due to VOLATILE attributeAssumed-shape array %qs at %L as dummy argument to the BIND(C) procedure %qs at %LAssumed-shape array %qs at %L is not permitted in an initialization expressionAssumed-size dummy array with !$ACC DECLARE at %LAssumed-type actual argument at %L requires that dummy argument %qs is of assumed typeAssumed-type argument %s at %L requires an explicit interfaceAssumed-type argument at %L is not permitted as actual argument to the intrinsic %sAssumed-type argument at %L is only permitted as first actual argument to the intrinsic %sAssumed-type variable %s at %L as actual argument to an inquiry function shall be the first argumentAssumed-type variable %s at %L may not have the ALLOCATABLE, CODIMENSION, POINTER or VALUE attributeAssumed-type variable %s at %L may not have the INTENT(OUT) attributeAssumed-type variable %s at %L may only be used as actual argumentAssumed-type variable %s at %L shall not be an explicit-shape arrayAssumed-type variable %s at %L shall not have a subobject referenceAt global scope:At most %i profile runs is supported. Perhaps corrupted profile?At top level:Attempt to DEALLOCATE unallocated '%s'Attempt to fill delay slots of branch instructions.Attempt to indirectly overlap COMMON blocks %s and %s by EQUIVALENCE at %CAttempt to keep stack aligned to this power of 2.Attempt to merge identical constants across compilation units.Attempt to merge identical constants and constant variables.Attempt to merge identical debug strings across compilation units.Attempting to allocate already allocated variableAttempting to allocate already allocated variable '%s'Attribute %s at %L in a TYPE definitionAttribute at %L is not allowed in a STRUCTURE definitionAttribute at %L is not allowed in a TYPE definitionAttribute at %L is not allowed outside a TYPE definitionAugment variable location lists with progressive views.AutoFDO profile magic number does not matchAutoFDO profile version %u does match %uAutomatic array %qs at %L cannot have an initializerAutomatically adds space for longer path names in load commands (up to MAXPATHLEN).Automatically align branch targets to reduce branch penalties.Available BITS selections:Average number of iterations of a loop.Avoid all range limits on call instructions.Avoid combining multiple statements into one exploded edge.Avoid generating pc-relative calls; use indirection.Avoid generation of indexed load/store instructions when possible.Avoid overlapping destination and address registers on LDRD instructions that may trigger Cortex-M3 errata.Avoid placing any readable data in program memory.Avoid speculative loads to work around a hardware anomaly.Avoid use of the DIV and MOD instructions.BB %i cannot throw but has an EH edgeBB %i has incorrect edgeBB %i has incorrect fallthru edgeBB %i has multiple EH edgesBB %i is missing an EH edgeBB %i is missing an edgeBB %i last statement has incorrectly set lpBB %i too many fallthru edgesBB_RTL flag not set for block %dBIND(C) Variable %qs at %L must have length oneBIND(C) applied to %s %s at %LBIND(C) at %LBIND(C) attribute at %C requires an interface with BIND(C)BIND(C) attribute at %L can only be used for variables or common blocksBIND(C) attribute at %L may not be specified for an internal procedureBIND(C) procedure with NAME may not have POINTER attribute at %CBIND(C) statement at %CBLANK= at %L not allowed in Fortran 95BLOCK DATA construct at %LBLOCK DATA element %qs at %L must be in COMMONBLOCK construct at %CBMX instructions are only supported with R2 architectureBOZ at %L cannot appear in an old-style initializationBOZ constant at %C uses nonstandard postfix syntaxBOZ constant at %L cannot appear in the COMPLEX intrinsic subprogramBOZ literal constant at %L cannot appear as an initializerBOZ literal constant at %L cannot appear in ACHAR intrinsic subprogramBOZ literal constant at %L cannot appear in CHAR intrinsic subprogramBOZ literal constant at %L cannot appear in a structure constructorBOZ literal constant at %L cannot appear in an array constructorBOZ literal constant at %L cannot appear in an output IO listBOZ literal constant at %L cannot appear in the FLOAT intrinsic subprogramBOZ literal constant at %L cannot be an actual argument to %qsBOZ literal constant at %L cannot be an operand of unary operator %qsBOZ literal constant at %L is neither a DATA statement value nor an actual argument of INT/REAL/DBLE/CMPLX intrinsic subprogramBOZ literal constant near %L cannot appear as an operand of a relational operatorBOZ literal constant near %L cannot be assigned to a %qs variableBOZ literal constant near %L cannot be assigned to a %qs variable in an old-style initializationBOZ used outside a DATA statement at %LBYTE type at %CBYTE type used at %C is not available on the target machineBad 128-bit moveBad GPR fusionBad INTENT specification at %CBad IO basetype (%d)Bad allocate-object at %C for a PURE procedureBad array dimension at %LBad array reference at %LBad array specification for an explicitly shaped array at %CBad array specification for assumed shape array at %CBad array specification for implied-shape array at %CBad array specification in ALLOCATE statement at %LBad character %qc in OPERATOR name at %CBad coarray specification in ALLOCATE statement at %LBad continuation line at %CBad kind expression for function %qs at %LBad kind for logical constant at %CBad nameBad operatorBad specification for assumed size array at %CBad specification for assumed size array at %LBad specification for deferred shape array at %CBad target in pointer assignment in PURE procedure at %LBad type in constant expressionBad type in gfc_simplify_signBase object for NOPASS type-bound procedure call at %L must be scalarBase object for procedure-pointer component call at %L is of ABSTRACT type %qsBase object for type-bound procedure call at %L is of ABSTRACT type %qsBinding at %C must have the same access as already defined binding %qsBinding attributes already specify passing, illegal NOPASS at %CBinding attributes already specify passing, illegal PASS at %CBlank BLOCK DATA at %C conflicts with prior BLOCK DATA at %LBlank required in %s statement near %CBlanket SAVE statement at %C follows previous SAVE statementBlock label is not appropriate for IF statement at %CBlock label not appropriate for arithmetic IF statement at %CBoard name [and memory region].Both MONOTONIC and NONMONOTONIC schedule modifiers specified at %LBoth section and comdat group is setBound on number of candidates below that all candidates are considered in iv optimizations.Bound on number of iv uses in loop optimized in iv optimizations.Bound on number of runtime checks inserted by the vectorizer's loop versioning for alias check.Bound on number of runtime checks inserted by the vectorizer's loop versioning for alignment check.Bound on size of expressions used in the scalar evolutions analyzer.Bound on the complexity of the expressions in the scalar evolutions analyzer.Bound on the cost of an expression to compute the number of iterations.Bound on the number of iterations the brute force # of iterations analysis algorithm evaluates.Bounds specification for %qs in pointer assignment at %LBranch at %L may result in an infinite loopBranches are this expensive (arbitrary units).Branches executed:%s of %d
Build for Core A.Build for Core B.Build for SDRAM.Builtin %qF requires arch14 or higher.Builtin %qF requires z14 or higher.Builtin %qF requires z15 or higher.Builtin not implementedBy-value argument at %L cannot be an array or an array sectionBy-value argument at %L is not allowed in this contextBy-value argument at %L is not of numeric typeC interoperable character dummy variable %qs at %L with VALUE attribute must have length oneC kind type parameter is for type %s but type at %L is %sC++ base class %s needs at least one virtual functionC++ constructors and destructors will not be invoked for Objective-C fieldsC++ designated initializers only available with %<-std=c++20%> or %<-std=gnu++20%>C++ lookup of %qD would return a field, not a typeC++ requires promoted type, not enum type, in %<va_arg%>C++11 %<constexpr%> only available with %<-std=c++11%> or %<-std=gnu++11%>C++11 %<noexcept%> only available with %<-std=c++11%> or %<-std=gnu++11%>C++11 %<thread_local%> allows dynamic initialization and destructionC++11 %<thread_local%> only available with %<-std=c++11%> or %<-std=gnu++11%>C++11 auto only available with %<-std=c++11%> or %<-std=gnu++11%>C++20 %<constinit%> only available with %<-std=c++20%> or %<-std=gnu++20%>C++20 %qE only available with %<-fmodules-ts%>C++20 %qE only available with %<-fmodules-ts%>, which is not yet enabled with %<-std=c++20%>C++20 concept definition syntax is %<concept <name> = <expr>%>C99 designator %qE is not an integral constant-expressionC99 designator %qE outside aggregate initializerCASE label at %L overlaps with CASE label at %LCCTL intrinsic function subtype out of range!CDX instructions are only supported with R2 architectureCFString literal expression is not a string constantCFString literal is missingCHANGE TEAM statement at %CCHARACTER expression at %L is being truncated (%ld/%ld)CHARACTER expression will be truncated in assignment (%ld/%ld) at %LCHARACTER expression will be truncated in constructor (%ld/%ld) at %LCHARACTER length in !$OMP DECLARE REDUCTION %s not constant at %LCHARACTER length must be a constant at %LCHARACTER(*) function %qs at %LCHARACTER(*) function %qs at %L cannot be array-valuedCHARACTER(*) function %qs at %L cannot be pointer-valuedCHARACTER(*) function %qs at %L cannot be pureCHARACTER(*) function %qs at %L cannot be recursiveCLASS selector at %L needs a temporary which is not yet implementedCLASS statement at %CCLASS variable %qs at %L cannot have the PARAMETER attributeCLASS variable %qs at %L must be dummy, allocatable or pointerCLOSE statement at %L requires a UNIT numberCLOSE statement not allowed in PURE procedure at %CCODIMENSION specified for %qs outside its INTERFACE body at %LCOLLAPSE clause argument not constant positive integer at %CCOLLECT_GCC must be setCOLLECT_GCC must be set.COMMON %qs at %L does not existCOMMON %qs at %L requires %d bytes of padding; reorder elements or use %<-fno-align-commons%>COMMON at %L mentioned multiple times in clauses of the same OMP DECLARE TARGET directiveCOMMON at %L requires %d bytes of padding; reorder elements or use %<-fno-align-commons%>COMMON at %L set in previous OMP DECLARE TARGET directive to a different DEVICE_TYPECOMMON block %qs at %L cannot have the EXTERNAL attributeCOMMON block %qs at %L is also an intrinsic procedureCOMMON block %qs at %L is used as PARAMETER at %LCOMMON block %qs at %L that is also a function resultCOMMON block %qs at %L that is also a global procedureCOMMON block %qs at %L uses the same global identifier as entity at %LCOMMON block /%s/ not found at %CCOMMON block at %LCOMMON block at %L with binding label %qs uses the same global identifier as entity at %LCOMMON block member %qs at %L cannot be an EQUIVALENCE object in the pure procedure %qsCOMMON variable %qs at %L must have constant character lengthCOMPLEX argument %qs of %qs intrinsic at %LCOMPLEX quantities cannot be compared at %LCONTAINS block in derived type definition at %CCONTAINS statement at %C is already in a contained program unitCONTAINS statement without FUNCTION or SUBROUTINE statement at %LCONTIGUOUS attribute at %CCONTIGUOUS statement at %CCONVERT tag at %LCOUNT argument of the EVENT_QUERY intrinsic function at %L shall be definableCOUNT argument of the EVENT_QUERY intrinsic function at %L shall have at least the range of the default integerCOUNT argument to SYSTEM_CLOCK at %L has non-default kindCOUNT_MAX argument to SYSTEM_CLOCK at %L has non-default kindCOUNT_RATE argument to SYSTEM_CLOCK at %L has non-default kindCPU you selected does not support x86-64 instruction setCRIS-port assertion failed: CRITICAL block inside of OpenACC region at %CCRITICAL block inside of OpenMP region at %CCRITICAL statement at %CCYCLE statement at %C is not applicable to non-loop construct %qsCYCLE statement at %C to non-innermost collapsed !$ACC LOOP loopCYCLE statement at %C to non-innermost collapsed !$OMP DO loopCYCLE statement at %C to non-innermost tiled !$ACC LOOP loopCall mcount for profiling before a function prologue.Call the dump function for variables and function in IL.Caller copies function arguments passed by hidden reference.Calls executed:%s of %d
Cannot IMPORT %qs from host scoping unit at %C - does not exist.Cannot USE a module that is currently builtCannot USE a submodule that is currently builtCannot change attributes of USE-associated symbol %s at %LCannot change attributes of USE-associated symbol at %LCannot change directory to %sCannot compute the length of the char array at %L.Cannot construct ABSTRACT type %qs at %LCannot convert %qs to %qs at %LCannot convert %qs to interoperable type at %LCannot convert %s to %s at %LCannot delete module file %qs: %sCannot delete temporary module file %qs: %sCannot find an intrinsic module named %qs at %CCannot find keyword named %qs in call to %qs at %LCannot get current directory nameCannot initialize implied-shape array at %L with scalarCannot initialize parameter array at %L with variable length elementsCannot make directory %sCannot map %sCannot open %sCannot open JSON output file %s
Cannot open file %qsCannot open module file %qs for reading at %C: %sCannot open module file %qs for writing at %C: %sCannot open source file %s
Cannot overwrite GENERIC %qs at %LCannot read %sCannot read module file %qs opened at %C, because it was created by a different version of GNU FortranCannot rename module file %qs to %qs: %sCannot set Cray pointee array spec.Cannot set pointee array spec.Cannot specify IMPLICIT at %C after IMPLICIT NONECatch typos.Cause gas to print tomcat statistics.Cgraph edge statement index not foundCgraph edge statement index out of rangeChained transparent aliasesChange of value in conversion from %qs to %qs at %LChange only the low 8 bits of the stack pointer.Change the ABI to allow double word insns.Change the amount of scheduler lookahead.Change the maximum length of conditionally-executed sequences.Change the number of temporary registers that are available to conditionally-executed sequences.Change the stack pointer without disabling interrupts.Changes visibility to match Microsoft Visual Studio by default.Character %qs in string at %C is not representable in character kind %dCharacter %qs in string at %L cannot be converted into character kind %dCharacter argument %qs at %L must be length 1 because procedure %qs is BIND(C)Character component %qs of %qs at %L with deferred length must be a POINTER or ALLOCATABLECharacter dummy variable %qs at %L with VALUE attribute must have constant lengthCharacter length mismatch (%ld/%ld) between actual argument and assumed-shape dummy argument %qs at %LCharacter length mismatch (%ld/%ld) between actual argument and pointer or allocatable dummy argument %qs at %LCharacter length of actual argument shorter than of dummy argument %qs (%lu/%lu) at %LCharacter length of component %qs needs to be a constant specification expression at %LCharacter-valued argument %qs of statement function at %L must have constant lengthCharacter-valued internal function %qs at %L must not be assumed lengthCharacter-valued module procedure %qs at %L must not be assumed lengthCharacter-valued statement function %qs at %L must have constant lengthCheck for stack overflow at runtime.Check for syntax errors, then stop.Check the return value of new in C++.Chose strategy to generate stringop using.Chunk size of omp schedule for loops parallelized by parloops.Clause expected at %CClear all tune features.Clear call-used registers upon function return.Clear hardware capabilities when linking.Clear the BSS to zero and place zero initialized in BSS.Coarray component %qs at %L must be allocatable with deferred shapeCoarray declaration at %CCoarray designator at %C but %qs is not a coarrayCoarray dummy argument %qs at %L to elemental procedureCoarray dummy variable %qs at %L not allowed in BIND(C) procedure %qsCoarray specification required in ALLOCATE statement at %LCoarray variable %qs at %L shall not have codimensions with deferred shapeCoarrays disabled at %C, use %<-fcoarray=%> to enableCoarrays disabled at %L, use %<-fcoarray=%> to enableCode for reallocating the allocatable array at %L will be addedCode for reallocating the allocatable variable at %L will be addedCode size: small, medium or large.Coindex of codimension %d must be a scalar at %LCoindex rank mismatch in array reference at %L (%d/%d)Coindexed ASYNCHRONOUS or VOLATILE actual argument at %L requires that dummy %qs has neither ASYNCHRONOUS nor VOLATILECoindexed actual argument at %L in PURE procedure is passed to a POINTER dummy argumentCoindexed actual argument at %L in PURE procedure is passed to an INTENT(%s) argumentCoindexed actual argument at %L to allocatable dummy %qs requires INTENT(IN)Coindexed actual argument at %L to pointer dummy %qsCoindexed actual argument at %L with allocatable ultimate component to dummy %qs requires either VALUE or INTENT(IN)Coindexed actual argument at %L with ultimate pointer componentCoindexed allocatable object at %LCoindexed expression at %L is assigned to a derived type variable with a POINTER component in a PURE procedureCoindexed expression to pointer component %qs in structure constructor at %LCoindexed object with polymorphic allocatable subcomponent at %LCoindexed polymorphic actual argument at %L is passed polymorphic dummy argument %qsCoindexed procedure-pointer component at %CCoindexed variable must not have an allocatable ultimate component in assignment at %LCollect and dump debug information into temporary file if ICE in C/C++ compiler occurred.Comma after * at %C not allowed without I/O listComma before i/o item list at %LComma expected at %CComma required after P descriptor in format string at %LCompile code for big endian mode.Compile code for little endian mode.  This is the default.Compile code that relies on Cygwin DLL wrappers to support C++ operator new/delete replacement.Compile for 32-bit pointers.Compile for 64-bit pointers.Compile for ETRAX 100 (CRIS v8).Compile for ETRAX 4 (CRIS v3).Compile for V8+ ABI.Compile for the DSBT shared library ABI.Compile for the m32r.Compile for the m32r2.Compile for the m32rx.Compile for the v850 processor.Compile for the v850e processor.Compile for the v850e1 processor.Compile for the v850e2 processor.Compile for the v850e2v3 processor.Compile for the v850e3v5 processor.Compile for the v850es variant of the v850e1.Compile in debug code.Compile in unittest code.Compile release version.Compile whole compilation unit at a time.Compile with 32 bit longs and pointers, which is the only supported behavior and thus the flag is ignored.Compile with 32 bit longs and pointers.Compile with 64 bit longs and pointers.Compile-time bonus IPA-CP assigns to candidates which make loop bounds or strides known.Complex argument of LOG at %L cannot be zeroComplex multiplication and division follow Fortran rules.Component %qs at %C already declared at %LComponent %qs at %C already in the parent type at %LComponent %qs at %C is a PRIVATE component of %qsComponent %qs at %L cannot have the ALLOCATABLE attribute because it is a member of the BIND(C) derived type %qs at %LComponent %qs at %L cannot have the POINTER attribute because it is a member of the BIND(C) derived type %qs at %LComponent %qs at %L has the CONTIGUOUS attribute but is not an array pointerComponent %qs at %L of TYPE(C_PTR) or TYPE(C_FUNPTR) shall not be a coarrayComponent %qs at %L with coarray component shall be a nonpointer, nonallocatable scalarComponent %qs in derived type %qs at %L may not be C interoperableComponent %qs in derived type %qs at %L may not be C interoperable, even though derived type %qs is BIND(C)Component %qs is initialized twice in the structure constructor at %LComponent %qs of %qs at %L has the same name as an inherited type-bound procedureComponent %qs of BIND(C) type at %L must have length oneComponent %qs with CLASS at %C must be allocatable or pointerComponent %s at %L of type EVENT_TYPE must have a codimension or be a subcomponent of a coarray, which is not possible as the component has the pointer attributeComponent %s at %L of type LOCK_TYPE must have a codimension or be a subcomponent of a coarray, which is not possible as the component has the pointer attributeComponent %s of SEQUENCE type declared at %L does not have the SEQUENCE attributeComponent at %C must have the POINTER attributeComponent initializer without name after component named %s at %LComponent to the right of a part reference with nonzero rank must not have the ALLOCATABLE attribute at %LComponent to the right of a part reference with nonzero rank must not have the POINTER attribute at %LComponent with KIND attribute at %C must be INTEGERComponent with KIND attribute at %C must be default integer kind (%d)Component with LEN attribute at %C must be INTEGERComponent with LEN attribute at %C must be default integer kind (%d)Components in TYPE at %C must precede CONTAINSCompute locview reset points based on insn length estimates.Computed GOTO at %CConcat operator at %L must concatenate strings of the same kindConcatenation operator in expression at %L must have two CHARACTER operandsConfigure the newlib board specific runtime.  The default is or1ksim.Configured with: %s
Conflicting initializers in union at %L and %LConform more closely to IBM XLC semantics.Conform to nothing in particular.Conform to the ISO 1990 C standard as amended in 1994.Conform to the ISO 1990 C standard with GNU extensions.Conform to the ISO 1990 C standard.Conform to the ISO 1998 C++ standard revised by the 2003 technical corrigendum with GNU extensions.Conform to the ISO 1998 C++ standard revised by the 2003 technical corrigendum.Conform to the ISO 1999 C standard with GNU extensions.Conform to the ISO 1999 C standard.Conform to the ISO 2011 C standard with GNU extensions.Conform to the ISO 2011 C standard.Conform to the ISO 2011 C++ standard with GNU extensions.Conform to the ISO 2011 C++ standard.Conform to the ISO 2014 C++ standard with GNU extensions.Conform to the ISO 2014 C++ standard.Conform to the ISO 2017 C standard (published in 2018) with GNU extensions.Conform to the ISO 2017 C standard (published in 2018).Conform to the ISO 2017 C++ standard with GNU extensions.Conform to the ISO 2017 C++ standard.Conform to the ISO 2020 C++ standard (experimental and incomplete support).Conform to the ISO 2020 C++ standard with GNU extensions (experimental and incomplete support).Conform to the ISO 2023 C++ draft standard (experimental and incomplete support).Conform to the ISO 2023 C++ draft standard with GNU extensions (experimental and incomplete support).Conform to the ISO 202X C standard draft (experimental and incomplete support).Conform to the ISO 202X C standard draft with GNU extensions (experimental and incomplete support).Conform to the ISO Fortran 2003 standard.Conform to the ISO Fortran 2008 standard including TS 29113.Conform to the ISO Fortran 2008 standard.Conform to the ISO Fortran 2018 standard.Conform to the ISO Fortran 95 standard.Conform to the Objective-C 1.0 language as implemented in GCC 4.0.Conform to the o32 FPXX ABI.Consider access to byte sized memory slow.Consider type 'int' to be 16 bits wide.Consider type 'int' to be 32 bits wide.Constant expression in FORMAT tag at %L must be of type default CHARACTERConstant expression required at %CConstant logical value in CASE statement is repeated at %LConstruct webs and split unrelated uses of single variable.Contained function %qs at %L has no IMPLICIT typeContained procedure %qs at %C clashes with procedure defined at %LContained procedure %qs at %C is already ambiguousContained procedure %qs at %L has the same name as its encompassing procedureContained procedure %qs at %L of a PURE procedure must also be PUREControl generation of reciprocal estimates.Control the IEEE trap mode.Control the generated fp rounding mode.Control the precision given to fp exceptions.Control which events are displayed in diagnostic paths.Controls how loop vectorizer uses partial vectors.  0 means never, 1 means only for loops whose need to iterate can be removed, 2 means for all loops.  The default value is 2.Conversion from %qs to %qs at %LConversion from %s to %s at %LConversion from %s to default-kind COMPLEX(%d) at %L might lose precision, consider using the KIND argumentConversion of an Infinity or Not-a-Number at %L to INTEGERConvert BASE + LARGE_OFFSET addresses to NEW_BASE + SMALL_OFFSET to allow more memory accesses to be generated as compressed instructions.  Currently targets 32-bit integer load/stores.Convert conditional jumps in innermost loops to branchless equivalents.Convert floating point constants to single precision constants.Convert function return to call and return thunk.Convert indirect call and jump to call and return thunks.Copy array sections into a contiguous block on procedure entry.Copyright %s 2021 Free Software Foundation, Inc.
Corank mismatch in argument %qs at %L (%d and %d)Cost at which GCSE optimizations will not constraint the distance an expression can travel.Cost to assume for a branch insn.Cost to assume for a multiply insn.Cost to assume for a multiply instruction, with 4 being equal to a normal insn.Could not find real kind with at least %d bitsCould not generate addis value for fusionCould not open output file '%s'
Count speculative dependencies while calculating priority of instructions.Cray Pointee at %C cannot be assumed shape arrayCray Pointee at %L appears in multiple pointer() statementsCray pointee %qs in %s clause at %LCray pointee %qs in SHARED clause at %LCray pointee object %qs in %s clause at %LCray pointee object %qs of derived type in %s clause at %LCray pointee object %qs of polymorphic type in %s clause at %LCray pointer %qs in %s clause at %LCray pointer at %C has %d bytes of precision; memory addresses require %d bytesCray pointer at %C must be an integerCray pointer declaration at %C requires %<-fcray-pointer%> flagCray pointer object %qs in %s clause at %LCray pointer object %qs of derived type in %s clause at %LCray pointer object %qs of polymorphic type in %s clause at %LCreate GUI application.Create a dynamically linked position independent executable.Create a shared library.Create a static position independent executable.Create canonical induction variables in loops.Create console application.Create data files needed by "gcov".Creating '%s'
Creating array temporary at %LCreating array temporary at %L for argument %qsD-style variadic functions cannot be used with -betterCDATA array %qs at %L must be specified in a previous declarationDATA element %qs at %L cannot have a coindexDATA element %qs at %L cannot have the ALLOCATABLE attributeDATA element %qs at %L is a pointer and so must be a full arrayDATA object near %L has the pointer attribute and the corresponding DATA value is not a valid initial-data-targetDATA statement at %C after the first executable statementDATA statement at %C cannot appear within an INTERFACEDATA statement at %C is not allowed in a PURE procedureDATA statement at %L has more values than variablesDATA statement at %L has more variables than valuesDC format specifier not allowed at %CDEALLOCATE objectDEALLOCATE of coarray at %C in CRITICAL blockDEALLOCATE of coarray at %C in DO CONCURRENT blockDECIMAL= at %L not allowed in Fortran 95DEF_INTERNAL_FLT_FN (%s) has no associated built-in functionsDEF_INTERNAL_INT_FN (%s) has no associated built-in functionsDELIM= at %L not allowed in Fortran 95DEPEND SINK used together with DEPEND SOURCE on the same construct at %LDETACH event handle %qs in %s clause at %LDETACH event handle %qs in SHARED clause at %LDIM argument at %L is out of boundsDIM argument without COARRAY argument not allowed for THIS_IMAGE intrinsic at %LDIMENSION specified for %qs outside its INTERFACE body at %LDISTANCE= argument to NUM_IMAGES at %LDISTANCE= argument to THIS_IMAGE at %LDIST_SCHEDULE clause's chunk_size at %L requires a scalar INTEGER expressionDO CONCURRENT construct at %CDO loop at %L is undefined as it overflowsDO loop at %L is undefined as it underflowsDO loop at %L will be executed zero timesDO step value is zeroDO termination statement which is not END DO or CONTINUE with label %d at %CDO-iterator %qs at %L is inside iterator of the same nameDOUBLE COMPLEX at %CDP format specifier not allowed at %CDTIO %s procedure at %L must be recursiveDTIO character argument at %L must have assumed lengthDTIO dummy argument at %L must be a scalarDTIO dummy argument at %L must be an ASSUMED SHAPE ARRAYDTIO dummy argument at %L must be of KIND = %dDTIO dummy argument at %L must be of type %sDTIO dummy argument at %L must have INTENT %sDTIO procedure %qs at %L must be a subroutineDarwin does not support -mfentry or associated optionsDarwin is not an mx32 platformData element above array upper bound at %LData element below array lower bound at %LData is stored in big-endian format.Data is stored in little-endian format.  (Default).Data referenced by offset from start of text instead of GOT (with -fPIC/-fPIE).Data target at %L shall not have a coindexData transfer element at %L cannot be a full reference to an assumed-size arrayData transfer element at %L cannot be polymorphic unless it is processed by a defined input/output procedureData transfer element at %L cannot have ALLOCATABLE components unless it is processed by a defined input/output procedureData transfer element at %L cannot have POINTER components unless it is processed by a defined input/output procedureData transfer element at %L cannot have PRIVATE componentsData transfer element at %L cannot have PRIVATE components unless it is processed by a defined input/output procedureData transfer element at %L cannot have procedure pointer componentsData-pointer-object at %L must be unlimited polymorphic, or of a type with the BIND or SEQUENCE attribute, to be compatible with an unlimited polymorphic targetDebug library to use instead of phobos.Declaring method %qD final would enable devirtualization of %i callDeclaring method %qD final would enable devirtualization of %i callsDeclaring method %qD final would enable devirtualization of %i call executed %lli timesDeclaring method %qD final would enable devirtualization of %i calls executed %lli timesDeclaring type %qD final would enable devirtualization of %i callDeclaring type %qD final would enable devirtualization of %i callsDeclaring type %qD final would enable devirtualization of %i call executed %lli timesDeclaring type %qD final would enable devirtualization of %i calls executed %lli timesDeclaring virtual destructor of %qD final would enable devirtualization of %i callDeclaring virtual destructor of %qD final would enable devirtualization of %i callsDeclaring virtual destructor of %qD final would enable devirtualization of %i call executed %lli timesDeclaring virtual destructor of %qD final would enable devirtualization of %i calls executed %lli timesDefault library to use instead of phobos.Defer popping functions args from stack until later.Deferred array %qs at %L is not permitted in an initialization expressionDeferred type parameter not yet supportedDelete dead instructions that may throw exceptions.Delete useless null pointer checks.Deleted feature:Deprecated in favor of -std=c++11.Deprecated in favor of -std=c++14.Deprecated in favor of -std=c++17.Deprecated in favor of -std=c11.Deprecated in favor of -std=c99.Deprecated in favor of -std=gnu++11.Deprecated in favor of -std=gnu++14.Deprecated in favor of -std=gnu++17.Deprecated in favor of -std=gnu11.Deprecated in favor of -std=gnu99.Deprecated in favor of -std=iso9899:1999.Deprecated option.  Use -mno-vrsave instead.Deprecated option.  Use -mvrsave instead.Deprecated.  This switch has no effect.Derived type %qs at %C is being used before it is definedDerived type %qs at %L cannot have the SEQUENCE attribute because it is BIND(C)Derived type %qs at %L has not been declaredDerived type %qs at %L may not be ABSTRACTDerived type %qs at %L must be an extension of %qsDerived type %qs at %L must be extensibleDerived type %qs cannot be used as a variable at %CDerived type %qs cannot be used as a variable at %LDerived type %qs declared at %L must have the BIND attribute to be C interoperableDerived type %qs is used as an actual argument at %LDerived type %qs with BIND(C) attribute at %L is empty, and may be inaccessible by the C companion processorDerived type at %C can only be PRIVATE in the specification part of a moduleDerived type at %C can only be PUBLIC in the specification part of a moduleDerived type at %C has not been previously defined and so cannot appear in a derived type definitionDerived type component %C is not a permitted EQUIVALENCE memberDerived type declaration with FINAL at %C must be in the specification part of a MODULEDerived type definition at %C with empty CONTAINS sectionDerived type definition at %C without componentsDerived type definition of %qs at %C has already been definedDerived type name %qs at %C already has a basic typeDerived type name %qs at %C already has a basic type of %sDerived type variable %qs at %L cannot have ALLOCATABLE components to be an EQUIVALENCE objectDerived type variable %qs at %L must have SEQUENCE attribute to be an EQUIVALENCE objectDerived type variable %qs at %L with default initialization cannot be in EQUIVALENCE with a variable in COMMONDerived type variable %qs at %L with pointer component(s) cannot be an EQUIVALENCE objectDerived type variable %qs in COMMON at %L has an ultimate component that is allocatableDerived type variable %qs in COMMON at %L has neither the SEQUENCE nor the BIND(C) attributeDerived type variable %qs in COMMON at %L may not have default initializerDerived-type %qs declared at %L must be ABSTRACT because %qs is DEFERRED and not overriddenDerived-type %qs with BIND(C) must not have a CONTAINS section at %CDerived-type %qs with SEQUENCE must not have a CONTAINS section at %CDerived-type dummy argument %qs at %L was declared INTENT(OUT) but was not set and does not have a default initializerDescription for mxl-mode-bootstrap.Description for mxl-mode-executable.Description for mxl-mode-novectors.Description for mxl-mode-xmdstub.Detect paths that trigger erroneous or undefined behavior due to a null value being used in a way forbidden by a returns_nonnull or nonnull attribute.  Isolate those paths from the main control flow and turn the statement with erroneous or undefined behavior into a trap.Detect paths that trigger erroneous or undefined behavior due to dereferencing a null pointer.  Isolate those paths from the main control flow and turn the statement with erroneous or undefined behavior into a trap.Determine which dependences between insns are considered costly.Different CHARACTER lengths (%ld/%ld) in array constructorDifferent CHARACTER lengths (%ld/%ld) in array constructor at %LDifferent character kinds at %LDifferent kind type parameters in pointer assignment at %LDifferent ranks in pointer assignment at %LDifferent shape for %s at %L on dimension %d (%d and %d)Different shape for arguments %qs and %qs at %L for intrinsic %<dot_product%>Different shape on dimension 1 for arguments %qs and %qs at %L for intrinsic matmulDifferent shape on dimension 2 for argument %qs and dimension 1 for argument %qs at %L for intrinsic matmulDifferent type kinds at %LDifferent types in pointer assignment at %L; attempted assignment of %s to %sDimensions specified for %s at %L after its initializationDisable -Wframe-larger-than= warning.  Equivalent to -Wframe-larger-than=<SIZE_MAX> or larger.Disable -Wlarger-than= warning.  Equivalent to -Wlarger-than=<SIZE_MAX> or larger.Disable ARCompact specific pass to generate conditional execution instructions.Disable FP regs.Disable FPU ISA, the ABI option must be enable %<-mfloat-abi=soft%>Disable LR and SR instructions from using FPX extension aux registers.Disable Scalar to Vector optimization pass transforming 64-bit integer computations into a vector ones.Disable Walloc-size-larger-than= warning.  Equivalent to Walloc-size-larger-than=<SIZE_MAX> or larger.Disable Walloca-larger-than= warning.  Equivalent to Walloca-larger-than=<SIZE_MAX> or larger.Disable Wstack-usage= warning.  Equivalent to Wstack-usage=<SIZE_MAX> or larger.Disable Wvla-larger-than= warning.  Equivalent to Wvla-larger-than=<SIZE_MAX> or larger.Disable floating point optimizations that ignore the IEEE signedness of zero.Disable hardware floating point.Disable indexed addressing.Disable optimizations observable by IEEE signaling NaNs.Disable optimizations that assume default FP rounding behavior.Disable position-independent code (PIC) for use in OS kernel code.Disable preprocessing.Disable space regs.Disable the use of RX FPU instructions.Disallow direct calls to global functions.Disallow more than 'msched-max-memory-insns' in instruction group. Otherwise, limit is 'soft' (prefer non-memory operations when limit is reached).Disallow tail call optimization when a calling routine may have omitted character lengths.Discover pure and const functions.Discover read-only and non addressable static variables.Discover read-only, write-only and non-addressable static variables.Display compile time statistics.Display statistics accumulated during compilation.Display the code tree after front end optimization.Display the code tree after parsing.Display the code tree after parsing; deprecated option.Display the compiler's version.Display the frontend AST after parsing and semantic passes.Display the global symbol table after parsing.Display the symbols in reverse order.Display this information.Division by zero at %LDivision by zero converting %s to %s at %LDivision strategy, one of: call-div1, call-fp, call-table.Do CFG-sensitive rematerialization in LRA.Do alignment optimizations for call instructions.Do dispatch scheduling if processor is bdver1, bdver2, bdver3, bdver4 or znver1 and Haifa scheduling is selected.Do link the standard D startup files in the compilation.Do no generate BRcc instructions in arc_reorg.Do not allow constant data to be placed in code sections.Do not assume a large TLS segment.Do not assume that functions never executed during the train run are cold.Do not assume that standard C libraries and "main" exist.Do not disable space regs.Do not discard comments in macro expansions.Do not discard comments.Do not display functions compiled or elapsed time.Do not elide common elements in template comparisons.Do not emit addressing modes with side-effect assignment.Do not emit complex integer constants to read-only memory.Do not emit function prologue or epilogue.Do not enforce strict alignment.Do not generate #line directives.Do not generate .size directives.Do not generate a single exit point for each function.Do not generate code that can only run in supervisor mode (default).Do not generate load/store with update instructions.Do not generate mpy instructions for ARC700.Do not generate unaligned memory accesses.Do not inline integer division.Do not inline square root.Do not link against the device-specific library lib<MCU>.a.Do not link the standard D library in the compilation.Do not load the PIC register in function prologues.Do not look for object files in standard path.Do not mark ABI switches in e_flags.Do not perform optimizations increasing noticeably stack usage.Do not place floating point constants in TOC.Do not place symbol+offset constants in TOC.Do not predefine system-specific and GCC-specific macros.Do not pretty-print template specializations as the template signature followed by the arguments.Do not provide a default start-address 0x100 of the program.Do not push extended registers on stack in monitor functions.Do not search standard system include directories (those specified with -isystem will still be used).Do not search standard system include directories for C++.Do not support SSE4.1 and SSE4.2 built-in functions and code generation.Do not suppress C++ class debug information.Do not suppress warnings from system headers.Do not treat local variables and COMMON blocks as if they were named in SAVE statements.Do not tune code and read-only data alignment.Do not tune stack alignment.Do not tune writable data alignment.Do not use MDMX instructions.Do not use MIPS-3D instructions.Do not use VAX fp.Do not use a cache-flushing function before calling stack trampolines.Do not use addresses that allocate global registers.Do not use condition codes from normal instructions.Do not use hardware FP.Do not use hardware floating point.Do not use hardware fp.Do not use hardware quad fp instructions.Do not use the AIX Vector Extended ABI.Do not use the AltiVec ABI extensions.Do not use the bit-field instructions.Do not use the callt instruction (default).Do not use the device-specific specs file device-specs/specs-<MCU>.Do not use the fabsd custom instruction.Do not use the fabss custom instr.Do not use the faddd custom instruction.Do not use the fadds custom instruction.Do not use the fatand custom instruction.Do not use the fatans custom instruction.Do not use the fcmpeqd custom instruction.Do not use the fcmpeqs custom instruction.Do not use the fcmpged custom instruction.Do not use the fcmpges custom instruction.Do not use the fcmpgtd custom instruction.Do not use the fcmpgts custom instruction.Do not use the fcmpled custom instruction.Do not use the fcmples custom instruction.Do not use the fcmpltd custom instruction.Do not use the fcmplts custom instruction.Do not use the fcmpned custom instruction.Do not use the fcmpnes custom instruction.Do not use the fcosd custom instruction.Do not use the fcoss custom instruction.Do not use the fdivd custom instruction.Do not use the fdivs custom instruction.Do not use the fexpd custom instruction.Do not use the fexps custom instruction.Do not use the fextsd custom instruction.Do not use the fixdi custom instruction.Do not use the fixdu custom instruction.Do not use the fixsi custom instruction.Do not use the fixsu custom instruction.Do not use the floatid custom instruction.Do not use the floatis custom instruction.Do not use the floatud custom instruction.Do not use the floatus custom instruction.Do not use the flogd custom instruction.Do not use the flogs custom instruction.Do not use the fmaxd custom instruction.Do not use the fmaxs custom instruction.Do not use the fmind custom instruction.Do not use the fmins custom instruction.Do not use the fmuld custom instruction.Do not use the fmuls custom instruction.Do not use the fnegd custom instruction.Do not use the fnegs custom instruction.Do not use the frdxhi custom instruction.Do not use the frdxlo custom instruction.Do not use the frdy custom instruction.Do not use the fsind custom instruction.Do not use the fsins custom instruction.Do not use the fsqrtd custom instruction.Do not use the fsqrts custom instruction.Do not use the fsubd custom instruction.Do not use the fsubs custom instruction.Do not use the ftand custom instruction.Do not use the ftans custom instruction.Do not use the ftruncds custom instruction.Do not use the fwrx custom instruction.Do not use the fwry custom instruction.Do not use the round custom instruction.Do not use unaligned memory references.Do not warn about using "long long" when -pedantic.Do stack checking using bounds in L1 scratch memory.Does nothing.  Preserved for backward compatibility.Does nothing. Preserved for backward compatibility.Don't align items in code or data.Don't allocate floats and doubles in extended-precision registers.Don't assume that unaligned accesses are handled by the system.Don't call any cache flush functions.Don't call any cache flush trap.Don't create a dynamically linked position independent executable.Don't emit DWARF additions beyond selected version.Don't emit dllexported inline functions unless needed.Don't generate DWARF pubnames and pubtypes sections.Don't generate checks for control speculation in selective scheduling.Don't generate privileged-mode only code; implies -mno-inline-ic_invalidate if the inline code would not work in user mode.Don't indicate any priority with TARGET_REGISTER_PRIORITY.Don't optimize block moves, use memcpy.Don't optimize block moves.Don't use P-mnemonics for branches.Don't use any of r32..r63.Don't use less than 25 bit addressing range for calls.Don't warn about uses of Microsoft extensions.Double CLASS IS block in SELECT TYPE statement at %LDowngrade conformance errors to warnings.Driving:Dummy %qs at %L cannot have an initializerDummy argument %qs at %L cannot be INTENT(OUT)Dummy argument %qs at %L cannot be OPTIONALDummy argument %qs at %L cannot be a derived type at %CDummy argument %qs at %L of EVENT_TYPE shall not be INTENT(OUT)Dummy argument %qs at %L of LOCK_TYPE shall not be INTENT(OUT)Dummy argument %qs at %L was declared INTENT(OUT) but was not setDummy argument %qs has to be a pointer, assumed-shape or assumed-rank array without CONTIGUOUS attribute - as actual argument at %L is not simply contiguous and both are ASYNCHRONOUS or VOLATILEDummy argument %qs not allowed in expression at %LDummy argument %qs of %qs at %L should be named %qs as to match the corresponding argument of the overridden procedureDummy argument %qs with INTENT(IN) in pointer association context (%s) at %LDummy argument %qs with INTENT(IN) in variable definition context (%s) at %LDummy flag. This is the default unless FPX switches are provided explicitly.Dummy procedure %qs at %C cannot have a generic interfaceDummy procedure %qs at %L shall not be elementalDummy procedure %qs is invalid in procedure pointer initialization at %LDummy procedure %qs not allowed in elemental procedure %qs at %LDummy procedure %qs of PURE procedure at %L must also be PUREDummy procedure at %C may not have BIND(C) attribute with NAMEDump Source Coverage Obligations.Dump a textual representation of the exploded graph to SRCFILE.eg-ID.txt.Dump a textual representation of the exploded graph to SRCFILE.eg.txt.Dump analyzer-specific call graph information to a SRCFILE.callgraph.dot file.Dump analyzer-specific data to a SRCFILE.analyzer.json.gz file.Dump declarations to a .decl file.Dump detailed information on GCC's internal representation of source code locations.Dump only the defined symbols.Dump optimization passes.Dump state-purging information to a SRCFILE.state-purge.dot file.Dump the analyzer exploded graph to a SRCFILE.eg.dot file.Dump the analyzer supergraph to a SRCFILE.supergraph.dot file.Dump the demangled output.Dump the details of LTO objects.Dump the dump tool command line options.Dump the statistics of gimple statements.Dump the statistics of tree types.Dump the statistics of trees.Dump the symtab callgraph.Dump various analyzer internals to SRCFILE.*.fg.dot and SRCFILE.*.tg.dot.Dump various analyzer internals to SRCFILE.analyzer.txt.Dump various analyzer internals to stderr.Duplicate %s attribute at %LDuplicate %s attribute specified at %LDuplicate %s label specification at %CDuplicate %s specification at %CDuplicate ASYNCHRONOUS attribute specified at %LDuplicate AUTOMATIC attribute specified at %LDuplicate BIND attribute specified at %LDuplicate DEFERRED at %CDuplicate DIMENSION attribute at %CDuplicate ELSE statements at %L and %CDuplicate EXTENDS attribute specified at %LDuplicate IMPLICIT NONE statement at %CDuplicate NML specification at %CDuplicate NON_OVERRIDABLE at %CDuplicate POINTER attribute at %CDuplicate PRIVATE statement at %CDuplicate PROTECTED attribute specified at %LDuplicate SAVE attribute specified at %LDuplicate SEQUENCE statement at %CDuplicate UNIT specification at %CDuplicate VALUE attribute specified at %LDuplicate VOLATILE attribute specified at %LDuplicate access-specifier at %CDuplicate argument %qs at %L to intrinsic %sDuplicate array spec for Cray pointee at %CDuplicate construct label %qs at %CDuplicate format specification at %CDuplicate name %qs in association at %CDuplicate name %qs in parameter list at %CDuplicate statement label %d at %L and %LDuplicate symbol %qs in formal argument list at %CDuring link time optimization warn about mismatched types of global declarations.Dynamic Realign Argument Pointer (DRAP) not supported in interrupt service routine.  This may be worked around by avoiding functions with aggregate return.Dynamically allocate cc registers.E specifier not allowed with g0 descriptor in format string at %LEDGE_CROSSING incorrectly set across same sectionEDGE_CROSSING missing across section boundaryEH edge crosses section boundary in bb %iEH incoming edge mixed with non-EH incoming edges in bb %iEH landing pad label ELEMENTAL function %qs at %L must have a scalar resultELEMENTAL non-INTRINSIC procedure %qs is not allowed as an actual argument at %LELEMENTAL prefix in MODULE PROCEDURE interface is missing at %LELEMENTAL procedure pointer component %qs is not allowed as an actual argument at %LELSE IF statement at %C cannot follow ELSE statement at %LELSEWHERE statement at %C follows previous unmasked ELSEWHEREELSEWHERE statement at %C not enclosed in WHERE blockENCODING= at %L not allowed in Fortran 95END TEAM statement at %CEND statement instead of %s statement at %LEND tag at %C not allowed in output statementEND tag label %d at %L not definedENTRY %qs at %L cannot be called recursively, as function %qs is not RECURSIVEENTRY %qs at %L cannot be called recursively, as subroutine %qs is not RECURSIVEENTRY %qs at %L has no IMPLICIT typeENTRY result %s cannot be a POINTER in FUNCTION %s at %LENTRY result %s cannot be an array in FUNCTION %s at %LENTRY result %s cannot be of type %s in FUNCTION %s at %LENTRY statement at %CENTRY statement at %C cannot appear in a contained procedureENTRY statement at %C cannot appear within a BLOCK DATAENTRY statement at %C cannot appear within a DERIVED TYPE blockENTRY statement at %C cannot appear within a DO blockENTRY statement at %C cannot appear within a FORALL blockENTRY statement at %C cannot appear within a MODULEENTRY statement at %C cannot appear within a PROGRAMENTRY statement at %C cannot appear within a SELECT blockENTRY statement at %C cannot appear within a STRUCTURE blockENTRY statement at %C cannot appear within a SUBMODULEENTRY statement at %C cannot appear within a WHERE blockENTRY statement at %C cannot appear within a contained subprogramENTRY statement at %C cannot appear within an IF-THEN blockENTRY statement at %C cannot appear within an INTERFACEENTRY statement at %L with BIND(C) prohibited in an elemental procedureENTRY_BLOCK has IL associated with itENUM and ENUMERATOR at %CENUM declaration at %C has no ENUMERATORSENUM definition statement expected before %CENUMERATOR %L not initialized with integer expressionEOR tag label %d at %L not definedEQUIVALENCE at %C requires two or more objectsEQUIVALENCE statement at %CERR tag label %d at %L not definedERRMSG at %LERRMSG at %L is useless without a STAT tagERRMSG tag at %LERRMSG variableERRMSG variable at %L shall be a scalar default CHARACTER variableERRMSG= argument at %L must be a scalar CHARACTER variableERROR STOP statement at %CESA/390 architecture.EVENT POST statement at %CEVENT WAIT statement at %CEVENT argument at %L to the intrinsic EVENT_QUERY shall be of type EVENT_TYPEEXIT statement at %C terminating !$ACC LOOP loopEXIT statement at %C terminating !$OMP DO loopEXIT statement with no do-construct-name at %CEXIT_BLOCK has IL associated with itEXTENDS at %LEXTERNAL attribute conflicts with FUNCTION attribute in %qs at %LEither all or none of the objects in the EQUIVALENCE set at %L shall have the PROTECTED attributeElement %d of actual argument of RESHAPE at %L cannot be negativeElement in %s array constructor at %L is %sElement of assumed-shape or pointer array as actual argument at %L cannot correspond to actual argument at %LElement of assumed-shape or pointer array passed to array dummy argument %qs at %LElement with a value of %d in ORDER at %L must be in the range [1, ..., %d] for the RESHAPE intrinsic near %LElemental function as initialization expression with non-integer/non-character arguments at %LElements with the same value at %L and %L in vector subscript in a variable definition context (%s)Eliminate multiple function invocations also for impure functions.Emit .gnu_attribute tags.Emit .stack_size directives.Emit 16-bit relocations to the small data areas.Emit 32-bit relocations to the small data areas.Emit GNU_PROPERTY_X86_ISA_1_NEEDED GNU property.Emit IEEE-conformant code, without inexact exceptions.Emit RISC-V ELF attribute.Emit call graph information.Emit checks causing "break 8" instructions to execute when applying atomic builtins on misaligned memory.Emit code for the byte/word ISA extension.Emit code for the counting ISA extension.Emit code for the fp move and sqrt ISA extension.Emit code for the motion video ISA extension.Emit code using explicit relocation directives.Emit common-like symbols as weak symbols.Emit debug annotations during preprocessing.Emit debugging information related to the escape analysis pass when run with -fgo-optimize-allocs.Emit diagnostics showing the location of nodes in the exploded graph.Emit direct branches to local functions.Emit extra code in the function prologue in order to trap if the stack size exceeds the given limit.Emit function prologues only before parts of the function that need it, rather than at the top of the function.Emit function-calls using global offset table when generating PIC.Emit fused multiply-add instructions for long doubles in vector registers (wfmaxb, wfmsxb, wfnmaxb, wfnmsxb).  Reassociation pass does not handle fused multiply-adds, therefore code generated by the middle-end is prone to having long fused multiply-add chains.  This is not pipeline-friendly, and the default behavior is to emit separate multiplication and addition instructions for long doubles in vector registers, because measurements show that this improves performance.  This option allows overriding it for testing purposes.Emit implicit instantiations of inline templates.Emit implicit instantiations of templates.Emit indirect branches to local functions.Emit instrumentation calls to __tsan_func_entry() and __tsan_func_exit().Emit long load/store sequences.Emit more verbose descriptions of control flow in diagnostics.Emit more verbose descriptions of state changes in diagnostics.Emit optimization diagnostics.Emit profiling counter call at function entry before prologue.Emit profiling counter call at function entry before prologue. The compiled code will require a 64-bit CPU and glibc 2.29 or newer to run.Emit progressive recommended breakpoint locations.Emit rdval instead of rduniq for thread pointer.Emit special instrumentation for accesses to volatiles.Emit static const variables even if they are not used.Emit stop bits before and after volatile extended asms.Emit template instantiations as weak symbols.Emit traps as "break 8", default for CRIS v3 and up.  If disabled, calls to abort() are used.Emit verbose debug information in assembly code.Empty FINAL at %CEmpty IMPLICIT statement at %CEmpty array constructor at %C is not allowedEmpty old style initializer list at %CEmpty set of digits in BOZ constant at %CEnable 'q' instruction alternatives.Enable 16-entry register file.Enable 64-bit Time-Stamp Counter extension instruction.Enable C++ coroutines (experimental).Enable C++ header module (experimental).Enable C++ modules-ts (experimental).Enable C++14 sized deallocation support.Enable C-SKY DSP instructions.Enable C-SKY Enhanced DSP instructions.Enable C-SKY SECURE instructions.Enable C-SKY TRUST instructions.Enable C-SKY Vector DSP instructions.Enable CFI tables via GAS assembler directives.Enable DEC-style STATIC and AUTOMATIC attributes.Enable DIV, DIVU.Enable DIV-REM instructions for ARCv2.Enable DSP 3.1 Pack A extensions.Enable DWARF line debug info via GNU as.Enable Dual and Single Operand Instructions for Telephony.Enable ENTER_S and LEAVE_S opcodes for ARCv2.Enable FT32B code compression.Enable Full Redundancy Elimination (FRE) on trees.Enable Function Descriptor PIC mode.Enable Graphite Identity transformation.Enable ID based shared library.Enable IEEE 128-bit floating point via the __float128 keyword.Enable Local Register Allocation.Enable Locked Load/Store Conditional extension.Enable MUL instructions.Enable MUL.X and UMUL.X instructions.Enable MULX instructions, assume fast shifter.Enable Objective-C exception and synchronization syntax.Enable Objective-C setjmp exception handling runtime.Enable OpenACC.Enable OpenMP (implies -frecursive in Fortran).Enable OpenMP GPU offloading.Enable OpenMP's SIMD directives.Enable PIC support for building libraries.Enable Plan 9 language extensions.Enable Rcq constraint handling - most short code generation depends on this.Enable Rcw constraint handling - ccfsm condexec mostly depends on this.Enable Read-Modify-Write (RMW) instructions support/use.Enable SSA coalescing of user variables.Enable SSA code sinking on trees.Enable SSA dead code elimination optimization on trees.Enable SSA-BIT-CCP optimization on trees.Enable SSA-CCP optimization on trees.Enable SSA-PRE optimization on trees.Enable TPF-OS tracing code.Enable Virtual Hosting support.Enable XY Memory extension (DSP version 3).Enable alignment of COMMON blocks.Enable all -Wunused- warnings.Enable all DEC language extensions.Enable all optimization info dumps on stderr.Enable an RTL peephole pass before sched2.Enable asan allocas/VLAs protection.Enable asan builtin functions protection.Enable asan detection of use-after-return bugs.Enable asan globals protection.Enable asan load operations protection.Enable asan stack protection.Enable asan store operations protection.Enable assembler and linker relaxation.  Enabled by default at -Os.Enable atomic instructions.Enable backend debugging.Enable backward propagation of use properties at the SSA level.Enable barrel shift instructions.Enable basic block vectorization (SLP) on trees.Enable basic program profiling code.Enable bbit peephole2.Enable cache bypass for volatile references.Enable cache prefetch instructions.Enable certain features present in the Concepts TS.Enable code density instructions for ARCv2.Enable code hoisting.Enable common options for generating profile info for profile feedback directed optimizations, and set -fprofile-dir=.Enable common options for generating profile info for profile feedback directed optimizations.Enable common options for performing profile feedback directed optimizations, and set -fprofile-dir=.Enable common options for performing profile feedback directed optimizations.Enable compact casesi pattern.Enable conditional dead code elimination for builtin calls.Enable conditional execution other than moves/scc.Enable conditional move instruction usage.Enable conditional moves.Enable constructor/destructor feature.Enable coprocessor instructions.Enable copy propagation of scalar-evolution information.Enable copy propagation on trees.Enable correction of flow inconsistent profile data input.Enable dead store elimination.Enable debug output.Enable decimal floating point hardware support.Enable default conversions between __float128 & long double.Enable default widths for i, f and g format specifiers.Enable divide and modulus instructions.Enable dominator optimizations.Enable double load/store instructions for ARC HS.Enable dual viterbi butterfly extension.Enable earlier placing stop bits for better scheduling.Enable early gimple folding of builtins.Enable exception handling.Enable forward propagation on trees.Enable front end optimization.Enable function profiling.Enable function reordering that improves code placement.Enable garbage collection (GC) in Objective-C/Objective-C++ programs.Enable generation of ARC SIMD instructions via target-specific builtins.Enable generation of R2 BMX instructions.Enable generation of R2 CDX instructions.Enable generation of binaries which use functions from libgcc to perform divide operations.  The default is -mhard-div.Enable generation of binaries which use functions from libgcc to perform floating point operations.  This is the default; use -mhard-float to override.Enable generation of binaries which use functions from libgcc to perform multiply operations. The default is -mhard-mul.Enable generation of compare and set flag with immediate (l.sf*i) instructions. By default extra instructions will be generated to store the immediate to a register first.Enable generation of conditional move (l.cmov) instructions.  By default the equivalent will be generated using set and branch.Enable generation of hardware divide (l.div, l.divu) instructions.  This is the default; use -msoft-div to override.Enable generation of hardware floating point instructions. The default is -msoft-float.Enable generation of hardware multiply instructions (l.mul, l.muli) instructions. This is the default; use -msoft-mul to override.Enable generation of rotate right (l.ror) instructions.  By default functions from libgcc are used to perform rotate right operations.Enable generation of rotate right with immediate (l.rori) instructions.  By default functions from libgcc are used to perform rotate right with immediate operations.Enable generation of shift with immediate (l.srai, l.srli, l.slli) instructions. By default extra instructions will be generated to store the immediate to a register first.Enable generation of sign extension (l.ext*) instructions.  By default memory loads are used to perform sign extension.Enable guessing of branch probabilities.Enable hardware floating point.Enable hoisting adjacent loads to encourage generating conditional move instructions.Enable hoisting loads from conditional pointers.Enable hwasan instrumentation of allocas/VLAs.Enable hwasan instrumentation of builtin functions.Enable hwasan instrumentation of load operations.Enable hwasan instrumentation of statically sized stack-allocated variables.Enable hwasan instrumentation of store operations.Enable in and out of Graphite representation.Enable inline checks for nil receivers with the NeXT runtime and ABI version 2.Enable inlining of PLT in function calls.Enable inlining of function declared "inline", disabling disables all inlining.Enable instructions that guard against return-oriented programming attacks.Enable interrupt stack instructions.Enable kind-specific variants of integer intrinsic functions.Enable label alignment optimizations.Enable lazy module importing.Enable legacy math intrinsics for compatibility.Enable legacy parsing of INCLUDE as statement.Enable link-time optimization.Enable linker optimizations.Enable linker relaxation.Enable linker relaxations.Enable linker relaxing.Enable load/store bonding.Enable loop distribution for patterns transformed into a library call.Enable loop distribution on trees.Enable loop epilogue vectorization using smaller vector size.Enable loop header copying on trees.Enable loop interchange on trees.Enable loop invariant motion on trees.Enable loop nest transforms.  Same as -floop-nest-optimize.Enable loop optimizations on tree level.Enable loop vectorization on trees.Enable machine specific peephole optimizations.Enable more verbose RTX cost dumps during debug.  For GCC developers use only.Enable most warning messages.Enable multicore support.Enable multiply instructions.Enable multiprocessor instructions.Enable nested conditional execution optimizations.Enable optimizing &&/|| in conditional execution.Enable parsing GIMPLE.Enable pre-reload use of cbranchsi pattern.Enable preprocessing.Enable range checking during compilation.Enable reassociation on tree level.Enable register pressure sensitive insn scheduling.Enable relaxing in the assembler.Enable scheduling across basic blocks.Enable separate data segment.Enable setting GPRs to the result of comparisons.Enable shadow stack built-in functions from Control-flow Enforcement Technology (CET).Enable sign extend instructions.Enable split of 32 bit immediate loads into low / high part.Enable stack probing.Enable static analysis pass.Enable strict 32-bit psABI struct return checking.Enable string length optimizations on trees.Enable support for C++ concepts.Enable support for DEC STRUCTURE/RECORD.Enable support for GNU transactional memory.Enable support for the RH850 ABI.  This is the default.Enable support for the old GCC ABI.Enable swap byte ordering extension instruction.Enable tail merging on trees.Enable the char8_t fundamental type and use it as the type for UTF-8 string and character literals.Enable the critical path heuristic in the scheduler.Enable the dependent count heuristic in the scheduler.Enable the division approximation.  Enabling this reduces precision of division results to about 16 bits for single precision and to 32 bits for double precision.Enable the extended LRW instruction (default for CK801).Enable the group heuristic in the scheduler.Enable the last instruction heuristic in the scheduler.Enable the loop nest optimizer.Enable the normal mode.Enable the rank heuristic in the scheduler.Enable the reciprocal square root approximation.  Enabling this reduces precision of reciprocal square root results to about 16 bits for single precision and to 32 bits for double precision.Enable the speculative instruction heuristic in the scheduler.Enable the square root approximation.  Enabling this reduces precision of square root results to about 16 bits for single precision and to 32 bits for double precision. If enabled, it implies -mlow-precision-recip-sqrt.Enable the use of 64-bit floating point registers in fmov instructions.  See -mdalign if 64-bit alignment is required.Enable the use of RX FPU instructions.  This is the default.Enable the use of blank format items in format strings.Enable the use of character literals in assignments and data statements for non-character variables.Enable the use of indexed loads.Enable the use of pre/post modify with register displacement.Enable the use of the LRA register allocator.Enable the use of the fsca instruction.Enable the use of the fsrra instruction.Enable the use of the old, broken, ABI where all stacked function arguments are aligned to 32-bits.Enable the use of the short load instructions.Enable the use the standard RX ABI where all stacked function arguments are naturally aligned.  This is the default.Enable the z vector language extension providing the context-sensitive vector macro and enable the Altivec-style builtins in vecintrin.h.Enable traditional preprocessing.Enable transitivity of constraints during analysis.Enable unaligned word and halfword accesses to packed data.Enable use of BI/BIH instructions when available.Enable use of GPREL for read-only data in FDPIC.Enable use of NPS400 bit operations.Enable use of NPS400 xld/xst extension.Enable use of POST_INC / POST_DEC.Enable use of POST_MODIFY.Enable use of R16-R31 (default).Enable use of odd-numbered single-precision registers.Enable use of sdata/scommon/sbss.Enable user-defined instructions.Enable using IEEE 128-bit floating point instructions.Enable v850e3v5 loop instructions.Enable variable polynomial CRC extension.Enable vectorization on trees.Enable verbose output.Enable workaround for single erratum of AT697F processor (corresponding to erratum #13 of AT697E processor).Enable workarounds for the errata of the GR712RC processor.Enable workarounds for the errata of the UT699 processor.Enable workarounds for the errata of the UT699E/UT700 processor.Enable/Disable the traditional scheduling in loops that already passed modulo scheduling.Enable/disable GP-relative addressing.Enabled ID based shared library.Enables Position-Independent-Data (PID) mode.Enables or disables the use of the SMOVF, SMOVB, SMOVU, SUNTIL, SWHILE and RMPA instructions.  Enabled by default.Enables the dynamic vectorizer cost model.  Preserved for backward compatibility.Enables verbose cost model dumping in the debug dump files.Encode SSE instructions with VEX prefix.End expression in DO loopEnd of nonblock DO statement at %C is interwoven with another DO loopEnd of nonblock DO statement at %C is within another blockEnd of scalar initializer expected at %CEnd of search list.
Enforce class member access control semantics.Entity %qs at %L has a deferred type parameter and requires either the POINTER or ALLOCATABLE attributeEntity %qs at %L is already present in the interfaceEntity with assumed character length at %L must be a dummy argument or a PARAMETEREnumerator exceeds the C integer type at %CEquality comparison for %s at %LEquivalence for %qs does not match ordering of COMMON %qs at %LEquivalent to -mgpopt=local.Equivalent to -mgpopt=none.Errmsg-variable at %L shall not be %sd within the same %s statementErrorError allocating %lu bytesError converting PARAMETER constant in complex constant at %CError converting integerError in pointer initialization at %CError in type-spec at %LError in typebound call at %LError reallocating to %lu bytesError writing JSON output file %s
Error writing module file %qs for writing: %sError writing modules file: %sError writing output file '%s'
Evaluation of nonstandard initialization expression at %LEvaluation of string longer than 2**28 at %L deferred to runtime, expect bugsEventEvent variable argument at %L must be a coarray but not coindexedEvent variable argument at %L must be a coarray or coindexedEvent variable at %L must be a scalar of type EVENT_TYPEExit condition of DO WHILE loop at %L must be a scalar LOGICAL expressionExit on the first error occurred.Expand 32bit/64bit integer divide into 8bit unsigned integer divide with run-time check.Expand adddi3 and subdi3 at rtl generation time into add.f / adc etc.Expected ")" at %CExpected "," at %CExpected %<(%> at %CExpected %<)%> or %<,%> at %CExpected %<,%> at %CExpected %<,%> or end of statement at %CExpected %<::%> after binding-attributes at %CExpected %<::%> at %CExpected %<=>%> at %CExpected %<END INTERFACE ASSIGNMENT (=)%> at %CExpected '*' in coindex specification in ALLOCATE statement at %LExpected :: in TYPE definition at %CExpected = sign in PARAMETER statement at %CExpected AQC_REL, RELEASE, or ACQUIRE at %CExpected DO loop at %CExpected HOST, NOHOST or ANY at %CExpected INCLUSIVE or EXCLUSIVE clause at %CExpected P edit descriptor in format string at %LExpected PARAMETER symbol in complex constant at %CExpected RANK or RANK DEFAULT following SELECT RANK at %CExpected SEQ_CST, ACQ_REL or RELAXED for ATOMIC_DEFAULT_MEM_ORDER clause at %CExpected SHAPE argument to C_F_POINTER with array FPTR at %LExpected TYPE IS, CLASS IS or END SELECT statement following SELECT TYPE at %CExpected UNIFIED_ADDRESS, UNIFIED_SHARED_MEMORY, DYNAMIC_ALLOCATORS, REVERSE_OFFLOAD, or ATOMIC_DEFAULT_MEM_ORDER clause at %LExpected a CASE or END SELECT statement following SELECT CASE at %CExpected a nameless interface at %CExpected a procedure for argument %qs at %LExpected a procedure pointer for argument %qs at %LExpected a right parenthesis in expression at %CExpected a step value in iterator at %CExpected access-specifier at %CExpected alternate return label at %CExpected an initialization expression at %CExpected another dimension in array declaration at %CExpected argument list at %CExpected array subscript at %CExpected array subscript stride at %CExpected association at %CExpected association list at %CExpected attribute bit nameExpected binding attribute at %CExpected binding name at %CExpected binding target after %<=>%> at %CExpected block name %qs of SELECT construct at %CExpected block name of %qs in %s statement at %LExpected bounds specification for %qs at %LExpected coarray variable as %qs argument to the %s intrinsic at %LExpected comma in I/O list at %CExpected component reference at %CExpected data constant after repeat spec at %CExpected entity-list in AUTOMATIC statement at %CExpected entity-list in STATIC statement at %CExpected exponent in expression at %CExpected expression at %C in PARAMETER statementExpected expression in %s statement at %CExpected expression in array specification at %CExpected expression typeExpected formal argument list in function definition at %CExpected generic name or operator descriptor at %CExpected initialization expression at %CExpected initialization expression in CASE at %CExpected integerExpected integer stringExpected intrinsic assignment in OMP WORKSHARE at %LExpected label %qs for %s statement at %CExpected left parenthesisExpected list of %<lower-bound :%> or list of %<lower-bound : upper-bound%> specifications at %LExpected module procedure name at %CExpected nameExpected parameter list in type declaration at %CExpected real stringExpected register or constant integer.Expected right parenthesisExpected scalar initialization expression at %CExpected specific binding name at %CExpected stringExpected structure component name at %CExpected structure component or operator name after '.' at %CExpected terminating name at %CExpected type-bound procedure or procedure pointer component at %CExpected variable name at %CExpected variable name at %C in PARAMETER statementExpecting %<END INTERFACE %s%> at %CExpecting %<END INTERFACE OPERATOR (%s)%> at %CExpecting %<END INTERFACE OPERATOR (%s)%> at %C, but got %qsExpecting %<END INTERFACE OPERATOR (.%s.)%> at %CExpecting %s at %CExpecting %s statement at %LExpecting a comma in EQUIVALENCE at %CExpecting a scalar INTEGER expression at %C, found %sExpecting a variable at %LExpecting definable entity near %LExpecting list of named entities at %CExpecting variable in READ statement at %CExpecting variable or io-implied-do at %LExpecting variable or io-implied-do in READ statement at %LExplain what alignment considerations lead to the decision to make an insn short or long.Explicit array shape at %C must be constant of INTEGER type and not %s typeExplicit interface required for %qs at %L: %sExplicit interface required for component %qs at %L: %sExplicit interface required for polymorphic argument at %LExplicit shaped array with nonconstant bounds at %CExport functions even if they can be inlined.Expression at %L in this context must be constantExpression at %L must be of INTEGER type, found %sExpression at %L must be scalarExpression in CASE selector at %L cannot be %sExpression in CASE statement at %L is not in the range of %sExpression in CASE statement at %L must be of kind %dExpression in CASE statement at %L must be of type %sExpression in CASE statement at %L must be scalarExtension: %s specifier in %s statement at %L has value %qsExtension: Conversion from %s to %s at %LExtension: Scalar non-default-kind, non-C_CHAR-kind CHARACTER actual argument with array dummy argument %qs at %LExtension: Unary operator following arithmetic operator (use parentheses) at %CExtension: Zero width after L descriptor at %LExtension: backslash character at %CExtension: exponent-letter %<q%> in real-literal-constant at %CExternal %qs at %L cannot have an initializerExternal IO UNIT cannot be an array at %LExternal object %qs at %L may not have an initializerExtra option to %<-Xassembler%>: %s, dropping all %<-Xassembler%> and %<-Wa%> options.Extraneous characters in format at %LF2008: C1210 IMPORT statement at %C is not permitted in a module procedure interface bodyFAIL IMAGE statement at %CFAILED= argument to NUM_IMAGES at %LFDPIC mode is not supported in Thumb-1 modeFINAL clause at %L requires a scalar LOGICAL expressionFINAL declaration at %C must be inside CONTAINSFINAL declaration at %C must be inside a derived type CONTAINS sectionFINAL procedure %qs at %L is not a SUBROUTINEFINAL procedure %qs declared at %L has the same rank (%d) as %qsFINAL procedure at %L must have exactly one argumentFINAL procedure declaration at %CFLUSH statement at %CFORALL construct at %LFORALL end expression at %L must be a scalar INTEGERFORALL index %qs may not appear in triplet specification at %LFORALL index-name at %L must be a scalar INTEGERFORALL index-name at %L must be a scalar variable of type integerFORALL mask clause at %L requires a scalar LOGICAL expressionFORALL start expression at %L must be a scalar INTEGERFORALL stride expression at %L cannot be zeroFORALL stride expression at %L must be a scalar %sFORM TEAM statement at %CFORMAT label %d at %L not definedFORMAT statement at %C cannot appear within an INTERFACEFORMAT statement at %L does not have a statement labelFORMAT tag at %L cannot be a zero-sized arrayFORMAT tag at %L must be of type default-kind CHARACTER or of INTEGERFP exceptions are enabled.FP registers might be clobbered despite %qE attribute: compile with %<-mgeneral-regs-only%>FPTR argument at %L to C_F_POINTER shall not be polymorphicFPX fast and compact options cannot be specified togetherFPX: Enable Argonaut ARC CPU Double Precision Floating Point extensions.FPX: Generate Double Precision FPX (compact) instructions.FPX: Generate Double Precision FPX (fast) instructions.FPX: Generate Single Precision FPX (compact) instructions.FPX: Generate Single Precision FPX (fast) instructions.FROMPOS argument (%ld) out of range 0:%d in intrinsic MVBITSFROMPOS(%ld)+LEN(%ld)>BIT_SIZE(%d) in intrinsic MVBITSFUNCTION result %s cannot be a POINTER in FUNCTION %s at %LFUNCTION result %s cannot be an array in FUNCTION %s at %LFUNCTION result %s cannot be of type %s in FUNCTION %s at %LFactor complex constructors and destructors to favor space over speed.Failed to create structure type '%s' at %CFailed to match clause at %CFailure getting length of a constant array.Failure in conversion of BOZ to REAL at %LFatal ErrorField members of a synchronized class cannot be %sFile %qs opened at %C is not a GNU Fortran module fileFine grain control of tune features.First argument of defined assignment at %L must be INTENT(OUT) or INTENT(INOUT)First argument of operator interface at %L cannot be optionalFirst argument of operator interface at %L must be INTENT(IN)First or last !$OMP ATOMIC intrinsic argument must be %qs at %LFix min_int calculationFixed line length must be at least sevenFlag %<-fmax-stack-var-size=%d%> overwrites %<-frecursive%> implied by %qsFlag %<-fno-automatic%> overwrites %<-fmax-stack-var-size=%d%>Flag %<-fno-automatic%> overwrites %<-frecursive%>Flag %<-fno-automatic%> overwrites %<-frecursive%> implied by %qsFlag %<-frecursive%> overwrites %<-fmax-stack-var-size=%d%>Floating point custom instruction configuration name.Follow Renesas (formerly Hitachi) / SuperH calling conventions.Follow the C++17 evaluation order requirements for assignment expressions, shift, member function calls, etc.Follow the EABI linkage requirements.For dummy procedure %s, no binding name is allowed in BIND(C) at %CFor intrinsics library: pass all parameters in registers.For nested functions on stack executable permission is set.For shift operations by a constant amount, which require an individual instruction to shift by one position, set the maximum number of inline shift instructions (maximum value 64) to emit instead of using the corresponding __mspabi helper function. The default value is 4.For targets that normally need trampolines for nested functions, always generate them instead of using descriptors.For the assembler (and linker) permit any architecture sub-variant to be used without error.Forbid performing fp-as-gp optimization.Forbid using $fp to access static and global variables.  This option strictly forbids fp-as-gp optimization regardless of '-mforce-fp-as-gp'.Force all calls to be made via a jli instruction.Force assembly output to always use hex constants.Force bitfield accesses to match their type width.Force creation of temporary to test infrequently-executed forall code.Force disable hardware loop, even use -mext-dsp.Force functions to be aligned to a 4 byte boundary.Force generation of external symbol indirection stubs.Force indirect call and jump via register.Force performing fp-as-gp optimization.Force the underlying type for "wchar_t" to be "unsigned short".Force the usage of delay slots for conditional branches.Format statement in module main block at %CFortran 2003: %s specifier in %s statement at %L has value %qsFortran 2003: Character for %qs argument of %qs intrinsic at %LFortran 2003: DT format specifier not allowed at %CFortran 2003: Scalar CHARACTER actual argument with array dummy argument %qs at %LFortran 2008 obsolescent feature:Fortran 2008: COMMON block %qs with binding label at %L sharing the identifier with global non-COMMON-block entity at %LFortran 2008: Non-pointer actual argument at %L to pointer dummy %qsFortran 2008: Null pointer at %L to non-pointer dummy %qsFortran 2008: Pointer functions in variable definition context (%s) at %LFortran 2008: Semicolon at %C without preceding statementFortran 2018 deleted feature:Fortran 2018 obsolescent feature:Fortran 2018:Fortran 95 requires default INTEGER in %s tag at %LFound no matching specific binding for the call to the GENERIC %qs at %LFree line length must be at least threeFunction %qs as initialization expression at %LFunction %qs at %L cannot be called recursively, as it is not RECURSIVEFunction %qs at %L cannot have an initializerFunction %qs at %L has no IMPLICIT typeFunction %qs at %L has no IMPLICIT type; did you mean %qs?Function %qs at %L is INTRINSIC but is not compatible with an intrinsicFunction %qs at %L must be PUREFunction %qs in initialization expression at %L must be an intrinsic functionFunction %qs is declared CHARACTER(*) and cannot be used at %L since it is not a dummy argumentFunction %qs requires an argument list at %CFunction %qs, parameter %u, has IPA-SRA accesses which overlapFunction %s at %L has entries with mismatched array specificationsFunction %s at %L with entries returning variables of different string lengthsFunction %s, parameter %u, is used but does not have any certain IPA-SRA accessFunction not found.Function result %qs at %L cannot have an initializerFunction result %qs at %L has no IMPLICIT typeFunction result %qs at %L is invalid as X argument to C_FUNLOCFunction result %qs at %L shall not be a coarray or have a coarray componentFunction result %qs is invalid as proc-target in procedure pointer assignment at %LFunction result variable %qs at %L of elemental function %qs shall not have an ALLOCATABLE or POINTER attributeFunction starts are aligned to this power of 2.Functions which return values must end with return statements.Fuse certain integer operations together for better performance on power10.Fuse certain integer operations together for better performance on power8.Fuse dependent pairs of add or vaddudm instructions for better performance on power10.Fuse medium/large code model toc references with the memory instruction.Fuse pairs of scalar or vector logical operations together for better performance on power10.Fuse scalar add/subf with logical op for better performance on power10.Fuse scalar logical op with add/subf for better performance on power10.GCC cannot support operators with integer types and fixed-point types that have too many integral and fractional bits togetherGCC does not currently support argument type %qT for %<simd%> functionsGCC does not currently support mixed size types for %<simd%> functionsGCC does not currently support return type %qT for %<simd%> functionsGCC does not currently support simdlen %wd for type %qTGCC is not configured to support %s as offload targetGCC must be configured with %<--enable-newlib-nano-formatted-io%> to use %<-mtiny-printf%>GCC supports only %u nested scopesGCC vector passed by reference: non-standard ABI extension with no compatibility guaranteeGCC vector returned by reference: non-standard ABI extension with no compatibility guaranteeGCN GPU type to use:GCSE disabledGENERIC %qs at %L cannot overwrite specific binding with the same nameGENERIC %qs at %L must target a specific binding, %qs is GENERIC, tooGENERIC at %C must be inside a derived-type CONTAINSGENERIC binding at %CGENERIC procedure %qs is not allowed as an actual argument at %LGMP version %s, MPFR version %s, MPC version %s, isl version %s
GNU C no longer supports -traditional without -EGNU Extension:GNU Objective C no longer supports traditional compilationGNU-style attribute between label and declaration appertains to the labelGOTO statement at %L leaves CRITICAL construct for label at %LGOTO statement at %L leaves DO CONCURRENT construct for label at %LGarbage after PARAMETERIZED TYPE declaration at %CGenerate (do not generate) MMA instructions.Generate (do not generate) pc-relative memory addressing.Generate (do not generate) pc-relative memory optimizations for externals.Generate (do not generate) prefixed memory instructions.Generate 16-bit instructions.Generate 16bit i386 code.Generate 32-bit code.Generate 32-bit offsets in switch tables.Generate 32bit i386 code.Generate 32bit x86-64 code.Generate 32x16 multiply and mac instructions.Generate 64-bit code.Generate 64bit x86-64 code.Generate APCS conformant stack frames.Generate ARCompact 32-bit code for ARC600 processor.Generate ARCompact 32-bit code for ARC601 processor.Generate ARCompact 32-bit code for ARC700 processor.Generate AT&T-style stubs for Mach-O.Generate C header of platform-specific features.Generate C prototypes from BIND(C) declarations.Generate C prototypes from non-BIND(C) external procedure definitions.Generate C++ Module dependency information.Generate C-SKY FPU double float instructions (default for hard float).Generate DSP extension instructions.Generate DWARF pubnames and pubtypes sections with GNU extensions.Generate DWARF pubnames and pubtypes sections.Generate ELF FDPIC code.Generate GFLOAT double precision code.Generate H8/300H code.Generate H8S code.Generate H8S/2600 code.Generate H8SX code.Generate ILP32 code.Generate IT blocks appropriate for ARMv8.Generate JSON file.Generate LP64 code.Generate MIPS16 code.Generate ModuleInfo struct for output module.Generate PA1.0 code.Generate PA1.1 code.Generate PA2.0 code (requires binutils 2.10 or later).Generate SBIT, CBIT instructions.Generate SH1 code.Generate SH2 code.Generate SH2a FPU-less code.Generate SH2e code.Generate SH3 code.Generate SH3e code.Generate SH4 FPU-less code.Generate SH4 code.Generate SH4-100 FPU-less code.Generate SH4-100 code.Generate SH4-200 FPU-less code.Generate SH4-200 code.Generate SH4-300 FPU-less code.Generate SH4-300 code.Generate SH4a FPU-less code.Generate SH4a code.Generate SH4al-dsp code.Generate VRSAVE instructions when generating AltiVec code.Generate __mcount_loc section with all _mcount and __fentry__ calls.Generate __mcount_loc section with all mcount or __fentry__ calls.Generate a #line directive pointing at the current working directory.Generate a Mach-O bundle (file type MH_BUNDLE).Generate a __return_loc section pointing to all return instrumentation code.Generate a call to abort if a noreturn function returns.Generate a default D main() function when compiling.Generate a single exit point for each function.Generate absolute source path names for gcov.Generate aggregate parameter passing code with at most 64-bit alignment.Generate an output executable that binds symbols on load, rather than lazily.Generate assembler output that is compatible with the Renesas AS100 assembler.  This may restrict some of the compiler's capabilities.  The default is to generate GAS compatible syntax.Generate auto-inc/dec instructions.Generate big endian code.Generate big-endian code.Generate big-endian eBPF.Generate bit instructions.Generate call insns as direct calls.Generate call insns as indirect calls, if necessary.Generate call insns as indirect calls.Generate call insns as register indirect calls.Generate cld instruction in the function prologue.Generate code for C-SKY compiler runtime instead of libgcc.Generate code for CR16C architecture.Generate code for CR16C+ architecture (Default).Generate code for GNU as.Generate code for GNU assembler (gas).Generate code for GNU ld.Generate code for GNU runtime environment.Generate code for NeXT (Apple Mac OS X) runtime environment.Generate code for OpenMP offloading: enables -msoft-stack and -muniform-simt.Generate code for SH4 340 series (MMU/FPU-less).Generate code for SH4 400 series (MMU/FPU-less).Generate code for SH4 500 series (FPU-less).Generate code for Smart Mode.Generate code for Thumb state.Generate code for UNIX assembler.Generate code for a 32-bit ABI.Generate code for a 5206e.Generate code for a 520X.Generate code for a 528x.Generate code for a 5307.Generate code for a 5407.Generate code for a 64-bit ABI.Generate code for a 68000.Generate code for a 68010.Generate code for a 68020.Generate code for a 68030.Generate code for a 68040, without any new instructions.Generate code for a 68040.Generate code for a 68060, without any new instructions.Generate code for a 68060.Generate code for a 68302.Generate code for a 68332.Generate code for a 68851.Generate code for a ColdFire v4e.Generate code for a DLL.Generate code for a Fido A.Generate code for a cpu32.Generate code for all template instantiations.Generate code for an 11/10.Generate code for an 11/40.Generate code for an 11/45.Generate code for assert contracts.Generate code for class invariant contracts.Generate code for darwin loadable kernel extensions.Generate code for functions even if they are fully inlined.Generate code for given CPU.Generate code for old exec BSS PLT.Generate code for postcondition contracts.Generate code for precondition contracts.Generate code for static functions even if they are never called.Generate code for switches without a default case.Generate code for the Android platform.Generate code for the M*Core M210.Generate code for the M*Core M340.Generate code for the kernel or loadable kernel extensions.Generate code for the supervisor mode (default).Generate code for the user mode.Generate code in 32 bit ARM state.Generate code in big endian mode.Generate code in big-endian mode.Generate code in little endian mode.Generate code in little-endian mode.Generate code suitable for executables (NOT shared libs).Generate code suitable for fast turn around debugging.Generate code that can be used in SVR4-style dynamic objects.Generate code that can keep local state uniform across all lanes.Generate code that conforms to Intel MCU psABI.Generate code that conforms to the given ABI.Generate code that conforms to the specified ABI.Generate code that is link-compatible with MIPS16 and microMIPS code.Generate code that uses 68881 floating-point instructions.Generate code that will run in privileged state.Generate code that won't be linked against any other ID shared libraries, but may be used as a shared library.Generate code to check bounds before indexing arrays.Generate code to check exception specifications.Generate code to mitigate against straight line speculation.Generate code to track when the CPU might be speculating incorrectly.Generate code to use a non-exec PLT and GOT.Generate code using global anchor symbol addresses.Generate code which uses hardware floating point instructions.Generate code which uses only the general registers.Generate code which uses the core registers only (r0-r14).Generate code with library calls for floating point.Generate code without GP reg.Generate compile-time CFString objects.Generate compressed debug sections.Generate conditional move instructions.Generate constant pools in the compiler instead of assembler.Generate cpp defines for server IO.Generate cpp defines for workstation IO.Generate debug information in DWARF v2 (or later) format.Generate debug information in STABS format.Generate debug information in VMS format.Generate debug information in XCOFF format.Generate debug information in default extended format.Generate debug information in default format.Generate debug information in default version of DWARF format.Generate debug information in extended STABS format.Generate debug information in extended XCOFF format.Generate debug information in separate .dwo files.Generate default double-precision SH2a-FPU code.Generate default single-precision SH2a-FPU code.Generate default single-precision SH4 code.Generate default single-precision SH4-100 code.Generate default single-precision SH4-200 code.Generate default single-precision SH4-300 code.Generate default single-precision SH4a code.Generate discontiguous stack frames.Generate divide instructions.Generate divide results with reminder having the same sign as the divisor (not the dividend).Generate documentation.Generate double-precision floating-point instructions.Generate eBPF for the given Linux kernel version.Generate extended arithmetic instructions, only valid for ARC700.Generate extended entry point information for inlined functions.Generate fast indirect calls.Generate floating point mathematics using given instruction set.Generate floating-point multiply-accumulation instructions.Generate frecipd/fsqrtd/fdivd instructions (default for hard float).Generate hardware abs instructions.Generate inline floating point division, optimize for latency.Generate inline floating point division, optimize for throughput.Generate inline integer division, optimize for latency.Generate inline integer division, optimize for throughput.Generate inline square root, optimize for latency.Generate inline square root, optimize for throughput.Generate instructions supported by barrel shifter.Generate isel instructions.Generate lazy class lookup (via objc_getClass()) for use in Zero-Link mode.Generate little endian code.Generate little-endian code.Generate little-endian eBPF.Generate load/store multiple instructions.Generate load/store with update instructions.Generate local calls to out-of-line atomic operations.Generate make dependencies and compile.Generate make dependencies.Generate mcount/__fentry__ calls as nops. To activate they need to be patched in.Generate millicode thunks.Generate mul64 and mulu64 instructions.Generate norm instruction.Generate normal-mode code.Generate only single-precision SH2a-FPU code.Generate only single-precision SH4 code.Generate only single-precision SH4-100 code.Generate only single-precision SH4-200 code.Generate only single-precision SH4-300 code.Generate only single-precision SH4a code.Generate pc-relative code.Generate performance extension instructions.Generate performance extension version 2 instructions.Generate phony targets for all headers.Generate position-independent code for executables if possible (large mode).Generate position-independent code for executables if possible (small mode).Generate position-independent code if possible (large mode).Generate position-independent code if possible (small mode).Generate prefetch instructions, if available, for arrays in loops.Generate push/pop instructions (default).Generate re-entrant, PIC code.Generate reciprocals instead of divss and sqrtss.Generate return instruction in naked function.Generate run time type descriptor information.Generate sdata references.  This is the default, unless you compile for PIC.Generate sections .s390_indirect_jump, .s390_indirect_call, .s390_return_reg, and .s390_return_mem to contain the indirect branch locations which have been patched as part of using one of the -mindirect-branch* or -mfunction-return* options.  The sections consist of an array of 32 bit elements. Each entry holds the offset from the entry to the patched location.Generate self-relocatable code.Generate sin, cos, sqrt for FPU.Generate single-precision floating-point instructions.Generate software reciprocal divide and square root for better throughput.Generate special Objective-C methods to initialize/destroy non-POD C++ ivars, if needed.Generate stm/ldm instructions (default).Generate string extension instructions.Generate swap instruction.Generate the integer modulo instructions.Generate the quad word memory atomic instructions (lqarx/stqcx).Generate the quad word memory instructions (lq/stq).Generate unaligned VSX load/store for inline expansion of memcpy/memmove.Generate unaligned VSX vector pair load/store for inline expansion of memcpy/memmove.Generate unwind tables that are exact at each instruction boundary.Generate v3 push25/pop25 instructions.Generate vzeroupper instruction before a transfer of control flow out of the function.Generate xBPF.Generic function %qs at %L is not consistent with a specific intrinsic interfaceGeneric name %qs of function %qs at %L being the same name as derived type at %LGeneric subroutine %qs at %L is not consistent with an intrinsic subroutine interfaceGive branches their default cost.Give external symbols a leading underscore.Global binding name %qs at %L is already being used as a %s at %LGlobal binding name %qs at %L is already being used at %LGlobal entity %qs at %L cannot appear in a COMMON block at %LGlobal name %qs at %L is already being used as a %s at %LGlobal name %qs at %L is already being used at %LGraphite loop optimizations cannot be used (isl is not available) (%<-fgraphite%>, %<-fgraphite-identity%>, %<-floop-nest-optimize%>, %<-floop-parallelize-all%>)Graphite loop optimizations cannot be used (isl is not available).Guide linker to relax instructions.Handle atomic builtins that may be applied to unaligned data by calling library functions. Overrides -mtrap-unaligned-atomic.Hardware autoprefetcher scheduler model control flag.  Number of lookahead cycles the model looks into, at '0' only enable instruction sorting heuristic.  Disabled by default.Hexadecimal constant at %L uses nonstandard X instead of ZHollerith constant at %CHost associated variable %qs may not be in the DATA statement at %CHow much can given compilation unit grow because of the inlining (in percent).How much can given compilation unit grow because of the interprocedural constant propagation (in percent).I/O register operand for '%%%c'IBITS: Bad bitICE: emit_insn used where emit_jump_insn needed:
ID of shared library to build.ID shared libraries and FD-PIC mode can%'t be used togetherIEEE_ARITHMETIC module at %CIEEE_EXCEPTIONS module at %CIEEE_FEATURES module at %CIF clause at %L requires a scalar LOGICAL expressionIF clause modifier %s at %L not appropriate for the current OpenMP constructIF clause without modifier at %L used together with IF clauses with modifiersIM part_ref at %CIMPLICIT NONE (type) statement at %L following an IMPLICIT statementIMPLICIT statement at %C following an IMPLICIT NONE (type) statementIMPORT NONE with spec list at %CIMPORT statement at %CIMPORT statement at %C only permitted in an INTERFACE bodyIMPURE procedure at %CINQUIRE statement at %L cannot contain both FILE and UNIT specifiersINQUIRE statement at %L requires a PENDING= specifier with the ID= specifierINQUIRE statement at %L requires either FILE or UNIT specifierINQUIRE statement not allowed in PURE procedure at %CINTEGER expression of %s clause at %L must be non-negativeINTEGER expression of %s clause at %L must be positiveINTEGER expression of SCHEDULE clause's chunk_size at %L must be positiveINTEGER(KIND=8) is not available for %<-fdefault-integer-8%> optionINTEGER(KIND=8) is not available for %<-finteger-4-integer-8%> optionINTENT (%s) conflicts with INTENT(%s) at %LINTENT is not allowed inside of BLOCK at %CINTENT(%s) actual argument at %L might interfere with actual argument at %L.INTENT(IN) POINTER %qs in %s clause at %LINTENT(IN) POINTER %qs in COPYPRIVATE clause at %LINTENT(OUT) argument %qs of pure procedure %qs at %L may not be polymorphicINTERFACE procedure %qs at %L has the same name as the enclosing procedureIO UNIT in %s statement at %L must be an internal file in a PURE procedureIO definition for %q+D needs an addressIOLENGTH tag invalid in INQUIRE statement at %CIOMSG tag at %LIPA modref summary is missing in input fileIPA-SRA access verification failedISA %qs is not supported in %<target%> attribute, use %<arch=%> syntaxISO C does not allow %<%E (expression)%>ISO C does not allow extra %<;%> outside of a functionISO C does not permit %<_Alignof%> applied to a function typeISO C does not support %<#pragma STDC FLOAT_CONST_DECIMAL64%>ISO C does not support %<++%> and %<--%> on complex typesISO C does not support %<[[]]%> attributes before C2XISO C does not support %<__int%d%> typesISO C does not support %<~%> for complex conjugationISO C does not support %qs predefined identifierISO C does not support complex integer typesISO C does not support decimal floating-point before C2XISO C does not support fixed-point typesISO C does not support omitting parameter names in function definitions before C2XISO C does not support plain %<complex%> meaning %<double complex%>ISO C does not support saturating typesISO C does not support the %<_Float%d%s%> typeISO C forbids %<goto *expr;%>ISO C forbids %<return%> with expression, in function returning voidISO C forbids an empty translation unitISO C forbids assignment between function pointer and %<void *%>ISO C forbids braced-groups within expressionsISO C forbids casting nonscalar to the same typeISO C forbids casts to union typeISO C forbids comparison of %<void *%> with function pointerISO C forbids conditional expr between %<void *%> and function pointerISO C forbids conditional expr with only one void sideISO C forbids const or volatile function typesISO C forbids conversion of function pointer to object pointer typeISO C forbids conversion of object pointer to function pointer typeISO C forbids empty initializer bracesISO C forbids forward parameter declarationsISO C forbids forward references to %<enum%> typesISO C forbids initialization between function pointer and %<void *%>ISO C forbids label declarationsISO C forbids member declarations with no membersISO C forbids nested functionsISO C forbids omitting the middle term of a %<?:%> expressionISO C forbids ordered comparisons of pointers to functionsISO C forbids passing argument %d of %qE between function pointer and %<void *%>ISO C forbids qualified function typesISO C forbids return between function pointer and %<void *%>ISO C forbids specifying range of elements to initializeISO C forbids subscripting %<register%> arrayISO C forbids zero-size arrayISO C forbids zero-size array %qEISO C prohibits argument conversion to union typeISO C requires a named argument before %<...%>ISO C restricts enumerator values to range of %<int%>ISO C++ %qE attribute does not apply to functions; treating as %<[[gnu::%E]]%>ISO C++ 1998 does not support %<long long%>ISO C++ 1998 forbids the use of %<extern%> on explicit instantiationsISO C++ allows bit-field attributes only before the %<:%> tokenISO C++ did not adopt string literal operator templates taking an argument pack of charactersISO C++ does not allow %<?:%> with omitted middle operandISO C++ does not allow %<alignof%> with a non-typeISO C++ does not allow C99 designated initializersISO C++ does not allow GNU designated initializersISO C++ does not permit %<%T::%D%> to be defined as %<%T::%D%>ISO C++ does not permit %<alignof%> applied to a function typeISO C++ does not support %<__int%d%> for %qsISO C++ does not support plain %<complex%> meaning %<double complex%>ISO C++ forbids applying %<__alignof%> to an expression of function typeISO C++ forbids applying %<sizeof%> to an expression of function typeISO C++ forbids braced-groups within expressionsISO C++ forbids calling %<::main%> from within programISO C++ forbids casting to an array type %qTISO C++ forbids comparison between pointer and integerISO C++ forbids comparison between pointer of type %<void *%> and pointer-to-functionISO C++ forbids compound-literalsISO C++ forbids computed gotosISO C++ forbids conditional expression between pointer of type %<void *%> and pointer-to-functionISO C++ forbids conversion between pointer of type %<void *%> and pointer-to-functionISO C++ forbids converting a string constant to %qTISO C++ forbids declaration of %qs with no typeISO C++ forbids decrementing a pointer of type %qTISO C++ forbids decrementing an enumISO C++ forbids empty unnamed enumISO C++ forbids flexible array member %qsISO C++ forbids flexible array membersISO C++ forbids in-class initialization of non-const static member %qDISO C++ forbids incrementing a pointer of type %qTISO C++ forbids incrementing an enumISO C++ forbids initialization of member constant %qD of non-integral type %qTISO C++ forbids nested type %qD with same name as enclosing classISO C++ forbids omitting the middle term of a %<?:%> expressionISO C++ forbids taking address of function %<::main%>ISO C++ forbids taking the address of a bound member function to form a pointer to member function.  Say %<&%T::%D%>ISO C++ forbids taking the address of an unqualified or parenthesized non-static member function to form a pointer to member function.  Say %<&%T::%D%>ISO C++ forbids the use of %qE on explicit instantiationsISO C++ forbids typename key in template template parameter; use %<-std=c++17%> or %<-std=gnu++17%>ISO C++ forbids using a floating-point literal in a constant-expressionISO C++ forbids using pointer of type %<void *%> in subtractionISO C++ forbids using pointer to a function in subtractionISO C++ forbids using pointer to a method in subtractionISO C++ forbids variable length arrayISO C++ forbids variable length array %qDISO C++ forbids zero-size arrayISO C++ forbids zero-size array %qDISO C++ prohibits anonymous structsISO C++ prohibits overloading %<operator ?:%>ISO C++ says that these are ambiguous, even though the worst conversion for the first is better than the worst conversion for the second:ISO C++17 does not allow %<register%> storage class specifierISO C++17 does not allow dynamic exception specificationsISO C11 does not support omitting the string in %<_Static_assert%>ISO C90 does not support %<[*]%> array declaratorsISO C90 does not support %<_Alignas%>ISO C90 does not support %<_Generic%>ISO C90 does not support %<_Noreturn%>ISO C90 does not support %<_Static_assert%>ISO C90 does not support %<__func__%> predefined identifierISO C90 does not support %<for%> loop initial declarationsISO C90 does not support %<long long%>ISO C90 does not support %<static%> or type qualifiers in parameter array declaratorsISO C90 does not support %qEISO C90 does not support boolean typesISO C90 does not support complex typesISO C90 does not support flexible array membersISO C90 does not support the %<_Atomic%> qualifierISO C90 doesn%'t support unnamed structs/unionsISO C90 forbids array %qE whose size cannot be evaluatedISO C90 forbids array whose size cannot be evaluatedISO C90 forbids compound literalsISO C90 forbids mixed declarations and codeISO C90 forbids specifying subobject to initializeISO C90 forbids subscripting non-lvalue arrayISO C90 forbids variable length arrayISO C90 forbids variable length array %qEISO C99 does not support %<_Alignas%>ISO C99 does not support %<_Generic%>ISO C99 does not support %<_Noreturn%>ISO C99 does not support %<_Static_assert%>ISO C99 does not support %qEISO C99 does not support the %<_Atomic%> qualifierISO C99 doesn%'t support unnamed structs/unionsISO_C_BINDING module at %CISO_FORTRAN_ENV intrinsic module at %CIf -ftree-vectorize is used, the minimal loop bound of a loop to be considered for vectorization.If -fvariable-expansion-in-unroller is used, the maximum number of times that an individual variable will be expanded during loop unrolling.If bounds remapping is specified at %L, the pointer target shall not be NULLIf first argument of ATAN2 at %L is zero, then the second argument must not be zeroIf first argument of ATAN2D at %L is zero, then the second argument must not be zeroIf number of candidates in the set is smaller, we always try to remove unused ivs during its optimization.If scheduling post reload, do superblock scheduling.Ignore 'D' in column one in fixed form.Ignore dllimport for functions.Ignore the normal two-level namespace; resolve symbols in command line order and do not record which library provided the resolved symbol.Ignore unsupported pragmas.Ignored.Illegal allocate-object at %C for a PURE procedureIllegal assignment to external procedure at %LIllegal character in BOZ constant at %CIllegal id in copy_walk_reduction_argIllegal preprocessor directiveIllegal reference type at %L as EQUIVALENCE objectIllegal stride of zero at %LIllegal type in character concatenation at %LImage control statement %s at %C in CRITICAL blockImage control statement %s at %C in DO CONCURRENT blockImage control statement %s at %C in PURE procedureImage control statement CRITICAL at %C in DO CONCURRENT blockImage control statement CRITICAL at %C in PURE procedureImage control statement EVENT %s at %C in CRITICAL blockImage control statement EVENT %s at %C in DO CONCURRENT blockImage control statement EVENT %s at %C in PURE procedureImage control statement RETURN at %C in CRITICAL blockImage control statement RETURN at %C in DO CONCURRENT blockImage control statement STOP at %C in CRITICAL blockImage control statement STOP at %C in DO CONCURRENT blockImage control statement SYNC at %C in CRITICAL blockImage control statement SYNC at %C in DO CONCURRENT blockImage control statement SYNC at %C in PURE procedureImageset argument at %L must be a scalar or rank-1 INTEGER expressionImageset argument at %L must between 1 and num_images()Implement C++17 inheriting constructor semantics.Implement DIP1000: Scoped pointers (experimental).Implement DIP25: Sealed references (experimental).Implement __atomic operations via libcalls to legacy __sync functions.Implement resolution of DR 150 for matching of template template arguments.Implicitly declared BIND(C) function %qs at %L may not be C interoperableImplicitly declared BIND(C) variable %qs at %L may not be C interoperableImplicitly declared function %s used in !$OMP DECLARE REDUCTION at %LImplicitly declared subroutine %s used in !$OMP DECLARE REDUCTION at %LImplicitly declared variable %qs at %L may not be C interoperable but it is a dummy argument to the BIND(C) procedure %qs at %LImplicitly typed PARAMETER %qs at %L doesn't match a later IMPLICIT typeImplied SAVE for module variable %qs at %L, needed due to the default initializationImplied-shape array at %LImprove GCC's ability to track column numbers in large source files, at the expense of slower compilation.Impure function %qs at %L might not be evaluatedImpure function at %L might not be evaluatedIn %s at %L procedures must be all FUNCTIONs as the generic name is also the name of a derived typeIn %s at %L procedures must be either all SUBROUTINEs or all FUNCTIONsIn C++, nonzero means warn about deprecated conversion from string literals to 'char *'.  In C, similar warning, except that the conversion is of course not deprecated by the ISO C standard.In Fortran 2003 COMMON %qs block at %L is a global identifier and must thus have the same binding name as the same-named COMMON block at %L: %s vs %sIn SSA-PRE optimization on trees, enable partial-partial redundancy elimination.In a pure subprogram an INTENT(IN) dummy argument shall not be used as the expr at %L of an intrinsic assignment statement in which the variable is of a derived type if the derived type has a pointer component at any level of component selection.In call to %qs at %L, type mismatch in argument %qs; pass %qs to %qsIn constructor %qsIn copy constructor %qsIn destructor %qsIn file included fromIn function %qsIn lambda functionIn member function %qsIn moduleIn module imported atIn static member function %qsInclude directory %qs: %sIncompatible allocate-object at %C for CHARACTER type-spec at %LIncompatible derived type in PARAMETER at %LIncompatible initialization between a derived type entity and an entity with %qs type at %CIncompatible ranks %d and %d in assignment at %LIncompatible ranks in %s (%d and %d) at %LIncompatible types in DATA statement at %L; attempted conversion of %s to %sIncompatible typespec for array element at %LIncompatible use of TILE and COLLAPSE at %LInconsistent equivalence rules involving %qs at %L and %qs at %LInconsistent internal state: No location in expression near %LInconsistent internal state: No location in statementInconsistent ranks for operator at %%L and %%LIncorrect EH edge %i->%iIncorrect extent in argument B in MATMUL intrinsic in dimension 1: is %ld, should be %ldIncorrect function return valueIncrease the IEEE compliance for floating-point comparisons.Index in dimension %d is out of bounds at %LIndex variable %qs not definable as INTENT(INOUT) argument at %L in procedure %qs called from within DO loop at %LIndex variable %qs not definable as INTENT(INOUT) argument at %L in subroutine %qs called from within DO loop at %LIndex variable %qs redefined at %L in procedure %qs called from within DO loop at %LIndex variable %qs set to undefined as INTENT(OUT) argument at %L in procedure %qs called from within DO loop at %LIndex variable %qs set to undefined as INTENT(OUT) argument at %L in subroutine %qs called from within DO loop at %LIndicate presence of a processor erratum.Indicate priority for r0..r3 / r12..r15 with TARGET_REGISTER_PRIORITY.Inequality comparison for %s at %LInhibit the use of hardware floating point instructions.Initialization at %C is not allowed in a PURE procedureInitialization at %C isn't for a pointer variableInitialization of allocatable component at %C is not allowedInitialization of pointer at %C is not allowed in a PURE procedureInitialization of structure component with a HOLLERITH constant at %L is not allowedInitialization of variable at %C is not allowed in a PURE procedureInitialization string at %L was truncated to fit the variable (%ld/%ld)Initialize components of derived type variables according to other init flags.Initialize local variables to zero (from g77).Initialized symbol %qs at %C can only be COMMON in BLOCK DATAInitialized variable %qs at %L is in a blank COMMON but initialization is only allowed in named common blocksInitializer not allowed for PARAMETER %qs at %CInitializing already initialized variable at %CInline __atomic operations when a lock free instruction sequence is available.Inline all known string operations.Inline code to invalidate instruction cache entries after setting up nested function trampolines.Inline constants if it can be done in 2 insns or less.Inline memset/memcpy string operations, but perform inline version only for small blocks.Inline recursively only when the probability of call being executed exceeds the parameter.Inquiry parameter cannot appear in a data-stmt-object-list at %CInsert ENDBR instruction at function entry only via cf_check attribute for CET instrumentation.Insert NOP instructions at each function entry.Insert arc-based program profiling code.Insert code to probe each page of stack space as it is allocated to protect from stack-clash style attacks.Insert code to profile values of expressions.Insert relax hint for linker to do relaxation.Insert stack checking code into the program.  Same as -fstack-check=specific.Instruction accounted for function prologue, epilogue and other overhead.Instruction accounted for function thunk overhead.Instrument function entry and exit with profiling calls.Instrument function exit in instrumented functions with __fentry__.Instrument only functions from files whose name does not match any of the regular expressions (separated by semi-colons).Instrument only functions from files whose name matches any of the regular expressions (separated by semi-colons).Integer division truncated to constant %qs at %LInteger expression required at %CInteger id (N) of fabsd custom instruction.Integer id (N) of fabss custom instruction.Integer id (N) of faddd custom instruction.Integer id (N) of fadds custom instruction.Integer id (N) of fatand custom instruction.Integer id (N) of fatans custom instruction.Integer id (N) of fcmpeqd custom instruction.Integer id (N) of fcmpeqs custom instruction.Integer id (N) of fcmpged custom instruction.Integer id (N) of fcmpges custom instruction.Integer id (N) of fcmpgtd custom instruction.Integer id (N) of fcmpgts custom instruction.Integer id (N) of fcmpled custom instruction.Integer id (N) of fcmples custom instruction.Integer id (N) of fcmpltd custom instruction.Integer id (N) of fcmplts custom instruction.Integer id (N) of fcmpned custom instruction.Integer id (N) of fcmpnes custom instruction.Integer id (N) of fcosd custom instruction.Integer id (N) of fcoss custom instruction.Integer id (N) of fdivd custom instruction.Integer id (N) of fdivs custom instruction.Integer id (N) of fexpd custom instruction.Integer id (N) of fexps custom instruction.Integer id (N) of fextsd custom instruction.Integer id (N) of fixdi custom instruction.Integer id (N) of fixdu custom instruction.Integer id (N) of fixsi custom instruction.Integer id (N) of fixsu custom instruction.Integer id (N) of floatid custom instruction.Integer id (N) of floatis custom instruction.Integer id (N) of floatud custom instruction.Integer id (N) of floatus custom instruction.Integer id (N) of flogd custom instruction.Integer id (N) of flogs custom instruction.Integer id (N) of fmaxd custom instruction.Integer id (N) of fmaxs custom instruction.Integer id (N) of fmind custom instruction.Integer id (N) of fmins custom instruction.Integer id (N) of fmuld custom instruction.Integer id (N) of fmuls custom instruction.Integer id (N) of fnegd custom instruction.Integer id (N) of fnegs custom instruction.Integer id (N) of frdxhi custom instruction.Integer id (N) of frdxlo custom instruction.Integer id (N) of frdy custom instruction.Integer id (N) of fsind custom instruction.Integer id (N) of fsins custom instruction.Integer id (N) of fsqrtd custom instruction.Integer id (N) of fsqrts custom instruction.Integer id (N) of fsubd custom instruction.Integer id (N) of fsubs custom instruction.Integer id (N) of ftand custom instruction.Integer id (N) of ftans custom instruction.Integer id (N) of ftruncds custom instruction.Integer id (N) of fwrx custom instruction.Integer id (N) of fwry custom instruction.Integer id (N) of round custom instruction.Integer kind %d at %C not availableInteger outside symmetric range implied by Standard Fortran at %LInteger outside symmetric range implied by Standard Fortran converting %s to %s at %LInteger overflow when calculating the amount of memory to allocateInteger too big for its kind at %C. This check can be disabled with the option %<-fno-range-check%>Integer too large at %CInteger value too large in expression at %CIntegrate functions into their callers when code size is known not to grow.Integrate functions not declared "inline" into their callers when profitable.Integrate functions only required by their single caller.Intel MCU psABI isn%'t supported in %s modeInterchanging loops at %LInterface %qs at %L is declared in a later PROCEDURE statementInterface %qs at %L may not be a statement functionInterface %qs at %L may not be genericInterface %qs at %L must be explicitInterface mismatch for procedure-pointer component %qs in structure constructor at %L: %sInterface mismatch in dummy procedure %qs at %L: %sInterface mismatch in global procedure %qs at %L: %sInterface mismatch in procedure pointer assignment at %L: %qs is not a subroutineInterface mismatch in procedure pointer assignment at %L: %sInterface must be specified for DEFERRED binding at %CInterface-name expected after %<(%> at %CInternal compiler error: Error reporting routines re-entered.
Internal file at %L with namelistInternal procedure %qs in %s at %LInternal procedure %qs is invalid in procedure pointer assignment at %LInternal procedure %qs is invalid in procedure pointer initialization at %LInternal procedure %qs is used as actual argument at %LInternal unit with vector subscript at %LInterpret any INTEGER(4) as an INTEGER(8).Interpret any REAL(4) as a REAL(10).Interpret any REAL(4) as a REAL(16).Interpret any REAL(4) as a REAL(8).Interpret any REAL(8) as a REAL(10).Interpret any REAL(8) as a REAL(16).Interpret any REAL(8) as a REAL(4).Interpret imaginary, fixed-point, or other gnu number suffix as the corresponding number literal rather than a user-defined number literal.Interrupt Service Routines cannot be coded in Thumb-1 modeIntersperse literal pools with code in the text section.Interval in which to probe the stack expressed as a power of two in bytes.Interval overlap of %<-fdbg-cnt=%s%>: [%u, %u] and [%u, %u]Intrinsic %qs (%s) used at %LIntrinsic %qs at %L cannot have an initializerIntrinsic %qs at %L is invalid in procedure pointer assignmentIntrinsic %qs at %L is not allowed as an actual argumentIntrinsic %qs at %L must have at least two argumentsIntrinsic TRANSFER at %L has partly undefined result: source size %ld < result size %ldIntrinsic function %qs (%d) not recognizedIntrinsic function %qs at %L is not permitted in an initialization expressionIntrinsic function %s at %L is not permitted for CO_REDUCEIntrinsic function NULL at %L cannot be an actual argument to STORAGE_SIZE, because it returns a disassociated pointerIntrinsic operator %qs referenced at %L not found in module %qsIntrinsic operator interface at %L must be a FUNCTIONIntrinsic procedure %qs not allowed in PROCEDURE statement at %LIntrinsic procedure at %L cannot be a MODULE PROCEDUREIntrinsic subroutine %qs at %L shall not have a type specifierIntrinsic symbol specified in !$ACC ROUTINE ( NAME ) at %C marked with incompatible GANG, WORKER, or VECTOR clauseInvalid BOZ literal constant used in subscript at %CInvalid C identifier in NAME= specifier at %CInvalid Hollerith constant at %L contains a wide characterInvalid Hollerith constant: %L must contain at least one characterInvalid Hollerith constant: Integer kind at %L should be defaultInvalid KIND parameter of %s at %LInvalid NAME %qs in !$ACC ROUTINE ( NAME ) at %CInvalid NULL at %LInvalid argument to !$ACC WAIT at %CInvalid association target at %CInvalid character %<$%> at %L. Use %<-fdollar-ok%> to allow it as an extensionInvalid character %qc in variable name at %CInvalid character 0x%s at %CInvalid character in name at %CInvalid character(s) in ELSE statement after %CInvalid clause in module with !$ACC DECLARE at %LInvalid codimension %d at %C, only %d codimensions existInvalid context for NULL () intrinsic at %LInvalid context for NULL() pointer at %%LInvalid exponent-letter %<q%> in real-literal-constant at %CInvalid expression in gfc_element_size.Invalid expression in gfc_target_encode_expr.Invalid expression in gfc_target_interpret_expr.Invalid expression in the structure constructor for pointer component %qs at %L in PURE procedureInvalid form of PROGRAM statement at %CInvalid form of WRITE statement at %L, UNIT requiredInvalid form of array reference at %CInvalid form of coarray reference at %CInvalid image number %d in SYNC IMAGESInvalid initialization expression for ALLOCATABLE component %qs in structure constructor at %LInvalid initializer %s in Data statement at %CInvalid keyword %qs in %qs intrinsic function at %LInvalid kind %d for CHARACTER constant at %CInvalid kind for %s at %LInvalid mixing of IEEE 128-bit and IBM 128-bit floating point typesInvalid old style initialization for derived type component at %CInvalid operator for !$OMP DECLARE REDUCTION %s at %LInvalid procedure argument at %LInvalid procedure pointer assignment at %LInvalid range %s in option %sInvalid real kind %d at %CInvalid standard code on intrinsic %qs (%d)Invalid substring in data-implied-do at %L in DATA statementInvalid type-spec at %CInvalid use of BOZ literal constant at %LInvalid value for %s specification at %CIssue a note when diagnostics are deduplicated.Issue debug information for compiler-generated auxiliary variables.Issue warnings needed for strict compliance to the standard.Iterator step at %L cannot be zeroJump targets are aligned to this power of 2.Junk after ASSOCIATE statement at %CJunk after CALL at %CJunk after GENERIC binding at %CJunk after MAP statement at %CJunk after UNION statement at %CJunk after non-nested STRUCTURE statement at %CJust generate unwind tables for exception handling.Just use icc0/fcc0.KIND attribute at %C in a STRUCTURE definitionKIND attribute at %C in a TYPE definitionKIND parameter of %s at %L must be an initialization expressionKIND part_ref at %CKeyword %qs at %C has already appeared in the current argument listKeyword argument %qs at %L is already associated with another actual argumentKeyword argument %qs at %L is invalid in a statement functionKeyword argument %qs at %L is not in the procedureKeyword argument %qs at %L is not in the procedure; did you mean %qs?Keyword argument requires explicit interface for procedure %qs at %LKeyword argument requires explicit interface for procedure pointer component %qs at %LKind %d is not supported for CHARACTER at %CKind %d not supported for type %s at %CKind type parameter for entity at %L differs from the kind type parameter of the typespecKnown AArch64 ABIs (for use with the -mabi= option):Known ABIs (for use with the -mabi= option):Known ARC CPUs (for use with the -mcpu= option):Known ARM ABIs (for use with the -mabi= option):Known ARM CPUs (for use with the -mcpu= and -mtune= options):Known ARM FPUs (for use with the -mfpu= option):Known ARM architectures (for use with the -march= option):Known C6X ISAs (for use with the -march= option):Known CPUs (for use with the -mcpu= and -mtune= options):Known CSKY CPUs (for use with the -mcpu= options):Known CSKY FPUs (for use with the -mfpu= option):Known CSKY architectures (for use with the -march= option):Known FR-V CPUs (for use with the -mcpu= option):Known IQ2000 CPUs (for use with the -mcpu= option):Known Itanium CPUs (for use with the -mtune= option):Known M68K CPUs (for use with the -mcpu= option):Known M68K ISAs (for use with the -march= option):Known M68K microarchitectures (for use with the -mtune= option):Known MIPS ABIs (for use with the -mabi= option):Known MIPS CPUs (for use with the -march= and -mtune= options):Known MIPS IEEE 754 settings (for use with the -mabs= and -mnan= options):Known MIPS ISA levels (for use with the -mips option):Known PTX ISA versions (for use with the -misa= option):Known TILE-Gx CPUs (for use with the -mcpu= option):Known TILEPro CPUs (for use with the -mcpu= option):Known TLS dialects (for use with the -mtls-dialect= option):Known __fp16 formats (for use with the -mfp16-format= option):Known address mode (for use with the -maddress-mode= option):Known arch types (for use with the -march= option):Known assembler dialects (for use with the -masm= option):Known choices for return instrumentation with -minstrument-return=:Known cmodel types (for use with the -mcmodel= option):Known cmodel types (for use with the -mict-model= option):Known code models (for use with the -mcmodel= option):Known cpu types (for use with the -mcpu= option):Known data alignment choices (for use with the -malign-data= option):Known floating-point ABIs (for use with the -mfloat-abi= option):Known floating-point number of registers (for use with the -mconfig-fpu= option):Known indirect branch choices (for use with the -mindirect-branch=/-mfunction-return= options):Known preferred register vector length (to use with the -mprefer-vector-width= option):Known stack protector guard (for use with the -mstack-protector-guard= option):Known vectorization library ABIs (for use with the -mveclibabi= option):L%d cache latency unknown for %sLEN argument (%ld) out of range 0:%d in intrinsic MVBITSLEN argument (%ld) out of range 0:%ld in intrinsic IBITSLEN attribute at %C in a STRUCTURE definitionLEN attribute at %C in a TYPE definitionLEN or KIND inquiry ref in DATA statement at %LLEN part_ref at %CLHS in %<noreturn%> callLINEAR clause modifier used on DO or SIMD construct at %LLINEAR clause specified together with ORDERED clause with argument at %LLINEAR dummy argument %qs with VALUE attribute with %s modifier at %LLINEAR variable %qs must be INTEGER at %LLOCK statement at %CLOCK_EVENT in variable definition context (%s) at %LLOCK_TYPE in variable definition context (%s) at %LLOGICAL dummy argument %qs at %L with non-C_Bool kind in BIND(C) procedure %qsLOGICAL operands are required in expression at %LLOGICAL result variable %qs at %L with non-C_Bool kind in BIND(C) procedure %qsLTO support has not been enabled in this configurationLabel %d at %C already referenced as a format labelLabel %d at %C already referenced as branch targetLabel %d at %C previously used as a FORMAT labelLabel %d at %C previously used as branch targetLabel %d at %L defined but cannot be usedLabel %d at %L defined but not usedLabel %d referenced at %L is never definedLabel %qs after %L doesn't match IF label %qsLabel %qs at %C doesn't match IF label %qsLabel %qs at %C doesn't match WHERE label %qsLabel at %L is not in the same block as the GOTO statement at %LLabel name %qs at %C is ambiguousLabeled DO statement at %LLeft parenthesis required after %<*%> in format string at %LLegacy Extension:Letter %qc already has an IMPLICIT type at %CLetter %qc already set in IMPLICIT statement at %CLetters must be in alphabetic order in IMPLICIT statement at %CLevel not found, use none, slim, blocks, vops.Lift restrictions on GOT size.Like -M but ignore system header files.Like -MD but ignore system header files.Like -pedantic but issue them as errors.Limit of %d continuations exceeded in statement at %CLine truncated at %LLines executed:%s of %d
Link in code for a __main kernel.Link the standard D library dynamically in the compilation.Link the standard D library statically in the compilation.Link to emit program in ELF format (rather than mmo).Link with HAL BSP.Link with a limited version of the C library.Link with libads.a, libc.a and crt0.o.Link with libc.a and libdebug.a.Link with libc.a and libsim.a.Link with libmvme.a, libc.a and crt0.o.Link with libsim.a, libc.a and sim-crt0.o.Link with libyk.a, libc.a and crt0.o.Link with the fast floating-point library.Link with the library-pic libraries.Link-time optimization with number of parallel jobs or jobserver.List all available debugging counters with their limits and counts.List all hidden GC allocations.List all non-mutable fields which occupy an object instance.List all usages of complex or imaginary types.List all variables going into thread local storage.List information on all language changes.List item %qs at %L set in previous OMP DECLARE TARGET directive to a different DEVICE_TYPEList item %qs with allocatable components is not permitted in map clause at %LList item shall not be coindexed at %CList specified together with memory order clause in FLUSH directive at %CLoad all members of archive libraries, rather than only those that satisfy undefined symbols.Lock variable at %L must be a scalar of type LOCK_TYPELogical SELECT CASE block at %L has more that two casesLogical range in CASE statement at %L is not allowedLogicals at %%L must be compared with %s instead of %sLogs which object files the linker loads.Logs which symbol(s) caused an object to be loaded.Look for and use PCH files even when preprocessing.Looks for opportunities to reduce stack adjustments and stack references.Loop code aligned to this power of 2.Loop iterates infinitelyLoop variableLoop variable at %C cannot be a coarrayLoop variable at %C cannot be a sub-componentLoop variable at %C cannot be an arrayLoop variable has been modifiedLoops iterating at least selected number of iterations will get loop alignment.Lower array reference at %L is out of bounds (%ld < %ld) in dimension %dLower array reference at %L is out of bounds (%ld > %ld) in dimension %dMCU %qs does not have hardware multiply support, but %<-mhwmult%> is set to %sMCU %qs supports %s ISA but %<-mcpu%> option is set to %sMCU %qs supports %s hardware multiply, but %<-mhwmult%> is set to 16-bitMCU %qs supports %s hardware multiply, but %<-mhwmult%> is set to 32-bitMCU %qs supports %s hardware multiply, but %<-mhwmult%> is set to f5seriesMIPS16 %<-mxgot%> codeMIPS16 PIC for ABIs other than o32 and o64MMIX Internal: %s is not a shiftable intMMIX Internal: Bad register: %dMMIX Internal: Bad value for 'm', not a CONST_INTMMIX Internal: Cannot decode this operandMMIX Internal: Expected a CONST_INT, not thisMMIX Internal: Expected a constant, not thisMMIX Internal: Expected a register, not thisMMIX Internal: Last named vararg would not fit in a registerMMIX Internal: Missing %qc case in mmix_print_operandMMIX Internal: This is not a constant:MMIX Internal: This is not a recognized addressMMIX Internal: Trying to output invalidly reversed condition:MMIX Internal: What is the CC of this?MMIX Internal: What's the CC of this?MMX vector argument without MMX enabled changes the ABIMMX vector return without MMX enabled changes the ABIMODULE PROCEDURE at %C must be in a generic module interfaceMODULE PROCEDURE declaration at %CMODULE prefix at %CMODULE prefix at %C found outside of a module, submodule, or interfaceMOLD argument to NULL required at %LMOLD tag at %LMOLD tag at %L conflicts with SOURCE tag at %LMOLD tag at %L conflicts with the typespec at %LMOLD= required in NULL() argument at %L: Ambiguity between specific functions %s and %sMSA MIPS16 codeMSP430 builtin functions only work inside interrupt handlersMULT case in cris_op_strMagnitude of second argument of %s exceeds bit size at %LMagnitude of second argument of ISHFTC exceeds BIT_SIZE of first argument at %CMaintain backchain pointer.Make "char" signed by default.Make "char" unsigned by default.Make GCC pass the --no-relax command-line option to the linker instead of the --relax option.Make all function calls indirect.Make integers 32 bits wide.Make structs a multiple of 4 bytes (warning: ABI altered).Make the linker relaxation machine assume that a program counter wrap-around occurs.Malformed GENERIC statement at %CMalformed type-spec at %CMalloc data into P2 space.Mangled derived type definition at %CMapper for module to CMI files.Mark MAC register as call-clobbered.Mark all loops as parallel.Mark implicitly-declared copy operations as deprecated if the class has a user-provided copy operation or destructor.Mark implicitly-declared copy operations as deprecated if the class has a user-provided copy operation.Marks all inlined functions and methods as having hidden visibility.Max basic blocks number in loop for loop invariant motion.Max loops number for regional RA.Max number of bytes to compare with loops.Max number of bytes to compare without loops.Max number of bytes to compare.Max number of bytes to move inline.Max size of conflict table in MB.Max. count of debug markers to expand or inline.Max. recursion depth for expanding var tracking expressions.Max. size of loc list for which reverse ops should be added.Max. size of var tracking hash tables.Maximal code growth caused by tail duplication (in percent).Maximal estimated growth of function body caused by early inlining of single call.Maximal estimated outcome of branch considered predictable.Maximal growth due to inlining of large function (in percent).Maximal number of boundary endpoints of case ranges of switch statement used during IPA function summary generation.Maximal size of a partition for LTO (in estimated instructions).Maximal stack frame growth due to inlining (in percent).Maximum allowed growth of number and total size of new parameters that ipa-sra replaces a pointer to an aggregate with.Maximum amount of iterations of the pass over a function.Maximum amount of similar bbs to compare a bb with.Maximum depth of DFS walk used by modref escape analysis.Maximum depth of a loop nest to fully value-number optimistically.Maximum depth of logical expression evaluation ranger will look through when evaluating outgoing edge ranges.Maximum depth of recursive cloning for self-recursive function.Maximum depth of search in the dominator tree for expressions to hoist.Maximum depth of sqrt chains to use when synthesizing exponentiation by a real constant.Maximum extension level reached with type %qs at %LMaximum length of candidate scans for straight-line strength reduction.Maximum length of partial antic set when performing tree pre optimization.Maximum number of VALUEs handled during a single find_base_term call.Maximum number of accesses stored in each modref reference.Maximum number of active local stores in RTL dead store elimination.Maximum number of aggregate content items for a parameter in jump functions and lattices.Maximum number of arguments a PHI may have before the FSM threader will not try to thread through its block.Maximum number of arguments in a PHI supported by TREE if-conversion unless the loop is marked with simd pragma.Maximum number of arrays per SCoP.Maximum number of artificial accesses to enable forward propagation that Scalar Replacement of Aggregates will keep for one local variable.Maximum number of assertions to add along the default edge of a switch statement during VRP.Maximum number of bases stored in each modref tree.Maximum number of basic blocks before EVRP uses a sparse cache.Maximum number of basic blocks on a finite state automaton jump thread path.Maximum number of bits for which we avoid creating FMAs.Maximum number of concurrently open C++ module files when lazy loading.Maximum number of conditional store pairs that can be sunk.Maximum number of constant stores to merge in the store merging pass.Maximum number of datarefs in loop for building loop data dependencies.Maximum number of different predicates used to track properties of loops in IPA analysis.Maximum number of disambiguations to perform per memory access.Maximum number of escape points tracked by modref per SSA-name.Maximum number of fields in a structure before pointer analysis treats the structure as a single variable.Maximum number of insns in a basic block to consider for RTL if-conversion.Maximum number of instructions in the ready list that are considered eligible for renaming.Maximum number of instructions to copy when duplicating blocks on a finite state automaton jump thread path.Maximum number of isl operations, 0 means unlimited.Maximum number of loop peels to enhance alignment of data references in a loop.Maximum number of may-defs visited when devirtualizing speculatively.Maximum number of namespaces to search for alternatives when name lookup fails.Maximum number of nested calls to search for control dependencies during uninitialized variable analysis.Maximum number of new jump thread paths to create for a finite state automaton.Maximum number of operations in a parameter expression that can be handled by IPA analysis.Maximum number of parameters in a SCoP.Maximum number of queries into the alias oracle per store.Maximum number of references stored in each modref base.Maximum number of statements allowed in a block that needs to be duplicated when threading jumps.Maximum number of statements that will be visited by IPA formal parameter analysis based on alias analysis in any given function.Maximum number of statements visited during jump function offset discovery.Maximum number of store chains to track at the same time in the store merging pass.Maximum number of strings for which strlen optimization pass will track string lengths.Maximum number of tests performed by modref query.Maximum number of times that an insn could be scheduled.Maximum permissible cost for the sequence that would be generated by the RTL if-conversion pass for a branch that is considered predictable.Maximum permissible cost for the sequence that would be generated by the RTL if-conversion pass for a branch that is considered unpredictable.Maximum pieces that IPA-SRA tracks per formal parameter, as a consequence, also the maximum number of replacements of a formal parameter.Maximum probability of the entry BB of split region (in percent relative to entry BB of the function) to make partial inlining happen.Maximum recursion depth allowed when querying a property of an SSA name.Maximum size (in bytes) of objects tracked bytewise by dead store elimination.Maximum size in bytes of constant values allowed as operands.Maximum size of a list of values associated with each parameter for interprocedural constant propagation.Maximum size of a single store merging region in bytes.Maximum size of global and static variables which can be placed into the small data area.Maximum size, in storage units, of an aggregate which should be considered for scalarization when compiling for size.Maximum size, in storage units, of an aggregate which should be considered for scalarization when compiling for speed.Maximum subrecord length cannot exceed %dMaximum supported identifier length is %dMaximum unroll factor for the unroll-and-jam transformation.Member functions defined within their class are inline in module purview.Memory Tagging Extension does not support %<-mabi=ilp32%>Merge adjacent stores.Merge similar-enough states during analysis.Merge subcomand usage:Min. ratio of insns to mem ops to enable prefetching in a loop.Min. ratio of insns to prefetches to enable prefetching for a loop with an unknown trip count.Minimal distance between possibly conflicting store and load.Minimal fall-through edge probability in percentage used to add BB to inheritance EBB in LRA.Minimal size of a partition for LTO (in estimated instructions).Minimum heap expansion to trigger garbage collection, as a percentage of the total size of the heap.Minimum heap size before we start collecting garbage, in kilobytes.Minimum number of iterations per thread of an innermost parallelized loop.Minimum percentage of memrefs that must go away for unroll-and-jam to be considered profitable.Mismatch in BIND(C) names (%qs/%qs) at %CMismatch in ELEMENTAL attribute between MODULE PROCEDURE at %L and its interface in %sMismatch in MODULE PROCEDURE formal argument names (%s/%s) at %CMismatch in PURE attribute between MODULE PROCEDURE at %L and its interface in %sMismatch in RECURSIVE attribute between MODULE PROCEDURE at %L and its interface in %sMismatch in components of derived type %qs from %qs at %C: expecting %qs, but got %qsMismatch in number of MODULE PROCEDURE formal arguments at %CMismatch in the procedure pointer assignment at %L: mismatch in the calling conventionMismatches between file architecture and one specified by "-arch" are errors instead of warnings.Missing !$OMP END ATOMIC after !$OMP ATOMIC CAPTURE at %CMissing %<&%> in continued character constant at %CMissing %<(%> in ELSE IF expression at %CMissing %<(%> in IF-expression at %CMissing %<)%> in ELSE IF expression at %CMissing %qs argument to %qs intrinsic at %L for %qs of type %qsMissing %qs argument to the %s intrinsic at %LMissing %qs in statement at or before %LMissing -mcpu option in ASM_CPU_SPEC?Missing INITIALIZER clause for !$OMP DECLARE REDUCTION of derived type without default initializer at %LMissing THEN in ELSE IF statement after %LMissing actual argument %qs in call to %qs at %LMissing actual argument for argument %qs at %LMissing alternate return spec in subroutine call at %LMissing alternate return specifier in subroutine call at %LMissing argument list in function %qs at %CMissing argument to %qs at %CMissing array specification at %L in CODIMENSION statementMissing array specification at %L in DIMENSION statementMissing character range in IMPLICIT at %CMissing closing paren for binding label at %CMissing codimension specification at %CMissing comma at %LMissing counts for called function %sMissing dimension specification at %CMissing entity or common block name for attribute specification statement at %CMissing exponent in real number at %CMissing format label at %CMissing format with default unit at %CMissing generic specification in USE statement at %CMissing item in format string at %LMissing keyword name in actual argument list at %CMissing kind-parameter at %CMissing leading left parenthesis in format string at %LMissing positive width after L descriptor at %LMissing required parentheses before BIND(C) at %CMissing right parenthesis at %CMissing right parenthesis or comma at %CMissing symbolModule %qs at line %d column %d: %sModule file %qs has not been generated, either because the module does not contain a MODULE PROCEDURE or there is an error in the module.Module nature in USE statement at %C shall be either INTRINSIC or NON_INTRINSICMore actual than formal arguments in procedure call at %LMore than one edge out of thunk nodeMove loop invariant computations out of loops.Multiple identifiers provided with single NAME= specifier at %CMultiple loop axes specified for routine at %CNAME %qs does not refer to a subroutine or function in !$ACC ROUTINE ( NAME ) at %LNAME %qs invalid in !$ACC ROUTINE ( NAME ) at %LNAME not allowed on BIND(C) for ABSTRACT INTERFACE at %CNAME= specifier at %C should be a constant expressionNAME= specifier at %C should be a scalar of default character kindNAMELIST %qs in READ statement at %L contains the symbol %qs which may not appear in a variable definition contextNAMELIST array object %qs with assumed shape in namelist %qs at %LNAMELIST array object %qs with nonconstant shape in namelist %qs at %LNAMELIST object %qs has PRIVATE components and cannot be a member of PUBLIC namelist %qs at %LNAMELIST object %qs has use-associated PRIVATE components and cannot be member of namelist %qs at %LNAMELIST object %qs in namelist %qs at %L has ALLOCATABLE or POINTER components and thus requires a defined input/output procedureNAMELIST object %qs in namelist %qs at %L is polymorphic and requires a defined input/output procedureNAMELIST object %qs in namelist %qs at %L with ALLOCATABLE or POINTER componentsNAMELIST object %qs was declared PRIVATE and cannot be member of PUBLIC namelist %qs at %LNAMELIST object %qs with nonconstant character length in namelist %qs at %LNEWUNIT specifier at %LNEWUNIT specifier must have FILE= or STATUS='scratch' at %LNONMONOTONIC schedule modifier specified with ORDERED clause at %LNON_OVERRIDABLE and DEFERRED cannot both appear at %CNOPASS or explicit interface required at %CNOTE_INSN_BASIC_BLOCK %d in middle of basic block %dNOTE_INSN_BASIC_BLOCK is missing for block %dNO_ARG_CHECK attributeNULL appears on right-hand side in assignment at %LNULL at %L is not permitted as actual argument to %qs intrinsic functionNULL intrinsic with allocatable MOLD at %LNULL used in arithmeticNULL() at %C cannot appear in an array constructorNULL() initialization at %C is ambiguousNULL() initialization at %C may not have MOLDNULL() near %L cannot appear in INQUIRE statementNULLIFY does not allow bounds remapping for pointer object at %CName %qs at %C is already defined as a generic interface at %LName %qs at %C is an ambiguous reference to %qs from current program unitName %qs at %C is an ambiguous reference to %qs from module %qsName %qs at %C is the name of the procedureName %qs in %s statement at %C is not a construct nameName %qs in %s statement at %C is unknownName %qs of ABSTRACT INTERFACE at %C cannot be the same as an intrinsic typeName after !$omp critical and !$omp end critical does not match at %CName at %C is too longName of system library to link against.Name of the startfile.Name too longNamed COMMON block %qs at %L shall be of the same size as elsewhere (%lu vs %lu bytes)Named block DO at %L requires matching ENDDO nameNamed constant %qs at %L cannot be an EQUIVALENCE objectNamed constant %qs in variable definition context (%s) at %LNamed constant at %C in an EQUIVALENCENamelist %qs cannot be an argument at %LNamelist %qs cannot be an argument to subroutine or function at %LNamelist group name %qs at %C already has a basic type of %sNamelist group name %qs at %C already is USE associated and cannot be respecified.Namelist group name at %L cannot have the SAVE attributeNeed either entity or common block name for attribute specification statement at %CNegative argument N at %LNegative exponent of integer has zero result at %LNested CRITICAL block at %CNested function trampolines not supported on CK801.No binding name is allowed in BIND(C) at %CNo branches
No calls
No default crt0.o.No description yet.No edge out of thunk nodeNo executable lines
No initializer for allocatable component %qs given in the structure constructor at %CNo initializer for component %qs given in the structure constructor at %CNo longer supported.No region crossing jump at section boundary in bb %iNon-ELEMENTAL user-defined assignment in WHERE at %LNon-PARAMETER symbol %qs at %L cannot be implied-shapeNon-POINTER in pointer association context (%s) at %LNon-RECURSIVE procedure %qs at %L is possibly calling itself recursively.  Declare it RECURSIVE or use %<-frecursive%>Non-THREADPRIVATE object %qs in COPYIN clause at %LNon-character assumed shape array element in FORMAT tag at %LNon-character assumed size array element in FORMAT tag at %LNon-character in FORMAT tag at %LNon-character non-Hollerith in FORMAT tag at %LNon-character pointer array element in FORMAT tag at %LNon-constant lower bound in implied-shape declaration at %LNon-default LOGICAL kind in %s tag at %LNon-dummy object %qs in %s clause at %LNon-extensible derived-type %qs at %L must not be ABSTRACTNon-numeric character in statement label at %CNon-polymorphic passed-object dummy argument of %qs at %LNon-scalar FINAL procedure at %L should have assumed shape argumentNon-significant digits in %qs number at %C, maybe incorrect KINDNon-variable expression in variable definition context (%s) at %LNon-zero imaginary part discarded in conversion from %qs to %qs at %LNonallocatable variable must not be polymorphic in intrinsic assignment at %L - check that there is a matching specific subroutine for '=' operatorNoncoarray component %s at %L of type EVENT_TYPE or with subcomponent of type EVENT_TYPE must have a codimension or be a subcomponent of a coarray. (Variables of type %s may not have a codimension as %s at %L has a codimension or a coarray subcomponent)Noncoarray component %s at %L of type EVENT_TYPE or with subcomponent of type EVENT_TYPE must have a codimension or be a subcomponent of a coarray. (Variables of type %s may not have a codimension as already a coarray subcomponent exists)Noncoarray component %s at %L of type LOCK_TYPE or with subcomponent of type LOCK_TYPE must have a codimension or be a subcomponent of a coarray. (Variables of type %s may not have a codimension as %s at %L has a codimension or a coarray subcomponent)Noncoarray component %s at %L of type LOCK_TYPE or with subcomponent of type LOCK_TYPE must have a codimension or be a subcomponent of a coarray. (Variables of type %s may not have a codimension as already a coarray subcomponent exists)Nonconforming tab character at %CNonconforming tab character in column %d of line %dNonconforming tab character in format at %CNonconstant array section at %L in DATA statementNonexistent include directory %qsNoninteger exponent in an initialization expression at %LNoninteroperable array FPTR at %L to C_F_POINTER: %sNoninteroperable array at %L as argument to C_LOC: %sNoninteroperable procedure at %L to C_FUNLOCNoninteroperable procedure pointer at %L to C_F_PROCPOINTERNonintrinsic elemental procedure %qs is invalid in procedure pointer assignment at %LNonnegative width required in format string at %LNonpointer object %qs with default initialization shall not appear in a DATA statement at %LNonpolymorphic reference to abstract type at %CNonstandard conversion from %s to %s at %LNonstandard type declaration %s*%d at %CNot configured with %<--enable-gather-detailed-mem-stats%>.Not enough elements in array initializer at %CNot expected TAG.Note #include directives not translated to import declarations, and not known to be textual.Note #include directives translated to import declarations.Note Compiled Module Interface pathname of a specific module or header-unit.Note Compiled Module Interface pathnames.Note a #include translation of a specific header.Number of partitions the program should be split to.Number of registers used to pass integer arguments.Numeric PARAMETER required in complex constant at %CNumeric operands are required in expression at %LNumeric or CHARACTER operands are required in expression at %LOLD argument of the %s intrinsic function at %L shall be definableOMP ATOMIC at %L with multiple atomic clausesOMP CRITICAL at %L with HINT clause requires a NAME, except when omp_sync_hint_none is usedOMP DECLARE TARGET COMMON at %L previously mentioned in LINK clause and later in TO clauseOMP DECLARE TARGET COMMON at %L previously mentioned in TO clause and later in LINK clauseOMP DECLARE TARGET directive at %L with only DEVICE_TYPE clause is ignoredOMP DECLARE TARGET variable at %L is an element of a COMMON blockOMP DECLARE TARGET variable at %L previously mentioned in LINK clause and later in TO clauseOMP DECLARE TARGET variable at %L previously mentioned in TO clause and later in LINK clauseOMP TARGET UPDATE at %L requires at least one TO or FROM clauseOPEN statement at %L must have UNIT or NEWUNIT specifiedOPEN statement not allowed in PURE procedure at %COPERATOR argument at %L must be a PURE functionOPTIONAL is not allowed inside of BLOCK at %CORDER at %L is not a permutation of the size of SHAPE at %LORDERED clause argument not constant positive integer at %CORDERED clause parameter is less than COLLAPSE at %LORDERED clause specified together with %<inscan%> REDUCTION clause at %LObject %qs is not a variable at %LObject %qs is not a variable at %L; parameters cannot be and need not be copiedObject %qs is not a variable at %L; parameters cannot be and need not be mappedObjective-C declarations may only appear in global scopeObsolescent feature:Offline tool to handle gcda counts

Old-style character length at %COld-style initialization at %COld-style type declaration %s*%d not supported at %COmit frame pointer for leaf functions.Omit range reduction step when performing complex division.Omit the frame pointer in leaf functions.One of actual subroutine arguments in INITIALIZER clause of !$OMP DECLARE REDUCTION must be OMP_PRIV at %LOnly DEFAULT permitted as reduction-modifier in REDUCTION clause at %LOnly SOURCE or SINK dependence types are allowed on ORDERED directive at %LOnly array FINAL procedures declared for derived type %qs defined at %L, suggest also scalar oneOnly emit Compiled Module Interface.Only generate absolute relocations on word sized values.Only intrinsic operators can be used in expression at %LOnly issue one instruction per cycle.Only retained for backward compatibility.Only the !$ACC ROUTINE form without list is allowed in interface block at %COnly the !$OMP DECLARE TARGET form without clauses is allowed in interface block at %COnly use 32 FPRs.Only use 32 GPRs.OpenACC construct inside of non-OpenACC regionOpenACC directive inside of CRITICAL block at %COpenACC directives other than ROUTINE may not appear in PURE procedures at %COpenACC loop directive must be associated with an OpenACC compute regionOpenACC region inside of OpenACC routine, nested parallelism not supported yetOpenMP constructs other than %<ordered simd%>, %<simd%>, %<loop%> or %<atomic%> may not be nested inside %<simd%> regionOpenMP constructs other than %<parallel%>, %<loop%> or %<simd%> may not be nested inside a %<loop%> regionOpenMP constructs other than %<parallel%>, %<loop%> or %<simd%> may not be nested inside a region with the %<order(concurrent)%> clauseOpenMP directives other than SIMD or DECLARE TARGET at %C may not appear in PURE proceduresOpenMP runtime API call %qD in a region with %<order(concurrent)%> clauseOperand of .not. operator at %%L is %sOperand of unary numeric operator %%<%s%%> at %%L is %sOperand of user operator %%<%s%%> at %%L is %sOperands at %L and %L cannot appear as operands of binary operator %qsOperands of binary numeric operator %%<%s%%> at %%L are %s/%sOperands of comparison operator %%<%s%%> at %%L are %s/%sOperands of logical operator %%<%s%%> at %%L are %s/%sOperands of string concatenation operator at %%L are %s/%sOperands of user operator %%<%s%%> at %%L are %s/%sOperator interface at %L conflicts with intrinsic interfaceOperator interface at %L has the wrong number of argumentsOperator interface at %L must have, at most, two argumentsOptimize amount of stdarg registers saved to stack at start of function.Optimize conditional patterns using SSA PHI nodes.Optimize for CPU.Optimize for debugging experience rather than speed or size.Optimize for space rather than speed.Optimize for speed disregarding exact standards compliance.Optimize frame header.Optimize induction variables on trees.Optimize lui/addiu address loads.Optimize opcode sizes at link time.Optimize partition neutering.Optimize sibling and tail recursive calls.Optimize tail call instructions in assembler and linker.Option %<-fallow-leading-underscore%> is for use only by gfortran developers, and should not be used for implicitly typed variablesOptions to %<-Xassembler%> do not match: %s, %s, dropping all %<-Xassembler%> and %<-Wa%> options.Options:
Out of bounds in IMAGE_INDEX at %L for dimension %d, SUB has %ld and COARRAY lower bound is %ld)Out of bounds in IMAGE_INDEX at %L for dimension %d, SUB has %ld and COARRAY upper bound is %ld)Out of stack space.
Output .debug_types section when using DWARF v4 debuginfo.Output callgraph information on a per-file basis with decorations.Output callgraph information on a per-file basis.Output lto objects containing both the intermediate language and binary output.Output stack usage information on a per-function basis.Output vtable verification counters.Output vtable verification pointer sets information.Overlap subcomand usage:Overlapping unequal initializers in EQUIVALENCE at %COverlapping unequal initializers in EQUIVALENCE at %LOverride -mbest-lib-options.P descriptor requires leading scale factor in format string at %LPAD= at %L not allowed in Fortran 95PARAMETER %qs is used at %L before its definition is completePARAMETER %qs shall not appear in a DATA statement at %LPARAMETER at %L is missing an initializerPARAMETER symbol in complex constant at %CPARAMETER without '()' at %CPAUSE statement at %CPC relative literal loads.PCS variantPDP11 bit-field handling unsupported in %qsPHI argument is missing for edge %d->%dPHI argument is not SSA_NAME, or invariantPHI argument on abnormal edge is not SSA_NAMEPHI node with locationPHI node with wrong VUSE on edge from BB %dPIC code generation is not compatible with fast indirect callsPIC code generation is not supported in the portable runtime modelPIC is not supported for %qsPIC is only supported for RTPsPIC is required but not supported with CONST16 instructionsPIC register clobbered by %qs in %<asm%>PIC support for %<-fstack-limit-symbol%>POINTER attribute is required for procedure pointer component at %CPOINTER object %qs in %s clause at %LPOINTER object %qs of polymorphic type in %s clause at %LPOINTER-valued function appears on right-hand side of assignment at %LPOS argument (%ld) out of range 0:%ld in intrinsic %sPOS argument (%ld) out of range 0:%ld in intrinsic BTESTPOS argument (%ld) out of range 0:%ld in intrinsic IBITSPOS(%ld)+LEN(%ld)>BIT_SIZE(%ld) in intrinsic IBITSPOSITION specifier in OPEN statement at %L only allowed for stream or sequential ACCESSPRE disabledPRINT namelist at %C is an extensionPRINT statement at %C not allowed within PURE procedurePRINT_OPERAND null pointerPRINT_OPERAND, invalid insn for %%CPRINT_OPERAND, invalid insn for %%NPRINT_OPERAND: Unknown punctuation %<%c%>PRINT_OPERAND_ADDRESS, null pointerPRIVATE statement at %C is only allowed in the specification part of a modulePRIVATE statement at %C must precede procedure bindingsPRIVATE statement at %C must precede structure componentsPRIVATE statement in TYPE at %C must be inside a MODULEPROCEDURE %qs at %L may not be used as its own interfacePROCEDURE at %C must be in a generic interfacePROCEDURE attribute conflicts with INTENT attribute in %qs at %LPROCEDURE attribute conflicts with NAMELIST attribute in %qs at %LPROCEDURE attribute conflicts with PROTECTED attribute at %LPROCEDURE attribute conflicts with RESULT attribute in %qs at %LPROCEDURE attribute conflicts with SAVE attribute in %qs at %LPROCEDURE list at %CPROCEDURE statement at %CPROCEDURE(interface) at %C should be declared DEFERREDPROTECTED at %C only allowed in specification part of a modulePROTECTED attribute at %CPROTECTED attribute conflicts with EXTERNAL attribute at %LPROTECTED statement at %CPTX does not support weak declarations (only weak definitions)PUBLIC %s %qs at %L of PRIVATE derived type %qsPUBLIC function %qs at %L of PRIVATE type %qsPUBLIC statement at %C is only allowed in the specification part of a modulePURE and IMPURE must not appear both at %CPURE prefix in MODULE PROCEDURE interface is missing at %LPack VLIW instructions.Pack structure members together without holes.Pad shorter fixed form lines to line width with spaces.Padding of %d bytes required before %qs in COMMON %qs at %L; reorder elements or use %<-fno-align-commons%>Padding of %d bytes required before %qs in COMMON at %L; reorder elements or use %<-fno-align-commons%>Parameter %qs at %L has not been declared or is a variable, which does not reduce to a constant expressionParameter array %qs at %L cannot be automatic or of deferred shapeParameterized derived type at %C is ambiguousParameterized type %qs does not have a component corresponding to parameter %qs at %LPass -EB option through to linker.Pass -EL option through to linker.Pass -marclinux option through to linker.Pass -marclinux_prof option through to linker.Pass -z text to linker.Pass the address of the ra save location to _mcount in $12.Passed-object at %L must be scalarPassed-object dummy argument of %qs at %L must be at the same position as the passed-object dummy argument of the overridden procedurePassed-object dummy argument of %qs at %L must be scalarPassed-object dummy argument of %qs at %L must not be ALLOCATABLEPassed-object dummy argument of %qs at %L must not be POINTERPasses on a request to the assembler to enable fixes for various silicon errata.Passes on a request to the assembler to warn about various silicon errata.Passing coarray at %L to allocatable, noncoarray dummy argument %qs, which is invalid if the allocation status is modifiedPassing coarray at %L to allocatable, noncoarray, INTENT(OUT) dummy argument %qsPassing internal procedure at %L by location not allowedPath to header file that should be pre-included before each compilation unit.Percentage penalty functions containing a single call to another function will receive when they are evaluated for cloning.Percentage penalty the recursive functions will receive when they are evaluated for cloning.Perform IPA Value Range Propagation.Perform Identical Code Folding for functions and read-only variables.Perform Identical Code Folding for functions.Perform Identical Code Folding for variables.Perform SMS based modulo scheduling before the first scheduling pass.Perform SMS based modulo scheduling with register moves allowed.Perform VR4130-specific alignment optimizations.Perform Value Range Propagation on trees.Perform a forward propagation pass on RTL.Perform a number of minor, expensive optimizations.Perform a register copy-propagation optimization pass.Perform a register renaming optimization pass.Perform a target dependent instruction fusion optimization pass.Perform cloning to make Interprocedural constant propagation stronger.Perform comparison elimination after register allocation has finished.Perform conversion of conditional jumps to branchless equivalents.Perform conversion of conditional jumps to conditional execution.Perform conversions of switch initializations.Perform cross-jumping optimization.Perform early inlining.Perform enhanced load motion during global common subexpression elimination.Perform function-local points-to analysis on trees.Perform global common subexpression elimination after register allocation has finished.Perform global common subexpression elimination.Perform indirect inlining.Perform internal consistency checkings.Perform interprocedural bitwise constant propagation.Perform interprocedural constant propagation.Perform interprocedural modref analysis.Perform interprocedural points-to analysis.Perform interprocedural profile propagation.Perform interprocedural reduction of aggregates.Perform jump threading optimizations.Perform live range splitting during the SSA->normal pass.Perform loop peeling.Perform loop splitting.Perform loop unrolling for all loops.Perform loop unrolling when iteration count is known.Perform loop unswitching.Perform partial inlining.Perform redundant load after store elimination in global common subexpression elimination.Perform scalar replacement of aggregates.Perform software pipelining of inner loops during selective scheduling.Perform software pipelining of outer loops during selective scheduling.Perform speculative devirtualization.Perform store motion after global common subexpression elimination.Perform straight-line strength reduction.Perform superblock formation via tail duplication.Perform unroll-and-jam on loops.Perform unused symbol elimination in debug info.Perform unused type elimination in debug info.Perform variable tracking and also tag variables that are uninitialized.Perform variable tracking by annotating assignments.Perform variable tracking.Perform whole program optimizations.Period required in format specifier %s at %LPeriod required in format specifier at %LPeriod required in format specifier in format string at %LPermit '$' as an identifier character.Permit nonconforming uses of the tab character.Permit scheduling of a function's prologue and epilogue sequence.Permit scheduling of a function's prologue sequence.Permit scheduling of function prologue and epilogue sequences.Permit universal character names (\u and \U) in identifiers.Place a stop bit after every cycle when scheduling.Place data items into their own section.Place each function into its own section.Place floating point constants in TOC.Place symbol+offset constants in TOC.Please submit a full bug report,
with preprocessed source if appropriate.
PluginsPointer array component of structure at %C must have a deferred shapePointer assignment target cannot be a constant at %LPointer assignment target has PROTECTED attribute at %LPointer assignment target in initialization expression does not have the TARGET attribute at %LPointer assignment target is neither TARGET nor POINTER at %LPointer assignment target is not a POINTER at %LPointer assignment with vector subscript on rhs at %LPointer at %L in pointer assignment might outlive the pointer targetPointer component %s at %L has a noncoarray subcomponent of type EVENT_TYPE, which must have a codimension or be a subcomponent of a coarrayPointer component %s at %L has a noncoarray subcomponent of type LOCK_TYPE, which must have a codimension or be a subcomponent of a coarrayPointer initialization at %C requires %<=>%>, not %<=%>Pointer initialization target at %L must have the SAVE attributePointer initialization target at %L must have the TARGET attributePointer initialization target at %L must not be ALLOCATABLEPointer object at %C shall not be coindexedPointer object at %L shall not have a coindexPointer procedure assignment at %LPointer-array actual argument at %L requires an assumed-shape or pointer-array dummy argument %qs due to VOLATILE attributePointers are 32-bit.Pointers are 64-bit.Policies available for use with -mcompact-branches=:Polymorphic FPTR at %L to C_F_POINTERPolymorphic component %s at %L in SEQUENCE or BIND(C) type %sPolymorphic scalar passed to array dummy argument %qs at %LPolymorphic subobject of coindexed object at %LPositive exponent width required in format string at %LPositive width required in format specifier %s at %LPositive width required in format string at %LPositive width required with T descriptor in format string at %LPossible change of value in conversion from %s to %s at %LPrefer branches over conditional execution.Prefer word accesses over byte accesses.Preferentially allocate registers that allow short instruction generation.Prepend global symbols with ":" (for use with PREFIX).Preprocess directives only.Preprocessed source stored into %s file, please attach this to your bugreport.
Preserve the PowerPC 476's link stack by matching up a blr with the bcl/bl insns used for GOT accesses.Pretend a branch-around-a-move is a conditional move.Prevent $fp being allocated during register allocation so that compiler is able to force performing fp-as-gp optimization.Prevent the use of all floating-point operations.Prevent the use of all hardware floating-point instructions.Previous !$OMP DECLARE REDUCTION at %LPrevious !$OMP DECLARE REDUCTION from module %s at %LPrint CPU tuning information as comment in assembler file.  This is an option used only for regression testing of the compiler and not intended for ordinary use in compiling code.Print CWE identifiers for diagnostic messages, where available.Print code coverage information.

Print extra (possibly unwanted) warnings.Print fix-it hints in machine-readable form.Print fix-it hints to stderr in unified diff format.Print hierarchical comparisons when template types are mismatched.Print the initial values of the variables.Print the name of header files as they are used.Probability that COMDAT function will be shared with different compilation unit.Procedure %qs at %C has an explicit interface from a previous declarationProcedure %qs at %C is already defined at %LProcedure %qs at %L already has basic type of %sProcedure %qs at %L has the same name as a component of %qsProcedure %qs at %L has the same name as an inherited component of %qsProcedure %qs at %L may not have basic type of %sProcedure %qs at %L must have the BIND(C) attribute to be C interoperableProcedure %qs called at %L is not explicitly declaredProcedure %qs called at %L is not explicitly declared; did you mean %qs?Procedure %qs called with an implicit interface at %LProcedure %qs defined in interface body at %L clashes with internal procedure defined at %CProcedure %qs in %s at %L has no explicit interfaceProcedure %qs in %s at %L has no explicit interface; did you mean %qs?Procedure %qs in %s at %L is neither function nor subroutineProcedure %qs in %s at %L is neither function nor subroutine; did you mean %qs?Procedure %qs in PUBLIC interface %qs at %L takes dummy arguments of %qs which is PRIVATEProcedure %qs with PASS at %L must have at least one argumentProcedure %qs with PASS(%s) at %L has no argument %qsProcedure %qs with binding label %qs at %L uses the same global identifier as entity at %LProcedure argument at %L is local to a PURE procedure and has the POINTER attributeProcedure pointer %qs at %L shall not be elementalProcedure pointer %qs in %s clause at %LProcedure pointer at %CProcedure pointer component %qs at %L cannot be a member of the BIND(C) derived type %qs at %LProcedure pointer component %qs called with an implicit interface at %LProcedure pointer component %qs requires an argument list at %CProcedure pointer component %qs with PASS at %L must have at least one argumentProcedure pointer component %qs with PASS(%s) at %L has no argument %qsProcedure pointer component at %CProcedure pointer initialization target at %L may not be a procedure pointerProcedure pointer result %qs at %L is missing the pointer attributeProcedure pointer target %qs at %L must be either an intrinsic, host or use associated, referenced or have the EXTERNAL attributeProcess #ident directives.Process all modules specified on the command line, but only generate code for the module specified by the argument.Processing spec (%s), which is '%s'
Produce a Mach-O dylinker (file type MH_DYLINKER), only used for building dyld.Produce a Mach-O shared library (file type MH_DYLIB), synonym for "-shared".Produce a backtrace when a runtime error is encountered.Produce a warning at runtime if a array temporary has been created for a procedure argument.Produce big endian code.Produce code relocatable at runtime.Produce little endian code.Produces a Mach-O file suitable for embedded/ROM use.Profile information in %s corruptedProgram is entirely located in low 64k of memory.Program unit at %L has OpenMP device constructs/routines but does not set !$OMP REQUIRES REVERSE_OFFSET but other program units doProgram unit at %L has OpenMP device constructs/routines but does not set !$OMP REQUIRES UNIFIED_ADDRESS but other program units doProgram unit at %L has OpenMP device constructs/routines but does not set !$OMP REQUIRES UNIFIED_SHARED_MEMORY but other program units doProhibit PC relative function calls.Prohibit PC relative jumps.Protect parentheses in expressions.Provide bash completion for options starting with provided string.Provide libraries for the simulator.Purge unneeded state during analysis.Push extended registers on stack in monitor functions.Put all local arrays on stack.Put everything in the regular TOC.Put jump tables for switch statements into the .data section rather than the .code section.Put relocated read-only data into .data section.Put uninitialized constants in ROM (needs -membedded-data).Put uninitialized globals in the common section.Put zero initialized data in the bss section.R2 architecture is little-endian onlyRANK (%i) at %L is repeated at %LRANK (*) at %L cannot be used with the pointer or allocatable selector at %LRANK (*) at %L is repeated at %LRANK DEFAULT at %L is repeated at %LRE or IM part_ref at %CRE part_ref at %CREAL array index at %LREAL(KIND=10) is not available for %<-fdefault-real-10%> optionREAL(KIND=10) is not available for %<-freal-4-real-10%> optionREAL(KIND=10) is not available for %<-freal-8-real-10%> optionREAL(KIND=10) is not available for %<-freal-8-real-16%> optionREAL(KIND=16) is not available for %<-fdefault-real-16%> optionREAL(KIND=16) is not available for %<-freal-4-real-16%> optionREAL(KIND=4) is not available for %<-freal-8-real-4%> optionREAL(KIND=8) is not available for %<-fdefault-real-8%> optionREAL(KIND=8) is not available for %<-freal-4-real-8%> optionRECL in OPEN statement at %L must be positiveRECL specifier not allowed in OPEN statement at %L for stream I/ORECORD at %C is an extension, enable it with %<-fdec-structure%>RECURSIVE prefix in MODULE PROCEDURE interface is missing at %LRESULT variable %qs at %L prohibits FUNCTION name %qs at %C from appearing in a specification statementRESULT variable at %C must be different than function nameRESULT_DECL should be read only when DECL_BY_REFERENCE is setRETURN statement in main program at %CROUND= at %L not allowed in Fortran 95RTL check: access of elt %d of '%s' with last elt %d in %s, at %s:%dRTL check: access of elt %d of vector with last elt %d in %s, at %s:%dRTL check: access of hwi elt %d of vector with last elt %d in %s, at %s:%dRTL check: attempt to treat non-block symbol as a block symbol in %s, at %s:%dRTL check: expected code '%s' or '%s', have '%s' in %s, at %s:%dRTL check: expected code '%s', '%s' or '%s', have '%s' in %s, at %s:%dRTL check: expected code '%s', have '%s' in %s, at %s:%dRTL check: expected elt %d type '%c' or '%c', have '%c' (rtx %s) in %s, at %s:%dRTL check: expected elt %d type '%c', have '%c' (rtx %s) in %s, at %s:%dRTL flag check: %s used with unexpected rtx code '%s' in %s, at %s:%dRTP PIC is incompatible with %<-msingle-pic-base%>RTP PIC is incompatible with ThumbRTTI will not work on this typeRX FPU instructions do not support NaNs and infinitiesRaising a negative REAL at %L to a REAL power is prohibitedRange specification at %L can never be matchedRank mismatch between actual argument at %L and actual argument at %L (rank-%d and rank-%d)Rank mismatch between actual argument at %L and actual argument at %L (rank-%d and scalar)Rank mismatch between actual argument at %L and actual argument at %L (scalar and rank-%d)Rank mismatch in argument %qs at %L (rank-%d and rank-%d)Rank mismatch in argument %qs at %L (rank-%d and scalar)Rank mismatch in argument %qs at %L (scalar and rank-%d)Rank mismatch in array reference at %L (%d/%d)Rank remapping requires a list of %<lower-bound : upper-bound%> specifications at %LRank remapping target is not rank 1 at %LRank remapping target is smaller than size of the pointer (%ld < %ld) at %LRank remapping target must be rank 1 or simply contiguous at %LReading file %qs as free formReading module %qs at line %d column %d: %sReading specs from %s
Real COUNT_RATE argument to SYSTEM_CLOCK at %LReal constant overflows its kind at %CReal constant underflows its kind at %CReal number at %C has a %<d%> exponent and an explicit kindReal number at %C has a %<q%> exponent and an explicit kindRealign stack in prologue.Reallocate the LHS in assignments.Recognize C++ keywords like "compl" and "xor".Recognize GNU-defined keywords.Recognize built-in functions.Recognize the "asm" keyword.Record DW_AT_decl_column and DW_AT_call_column in DWARF.Record gcc command line switches in DWARF DW_AT_producer.Record gcc command line switches in the object file.Record times taken by sub-phases separately.Recursive cloning only when the probability of call being executed exceeds the parameter.Redefinition of !$OMP DECLARE REDUCTION at %LRedefinition of predefined !$OMP DECLARE REDUCTION at %LRedefinition of predefined %s !$OMP DECLARE REDUCTION at %LReduce priority for r0..r3 / r12..r15 with TARGET_REGISTER_PRIORITY.Reduce stack alignment on call sites if possible.Redundant !$ACC END LOOP at %CRedundant ACQUIRED_LOCK tag found at %LRedundant ERRMSG tag found at %LRedundant MOLD tag found at %LRedundant SOURCE tag found at %LRedundant STAT tag found at %LRedundant UNTIL_COUNT tag found at %LReference statement index not foundReference statement index out of rangeReference to impure function %qs at %L inside a DO CONCURRENT %sReference to impure function %qs at %L inside a FORALL %sReference to impure function %qs at %L within a PURE procedureRegion crossing jump across same section in bb %iRegister the profile information in the .gcov_info section instead of using a constructor/destructor.Register the profile information in the specified section instead of using a constructor/destructor.Regular expression matching additional GP-addressible section names.Regular expression matching section names for r0-relative addressing.Relax branches.Relax literals in assembler and place them automatically in the text section.Relief of register pressure through live range shrinkage.Remap file names when including files.Remove code and data that is unreachable from any exported symbol (including the entry point).Remove prefix from absolute path before mangling name for -fprofile-generate= and -fprofile-use=.Remove redundant membars.Removed in GCC 10.  This switch has no effect.Removed in GCC 8.  This switch has no effect.Removed in GCC 9.  This switch has no effect.Removing '%s'
Removing call to impure function %qs at %LRemoving call to impure function at %LRenaming operators in USE statements at %CReorder basic blocks and partition into hot and cold sections.Reorder basic blocks to improve code placement.Reorder functions to improve code placement.Reorder top level functions, variables, and asms.Repeat spec invalid in scalar initializer at %CRepeat spec must be an integer at %CReplace add, compare, branch with branch on count register.Replace temporary expressions in the SSA->normal pass.Report on consistency of profile.Report on memory allocation before interprocedural optimization.Report on permanent memory allocation in WPA only.Report on permanent memory allocation.Report the time taken by each compiler pass.Report various link-time optimization statistics for WPA only.Report various link-time optimization statistics.Request IEEE-conformant math library routines (OSF/1).Reschedule instructions after register allocation.Reschedule instructions before register allocation.Reschedule pipelined regions without pipelining.Reserve space for outgoing arguments in the function prologue.Reshaped array too large at %CRestrict the analyzer to run just the named checker.Restrict the use of hardware floating-point instructions to 32-bit operations.Result %qs of contained function %qs at %L has no IMPLICIT typeResult mismatch for the overriding procedure %qs at %L: %sResult of %s gives range error for its kind at %LResult of %s is NaN at %LResult of %s overflows its kind at %LResult of %s underflows its kind at %LResult of BESSEL_YN is -INF at %LResult of NEAREST is NaN at %LResult of SCALE overflows its kind at %LResult of exponentiation at %L exceeds the range of %sReturn 8-byte vectors in memory.Return all structures in memory (AIX default).Return floating-point results in ac0 (fr0 in Unix assembler syntax).Return pointers in both a0 and d0.Return small aggregates in memory, not registers.Return small aggregates in registers.Return small structures in registers (SVR4 default).Return type mismatch of function %qs at %L (%s/%s)Return type of BIND(C) function %qs at %L cannot be an arrayReturn type of BIND(C) function %qs of character type at %L must have length 1Return value %qs of function %qs declared at %L not setReturn value of function %qs at %L not setReturn values of functions in FPU registers.Reuse r30 on a per function basis.Rewrite subcommand usage:Right parenthesis expected at %C in format string at %LRightmost upper bound of assumed size array section not specified at %LRun only the second compilation of -fcompare-debug.Run predictive commoning optimization.Run selective scheduling after reload.Run self-tests, using the given path to locate test files.Run the link-time optimizer in local transformation (LTRANS) mode.Run the link-time optimizer in whole program analysis (WPA) mode.Running spec function '%s' with %d args

Runtime name.SAVE attribute at %L cannot be specified in a PURE procedureSAVE statement at %C follows blanket SAVE statementSCHEDULE clause specified together with %<inscan%> REDUCTION clause at %LSCHEDULE clause's chunk_size at %L requires a scalar INTEGER expressionSELECT RANK statement at %CSELECT TYPE at %C cannot appear in this scopeSELECTED_REAL_KIND with neither %<P%> nor %<R%> argument at %LSEQUENCE attribute at %C already specified in TYPE statementSEQUENCE statement at %C must precede CONTAINSSEQUENCE statement at %C must precede structure componentsSH2a does not support little-endianSHAPE argument at %L to C_F_POINTER must have the same size as the RANK of FPTRSHIFT argument (%ld) out of range -%ld:%ld in intrinsic ISHFTSHIFT argument (%ld) out of range -%ld:%ld in intrinsic ISHFTCSHIFT argument (%ld) out of range 0:%ld in intrinsic %sSIGN= at %L not allowed in Fortran 95SINK addend not a constant integer at %LSINK dependence type only allowed on ORDERED directive at %LSIZE argument (%ld) out of range 1:%ld in intrinsic ISHFTCSIZE at %L must be positiveSOURCE dependence type only allowed on ORDERED directive at %LSOURCE tag at %LSOURCE tag at %L conflicts with the typespec at %LSOURCE tag at %L with more than a single allocate objectSSA corruptionSSA name undeclaredSSA_NAME created in two different blocks %i and %iSSA_NAME_DEF_STMT is wrongSSA_NAME_OCCURS_IN_ABNORMAL_PHI should be setSSE instruction set disabled, using 387 arithmeticsSSE register argument with SSE disabledSSE register return with SSE disabledSSE vector argument without SSE enabled changes the ABISSE vector return without SSE enabled changes the ABISTABS debugging information for Ada is obsolete and not supported anymoreSTAT tag at %L cannot be a constantSTAT variableSTAT= argument at %L must be a scalar INTEGER variableSTAT= argument to %s at %LSTAT= attribute in %C misplacedSTATUS at %L shall be an INTENT(OUT) variableSTOP code at %C cannot be negativeSTOP code at %C contains too many digitsSTOP code at %L must be a scalar CHARACTER constant or digit[digit[digit[digit[digit]]]]STOP code at %L must be a scalar default CHARACTER or INTEGER constant expressionSTOP code at %L must be default character KIND=%dSTOP code at %L must be default integer KIND=%dSTOP code at %L must be either INTEGER or CHARACTER typeSTOP code at %L must be scalarSUBMODULE declaration at %CSUBMODULE declaration at %C cannot appear within another scoping unitSUBROUTINE %qs at %L cannot be called recursively, as it is not RECURSIVESVE type %qT cannot be passed to an unprototyped functionSYNC TEAM statement at %CSYNC statement at %CSame actual argument associated with INTENT(%s) argument %qs and INTENT(%s) argument %qs at %LSame as %s%s (or, in negated form, %s%s).Same as %s%s.Same as %s.Same as -fassociative-math for expressions which include division.Same as -mA6.Same as -mA7.Same as: -mep -mprolog-function.Save registers around function calls.Save the TOC in the prologue for indirect calls rather than inline.Scalar %qs in FORMAT tag at %L is not an ASSIGNED variableScalar INTEGER expression expected at %LScalar PARAMETER required in complex constant at %CScalar entity required at %LScalar object %qs at %L may not be ALLOCATABLEScalarization using DIMEN_RANGE unimplementedScale factor to apply to the number of blocks in a threading path when comparing to the number of (scaled) statements.Scale factor to apply to the number of statements in a threading path when comparing to the number of (scaled) blocks.Scaling factor in calculation of maximum distance an expression can be moved by GCSE optimizations.Schedule code for given CPU.Schedule given CPU.Schedule instructions using selective scheduling algorithm.Schedule the start and end of the procedure.Second argument of %qs must be in the range [0, 3].Second argument of %s is negative at %LSecond argument of defined assignment at %L must be INTENT(IN)Second argument of operator interface at %L cannot be optionalSecond argument of operator interface at %L must be INTENT(IN)Section already exists: %qsSee %s for instructions.
Segmentation FaultSegmentation Fault (code)Select code model.Select fraction of the maximal frequency of executions of basic block in function given basic block get alignment.Select large model - 20-bit addresses/pointers.Select method for sdata handling.Select return address signing scope.Select small model - 16-bit addresses/pointers (default).Select target ABI variant.Select the name for storing the profile note file.Select the runtime.Select type of coverage sanitization.Select what to sanitize.Selection expression in computed GOTO statement at %L must be a scalar integer expressionSelector at %L cannot be NULL()Selector at %L has no typeSelector at %L must not be coindexedSelector in SELECT TYPE at %C is not a named variable; use associate-name=>Selector shall be polymorphic in SELECT TYPE statement at %LSelects the type of RL78 core being targeted (g10/g13/g14).  The default is the G14.  If set, also selects the hardware multiply support to be used.Selects the type of hardware multiplication and division to use (none/g13/g14).Self reference in character length expression for %qs at %LSelf-referential argument %qs at %L is not allowedSemicolon at %C needs to be preceded by statementSet 80387 floating-point precision to 32-bit.Set 80387 floating-point precision to 64-bit.Set 80387 floating-point precision to 80-bit.Set Windows defines.Set a hard limit for the size of each stack frame, in bytes.Set branch cost.Set default accessibility of module entities to PRIVATE.Set dependence distance checking in premature scheduling of queued insns.Set errno after built-in math functions.Set linker output type (used internally during LTO optimization).Set minimum width of left margin of source code when showing source.Set name of __fentry__ symbol called at function entry.Set name of main routine for the debugger.Set name of output ALI file (internal switch).Set name of section to record mrecord-mcount calls.Set number of bytes on the stack preallocated for use by the callee.Set number of nops to emit before each insn pattern.Set probability threshold for unaligning branches.Set register to hold -1.Set sizeof(bool) to 1.Set start-address of data.Set start-address of the program.Set the PPC_EMB bit in the ELF flags header.Set the branch costs for conditional branch instructions.  Reasonable values are small, non-negative integers.  The default branch cost is 0.Set the branch costs for conditional branch instructions.  Reasonable values are small, non-negative integers.  The default branch cost is 1.Set the branch costs to roughly the specified number of instructions.Set the cost of branches.Set the default double precision kind to an 8 byte wide type.Set the default integer kind to an 8 byte wide type.Set the default real kind to an 10 byte wide type.Set the default real kind to an 16 byte wide type.Set the default real kind to an 8 byte wide type.Set the estimated probability in percentage for builtin expect. The default value is 90% probability.Set the max size of data eligible for the SDA area.Set the max size of data eligible for the TDA area.Set the max size of data eligible for the ZDA area.Set the max. number of bytes which has to be left to stack size before a trap instruction is triggered.Set the maximum amount for a single stack increment operation.Set the maximum number of instructions executed in parallel in reassociated tree.  If 0, use the target dependent heuristic.Set the maximum number of template instantiation notes for a single warning or error.Set the number of 64 KiB flash segments.Set the output object such that, on loading, dyld will ignore any two-level namespace information and resolve symbols in the discovery order for loaded libs.Set the prologue and epilogue hook addresses to TPF_TRACE_PROLOGUE_SKIP_TARGET and TPF_TRACE_EPILOGUE_SKIP_TARGET. Equivalent to using -mtpf-trace-hook-prologue-target=TPF_TRACE_PROLOGUE_SKIP_TARGET and -mtpf-trace-hook-epilogue-target=TPF_TRACE_EPILOGUE_SKIP_TARGETSet the target CPU type.Set the top-level directory for storing the profile data. The default is 'pwd'.Set the trace check address for epilogue tpf hookSet the trace check address for prologue tpf hookSet the trace jump address for epilogue tpf hookSet the trace jump address for prologue tpf hookSet the version of RISC-V ISA spec.Sets LP_COUNT register width.  Possible values are 8, 16, 20, 24, 28, and 32.Setting spec %s to '%s'

Shape specification for allocatable scalar at %CShapes for operands at %L and %L are not conformableShapes of ORDER at %L and SHAPE at %L are differentShare slots for saving different hard registers.Share stack slots for spilled pseudo-registers.Shared DO termination label %d at %CShorten address references during linking.Show column numbers in diagnostics, when available.  Default on.Show labels annotating ranges of source code when showing source.Show line numbers in the left margin when showing source.Show stack depths of events in paths.Show the source line with a caret indicating the column.Shrink-wrap parts of the prologue and epilogue separately.Simplification errorSimplification of SPREAD at %C not yet implementedSize in bytes after which thread-local aggregates should be instrumented with the logging functions instead of save/restore pairs.Size of %qs argument of %qs intrinsic at %L too small (%i/%i)Size of the stack guard expressed as a power of two in bytes.Size of tiles for loop blocking.Size optimization level: 0:none 1:opportunistic 2: regalloc 3:drop align, -Os.Sizes of ORDER at %L and SHAPE at %L are differentSkip setting up RAX register when passing variable arguments.Small data area: none, sdata, use.Soft limit on number of memory insns per instruction group, giving lower priority to subsequent memory insns attempting to schedule in the same insn group. Frequently useful to prevent cache bank conflicts.  Default value is 1.Sorry, !$ACC DECLARE at %L is not allowed in BLOCK constructSorry, %qs clause at %L on REQUIRES directive is not yet supportedSorry, allocatable/pointer components in polymorphic (CLASS) type coarrays at %L are unsupportedSorry, coindexed access to an unlimited polymorphic component at %L is not supportedSorry, coindexed access to an unlimited polymorphic object at %L is not supportedSorry, only support for integer kind %d implemented for image-set at %LSorry, the event component of derived type at %L is not yet supportedSorry, the lock component of derived type at %L is not yet supportedSort the symbols according to size.Sort the symbols alphabetically.Source-expr at %L and allocate-object at %L must have the same shapeSource-expr at %L must be scalar or have the same rank as the allocate-object at %LSpecification function %qs at %L cannot be RECURSIVESpecification function %qs at %L cannot be a statement functionSpecification function %qs at %L cannot be an internal functionSpecification function %qs at %L must be PURESpecifies bit size of immediate TLS offsets.  Valid values are 12, 24, 32, 48.Specifies the number of registers replicated in second register bank on entry to fast interrupt.Specifies the number of registers to reserve for interrupt handlers.Specifies the registers that the processor saves on an interrupt entry and exit.Specifies whether interrupt functions should save and restore the accumulator register.Specify CPU for code generation purposes.Specify CPU for scheduling purposes.Specify CPU for scheduling purposes.  Valid arguments are 700, 7100, 7100LC, 7200, 7300, and 8000.Specify TLS dialect.Specify UNIX standard for predefines and linking.Specify a file to which a list of files output by LTRANS is written.Specify a fpu configuration value from 0 to 7; 0-3 is as FPU spec says, and 4-7 is corresponding to 0-3.Specify a plugin to load.Specify alignment of structure fields default/natural.Specify an ABI.Specify bit size of immediate TLS offsets.Specify cache flush function.Specify cache flush trap number.Specify configuration of instruction mul: fast1, fast2 or slow. The default is fast1.Specify default OpenACC compute dimensions.Specify how many read/write ports for n9/n10 cores.  The value should be 3r2w or 2r1w.Specify how to access the thread pointer.Specify how to print any control-flow path associated with a diagnostic.Specify if floating point hardware should be used.Specify integer and floating-point calling convention.Specify main object for TPF-OS.Specify maximum error replay depth during recursive diagnosis of a constraint satisfaction failure.Specify memcpy expansion strategy when expected size is known.Specify memset expansion strategy when expected size is known.Specify name for 32 bit signed division function.Specify range of registers to make fixed.Specify scheduling priority for dispatch slot restricted insns.Specify size of .local memory used for stack when the exact amount is not known.Specify that an external BLAS library should be used for matmul calls on large-size arrays.Specify that backslash in string introduces an escape character.Specify that no implicit typing is allowed, unless overridden by explicit IMPLICIT statements.Specify that the compiler should target secure code as per ARMv8-M Security Extensions.Specify the ISA to build for: msp430, msp430x, msp430xv2.Specify the MCU to build for.Specify the __fp16 floating-point format.Specify the address generation strategy for ICT call's code model.Specify the address generation strategy for code model.Specify the algorithm to partition symbols and vars at linktime.Specify the code model.Specify the compact branch usage policy.Specify the cpu for pipeline model.Specify the memory model in effect for the program.Specify the minimum bit alignment of structures. (Deprecated).Specify the model for atomic operations.Specify the name of the target CPU.Specify the name of the target GPU.Specify the name of the target architecture.Specify the name of the target floating point configuration.Specify the name of the target floating point hardware/format.Specify the register to be used for PIC addressing.Specify the security level of c-isr for the whole file.Specify the size of each cache block, which must be a power of 2 between 4 and 512.Specify the size of each interrupt vector, which must be 4 or 16.Specify the target CPU.Specify the target RX cpu type.Specify the target architecture.Specify the target floating-point hardware/format.Specify the target processor.Specify the type of hardware multiply to support.Specify the version of the ptx ISA to use.Specify thread local storage scheme.Specify thread pointer register number.Specify use soft floating point ABI which mean alias to -mabi=2.Specify use soft floating point ABI which mean alias to -mabi=2fp+.Specify where to find the compiled intrinsic modules.Specify whether functions should be placed into the lower or upper memory regions, or if they should be shuffled between the regions (either) for best fit (default: lower).Specify whether variables should be placed into the lower or upper memory regions, or if they should be shuffled between the regions (either) for best fit (default: lower).Specify which ABI to use for Objective-C family code and meta-data generation.Specify which ABI type to generate code for: 2, 2fp+.Specify which post scheduling nop insertion scheme to apply.Specifying VOLATILE for coarray variable %qs at %C, which is use-/host-associatedSplit 32-byte AVX unaligned load.Split 32-byte AVX unaligned store.Split lifetimes of induction variables when loops are unrolled.Split paths leading to loop backedges.Split unaligned 8 byte vector moves before post-modify address generation.Split wide types into independent registers earlier.Split wide types into independent registers.Stack frame larger than 2G is not supported for %<-fsplit-stack%>Start expression in DO loopStat-variable at %L must be a scalar INTEGER variableStat-variable at %L shall not be %sd within the same %s statementStatement at %L is not a valid branch target statement for the branch statement at %LStatement function %qs at %L conflicts with function nameStatement function %qs at %L is not allowed as an actual argumentStatement function %qs at %L may not have pointer or allocatable attributeStatement function %qs is invalid in procedure pointer assignment at %LStatement function %qs requires argument list at %CStatement function at %CStatement function at %L cannot appear within an INTERFACEStatement function at %L is recursiveStatement label at %C is zeroStatement label in END CRITICAL at %C does not match CRITICAL labelStatement label in ENDDO at %C doesn't match DO labelStatement label list in GOTO at %C cannot be emptyStatement label without statement at %LStatically link the GNU Fortran helper library (libgfortran).Step expression in DO loopStep expression in DO loop at %L cannot be zeroStop forward growth if the probability of best edge is less than this threshold (in percent). Used when profile feedback is available.Stop forward growth if the probability of best edge is less than this threshold (in percent). Used when profile feedback is not available.Stop reverse growth if the reverse probability of best edge is less than this threshold (in percent).Store doubles in 64 bits.Store function names in object code.Stores doubles in 32 bits.  This is the default.Stores the MDUC registers in interrupt handlers for G13 target.Stream extra data to support more aggressive devirtualization in LTO local transformation mode.Stride must not be present at %LStride should not be specified for array section in %s clause at %LStrides not allowed in coarray subscript at %CString length at %L is too largeStructure component %qs at %L cannot be an EQUIVALENCE objectStructure constructor with missing optional arguments at %CStructure constructor with named arguments at %CStructure name %qs at %C cannot be the same as an intrinsic typeStructure name expected after RECORD at %CStructure name expected in non-nested structure declaration at %CSubroutine %qs at %L is INTRINSIC but is not compatible with an intrinsicSubroutine call to %qs at %L is not PURESubroutine call to %qs in DO CONCURRENT block at %L is not PURESubroutine call to %qs in FORALL block at %L is not PURESubroutine call to intrinsic %qs at %L is not PURESubroutine call to intrinsic %qs in DO CONCURRENT block at %L is not PURESubroutine call with alternate returns in INITIALIZER clause of !$OMP DECLARE REDUCTION at %LSubroutine call with alternate returns in combiner of !$OMP DECLARE REDUCTION at %LSubstring at %L has length zeroSubstring end index (%ld) at %L exceeds string lengthSubstring end index at %L exceeds the string lengthSubstring end index at %L is too largeSubstring end index at %L must be of type INTEGERSubstring end index at %L must be scalarSubstring start index (%ld) at %L below 1Substring start index at %L is less than oneSubstring start index at %L must be of type INTEGERSubstring start index at %L must be scalarSuggest that the override keyword be used when the declaration of a virtual function overrides another.Sum of array rank %d and corank %d at %C exceeds maximum allowed dimensions of %dSum of second and third arguments of IBITS exceeds bit size at %LSupply a list of objects to be linked from a file, rather than the command line.Support 3DNow! built-in functions.Support AES built-in functions and code generation.Support AMX-BF16 built-in functions and code generation.Support AMX-INT8 built-in functions and code generation.Support AMX-TILE built-in functions and code generation.Support AVX512VNNI built-in functions and code generation.Support AVX512VP2INTERSECT built-in functions and code generation.Support Athlon 3Dnow! built-in functions.Support BMI built-in functions and code generation.Support BMI2 built-in functions and code generation.Support C++17 allocation of over-aligned types.Support CLDEMOTE built-in functions and code generation.Support CLFLUSHOPT instructions.Support CLWB instruction.Support CLZERO built-in functions and code generation.Support ENQCMD built-in functions and code generation.Support F16C built-in functions and code generation.Support FMA4 built-in functions and code generation.Support FSGSBASE built-in functions and code generation.Support FXSAVE and FXRSTOR instructions.Support GFNI built-in functions and code generation.Support HRESET built-in functions and code generation.Support Hardware Lock Elision prefixes.Support KL built-in functions and code generation.Support LWP built-in functions and code generation.Support LZCNT built-in function and code generation.Support MMX and SSE built-in functions and code generation.Support MMX built-in functions.Support MMX, SSE and SSE2 built-in functions and code generation.Support MMX, SSE, SSE2 and SSE3 built-in functions and code generation.Support MMX, SSE, SSE2, SSE3 and SSE4A built-in functions and code generation.Support MMX, SSE, SSE2, SSE3 and SSSE3 built-in functions and code generation.Support MMX, SSE, SSE2, SSE3, SSSE3 and SSE4.1 built-in functions and code generation.Support MMX, SSE, SSE2, SSE3, SSSE3, SSE4.1 and SSE4.2 built-in functions and code generation.Support MMX, SSE, SSE2, SSE3, SSSE3, SSE4.1, SSE4.2 and AVX built-in functions and code generation.Support MMX, SSE, SSE2, SSE3, SSSE3, SSE4.1, SSE4.2, AVX and AVX2 built-in functions and code generation.Support MMX, SSE, SSE2, SSE3, SSSE3, SSE4.1, SSE4.2, AVX and FMA built-in functions and code generation.Support MMX, SSE, SSE2, SSE3, SSSE3, SSE4.1, SSE4.2, AVX, AVX2 and AVX512F and AVX512BW built-in functions and code generation.Support MMX, SSE, SSE2, SSE3, SSSE3, SSE4.1, SSE4.2, AVX, AVX2 and AVX512F and AVX512CD built-in functions and code generation.Support MMX, SSE, SSE2, SSE3, SSSE3, SSE4.1, SSE4.2, AVX, AVX2 and AVX512F and AVX512DQ built-in functions and code generation.Support MMX, SSE, SSE2, SSE3, SSSE3, SSE4.1, SSE4.2, AVX, AVX2 and AVX512F and AVX512ER built-in functions and code generation.Support MMX, SSE, SSE2, SSE3, SSSE3, SSE4.1, SSE4.2, AVX, AVX2 and AVX512F and AVX512IFMA built-in functions and code generation.Support MMX, SSE, SSE2, SSE3, SSSE3, SSE4.1, SSE4.2, AVX, AVX2 and AVX512F and AVX512PF built-in functions and code generation.Support MMX, SSE, SSE2, SSE3, SSSE3, SSE4.1, SSE4.2, AVX, AVX2 and AVX512F and AVX512VBMI built-in functions and code generation.Support MMX, SSE, SSE2, SSE3, SSSE3, SSE4.1, SSE4.2, AVX, AVX2 and AVX512F and AVX512VL built-in functions and code generation.Support MMX, SSE, SSE2, SSE3, SSSE3, SSE4.1, SSE4.2, AVX, AVX2 and AVX512F built-in functions and code generation.Support MMX, SSE, SSE2, SSE3, SSSE3, SSE4.1, SSE4.2, AVX, AVX2, AVX512F and AVX5124FMAPS built-in functions and code generation.Support MMX, SSE, SSE2, SSE3, SSSE3, SSE4.1, SSE4.2, AVX, AVX2, AVX512F and AVX5124VNNIW built-in functions and code generation.Support MMX, SSE, SSE2, SSE3, SSSE3, SSE4.1, SSE4.2, AVX, AVX2, AVX512F and AVX512BF16 built-in functions and code generation.Support MMX, SSE, SSE2, SSE3, SSSE3, SSE4.1, SSE4.2, AVX, AVX2, AVX512F and AVX512BITALG built-in functions and code generation.Support MMX, SSE, SSE2, SSE3, SSSE3, SSE4.1, SSE4.2, AVX, AVX2, AVX512F and AVX512VBMI2 built-in functions and code generation.Support MMX, SSE, SSE2, SSE3, SSSE3, SSE4.1, SSE4.2, AVX, AVX2, AVX512F and AVX512VPOPCNTDQ built-in functions and code generation.Support MMX, SSE, SSE2, SSE3, SSSE3, SSE4.1, SSE4.2, AVX, AVX2, and AVXVNNI built-in functions and code generation.Support MOVDIR64B built-in functions and code generation.Support MOVDIRI built-in functions and code generation.Support MWAITX and MONITORX built-in functions and code generation.Support PCLMUL built-in functions and code generation.Support PCONFIG built-in functions and code generation.Support PKU built-in functions and code generation.Support PREFETCHW instruction.Support PREFETCHWT1 built-in functions and code generation.Support PTWRITE built-in functions and code generation.Support RDPID built-in functions and code generation.Support RDRND built-in functions and code generation.Support RDSEED instruction.Support RTM built-in functions and code generation.Support SERIALIZE built-in functions and code generation.Support SGX built-in functions and code generation.Support SHA1 and SHA256 built-in functions and code generation.Support TBM built-in functions and code generation.Support TLS segment larger than 64K.Support TSXLDTRK built-in functions and code generation.Support UINTR built-in functions and code generation.Support VAES built-in functions and code generation.Support VPCLMULQDQ built-in functions and code generation.Support WAITPKG built-in functions and code generation.Support WBNOINVD built-in functions and code generation.Support WIDEKL built-in functions and code generation.Support XOP built-in functions and code generation.Support XSAVE and XRSTOR instructions.Support XSAVEC instructions.Support XSAVEOPT instruction.Support XSAVES and XRSTORS instructions.Support alignments of up to 64-bits.Support calls between Thumb and ARM instruction sets.Support code generation of Advanced Bit Manipulation (ABM) instructions.Support code generation of cmpxchg16b instruction.Support code generation of crc32 instruction.Support code generation of movbe instruction.Support code generation of popcnt instruction.Support code generation of sahf instruction in 64bit x86-64 code.Support dynamic initialization of thread-local variables in a different translation unit.Support flag-preserving add-carry instructions.Support for the A argument at %L which is polymorphic A argument or has allocatable components is not yet implementedSupport for the A argument at %L with allocatable components is not yet implementedSupport legacy multi-threading.Support message passing with the Parallel Environment.Support more than 8192 GOT entries on ColdFire.Support multi-threading.Support multiply accumulate instructions.Support synchronous non-call exceptions.Supported AArch64 return address signing scope (for use with -msign-return-address= option):Supported ABIs (for use with the -mabi= option):Supported ISA specs (for use with the -misa-spec= option):Supported LTO compression algorithms: zlibSuppress output of addresses in debugging dumps.Suppress output of instruction numbers, line number notes and addresses in debugging dumps.Suppress output of previous and next insn numbers in debugging dumps.Suppress warnings.Switch ARM/Thumb modes on alternating functions for compiler testing.Switch on/off MIPS16 ASE on alternating functions for compiler testing.Switches off the -mstack-guard= option.Switches off the -mstack-size= option.Symbol %qs already declaredSymbol %qs at %C already declaredSymbol %qs at %C also declared as a type at %LSymbol %qs at %C has already been host associatedSymbol %qs at %C has no IMPLICIT typeSymbol %qs at %C has not been previously definedSymbol %qs at %C is already in a COMMON blockSymbol %qs at %C is ambiguousSymbol %qs at %C must be a NAMELIST group nameSymbol %qs at %L already has an explicit interfaceSymbol %qs at %L already has basic type of %sSymbol %qs at %L cannot have a typeSymbol %qs at %L conflicts with symbol from module %qs, use-associated at %LSymbol %qs at %L conflicts with the rename symbol at %LSymbol %qs at %L conflicts with the symbol at %LSymbol %qs at %L has no IMPLICIT typeSymbol %qs at %L has no IMPLICIT type; did you mean %qs?Symbol %qs at %L is ambiguousSymbol %qs at %L is marked PRIVATE but has been given the binding label %qsSymbol %qs has mixed component and non-component accesses at %LSymbol %qs in COMMON at %C cannot be a POINTER arraySymbol %qs in namelist %qs at %C must be declared before the namelist is declared.Symbol %qs in namelist %qs is INTENT(IN) at %CSymbol %qs is used before it is typed at %LSymbol %qs must be a PARAMETER in DATA statement at %CSymbol %qs present on both FROM and TO clauses at %LSymbol %qs present on multiple clauses at %LSymbol %qs referenced at %L not found in intrinsic module ISO_C_BINDINGSymbol %qs referenced at %L not found in intrinsic module ISO_FORTRAN_ENVSymbol %qs referenced at %L not found in module %qsSymbol %qs, in COMMON block %qs at %C is being indirectly equivalenced to another COMMON block %qsSymbol at %C is not appropriate for an expressionSymbol at %L is not a DUMMY variableSynonym for "-export-dynamic" for linker versions that support it.Synonym for "image_base".Synonym for -Wcomment.Synonym of -gnatk8.Syntax error in !$ACC DECLARE list at %CSyntax error in !$ACC ROUTINE ( NAME ) at %CSyntax error in !$ACC ROUTINE ( NAME ) at %C, expecting ')' after NAMESyntax error in !$OMP DECLARE TARGET list at %CSyntax error in !$OMP THREADPRIVATE list at %CSyntax error in !GCC$ ATTRIBUTES statement at %CSyntax error in !GCC$ IVDEP directive at %CSyntax error in !GCC$ NOVECTOR directive at %CSyntax error in !GCC$ UNROLL directive at %CSyntax error in !GCC$ VECTOR directive at %CSyntax error in %s statement at %CSyntax error in ABSTRACT INTERFACE statement at %CSyntax error in ASYNCHRONOUS statement at %CSyntax error in AUTOMATIC statement at %CSyntax error in CASE specification at %CSyntax error in CHARACTER declaration at %CSyntax error in CLASS IS specification at %CSyntax error in COMPLEX constant at %CSyntax error in ELSE IF statement after %LSyntax error in ENUMERATOR definition at %CSyntax error in EQUIVALENCE statement at %LSyntax error in FORALL iterator at %CSyntax error in I/O iterator at %CSyntax error in IF-clause after %CSyntax error in IF-expression at %CSyntax error in IMPORT statement at %CSyntax error in NAME= specifier for binding label at %CSyntax error in OpenACC expression list at %CSyntax error in OpenMP DEPEND SINK list at %CSyntax error in OpenMP detach clause at %CSyntax error in OpenMP variable list at %CSyntax error in PROCEDURE statement at %CSyntax error in PROTECTED statement at %CSyntax error in RANK specification at %CSyntax error in SAVE statement at %CSyntax error in STATIC statement at %CSyntax error in SUBMODULE statement at %CSyntax error in SUBSTRING specification at %CSyntax error in TYPE IS specification at %CSyntax error in VALUE statement at %CSyntax error in VOLATILE statement at %CSyntax error in anonymous structure declaration at %CSyntax error in argument list at %CSyntax error in array constructor at %CSyntax error in character length specification at %CSyntax error in common block name at %CSyntax error in data declaration at %CSyntax error in expression at %CSyntax error in generic specification at %CSyntax error in iterator at %CSyntax error in nested structure declaration at %CSyntax error in old style initialization of %s at %CSyntax error in old style initializer list at %CSyntax error in procedure pointer component at %CSyntax error: Trailing garbage in END INTERFACE statement at %CSyntax error: Trailing garbage in INTERFACE statement at %CTARGET DATA must contain at least one MAP, USE_DEVICE_PTR, or USE_DEVICE_ADDR clause at %LTARGET ENTER DATA with map-type other than TO, or ALLOC on MAP clause at %LTARGET EXIT DATA with map-type other than FROM, RELEASE, or DELETE on MAP clause at %LTARGET%s with map-type other than TO, FROM, TOFROM, or ALLOC on MAP clause at %LTEAM argument at %L to the intrinsic TEAM_NUMBER shall be of type TEAM_TYPETEAM= attribute in %C misplacedTHREADPRIVATE object %qs in %s clause at %LTHREADPRIVATE object %qs in SHARED clause at %LTILE requires constant expression at %LTLS dialect to use:TLS is not implemented for GCN.TODO: Vector sections in data statementsTODO: type-bound defined assignment(s) at %L not done because multiple part array references would occur in intermediate expressions.TOPOS argument (%ld) out of range 0:%d in intrinsic MVBITSTOPOS(%ld)+LEN(%ld)>BIT_SIZE(%d) in intrinsic MVBITSTYPE IS at %L overlaps with TYPE IS at %LTYPE with intrinsic-type-spec at %CTake advantage of linker relaxations to reduce the number of instructions required to materialize symbol addresses.Taken at least once:%s of %d
Takes two non-negative integer numbers separated by a comma. Prepend the function label with the number of two-byte Nop instructions indicated by the first.  Append Nop instructions covering the number of halfwords indicated by the second after the label.  Nop instructions of the largest possible size are used (six, four or two bytes), beginning with the largest possible size.  Using 0 for both values disables hotpatching.Target DFLOAT double precision code.Target block's relative execution frequency (as a percentage) required to sink a statement.Target expression in pointer assignment at %L must deliver a pointer resultTarget has split I&D.Target of rank remapping is too small (%ld < %ld)Target the AM33 processor.Target the AM33/2.0 processor.Target the AM34 processor.Target the FT32B architecture.Target the software simulator.Target: %s
Tell DCE to remove unused C++ allocations.Tell DSE that the storage for a C++ object is dead when the constructor starts and when the destructor finishes.The %<-mfloat128%> option may not be fully supportedThe %s directive cannot be specified within a %s region at %LThe A argument at %L has type %s but the function passed as OPERATOR at %L returns %sThe A argument at %L of CO_REDUCE shall not be polymorphicThe A argument at %L to the intrinsic %s shall not be coindexedThe AUTOMATIC object %qs at %L must not have the SAVE attribute or be a variable declared in the main program, a module or a submodule(F08/C513)The CHARACTER elements of the array constructor at %L must have the same length (%ld/%ld)The DEFAULT CASE at %L cannot be followed by a second DEFAULT CASE at %LThe DISTANCE argument may not be specified together with the COARRAY or DIM argument in intrinsic at %LThe FORALL with index %qs is not used on the left side of the assignment at %L and so might cause multiple assignment to this objectThe FROM and TO arguments at %L violate aliasing restrictions (F2003 12.4.1.7)The FROM and TO arguments of the MOVE_ALLOC intrinsic at %L must have the same corank %d/%dThe FROM and TO arguments of the MOVE_ALLOC intrinsic at %L must have the same rank %d/%dThe FROM argument to MOVE_ALLOC at %L shall not be coindexedThe H format specifier at %L is a Fortran 95 deleted featureThe Hollerith constant at %L is truncated in conversion to %qsThe INTENT(OUT) dummy argument %qs at %L is ASSUMED SIZE and so cannot have a default initializerThe KIND parameter %qs at %C cannot either be ASSUMED or DEFERREDThe KIND parameter %qs in the PDT constructor at %C has no valueThe KIND part_ref at %C must be applied to an expression of intrinsic typeThe LEN part_ref at %C must be applied to a CHARACTER expressionThe NULL in the structure constructor at %L is being applied to component %qs, which is neither a POINTER nor ALLOCATABLEThe RE or IM part_ref at %C must be applied to a COMPLEX expressionThe SELECT RANK CASE expression at %C must be a scalar, integer constantThe SELECT RANK selector at %C must be an assumed rank variableThe STATUS specified in OPEN statement at %L cannot have the value SCRATCH if a FILE specifier is presentThe STATUS specified in OPEN statement at %L is %qs and no FILE specifier is presentThe TO argument to MOVE_ALLOC at %L shall not be coindexedThe TO arguments in MOVE_ALLOC at %L must be polymorphic if FROM is polymorphicThe absolute value of SHIFT at %L must be less than or equal to BIT_SIZE(%qs)The absolute value of SHIFT at %L must be less than or equal to SIZE at %LThe allocatable object %qs at %L must have an explicit function interface or be declared as arrayThe allocate-object at %L and the source-expr at %L shall have the same kind type parameterThe argument list functions %%VAL, %%LOC or %%REF are not allowed in this context at %LThe argument of the RANK intrinsic at %L must be a data objectThe assignment to a KIND or LEN component of a parameterized type at %L is not allowedThe assumed-rank array %qs at %L shall not have a codimensionThe assumed-rank array at %C shall not have a codimensionThe assumed-rank array at %L requires that the dummy argument %qs has assumed-rankThe bug is not reproducible, so it is likely a hardware or OS problem.
The character constant at %L is truncated in conversion to %sThe character length of the A argument at %L and of the arguments of the OPERATOR at %L shall be the sameThe character length of the A argument at %L and of the function result of the OPERATOR at %L shall be the sameThe code model option names for -mcmodel:The component at %C that appears in the type parameter list at %L has neither the KIND nor LEN attributeThe component at %C which is a type parameter must be a scalarThe component with KIND or LEN attribute at %C does not not appear in the type parameter list at %LThe default (and opposite of -static), implied by user mode executables, shared libraries and bundles.The denominator n of fraction 1/n of the execution frequency of the entry block of a function that a basic block of this function needs to at least have in order to be considered hot.The denominator n of fraction 1/n of the maximal execution count of a basic block in the entire program that a basic block needs to at least have in order to be considered hot (used in non-LTO mode).The denominator n of fraction 1/n of the number of profiled runs of the entire program below which the execution count of a basic block must be in order for the basic block to be considered unlikely.The derived parameter %qs at %C does not have a default valueThe derived type %qs at %L is of type %qs, which has not been definedThe device has no SPH special function register. This option will be overridden by the compiler driver with the correct setting if presence/absence of SPH can be deduced from -mmcu=MCU.The earliest macOS version on which this program will run (formatted for the assembler).The earliest macOS version on which this program will run.The element in the structure constructor at %L, for pointer component %qs should be a POINTER or a TARGETThe element in the structure constructor at %L, for pointer component %qs, is %s but should be %sThe equivalence set for %qs cause an invalid extension to COMMON %qs at %LThe equivalence set for variable %qs declared at %L violates alignment requirementsThe errmsg= argument at %L must be a default-kind character variableThe event variable at %L shall not be coindexedThe following options are language-independentThe following options are language-relatedThe following options are not documentedThe following options are specific to just the language The following options are supported by the language The following options are target specificThe following options control compiler warning messagesThe following options control optimizationsThe following options control parametersThe following options take joined argumentsThe following options take separate argumentsThe function passed as OPERATOR at %L has arguments of type %s and %s but shall have type %sThe function passed as OPERATOR at %L shall have scalar nonallocatable nonpointer arguments and return a nonallocatable nonpointer scalarThe function passed as OPERATOR at %L shall have the ASYNCHRONOUS attribute either for none or both argumentsThe function passed as OPERATOR at %L shall have the TARGET attribute either for none or both argumentsThe function passed as OPERATOR at %L shall have the VALUE attribute either for none or both argumentsThe function passed as OPERATOR at %L shall have two argumentsThe function passed as OPERATOR at %L shall not have the OPTIONAL attribute for either of the argumentsThe function result on the lhs of the assignment at %L must have the pointer attribute.The intrinsic %qs at %L is not included in the selected standard but %s and %qs will be treated as if declared EXTERNAL.  Use an appropriate %<-std=%>* option or define %<-fall-intrinsics%> to allow this intrinsic.The intrinsic %qs declared INTRINSIC at %L is not available in the current standard settings but %s. Use an appropriate %<-std=*%> option or enable %<-fall-intrinsics%> in order to use it.The leftmost part-ref in a data-ref cannot be a function reference at %CThe lower bound for a buffer to be considered for stack smashing protection.The max number of reload pseudos which are considered during spilling a non-reload pseudo.The maximum amount of memory to be allocated by GCSE, in kilobytes.The maximum code size growth ratio when expanding into a jump table (in percent).  The parameter is used when optimizing for size.The maximum code size growth ratio when expanding into a jump table (in percent).  The parameter is used when optimizing for speed.The maximum conflict delay for an insn to be considered for speculative motion.The maximum depth of a loop nest we completely peel.The maximum depth of a symbolic value, before approximating the value as unknown.The maximum depth of exploded nodes that should appear in a dot dump before switching to a less verbose format.The maximum depth of recursive inlining for inline functions.The maximum depth of recursive inlining for non-inline functions.The maximum expansion factor when copying basic blocks.The maximum instructions CSE process before flushing.The maximum length of a constant string for a builtin string cmp call eligible for inlining. The default value is 3.The maximum length of path considered in cse.The maximum length of scheduling's pending operations list.The maximum memory locations recorded by cselib.The maximum number of 'after supernode' exploded nodes within the analyzer per supernode, before terminating analysis.The maximum number of RTL nodes that can be recorded as combiner's last value.The maximum number of SSA_NAME assignments to follow in determining a value.The maximum number of backtrack attempts the scheduler should make when modulo scheduling a loop.The maximum number of blocks in a region to be considered for interblock scheduling.The maximum number of branches on the path through the peeled sequence.The maximum number of constraints per state.The maximum number of exploded nodes per program point within the analyzer, before terminating analysis of that point.The maximum number of incoming edges to consider for crossjumping.The maximum number of infeasible edges to reject before declaring a diagnostic as infeasible.The maximum number of insns combine tries to combine.The maximum number of insns in a region to be considered for interblock scheduling.The maximum number of insns in loop header duplicated by the copy loop headers pass.The maximum number of insns of a completely peeled loop.The maximum number of insns of a peeled loop.The maximum number of insns of an unswitched loop.The maximum number of insns to duplicate when unfactoring computed gotos.The maximum number of instructions in a single function eligible for inlining.The maximum number of instructions in an inner loop that is being considered for versioning.The maximum number of instructions in an outer loop that is being considered for versioning, on top of the instructions in inner loops.The maximum number of instructions inline function can grow to via recursive inlining.The maximum number of instructions non-inline function can grow to via recursive inlining.The maximum number of instructions ready to be issued to be considered by the scheduler during the first scheduling pass.The maximum number of instructions to consider to fill a delay slot.The maximum number of instructions to consider to find accurate live register information.The maximum number of instructions to consider to unroll in a loop on average.The maximum number of instructions to consider to unroll in a loop.The maximum number of instructions to search backward when looking for equivalent reload.The maximum number of instructions when automatically inlining small functions.The maximum number of instructions when automatically inlining.The maximum number of instructions when inlining for size.The maximum number of iterations through CFG to extend regions.The maximum number of loop iterations we predict statically.The maximum number of nested indirect inlining performed by early inliner.The maximum number of peelings of a single loop that is peeled completely.The maximum number of peelings of a single loop.The maximum number of stmts in loop nest for loop interchange.The maximum number of times a callsite can appear in a call stack within the analyzer, before terminating analysis of a call that would recurse deeper.The maximum number of unrollings of a single loop.The maximum number of unswitchings in a single loop.The maximum ratio between array size and switch branches for a switch conversion to take place.The maximum ratio of insertions to deletions of expressions in GCSE.The maximum size of the lookahead window of selective scheduling.The minimal estimated speedup allowing inliner to ignore inline-insns-single and inline-insns-auto.The minimal probability of speculation success (in percents), so that speculative insn will be scheduled.The minimum UID to be used for a nondebug insn.The minimum constant stride beyond which we should use prefetch hints for.The minimum cost of an expensive expression in the loop invariant motion.The minimum number of matching instructions to consider for crossjumping.The minimum number of supernodes within a function for the analyzer to consider summarizing its effects at call sites.The minimum probability an edge must have for the scheduler to save its state across it.The minimum probability of reaching a source block for interblock speculative scheduling.The minimum size of variables taking part in stack slot sharing when not optimizing.The minimum stride ratio for loop interchange to be profitable.The minimum threshold for probability of semi-invariant condition statement to trigger loop split.The minimum value of stage count that swing modulo scheduler will generate.The module or main program array %qs at %L must have constant shapeThe name %qs at %C has already been used as an external module nameThe name %qs cannot be used as a defined operator at %CThe number of Newton iterations for calculating the reciprocal for double type.  The precision of division is proportional to this param when division approximation is enabled.  The default value is 2.The number of Newton iterations for calculating the reciprocal for float type.  The precision of division is proportional to this param when division approximation is enabled.  The default value is 1.The number of array elements of the SUB argument to IMAGE_INDEX at %L shall be %d (corank) not %dThe number of cycles the swing modulo scheduler considers when checking conflicts using DFA.The number of elements (%d) in the array constructor at %L requires an increase of the allowed %d upper limit.  See %<-fmax-array-constructor%> option.The number of elements for which hash table verification is done for each searched element.The number of elements in the array constructor at %L requires an increase of the allowed %d upper limit.   See %<-fmax-array-constructor%> optionThe number of elements in the array constructor at %L requires an increase of the allowed %d upper limit.  See %<-fmax-array-constructor%> optionThe number of elements in the array constructor at %L requires an increase of the allowed %d upper limit. See %<-fmax-array-constructor%> optionThe number of executions of a basic block which is considered hot. The parameter is used only in GIMPLE FE.The number of insns executed before prefetch is completed.The number of most executed permilles of the profiled execution of the entire program to which the execution count of a basic block must be part of in order to be considered hot (used in LTO mode).The number of prefetches that can run at the same time.The number of registers in each class kept unused by loop invariant motion.The object %qs at %L has a deferred LEN parameter %qs and is neither allocatable nor a pointerThe object %qs at %L with ASSUMED type parameters must be a dummy or a SELECT TYPE selector(F08/4.2)The parameter expression at %C does not simplify to an INTEGER constantThe parameter expression at %C must be of INTEGER type and not %s typeThe path to devices.csv.  The GCC driver can normally locate devices.csv itself and pass this option to the compiler, so the user shouldn't need to pass this.The percentage of function, weighted by execution frequency, that must be covered by trace formation. Used when profile feedback is available.The percentage of function, weighted by execution frequency, that must be covered by trace formation. Used when profile feedback is not available.The pointer object %qs at %L must have an explicit function interface or be declared as arrayThe possible SVE vector lengths:The possible TLS dialects:The rank of the element in the structure constructor at %L does not match that of the component (%d/%d)The resolution file.The scale (in percents) applied to inline-insns-single and auto limits when heuristics hints that inlining is very profitable.The size of L1 cache line.The size of L1 cache.The size of L2 cache.The size of function body to be considered large.The size of stack frame to be considered large.The size of translation unit that IPA-CP pass considers large.The size of translation unit to be considered large.The smallest number of different values for which it is best to use a jump-table instead of a tree of conditional branches, if 0, use the default for the machine.The source-expr at %L shall neither be of type EVENT_TYPE nor have a EVENT_TYPE component if allocate-object at %L is a coarrayThe source-expr at %L shall neither be of type LOCK_TYPE nor have a LOCK_TYPE component if allocate-object at %L is a coarrayThe stat= argument at %L must be a kind=4 integer variableThe symbol %qs, referenced at %L, is not in the selected standardThe threshold ratio for performing partial redundancy elimination after reload.The threshold ratio of critical edges execution count that permit performing redundancy elimination after reload.The type %qs cannot be host associated at %L because it is blocked by an incompatible object of the same name declared at %LThe type for function %qs at %L is not accessibleThe type parameter spec list at %C cannot contain both ASSUMED and DEFERRED parametersThe type parameter spec list at %C contains too many parameter expressionsThe type parameter spec list at %C does not contain enough parameter expressionsThe type parameter spec list in the type-spec at %L cannot contain DEFERRED parametersThe type-spec at %L shall specify that each length type parameter is assumedThe type-spec shall not specify a sequence derived type or a type with the BIND attribute in SELECT TYPE at %C [F2003:C815]The upper bound for sharing integer constants.The upper bound in the last dimension must appear in the reference to the assumed size array %qs at %LThe value for the KIND parameter %qs at %C does not reduce to a constant expressionThe value of n in %<-finit-character=n%> must be between 0 and 127The value of the PDT LEN parameter '%s' does not agree with that in the dummy declarationThe value of the SELECT RANK CASE expression at %C must not be less than zero or greater than %dThe version of the C++ ABI in use.The version of the C++ ABI used for -Wabi warnings and link compatibility aliases.There is already a procedure with binding name %qs for the derived type %qs at %CThere is no specific function for the generic %qs at %LThere is no specific subroutine for the generic %qs at %LThere's already a non-generic procedure with binding name %qs for the derived type %qs at %CThis is free software; see the source for copying conditions.  There is NO
warranty; not even for MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.

This is the default.This option is deprecated and has no effect.This option is ignored; it is provided for compatibility purposes only.  This used to select linker and preprocessor options for use with newlib.This option lacks documentation.This switch is deprecated; do not use.This switch is deprecated; use -Werror=implicit-function-declaration instead.This switch is deprecated; use -Wextra instead.This switch is deprecated; use -fsanitize-recover= instead.Thread model: %s
Threadprivate at %L isn't SAVEdThreadprivate variable at %C is an element of a COMMON blockThreshold ipa-cp opportunity evaluation that is still considered beneficial to clone.Thumb-1 hard-float VFP ABIThumb: Assume function pointers may go to non-Thumb aware code.Thumb: Assume non-static functions may be called from ARM code.Thumb: Generate (leaf) stack frames even if not needed.Thumb: Generate (non-leaf) stack frames even if not needed.Thunk is not supposed to have bodyTiled loop cannot be parallelized across gangs, workers and vectors at the same time at %LTime accounted for function prologue, epilogue and other overhead.Time accounted for function thunk overhead.To enable preprocessing, use %<-cpp%>Toggle -fvar-tracking-assignments.Toggle debug information generation.Too few codimensions at %C, expected %d not %dToo few dummy arguments in DTIO procedure %qs at %LToo many arguments in call to %qs at %LToo many arguments to %s at %LToo many codimensions at %C, expected %d not %dToo many components in structure constructor at %LToo many digits in statement label at %CToo many dummy arguments in DTIO procedure %qs at %LToo many elements in array initializer at %CTransform condition stores into unconditional ones.Transformational function %qs at %L is invalid in an initialization expressionTransparent alias and target%'s assembler names differsTrap for signed overflow in addition, subtraction and multiplication.Trap on integer divide by zero.Treat a throw() exception specification as noexcept to improve code size.Treat all warnings as errors.Treat data references as near, far or medium. medium is default.Treat integers as 32-bit.Treat known sprintf return values as constants.Treat lines with 'D' in column one as comments.Treat main as if it had attribute OS_task.Treat missing header files as generated files.Treat signed overflow as undefined.  Negated as -fwrapv -fwrapv-pointer.Treat specified warning as error.Treat the input file as already preprocessed.True if a non-short-circuit operation is optimal.Try running '%s' in the shell to raise its limit.
Try to allow the linker to turn PIC calls into direct calls.Try to convert virtual calls to direct ones.Try to interchange loops if profitable.Try to lay out derived types as compactly as possible.Tune code for the given processor.Tune expected memory latency.Tune for the specified target CPU or architecture.Turn off any diagnostics features that complicate the output, such as line numbers, color, and warning URLs.Turn on CET instrumentation for switch statements that use a jump table and an indirect jump.Turn on Redundant Extensions Elimination pass.Tweak register allocation to help 16-bit instruction generation.Two main PROGRAMs at %L and %CTwo or more part references with nonzero rank must not be specified at %LTwo symbols with same comdat_group are not linked by the same_comdat_group list.Type %qs containing DEFERRED binding at %C is not ABSTRACTType %qs of CLASS variable %qs at %L is not extensibleType declaration %qs at %L is not C interoperable but it is BIND(C)Type definition of %qs at %C was already defined at %LType inaccessible in variable definition context (%s) at %LType mismatch between actual argument at %L and actual argument at %L (%s/%s).Type mismatch in argument %qs at %L; passed %s to %sType name %qs at %C cannot be the same as an intrinsic typeType name %qs at %C conflicts with previously declared entity at %L, which has the same nameType name %qs at %C is ambiguousType of entity at %L is type incompatible with source-expr at %LType of entity at %L is type incompatible with typespecType parameter %qs at %C has no corresponding entry in the type parameter name list at %LType specified for intrinsic function %qs at %L is ignoredType-bound operator at %L cannot be NOPASSType-bound procedure at %CType-spec at %L cannot contain a deferred type parameterType-spec at %L cannot contain an asterisk for a type parameterUNIT not specified at %LUNIT number in CLOSE statement at %L must be non-negativeUNIT number in INQUIRE statement at %L cannot be %dUNIT number in statement at %L must be non-negativeUNIT number missing in statement at %LUNIT specification at %L must be an INTEGER expression or a CHARACTER variableUNIT specification at %L must not be a character PARAMETERUNIT specifier not allowed with NEWUNIT at %LUNLOCK statement at %CUNTIL_COUNT= argument at %L must be a scalar INTEGER expressionUSE statement at %C has no ONLY qualifierUnable to find a specific INTRINSIC procedure for the reference %qs at %LUnable to find symbol %qsUnable to generate load/store offset for fusionUnable to resolve the specific function %qs at %LUnable to resolve the specific subroutine %qs at %LUnclassifiable GCC directive at %CUnclassifiable GCC directive at %C, ignoredUnclassifiable OpenACC directive at %CUnclassifiable OpenMP directive at %CUnclassifiable statement at %CUndefined specific binding %qs as target of GENERIC %qs at %LUnder -ffast-math, generate a FRIZ instruction for (double)(long long) conversions.Under the control of Object Size type, warn about buffer overflow in string manipulation functions like memcpy and strcpy.Unequal character lengths (%ld/%ld) in %sUnequal character lengths (%ld/%ld) in %s at %LUnexpected !$OMP SCAN at %L outside loop construct with %<inscan%> REDUCTION clauseUnexpected %<%c%> for nonderived-type variable %qs at %CUnexpected %<*%> for codimension %d of %d at %CUnexpected %<*%> in coarray subscript at %CUnexpected %s statement at %CUnexpected %s statement at %C in INTERFACE bodyUnexpected %s statement in BLOCK DATA at %CUnexpected %s statement in CONTAINS section at %CUnexpected %s statement in FORALL block at %CUnexpected %s statement in INTERFACE block at %CUnexpected %s statement in MODULE at %CUnexpected %s statement in WHERE block at %CUnexpected CASE statement at %CUnexpected DIM argument with noncoarray argument at %LUnexpected END statement at %CUnexpected ENTRY statement at %CUnexpected EOFUnexpected NULL() intrinsic at %L to dummy %qsUnexpected OpenACC parallelism.Unexpected RANK statement at %CUnexpected SHAPE argument at %L to C_F_POINTER with scalar FPTRUnexpected TYPE IS statement at %CUnexpected alternate return specifier in subroutine call at %LUnexpected character in variable list at %CUnexpected characters in PARAMETER statement at %CUnexpected coarray designator at %CUnexpected complex-parts designator reference in %s clause at %LUnexpected constant at %CUnexpected derived-type entities in binary intrinsic numeric operator %%<%s%%> at %%LUnexpected element %qc in format string at %LUnexpected end of file in %qsUnexpected end of format string in format string at %LUnexpected end of moduleUnexpected intrinsic type %qs at %LUnexpected junk after !$ACC ATOMIC statement at %CUnexpected junk after !$ACC DECLARE at %CUnexpected junk after !$OMP DECLARE REDUCTION at %CUnexpected junk after !$OMP DECLARE TARGET at %CUnexpected junk after !$OMP SCAN at %CUnexpected junk after $OMP BARRIER statement at %CUnexpected junk after $OMP CANCELLATION POINT statement at %CUnexpected junk after $OMP CRITICAL statement at %CUnexpected junk after $OMP FLUSH statement at %CUnexpected junk after $OMP MASTER statement at %CUnexpected junk after $OMP WORKSHARE statement at %CUnexpected junk after %qs at %LUnexpected junk after NOWAIT clause at %CUnexpected junk after OMP THREADPRIVATE at %CUnexpected junk after TASKWAIT clause at %CUnexpected junk after TASKYIELD clause at %CUnexpected junk after function declaration at %CUnexpected junk at %CUnexpected junk in formal argument list at %CUnexpected substring reference in %s clause at %LUnexpected thumb1 far jumpUnexpected use of subroutine name %qs at %CUninitialized probability of edge %i->%iUnit number in I/O statement too largeUnit number in I/O statement too smallUnknown argument %qs at %L to intrinsic %sUnknown argument list function at %LUnknown attribute in !GCC$ ATTRIBUTES statement at %CUnknown form for stack limit expressionUnknown intrinsic opUnknown operator %%<%s%%> at %%LUnknown operator %%<%s%%> at %%L; did you mean '%s'?Unknown procedure name %qs at %CUnlimited polymorphic allocate-object at %L requires either a type-spec or SOURCE tag or a MOLD tagUnrecognized MCU name %qs, assuming that it has no hardware multiply.
Use the %<-mhwmult%> option to set this explicitly.Unrecognized MCU name %qs, assuming that it is just a MSP430X with no hardware multiply.
Use the %<-mcpu%> and %<-mhwmult%> options to set these explicitly.Unrecognized MCU name %qs, assuming that it just supports the MSP430X ISA.
Use the %<-mcpu%> option to set the ISA explicitly.Unrecognized MCU name %qs.Unrecognized option to %<-finit-logical%>: %sUnrecognized option to endianness value: %qsUnrecognized option to floating-point init value: %qsUnrecognized option: %qsUnsupported code '%c' for fixed-point:Unsupported operand for code '%c'Unsupported statement inside WHERE at %LUnsupported value for mmpy-optionUnsupported: multiple OpenACC 'routine' levels of parallelismUnterminated character constant beginning at %CUnused PRIVATE module variable %qs declared at %LUnused dummy argument %qs at %LUnused initialization string at %L because variable has zero lengthUnused module variable %qs which has been explicitly imported at %LUnused parameter %qs declared at %LUnused parameter %qs which has been explicitly imported at %LUnused variable %qs declared at %LUpper array reference at %L is out of bounds (%ld < %ld) in dimension %dUpper array reference at %L is out of bounds (%ld > %ld) in dimension %dUpper bound of last coarray dimension must be %<*%> at %CUpper cobound is less than lower cobound at %LUpper cobound is less than lower cobound of 1 at %LUsage: %s [OPTION]... SUB_COMMAND [OPTION]...

Usage: %s [options] file...
Usage: gcov [OPTION...] SOURCE|OBJ...

Use "-Wa,OPTION" to pass "OPTION" to the assembler.

Use "-Wl,OPTION" to pass "OPTION" to the linker.

Use %reloc() operators, rather than assembly macros, to load addresses.Use -G for data that is not defined by the current object.Use -G for object-local data.Use -mlong-double-64 for 64-bit IEEE floating point format.  Use -mlong-double-128 for 128-bit floating point format (either IEEE or IBM).Use 128-bit AVX instructions instead of 256-bit AVX instructions in the auto-vectorizer.Use 128-bit long double.Use 16 bit int.Use 32 bit int.Use 32-bit ABI.Use 32-bit DWARF format when emitting DWARF debug information.Use 32-bit floating-point registers.Use 32-bit general registers.Use 32-bit offsets in jump tables rather than 16-bit offsets.Use 4 byte entries in switch tables.Use 4 media accumulators.Use 4-operand madd.s/madd.d and related instructions where applicable.Use 4xx half-word multiply instructions.Use 4xx string-search dlmzb instruction.Use 64 FPRs.Use 64 GPRs.Use 64-bit ABI.Use 64-bit DWARF format when emitting DWARF debug information.Use 64-bit floating-point registers.Use 64-bit general registers.Use 64-bit long double.Use 8 media accumulators.Use 80-bit long double.Use ABI reserved registers.Use AltiVec instructions.Use Bionic C library.Use Branch Likely instructions, overriding the architecture default.Use CONST16 instruction to load constants.Use Cyclic Redundancy Check (CRC) instructions.Use EABI.Use Enhanced Virtual Addressing instructions.Use Floating-point Multiply Single to Double (FsMULd) instruction.Use GNU C library.Use GP relative sdata/sbss sections.Use GP-relative addressing to access small data.Use Global INValidate (GINV) instructions.Use H8/300 alignment rules.Use IEEE math for fp comparisons.Use IRA based register pressure calculation in RTL hoist optimizations.Use IRA based register pressure calculation in RTL loop optimizations.Use ISA 2.07 Category:Vector.AES and Category:Vector.SHA2 instructions.Use ISA 2.07 transactional memory (HTM) instructions.Use LRA instead of reload (transitional).Use LRA instead of reload.Use LRA register allocator.Use Loongson EXTension (EXT) instructions.Use Loongson EXTension R2 (EXT2) instructions.Use Loongson MultiMedia extensions Instructions (MMI) instructions.Use MCU instructions.Use MIPS MSA Extension instructions.Use MIPS-3D instructions.Use MIPS-DSP REV 2 instructions.Use MIPS-DSP instructions.Use Mingw-specific thread support.Use Neon double-word (rather than quad-word) registers for vectorization.Use Neon quad-word (rather than double-word) registers for vectorization.Use NewABI-style %reloc() assembly operators.Use P-mnemonics for branches statically predicted as taken.Use PLT for PIC calls (-fno-plt: load the address from GOT at call site).Use PMC-style 'mad' instructions.Use PowerPC General Purpose group optional instructions.Use PowerPC Graphics group optional instructions.Use PowerPC V2.01 single field mfcr instruction.Use PowerPC V2.02 floating point rounding instructions.Use PowerPC V2.02 popcntb instruction.Use PowerPC V2.05 compare bytes instruction.Use PowerPC V2.06 popcntd instruction.Use PowerPC-64 instruction set.Use RJMP / RCALL even though CALL / JMP are available.Use ROM instead of RAM.Use SSE register passing conventions for SF and DF mode.Use STB_GNU_UNIQUE if supported by the assembler.Use SmartMIPS instructions.Use UNIX assembler syntax.Use UltraSPARC Compare-and-Branch extensions.Use UltraSPARC Fused Multiply-Add extensions.Use UltraSPARC Population-Count instruction.Use UltraSPARC Subtract-Extended-with-Carry instruction.Use UltraSPARC Visual Instruction Set version 1.0 extensions.Use UltraSPARC Visual Instruction Set version 2.0 extensions.Use UltraSPARC Visual Instruction Set version 3.0 extensions.Use UltraSPARC Visual Instruction Set version 4.0 extensions.Use VAX fp.Use VAXC structure conventions.Use VMS exit codes instead of posix ones.Use Virtualization (VZ) instructions.Use __cxa_atexit to register destructors.Use __cxa_get_exception_ptr in exception handling.Use a 32-bit long type.Use a 4-byte record marker for unformatted files.Use a 64-bit long type.Use a lightweight configuration of printf and puts to reduce code size. For single-threaded applications, not requiring reentrant I/O only. Requires Newlib Nano IO.Use a minimum runtime (no static initializers or ctors) for memory-constrained devices.Use a smart stack protection method for certain functions.Use a stack protection method for every function.Use additional VIS instructions introduced in OSA2017.Use addresses that allocate global registers.Use all registers, reserving none for interrupt handlers.Use alternate register names.Use an 8-bit 'int' type.Use an 8-byte record marker for unformatted files.Use an immediate to offset from the stack protector guard register, sp_el0. This option is for use with fstack-protector-strong and not for use in user-land code.Use arbitrary sized immediates in bit operations.Use big-endian byte order.Use bit tests for sufficiently large switch statements.Use branch-and-break sequences to check for integer divide by zero.Use branch-protection features.Use bras for executable < 64k.Use call-clobbered registers for parameters and return value.Use call0 ABI.Use callbacks instead of inline code if number of accesses in function becomes greater or equal to this number.Use caller save register across calls if possible.Use certain scalar instructions added in ISA 3.0.Use control speculation.Use custom stacks instead of local memory for automatic storage.Use data speculation after reload.Use data speculation before reload.Use decimal floating point instructions.Use default method for sdata handling.Use different calling convention using 'rtd'.Use direct poisoning/unpoisoning instructions for variables smaller or equal to this number.Use direct references against %gs when accessing tls data.Use eXtended Physical Address (XPA) instructions.Use epsilon-respecting floating point compare instructions.Use expression value profiles in optimizations.Use f2c calling convention.Use features of and optimize for CPU.Use features of and schedule code for given CPU.Use features of and schedule given CPU.Use features of architecture ARCH.Use flat register window model.Use fp double instructions.Use fp registers.Use full-set registers for register allocation.Use given SPARC-V9 code model.Use given TILE-Gx code model.Use given address mode.Use given assembler dialect.Use given register vector width instructions instead of maximum register width in the auto-vectorizer.Use given stack-protector guard.Use given thread-local storage dialect.Use given x86-64 code model.Use hardware FP (default).Use hardware FP.Use hardware division instructions on ColdFire.Use hardware floating point conversion instructions.Use hardware floating point instructions.Use hardware floating point square root instruction.Use hardware floating point.Use hardware floating-point divide and square root instructions.Use hardware fp.Use hardware instructions for integer division.Use hardware prefetch instruction.Use hardware quad FP instructions.Use hardware transactional execution instructions.Use hardware vector facility instructions and enable the vector ABI.Use in block control speculation.Use in block data speculation after reload.Use in block data speculation before reload.Use in/loc/out register names.Use indirect CALLXn instructions for large programs.Use indirect calls.Use inline plt sequences to implement long calls and -fno-plt.Use instructions of and schedule code for given CPU.Use integer madd/msub instructions.Use internal function id in profile lookup.Use jump tables for sufficiently large switch statements.Use ldcw/ldcd coherent cache-control hint.Use libgcc stubs to save and restore registers clobbered by 64-bit Microsoft to System V ABI calls.Use little-endian byte order.Use ll, sc and sync instructions.Use lwxc1/swxc1/ldxc1/sdxc1 instructions where applicable.Use media instructions.Use microMIPS instructions.Use multiply add/subtract instructions.Use multiply high instructions for high part of 32x32 multiply.Use musl C library.Use native (MS) bitfield layout.Use new adddi3/subdi3 patterns.Use normal calling convention.Use of intrinsic module %qs at %C conflicts with non-intrinsic module name used previouslyUse of non-intrinsic module %qs at %C conflicts with intrinsic module name used previouslyUse of the NUMERIC_STORAGE_SIZE named constant from intrinsic module ISO_FORTRAN_ENV at %C is incompatible with option %sUse of the NUMERIC_STORAGE_SIZE named constant from intrinsic module ISO_FORTRAN_ENV at %L is incompatible with option %qsUse only one TOC entry per procedure.Use ordinarily cached memory accesses for volatile references.Use packed stack layout.Use paired-single floating-point instructions.Use pattern compare instructions.Use pc-relative switch case tables - this enables case table shortening.Use portable calling conventions.Use profiling information for branch probabilities.Use propolice as a stack protection method.Use push instructions to save outgoing arguments.Use r11 to hold the static link in calls to functions via pointers.Use random base tag for each frame, as opposed to base always zero.Use red-zone in the x86-64 code.Use reduced-set registers for register allocation.Use register stack for parameters and return value.Use registers for argument passing.Use registers r2 and r5.Use reorder instructions (swap and byte reversed load/store) (default).Use sample profile information for call graph node weights. The default profile file is fbdata.afdo in 'pwd'.Use sample profile information for call graph node weights. The profile file is specified in the argument.Use shared libraries.Use simple data speculation check for control speculation.Use simple data speculation check.Use simulator runtime.Use smaller but slower prologue and epilogue code.Use software emulation for floating point (default).Use software floating point comparisons.Use software floating point.Use stack bias.Use stack protection method only for functions with the stack_protect attribute.Use structs on stronger alignment for double-word copies.Use stubs for function prologues.Use subroutines for function prologues and epilogues.Use synci instruction to invalidate i-cache.Use table based fast divide (default at -O3).Use table lookup optimization for small signed integer divisions.Use tas.b instruction for __atomic_test_and_set.Use the AIX Vector Extended ABI.Use the AltiVec ABI extensions.Use the Cray Pointer extension.Use the DEC assembler syntax.Use the ELFv1 ABI.Use the ELFv2 ABI.Use the GNU assembler syntax.Use the GNU extension to the PE format for aligned common data.Use the RTL dead code elimination pass.Use the RTL dead store elimination pass.Use the bfd linker instead of the default linker.Use the bit-field instructions.Use the divide instruction.Use the floating point unit for integer add/subtract.Use the given base register for addressing the stack-protector guard.Use the given data alignment.Use the given offset for addressing the stack-protector guard.Use the given symbol for addressing the stack-protector guard.Use the gold linker instead of the default linker.Use the hardware barrel shifter instead of emulation.Use the lld LLVM linker instead of the default linker.Use the most feature-enabling options allowed by other options.Use the mvcle instruction for block moves.Use the narrowest integer type possible for enumeration types.Use the new min/max instructions defined in ISA 3.0.Use the simulator runtime.Use the soft multiply emulation (default).Use the software emulation for divides (default).Use the system register specified on the command line as the stack protector guard register. This option is for use with fstack-protector-strong and not for use in user-land code.Use traditional GNU semantics for inline functions.Use trap instead of a library function for undefined behavior sanitization.Use trap instructions to check for integer divide by zero.Use uClibc C library.Use unicode startup and define UNICODE macro.Use vector and scalar instructions added in ISA 2.07.Use vector instructions added in ISA 3.0.Use vector/scalar (VSX) instructions.Use windowed registers ABI.Use zero-extending memory loads, not sign-extending ones.Used for generating code for some older kernel revisions.Used in Fix-and-Continue mode to indicate that object files may be swapped in at runtime.User defined non-ELEMENTAL function %qs at %L not allowed in WORKSHARE constructUser operator %qs referenced at %L not found in module %qsUser operator procedure %qs at %L cannot be assumed character lengthUser operator procedure %qs at %L must be a FUNCTIONUser operator procedure %qs at %L must have at least one argumentUses of this option are diagnosed.Using IBM extended precision %<long double%>Using IEEE extended precision %<long double%>Using built-in specs.
Using function %qs at %L is deprecatedUsing parameter %qs declared at %L is deprecatedUsing subroutine %qs at %L is deprecatedUsing variable %qs at %L is deprecatedUsually "private extern" (hidden) symbols are made local when linking, this command suppresses that such that they remain exported.VALUE argument of the %s intrinsic function at %L shall be definableVALUE attribute at %CVALUE is not allowed inside of BLOCK at %CVALUE object %qs in %s clause at %LVALUE statement at %CVOIDmode on an outputVOLATILE attribute at %CVOLATILE attribute at %L cannot be specified in a PURE procedureVOLATILE statement at %CValid Nios II ISA levels (for -march):Valid arguments for the -msdata= option:Valid arguments to -malign-:Valid arguments to -mcode-readable=:Valid arguments to -mfpmath=:Valid arguments to -mr10k-cache-barrier=:Valid arguments to -mstack-protector-guard=:Valid arguments to -mstringop-strategy=:Valid arguments to -mtp=:Valid options for GP-relative addressing (for -mgpopt):Validate vtable pointers before using them.Value of HINT clause at %L shall be a valid constant hint expressionVariable %qs at %C cannot be redefined inside loop beginning at %LVariable %qs at %C with an initializer already appears in a DATA statementVariable %qs at %L cannot be BIND(C) because it is neither a COMMON block nor declared at the module level scopeVariable %qs at %L cannot have both the ALLOCATABLE and BIND(C) attributesVariable %qs at %L cannot have both the OPTIONAL and the VALUE attribute because procedure %qs is BIND(C)Variable %qs at %L cannot have both the POINTER and BIND(C) attributesVariable %qs at %L has not been assigned a format labelVariable %qs at %L in common block %qs at %C must be declared with a C interoperable kind since common block %qs is bind(c)Variable %qs at %L in this context must be constantVariable %qs at %L is INTENT(OUT) and can thus not be an allocatable coarray or have coarray componentsVariable %qs at %L is a coarray and is not ALLOCATABLE, SAVE nor a dummy argumentVariable %qs at %L is a dummy argument of the BIND(C) procedure %qs but may not be C interoperableVariable %qs at %L is a dummy argument to the BIND(C) procedure %qs but is not C interoperable because derived type %qs is not C interoperableVariable %qs at %L is a dummy argument to the BIND(C) procedure %qs but is not C interoperable because it is polymorphicVariable %qs at %L is in COMMON but only in BLOCK DATA initialization is allowedVariable %qs at %L may not be a C interoperable kind but it is BIND(C)Variable %qs at %L not definable inside loop beginning at %L as INTENT(INOUT) argument to function %qsVariable %qs at %L not definable inside loop beginning at %L as INTENT(INOUT) argument to subroutine %qsVariable %qs at %L of TYPE(C_PTR) or TYPE(C_FUNPTR) shall not be a coarrayVariable %qs at %L set to undefined value inside loop beginning at %L as INTENT(OUT) argument to function %qsVariable %qs at %L set to undefined value inside loop beginning at %L as INTENT(OUT) argument to subroutine %qsVariable %qs at %L with ALLOCATABLE attribute in procedure %qs with BIND(C)Variable %qs at %L with OPTIONAL attribute in procedure %qs which is BIND(C)Variable %qs at %L with POINTER attribute in procedure %qs with BIND(C)Variable %qs at %L with coarray component shall be a nonpointer, nonallocatable scalar, which is not a coarrayVariable %qs cannot appear in a variable definition context (%s) at %L in PURE procedureVariable %qs cannot appear in the expression at %LVariable %qs from module %qs with binding label %qs at %L uses the same global identifier as entity at %L from module %qsVariable %qs has not been assigned a target label at %LVariable %qs in %s clause is used in NAMELIST statement at %LVariable %qs in common block %qs at %C cannot be bind(c) since it is not globalVariable %qs in common block %qs at %C must be declared with a C interoperable kind since common block %qs is BIND(C)Variable %qs in common block %qs at %L cannot be declared with BIND(C) since it is not a globalVariable %qs in common block %qs at %L may not be a C interoperable kind though common block %qs is BIND(C)Variable %qs is PROTECTED and cannot appear in a pointer association context (%s) at %LVariable %qs is PROTECTED and cannot appear in a variable definition context (%s) at %LVariable %qs is not a dummy argument at %LVariable %qs is used at %L before the ENTRY statement in which it is a parameterVariable %qs shall be declared in the same scoping unit as !$ACC DECLARE at %LVariable %qs with binding label %qs at %L uses the same global identifier as entity at %LVariable %qs, used in a specification expression, is referenced at %L before the ENTRY statement in which it is a parameterVariable %s at %L of type EVENT_TYPE or with subcomponent of type EVENT_TYPE must be a coarrayVariable %s at %L of type LOCK_TYPE or with subcomponent of type LOCK_TYPE must be a coarrayVariable %s at %L with NO_ARG_CHECK attribute may not have the ALLOCATABLE, CODIMENSION, POINTER or VALUE attributeVariable %s at %L with NO_ARG_CHECK attribute may not have the INTENT(OUT) attributeVariable %s at %L with NO_ARG_CHECK attribute may only be used as actual argumentVariable %s at %L with NO_ARG_CHECK attribute shall be a dummy argumentVariable %s at %L with NO_ARG_CHECK attribute shall be of type TYPE(*) or of an numeric intrinsic typeVariable %s at %L with NO_ARG_CHECK attribute shall either be a scalar or an assumed-size arrayVariable %s at %L with NO_ARG_CHECK attribute shall not have a subobject referenceVariable %s cannot be INTENT(IN) at %CVariable %s cannot be assigned in PURE procedure at %CVariable at %C is an element of a COMMON blockVariable at %L mentioned multiple times in clauses of the same OMP DECLARE TARGET directiveVariable is USE-associated with !$ACC DECLARE at %LVariable other than OMP_OUT or OMP_IN used in combiner of !$OMP DECLARE REDUCTION at %LVariable other than OMP_PRIV or OMP_ORIG used in INITIALIZER clause of !$OMP DECLARE REDUCTION at %LVariable type is UNKNOWN in assignment at %LVariable with NO_ARG_CHECK attribute at %L is only permitted as argument to the intrinsic functions C_LOC and PRESENTVector library ABI to use.Vectorize for double-word operations.Verify that paths are feasible when emitting diagnostics.Version loops based on whether indices have a stride of one.Virtual function multiversioning not supportedVolatile memory accesses do not use I/O load/store instructions.Volatile memory accesses use I/O load/store instructions.WAIT at %C not allowed in Fortran 95WAIT clause at %L requires a scalar INTEGER expressionWAIT statement not allowed in PURE procedure at %CWHERE assignment target at %L has inconsistent shapeWHERE mask at %L has inconsistent shapeWHERE/ELSEWHERE clause at %L requires a LOGICAL arrayWarn about "extern" declarations not at file scope.Warn about "suspicious" constructs.Warn about 'new' of type with extended alignment without -faligned-new.Warn about @selector()s without previously declared methods.Warn about C constructs that are not in the common subset of C and C++.Warn about C++ constructs whose meaning differs between ISO C++ 1998 and ISO C++ 2011.Warn about C++ constructs whose meaning differs between ISO C++ 2011 and ISO C++ 2014.Warn about C++ constructs whose meaning differs between ISO C++ 2014 and ISO C++ 2017.Warn about C++ constructs whose meaning differs between ISO C++ 2017 and ISO C++ 2020.Warn about C++ polymorphic types where adding final keyword would improve code quality.Warn about C++ virtual methods where adding final keyword would improve code quality.Warn about C++11 inheriting constructors when the base has a variadic constructor.Warn about GCC format strings with strings unsuitable for diagnostics.Warn about NULL being passed to argument slots marked as requiring non-NULL.Warn about PCH files that are found but not used.Warn about USE statements that have no ONLY qualifier.Warn about __TIME__, __DATE__ and __TIMESTAMP__ usage.Warn about accesses to interior zero-length array members.Warn about alignment of COMMON blocks.Warn about all enumerated switches missing a specific case.Warn about an empty body in an if or else statement.Warn about an invalid DO loop.Warn about boolean expression compared with an integer value different from true/false.Warn about buffer overflow in string manipulation functions like memcpy and strcpy.Warn about called procedures not explicitly declared.Warn about calling std::move on a local object in a return statement preventing copy elision.Warn about calls to snprintf and similar functions that truncate output.Warn about calls to snprintf and similar functions that truncate output. Same as -Wformat-truncation=1.Warn about calls to strcmp and strncmp used in equality expressions that are necessarily true or false due to the length of one and size of the other argument.Warn about calls with implicit interface.Warn about casting functions to incompatible types.Warn about casts between incompatible function types.Warn about casts that will produce a null result.Warn about casts which discard qualifiers.Warn about catch handlers of non-reference type.Warn about certain operations on boolean expressions.Warn about code paths in which NULL is passed to a must-not-be-NULL function argument.Warn about code paths in which a NULL pointer is dereferenced.Warn about code paths in which a freed value is used.Warn about code paths in which a heap-allocated pointer leaks.Warn about code paths in which a longjmp rewinds to a jmp_buf saved in a stack frame that has returned.Warn about code paths in which a non-heap pointer is freed.Warn about code paths in which a pointer can be freed more than once.Warn about code paths in which a pointer to a stale stack frame is used.Warn about code paths in which a possibly-NULL pointer is dereferenced.Warn about code paths in which a possibly-NULL value is passed to a must-not-be-NULL function argument.Warn about code paths in which a shift with count >= width of type is attempted.Warn about code paths in which a shift with negative count is attempted.Warn about code paths in which a stdio FILE can be closed more than once.Warn about code paths in which a stdio FILE is not closed.Warn about code paths in which an async-signal-unsafe function is called from a signal handler.Warn about code paths in which an unsanitized value is used as an array index.Warn about code paths in which sensitive data is written to a file.Warn about code paths in which the wrong deallocation function is called.Warn about code paths which attempt to write to a const object.Warn about code paths which attempt to write to a string literal.Warn about code which might break strict aliasing rules.Warn about comparison of different enum types.Warn about compile-time integer division by zero.Warn about constant integer divisions with truncated results.Warn about creation of array temporaries.Warn about dangling else.Warn about declarations of entities that may be missing attributes that related entities have been declared with.Warn about deleting polymorphic objects with non-virtual destructors.Warn about deprecated 'vector long ...' AltiVec type usage.Warn about deprecated arithmetic conversions on operands of enumeration types.Warn about deprecated arithmetic conversions on operands where one is of enumeration type and the other is of a floating-point type.Warn about deprecated uses of volatile qualifier.Warn about divisions of two sizeof operators when the first one is applied to an array and the divisor does not equal the size of the array element.Warn about duplicated branches in if-else statements.Warn about duplicated conditions in an if-else-if chain.Warn about enumerated switches missing a "default:" statement.Warn about enumerated switches, with no default, missing a case.Warn about equality comparisons involving REAL or COMPLEX expressions.Warn about features not present in ISO C11, but present in ISO C2X.Warn about features not present in ISO C90, but present in ISO C99.Warn about features not present in ISO C99, but present in ISO C11.Warn about features not present in traditional C.Warn about format strings that are not literals.Warn about format strings that contain NUL bytes.Warn about function call elimination.Warn about function calls with format strings that write past the end of the destination region.Warn about function calls with format strings that write past the end of the destination region.  Same as -Wformat-overflow=1.Warn about function parameters declared without a type specifier in K&R-style functions.Warn about function pointer arithmetic.Warn about functions which might be candidates for __attribute__((cold)).Warn about functions which might be candidates for __attribute__((const)).Warn about functions which might be candidates for __attribute__((malloc)).Warn about functions which might be candidates for __attribute__((noreturn)).Warn about functions which might be candidates for __attribute__((pure)).Warn about functions which might be candidates for format attributes.Warn about global functions without previous declarations.Warn about global functions without prototypes.Warn about implicit conversion of enum types.Warn about implicit conversions from "float" to "double".Warn about implicit declarations.Warn about implicit function declarations.Warn about inappropriate attribute usage.Warn about incompatible integer to pointer and pointer to integer conversions.Warn about invalid OpenACC dimensions.Warn about invalid uses of the "offsetof" macro.Warn about macros defined in the main file that are not used.Warn about macros that have conflicting header units definitions.Warn about maybe uninitialized automatic variables.Warn about mismatched declarations of VLA parameters.Warn about mismatched declarations of array parameters and unsafe accesses to them.Warn about missing ampersand in continued character constants.Warn about missing fields in struct initializers.Warn about missing sized deallocation functions.Warn about misuses of pragmas.Warn about most implicit conversions.Warn about multiple declarations of the same object.Warn about narrowing conversions within { } that are ill-formed in C++11.Warn about non-virtual destructors.Warn about none ISO msvcrt scanf/printf width extensions.Warn about optimizations that assume that signed overflow is undefined.Warn about overflow in arithmetic expressions.Warn about overloaded virtual function names.Warn about overriding initializers with side effects.Warn about overriding initializers without side effects.Warn about packed bit-fields whose offset changed in GCC 4.4.Warn about pointer casts which increase alignment.Warn about positional initialization of structs requiring designated initializers.Warn about possible aliasing of dummy arguments.Warn about possible security problems with format functions.Warn about possible violations of sequence point rules.Warn about possibly incorrect subscripts in do loops.Warn about possibly missing braces around initializers.Warn about possibly missing parentheses.Warn about possibly nested block comments, and C++ comments spanning more than one physical line.Warn about printf/scanf/strftime/strfmon format string anomalies.Warn about questionable usage of the macros used to retrieve variable arguments.Warn about reading past the end of a source array in string manipulation functions like memchr and memcpy.Warn about real-literal-constants with 'q' exponent-letter.Warn about redundant calls to std::move.Warn about returning a pointer/reference to a local or temporary variable.Warn about returning structures, unions or arrays.Warn about semicolon after in-class function definition.Warn about sign differences with format functions.Warn about signed-unsigned comparisons.Warn about some C++ One Definition Rule violations during link time optimization.Warn about statements between switch's controlling expression and the first case.Warn about stray tokens after #else and #endif.Warn about strftime formats yielding 2-digit years.Warn about subscripts whose type is "char".Warn about suspicious calls to memset where the third argument contains the number of elements not multiplied by the element size.Warn about suspicious calls to memset where the third argument is constant literal zero and the second is not.Warn about suspicious declarations of "main".Warn about suspicious divisions of two sizeof expressions that don't work correctly with pointers.Warn about suspicious length parameters to certain string functions if the argument uses sizeof.Warn about suspicious uses of memory addresses.Warn about switch values that are outside of the switch's type range.Warn about switches with boolean controlling expression.Warn about the most vexing parse syntactic ambiguity.Warn about things that change between the current -fabi-version and the specified version.Warn about things that will change when compiling with an ABI-compliant compiler.Warn about truncated character expressions.Warn about truncated source lines.Warn about truncation in string manipulation functions like strncat and strncpy.Warn about type safety and similar errors and mismatches in declarations with alias attributes.Warn about uncasted NULL used as sentinel.Warn about underflow of numerical constant expressions.Warn about uninitialized automatic variables.Warn about unprototyped function declarations.Warn about unrecognized pragmas.Warn about unsafe macros expanding to multiple statements used as a body of a clause such as if, else, while, switch, or for.Warn about unsuffixed float constants.Warn about unsupported features in ThreadSanitizer.Warn about unused dummy arguments.Warn about use of multi-character character constants.Warn about useless casts.Warn about user-specified include directories that do not exist.Warn about uses of __attribute__((deprecated)) declarations.Warn about uses of __attribute__((warning)) declarations.Warn about uses of a comma operator within a subscripting expression.Warn about uses of register storage specifier.Warn about uses of std::initializer_list that can result in dangling pointers.Warn about using variadic macros.Warn about variables that might be changed by "longjmp" or "vfork".Warn about variables which are initialized to themselves.Warn about violations of Effective C++ style rules.Warn about zero-length formats.Warn about zero-trip DO loops.Warn for calls to allocation functions that specify zero bytes.Warn for conditionally-supported constructs.Warn for converting NULL from/to a non-pointer type.Warn for deallocation calls with arguments returned from mismatched allocation functions.Warn for implicit type conversions between signed and unsigned integers.Warn for implicit type conversions that cause loss of floating point precision.Warn for implicit type conversions that may change a value.Warn for mismatches between calls to operator new or delete and the corresponding call to the allocation or deallocation function.Warn for obsolescent usage in a declaration.Warn for placement new expressions with undefined behavior.Warn for suspicious integer expressions in boolean context.Warn for unsafe raw memory writes to objects of class types.Warn from speculative compiles such as __traits(compiles).Warn if "defined" is used outside #if.Warn if C++17 noexcept function type will change the mangled name of a symbol.Warn if a C-style cast is used in a program.Warn if a caller of a function, marked with attribute warn_unused_result, does not use its return value.Warn if a class interface has no superclass.  Root classes may use an attribute to suppress this warning.Warn if a class type has a base or a field whose type uses the anonymous namespace or depends on a type with no linkage.Warn if a comparison always evaluates to true or false.Warn if a comparison is always true or always false due to the limited range of the data type.Warn if a deprecated compiler feature, class, method, or field is used.Warn if a function uses alloca or creates an array with dynamic size.Warn if a local declaration hides an instance variable.Warn if a loop with constant number of iterations triggers undefined behavior.Warn if a property for an Objective-C object has no assign semantics specified.Warn if a selector has multiple methods.Warn if a simd directive is overridden by the vectorizer cost model.Warn if a single function's framesize exceeds the given framesize.Warn if a string is longer than the maximum portable length specified by the standard.Warn if a subobject has an abi_tag attribute that the complete object type does not have.Warn if a throw expression will always result in a call to terminate().Warn if a user-procedure has the same name as an intrinsic.Warn if a variable length array is used.Warn if a virtual base has a non-trivial move assignment operator.Warn if an MCU name is unrecognized or conflicts with other options (default: on).Warn if an array is accessed out of bounds.Warn if an old-style parameter definition is used.Warn if an undefined macro is used in an #if directive.Warn if comparing pointer parameter with nonnull attribute with NULL.Warn if constant CFString objects contain non-portable characters.Warn if constructor or destructors with priorities from 0 to 100 are used.Warn if conversion of the result of arithmetic might change the value even though converting the operands cannot.Warn if dereferencing a NULL pointer may lead to erroneous or undefined behavior.Warn if devices.csv is not found or there are problem parsing it (default: on).Warn if inherited methods are unimplemented.Warn if left shift of a signed value overflows.Warn if left shifting a negative value.Warn if loops have been interchanged.Warn if passing too many arguments to a function for its format string.Warn if qualifiers on arrays which are pointer targets are discarded.Warn if shift count >= width of type.Warn if shift count is negative.Warn if testing floating point numbers for equality.Warn if the ISR is misspelled, i.e. without __vector prefix. Enabled by default.Warn if the NSObject attribute is applied to a non-typedef.Warn if the address space of an address is changed.Warn if the code is too complicated for the analyzer to fully explore.Warn if the pointer in a pointer assignment might outlive its target.Warn if the type of a variable might be not interoperable with C.Warn if trigraphs are encountered that might affect the meaning of the program.Warn if type qualifiers on pointers are discarded.Warn if type signatures of candidate methods do not match exactly.Warn in case profiles in -fprofile-use do not exist.Warn in case profiles in -fprofile-use do not match.Warn of prototypes causing type conversions different from what would happen in the absence of prototype.Warn on any use of alloca.Warn on direct multiple inheritance.Warn on direct virtual inheritance.Warn on intrinsics not part of the selected standard.Warn on namespace definition.Warn on primary template declaration.Warn on suspicious calls of standard functions computing absolute values.Warn on suspicious constructs involving reverse scalar storage order.Warn that -fno-automatic may break recursion.Warn when __builtin_frame_address or __builtin_return_address is used unsafely.Warn when __sync_fetch_and_nand and __sync_nand_and_fetch built-in functions are used.Warn when a #warning directive is encountered.Warn when a base is inaccessible in derived due to ambiguity.Warn when a built-in function is declared with the wrong signature.Warn when a built-in preprocessor macro is undefined or redefined.Warn when a class is redeclared or referenced using a mismatched class-key.Warn when a class or enumerated type is referenced using a redundant class-key.Warn when a const variable is unused.Warn when a conversion function will never be called due to the type it converts to.Warn when a declaration does not specify a type.Warn when a declaration has duplicate const, volatile, restrict or _Atomic specifier.Warn when a declaration is found after a statement.Warn when a function is unused.Warn when a function parameter is only set, otherwise unused.Warn when a function parameter is unused.Warn when a jump misses a variable initialization.Warn when a label is unused.Warn when a left-hand-side array variable is reallocated.Warn when a left-hand-side variable is reallocated.Warn when a literal '0' is used as null pointer.Warn when a logical operator is suspiciously always evaluating to true or false.Warn when a noexcept expression evaluates to false even though the expression can't actually throw.Warn when a pointer differs in signedness in an assignment.Warn when a pointer is cast to an integer of a different size.Warn when a pointer is compared with a zero character constant.Warn when a range-based for-loop is creating unnecessary copies.Warn when a register variable is declared volatile.Warn when a string or character literal is followed by a ud-suffix which does not begin with an underscore.Warn when a switch case falls through.Warn when a variable is only set, otherwise unused.Warn when a variable is unused.Warn when a vector operation is compiled outside the SIMD.Warn when all constructors and destructors are private.Warn when an argument passed to a restrict-qualified parameter aliases with another argument.Warn when an atomic memory model parameter is known to be outside the valid range.Warn when an exception handler is shadowed by another handler.Warn when an expression value is unused.Warn when an inlined function cannot be inlined.Warn when an optimization pass is disabled.Warn when attempting to free a non-heap object.Warn when converting the type of pointers to member functions.Warn when deleting a pointer to incomplete type.Warn when fields in a struct with the packed attribute are misaligned.Warn when logical not is used on the left hand side operand of a comparison.Warn when multiple, different, fast interrupt handlers are in the compilation unit.Warn when non-templatized friend functions are declared within a template.Warn when not issuing stack smashing protection for some reason.Warn when one local variable shadows another local variable or parameter of compatible type.Warn when one local variable shadows another local variable or parameter.Warn when one variable shadows another (globally).Warn when one variable shadows another.  Same as -Wshadow=global.Warn when overload promotes from unsigned to signed.Warn when padding is required to align structure members.Warn when performing class template argument deduction on a type with no deduction guides.Warn when profiling instrumentation was requested, but could not be applied to a certain function.Warn when sizeof is applied on a parameter declared as an array.Warn when the address of packed member of struct or union is taken.Warn when the compiler reorders code.Warn when the field in a struct is not aligned.Warn when the indentation of the code does not reflect the block structure.Warn when the packed attribute has no effect on struct layout.Warn when there is a cast to a pointer from an integer of a different size.Warn when there is a conversion between pointers that have incompatible types.Warn when typedefs locally defined in a function are not used.Warn whenever a function's return type defaults to "int" (C), or about inconsistent return types (C++).Warn whenever a trampoline is generated.Warn whenever an Objective-C assignment is being intercepted by the garbage collector.Warn whenever attributes are ignored.Warn whenever type qualifiers are ignored.WarningWhen "signed" or "unsigned" is not given make the bitfield signed.When "signed" or "unsigned" is not given make the bitfield unsigned.When -mhard-float is selected, enables generation of double-precision floating point instructions.  By default functions from libgcc are used to perform double-precision floating point operations.When -mhard-float is selected, enables generation of unordered floating point compare and set flag (lf.sfun*) instructions.  By default functions from libgcc are used to perform unordered floating point compare and set flag operations.When accessing RAM, use X as imposed by the hardware, i.e. just use pre-decrement, post-increment and indirect addressing with the X register.  Without this option, the compiler may assume that there is an addressing mode X+const similar to Y+const and Z+const and emit instructions to emulate such an addressing mode for X.When generating -fpic code, allow the use of PLTs. Ignored for fno-pic.When generating -mabicalls code, allow executables to use PLTs and copy relocations.When generating -mabicalls code, make the code suitable for use in shared libraries.When linking for big-endian targets, generate a BE8 format image.When linking for big-endian targets, generate a legacy BE32 format image.When possible do not generate stack frames.When running CSE, follow jumps to their targets.When vectorizing for SVE, consider using unpacked vectors for smaller elements and use the cost model to pick the cheapest approach.  Also use the cost model to choose between SVE and Advanced SIMD vectorization.Where shorter, use canonicalized paths to systems headers.Whether codegen errors should be ICEs when -fchecking.Whether software prefetch hints should be issued for non-constant strides.Whether to use canonical types.Which -fsched-pressure algorithm to apply.While setting up signal handler: %mWhile setting up signal stack: %mWhole program analysis (WPA) mode with number of parallel jobs specified.With INSCAN at %L, expected loop body with !$OMP SCAN between two structured-block-sequencesWithout padding, there are not enough elements in the intrinsic RESHAPE source at %L to match the shapeWork around VR4130 mflo/mfhi errata.Work around a hardware anomaly by adding a number of NOPs before a CSYNC or SSYNC instruction.Work around an early 4300 hardware bug.Work around bug in multiplication instruction.Work around certain 24K errata.Work around certain R10000 errata.Work around certain R4000 errata.Work around certain R4400 errata.Work around certain RM7000 errata.Work around certain VR4120 errata.Work around errata for early SB-1 revision 2 cores.Work around hardware multiply bug.Work around the R5900 short loop erratum.Workaround for ARM Cortex-A53 Erratum number 835769.Workaround for ARM Cortex-A53 Erratum number 843419.Wrap all indirect branches into execute in order to disable branch prediction.Wrap all indirect calls into execute in order to disable branch prediction.Wrap all indirect return branches into execute in order to disable branch prediction.Wrap indirect return branches into execute in order to disable branch prediction. This affects only branches where the return address doesn't need to be restored from memory.Wrap indirect return branches into execute in order to disable branch prediction. This affects only branches where the return address is going to be restored from memory.Wrap indirect table jumps and computed gotos into execute in order to disable branch prediction.  Using thunk or thunk-extern with this option requires the thunks to be considered signal handlers to order to generate correct CFI.  For environments where unwinding (e.g. for exceptions) is required please use thunk-inline instead.Write a SRCFILE.opt-record.json file detailing what optimizations were performed.Write all declarations as Ada code for the given file only.Write all declarations as Ada code transitively.Writing module %qs at line %d column %d: %sWrong OpenACC continuation at %C: expected !$ACC, got !$OMPWrong OpenMP continuation at %C: expected !$OMP, got !$ACCX argument at %L to C_LOC shall not be polymorphicX descriptor requires leading space count at %LX32 does not support %<ms_abi%> attributeXXX entering %<pop_everything ()%>XXX leaving %<pop_everything ()%>You must enable MVE instructions to use these intrinsicsYou must enable NEON instructions (e.g. %<-mfloat-abi=softfp%> %<-mfpu=neon%>) to use these intrinsics.You must enable VFP instructions to use these intrinsics.You must enable crypto instructions (e.g. include %<-mfloat-abi=softfp%> %<-mfpu=crypto-neon%>) to use these intrinsics.You need a C startup file for -msys-crt0=Zero is not a valid statement label at %CZero width in format descriptor in format string at %LZero-sized array detected at %L where an entity with the TARGET attribute is expected[...][...] style array constructors at %C[Leaving %s]
[available in [cannot find %s][default][disabled][enabled]__BELOW100__ attribute not allowed with auto storage class__delay_cycles is limited to 32-bit loop counts__delay_cycles only takes non-negative cycle counts__delay_cycles() only takes constant arguments__fp16 and no ldrh__gshared not allowed in safe functions; use shared``object.TypeInfo_Tuple` could not be found, but is implicitly used in D-style variadic functions`object.TypeInfo` could not be found, but is implicitly used in D-style variadic functions`pragma(%s)` functions must be `extern(C) %s %s([parameters...], const(char)*, ...)` not `%s``pragma(%s)` functions must be `extern(C) %s %s([parameters...], const(char)*, va_list)`a GNU Fortran extensiona brace-enclosed initializer is not allowed herea call to a constructor cannot appear in a constant-expressiona cast to a type other than an integral or enumeration type cannot appear in a constant-expressiona class template declaration must not declare anything elsea comma operator cannot appear in a constant-expressiona concept cannot be a member functiona concept cannot be constraineda constructor cannot be %<concept%>a conversion function cannot have a trailing return typea destructor cannot be %qsa different type is defined in another translation unita field of same name but different type is defined in another translation unita field with different name is defined in another translation unita function call cannot appear in a constant-expressiona function concept cannot be constraineda function-definition is not allowed herea label can only be part of a statement and a declaration is not a statementa lambda closure type has a deleted copy assignment operatora lambda closure type has a deleted default constructora later %<-fabi-version=%> (or =0) avoids this error with a change in manglinga member of a structure or union cannot have a variably modified typea nested function is not supported for reduced registersa nested namespace definition cannot be inlinea nested namespace definition cannot have attributesa non-template variable cannot be %<concept%>a parameter cannot be declared %qsa parameter list with an ellipsis cannot match an empty parameter name list declarationa statement expression is an insufficient context for overload resolutiona storage class can only be specified for objects and functionsa storage class on an anonymous aggregate in class scope is not alloweda template cannot be defaulteda template declaration cannot appear at block scopea template-id may not appear in a using-declarationa temporary bound to %qD only persists until the constructor exitsa transaction expression cannot appear in a constant-expressiona type defined in another translation unit is not polymorphica type defined in another translation unit is polymorphica type with different bases is defined in another translation unita type with different number of fields is defined in another translation unita type with different precision is defined in another translation unita type with different signedness is defined in another translation unita type with different size is defined in another translation unita type with different virtual table pointers is defined in another translation unita variable cannot be declared %<consteval%>a variable concept cannot be constraineda wide string is invalid in this contextabnormal call edges for non-call insn in bb %iabnormal edges for no purpose in bb %iabort in %s, at %s:%dabsolute value function %qD given an argument of type %qT but has parameter of type %qT which may cause truncation of valueabstract declarator %qT used as declarationaccess declarations are deprecated in favour of using-declarations; suggestion: add the %<using%> keywordaccessing %qD member instead of initialized %qD member in constant expressionaccessing a member %qE of an atomic structure %qEaccessing a member %qE of an atomic union %qEaccessing data memory with program memory addressaccessing program memory with data memory addressaccessing thread-local storage is not currently supported with %<-mpure-code%> or %<-mslow-flash-data%>accessing uninitialized array elementaccessing uninitialized member %qDaccessing value of %qE through a %qT glvalue in a constant expressionaccumulator is not a constant integeraccumulator number is out of boundsactual argument to INTENT = OUT/INOUTadd %<using namespace std::complex_literals%> (from %<<complex>%>) to enable the C++14 user-defined literal suffixesadd a deduction guide to suppress this warningadd explicit %<this%> or %<*this%> captureadd parentheses around %qE to silence this warningadd parentheses around left hand side expression to silence this warningadd parentheses around the second %<sizeof%> to silence this warningadd parentheses to declare a variableadd_sym(): Bad sizing modeadding %<-flarge-source-files%> will allow for more column-tracking support, at the expense of compilation time and memoryaddress area attribute cannot be specified for functionsaddress area of %q+D conflicts with previous declarationaddress mode %qs not supported in the %s bit modeaddress of a call to %qs is not a constant expressionaddress of array with reverse scalar storage order requestedaddress of explicit register variable %qD requestedaddress of global register variable %qD requestedaddress of label %qD returnedaddress of local variable %qD returnedaddress of overloaded function with no contextual type informationaddress of register variable %qD requestedaddress offset not a constantaddress operand requires constraint for X, Y, or Z registeraddress requested for %qD, which is declared %<register%>address space %qs not supported for devices with flash size up to %d KiBaddress spaces are not supported for reduced Tiny devicesaddress taken but %<TREE_ADDRESSABLE%> bit not setaddress taken, but ADDRESSABLE bit not setaddress-of an object %qE with thread local or automatic storage is not a constant expressionaggregate %q#D has incomplete type and cannot be definedaggregate value used where a complex was expectedaggregate value used where a fixed-point was expectedaggregate value used where a floating-point was expectedaggregate value used where an integer was expectedakaalias definitions not supported in Mach-O; ignoredalias definitions not supported in this configurationalias template deduction only available with %<-std=c++20%> or %<-std=gnu++20%>aliased declaration herealignment %u of %qT is less than %ualignment (%u) for %s exceeds maximum alignment for global common data.  Using %ualignment for %q+D was previously specified as %d and may not be decreasedalignment may not be specified for %q+Dalignment must be a small power of two, not %dalignment of %q+D is greater than maximum object file alignment %dalignment of %qD increased in %<-fabi-version=9%> (GCC 5.2)alignment of %qD is bigger than original declarationalignment of %qD will increase in %<-fabi-version=9%>alignment of array elements is greater than element sizealignment specified for %<register%> object %qEalignment specified for bit-field %qEalignment specified for function %qEalignment specified for parameter %qEalignment specified for type name in %<sizeof%>alignment specified for type name in %qEalignment specified for type name in castalignment specified for typedef %qEalignment specified for unnamed bit-fieldalignment specified for unnamed parameterall member functions in class %qT are privateallocatable argumentallocated hereallocation performed herealready captured %qD in lambda expressionalready exists at %s. Perhaps in another function with the same name?also found %<%c%s%>alternatives not allowed in %<asm%> flag outputambiguating new declaration %q+#Dambiguating new declaration of %q#Dambiguous attribute '%s'; could be '%s' (via '%s:%s') or '%s' (via '%s:%s')ambiguous conversion for array subscriptambiguous default type conversion from %qTambiguous method %s%s%sambiguous overload for ambiguous overload for intrinsic %qsambiguous template instantiation for %q#Dambiguous template instantiation for %q#Tambiguous template specialization %qD for %q+Dan %<asm%> specification is not allowed on a function-definitionan address area attribute cannot be specified for local variablesan argument type that has a default promotion cannot match an empty parameter name list declarationan array of different size is defined in another translation unitan array reference cannot appear in a constant-expressionan assignment cannot appear in a constant-expressionan attribute that appertains to a type-specifier is ignoredan decrement cannot appear in a constant-expressionan empty string cannot be in %<target_clones%> attributean enum with different number of values is defined in another translation unitan enum with different value name is defined in another translation unitan enum with different values is defined in another translation unitan explicit specialization must be preceded by %<template <>%>an increment cannot appear in a constant-expressionan indirect edge from %s has no corresponding call_stmtan indirect edge with unknown callee corresponding to a call_stmt with a known declaration:an interrupt handler cannot be compiled with %<-muser-mode%>anachronismanachronism: anachronistic old-style base class initializerand %qT has no template constructorsand fieldand the implicitly-defined constructor does not initialize %q#Danonymous %s declared inside parameter list will not be visible outside of this definition or declarationanonymous SSA name cannot have default definitionanonymous struct not inside named typeanonymous union with no membersapplying %<#pragma weak %+D%> after first use results in unspecified behaviorarchitecture %qs supported for assembler onlyare_identical_variables: Bad typeargument %d is an unsigned literal that is out of rangeargument %d must be an unsigned literalargument %d of %qE discards %<const%> qualifierargument %d of %qE discards %<volatile%> qualifierargument %d of %qE might be a candidate for a format attributeargument %d of %qE must be a pointer to a constant size typeargument %d of %qE must be a pointer typeargument %d of %qE must not be a pointer to a %<const%> typeargument %d of %qE must not be a pointer to a %<volatile%> typeargument %d of %qE must not be a pointer to a functionargument %d of '%s' did not have the expected nameargument %d to the built-in must be a constant in range %d to %dargument %i in the range [%E, %E]argument %q+D might be clobbered by %<longjmp%> or %<vfork%>argument %qD declared hereargument %qD doesn%'t match built-in prototypeargument %qD doesn%'t match prototypeargument %qd is not a constantargument %qs to %<-Waligned-new%> not recognizedargument %qs to %<-Wnormalized%> not recognizedargument %qs to %<-femit-struct-debug-detailed%> not recognizedargument %qs to %<-femit-struct-debug-detailed%> unknownargument %u in call to function %qE does not have integral typeargument %u in call to function %qE does not have pointer typeargument %u in call to function %qE has pointer to %qs type (%qT)argument %u in call to function %qE points to incomplete typeargument %u null where non-null expectedargument %u of %<__builtin_tgmath%> has no argumentsargument %u of %<__builtin_tgmath%> has variable argumentsargument %u of %<__builtin_tgmath%> has wrong number of argumentsargument %u of %<__builtin_tgmath%> is not a function pointerargument %u of %<__builtin_tgmath%> is unprototypedargument %u of type %s declared as a pointerargument %u of type %s declared as a variable length arrayargument %u of type %s declared as an ordinary arrayargument %u of type %s declared with %u unspecified variable boundargument %u of type %s declared with %u unspecified variable boundsargument %u of type %s declared with %u variable boundargument %u of type %s declared with %u variable boundsargument %u of type %s declared with mismatched bound %<%s%>argument %u of type %s declared with mismatched bound argument %Eargument %u of type %s with mismatched boundargument %u to function %qE is of type %qT which is not known to be 128 bits wideargument 1 must be 0 or 2argument 1 must be a 1-bit unsigned literalargument 1 must be a 5-bit signed literalargument 1 must be a 6-bit unsigned literalargument 1 must be a mapargument 1 must be an 8-bit field valueargument 1 of %qE must be a non-void pointer typeargument 1 of %qE must be a pointer to a complete typeargument 1 of %qE must be a pointer to a constant size typeargument 1 of %qE must be a pointer to a nonzero size objectargument 1 of %qs is out of rangeargument 1 of %qs must be a constantargument 2 must be 0 or 1argument 2 must be a 1-bit unsigned literalargument 2 must be a 2-bit unsigned literalargument 2 must be a 3-bit unsigned literalargument 2 must be a 4-bit unsigned literalargument 2 must be a 5-bit unsigned literalargument 2 must be a 6-bit unsigned literalargument 2 must be a 7-bit unsigned literalargument 2 must be unsigned literal between 2 and 7 inclusiveargument 3 in call to function %qE does not have pointer to integral typeargument 3 in call to function %qE has boolean typeargument 3 in call to function %qE has enumerated typeargument 3 in call to function %qE has pointer to boolean typeargument 3 in call to function %qE has pointer to enumerated typeargument 3 must be a 1-bit unsigned literalargument 3 must be a 2-bit unsigned literalargument 3 must be a 4-bit unsigned literalargument 3 must be a constant in the range 0 to 7argument 3 must be in the range 0 to 12argument 3 must be in the range 0 to 3argument 3 must be in the range [0, 15]argument 4 must be a 3-bit unsigned literalargument 4 must be an 8-bit unsigned literalargument list function at %Cargument must be a field referenceargument must be array or slice or channelargument must be channelargument must be string or array or slice or map or channelargument must have complex typeargument not permitted on %qs clauseargument of %<__builtin_eh_return_regno%> must be constantargument of %qE attribute ignoredargument of %qE attribute is missingargument of %qE attribute is not "ilink" or "firq"argument of %qE attribute is not "ilink1" or "ilink2"argument of %qE attribute is not "reset", "software_exception", "page_miss", "timer0", "timer1", "message", "dma0", "dma1", "wand" or "swi"argument of %qE attribute is not a string constantargument of %qE attribute is not a string constant or numberargument of Offsetof implies indirection of an embedded fieldargument of function call might be a candidate for a format attributeargument of type %qT not permitted with -mgeneral-regs-onlyargument references a symbol declared hereargument to %<-O%> should be a non-negative integer, %<g%>, %<s%> or %<fast%>argument to %<__integer_pack%> must be between 0 and %dargument to %<decltype%> must be an expressionargument to %<sizeof%> in %qD call is the same expression as the destination; did you mean to dereference it?argument to %<sizeof%> in %qD call is the same expression as the destination; did you mean to provide an explicit length?argument to %<sizeof%> in %qD call is the same expression as the destination; did you mean to remove the addressof?argument to %<sizeof%> in %qD call is the same expression as the first source; did you mean to dereference it?argument to %<sizeof%> in %qD call is the same expression as the first source; did you mean to provide an explicit length?argument to %<sizeof%> in %qD call is the same expression as the first source; did you mean to remove the addressof?argument to %<sizeof%> in %qD call is the same expression as the second source; did you mean to dereference it?argument to %<sizeof%> in %qD call is the same expression as the second source; did you mean to provide an explicit length?argument to %<sizeof%> in %qD call is the same expression as the second source; did you mean to remove the addressof?argument to %<sizeof%> in %qD call is the same expression as the source; did you mean to dereference it?argument to %<sizeof%> in %qD call is the same expression as the source; did you mean to provide an explicit length?argument to %<sizeof%> in %qD call is the same expression as the source; did you mean to remove the addressof?argument to %<sizeof%> in %qD call is the same expression as the source; did you mean to use the size of the destination?argument to %<sizeof%> in %qD call is the same pointer type %qT as the destination; expected %qT or an explicit lengthargument to %<sizeof%> in %qD call is the same pointer type %qT as the first source; expected %qT or an explicit lengthargument to %<sizeof%> in %qD call is the same pointer type %qT as the second source; expected %qT or an explicit lengthargument to %<sizeof%> in %qD call is the same pointer type %qT as the source; expected %qT or an explicit lengthargument to %qE attribute is neither eic, nor vector=<line>argument to %qE attribute is neither zero, nor oneargument to %qE attribute is not "user", "supervisor", or "machine"argument to %qE attribute is not (keep|thunk|thunk-extern)argument to %qE attribute is not (keep|thunk|thunk-inline|thunk-extern)argument to %qE attribute is not intstackargument to %qE attribute larger than %dargument to %qs is bigger than %dargument to %qs is not between %d and %dargument to %qs is too large (max. %d)argument to %qs must be a 2-bit unsigned literalargument to %qs should be a non-negative integerargument to %qs should be a non-negative integer optionally followed by a size unitargument to be formatted is not %<...%>argument to interrupt attribute is unsupported for weak functionsarguments '%s' and '%s' for intrinsic %sarguments '%s' and '%s' for intrinsic '%s'arguments 'a%d' and 'a%d' for intrinsic '%s'arguments of type %qT require the SVE ISA extensionarguments to %qs should be non-negative integersarguments to destructor are not allowedarguments to the %qE attribute must be narrow string literalsarguments to the %qE attribute must contain valid identifiersarith_power(): Bad basearith_power(): unknown typearithmetic IFarithmetic between different enumeration types %qT and %qT is deprecatedarithmetic between enumeration type %qT and floating-point type %qT is deprecatedarithmetic between floating-point type %qT and enumeration type %qT is deprecatedarithmetic involving a null pointer in %qEarithmetic on pointer to an empty aggregatearithmetic on pointer to an incomplete typearray %<TYPE_DOMAIN%> is not integer typearray %q+D assumed to have one elementarray %qD declared herearray %qD initialized by parenthesized string literal %qEarray assignmentarray bound forbidden after parenthesized type-idarray bound is not an integer constantarray deallocation of object allocated with non-array allocationarray index in initializer exceeds array boundsarray index in initializer is not an integer constant expressionarray index in initializer not of integer typearray index in non-array initializerarray index range in initializer exceeds array boundsarray initialized from non-constant array expressionarray initialized from parenthesized string constantarray member %q#D declared herearray must be initialized with a brace-enclosed initializerarray of inappropriate type initialized from string constantarray of runtime bound cannot be captured by copy, only by referencearray resultarray section does not have mappable type in %qs clausearray section in %<#pragma acc declare%>array section is not contiguous in %qs clausearray size in new-expression must be constantarray size missing in %q+Darray size missing in %qDarray size missing in %qTarray subscript has type %<char%>array subscript is not an integerarray subscript value %qE is outside the bounds of array %qD of type %qTarray subscript value %qE is outside the bounds of array type %qTarray type has incomplete element type %qTarray types have different boundsarray used as initializerarrays of functions are not meaningfulasm flags not supported in thumb1 modeassembler does not support %<-mabi=ilp32%>assembler name hash list corruptedassertion missing after %qsassign semantics attributes of property %qD conflict with previous declarationassigned hereassigning to an array from an initializer listassignmentassignment (not initialization) in declarationassignment discards %qv qualifier from pointer target typeassignment from distinct Objective-C typeassignment from pointer to non-enclosed address spaceassignment from temporary %<initializer_list%> does not extend the lifetime of the underlying arrayassignment left-hand side might be a candidate for a format attributeassignment makes %q#v qualified function pointer from unqualifiedassignment of constant field %qDassignment of function %qDassignment of member %qD in read-only objectassignment of read-only location %qEassignment of read-only member %qDassignment of read-only named return value %qDassignment of read-only parameter %qDassignment of read-only reference %qDassignment of read-only variable %qDassignment suppressionassignment to %qT from %qT makes integer from pointer without a castassignment to %qT from %qT makes pointer from integer without a castassignment to %qT from incompatible pointer type %qTassignment to %qT from pointer to %qD with incompatible type %qTassignment to %qT from pointer type %qT with incompatible scalar storage orderassignment to expression with array typeassociate_integer_pointer(): Already associatedassumed-rank argumentassumed-shape argumentassumed-type argumentassuming cast to type %qT from overloaded functionassuming directive output of %wu byteassuming directive output of %wu bytesassuming pointer to member %qDassuming signed overflow does not occur when combining constants around a comparisonassuming signed overflow does not occur when reducing constant in comparisonassuming signed overflow does not occur when simplifying %</%> or %<%%%> to %<>>%> or %<&%>assuming signed overflow does not occur when simplifying %<X - Y %s 0%> to %<X %s Y%>assuming signed overflow does not occur when simplifying %<abs (X)%> to %<X%> or %<-X%>assuming signed overflow does not occur when simplifying %<min/max (X,Y)%> to %<X%> or %<Y%>assuming signed overflow does not occur when simplifying conditionalassuming signed overflow does not occur when simplifying conditional to constantassuming signed overflow does not occur when simplifying range testasynchronous argumentat least one argument of type size_t expectedat offset %s into destination object %qE of size %sat offset %s into destination object of size %s allocated by %qEat offset %s into source object %qE of size %sat offset %s into source object of size %s allocated by %qEat offset %wi from %qD declared hereat offset [%wi, %wi] from %qD declared hereatexit failedattempt to take address of bit-fieldattempt to take address of bit-field structure member %qDattribute %<%E(%s)%> missing an argumentattribute %<%E(%s, %E)%> invalid positional argument %iattribute %<%E(%s, %E, %E)%> invalid positional argument %iattribute %<fallthrough%> not preceding a case label or default labelattribute %<fallthrough%> specified multiple timesattribute %<target%> argument not a stringattribute %qE argument must be one of %qs or %qsattribute %qE argument must be one of %qs, %qs, %qs, or %qsattribute %qE argument not a stringattribute %qE invalid modeattribute %qE invalid mode %qs; expected one of %qs, %qs, %qs, or %qsattribute %qE mode %qE is not an identifier; expected one of %qs, %qs, %qs, or %qsattribute %qE unexpected %<(%> after mode %qs; expected a positional argument or %<)%>attribute %qE without arguments on a non-prototypeattribute %qs applies to array types onlyattribute %qs argument %qs is unknownattribute %qs argument is not a stringattribute %qs invalid positional argumentattribute %qs mismatch with mode %qsattribute %qs mismatched positional argument values %i and %iattribute %qs missing positional argument 2 provided in previous designation by argument %uattribute %qs positional argument %i invalid value %wiattribute %qs positional argument %i value %wi exceeds number of function arguments %uattribute %qs positional argument 1 references %qs-qualified argument type %qTattribute %qs positional argument 1 references argument of function type %qTattribute %qs positional argument 1 references non-pointer argument type %qTattribute %qs positional argument 2 conflicts with previous designation by argument %uattribute %qs positional argument 2 missing in previous designationattribute %qs positional argument 2 references non-integer argument type %qTattribute %qs specified multiple timesattribute declarationattribute for %q#T must follow the %qs keywordattribute ignoredattribute ignored in declaration of %q#Tattribute ignored in explicit instantiation %q#Tattribute using prefix only available with %<-std=c++17%> or %<-std=gnu++17%>attribute using prefix used together with scoped attribute tokenattribute value %qs is unknown in %qs attributeattribute value %qs was already specified in %qs attributeattribute(target("%s")) is unknownattributes after parenthesized initializer ignoredattributes are not allowed on a function-definitionattributes are not permitted in this positionattributes at the beginning of statement are ignoredattributes ignored on elaborated-type-specifier that is not a forward declarationattributes ignored on template instantiationattributes ignored on uninstantiated typeattributes in parameter array declarator ignoredattributes may be inserted hereattributes may not be specified before the %<@%D%> Objective-C++ keywordattributes should be specified before the declarator in a function definitionauto fpu selection not currently permitted hereautomatic variable %qE cannot be %<threadprivate%>aux field set for edge %s->%saux field set for indirect edge from %savailable since Fortran 77backend decl for module variable %qs already existsbad ADDR_SPACE_GLOBAL addressbad addressbad address, not (reg+disp):bad address, not a constant:bad address, not an I/O address:bad address, not post_inc or pre_dec:bad alignment: %dbad amount of stack space removal: %dbad builtin codebad builtin fcodebad builtin icodebad condition codebad expressionbad expression type during walk (%d)bad insn for 'A'bad insn in frv_print_operand, 0 casebad insn in frv_print_operand, bad const_doublebad insn in frv_print_operand, z casebad insn to frv_print_operand, 'F' modifier:bad insn to frv_print_operand, 'L' modifier:bad insn to frv_print_operand, 'M/N' modifier:bad insn to frv_print_operand, 'O' modifier:bad insn to frv_print_operand, 'e' modifier:bad insn to frv_print_operand, 'f' modifier:bad insn to frv_print_operand, 'g' modifier:bad insn to frv_print_operand, P modifier:bad insn to frv_print_operand_address:bad insn to frv_print_operand_memory_reference:bad movebad opbad operandbad option %qs to attribute %<optimize%>bad option %qs to pragma %<optimize%>bad output_condmove_single operandbad output_move_double operandbad output_move_single operandbad registerbad register to frv_print_operand_memory_reference_reg:bad return type for function argument %u of %<__builtin_tgmath%>bad shift insn:bad testbad type for argument %u of function argument %u of %<__builtin_tgmath%>bad usage of spec function %qsbad value %<%s%> for %<-mtls-size=%> switchbad value %qs for %<-mcpu%> switchbad value %qs for %<-mfp-rounding-mode%> switchbad value %qs for %<-mfp-trap-mode%> switchbad value %qs for %<-mmemory-latency%>bad value %qs for %<-mtls-size%> switchbad value %qs for %<-mtrap-precision%> switchbad value %qs for %<-mtune%> switchbad value (%qs) for %<-march=%> switchbad value (%qs) for %<-mtune=%> switchbad value (%qs) for %<target("arch=")%> attributebad value (%qs) for %<target("tune=")%> attributebad value for %<%s-%s%>bad value for %<%s=%s%>badly nested C headers from preprocessorbare apostrophe %<'%> in formatbarrier region may not be closely nested inside of work-sharing, %<loop%>, %<critical%>, %<ordered%>, %<master%>, explicit %<task%> or %<taskloop%> regionbase %qT will be initialized afterbase class %q#T has accessible non-virtual destructorbase class %q#T should be explicitly initialized in the copy constructorbase class %qT is not publicbase initializer expansion %qT contains no parameter packsbase operand of %<->%> has non-pointer type %qTbase operand of %<->%> is not a pointerbase type %qT fails to be a struct or class typebase type must be class or interface, not %sbase type must be interface, not %sbase type must not be voidbase variable or SSA name undeclaredbasic block %d pred edge is corruptedbasic block %d should be marked irreduciblebasic block %d should not be marked irreduciblebasic block %i edge lists are corruptedbasic blocks not laid down consecutivelybb %d does not belong to loop %dbb %d has father loop %d, should be loop %dbb %d on wrong placebecause %qT has user-provided %qDbecause it is a member of %qTbecause it is used as a glvaluebecause the array element type %qT has variable sizebegin expression refers to outer iterator %qDbinary argument %u to decimal-only type-generic functionbinary expression in operand of fold-expressionbinary operator does not support mixing vector bool with floating point vector operandsbinary operator does not support two vector bool operandsbinary operator does not support vector bool operandbind(c) procedurebinding reference of type %qH to %qI discards qualifiersbit-field %q#D with non-integral type %qTbit-field %q+D width not an integer constantbit-field %qD has non-integral type %qTbit-field %qD with non-integral type %qTbit-field %qE has atomic typebit-field %qE in %qs clausebit-field %qs has invalid typebit-field %qs width not an integer constantbit-field %qs width not an integer constant expressionbit-field has atomic typebitwise comparison always evaluates to falsebitwise comparison always evaluates to truebitwise operation between different enumeration types %qT and %qT is deprecatedblock IFblock-scope extern declaration %q#D not permitted in module purviewbody of %<constexpr%> function %qD not a return-statementbogus DISPOSE construction: %dbogus JARL construction: %dbogus JR construction: %dbogus PREPEARE construction: %dbogus comparison result typeboolean registers required for the floating-point optionboth %<-mstack-protector-guard-offset%> and %<-mstack-protector-guard-reg%> must be used with %<-mstack-protector-guard=sysreg%>both %<__thread%> and %<thread_local%> specifiedboth %<monotonic%> and %<nonmonotonic%> modifiers specifiedboth %qs and %qs specifiedboth %s and %qE attribute provide addressboth arguments in binary fold have unexpanded parameter packsboth arguments must be compatibleboth arguments to %<__builtin___clear_cache%> must be pointersboth binary and decimal floating-point arguments to type-generic functionboth branches of %<if%> statement marked as %qsboth complex and decimal floating-point arguments to type-generic functionbraced spec %qs ends in escapebraced spec %qs is invalid at %qcbraced spec body %qs is invalidbraced-group within expression allowed only inside a functionbraces around scalar initializerbraces around scalar initializer for type %qTbranch %2d never executedbranch %2d taken %s%sbreak statement not within loop or switchbreak statement used with OpenMP for loopbuild_dt: format with namelistbuilt-in %qD declared herebuilt-in function %q+D declared as non-functionbuilt-in function %qD declared as non-functionbuilt-in function %qD requires the %<-mconstant-cfstrings%> flagbuilt-in function %qD takes one argument onlybuilt-in function %qE must be directly calledbuilt-in function %qE not supported for MIPS16built-in function %s requires Nios II R%dbuiltin %qF is deprecated.builtin %qF is for GCC internal use only.builtin %qF is not supported without %<-mhtm%> (default with %<-march=zEC12%> and higher).builtin %qF requires %<-mvx%> (default with %<-march=z13%> and higher).builtin %qs is only valid in 64-bit modebuiltin %qs needs GLIBC (2.23 and newer) that exports hardware capability bitsbuiltin %qs only accepts 1 argumentbuiltin %qs only accepts 2 argumentsbuiltin %qs only accepts 3 argumentsbuiltin %qs only accepts a string argumentbuiltin %qs requires 4 argumentsbuiltin %qs requires builtin %qsbuiltin requires an immediate for operand %dbuiltin vec_step can only be used on vector types.but %qD does not throw; perhaps it should be declared %<noexcept%>but is prevailed by one without from other translation unitbut not hereby argument %u of type %s to %qD declared hereby argument %u of type %s to %qTbytecode stream in file %qs generated with GCC compiler older than 10.0bytecode stream in file %qs generated with LTO version %d.%d instead of the expected %d.%dbytecode stream: expected tag %s instead of %sbytecode stream: found empty cgraph nodebytecode stream: found multiple instances of cgraph node with uid %dbytecode stream: found non-null terminated stringbytecode stream: garbage at the end of symbols sectionbytecode stream: no callee found while reading edgebytecode stream: no caller found while reading edgebytecode stream: string too long for the string tablebytecode stream: tag %s is not in the expected range [%s, %s]bytecode stream: trying to read %d bytes after the end of the input bufferbytecode stream: unexpected LTO section %sbytecode stream: unexpected tag %sbytecode stream: unknown GIMPLE statement tag %sc++11 attributes only available with %<-std=c++11%> or %<-std=gnu++11%>call   %2d never executed
call   %2d returned %s
call has circular dependencycall is considered never executed and code size would growcall is unlikely and code size would growcall of %<(%T) (%A)%> is ambiguouscall of overloaded %<%D(%A)%> is ambiguouscall of overloaded %<%s(%A)%> is ambiguouscall stmt hash does not point to first direct edge of speculative call sequencecall to %<__builtin_custom_%s%> conflicts with switch %<-mcustom-%s%>call to %qD uses the default argument for parameter %P, which is not yet definedcall to function %qD which throws incomplete type %q#Tcall to function which throws incomplete type %q#Tcall to internal function %qEcall to non-%<constexpr%> function %qDcall to non-function %qDcall-clobbered register used for global register variablecalled from herecalled from this functioncalled object %qD is not a function or function pointercalled object %qE is not a function or function pointercalled object is not a function or function pointercallee refers to comdat-local symbolscaller edge count does not match BB countcaller edge count invalidcaller is not optimizedcalling %qD with SSE calling convention without SSE/SSE2 enabledcalling %qD with a nonzero argument is unsafecalling %qD with attribute sseregparm without SSE/SSE2 enabledcalling %qT with attribute sseregparm without SSE/SSE2 enabledcalls to functions of type %qT require the SVE ISA extensioncalls to overloaded operators cannot appear in a constant-expressioncalls_comdat_local is set outside of a comdat groupcan only apply to a single declarationcan only use %qE attribute on file-scope definitions of objects of class typecan use at most one of the %<constinit%> and %<constexpr%> specifierscan%'t apply both longcall and shortcall attributes to the same functioncan%'t extend PCH file: %mcan%'t get position in PCH file: %mcan%'t set position in PCH file: %mcan%'t use multiple stack checking methods togethercan't use non gp relative absolute addresscandidate 1:candidate 2:candidate is:candidates are:candidate:candidates are:cannot %<dynamic_cast%> %qE (of type %q#T) to type %q#T (%s)cannot add an enumerator list to a template instantiationcannot alias an expression %scannot allocate an object of abstract type %qTcannot allocate stack for variable %q+D, naked functioncannot apply %<%s%> to %qD, which has also been marked with an OpenMP 'declare target' directivecannot apply %<offsetof%> to a non constant addresscannot apply %<offsetof%> to an enumerator %qDcannot apply %<offsetof%> to destructor %<~%T%>cannot apply %<offsetof%> to member functioncannot apply %<offsetof%> to member function %qDcannot apply %<offsetof%> to static data member %qDcannot apply %<offsetof%> when %<operator[]%> is overloadedcannot apply member pointer %qE to %qE, which is of non-class type %qTcannot be %scannot be %s memberscannot be `scope` and `%s`cannot be both final and abstractcannot be declared to be a functioncannot be final, perhaps you meant const?cannot be further field because it will change the determined %s sizecannot bind bit-field %qE to %qTcannot bind non-const lvalue reference of type %qH to a value of type %qIcannot bind non-const lvalue reference of type %qH to an rvalue of type %qIcannot bind packed field %qE to %qTcannot bind reference of type %qH to %qI due to different array boundscannot bind rvalue %qE to %qTcannot bind rvalue reference of type %qH to lvalue of type %qIcannot call %<__builtin_custom_%s%> without specifying switch %<-mcustom-%s%>cannot call a concept as a functioncannot call constructor %<%T::%D%> directlycannot call member function %qD without objectcannot call super() implicitly because it is annotated with @disablecannot capture %qE by referencecannot capture member %qD of anonymous unioncannot catch type %qT because it involves types of variable sizecannot close nonexistent response filecannot close receive-only channelcannot combine GNU and SVE vectors in a binary operationcannot convert %qE from type %qH to type %qIcannot convert %qE from type %qT to type %qTcannot convert %qH to %qIcannot convert %qH to %qI in argument passingcannot convert %qH to %qI in assignmentcannot convert %qH to %qI in default argumentcannot convert %qH to %qI in initializationcannot convert %qH to %qI in returncannot convert a value of type %qT to vector type %qT which has different sizecannot convert a vector of type %qT to type %qT which has different sizecannot convert from %qT to base class %qT because %qT is incompletecannot convert from base class %qT to derived class %qT because the base is virtualcannot convert from base class %qT to derived class %qT via virtual base %qTcannot convert from incomplete type %qH to %qIcannot convert from pointer to base class %qT to pointer to derived class %qT because the base is virtualcannot convert from pointer to base class %qT to pointer to derived class %qT via virtual base %qTcannot convert to a pointer typecannot convert type %qH to type %qIcannot convert value to a vectorcannot create pointer to reference member %qDcannot create precompiled header %s: %mcannot create type information for type %qT because it involves types of variable sizecannot declare %<::main%> to be %qscannot declare %<::main%> to be a global variablecannot declare %<::main%> to be a templatecannot declare %<::main%> to be inlinecannot declare %<::main%> to be staticcannot declare %<catch%> parameter to be of abstract class type %qTcannot declare %<catch%> parameter to be of rvalue reference type %qTcannot declare %qD in a different modulecannot declare %qD to be a bit-field typecannot declare a parameter with %<decltype(auto)%>cannot declare bit-field %qD with %<warn_if_not_aligned%> typecannot declare bit-field %qD with function typecannot declare bit-field %qs with %<warn_if_not_aligned%> typecannot declare field %q+D to be of abstract type %qTcannot declare member %<%T::%s%> within %qTcannot declare member function %<%T::%s%> within %qTcannot declare member function %qD to have static linkagecannot declare parameter %q+D to be of abstract type %qTcannot declare parameter to be of abstract type %qTcannot declare pointer to %q#Tcannot declare pointer to %q#T membercannot declare pointer to qualified function type %qTcannot declare reference to %q#Tcannot declare reference to %q#T, which is not a typedef or a template type argumentcannot declare reference to qualified function type %qTcannot declare static function inside another functioncannot declare variable %q+D to be of abstract type %qTcannot decompose addresscannot decompose class type %qT because it has an anonymous struct membercannot decompose class type %qT because it has an anonymous union membercannot decompose class type %qT without non-static data memberscannot decompose class type %qT: both it and its base class %qT have non-static data memberscannot decompose class type %qT: its base classes %qT and %qT have non-static data memberscannot decompose inaccessible member %qD of %qTcannot decompose lambda closure type %qTcannot decompose non-array non-class type %qTcannot decompose union type %qTcannot decompose variable length array %qTcannot decompose variable length vector %qTcannot decrement a pointer to incomplete type %qTcannot deduce template arguments for copy-initialization of %qT, as it has no non-explicit deduction guides or user-declared constructorscannot deduce template arguments of %qT, as it has no viable deduction guidescannot default compare anonymous union membercannot default compare flexible array membercannot default compare reference member %qDcannot default compare union %qTcannot define %qD in different modulecannot define friend function %qs in a local class definitioncannot define member function %<%T::%s%> within %qTcannot define member of dependent typedef %qTcannot delete a function.  Only pointer-to-objects are valid arguments to %<delete%>cannot dereference %qE in %qs clausecannot derive from %<final%> base %qT in derived type %qTcannot disable built-in function %qscannot emit unaligned pointers in ptx assemblycannot execute %qs: %scannot execute %qs: %s: %mcannot expand initializer for member %qDcannot explicitly declare member %q#D to have extern linkagecannot fallthrough final case in switchcannot find %<ldd%>cannot find %<nm%>cannot find %qscannot find %s in plugin %s
%scannot find %s in plugin %s: %scannot find LTO cgraph in %scannot find LTO section refs in %scannot find a register in class %qs while reloading %<asm%>cannot find a valid counter name %qs of %<-fdbg-cnt=%> optioncannot find class %qEcannot find instance variable associated with propertycannot find interface declaration for %qEcannot find interface declaration for %qE, superclass of %qEcannot find protocol declaration for %qEcannot find reference tag for class %qEcannot form pointer to member of non-class %q#Tcannot generate position-independent code for %qscannot get position in PCH file: %mcannot get program status: %mcannot handle inconsistent calls to %qscannot have an in contract when overriden function %s does not have an in contractcannot implicitly generate a default ctor when base class %s is missing a default ctorcannot increment a pointer to incomplete type %qTcannot inherit from final class %scannot initialize aggregate of type %qT with a compound literalcannot initialize array of %qT from a string literal with type array of %qTcannot inline function %<main%>cannot load plugin %s
%scannot load plugin %s: %scannot mix operands of decimal floating and complex typescannot mix operands of decimal floating and other floating typescannot mix operands of decimal floating and vector typescannot nest more than %d namespacescannot open %qs for writing: %mcannot open %scannot open %s for writing: %mcannot open %s: %mcannot open '%s'cannot open input file: %scannot open intermediate gcn asm filecannot open intermediate gcn obj filecannot open intermediate ptx filecannot open ldd output: %mcannot open nested response filecannot open nm output: %mcannot open profile file %scannot override a non-virtual functioncannot override final function %scannot override final function %s.%scannot pass argument in vector register because altivec instructions are disabled, use %qs to enable themcannot put object with volatile field into registercannot read %<LTO_section_decls%> from %scannot read %s: %mcannot read LTO mode table from %scannot read PCH file: %mcannot read function profile from %scannot read spec file %qs: %mcannot read string table from %scannot receive reference type %qT through %<...%>cannot reload integer constant operand in %<asm%>cannot resolvecannot resolve overloaded function %qD based on conversion to type %qTcannot return from a handler of a function-try-block of a constructorcannot return value in vector register because altivec instructions are disabled, use %qs to enable themcannot set %qE attribute after definitioncannot set interrupt attribute: no current functioncannot set interrupt attribute: no such identifiercannot specialize concept %q#Dcannot specify %<-o%> with %<-c%>, %<-S%> or %<-E%> with multiple filescannot specify %<override%> for a classcannot specify -static with -fsanitize=addresscannot specify -static with -fsanitize=hwaddresscannot specify -static with -fsanitize=threadcannot specify both %<-msep-data%> and %<-mid-shared-library%>cannot tail-call: %scannot take address of %qscannot take address of bit-field %qDcannot take address of scalar with reverse storage ordercannot take the address of %<this%>, which is an rvalue expressioncannot throw expression of type %qT because it involves types of variable sizecannot type switch on non-interface valuecannot update SSA formcannot use %<-%> as input filename for a precompiled headercannot use %<-mtp=cp15%> with 16-bit Thumbcannot use %<::%> in parameter declarationcannot use %<typeid%> with %<-fno-rtti%>cannot use %<va_arg%> with reverse storage ordercannot use %qs as a call-saved registercannot use %qs as a call-used registercannot use %qs as a fixed registercannot use an object as parameter to a methodcannot use exception attributes to function %qD under linux toolchaincannot use indirect_call attribute under linux toolchaincannot use interrupt attributes to function %qD under linux toolchaincannot use mode %qs for enumerated typescannot use mshared and static togethercannot use mthreads and mlegacy-threads togethercannot use reset attributes to function %qD under linux toolchaincannot use small-data accesses for %qscannot use template to add field to aggregate `%s`cannot use template to add virtual function to class `%s`cannot use type %s as type %scannot use va_start in interrupt functioncannot value-initialize array of unknown bound %qTcannot write %s: %mcannot write PCH filecannot write PCH file: %mcannot write padding to PCH file: %mcannot write to %s: %mcanonical types differ for identical types %qT and %qTcapture by copy of incomplete type %qTcapture of non-variable %qEcapture of variable %qD with non-automatic storage durationcapture of variably-modified type %qT that is not an N3639 array of runtime boundcase label %qE not within a switch statementcase label does not reduce to an integer constantcase label is not an integer constant expressioncase label not within a switch statementcase label value exceeds maximum value for typecase label value is less than minimum value for typecase labels not sorted in switch statementcase labels not sorted: case value %qs not in enumerated typecase value %qs not in enumerated type %qTcast adds %q#v qualifier to function typecast between incompatible function types from %qH to %qIcast between incompatible function types from %qT to %qTcast between incompatible pointer to member types from %qH to %qIcast discards %qv qualifier from pointer target typecast from %qH to %qI increases required alignment of target typecast from %qH to %qI loses precisioncast from %qT is not allowedcast from function call of type %qT to non-matching type %qTcast from pointer to integer of different sizecast from type %qT to type %qT casts away qualifierscast increases required alignment of target typecast specifies array typecast specifies function typecast to %s address space pointer from disjoint %s address space pointercast to %s address space pointer from disjoint generic address space pointercast to generic address space pointer from disjoint %s address space pointercast to non-integral type %qT in a constant expressioncast to pointer from integer of different sizecast to union type from type not present in unioncasting %qT to %qT does not dereference pointercasting between pointer-to-function and pointer-to-object is conditionally-supportedcatching non-reference type %q#Tcatching polymorphic type %q#T by valuecatching type %q#T by valuecategory attributes are not available in Objective-C 1.0category attributes are not available in this version of the compiler, (ignored)cdecl and thiscall attributes are not compatiblecgraph count invalidcgraph_node has wrong clone listcgraph_node has wrong clone_ofcgraph_node has wrong prev_clone pointercgraph_node is in clone list but it is not clonechange of the active member of a union from %qD to %qDchange of the active member of a union from %qD to %qD during initializationchanging the return type from %qs to a comparison category type will allow the comparison to use %qs and %qschar 0x%02x not allowed in mangled namechar 0x%04x not allowed in mangled namecheck_dimension(): Bad array referencecheck_dummy_characteristics: Unexpected result %i of gfc_dep_compare_exprcheck_init_expr(): Unknown expression typecheck_intents(): List mismatchcheck_restricted(): Unknown expression typecheck_result_characteristics (1): Unexpected result %i of gfc_dep_compare_exprcheck_result_characteristics (2): Unexpected result %i of gfc_dep_compare_exprcheck_some_aliasing(): List mismatchcheck_some_aliasing(): corrupted datachecksum is (%x,%x) instead of (%x,%x)choosing %qD over %qDchunk size value must be positivecircular inheritancecircular inheritance of interfacecircular pointer delegation detectedcircular reference to enum memberclass %qE already existsclass %qE defined without specifying a base classclass %qE is deprecatedclass %qT does not have any field named %qDclass %qT is implicitly friends with itselfclass %qs does not implement the %qE protocolclass attributes are not available in Objective-C 1.0class definition may not be declared a friendclass extension for class %qE declared after its %<@implementation%>class extensions are not available in Objective-C 1.0class template argument deduction failed:class template argument deduction for %qT failed: explicit deduction guide selected in copy-list-initializationclass template argument deduction is only available with %<-std=c++17%> or %<-std=gnu++17%>class template placeholder %qE not permitted in this contextclass type %qT is incompleteclauses in %<simd%> trait should be separated by %<,%>cleanup argument not a functioncleanup argument not an identifierclones for %<target_clones%> attribute cannot be createdclose: %sclosed intervalsclosing LTRANS output list %s: %mclosing dependency file %s: %mcoarray argumentcode may be misoptimized unless %<-fno-strict-aliasing%> is usedcode model %qs not supported in ilp32 modecode model %qs not supported in the %s bit modecode model %qs not supported in x32 modecode model %qs with %<-f%s%>code model %s does not support PIC modecollapse argument needs positive constant integer expressioncollapsed %s loops not perfectly nested at %Lcollapsed loops not perfectly nestedcollect2 version %s
collection in fast enumeration is not an objectcomdat symbol cannot be versionedcomdat-local function called by %s outside its comdatcomdat-local symbol referred to by %s outside its comdatcomma at end of enumerator listcomma-separated list in using-declaration only available with %<-std=c++17%> or %<-std=gnu++17%>command-line option %qs is not supported by this configurationcommand-line option %qs is valid for %s but not for %scommand-line option %qs is valid for the driver but not for %scommon symbol cannot be versionedcommon symbol debug info is not structured as symbol+offsetcompare_actual_expr(): Bad component codecompare_bound_int(): Bad expressioncompare_real(): Bad operatorcomparing final insns dumpscomparing floating-point with %<==%> or %<!=%> is unsafecomparing vectors with different element typescomparing vectors with different number of elementscomparison always false due to limited range of data typecomparison always true due to limited range of data typecomparison between %q#T and %q#Tcomparison between %qT and %qTcomparison between distinct pointer types %qT and %qT lacks a castcomparison between distinct pointer-to-member types %qT and %qT lacks a castcomparison between pointer and integercomparison between pointer and zero character constantcomparison between types %qT and %qTcomparison is always %dcomparison is always %d due to width of bit-fieldcomparison is always false due to limited range of data typecomparison is always true due to limited range of data typecomparison of complete and incomplete pointerscomparison of constant %qE with boolean expression is always falsecomparison of constant %qE with boolean expression is always truecomparison of distinct Objective-C types lacks a castcomparison of distinct pointer types lacks a castcomparison of enumeration type %qT with floating-point type %qT is deprecatedcomparison of floating-point type %qT with enumeration type %qT is deprecatedcomparison of integer expressions of different signedness: %qT and %qTcomparison of pointers to disjoint address spacescomparison of promoted bitwise complement of an unsigned value with constantcomparison of promoted bitwise complement of an unsigned value with unsignedcomparison of unsigned expression in %<< 0%> is always falsecomparison of unsigned expression in %<>= 0%> is always truecomparison operator %q+D defaulted after its first declarationcomparison with string literal results in unspecified behaviorcomparisons like %<X<=Y<=Z%> do not have their mathematical meaningcompatible type is herecompilation terminated due to -Wfatal-errors.
compilation terminated due to -fmax-errors=%u.
compilation terminated.
compiler does not support ZSTD LTO compressioncomplex argument %u to decimal-only type-generic functioncomplex arguments must have floating-point typecomplex arguments must have identical typescomplex floating point overflow in expression %qE of type %qT results in %qEcomplex floating point overflow in expression of type %qT results in %qEcomplex integer overflow in expression %qE of type %qT results in %qEcomplex integer overflow in expression of type %qT results in %qEcomplex invalid for %qscomponent %qs at %L has already been set by a parent derived type constructorcompound assignment with %<volatile%>-qualified left operand is deprecatedcompound literal has variable sizecompound literal of non-object type %qTcompound literal qualified by address-space qualifiercompound-statement in %<constexpr%> functioncompressed stream: %sconcept %q#D declared with a deduced return typeconcept %q#D declared with function parametersconcept %q#D with non-%<bool%> return type %qTconcept %qD has no definitionconcept %qE not in namespace scopeconcept defined hereconcept must be defined at namespace scopeconcept must have type %<bool%>concept-id %qD in nested-name-specifiercondition declares a functioncondition declares an arraycondition expression refers to iteration variable %qDconditional %<lastprivate%> clause on %qs constructconditional %<lastprivate%> on loop iterator %qD ignoredconditional expression between distinct pointer types %qT and %qT lacks a castconditional expression between distinct pointer-to-member types %qT and %qT lacks a castconditional expression between enumeration type %qT and floating-point type %qT is deprecatedconditional expression between floating-point type %qT and enumeration type %qT is deprecatedconditional expression in operand of fold-expressionconflicting C language linkage declaration %q#Dconflicting access specifications for field %qE, ignoredconflicting access specifications for method %q+D, ignoredconflicting declaration %q#Dconflicting declaration of %q#D with %qL linkageconflicting declaration of C function %q#Dconflicting declaration of template %q#Dconflicting exporting declaration %qDconflicting named address spaces (%s vs %s)conflicting named address spaces (%s vs %s) for %q+Dconflicting named address spaces (%s vs generic) for %q+Dconflicting named address spaces (generic vs %s) for %q+Dconflicting reduction operations for %qEconflicting return type specified for %q+#Dconflicting specifiers in declaration of %qsconflicting super class name %qEconflicting type attributes specified for %q+#Dconflicting type qualifiers for %q+Dconflicting types for %<%c%s%>conflicting types for %q+Dconflicting types for %q+D; have %qTconflicting types for built-in function %q+D; expected %qTconflicting use of %<-mcustom%> switches, target attributes, and/or %<__builtin_custom_%> functionsconflicts with %qDconsider using '-pg' instead of '-p' with gprof(1)consider using `-pg' instead of `-p' with gprof (1)consider using `-pg' instead of `-p' with gprof(1)const, volatile or restrict qualified type in %<#pragma omp declare reduction%>const/copy propagation disabledconst_double_split got a bad insn:constant argument %d for builtin %qF is invalid (%s)constant argument %d for builtin %qF is out of range (%wd..%wd)constant argument %d for builtin %qF is out of range (0..%wu)constant argument %d for builtin %qF is out of range for target typeconstant argument out of range for %qsconstant argument out of range for %sconstant field %qD used as %<asm%> outputconstant not recomputed when %<ADDR_EXPR%> changedconstant refers to itselfconstant value required for builtin %qF argument %dconstraint mismatch at argument %d in template parameter list for %qDconstraints on a non-templated functionconstructor cannot be static member functionconstructor delegates to itselfconstructor delegation follows mem-initializer for %qDconstructor for alien class %qT cannot be a memberconstructor is not user-provided because it is explicitly defaulted in the class bodyconstructor priorities are not supportedconstructor priorities from 0 to %d are reserved for the implementationconstructor priorities must be integers from 0 to %d inclusiveconstructor syntax used, but no constructor declared for type %qTconstructors cannot be declared %<virtual%>constructors may not be cv-qualifiedconstructors may not be ref-qualifiedconstructors, destructors, postblits, invariants, new and delete functions are not allowed in interface %scontaining loop herecontains additional virtual method %qDcontinue statement not within a loopcontraction %<%.*s%> in format; use %qs insteadcontrol flow in the middle of basic block %dcontrol reaches end of non-void functioncontrol register number must be in range 0-31 for %sconversion between distinct pointer types %qT and %qT lacks a castconversion between distinct pointer-to-member types %qT and %qT lacks a castconversion casts away constnessconversion from %q#T to %q#Tconversion from %qH to %qI discards qualifiersconversion from %qH to %qI in a converted constant expressionconversion from %qH to %qI is ambiguousconversion from %qH to non-scalar type %qI requestedconversion from %qT to %qT changes the value of %qEconversion from %qT to %qT changes value from %qE to %qEconversion from %qT to %qT discards imaginary componentconversion from %qT to %qT may change valueconversion from address space %qs to address space %qsconversion from normal type to notinheap typeconversion from pointer type %qT to arithmetic type %qT in a constant expressionconversion lacks type at end of formatconversion of %qE from %qH to %qI is ambiguousconversion of %qs on the left hand side of %qsconversion of register to a different size in %qsconversion of scalar %qH to vector %qI involves truncationconversion of scalar %qT to vector %qT involves truncationconversion to %qT from %qT may change the sign of the resultconversion to %qT from boolean expressionconversion to incomplete typeconversion to non-const reference type %q#T from rvalue of type %qTconversion to non-scalar type requestedconversion to void cannot resolve address of overloaded functionconversion to void will not access object %qE of incomplete type %qTconversion to void will not access object of incomplete type %qTconversion to void will not access object of non-trivially-copyable type %qTconversion to void will not access object of type %qTconversion to volatile reference type %q#T from rvalue of type %qTconversions to arrays of unknown bound are only available with %<-std=c++20%> or %<-std=gnu++20%>converting %<false%> to pointer type %qTconverting %<false%> to pointer type for argument %P of %qDconverting %qT to %<void%> will never use a type conversion operatorconverting %qT to a base class %qT will never use a type conversion operatorconverting %qT to a reference to a base class %qT will never use a type conversion operatorconverting %qT to a reference to the same type will never use a type conversion operatorconverting %qT to the same type will never use a type conversion operatorconverting NULL to non-pointer typeconverting a packed %qT pointer (alignment %d) to a %qT pointer (alignment %d) may result in an unaligned pointer valueconverting an array compound literal to a pointer is ill-formed in C++converting far pointer to near pointerconverting from %qH to %qIconverting lambda that uses %<...%> to function pointerconverting overloaded function %qD to type %q#T is ambiguousconverting to %qH from %qI requires direct-initializationconverting to %qT from initializer list would use explicit constructor %qDconverting to non-pointer type %qT from NULLcopying non-static data member %q#D of rvalue reference typecopyprivate variable %qE is not threadprivate or private in outer contextcorrupt loop tree rootcorrupted exits list of loop %dcorrupted head of the exits list of loop %dcorrupted ltrans output file %scorrupted profile info: invalid time profilecorrupted profile info: number of executions for edge %d-%d thought to be %icorrupted profile info: number of iterations for basic block %d thought to be %icorrupted profile info: profile data is not flow-consistentcorrupted value profile: %s profile counter (%d out of %d) inconsistent with basic-block count (%d)could not close Go dump file: %mcould not close final insn dump file %qs: %mcould not close response file %scould not close temporary response file %scould not close zeroed insn dump file %qs: %mcould not convert %qE from %<void%> to %<bool%>could not convert %qE from %qH to %qIcould not convert template argument %qE from %qT to %qTcould not find %s in %s (consider using %<-B%>)could not find a spill registercould not find an integer type of the same size as %qTcould not find class %qEcould not find interface for class %qEcould not find setter/getter for %qE in class %qEcould not find specs file %s
could not find variant declarationcould not locate MCU data file %<devices.csv%>could not open Go dump file %qs: %mcould not open dump file %qs: %mcould not open final insn dump file %qs: %mcould not open response file %scould not open symbol resolution file: %mcould not open temporary response file %scould not parse file offsetcould not parse hex numbercould not read the BRIG filecould not resolve typename typecould not split insncould not understand version %scould not unmap %<pch_address_space%>: %mcould not write to response file %scould not write to temporary response file %scouldn%'t understand kern.osversion %q.*scounter namecounter valuecpu %qs is an invalid argument to builtin %qscpu %s is not based on arch %s, ignoring the archcreated and used with different ABIscreated and used with different architectures / ABIscreated and used with different endiannesscreated and used with different settings of %<-fpic%>created and used with different settings of %<-fpie%>created and used with differing settings of '%s'creating array of %qTcreating array of %qT, which is an abstract class typecreating array of function memberscreating array of functionscreating array of referencescreating array of voidcreating pointer to member function of non-class type %qTcreating pointer to member of non-class type %qTcreating pointer to member of type voidcreating pointer to member reference type %qTcreating selector for nonexistent method %qEcritical attribute has no effect on interrupt functionscustom instruction opcode must be a compile-time constant in the range 0-255 for %<__builtin_custom_%s%>cv-qualified type parameterdata area attributes cannot be specified for local variablesdata area of %q+D conflicts with previous declarationdata declarationdata definition has no type or storage classdata member %q+D invalidly declared function typedata member %q+D invalidly declared method typedata member %qD cannot be a member templatedata member may not have variably modified type %qTdata type of %q+D isn%'t suitable for a registerdata-model=far not valid for cr16c architecturedead histogramdead statement in EH tabledeallocation function declared heredeallocation of already deallocated storagedeallocation of storage that was not previously allocateddebugdebug format %qs conflicts with prior selectiondebug output level %qs is too highdebug pathdebug: decimal floating-point argument %u to binary-only type-generic functiondecimal floating-point argument %u to complex-only type-generic functiondecimal floating-point not supported for this targetdeclaration %qD conflicts with builtindeclaration %qD conflicts with importdeclaration %qD does not declare anythingdeclaration does not declare anythingdeclaration for parameter %qD but no such parameterdeclaration of %<constexpr%> variable %qD is not a definitiondeclaration of %<extern%> variable %qD in %<for%> loop initial declarationdeclaration of %<std::initializer_list%> does not match %<#include <initializer_list>%>, isn%'t a templatedeclaration of %<~%T%> as member of %qTdeclaration of %q#D changes meaning of %qDdeclaration of %q#D conflicts with built-in declaration %q#Ddeclaration of %q#D has %<extern%> and is initializeddeclaration of %q#D has no initializerdeclaration of %q#D outside of class is not definitiondeclaration of %q#D shadows a parameterdeclaration of %q#Tdeclaration of %q+#D shadows template parameterdeclaration of %q+D shadows a built-in functiondeclaration of %q+D shadows previous non-variabledeclaration of %q+D with attribute %<noinline%> follows inline declarationdeclaration of %q+D with no linkage follows extern declarationdeclaration of %qD ambiguates earlier template instantiation for %qDdeclaration of %qD as %<typedef%>declaration of %qD as array of function membersdeclaration of %qD as array of functionsdeclaration of %qD as array of referencesdeclaration of %qD as array of voiddeclaration of %qD as member of %qTdeclaration of %qD as multidimensional array must have bounds for all dimensions except the firstdeclaration of %qD as non-functiondeclaration of %qD as parameterdeclaration of %qD in %qD which does not enclose %qDdeclaration of %qD in namespace %qD which does not enclose %qDdeclaration of %qD not in a namespace surrounding %qDdeclaration of %qD shadows a built-in functiondeclaration of %qD shadows a global declarationdeclaration of %qD shadows a member of %qTdeclaration of %qD shadows a parameterdeclaration of %qD shadows a previous localdeclaration of %qE as array of functionsdeclaration of %qE as array of voidsdeclaration of %qE as multidimensional array must have bounds for all dimensions except the firstdeclaration of %qE as non-functiondeclaration of %qE as non-memberdeclaration of %qF has a different exception specifierdeclaration of built-in function %qD without a prototype; expected %qTdeclaration of function %qD in invalid contextdeclaration of multidimensional array must have bounds for all dimensions except the firstdeclaration of non-variable %qD in %<for%> loop initial declarationdeclaration of static variable %qD in %<for%> loop initial declarationdeclaration of template parameter %q+#D with different constraintsdeclaration of template parameter %q+D shadows template parameterdeclaration of type name as array of functionsdeclaration of type name as array of voidsdeclarations in dependent base %qT are not found by unqualified lookupdeclarator-id missing; using reserved word %qDdeclared heredeclared private heredeclared protected heredecompressed stream: %sdecrement of a boolean expressiondecrement of constant field %qDdecrement of enumeration value is invalid in C++decrement of function %qDdecrement of member %qD in read-only objectdecrement of pointer to an incomplete type %qTdecrement of read-only location %qEdecrement of read-only member %qDdecrement of read-only named return value %qDdecrement of read-only parameter %qDdecrement of read-only reference %qDdecrement of read-only variable %qDdeduced class type %qD in function return typededuced expression type does not satisfy placeholder constraintsdeduced initializer does not satisfy placeholder constraintsdeduced return type does not satisfy placeholder constraintsdeduced return type only available with %<-std=c++14%> or %<-std=gnu++14%>deducing from brace-enclosed initializer list requires %<#include <initializer_list>%>deduction guide %q+D redeclareddeduction guide %qD must be declared at namespace scopededuction guide %qD must be declared in the same scope as %qTdeduction guide %qD must not have a function bodydeduction guide for %qT must have trailing return typedefault %<target_clones%> attribute was not setdefault argument %qE uses %qDdefault argument %qE uses local variable %qDdefault argument for template parameter for class enclosing %qDdefault argument given for parameter %d of %q#Ddefault argument mismatch in overload resolutiondefault argument missing for parameter %P of %q#Ddefault argument specified for lambda parameterdefault argument specified in explicit specializationdefault arguments are not allowed in declaration of friend template specialization %qDdefault arguments are only permitted for function parametersdefault construction is disabled for type %sdefault constructor for structs only allowed with @disable, no body, and no parametersdefault member initializer for %qD required before the end of its enclosing classdefault member initializer for unnamed bit-fielddefault member initializers for bit-fields only available with %<-std=c++20%> or %<-std=gnu++20%>default template arguments may not be used in function template friend re-declarationdefault template arguments may not be used in function templates without %<-std=c++11%> or %<-std=gnu++11%>default template arguments may not be used in partial specializationsdefault template arguments may not be used in template friend declarationsdefault type conversion cannot deduce template argument for %qDdefaulted %qD is not a friend of %qTdefaulted %qD must be %<const%>defaulted %qD must have parameters of either type %<const %T&%> or %qTdefaulted %qD must have parameters of either type %<const %T&%> or %qT, not bothdefaulted %qD must not have %<&&%> ref-qualifierdefaulted %qD must return %<bool%>defaulted %qD only available with %<-std=c++20%> or %<-std=gnu++20%>defaulted and deleted functions only available with %<-std=c++11%> or %<-std=gnu++11%>defaulted constructor calls non-%<constexpr%> %qDdefaulted declaration %q+D does not match the expected signaturedefaulted default constructor does not initialize %q#Ddefaulted default constructor does not initialize any non-static data memberdefaulted destructor calls non-%<constexpr%> %qDdefaulted function %q+D with default argumentdefaulted member %qD must have parameter type %<const %T&%>defaulted move assignment for %qT calls a non-trivial move assignment operator for virtual base %qTdeferred type parameter at %Cdefined heredefining a type in a cast is invalid in C++defining a type in a compound literal is invalid in C++defining explicit specialization %qD in friend declarationdefining type in %qs expression is invalid in C++definition in block %i does not dominate use in block %idefinition in block %i follows the usedefinition of %q#D ambiguates built-in declaration %q#Ddefinition of %q#D is marked %<dllimport%>definition of %q#T inside template parameter listdefinition of %q#T is not complete until the closing bracedefinition of %qD does not match %<#include <initializer_list>%>definition of %qD is not in namespace enclosing %qTdefinition of explicitly-defaulted %q+Ddefinition of implicitly-declared %qDdefinition of protocol %qE not founddefinition of static data member %q+D of dllimport%'d classdefinition provided for explicit instantiationdelegating constructors only available with %<-std=c++11%> or %<-std=gnu++11%>deleted definition of %qD is not first declarationdeleted function %q+D overriding non-deleted functiondeleted in Fortran 95deleting %qT is undefineddeleting LTRANS file %s: %mdeleting array %q#Edeleting file %s: %mdeleting object of abstract class type %qT which has non-virtual destructor will cause undefined behaviordeleting object of polymorphic class type %qT which has non-virtual destructor might cause undefined behaviordependent-name %qE is parsed as a non-type, but instantiation yields a typedeprecated conversion from string constant to %qTdeprecated message is not a stringdereferencing %<void *%> pointerdereferencing a null pointerdereferencing a null pointer in %qEdereferencing type-punned pointer might break strict-aliasing rulesdereferencing type-punned pointer will break strict-aliasing rulesderived type declarationderived union %qT invaliddesignated initializers cannot be used with a non-aggregate type %qTdesignating the bound of variable length array argument %udesignator order for field %qD does not match declaration order in %qTdestination object %qE of size %sdestination object allocated heredestination object declared heredestination object of size %s allocated by %qEdestination object referenced by %<restrict%>-qualified argument 1 was declared heredestroying %<operator delete%> must be a member functiondestroying %<operator delete%> must be a usual deallocation functiondestructor %qD declared as member templatedestructor cannot be static member functiondestructor for %qE shall not be run eitherdestructor for %qT is ambiguousdestructor for alien class %qT cannot be a memberdestructor priorities are not supporteddestructor priorities from 0 to %d are reserved for the implementationdestructor priorities must be integers from 0 to %d inclusivedestructors may not be cv-qualifieddestructors may not be ref-qualifieddestructors may not have parametersdestructors, postblits and invariants are not allowed in union %sdetermining value of %qsdid you mean %<-%s%>?did you mean %<using enum %T::%D%>?did you mean to dereference the pointer?did you mean to use logical not (%<!%>)?did you mean to use logical not?difference between %qE and %qD does not have integer typedifferent number of parametersdifferent number of resultsdifferent parameter typesdifferent receiver typesdifferent result typesdifferent underlying type in enum %q#Tdifferent varargsdirect base %qT inaccessible in %qT due to ambiguitydirect call to %s in speculative call sequence has no speculative flagdirect call to %s in speculative call sequence has speculative_id %i out of rangedirect-list-initialization of %<auto%> requires exactly one elementdirective argument %qEdirective argument in the range [%E, %E]directive with only %<device_type%> clauses ignoreddisable pass %s for function %sdisable pass %s for functions in the range of [%u, %u]distinct Objective-C type in returndivision %<sizeof (%T) / sizeof (%T)%> does not compute the number of array elementsdivision by zerodivision by zero is not a constant expressiondo not specify both -march=... and -mcpu=...do_check(): too many argsdo_simplify(): Too many args for intrinsicdoes not match member template declaration heredoes not override any functiondoes not override any function, did you mean to override `%s%s`?does not support multilibdominator of %d should be %d, not %ddominator of %d status unknowndon%'t support DSP extension instructionsdon%'t support performance extension instructionsdon%'t support performance extension version 2 instructionsdon%'t support string extension instructionsdouble colon in MODULE PROCEDURE statement at %Ldouble constants not supporteddouble linked list of assembler names corrupteddouble linked list of clones corrupteddue to different exception specificationsdump file: %s
duplicate %<_Atomic%>duplicate %<_Thread_local%> or %<__thread%>duplicate %<asm%> operand name %qsduplicate %<asm%> qualifier %qEduplicate %<asm%> qualifier %qTduplicate %<const%>duplicate %<default%> case in %<_Generic%>duplicate %<mutable%>duplicate %<restrict%>duplicate %<volatile%>duplicate %qDduplicate %qEduplicate %qE attributeduplicate %qE declaration specifierduplicate %qsduplicate (or overlapping) case valueduplicate base type %qT invalidduplicate case valueduplicate cv-qualifierduplicate declaration for protocol %qEduplicate declaration of method %<%c%E%> with conflicting typesduplicate definition of '%s'duplicate definition of a symbol versionduplicate direct call to %s in speculative call sequence with speculative_id %iduplicate explicit instantiation of %q#Dduplicate explicit instantiation of %q#Tduplicate initialization of %qDduplicate insn UID: %iduplicate instance variable %q+Dduplicate interface declaration for category %<%E(%E)%>duplicate interface declaration for class %qEduplicate label %qDduplicate label declaration %qEduplicate loop headerduplicate member %q+Dduplicate reference %s in speculative call sequence with speculative_id %iduplicate type-generic parameter type for function argument %u of %<__builtin_tgmath%>duplicate virt-specifierduplicated %<if%> conditionduplicated parameter specifier %qs in %<amdgpu_hsa_kernel%> attributeduring %<-fcompare-debug%> recompilationduring %s pass: %s
dwarf version %wu is not supporteddynamic dependency %s not founddynamic exception specifications are deprecated in C++11dynamic type %qT of its operand does not have a base class of type %qTdynamic type %qT of its operand does not have an unambiguous public base class %qTeBPF stack limit exceededeach undeclared identifier is reported only once for each function it appears inedge %s->%s has no corresponding call_stmtedge count is not compatible with function countedge from %d to %d should be marked irreducibleedge from %d to %d should not be marked irreducibleedge has both call_stmt and lto_stmt_uid setedge not foundedge points to wrong declaration:either %<-fopenacc%> or %<-fopenmp%> must be seteither -fopenacc or -fopenmp must be seteither all initializer clauses should be designated or none of them should beelaborated-type-specifier for a scoped enum must not use the %qD keywordelement types must be the sameelement_number(): Bad dimension typeelemental binary operationelemental function arguments at %C are not compliantelemental procedureelements of array %q#D have incomplete typeelements of array %q#T have incomplete typeembedded %<\0%> in formatembedded NUL in CFString literalempty class %qT parameter passing ABI changes in %<-fabi-version=12%> (GCC 8)empty declarationempty declaration with %<_Alignas%> does not redeclare tagempty declaration with storage class specifier does not redeclare tagempty declaration with type qualifier does not redeclare tagempty enum is invalidempty index range in initializerempty initializer for lambda init-captureempty initializer in lambda init-captureempty left precision in %s formatempty parentheses were disambiguated as a function declarationempty precision in %s formatempty property attribute listempty range specifiedempty scalar initializerempty string in attribute %<target%>empty struct has size 0 in C, size 1 in C++empty structured binding declarationempty union has size 0 in C, size 1 in C++enable pass %s for function %senable pass %s for functions in the range of [%u, %u]enabling backtrace support is only meaningful when compiling for the Thumbenabling callee interworking support is only meaningful when compiling for the Thumbenclosing %<target%>enclosing %qsenclosing OpenACC %qs constructenclosing class of %<constexpr%> non-static member function %q+#D is not a literal typeenclosing class templates are not explicitly specializedenclosing parent compute constructenclosing regionenclosing routineenclosing target regionenclosing taskend expression refers to outer iterator %qDend insn %d for block %d not found in the insn streamend of implied-do loop at %L could not be simplified to a constant valueenum %s must have at least one memberenum constant defined hereenum constant in boolean contextenum conversion from %qT to %qT in assignment is invalid in C++enum conversion from %qT to %qT in initialization is invalid in C++enum conversion from %qT to %qT in return is invalid in C++enum conversion in assignment is invalid in C++enum conversion in initialization is invalid in C++enum conversion when passing argument %d of %qE is invalid in C++enum type defined hereenum value is not %<CONST_DECL%> or %<INTEGER_CST%>enum value name is not %<IDENTIFIER_NODE%>enum value type is not %<INTEGER_TYPE%> nor convertible to the enumenumerated and non-enumerated type in conditional expressionenumerated mismatch in conditional expression: %qT vs %qTenumeration value %qE not handled in switchenumeration values exceed range of largest integerenumerator value %qE is outside the range of underlying type %qTenumerator value for %qD is not an integer constantenumerator value for %qD must have integral or unscoped enumeration typeenumerator value for %qE is not an integer constantenumerator value for %qE is not an integer constant expressionenvironment variable %<COLLECT_GCC%> must be setenvironment variable %<COLLECT_GCC_OPTIONS%> must be setenvironment variable %<COLLECT_LTO_WRAPPER%> must be setenvironment variable %qs must expand to a non-negative integer less than or equal to %wdenvironment variable %qs not definedenvironment variable COLLECT_GCC_OPTIONS must be setenvironment variable DJGPP not definedenvironment variable DJGPP points to corrupt file %qsenvironment variable DJGPP points to missing file %qserrorerror closing %s: %merror in arguments to spec function %qserror in removing %serror instantiatingerror writing %qserror writing to %s: %merror: errors during merging of translation unitseval_intrinsic(): Bad operatoreval_type_intrinsic0(): op NULLevaluating %qsexception cleanup for this placement new selects non-placement %<operator delete%>exception handling disabled, use %<-fexceptions%> to enableexception handling personality mismatchexception of type %<%T%> will be caughtexception of type %qT will be caught by earlier handlerexception specification of %qD depends on itselfexcess elements in %<char%> array initializerexcess elements in array initializerexcess elements in scalar initializerexcess elements in struct initializerexcess elements in union initializerexcess elements in vector initializerexcess use operand for statementexecution counts assumed to be zero
execution counts estimated
exit %d->%d not recordedexpansion pattern %qE contains no parameter packsexpansion pattern %qT contains no parameter packsexpansion point is location %iexpected %<#pragma acc%> clauseexpected %<#pragma omp scan%>expected %<#pragma omp section%> or %<}%>expected %<#pragma omp%> clauseexpected %<(%>expected %<(%> after template-argument-listexpected %<(%> or end of lineexpected %<)%>expected %<)%> or %<,%>expected %<*%>expected %<+%>, %<*%>, %<-%>, %<&%>, %<^%>, %<|%>, %<&&%>, %<||%> or identifierexpected %<,%>expected %<,%> or %<)%>expected %<,%> or %<...%>expected %<,%> or %<;%>expected %<,%> or %<}%>expected %<,%>, %<;%> or %<}%>expected %<.%>expected %<...%>expected %<:%>expected %<:%> or %<)%>expected %<:%> or %<...%>expected %<:%> or %<::%>expected %<:%>, %<,%>, %<;%>, %<}%> or %<__attribute__%>expected %<::%>expected %<;%>expected %<;%> after class definitionexpected %<;%> after struct definitionexpected %<;%> after union definitionexpected %<;%> at end of member declarationexpected %<;%> or %<{%>expected %<;%> or %<{%> after method attribute definitionexpected %<;%>, %<,%> or %<)%>expected %<;%>, identifier or %<(%>expected %<<%>expected %<=%>expected %<=%> after Objective-C %qEexpected %<=%>, %<,%>, %<;%>, %<asm%> or %<__attribute__%>expected %<>%>expected %<@end%>expected %<@synchronized%>expected %<@throw%>expected %<@try%>expected %<[%>expected %<]%>expected %<__label__%>expected %<__transaction_atomic%>expected %<__transaction_relaxed%>expected %<acq_rel%>, %<release%> or %<acquire%>expected %<alloc%>, %<to%>, %<from%>, %<tofrom%>, %<firstprivate%>, %<none%> or %<default%>expected %<allocator%>expected %<asm%>expected %<auto%>expected %<auto%> or %<decltype(auto)%> after %qEexpected %<cancel%> %<if%> clause modifierexpected %<catch%>expected %<class%>expected %<class%> or %<typename%>expected %<class%>, %<typename%>, or %<template%>expected %<co_yield%>expected %<concurrent%>expected %<construct%>, %<device%>, %<implementation%> or %<user%>expected %<data%>expected %<data%> after %<#pragma acc %s%>expected %<data%>, %<update%>, %<enter%> or %<exit%>expected %<declare%>expected %<decltype%>expected %<delete%>expected %<depend%>, %<destroy%> or %<update%> clauseexpected %<extern%>expected %<finally%> or %<catch%>expected %<for%> after %qsexpected %<host%>, %<nohost%> or %<any%>expected %<in%>, %<out%>, %<inout%> or %<mutexinoutset%>expected %<inclusive%> or %<exclusive%> clauseexpected %<match%>expected %<namespace%>expected %<new%>expected %<none%> or %<present%>expected %<none%> or %<shared%>expected %<omp_priv%> or function-nameexpected %<operator%>expected %<point%>expected %<read%>, %<write%>, %<update%>, %<capture%>, %<seq_cst%>, %<acq_rel%>, %<release%>, %<relaxed%> or %<hint%> clauseexpected %<read%>, %<write%>, %<update%>, or %<capture%> clauseexpected %<return%>expected %<scalar%>, %<aggregate%> or %<pointer%>expected %<seq_cst%>, %<relaxed%> or %<acq_rel%>expected %<simd%>, %<reduction%>, %<target%> or %<variant%>expected %<static_assert%>expected %<target%>expected %<teams%>, %<parallel%> or %<thread%>expected %<template%>expected %<throw%>expected %<try%>expected %<unified_address%>, %<unified_shared_memory%>, %<dynamic_allocators%>, %<reverse_offload%> or %<atomic_default_mem_order%> clauseexpected %<using%>expected %<while%>expected %<{%>expected %<{%> or %<:%>expected %<}%>expected %<}%> before %<else%>expected %<~%>expected %d levels of template parms for %q#D, got %dexpected %i or more, found %iexpected %qE selector nameexpected %qT but argument is of type %qTexpected %qs %<if%> clause modifier rather than %qsexpected ...expected 64-bit address but argument 1 is %d-bitexpected 64-bit address but argument 2 is %d-bitexpected [big-endian|little-endian|default] after %<#pragma scalar_storage_order%>expected [error|warning|ignored|push|pop] after %<#pragma GCC diagnostic%>expected a string after %<#pragma message%>expected an SSA_NAME objectexpected an argument to %<msp430_select_cpu%>expected an identifier for the attribute nameexpected attribute before %<...%>expected between %i and %i, found %iexpected binary operatorexpected block indexexpected block specifierexpected boolean expressionexpected boolean typeexpected case labelexpected channelexpected class nameexpected class-keyexpected class-nameexpected constant integer expression with valid sync-hint valueexpected constant offsetexpected constant sizeexpected constructor, destructor, or type conversionexpected count valueexpected declarationexpected declaration or statementexpected declaration specifiersexpected declaration specifiers or %<...%>expected declaratorexpected else statementexpected empty string after %<operator%> keywordexpected end of capture-listexpected end of lineexpected expressionexpected expression-list or type-idexpected frequency qualityexpected frequency valueexpected functionexpected function nameexpected function-name %<(%>expected goto expressionexpected id-expressionexpected id-expression (arguments)expected identifierexpected identifier or %<(%>expected identifier or %<)%>expected identifier or %<*%>expected identifier or string literalexpected initializerexpected integerexpected integer expressionexpected integer expression listexpected interface or pointer to interfaceexpected iteration declaration or initializationexpected iteration-statementexpected jump-statementexpected labelexpected labeled-statementexpected loop numberexpected map index on right hand sideexpected module-nameexpected namespace-nameexpected nested-name-specifierexpected numeric typeexpected operatorexpected parameter pack before %<...%>expected pass nameexpected pointerexpected pointer as argument of unary %<*%>expected pointer in %qs clauseexpected primary-expressionexpected ptr-operatorexpected qualified name in friend declaration for constructor %qDexpected qualified name in friend declaration for destructor %qDexpected selection-statementexpected signature: %qDexpected single pointer in %qs clauseexpected specifier-qualifier-listexpected statementexpected string literalexpected string-literalexpected suffix identifierexpected template-argumentexpected template-idexpected template-id for typeexpected template-nameexpected trait selector nameexpected type specifierexpected type-nameexpected type-specifierexpected unqualified-idexpecting argument of type pointer or of type integer for argument 1expecting internal function nameexplicit by-copy capture of %<this%> redundant with by-copy capture defaultexplicit by-copy capture of %qD redundant with by-copy capture defaultexplicit by-reference capture of %qD redundant with by-reference capture defaultexplicit conversion operators only available with %<-std=c++11%> or %<-std=gnu++11%>explicit deduction guide declared hereexplicit deduction guides not considered for copy-initializationexplicit goto at end of bb %dexplicit instantiation of %q#Dexplicit instantiation of %q#T before definition of templateexplicit instantiation of %qD but no definition availableexplicit instantiation of %qD in namespace %qD (which does not enclose namespace %qD)explicit instantiation of %qD outside its namespace must use a nested-name-specifierexplicit instantiation of function concept %q#Dexplicit instantiation of non-class template %qDexplicit instantiation of non-template %q#Dexplicit instantiation of non-template type %qTexplicit instantiation of variable concept %q#Dexplicit instantiation shall not use %<consteval%> specifierexplicit instantiation shall not use %<constexpr%> specifierexplicit instantiation shall not use %<inline%> specifierexplicit qualification in declaration of %qDexplicit specialization %q#D may be missing attributesexplicit specialization declared %<concept%>explicit specialization in non-namespace scope %qDexplicit specialization of %qD after first useexplicit specialization of %qD must be introduced by %<template <>%>explicit specialization of %qD outside its namespace must use a nested-name-specifierexplicit specialization of function concept %qDexplicit specialization of non-template %qTexplicit template argument list not allowedexplicit template specialization cannot have a storage classexplicitly defaulted function %q+D cannot be declared %qs because the implicit declaration is not %qs:explicitly used registers must be grouped at top of stackexponent-letter 'q' in real-literal-constant at %Cexpr in !$OMP ATOMIC WRITE assignment var = expr must be scalar and cannot reference var at %Lexpr in !$OMP ATOMIC assignment var = var op expr must be scalar and cannot reference var at %Lexpression %qE does not designate a %<constexpr%> functionexpression %qE is not a constant expressionexpression cannot be used as a functionexpression does not compute the number of elements in this array; element type is %qT, not %qTexpression in new-declarator must have integral or enumeration typeexpression in static assertion is not an integerexpression in static assertion is not an integer constant expressionexpression in static assertion is not constantexpression list treated as compound expression in functional castexpression list treated as compound expression in initializerexpression list treated as compound expression in mem-initializerexpression must be enclosed in parenthesesexpression must be integralexpression of abstract class type %qT cannot be used in throw-expressionexpression statement has incomplete typeextend_ref(): Bad tailextended initializer lists only available with %<-std=c++11%> or %<-std=gnu++11%>extended registers have no high halvesextern declaration of %q+D follows declaration with no linkageextern model globalvalueextern symbols cannot have initializersexternal TLS initialization functions not supported on this targetexternal linkage required for symbol %q+D because of %qE attributeexternally visible inline cloneextra %<;%>extra %<;%> after in-class function definitionextra brace group at end of initializerextra elements in scalar initializerextra outgoing edge %d->%dextra qualification %<%T::%> on member %qsextra qualification not allowedextra semicolonextra semicolon in method definition specifiedextra semicolon in struct or union specifiedextra type qualifiers in format argument (argument %d)fail to initialize plugin %sfailed to create map component '%s'failed to create union component '%s'failed to expand built-in functionfailed to get exit status: %mfailed to get process times: %mfailed to initialize plugin %sfailed to open temporary file %s for LTO outputfailed to open temporary file %s with LTO outputfailed to reclaim unneeded functionfailed to reclaim unneeded function in same comdat groupfailed to translate literal to execution character set %qTfailure memory model cannot be stronger than success memory model for %<__atomic_compare_exchange%>failure to simplify substring reference in DATA statement at %Lfailure trying to reload:fallthru edge after a control statement in bb %dfallthru edge after unconditional jump in bb %ifallthru edge crosses section boundary in bb %ifallthru to exit from bb %dfast enumeration is not available in Objective-C 1.0fastcall and cdecl attributes are not compatiblefastcall and regparm attributes are not compatiblefastcall and stdcall attributes are not compatiblefastcall and thiscall attributes are not compatiblefatal error: fclose %s: %mfe_runtime_error string must be null terminatedfe_runtime_error: Wrong number of arguments (%d instead of %d)field %q#D can be accessed via %q#Dfield %q#D with same name as classfield %qD has incomplete type %qTfield %qE declared as a functionfield %qE has incomplete typefield %s must be initialized but skippedfield cannot be `scope`field name not in record or union initializerfield not allowed in interfacefield precision specifierfield widthfield width in printf formatfield width in scanf formatfield width in strfmon formatfield width in strftime formatfield width specifierfields have different layout in another translation unitfile %qs left but not enteredfile ends in default argumentfile-scope declaration of %qE specifies %<auto%>file-scope declaration of %qE specifies %<register%>filename %qs does not start with profile prefix %qsfill characterfill character in strfmon formatfind_array_spec(): Missing specfind_array_spec(): unused as(1)find_array_spec(): unused as(2)find_enum(): Enum not foundfini function found in object %sfirst %<sizeof%> operand was declared herefirst argument must be []bytefirst argument must be type size_t, not %sfirst argument of %q+D should be %<int%>first argument to %<__builtin_call_with_static_chain%> must be a call expressionfirst argument to %<__builtin_choose_expr%> not a constantfirst argument to %<va_arg%> not of type %<va_list%>first mismatch is fieldfirst offset must be in opposite direction of loop iterationsfirst register must be R0first seen herefirst specified herefixed ebp register requires %<-maccumulate-outgoing-args%>fixed ebp register requires %<target("accumulate-outgoing-args")%>fixed register %s used to pass parameter to functionfixed-point overflow in expression %qE of type %qT results in %qEfixed-point overflow in expression of type %qT results in %qEfixed-point types not supported for this targetfixed-point types not supported in C++flexible array member %qD does not have well defined padding bits for %qsflexible array member %qD in an otherwise empty %q#Tflexible array member %qD in unionflexible array member %qD not at end of %q#Tflexible array member in a struct with no named membersflexible array member in unionflexible array member not at end of structfloating constant exceeds range of %qTfloating constant misusedfloating constant truncated to zerofloating literal exceeds range of %qT typefloating literal truncated to zerofloating point overflow in expression %qE of type %qT results in %qEfloating point overflow in expression of type %qT results in %qEfloating-point constant not a valid immediate operandfloating-point suffix %qs shadowed by implementationflow control insn inside a basic blockfmax-include-depth=<number> Set the maximum depth of the nested #include.fold check: original tree changed by foldfold of empty expansion over %Ofold-expressions only available with %<-std=c++17%> or %<-std=gnu++17%>fopen %s: %mfor %qDfor a function-style cast, remove the redundant %<::%D%>for array function parameter length expression must be specifiedfor backward compatibilityfor deduction to %<std::initializer_list%>, use copy-list-initialization (i.e. add %<=%> before the %<{%>)for increment expression cannot resolve address of overloaded functionfor increment expression has no effectfor increment expression is a reference, not call, to function %qEfor pointer type length expression must be specifiedfor statement expectedfor template declaration %q+Dfor the option %<-mcache-block-size=X%>, the valid X must be: 4, 8, 16, 32, 64, 128, 256, or 512for type %qTfor unknown bound array type length expression must be specifiedfor, while or do statement expectedformatformat argument %d unused before used argument %d in %<$%>-style formatformat argument %d used more than once in %s formatformat argument should be a %qs referenceformat argument should be a %qs reference but a string was foundformat is a wide character stringformat not a string literal and no format argumentsformat not a string literal, argument types not checkedformat not a string literal, format string not checkedformat of column headings in %<devices.csv%> is incorrectformat string argument follows the arguments to be formattedformat string argument is not a string typeformat string is defined hereformat string is not an array of type %qsforming pointer to qualified function type %qTforming pointer to reference type %qTforming reference to qualified function type %qTforming reference to reference type %qTforming reference to voidforming type of %qsforward declaration of %q#Tfound %<%c%s%>found %<-%E%> instead of %<+%E%> in protocol(s)found %<:%> in nested-name-specifier, expected %<::%>found a %qT but the format argument should be a stringfound a %qs reference but the format argument should be a stringfound a default name with a non-empty defining statementfound a real definition for a non-registerfound a virtual definition for a GIMPLE registerfound an SSA_NAME that had been released into the free poolfound default case not at the start of case vectorfp software completion requires %<-mtrap-precision=i%>fr30_print_operand: invalid %%F codefr30_print_operand: invalid %%x codefr30_print_operand: invalid operand to %%A codefr30_print_operand: unhandled MEMfr30_print_operand: unknown codefr30_print_operand: unrecognized %%B codefr30_print_operand: unrecognized %%b codefr30_print_operand: unrecognized %%p codefr30_print_operand_address: unhandled addressframe pointer required, but reservedframe size of %qs is %wd bytesframe size of function %qs is %wd bytes exceeding user provided stack limit of %d bytes.  An unconditional trap is added.frame size of function %qs is %wd bytes which is more than half the stack size. The dynamic check would not be reliable. No check emitted for this function.frame size too large for reliable stack checkingfree_expr0(): Bad expr typefree_pi_tree(): Unresolved fixupfriend declaration %q#D declares a non-template functionfriend declaration %qD in local class without prior local declarationfriend declaration %qD is not visible to explicit specializationfriend declaration %qD may not have virt-specifiersfriend declaration does not name a class or functionfriend declaration herefriend declaration not in class definitionfriend declaration of %q#D specifies default arguments and isn%'t the only declarationfriend declaration of %qD specifies default arguments and isn%'t a definitionfriend declaration requires class-key, i.e. %<friend %#T%>friend declaration requires class-key, i.e. %<friend class %T::%D%>friend function definition %qs cannot have a name qualified with %<%D::%>friend function definition %qs cannot have a name qualified with %<::%>from definition of %q#Dfrom previous declaration %qFfrv_print_operand: unknown codefunc can only be compared to nilfunction %q#D is initialized like a variablefunction %q+D definition is marked dllimportfunction %q+D part of alias cyclefunction %q+F can never be copied because it has %<noclone%> attributefunction %q+F can never be copied because it receives a non-local gotofunction %q+F can never be copied because it saves address of local label in a static variablefunction %q+F can never be inlined because it contains a computed gotofunction %q+F can never be inlined because it has a VLA argumentfunction %q+F can never be inlined because it is suppressed using %<-fno-inline%>function %q+F can never be inlined because it uses %<__builtin_return%> or %<__builtin_apply_args%>function %q+F can never be inlined because it uses alloca (override using the always_inline attribute)function %q+F can never be inlined because it uses attributes conflicting with inliningfunction %q+F can never be inlined because it uses non-local gotofunction %q+F can never be inlined because it uses setjmpfunction %q+F can never be inlined because it uses setjmp-longjmp exception handlingfunction %q+F can never be inlined because it uses variable argument listsfunction %qD declared %<[[noreturn]]%> but its first declaration was notfunction %qD declared %<virtual%> inside a unionfunction %qD is initialized like a variablefunction %qD might be a candidate for %qs format attributefunction %qD redeclared as variablefunction %qD used as %<asm%> outputfunction %qs cannot be declared %<mutable%>function %qs has been referenced in offloaded code but hasn%'t been marked to be included in the offloaded codefunction arguments of %<__builtin_tgmath%> all have the same typefunction arguments of %<__builtin_tgmath%> lack type-generic parameterfunction attributes %qs and %qs are mutually exclusivefunction body can be overwritten at link timefunction body not availablefunction body only allowed in final functions in interface %sfunction call has aggregate valuefunction called through a non-compatible typefunction concept must be calledfunction declaration isn%'t a prototypefunction declared %<noreturn%> has a %<return%> statementfunction definition declared %<auto%>function definition declared %<register%>function definition declared %<typedef%>function definition declared %qsfunction definition does not declare parametersfunction definition has qualified void return typefunction does not return string typefunction has external linkage when the user requests only inlining static for live patchingfunction may return address of local variablefunction might be candidate for attribute %qsfunction might be candidate for attribute %qs if it is known to return normallyfunction name as the left hand operand of %<<%> is ill-formed in C++20; wrap the function name in %<()%>function name expected for start addressfunction name expected for start address, not `%s`function not considered for inliningfunction not declared inline and code size would growfunction not inlinablefunction not inline candidatefunction or array type %qT in %<#pragma omp declare reduction%>function or array type in %<#pragma omp declare reduction%>function parameterfunction pointers not supported with %<-mabi=ti%> optionfunction result count mismatchfunction return type cannot be functionfunction return types not compatible due to %<volatile%>function returning a functionfunction returning an arrayfunction returns address of labelfunction returns address of local variablefunction returns an aggregatefunction symbol is not functionfunction template %qD redeclared as a class templatefunction template-id %qD in nested-name-specifierfunction types not truly compatible in ISO Cfunction versions cannot be marked as %<gnu_inline%>, bodies have to be generatedfunction with qualified void return type calledfunction-scope %qE implicitly auto and declared %qsfunction-scope %qs implicitly auto and declared %<__thread%>function-try-block body of %<constexpr%> constructor only available with %<-std=c++20%> or %<-std=gnu++20%>function-try-block body of %<constexpr%> function only available with %<-std=c++20%> or %<-std=gnu++20%>function_profiler supportfunction_profiler support for MMIXfunctional cast to array type %qTfunctions cannot be scopegarbage at end of %<#pragma nomember_alignment%>gcc driver version %s %sexecuting gcc version %s
gcc version %s %s
gcov %s%s
generate_isocbinding_initializer(): bad iso_c_binding type, expected %<c_ptr%> or %<c_funptr%>get_mpz(): Not an integer constantgetting core file size maximum limit: %mgfc_add_interface(): Bad interface typegfc_arith_divide(): Bad basic typegfc_arith_error(): Bad error codegfc_arith_minus(): Bad basic typegfc_arith_plus(): Bad basic typegfc_arith_times(): Bad basic typegfc_arith_uminus(): Bad basic typegfc_array_dimen_size(): Bad EXPR_ARRAY exprgfc_array_dimen_size(): Bad dimensiongfc_array_size failedgfc_ascii_statement(): Bad statement codegfc_basic_typename(): Undefined typegfc_caf_attr(): Bad array referencegfc_caf_attr(): Expression isn't a variablegfc_check_dependency: expecting an EXPR_VARIABLEgfc_check_digit(): bad radixgfc_code2string(): Bad codegfc_compare_array_spec(): Array spec clobberedgfc_compare_derived_types: invalid derived typegfc_compare_expr(): Bad basic typegfc_copy_expr(): Bad expr nodegfc_expression_rank(): Two array specsgfc_find_array_ref(): No ref foundgfc_free_statement(): Bad statementgfc_get_constant_expr(): locus %<where%> cannot be NULLgfc_get_default_type(): Bad symbol %qsgfc_is_constant_expr(): Unknown expression typegfc_match(): Bad match code %cgfc_match_sym_complex_part(): Bad typegfc_op2string(): Bad codegfc_range_check() returned bad valuegfc_range_check(): Bad typegfc_ref_dimen_size(): Bad dimen_typegfc_ref_dimen_size(): Bad dimensiongfc_resolve_blocks(): Bad block typegfc_resolve_code(): Bad statement codegfc_resolve_code(): No expression on DO WHILEgfc_resolve_expr(): Bad expression typegfc_set_default_type(): symbol already has a typegfc_simplify_abs(): Bad typegfc_simplify_dcmplx(): Bad type (x)gfc_simplify_dcmplx(): Bad type (y)gfc_simplify_dim(): Bad typegfc_simplify_floor(): Bad kindgfc_simplify_log: bad typegfc_simplify_mod(): Bad argumentsgfc_simplify_modulo(): Bad argumentsgfc_trans_code(): Bad statement codegfc_trans_omp_workshare(): Bad statement codegfc_trans_select(): Bad type for case expr.gfc_typename(): Undefined typegfc_validate_kind(): Got bad kindgfc_validate_kind(): Got bad typegfc_variable_attr(): Expression isn't a variablegfortran does not support -E without -cppgfortran: Only one %<-J%> option allowedgimple call has no targetgimple call has two targetsgimple check: expected %s(%s), have %s(%s) in %s, at %s:%dgimple_bb (phi) is set to a wrong basic blockgimple_bb (stmt) is set to a wrong basic blockgimplification failedglobal constructors not supported on this targetglobal destructors not supported on this targetglobal module fragment contents must be from preprocessor inclusionglobal qualification of class name is invalidglobal register variable %qD used in nested functionglobal register variable follows a function definitionglobal register variable has initial valueglobal/static variable assignment has been interceptedglobals, statics, fields, manifest constants, ref and out parameters cannot be scopegot %d template parameters for %q#Dgot %d template parameters for %q#Tgoto destination is neither a label nor a pointergp is constant (but save/restore gp on indirect calls).gp_offset (%ld) or end_offset (%ld) is less than zerograve accent %<`%> in formatgsplit-dwarf is not supported on this platformhad to relocate PCHhard-float MIPS16 code for ABIs other than o32 and o64hardware decimal floating point instructions not available in ESA/390 modehardware decimal floating point instructions not available on %shardware vector support not available on %shardware vector support not available with %<-msoft-float%>has different parameters in another translation unithas different return value in another translation unithas forward referenceshas inexact value, due to loss of precisionhas no `return` statement, but is expected to return a value of type `%s`has no function body with return type inferencehead insn %d for block %d not found in the insn streamherehigh bound %qE above array section size in %qs clausehistogram value statement does not correspond to the statement it is associated withiWMMXt and NEON are incompatibleiWMMXt unsupported under Thumb modeia64_print_operand: unknown codeidentical_array_ref(): inconsistent dimensionsidentifier %qE conflicts with C++ keywordidentifier %qE is a keyword in C++11identifier %qE is a keyword in C++20identifier expected after %<@protocol%>identifier overflow: %dif any %<if%> clause has modifier, then all %<if%> clauses have to use modifierif avoiding the apostrophe is not feasible, enclose it in a pair of %qs and %qs directives insteadif this code is reached, the program will abortif using %qs is not feasible, use %qs insteadignoring %<#pragma %s %s%>ignoring %<#pragma align%> for explicitly aligned %q+Dignoring %<#pragma omp declare simd%> on function with %<_Atomic%> qualified non-%<uniform%> argumentignoring %<#pragma omp declare simd%> on function with %<_Atomic%> qualified return typeignoring %<-fschedule-insns%> because of exception handling bugignoring %<asm%> specifier for non-static local variable %q+Dignoring %qD attribute on anonymous namespaceignoring %qD attribute on non-inline namespaceignoring %qE attribute applied to template instantiation %qTignoring %qE attribute applied to template specialization %qTignoring %qE attribute not set on a variableignoring %qE attribute set on const variableignoring %qE attribute set on initialized variableignoring %qE attribute set on uninitialized variableignoring attribute %<%E (%u)%> because it conflicts with attribute %<%E (%u)%>ignoring attribute %qE after earlier %qEignoring attribute %qE because it conflicts with attribute %<either%>ignoring attribute %qE because it conflicts with attribute %<lower%>ignoring attribute %qE because it conflicts with attribute %<noinit%>ignoring attribute %qE because it conflicts with attribute %<persistent%>ignoring attribute %qE because it conflicts with attribute %<section%>ignoring attribute %qE because it conflicts with attribute %<upper%>ignoring attribute %qE because it conflicts with attribute %qsignoring attribute %qE in declaration of a built-in function %qD because it conflicts with attribute %qsignoring attribute %qs because it conflicts with previous %qsignoring attributes applied to %qT after definitionignoring attributes applied to class type %qT outside of definitionignoring attributes applied to dependent type %qT without an associated declarationignoring attributes in template argument %qEignoring attributes on template argument %qTignoring duplicate directory "%s"
ignoring large linear stepignoring loop annotationignoring malformed %<#pragma longcall%>ignoring nonexistent directory "%s"
ignoring packed attribute because of unpacked non-POD field %q#Dignoring possibly conflicting option %<-fopt-info-%s%>ignoring return value of %qD declared with attribute %<warn_unused_result%>ignoring return value of %qD, declared with attribute %<nodiscard%>ignoring return value of %qD, declared with attribute %<nodiscard%>%signoring return value of %qD, declared with attribute %<nodiscard%>: %<%s%>ignoring return value of %qD, declared with attribute %<nodiscard%>: %Eignoring return value of %qD, declared with attribute %<warn_unused_result%>ignoring return value of function declared with attribute %<warn_unused_result%>ignoring return value of type %qT, declared with attribute %<nodiscard%>ignoring return value of type %qT, declared with attribute %<nodiscard%>: %Eignoring returned value of type %qT, declared with attribute %<nodiscard%>%signoring returned value of type %qT, declared with attribute %<nodiscard%>: %<%s%>ignoring sink clause with offset that is not a multiple of the loop stepignoring the %q#D declarationignoring unknown option %q.*signoring unrecognized switch %<-mcustom-fpu-cfg%> value %<%s%>ignoring zero linear stepillegal OP in optimize_comparisonillegal aggregate type %qE specified for instance variable %qsillegal argument 0 to %qsillegal operand illegal operand address (1)illegal operand address (2)illegal operand address (3)illegal operand address (4)illegal operand detectedillegal reference type specified for instance variable %qsimmediate evaluation returns address of immediate function %qDimmediate value must fit into a %d-bit integer for %simplicit capture of %qE via %<[=]%> is deprecated in C++20implicit conversion from %qH to %qI to match other operand of binary expressionimplicit conversion from %qH to %qI to match other result of conditionalimplicit conversion from %qH to %qI when passing argument to functionimplicit conversion from %qT to %qTimplicit conversion from %qT to %qT to match other operand of binary expressionimplicit conversion from %qT to %qT to match other result of conditionalimplicit conversion from %qT to %qT when passing argument to functionimplicit declaration of function %qEimplicit declaration of function %qE; did you mean %qs?implicit dereference will not access object of type %qT in for increment expressionimplicit dereference will not access object of type %qT in left operand of comma operatorimplicit dereference will not access object of type %qT in right operand of comma operatorimplicit dereference will not access object of type %qT in second operand of conditional expressionimplicit dereference will not access object of type %qT in statementimplicit dereference will not access object of type %qT in third operand of conditional expressionimplicit mapping of assumed size array %qDimplicit templates may not be %<virtual%>implicit this pointer type mismatchimplicit_section flag is set but section isn%'timplicitly popped registers must be grouped at top of stackimplicitly-declared %qD is deprecatedimplied END DOimport cannot appear directly in a linkage-specificationimport declared %q#D hereimport-declaration must be at global scopeimport_iso_c_binding_module(): Unable to create symbol for %simported atimpossible constraint in %<asm%>impossible register constraint in %<asm%>impossible type assertion: type does not implement interfacein %s, at %s:%din C++03 a class-key must be used when declaring a friendin C++11 and above a default constructor can be explicitin C++11 destructors default to %<noexcept%>in C++11 this %<throw%> will call %<terminate%> because destructors default to %<noexcept%>in C++20 this comparison calls the current function recursively with reversed argumentsin C++98 %<template%> (as a disambiguator) is only allowed within templatesin C++98 %q+D may not be static because it is a member of a unionin C++98 %qD must be initialized by constructor, not by %<{...}%>in a call to %qD declared with attribute %<%s%> herein a call to %qT declared with attribute %<%s%>in a call to allocation function %qD declared herein a call to built-in allocation function %qDin a call to built-in function %qDin a call to function %qDin a call to function %qD declared %qsin a call to function %qD declared with attribute %qsin a call to non-static member function %qDin a call with type %qTin a call with type %qT and attribute %qsin and out contracts can only appear without a body when they are virtual interface functions or abstractin argument to unary !in basic block %d:in call to %qD, declared herein declaration %q+Din definition of macro %qsin expansion of macro %qsin gfc_simplify_acos(): Bad typein gfc_simplify_acosh(): Bad typein gfc_simplify_asin(): Bad typein gfc_simplify_asinh(): Bad typein gfc_simplify_atan(): Bad typein gfc_simplify_atanh(): Bad typein gfc_simplify_cos(): Bad typein gfc_simplify_exp(): Bad typein gfc_simplify_sin(): Bad typein initialization of structured binding variable %qDin passing argument %P of %qDin template argument for type %qTin the definition of %q#Tin this expressionin-class initialization of static data member %q#D of incomplete typein-class initialization of static data member %q#D of non-literal typeinaccessible plugin file %s expanded from short plugin name %s: %minappropriate accumulator for %qsinclude %qs or provide a declaration of %qDinclude %qs or provide a declaration of %qEincoming edge count does not match number of PHI argumentsincompatible %qs clause when applying %<%s%> to %qD, which has already been marked with an OpenACC 'routine' directiveincompatible address space qualifiers %qs and %qsincompatible covariant types %s and %sincompatible data clause with reduction on %qE; promoting to %<present_or_copy%>incompatible floating point / vector register operand for '%%%c'incompatible implicit declaration of built-in function %qDincompatible implicit declaration of function %qDincompatible options %<-mstack-protector-guard=global%> and %<-mstack-protector-guard-offset=%s%>incompatible register operand for '%%%c'incompatible type for argument %d of %qEincompatible type for map indexincompatible type for method %s%s%sincompatible type for method %s%s%s (%s)incompatible type for receiverincompatible types in %<PHI%> argument %uincompatible types in assignment of %qT to %qTincompatible types in binary expressionincompatible types in sendincompatible types when assigning to type %qT from type %qTincompatible types when initializing type %qT using type %qTincompatible types when returning type %qT but %qT was expectedincompatible vector types in conditional expression: %qT, %qT and %qTincomplete implementation of category %qEincomplete implementation of class %qEincomplete mixin declaration (%s)incomplete type %qT does not have member %qDincomplete type %qT is not mappableincomplete type %qT used in nested name specifierinconsistent %<ifunc%> attributeinconsistent begin/end types in range-based %<for%> statement: %qT and %qTinconsistent capitalization in formatinconsistent deduction for %qT: %qT and then %qTinconsistent deduction for auto return type: %qT and then %qTinconsistent instance variable specificationinconsistent operand constraints in an %<asm%>inconsistent types %qT and %qT deduced for lambda return typeinconsistent user-defined literal suffixes %qD and %qD in string literalincorrect comparison modeincorrect entry in %<label_to_block_map%>incorrect format in scaling, using 1/1
incorrect hint operandincorrect insn:incorrect number of arguments to function %qEincorrect number of vector %qs elementsincorrect property %qs of %qs selectorincorrect rounding operandincorrect setting of landing pad numberincorrect sharing of tree nodesincorrect type of vector %qs elementsincorrect type of vector CONSTRUCTOR elementsincorrectly nested OpenACC loop parallelismincrement expression refers to iteration variable %qDincrement is not constant 1 or -1 for %<!=%> conditionincrement of a boolean expressionincrement of constant field %qDincrement of enumeration value is invalid in C++increment of function %qDincrement of member %qD in read-only objectincrement of pointer to an incomplete type %qTincrement of read-only location %qEincrement of read-only member %qDincrement of read-only named return value %qDincrement of read-only parameter %qDincrement of read-only reference %qDincrement of read-only variable %qDincremented enumerator value is too large for %<long%>incremented enumerator value is too large for %<unsigned long%>index %E denotes an offset greater than size of %qTindex in dimension %d is out of bounds at %Lindex must be integerindex value instead of field name in union initializerindex value is out of boundindirect call count does not match BB countindirect call in function, which are not supported by eBPFindirect call in speculative call sequence has no speculative flagindirect function %q+D cannot be declared %qEindirect function %q+D cannot be declared weakindirect function call with a yet undetermined calleeindirect jumps are not available on this targetindirect_call attribute can%'t apply for static functionindirection will not access object of incomplete type %qT in for increment expressionindirection will not access object of incomplete type %qT in left operand of comma operatorindirection will not access object of incomplete type %qT in right operand of comma operatorindirection will not access object of incomplete type %qT in second operand of conditional expressionindirection will not access object of incomplete type %qT in statementindirection will not access object of incomplete type %qT in third operand of conditional expressionindirection will not access object of non-trivially-copyable type %qT in for increment expressionindirection will not access object of non-trivially-copyable type %qT in left operand of comma operatorindirection will not access object of non-trivially-copyable type %qT in right operand of comma operatorindirection will not access object of non-trivially-copyable type %qT in second operand of conditional expressionindirection will not access object of non-trivially-copyable type %qT in statementindirection will not access object of non-trivially-copyable type %qT in third operand of conditional expressioninferred scalar type %qT is not an integer or floating-point type of the same size as %qTinherited constructor %qD is not %<constexpr%>inheriting constructors only available with %<-std=c++11%> or %<-std=gnu++11%>inherits from duplicate interface %sinit function found in object %sinit-statement in selection statements only available with %<-std=c++17%> or %<-std=gnu++17%>init_arglist(): too many argumentsinitialization discards %qv qualifier from pointer target typeinitialization from distinct Objective-C typeinitialization from pointer to non-enclosed address spaceinitialization left-hand side might be a candidate for a format attributeinitialization makes %q#v qualified function pointer from unqualifiedinitialization of %qT from %qT makes integer from pointer without a castinitialization of %qT from %qT makes pointer from integer without a castinitialization of %qT from incompatible pointer type %qTinitialization of %qT from pointer to %qD with incompatible type %qTinitialization of %qT from pointer type %qT with incompatible scalar storage orderinitialization of a flexible array memberinitialization of common block variable %qs in DATA statement at %Cinitialization of flexible array member in a nested contextinitialization of new-expression for type %<auto%> requires exactly one elementinitialization of non-const reference type %q#T from rvalue of type %qTinitialization of volatile reference type %q#T from rvalue of type %qTinitialization with (%s.%s + 1) causes overflow for type `%s`initializations for multiple members of %qTinitialized field overwritteninitialized field with side-effects overwritteninitialized member %q+D declared hereinitialized variable %q+D is marked dllimportinitializer element is not a constant expressioninitializer element is not computable at load timeinitializer element is not constantinitializer ends prematurelyinitializer expression refers to iteration variable %qDinitializer fails to determine size of %q+Dinitializer fails to determine size of %qDinitializer fails to determine size of %qTinitializer for %<decltype(auto) %D%> has function type; did you forget the %<()%>?initializer for %q#D expands to an empty list of expressionsinitializer for %q#D is invalidinitializer for %qT must be brace-enclosedinitializer for flexible array member %q#Dinitializer for floating value is not a floating constantinitializer for integer/fixed-point value is too complicatedinitializer in range-based %<for%> loopinitializer invalid for static member with constructorinitializer provided for functioninitializer specified for friend function %qDinitializer specified for non-virtual method %q+Dinitializer specified for static member function %qDinitializer-string for %qT is too longinitializing %qD from %qE does not extend the lifetime of the underlying arrayinitializing %qH with %qI in converted constant expression does not bind directlyinitializing a base class of type %qT results in object slicinginjected-class-name %qD used as template template argumentinline assembly is not a constant expressioninline clone count is not compatibleinline clone in same comdat group listinline clone is forced to outputinline clone with address takeninline declaration of %qD follows declaration with attribute %<noinline%>inline function %q+D declared as dllimport: attribute ignoredinline function %q+D declared but never definedinline function %q+D declared weakinline function %q+D given attribute %qsinline function %qD given attribute %qsinline function %qD used but never definedinline namespace must be specified at initial definitioninline namespaces only available with %<-std=c++11%> or %<-std=gnu++11%>inline variables are only available with %<-std=c++17%> or %<-std=gnu++17%>inlined_to pointer is set but no predecessors foundinlined_to pointer is wronginlined_to pointer refers to itselfinlined_to pointer set for noninline callersinlining failed in call to %<always_inline%> %q+F: %sinlining failed in call to %q+F: %sinner loop uses same OpenACC parallelism as containing loopinout variables can only be declared inside inout functionsinput file %qs is the same as output fileinput operand constraint contains %qcinsert_bbt(): Duplicate key foundinsertion out of range in %qsinsn %d basic block pointer is %d, should be %dinsn %d in footer of bb %d has non-NULL basic blockinsn %d in header of bb %d has non-NULL basic blockinsn %d is in multiple basic blocks (%d and %d)insn %d outside of basic blocks has non-NULL bb fieldinsn addresses not freedinsn addresses not set after shorten_branchesinsn contains an invalid address !insn does not satisfy its constraints:insn outside basic blockinsn with UID %i not found for operand %i (`%s') of insn %iinsn with UID %i not found for operand %i of insn %iinstall: %s%s
installation error, cannot find %<crtoffloadtable.o%>instance variable %qE accessed in class methodinstance variable %qE is %s; this will be a hard error in the futureinstance variable %qE is declared %sinstance variable %qE is declared privateinstance variable %qs has unknown sizeinstance variable %qs is declared privateinstance variable %qs uses flexible array memberinstance variable assignment has been interceptedinstruction never executedinstruction scheduling not supported on this target machineinsufficient contextual information to determine typeinsufficient partitioning available to parallelize element loopinsufficient partitioning available to parallelize loopinsufficient partitioning available to parallelize tile loopinteger constant is too large for %<unsigned long%> typeinteger division by zerointeger literal exceeds range of %qT typeinteger overflow in array sizeinteger overflow in expression %qE of type %qT results in %qEinteger overflow in expression of type %qT results in %qEinteger suffix %qs shadowed by implementationintegral expression %qE is not constantintegral result type precision does not match field size of %qsinterface %qE does not have valid constant string layoutinternal compiler errorinternal compiler error.  Bad address:internal compiler error.  Incorrect shift:internal compiler error.  Unknown mode:internal compiler error: internal consistency failureinternal error: bad register: %dinternal error: builtin function %qs already processedinternal error: builtin function %qs had an unexpected return type %qsinternal error: builtin function %qs, argument %d had unexpected argument type %qsinternal error: cris_side_effect_mode_ok with bad operandsinternal procedure %qs at %L conflicts with DUMMY argumentinternal unit in WRITEinterrupt and naked attributes are not compatibleinterrupt handlers cannot be MIPS16 functionsinterrupt handlers cannot have argumentsinterrupt service routine can only have a pointer argument and an optional integer argumentinterrupt service routine cannot be called directlyinterrupt service routine must return %<void%>interrupt service routine should have %qs as the second argumentinterrupt service routine should have a pointer as the first argumentinterrupt vector to %qE attribute is not vector=(sw0|sw1|hw0|hw1|hw2|hw3|hw4|hw5)interrupt_thread is available only on fidointrinsic register index is out of rangeintrinsic variable which isn't a procedureinvalid %%%c operandinvalid %%-codeinvalid %%A operandinvalid %%A valueinvalid %%B operandinvalid %%C operandinvalid %%C valueinvalid %%D operandinvalid %%D valueinvalid %%E valueinvalid %%F valueinvalid %%G modeinvalid %%G valueinvalid %%H operandinvalid %%H specifierinvalid %%H valueinvalid %%I operandinvalid %%J codeinvalid %%J valueinvalid %%K valueinvalid %%L operandinvalid %%L valueinvalid %%M operandinvalid %%M valueinvalid %%N operandinvalid %%N valueinvalid %%O valueinvalid %%P operandinvalid %%P valueinvalid %%R valueinvalid %%T valueinvalid %%U valueinvalid %%V valueinvalid %%Y operandinvalid %%c operandinvalid %%d operandinvalid %%d valueinvalid %%e valueinvalid %%f operandinvalid %%f valueinvalid %%h operandinvalid %%h valueinvalid %%i operandinvalid %%j codeinvalid %%j operandinvalid %%j valueinvalid %%k valueinvalid %%m valueinvalid %%p valueinvalid %%q valueinvalid %%r operandinvalid %%r valueinvalid %%s operandinvalid %%s valueinvalid %%t operandinvalid %%t valueinvalid %%t/%%b valueinvalid %%u valueinvalid %%v valueinvalid %%x valueinvalid %%xn codeinvalid %%y value, try using the 'Z' constraintinvalid %%z valueinvalid %<#pragma %s%>invalid %<CASE_CHAIN%>invalid %<CPU_TYPE%> value of %qs read from %<devices.csv%> for %qsinvalid %<MPY_TYPE%> value of %qs read from %<devices.csv%> for %qsinvalid %<PHI%> argumentinvalid %<PHI%> resultinvalid %<const_cast%> from type %qT to type %qTinvalid %<const_cast%> of an rvalue of type %qT to type %qTinvalid %<static_cast%> from type %qT to type %qTinvalid %<task%> reduction modifier on construct combined with %<simd%> or %<loop%>invalid %<task%> reduction modifier on construct not combined with %<parallel%>, %<for%> or %<sections%>invalid %<task%> reduction modifier on construct other than %<parallel%>, %qs or %<sections%>invalid %qs offset operatorinvalid 'asm': invalid (pointer) operands %qsinvalid IACC argumentinvalid LHS in gimple callinvalid Objective-C++ selector nameinvalid OpenACC clause at file scopeinvalid OpenMP non-rectangular loop step; %<(%E - %E) * %E%> is not a multiple of loop %d step %qEinvalid RHS for gimple memory store: %qsinvalid UNSPEC as operandinvalid UNSPEC as operand: %dinvalid _Literalinvalid abstract parameter type %qTinvalid abstract return type %qTinvalid abstract return type for function %q+#Dinvalid abstract return type for member function %q+#Dinvalid abstract type %qT for %qEinvalid abstract type for %q+Dinvalid access to non-static data member %qD in virtual base of NULL objectinvalid addressinvalid address for 'O' output modifierinvalid address for 'R' output modifierinvalid address for 'S' output modifierinvalid address in operandinvalid address modeinvalid address operand in %qsinvalid addressing modeinvalid alignment for %<#pragma align%>, ignoringinvalid alignment value for %<__builtin_arc_aligned%>invalid application of %<__alignof%> to a bit-fieldinvalid application of %<sizeof%> to a bit-fieldinvalid application of %<sizeof%> to a function typeinvalid application of %qs to a member functioninvalid application of %qs to a void typeinvalid application of %qs to array type %qT of incomplete element typeinvalid application of %qs to incomplete type %qTinvalid architecture for target attribute or pragma %qsinvalid argument %<%s%> for %<-mbranch-protection=%>invalid argument %<%s%> for %<-mharden-sls=%>invalid argument %d for builtin %qFinvalid argument %qs to %qsinvalid argument given to %<-mharden-sls=%>invalid argument of %qE attributeinvalid argument of %qs attributeinvalid argument of SQRT at %Linvalid argument to %qDinvalid argument to built-in functioninvalid argument to built-in function %sinvalid argument to gimple callinvalid argumentsinvalid arguments for %<-falign-%s%> option: %qsinvalid arguments for %<-fpatchable-function-entry%>invalid array assignmentinvalid base %qE for SSA nameinvalid base-class specificationinvalid block indexinvalid branch to/from %s structured blockinvalid calls_comdat_local flaginvalid case label in switch statementinvalid case range in switch statementinvalid cast from type %qT to type %qTinvalid cast of a prvalue expression of type %qT to type %qTinvalid cast to abstract class type %qTinvalid cast to function type %qTinvalid class name in declaration of %qDinvalid clique in %qsinvalid combination of multiple type-specifiersinvalid comparison code in gimple condinvalid comparison of generated arrayinvalid comparison of generated structinvalid comparison of nil with nilinvalid comparison of non-comparable arrayinvalid comparison of non-comparable structinvalid comparison of non-comparable typeinvalid comparison of non-ordered typeinvalid comparison operator for 'E' output modifierinvalid const_double operandinvalid constantinvalid constant - try using an output modifierinvalid constant for output modifier '%c'invalid constant in %<#pragma %s%>invalid constant in %<#pragma pack%> - ignoredinvalid constant vector for output modifier '%c'invalid constrained type parameterinvalid constraints for operandinvalid constructor; you probably meant %<%T (const %T&)%>invalid control register for mvtc : %d - using 'psw'invalid controlling predicateinvalid conversion from %<__fpreg%>invalid conversion from %qH to %qIinvalid conversion from type %<* __vector_pair%>invalid conversion from type %<* __vector_quad%>invalid conversion from type %<__vector_pair%>invalid conversion from type %<__vector_quad%>invalid conversion from type %<bfloat16_t%>invalid conversion in gimple callinvalid conversion in return statementinvalid conversion to %<__fpreg%>invalid conversion to type %<* __vector_pair%>invalid conversion to type %<* __vector_quad%>invalid conversion to type %<__vector_pair%>invalid conversion to type %<__vector_quad%>invalid conversion to type %<bfloat16_t%>invalid conversion to type %qT from type %qTinvalid covariant return type for %q#Dinvalid covariant return type for %q+#Dinvalid cpu %qs for %s%qs%sinvalid custom instruction option %qsinvalid data model option %<-mdata-model=%s%>invalid declaration of %<%T::%E%>invalid declaration of member template in local classinvalid declaratorinvalid default argument for a template template parameterinvalid default case label in switch statementinvalid definition of qualified type %qTinvalid depend kindinvalid depend kind in omp %<ordered%> %<depend%>invalid dist_schedule kindinvalid element type for attribute %qsinvalid encoding prefix in literal operatorinvalid entry to %s structured blockinvalid exit from %s structured blockinvalid exit from OpenMP structured blockinvalid explicit specializationinvalid expression - try using an output modifierinvalid expression as operandinvalid expression for min lvalueinvalid expression for output modifier '%c'invalid expression type for %<#pragma omp atomic%>invalid failure memory model for %<__atomic_compare_exchange%>invalid feature modifier %qs in %<-march=%s%>invalid feature modifier %qs in %<-mcpu=%s%>invalid feature modifier %s of value ("%s") in %<target()%> pragma or attributeinvalid fn spec attribute "%s"invalid fn spec attribute "%s" arg %iinvalid fnsummary in LTO streaminvalid form of %<#pragma omp atomic%>invalid format for sve_widthinvalid format of %sinvalid fp constantinvalid fpu for target attribute or pragma %qsinvalid function in gimple callinvalid hard register usage between earlyclobber operand and input operandinvalid hard register usage between output operand and matching constraint operandinvalid hard register usage between output operandsinvalid id value for exception attributeinvalid id value for interrupt attributeinvalid id value for interrupt/exception attributeinvalid id value for reset attributeinvalid in-class initialization of static data member of non-integral type %qTinvalid increment expressioninvalid initial value for member %qEinvalid initialization of non-const reference of type %qH from an rvalue of type %qIinvalid initialization of reference of type %qH from expression of type %qIinvalid initializerinvalid initializer clauseinvalid initializer for %q#Dinvalid initializer for array member %q#Dinvalid initializer for member function %qDinvalid initializer for structured binding declarationinvalid insn:invalid iterating variable in fast enumerationinvalid jump function in LTO streaminvalid labels in gimple condinvalid left hand side of assignmentinvalid line in the resolution fileinvalid linkage-specificationinvalid location for %<pragma %s%>, ignoredinvalid lvalue in %<asm%> output %dinvalid map kindinvalid maskinvalid mask type in %qsinvalid member template declaration %qDinvalid memory model argument %d of %qEinvalid memory model argument to builtininvalid memory model for %<__atomic_load%>invalid memory model for %<__atomic_store%>invalid name ("%s") in %<target("arch=")%> pragma or attributeinvalid name ("%s") in %<target("cpu=")%> pragma or attributeinvalid name ("%s") in %<target("tune=")%> pragma or attributeinvalid new-expression of abstract class type %qTinvalid nmi function for reset attributeinvalid non-type template argumentinvalid non-vector operands to %qsinvalid number in %<-mrgf-banked-regs=%s%> valid values are 0, 4, 8, 16, or 32invalid number of arguments for %<-falign-%s%> option: %qsinvalid offload table in %sinvalid offset operand in %qsinvalid operandinvalid operand %%xn codeinvalid operand addressinvalid operand code '%c'invalid operand for '%%%c'invalid operand for 'A' modifierinvalid operand for 'D' modifierinvalid operand for 'H' modifierinvalid operand for 'O' modifierinvalid operand for 'T' modifierinvalid operand for 'b' modifierinvalid operand for 'e' modifierinvalid operand for 'm' modifierinvalid operand for 'o' modifierinvalid operand for 'p' modifierinvalid operand for 'r' specifierinvalid operand for 'z' modifierinvalid operand for code '%c'invalid operand in %qsinvalid operand in indirect referenceinvalid operand in return statementinvalid operand in unary operationinvalid operand modifier letterinvalid operand output codeinvalid operand prefixinvalid operand prefix '%%%c'invalid operand size for operand code 'O'invalid operand size for operand code 'Z'invalid operand size for operand code 'z'invalid operand to %%H/%%L codeinvalid operand to %%M codeinvalid operand to %%N codeinvalid operand to %%O codeinvalid operand to %%Rinvalid operand to %%R codeinvalid operand to %%Sinvalid operand to %%T/%%B codeinvalid operand to %%U codeinvalid operand to %%V codeinvalid operand to %%Z codeinvalid operand to %%p codeinvalid operand to %%s codeinvalid operand to %%z codeinvalid operand to switch statementinvalid operand type %qT for %qsinvalid operand type used with operand code 'Z'invalid operands in binary operationinvalid operands in gimple comparisoninvalid operands in ternary operationinvalid operands of types %qT and %qT to binary %qOinvalid operands to %%c codeinvalid operands to %qsinvalid operands to binary %s (have %qT and %qT)invalid operationinvalid operation (%s)invalid operation on %<__fpreg%>invalid operator for %<#pragma omp atomic%>invalid order in asm node %iinvalid parameter combination for AltiVec intrinsic %qsinvalid parameter combination for intrinsic %qsinvalid parameter type %qTinvalid pass positioning operationinvalid pointer mode %qsinvalid pointer to bit-field %qDinvalid position or size in %qsinvalid position or size operand to %qsinvalid private reduction on %qEinvalid proc_bind kindinvalid protection type ("%s") in %<target("branch-protection=")%> pragma or attributeinvalid prototype for '%s'invalid punctuation %qc in constraintinvalid pure const state for functioninvalid pure specifier (only %<= 0%> is allowed)invalid qualifiers on non-member function typeinvalid qualifying scope in pseudo-destructor nameinvalid receive on send-only channelinvalid receiver type %qsinvalid reduction-identifierinvalid reference for 'J' output modifierinvalid register name for %q+Dinvalid regular expression %qs in %qsinvalid relocationinvalid resolution in the resolution fileinvalid return type %qT of %<constexpr%> function %q+Dinvalid rtl sharing found in the insninvalid schedule kindinvalid second argument to %<__builtin_prefetch%>; using zeroinvalid send on receive-only channelinvalid setter, it must have one argumentinvalid shift operandinvalid source block specificationinvalid static chain in gimple callinvalid storage class for function %qEinvalid sve_width value: %dinvalid target memregs value %<%d%>invalid template declaration of %qDinvalid template non-type parameterinvalid template-argument-listinvalid template-idinvalid third argument to %<__builtin_prefetch%>; using zeroinvalid type %<void%> for %<new%>invalid type %qT as initializer for a vector of type %qTinvalid type %qT declared %<friend%>invalid type argument (have %qT)invalid type argument of %<->%> (have %qT)invalid type argument of %<->*%> (have %qT)invalid type argument of array indexing (have %qT)invalid type argument of implicit conversion (have %qT)invalid type argument of unary %<*%> (have %qT)invalid type for %<asm%> flag outputinvalid type for _Literal with constructorinvalid type for instance variableinvalid type for iteration variable %qEinvalid type for make functioninvalid type for parameter %d of %<constexpr%> function %q+#Dinvalid type for propertyinvalid type of %<__MEM%> operandinvalid type of argument %u of type-generic functioninvalid type-generic return type for argument %u of %<__builtin_tgmath%>invalid type-generic type for argument %u of argument %u of %<__builtin_tgmath%>invalid types %<%T[%T]%> for array subscriptinvalid types for %qsinvalid types in address space conversioninvalid types in conversion to floating-pointinvalid types in conversion to integerinvalid types in fixed-point conversioninvalid types in nop conversioninvalid use of %%d, %%x, or %%Xinvalid use of %<...%> calling non-variadic functioninvalid use of %<...%> with builtin functioninvalid use of %<...%> with non-sliceinvalid use of %<::%>invalid use of %<auto%> in conversion operatorinvalid use of %<auto%> in default template argumentinvalid use of %<auto%> in exception-specificationinvalid use of %<auto%> in template argumentinvalid use of %<const_cast%> with type %qT, which is a pointer or reference to a function typeinvalid use of %<const_cast%> with type %qT, which is not a pointer, reference, nor a pointer-to-data-member typeinvalid use of %<decltype(auto)%>invalid use of %<extern%> variable %qD in %<#pragma acc declare%>invalid use of %<global%> variable %qD in %<#pragma acc declare%>invalid use of %<restrict%>invalid use of %<this%> at top levelinvalid use of %<this%> in non-member functioninvalid use of %q#T with a flexible array member in %q#Tinvalid use of %q#T with a zero-size array in %q#Dinvalid use of %qDinvalid use of %qD in linkage specificationinvalid use of %qE to form a pointer-to-member-functioninvalid use of %qTinvalid use of %qT in template argumentinvalid use of '%%%c'invalid use of MMA operand of type %qs as a function parameterinvalid use of MMA type %qs as a function return valueinvalid use of a pointer to an incomplete type in pointer arithmeticinvalid use of array indexing on pointer to memberinvalid use of array with unspecified boundsinvalid use of asm flag outputinvalid use of attribute %<fallthrough%>invalid use of attributes in empty declarationinvalid use of brace-enclosed initializer listinvalid use of constructor as a templateinvalid use of cv-qualified type %qT in parameter declarationinvalid use of dependent type %qTinvalid use of destructor %qD as a typeinvalid use of destructor %qE as a typeinvalid use of flexible array memberinvalid use of implicit conversion on pointer to memberinvalid use of incomplete type %q#Tinvalid use of incomplete typedef %qTinvalid use of member %qD (did you forget the %<&%> ?)invalid use of member %qD in static member functioninvalid use of member function %qD (did you forget the %<()%> ?)invalid use of method value as argument of Offsetofinvalid use of non-lvalue arrayinvalid use of non-static data member %qDinvalid use of non-static data member %qEinvalid use of non-static member function %qDinvalid use of non-static member function of type %qTinvalid use of pack expansion %qTinvalid use of pack expansion expressioninvalid use of placeholder %qTinvalid use of qualified-name %<%D::%D%>invalid use of qualified-name %<%T::%D%>invalid use of qualified-name %<::%D%>invalid use of register '%s'invalid use of structure with flexible array memberinvalid use of template template parameter %qTinvalid use of template type parameter %qTinvalid use of template-id %qD in declaration of primary templateinvalid use of template-name %qE without an argument listinvalid use of typeinvalid use of type %<void%> in parameter declarationinvalid use of type %qT as a default value for a template template-parameterinvalid use of unary %<*%> on pointer to memberinvalid use of undefined type %qTinvalid use of void expressioninvalid use of volatile lvalue inside %<transaction_safe%> functioninvalid use of volatile lvalue inside transactioninvalid user-defined conversion from %qH to %qIinvalid value-initialization of reference typeinvalid vector comparison resulting typeinvalid vector constantinvalid vector immediateinvalid vector type for attribute %qEinvalid vector types in nop conversioninvalid version number %qsinvalid warm function for reset attributeinvalid zero extractinverted slice rangeio_kind_name(): bad I/O-kindipa inline summary is missing in input fileipa reference summary is missing in ltrans unitis a pointer to mutable struct. Only pointers to const, immutable or shared struct thread local variable are allowed, not %sis mutable. Only const or immutable class thread local variable are allowed, not %sis nested within %s, but super class %s is nested within %sis not a static and cannot have static initializeris not nested, but super class %s is nested within %sis_c_interoperable(): gfc_simplify_expr failedit is defined as a pointer in different address space in another translation unitit is defined as a pointer to different type in another translation unitit must be a pointer-to-member of the form %<&X::Y%>it must be the address of a function with external linkageit must be the name of a function with external linkageit was later defined hereitem in READiterating variable in fast enumeration is not an objectiteration %s invokes undefined behavioriteration variable %qD should not be firstprivateiteration variable %qD should not be reductioniteration variable %qE is predetermined lineariteration variable %qE should be privateiteration variable %qE should not be firstprivateiteration variable %qE should not be lineariteration variable %qE should not be reductioniterator %qD has %<_Atomic%> qualified typeiterator %qD has const qualified typeiterator %qD has neither integral nor pointer typeiterator %qD has zero stepiterator step with non-integral typeiterator variableits dest_idx should be %d, not %divar %qs used by %<@synthesize%> declaration must be an existing ivariwmmxt abi requires an iwmmxt capable cpuiwmmxt requires an AAPCS compatible ABI for proper operationjump into scope of identifier with variably modified typejump into statement expressionjump skips variable initializationjump to case labeljump to label %qDjunk at end of #pragma ADDRESSjunk at end of #pragma GCC memregs [0..16]junk at end of #pragma __nostandardjunk at end of #pragma __standardjunk at end of #pragma ghs endsdajunk at end of #pragma ghs endtdajunk at end of #pragma ghs endzdajunk at end of #pragma ghs interruptjunk at end of #pragma ghs sectionjunk at end of #pragma ghs startsdajunk at end of #pragma ghs starttdajunk at end of #pragma ghs startzdajunk at end of %<#pragma %s%>junk at end of %<#pragma CTABLE_ENTRY%>junk at end of %<#pragma GCC visibility%>junk at end of %<#pragma align%>junk at end of %<#pragma fini%>junk at end of %<#pragma init%>junk at end of %<#pragma longcall%>junk at end of %<#pragma message%>junk at end of %<#pragma ms_struct%>junk at end of %<#pragma options%>junk at end of %<#pragma pack%>junk at end of %<#pragma pop_options%>junk at end of %<#pragma push_options%>junk at end of %<#pragma redefine_extname%>junk at end of %<#pragma reset_options%>junk at end of %<#pragma unused%>junk at end of %<#pragma weak%>junk at end of '#pragma extern_model'keyword %<export%> is deprecated, and is ignoredkeyword %<export%> is enabled with %<-fmodules-ts%>keyword %<export%> not implemented, and will be ignoredkeyword %<template%> not allowed in class-head-namekeyword %<template%> not allowed in declarator-idkeyword %<typename%> not allowed in this context (a qualified member initializer is implicitly a type)keyword %<typename%> not allowed in this context (the base class is implicitly a type)keyword %<typename%> not allowed outside of templateslabel label %q+D declared but not definedlabel %q+D defined but not usedlabel %q+D used but not definedlabel %qD defined herelabel %qE referenced outside of any functionlabel at end of compound statementlabel context is not the current function declarationlabel definition is not a constant expressionlambda capture initializers only available with %<-std=c++14%> or %<-std=gnu++14%>lambda capture of %qE is not a constant expressionlambda expressions only available with %<-std=c++11%> or %<-std=gnu++11%>lambda in local class %q+T cannot capture variables from the enclosing contextlambda parameter %qD previously declared as a capturelambda templates are only available with %<-std=c++14%> or %<-std=gnu++14%>lambda templates are only available with %<-std=c++20%> or %<-std=gnu++20%>lambda-expression in template parameter typelambda-expression in template-argument only available with %<-std=c++20%> or %<-std=gnu++20%>lambda-expression in unevaluated context only available with %<-std=c++20%> or %<-std=gnu++20%>lambda-expression is not a constant expression before C++17lambdas are implicitly %<constexpr%> only in C++17 and laterlane %wd out of range %wd - %wdlanguage %s not recognizedlanguage string %<"%E"%> not recognizedlarge fixed-point constant implicitly truncated to fixed-point typelarge return values not supported with %<-mabi=ti%> optionlast argument must be an immediatelast register name %s must be an odd registerld returned %d exit statusleft argument must be a sliceleft hand operand of %<->*%> must be a pointer to class, but is a pointer to member of type %qTleft operand of comma operator cannot resolve address of overloaded functionleft operand of comma operator has no effectleft operand of comma operator is a reference, not call, to function %qEleft operand of shift expression %q+E is negativeleft precisionleft precision in strfmon formatleft shift count >= width of typeleft shift count >= width of vector elementleft shift count is negativeleft shift of negative valueleft-hand operand of comma expression has no effectleft-hand side of assignment might be a candidate for a format attributelen larger than caplength %qE above array section size in %qs clauselength %qE of array section does not have integral typelength computed herelength modifierlength modifier in printf formatlength modifier in scanf formatlength modifier in strfmon formatlength required when allocating a sliceletter %c was found & insn was not CONST_INTlibraries: %s
library function %q#D redeclared as non-function %q#Dlibrary lib%s not foundlimit is %wu bytes, but argument is %slimit is %wu bytes, but argument may be as large as %slinear clause applied to non-integral non-pointer variable with %qT typelinear clause applied to non-integral non-pointer variable with type %qTlinear clause with %qs modifier applied to non-reference variable with %qT typelinear step expression must be integrallist-initializer for non-class type must not be parenthesizedlisting the stack pointer register %qs in a clobber list is deprecatedliteral operator %q#D conflicts with raw literal operatorliteral operator suffixes not preceded by %<_%> are reserved for future standardizationliteral operator template %qD has invalid parameter list; expected non-type template parameter pack %<<char...>%>literal operator template %qD has invalid parameter list; expected non-type template parameter pack %<<char...>%> or single non-type parameter of class typeliteral operator with C linkagelive patching is not supported with LTOlo_sum not of registerlocal class %q#T shall not have static data member %q#Dlocal data-share memory exhaustedlocal declaration from a different functionlocal declaration of %qE hides instance variablelocal label %qE conflicts with existing labellocal member %q#D declared herelocal method %q#D declared herelocal symbols must be definedlocal variable %qD may not appear in this contextlocal variable memory requirements exceed capacitylocation of the previous reduction for %qElocation references block not in block treelogical %<and%> applied to non-boolean constantlogical %<and%> of equal expressionslogical %<and%> of mutually exclusive tests is always falselogical %<or%> applied to non-boolean constantlogical %<or%> of collectively exhaustive tests is always truelogical %<or%> of equal expressionslogical not is only applied to the left hand side of comparisonlogical_to_bitwise(): Bad intrinsiclookup of %qT in %qT is ambiguousloop %d%'s header does not belong directly to itloop %d%'s header does not have exactly 2 entriesloop %d%'s header is not a loop headerloop %d%'s latch does not belong directly to itloop %d%'s latch does not have an edge to its headerloop %d%'s latch does not have exactly 1 successorloop %d%'s latch does not have header as successorloop %d%'s latch is marked as part of irreducible regionloop %d%'s latch is not dominated by its headerloop uses OpenACC parallelism disallowed by containing routineloop variable %qD creates a copy from type %qTloop variable %qD of type %qT binds to a temporary constructed from type %qTloop verification on loop tree that needs fixuploop with header %d marked for removalloop with header %d not in loop treelooser exception specification on overriding virtual function %q+#Flow bound %qE above array section size in %qs clauselow bound %qE of array section does not have integral typelower value in case label range less than minimum value for typelseek failed while reading export datalvalue required as decrement operandlvalue required as increment operandlvalue required as left operand of assignmentlvalue required as unary %<&%> operandlvalue required in %<asm%> statementlvalue-to-rvalue conversion of a volatile lvalue %qE with type %qTmachine independent builtin code out of rangemacro expands to multiple statementsmacro name missing after %qsmain variant is not definedmake_generic(): Cannot find generic symbol %qsmaking multiple clones of %qDmalformed #pragma ADDRESS variable addressmalformed #pragma builtinmalformed #pragma ghs sectionmalformed %<#pragma %s%>, ignoredmalformed %<#pragma %s%>, ignoringmalformed %<#pragma CTABLE_ENTRY%> variable addressmalformed %<#pragma GCC pch_preprocess%>malformed %<#pragma GCC visibility push%>malformed %<#pragma align%>malformed %<#pragma align%>, ignoringmalformed %<#pragma extern_model%>, ignoringmalformed %<#pragma fini%>malformed %<#pragma fini%>, ignoringmalformed %<#pragma init%>malformed %<#pragma init%>, ignoringmalformed %<#pragma member_alignment%>malformed %<#pragma member_alignment%>, ignoringmalformed %<#pragma message%>, ignoredmalformed %<#pragma ms_struct {on|off|reset}%>, ignoringmalformed %<#pragma ms_struct%>, ignoringmalformed %<#pragma options align={mac68k|power|reset}%>, ignoringmalformed %<#pragma options%>, ignoringmalformed %<#pragma pack%> - ignoredmalformed %<#pragma pack(pop[, id])%> - ignoredmalformed %<#pragma pack(push[, id][, <n>])%> - ignoredmalformed %<#pragma redefine_extname%>, ignoredmalformed %<#pragma weak%>, ignoredmalformed %<COLLECT_GCC_OPTIONS%>malformed %<target("%s")%> pragma or attributemalformed %<target()%> pragma or attributemalformed '#pragma __extern_prefix', ignoringmalformed option %<-fplugin-arg-%s%>: missing %<-<key>[=<value>]%>malformed ptx filemalformed spec function argumentsmalformed spec function namemalloc attribute should be used for a function that returns a pointermangled name characters can only be of type charmangled name for %qD will change in C++17 because the exception specification is part of a function typemangling %<__underlying_type%>mangling %<typeof%>, use %<decltype%> insteadmangling %Cmangling of %q#D as %qE conflicts with a previous manglemangling unknown fixed point typemanifest constants must have initializersmap can only be compared to nilmapping field %qE of variable length structuremask must be an immediatematch_attr_spec(): Bad attributematch_level_4(): Bad operatormatch_string_constant(): Delimiter not foundmatching constraint does not allow a registermatching constraint not valid in output operandmatching constraint references invalid operand numbermaximal number of LTO partitions streamed in parallel.maximum limit of %d namespaces searched for %qEmaximum number of LRA assignment passes is achieved (%d)maximum number of generated reload insns per insn achieved (%d)may not use both -EB and -ELmay not use both -m32 and -m64mduc registers only saved for G13 targetmedia functions are not available unless %<-mmedia%> is usedmem-initializer for %qD follows constructor delegationmember %q+#D with constructor not allowed in anonymous aggregatemember %q+#D with constructor not allowed in unionmember %q+#D with copy assignment operator not allowed in anonymous aggregatemember %q+#D with copy assignment operator not allowed in unionmember %q+#D with destructor not allowed in anonymous aggregatemember %q+#D with destructor not allowed in unionmember %q+D cannot be declared as a %<mutable%> referencemember %q+D cannot be declared both %<const%> and %<mutable%>member %qD can be declared both %<virtual%> and %<constexpr%> only in %<-std=c++20%> or %<-std=gnu++20%>member %qD cannot be declared both %<virtual%> and %<static%>member %qD declared as friend before type %qT definedmember %qD in read-only object used as %<asm%> outputmember %qD is uninitialized referencemember %qD must be initialized by mem-initializer in %<constexpr%> constructormember %qD with uninitialized reference fieldsmember functions are implicitly friends of their classmember template %qD may not have virt-specifiersmembers of an explicitly specialized class are defined without a template headermemory allocation failed while reading export datamemory input %d is not directly addressablememory layout mismatchmemory reference expected for 'S' output modifiermethod %<%c%E%> declared %<@optional%> and %<@required%> at the same timemethod %s%s%s is marked go:nointerfacemethod %s%s%s requires a pointer receivermethod argument attributes are not available in Objective-C 1.0method attributes are not available in Objective-C 1.0method attributes cannot be specified in @implementation contextmethod attributes must be specified at the endmethod attributes must be specified at the end onlymethod declaration not in @interface contextmethod declared %qE overriding %qE methodmethod definition for %<%c%E%> not foundmethod definition not in @implementation contextmethod overrides both %<transaction_pure%> and %qE methodsmethod possibly missing a [super dealloc] callmethod type does not match object typemin partition size cannot be greater than max partition sizemio_array_ref(): Unknown array refmips16 function profilingmismatch in argument %u type of built-in function %qD; expected %qTmismatch in bound %Z of argument %u declared as %smismatch in bounds %Z of argument %u declared as %smismatch in number of arguments for builtin %qF. Expected: %d got %dmismatch in return type of built-in function %qD; expected %qTmismatched argument pack lengths while expanding %qEmismatched argument pack lengths while expanding %qTmismatched declarations during linktime optimizationmismatched operator in fold-expressionmismatching comparison operand typesmismatching definitionmismatching parensmisplaced %<@%D%> Objective-C++ constructmissing $ operand number in formatmissing %<(%> after %<#pragma GCC visibility push%> - ignoredmissing %<(%> after %<#pragma pack%> - ignoredmissing %<(%> after %<#pragma unused%>, ignoringmissing %<)%> after %<#pragma unused%>, ignoringmissing %<PHI%> defmissing %<target%> attribute for multi-versioned %qDmissing %qs clause when applying %<%s%> to %qD, which has already been marked with an OpenACC 'routine' directivemissing REG_EH_REGION note at the end of bb %imissing [big-endian|little-endian|default] after %<#pragma scalar_storage_order%>missing [error|warning|ignored|push|pop] after %<#pragma GCC diagnostic%>missing additional %<requires%> to start a requires-expressionmissing arch name in %<-march=%s%>missing argument for %<-mbranch-protection=%>missing argument to %<target("branch-protection=")%> pragma or attributemissing argument to %qsmissing barrier after block %imissing braces around initializermissing braces around initializer for %qTmissing callgraph edge for call stmt:missing close brace for named operandmissing close parenmissing collection in fast enumerationmissing controlling predicatemissing cpu name in %<-mcpu=%s%>missing cpu name in %<-mtune=%s%>missing dashmissing definitionmissing device or architecture after %qsmissing direct call for speculation %imissing edge %i->%imissing filename after %qsmissing fill character at end of strfmon formatmissing header namemissing increment expressionmissing indirect call in speculative call sequencemissing initializer for %s field %smissing initializer for field %qD of %qTmissing initializer for member %qDmissing loop condition in loop with %<GCC ivdep%> pragmamissing loop condition in loop with %<GCC unroll%> pragmamissing makefile target after %qsmissing mappermissing method %s%s%smissing module namemissing name in %<target("arch=")%> pragma or attributemissing name in %<target("cpu=")%> pragma or attributemissing numbermissing open parenmissing operandmissing option after %<#pragma GCC diagnostic%> kindmissing or corrupt object.dmissing origin for a node in a nested listmissing path after %qsmissing primary template attribute %smissing primary template attributes %smissing property attributemissing ref for speculation %imissing resolution data for %smissing sentinel in function callmissing template argumentsmissing template arguments after %qTmissing terminating %c charactermissing type-name in typedef-declarationmissing value in %<target()%> pragma or attributemisspelled term %<%.*s%> in format; use %<%s%s%> insteadmixin templates are not regular templatesmixing declarations and function-definitions is forbiddenmixing different types of symbol in same comdat groups is not supportedmode %qs applied to inappropriate typemode size of non-integral result does not match field size of %qsmodification of %qE is not a constant expressionmodifier should not be specified in %<linear%> clause on %<simd%> or %<for%> constructsmodifying a const object %qE is not allowed in a constant expressionmodule nature in USE statement at %Cmodule-declaration not permitted in header-unitmodule-declaration only permitted as first declaration, or ending a global module fragmentmore than %d operands in %<asm%>more than one %<atomic_default_mem_order%> clause in a single compilation unitmore than one %<depend%> clause with %<source%> modifier on an %<ordered%> constructmore than one 'crtl' directivemore than one access specifier in base-specifiermore than one locator in %<depend%> clause on %<depobj%> constructmoving a local object in a return statement prevents copy elisionmpfr not configured to handle all floating modesmsp430_select_hwmult_lib needs one or more argumentsmulti-source compilation not implemented for C++multidimensional array must have bounds for all dimensions except the firstmultilib exclusion %qs is invalidmultilib exclusions %qs is invalidmultilib select %qs %qs is invalidmultilib select %qs is invalidmultilib spec %qs is invalidmultiple %<-mcpu=%> options specified.multiple %<default%> targets were setmultiple EH personalities are supported only with assemblers supporting %<.cfi_personality%> directivemultiple declarations in range-based %<for%> loopmultiple default labels in one switchmultiple definition of %q#Tmultiple fast interrupt routines seen: %qE and %qEmultiple fields in union %qT initializedmultiple function type attributes specifiedmultiple hot/cold transitions found (bb %i)multiple initializations given for %qDmultiple initializations given for base %qTmultiple inline callersmultiple interrupt attributes not allowedmultiple interrupt attributes to function %qDmultiple iterating variables in fast enumerationmultiple methods named %<%c%E%> foundmultiple nested types attributes to function %qDmultiple overrides of same functionmultiple parameters named %qDmultiple prevailing defs for %qEmultiple property %qE methods specified, the latest one will be usedmultiple ref-qualifiersmultiple save reg attributes to function %qDmultiple selectors named %<%c%E%> foundmultiple storage classes in declaration of %qsmultiple storage classes in declaration specifiersmultiple types in one declarationmultiple virtual PHI nodes in BB %dmultiple-value argument in single-value contextmultiple-value function call in single-value contextmultiply option implies r%d is fixedmultiversioning needs %<ifunc%> which is not supported on this targetmultiversioning needs ifunc which is not supported on this targetmust %<#include <typeinfo>%> before using %<typeid%>must use %<.*%> or %<->*%> to call pointer-to-member function in %<%E (...)%>, e.g. %<(... ->* %E) (...)%>mutable %qD is not usable in a constant expressionnaked assembly functions with contracts are not supportednaked attribute only applies to functionsname %qD used in a GNU-style designated initializer for an arrayname %qT has incomplete typename %qs differs from name %qs defined in another translation unitname %qs is defined to %wd while another translation unit defines it as %wdname %qs is defined to different value in another translation unitname missing for member functionname of class shadows template template parameter %qDname used in a GNU-style designated initializer for an arraynamed return values are no longer supportednamespace %qD enterednamespace alias %qD not allowed here, assuming %qDnamespace name requirednamespace-scope anonymous aggregates must be staticnarrowing conversion of %qE from %qH to %qInarrowing conversion of %qE from %qH to %qI is ill-formed in C++11need %<typename%> before %<%T::%D::%E%> because %<%T::%D%> is a dependent scopeneed %<typename%> before %<%T::%E%> because %qT is a dependent scopeneed %<typename%> before %qE because %qT is a dependent scopeneed explicit conversionneed explicit conversion; missing method %s%s%snegative insn lengthnegative length in array section in %qs clausenegative low bound in array section in %qs clausenegative nesting depth of region %inegative shift countnegative width in bit-field %q+Dnegative width in bit-field %qsneither the destructor nor the class-specific %<operator delete%> will be called, even if they are declared when the class is definedneither the destructor nor the class-specific operator %<delete []%> will be called, even if they are declared when the class is definednested assembly dialect alternativesnested extern declaration of %qDnested function %q+D declared but never definednested function %qE declared %<extern%>nested function %qs declared %<extern%>nested function trampolines not supported on GCN5 due to non-executable stacksnested function trampolines not supported on this targetnested functions cannot be profiled with %<-mfentry%> on s390nested functions not supported on this targetnested inline namespace definitions only available with %<-std=c++20%> or %<-std=gnu++20%>nested loop in reduction needs reduction clause for %qEnested name specifier %qT for enum declaration does not name a class or namespacenested namespace definitions only available with %<-std=c++17%> or %<-std=gnu++17%>nested namespace name requirednested quoting directivenested redefinition of %<enum %E%>nested redefinition of %<struct %E%>nested redefinition of %<union %E%>new cannot be applied to a function typenew cannot be applied to a reference typenew declaration %q#D ambiguates built-in declaration %q#Dnew in Fortran 2003new in Fortran 2008new in Fortran 2018new in Fortran 95new types may not be defined in a return typenext member %q#D declared hereno %<%D(int)%> declared for postfix %qsno %<%D(int)%> declared for postfix %qs, trying prefix operator insteadno %<%c%E%> method foundno %q#D member function declared in class %qTno %qs getter foundno FPX/FPU mixing allowedno FUNCTION_PROFILER for CRISno LTRANS output list filename providedno `return exp;` or `assert(0);` at end of functionno argumentsno arguments for spec functionno attribute can be applied to an explicit instantiationno class name specified with %qsno class template named %q#T in %q#Tno closing %<]%> for %<%%[%> formatno closing braceno constructorsno context to resolve type of %qEno conversion operators declaredno corresponding deallocation function for %qDno data type for mode %qsno declaration matches %q#Dno declaration of property %qs found in the interfaceno default argument for %qDno definition of struct `%s`no destructorsno dispatcher found for the versioning attributesno dispatcher found for the versioning attributes: %sno field %qD found in union being initializedno functions named %qDno immediate_use listno input filesno input files; unwilling to write output filesno integral type can represent all of the enumerator values for %qTno low registers available for popping high registersno match for no match for call to %<(%T) (%A)%>no match for implicit super() call in constructorno matches converting function %qD to type %q#Tno matching concept for template-introductionno matching fixed-point overload found for %qsno matching function for call to %<%D(%A)%>no matching function for call to %<%T::%s%E(%A)%#V%>no matching function for call to %<%T::operator %T(%A)%#V%>no matching function for call to %<%s(%A)%>no matching function for type-generic callno matching push for %<#pragma GCC visibility pop%>no matching template for %qD foundno member function %qD declared in %qTno post-decrement operator for typeno post-increment operator for typeno pre-decrement operator for typeno pre-increment operator for typeno previous declaration for %qDno previous prototype for %qDno processor type specified for linkingno profiling of 64-bit code for this ABIno register in addressno return statement in %<constexpr%> function returning non-voidno return statement in function returning non-voidno return statements in function returning %qTno sclass for %s stab (0x%x)no semicolon at end of struct or unionno suitable %<operator %s%> for %qTno suitable %qD found in class %qTno super class declared in @interface for %qEno super class declared in interface for %qEno type named %q#T in %q#Tno type or storage class may be specified here,no unexpanded parameter packs in binary foldno unique final overrider for %qD in %qTno valid clauses specified in %<#pragma acc declare%>node differs from node->decl->decl_with_vis.symtab_nodenode has body_removed but is definitionnode has invalid order %inode has unknown typenode is alias but not definitionnode is alias but not implicit aliasnode is alone in a comdat groupnode is analyzed but it is not a definitionnode is in same_comdat_group list but has no comdat_groupnode is symver but not aliasnode is transparent_alias but not an aliasnode is weakref but not an transparent_aliasnode not found in symtab assembler name hashnode not found node->decl->decl_with_vis.symtab_nodenodes with unreleased memory foundnoexcept-expression evaluates to %<false%> because of a call to %qDnon 32 bit register operand for '%%%c'non double precision REAL argument to %s intrinsic at %Lnon-%<consteval%> function %q+D overriding %<consteval%> functionnon-AAPCS derived PCS variantnon-ASCII character in CFString literalnon-NULL pointer initialization at %Cnon-OpenACC construct inside of OpenACC regionnon-OpenACC construct inside of OpenACC routinenon-array deallocation of object allocated with array allocationnon-call exception handling mismatchnon-class, non-variable partial specialization %qE is not allowednon-cold basic block %d reachable only by paths crossing the cold partitionnon-const integer argument %u in call to function %qEnon-constant argument 0 to %qsnon-constant argument 1 to %qsnon-constant array in DATA statement %Lnon-constant array initializationnon-constant array new length must be specified directly, not by %<typedef%>non-constant array new length must be specified without parentheses around the type-idnon-constant compound literals cannot appear in a constant-expressionnon-constant condition for static assertionnon-constant element in constant CONSTRUCTORnon-constant in-class initialization invalid for non-inline static member %qDnon-constant in-class initialization invalid for static member %qDnon-constant initialization expression at %Lnon-deducible template %qT used without template argumentsnon-default INTEGER kind argument to %s intrinsic at %Lnon-delegitimized UNSPEC %s (%d) found in variable locationnon-deleted function %q+D overriding deleted functionnon-floating-point argument in call to function %qEnon-floating-point arguments in call to function %qEnon-function %qD declared as implicit templatenon-function in gimple callnon-integer argument 1 to %qsnon-integer argument 3 in call to function %qEnon-integer memory model argument %d of %qEnon-integer operand used with operand code %<z%>non-integral type switch statementnon-local lambda expression cannot have a capture-defaultnon-local variable %qD declared %<__thread%> has a non-trivial destructornon-local variable %qD declared %<__thread%> needs dynamic initializationnon-loop with header %d not marked for removalnon-lvalue array in conditional expressionnon-member %qs cannot be declared %<mutable%>non-member function %qD cannot have cv-qualifiernon-member function %qD cannot have ref-qualifiernon-member using-declaration names constructor of %qTnon-member-template declaration of %qDnon-memory input %d must stay in memorynon-memory output %d must stay in memorynon-nested function with variably modified typenon-object member %qs cannot be declared %<mutable%>non-objective-c type %qT cannot be caughtnon-parameter %qs cannot be a parameter packnon-pointer argument to %<__builtin_launder%>non-register as LHS of binary operationnon-register as LHS of ternary operationnon-register as LHS of unary operationnon-scalar %qsnon-scalar typenon-scalar variable %qD in conditional %<lastprivate%> clausenon-standard suffix on floating constantnon-static const member %q#D in class without a constructornon-static const member %q#D, cannot use default assignment operatornon-static data member %q+D in a union may not have reference type %qTnon-static data member %qE declared %qsnon-static data member declared with placeholder %qTnon-static data member initializers only available with %<-std=c++11%> or %<-std=gnu++11%>non-static declaration of %q+D follows static declarationnon-static initialization of a flexible array membernon-static reference %q#D in class without a constructornon-static reference member %q#D, cannot use default assignment operatornon-template %qD used as templatenon-template type %qT used as a templatenon-thread-local declaration of %q#D follows thread-local declarationnon-thread-local declaration of %q+D follows thread-local declarationnon-top-level %qsnon-trivial conversion in %qsnon-trivial conversion in unary operationnon-trivial designated initializers not supportednon-type partial specialization %qE is not allowednon-type template parameters of class type only available with %<-std=c++20%> or %<-std=gnu++20%>non-type template parameters of deduced class type only available with %<-std=c++20%> or %<-std=gnu++20%>non-variable %qD in declaration with more than one declarator with placeholder typenon-vector %qs with elementsnon-vector operands in vector comparisonnonconstant array index in initializernonempty exits list of loop %d, but exits are not recordednonlocal label nonzero array subscript %qE is used with array %qD of type %qT with unknown boundsnonzero array subscript %qE is used with array of type %qT with unknown boundsnormalization cannot co-exist with scaling
not allowed type combination in %qsnot configured with sysroot headers suffixnot enough DO loops for %s !$ACC LOOP at %Lnot enough DO loops for collapsed %s at %Lnot enough argumentsnot enough arguments to returnnot enough for loops to collapsenot enough perfectly nested loopsnot enough type informationnot enough variable arguments to fit a sentinelnot generating patch area, nops not supportednot support %<-fpic%> option for v3m toolchainnotenote: null pointernull pointer dereferencenullability specifier %qE cannot be applied to multi-level pointer type %qTnullability specifier %qE cannot be applied to non-pointer type %qTnumber must be 0 or 1number of arguments doesn%'t match built-in prototypenumber of arguments doesn%'t match prototypenumber of bb notes in insn chain (%d) != n_basic_blocks (%d)number of components of the vector not a power of twonumber of components of vector not a power of twonumber of counters in profile data for function %qD does not match its profile data (counter %qs, expected %i and have %i)number of results does not match number of valuesnumber of speculative targets %i mismatched with num_speculative_call_targets %inumber of variables in %<depend%> clause with %<sink%> modifier does not match number of iteration variablesnumeric argument of %qE attribute must be in range 0..63objc++-cpp-output is deprecated; please use objective-c++-cpp-output insteadobjc-cpp-output is deprecated; please use objective-c-cpp-output insteadobject is not a methodobject missing in use of %qEobject property %qD has no %<assign%>, %<retain%> or %<copy%> attribute; assuming %<assign%>object type %qT does not match destructor name ~%qTobject with variably modified type must have no linkageobjective-c method declaration is expectedobjective-c++ message argument(s) are expectedobjective-c++ message receiver expectedobjective-c++ method declaration is expectedobsolescent in Fortran 95obsolete Maverick format code '%c'obsolete option %<-I-%> used, please use %<-iquote%> insteadobsolete use of designated initializer with %<:%>obsolete use of designated initializer without %<=%>obtained hereodr-used inline variable %qD is not definedof moduleof type struct %s uses this(this), which is not allowed in static initializationoffload compiler %s not foundoffload compiler %s not found (consider using %<-B%>)offload dimension out of range (%d)offset %qwi outside bounds of constant stringoffset exceeds 16 bytesoffset of %qD is not ABI-compliant and may change in a future version of GCCoffset of packed bit-field %qD has changed in GCC 4.4old declaration %q#Dold-style function definitionold-style parameter declarations in prototyped function definitionomitted middle operand to %<?:%> operand cannot be mangledone argument of type void* expectedone argument of type void* expected, not %sone field is a bitfield while the other is notone of the initializer call arguments should be %<&omp_priv%>one of the initializer call arguments should be %<omp_priv%> or %<&omp_priv%>one type needs to be constructed while the other does notonly %<distribute%>, %<parallel%> or %<loop%> regions are allowed to be strictly nested inside %<teams%> regiononly %<inbranch%> and %<notinbranch%> flags are allowed for %<__simd__%> attributeonly %u name provided for structured bindingonly %u names provided for structured bindingonly 0.0 can be loaded as an immediateonly DWARF debug format is supported for interrupt service routineonly Objective-C object types can be qualified with a protocolonly attribute %<fallthrough%> can be applied to a null statementonly constructors take member initializersonly declarations of constructors and conversion operators can be %<explicit%>only here as a %<friend%>only parameters or foreach declarations can be refonly parameters or stack based variables can be inoutonly plain %<auto%> return type can be deduced to %<void%>only unevaluated inline assembly is allowed in a %<constexpr%> function in C++20only uninitialized variables can be placed in a .bss sectiononly uninitialized variables can be placed in the .noinit sectiononly values 12 (4 KB) and 16 (64 KB) are supported for guard size.  Given value %d (%llu KB) is out of rangeonly weak aliases are supported in this configurationonly zero initializers are allowed in section %qsopaque vector types cannot be initializedopaque-enum-declaration hereopaque-enum-specifier must use a simple identifieropaque-enum-specifier without nameopen %s failed: %sopen /dev/zero: %mopening LTRANS output list %s: %mopening dependency file %s: %mopening output file %qs: %sopening output file %s: %moperand %%xn code invalid for QImodeoperand %d should be a 3 bit unsigned immediateoperand %d should be a 6 bit unsigned immediateoperand %d should be a 8 bit unsigned immediateoperand 1 should be an unsigned 3-bit immediateoperand 1 should be an unsigned 3-bit value (I0-I7)operand 2 should be an even 3-bit value (subreg 0,2,4,6)operand 2 should be an unsigned 3-bit value (I0-I7)operand 2 should be an unsigned 3-bit value (subreg 0-7)operand 2 should be an unsigned 8-bit valueoperand 3 should be an unsigned 3-bit value (I0-I7)operand 3 should be an unsigned 8-bit valueoperand 4 should be an unsigned 8-bit value (0-255)operand constraint contains incorrectly positioned %<+%> or %<=%>operand constraints for %<asm%> differ in number of alternativesoperand is not a condition code, invalid operand code '%c'operand is not a condition code, invalid operand code 'D'operand is not a condition code, invalid operand code 'Y'operand is not a specific integer, invalid operand code 'R'operand is not a specific integer, invalid operand code 'r'operand is not an integer, invalid operand code 'K'operand is not an integer, invalid operand code 'R'operand is not an offsettable memory reference, invalid operand code 'H'operand must be an immediate of the right sizeoperand number missing after %%-letteroperand number out of rangeoperand number out of range in formatoperand number specified for format taking no argumentoperand number specified with suppressed assignmentoperand of %<?:%> changes signedness from %qT to %qT due to unsignedness of other operandoperand of fold expression has no unexpanded parameter packsoperand type %qT is incompatible with argument %d of %qEoperand types are %qT and %qToperands to %<?:%> have different types %qT and %qToperands to %T/%t must be reg + const_int:operation not permitted on type %<bfloat16_t%>operation on %qE may be undefinedoptimization attribute on %qD follows definition but the attribute doesn%'t matchoptimization level attribute mismatchoptimization may eliminate reads and/or writes to register variablesoption %<%s=%s%> is not available for %qs CPUoption %<-mdouble=32%> is only available if configured %<--with-double={32|32,64|64,32}%>option %<-mdouble=64%> is only available if configured %<--with-double={64|64,32|32,64}%>option %<-mirq-ctrl-saved%> valid only for ARC v2 processorsoption %<-mlong-double=32%> is only available if configured %<--with-long-double={32|32,64|64,32}%>, or %<--with-long-double=double%> together with %<--with-double={32|32,64|64,32}%>option %<-mlong-double=64%> is only available if configured %<--with-long-double={64|64,32|32,64}%>, or %<--with-long-double=double%> together with %<--with-double={64|64,32|32,64}%>option %<-mrgf-banked-regs%> valid only for ARC v2 processorsoption %<-mstructure-size-boundary%> is deprecatedoption %qs is ignored, the default value %qs is considered for %qs CPUoption %qs is not available for %qs CPUoption %qs is valid for %s but not for %soption %qs with mismatching values (%s, %s)option %s is not supported together with %<-fopenacc%>option %s not used consistently in all LTO input filesoption %s with different valuesoptional argumentoptional class parameteroptions or targets missing after %qsoptype_msgid overflow: %dor replace parentheses with braces to aggregate-initialize a variableor replace parentheses with braces to value-initialize a variableor use %<j%> instead of %<i%> for the GNU built-in suffixordered argument needs positive constant integer expressionordered comparison of pointer with integer zeroordered comparison of pointer with integer zero (%qT and %qT)ordered comparison of pointer with null pointerorigin points to a different parentoriginal %<default%> is hereoriginal declaration appeared hereoriginal definition appeared hereoriginal not compressed with zstdoriginal size unknownoriginally declared %<const%> hereoriginally defined hereoriginally indirect function call not considered for inliningoriginally specified hereorphaned %qs constructother match is hereought to match virtual method %qD but does notouter %<__transaction_cancel%> not within outer %<__transaction_atomic%>outer %<__transaction_cancel%> not within outer %<__transaction_atomic%> or a %<transaction_may_cancel_outer%> functionouter block of region %i is wrongouter iteration variable %qD addend expression %qE is not integralouter iteration variable %qD multiplier expression %qE is not integralouter iteration variable %qD used in condition expression has type other than %qTouter iteration variable %qD used in initializer expression has type other than %qTouter transaction in %<transaction_may_cancel_outer%> functionouter transaction in %<transaction_safe%> functionouter transaction in transactionoutput constraint %d cannot be specified together with %qs clobberoutput constraint %d must specify a single registeroutput constraint %qc for operand %d is not at the beginningoutput file %s already exists in folder %soutput file not specifiedoutput filename may not be emptyoutput filename specified twiceoutput number %d not directly addressableoutput operand %d must use %<&%> constraintoutput operand constraint lacks %<=%>output operand is constant in %<asm%>output registers must be grouped at top of stackoutput_move_single:overflow in array dimensionoverflow in constant expressionoverflow in conversion from %qT to %qT changes the value of %qEoverflow in conversion from %qT to %qT changes value from %qE to %qEoverflow in enumeration valuesoverflow in enumeration values at %qDoverflowed output argument list for %qsoverloaded function name %qE in clause %qsoverloaded function with no contextual type informationoverridden function is %q#Doverridden function is %q#Foverridden function is %qDoverride controls (override/final) only available with %<-std=c++11%> or %<-std=gnu++11%>override only applies to class member functionsoverriding %qD declared %<transaction_safe%>pack expansion argument for non-pack parameter %qD of alias template %qDpack expansion argument for non-pack parameter %qD of concept %qDpack expansion in using-declaration only available with %<-std=c++17%> or %<-std=gnu++17%>pack init-capture only available with %<-std=c++20%> or %<-std=gnu++20%>packed attribute causes inefficient alignmentpacked attribute causes inefficient alignment for %q+Dpacked attribute causes inefficient alignment for %qEpacked attribute is unnecessarypacked attribute is unnecessary for %q+Dpacked attribute is unnecessary for %qEpadding struct size to alignment boundarypadding struct to align %q+Dparameter %P has incomplete type %qTparameter %P of %qD has incomplete type %qTparameter %q+D declared %<_Noreturn%>parameter %q+D declared %<inline%>parameter %q+D has just a forward declarationparameter %qD declared with void typeparameter %qD has incomplete typeparameter %qD includes pointer to array of unknown bound %qTparameter %qD includes reference to array of unknown bound %qTparameter %qD invalidly declared method typeparameter %qD is initializedparameter %qD may not appear in this contextparameter %qD set but not usedparameter %qP of %qD might be a candidate for a format attributeparameter %s.%s is already definedparameter %u (%q+D) has incomplete typeparameter %u (%q+D) has void typeparameter %u has incomplete typeparameter %u has void typeparameter declaration before lambda declaration specifiers only optional with %<-std=c++2b%> or %<-std=gnu++2b%>parameter declaration before lambda exception specification only optional with %<-std=c++2b%> or %<-std=gnu++2b%>parameter declaration before lambda trailing return type only optional with %<-std=c++2b%> or %<-std=gnu++2b%>parameter declaration before lambda transaction qualifier only optional with %<-std=c++2b%> or %<-std=gnu++2b%>parameter declared %<auto%>parameter may not have variably modified type %qTparameter might be a candidate for a format attributeparameter name missing from parameter listparameter names (without types) in function declarationparameter pack %<__bases%> only valid in template declarationparameter pack %q+D must be at the end of the template parameter listparameter pack %qD cannot have a default argumentparameter pack argument %qE must be at the end of the template argument listparameter pack argument %qT must be at the end of the template argument listparameter pack cannot have a default argumentparameter packs not expanded with %<...%>:parameter passing for argument of type %qT changed in GCC 7.1parameter passing for argument of type %qT changed in GCC 9.1parameter passing for argument of type %qT when C++17 is enabled changed to match C++14 %{in GCC 10.1%}parameter passing for argument of type %qT with %<[[no_unique_address]]%> members changed %{in GCC 10.1%}parameter to builtin must be a string constant or literalparameter to builtin not valid: %sparametrized derived type argumentparent subprogram cannot be inlinedparentheses around %qE cannot be used to form a pointer-to-member-functionparentheses must be omitted if %qE attribute argument list is emptyparentheses must be omitted if attribute argument list is emptyparentheses required around this composite literal to avoid parsing ambiguityparentheses were disambiguated as a function declarationparenthesized initialization is not allowed in OpenMP %<for%> loopparenthesized initializer in array newparse error in SELECT RANK statement at %Cparse error in SELECT TYPE statement at %Cparse error in template argument listpart-ref with pointer attribute near %L is not rightmost part-ref of data-stmt-objectpartial specialization %q+D does not specialize any template arguments and is not more constrained than the primary template; to define the primary template, remove the template argument listpartial specialization %q+D does not specialize any template arguments; to define the primary template, remove the template argument listpartial specialization %qD is not more specialized thanpartial specialization %qT declared %<friend%>partial specialization is not more specialized than the primary template because it replaces multiple parameters with a pack expansionpartial specialization of %qD after instantiation of %qDpartition found but function partition flag not setpass %qs not found but is referenced by new pass %qspass %s does not support cloningpass %s needs a %<set_pass_param%> implementation to handle the extra argument in %<NEXT_PASS%>passing %qT as %<this%> argument discards qualifierspassing %qT chooses %qT over %qTpassing NULL to non-pointer argument %P of %qDpassing argument %d of %qE as %<float%> rather than %<double%> due to prototypepassing argument %d of %qE as %qT rather than %qT due to prototypepassing argument %d of %qE as complex rather than floating due to prototypepassing argument %d of %qE as complex rather than integer due to prototypepassing argument %d of %qE as floating rather than complex due to prototypepassing argument %d of %qE as floating rather than integer due to prototypepassing argument %d of %qE as integer rather than complex due to prototypepassing argument %d of %qE as integer rather than floating due to prototypepassing argument %d of %qE as signed due to prototypepassing argument %d of %qE as unsigned due to prototypepassing argument %d of %qE discards %qv qualifier from pointer target typepassing argument %d of %qE discards qualifiers from pointer target typepassing argument %d of %qE from distinct Objective-C typepassing argument %d of %qE from incompatible pointer typepassing argument %d of %qE from incompatible scalar storage orderpassing argument %d of %qE from pointer to non-enclosed address spacepassing argument %d of %qE makes %q#v qualified function pointer from unqualifiedpassing argument %d of %qE makes integer from pointer without a castpassing argument %d of %qE makes pointer from integer without a castpassing argument %d of %qE with different width due to prototypepassing argument %i to %qs-qualified parameter aliases with argument %Zpassing argument %i to %qs-qualified parameter aliases with arguments %Zpassing arguments to ellipsis of inherited constructor %qDpassing objects of non-trivially-copyable type %q#T through %<...%> is conditionally supportedpassing too large argument on stackpatchable function entry %wu exceeds size %wupath: pedwarnpedwarn: perhaps insert a line break, or other disambiguation, to prevent this being considered a module control-lineperhaps you need explicit template arguments in your nested-name-specifierperhaps you want to explicitly add %<%T::%>permerrorpermerror: pex_init failed: %mplaceholder constraints not satisfiedplaceholder type not allowed in this contextplacement new constructing an array of objects of type %qT and size %qwu in a region of type %qT and size %qwiplacement new constructing an array of objects of type %qT and size %qwu in a region of type %qT and size at most %qwuplacement new constructing an object of type %<%T [%wu]%> and size %qwu in a region of type %qT and size %qwiplacement new constructing an object of type %<%T [%wu]%> and size %qwu in a region of type %qT and size at most %qwuplacement new constructing an object of type %qT and size %qwu in a region of type %qT and size %qwiplacement new constructing an object of type %qT and size %qwu in a region of type %qT and size at most %qwuplease use an explicit cpu name; valid cpu names are: %splugin %qs was specified with different paths: %qs and %qsplugin %s is not licensed under a GPL-compatible license
%splugin %s is not licensed under a GPL-compatible license %splugin %s registered a null callback function for event %splugin %s should be specified before %<-fplugin-arg-%s%> in the command lineplugin cannot register a missing passplugin cannot register an unnamed passplugin cannot register pass %qs without reference pass nameplugin support is disabled; configure with --enable-pluginpointerpointer argumentpointer arithmetic for garbage-collected objects not allowedpointer assignmentpointer member %q+D declared herepointer of type %<void *%> used in arithmeticpointer of type %<void *%> used in subtractionpointer offset from symbol maybe incorrectpointer or allocatable resultpointer target types incompatible in C++pointer targeting address space %qs must be const in %qTpointer targeting address space %qs must be const in %s %q+Dpointer targets in assignment from %qT to %qT differ in signednesspointer targets in initialization of %qT from %qT differ in signednesspointer targets in passing argument %d of %qE differ in signednesspointer targets in returning %qT from a function with return type %qT differ in signednesspointer to a function used in arithmeticpointer to a function used in subtractionpointer to array loses qualifier in conditional expressionpointer to interface type has no methodspointer to member conversion via virtual base %qTpointer to member type %qT incompatible with object type %qTpointer type mismatch between %qT and %qT of %qD and %qD in conditional expressionpointer type mismatch in conditional expressionpointer value used where a complex was expectedpointer value used where a floating-point was expectedpointer-to-member function %qE cannot be called without an object; consider using %<.*%> or %<->*%>pointer-to-member-function type %qT requires an lvaluepointer-to-member-function type %qT requires an lvalue before C++20pointer-to-member-function type %qT requires an rvaluepointer/integer type mismatch in conditional expressionpointers are not permitted as case valuespointers to arrays with different qualifiers are incompatible in ISO Cpointers to disjoint address spaces used in conditional expressionpolymorphic argumentposition plus size exceeds size of referenced object in %qsposition-independent code requires %qsposition-independent code requires the Linux ABIpositional initialization of field in %<struct%> declared with %<designated_init%> attributepositive width required at %Lpossible problem detected in invocation of %<operator delete%>possible problem detected in invocation of operator %<delete []%>post-increment address is not a registerpost-module-declaration imports must be contiguouspost-module-declaration imports must not be from header inclusionpost-module-declaration imports must not be include-translatedpostfix %qD must have %<int%> as its argumentpostfix %qD must have %<int%> as its second argumentpostfix %qD should return %qTpotential null pointer dereferencepower9 target option is incompatible with %<%s=<xxx>%> for <xxx> less than power9pragma is missing closing `;`pragma or attribute %<target("%s")%> does not accept an argumentpragma or attribute %<target("%s")%> does not allow a negated formpragma or attribute %<target("%s")%> is not validpragma or attribute %<target("%s=%s")%> is not validpre-decrement address is not a registerpre-increment address is not a registerprecisionprecision in printf formatpredeclared arithmetic type %qT in %<#pragma omp declare reduction%>predeclared arithmetic type in %<#pragma omp declare reduction%>predicated Thumb instructionpredicated instruction in conditional sequenceprefix %qD should return %qTprefix attributes are ignored before %<@%D%>prefix attributes are ignored for implementationsprefix attributes are ignored for methodsprev_bb of %d should be %d, not %dprevious %<#pragma omp declare reduction%>previous %<pragma omp declare reduction%> declarationprevious declarationprevious declaration %q#Dprevious declaration %q#D hereprevious declaration %qDprevious declaration %qD used %d template parameterprevious declaration %qD used %d template parametersprevious declaration as %q#Dprevious declaration hereprevious declaration of %<%c%E%>previous declaration of %<%c%E%> as %<@optional%>previous declaration of %<%c%E%> as %<@required%>previous declaration of %<%c%s%>previous declaration of %q#Dprevious declaration of %q+Dprevious declaration of %q+D with type %qTprevious declaration of %qDprevious declaration of %qD hereprevious declaration of %qEprevious declaration with %qL linkageprevious definition hereprevious definition of %q#Tprevious definition of %q+D with type %qTprevious definition of %qD hereprevious implicit declaration of %q+D with type %qTprevious labelprevious mangling %q#Dprevious non-prototype definition hereprevious specificationprevious specification in %q#D herepreviously declared as %spreviously declared as %s with %u unspecified variable boundpreviously declared as %s with %u unspecified variable boundspreviously declared as %s with %u variable boundpreviously declared as %s with %u variable boundspreviously declared as %s with bound %<%s%>previously declared as %s with bound %qspreviously declared as %s with bound argument %Epreviously declared as a pointer %spreviously declared as a variable length array %spreviously declared as an array %spreviously declared as an ordinary array %spreviously declared herepreviously defined herepreviously defined here as %spreviously used hereprimary template %qDprimary template hereprivate member %q#D in anonymous unionprivate module fragmentprivate module fragment only permitted in purview of module interface or partitionprobability %qE is outside the range [0.0, 1.0]probability %qE must be constant floating-point expressionproblem with building target image for %sprofile data for function %u is corruptedprofile for function %qD not found in profile dataprofiler support for CR16profiler support for VxWorksprofiling %<-mcmodel=large%> with PIC is not supportedprofiling is not yet implemented for this architectureprofiling not supported with -mgprograms: %s
promoted argument %qD doesn%'t match built-in prototypepromoted argument %qD doesn%'t match prototypepromoted bitwise complement of an unsigned value is always nonzeroproperties for %<simd%> selector may not be specified in %<metadirective%>properties must be namedproperty %qs already specified in %<@dynamic%>property %qs already specified in %<@synthesize%>property %qs is using instance variable %qs of incompatible typeproperty %qs is using the same instance variable as property %qsproperty cannot be a bit-fieldproperty cannot be an arrayproperty declaration not in %<@interface%>, %<@protocol%> or %<category%> contextproperty must be constant integer expressionproperty must be constant integer expression or string literalprotected member %q#D in anonymous unionprotected visibility attribute not supported in this configuration; ignoredprotocol %qE has circular dependencyprotocol %qE is deprecatedprotocol attributes are not available in Objective-C 1.0prototype declarationprototype for %q+D declares argument %d with incompatible typeprototype for %q+D declares fewer arguments than previous old-style definitionprototype for %q+D declares more arguments than previous old-style definitionprototype for %q+D follows non-prototype definitionprototype for '%s' has required operands after optional operandsprototype specified for %q#Dprovided for %qDpseudo-destructor is not calledpure virtual %q#D called from constructorpure virtual %q#D called from destructorpure virtual %q#D called from non-static data member initializerpure-specifier on function-definitionq/Q modifiers invalid for symbol referencesqsort checking failedqsort comparator non-negative on sorted output: %dqsort comparator not anti-symmetric: %d, %dqsort comparator not transitive: %d, %d, %dqualified name does not name a classqualified type %qT does not match destructor name ~%qTqualified-id in declarationqualifiers are not allowed on constructor declarationqualifiers are not allowed on declaration of %<operator %T%>qualifiers are not allowed on declaration of deduction guidequalifiers are not allowed on destructor declarationqualifying type %qT does not match destructor name ~%qTquoted %qs directive in formatquoted %qs directive in format; use %qs insteadr0 needs to be available as a call-clobbered registerrange clause must have array, slice, string, map, or channel typerange expressions in switch statements are non-standardrange-based %<for%> expression of type %qT has incomplete typerange-based %<for%> loops only available with %<-std=c++11%> or %<-std=gnu++11%>range-based %<for%> loops with initializer only available with %<-std=c++20%> or %<-std=gnu++20%>rank + corank of %qs exceeds %d at %Craw literal operator %q#D conflicts with literal operator templaterdynamic is not supportedre-initialization of %qs at %Lreachable %s definition hereread failed while reading export dataread-only location %qE used as %<asm%> outputread-only member %qD used as %<asm%> outputread-only named return value %qD used as %<asm%>outputread-only parameter %qD use as %<asm%> outputread-only reference %qD used as %<asm%> outputread-only variable %qD used as %<asm%> outputreading input filereading through null pointer (argument %d)receiving objects of non-trivially-copyable type %q#T through %<...%> is conditionally-supportedrecompiling with %<-fcompare-debug%>recursive evaluation of default argument for %q#Drecursive expansionrecursive inliningrecursive instantiation of default member initializer for %qDrecursive mixin instantiationrecursive type %qT undefinedrecursively required by substitution of %qS
recursively required from %q#D
recursively required from here
redeclaration %q#D with different constraintsredeclaration %qD differs in %qs from previous declarationredeclaration of %<enum %E%>redeclaration of %<pragma omp declare reduction%>redeclaration of %q#Dredeclaration of %q#D may not have default argumentsredeclaration of %q#D with different template parametersredeclaration of %q+D with different visibility (old visibility preserved)redeclaration of %q+D with no linkageredeclaration of %qD adds abi tag %qEredeclaration of %qT as a non-templateredeclaration of %qs %<#pragma omp declare reduction%> for type %qTredeclaration of C++ built-in type %qTredeclaration of Objective-C class %qsredeclaration of enumerator %q+Dredeclaration of friend %q#D may not have default template argumentsredeclaration of property %qDredeclared here as %q#Dredeclared with %d template parameterredeclared with %d template parametersredefined extern inline functions are not considered for inliningredefinition of %<CTABLE_ENTRY %redefinition of %<struct %E%>redefinition of %<union %E%>redefinition of %q#Dredefinition of %q#Tredefinition of %q+Dredefinition of default argument for %q#Dredefinition of parameter %q+Dredefinition of typedef %q+Dredefinition of typedef %q+D with different typeredefinition of typedef %q+D with variably modified typeredundant class-key %qs in reference to %q#Tredundant enum-key %<enum%s%> in reference to %q#Tredundant move in return statementredundant redeclaration of %<constexpr%> static data member %qDredundant redeclaration of %q+Dredundant redeclaration of %qD in same scoperef-qualifiers only available with %<-std=c++11%> or %<-std=gnu++11%>reference %<dynamic_cast%> failedreference %qD is initialized with itselfreference %qs cannot be declared %<mutable%>reference has both stmt and lto_stmt_uid setreference to %<%T::%D%> is ambiguousreference to %qD is ambiguousreference to dead statementreference to local variable %qD returnedreference to scope class must be scopereference type %qT in %<#pragma omp declare reduction%>referenced argument declared herereferenced symbol declared herereferencing argument %u of type %qTregion of lp %i is wrongregister name given for non-register variable %q+Dregister name not specified for %q+Dregister number must be a compile-time constant.  Try giving higher optimization levelsregister number must be in range 0-31 for %sregister of %qD used for multiple global register variablesregister or memory expression expected for 'M' output modifierregister or memory expression expected for 'N' output modifierregister specified for %q+D is an internal GCC implementation detailregister specified for %q+D isn%'t suitable for data typeregister variable %qD used in nested functionregparam and thiscall attributes are not compatiblereimplementation of class %qErelaxed transaction in %<transaction_safe%> functionrelaxed transaction in atomic transactionremove %<std::move%> callremove %<{ }%> around initializerremove parenthesesremove parentheses to default-initialize a variableremove the class-key or replace it with %qsremoved loop %d in loop treerename spec %s to %s
repeated %<@%> before Objective-C stringrepeated %s in formatreplace parentheses with braces to declare a variablereplace the class-key with %qsrequest for implicit conversion from %qT to %qT not permitted in C++request for member %qD in %qE, which is of non-class type %qTrequest for member %qD in %qE, which is of pointer type %qT (maybe you meant to use %<->%> ?)request for member %qD is ambiguousrequest for member %qD is ambiguous in multiple inheritance latticerequest for member %qE in non-class type %qTrequest for member %qE in something not a structure or unionrequested %<init_priority%> %i is out of range [0, %i]requested %<init_priority%> %i is reserved for internal userequested %<init_priority%> is not an integer constantrequested %qE attribute is not a comma separated pair of non-negative integer constants or too large (max. %d)requested ABI requires %<-march%> to subsume the %qc extensionrequested alignment %qE exceeds maximum %urequested alignment %qE exceeds object file maximum %urequested alignment %qE is not a positive power of 2requested alignment for %q+D is greater than implemented alignment of %wurequested alignment is not an integer constantrequested position is less than zerorequested position is not an integer constantrequire id argument in the stringrequire_atom(): bad atom type requiredrequired by substitution of %qS
required from %q#D
required from here
requiresrequires-clause on declaration of non-function type %qTrequires-clause on return typerequires-clause on type-idrequires-clause on typedefresolution sub id %wx not in object fileresolve_function(): bad function typeresolve_intrinsic(): Too many args for intrinsicresolve_operator(): Bad intrinsicresolve_ref(): Bad array referenceresolve_subroutine(): bad function typeresolver indirect function declared hereresult of %<operator->()%> yields non-pointer resultresult of %qE requires %u bits to represent, but %qT only has %u bitsresult type is not a plain type-constraintresult with non-constant character lengthreturn address signing is only supported for %<-mabi=lp64%>return discards %qv qualifier from pointer target typereturn edge does not point to exit in bb %dreturn from pointer to non-enclosed address spacereturn makes %q#v qualified function pointer from unqualifiedreturn not followed by barrierreturn type %q#T is incompletereturn type defaults to %<int%>return type inference is not supported if may override base class functionreturn type is an incomplete typereturn type might be a candidate for a format attributereturn type of %qD is not %<int%>return type of %qD is not %qsreturn type of functionreturn type specification for constructor invalidreturn type specification for destructor invalidreturn type specified for %<operator %T%>return type specified for deduction guidereturn value type mismatchreturn with value in function with no return typereturn-statement with a value, in function returning %qTreturn-statement with no value, in function returning %qTreturn-type-requirement is not a type-constraintreturned from %qDreturned from %qTreturning %qT from a function with incompatible return type %qTreturning %qT from a function with return type %qT makes integer from pointer without a castreturning %qT from a function with return type %qT makes pointer from integer without a castreturning %qT from pointer type with incompatible scalar storage order %qTreturning a value from a constructorreturning a value from a destructorreturning initializer listreturning local %<initializer_list%> variable %qD does not extend the lifetime of the underlying arrayreturning pointer to %qD of type %qT from a function with incompatible type %qTreturning reference to temporaryreturning temporary %<initializer_list%> does not extend the lifetime of the underlying arrayreverse floating-point scalar storage orderreverse scalar storage orderreverse storage order for %smoderight operand of comma operator cannot resolve address of overloaded functionright operand of comma operator has no effectright operand of comma operator is a reference, not call, to function %qEright operand of shift expression %q+E is greater than or equal to the precision %wu of the left operandright operand of shift expression %q+E is negativeright precisionright precision in strfmon formatright shift count >= width of typeright shift count >= width of vector elementright shift count is negativeright-hand operand of comma expression has no effectrounding mode not supported for VAX floatsrounding result will always be 0rounding to %d bits has no effect for fixed-point value with %d fractional bitsroutine %qD declared hereroutine call uses OpenACC parallelism disallowed by containing routineroutine call uses same OpenACC parallelism as containing looprv32e requires ilp32e ABIrx100 cpu does not have FPU hardwarerx200 cpu does not have FPU hardwaresame canonical type node for different types %qT and %qTsame variable used in %<firstprivate%> and %<lastprivate%> clauses on %<distribute%> constructsame version was previously defined heresame_comdat_group is not a circular listsame_comdat_group list across different groupssanitizer function attribute mismatchsaw %d %<template<>%>, need %d for specializing a member function templatesay %<typename %E%> if a type is meantscalar object %qD requires one element in initializerscale needs to be non-negativescaling cannot co-exist with normalization, skipping
schedule %<auto%> does not take a %<chunk_size%> parameterschedule %<runtime%> does not take a %<chunk_size%> parameterschedule chunk size expression must be integralscope %qT before %<~%> is not a class-namescoped enum %qT passed through %<...%> as %qT before %<-fabi-version=6%>, %qT afterscoped enums only available with %<-std=c++11%> or %<-std=gnu++11%>scoped/unscoped mismatch in enum %q#Tscore argument must be constant integer expressionscore argument must be non-negativesecond argument must be slice or stringsecond argument of %q+D should be %<char **%>second argument to %<__builtin_call_with_static_chain%> must be a pointer typesecond argument to %<__builtin_prefetch%> must be a constantsecond argument to %<va_arg%> is of incomplete type %qTsecond argument to %qs must be [0, 12]second argument to function %qE must be a constant integer power of 2 between %qi and %qu bitssecond operand of conditional expression cannot resolve address of overloaded functionsecond operand of conditional expression has no effectsecond operand of conditional expression is a reference, not call, to function %qEsecond operand to the conditional operator is of type %<void%>, but the third operand is neither a throw-expression nor of type %<void%>second parameter of %<va_start%> not last named argumentsection anchors must be disabled when toplevel reorder is disabledsection anchors must be disabled when unit-at-a-time is disabledsection attribute argument not a string constantsection attribute cannot be specified for local variablessection attribute not allowed for %q+Dsection attributes are not supported for this targetsection of %q+D cannot be overriddensection of %q+D conflicts with previous declarationsection of alias %q+D must match section of its targetsection type conflictsection type conflict with %qDselected fp16 options are incompatibleselector %qs does not accept any propertiesselector %qs not allowed for context selector set %qsselector %qs specified more than once in set %qsselector must be an immediateselector must be an integer constant in the range [0, %wi]selector set %qs specified more than onceself-comparison always evaluates to falseself-comparison always evaluates to trueself-tests are not enabled in this buildself-tests incompatible with %<-E%>setjmp/longjmp inside %<simd%> constructsetter method names must terminate with %<:%>setting core file size limit to maximum: %mshadowed declaration is hereshadowing built-in function %q#Dshadowing library function %q#Dshadowing previous type declaration of %q#Dshared SSA name infoshared and mdll are not compatibleshared call_stmt:shared is not supportedshared rtxshift count not integershift expression %q+E overflowsshift of non-integer operandshort read while reading export datashow_array_ref(): Unknown array referenceshow_array_spec(): Unhandled array shape type.show_code_node(): Bad statement codeshow_expr(): Bad intrinsic in expressionshow_expr(): Don't know how to show exprshow_ref(): Bad component codesibcall edges for non-call insn in bb %iside effects not recomputed when %<ADDR_EXPR%> changedside-effects element in no-side-effects CONSTRUCTORsigned conversion from %qT to %qT changes the value of %qEsigned conversion from %qT to %qT changes value from %qE to %qEsignedness of type and machine mode %qs don%'t matchsimple IFsimplify_intrinsic_op(): Bad operatorsimplify_min_max(): Bad type in arglistsingle %<target_clones%> attribute is ignoredsize %qE of array %qE exceeds maximum object size %qEsize %qE of array %qE is negativesize %qE of array exceeds maximum object size %qEsize %qE of array is negativesize in array new must have integral typesize mismatch in argument %d of %qEsize of %q+D %E bytes exceeds maximum object size %wusize of %qD differ from the size of original declarationsize of array %qD has non-integral type %qTsize of array %qD is not an integral constant-expressionsize of array %qE exceeds maximum object size %qEsize of array %qE has incomplete typesize of array %qE has non-integer typesize of array %qE is negativesize of array %qE is not a constant expressionsize of array %qE is too largesize of array element is not a multiple of its alignmentsize of array exceeds maximum object size %qEsize of array has non-integral type %qTsize of array is not a constant expressionsize of array is not an integral constant-expressionsize of array is too largesize of loop %d should be %d, not %dsize of return value of %q+D is %u bytessize of return value of %q+D is larger than %wu bytessize of string literal is too largesize of type %qT is too large (%qE bytes)size of type %s is invalidsize of unnamed array has incomplete typesize of unnamed array has non-integer typesize of unnamed array is negativesize of unnamed array is too largesize of variable %q+D is too largesize ranges of option %qs should be increasingsizeof(long double) is 12.sizeof(long double) is 16.slice can only be compared to nilslice capacity must be integerslice end must be integerslice of unaddressable valueso any instantiation with a non-empty parameter pack would be ill-formedsoft-float and long-double-128 are incompatiblesome parts of macro expansion are not guarded by this %qs clausesorry, unimplementedsorry, unimplemented: sorry: semantics of inline function static data %q#D are wrong (you%'ll wind up with multiple copies)sorry: semantics of inline variable %q#D are wrong (you%'ll wind up with multiple copies)source is a pointer to incomplete typesource is not a pointersource is not a pointer to classsource is not of class typesource is of incomplete class typesource locations for function %qD have changed, the profile data may be out of datesource object %qE of size %ssource object allocated heresource object declared heresource object of size %s allocated by %qEsource type is not polymorphicspace followed by punctuation character %<%c%>spec %qs has invalid %<%%0%c%>spec %qs has invalid %<%%@%c%>spec %qs has invalid %<%%W%c%>spec %qs has invalid %<%%x%c%>spec %qs invalidspec failure: %<%%*%> has not been initialized by pattern matchspec failure: more than one argument to %<SYSROOT_HEADERS_SUFFIX_SPEC%>spec failure: more than one argument to %<SYSROOT_SUFFIX_SPEC%>spec failure: unrecognized spec option %qcspec file has no spec for linkingspec is '%s'

spec-generated switch is just %<-%>spec_dimen_size(): Bad dimensionspecialization %qT after instantiation %qTspecialization of %qD after instantiationspecialization of %qD in different namespacespecialization of %qD must appear at namespace scopespecialization of %qT after instantiationspecialization of alias template %qDspecialization of implicitly-declared special member functionspecialization of variable concept %q#Dspecialization of variable template %qD declared as functionspecializing member %<%T::%E%> requires %<template<>%> syntaxspecified bound %wu exceeds %<INT_MAX%>specified bound %wu exceeds maximum object size %wuspecified bound %wu exceeds the size %wu of the destination objectspecified bound range [%wu, %wu] exceeds %<INT_MAX%>specified mode too small for enumerated valuesspecified option %qs more than oncespecify a system register with a small string length.specifying vector types with %<__attribute__ ((mode))%> is deprecatedspecs %%include syntax malformed after %ld charactersspecs %%rename syntax malformed after %ld charactersspecs %s spec was not found to be renamedspecs file malformed after %ld charactersspecs unknown %% command after %ld charactersspeculative edges are not adjacentspurious %<>>%>, use %<>%> to terminate a template argument listspurious leading punctuation sequence %<%.*s%> in formatspurious trailing %<%%%> in formatspurious trailing punctuation sequence %<%.*s%> in formatspurious trailing space in formatstack clash guard size %<%d%> must be equal to probing interval %<%d%>stack frame must be smaller than 64Kstack frame not a multiple of 8 bytes: %wdstack frame not a multiple of octabyte: %wdstack frame too largestack guard value must be an exact power of 2stack limit expression is not supportedstack limits not supported on this targetstack probes for SVE framesstack probing requires %<-maccumulate-outgoing-args%> for correctnessstack probing requires %<target("accumulate-outgoing-args")%> for correctnessstack protector not protecting function: all local arrays are less than %d bytes longstack protector not protecting local variables: variable length bufferstack register used for global register variablestack size must be an exact power of 2stack size must be greater than the stack guard valuestack size must not be greater than 64kstack usage computation not supported for this targetstack usage is %wu bytesstack usage might be %wu bytesstack usage might be unboundedstack_offset must be a multiple of 4stack_offset must be at least 4stackframe too big: %d bytesstandard attributes on namespaces must precede the namespace namestart of RTL fragment must be on an earlier line than endstart of implied-do loop at %L could not be simplified to a constant valuestart/end of RTL fragment are in different filesstatement cannot resolve address of overloaded functionstatement has no effectstatement is a reference, not call, to function %qEstatement is not a constant expressionstatement marked for throw in middle of blockstatement marked for throw, but doesn%'tstatement uses released SSA namestatement volatile flag not up to datestatement will never be executedstatement with no effectstatement-expression in a constant expressionstatement-expressions are not allowed outside functions nor in template-argument listsstatic IO declaration for %q+D needs an addressstatic assertion failedstatic assertion failed: %Estatic assertion failed: %sstatic chain with function that doesn%'t use onestatic class cannot inherit from nested class %sstatic data member %qD in unnamed classstatic data member %qE declared %qsstatic declaration of %q+D follows non-static declarationstatic field %qD is not mappablestatic initialization of variable %q+D in %<.shared%> memory is not supportedstatic is not supported on TPF-OSstatic member %qD cannot be a bit-fieldstatic member %qD declared %<register%>static member function %q#D declared with type qualifiersstatic member function %qD cannot have cv-qualifierstatic member function %qD cannot have ref-qualifierstatic member has no `this` to which `return` can applystatic or type qualifiers in non-parameter array declaratorstatic storage variables cannot have destructorsstatic type %qT of its operand is a non-public base class of dynamic type %qTstatically allocated instance of Objective-C class %qEstdcall and cdecl attributes are not compatiblestdcall and fastcall attributes are not compatiblestdcall and thiscall attributes are not compatiblestep expression refers to outer iterator %qDstep of implied-do loop at %L could not be simplified to a constant valuestep of implied-do loop at %L shall not be zerostmt (%p) marked modified after optimization pass: stmt with wrong VUSEstmts without blockstorage class %<__thread%> invalid for function %qsstorage class %<auto%> invalid for function %qsstorage class %<register%> invalid for function %qsstorage class %<thread_local%> invalid for function %qsstorage class %qD applied to template instantiationstorage class `auto` has no effect if return type is not inferredstorage class `auto` has no effect if type is not inferred, did you mean `scope`?storage class `auto` is invalid when declaring a class, did you mean to use `scope`?storage class specified for %qsstorage class specified for parameter %qEstorage class specified for parameter %qsstorage class specified for structure fieldstorage class specified for structure field %qEstorage class specified for template parameter %qsstorage class specified for typenamestorage class specified for unnamed parameterstorage class specifiers invalid in friend function declarationsstorage size of %q+D isn%'t constantstorage size of %q+D isn%'t knownstorage size of %qD isn%'t constantstorage size of %qD isn%'t knownstrange device name %qs after %qs: bad character %qcstrategy name %qs specified for option %qs not supported for 32-bit codestray %<,%> at end of member declarationstray %<@%> in programstray %<\%o%> in programstray %qc in programstray %qs between Objective-C++ methodsstray %qs in programstreaming subprocess failedstreaming subprocess was killed by signalstrftime formats cannot format argumentsstring expected for library namestring expected for mangled namestring length %qd is greater than the length %qd ISO C%d compilers are required to supportstrong-cast assignment has been interceptedstrong-cast may possibly be neededstruct defined herestruct has no membersstruct has no named membersstructs, unions cannot be abstractstructure alignment must be a small power of two, not %wustructure fieldstructure size boundary can only be set to 8 or 32structure size boundary can only be set to 8, 32 or 64structured binding declaration can be %qs only in %<-std=c++20%> or %<-std=gnu++20%>structured binding declaration cannot be %qsstructured binding declaration cannot be C++98 %<auto%>structured binding declaration cannot have type %qTstructured binding declaration set but not usedstructured binding has incomplete type %qTstructured binding refers to incomplete class type %qTstructured binding refers to incomplete type %qTstructured bindings only available with %<-std=c++17%> or %<-std=gnu++17%>subframework include %s conflicts with framework includesubobject %qD declared heresubprogram %q+F not marked %<Inline%>subprogram %q+F not marked %<Inline_Always%>subscript missing in array referencesubscripted value is neither array nor pointersubscripted value is neither array nor pointer nor vectorsubscripted value is pointer to functionsubscripting array declared %<register%>subsequently declared as %s with %u unspecified variable boundsubsequently declared as %s with %u unspecified variable boundssuggest braces around empty body in %<do%> statementsuggest braces around empty body in an %<else%> statementsuggest braces around empty body in an %<if%> statementsuggest explicit braces around empty body in %<do%> statementsuggest explicit braces to avoid ambiguous %<else%>suggest parentheses around %<&&%> within %<||%>suggest parentheses around %<+%> in operand of %<&%>suggest parentheses around %<+%> inside %<<<%>suggest parentheses around %<+%> inside %<>>%>suggest parentheses around %<-%> in operand of %<&%>suggest parentheses around %<-%> inside %<<<%>suggest parentheses around %<-%> inside %<>>%>suggest parentheses around %<>>%> expressionsuggest parentheses around arithmetic in operand of %<^%>suggest parentheses around arithmetic in operand of %<|%>suggest parentheses around assignment used as truth valuesuggest parentheses around comparison in operand of %<!=%>suggest parentheses around comparison in operand of %<&%>suggest parentheses around comparison in operand of %<==%>suggest parentheses around comparison in operand of %<^%>suggest parentheses around comparison in operand of %<|%>suggest parentheses around operand of %<!%> or change %<&%> to %<&&%> or %<!%> to %<~%>suggest parentheses around operand of %<!%> or change %<|%> to %<||%> or %<!%> to %<~%>suggested alternative:suggested alternatives:support for mode %qssupported core architectures:%sswitch %<-mcpu=%s%> conflicts with %<-march=%s%> switchswitch %<-mcpu=%s%> conflicts with switch %<-march=%s%>switch %<-mcustom-%s%> conflicts with switch %<-mcustom-%s%>switch %<-mcustom-%s%> is required for double-precision floating-pointswitch %<-mcustom-%s%> value %d must be between 0 and 255switch %qs does not start with %<-%>switch %qs is no longer supportedswitch condition has boolean valueswitch jumps into statement expressionswitch jumps over variable initializationswitch missing default caseswitch quantity not an integerswitch starts hereswitch statement of size %lu entries too largesymbol %qD referenced by %qD declared heresymbol needs to be defined to have a versionsymbol used as immediate operandsymbol used with both base and indexed registerssymbol with offset used in PIC modesymbolic memory references are only supported on z10 or latersymtab_node::verify failedsymver attribute argument must have format %<name@nodename%>symver is not exported with default visibilitysymver is only supported on ELF platformssymver target is not exported with default visibilitysynchronized function %s must be a member of a classsynthesized method %qD first required heresysctl for kern.osversion failed: %msystem path %qs is not absolutetakes no argumenttaking address of an immediate function %qDtaking address of constructor %qDtaking address of destructor %qDtaking address of expression of type %<void%>taking address of packed member of %qT may result in an unaligned pointer valuetaking address of rvaluetaking address of temporary arraytaking the absolute value of unsigned type %qT has no effecttaking the address of a label is non-standardtarget CPU does not support ARM modetarget CPU does not support ARMv8-M Security Extensionstarget CPU does not support THUMB instructionstarget CPU does not support interworkingtarget CPU does not support unaligned accessestarget OS does not support unaligned accessestarget argumenttarget attribute is not supported on this machinetarget attribute or pragma changes %<long double%> sizetarget attribute or pragma changes AltiVec ABItarget attribute or pragma changes darwin64 ABItarget does not support atomic profile update, single mode is selectedtarget does not support function version dispatchertarget format does not support infinitytarget is not pointer or referencetarget is not pointer or reference to classtarget is not pointer or reference to complete typetarget of conversion might be a candidate for a format attributetarget of initialization might be a candidate for a format attributetarget specific builtin not availabletarget specific option mismatchtarget system does not support debug outputtarget system does not support the %qs debug formattemplate %qD declaredtemplate %qE in clause %qstemplate argument %d is invalidtemplate argument %qE for type %qT not a compile-time constanttemplate argument %qE involves template parameter(s)template argument for %qD uses local type %qTtemplate argument required for %<%s %T%>template arguments to %qD do not match original template %qDtemplate class without a nametemplate constraint failure for %qDtemplate declaration of %<typedef%>template declaration of %q#Dtemplate definition of non-template %q#Dtemplate instantiation %s forward references template declaration %stemplate instantiation depth exceeds maximum of %d (use %<-ftemplate-depth=%> to increase the maximum)template instantiation depth exceeds maximum of %d instantiating %q+D, possibly from virtual table generation (use %<-ftemplate-depth=%> to increase the maximum)template parameter %q+#Dtemplate parameter %qD declared heretemplate parameter %qD of type %qT is not allowed in an integral constant expression because it is not of integral or enumeration typetemplate parameter list used in explicit instantiationtemplate parameter lists provided don%'t match the template parameters of %qDtemplate parameter pack %qD cannot have a default argumenttemplate parameter pack cannot have a default argumenttemplate parameter packs cannot have default argumentstemplate parameter type %qT declared %<friend%>template parameters cannot be friendstemplate parameters do not match template %qDtemplate parameters not deducible in partial specialization:template placeholder type %qT must be followed by a simple declarator-idtemplate specialization of %qD not allowed by ISO C++template specialization with C linkagetemplate specifiers not specified in declaration of %qDtemplate template parameter %qT in declaration of deduction guidetemplate tuple parameter must be last onetemplate type parameters must use the keyword %<class%> or %<typename%>template with C linkagetemplate-id %qD for %q+D does not match any template declarationtemplate-id %qD used as a declaratortemplate-id %qE in declaration of primary templatetemplate-id not allowed for destructortemplate-introductions are not part of C++20 concepts; use %qs to enabletemplate-parameter-templates may not be %<virtual%>temporary of non-literal type %qT in a constant expressionternary %<operator?:%>ternary %<operator?:%> in %<%E ? %E : %E%>the %<bool%> keyword is not allowed in a C++20 concept definitionthe %<interrupt%> attribute requires a MIPS32r2 processor or greaterthe %qE attribute cannot be applied to an SVE function typethe %qE attribute requires argumentsthe %qs architecture does not support %<-m%s=2008%>the %qs architecture does not support %<-m%s=legacy%>the %qs architecture does not support %<-mfp32%>the %qs architecture does not support DSP instructionsthe %qs architecture does not support branch-likely instructionsthe %qs architecture does not support madd or msub instructionsthe %qs architecture does not support odd single-precision registersthe %qs architecture does not support paired-single instructionsthe %qs architecture does not support the synci instructionthe %qs debug format cannot be used with pre-compiled headersthe ' ' printf flagthe '!' strfmon flagthe '#' printf flagthe '#' strftime flagthe ''' printf flagthe ''' scanf flagthe '(' strfmon flagthe '+' printf flagthe '+' strfmon flagthe '-' printf flagthe '-' strfmon flagthe '-' strftime flagthe '0' printf flagthe '0' strftime flagthe 'E' strftime modifierthe 'I' printf flagthe 'I' scanf flagthe 'O' modifierthe 'O' strftime modifierthe '^' strfmon flagthe '^' strftime flagthe '_' strftime flagthe 'a' scanf flagthe 'm' scanf flagthe 'q' diagnostic flagthe -shared option is not currently supported for VAX ELFthe ABI for passing parameters with %d-byte alignment has changed in GCC 4.6the ABI of passing aggregates with %d-byte alignment has changed in GCC 5the ABI of passing homogeneous %<float%> aggregates has changed in GCC 5the ABI of passing struct with a flexible array member has changed in GCC 4.4the ABI of passing structure with %<complex float%> member has changed in GCC 4.4the ABI of passing union with %<long double%> has changed in GCC 4.4the ENI instruction operand must be either 0 or 1the RX100 cpu does not have FPU hardwarethe RX200 cpu does not have FPU hardwarethe address of %qD is not a valid template argumentthe address of %qD is not a valid template argument because it does not have static storage durationthe address of %qD will always evaluate as %<true%>the address of %qD will never be NULLthe address of a label cannot appear in a constant-expressionthe address of the %qT subobject of %qD is not a valid template argumentthe alignment of %<_Atomic %T%> fields changed in %{GCC 11.1%}the argument to %<xabort%> intrinsic must be an 8-bit immediatethe assignment suppression scanf featurethe call requires %<ifunc%>, which is not supported by this targetthe calling convention for %qT changes in %<-fabi-version=13%> (GCC 8.2)the combination of %qs and %qs is incompatible with %qsthe comparison will always evaluate as %<false%> for the address of %qD will never be NULLthe comparison will always evaluate as %<true%> for the address of %qD will never be NULLthe compiler can assume that the address of %qD will always evaluate to %<true%>the compiler can assume that the address of %qD will never be NULLthe component %qs is a PRIVATE type and cannot be a component of %qs, which is PUBLIC at %Lthe conflicting type defined in another translation unitthe conflicting type defined in another translation unit has virtual table of different sizethe conflicting type defined in another translation unit has virtual table with different contentsthe conflicting type defined in another translation unit has virtual table with more entriesthe conflicting type defined in another translation unit with different RTTI informationthe content of uninitialized storage is not usable in a constant expressionthe control flow of function %qD does not match its profile data (counter %qs)the count should be no less than 0.  please check the intrinsic _mm_sll_pi16 in code.the count should be no less than 0.  please check the intrinsic _mm_sll_pi32 in code.the count should be no less than 0.  please check the intrinsic _mm_sll_si64 in code.the count should be no less than 0.  please check the intrinsic _mm_slli_pi16 in code.the count should be no less than 0.  please check the intrinsic _mm_slli_pi32 in code.the count should be no less than 0.  please check the intrinsic _mm_slli_si64 in code.the count should be no less than 0.  please check the intrinsic _mm_sra_pi16 in code.the count should be no less than 0.  please check the intrinsic _mm_sra_pi32 in code.the count should be no less than 0.  please check the intrinsic _mm_sra_si64 in code.the count should be no less than 0.  please check the intrinsic _mm_srai_pi16 in code.the count should be no less than 0.  please check the intrinsic _mm_srai_pi32 in code.the count should be no less than 0.  please check the intrinsic _mm_srai_si64 in code.the count should be no less than 0.  please check the intrinsic _mm_srl_pi16 in code.the count should be no less than 0.  please check the intrinsic _mm_srl_pi32 in code.the count should be no less than 0.  please check the intrinsic _mm_srl_si64 in code.the count should be no less than 0.  please check the intrinsic _mm_srli_pi16 in code.the count should be no less than 0.  please check the intrinsic _mm_srli_pi32 in code.the count should be no less than 0.  please check the intrinsic _mm_srli_si64 in code.the dot syntax is not available in Objective-C 1.0the ellipsis in %qD is not inheritedthe event handle of a %<detach%> clause should not be in a data-sharing clausethe extra base is defined herethe fifth argument must be an 8-bit immediatethe first argument of a %qs must be of a boolean vector type of the same number of elements as the resultthe first difference of corresponding definitions is field %qDthe first difference of corresponding definitions is method %qDthe first parameter of %<operator new%> cannot have a default argumentthe forth argument must be scale 1, 2, 4, 8the frame size of %wu bytes is larger than %wu bytesthe immediate argument must be a 4-bit immediatethe immediate argument must be a 5-bit immediatethe immediate argument must be an 8-bit immediatethe incompatible type defined in another translation unitthe incompatible type is defined herethe lambda has no capture-defaultthe last argument must be a 1-bit immediatethe last argument must be a 2-bit immediatethe last argument must be a 3-bit immediatethe last argument must be a 32-bit immediatethe last argument must be a 4-bit immediatethe last argument must be a 5-bit immediatethe last argument must be an 1-bit immediatethe last argument must be an 8-bit immediatethe last argument must be scale 1, 2, 4, 8the layout of aggregates containing vectors with %d-byte alignment has changed in GCC 5the m210 does not have little endian supportthe macro %qs had not yet been definedthe mangled name of %qD changed between %<%s=%d%> (%qD) and %<%s=%d%> (%qD)the mangled name of %qD changes between %<%s=%d%> (%qD) and %<%s=%d%> (%qD)the mangled name of %qD changes between %<-fabi-version=%d%> and %<-fabi-version=%d%>the mangled name of a thunk for %qD changes between %<-fabi-version=%d%> and %<-fabi-version=%d%>the mangled name of the initialization guard variable for %qD changes between %<-fabi-version=%d%> and %<-fabi-version=%d%>the max value for the last size range should be -1 for option %qsthe next to last argument must be an 8-bit immediatethe omitted middle operand in %<?:%> will always be %<true%>, suggest explicit middle operandthe program should also define %qDthe range of count should be in 0 to 32.  please check the intrinsic _mm_ror_pi16 in code.the range of count should be in 0 to 32.  please check the intrinsic _mm_ror_pi32 in code.the range of count should be in 0 to 32.  please check the intrinsic _mm_rori_pi16 in code.the range of count should be in 0 to 32.  please check the intrinsic _mm_rori_pi32 in code.the range of count should be in 0 to 64.  please check the intrinsic _mm_ror_si64 in code.the range of count should be in 0 to 64.  please check the intrinsic _mm_rori_si64 in code.the range of mask should be in 0 to 255the range of selector should be in 0 to 1the range of selector should be in 0 to 3the range of selector should be in 0 to 7the register %qs cannot be clobbered in %<asm%> for the current targetthe register specified for %q+D cannot be accessed by the current targetthe register specified for %q+D is not general enough to be used as a register variablethe result for the xxspltidp instruction is undefined for subnormal input valuesthe result of the conversion is unspecified because %qE is outside the range of type %qTthe same loop iteration variables %qD used in multiple associated loopsthe target does not support %<asm goto%> with outputs in %<asm%>the third argument must be an 8-bit immediatethe third argument must be comparison constantthe type %qT of %<constexpr%> variable %qD is not literalthe type being destroyed is %qT, but the destructor refers to %qTthe value of %qD is not usable in a constant expressionthe value of the stack pointer after an %<asm%> statement must be the same as it was before the statementthe y option is obsolete and ignoredthere are no arguments to %qD that depend on a template parameter, so a declaration of %qD must be availablethird argument of %q+D should probably be %<char **%>third argument to %<__builtin_prefetch%> must be a constantthird argument to %qs must be [0, 12]third argument to function %qE must be a constant integerthird operand of conditional expression cannot resolve address of overloaded functionthird operand of conditional expression has no effectthird operand of conditional expression is a reference, not call, to function %qEthird operand to the conditional operator is of type %<void%>, but the second operand is neither a throw-expression nor of type %<void%>this %qs clause does not guard...this builtin function is only available on the fr405 and fr450this builtin function is only available on the fr450this builtin function is only available on the fr500 and fr550this builtin function is only available on the v3f toolchainthis builtin function is only available on the v3s or v3f toolchainthis builtin function not support on the v3m toolchainthis builtin is not supported for this targetthis compiler does not support %sthis compiler does not support PowerPC (arch flags ignored)this compiler does not support X86 (arch flags ignored)this condition has identical branchesthis decimal constant is unsigned only in ISO C90this decimal constant would be unsigned in ISO C90this flexibility is deprecated and will be removedthis is a GCC bug that can be worked around by adding attribute used to function calledthis is the first default labelthis is the first entry overlapping that valuethis is the insn:this media function is only available on the fr400 and fr550this media function is only available on the fr500this operation requires the SVE ISA extensionthis statement may fall throughthis target does not define a speculation barrier; your program will still execute correctly, but incorrect speculation may not be restrictedthis target does not support %qsthis target is little-endianthis target machine does not have delayed branchesthread-local COMMON data not implementedthread-local declaration of %q#D follows non-thread-local declarationthread-local declaration of %q+D follows non-thread-local declarationthreadprivate variable %qE used in a region with %<order(concurrent)%> clausethreadprivate variable %qE used in target regionthreadprivate variable %qE used in untied taskthree-way comparison of %qD has type %qT, not a comparison category typethree-way comparison of %qD has type %qT, which does not convert to %qTthree-way comparison of vectorsthrowing NULL, which has integral, not pointer typethunk-inline is only supported with %<-mindirect-branch-jump%>to be safe all intermediate pointers in cast from %qT to %qT must be %<const%> qualifiedto generate dependencies you must specify either %<-M%> or %<-MM%>to match this %qsto refer to a type member of a template parameter, use %<typename %E%>token %u has %<x-location == %u%>token %u has %<x-location == y-location == %u%>token %u has %<y-location == %u%>too few arguments to %%:version-comparetoo few arguments to %<__builtin_tgmath%>too few arguments to built-in function %qE expecting %utoo few arguments to constructor %q#Dtoo few arguments to functiontoo few arguments to function %<va_start%>too few arguments to function %q#Dtoo few arguments to function %qEtoo few arguments to member function %q#Dtoo few arguments to method %q#Dtoo few expressions for structtoo few template parameter lists in declaration of %qDtoo few template-parameter-liststoo large function value type, needs %d registers, have only %d registers for thistoo late for # directive to set debug directorytoo many %<#pragma options align=reset%>too many %<...%> in lambda capturetoo many %<defaultmap%> clauses with %qs categorytoo many %<defaultmap%> clauses with unspecified categorytoo many %<if%> clausestoo many %<if%> clauses with %qs modifiertoo many %<if%> clauses without modifiertoo many %<static%> argumentstoo many %qs clausestoo many %qs clauses on a task constructtoo many alternatives in %<asm%>too many argumentstoo many arguments for %%:dumpstoo many arguments for formattoo many arguments for partial specialization %qTtoo many arguments passed in sgpr registerstoo many arguments to %%:compare-debug-dump-opttoo many arguments to %%:compare-debug-self-opttoo many arguments to %%:version-comparetoo many arguments to built-in function %qE expecting %dtoo many arguments to constructor %q#Dtoo many arguments to functiontoo many arguments to function %q#Dtoo many arguments to function %qEtoo many arguments to maketoo many arguments to member function %q#Dtoo many arguments to method %q#Dtoo many arguments to method %qEtoo many atomic clausestoo many braces around initializer for %qTtoo many braces around scalar initializer for type %qTtoo many exception handling edges in bb %itoo many expressions for structtoo many filenames given; type %<%s %s%> for usagetoo many function arguments for eBPFtoo many initializers for %qTtoo many input filestoo many loop exits recordedtoo many memory order clausestoo many open parenstoo many outgoing branch edges from bb %itoo many size ranges specified in option %qstoo many template headers for %qD (should be %d)too many template parameter lists in declaration of %qDtoo many template-parameter-liststoo many values in return statementtoo many variables for range clause with channeltoo much stack space to dispose of: %dtoo much stack space to prepare: %dtop-level comma expression in array subscript is deprecatedtop-level declaration of %qs specifies %<auto%>toplevel reorder must be disabled when unit-at-a-time is disabledtotal size of local objects %wu exceeds maximum %wutotal size of local objects exceeds maximum %wutotal size of local objects is too largetotal size of local variables exceeds architecture limittp_first_run must be non-negativetraditional C lacks a separate namespace for labels, identifier %qE conflictstraditional C rejects ISO C style function definitionstraditional C rejects automatic aggregate initializationtraditional C rejects initialization of unionstraditional C rejects string constant concatenationtraditional C rejects the unary plus operatortrailing return type %qT of deduction guide is not a specialization of %qTtrailing return type only available with %<-std=c++11%> or %<-std=gnu++11%>trampoline generated for nested function %qDtransactional memory is not supported with %<-fsanitize=address%>transactional memory is not supported with %<-fsanitize=kernel-address%>transactional memory is not supported with non-call exceptionstransformational intrinsic %qs at %L is not permitted in an initialization expressiontrap mode not supported for VAX floatstree check: %s, have %s in %s, at %s:%dtree check: accessed elt %d of %<tree_int_cst%> with %d elts in %s, at %s:%dtree check: accessed elt %d of %<tree_vec%> with %d elts in %s, at %s:%dtree check: accessed operand %d of %<omp_clause %s%> with %d operands in %s, at %s:%dtree check: accessed operand %d of %s with %d operands in %s, at %s:%dtree check: did not expect class %qs, have %qs (%s) in %s, at %s:%dtree check: expected %<omp_clause %s%>, have %qs in %s, at %s:%dtree check: expected class %qs, have %qs (%s) in %s, at %s:%dtree check: expected none of %s, have %s in %s, at %s:%dtree check: expected tree that contains %qs structure, have %qs in %s, at %s:%dtree code %qs is not supported in LTO streamstree list ends on depth %itrue/false edge after a non-GIMPLE_COND in bb %dtry removing the parentheses around the type-idtry using %qE insteadtrying to capture %qD in instantiation of generic lambdatrying to encode non-integer type as a bit-fieldtrying to finish struct, but kicked out due to previous parse errorstrying to make class %qT a friend of global scopetuning string missing in option (%s)two consecutive %<[%> shall only introduce an attributetwo different outer iteration variables %qD and %qD used in a single looptwo or more data types in declaration of %qstwo or more data types in declaration specifierstwo or more sections for %stype %q#T argument given to %<delete%>, expected pointertype %qE has a user-defined constructortype %qE has a user-defined destructortype %qE has no default constructor to calltype %qE has virtual member functionstype %qT (typedef of %qT) violates the C++ One Definition Ruletype %qT defined in anonymous namespace cannot match across the translation unit boundarytype %qT defined in anonymous namespace cannot match type %qT across the translation unit boundarytype %qT does not have a known sizetype %qT for explicit instantiation %qD does not match declared type %qTtype %qT is not a base type for type %qTtype %qT is not a direct base of %qTtype %qT is not a direct or virtual base of %qTtype %qT is too largetype %qT itself violates the C++ One Definition Ruletype %qT of template argument %qE depends on a template parametertype %qT of template argument %qE depends on template parameterstype %qT should match type %qTtype %qT violates the C++ One Definition Ruletype %qT with no linkage used to declare function %q#D with linkagetype %qT with no linkage used to declare variable %q#D with linkagetype %qT with virtual members is not mappabletype %qs does not conform to the %qE protocoltype %qs violates the C++ One Definition Ruletype %s is inferred from initializer %s, and variables cannot be of type voidtype assertion only valid for interface typestype attributes ignored after type is already definedtype defaults to %<int%> in declaration of %qEtype defaults to %<int%> in type nametype has no methodstype is deprecatedtype is deprecated: %stype is not compatible with its varianttype mismatch between an SSA_NAME and its symboltype mismatch for case label in switch statementtype mismatch in %qstype mismatch in %qs expressiontype mismatch in %qs referencetype mismatch in binary expressiontype mismatch in conditional expressiontype mismatch in parameter %itype must be cv-qualified %<auto%> or reference to cv-qualified %<auto%>type name %qs should match type name %qstype name declared as function returning a functiontype name declared as function returning an arraytype of %<asm%> operand %qE could not be determinedtype of %<depobj%> expression is not %<omp_depend_t%>type of %qD defaults to %<int%>type of %qD does not match original declarationtype of %qE is unknowntype of array %q+D completed incompatibly with implicit initializationtype of bit-field %qs is a GCC extensiontype of formal parameter %d is incompletetype of iterator %qD refers to outer iterator %qDtype of property %qD conflicts with previous declarationtype precision mismatch in switch statementtype qualifiers ignored on cast result typetype qualifiers ignored on function return typetype to vector delete is neither pointer or array typetype transparent %q#T cannot be made transparent because the type of the first field has a different ABI from the class overalltype transparent %q#T does not have any fieldstype transparent class %qT has base classestype transparent class %qT has virtual functionstype variant differs by %stype variant has different %<TREE_TYPE%>type variant has different %<TYPE_BINFO%>type variant has different %<TYPE_FIELDS%>type variant has different %<TYPE_SIZE_UNIT%>type variant has different %<TYPE_VFIELD%>type variant with %<TYPE_ALIAS_SET_KNOWN_P%>type variant%'s %<TREE_TYPE%>type variant%'s %<TYPE_BINFO%>type variant%'s %<TYPE_SIZE_UNIT%>type was previously declared %qEtype%'s %<TREE_TYPE%>type%'s %<TYPE_BINFO%>type%'s %<TYPE_SIZE_UNIT%>type-punning to incomplete type might break strict-aliasing rulestype-specifier invalid in lambdatype/value mismatch at argument %d in template parameter list for %qDtypedef %q+D declared %<_Noreturn%>typedef %q+D declared %<inline%>typedef %qD is initialized (use %<__typeof__%> instead)typedef %qD is initialized (use %qs instead)typedef %qD locally defined but not usedtypedef declaration invalid in parameter declarationtypedef declared %<auto%>typedef may not be a function definitiontypedef may not be a member function definitiontypedef name may not be a nested-name-specifiertypedef-name %qD used as destructor declaratortypes are not quite compatibletypes differ in signednesstypes have different parameter countstypes may not be defined in %<decltype%> expressionstypes may not be defined in %<noexcept%> expressionstypes may not be defined in %qs expressionstypes may not be defined in a %<typeid%> expressiontypes may not be defined in a conversion-type-idtypes may not be defined in a for-range-declarationtypes may not be defined in a new-expressiontypes may not be defined in a new-type-idtypes may not be defined in alias template declarationstypes may not be defined in an exception-specificationtypes may not be defined in caststypes may not be defined in conditionstypes may not be defined in declare reduction type listtypes may not be defined in enum-basetypes may not be defined in exception-declarationstypes may not be defined in explicit-specifiertypes may not be defined in iterator typetypes may not be defined in parameter typestypes may not be defined in template argumentstypes may not be defined within %<__builtin_offsetof%>typespec in ALLOCATE at %Lunable to compute real location of stacked parameterunable to deduce %qT from %qEunable to deduce lambda return type from %qEunable to emulate %qsunable to find a register to spillunable to find a register to spill in class %qsunable to find character literal operator %qD with %qT argumentunable to find numeric literal operator %qDunable to find string literal operator %qD with %qT, %qT argumentsunable to generate reloads for impossible constraints:unable to generate reloads for:unable to locate default linker script %qs in the library search pathsunable to open dynamic dependency %qsunable to open fileunable to open log file %<vtv_class_set_sizes.log%>: %munable to open log file %<vtv_count_data.log%>: %munable to open log file %<vtv_set_ptr_data.log%>: %munable to print out operand yet; code == %d (%c)unable to register info for plugin %qs - plugin name not foundunable to use %qs for PIC registerunbalanced punctuation character %<%c%> in formatunbalanced punctuation character %qc in formatunconditional %2d never executed
unconditional %2d taken %s
undeclared selector %qEundefined behavior when second parameter of %<va_start%> is declared with %<register%> storageundefined named operand %qsunderlying type %qT of %qT must be an integral typeunderlying type mismatch in enum %q#Tunexpected !$OMP ATOMIC expression at %Lunexpected %<%s%> after %<%s%>unexpected AST of kind %sunexpected argumentunexpected argument to msp430_select_hwmult_lib: %sunexpected attributeunexpected base-type in cris_print_baseunexpected error opening %<devices.csv%>unexpected expression %qE of kind %sunexpected file name %s in linker resolution file. Expected %sunexpected first argument to msp430_select_hwmult_lib: %sunexpected index-type in cris_print_indexunexpected keyword; remove space between quotes and suffix identifierunexpected multiplicative operandunexpected offsetunexpected operandunexpected operand: %dunexpected placeholder in constrained result typeunexpected side-effects in addressunexpected template-id %qEunexpected text address:unhandled alignment for %<#pragma nomember_alignment%>unhandled arguments %qs and %qs to %<msp430_set_driver_var%>unhandled expressionunhandled expression typeuninitialized %<const %D%>uninitialized %<const %D%> is invalid in C++uninitialized const in %<new%> of %q#Tuninitialized const member in %q#Tuninitialized const member in %q#T using %<new%> without new-initializeruninitialized const member in %qT is invalid in C++uninitialized const member in base %q#T of %q#Tuninitialized const member in base %q#T of %q#T using %<new%> without new-initializeruninitialized reference member in %q#Tuninitialized reference member in %q#T using %<new%> without new-initializeruninitialized reference member in base %q#T of %q#Tuninitialized reference member in base %q#T of %q#T using %<new%> without new-initializeruninitialized variable %q+D put into program memory areauninitialized variable %qD in %<constexpr%> contextuninitialized variable %qD in %<constexpr%> functionunion cannot be made transparentunion defined hereunion has no membersunion has no named membersunion member %q+D with non-trivial %qDunknown %<#pragma GCC aarch64%> option %qsunknown %<#pragma extern_model%> model %qsunknown %<#pragma member_alignment%> name %sunknown %<-mdebug-%s%> switchunknown %<asm%> flag output %qsunknown CRIS cpu version specification in %<-mtune=%> : %sunknown CRIS version specification in %<-march=%> or %<-mcpu=%> : %sunknown Control-Flow Protection Level %qsunknown IRA algorithm %qsunknown IRA region %qsunknown LTO partitioning model %qsunknown Live-Patching Level %qsunknown Stack Reuse Level %qsunknown TLS model %qsunknown action %qE for %<#pragma pack%> - ignoredunknown alignment %qs specified for option %qsunknown architecture specific memory modelunknown architecture specifier in memory model to builtinunknown array bounds setting %qsunknown array size in deleteunknown attribute %qEunknown basic block reordering algorithm %qsunknown block specifierunknown builtin immediate operand type for operand %dunknown callback event registered by plugin %sunknown conversion type character %qc in formatunknown core architecture %qs specified with %qsunknown cpu %qs for %<-mtune%>unknown demangling style %qsunknown destunknown error reading %s from %<devices.csv%>unknown evrp mode %qsunknown excess precision style %qsunknown flag passed in %<-moverride=%s%> (%s)unknown floating point contraction style %qsunknown insn modeunknown internal function %qEunknown linker output %qsunknown machine mode %qEunknown move insn:unknown offload ABI %qsunknown operand letter: '%c'unknown operator %qs in %%:version-compareunknown option %q.*s in %<-fopt-info-%s%>unknown option after %<#pragma GCC diagnostic%> kindunknown option for %<%s=%s%>unknown option for %<-mrecip=%s%>unknown parameter to option %<-mtune-ctrl%>: %sunknown pass %s specified in %<-fdisable%>unknown pass %s specified in %<-fenable%>unknown pointer size model %qsunknown profile qualityunknown profile reproducibility method %qsunknown profile update method %qsunknown property %qE of %qs selectorunknown property %qs of %qs selectorunknown property attributeunknown property attribute %<%s%s%>unknown property attribute %qEunknown punctuation '%c'unknown register name %qs in %<asm%>unknown register name: %sunknown relocation unspecunknown spec function %qsunknown specification for the set of FLT_EVAL_METHOD values to permit %qsunknown specifier %qs in %<amdgpu_hsa_kernel%> attributeunknown srcunknown stack check parameter %qsunknown switch %<-mlong-double-%s%>unknown target attribute or pragma %qsunknown tuning option (%s)unknown type %<%T%> found during Objective-C encodingunknown type name %qEunknown type name %qE; did you mean %qs?unknown type name %qE; use %<enum%> keyword to refer to the typeunknown type name %qE; use %<struct%> keyword to refer to the typeunknown type name %qE; use %<union%> keyword to refer to the typeunknown value %qs for %<-march%>unknown value %qs for %<-mcpu%>unknown value %qs for %<-mtune%>unknown value %qs of %<-mmacosx-version-min%>unknown vectorization library ABI type (%qs) for %qs switchunknown vectorizer cost model %qsunknown vtable verify initialization priority %qsunmatched color reset directiveunmatched quoting directiveunnamed class defined hereunnamed field has incomplete typeunnamed field is neither function nor member function; cannot be declared friendunnamed initializer for %qT, which has no base classesunnamed initializer for %qT, which uses multiple inheritanceunnamed scoped enum is not allowedunnamed struct/union that defines no instancesunnamed type with no linkage used to declare function %q#D with linkageunnamed type with no linkage used to declare variable %q#D with linkageunnamed variable or field declared voidunnecessary parentheses in declaration of %qsunordered comparison on non-floating-point argumentunquote_string(): got bad stringunquoted attribute in formatunquoted control character %qc in formatunquoted control characters in formatunquoted identifier or keyword %<%.*s%> in formatunquoted keyword %<%.*s%> in formatunquoted name of built-in function %<%.*s%> in formatunquoted non-graph character %qc in formatunquoted non-graph characters in formatunquoted operator %<%.*s%> in formatunquoted option name %<%.*s%> in formatunquoted preprocessing directive %<%.*s%> in formatunquoted sequence of %i consecutive punctuation characters %q.*s in formatunquoted sequence of %i consecutive space characters in formatunquoted type name %<%.*s%> in formatunquoted whitespace character %qc in formatunreachableunrecognizable argument of option unrecognizable insn:unrecognized %<-mfpu%> target: %sunrecognized %<hwmpy%> field in %<hard_msp430_mcu_data[%d]%>: %qdunrecognized %<include_flags 0x%x%> passed to %<print_specific_help%>unrecognized %<revision%> field in %<hard_msp430_mcu_data[%d]%>: %qdunrecognized %qE attribute argument %qsunrecognized %s target: %sunrecognized addressunrecognized argument in option %qsunrecognized argument to %<--help=%> option: %q.*sunrecognized argument to %<-f%ssanitize%s=%> option: %q.*sunrecognized argument to %<-f%ssanitize%s=%> option: %q.*s; did you mean %qs?unrecognized argument to %<-flto=%> option: %qsunrecognized argument to %<-fzero-call-used-regs=%>: %qsunrecognized command-line option %<-%s%>unrecognized command-line option %<-%s%>; did you mean %<-%s%>?unrecognized command-line option %<-fdump-%s%>unrecognized command-line option %<-fdump-%s%>; did you mean %<-fdump-%s%>?unrecognized command-line option %<-fopt-info-%s%>unrecognized command-line option %qsunrecognized command-line option %qs may have been intended to silence earlier diagnosticsunrecognized control register number: %d - using %<psw%>unrecognized debug output level %qsunrecognized edge flag: %qsunrecognized enum value: %qsunrecognized format specifierunrecognized gcc debugging option: %cunrecognized interrupt vector argument of %qE attributeunrecognized ivar visibility value %qsunrecognized operand to %%:asm_auto_mfpuunrecognized operand to %%:canon_for_mlibunrecognized option %<-fdisable%>unrecognized option %<-fenable%>unrecognized option passed to %%:target_mode_checkunrecognized register name %qsunrecognized scalar storage order value %qsunrecognized section name %qEunrecognized shadow offset %qsunrecognized supposed constantunrecognized visibility value %qsunrecoverable errorunresolved overload for Altivec builtin %qFunresolved overloaded builtinunrestricted unions only available with %<-std=c++11%> or %<-std=gnu++11%>unsafe function call %qD within %<transaction_safe%> functionunsafe function call %qD within atomic transactionunsafe function call %qE within %<transaction_safe%> functionunsafe function call %qE within atomic transactionunsafe indirect function call within %<transaction_safe%> functionunsafe indirect function call within atomic transactionunset option %qs is ignored, it is always enabled for %qs CPUunsigned conversion from %qT to %qT changes the value of %qEunsigned conversion from %qT to %qT changes value from %qE to %qEunsuffixed floating constantunsupported argument to %qDunsupported argument type %qT for simdunsupported argument type to builtin functionunsupported code '%c' for fixed-point:unsupported combination: %qs %sunsupported combination: %qs%s %sunsupported combination: %sunsupported constant address:unsupported cpu name returned from kernel for %<-mcpu=native%>: %sunsupported fixed-point conversionunsupported memory expression:unsupported non-standard concatenation of string literalsunsupported non-standard suffix on floating constantunsupported operandunsupported operand %s for code '%c'unsupported operand for code '%c'unsupported operand size for extended registerunsupported operation or type for vector comparison returning a booleanunsupported record layoutunsupported return type %qT for %<simd%> functionsunsupported return type %qT for simdunsupported simdlen %wdunsupported size for integer registerunterminated assembly dialect alternativeunterminated color directiveunterminated format stringunterminated quote character %<%c%> in formatunterminated quoting directiveunused arguments in %<$%>-style formatunused parameter %qDunused structured binding declarationunused variable %q+Dunused variable %qDunwind tables currently require either a frame pointer or %<-maccumulate-outgoing-args%> for correctnessupper value in case label range exceeds maximum value for typeuse %<#include%> insteaduse %<%T::%D%> insteaduse %<%T::%D%> instead of %<%T::%D%> to name the constructor in a qualified nameuse %<%T::template %D%> to indicate that it is a templateuse %<-Winvalid-pch%> for more informationuse %<-faligned-new%> to enable C++17 over-aligned new supportuse %<-fext-numeric-literals%> to enable more built-in suffixesuse %<-flax-vector-conversions%> to permit conversions between vectors with differing element types or numbers of subpartsuse %<...%> to expand argument packuse %<__attribute__ ((vector_size))%> insteaduse %<__builtin_rx_mvtc%> (0, ... ) to write arbitrary values to PSWuse %<auto%> for an abbreviated function templateuse %<template<>%> for an explicit specializationuse %<this->%D%> insteaduse %qs insteaduse a cast to the expected type to disambiguateuse e.g. %<-Wabi=11%> to warn about changes from GCC 7use non-reference type %qT to make the copy explicit or %qT to prevent copyinguse of %<auto%> in lambda parameter declaration only available with %<-std=c++14%> or %<-std=gnu++14%>use of %<auto%> in member template conversion operator can never be deduceduse of %<auto%> in parameter declaration only available with %<-fconcepts-ts%>use of %<auto%> in parameter declaration only available with %<-std=c++14%> or %<-std=gnu++14%>use of %<complex%> in AltiVec types is invaliduse of %<double%> in AltiVec types is invalid without %qsuse of %<long double%> in AltiVec types is invaliduse of %<long long%> in AltiVec types is invalid without %qsuse of %<long%> in AltiVec types is deprecated; use %<int%>use of %<long%> in AltiVec types is invalid for 64-bit code without %qsuse of %<this%> in a constant expressionuse of %qD before deduction of %<auto%>use of %qs in templateuse of %qs length modifier with %qc type character has either no effect or undefined behavioruse of %s and %s together in %s formatuse of %s and %s together with %<%%%c%> %s formatuse of allocated storage after deallocation in a constant expressionuse of an operand of type %qT in %<operator++%> is deprecateduse of an operand of type %qT in %<operator++%> is forbidden in C++17use of an operand of type %qT in %<operator--%> is forbiddenuse of boolean types in AltiVec types is invaliduse of built-in parameter pack %qD outside of a templateuse of built-in trait %qE in function signature; use library traits insteaduse of class template %qT as expressionuse of decimal floating-point types in AltiVec types is invaliduse of deleted function %qDuse of enum %q#D without previous declarationuse of function %qD with unsatisfied constraintsuse of invalid variable template %qEuse of local variable with automatic storage from containing functionuse of multiversioned function without a defaultuse of old-style cast to %q#Tuse of parameter from containing functionuse of parameter outside function bodyuse of untyped niluse operand missing for statementuse option %<-std=c99%>, %<-std=gnu99%>, %<-std=c11%> or %<-std=gnu11%> to compile your codeuse reference type to prevent copyinguse the apostrophe directive %qs insteadused array that cannot be converted to pointer where scalar is requiredused as rewritten candidate for comparison of %qT and %qTused struct type value where scalar is requiredused union type value where scalar is requiredused vector type where scalar is requireduseless %<_Alignas%> in empty declarationuseless %qs in empty declarationuseless cast to type %q#Tuseless storage class specifier in empty declarationuseless type name in empty declarationuseless type qualifier in empty declarationuser defined reduction lookup is ambiguoususer defined reduction not found for %qEuser defined reduction with constructor initializer for base class %qTuser-defined %qD always evaluates both argumentsuser-defined literals only available with %<-std=c++11%> or %<-std=gnu++11%>uses %qD, which does not have an alignment parameterusing %<%c%s%>using %<num_workers (%d)%>, ignoring %dusing %<vector_length (64)%>, ignoring %dusing %<vector_length (64)%>, ignoring runtime settingusing %qs with unsigned type has no effectusing alias template specialization %qT after %qsusing complex absolute value function %qD when argument is of floating-point type %qTusing complex absolute value function %qD when argument is of integer type %qTusing darwin64 ABIusing decimal floating-point absolute value function %qD when argument is of complex type %qTusing decimal floating-point absolute value function %qD when argument is of floating-point type %qTusing decimal floating-point absolute value function %qD when argument is of integer type %qTusing floating-point absolute value function %qD when argument is of complex type %qTusing floating-point absolute value function %qD when argument is of decimal floating-point type %qTusing floating-point absolute value function %qD when argument is of integer type %qTusing integer absolute value function %qD when argument is of complex type %qTusing integer absolute value function %qD when argument is of floating-point type %qTusing invalid field %qDusing num_workers (%d), ignoring %dusing old darwin ABIusing result of function returning %<void%>using rvalue as lvalueusing simple load CSE after register allocationusing template type parameter %qT after %qsusing the range [%E, %E] for directive argumentusing typedef-name %qD after %qsusing value of simple assignment with %<volatile%>-qualified left operand is deprecatedusing vector_length (%d) due to call to vector-partitionable routine, ignoring %dusing vector_length (%d), ignoring %dusing vector_length (%d), ignoring runtime settingusing-declaration for member at non-class scopeusing-declaration for non-member at class scopeusing-declaration may not name namespace %qDvalid arguments are: %svalid arguments are: %s;valid arguments are: %s; did you mean %qs?valid arguments to %<-march=%> switch are: %svalid arguments to %<-march=%> switch are: %s; did you mean %qs?valid arguments to %<-mtune=%> switch are: %svalid arguments to %<-mtune=%> switch are: %s; did you mean %qs?valid arguments to %<target("arch=")%> attribute are: %svalid arguments to %<target("arch=")%> attribute are: %s; did you mean %qs?valid arguments to %<target("tune=")%> attribute are: %svalid arguments to %<target("tune=")%> attribute are: %s; did you mean %qs?valid arguments to %qs are: %svalid arguments to %qs are: %s; did you mean %qs?valid feature names are: %svalid feature names are: %s; did you mean %qs?valid values for builtin %qF argument %d are 64, 128, 256, 512, 1024, 2048, and 4096value %qE of type %qT is not a constant expressionvalue %qs is not supported by attribute %<target%>value argumentvalue computed is not usedvalue of %<-mfixed-range%> must have form REG1-REG2value passed in %qs is too largevalue-initialization of function type %qTvalue-initialization of incomplete type %qTvalue-initialization of reference type %qTvar-tracking-assignments changes selective schedulingvariablevariable %q#D has initializer but incomplete typevariable %q+D declared %<_Noreturn%>variable %q+D declared %<inline%>variable %q+D definition is marked dllimportvariable %q+D might be clobbered by %<longjmp%> or %<vfork%>variable %q+D must be const in order to be put into read-only section by means of %qsvariable %q+D part of alias cyclevariable %q+D with dynamic initialization put into program memory areavariable %qD has function typevariable %qD has initializer but incomplete typevariable %qD of non-literal type %qT in %<constexpr%> functionvariable %qD redeclared as functionvariable %qD set but not usedvariable %qD used more than once with %<#pragma acc declare%>variable %qE declared in enclosing %<host_data%> regionvariable %qE is not an iteration of outermost loop %d, expected %qEvariable %qE of incomplete type %qT will not be accessed in for increment expressionvariable %qE of incomplete type %qT will not be accessed in left operand of comma operatorvariable %qE of incomplete type %qT will not be accessed in right operand of comma operatorvariable %qE of incomplete type %qT will not be accessed in second operand of conditional expressionvariable %qE of incomplete type %qT will not be accessed in statementvariable %qE of incomplete type %qT will not be accessed in third operand of conditional expressionvariable %qs has been referenced in offloaded code but hasn%'t been marked to be included in the offloaded codevariable concept has no initializervariable length array %qD is usedvariable length array is usedvariable length element type in array %<reduction%> clausevariable of same assembler name as the virtual table is defined in another translation unitvariable or field %qE declared voidvariable or field declared voidvariable previously declared %<static%> redeclared %<extern%>variable sized type %qT in %<reduction%> clausevariable sized type %qT in %qs clausevariable symbol is not variablevariable template declared herevariable template-id %qD in nested-name-specifiervariable templates only available with %<-std=c++14%> or %<-std=gnu++14%>variable tracking requested, but not supported by this debug formatvariable tracking requested, but useless unless producing debug infovariable tracking size limit exceededvariable tracking size limit exceeded with %<-fvar-tracking-assignments%>, retrying withoutvariable-sized compound literalvariable-sized object may not be initializedvariables cannot be of type voidvariably modified %qE at file scopevariably modified field at file scopevariably modified type not allowed in new-expressionvariadic functions must use the base AAPCS variantvariadic templates only available with %<-std=c++11%> or %<-std=gnu++11%>variadic thunk callvariant %qD and base %qD have incompatible typesvariant %qD is a built-invariant %qD is not a functionvector %qs element is not a GIMPLE valuevector %qs with non-NULL element indexvector argument passed to unprototyped functionvector condition will be expanded piecewisevector operation will be expanded in parallelvector operation will be expanded piecewisevector operation will be expanded with a single scalar operationvector overflow in expression %qE of type %qT results in %qEvector overflow in expression of type %qT results in %qEvector shuffling operation will be expanded piecewisevector size not an integral multiple of component sizevector type expected in %qsvector types expected in %qsvectorization did not happen for a simd loopvectors with different element number found in %qsverify_bind_c_derived_type(): Given symbol is unexpectedly NULLverify_cgraph_node failedverify_flow_info failedverify_flow_info: Basic block %d succ edge is corruptedverify_flow_info: Block %i has loop_father, but there are no loopsverify_flow_info: Block %i lacks loop_fatherverify_flow_info: Duplicate edge %i->%iverify_flow_info: Incorrect blocks for fallthru %i->%iverify_flow_info: Incorrect fallthru %i->%iverify_flow_info: Missing count of block %iverify_flow_info: REG_BR_PROB does not match cfg %i %iverify_flow_info: REG_BR_PROB is set but cfg probability is notverify_flow_info: Wrong count of block %iverify_flow_info: Wrong probability of edge %i->%iverify_gimple failedverify_ssa failedversion attribute is not a stringversion control conflict marker in fileversion inherited from %qT declared hereversion of `g` will be omitted, please specify version for individual extension.versioned symbol must be publicversioned symbol must have default visibilityvirt-specifiers in %qs not allowed outside a class definitionvirtual PHI with argument locationsvirtual SSA name for non-VOP declvirtual base %qT inaccessible in %qT due to ambiguityvirtual def operand missing for statementvirtual definition is not an SSA namevirtual definition of statement not up to datevirtual function %q+D overriding final functionvirtual function cannot have deduced return typevirtual function multiversioning not supportedvirtual functions cannot be %<constexpr%> before C++20virtual functions cannot be friendsvirtual method %qDvirtual non-class function %qsvirtual table of type %qD contains RTTI informationvirtual table of type %qD violates one definition rulevirtual table pointer is used uninitializedvirtual use of statement not up to datevirtual use operand missing for statementvisibility argument not a stringvisibility attribute not supported in this configuration; ignoredvms '#pragma __message' is ignoredvoid initializers for pointers not allowed in safe functionsvoid value not ignored as it ought to bevolatile argumentvtable for vtable verification is not supported with LTOwaitpid failedwarning: warning: consider linking with '-static' as system libraries withwas expecting `%s'weak %q+D cannot be defined %qEweak aliases are not supportedweak declaration of %q+D being applied to a already existing, static definitionweak declaration of %q+D must be publicweak declaration of %q+D not supportedweakref is not supported in this configurationweights need to be non-negativewhen writing output to %s: %mwhile %qT decomposes into %E elementswhile %qT decomposes into %wu elementwhile %qT decomposes into %wu elementswidth of %qD exceeds its typewidth of %qs exceeds its typewidth of bit-field %qD has non-integral type %qTwithwithin this loopwithout %<-gdwarf-5%>, %<-gvariable-location-views=incompat5%> is equivalent to %<-gvariable-location-views%>without `this` cannot be %swork-sharing region may not be closely nested inside of work-sharing, %<loop%>, %<critical%>, %<ordered%>, %<master%>, explicit %<task%> or %<taskloop%> regionwrite of %wu-bit data outside the bound of destination object, data truncated into %wu-bitwrite_atom(): Trying to write dab atomwrite_symbol(): bad module symbol %qswrite_symtree(): Symbol not writtenwriting into constant object (argument %d)writing output filewriting through null pointer (argument %d)writing to LTRANS output list %s: %mwriting to address space %qs not supportedwrong %<TYPE_CACHED_VALUES%> entrywrong amount of branch edges after conditional jump in bb %iwrong amount of branch edges after unconditional jump %iwrong argument %qs to option %qswrong edge %d->%d for PHI argumentwrong entry in %<TYPE_ARG_TYPES%> listwrong immediate use listwrong insn in the fallthru edgewrong list of exited loops for edge %d->%dwrong number of arguments specified for %qE attributewrong number of arguments to %%:debug-level-gtwrong number of arguments to %%:dwarf-version-gtwrong number of arguments to %<__builtin_addressof%>wrong number of arguments to %<__builtin_call_with_static_chain%>wrong number of arguments to %<__builtin_choose_expr%>wrong number of arguments to %<__builtin_complex%>wrong number of arguments to %<__builtin_convertvector%>wrong number of arguments to %<__builtin_launder%>wrong number of arguments to %<__builtin_shuffle%>wrong number of arguments to function %<__builtin_next_arg%>wrong number of arguments to function %<va_start%>wrong number of branch edges after unconditional jump in bb %iwrong number of template arguments (%d, should be %d)wrong number of template arguments (%d, should be at least %d)wrong outgoing edge flags at end of bb %dwrong strategy name %qs specified for option %qswrong tree in %<TYPE_FIELDS%> listwrong type argument to %swrong type argument to abswrong type argument to absuwrong type argument to bit-complementwrong type argument to conjugationwrong type argument to decrementwrong type argument to incrementwrong type argument to unary exclamation markwrong type argument to unary minuswrong type argument to unary pluswrong type of argument %sx87 register return with x87 disabledxstormy16_print_operand: unknown codeyou can enable SVE using the command-line option %<-march%>, or by using the %<target%> attribute or pragmayou can use an inline namespace insteadyou can work around this by removing the initializeryou cannot take the address of a nested function if you use the %qs optionz/Architecture.zero as null pointer constantzero length array section in %qs clausezero or negative size array %q+Dzero sized type %qT in %<reduction%> clausezero sized type %qT in %qs clausezero vector sizezero width for bit-field %q+Dzero width for bit-field %qszero width in %s formatzero-length %s format stringzero-length string not allowed for mangled namezero-size array %qDzero-size array %qTzero-size array member %qD in an otherwise empty %q#Tzero-size array member %qD not at end of %q#T{anonymous}{erroneous}Project-Id-Version: gcc 11.2.0
Report-Msgid-Bugs-To: https://gcc.gnu.org/bugs/
PO-Revision-Date: 2021-07-30 00:33+0200
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Fortfahren? (y oder n) 
Linkeroptionen
==============


Veraltete Optionen:

Optionen, die mit -g, -f, -m, -O, -W, oder --param beginnen, werden automatisch
 an die verschiedenen Subprozesse, die von %s aufgerufen werden, übergeben.
 Um weitere Optionen an diese Prozesse zu übergeben, müssen die Optionen
 -W<Buchstabe> verwendet werden.

Ausgabe von ldd mit Konstruktoren/Destruktoren.

write_c_file: Ausgabename ist %s, Präfix ist %s
                           Spezifische Typen der Kommandozeilenoptionen anzeigen.
                 von        %qD         %s        eingebunden von    %#qD    -F, --fullname                      Vollständigen Dateinamen ausgeben
    -f, --function                      Daten über Funktionsebene ausgeben
    -h, --hotonly                       Daten nur für heiße Objekte/Funktionen ausgeben
    -n, --normalize <int64_t>           Profil normalisieren
    -o, --object                        Daten über Objektebene ausgeben
    -o, --output <Verzeichnis>          Ausgabeverzeichnis
    -s, --scale <Gleitkomma oder einfacher Bruch>  Profilzähler skalieren
    -t <Gleitkomma>, --hot_threshold <Gleitkomma>  Schwellwert für Heißheit festlegen
    -v, --verbose                       Ausführlicher Modus
    -w, --weight <Gewicht1,Gewicht2>    Gewichtung festlegen (Gleitkommazahlen)
    Eingefügt bei %s:%d:    eingefügt von %qs    eingefügt von %qs bei %r%s:%d%R    eingefügt von %qs bei %r%s:%d:%d%R   von früherem Behandler für %<%T%>   in Umwandlung in Zeiger auf Element   in Umwandlung in Zeiger auf Elementfunktion  %q#D  %q+T hat keinen %<constexpr%>-Destruktor  %q+T hat einen nicht-trivialen Destruktor  %q+T ist kein Aggregat, hat keinen trivialen Standardkonstruktor und hat keinen %<constexpr%>-Konstruktor, der kein Kopier- oder Bewegungskonstruktor ist  %qE %qE entspricht nicht %qE  %qT is a Closure-Typ und ist erst ab C++17 literal %qT ist mehrdeutige Basisklasse von %qT %qT ist nicht vom Typ %qT abgeleitet  (Verwenden Sie »-v --help« zum Anzeigen der Kommandozeilenoptionen von Subprozessen).
  -###                     Wie -v, aber mit zitierten Optionen und ohne Ausführung
                           der Befehlen.
  --help                   Diese Informationen anzeigen.
  --help={common|optimizers|params|target|warnings|[^]{joined|separate|undocumented}}[,...]
  --sysroot=<Verzeichnis>  <Verzeichnis> als Wurzelverzeichnis für Header und
                           Bibliotheken verwenden.
  --target-help            Zielspezifische Kommandozeilenoptionen anzeigen.
  --version                Compilerversionsinformation anzeigen.
  -B <Verzeichnis>         <Verzeichnis> zum Suchpfad des Compilers hinzufügen.
  -D, --debug			    Fehlersuche-Details anzeigen
  -E                       Nur den Präprozessor ausführen, nicht Compiler, Assembler oder
                           Linker.
  -H, --human-readable            Menschenlesbare Zahlen ausgeben
  -S                       Nur kompilieren, nicht assemblieren oder linken.
  -Wa,<Optionen>           Die durch Kommata getrennten <Optionen> an den Assembler übergeben.
  -Wl,<Optionen>           Die durch Kommata getrennten <Optionen> an den Linker übergeben.
  -Wp,<Optionen>           Die durch Kommata getrennten <Optionen> an den Präprozessor übergeben.
  -Xassembler <Arg>        <Arg> an den Assembler übergeben.
  -Xlinker <Arg>           <Arg> an den Linker übergeben.
  -Xpreprocessor <Arg>     <Arg> an den Präprozessor übergeben.
  -a, --all-blocks                Informationen für jeden Basisblock zeigen
  -b, --branch-probabilities      Zweigwahrscheinlichkeiten in Ausgabe aufnehmen
  -c                       Nur kompilieren und assemblieren, aber nicht binden.
  -c, --branch-counts             Anzahl der Zweigdurchläufe statt
                                    Prozentzahlen ausgeben
  -d, --display-progress          Fortschrittsinformationen anzeigen
  -dumpmachine             Zielprozessor des Compilers anzeigen.
  -dumpspecs               Alle eingebauten Spezifikationszeichenketten anzeigen.
  -dumpversion             Die Compilerversion anzeigen.
  -f, --function-summaries        Ausgabezusammenfassungen für jede Funktion
  -h, --help                            Diese Hilfe anzeigen, danach beenden
  -h, --help                      Diese Hilfe anzeigen
  -i, --json-format               Ersetzt durch -j, --json-format
  -j, --human-readable            Ersetzt durch -H, --human-readable
  -j, --json-format               Zwischenergebnisse im JSON-Format in
                                  .gcov.json.gz-Datei ausgeben
  -k, --use-colors                Bunte Ausgabe erzeugen
  -l, --long-file-names           In eingefügten Quelldateien lange Dateinamen
                                    für Ausgabedateien verwenden
  -m, --demangled-names           Entmangelte Funktionsnamen ausgeben
  -n, --no-output                 Keine Ausgabedatei erzeugen
  -no-canonical-prefixes   Pfade beim Erzeugen relativer Präfixe zu anderen
                           GCC-Komponenten nicht kanonisieren.
  -o <Datei>               Ausgabe in <Datei> schreiben.
  -o, --object-directory DIR|FILE In DIR oder aufgerufener Datei FILE nach
                                  Objektdateien suchen
  -p, --preserve-paths            Alle Pfadnamenskomponenten bewahren
  -pass-exit-codes         Mit höchstem Rückgabe-Code einer Phase beenden.
  -pie                     Eine ausführbare Datei mit positionsunabhängigem
                           Code erzeugen.
  -pipe                    Pipes statt temporärer Dateien verwenden.
  -print-file-name=<Bib>   Vollen Pfad zur Bibliothek <Bib> anzeigen.
  -print-libgcc-file-name  Name der Begleitbibliothek des Compilers anzeigen.
  -print-multi-directory   Wurzelverzeichnis für Versionen von libgcc anzeigen.
  -print-multi-lib         Entspechungen zwischen Kommandozeilenoptionen und
                           mehreren Suchverzeichnissen für Bibliotheken ausgeben.
  -print-multi-os-directory Relativen Pfad zu Betriebssystembibliotheken anzeigen.
  -print-multiarch         Normalisiertes GNU-Tripel für das Ziel anzeigen,
                           welches als Komponente im Bibliothekspfad verwendet wird.
  -print-prog-name=<Prog>  Vollen Pfad zur Compilerkomponente <Prog> anzeigen.
  -print-search-dirs       Verzeichnisse im Suchpfad des Compilers anzeigen.
  -print-sysroot           Verzeichnis der Bibliotheken für die Zielarchitektur ausgeben.
  -print-sysroot-headers-suffix Den für die Headersuche verwendeten Sysroot-Anhang ausgeben.
  -q, --use-hotness-colors        perf-artige bunte Ausgabe für heiße Zeilen
  -r, --relative-only             Nur Daten für relative Quellen zeigen
  -s, --source-prefix VERZ        wegzulassender Quellen-Präfix
  -save-temps              Temporäre Dateien nicht löschen.
  -save-temps=<Arg>        Temporäre Dateien nicht löschen.
  -shared                  Eine dynamiache Bibliothek erzeugen.
  -specs=<Datei>           Eingebaute Spezifikationen mit dem Inhalt von <Datei>
                           überschreiben.
  -std=<Standard>          Annehmen, dass die Eingabequellen für <Standard> sind.
  -t, --stdout                    Ausgabe nach stdout anstelle einer Datei
  -time                    Zeit für die Ausführung jedes Subprozesses festhalten.
  -u, --unconditional-branches    Auch unbedingte Zweigzähler zeigen
  -v                       Die vom Compiler aufgerufenen Programme ausgeben.
  -v, --version                         Versionsnummer anzeigen, danach beenden
  -v, --version                   Versionsnummer anzeigen
  -w, --verbose                   Ausführliche Informationen ausgeben
  -x <Sprache>             Sprache der folgenden Eingabedateien angeben
                           Zulässige Sprachen sind: c c++ assembler none
                           »none« bedeutet den Rückfall auf das Standardverhalten,
                           die Sprache aufgrund der Dateiendung zu erraten.
  -x, --hash-filenames            lange Dateinamen hashen
  Bekannte gültige Argumente für Option »%s«:
    Ein Konstruktor, der ein einzelnes Argument seines eigenen Klassentyps hat, ist ungültig  eine qualifizierte ID ist erforderlich  nach benutzerdefinierter Umwandlung:  mehrdeutiges Templateargument für Nichttyp-Templateparameter wird wie ein Funktionstyp behandelt  ein geerbter Konstruktor ist kein Kandidat für Initialisierung aus einem Ausdruck desselben oder eines abgeleiteten Typs  und jeder Typ kann zu jedem anderen konvertiert werden  da es ein Nicht-Systemverzeichnis ist, das ein Systemverzeichnis dupliziert
  Basis %qT  Basisklasse %qT von %q+T ist kein Literal  denn die Umwandlungsfolge für das Argument ist besser  denn die folgenden virtuellen Funktionen sind rein innerhalb %qT:  aber %d benötigt  aber deklariert %<%T(const %T&)%> nicht  aber deklariert %<operator=(const %T&)%> nicht  von %qD  in Frage kommende Umwandlungen beziehen %qD und %qD ein  Kandidat erwartet %d Argument, %d angegeben  Kandidat erwartet %d Argumente, %d angegeben  Kandidat erwartet mindestens %d Argument, %d angegeben  Kandidat erwartet mindestens %d Argumente, %d angegeben %qE (Typ %qT) kann nicht in den Typ %qT umgewandelt werden  für %qT kann kein Template aus Nicht-Templatetyp %qT hergeleitet werden Umwandlung von Rückgabetyp %qT der Spezialisierung der Template-Umwandlungsfunktion in %qT passt nicht exakt  Umwandlung von Argument %d wäre unzulässig:  Template-Parameter %qD konnte nicht hergeleitet werden  überschneidet Initialisierung von %q#D  hier deklariert hergeleitete Typen für Parameter %qT stehen in Konflikt (%qT und %qT) hergeleitete Werte für Nicht-Typ-Parameter %qE stehen in Konflikt (%qE und %qE)  betritt %<catch%>-Block  betritt %<constexpr if%>-Anweisung  betritt %<try%>-Block  tritt in OpenMP-strukturierten Block ein  Eintritt in Gültigkeitsbereich von %q#D mit nicht-trivialem Destruktor  Eintritt in Gültigkeitsbereich von %q#D mit nicht-trivialem Destruktor  synchronisierte oder atomare Anweisung wird betreten  beendet OpenMP-strukturierten Block  %qD erwartet, %qD erhalten  Klassentemplate erwartet, %qE erhalten  Klassentemplate erwartet, %qT erhalten  Konstante des Typs %qT erwartet, %qT erhalten  ein Template des Typs %qD erwartet, %qT erhalten  einen Typ erwartet, %qE erhalten  einen Typ erwartet, %qT erhalten  für Umwandlung von %qH in %qI  aus Definition von %q#D  von hier  in Aufruf von %qD  in Auswertung von %<%Q(%#T, %#T)%>  in geworfenem Ausdruck unpassende Herleitung von Parameterpack mit %qT und %qT  hier geerbt  Argument %P von %qD wird initialisiert Typ %qT von Elementfunktion ist kein gültiges Templateargument  merge [Optionen] <Ordner1> <Ordner2>  Abdeckungsdateien zusammenführen
 unpassende Typen %qT und %qT  keine bekannte Umwandlung für Argument %d von %qH nach %qI  keine bekannte Umwandlung für impliziten %<this%>-Parameter von %qH nach %qI  keine bekannte Umwandlung von %qH nach %qI  nicht-statisches Datenelement %qD hat nicht-literalen Typ  nicht-statisches Datenelement %qD hat nicht-literalen Typ  oder %<operator=(const %T&)%>  oder einer %<transaction_may_cancel_outer%>-Funktion  overlap [Optionen] <Verz1> <Verz2>    Überlappung zwischen zwei Profilen berechnen
  die Übergabe von %qT als %<this%>-Argument streicht Qualifizierer  Profiling-Unterstützung nur im Archivformat unterstützt werden Rückgabetyp %qT der expliziten Umwandlungsfunktion kann nicht mit Qualifizierungsänderung in %qT umgewandelt werden  rewrite [Optionen] <Verzeichnis>      Inhalt der Abdeckungsdatei umschreiben
  denn %q+#D ist in Basisklasse deklariert  überspringt Initialisierung von %q#D Ersetzung der ermittelten Templateargumente führte zu obigen Fehlern Template-Argument %qE passt nicht zu %qE Templateargumente %qE passt nicht zum konstanten Zeiger auf Element %qE  Herleitung/Ersetzung von Templateargument gescheitert: Templateparameter %qD ist kein Parameterpack wie Argument %qD Templateparameter eines Template-Templatearguments sind mit anderen hergeleiteten Templateargumenten unverträglich  Versuch, %qD zu instanziieren Typen %qT und %qT haben unverträgliche CV-Qualifizierer Arraytyp %qT mit veränderlicher Größe ist kein gültiges Templateargument  während es hier initialisiert wurde  bei Instanziierung des Standardarguments für Aufruf von %qD (BB %d) (Operandentyp ist %qT) (Operandentypen sind %qT und %qT) (Operandentypen sind %qT, %qT und %qT) Alle Optionen mit den gewünschten Eigenschaften wurden bereits angezeigt
 Keine Optionen mit den gewünschten Eigenschaften gefunden
 Nichts gefunden. Bitte verwenden Sie »--help=%s«, um *alle* vom Frontend %s unterstützten Optionen anzuzeigen
 [siehe %<-fno-allow-invalid-boz%>] da alle seine Kopier- und Verschiebekonstruktoren gelöscht sind Kandidat 1: %q#F Kandidat 2: %q#F in Konflikt stehende Codeerzeugungsschalter verwendet hier deklariert der Ausdruck hat einen konstanten Wert, ist aber kein konstanter Ausdruck im Sinne von C++ zstd»%s !$ACC LOOP«-Schleifen bei %L formen keinen rechteckigen Wiederholungsraum!$ACC LOOP kann bei %L keine DO-CONCURRENT-Schleife sein!$ACC LOOP darf ohne Schleifensteuerung bei %L kein DO WHILE oder DO sein!$ACC-LOOP-Iterationsvariable bei %L muss vom Typ integer sein»!$ACC ROUTINE« wurde bereits bei %C angewendet!$ACC ROUTINE mit GANG, WORKER oder VECTOR-Klausel ist in PURE-Prozedur bei %C nicht erlaubt!$ACC bei %C beginnt eine kommentierte Zeile, da es weder von Leerzeichen gefolgt wird noch eine Fortsetzungszeile ist!$OMP ATOMIC CAPTURE-Erfassungsanweisung muss bei %L von skalarer Variable intrinsischen Typs lesen!$OMP ATOMIC CAPTURE-Erfassungsanweisung muss eine skalare Variable intrinsischen Typs bei %L setzen!$OMP ATOMIC CAPTURE-Erfassungsanweisung liest bei %L von anderer Variable als die Update-Anweisung schreibt!$OMP ATOMIC CAPTURE-Updateanweisung muss bei %L skalare Variable intrinsischen Typs setzen!$OMP ATOMIC READ bei %L ist inkompatibel zu den Klauseln ACQ_REL oder RELEASEAnweisung !$OMP ATOMIC READ muss bei %L von skalarer Variable intrinsischen Typs lesen!$OMP ATOMIC UPDATE bei %L ist inkompatibel zu den Klauseln ACQ_REL oder ACQUIRE!$OMP ATOMIC WRITE bei %L ist inkompatibel zu den Klauseln ACQ_REL oder ACQUIREEingebaute Zuweisung !$OMP ATOMIC IAND, IOR oder IEOR muss bei %L zwei Argumente habenEingebaute Zuweisung !$OMP ATOMIC muss bei %L MIN, MAX, IAND, IOR oder IEOR seinZuweisung !$OMP ATOMIC muss bei %L »var = var op expr« oder »var = expr op var« sein!$OMP ATOMIC Zuweisung muss auf der rechten Seite bei %L Operator oder Intrinsic habenZuweisungsoperator »!$OMP ATOMIC« muss bei %L ein binäres +, *, -, /, .AND., .OR., .EQV. oder .NEQV. seinVon den intrinsischen Argumenten für %<!$OMP ATOMIC%> bei %2$L darf höchstens eins auf %1$qs verweisen!$OMP ATOMIC intrinsische Argumente müssen bei %L skalar seinAnweisung !$OMP ATOMIC muss eine skalare Variable intrinsischen Typs bei %L setzen!$OMP ATOMIC »var op expr« bei %L ist nicht mathematisch äquivalent zu »var = var op (expr)«!$OMP ATOMIC mit ALLOCATABLE-Variable bei %L!$OMP DECLARE REDUCTION %s nicht gefunden bei %L!$OMP DECLARE REDUCTION »%s« für Typ %s bei %L nicht gefunden!$OMP DECLARE SIMD bei %2$L sollte auf die enthaltende Prozedur %1$qs verweisen»!$OMP DECLARE TARGET«-Variable %qs bei %L ist nicht gespeichert (SAVE)!$OMP REQUIRES bei %C muss im Spezifikationsteil einer Programmeinheit vorkommen%<!$OMP REQUIRES%>-Klausel %<atomic_default_mem_order(%s)%>, die bei %L angegeben ist, übersteuert ein vorangehendes %<atomic_default_mem_order(%s)%> (das möglicherweise von einer Modulverwendung stammt)%<!$OMP REQUIRES%>-Klausel %<atomic_default_mem_order(%s)%> wird von der Modulverwendung %qs bei %L angegeben, aber diese Klausel ist in der Programmeinheit nicht ebenfalls angegeben%<!$OMP REQUIRES%>-Klausel %<atomic_default_mem_order(%s)%>, die von der Modulverwendung %qs bei %L angegeben ist, übersteuert ein vorangehendes %<atomic_default_mem_order(%s)%> (das möglicherweise von einer Modulverwendung stammt)%<!$OMP REQUIRES%>-Klausel %qs, die bei %L angegeben ist, kommt nach der Verwendung eines Geräte-Konstrukts bzw. einer Geräte-Routine%<!$OMP REQUIRES%>-Klausel %qs ist von der Modulverwendung %qs bei %L angegeben, aber diese Klausel ist in der Programmeinheit nicht ebenfalls angegeben%<!$OMP REQUIRES%>-Klausel %qs, die von der Modulverwendung %qs bei %L angegeben ist, kommt nach der Verwendung eines Geräte-Konstrukts bzw. einer Geräte-Routine!$OMP bei %C beginnt eine kommentierte Zeile, da es weder von Leerzeichen gefolgt wird noch eine Fortsetzungszeile ist"%.*s""::" nach Modul-Eigenschaft bei %C erwartet, aber nicht gefunden"USE :: module" bei %C# %s %.2f %.2f
Suche für »#include "..."« beginnt hier:
Suche für »#include <...>« beginnt hier:
#pragma GCC memregs muss vor allen Funktionsdeklarationen stehen#pragma GCC memregs nimmt eine Zahl [0..16]#pragma GHS endXXX passt nicht zum vorherigen startXXX#pragma GHS endXXXX ohne vorheriges startXXX gefunden$-Deskriptor bei %L$ sollte das letzte Spezifikationssymbol in Format bei %L sein%#qT wird hier deklariert%#qT hier definiert%%:canon_for_mlib verlangt 1 oder mehr Paare von Parametern%%:target_mode_check verlangt eine gerade Anzahl an Parametern%%LOC() als rvalue bei %CDie Operandenmodifizierer %%d, %%e, %%f und %%g sind ausschließlich für Speicherreferenzen oder konstante Werte%+qD löst einen Abschnittstypkonflikt aus%+qD löst einen Abschnittstypkonflikt mit %qD aus%+qD als %qE deklariert, nachdem es verwendet wurde%+qD wurde als %qs deklariert, nachdem es verwendet wurde%+qD als schwach deklariert, nachdem es verwendet wurde%+qD ohne %<retain%>-Attribut und %qD mit %<retain%>-Attribut liegen in einem Abschnitt mit demselben NamenInterner Fehler: %<!%> not valid in GIMPLE%<#pragma %s%> darf nur in Verbundanweisungen verwendet werden%<#pragma GCC aarch64%> erfordert eine Zeichenkette als Parameter%<#pragma GCC ivdep%> muss innerhalb einer Funktion sein%<#pragma GCC optimize (Zeichenkette [,Zeichenkette]...)%> hat kein abschließendes %<)%>%<#pragma GCC optimize%> ist keine Zeichenkette oder Zahl%<#pragma GCC optimize%> ist nur außerhalb von Funktionen erlaubt%<#pragma GCC optimize%> Zeichenkette hat falsches Format%<#pragma GCC option%> ist keine Zeichenkette%<#pragma GCC option%> ist nur außerhalb von Funktionen erlaubt%<#pragma GCC pch_preprocess%> muss zuerst kommen%<#pragma GCC pop_options%> ohne zugehöriges %<#pragma GCC push_options%>%<#pragma GCC target (Zeichenkette [,Zeichenkette]...)%> hat kein abschließendes %<)%>%<#pragma GCC target%> wird für diese Maschine nicht unterstützt%<#pragma GCC target%> Zeichenkette hat falsches Format%<#pragma GCC unroll%> muss innerhalb einer Funktion sein%<#pragma GCC unroll%> erfordert einen Zuweisungsausdruck, der zu einer nichtnegativen Ganzzahlkonstante kleiner als %u evaluiert%<#pragma GCC visibility push()%> muss %<default%>, %<internal%>, %<hidden%> oder %<protected%> angeben%<#pragma GCC visibility%> muss von %<push%> oder %<pop%> gefolgt werden%<#pragma STDC FLOAT_CONST_DECIMAL64%> wird für C++ nicht unterstützt%<#pragma STDC FLOAT_CONST_DECIMAL64%> wird auf diesem Ziel nicht unterstützt%<#pragma acc %s data%> hat keine Datenverschiebeklausel%<#pragma acc routine%> muss vor Definition angewendet werden%<#pragma acc routine%> muss vor Verwendung angewendet werden%<#pragma acc routine%> darf nur im Datei-Gültigkeitsbereich auftreten%<#pragma acc routine%> benennt eine Menge von Überladungen%<#pragma acc routine%> muss direkt vor einer Deklaration oder Definition einer einzelnen Funktion auftreten%<#pragma acc routine%> muss direkt vor einer Funktionsdeklaration oder -definition auftreten%<#pragma acc update%> muss mindestens eine %<device%>- oder %<host%>- or %<self%>-Klausel enthalten%<#pragma align%> muss vor der Deklaration von %qD auftreten; wird ignoriert%<#pragma implementation%> für %qs erscheint, nachdem Datei eingebunden wurde%<#pragma message: %s%>%<#pragma omp allocate%> wird nicht mehr unterstützt%<#pragma omp atomic capture%> verwendet zwei unterschiedliche Ausdrücke für Speicher%<#pragma omp atomic capture%> verwendet zwei unterschiedliche Variablen für Speicher%<#pragma omp atomic read%> ist unverträglich mit den Klauseln %<acq_rel%> und %<release%>%<#pragma omp atomic update%> ist unverträglich mit den Klauseln %<acq_rel%> und %<acquire%>%<#pragma omp atomic update%> verwendet zwei unterschiedliche Ausdrücke für Speicher%<#pragma omp atomic update%> verwendet zwei unterschiedliche Variablen für Speicher%<#pragma omp atomic write%> ist unverträglich mit den Klauseln %<acq_rel%> und %<acquire%>%<#pragma omp cancel%> muss eine der Klauseln %<parallel%>, %<for%>, %<sections%> oder %<taskgroup%> angeben%<#pragma omp cancellation point%> muss eine der Klauseln %<parallel%>, %<for%>, %<sections%> oder %<taskgroup%> angeben%<#pragma omp critical%> mit %<hint%>-Klausel erfordert einen Namen, außer wenn %<omp_sync_hint_none%> verwendet wird%<#pragma omp declare %s%> gefolgt von %<#pragma omp declare %s%>%<#pragma omp declare %s%> muss vor der Deklaration oder Definition einer Funktion auftreten%<#pragma omp declare %s%> muss von einer Funktionsdeklaration oder -definition oder einem weiteren %<#pragma omp declare %s%> gefolgt werdenhinter %<#pragma omp declare %s%> muss direkt eine Funktionsdeklaration oder -definition stehenhinter %<#pragma omp declare %s%> muss direkt eine einzelne Funktionsdeklaration oder -definition stehen%<#pragma omp declare %s%> muss direkt von einer Funktionsdeklaration oder -definition gefolgt sein%<#pragma omp declare reduction%>-Kombinierer verweist auf Variable %qD, die weder %<omp_out%> noch %<omp_in%> ist%<#pragma omp declare reduction%>-Initialisierung verweist auf Variable %qD, die weder %<omp_priv%> noch %<omp_orig%> ist%<#pragma omp declare reduction%> darf nur im Datei- oder Block-Gültigkeitsbereich auftreten%<#pragma omp declare target%> ohne zugehöriges %<#pragma omp end declare target%>%<#pragma omp end declare target%> ohne zugehöriges %<#pragma omp declare target%>%<#pragma omp ordered%> mit %<depend%>-Klausel darf nur in Verbundanweisungen verwendet werden%<#pragma omp requires%> darf nur im Gültigkeitsbereich einer Datei oder eines Namensraums verwendet werden%<#pragma omp requires%> darf nur im Gültigkeitsbereich einer Datei verwendet werden%<#pragma omp scan%> darf nur in einem Schleifenkonstrukt mit %<inscan%>-%<reduction%>-Klausel verwendet werden%<#pragma omp section%> darf nur in %<#pragma omp sections%>-Konstrukt verwendet werden%<#pragma omp simd%> zusammen mit Iterationsvariable %qE verwendet%<#pragma omp target data%> muss mindestens eine %<map%>-, %<use_device_ptr%>- oder %<use_device_addr%>-Klausel enthalten%<#pragma omp target data%> mit Zuordnungstyp außer %<to%>, %<from%>, %<tofrom%> oder %<alloc%> an %<map%>-Klausel%<#pragma omp target enter data%> muss mindestens eine %<map%>-Klausel enthalten%<#pragma omp target enter data%> mit Zuordnungstyp außer %<to%> oder %<alloc%> an %<map%>-Klausel%<#pragma omp target exit data%> muss mindestens eine %<map%>-Klausel enthalten%<#pragma omp target exit data%> mit Zuordnungstyp außer %<from%>, %<release%> oder %<delete%> an %<map%>-Klausel%<#pragma omp target update%> muss mindestens eine %<from%>- oder %<to%>-Klausel enthalten%<#pragma omp target%> mit Zuordnungstyp außer %<to%>, %<from%>, %<tofrom%> oder %<alloc%> an %<map%>-Klausel%<#pragma pack (pop)%> gefunden ohne passendes %<#pragma pack (push)%>%<#pragma pack%> hat mit %<-fpack-struct%> keinen Effekt – wird ignoriert%<#pragma pack(pop, %E)%> gefunden ohne passendes %<#pragma pack(push, %E)%>%<#pragma redefine_extname%> wird aufgrund von Konflikt mit %<asm%>-Deklaration ignoriert%<#pragma redefine_extname%> wird aufgrund des Konflikts mit vorherigem %<#pragma redefine_extname%> ignoriert%<#pragma redefine_extname%> wird aufgrund des Konflikts mit vorheriger Umbenennung ignoriert%<#pragma scalar_storage_order%> wird in C++ nicht unterstützt%<#pragma vtable%> wird nicht mehr unterstützt%<#pragma weak%>-Deklaration von %q+D nicht erlaubt; wird ignoriert%<#pragma%> ist hier nicht erlaubt%<$%>-Operandennummer nach Format ohne Operandennummer angegeben%<%%%>-Bedingung mit letztem Operanden verwendet%<%%%c%> liefert nur die letzten 2 Ziffern des Jahres%<%%%c%> liefert in manchen Locales nur die letzten 2 Ziffern des JahresArgument der Direktive %<%.*s%> ist keine nul-terminierte ZeichenketteAusgabe der %<%.*s%>-Direktive zwischen %wu und %wu Bytes macht das Ergebnis größer als %<INT_MAX%>Ausgabe der Direktive %<%.*s%> zwischen %wu und %wu Bytes übersteigt %<INT_MAX%>Ausgabe der %<%.*s%>-Direktive zwischen %wu und %wu Bytes überschreitet die minimal erforderliche Größe von 4095Ausgabe der %<%.*s%>-Direktive zwischen %wu und %wu Bytes könnte das Ergebnis größer als %<INT_MAX%> machenAusgabe der %<%.*s%>-Direktive zwischen %wu und %wu Bytes könnte die minimal erforderliche Größe von 4095 überschreitenAusgabe der %<%.*s%>-Direktive könnte abgeschnitten sein, beim Schreiben von %wu Byte in eine Region der Größe %wuAusgabe der %<%.*s%>-Direktive könnte abgeschnitten sein, beim Schreiben von %wu Bytes in eine Region der Größe %wuAusgabe der %<%.*s%>-Direktive könnte abgeschnitten sein, beim Schreiben von %wu Byte in eine Region der Größe zwischen %wu und %wuAusgabe der %<%.*s%>-Direktive könnte abgeschnitten sein, beim Schreiben von %wu Bytes in eine Region der Größe zwischen %wu und %wuAusgabe der %<%.*s%>-Direktive könnte abgeschnitten sein, beim Schreiben von %wu oder mehr Bytes in eine Region der Größe %wuAusgabe der %<%.*s%>-Direktive könnte abgeschnitten sein, beim Schreiben von %wu oder mehr Bytes in eine Region der Größe zwischen %wu und %wuAusgabe der %<%.*s%>-Direktive könnte abgeschnitten sein, beim Schreiben von %wu bis %wu Bytes in eine Region der Größe %wuAusgabe der %<%.*s%>-Direktive könnte abgeschnitten sein, beim Schreiben zwischen %wu und %wu Bytes in eine Region der Größe zwischen %wu und %wuAusgabe der %<%.*s%>-Direktive könnte abgeschnitten sein, beim Schreiben von wahrscheinlich %wu oder mehr Bytes in eine Region der Größe %wuAusgabe der %<%.*s%>-Direktive könnte abgeschnitten sein, beim Schreiben von wahrscheinlich %wu oder mehr Bytes in eine Region der Größe zwischen %wu und %wuAusgabe der %<%.*s%>-Direktive könnte abgeschnitten sein, beim Schreiben von bis zu %wu Bytes in eine Region der Größe %wuAusgabe der %<%.*s%>-Direktive könnte abgeschnitten sein, beim Schreiben von bis zu %wu Bytes in eine Region der Größe zwischen %wu und %wuAusgabe der %<%.*s%>-Direktive von %wu Bytes macht das Ergebnis größer als %<INT_MAX%>Ausgabe der Direktive %<%.*s%> übersteigt mit %wu Bytes %<INT_MAX%>Ausgabe der %<%.*s%>-Direktive von %wu Bytes überschreitet die minimal erforderliche Größe von 4095Ausgabe der %<%.*s%>-Direktive abgeschnitten, beim Schreiben von %wu Byte in eine Region der Größe %wuAusgabe der %<%.*s%>-Direktive abgeschnitten, beim Schreiben von %wu Bytes in eine Region der Größe %wuAusgabe der %<%.*s%>-Direktive abgeschnitten, beim Schreiben von %wu Byte in eine Region der Größe zwischen %wu und %wuAusgabe der %<%.*s%>-Direktive abgeschnitten, beim Schreiben von %wu Bytes in eine Region der Größe zwischen %wu und %wuAusgabe der %<%.*s%>-Direktive abgeschnitten, beim Schreiben von %wu oder mehr Bytes in eine Region der Größe %wuAusgabe der %<%.*s%>-Direktive abgeschnitten, beim Schreiben von %wu oder mehr Bytes in eine Region der Größe zwischen %wu und %wuAusgabe der %<%.*s%>-Direktive abgeschnitten, beim Schreiben von %wu bis %wu Bytes in eine Region der Größe %wuAusgabe der %<%.*s%>-Direktive abgeschnitten, beim Schreiben von %wu bis %wu Bytes in eine Region der Größe zwischen %wu und %wuAusgabe der %<%.*s%>-Direktive abgeschnitten, beim Schreiben von wahrscheinlich %wu oder mehr Bytes in eine Region der Größe %wuAusgabe der %<%.*s%>-Direktive abgeschnitten, beim Schreiben von wahrscheinlich %wu oder mehr Bytes in eine Region der Größe zwischen %wu und %wuAusgabe der %<%.*s%>-Direktive abgeschnitten, beim Schreiben von bis zu %wu Bytes in eine Region der Größe %wuAusgabe der %<%.*s%>-Direktive abgeschnitten, beim Schreiben von bis zu %wu Bytes in eine Region der Größe zwischen %wu und %wuGenauigkeit der %<%.*s%>-Direktive außerhalb des zulässigen BereichsBreite für %<%.*s%>-Direktive außerhalb des zulässigen Bereichs%<%.*s%>-Direktive schreibt %wu Byte in eine Region der Größe %wu%<%.*s%>-Direktive schreibt %wu Bytes in eine Region der Größe %wu%<%.*s%>-Direktive schreibt %wu Byte in eine Region der Größe zwischen %wu und %wu%<%.*s%>-Direktive schreibt %wu Bytes in eine Region der Größe zwischen %wu und %wu%<%.*s%>-Direktive schreibt %wu oder mehr Bytes in eine Region der Größe %wu%<%.*s%>-Direktive schreibt %wu oder mehr Bytes in eine Region der Größe zwischen %wu und %wu%<%.*s%>-Direktive schreibt zwischen %wu und %wu Bytes in eine Region der Größe %wu%<%.*s%>-Direktive schreibt zwischen %wu und %wu Bytes in eine Region der Größe zwischen %wu und %wu%<%.*s%>-Direktive schreibt wahrscheinlich %wu oder mehr Bytes in eine Region der Größe %wu%<%.*s%>-Direktive schreibt wahrscheinlich %wu oder mehr Bytes in eine Region der Größe zwischen %wu und %wu%<%.*s%>-Direktive schreibt bis zu %wu Bytes in eine Region der Größe %wu%<%.*s%>-Direktive schreibt bis zu %wu Bytes in eine Region der Größe zwischen %wu und %wu%<%D::%D%> ist kein Klassenelement%<%D::%D%> ist kein Element von %qTAttribut %<%E (%E)%> wird ignoriert, da es sich auf eine Funktion bezieht, die als %qs deklariert istAttribut %<%E (%E)%> wird ignoriert, da es sich auf eine Deallokationsfunction bezieht, die als %qs deklariert ist%<%E::%E%> wurde nicht deklariert%<%E::%E%> ist keine Klasse oder Namensbereich%<%E::%E%> ist keine Klasse, Namensbereich oder Aufzählung%<%E::%E%> ist kein TypAttribut-Direktive im Bereich %<%E::%E%> ignoriert%<%T%s%D%> benennt Destruktor%<%T::%D%> benennt Konstruktor in %qT%<%T::%D%> benennt Konstruktor, nicht den Typ%<%T::%E%> wurde nicht deklariert%<%T::%E%> ist kein Typ%<%T::%E%> benennt den Konstruktor, nicht den Typ%<%c%> ist kein gültiges Zeichen in einem Bezeichner%<%c%> ist kein gültiges Anfangszeichen für einen Bezeichner%<%c%E%> nicht in Protokoll(en) gefundendas innerhalb der Parameterliste deklarierte %<%s %E%> ist außerhalb dieser Definition oder Deklaration nicht sichtbar%<%s %s%>-Konstrukt innerhalb von %qs nicht eng geschachtelt%<%s + %s%> bei %L muss kleiner oder gleich BIT_SIZE(%qs) sein%<%s taskgroup%>-Konstrukt nicht eng geschachtelt innerhalb von %<taskgroup%>-Region%<%s%> muss für sich allein stehen, für %<-mharden-sls=%>%<%s=%s%> und %<%s-%s%> sind unverträglich%<&%>-Bedingung ohne Registerklasse verwendetin Zeile %d ist %<&%> für sich alleine nicht erlaubt%<&%> sollte vor %<...%> kommenInterner Fehler: %<&&%> not valid in GIMPLE%<)%> bei %C erwartet%<*%> in booleschem Kontext, stattdessen ist %<&&%> empfohlen%<*this%>-Capture ist nur mit %<-std=c++17%> oder %<-std=gnu++17%> verfügbar%<-%s%> steht in Konflikt mit den anderen Architekturoptionen, die einen %s-Prozessor angebenArgument %q.*s für %<--help%> ist mehrdeutig, bitte präzisieren%<-I-%> doppelt angegeben%<-MG%> darf nur mit %<-M%> oder %<-MM%> verwendet werden%<-W%serror=%s%>: Keine Option %<-%s%>%<-W%serror=%s%>: unbekannte Option %<-%s%>; meinten Sie %<-%s%>?%<-Wabi%> warnt vor Abweichungen von der aktuellsten ABI, die ebenfalls standardmäßig verwendet wird%<-Wabi%> wird vor nichts warnen%<-Wabi=1%> wird nicht unterstützt; stattdessen wird »=2« verwendetArgument %qs für %<-Werror=%> ist für %s nicht gültig%<-Werror=%s%>: %<-%s%> ist keine Option, die Warnungen steuert%<-Wformat-contains-nul%> wird ohne %<-Wformat%> ignoriert%<-Wformat-extra-args%> wird ohne %<-Wformat%> ignoriert%<-Wformat-nonliteral%> wird ohne %<-Wformat%> ignoriert%<-Wformat-security%> wird ohne %<-Wformat%> ignoriert%<-Wformat-y2k%> wird ohne %<-Wformat%> ignoriert%<-Wformat-zero-length%> wird ohne %<-Wformat%> ignoriert%<-Wmisleading-indentation%> ist von diesem Punkt an ausgeschaltet, da die Spalten-Verfolgung aufgrund der Größe des Codes/Headers ausgeschaltet wurde%<-f%s%> und %<%s=%s%> sind unverträglich%<-f%s%> wird mit CONST16-Befehlen nicht unterstützt%<-f%s%> nicht unterstützt: wird ignoriert%<-f%sleading-underscore%> wird auf dieser Zielmaschine nicht unterstützt%<-fPIC%> und %<-fpic%> werden für dieses Ziel nicht unterstützt%<-fPIC%> wird nicht unterstützt%<-fPIC%>/%<-fpic%> werden für dieses Ziel nicht unterstützt%<-fPIE%> wird nicht unterstützt%<-fabi-compat-version=1%> wird nicht unterstützt; stattdessen wird »=2« verwendet%<-fabi-version=1%> wird nicht mehr unterstützt%<-fabi-version=12%> (GCC 8.1) ändert versehentlich die Aufrufkonvention für %qT%<-fabi-version=13%> (GCC 8.2) korrigiert die Aufrufkonvention für %qT, die in 8.1 versehentlich geändert wurde%<-falign-%s%> ist nicht zwischen 0 und %d%<-falign-labels=%d%> wird nicht unterstützt%<-falign-loops=%d%> wird nicht unterstützt%<-faligned-new=%d%> ist keine Zweierpotenz%<-fasan-shadow-offset%> sollte nur zusammen mit %<-fsanitize=kernel-address%> verwendet werden%<-fassociative-math%> abgeschaltet; andere Optionen haben Vorrang%<-fcall-saved-REG%> wird für Ausgaberegister nicht unterstützt%<-fcf-protection%> ist nicht mit diesem Ziel kompatibel%<-fcf-protection=branch%> wird für dieses Ziel nicht unterstützt%<-fcf-protection=full%> wird für dieses Ziel nicht unterstützt%<-fcf-protection=return%> wird für dieses Ziel nicht unterstützt%<-fd-lines-as-code%> hat in Freiform keine Auswirkung%<-fd-lines-as-comments%> hat in Freiform keine Auswirkung%<-fdata-sections%> wird für dieses Ziel nicht unterstützt%<-fdbg-cnt=%s:%d:%d%> hat kleinere obere als untere Grenze%<-fdirectives-only%> ist mit %<-Wunused-macros%> unverträglich%<-fdirectives-only%> ist mit %<-traditional%> unverträglich%<-femit-struct-debug-detailed=dir:...%> muss zumindest so viel wie %<-femit-struct-debug-detailed=ind:...%> erlauben%<-fexcess-precision=standard%> für Ada%<-fexcess-precision=standard%> für C++%<-fexcess-precision=standard%> für Fortran%<-ffunction-sections%> wird für dieses Ziel nicht unterstützt%<-fhandle-exceptions%> wurde in %<-fexceptions%> umbenannt (und ist nun voreingestellt)%<-fipa-modref%> ist mit %<-flive-patching=inline-only-static|inline-clone%> unverträglich%<-flinker-output=rel%> und %<-fltrans%> schließen sich gegenseitig aus%<-fno-fat-lto-objects%> werden nur mit Linker-Plugin unterstützt%<-fno-gnu89-inline%> wird nur im Modus GNU99 oder C99 unterstützt%<-fobjc-abi-version%> %d wird für 32-Bit-Ziele mit %<-fnext-runtime%> nicht unterstützt%<-fobjc-abi-version%> 2 muss für 64-Bit-Ziele mit %<-fnext-runtime%> verwendet werden%<-fobjc-exceptions%> verwenden, um Syntax für Objective-C-Ausnahmen einzuschalten%<-fobjc-gc%> wird für %<-fgnu-runtime%> ignoriert%<-fobjc-sjlj-exceptions%> wird für %<-fgnu-runtime%> ignoriert%<-fobjc-sjlj-exceptions%> wird für %<-fnext-runtime%> ignoriert, wenn %<-fobjc-abi-version%> größer als 1 ist%<-fobjc-sjlj-exceptions%> ist das einzige unterstützte Ausnahmesystem für %<-fnext-runtime%> mit %<-fobjc-abi-version%>-Argument kleiner 2Option %<-foffload-abi%> kann nur für Offload-Compiler angegeben werdenOperand für %<-fopenacc-dim%> bei %qs ist falsch%<-fpic%> und %<-fPIC%> werden ohne %<-mdsbt%> für dieses Ziel nicht unterstützt%<-fpic%> und %<-mapcs-reent%> sind inkompatibel%<-fpic%> wird nicht unterstützt%<-fpie%> wird nicht unterstützt%<-fprefetch-loop-arrays%> wird nicht mit %<-Os%> unterstützt%<-fprefetch-loop-arrays%> wird für dieses Ziel nicht unterstützt%<-fprefetch-loop-arrays%> wird für dieses Ziel nicht unterstützt (ggf. die %<-march%>-Schalter versuchen)%<-frecord-gcc-switches%> wird für das aktuelle Ziel nicht unterstützt%<-freorder-blocks-and-partition%> unterstützt auf dieser Architektur nicht Unwind-Info%<-freorder-blocks-and-partition%> funktioniert auf dieser Architektur nicht%<-freorder-blocks-and-partition%> funktioniert auf dieser Architektur nicht mit Ausnahmen%<-freorder-blocks-and-partition%> wird auf dieser Architektur nicht unterstützt%<-fsanitize-address-use-after-scope%> erfordert %<-fstack-reuse=none%>%<-fsanitize-recover=%s%> wird nicht unterstützt%<-fsanitize=%s%> ist mit %<-fsanitize=%s%> unverträglich%<-fsanitize=address%> und %<-fsanitize=kernel-address%> werden für dieses Ziel nicht unterstützt%<-fsanitize=address%> wird für dieses Ziel nicht unterstützt%<-fsanitize=all%> ist ungültig%<-fsanitize=kernel-address%> mit Stapelschutz wird auf diesem Ziel nur in Kombination mit %<-fasan-shadow-offset=%> unterstützt%<-fsanitize=pointer-compare%> muss mit %<-fsanitize=address%> oder %<-fsanitize=kernel-address%> kombiniert werden%<-fsanitize=pointer-subtract%> muss mit %<-fsanitize=address%> oder %<-fsanitize=kernel-address%> kombiniert werden%<-fsplit-stack%> wird derzeit nur auf GNU/Linux unterstützt%<-fsplit-stack%> wird derzeit nur auf PowerPC64 GNU/Linux mit glibc-2.18 oder neuer unterstützt%<-fsplit-stack%> unterstützt nicht 2 Registerparameter für eine geschachtelte Funktion%<-fsplit-stack%> unterstützt nicht 3 Registerparameter%<-fsplit-stack%> unterstützt nicht fastcall mit geschachtelter Funktion%<-fsplit-stack%> wird von dieser Compilerkonfiguration nicht unterstützt%<-fsplit-stack%> erfordert Assemblerunterstützung für CFI-Direktiven%<-fstack-check=%> und %<-fstack-clash_protection%> schließen einander aus. %<-fstack-check=%> wird deaktiviert%<-fstack-check=specific%> für Thumb-1%<-fstack-check=specific%> nicht für MIPS16 implementiert%<-fstack-clash-protection%> wird auf Architekturen, deren Stapel von klein nach groß wächst, nicht unterstütztOptionen %<-fstack-limit-%> werden durch %<-mfdpic%> ignoriert; stattdessen %<-mstack-check-l1%> verwendendie Optionen %<-fstack-limit-%> werden auf dieser CPU nicht unterstützt%<-fstack-protector%> wird für dieses Ziel nicht unterstützt%<-fuse-cxa-atexit%> wird für msp430-elf nicht unterstützt%<-fuse-linker-plugin%>, aber %s nicht gefunden%<-fwpa%> und %<-fltrans%> schließen sich gegenseitig aus%<-g%> wird nur bei der Verwendung von GAS auf diesem Prozessor unterstütztOption %<-g%> ausgeschaltet%<-g%> mit %<-mno-apcs-frame%> könnte vernünftiges Debugging verhindern%<-gdwarf=%s%> ist mehrdeutig; verwenden Sie %<-gdwarf-%s%> für die DWARF-Version und %<-gdwarf -g%s%> für die Debugstufe%<-gdwarf-6%> wird als Version 5 ausgegeben, mit Inkompatibilitäten%<-ginline-points%> wird zwangsweise ausgeschaltet, da %<-gstatement-frontiers%> nicht angegeben ist%<-ginternal-reset-location-views%> wird zwangsweise ausgeschaltet, da %<-gvariable-location-views%> nicht angegeben ist%<-gnat%> falsch buchstabiert als %<-gant%>%<-gsplit-dwarf%> wird für dieses Ziel nicht unterstützt, wird ignoriert%<-gsplit-dwarf%> wird nicht zusammen mit LTO unterstützt, wird daher ausgeschaltetOption %<-iplugindir <Verz>%> nicht vom GCC-Treiber übergeben%<-m%s%> wird in dieser Konfiguration nicht unterstützt%<-m64%> benötigt eine PowerPC64-CPU%<-mabi=%s%> wird nicht zusammen mit %<-fsanitize=address%> unterstützt%<-mabi=%s%> wird nicht zusammen mit %<-fsanitize=kernel-address%> unterstützt%<-mabi=%s%> wird nicht zusammen mit %<-fsanitize=thread%> unterstütztdie Option %<-mabi=2fp+%> wird nur unterstützt, wenn eine FPU verfügbar ist, das kann durch die Optionen %<-mext-fpu-sp%> oder %<-mext-fpu-dp%> eingeschaltet werden%<-mabi=ms%> wird in der X32-ABI nicht unterstützt%<-maix64%> benötigt: 64-Bit-Berechnung mit 32-Bit-Adressierung noch nicht unterstützt%<-maix64%> setzt eingeschaltete PowerPC64-Architektur voraus%<-malign-functions%> ist veraltet, Ersatz: %<-falign-functions%>%<-malign-functions=%d%> liegt nicht zwischen 0 und %d%<-malign-jumps%> ist veraltet, Ersatz: %<-falign-jumps%>%<-malign-jumps=%d%> liegt nicht zwischen 0 und %d%<-malign-loops%> ist veraltet, Ersatz: %<-falign-loops%>%<-malign-loops=%d%> liegt nicht zwischen 0 und %d%<-mapcs-stack-check%> verträgt sich nicht mit %<-mno-apcs-frame%>%<-march=%s%> ist mit dem ausgewählten ABI unverträglich%<-march=%s%> erfordert %<-mfp32%>%<-march=%s%>: %s müssen durch _ getrennt sein%<-march=%s%> erfordert eine Zahl nach %<%dp%>.%<-march=%s%>: Erweiterung %qs kommt mehr als einmal vor.%<-march=%s%>: ISA-Zeichenkette ist nicht in kanonischer Reihenfolge. %<%c%>%<-march=%s%>: ISA-Zeichenkette muss mit %<rv32%> oder %<rv64%> anfangen%<-march=%s%>: erste ISA-Teilmenge muss %<e%>, %<i%> oder %<g%> sein%<-march=%s%>: Name von %s muss mehr als 1 Buchstabe sein%<-march=%s%>: rv%de ist keine gültige Basis-ISA%<-march=%s%>: unerwartete ISA-Zeichenkette am Ende: %qs%<-march=%s%>: nicht unterstützte ISA-Teilmenge %<%c%>%<-masm=intel%> wird in dieser Konfiguration nicht unterstützt%<-max-stackframe=%d%> ist nicht verwendbar, nicht zwischen 0 und %ddie Kombination aus %<-mbackchain%>, %<-mpacked-stack%> und %<-mhard-float%> wird nicht unterstützt%<-mbranch-cost=%d%> liegt nicht zwischen 0 und 5%<-mcall-aixdesc%> ist unverträglich mit %<-mabi=elfv2%>%<-mcall-ms2sysv-xlogues%> ist nicht kompatibel mit %<%s%>%<-mcall-ms2sysv-xlogues%> wird derzeit nicht zusammen mit SEH unterstützt%<-mcmodel%> unverträglich mit anderen TOC-Optionen%<-mcmodel%> unverträglich mit anderen TOC-Optionen%<-mcmodel=%> wird im 32-Bit-Modus nicht unterstützt%<-mcode-region=either%> erfordert das große Speichermodell (%<-mlarge%>)%<-mcode-region=upper%> erfordert das große Speichermodell (%<-mlarge%>)%<-mcorea%> und %<-mcoreb%> können nicht zusammen verwendet werden%<-mcorea%> sollte mit %<-mmulticore%> verwendet werden%<-mcoreb%> sollte mit %<-mmulticore%> verwendet werden%<-mcpu=%> ist veraltet. Verwenden Sie stattdessen %<-mtune=%> oder %<-march=%>%<-mcpu=%s%> steht in Konflikt mit %<-march=%s%>%<-mcpu=%s%> hat ungültige Silizium-Revision%<-mcpu=%s%> ist nicht gültig%<-mcpu=%s%>: unbekannte CPU%<-mdata-region=either%> erfordert das große Speichermodell (%<-mlarge%>)%<-mdata-region=upper%> erfordert das große Speichermodell (%<-mlarge%>)%<-mdiv%> erfordert %<-march%>, um die %<M%>-Erweiterung zu ermitteln%<-mdouble-float%> wird ohne %<-mhard-float%> ignoriert%<-mdynamic-no-pic%> übersteuert %<-fpic%>, %<-fPIC%>, %<-fpie%> oder %<-fPIE%>%<-mes0%> kann nur zusammen mit C verwendet werden%<-mexr%> wird ohne %<-ms%> verwendet%<-mexr%> wird ohne %<-ms%> oder %<-msx%> verwendet%<-mfdivdu%> wird ohne %<-mhard-float%> ignoriert%<-mfdpic%> wird nicht unterstützt, bitte das Ziel »bfin-linux-uclibc« verwenden%<-mfentry%> wird nur auf 64-Bit-CPUs unterstützt%<-mfentry%> wird für 32 Bit in Kombination mit %<-fpic%> nicht unterstützt%<-mfloat-abi=hard%> und VFP%<-mfloat-abi=hard%>: ausgewählte Architektur hat keine FPU%<-mfpxx%> kann nur mit dem o32-ABI verwendet werden%<-mfpxx%> erfordert %<-mlra%>%<-mfunction-return%> und %<-fcf-protection%> sind nicht kompatibel%<-mfunction-return=%s%> und %<-mcmodel=large%> sind nicht kompatibel%<-mfused-madd%> ist veraltet; stattdessen %<-ffp-contract=%> verwenden%<-mgp32%> und %<-mfp64%> können nur kombiniert werden, wenn das Ziel die Befehle mfhc1 und mthc1 unterstützt%<-mgp32%> und %<-mfp64%> können nur kombiniert werden, wenn o32-ABI verwendet wird%<-mgp32%> mit einem 64-Bit-ABI verwendet%<-mgp64%> mit einem 32-Bit-ABI verwendet%<-mgp64%> mit einem 32-Bit-Prozessor verwendet%<-mgpopt%> wird nicht zusammen mit PIC unterstütztArgument für %<-mgprel-sec=%> ist kein gültiger regulärer Ausdruck%<-mgprel-sec=%> wird nicht zusammen mit PIC unterstützt%<-mhard-dfp%> kann nicht in Verbindung mit %<-msoft-float%> verwendet werden%<-mhard-float%> wird von der ausgewählten CPU nicht unterstützt%<-mincoming-stack-boundary=%d%> liegt nicht zwischen %d und 12%<-mindirect-branch%> und %<-fcf-protection%> sind nicht kompatibel%<-mindirect-branch=%s%> und %<-mcmodel=large%> sind nicht kompatibel%<-mintel-syntax%> und %<-mno-intel-syntax%> sind veraltet; stattdessen %<-masm=intel%> und %<-masm=att%> verwenden%<-mips3d%> erfordert %<-mpaired-single%>Argument für %<-misr-secure=%d%> liegt nicht zwischen 0 und 3für die Option %<-misr-vector-size=%d%> sind nur die Werte 4 oder 16 gültig%<-mlarge%> erfordert ein 430X-kompatibles %<-mmcu=%>%<-mlong-double-64%> ist mit %<-m64%> nicht erlaubt%<-mloongson-ext2%> muss zusammen mit %<-mloongson-ext%> verwendet werden%<-mloongson-mmi%> muss zusammen mit %<-mhard-float%> verwendet werden%<-mmsa%> muss zusammen mit %<-mfp64%> und %<-mhard-float%> verwendet werden%<-mmul=g13%> kann nicht zusammen mit %<-mcpu=g10%> verwendet werden%<-mmul=g13%> kann nicht zusammen mit %<-mcpu=g14%> verwendet werden%<-mmul=g14%> kann nicht zusammen mit %<-mcpu=g10%> verwendet werden%<-mmul=g14%> kann nicht zusammen mit %<-mcpu=g13%> verwendet werden%<-mmulticore%> kann nur mit BF561 verwendet werden%<-mn%> wird für Linux-Ziele nicht unterstützt%<-mno-%s%> schaltet %<-m%s%> aus%<-mno-allow-string-insns%> verbietet das Erzeugen des RMPA-Befehls%<-mno-altivec%> schaltet vsx aus%<-mno-dpfp-lrsr%> wird nur mit %<-mdpfp%> unterstützt%<-mno-exr%> ist nur mit %<-ms%> oder %<-msx%> gültig, die Option wird ignoriert%<-mno-fentry%> ist nicht mit SEH verträglich%<-mno-gpopt%> erfordert %<-mexplicit-relocs%>%<-mno-mpy%> wird nur für ARC700 oder ARCv2 unterstützt%<-mno-pic-data-is-text-relative%> kann nur zusammen mit %<-fpic%>/%<-fPIC%> verwendet werden%<-mnop-mcount%> ist nicht mit diesem Ziel kompatibel%<-mnop-mcount%> ist für %<-fPIC%> nicht implementiert%<-mpcrel -fPIC%> wird derzeit nicht für die ausgewählte CPU unterstützt%<-mpic-register=%> ist ohne %<-fpic%> nutzlos%<-mpic-symbol-stubs%> ist für 64-Bit-Code nicht erforderlich (ignoriert)%<-mpreferred-stack-boundary%> wird für dieses Ziel nicht unterstützt%<-mpreferred-stack-boundary=%d%> liegt nicht zwischen %d und %d%<-mpreferred-stack-boundary=%d%> muss zwischen %d und %d liegen%<-mquad-memory%> ist im Little-Endian-Modus nicht verfügbar%<-mquad-memory%> benötigt 64-Bit-Modus%<-mquad-memory-atomic%> benötigt 64-Bit-ModusArgument für %<-mr0rel-sec=%> ist kein gültiger regulärer Ausdruck%<-mr0rel-sec=%> wird nicht zusammen mit PIC unterstützt%<-mregparm%> wird für Intel-MCU-psABI ignoriert%<-mregparm%> wird im 64-Bit-Modus ignoriert%<-mregparm=%d%> liegt nicht zwischen 0 und %d%<-mrelax%> wird nur für RTP PIC unterstützt%<-mriscv-attribute%> RISC-V-ELF-Attribut erfordert GNU as 2.32 [%<-mriscv-attribute%>]%<-mrtd%> wird im 64-Bit-Modus ignoriert%<-ms2600%> wird ohne %<-ms%> verwendet%<-mshared-library-id=%> ohne %<-mid-shared-library%> angegeben%<-mshared-library-id=%s%> liegt nicht zwischen 0 und %d%<-msmart%> ist mit %<-mhigh-registers%> unverträglich%<-mspfp_fast%> ist auf ARC600 und ARC601 nicht verfügbar%<-msse5%> wurde entfernt%<-msseregparm%> verwendet, ohne dass SSE eingeschaltet ist%<-mstack-guard%> bringt %<-mstack-size%> mit sich%<-mstringop-strategy=rep_8byte%> wird für 32-Bit-Code nicht unterstützt%<-mtune=%> erwartet mn10300, am33, am33-2, oder am34%<-mtune=x86-64%> ist veraltet; stattdessen entsprechend %<-mtune=k8%> oder %<-mtune=generic%> verwenden%<-muintr%> wird für 32-Bit-Code nicht unterstützt%<-mvrsave=no%> ist veraltet. Verwenden Sie stattdessen %<-mno-vrsave%>%<-mvrsave=yes%> ist veraltet. Verwenden Sie stattdessen %<-mvrsave%>%<-mvsx%> und %<-mno-altivec%> sind unverträglich%<-mvsx%> benötigt indizierte Adressierung%<-mvsx%> benötigt Hardware-Gleitkommabefehle%<-mxl-multiply-high%> kann nur mit %<-mcpu=v6.00.a%> oder höher verwendet werden%<-mxl-multiply-high%> erfordert %<-mno-xl-soft-mul%>%<-mxl-reorder%> kann nur mit %<-mcpu=v8.30.a%> oder höher verwendet werden%<-mxl-reorder%> erfordert %<-mxl-pattern-compare%> für %<-mcpu=v8.30.a%>%<-pipe%> ignoriert, da %<-save-temps%> angegeben wurde%<-pipe%> wird nicht unterstützt%<-static-libgfortran%> wird in dieser Konfiguration nicht unterstützt%<-x %s%> hinter letzter Eingabedatei hat keine Auswirkung%<.%s%>-Name wird mehrfach in derselben Initialisierungsliste verwendet%<...%>-Behandler muss der letzte Behandler für seinen »try«-Block sein%<...%> ist in benannten Initialisierungen nicht erlaubt%<::%> in PROCEDURE-Bindung mit explizitem Ziel bei %C erforderlich%<::%D%> wurde nicht deklariert%<::%D%> wurde nicht deklariert; meinten Sie %qs?%<::%E%> wurde nicht deklariert%<::%E%> ist keine Klasse oder Namensbereich%<::%E%> ist keine Klasse, Namensbereich oder Aufzählung%<::%E%> ist kein Typ%<::main%> muss %<int%> zurückgeben%<<:%> ist eine andere Schreibweise für %<[%>. Leerraum zwischen %<<%> und %<::%> einfügen%<<::%> kann keine Templateargumentliste einleiten%<<<%> in booleschem Kontext, meinten Sie %<<%>?%<=> target%> ist ungültig für DEFERRED-Bindung bei %COperator %<>>%> wird in C++11 wie zwei spitze schließende Klammern behandelt%<>>%> sollte innerhalb einer geschachtelten Templateargumentliste %<> >%> sein%<?:%> mit Ganzzahlkonstanten in booleschem Kontext%<?:%> mit Ganzzahlkonstanten in booleschem Zusammenhang; der Ausdruck evaluiert immer zu %<true%>%<@catch%>-Parameter kann nicht Protokoll-qualifiziert sein%<@catch%>-Parameter ist kein bekannter Objective-C-Klassentypin Objective-C 1.0 gibt es kein %<@dynamic%>%<@dynamic%> nicht in @implementation-Kontext%<@dynamic%> erfordert Verfügbarkeit des @interface der Klasse%<@encode%> muss als Argument einen Typen angeben%<@end%> fehlt in Implementationskontext%<@end%> muss in einem @implementation-Kontext auftreten%<@interface%> der Klasse %qE nicht gefunden%<@optional%> ist nur im @protocol-Kontext erlaubt%<@optional%> ist in Objective-C 1.0 nicht verfügbar%<@package%> ist in Objective-C 1.0 nicht verfügbar%<@package%> hat derzeit den gleichen Effekt wie %<@public%>%<@property%> ist in Objective-C 1.0 nicht verfügbar%<@required%> ist nur im @protocol-Kontext erlaubt%<@required%> ist in Objective-C 1.0 nicht verfügbar%<@synchronized%>-Argument ist kein Objekt%<@synthesize%> kann nicht in Kategorien verwendet werdenin Objective-C 1.0 gibt es kein %<@synthesize%>%<@synthesize%> nicht in @implementation-Kontext%<@synthesize%> erfordert Verfügbarkeit des @interface der Klasse%<@throw%> (rethrow) außerhalb von %<@catch%>-Block verwendet%<@throw%>-Argument ist kein Objekt%<@try%> ohne %<@catch%> oder %<@finally%>Spaltenüberschriften %<CPU_TYPE%> und %<MPY_TYPE%> fehlen in %<devices.csv%>Spaltenüberschrift %<CPU_TYPE%> fehlt in %<devices.csv%>%<CTABLE_ENTRY%>-Basisadresse muss ein Vielfaches von 256 seinN/A%<DETACH%>-Klausel bei %L darf nicht zusammen mit %<MERGEABLE%>-Klausel verwendet werden%<G0%> in Format bei %LDie Direktive %<GCC unroll%> bei %C darf nur direkt vor einem Schleifenbeginn stehenDie Direktive %<GCC unroll%> bei %C darf nur direkt vor einem Schleifenbeginn stehenDie Direktive %<GCC unroll%> bei %C darf nur direkt vor einem Schleifenbeginn stehenDirektive %<GCC unroll%> bei %2$C verlangt eine konstante Anzahl (maximal %1$u)Die Direktive %<GCC unroll%> bei %C darf nur direkt vor einem Schleifenbeginn stehen%<HLE_ACQUIRE%> wird mit %<ACQUIRE%> oder stärkerem Speichermodell nicht verwendet%<HLE_RELEASE%> wird mit %<RELEASE%> oder stärkerem Speichermodell nicht verwendet%<LEXER_DEBUGGING_ENABLED_P%> ist nicht auf true gesetztArgument %<MOLD%> des intrinsischen %<TRANSFER%> bei %L ist ein Array und darf nicht die Speichergröße 0 haben, da das %<SOURCE%>-Argument größer als 0 istArgument %<MOLD%> des intrinsischen %<TRANSFER%> bei %L darf nicht %s seinArgument %<MOLD%> des intrinsischen %<TRANSFER%> bei %L darf kein %s seinSpaltenüberschrift %<MPY_TYPE%> fehlt in %<devices.csv%>Argument %<SOURCE%> des intrinsischen %<TRANSFER%> bei %L darf kein %s seinInterner Compilerfehler: %<TREE_PURPOSE%> is non-NULL in %<TYPE_ARG_TYPES%> listInterner Compilerfehler: %<TYPE_ARRAY_MAX_SIZE%> not %<INTEGER_CST%>Interner Compilerfehler: %<TYPE_BINFO%> is not %<TREE_BINFO%>Interner Compilerfehler: %<TYPE_BINFO%> type is not %<TYPE_MAIN_VARIANT%>Interner Compilerfehler: %<TYPE_CACHED_VALUES%> is not %<TREE_VEC%>Interner Compilerfehler: %<TYPE_CACHED_VALUES_P%> is %i while %<TYPE_CACHED_VALUES%> is %pInterner Compilerfehler: %<TYPE_CACHED_VALUES_P%> is set while it should not beInterner Compilerfehler: %<TYPE_CANONICAL%> has different %<TYPE_CANONICAL%>Interner Compilerfehler: %<TYPE_CANONICAL%> is not compatibleInterner Compilerfehler: %<TYPE_CANONICAL%> of main variant is not main variantInterner Compilerfehler: %<TYPE_FIELDS%> defined in incomplete typeInterner Compilerfehler: %<TYPE_LANG_SLOT_1 (binfo)%> field is non-NULLInterner Compilerfehler: %<TYPE_MAIN_VARIANT%> has different %<TYPE_MAIN_VARIANT%>Interner Compilerfehler: %<TYPE_MAX_VALUE_RAW%> non-NULLInterner Compilerfehler: %<TYPE_METHOD_BASETYPE%> is not main variantInterner Compilerfehler: %<TYPE_METHOD_BASETYPE%> is not record nor unionInterner Compilerfehler: %<TYPE_MODE%> of %<TYPE_CANONICAL%> is not compatibleInterner Compilerfehler: %<TYPE_NEXT_PTR_TO%> is not %<POINTER_TYPE%>Interner Compilerfehler: %<TYPE_NEXT_REF_TO%> is not %<REFERENCE_TYPE%>Interner Compilerfehler: %<TYPE_OFFSET_BASETYPE%> is not record nor unionInterner Compilerfehler: %<TYPE_VALUES_RAW%> field is non-NULLInterner Compilerfehler: %<TYPE_VFIELD%> is not %<FIELD_DECL%> nor %<TREE_LIST%>%<V%>-Modifikator an nicht-ganzzahligem Register%<[%E] =%> in benannter Initialisierung im GNU-Stil für Klasse %qT verwendet%<[*]%> außerhalb des Bereichs des Funktionsprototypen nicht erlaubt%<[*]%> nicht in einer Deklaration%<[super …]%> darf nur in einem Methodenkontext auftreten%<_Alignas%>-Spezifizierer können nicht die Ausrichtung von %qE reduzieren%<_Alignas%>-Spezifizierer können nicht die Ausrichtung eines zusammengesetzten Feldes reduzieren%<_Alignas%>-Spezifizierer können nicht die Ausrichtung eines unbenannten Feldes reduzieren%<_Atomic%> %qD in %<aligned%>-Klausel%<_Atomic%> %qD in %<firstprivate%>-Klausel am %<target%>-Konstrukt%<_Atomic%> %qD in %<linear%>-Klausel%<_Atomic%>-Deklaration %qD in %qs-Klausel%<_Atomic%> %qD in impliziter %<firstprivate%>-Klausel am %<target%>-Konstrukt%<_Atomic%> %qD in implizier %<map%>-Klausel%<_Atomic%> %qE in %<reduction%>-Klausel%<_Atomic%>-Ausdruck %qE in %qs-Klausel%<_Atomic%> auf einen qualifizierten Typen angewandt%<_Atomic%>-Ausdruck in %<#pragma omp atomic%>%<_Atomic%> in Objective-C%<_Atomic%>-Iterationsvariable %qE%<_Atomic%>-qualifizierter Typ in %<#pragma omp declare reduction%>%<_Atomic%>-qualifizierter Arraytyp%<_Atomic%>-qualifizierter Funktionstyp%<_Atomic%>-qualifizierter Parametertyp %qT von %q+D%<_Atomic%>-qualifizierter Rückgabetyp von %qD%<_Float%d%s%> wird für dieses Ziel nicht unterstützt%<_Generic%>-Zuordnung hat Funktionstyp%<_Generic%>-Zuordnung hat unvollständigen Typ%<_Generic%>-Verbindung hat variable Typlänge%<_Generic%>-Selektor passt zu mehreren Zuordnungen%<_Generic%>-Selektor vom Typ %qT ist mit keiner der Zuordnungen kompatibel%<_Generic%> gibt zwei kompatible Typen an%<_Noreturn%> in leerer Deklaration%<_Sat%> ohne %<_Fract%> oder %<_Accum%> verwendetAttribut %<__BELOW100__%> bezieht sich nur auf Variablen%<__GIMPLE%> ist nur mit %<-fgimple%> gültigFunktion %<__RTL%> kann nicht mit %<-flto%> kompiliert werden%<__alignof%> auf Bitfeld angewandt%<__auto_type%> gefolgt von %<[[]]%>-Attributen%<__auto_type%> in leerer Deklaration%<__auto_type%> kann nur mit einem einzelnen Deklarator verwendet werden%<__auto_type%> erfordert einen einfachen Bezeichner als Deklarator%<__auto_type%> benötigt eine initialisierte Datendeklaration%<__auto_type%> wird mit einem Bitfeld-Initialisierer verwendet%<__builtin_arc_aligned%> mit nichtkonstanter AusrichtungZieltyp %qT von %<__builtin_bit_cast%> ist ein ArraytypZieltyp %qT von %<__builtin_bit_cast%> ist nicht trivial kopierbarin %<__builtin_bit_cast%> ist die Quellgröße %qE ungleich der Zieltypgröße %qEQuelltyp %qT von %<__builtin_bit_cast%> ist nicht trivial kopierbarOperand von %<__builtin_complex%> nicht realer binärer GleitkommatypOperanden von %<__builtin_complex%> unterschiedlichen TypsDas erste Argument von %<__builtin_convertvector%> muss Ganzzahl- oder Gleitkommavektor seinAnzahl der Elemente des ersten Argumentvektors und des Typs des zweiten Argumentvektors für %<__builtin_convertvector%> sollten gleich seinDas zweite Argument von %<__builtin_convertvector%> muss Ganzzahl- oder Gleitkommavektortyp sein%<__builtin_eh_return%> für dieses Ziel nicht unterstützt%<__builtin_has_attribute%> mit abhängigem Argument wird noch nicht unterstütztZweites Argument für %<__builtin_longjmp%> muss 1 sein%<__builtin_mffsl%> wird in Kombination mit %<-msoft-float%> nicht unterstützt%<__builtin_mtfsb0%> und %<__builtin_mtfsb1%> werden in Kombination mit %<-msoft-float%> nicht unterstützt%<__builtin_next_arg%> ohne Argument gerufen%<__builtin_rx_%s%> benötigt %<C%>, %<Z%>, %<S%>, %<O%>, %<I%> oder %<U%>%<__builtin_saveregs%> wird für dieses Teilziel nicht unterstützt%<__builtin_saveregs%> wird von diesem Ziel nicht unterstützt%<__builtin_set_fpscr_drn%> wird im 32-Bit-Modus nicht unterstützt%<__builtin_set_fpscr_drn%> wird in Kombination mit %<-msoft-float%> nicht unterstützt%<__builtin_set_fpscr_rn%> wird in Kombination mit %<-msoft-float%> nicht unterstützt%<__builtin_set_thread_pointer%> wird für dieses Ziel nicht unterstütztInnere Typen des/der Argumentvektors/en und Maske von %<__builtin_shuffle%> müssen gleiche Größe habenVektorargumente von %<__builtin_shuffle%> müssen gleichen Typ habenArgumente für %<__builtin_shuffle%> müssen Vektoren seinDas letzte Argument von %<__builtin_shuffle%> muss Ganzzahlvektor seinAnzahl der Elemente des/der Argumentvektors/en und des Maskenvektors für %<__builtin_shuffle%> sollten gleich sein%<__builtin_thread_pointer%> wird für dieses Ziel nicht unterstütztAufruf von %<__builtin_unreachable%> oder %<__builtin_trap%> mit Argumenten%<__delay_cycles%> ist auf 32-Bit-Schleifendurchläufe beschränkt%<__delay_cycles%> nimmt nur konstante Argumente entgegen%<__delay_cycles%> nimmt nur nicht-negative Zykluszahlen entgegen%<__gcc_host_wide_int__%> ist nicht als %<long%> oder %<long long%> definiert%<__gcc_host_wide_int__%> ist nicht als Typ definiert%<__int%d%> wird von diesem Ziel nicht unterstützt%<__int%d%> wird für dieses Ziel nicht unterstützt%<__label__%>-Deklarationen sind nur im Funktionsgültigkeitsbereich erlaubt%<__label__%> nicht am Anfang eines Blocks%<__restrict%> kann nur für Objekte und Funktionen angegeben werden%<__thread%> vor %<extern%>%<__thread%> vor %<static%>%<__thread%> vor %qD%<__thread%> kann nur für Objekte und Funktionen angegeben werden%<__transaction_atomic%> ohne eingeschaltete Unterstützung für transaktionsgebundenen Speicher%<__transaction_cancel%> nicht innerhalb von %<__transaction_atomic%>%<__transaction_cancel%> innerhalb eines %<__transaction_relaxed%>%<__transaction_cancel%> ohne eingeschaltete Unterstützung für transaktionsbasierten Speicher%<__transaction_relaxed%> ohne eingeschaltete Unterstützung für transaktionsgebundenen SpeicherArgument %<a%d%> des intrinsischen %qs bei %L muss %s(%d) seinArgument %<a1%> des intrinsischen %qs bei %L muss INTEGER, REAL oder CHARACTER sein%<acc update%> bei %L muss mindestens eine %<device%>- oder %<host%>- oder %<self%>-Klausel enthaltenAttribut %<alias%> ignoriert, da Funktion bereits definiert istArgument für %<alignas%> hat nicht-ganzzahligen Typen %qTAusdruck für Ausrichtung der %<aligned%>-Klausel muss ganzzahlig seinAusdruck für %<aligned%>-Klausel erfordert positiven konstanten GanzzahlausdruckAllokationsausdruck in %<allocate%>-Klausel ist vom Typ %qT statt des erwarteten %<omp_allocator_handle_t%>Allokationsausdruck in %<allocator%>-Klausel ist vom Typ %qT statt des erwarteten %<omp_allocator_handle_t%>%<always_inline%> Funktion ist möglicherweise nicht inlinefähigAttribut %<amdgpu_hsa_kernel%> erfordert Zeichenkettenkonstanten als Argumente%<und%> bei sich gegenseitig ausschließenden Gleichheits-Tests ist immer 0%<asm%>-Konflikt mit Eingabeoperand%<asm%>-Konflikt mit Ausgabeoperand%<asm%>-Deklaration wird wegen Konflikt mit vorheriger Umbenennung ignoriert%<asm%> innerhalb einer %<constexpr%>-Funktion ist erst ab %<-std=c++20%> oder %<-std=gnu++20%> verfügbar%<asm%> in %<transaction_safe%>-Funktion ist nicht erlaubtin atomarer Transaktion ist kein %<asm%> erlaubt%<asm%>-Operand %d passt wahrscheinlich nicht zu den Bedingungen%<asm%>-Operandenbedingung inkompatibel mit Operandengröße%<asm%>-Operand hat unmögliche Nebenbedingungen%<asm%>-Operand erfordert unmögliches Neuladen%<asm%>-Qualifizierer %qT wird ignoriert, da außerhalb des Funktionsrumpfes%<asm%>-Qualifizierer außerhalb des Funktionsrumpfes%<asm%>-Spezifizierer für Variable %qE steht in Konflikt mit %<asm%>-Bestrafungs-Liste%<asm%>-Symbole sind an nicht statischen Datenelementen nicht erlaubt%<assign%> kann für Objective-C-Objekte unsicher sein; bitte explizit angeben, falls nötig%<assign%>-Eigenschaft %qs verwendet Bitfeld-Instanzvariable %qs%<async%>-Ausdruck muss ganzzahlig sein%<atexit%> fehlgeschlagen%<atomic%>-Eigenschaft %qs verwendet Bitfeld-Instanzvariable %qs%<atomic_cancel%>%<atomic_default_mem_order%>-Klausel wird lexikalisch nach dem ersten %<atomic%>-Konstrukt ohne Speicherreihenfolge-Klausel verwendet%<auto%> kann nur für Variablen oder Funktionsdeklarationen angegeben werdenBedeutung von %<auto%> ändert in C++11 die Bedeutung; Bitte entfernen%<auto%> steht in Konflikt mit anderen OpenACC-Schleifenspezifizierern%<auto%> in leerer Deklaration im Datei-Gültigkeitsbereich%<auto%> ist in Aliasdeklaration nicht erlaubt%<auto%>-Parameter darf in diesem Kontext nicht verwendet werden%<bank_switch%> hat auf Nicht-Interrupt-Funktionen keine Auswirkung%<bind%>-Klausel nicht auf einem %<loop%>-Konstrukt, das nicht in einem anderen OpenMP-Konstrukt geschachtelt ist%<bind(parallel)%> an einem %<loop%>-Konstrukt, das in einem %<simd%>-Konstrukt geschachtelt ist%<bind(teams)%> an einer %<loop%>-Region, die nicht streng innerhalb einer %<teams%>-Region geschachtelt ist%<builtin_return_address%> enthält nur 2 Adressbytes%<cancel for%> innerhalb von %<nowait%>-for-Konstrukt%<cancel for%> innerhalb von %<ordered%>-for-Konstrukt%<cancel sections%> innerhalb %<nowait%>-Abschnittskonstrukt%<catch%> wird nicht unterstützt%<concept%> ist erst ab %<-std=c++20%> oder mit %<-fconcepts%> verfügbar%qs ist %<const%> und darf daher nicht als %<mutable%> deklariert seinFunktionsspezifizierer %<const%> und %<volatile%> an %qD ungültig in FelddeklarationFunktionsspezifizierer %<const%> und %<volatile%> an %qD ungültig in ParameterdeklarationFunktionsspezifizierer %<const%> und %<volatile%> an %qD ungültig in TypdeklarationFunktionsspezifizierer %<const%> und %<volatile%> an %qD ungültig in Variablendeklaration%<const%> kann nur für Objekte und Funktionen angegeben werden%<const%>-qualifizierter %<depobj%>-Ausdruck%<const%>-qualifiziertes %qE darf nur in %<shared%>- oder %<firstprivate%>-Klauseln vorkommen%<const%>-qualifiziertes %qE ohne %<mutable%>-Element darf nur in %<shared%>- oder %<firstprivate%>-Klauseln vorkommen%<const%>-, %<volatile%>- oder %<__restrict%>-qualifizierter Typ %qT in %<#pragma omp declare reduction%>%<consteval%>-Funktion %q+D übersteuert nicht-%<consteval%>-FunktionKontrollfluss für %<constexpr%>-Aufruf fällt hinten aus der Funktion%<constexpr%>-Konstruktor hat keinen leeren Körper%<constexpr%>-Konstruktor für Union %qT muss genau ein nicht-statisches Datenelement initialisieren%<constexpr%>-Destruktoren sind erst ab %<-std=c++20%> oder %<-std=gnu++20%> verfügbarAuswertungstiefe von %<constexpr%> überschreitet Höchstwert %d (%<-fconstexpr-depth=%> verwenden, um dies zu erhöhen)Anzahl der Evaluierungsoperationen in %<constexpr%> überschreitet Höchstwert %wd (%<-fconstexpr-ops-limit=%> verwenden, um diesen zu erhöhen)%<constexpr%>-Lambda ist nur mit %<-std=c++17%> oder %<-std=gnu++17%> verfügbarAnzahl der Schleifendurchläufe in %<constexpr%> überschreitet Höchstwert %d (%<-fconstexpr-loop-limit=%> verwenden, um diesen zu erhöhen)%<constexpr%> erforderlich für Initialisierung innerhalb der Klasse des statischen Datenelements %q#D mit nicht eingebautem Typstatisches Datenelement %qD (%<constexpr%>) muss Initialisierung haben%<constexpr%>-Variable %qD hat variabel modifizierten Typ %qTAttribut %<constinit%> kann nur für Variablen verwendet werden, die »static« oder threadlokel sind%<constinit%> ist am Rückgabetyp einer Funktion nicht erlaubt%<constinit%>-Variable %qD muss eine konstante Initialisierung haben%<critical%>-Region darf innerhalb einer gleichnamigen %<critical%>-Region nicht eng geschachtelt seinArgument von %<custom-%s=%> muss eine nicht-negative Ganzzahl sein%<custom-%s=%> ist nicht als ein FPU-Befehl bekannt%<custom-%s=%> erfordert ArgumentOption %<custom-fpu-cfg%> unterstützt kein %<no-%>Option %<custom-fpu-cfg%> erfordert Konfigurationsargument%<decl-specifier%> in Deklaration von Ableitungshinweis%<decl-specifier%> ist in Bedingung ungültig%<declare variant%> für Konstruktor %qD%<declare variant%> an %qD mit Vorgabewert%<declare variant%> an gelöschter %qD%<declare variant%> für Destruktor %qD%<declare variant%> an virtueller %qD%<decltype%> kann die Adresse der überladenen Funktion nicht auflösen%<decltype%> wird zu %qT ausgewertet, und das ist weder eine Klasse noch ein Aufzählungstyp%<decltype(auto)%> darf nicht CV-qualifiziert seindie Typangabe %<decltype(auto)%> ist erst mit %<-std=c++14%> oder %<-std=gnu++14%> verfügbar%<default%>-Marke nicht innerhalb einer switch-Anweisung%<default%>-Ziel wurde nicht gesetzt%<delete[]%> ist kein Konstantenausdruck%<depend%>-Klausel mit %<depobj%>-Abhängigkeitstyp auf Arrayabschnitt%<depend%>-Klausel mit %<sink%>-Modifizierer verweist auf Iteration, die niemals im Iterationsraum ist%<depend%>-Klausel mit %<sink%>-Modifizierer wartet auf lexikalisch spätere Iteration%<depend%>-Klausel mit %<source%>-Modifizierer zusammen mit %<depend%>-Klauseln mit %<sink%>-Modifizierer an demselben Konstrukt%<depend(%s)%> ist nur in %<omp ordered%> erlaubt%<depobj%>-Abhängigkeitstyp in %<depend%>-Klausel von %<depobj%> angegebenAusdruck %<depobj%> ist kein lvalue-AusdruckEreignishandle in %<detach%>-Klausel ist vom Typ %qT statt des erwarteten %<omp_event_handle_t%>%<detach%>-Klausel darf nicht zusammen mit %<mergeable%>-Klausel verwendet werden%<device%>-ID muss ganzzahlig seinArgument %<dim%> des intrinsischen %qs bei %L ist kein gültiger CodimensionsindexArgument %<dim%> des intrinsischen %qs bei %L ist kein gültiger DimensionsindexArgument %<dim%> des intrinsischen »%s« bei %L ist kein gültiger DimensionsindexAusdruck für %<dist_schedule%>-Chunkgröße muss ganzzahlig sein%<distribute%>-Region muss innerhalb eines %<teams%>-Konstrukts streng geschachtelt sein%<dynamic_cast%> ist nicht mit %<-fno-rtti%> erlaubt%<dynamic_cast<%#T>(%#D)%> kann nie erfolgreich sein%<else%> ohne vorheriges %<if%>%<enum %E%> in Anfangsdeklaration einer %<for%>-Schleife deklariert%<explicit%> kann nur für Konstruktoren angegeben werden%<explicit%> in »friend«-Deklaration%<explicit%> außerhalb einer Klassendeklaration%<explicit(bool)%> ist erst mit %<-std=c++20%> oder %<-std=gnu++20%> verfügbar%<export%> ist kein Teil der folgenden module-directive%<extern "C"%>-Bindung beginnt hierAttribut %<externally_visible%> wirkt sich nur auf öffentliche Objekte aus%<fallthrough%>-Attribut auf höchster Ebene%<fallthrough%>-Attribut ohne darauffolgendes %<;%>%<fallthrough%>-Attribut mit einem Parameter angegebenDirektive des Attributes %<fast_interrupt%> ignoriertAttribut %<flatten%> wird an Aliasen ignoriert%<flush%>-Liste wurde zusammen mit Speicherreihenfolge-Klausel angegeben%<fopen%>: %s: %mAnfangsdeklarationen in %<for%>-Schleifen sind nur im C99- oder C11-Modus erlaubt%<friend%> kann nur innerhalb einer Klasse angegeben werden%<friend%> außerhalb einer Klasse verwendetAusdruck für %<gang%>-Nummer muss ganzzahlig seinWert von %<gang%> muss positiv seinstatischer %<gang%>-Ausdruck muss ganzzahlig seinstatischer %<gang%>-Ausdruck muss positiv sein%<generic%>-CPU kann nur für %<-mtune=%>-Schalter verwendet werden%<generic%>-CPU kann nur für %<target("tune=")%>-Schalter verwendet werden%<getter%>-Attribut der Eigenschaft %qD in Konflikt mit vorheriger DeklarationAttribut %<gnu_inline%> vorhanden bei %q+D%<goto%> in %<constexpr%>-Funktion%<goto%> ist kein KonstantenausdruckAusdruck für %<grainsize%> muss ganzzahlig seinWert von %<grainsize%> muss positiv sein%<h%> auf nicht-Register-Operand angewandt%<hint%>-Ausdruck muss ganzzahlig und konstant sein%<hint%>-Ausdruck muss ganzzahlig sein%<if constexpr%> ist nur mit %<-std=c++17%> oder %<-std=gnu++17%> verfügbar%<ifunc%>-Auflöser für %qD muss %qT zurückgeben%<ifunc%>-Auflöser für %qD sollte %qT zurückgeben%<inbranch%>-Klausel ist inkompatibel mit %<notinbranch%>%<inline%> kann nur für Funktionen angegeben werden%<inline%> in leerer Deklaration%<inline%> ist nicht in Deklaration der friend-Template-Spezialisierung %qD erlaubt%<inline%> für friend-Klassen-Deklaration angegeben%<inline%> ungültig für außerhalb des globalen Gültigkeitsbereiches deklarierte Funktion %qs%<inline%>-Spezifizierer ungültig für Variable %qD mit Gültigkeitsbereich Block%<inscan%>-%<reduction%>-Klausel am %qs-Konstrukt%<inscan%>-%<reduction%>-Klausel bei Konstruktion außer %<for%>, %<simd%>, %<for simd%>, %<parallel for%>, %<parallel for simd%>%<inscan%>-%<reduction%>-Klausel wird zusammen mit %<linear%>-Klausel an einer Variable verwendet, die kein Schleifeniterator ist%<inscan%>-%<reduction%>-Klausel mit Arrayabschnitt%<inscan%>-REDUCTION-Klausel an einem anderen Konstrukt als DO, SIMD, DO SIMD, PARALLEL DO, PARALLEL DO SIMD bei %Ldie Klausel %<inscan%> darf nicht zusammen mit nicht-%<inscan%>-%<reduction%> am selben Konstrukt vorkommen%<inscan%> und nicht-%<inscan%>-%<reduction%>-Klauseln am selben Konstrukt bei %Ldie CPU %<intel%> kann nur für den Schalter %<-mtune=%> verwendet werdendie CPU %<intel%> kann nur für das Attribut %<target("tune=")%> verwendet werdenModifizierer %<iterator%> ist unverträglich mit %qs%<iterator%>-Modifizierer darf nicht bei einem %<depobj%>-Konstrukt angegeben sein%<l1-cache-size%>-Parameter ist keine Zweierpotenz (%d)%<lang_*%> check: failed in %s, at %s:%d%<lastprivate%>-Klausel an einem %<loop%>-Konstrukt bezieht sich auf eine Variable %qD, die nicht der Schleifeniterator ist%<linear%>-Klausel für Variable, die keine Schleifeniterationsvariable ist, wurde für ein mit %<distribute%> kombiniertes Konstrukt angegeben%<linear%>-Klausel darf nicht zusammen mit %<ordered%>-Klausel mit einem Parameter angegeben werdenSchrittweite %qE der %<linear%>-Klausel muss konstant oder ein Parameter seinSchrittweite der %<linear%>-Klausel muss ganzzahlig sein%<linear%>-Klauselschritt ist ein Parameter %qD, der nicht in der %<uniform%>-Klausel angegeben ist%<location_t%> ist nicht als ein Typ definiert%<locus%> ist nicht als ein Typ definiert%<long long long%> ist für GCC zu lang%<long%> und %<short%> gleichzeitig angegeben%<long%> switch-Ausdruck nicht nach %<int%> konvertiert in ISO C%<lp_array%> passt nicht zum %<region_tree%>%<lp_array%> ist für lp %i beschädigt%<lto_obj_file_open()%> failed%<main%> als %<_Noreturn%> deklariert%<master%>-Region darf nicht innerhalb einer Region eng geschachtelt sein, die arbeitsteilend, %<loop%>, explizit %<task%> oder %<taskloop%> ist%<memset%> mit konstanter Länge 0 verwendet; das könnte heißen, dass die Parameter vertauscht sindim Aufruf von %<memset%> ist die Länge gleich der Anzahl der Elemente angegeben, ohne sie mit der Elementgröße zu multiplizierenAttribut %<ms_hook_prologue%> ist mit %<-mfentry%> für 32 Bit nicht verträglichAttribut %<ms_hook_prologue%> ist mit geschachtelter Funktion nicht verträglich%<msp430_set_driver_var%> erwartet 2 Argumente%<mutexinoutset%>-Art in %<depend%>-Klausel bei einem %<taskwait%>-Konstrukt%<namespace %E%> ist mehrdeutig%<namespace%>-Definition ist hier nicht erlaubt%<new%> einer %<initializer_list%> führt nicht zu einer längeren Lebenszeit des zugrundeliegenden Arrays%<new%> für Typ %qT mit erweiterter Ausrichtung %d%<no-custom-%s%> akzeptiert keine Argumente%<nogroup%>-Klausel darf nicht zusammen mit %<reduction%>-Klausel verwendet werdenAttribut %<nonatomic%> der Eigenschaft %qD in Konflikt mit vorheriger Deklaration%<nonmonotonic%>-Planungsmodifizierer zusammen mit %<ordered%>-Klausel angegeben%<nonnull%>-Argument %qD wird mit NULL verglichen%<noreturn%>-Funktion kehrt zurück%<nowait%>-Klausel darf nicht zusammen mit %<copyprivate%> verwendet werdenWert von %<num_tasks%> muss positiv seinWert von %<num_teams%> muss positiv seinWert von %<num_threads%> muss positiv sein%<offsetof%> innerhalb von Typ %qT (der kein Standardlayout hat) ist bedingt unterstützt%<operator %s%>%<operator %s%> in %<%s%E%>%<operator delete%> muss Typ %qT zurückgeben%<operator delete%> nimmt Typ %qT als ersten Parameter%<operator delete[]%> kann kein zerstörendes %<delete%> sein%<operator new%> darf nicht NULL zurückgeben, außer er ist mit %<throw%> deklariert (oder %<-fcheck-new%> ist eingeschaltet)%<operator new%> muss Typ %qT zurückgeben%<operator new%> nimmt Typ %<size_t%> (%qT) als ersten Parameter%<operator%s%>%<operator%s%> in %<%E %s %E%>%<operator%s%> in %<%E%s%>%<operator%s%> in %<%s%E%>%<operator=%> sollte eine Referenz auf %<*this%> zurückgeben%<operator[]%>%<operator[]%> in %<%E[%E]%>%<oder%> bei nicht passenden Ungleichheits-Tests ist immer 1%<order%>-Klausel darf nicht zusammen mit %<ordered%> verwendet werden%<ordered simd threads%> muss innerhalb einer %<%s simd%>-Region eng geschachtelt sein%<ordered%> %<simd%> muss innerhalb einer %<simd%>-Region eng geschachtelt sein%<ordered%>-Klauselparameter ist weniger als %<collapse%>%<ordered%>-Klausel mit Parameter darf nicht beim %qs-Konstruk angegeben werden%<ordered%>-Klausel mit Parameter in %<for%>-Schleife über einen Bereich%<ordered%>-Konstrukt mit %<depend%>-Klausel muss innerhalb einer Schleife mit %<ordered%>-Klausel und Parameter eng geschachtelt sein%<ordered%>-Konstrukt mit %<depend%>-Klausel muss innerhalb einer %<ordered%>-Schleife eng geschachtelt sein%<ordered%>-Region darf innerhalb einer Region, die %<critical%>, %<ordered%>, expliziten %<task%> oder %<taskloop%> ist, nicht eng geschachtelt sein%<ordered%>-Region muss eng geschachtelt sein, wenn sie innerhalb einer Schleifenregion mit %<ordered%>-Klausel auftritt%<ordered%>-Region ohne %<depend%>-Klausel darf innerhalb einer Schleifenregion mit %<ordered%>-Klausel und Parameter nicht eng geschachtelt seindas Pragma %<pch_preprocess%> sollte nur mit %<-fpreprocessed%> verwendet werden%<pex_init%> failed: %m%<pragma omp requires%> erfordert mindestens eine KlauselAusdruck für %<priority%> muss ganzzahlig seinWert von %<priority%> muss positiv seinAttribut %<readonly%> steht mit Attribut %<setter%> in KonfliktAttribut %<readonly%> der Eigenschaft %qD in Konflikt mit vorheriger Deklaration%<region_array%> passt nicht zum %<region_tree%>%<region_array%> ist für Region %i beschädigt%<register%> in leerer Deklaration im Datei-Gültigkeitsbereich%<register%>-Speicherklassenangabe verwendet%<reinterpret_cast%> von Ganzzahl zu Zeiger%<reinterpret_cast%> von Typ %qT in Typ %qT entfernt QualifiziererEin %<reinterpret_cast%> ist kein konstanter Ausdruck%<reinterpret_cast<%T>(%E)%> ist kein Konstantenausdruck%<requires%> ist erst ab %<-std=c++20%> oder mit %<-fconcepts%> verfügbar%<return%> mit Wert in void zurückgebender Funktion%<return%> ohne Wert in nicht-void zurückgebender FunktionAusdruck der %<safelen%>-Klausel erfordert positiven konstanten Ganzzahlausdruck%<scalar_storage_order%> wird nicht unterstützt, da die Bytereihenfolge nicht einheitlich ist%<seq%> übersteuert andere OpenACC-Schleifenspezifizierer%<setter%>-Attribut der Eigenschaft %qD in Konflikt mit vorheriger Deklaration%<setter%> ist hier angegebenArgument »shape« des intrinsischen »reshape« bei %L hat mehr als %d ElementeArgument %<shape%> des intrinsischen %<reshape%> bei %L muss ein Feld konstanter Größe sein%<signed%> und %<unsigned%> gleichzeitig angegebenAusdruck der %<simdlen%>-Klausel erfordert positiven konstanten Ganzzahlausdruck%<simdlen%>-Klauselwert ist größer als %<safelen%>-Klauselwert%<sizeof%> auf ein Bitfeld angewandt%<sizeof%> auf Array-Funktionsparameter %qE gibt die Größe von %qT zurückArgument von %<sizeof...%> muss mit Klammern umschlossen werdenArgument %<source%> des intrinsischen %<shape%> bei %L darf kein Feld impliziter Größe sein%qs ist %<static%> und darf daher nicht als %<mutable%> deklariert sein%<static%> darf nicht bei der Definition (im Gegensatz zu Deklaration) eines statischen Datenelementes verwendet werden%<static%> ist für außerhalb des globalen Gültigkeitsbereiches deklarierte Funktion %qs ungültig%<static_assert%> ohne Text ist erst ab %<-std=c++17%> oder %<-std=gnu++17%> verfügbar%<static_cast%> von Typ %qT in Typ %qT entfernt Qualifizierer%<std::%s%> ist im Header %qs definiert; haben Sie vergessen, %<#include %s%> zu schreiben?%<std::%s%> ist erst ab %s verfügbar%<std::source_location::__impl%> enthält nicht nur nicht-statische Datenelemente %<_M_file_name%>, %<_M_function_name%>, %<_M_line%> und %<_M_column%>%<std::tuple_element<%u, %T>::type%> ist %<void%>%<std::tuple_size<%T>::value%> ist kein konstanter Ganzzahlausdruckdie Direktive %<strong%>-%<using%> wird nicht mehr unterstützt%<struct %E%> in Anfangsdeklaration einer %<for%>-Schleife deklariertArgument %qs für Attribut %<symver%> muss ein oder zwei %<@%> enthaltenArgument des Attributs %<symver%> ist keine ZeichenkettenkonstanteAttribut %<symver%> bezieht sich nur auf SymboleAttribut %<symver%> gilt nur für Funktionen und Variablen%<target%>-Konstrukt mit geschachteltem %<teams%>-Konstrukt enthält Direktiven außerhalb des %<teams%>-Konstrukts%<target("rtd")%> wird im 64-Bit-Modus ignoriert%<target("sseregparm")%> verwendet, ohne dass SSE eingeschaltet ist%<target("tune=x86-64")%> ist veraltet; stattdessen entsprechend %<target("tune=k8")%> oder %<target("tune=generic")%> verwendendas Attribut %<target_clones%> erfordert GLIBC (2.23 oder neuer), die Hardware-Fähigkeits-Bits exportiert%<task%>-Reduktionsmodifizierer bei einem Konstrukt mit %<nowait%>-Klausel%<teams%>-Konstrukt muss innerhalb eines %<target%>-Konstrukts eng geschachtelt sein, oder in überhaupt keinem OpenMP-Konstrukt geschachtelt seindas Schlüsselwort %<template%> ist im Destruktornamen nicht erlaubt%<template%> muss auf einen nested-name-specifier folgen%<this%> ist in OpenMP nur innerhalb von %<declare simd%>-Klauseln erlaubt%<this%> kann nicht per Referenz eingefangen werden%<this%> ist für statische Elementfunktionen nicht verfügbar%<this%> darf in diesem Kontext nicht verwendet werden%<this%> ist in %<allocate%>-Klausel nicht erlaubt%<this%> wurde für diese Lambda-Funktion nicht aufgefangen%<thread_limit%>-Ausdruck muss ganzzahlig seinWert von %<thread_limit%> muss positiv sein%<threadprivate%> %qD ist weder Datei-, Namens- noch Blockbereichsvariable%<threadprivate%> Direktive %qE nicht in Definition von %qT%<threadprivate%> %qE hat unvollständigen Typen%<throw%> wird immer %<terminate%> aufrufenArgument für %<tile%> erfordert ganzzahligen Typ%<tile%>-Argument muss eine positive, ganzzahlige Konstante seinFunktionsaufruf von %<transaction_may_cancel_outer%> nicht innerhalb von äußerer Transaktion oder %<transaction_may_cancel_outer%>%<transaction_safe_dynamic%> kann nur für virtuelle Funktionen angegeben werden%<tree%> ist nicht als ein Zeigertyp definiert%<tree%> ist nicht als ein Typ definiert%<try%> innerhalb einer %<constexpr%>-Funktion ist erst mit %<-std=c++20%> oder %<-std=gnu++20%> verfügbar%<typedef%> wurde in dieser Deklaration ignoriert%<typeid%> ist kein konstanter Ausdruck, da %qE polymorphen Typ hat%<typeid%> des qualifizierten Funktionstyps %qT%<typeid%>-Operator kann nicht in einem Konstanten-Ausdruck auftreten%<typename %T::%D%> benennt %q#T, was kein Klassentemplate ist%<typename %T::%D%> benennt %q#T, was kein Typ ist%<typeof%> auf ein Bitfeld angewandt%<union %E%> in Anfangsdeklaration einer %<for%>-Schleife deklariert%<using enum%> von %qT vor seinem enum-specifier%<using enum%> des abhängigen Typen %qT%<using enum%> an unvollständigem Typ %qT%<using enum%> an Nicht-Aufzählungstyp %q#T%<using enum%> ist nur mit %<-std=c++20%> oder %<-std=gnu++20%> verfügbar%<using%> mit Gültigkeitsbereich in enum-Typ %q#T ist erst ab %<-std=c++20%> oder %<-std=gnu++20%> verfügbar%<va_start%> in Funktion mit fester Parameteranzahl verwendet%<vec_lvsl%> ist für Little-Endian veraltet; verwenden Sie Zuweisungen für unausgerichtete Speicherzugriffe%<vec_lvsr%> ist für Little-Endian veraltet; verwenden Sie Zuweisungen für unausgerichtete SpeicherzugriffeAusdruck für %<vector%>-Länge muss ganzzahlig seinWert der %<vector%>-Länge muss positiv sein%<verify_gimple%> failed%<virtual%> kann nur für Funktionen angegeben werden%<virtual%> außerhalb einer Klassendeklaration%<virtual%> mehr als einmal in Basisspezifikation angegeben%<void%> kann nicht als einzelner Parameter qualifiziert werden%<void%> muss der einzige Parameter sein%<volatile%> kann nur für Objekte und Funktionen angegeben werden%<volatile%>-qualifizierter Parameter ist veraltet%<volatile%>-qualifizierter Rückgabetyp ist veraltet%<volatile%>-qualifizierte strukturierte Bindung ist veraltet%<wait%>-Ausdruck muss ganzzahlig seinFür %q+D darf %<warn_if_not_aligned%> nicht angegeben werdenAttribut %<weakref%> ignoriert, da Funktion bereits definiert istAttribut %<weakref%> ignoriert, da Variable bereits initialisiert istAttribut %<weakref%> sollte von Attribut %<alias%> begleitet werden%<weakref%> kann nicht versioniert werdenAusdruck für %<worker%>-Nummer muss ganzzahlig seinWert der %<worker%>-Nummer muss positiv seinInterner Fehler: %<||%> not valid in GIMPLE%<~%> auf booleschem Ausdruck%<~%> auf einem Ausdruck vom Typ %<bool%>%<~auto%> ist nur mit %<-std=c++14%> oder %<-std=gnu++14%> verfügbar%GArgument %<%.*s%> für Direktive ist null%G%qD Zugriff auf %wu Byte an den Offsets %s und %s überdeckt möglicherweise %wu Byte an Offset %s%G%qD Zugriff auf %wu Byte an den Offsets %s und %s überdeckt möglicherweise %wu Bytes an Offset %s%G%qD Zugriff auf %wu Byte an den Offsets %s und %s überdeckt möglicherweise bis zu %wu Bytes an Offset %s%G%qD Zugriff auf %wu Bytes an den Offsets %s und %s überdeckt möglicherweise bis zu %wu Bytes an Offset %s%G%qD Zugriff auf %wu Byte an den Offsets %s und %s überdeckt sich mit %wu Byte an Offset %s%G%qD Zugriff auf %wu Byte an den Offsets %s und %s überdeckt sich mit %wu Bytes an Offset %s%G%qD Zugriff auf %wu Byte an den Offsets %s und %s überdeckt sich mit %wu oder mehr Bytes an Offset %s%G%qD Zugriff auf %wu Bytes an den Offsets %s und %s überdeckt sich mit %wu oder mehr Bytes an Offset %s%G%qD Zugriff auf %wu Byte an den Offsets %s und %s überdeckt sich mit %wu bis %wu Bytes an Offset %s%G%qD Zugriff auf %wu Bytes an den Offsets %s und %s überdeckt sich mit %wu bis %wu Bytes an Offset %s%G%qD Zugriff auf %wu Byte überdeckt möglicherweise %wu Byte%G%qD Zugriff auf %wu Byte überdeckt möglicherweise %wu Bytes%G%qD Zugriff auf %wu Byte überdeckt möglicherweise bis zu %wu Bytes%G%qD Zugriff auf %wu Bytes überdeckt möglicherweise bis zu %wu Bytes%G%qD Zugriff auf %wu Bytes an den Offsets %s und %s überdeckt sich mit %wu Byte an Offset %s%G%qD Zugriff auf %wu Bytes an den Offsets %s und %s überdeckt sich mit %wu Bytes an Offset %s%G%qD Zugriff auf %wu oder mehr Bytes an Offsets %s und %s überdeckt möglicherweise %wu Byte an Offset %s%G%qD Zugriff auf %wu oder mehr Bytes an Offsets %s und %s überdeckt möglicherweise %wu Bytes an Offset %s%G%qD Zugriff auf %wu oder mehr Bytes an den Offsets %s und %s überdeckt %wu Byte an Offset %s%G%qD Zugriff auf %wu oder mehr Bytes an den Offsets %s und %s überdeckt %wu Bytes an Offset %s%G%qD Zugriff auf %wu oder mehr Bytes an den Offsets %s und %s überdeckt %wu oder mehr Bytes an Offset %s%G%qD Zugriff auf %wu oder mehr Bytes an den Offsets %s und %s überdeckt %wu bis %wu Bytes an Offset %s%G%qD Zugriff auf %wu bis %wu Bytes an Offsets %s und %s überdeckt möglicherweise %wu Byte an Offset %s%G%qD Zugriff auf %wu bis %wu Bytes an Offsets %s und %s überdeckt möglicherweise %wu Bytes an Offset %s%G%qD Zugriff auf %wu bis %wu Bytes an den Offsets %s und %s überdeckt %wu Byte an Offset %s%G%qD Zugriff auf %wu bis %wu Bytes an den Offsets %s und %s überdeckt %wu Bytes an Offset %s%G%qD Zugriff auf %wu bis %wu Bytes an den Offsets %s und %s überdeckt %wu oder mehr Bytes an Offset %s%G%qD Zugriff auf %wu bis %wu Bytes an den Offsets %s und %s überdeckt %wu bis %wu Bytes an Offset %s%G%qD Zugriff auf %wu bis %wu Bytes überdeckt möglicherweise %wu Byte%G%qD Zugriff auf %wu bis %wu Bytes überdeckt möglicherweise %wu Bytes%G%qD Ziel unverändert, nachdem keine Bytes kopiert wurden%G%qD Ziel unverändert, nachdem keine Bytes aus einem String der Länge %E kopiert wurden%G%qD Bildung des Offsets %s außerhalb der Grenzen%G%qD Bildung des Offsets %s außerhalb der Grenzen [0, %wu]%G%qD Bildung des Offsets %s außerhalb der Grenzen [0, %wu] von Objekt %qD mit Typ %qT%G%qD Bildung des Offsets %s außerhalb der Grenzen von Objekt %qD mit Typ %qT%G%qD einer Zeichenkette der Länge %wu und eines Arrays der Größe %wu wird zu ungleich Null ausgewertet%G%qD einer Zeichenkette der Länge %wu oder mehr und einem Array der Größe %wu wird zu ungleich Null ausgewertet%G%qD einer Zeichenkette der Länge %wu, einem Array der Größe %wu und der Grenze von %wu wird zu ungleich Null ausgewertet%G%qD von Zeichenketten der Länge %wu und %wu und der Grenze von %wu wird zu ungleich Null ausgewertet%G%qD Offset %s des Objekts an %qE ist außerhalb der Grenzen von %qT%G%qD Offset %s des Objekts an %qE ist außerhalb der Grenzen des referenzierten Teilobjekts %qD mit Typ %qT an Offset %wi%G%qD Offset %s ist außerhalb der Grenzen%G%qD Offset %s ist außerhalb der Grenzen [0, %wu]%G%qD Offset %s is außerhalb der Grenzen [0, %wu] von Objekt %qD mit Typ %qT%G%qD Offset %s ist außerhalb der Grenzen von Objekt %qD mit Typ %qT%G%qD Ausgabe möglicherweise abgeschnitten, beim Kopieren von %E Byte aus einer Zeichenkette der Länge %wu%G%qD Ausgabe möglicherweise abgeschnitten, beim Kopieren von %E Bytes aus einer Zeichenkette der Länge %wu%G%qD Ausgabe möglicherweise abgeschnitten, beim Kopieren von %wu bis %wu Byte aus einer Zeichenkette der Länge %wu%G%qD Ausgabe abgeschnitten vor dem abschließenden NUL, beim Kopieren von %E Byte aus einem String derselben Länge%G%qD Ausgabe abgeschnitten vor dem abschließenden NUL, beim Kopieren von %E Bytes aus einem String derselben Länge%G%qD Ausgabe abgeschnitten vor dem beendenden NUL, beim Kopieren von so vielen Bytes aus einer Zeichenkette, wie die Ausgabezeichenkette lang ist%G%qD Ausgabe abgeschnitten, beim Kopieren von %E Byte aus einer Zeichenkette der Länge %wu%G%qD Ausgabe abgeschnitten, beim Kopieren von %E Bytes aus einer Zeichenkette der Länge %wu%G%qD Ausgabe abgeschnitten, beim Kopieren von %wu bis %wu Bytes aus einer Zeichenkette der Länge %wu%G%qD Zeigerüberlauf zwischen Offset %s und Größe %s%G%qD Zeigerüberlauf zwischen Offset %s und Größe %s beim Zugriff auf Array %qD mit Typ %qT%G%qD Das Quellargument ist dasselbe wie das Zielargument%G%qD angegebene Grenze %E ist genau die Größe des Ziels%G%qD angegebene Grenze %E ist genau die Größe der Quelle%G%qD angegebene Grenze %E überschreitet die Zielgröße %wu%Gdurch %qD angegebene Grenze %wu überschreitet maximale Objektgröße %wu%Gdurch %qD angegebene Grenze zwischen %wu und %wu überschreitet maximale Objektgröße %wu%G%qD angegebene Grenze hängt von der Länge des Quellarguments ab%G%qD schreibt %wu Byte in eine Region der Größe %wu%G%qD schreibt %wu Bytes in eine Region der Größe %wu%G%qD schreibt %wu Byte in eine Region der Größe zwischen %wu und %wu%G%qD schreibt %wu Bytes in eine Region der Größe zwischen %wu und %wu%G%qD schreibt zwischen %wu und %wu Bytes in eine Region der Größe %wu%G%qD schreibt zwischen %wu und %wu Bytes in eine Region der Größe zwischen %wu und %wu%G%qD schreibt ein Byte zu viel in eine Region, deren Größe von %<strlen%> abhängt%G%qE ist nicht initialisiert%G%qE könnte uninitialisiert verwendet werden%GZeiger auf %qs ist null%GArgument %u ist null, aber nichtnull wird erwartet%GArgument für %<alloca%> ist zu groß%GArgument für %<alloca%> ist 0%GArgument für %<alloca%> könnte zu groß sein%GArgument für Array mit variabler Länge ist zu groß%GArgument für Array variabler Länge ist 0%GArgument für Array mit variabler Länge könnte zu groß sein%GZielzeiger ist NULL%GNULL-Formatzeichenkette%Gunbegrenzte Verwendung von %<alloca%>%Gunbegrenzte Verwendung von Array mit variabler Länge%GVerwendung von %<alloca%>%GVerwendung von %<alloca%> innerhalb einer Schleife%GSchreiben von %wu Byte in eine Region der Größe %wu%GSchreiben von %wu Bytes in eine Region der Größe %wu%GSchreiben von %wu Byte in eine Region der Größe zwischen %wu und %wu%GSchreiben von %wu Bytes in eine Region der Größe zwischen %wu und %wu%GSchreiben von %wu bis %wu Bytes in eine Region der Größe %wu%G%wu bis %wu Bytes werden in eine Region der Größe zwischen %wu und %wu geschrieben%Gein Byte zu viel wird in eine Region geschrieben, deren Größe von %<strlen%> abhängt%K%<asm%> in %<transaction_safe%>-Funktion ist nicht erlaubt%K%qD greift auf %E Byte in einer Region der Größe %E zu%K%qD greift auf %E Bytes in einer Region der Größe %E zu%K%qD greift auf %E oder mehr Bytes in einer Region der Größe %E zu%K%qD greift auf zwischen %E und %E Bytes in einer Region der Größe %E zu%KArgument für %qD hat kein abschließendes nul-Zeichen%K%qD wird mit Zeiger auf nicht alloziertes Objekt %qE aufgerufen%K%qD wird mit Zeiger %qE mit Offset%s ungleich 0 aufgerufen%K%qD wird mit Zeiger aufgerufen, der aus einer unpassenden Allozierungsfunktion stammt%K%qD wird mit nicht alloziertem Zeiger aufgerufen%K%qD wird auf nicht alloziertem Objekt %qD aufgerufen%K%qD erwartet %E Byte in einer Region der Größe %E%K%qD erwartet %E Bytes in einer Region der Größe %E%K%qD erwartet %E oder mehr Bytes in einer Region der Größe %E%K%qD erwartet zwischen %E und %E Bytes in einer Region der Größe %E%K%qD greift möglicherweise auf %E Byte in einer Region der Größe %E zu%K%qD greift möglicherweise auf %E Bytes in einer Region der Größe %E zu%K%qD greift möglicherweise auf %E oder mehr Bytes in einer Region der Größe %E zu%K%qD greift möglicherweise auf zwischen %E und %E Bytes in einer Region der Größe %E zu%K%qD liest möglicherweise %E Byte aus einer Region der Größe %E%K%qD liest möglicherweise %E Bytes aus einer Region der Größe %E%K%qD liest möglicherweise %E oder mehr Bytes aus einer Region der Größe %E%K%qD liest möglicherweise zwischen %E und %E Bytes aus einer Region der Größe %E%K%qD schreibt möglicherweise %E Byte in eine Region der Größe %E%K%qD schreibt möglicherweise %E Bytes in eine Region der Größe %E%K%qD schreibt möglicherweise %E oder mehr Bytes in eine Region der Größe %E%K%qD schreibt möglicherweise zwischen %E und %E Bytes in eine Region der Größe %E%K%qD liest %E Byte aus einer Region der Größe %E%K%qD liest %E Bytes aus einer Region der Größe %E%K%qD liest %E oder mehr Bytes aus einer Region der Größe %E%K%qD liest zwischen %E und %E Bytes aus einer Region der Größe %E%Kdurch %qD angegebene Grenze %E ist genau die Größe des Zielobjekts%Kdurch %qD angegebene Grenze %E überschreitet die Größe %E des Zielobjekts%Kdurch %qD angegebene Grenze %E überschreitet die maximale Objektgröße %E%Kdurch %qD angegebene Grenze %E überschreitet die Größe %E des Quellobjekts%Kdurch %qD angegebene Grenze %E überschreitet möglicherweise die Größe %E des Zielobjekts%Kdurch %qD angegebene Grenze %E überschreitet möglicherweise die maximale Objektgröße %E%Kdurch %qD angegebene Grenze %E überschreitet möglicherweise die Größe %E des Quellobjekts%Kdurch %qD angegebene Grenze %s überschreitet die maximale Objektgröße %E%Kdurch %qD angegebene Grenze %s überschreitet die Größe %E des nicht abgeschlossenen Arrays%Kdurch %qD angegebene Grenze %s überschreitet die Maximalgröße %E des nicht abgeschlossenen Arrays%Kdurch %qD angegebene Grenze %s überschreitet möglicherweise die Maximalgröße %E des nicht abgeschlossenen Arrays%Kdurch %qD angegebene Grenze [%E, %E] überschreitet die Größe %E des Zielobjekts%Kdurch %qD angegebene Grenze [%E, %E] überschreitet die maximale Objektgröße %E%Kdurch %qD angegebene Grenze [%E, %E] überschreitet die Größe %E des Quellobjekts%Kdurch %qD angegebene Grenze [%E, %E] überschreitet möglicherweise die Größe %E des Zielobjekts%Kdurch %qD angegebene Grenze [%E, %E] überschreitet möglicherweise die maximale Objektgröße %E%Kdurch %qD angegebene Grenze [%E, %E] überschreitet möglicherweise die Größe %E des Quellobjekts%Kdurch %qD angegebene Größe %E überschreitet die maximale Objektgröße %E%Kdurch %qD angegebene Größe %E überschreitet möglicherweise die maximale Objektgröße %E%Kdurch %qD angegebene Größe zwischen %E und %E überschreitet die maximale Objektgröße %E%Kdurch %qD angegebene Größe zwischen %E und %E überschreitet möglicherweise die maximale Objektgröße %E%K%qD schreibt %E Byte in eine Region der Größe %E und bringt dadurch das Zielobjekt zum Überlaufen%K%qD schreibt %E Bytes in eine Region der Größe %E und bringt dadurch das Zielobjekt zum Überlaufen%K%qD schreibt %E oder mehr Bytes in eine Region der Größe %E und bringt dadurch das Zielobjekt zum Überlaufen%K%qD schreibt zwischen %E und %E Bytes in eine Region der Größe %E und bringt dadurch das Zielobjekt zum Überlaufen%K»%s« %wd ist außerhalb des gültigen Bereichs von %wd bis %wd%KCode greift auf %E Byte in einer Region der Größe %E zu%KCode greift auf %E Bytes in einer Region der Größe %E zu%KCode greift auf %E oder mehr Bytes in einer Region der Größe %E zu%KCode greift auf zwischen %E und %E Bytes in einer Region der Größe %E zu%KArgument %d muss eine direkt angegebene Konstante sein%KArgument %d muss eine direkt angegebene Konstante im Bereich [0, 15] sein%KArgument %d von %qE muss eine direkt angegebene Konstante im Bereich [0-%d] sein%KArgument %i ist null, aber der Wert des zugehörigen Größenarguments %i ist %s%KArgument %i des Arrays variabler Länge %s ist null, aber der Wert des zugehörigen verbundenen Arguments %i ist %s%KArgument %i Bereich [%E, %E] übersteigt maximal Objektgröße %E%KArgument %i Bereich [%E, %E] ist negativ%KArgument %i von %<%T[static %E]%> ist null, aber nicht-null wird erwartet%KArgument %i Wert %qE übersteigt maximale Objektgröße %E%KArgument %i Wert %qE ist negativ%KArgument %i Wert %s ist negativ%KArgument %i Wert ist null%KArgument muss eine direkt angegebene 16-Bit-Konstante sein%Kgebundenes Argument %i mit Wert %s ist negativ, für Argument %i vom Typ Array variabler Länge vom Typ %s%KAufruf von %qs mit Attributfehler deklariert: %s%KAufruf von %qs mit Attributwarnung deklariert: %s%KKoprozessornummer muss eine direkt angegebene Konstante im Bereich 0 bis %d sein, die mit +cdecp<N> aktiviert wurde%KKoprozessor %d ist nicht aktiviert mit +cdecp%d%KCode erwartet %E Byte in einer Region der Größe %E%KCode erwartet %E Bytes in einer Region der Größe %E%KCode erwartet %E oder mehr Bytes in einer Region der Größe %E%KCode erwartet zwischen %E und %E Bytes in einer Region der Größe %E%Kerstes Argument von %qD muss ein Zeiger, das zweite eine Ganzzahlkonstante sein%Kungültige Verwendung von %<__builtin_va_arg_pack ()%>%Kungültige Verwendung von %<__builtin_va_arg_pack_len ()%>%KSpur %wd außerhalb des Wertebereiches %wd bis %wd%KSpurindex muss eine direkt angegebene Konstante sein%Kletztes Argument von %qD ist keine Ganzzahlkonstante zwischen 0 und 3%KCode greift möglicherweise auf %E Byte in einer Region der Größe %E zu%KCode greift möglicherweise auf %E Bytes in einer Region der Größe %E zu%KCode greift möglicherweise auf %E oder mehr Bytes in einer Region der Größe %E zu%Kgreift möglicherweise auf zwischen %E und %E Bytes in einer Region der Größe %E zu%KCode liest möglicherweise %E Byte aus einer Region der Größe %E%KCode liest möglicherweise %E Bytes aus einer Region der Größe %E%KCode liest möglicherweise %E oder mehr Bytes aus einer Region der Größe %E%KCode liest möglicherweise zwischen %E und %E Bytes aus einer Region der Größe %E%KCode schreibt möglicherweise %E Byte in eine Region der Größe %E%KCode schreibt %E Bytes in eine Region der Größe %E%KCode schreibt %E oder mehr Bytes in eine Region der Größe %E%KCode schreibt möglicherweise zwischen %E und %E Bytes in eine Region der Größe %E%KProdukt %<%E * %E%> der Argumente %i und %i überschreitet %<SIZE_MAX%>%KProdukt %<%E * %E%> der Argumente %i und %i überschreitet maximale Objektgröße %E%KCode liest %E Byte aus einer Region der Größe %E%KCode liest %E Bytes aus einer Region der Größe %E%KCode liest %E oder mehr Bytes aus einer Region der Größe %E%KCode liest zwischen %E und %E Bytes aus einer Region der Größe %E%KBitbereich der Sättigung muss eine direkt angegebene Konstante sein%KBitbereich der Sättigung muss im Bereich [%wd, %wd] liegen%Kangegebene Grenze %E überschreitet die Größe %E des Zielobjekts%Kangegebene Grenze %E überschreitet die maximale Objektgröße %E%Kangegebene Grenze %E überschreitet die Größe %E des Quellobjekts%Kangegebene Grenze %E überschreitet möglicherweise die Größe %E des Zielobjekts%Kangegebene Grenze %E überschreitet möglicherweise die maximale Objektgröße %E%Kangegebene Grenze %E überschreitet möglicherweise die Größe %E des Quellobjekts%Kangegebene Grenze [%E, %E] überschreitet die Größe %E des Zielobjekts%Kangegebene Grenze [%E, %E] überschreitet die maximale Objektgröße %E%Kangegebene Grenze [%E, %E] überschreitet die Größe %E des Quellobjekts%Kangegebene Grenze [%E, %E] überschreitet möglicherweise die maximale Objektgröße %E%Kangegebene Grenze [%E, %E] überschreitet möglicherweise die Größe %E des Quellobjekts%Kangegebene Größe %E überschreitet die maximale Objektgröße %E%Kangegebene Größe %E überschreitet möglicherweise die maximale Objektgröße %E%Kangegebene Größe zwischen %E und %E überschreitet die maximale Objektgröße %E%Kangegebene Größe zwischen %E und %E überschreitet möglicherweise die maximale Objektgröße %E%KGesamtgröße und Elementgröße müssen positive, direkt angegebene Konstanten sein%KCode schreibt %E Byte in eine Region der Größe %E und bringt dadurch das Zielobjekt zum Überlaufen%KCode schreibt %E Bytes in eine Region der Größe %E und bringt dadurch das Zielobjekt zum Überlaufen%KCode schreibt %E oder mehr Bytes in eine Region der Größe %E und bringt dadurch die Zielregion zum Überlaufen%KCode schreibt zwischen %E und %E Bytes in eine Region der Größe %E und bringt dadurch das Zielobjekt zum ÜberlaufenEinen Konstruktor gefunden
%d Konstruktoren gefunden
Einen Destruktor gefunden
%d Destruktoren gefunden
Interner Fehler: %d exits recorded for loop %d (having %d exits)Eine Rahmentabelle gefunden
%d Rahmentabellen gefunden
%i-Bit-Modus nicht einkompiliert%llu Bytes%p hat keine semantische Routine%q#D kann nicht mit %q#D überladen werden%q#D steht mit vorheriger Deklaration in Konflikt%q#D steht in Konflikt mit von %qT geerbter Version%q#D hier deklariert%q#D hat keine externe Bindung%q#D verweist nicht auf den unqualifizierten Typen und wird daher nicht zum Binden verwendet%q#D wurde hat hier ausdrücklichen Standardwert bekommen%q#D hat unvollständigen Typ%q#D verdeckt Konstruktor für %q#D%q#D erbt von mehreren Basis-Teilobjekten%q#D ungültig; eine anonyme Union kann nur nicht-statische Datenelemente haben%q#D ungültig; eine anonyme Union kann nur nicht-statische Datenelemente haben%q#D« ist ein statisches Datenelement; es kann nur bei seiner Definition initialisiert werden%q#D ist implizit als gelöscht deklariert, da %qT einen Bewegungskonstruktor oder Bewegungs-Zuweisungsoperator deklariert%q#D wird implizit gelöscht, da die Standarddefinition ungültig wäre:%q#D ist in diesem Zusammenhang unzugänglich%q#D ist kein Funktionstemplate%q#D ist kein Nicht-static-Datenelement von %qT%q#D ist kein gültiges Templateargument für Typ %qT, weil eine Referenzvariable keine konstante Adresse hat%q#D ist nicht konstant%q#D ist in diesem Zusammenhang »private«%q#D ist in diesem Zusammenhang »protected«%q#D ist %<public%>, benötigt jedoch ein existierendes Objekt vom Typ %q#T%q#D ist volatile%q#D nicht in Klasse deklariert%q#D wurde bereits hier deklariert%q#D wurde bereits hier definiert%q#D als andere Symbolart redeklariert%q#D sollte initialisiert werden%q#D (durch lokalen Typen %qT deklariert) wird verwendet, aber nirgends definiert%q#D (durch einen unbenannten Typen deklariert) wird verwendet, aber nirgends definiert%q#F wird implizit gelöscht, da ihre Ausnahme-Spezifikation nicht zur impliziten Ausnahme-Spezifikation %qX passt%q#T hat kein Element namens %qE%q#T hat kein Element namens %qE; meinten Sie %q#D? (zugreifbar über %q#D)%q#T hat kein Element namens %qE; meinten Sie %q#D? (aus diesem Kontext nicht zugreifbar)%q#T hat kein Element namens %qE; meinten Sie %qE?%q#T hat keinen benutzerdefinierten Default-Konstruktor%q#T hat Zeigertypen als Elemente%q#T hat virtuelle Basisklassen%q#T hat virtuelle Funktionen und erreichbaren nicht-virtuellen Destruktor%q#T ist keine Klasse%q#T ist weder Klasse noch Namensbereich%q#T ist kein Template%q#T ist kein gültiger Typ für einen Nicht-Typ-Parameter eines Templates%q#T definiert nur einen privaten Destruktor und hat keine »friends«%q#T definiert nur private Konstruktoren und hat keine »friends«%q#T verwendet, wo %qT erwartet wurde%q#T verwendet, wo ein Gleitkommawert erwartet wurde%q#T wurde vorher hier deklariert%q+#D kann nicht deklariert werden%q+#D ist kein static-Datenelement von %q#T%q+#D als %<final%> markiert, ist aber nicht »virtual«%q+#D als %<override%> markiert, überschreibt aber nichtAlias %q+D zwischen Funktion und Variable wird nicht unterstützt%q+D als Alias für externes Symbol %qE%q+D als Alias für undefiniertes Symbol %qE%q+D bereits mit Attribut »dllimport« deklariert: »dllimport« ignoriert%q+D als »friend« deklariert%q+D als variadische Funktion deklariert%q+D mit einer Ausnahmespezifikation deklariert%q+D ist als variadische Funktion ohne Prototyp definiert%q+D sowohl normal als auch als Attribut %qE definiert%q+D hat unverträgliche Attribute %qs und %qs%q+D in »declare target«-Direktive hat keinen zuordenbaren Typ%q+D ist statisch, aber in Inline-Funktion %qD deklariert, was nicht statisch ist%q+D ist üblicherweise eine Funktion%q+D mit Offset %E in %qT ist nicht an %u ausgerichtet%q+D mit Offset %E in %qT ist möglicherweise nicht an %u ausgerichtet%q+D als andere Symbolart redeklariert%q+D mit Attribut %<gnu_inline%> »inline« redeklariert%q+D ohne Attribut %<gnu_inline%> »inline« redeklariert%q+D ohne Attribut »dllimport« redeklariert, nachdem es mit dll-Bindung referenziert wurde%qD ohne Attribut »dllimport« redeklariert: vorheriges »dllimport« ignoriertstatisches Datenelement %q+D innerhalb von »declare target«-Direktive%q+D benötigt entweder null oder zwei Argumente%q+E ist kein Konstantenausdruck%q+F als %<static%> deklariert, aber nirgendwo definiert%q+F verwendet, aber nirgendwo definiert%q+T ist kein Literal, denn:%qD Alias zwischen unverträglichen Funktionstypen %qT und %qT%qD tritt in Daten- und Zuordnungsklauseln mehrfach auf%qD tritt in %<aligned%>-Klausel mehrfach auf%qD kommt in %<allocate%>-Klausel mehrfach vor%qD tritt in %<nontemporal%>-Klauseln mehrfach auf%qD tritt in Datenklausel mehrfach auf%qD tritt in Zuordnungsklauseln mehrfach auf%qD tritt in Bewegungsklausel mehrfach auf%qD tritt in Reduktionsklauseln mehrfach aufder Typ von %qD Argument %d wird zu %qT befördert, der Aufruf der eingebauten Funktion, die ohne Prototyp deklariert wurde, erwartet jedoch %qTder Typ von %qD Argument %d ist %qT, der Aufruf der eingebauten Funktion, die ohne Prototyp deklariert wurde, erwartet jedoch %qT%qD Argument %i ist als Attribut %<nonstring%> deklariert%qD Argument %i (als Attribut %<nonstring%> deklariert) ist kleiner als die angegebene Grenze %wu%qD Argument %i (als Attribut %<nonstring%> deklariert) ist kleiner als die angegebene Grenze [%E, %E]%qD Argument %i (als Attribut %<nonstring%> deklariert) ist möglicherweise kleiner als die angegebene Grenze [%E, %E]Attribut-Anweisung %qD wird ignoriertAttribut %qD ist bedeutungslos, da die Elemente des anonymen Namensraums lokale Symbole erhaltenAttribut %qD erfordert ein einzelnes NTBS-Argument%qD in konstantem Ausdruck aufgerufen%qD in konstantem Ausdruck aufgerufen, bevor die Definition vollständig war%qD kann als »override« markiert werden%qD kann nicht in Konstanten-Ausdruck auftreten%qD kann nicht %qs sein%qD kann nicht als %<virtual%> deklariert werden, da es immer statisch ist%qD kann nicht vorgegeben werden%qD kann nicht als Funktion verwendet werden%qD kann keine Standardargumente haben%qD hat neue Semantik in GCC 4.4%qD Säubern eines Objekts von nichttrivialem Typ %#qT%s%qD Säubern eines Objekts des Typs %#qT, das einen Zeiger auf Datenelement enthält%s%qD Säubern eines Objekts des Typs %#qT ohne triviale Kopierzuweisung%s%qD steht mit verwendeter Funktion in Konflikt%qD Kopieren eines Objekts mit nichttrivialem Typ %#qT aus einem Array von %#qT%qD Kopieren eines Objekts des Typs %#qT mit Element %qs %qD aus einem Array von %#qT; verwenden Sie eine Zuweisung oder Kopierinitialisierung stattdessen%qD in %<constexpr%>-Kontext als %<static%> deklariert%qD in %qs-Funktion als %<static%> deklariert%qD in %<constexpr%>-Kontext als %<thread_local%> deklariert%qD in %qs-Funktion als %<thread_local%> deklariert%qD als %<transaction_safe_dynamic%> deklariert%qD als ein %<virtual%> Feld deklariert%qD als ein %<virtual%> Parameter deklariert%qD als ein %<virtual%> Typ deklariert%qD als eine %<virtual%> Variable deklariert%qD als Nicht-Parameter deklariert%qD als ein %<inline%> Feld deklariert%qD als ein %<inline%> Parameter deklariert%qD als ein %<inline%> Typ deklariert%qD als Array von %qT deklariert%qD als Referenz deklariert, aber nicht initialisiert%qD ist hier deklariert%qD wurde hier als %q#D deklariert%qD hier deklariert, später in der Übersetzungseinheit%qD definiert, aber nicht verwendet%qD hier definiert%qD hat nicht den Typ %<const char *%>%qD in %qs-Klausel hat keinen zuordenbaren Typ%qD hat keinen Ganzzahl- oder Aufzählungstyp%qD hat keinen Ganzzahltyp%qD benennt keinen Aufzählungstyp in %qT%qD bezeichnet keine Funktion%qD bezeichnet keine Funktion innerhalb eines Namensraum%qD ist kein nicht-struktureller Typ%qD hat eine vorherige Deklaration hier%qD wurde bereits definiert%qD hat unvollständigen Typ %qT%qD hat unvollständigen Typ%qD hat ungültige Argumentliste%qD wurde nicht innerhalb von %qD deklariert%qD wurde nicht innerhalb von %qD deklariert%qD hat den gleichen Namen wie die Klasse, in der es deklariert wurde%qD in %<reduction%>-Klausel ist ein Array der Länge 0%qD erbt das %E-ABI-Tag, das %qT (im Rückgabetyp verwendet) hat%qD erbt das %E-ABI-Tag, das %qT (im Typ verwendet) hat%qD ist ungültig in %q#T wegen lokalem Element %q#D mit gleichem Namen%qD ist in %q#T ungültig wegen lokaler Methode %q#D mit gleichem Namen%qD ungültig in Lambda%qD ist eine Funktion, kein Typ%qD ist ein Namensbereich%qD ist eine gewöhnliche (nicht-Platzierungs) Deallokationsfunktion%qD ist eine übliche (nicht-placement) Deallokationsfunktion in C++14 (oder mit %<-fsized-deallocation%>)%qD ist bereits ein »friend« von %qT%qD ist bereits ein »friend« der Klasse %qT%qD ist bereits in %qT definiert%qD ist bereits in Klasse %qT definiert%qD ist bereits in der Klasse %qT definiert%qD ist ein Aufzählungstemplate%qD ist sowohl eine direkte Basis als auch eine indirekte virtuelle Basis%qD wird in Header %qs deklariert%qD ist mit TLS-Modell %s definiert%qD ist veraltet%qD ist veraltet: %s%qD wird mit sich selbst initialisiert%qD wird für ein leeres Pack instanziiert%qD ist veränderlich%qD ist normalerweise eine nicht-statische Funktion%qD ist keine Klasse oder Namensbereich%qD ist kein Klassentyp%qD ist kein Funktionsargument%qD ist kein Funktionstemplate%qD ist kein Element von %qD%qD ist kein Element von %qD; meinten Sie %qs?%qD ist kein Element von %qT%qD ist kein Element von %qT; meinten Sie %qs?%qD ist keine Elementtemplatefunktion%qD ist kein Namensbereichs-Name%qD bezeichnet Namensraum-Namen; meinten Sie %qs?%qD ist keine Zeigervariable%qD ist kein %<static%>-Datenelement%qD ist kein statisches Datenelement eines Klassentemplates%qD ist kein Template%qD ist keine Templatefunktion%qD ist kein Typ%qD ist kein gültiges Templateargument, weil %qD eine Variable und nicht die Adresse einer Variable ist%qD ist keine Variable%qD ist in %<aligned%>-Klausel keine Variable%qD ist in %<allocate%>-Klausel keine Variable%qD ist in %<nontemporal%>-Klausel keine Variable%qD in %qs-Klausel muss eine Variable sein%qD ist in Klausel %<firstprivate%> keine Variable%qD ist in Klausel %<lastprivate%> keine Variable%qD ist in Klausel %qs keine Variable%qD ist kein variadisches Template%qD in %<uniform%>-Klausel ist kein Argument%qD ist nicht eingefangen%qD ist mit %qD unverträglich%qD ist außerhalb des Funktionsgültigkeitsbereiches nicht definiert%qD ist in %<depend%>-Klausel weder lvalue-Ausdruck noch Arrayabschnitt%qD ist nicht %<public%>%qD ist nicht als %<constexpr%>-Funktion verwendbar, denn:%qD ist statisch, wird jedoch in Inline-Funktion %qD verwendet, was nicht statisch ist%qD in %qs-Klausel ist eine threadprivate Variable%qD ist zu klein, um alle Werte von %q#T aufzunehmen%qD ist nicht initialisiert, wird aber benutzt%qD könnte uninitialisiert verwendet werden%qD könnte in dieser Funktion uninitialisiert verwendet werden%qD darf nicht als »static« deklariert werden%qD darf nicht innerhalb eines Namensbereiches definiert werden%qD Verschieben eines Objekts des nichttrivialen Typs %#qT und Größe %E in eine Region der Größe %E%qD Verschieben eines Objekts des nichttrivial kopierbaren Typs %#qT; verwenden Sie stattdessen %<new%> oder %<delete%>%qD Verschieben eines Objekts des Typs %#qT mit gelöschtem Kopierkonstruktor; verwenden Sie stattdessen %<new%> und %<delete%>%qD Verschieben eines Objekts des Typs %#qT mit gelöschtem DestruktorIn %<#pragma acc declare link%> muss %qD eine globale Variable sein%qD muss eine Nicht-Elementfunktion sein%qD muss eine nichtstatische Elementfunktion sein%qD muss eine Variable sein, die im selben Gültigkeitsbereich wie %<#pragma acc declare%> deklariert ist%qD muss entweder eine nichtstatische Elementfunktion oder eine Nicht-Element-Funktion sein%qD muss ein Argument von einem Klassen- oder Aufzählungstyp haben%qD muss entweder ein oder zwei Argumente nehmen%qD muss entweder null oder ein Argument nehmen%qD muss genau ein Argument nehmen%qD muss genau zwei Argumente nehmen%qD darf keine Argumente nehmen»%qD« darf keine variable Argumentanzahl haben%qD nicht definiert%qD mit anderem Zugriff redeklariert%qD mit anderer Sichtbarkeit redeklariertZielregion verweist auf %qD, aber der Ausdruck hat keinen zuordenbaren Typ%qD nach Referenzierung in Assemblierung umbenannt%qD sollte initialisiert werden%qD sollte in Elementinitialisierungsliste initialisiert werden%qD sollte innerhalb von %qD deklariert werden%qD sollte Wert zurückgebenQuellargument für %qD ist dasselbe wie für das Ziel%qD ist sowohl in %<link%>- als auch %<to%>-Klauseln des Deklarationsziels angegeben%qD ist sowohl in %<declare target link%>- als auch implizit in %<to%>-Klauseln angegeben%qD ist in %<allocate%>-Klausel angegeben, aber nicht in einer expliziten Privatisierungs-Klausel%qD ist in %<inscan%>-%<reduction%>-Klausel angegeben, aber nicht in %<scan%>-Direktivenklausel%qD wurde in %qs-Klausel angegeben, aber nicht in %<inscan%>-%<reduction%>-Klausel am enthaltenden Konstrukt%qD legt weniger eingeschränktes Attribut als sein Ziel %qD fest: %s%qD legt weniger eingeschränkte Attribute als sein Ziel %qD fest: %s%qD legt eingeschränkteres Attribut als sein Ziel %qD fest: %s%qD legt eingeschränktere Attribute als sein Ziel %qD fest: %sZiel %qD wurde hier deklariert%qD als Variante mit inkompatiblen %<construct%>-Selektormengen verwendet%qD vor seiner Definition verwendet%qD in seiner eigenen Initialisierung verwendet%qD wird ohne Template-Argumente verwendet%qD verletzt die One-Definition-Rule von C++%qD wurde %<extern%> deklariert und später %<static%>%qD wurde als %qs deklariert, was Standardsichtbarkeit mit sich bringt%qD wurde hier deklariert%qD war versteckt%qD wurde nicht als %<constexpr%> definiert%qD wurde in diesem Gültigkeitsbereich nicht definiert%qD wurde in diesem Gültigkeitsbereich nicht deklariert, und bei argumentabhängiger Suche am Ort der Instanziierung wurden keine Deklarationen gefunden%qD wurde in diesem Gültigkeitsbereich nicht deklariert; meinten Sie %qs?%qD wurde nicht mit konstantem Ausdruck initialisiert%qD wurde vorher hier deklariert%qD wurde vor seiner Definition ohne Deklaration verwendet%qD wurde vor seiner Definition ohne Prototyp verwendet%qD wird initialisiert nach%qD Schreiben in ein Objekt eines nichttrivialen Typen %#qT lässt %wu Byte unverändert%qD Schreiben in ein Objekt eines nichttrivialen Typen %#qT lässt %wu Bytes unverändert%qD Schreiben in ein Objekt des nichttrivialen Typs %#qT%s%qD Schreiben in ein Objekt des nichttrivial kopierbaren Typs %#qT%s%qD Schreibzugriff auf ein Objekt des Typs %#qT, das einen Zeiger auf Datenelement enthält%s%qD Schreibzugriff auf ein Objekt des Typs %#qT mit Element %qs %qD%qD Schreibzugriff auf ein Objekt des Typs %#qT ohne triviale Kopierzuweisung%qD Schreibzugriff auf ein Objekt des Typs %#qT ohne triviale Kopierzuweisung%s%qD Schreibzugriff auf ein Objekt mit einem gelöschten Kopierkonstruktor%qD: Sichtbarkeitsattribut ignoriert, da es in Konflikt mit vorheriger Deklaration steht%qE 2.95 vtable-Kompatibilitätsattribut trifft nur für C++-Klassen zu%qE 2.95 vtable-Kompatibilitätsattribut trifft nur zu, wenn ein »kext« kompiliert wird%qE tritt in %<aligned%>-Klausel mehrfach auf%qE kommt mehr als einmal in %<allocate%>-Klauseln vor%qE tritt in %<nontemporal%>-Klausel mehrfach auf%qE tritt in dieser Datenklausel mehrfach auf%qE tritt in Mapklauseln mehrfach auf%qE tritt in derselben %<declare target%>-Direktive mehrfach auf%qE Argument %Z überlappt möglicherweise das Zielobjekt %qE%qE Argumente %Z überlappen möglicherweise das Zielobjekt %qE%qE Argument %Z überlappt das Zielobjekt %qE%qE Argumente %Z überlappen das Zielobjekt %qEArgument %qE ist keine FunktionArgument %qE muss eins von %qs, %qs, %qs oder %qs seinArgument %qE ist keine ZeichenketteArgument %qE ist kein BezeichnerIm Aufruf von %qE überlappen sich die Argumente %Z und vielleicht %Z mit dem Zielobjekt %qEAdresse von Attribut %qE außerhalb des gültigen BereichsAttribut %qE erlaubt nur eine Ganzzahlkonstante als ArgumentAttribut %qE auf %qD mit Rückgabetyp »void« angewendetAttribut %qE auf %qT nach seiner Definition angewendetAttribut %qE wird auf »extern "C"«-Deklaration %qD angewendetAttribut %qE auf Nicht-Klassen-, Nicht-Enum-Typ %qT angewendet%qE-Attribut wird auf %qD angewendet, das weder Funktion noch Variable istAttribut %qE kann nur auf Funktionen angewandt werdenAttribut %qE bezieht sich nur auf initialisierte Variablen mit externer BindungAttributargument %qE mit Wert %E ist keine ZweierpotenzAttribut %qE mit Argument %E ist keine GanzzahlkonstanteArgument %2$E von Attribut %1$qE liegt nicht im Bereich [0, %3$wu]Attribut %qE Argument %E ist nicht positivAttributargument %qE an Position %i hat Typ %qTAttributargument %qE an Position %i ist ungültigAttributargument %qE an Position %i hat den Wert %qE, der nicht auf einen Funktionsparameter verweistAttributargument %qE an Position %i hat den Wert %qE, der nicht auf eine variable Argumentliste verweistAttributargument %qE an Position %i hat den Wert %qE, der die Anzahl der Funktionsparameter %u übersteigtAttributargument %qE an Position %i hat den Wert %qE, der keine Ganzzahlkonstante istAttributargument %qE an Position %i hat den Wert %qE, der auf einen variadischen Funktionsparameter unbekannten Typs verweistAttributargument %qE an Position %i hat den Wert %qE, der auf den Parametertyp %qT verweistAttribut %qE hat Argument %qE, das %u übersteigtAttributargument %qE mit Wert %qE ist keine GanzzahlkonstanteAttribut %qE Argument %qE muss eine ganzzahlige Konstante zwischen 0 und 3 seinAttribut %qE Argument %qE ist unbekanntAttribut %qE Argument 1 benennt keine FunktionAttribut %qE Argument 1 ist mehrdeutigAttribut %qE Argument 1 muss einen Zeigertyp als erstes Argument habenAttribut %qE Argument 1 muss einen Zeigertyp als erstes Argument haben, hat jedoch %qTAttributargument %qE kann kein konstanter arithmetischer Ausdruck seinAttributargument %qE kann keine Zeichenkette seinAttributargument %qE hat Typ %qTAttributargument %qE ist ungültigArgument des Attributs %qE muss eine Zeichenkettenkonstante seinArgument des Attributs %qE ist keine ZeichenkettenkonstanteAttributargument %qE ist keine GanzzahlkonstanteArgument des Attributs %qE sollte zwischen 0 und 255 seinArgument des Attributs %qE sollte zwischen 18 und 255 seinAttributargument %qE hat den Wert %qE, der nicht auf einen Funktionsparameter verweistAttributargument %qE hat den Wert %qE, der nicht auf eine variable Argumentliste verweistAttributargument %qE mit Wert %qE übersteigt %wuAttributargument %qE hat den Wert %qE, der die Anzahl der Funktionsparameter %u übersteigtAttributargument %qE mit Wert %qE ist negativAttributargument %qE hat den Wert %qE, der keine Ganzzahlkonstante istAttributargument %qE hat den Wert %qE, der auf einen variadischen Funktionsparameter unbekannten Typs verweistAttributargument %qE hat den Wert %qE, der auf den Parametertyp %qT verweistAttribut %qE kann nur auf Funktionen oder auf Klasse- oder Aufzählungstypen angewendet werdenAttribut %qE kann nur auf Funktionen oder auf struct-, union- oder enum-Typen angewendet werdenAttribut %qE kann nur auf nicht-statische Datenelemente angewendet werdenAttribut %qE kann nicht auf Bitfeld angewendet werdenAttribut %qE kann nicht für lokale Variablen angegeben werdenAttribut %qE steht mit Attribut %qE in KonfliktAttribut-Direktive %qE ignoriertAttribut %qE ist nicht auf Funktionen anwendbarAttribut %qE kann nicht auf Typen angewandt werdenAttribut %qE akzeptiert keine ArgumenteAttribut %qE bezieht sich nicht auf Funktionendoppeltes Attribut %qEAttribut %qE folgt auf %qEAttribut %qE hat keinen EffektAttribut %qE wirkt sich nicht auf Funktionen mit »static«-Bindung ausAttribut %qE wirkt sich nicht auf einheits-lokale Funktionen ausAttribut %qE wirkt sich nur auf öffentliche Objekte ausAttribut %qE wird ignoriertAttribut %qE ignoriert, da %qD nicht Thread-Speicherdauer hatAttribut %qE ignoriert, da %qD keine Variable istAttribut %qE ignoriert, da %qT bereits definiert istAttribut %qE steht mit Attribut %qs in Konflikt; wird ignoriertAttribut %qE steht mit Attribut %qs in Konflikt; wird ignoriertAttribut %qE ignoriert für %qEAttribut %qE ignoriert für Feld vom Typ %qTAttribut %qE für Typ %qT ignoriertAttributargument %qE deklariert das referenzierte Symbol mit einer anderen Art; wird ignoriertAttribut %qE an einer Funktion mit Rückgabetyp %qT wird ignoriertAttributargument %qE deklariert das referenzierte Symbol neu; wird ignoriertAttribut %qE wird an Funktionen mit Rückgabetyp %qT ignoriert; es gilt nur für Zeiger-RückgabetypenAttribut %qE ignoriert für Nicht-Klassen-TypenAttribut %qE wird für Objekte vom Typ %qT ignoriertAttribut %qE für Typen ignoriertAttribut %qE ignoriert, da die Option %<-mcmse%> nicht angegeben ist.Attribut %qE ignoriert, da die Option %<-mistack%> nicht angegeben istAttribut %qE ignoriert, da es nur für ein großes Speichermodell (%<-mlarge%>) sinnvoll ist.Attribut %qE ignoriert, da die Option %<-fcf-protection%> nicht angegeben istAttribut %qE wird ignoriert, da es nur für Funktionen giltAttribut %qE kann nur auf Zeigertypen angewendet werdenAttribut %qE wird nicht unterstützt, da die Bytereihenfolge nicht einheitlich istAttribut %qE wird für Ziel R8C nicht unterstütztAttribut %qE wird auf dieser Plattform nicht unterstütztAttribut %qE bezieht sich nur auf FunktionenAttribut %qE ist nur für Objective-C-Objekte gültigAttribut %qE kann nur auf %<struct%>-Typen angewandt werdenAttribut %qE wird für ELF-Ziele unterstütztAttribut %qE wird nur auf SH2A unterstütztAttribut %qE wird für Nicht-Klassen-Methode verwendetAttribut %qE kann nur an einem typedef stehen; wird ignoriertAttribut %qE muss vor Attribut %qs auftretenAttribut %qE muss sich auf eine Deklaration beziehenAttribut %qE nicht mit Speicherklasse »auto« erlaubtAttribut %qE ist nicht auf Funktionen anwendbar, die Argumente auf dem Stack zurückgebenAttribut %qE ist nicht auf Funktionen anwendbar, die Argumente auf dem Stack übergebenAttribut %qE ist nicht auf Funktionen anwendbar, die variable Anzahl von Argumenten habenAttribut %qE an einer Funktion, die keinen Zeiger zurückgibtAttribut %qE an einer Funktion mit Rückgabetyp %<void%>Attribut %qE an nicht-»volatile«-VariableAttribut %qE bezieht sich nur auf Toplevel-ObjekteAttribut %qE gilt nur für SH2AAttribut %qE kann nur auf Basistypen von Funktionszeiger angewandt werdenAttribut %qE kann nur auf Funktionstypen angewandt werdenAttribut %qE bezieht sich nur auf FunktionenAttribut %qE bezieht sich nur auf InterruptfunktionenAttribut %qE kann nur auf Typen angewandt werdenAttribut %qE bezieht sich nur auf VariablenAttribut %qE kann nur für »static«-Variablen verwendet werdenAttribut %qE gilt nur für variadische FunktionenAttribut %qE nur für 32 Bit verfügbarAttribut %qE wird nur für reduzierte Tiny-Kerne unterstütztAttribut %qE wird nur für Boolean-Typen unterstütztAttribut %qE ist nur für die ARC-EM-Architektur gültigAttribut %qE ist nur für die Architektur ARCv2 gültigAttribut %qE erfordert eine Zeichenkettenkonstante als ArgumentAttribut %qE erfordert eine Zeichenkettenkonstante als ArgumentAttribut %qE erfordert den Rückgabetyp »void«Attribut %qE benötigt eine Ganzzahl als ArgumentAttribut %qE benötigt eine Ganzzahlkonstante als ArgumentAttribut %qE benötigt Prototypen mit benannten ArgumentenAttribut %qE erwartet keine ArgumenteAttribut %qE mit nicht unterstützter Boolean-GenauigkeitAttribut %qE ohne Argumente für einen Nicht-PrototypAttribut %qE kann nur auf Zeigertypen angewendet werden, nicht auf %qT%qE kann nicht als Funktion verwendet werden%qE kann nicht als Elementzeiger verwendet werden, da es vom Typ %qT ist%qE kann nicht gleichzeitig die Attribute %qs und %qs haben%qE nach erster Verwendung als %<threadprivate%> deklariert%qE als Funktion, die eine Funktion zurückgibt, deklariert%qE als Funktion, die ein Array zurückgibt, deklariert%qE ist hier deklariert%qE als falsche Symbolart definiert%qE schränkt keinen Typ ein%qE hat nicht den Typ %<omp_depend_t%>, in der %<depend%>-Klausel mit %<depobj%>-Abhängigkeitstyp%qE in %qs-Klausel hat keinen zuordenbaren Typ%qE hat weder Zeiger- noch Arraytyp%qE bezeichnet keinen Typ%qE bezeichnet keinen Typ; meinten Sie %qs?%qE wird zu »false« ausgewertet%qE ist kein typedef oder eingebauter Typ%qE hat sowohl %<extern%> als auch Initialisierung%qE hat konstanten Typ für %<reduction%>%qE hat ungültigen Typ für %<reduction(%s)%>%qE wurde nicht deklariert%qE bringt Standardsichtbarkeit mit sich, aber %qD wurde bereits mit anderer Sichtbarkeit deklariert%qE in %<aligned%>-Klausel ist weder Zeiger noch Array%qE in %<aligned%>-Klausel ist weder Zeiger noch Array noch Referenz auf Zeiger oder Array%qE in %<reduction%>-Klausel ist ein Array der Länge 0%qE in %q#T benennt keinen Templatetypen%qE in %q#T benennt keinen Typen%qE in Namensraum %qE bezeichnet keinen Templatetyp%qE in Namensraum %qE bezeichnet keinen Templatetyp; meinten Sie %qs?%qE in Namensbereich %qE bezeichnet keinen Typ%qE in Namensraum %qE bezeichnet keinen Typ; meinten Sie %qs?%qE-inkompatibles Attribut wird ignoriert%qE initialisiert und als %<extern%> deklariert%qE ist ein Element eines Union-Typs%qE ist ein Zeiger; meinten Sie %<->%>?%qE ist ein nicht erkannter Formatfunktionstyp%qE ist veraltet%qE ist veraltet: %s%qE in %qs-Klausel ist weder Variablen- noch Funktionsname%qE ist weder eine Funktion noch Elementfunktion; kann nicht als »friend« deklariert werden%qE ist keine Klasse oder Namensbereich%qE ist kein Klassentemplate%qE ist keine Klasse, Namensbereich oder Aufzählung%qE ist kein Konstantenausdruck%qE ist kein konstanter Ausdruck, da der angeforderte Speicher nicht vollständig freigegeben wurde%qE ist kein konstanter Ausdruck, da er auf das Ergebnis von %<operator new%> verweist%qE ist kein Konstantenausdruck, da er auf eine unvollständig initialisierte Variable verweist%qE ist kein Konstantenausdruck, da er auf veränderliche Teilobjekte von %qT verweist%qE ist kein Template%qE ist kein Typ%qE ist kein gültiger %<asm%>-Qualifizierer%qE ist kein gültiges Templateargument für %qT, da es keine Adresse einer Variable ist%qE ist kein gültiges Templateargument für Typ %qT%qE ist kein gültiges Templateargument für Typ %qT, weil %qD keine externe Bindung hat%qE ist kein gültiges Templateargument für Typ %qT, weil %qD keine Bindung hat%qE ist kein gültiges Templateargument für Typ %qT, weil es ein Zeiger ist%qE ist kein gültiges Templateargument für Typ %qT, weil es kein L-Wert ist%qE ist kein gültiges Templateargument für Typ %qT, weil es vom Typ %qT ist%qE ist kein gültiges Templateargument für Typ %qT, da es in CV-Qualifikation in Konflikt steht%qE ist kein gültiges Templateargument für Typ %qT, da Zeichenkettensymbole in diesem Zusammenhang nicht verwendet werden können%qE ist kein gültiges Templateargument für Typ %qT, weil %qD keine Bindung hat%qE ist kein gültiges Templateargument für Typ %qT, weil %qE keine Variable ist%qE ist in C++98 kein gültiges Templateargument des Typs %qT, weil %qD keine externe Bindung hat%qE ist %<aligned%>-Klausel keine Variable%qE in %<allocate%>-Klausel ist keine Variable%qE ist in %<nontemporal%>-Klausel keine Variable%qE in %qs-Klausel muss eine Variable sein%qE ist in Klausel %<firstprivate%> keine Variable%qE ist in Klausel %<lastprivate%> keine Variable%qE ist in Klausel %qs keine Variable%qE ist kein Klassenname oder Alias in Objective-C%qE in %<uniform%>-Klausel ist kein Argument%qE ist nicht am Anfang einer Deklaration%qE ist nicht initialisiert%qE ist weder lvalue-Ausdruck noch Arrayabschnitt in %<depend%>-Klausel%qE ist nicht vom Typ %qTunbekannte Modul-Steuerzeile %qE%qE ist nicht das vollständige Muster einer Packexpansion%qE ist nur in Objective-C-Dialekten erlaubt%qE ist nur auf Objective-C-Klassen-Interfaces anwendbar; wird ignoriert%qE ist vorbestimmt %qs für %qs%qE antwortet möglicherweise nicht auf %<%c%E%>%qE darf erst nach einer Modul-Interface-Deklaration vorkommen%qE darf nur einmal pro Export-Deklaration vorkommen%qE könnte ein abschließendes NUL hinter das Ende des Ziels schreibenfehlende Templateargumente für %qE%qE muss für %<copyin%> %<threadprivate%> sein%qE erfordert ISA-Option %s%qE erfordert unbekannte ISA-Option%qE in umgebendem %<target%> nicht angegeben%qE in umgebendem %qs nicht angegeben%qE in umgebendem OpenACC-%qs-Konstrukt nicht angegeben%qE hat %wu Byte ausgegeben%qE hat %wu Bytes ausgegeben%qE hat %wu Byte in ein Ziel der Größe %wu ausgegeben%qE hat %wu Byte in ein Ziel der Größe %wu ausgegeben%qE hat %wu oder mehr Bytes ausgegeben%qE hat %wu oder mehr Bytes (angenommen %wu) ausgegeben%qE hat %wu oder mehr Bytes (angenommen %wu) in das Ziel der Größe %wu ausgegeben%qE hat %wu oder mehr Bytes in das Ziel der Größe %wu ausgegeben%qE hat zwischen %wu und %wu Bytes ausgegeben%qE hat zwischen %wu und %wu Bytes in das Ziel der Größe %wu ausgegeben%qE-Ausgabe könnte vor dem letzten Formatzeichen abgeschnitten sein%qE-Ausgabe ist vor dem letzten Formatzeichen abgeschnitten%qE als andere Symbolart redeklariert%qE mit in Konflikt stehenden Attributen %qs redeklariert%qE benötigt %<-fgnu-tm%>%qE erfordert eine %<declare%>-Direktive, um in einer %<routine%>-Funktion verwendet zu werdenAttribut %qE benötigt ein Argument%qE benötigt die SVE-ISA-Erweiterung%qE sollte einen anderen Typ haben als %<omp_depend_t%>, in der %<depend%>-Klausel mit von %<depobj%> verschiedenem Abhängigkeitstyp%qE ist hier angegeben%qE nicht deklariert (erste Verwendung in dieser Funktion)%qE nicht deklariert (erstmalige Verwendung in dieser Funktion); meinten Sie %qs?%qE ist hier nicht deklariert (nicht in einer Funktion)%qE ist hier (außerhalb einer Funktion) nicht deklariert; meinten Sie %qs?%qE mit %<auto%> verwendet%qE mit %<register%> verwendet%qE mit %<typedef%> verwendet%qE mit %<link%>-Klausel wird in %<routine%>-Funktion verwendet%qE schreibt ein abschließendes NUL hinter das Ende des Ziels%qF als %<static%> deklariert, aber nirgendwo definiert%qF erfordert %<-mvx%>%qF erfordert z14 oder höher%qF erfordert z15 oder höher%qT und %qT sind in disjunkt benannten Adressräumen%qT als Typ statt als einfaches %<decltype(auto)%>%qT hier deklariert%qT mit nicht zusammenpassendem Klassenschlüssel %qs deklariert%qT mit bedeutenderer Sichtbarkeit als seine Basis %qT deklariert%qT mit bedeutenderer Sichtbarkeit als der Typ seines Feldes %qD deklariert%qT wurde hier als %qs definiert%qT ist mit direkter virtueller Basisklasse definiert%qT ist mit mehreren direkten Basisklassen definiert%qT hat nicht das ABI-Tag %E, das %qT (im Typ von %qD verwendet) hat%qT hat nicht das ABI-Tag %E, das die Basis %qT hat%qT wurde erstmals hier als %qs deklariert%qT hat Basis %qT, dessen Typ von Typ %qT abhängt, der wiederum keine Bindung hat%qT hat Basis %qT, dessen Typ keine Bindung hat%qT hat Basis %qT, dessen Typ den anonymen Namensbereich verwendet%qT hat ein Feld %qD, dessen Typ vom Typ %qT abhängt, der wiederum keine Bindung hat%qT hat ein Feld %qD, dessen Typ keine Bindung hat%qT hat ein Feld %qD, dessen Typ den anonymen Namensbereich verwendet%qT hat hier eine vorherige Deklaration%qT hat kein Element namens %qE%qT hat kein Element namens %qE; meinten Sie %qE?%qT hat kein nicht-statisches Datenelement namens %qD%qT ist ein variabel modifizierter Typ%qT ist bereits ein »friend« von %qT%qT ist eine mehrdeutige Basisklasse des dynamischen Typen %qT seines Operanden%qT ist mehrdeutige Basis von %qT%qT ist eine nicht erreichbare Basis von %qT%qT ist keine Basis von %qT%qT ist keine Klasse oder Namensbereich%qT ist kein Klassentyp%qT ist weder eine Klasse, noch ein Namensbereich oder eine Aufzählung%qT ist kein Klassen-, Struktur- oder Union-Typ%qT ist keine direkte Basis von %qT%qT ist kein Elementklassentemplate von %qT%qT ist kein Element von %qT%qT ist keine geschachtelte Klasse von %qT%qT ist kein Zeiger auf Objekt%qT ist kein Template%qT ist kein Template-Typ%qT ist kein gültiger Typ für einen Nichttyp-Templateparameter, da er nicht strukturell ist%qT ist kein %<asm%>-Qualifizierer%qT ist keine erreichbare Basis von %qT%qT ist kein Aufzählungstyp%qT auf %qT erweitert beim Durchlaufen von %<...%>%qT ist/verwendet anonymen Typen%qT beabsichtigt möglicherweise nicht, Argumentherleitung für Klassentemplates zu unterstützen%qT ist in einem Templateargument nicht erlaubt%qT als %qs verwendet%qT als enum verwendet%qT wird in %qT aufgelöst, aber das ist kein Klassentyp%qT wird in %qT aufgelöst, was kein Aufzählungstyp ist%qV-Qualifizierer können nicht auf %qT angewendet werden%qc-Umwandlung wird unescapet verwendetUmwandlung %qc wird innerhalb einer q-Folge benutztDie Direktive %qc ist redundant, da sie bereits vorgekommen ist%qs%s auf der linken Seite einer Clobber-Anweisung%qs greift auf das uninitialisierte Byte an Offset %d zu%qs bereits als spezifische Bindung für das generische %qs bei %C definiert%qs wird in %<if constexpr%> stets zu %<true%> ausgewertet%qs und %<%s-%s%> sind unverträglich%qs und %<%s=%s%> sind unverträglich%qs und %qs sind unverträglichArgumente %qs und %qs des intrinsischen %qs bei %L müssen gleiche Form haben.Argumente %qs und %qs des intrinsischen %qs bei %L müssen denselben Typ habenAttribute %qs und %qs sind nicht verträglich%qs und %qs können nicht gemischte FUNCTION/SUBROUTINE für GENERIC %qs bei %L sein%qs und %qs für GENERIC %qs bei %L sind mehrdeutig%qs scheint ein falsch geschriebener %qs-Handler zu sein, das Präfix %<__vector%> fehltArgument %qs hat ungültige Operandennummer (Argument %lu)Argument für %qs hat kein abschließendes nul-ZeichenArgument %qs des intrinsischen %qs bei %L kann nicht INTENT(IN) seinArgument %qs des intrinsischen %qs bei %L kann nicht Typ %s habenArgument %qs des intrinsischen %qs bei %L hat ungültige Permutation der Dimensionen (Dimension %qd doppelt)Argument %qs des intrinsischen %qs bei %L hat ungültige Form in Dimension %d (%ld/%ld)Argument %qs des intrinsischen %qs bei %L hat negatives Element (%d)Argument %qs des intrinsischen %qs bei %L hat Dimension außerhalb des Wertebereiches (%d)Argument %qs des intrinsischen %qs bei %L hat falsche Anzahl der Elemente (%d/%d)Argument %qs des intrinsischen %qs bei %L ist leerArgument %qs des intrinsischen %qs bei %L ist kein gültiger DimensionsindexArgument %qs des intrinsischen %qs bei %L muss %s seinArgument %qs des intrinsischen %qs bei %L muss ALLOCATABLE seinArgument %qs des intrinsischen %qs bei %L muss ein INTEGER seinArgument %qs für intrinsisches %qs bei %L muss INTEGER oder PROCEDURE seinArgument %qs des intrinsischen %qs bei %L muss INTEGER oder REAL seinArgument %qs des intrinsischen %qs bei %L muss INTEGER, REAL oder CHARACTER seinArgument %qs der intrinsischen Funktion %qs bei %L muss INTEGER, LOGICAL oder ein BOZ-Literal seinArgument %qs des intrinsischen %qs bei %L muss REAL oder COMPLEX seinArgument %qs des intrinsischen %qs bei %L muss ein POINTER seinArgument %qs des intrinsischen %qs bei %L muss ein POINTER oder ein TARGET seinArgument %qs des intrinsischen %qs bei %L muss POINTER, ALLOCATABLE oder Prozedurzeiger seinArgument %qs des intrinsischen %qs bei %L muss eine Konstante seinArgument %qs des intrinsischen %qs bei %L muss eine Datenentität seinArgument %qs des intrinsischen %qs bei %L muss ein logisches Feld seinArgument %qs des intrinsischen %qs bei %L muss ein Zeiger oder Ziel VARIABLE oder FUNCTION seinArgument %qs des intrinsischen %qs bei %L muss ein Skalar seinArgument %qs des intrinsischen %qs bei %L muss eine Variable seinArgument %qs des intrinsischen %qs bei %L muss ein Feld seinArgument %qs des intrinsischen %qs bei %L muss austauschbare Datenentität sein: %sArgument %qs des intrinsischen %qs bei %L muss ein Standard-Real seinArgument %qs des intrinsischen %qs bei %L muss doppelte Genauigkeit habenArgument %qs für intrinsisches %qs bei %L muss geringer als Rang %d seinArgument %qs des intrinsischen %qs bei %L muss numerisch oder LOGICAL seinArgument %qs des intrinsischen %qs bei %L muss eine Scheinvariable seinArgument %qs des intrinsischen %qs bei %L darf von der Art nicht breiter als der Standard (%d) seinArgument %qs des intrinsischen %qs bei %L muss eine OPTIONALe Scheinvariable seinArgument %qs des intrinsischen %qs bei %L muss erweiterbaren Typ habenArgument %qs des intrinsischen %qs bei %L muss ein intrinsischer Typ seinArgument %qs des intrinsischen %qs bei %L muss von der Art %d seinArgument %qs des intrinsischen %qs bei %L muss vom Rang %d seinArgument %qs des intrinsischen %qs bei %L muss vom Rang 1 oder 2 seinArgument %qs des intrinsischen %qs bei %L muss positiv seinArgument %qs des intrinsischen %qs bei %L muss von der selben Art wie %qs seinArgument %qs des intrinsischen %qs bei %L muss vom gleichen Typ und gleicher Art wie %qs seinArgument %qs des intrinsischen %qs bei %L muss ein numerischer Typ sein%qs-Argument des intrinsischen %qs bei %L muss vom Typ REAL oder INTEGER seinArgument %qs des intrinsischen %qs bei %L muss mindestens die Länge 1 habenArgument %qs des intrinsischen %qs bei %L muss den selben Rang wie %qs haben oder skalar seinArgument %qs des intrinsischen %qs bei %L darf nicht OPTIONAL seinArgument %qs des intrinsischen %qs bei %L darf kein Unterobjekt von %qs seinArgument %qs des intrinsischen %qs bei %L darf nicht vorhanden sein, wenn %<x%> COMPLEX istArgument %qs des intrinsischen %qs bei %L muss mindestens so viele Elemente haben wie es .TRUE.-Werte %qs (%ld/%d) gibtArgument %qs des intrinsischen %qs bei %L ist noch nicht unterstütztArgument %qs des intrinsischen %qs bei %L muss vom Typ integer, read oder character seinArgument %qs des intrinsischen %qs bei %L muss vom gleichen Typ und gleicher Art wie %qs bei %L seinArgument %qs des intrinsischen %qs bei %L darf nicht TYPE(*) seinArgument %qs des intrinsischen %qs bei %L darf keine Prozedur seinArgument %qs des intrinsischen %qs bei %L darf kein Feld impliziter Größe seinArgument %qs des intrinsischen %qs bei %L darf keinen Koindex habenArgument %qs des intrinsischen %qs bei %L muss eine gültige Ganzzahlart seinArgument %qs des intrinsischen %qs bei %L muss Rang %d haben oder ein Skalar seinArgument %qs referenziert Nicht-Zeiger-Operanden (Argument %lu, Operand %lu)Argument %qs mit Operandennummer außerhalb des Wertebereiches (Argument %lu, Operand %lu)%qs bei %C ist eine DEC-Erweiterung, muss mit %<-fdec-structure%> eingeschaltet werden%qs bei %C ist eine Redefinition der Deklaration in der entsprechenden Schnittstelle für MODUL PROCEDURE %qs%qs bei %C ist bereits als FINAL-Prozedur definiert%qs bei %C ist kein Element der Struktur %qs%qs bei %C ist kein Element der Struktur %qs; meinen Sie %qs?%qs bei %C ist keine Variable%qs bei %C ist keine Ermittlungsreferenz auf eine intrinsische Typkomponente%qs bei %C ist keine Ermittlungsreferenz auf eine intrinsische Typkomponente %qs%qs bei %C ist der Name einer rekursiven Funktion und verweist damit auf die Ergebnisvariable. Für direkte Rekursion, eine explizite RESULT-Variable verwenden (12.5.2.1)%qs bei %L wurde bereits bei %L initialisiert%qs ist bei %L mit Ausdruck verbunden und kann nicht in Variablen-Definitionskontext (%s) verwendet werden%qs ist bei %L mit vektorindiziertem Ziel verbunden und kann nicht in Variablen-Definitionskontext (%s) verwendet werden%qs bei %L kann nicht das VALUE-Attribut haben, da es kein Scheinargument ist%qs bei %L hat einen Typen, der nicht zum CALL bei %L passt%qs bei %L hat außerhalb seines INTERFACE-Körpers spezifizierte Attribute%qs bei %L hat Attribut CONTIGUOUS, aber ist kein Feldzeiger oder Feld vermuteter Größe oder Rang%qs bei %L ist mehrdeutig%qs bei %L ist ein Feld und OPTIONAL; wenn es fehlt, kann es nicht das effektive Argument einer ELEMENTAL-Prozedur sein, es sei denn, es gibt ein nicht-optionales Argument mit demselben Rang (Fortran 2018, 15.5.2.12)%qs bei %L ist Host-verbunden bei %L in eine enthaltene Prozedur mit einer gleichnamigen internen Prozedur%qs bei %L ist kein VALUE%qs bei %L ist keine Funktion%qs bei %L ist keine Modulprozedur%qs bei %L ist vom ABSTRACT-Typ %qs%qs bei %L muss kleiner als BIT_SIZE(%qs) sein%qs bei %L muss kleiner oder gleich BIT_SIZE(%qs) sein%qs bei %L muss kleiner oder gleich der BIT_SIZE von INTEGER(KIND=%d) sein%qs bei %L darf nicht negativ sein%qs bei %L muss in diesem Zusammenhang konstante Zeichenlänge haben%qs bei %L muss die gleiche Anzahl formaler Argumente wie die überschriebene Prozedur haben%qs bei %L darf nicht DEFERRED sein, da es eine Nicht-DEFERRED-Bindung überschreibt%qs bei %L überschreibt eine FUNCTION und muss auch eine FUNCTION sein%qs bei %L überschreibt eine NOPASS-Bindung und muss ebenfalls NOPASS sein%qs bei %L überschreibt eine PUBLIC-Prozedur und darf nicht PRIVATE sein%qs bei %L überschreibt eine PURE-Prozedur und muss auch PURE sein%qs bei %L überschreibt eine SUBROUTINE und muss auch eine SUBROUTINE sein%qs bei %L überschreibt eine Bindung mit PASS und muss ebenfalls PASS sein%qs bei %L überschreibt eine Nicht-ELEMENTAL-Prozedur und darf ebenfalls nicht ELEMENTAL sein%qs bei %L überschreibt eine Prozedurbindung, die als NON_OVERRIDABLE deklariert ist%qs bei %L überschreibt eine ELEMENTAL-Prozedur und muss auch ELEMENTAL sein%qs bei %L muss eine %<INTENT(OUT)%>-Variable sein%qs bei %L sollte eine FUNCTION sein%qs bei %L sollte eine SUBROUTINE sein%qs bei %L sollte vom Typ integer(kind=omp_event_handle_kind) seinAttribut %qs ist nur auf Funktionen anwendbar, die eine variable Anzahl von Argumenten habenAttribut-Direktive %qs ignoriertAttribut %qs wird ignoriertAttribut %qs wird für %qE in %<__builtin_has_attribute%> nicht unterstütztAttribut %qs wird für %qT in %<__builtin_has_attribute%> nicht unterstütztAttribut %qs wird in %<__builtin_has_attribute%> nicht unterstütztAttribut %qs gilt nur für FunktionenAttribut %qs gilt nur für variadische FunktionenAttribut %qs benötigt Prototypen mit benannten ArgumentenAttribut %qs ohne Argumente für einen Nicht-Prototyp%qs kann nicht in einem Konstanten-Ausdruck auftreten%qs kann nicht in einer typedef-Deklaration auftreten%qs kann nicht als konstanter Ausdruck ausgewertet werden, da das Argument nicht codiert werden kann%qs kann nicht als konstanter Ausdruck ausgewertet werden, da das Argument nicht interpretiert werden kann%qs kann nicht als konstanter Ausdruck ausgewertet werden, da der Typ zu groß ist%qs kann auf diesem Ziel nicht als konstanter Ausdruck ausgewertet werden%qs kann bei %C nicht erweitert werden, da es BIND(C) ist%qs kann bei %C nicht erweitert werden, da es ein SEQUENCE-Typ ist%qs kann nicht für Typdeklarationen verwendet werden%qs-Klausel bei %L ist mehrfach angegeben%qs-Klausel darf nur bei rechteckigen %qs vorkommendie %qs-Klausel wird in der %<requires%>-Direktive noch nicht unterstützt%qs-Klausel darf nicht zusammen mit %<inscan%>-%<reduction%>-Klausel verwendet werden%qs-Klausel wird lexikalisch nach dem ersten Zielkonstrukt oder nach der ersten Auslagerungs-API verwendet%qs mit Qualifizierer %<auto%> für %qE kombiniert%qs mit Qualifizierer %<register%> für %qE kombiniert%qs-Konstrukt innerhalb einer %qs-RegionINTRINSIC deklariertes %qs bei %L existiert nicht%qs als Funktion, die eine Funktion zurückgibt, deklariert%qs als Funktion, die ein Feld zurückgibt, deklariertBei %2$L deklariertes %1$qs ist auch der Name einer intrinsischen Funktion. Sie kann nur über eine explizite Schnittstelle oder als EXTERNAL deklariert aufgerufen werden.Bei %2$L deklariertes %1$qs überdeckt intrinsische Funktion mit gleichem Namen. Um die aufzurufen, sind explizite INTRINSIC-Deklarationen erforderlich.%qs in einem Nicht-Klassen-Gültigkeitsbereich definiert%qs nicht in Klassen-Gültigkeitsbereich definiert%qs unterstützt keinen MIPS16-Code%qs unterstützt %qs nichtEntität %qs bei %C kann keine Initialisierung habenEntität %qs bei %C kann keine Argumente haben%qs erfordert 1 Argument, aber %d wurden angegeben%qs erwartet 2 Argumente, aber %d wurden angegeben%qs erwartet ein konstantes Argument%qs erwartet einen Festkommawert als Argument%qs erwartet einen Festkommawert als erstes Argument%qs erwartet einen Ganzzahlwert als zweites Argument%qs-Ausdruck muss ganzzahlig sein%qs-Ausdruck von %<volatile%>-qualifiziertem Typ ist veraltet%qs fehlgeschlagenFeature-Modifizierer %qs verträgt sich nicht mit der Verwendung von GleitkommatypenFeature-Modifizierer %qs verträgt sich nicht mit der Verwendung von VektortypenFunktion %qs kann keine Argumente haben%qs-Funktion kann keine andere Interrupt-Art habenFunktion %qs kann keinen Wert zurückgebenFunktion %qs verwendet Typspezifikation %<auto%> ohne folgenden RückgabetypenFunktion %qs mit nachgestelltem Rückgabetyp hat %<decltype(auto)%> als Typ statt einfachem %<auto%>Funktion %qs mit folgendem Rückgabetypen hat %qT als seinen Typ statt einfaches %<auto%>Funktion %qs mit folgendem Rückgabetypen nicht mit Typspezifikation %<auto%> deklariert%qs hat sowohl %<extern%> als auch Initialisierung%qs übergelaufen%qs in %<%s %E%>%qs in %s-Klausel bei %L ist kein korrekter Feldabschnitt%qs in ALIGNED-Klausel bei %L erfordert einen skalaren, positiven, konstanten Ganzzahlausdruck für die Ausrichtung%qs in ALIGNED-Klausel bei %L muss POINTER, ALLOCATABLE, Cray-Zeiger oder C_PTR sein%qs in DEPEND-Klausel bei %L ist ein Feldabschnitt der Größe 0%qs in EXTENDS-Ausdruck bei %C ist kein abgeleiteter Typ%qs in LINEAR-Klausel bei %L benötigt einen konstanten, ganzzahligen linear-step-Ausdruck oder ein Dummy-Argument, das in der UNIFORM-Klausel angegeben ist%qs in LINEAR-Klausel bei %L benötigt einen skalaren, ganzzahligen linear-step-Ausdruck%qs kann nicht in COMMON bei %L auftreten [F2008:C5100]%qs in GIMPLE-IL%qs in Zeigerzuweisung bei %L kann kein L-Wert sein, da es eine Prozedur ist%qs in Variablen-Definitionskontext (%s) bei %L ist keine Variable%qs inkompatibel mit explizit ausgeschalteten Optionen%qs initialisiert und als %<extern%> deklariert%qs in non-mode-precision OperandenDas intrinsische Unterprogramm %qs bei %L ist veraltet. Verwenden Sie das intrinsische Unterprogramm INT.intrinsisches %qs mit CHARACTER-Argument bei %Lintrinsisches %qs mit KIND-Argument bei %Lintrinsisches %qs mit RADIX-Argument bei %L%qs ist in der AVR-LibC ein reservierter Bezeichner. Erwägen Sie %<#include <avr/interrupt.h>%> vor der Benutzung des Makros %qs%qs bereits aus Host-Sichtbarkeitseinheit bei %C IMPORTiert%qs ist ein ungültiges Argument für %<-mcpu=%>%qs ist ein undurchsichtiger Typ, und Sie können ihn nicht auf andere Werte setzen%qs ist eine unbekannte Option für %<-save-temps%>%qs ist beschädigt%qs ist veraltet%qs ist veraltet und wird unter keinen Umständen empfohlen%qs ist veraltet; stattdessen -fno-zero-initialized-in-bss verwenden%qs ist veraltet; stattdessen -fstack-check verwenden%qs ist mit %qs unverträglich%qs verträgt sich nicht mit der Verwendung von Gleitkommatypen%qs verträgt sich nicht mit der Verwendung von Vektortypen%qs ist schmaler als die Werte seines Typsin der gepunkteten Zeichenkette bei %2$C ist %1$qs weder ein definierter Operator noch eine Strukturkomponente%qs ist kein konstanter Ausdruck, da %qT einen Zeiger-auf-Element-Typen enthält%qs ist kein konstanter Ausdruck, da %qT einen Zeigertyp enthält%qs ist kein konstanter Ausdruck, da %qT einen Referenztypen enthält%qs ist kein konstanter Ausdruck, da %qT einen union-Typen enthält%qs ist kein konstanter Ausdruck, da %qT ein %<volatile%>-Teilobjekt enthält%qs ist kein konstanter Ausdruck, da %qT ein Zeiger-auf-Element-Typ ist%qs ist kein konstanter Ausdruck, da %qT ein Zeigertyp ist%qs ist kein konstanter Ausdruck, da %qT ein Referenztyp ist%qs ist kein konstanter Ausdruck, da %qT ein union-Typ ist%qs ist kein konstanter Ausdruck, da %qT %<volatile%> ist%qs ist kein Verzeichnis%qs ist keine gcov-Datei%qs ist kein gültiges Basisregister in %<-mstack-protector-guard-reg=%>%qs ist in %qs kein gültiges Basisregister%qs ist keine gültige Zahl in %<-mstack-protector-guard-offset=%>%qs ist in %qs keine gültige Zahl%qs ist kein gültiger Offset in %<-mstack-protector-guard-offset=%>%qs ist in %qs kein gültiger Offset%qs ist keine gültige Präprozessoroption%qs ist keine Option, die Warnungen steuert%qs ist nicht als ein Typ definiert%qs wird von der Architektur %<%s%> nicht unterstützt%qs wird für 64-Bit-Darwin nicht unterstützt; es ist mit den installierten C- und C++-Bibliotheken unverträglich%qs wird auf diesem Ziel nicht unterstützt%qs wird von dieser Compiler-Konfiguration nicht unterstützt%qs wird in dieser Konfiguration nicht unterstützt%qs wird auf »little endian«-Systemen nicht unterstützt%qs wird auf diesem Ziel nicht unterstützt%qs wird mit %qs nicht unterstützt%qs wird mit den aktuellen Optionen nicht unterstütztungültiger Wert %qs für %<-mmacosx-version-min%>%qs ist für %qs ungültig%qs hat PRIVATE-Typ und kann kein Scheinargument von %qs bei %L sein, das PUBLIC ist%qs ist nur für den Cell-Prozessor gültig%qs hat Version %q.*s, Version %q.*s erwartetAusdruck für %qs-Länge muss ganzzahlig seinAusdruck für %qs-Länge muss ganzzahlig, positiv und konstant sein%qs-Matchingvariante ist veraltetpassende %qs-Variante erfordert z14 oder höherpassende %qs-Variante erfordert z15 oder höher%qs bei %L muss eine Modulprozedur oder eine externe Prozedur mit expliziter Schnittstelle sein%qs muss vom gleichen Typ und gleicher Art wie %qs bei %L in %qs sein%qs muss die erste Klausel von %qs sein%qs muss mit %qs verwendet werden%qs darf nicht bei %L in einer Feldspezifikation in der gleichen ALLOCATE-Anweisung auftreten, wo es selbst alloziert wird%qs erfordert ein gültiges Basisregister%qs ist außerhalb der STRUCTURE bei %C nicht erlaubt%qs nicht an Elementgrenze%qs wird vom Assembler nicht unterstützt%qs wird auf diesem Ziel nicht unterstützt%qs von %qs bei %L ist PRIVATEBei %3$C importiertes %1$qs von Modul %2$qs ist auch der Name der aktuellen ProgrammeinheitOperand von %qs ohne Modus-Genauigkeit%qs wird nur in OpenACC-Code unterstütztZeiger %qs ist nullDatei für Profilingzählerdaten %qs wurde nicht gefundenEigenschaft %qs kann nicht gesetzt werden%qs erfordert %qs%qs erfordert %qs oder %qs%qs erfordert ISA 3.0 IEEE 128-Bit-Gleitkommazahlen%qs erfordert PowerPC64-Architektur, wird eingeschaltet%qs erfordert VSX-Unterstützung%qs erfordert ein Ziel, das den %qs-Befehl unterstützt%qs erfordert sprungwahrscheinliche Befehle%qs erfordert vollständige Unterstützung von ISA 2.06%qs erfordert vollständige Unterstützung von ISA 3.0%qs erfordert die Optionen %qs (oder neuer), sowie %qs oder %qs%qs erfordert die Optionen %qs und %qs%qs erfordert die Option %qs%qs erfordert das ELFv2-ABI.%qs sollte von einem Skalar auf einen gleichartigen Vektor abbildendurch %qs angegebene Grenze %s überschreitet die maximale Objektgröße %Edurch %qs angegebene Grenze %s überschreitet die Größe %E des nicht abgeschlossenen Arraysdurch %qs angegebene Grenze %s überschreitet die Maximalgröße %E des nicht abgeschlossenen Arraysdurch %qs angegebene Grenze %s überschreitet möglicherweise die Maximalgröße %E des nicht abgeschlossenen Arrays%qs für »auto«-Variable %qE angegeben%qs für Parameter %qE angegeben%qs für Strukturfeld angegeben%qs für Strukturfeld %qE angegeben%qs für unbenannten Parameter angegeben%qs mit %<decltype%> angegeben%qs mit %<typeof%> angegeben%qs mit %qT angegeben%qs gibt eine widersprüchliche Stufe der Parallelität an%qs-Symbol %q+D muss statische Bindung haben%qs-Symbol %q+D zielt letztendlich auf sich selbst abMarkierung %qs bei Benennung von %q#T verwendet%qs wird in dieser ABI nicht unterstützt%qs mit %qE verwendet%qs verwendet dynamische Stapelanforderung%qs verwendet Register r29Wert %qs muss positiv seinVariable %qs ist weder Zeiger noch ArrayVariable %qs ist weder Zeiger noch Referenz auf ZeigerVariable %qs ist weder Zeiger noch Array noch Referenz auf Zeiger oder ArrayVariable %qs muss ein Zeiger sein%qs mit immer falscher Bedingung%s: [%u] Falsches %<next_regno%> für leere Kette (%u)%s: [%u] Falsches %<oldest_regno%> (%u)%s: [%u] Nicht leeres Register in Kette (%s %u %i)%s: Zyklus in %<next_regno%>-Kette (%u)%r%s:%d:%R   %r%s:%d:%R   [ %d Instanziierungskontexte werden übersprungen, »-ftemplate-backtrace-limit=0« zum Ausschalten verwenden ]
%r%s:%d:%R   in %<constexpr%>-Ersetzung von %qs%r%s:%d:%d:%R   %r%s:%d:%d:%R   [ %d Instanziierungskontexte werden übersprungen, »-ftemplate-backtrace-limit=0« zum Ausschalten verwenden ]
%r%s:%d:%d:%R   in %<constexpr%>-Ersetzung von %qs%s%s
%s ist identisch mit %s.»%s !$ACC LOOP«-Schleifen bei %L nicht perfekt geschachtelt%s %#qD%s %#qS%s %<%s%.*s%> erwartet ein passendes Argument %<%T%s%>%s %<%s%.*s%> erwartet ein passendes Argument %<%s%s%>%s %<%s%.*s%> erwartet Argumenttyp %<%T%s%>, aber Argument %d hat Typ %qT%s %<%s%.*s%> erwartet Argumenttyp %<%s%s%>, aber Argument %d hat Typ %qT%s %<%s(%E)%> %p %d»%s %E« implementiert das Protokoll %qE nicht vollständig%s %qs%s-%qs-Konstrukt innerhalb einer %s-%qs-Region%s %qs ist ein ungültiges Argument für eingebaute Funktion %qs%s %s %p %d%s %s%s
»%s« %wd ist außerhalb des gültigen Bereichs von %wd bis %wd%s: »%s«
%s – %u-Bit-Ganzzahlen werden nicht unterstützt (Modus %qs)%s – Komplexe Gleitkommazahlen mit %u Bit Genauigkeit werden nicht unterstützt (Modus %qs)%s – Dezimale Gleitkommazahlen mit %u Bit Genauigkeit werden nicht unterstützt (Modus %qs)%s – Gleitkommazahlen mit %u Bit Genauigkeit werden nicht unterstützt (Modus %qs)nicht unterstützter Modus %2$qs für %1$qsArgument »%s« für IMAGE_INDEX muss Feld mit Rang 1 bei %L sein%s bei %C ist eine DEC-Erweiterung, muss mit %<-fdec%> eingeschaltet werden%s bei %C ist eine DEC-Erweiterung, muss mit %<-fdec-static%> eingeschaltet werden%s bei %C ist eine DEC-Erweiterung, muss mit %<-fdec-structure%> eingeschaltet werden%s bei %L%s bei %L ist eine DEC-Erweiterung, muss mit %<-fdec-static%> eingeschaltet werden%s bei %L muss INTEGER sein%s bei %L muss skalar sein%s bei %L muss ganzzahlig seinAttribut %s auf %s %s bei %L angewendetAttribut %s bei %L ist außerhalb des Spezifikationsabschnitts eines Moduls nicht erlaubtAttribut %s steht mit Attribut %s bei %L in KonfliktAttribut %s steht mit Attribut %s in %qs bei %L in KonfliktAttribut %s ungültig in BLOCK DATA - Programmeinheit bei %LAttribut %s von %qs steht mit Attribut %s bei %L in Konflikt%s zwischen %L und %L%s zwischen der MODULE-PROCEDURE-Deklaration in Modul %qs und der Deklaration bei %L in (SUB)MODULE %qs%s kann bei %L keine DO-CONCURRENT-Schleife sein%s kann weder DO WHILE noch DO sein, ohne Schleifensteuerung bei %L»%s« kann nicht hier in %<asm%> verwendet werdenKlausel %s bei %L erfordert einen skalaren INTEGER-Ausdruck%s-Klausel-Variable %qs bei %L ist weder Zeiger- noch FeldtypZusammengefallene »%s«-Schleifen formen bei %L keinen rechteckigen Wiederholungsraum%s steht in Konflikt mit i386 (arch-Flags werden ignoriert)%s steht in Konflikt mit ppc (arch-Flags werden ignoriert)%s steht in Konflikt mit ppc64 (arch-Flags werden ignoriert)%s steht in Konflikt mit x86_64 (arch-Flags werden ignoriert)%s enthält zu viele Zeilen»%s« hat keinen Standardinitialisierer%s unterstützt %%n$-Operandennummerformate nicht%s unterstützt %s nicht%s unterstützt %s mit dem Format %<%%%c%> %s nichtInterner Fehler: %s does not support block_ends_with_call_pInterner Fehler: %s does not support block_ends_with_condjump_pInterner Fehler: %s does not support can_duplicate_block_pInterner Fehler: %s does not support can_merge_blocks_pInterner Fehler: %s does not support can_remove_branch_pInterner Fehler: %s does not support create_basic_blockInterner Fehler: %s does not support delete_basic_blockInterner Fehler: %s does not support dump_bb_for_graphInterner Fehler: %s does not support duplicate_blockInterner Fehler: %s does not support flow_call_edges_addInterner Fehler: %s does not support force_nonfallthruInterner Fehler: %s does not support make_forwarder_blockInterner Fehler: %s does not support merge_blocksInterner Fehler: %s does not support move_block_afterInterner Fehler: %s does not support predict_edgeInterner Fehler: %s does not support predicted_by_pInterner Fehler: %s does not support redirect_edge_and_branchInterner Fehler: %s does not support redirect_edge_and_branch_forceInterner Fehler: %s does not support split_blockInterner Fehler: %s does not support split_edge%s unterstützt das Format %<%%%c%> für %s nicht%s unterstützt das Format %<%%%s%c%> für %s nicht%s unterstützt den Längenmodifizierer %qs für %s nicht%s akzeptiert keine Featureoptionen%s erwartet eine Ganzzahlkonstante zur Kompilierzeit%s erwartet eine Long-Ganzzahlkonstante als erstes Argument zur KompilierzeitAusdrucksliste für »%s« wird als zusammengesetzten Ausdruck behandelt%s aus %s wird in %s aufgerufen%s aus %s wird in %s referenziert»%s«-Funktionen können nicht abstrakt sein%s ignoriert mit %s und Format %<%%%c%> für %s%s ignoriert mit %s im Format für %s»%s« verträgt sich nicht mit %<-mword-relocations%>%s-Befehle sind in Funktionen mit %<no_caller_saved_registers%>-Attribut nicht erlaubt%s-Befehle sind in Exception-Serviceroutine nicht erlaubt%s-Befehle sind in Interrupt-Serviceroutine nicht erlaubt%s wird von dieser Konfiguration nicht unterstützt%s-Iterationsvariable bei %L muss vom Typ integer sein%s-Iterationsvariable bei %L darf nicht THREADPRIVATE sein%s-Iterationsvariable bei %L an anderer Klausel als PRIVATE oder LASTPRIVATE gefunden%s-Iterationsvariable bei %L an anderer Klausel als PRIVATE, LASTPRIVATE oder LINEAR gefundendie Methode »%s« ist nicht virtuell und kann daher nicht »override« sein»%s« muss eine Funktion sein statt »%s«%s bei %L muss mindestens eine MAP-Klausel enthalten%s-Namensraum %qD widerspricht der Erreichbarkeits-Definition%s wird für Aggregattypen mit variabler Länge nicht unterstützt%s wird auf diesem Ziel nicht unterstützt%s unterstützt nicht-PIC-Code nur auf M-Profil-Zielen%s unterstützt nicht-PIC-Code nur auf M-Profil-Zielen mit dem MOVT-Befehl%s außerhalb des Wertebereiches: Bereich ist %i bis %i, Wert ist %iProzedur %s bei %L ist bereits als Prozedur %s deklariert%s-Prozedur bei %L ist bereits als %s-Prozedur deklariert.
F2008: Eine Zuweisung an eine Zeigerfunktion ist mehrdeutig, wenn dies die erste Anweisung nach dem Spezifikationsblock ist. Bitte fügen Sie davor irgend eine andere ausführbare Anweisung ein. FIXME (steht so im englischen Original.)%s gab Ende-Status %d zurückSignal %s hat Programm %s beendet%s-Angabe bei %L ist in OPEN-Anweisung nicht erlaubt für unformatierte Ein-/AusgabeSpezifizierer %s in Anweisung %s bei %L hat ungültigen Wert %qsSpezifizierer %s in Anweisung %s bei %L hat Wert %qsAnweisung %s bei %C kann nicht auf Anweisung %s bei %L folgenAnweisung %s bei %C kann keine DO-Schleife ohne Block beendenAnweisung %s bei %C folgt einer anderen ZugriffsspezifikationAnweisung %s bei %C in PURE-ProzedurAnweisung %s bei %C nicht auf Konstrukt %qs anwendbarAnweisung %s bei %C ist nicht innerhalb eines KonstruktsAnweisung %s bei %C nicht innerhalb des Konstrukts %qsAnweisung %s bei %C hinterlässt CRITICAL-KonstruktAnweisung %s bei %C hinterlässt DO CONCURRENT-KonstruktAnweisung %s bei %C verlässt OpenACC-strukturierten BlockAnweisung %s bei %C verlässt OpenMP-strukturierten Block%s-Anweisung bei %L erwartet%s-Anweisung ist innerhalb von BLOCK DATA bei %C nicht erlaubt%s-Anweisung ist innerhalb eines BLOCKs bei %C nicht erlaubtAnweisung %s muss in einem MODULE auftreten%s-Anweisung in PURE-Prozedur bei %C nicht erlaubtZeichenkette für %s falsch geformt
%s-SymbolMarkierung %s bei %L muss Standard-Zeichenkette seinMarkierung %s bei %L muss vom Typ %s seinMarkierung %s bei %L muss ein Skalar sein%s-Symbol mit INQUIRE%s mit Signal %d [%s]%s beendet%s verwendet mit Format %<%%%c%> %s%s wird innerhalb von %%<…%%> verwendet»%s«-Variable %qE ist im äußeren Kontext »private«%s%#qD%s%#qD (gelöscht)%s%#qD (in der Nähe der Übereinstimmung)%s%#qD (umgekehrt)%s%#qD (umgeschrieben)%s%<%D(%T)%> (eingebaut)%s%<%D(%T, %T)%> (eingebaut)%s%<%D(%T, %T, %T)%> (eingebaut)%s%qT (Umwandlung)%s%qs%s ist ungültig%s%qs%s ist nicht erlaubt%s%s%s %sVersion %s (%s)
%s	kompiliert von GNU-C-Version %s, %s%s%s %sVersion %s (%s) kompiliert von CC, %s%sGGC-Heuristik: --param ggc-min-expand=%d --param ggc-min-heapsize=%d
%s%sWarnung: %s-Header-Version %s unterscheidet sich von Bibliotheksversion %s.
%s-%s ist ein leerer Bereich%s: %<-fcompare-debug%> ist fehlgeschlagen%s: %<-fcompare-debug%> ist fehlgeschlagen (Länge)%s: %d Basis-Blöcke und %d Kanten/Basis-Blöcke%s: %d Basisblöcke und %d Register; erhöhen Sie %<--param max-gcse-memory%> auf mehr als %wu%s: %m%s: %s%s: %s-Compiler ist auf diesem System nicht installiert%s: %s: %s%s: In Instanziierung von %q#D:
%s: In Ersetzung von %qS:
%s: PCH-Datei war ungültig%s: Alle Warnungen werden als Fehler behandelt%s: Versuch, Spezifikation %qs in bereits definierte Spezifikation %qs umzubenennen%s kann nicht als COFF-Datei geöffnet werden%s: Größe der Vergleichs-Prüfdatei %s konnte nicht ermittelt werden%s: Vergleichs-Prüfdatei %s konnte nicht geöffnet werden%s: PCH-Datei konnte nicht geöffnet werden: %m%s: Linker-Eingabedatei nicht gefunden: %m%s: Eingabedatei des Linkers unbenutzt, da das Linken nicht durchgeführt wird%s: keine COFF-Datei%s: section %s.%d is missing%s: Einige Warnungen werden als Fehler behandelt%s:%d: durch frühere Fehler verwirrt, Abbruch
%s:%s: %E: %E%s: »%s« hat Bögen vom Eintrittsblock
%s: »%s« hat Bögen zum Eintrittsblock
%s: Eintrag und/oder Exit-Blöcke fehlen in »%s«
%s: bereits gesehene Blöcke für »%s«
%s: kann nicht geöffnet werden, wird als nicht ausgeführt vermutet
%s:Hinweis-Datei kann nicht geöffnet werden
%s: beschädigt
%s: Graph ist für »%s« unlösbar
%s: keine Funktionen gefunden
%s: keine Zeilen für »%s«
%s: keine gcov-Datei
%s:keine gcov-Hinweis-Datei
%s: übergelaufen
%s: Profil passt nicht für »%s«
%s:Quelldatei ist neuer als Hinweis-Datei »%s«
%s: Marke passt nicht zur Hinweis-Datei
%s: Version »%.4s«, aber »%.4s« wird bevorzugt
%s: Version »%.4s«, aber Version »%.4s« wird bevorzugt
%u Name für strukturelle Bindung angegeben%u Namen für strukturelle Bindung angegeben«» «-Kennzeichen»!«-Kennzeichen»#«-Kennzeichen»%%%c« ist kein gültiger Operandenpräfix»%%&« ohne lokale dynamische TLS-Referenzen verwendet»%%l«-Operand ist keine MarkeDie Datei »%s« wird bereits verarbeitet
»%s« muss %d Operanden haben (außer match_dups)»%s« muss mindestens %d Operanden haben (außer match_dups)»%s« darf höchstens %d Operanden haben (außer match_dups)»'«-Kennzeichen»(«-Kennzeichen»+«-Kennzeichen»-«-Kennzeichen»0«-Kennzeichen»B«-Operand hat mehrere gesetzte Bits»B«-Operand ist nicht konstant»E«-Modifizierer»I«-Kennzeichen»O«-Modifizierer»^«-Kennzeichen»_«-Kennzeichen»a«-Kennzeichen»m«-Kennzeichen»o«-Operand ist nicht konstant»q«-Kennzeichen(%s) ist falsch(C)(Obsolet nach 10.3.9)	MH_NOPREFIXBINDING festlegen, in einer ausführbaren Datei.(Obsolet nach 10.4)	MH_NOMULTIDEFS festlegen, in einem übergeordneten Framework.(Obsolet nach 10.4) -multiply_defined <Behandlung>	Bot einen Mechanismus zur Warnung vor Symbolen, die in mehreren Dylibs definiert sind.(Obsolet nach 10.4) -multiply_defined_unused <Behandlung>	Bot einen Mechanismus zur Warnung vor Symbolen, die in der aktuellen ausführbaren Datei definiert sind, die auch in verknüpften Dylibs definiert sind.(Obsolet nach 10.4) Multi-Module werden seit macOS 10.4 zur Laufzeit ignoriert.(Veraltet und unberücksichtigt von ld64)	Ob ld eine ausführbare Datei erzeugen soll (nur von ld_classic umgesetzt).(Obsolet)	Dies ist der Vorgabewert.(Obsolet) -sectobjectsymbols <Segmentname> <Abschnittsname>	Das Festlegen eines lokalen Symbols am Anfang eines Abschnitts wird nicht mehr unterstützt.(Obsolet) -sectorder <Segmentname> <Abschnittsname> <Reihenfolgedatei>	Wurde ersetzt durch die allgemeinere Option »-order_file«.(Obsolet) Erlaubte das Verlinken mit »-flat_namespace« fortzusetzen, wenn ein verlinktes Bundle ein Symbol enthält, das ebenfalls aus der Hauptausführungsdatei exportiert wurde.(Obsolet) Aktuelle Linker entfernen diese Elemente nie, daher wird diese Option nicht benötigt.(Obsolet) LD_PREBIND wird nicht mehr unterstützt.(Veraltet) Objektdateien mit LINKEDIT-Abschnitten werden nicht mehr unterstützt.(Obsolet) Dies ist der Vorgabewert.(Veraltet, ignoriert)	Alte Unterstützung, ähnlich wie »whyload«.(Obsolet, nur ld_classic) -sectcreate <Segmentname> <Abschnittsname> <Datei>	Hat erlaubt, einen Abschnitt aus einer Datei zu erstellen.(Obsolet, nur ld_classic) -seg_addr_table_filename <Pfad>.(ein Zeiger auf ein Element kann nur mit %<»&%E%> erzeugt werden)(eine Initialisierung außerhalb der Klasse ist erforderlich)(anonymer Namensraum)(anonym)(wenn das nicht beabsichtigt war, stellen Sie sicher, dass das Funktions-Template bereits deklariert wurde, fügen Sie %<<>%> hier hinter dem Funktionsnamen ein)(bei Verwendung von %<-fpermissive%>, %<-std=c++11%> oder %<-std=gnu++11%> wird G++ den Code akzeptieren)(mit %<-fpermissive%> wird G++ den Code akzeptieren, aber die Verwendung eines nicht deklarierten Namens ist veraltet)(bei Nachrichten ohne eine übereinstimmende Methodensignatur wird angenommen, dass sie %<id%> zurückgeben und %<...%> als Argumente akzeptieren)(nahe der Initialisierung für %qs)(kein Argument)(vielleicht war %<typename %T::%E%> beabsichtigt)(vielleicht fehlt ein Semikolon hinter der Definition von %qT)(Es sollte also %qT statt %qT an %<va_arg%> übergeben werden)(statische Destruktoren für %s)(statische Initialisierungen für %s)(die Meldung wird pro Quelldatei nur einmal angezeigt)
({anonym})*** WARNUNG *** es gibt aktive Plugins – bitte Fehler nur dann melden, wenn diese auch ohne alle Plugins reproduziert werden können.
*this--help=<Klasse>	Beschreibungen für eine bestimmte Klasse von Optionen anzeigen. <Klasse> ist ein oder mehrere Elemente aus optimizers, target, warnings, undocumented, param.--param inline-unit-growth: Limit erreicht--param large-function-growth: Limit erreicht--param large-stack-frame-growth: Limit erreicht--param max-inline-insns-auto: Limit erreicht--param max-inline-insns-single: Limit erreicht--param=evrp-mode=[legacy|ranger|legacy-first|ranger-first|ranger-trace|ranger-debug|trace|debug] Gibt an, in welchem Modus Early-VRP arbeiten soll.--param=openacc-kernels=[decompose|parloops]	Modus, in dem OpenACC-»kernels«-Konstrukte verarbeitet werden.--param=parloops-schedule=[static|dynamic|guided|auto|runtime]	Art des OMP-Zeitplans für Schleifen, die durch parloops parallelisiert werden.-A<Frage>=<Antwort>	Die <Antwort> auf eine <Frage> annehmen. Angabe von »-« vor <Frage> schaltet die <Antwort> auf <Frage> aus.-D<Makro>[=<Wert>]	Ein <Makro> mit <Wert> definieren. Wenn nur <Makro> angegeben wird, wird <Wert> auf 1 gesetzt.»-E« oder »-x« benötigt, wenn die Eingabe von der Standardeingabe kommt-F <Verz>	<Verz> an das Ende des Haupt-Einfügepfades des Frameworks anfügen.-G<Anzahl>	Globale und statische Daten kleiner als <Anzahl> Bytes in einen gesonderten Abschnitt legen (bei manchen Zielarchitekturen).-Hd <Verz>	D-Schnittstellen-Dateien in Verzeichnis <Verz> schreiben.-Hf <Datei>	D-Interface in <Datei> schreiben.-I <Verz>	<Verz> an das Ende des Haupteinfügepfades anfügen.-J<Verzeichnis>	MODULE-Dateien in »Verzeichnis« ablegen.-MF <Datei>	Abhängigkeiten in angegebene Datei schreiben.-MQ <Ziel>	Ziel hinzufügen, das möglicherweise Anführungszeichen benötigt.-MT <Ziel>	Ziel hinzufügen, das keine Anführungszeichen benötigt.-O<Zahl>	Optimierungsstufe auf <Zahl> setzen.-U<Makro>	<Makro>-Definition aufheben.-Waligned-new=[none|global|all]	Selbst dann warnen, wenn »new« Klassenelementfunktionen zur Speicherreservierung verwendet.-Walloc-size-larger-than=<Bytes>	Bei Aufrufen von Allozierungsfunktionen warnen, mit denen Objekte erzeugt werden, die größer als »Bytes« sind.-Walloca-larger-than=<Anzahl>	Bei Aufrufen von alloca warnen, deren Größe unbeschränkt ist oder deren Größe zwar beschränkt ist, aber mehr als <Anzahl> Bytes betragen kann.-Wframe-larger-than=<Größe>	Warnen, wenn der Stapelrahmen einer Funktion mehr als <Größe> Bytes benötigt.-Wlarger-than=<Anzahl>	Warnen, wenn ein Objekt größer als <Anzahl> Bytes ist.-Wnormalized=[none|id|nfc|nfkc]	Bei nicht-normalisierten Unicode-Zeichenketten warnen.-Wstack-usage=<Größe in Bytes>	Warnen, wenn Stapelverwendung den angegebenen Betrag überschreiten könnte.-Wvla-larger-than=<Anzahl>	Bei unbeschränkten Verwendungen von Arrays variabler Länge warnen, und bei Verwendung von Arrays variabler Länge, wenn die Länge <Anzahl> überschreiten kann.»-Xbind-now« und »-Xbind-lazy« sind unverträglich-Xf <Datei>	JSON-Ausgabe in die angegebene <Datei> schreiben.-allowable_client <Name>	Die ausgegebene dylib ist nur vom Client <Name> verwendbar.-arch <Name>	Ausgabedatei für die Architektur <Name> erzeugen.-aux-info <Datei>	Deklarationsinformationen in <Datei> ausgeben.»-bundle« ist nicht mit »-dynamiclib« erlaubt-bundle_loader <Ausführbar>	Die ausführbare Datei <Ausführbar> (die dieses Bundle laden wird) so behandeln, als sei sie eine der dynamischen Bibliotheken, gegen die das Bundle für Symbolauflösung gebunden ist.»-bundle_loader« ist nicht mit »-dynamiclib« erlaubtFür Ada wird »-c« oder »-S« benötigtFür gnat2scil wird -c benötigtFür gnat2why wird »-c« benötigt-client_name <Name>	Erlauben, dass die erzeugte ausführbare Datei gegen die private Dylib gebunden werden darf (mit allowable_client).»-client_name« ist nicht mit »-dynamiclib« erlaubt-compatibility_version <Nummer>	Minimale Version für das Client-Interface festlegen. Clients müssen diese <Nummer> oder eine größere angeben, oder das Binden wird zur Laufzeit fehlschlagen.-current_version <Nummer>	Aktuelle Version für die Bibliothek auf <Nummer> festlegen.»-current_version« ist nur mit »-dynamiclib« erlaubt-d<Buchstaben>	Ausgaben von bestimmten Durchläufen des Compilers einschalten.-dumpbase <Datei>	Den Basis-Dateinamen für Ausgaben setzen.-dumpbase-ext .<Erw>    Die Dateinamenserweiterung .<Erw> weglassen, beim Benennen der hilfsweisen Ausgabedateien.-dumpdir <Verzeichnis>	Den Basis-Verzeichnisnamen für Ausgaben setzen.-dylinker_install_name <Pfad>	Wird nur verwendet, um dyld zu bauen.-exported_symbols_list <Dateiname>	Globale Symbole in <Dateiname> werden aus der gelinkten Ausgabedatei exportiert, alle nicht erwähnten Symbole werden als versteckt behandelt.-f%s ignoriert (nicht für DJGPP unterstützt)
-fada-spec-parent=Einheit	Ada-Spezifikationen als Kind-Einheiten der angegebenen Elterneinheit ausgeben.-faligned-new=<N>	Überausgerichtete Typallozierung aus C++17 für Typen mit Ausrichtung größer N verwenden.-fasan-shadow-offset=<Zahl>	Spezifischen Offset für Schattenspeicher verwenden.-fblas-matmul-limit=<n>	Größe der kleinsten Matrix, für die matmul BLAS verwendet.-fbounds-check=[on|safeonly|off]	Array-Grenzprüfungen einschalten, nur in @safe-Code, oder ausschalten.-fcall-saved-<Register>	<Register> als über Funktionsgrenzen hinweg reserviert markieren.-fcall-used-<Register>	<Register> als durch Funktionsaufrufe beschädigt markieren.-fcf-protection=[full|branch|return|none|check]	Funktionen mit zusätzlichen Prüfungen versehen, dass die Sprungziele von jump/call/return gültig sind.-fcheck=[...]	Durchgeführte Laufzeitprüfungen.-fcoarray=<none|single|lib>	Angeben, welche Koarray-Parallelisierung verwendet wird.-fcompare-debug[=<Optionen>]	Mit und ohne z.B. -gtoggle kompilieren, und den Dump der »final-insns« vergleichen.-fconst-string-class=<Name>	Klasse <Name> für konstante Zeichenketten verwenden.-fconstexpr-cache-depth=<Zahl>	Größte Rekursionstiefe des Caches für konstante Ausdrücke festlegen.-fconstexpr-depth=<Zahl>	Größte Rekursionstiefe für konstante Ausdrücke angeben.-fconstexpr-loop-limit=<Anzahl>	Höchstzahl der Schleifeniterationen für »constexpr« angeben.-fconstexpr-ops-limit=<Anzahl>	Höchstzahl der constexpr-Operationen pro einzelner »constexpr« angeben.-fconvert=<big-endian|little-endian|native|swap>	Die Endianess, die für unformatierte Dateien verwendet wird.-fdbg-cnt=<Zähler>[:<Untere Grenze 1>-]<Obere Grenze 1>[:<Untere Grenze 2>-<Obere Grenze 2>:...][,<Zähler>:...]	Obergrenze für Debug-Zähler festlegen.-fdebug-prefix-map=<alt>=<neu>	In Fehlersuchinfo einen Verzeichnisnamen auf einen anderen abbilden.-fdebug=<Stufe|Ident>	Debugging-Code der Stufe <= <Stufe> eincompilieren, oder durch <Ident> gekennzeichneten Code.-fdiagnostics-color=[never|always|auto]	Diagnosemeldungen einfärben.-fdiagnostics-column-origin=<Nummer>	Legt die Nummer der ersten Spalte fest. Die Vorgabe ist gemäß GNU-Stil 1-basiert, aber einige Dienstprogramme erwarten 0-basierte Spaltennummern.-fdiagnostics-column-unit=[display|byte]	Festlegen, ob Spaltennummern als Anzeigespalten (Standard) ausgegeben werden oder in rohen Bytes gemessen werden.-fdiagnostics-format=[text|json]	Ausgabeformat auswählen.-fdiagnostics-show-location=[once|every-line]	Wie oft die Quelltext-Position am Zeilenanfang ausgegeben wird, wenn die Diagnose über mehrere Zeilen geht.-fdiagnostics-urls=[never|always|auto]	URLs in Diagnosemeldungen einbetten.-fdisable-[tree|rtl|ipa]-<Durchgang>=range1+range2	Einen Optimierungsdurchgang ausschalten.-fdoc-dir=<Verz>	Dokumentationsdatei in Verzeichnis <Verz> schreiben.-fdoc-file=<Datei>	Dokumentation in <Datei> schreiben.-fdoc-inc=<Datei>	Eine Ddoc-Makro-Datei <Datei> inkludieren.-fdump-<type>	Verschiedene compilerinterne Informationen in eine Datei abziehen.-fdump-final-insns=<Datei>	Die Befehle am Ende der Übersetzung in Datei abziehen.-fdump-go-spec=<Datei>	Alle Deklarationen als Go-Code in <Datei> schreiben.-femit-struct-debug-baseonly	Aggressiv reduzierte Debuginfo für Strukturen.-femit-struct-debug-detailed=<spec-list>Ausführliche reduzierte Debuginfo für Strukturen.-femit-struct-debug-reduced	Konservativ reduzierte Debuginfo für Strukturen.-fenable-[tree|rtl|ipa]-<Durchgang>=range1+range2	Einen Optimierungsdurchgang einschalten.-fexcess-precision=[fast|standard]	Behandlung überschüssiger Gleitkommagenauigkeit bestimmen.-fexec-charset=<Zeichensatz>	Alle Zeichenketten und Zeichenkonstanten in <Zeichensatz> umwandeln.-ffile-prefix-map=<alt>=<neu>	In Übersetzungsergebnis einen Verzeichnisnamen auf einen anderen abbilden.-ffixed-<Register>	<Register> als für den Compiler nicht verfügbar markieren.-ffixed-line-length-<n>	Im festen Modus n als Zeilenlänge verwenden.-ffp-contract=[off|on|fast]	Schrumpfung von Gleitkommaausdrücken durchführen.-ffpe-summary=[…]	Zusammenfassung für Gleitkommaausnahmen ausgeben.-ffpe-trap=[…]	Bei folgenden Gleitkommaausnahmen anhalten.-ffixed-line-length-<n>	Im freien Modus n als Zeilenlänge verwenden.-fgnat-encodings=[all|gdb|minimal]	Gleichgewicht zwischen GNAT-Encodings und Standard-DWARF auswählen, die in den Debuginformationen landen.-fgo-c-header=<Datei>	Go-struct-Definitionen als C-Code in <Datei> schreiben.-fgo-debug-escape-hash=<Zeichenkette>	Hashwert zum Debuggen der Escape-Analyse.-fgo-dump-<Typ>	Interne Information des Go-Frontends in Datei ausgeben.-fgo-embedcfg=<Datei>	Eingebettete Dateien über go:embed auflisten.-fgo-optimize-<type>	Optimierungsdurchläufe im Frontend einschalten.-fgo-pkgpath=<Zeichenkette>	Go-Paketpfad festlegen.-fgo-prefix=<Zeichenkette>	Paketspezifisches Präfix für exportierte Go-Namen festlegen.-fgo-relative-import-path=<Pfad>	Relativen Import als relativ zum Pfad behandeln.-finit-character=<n>	Lokale Zeichenvariablen auf ASCII-Wert n initialisieren.-finit-integer=<n>	Lokale Ganzzahlvariablen auf n initialisieren.-finit-logical=<true|false>	Lokale logische Variablen initialisieren.-finit-real=<zero|nan|inf|-inf>	Lokale Real-Variablen initialisieren.-finline-arg-packing	Argumentpacken inline durchführen.-finline-limit=<Zahl>	Größe von »inline«-Funktionen auf <Zahl> beschränken.-finline-matmul-limit=<n>	Größe der größten Matrix, für die matmul geinlinet wird.-finput-charset=<Zeichensatz>	Standard-Zeichensatz für Quelldateien angeben.-finstrument-functions-exclude-file-list=filename,…	In den Dateien aufgezählte Funktionen nicht instrumentieren.-finstrument-functions-exclude-function-list=name,…	Aufgezählte Funktionen nicht instrumentieren.-fira-algorithm=[CB|priority]	Verwendeten IRA-Algorithmus festlegen.-fira-region=[one|all|mixed]	Regionen für IRA festlegen.-fira-verbose=<Zahl<	Stufe der IRA Diagnosemeldungen steuern.-flive-patching=[inline-only-static|inline-clone]	Funktionsübergreifende Optimierung steuern, um für Live-Patching geeigneten Code zu erzeugen. Bietet gleichzeitig mehrstufige Kontrolle bezüglich der ausgewählten funktionsübergreifenden Optimierungen.-flto-compression-level=<Stufe>	zlib/zstd-Kompressionsstufe <Stufe> für IL verwenden.-fmacro-prefix-map=<alt>=<neu>	Einen Verzeichnisnamen auf einen anderen umschreiben in __FILE__, __BASE_FILE__ und __builtin_FILE().-fmax-array-constructor=<n>	Höchstzahl der Objekte in einem Feldkonstruktor.-fmax-errors=<Anzahl>	Höchstzahl der zu meldenden Fehler.-fmax-identifier-length=<n>	Größte Bezeichnerlänge.-fmax-stack-var-size=<n>	Größe des größten Feldes, das auf dem Stapel abgelegt wird, in Bytes.-fmax-subrecord-length=<n>	Größte Länge für Teildatensätze.-fmessage-length=<Anzahl>	Diagnosemeldungen auf <Anzahl> Zeichen pro Zeile beschränken. 0 unterdrückt Zeilenumbruch.-fmodule-file=<package.module>=<Dateiang>	Dateiangabe <Dateiang> als Quelldatei für <package.module> verwenden.-fno-threadsafe-statics	Keinen threadsicheren Code für Initialisierung lokaler statischer Objekte erzeugen.-foffload-abi=[lp64|ilp32]	Festlegen, welche ABI in einem Offload-Compiler verwendet wird.-foffload=<Ziele>=<Optionen>	Offloading-Ziele und deren Optionen angeben.-fopt-info[-<Typ>=Dateiname]	Optimierungsdetails des Compilers ausgeben.»-force_flat_namespace« ist nicht mit »-dynamiclib« erlaubt-fpack-struct=<Zahl>	Anfängliche größte Ausrichtung für Strukturelemente festlegen.-fpermitted-flt-eval-methods=[c11|ts-18661]	Angeben, welche Werte von FLT_EVAL_METHOD erlaubt sind.-fplugin-arg-<Name>-<Schlüssel>[=<Wert>]	Argument <Schlüssel>=<Wert> für Plugin <Name> angeben.-fprofile-reproducible=[serial|parallel-runs|multithreaded]	Stufe für die Reproduzierbarkeit des mit »-fprofile-generate« generierten Profils festlegen.-fprofile-update=[single|atomic|prefer-atomic]	Methode für Profilupdates festlegen.-framework <Name>	Das Framework <Name> im Pfad für Frameworks suchen.-frandom-seed=<Zeichenkette>	Übersetzung mit <Zeichenkette> reproduzierbar machen.-freorder-blocks-algorithm=[simple|stc]	Algorithmus zum Umordnen der Basisblöcke festlegen.-fsanitize-sections=<sec1,sec2,...>	Globale Variablen in benutzerdefinierten Abschnitten bereinigen.-fsanitize=address wird in dieser Konfiguration nicht unterstützt-fsched-stalled-insns-dep=<Zahl>	Abhängigkeitsentfernung für Prüfung in nicht ausgereifter Planung von eingereihten Befehlen festlegen.-fsched-stalled-insns=<Anzahl>	Anzahl der eingereihten Befehle festlegen, die unausgereift geplant werden können.-fsched-verbose=<Stufe>	Stufe der Wortfülle des Planers angeben.-fsimd-cost-model=[unlimited|dynamic|cheap|very-cheap]	Vektorisierungs-Kostenmodell angeben, das für mit einer SIMD-Direktive markierten Code verwendet wird.-fsso-struct=[big-endian|little-endian|native]	Standardspeicherreihenfolge für Skalare festlegen.-fstack-check=[no|generic|specific]	Code zur Stapelprüfung in das Programm einfügen.-fstack-limit-register=<Register>	Wenn der Stapel über <Register> hinausgeht, abfangen (»trap«).-fstack-limit-symbol=<Name>	Wenn der Stapel über das Symbol <Name> hinausgeht, abfangen (»trap«).-fstack-reuse=[all|named_vars|none]	Stufe der Stapel-Wiederverwendung für lokale Variablen festlegen.-ftabstop=<Zahl>        Abstand zwischen Tabstopps für Spaltenmeldungen.-ftemplate-depth=<Zahl>	Größte Template-Instanziierungstiefe angeben.-ftls-model=[global-dynamic|local-dynamic|initial-exec|local-exec]	Das standardmäßige Codeerzeugungsmodell für Thread-lokalen Speicher angeben.-ftrack-macro-expansion=<0|1|2>	Orte der aus der Makroersetzung entstehenden Token verfolgen und sie in Fehlermeldungen anzeigen.-ftree-parallelize-loops=<Anzahl>	Automatische Parallelisierung von Schleifen einschalten.-fuse-linker-plugin wird in dieser Konfiguration nicht unterstützt-fvect-cost-model=[unlimited|dynamic|cheap|very-cheap]	Kostenmodell für Vektorisierung angeben.-fversion=<Stufe|Ident>	Versionscode >= <Stufe> oder durch <Ident> gekennzeichneten Code mitcompilieren.-fvisibility=[default|internal|hidden|protected]	Standard-Symbolsichtbarkeit festlegen.-fvisibility=[private|protected|public|package]	Standard-Symbolsichtbarkeit festlegen.-fvtable-verify=preinit wird in dieser Konfiguration nicht unterstützt-fvtable-verify=std wird in dieser Konfiguration nicht unterstützt-fwide-exec-charset=<Zeichensatz>	Alle Wide-Zeichenketten und -konstanten in Zeichensatz <Zeichensatz> umwandeln.-gnat<Optionen>	Optionen für GNAT angeben.-gz wird in dieser Konfiguration nicht unterstützt-gz=<Format>	Komprimierte Debugabschnitte im Format <Format> erzeugen.-gz=zlib wird in dieser Konfiguration nicht unterstützt-idirafter <Verzeichnis>	<Verzeichnis> an das Ende des System-Einfügepfades anfügen.-iframework <Verz>	<Verz> an das Ende des Einfügepfades des System-Frameworks anfügen.-imacros <Datei>	Definition von Makros in <Datei> akzeptieren.-image_base <Adresse>	Basisadresse für eine Dylib oder ein Bundle festlegen.-imultiarch <Verzeichnis>	<Verzeichnis> als Multiarch-include-Verzeichnis festlegen.-imultilib <Verzeichnis>	<Verzeichnis> als Multilib-include-Verzeichnis setzen.-include <Datei>	Inhalt von <Datei> vor anderen Dateien einfügen.-init <Symbolname>	Das Symbol <Symbolname> wird als erster Initialisierer für eine Dylib verwendet.-install_name <Name>	Legt den Installationsnamen für eine Dylib fest.»-install_name« ist nur mit »-dynamiclib« erlaubt-iplugindir=<Verz>	<Verz> als Standard-Plugin-Verzeichnis festlegen.-iprefix <Pfad>	<Pfad> als ein Präfix für die nächsten zwei Optionen angeben.-iquote <Verzeichnis>	<Verzeichnis> am Ende des Einfügepfades für »#include "…"« anfügen.-isysroot <Verzeichnis>	<Verzeichnis> als System-Wurzelverzeichnis setzen.-isystem <Verzeichnis>	<Verzeichnis> an den Anfang des System-Einfügepfades anfügen.-iwithprefix <Verzeichnis>	<Verzeichnis> an das Ende des System-Einfügepfades anfügen.-iwithprefixbefore <Verz>	<Verz> an das Ende des Haupt-Einfügepfades anfügen.»-keep_private_externs« ist mit »-dynamiclib« nicht erlaubt-mabi=ABI	Code erzeugen, der zum angegebenen ABI passt.-mabs=MODUS	Den Modus für IEEE-754-ABS/NEG-Befehle auswählen.-march=	Code für die angegebene RISC-V-ISA (z.B. RV64IM) erzeugen. ISA-Zeichenketten müssen in Kleinbuchstaben angegeben werden.-march=ARCH	Code für die angegebene Chip- oder CPU-Version erzeugen.-march=ISA	Code für das gegebene ISA erzeugen.»-mas100-syntax« ist unverträglich mit »-gdwarf«»-mbig-endian« und »-mlittle-endian« dürfen nicht zusammen verwendet werden-mbranch-cost=KOSTEN	Sprungkosten auf ungefähr KOSTEN Befehle setzen.-mbranch-cost=N	Sprungkosten auf ungefähr N Befehle setzen.-mcall-ABI	ABI-Aufrufkonvention auswählen.-mcode-readable=SETTING	Angeben, wann Befehle zum Codezugriff erlaubt sind.»-mcode-region« benötigt das large-Speichermodell (»-mlarge«)-mcpu=	Eigenschaften der angegebenen CPU verwenden und entsprechend Code planen.-mcpu=CPU	Code für ARC-Variante CPU planen.-mcpu=CPU	Eigenschaften der angegebenen CPU verwenden und entsprechend Code planen.-mcpu=CPU		Eigenschaften der gegebenen CPU verwenden und entsprechend Code planen.-mcpu=PROZESSOR	Architektur von PROZESSOR verwenden und die Ausgabe dafür optimieren.-mcpu=m16c	Code für M16C-Varianten kompilieren.-mcpu=m32c	Code für M32C-Varianten kompilieren.-mcpu=m32cm	Code für M32CM-Varianten kompilieren.-mcpu=r8c	Code für R8C-Varianten kompilieren.»-mdata-region« benötigt das large-Speichermodell (»-mlarge«)-mdebug=	Ausgaben zur Fehlersuche einschalten.-mdouble=<Bits>	Einen <Bits> breiten Typ für »double« verwenden.-memregs=	Anzahl der Memreg-Bytes (Standard: 16, Bereich: 0..16).»-mfloat-abi=soft« und »-mfloat-abi=hard« dürfen nicht zusammen verwendet werden-mflush-func=FUNC	FUNC verwenden, um den Cache zu entleeren, bevor Stapel-Trampoline aufgerufen werden.-mhard-float wird nicht unterstützt-mipsN	Code für ISA Stufe N erzeugen.-mlarge-data-threshold=<Anzahl>	Daten größer als angegebener Schwellwert werden in .ldata-Abschnitt im x86-64 Medium-Modell gehen.-mlong-double=<Bits>	Einen <Bits> breiten Typ für »long double« verwenden.-mmax-stackframe=GRÖẞE	Warnen, wenn ein Stapelrahmen größer als die angegebene Größe ist.-mmcu=MCU	Die Ziel-MCU auswählen.-mmcu=MCU	Ziel-System-On-Chip-Variante auswählen, die diese PRU einbettet.-mmpy-option=MPY	ARCv2-Code mit einer Option für das Multiplizierer-Design kompilieren.-mnan=CODIERUNG	Datencodierung für IEEE-754-NaN angeben.-mno-serialize-volatile	»volatile«-Speicherreferenzen nicht mit MEMW-Befehlen serialisieren.-moverride=<Zeichenkette>	Nur für Powernutzer! CPU-Optimierungsparameter übersteuern.-mpointer-size=[no,32,short,64,long]	Standardgröße für Zeiger festlegen.-mr10k-cache-barrier=EINSTELLUNG	Angabe, wann r10k-Cachegrenzen eingefügt werden sollen.-msdata=[none,data,sysv,eabi]	Methode für sdata-Behandlung auswählen.-msim	Simulator-Laufzeitumgebung verwenden.»-msingle-float« und »-msoft-float« dürfen nicht zusammen angegeben werden-msmall-data-limit=N	Globale und statische Daten kleiner als <N> Bytes in einen gesonderten Abschnitt legen (bei manchen Zielarchitekturen).-mstack-size=<Anzahl>	Größe des privaten Segments pro Wellenfront festlegen, in Bytes.-msve-vector-bits=<Anzahl>	Anzahl der Bits in einem SVE-Vektorregister festlegen.-mtarget-linker <Version>	ld64 <Version> als Toolchain-Linker für den aktuellen Aufruf festlegen.-mtls-size=[16,32]	Bit-Breite des unmittelbaren TLS-Offsets angeben.»-mtpf-trace-hook-epilogue-check« erfordert eine Ganzzahl im Bereich 0..4095»-mtpf-trace-hook-epilogue-target« erfordert eine Ganzzahl im Bereich 0..4095»-mtpf-trace-hook-prologue-check« erfordert eine Ganzzahl im Bereich 0..4095»-mtpf-trace-hook-prologue-target« erfordert eine Ganzzahl im Bereich 0..4095-mtraceback=[full,part,no]	Art der Traceback-Tabelle wählen (vollständig, teilweise, keine).-mtune=	Code für die angegebene CPU planen.-mtune=ARCH	Ausrichtung für angegebene Chip- oder CPU-Version optimieren.-mtune=PROZESSOR	Ausgabe für PROZESSOR optimieren.-mcpu=TUNE	Code für angegebene ARC-Variante feintunen.%<-mx32%> wird unter Solaris nicht unterstützt-o <Datei>	Ausgabe in <Datei> schreiben.-pagezero_size <Größe>	Erlaubt es, die Größe der Seite 0 für bestimmte Sonderfälle auf 4 kB festzulegen.»-pg« und »-fomit-frame-pointer« sind unverträglich-pie wird in dieser Konfiguration nicht unterstützt»-private_bundle« ist mit »-dynamiclib« nicht erlaubt-read_only_relocs <Behandlung>	Dies ermöglicht Codeverschiebungen in schreibgeschützten Seiten (nicht ratsam).-sectalign <Segmentname> <Abschnittsname> <Wert>	Festlegen, dass der genannte Abschnitt im genannten Segment die genannte Ausrichtung hat. Die Ausrichtung muss eine Zweierpotenz in hexadezimaler Form sein.-sectcreate <Segmentname> <Abschnittsname> <Datei>	Den genannten Abschnitt im genannten Segment aus der angegebenen Datei erstellen.-seg_addr_table <Datei>	Basisadressen für dynamische Bibliotheken festlegen, <Datei> enthält eine Zeile für jede Bibliothek.-segaddr <Name> <Adresse>	Basisadresse des Segments <Name> auf <Adresse>festlegen. Die Adresse muss an einer Seitenbegrenzung ausgerichtet sein (derzeit 4 kB).-segprot <Segmentname> <Max-Schutz> <Init-Schutz>	Die Schutzwerte für virtuellen Speicher für das Segment <Segmentname> haben die maximalen und initialen Werte <Max-Schutz> und <Init-Schutz>. Als Werte sind »r«, »w«, »x« oder »-« möglich, letzteres bedeutet »kein Zugriff«.-segs_read_only_addr <Adresse>	Adresse des schreibgeschützten Teils einer Dylib festlegen.-segs_read_write_addr <Adresse>	Die <Adresse> als Basisadresse des Lese-/Schreibteils einer Dylib festlegen.-stdlib=[libstdc++|libc++]	Die Standardbibliothek, die für C++-Header und Laufzeit verwendet wird.-sub_library <Name>	Die Bibliothek <Name> wird wieder-exportiert (nur für Dylibs sinnvoll).-sub_umbrella <Name>	Das Framework <Name> wird wieder-exportiert (nur für Dylibs sinnvoll).-trigraphs	Trigraphen nach ISO C unterstützen.-umbrella <Framework>	Das angegebene Framework wird re-exportiert.-undefined <Auswirkung>	Auswirkung von undefinierten Symbolen festlegen (Vorgabewert ist »error«).-unexported_symbols_list <Datei>	Globale Symbole, die in <Datei> aufgelistet sind, nicht exportieren.-weak_reference_mismatches <Auswirkung>	Auswirkung von Symbol-Importkonflikten zwischen Dateien (schwach in der einen und nicht in der anderen) festlegen. Vorgabewert ist, das Symbol als nicht »weak« zu behandeln.… zur vorherigen %qs-Klausel hier… mit %qs-Klausel hier… ohne %qs-Klausel hier in der Nähe... folgt auf Parameter %P, der ein Defaultargument hat… diese Anweisung, aber letztere ist verwirrend eingerückt, als wäre sie abhängig von %qs.NOT.-Operator in Ausdruck bei %L muss einen LOGICAL-Operanden haben.XOR.-Operator bei %C/* Prototypen für externe Prozeduren, generiert aus %s
   von GNU Fortran %s%s.

   Die Verwendung dieser Schnittstelle wird nicht empfohlen,
   verwenden Sie besser das BIND(C)-Feature, das standardmäßig
   in Fortran angeboten wird. */

128-bit %<long double%> wird für VAX floats nicht unterstützt31-Bit-ABI.387-Befehlssatz ausgeschaltet, es wird SSE-Arithmetik verwendet64-Bit-ABI.64-Bit-ABI nicht unterstützt im ESA/390-ModusAufzählung kann nicht mit Klasse oder Zeiger auf »struct« initialisiert werden. Verwenden Sie eine »static const«-Variable stattdessen.; verwenden Sie stattdessen eine Zuweisung; verwenden Sie stattdessen eine Zuweisung oder Wertinitialisierung; verwenden Sie stattdessen eine Kopierzuweisung; verwenden Sie stattdessen eine Kopierzuweisung oder Kopierinitialisierung; verwenden Sie stattdessen eine Kopierinitialisierung; verwenden Sie stattdessen eine Wertinitialisierung<Während Initialisierung>
<anonym><geschweift geklammerte Initialisierungsliste><eingebaut><Kommandozeile><Deklarationsfehler>{Aufzählung}<fehlerhafter-Ausdruck><Ausdrucksfehler><lambda<lambda><fehlt><Rückgabewert> <Rückgabewert><Anweisung><strukturierte Bindungen><Markierungsfehler><Template-Argumente-Fehler><Template-Parameter-Fehler><throw-Ausdruck><Typfehler><Typ-Fehler><typedef-Fehler><Typpräfixfehler><ubsan-Unterprogramm-Aufruf><unbekannter Operator><unbekannt><unbenanntes %s><unbenannt-Festkomma:<unbenannt-Gleitkomma:<unbenannt-vorzeichenlos:<unbenannt><nicht-analysiert><unaufgelöster überladener Funktionstyp>Eine BOZ-Literalkonstante bei %L kann nicht als tatsächliches Argument in einer Funktionsreferenz verwendet werdenEine BOZ-Literalkonstante bei %L kann nicht als tatsächliches Argument in einer Unterprogrammreferenz erscheinenEin Faktor, um die obere Schranke des Swing-Modulo-Schedulers für Schleifenplanung einzustellen.Abschneiden von Gleitkomma- zu Ganzzahl darf durch Rundung ersetzt werden, um Modusumschaltung zu verhindern.Es wurde ein nicht standardmäßiger Satz von Anfangswerten angefordert, was gegen das ABI verstößtBei %C wird ein Parametername erwartetEin Synonym für -std=c89 (für C) oder -std=c++98 (für C++).Schwellwert für vom Swing-Modulo-Scheduler betrachteten Durchschnitts-Schleifen-Zähler.Bei %C wird eine Typparameterliste erwartetAAPCS unterstützt nicht %<-mcallee-super-interworking%>AAPCS unterstützt nicht %<-mcaller-super-interworking%>ABI für abgeflachte Struktur mit Bit-Feldern der Länge 0 hat wurde mit GCC 10 geändertABI erfordert %<-march=rv%d%>ABI-Varianten für Codeerzeugung (zur Verwendung mit der Option »-mabi=«):ABSTRACT INTERFACE %qs bei %L darf kein angenommenes Zeichenlängenergebnis haben (F2008: C418)ABSTRACT INTERFACE %qs darf bei %L nicht referenziert werdenABSTRACT INTERFACE bei %CABSTRACT-Typ %qs bei %L verwendetABSTRACT-Typ bei %Cletzter Ausdruck von AC-IMPLIED-DO referenziert Steuervariable bei %Lerster Ausdruck von AC-IMPLIED-DO referenziert Steuervariable bei %LSchrittausdruck von AC-IMPLIED-DO referenziert Steuervariable bei %LACC-CACHE-Direktive bei %C muss innerhalb einer Schleife seinACCESS-Spezifikation bei %L wurde bereits spezifiziertVariable ACQUIRED_LOCK»ACQUIRED_LOCK=«-Argument bei %L muss skalare LOGICAL-Variable seinACTION-Typ bei %L steht in Konflikt mit READONLY-SpezifiziererAttribut ALLOCATABLE bei %C in einer STRUCTURE-DefinitionAttribut ALLOCATABLE bei %C in einer TYPE-DefinitionALLOCATABLE-Objekt %qs in Klausel %s bei %LALLOCATABLE außerhalb des INTERFACE-Körpers bei %L angegebenALLOCATE ObjektALLOCATE von Koarray bei %C in CRITICAL-BlockALLOCATE von Koarray bei %C in DO CONCURRENT-BlockDas intrinsische ALLOCATED bei %L erfordert ein Feld oder eine skalar allozierbare EntityALTERNATE RETURN bei %L nicht erlaubtwiedereinsprungsfähiger APCS-Code nicht unterstützt. IgnoriertARMv8-M Security Extensions sind mit der gewählten FPU inkompatibelASSIGN-Anweisung bei %CASSIGN-Anweisung bei %L erfordert eine skalare Standard-INTEGER-VariableAnweisung ASSIGNED GOTO bei %L erfordert eine skalare INTEGER-VariableASSIGNED-Variable in FORMAT-Markierung bei %LASSOCIATE-Konstrukt bei %CASSOCIATE-Name %qs in %s-Klausel bei %LASSOCIATE-Name %qs in SHARED-Klausel bei %LASYNCHRONOUS-Attribut bei %CASYNCHRONOUS-Anweisung bei %CASYNCHRONOUS= bei %L ist in Fortran 95 nicht erlaubtATOM-Argument bei %L der intrinsischen Funktion %s muss Koarray oder koindiziert seinATOM-Argument bei %L für intrinsische Funktion %s muss eine ATOMIC_INT_KIND-Ganzzahl seinATOM-Argument bei %L für intrinsische Funktion %s muss eine ATOMIC_INT_KIND-Ganzzahl oder ein ATOMIC_LOGICAL_KIND-Logikwert seinATOM-Argument der intrinsischen Funktion »%s« bei %L muss definierbar seinAUX-Zeiger für Kante %d->%d initialisiertAVX-Vektorargument ohne eingeschaltetes AVX ändert das ABIAVX-Vektorrückgabe ohne eingeschaltetes AVX ändert das ABIAVX512F-Vektorargument ohne eingeschaltetes AVX512F ändert das ABIAVX512F-Vektorrückgabe ohne eingeschaltetes AVX512F ändert das ABIAbkürzung für »-g -feliminate-unused-debug-symbols«.Abkürzung für »-g -fno-eliminate-unused-debug-symbols«.Der absolute Wert von SHIFT muss kleiner oder gleich SIZE bei %C seinAbstrakte Schnittstelle %qs ist in Zuweisung des Prozedurzeigers bei %L ungültigUnpassende Argumente in Prozeduraufrufen akzeptieren.Erweiterungen akzeptieren, um alten Code zu unterstützen.Auf Daten im gleichen Abschnitt von gemeinsam verwendeten Ankerpunkten zugreifen.Offset des Zugriffs liegt vor dem Offset des ElternteilsZugriff überschneidet sich mit seinem GeschwisterteilGröße des Zugriffs ist größer oder gleich der übergeordneten GrößeZugriffsspezifikation des Operators %s bei %C wurde bereits spezifiziertZugriffsspezifikation des Operators .%s. bei %C wurde bereits spezifiziertZugriff endet außerhalb des ElternteilsAusgehende Funktionsargumente sammeln und den nötigen Stapelspeicher für ausgehende Argumente im Prolog/Epilog der Funktion reservieren/freigeben. Ohne diese Option werden ausgehende Argumente auf den Stapel geschoben und hinter zurückgeholt. Diese Option kann für Funktionen, die viele Funktionen mit Argumentübergabe über den Stapel aufrufen, z.B. printf, zu kleinerem Code führen.Effektives CLASS-Feldargument für %qs muss ein vollständiges Feld bei %L seinEffektives Argument bei %L für INTENT(%s)-Dummy %qs von ELEMENTAL-Unterprogramm %qs ist skalar, aber ein anderes effektives Argument ist ein FeldArgument bei %L von der intrinsischen Funktion %qs muss ein verbundener Zeiger seinEffektives Argument bei %L an reservierbares oder Zeiger-Scheinargument %qs muss Parameter mit Typ aufgeschobener Länge haben, genau dann, wenn das Scheinargument einen solchen hatEffektives Argument bei %L für Scheinparameter vermuteten Typs hat abgeleiteten Typ mit typgebundenen oder FINAL-ProzedurenEffektives Argument enthält zuwenige Elemente für Scheinargument %qs (%lu/%lu) bei %LEffektives Argument für %qs kann nicht Feld vermuteter Größe bei %L seinEffektives Argument für %qs muss ALLOCATABLE bei %L seinEffektives Argument für %qs muss ein Zeiger bei %L seinEffektives Argument mit EVENT_TYPE oder mit EVENT_TYPE-Komponente bei %L erfordert eine explizite Schnittstelle für Prozedur %qsEffektives Argument mit LOCK_TYPE oder mit LOCK_TYPE-Komponente bei %L erfordert eine explizite Schnittstelle für Prozedur %qsEffektives Argument für %qs bei %L sein muss Koarray seinEffektives Argument für %qs bei %L muss polymorph seinEffektives Argument für %qs bei %L muss einfach fortlaufend oder ein Element eines solchen Feldes seinEffektives Argument für %qs bei %L muss unbegrenzt polymorph sein, da das formale Argument ein Zeiger oder reservierbare unbegrenzt polymorphe Entität ist [F2008: 12.5.2.5]Effektives Argument für %qs bei %L muss denselben deklarierten Typ habenEffektives Argument für fortlaufenden Schein-Zeiger %qs bei %L muss einfach fortlaufend seinEffektives Argument für Nicht-INTENT(INOUT)-Platzhalter %qs bei %L mit Typ EVENT_TYPE oder einer EVENT_TYPE-KomponenteEffektives Argument für Nicht-INTENT(INOUT)-Platzhalter %qs bei %L mit Typ LOCK_TYPE oder einer Komponente LOCK_TYPEEffektive Zeichenkettenlänge passt nicht zur deklarierten für Scheinargument »%s« (%ld/%ld)Effektive Zeichenkettenlänge ist kürzer als die deklarierte für Scheinargument »%s« (%ld/%ld)Einen Durchlauf zur Entfernung von Teilausdrücken nach Schleifenoptimierungen hinzufügen.Beschreibungsattribute zu einigen DWARF-DIEs hinzufügen, die kein Namensattribut haben.Ausdrückliche Prüfungen für Division durch Null hinzufügen.Ausdrückliche Prüfungen für Divisionsüberlauf in INT_MIN / -1 hinzufügen.Zusätzliche Anmerkungen an Assemblerausgabe anfügen.Zusätzliche Informationen speicherm die das dynamische Laden beschleunigen können, solange die Binärdateien unverändert bleiben.Den Abschnittsnamen ».lower« voranstellen, wenn mit »-m{code,data}-region=lower« übersetzt wird (Vorgabe: nein).Zusätzliche Fehlerprotokollausdrucke.Nach dem Erkennen von undefiniertem Verhalten versuchen, die Ausführung fortzusetzen.Schleifen aggressiv optimieren, dabei sprachspezifische Einschränkungen einbeziehen.Interner Fehler: Alias and target%'s comdat groups differsInterner Fehler: Alias and target%'s section differsAlias für --help=target.Alias für --mcpu=g10.Alias für -mcpu=g13.Alias für -mcpu=g14.Interner Fehler: Alias has call edgesInterner Fehler: Alias has more than one alias referenceInterner Fehler: Alias has non-alias referenceAlle Marken ausrichten.Alle Schleifen auf 32-Byte-Grenzen ausrichten.Code und Daten auf 32 Bit ausrichten.Ziel der Zeichenkettenoperationen ausrichten.Doubles auf 64-Bit-Grenzen ausrichten.Funktionseinsprung an 4-Byte-Grenze ausrichten.Marken ausrichten, die nur mit Sprüngen erreicht werden können.Einige Doubles auf DWord-Grenze ausrichten.Funktionsanfänge ausrichten.Schleifenanfänge ausrichten.Auf Basistyp des Bitfeldes ausrichten.Auf Basistyp des Bitfeldes ausrichten. Nicht annehmen, dass unausgerichtete Zugriffe vom System behandelt werden.Variablen auf 32-Bit-Grenzen ausrichten.Alle intrinsischen Prozeduren sind ungeachtet des gewählten Standards verfügbar.Alle Speicherzugriffe nutzen I/O-load/store-Befehle.Alle LEN-Typparameter in der TYPE-IS-Anweisung bei %C müssen ASSUMED seinZuordnungsfähiges %qs bei %L kann keine Initialisierung habenReservierbares Feld %qs bei %L muss aufgeschobene Form oder vermuteten Rang habenZuordnungsfähige Koarray-Variable %qs bei %L muss aufgeschobene Form habenAllozierbare Komponente %s bei %L muss eine Kodimension haben, da sie eine Subkomponente als Nicht-Koarray des Typs EVENT_TYPE hatAllozierbare Komponente %s bei %L muss eine Kodimension haben, da es eine Subkomponente als Nicht-Koarray des Typs LOCK_TYPE hatAllozierbare Komponente %s bei %L des Typs EVENT_TYPE muss eine Kodimension habenAllozierbare Komponente %s bei %L des Typs LOCK_TYPE muss eine Kodimension habenAllozierbare Komponente der Struktur bei %C muss eine aufgeschobene Form habenAllozierbare Komponente oder deferred-shaped-Feld bei %C in DATA-AnweisungReservierbare Funktion %qs bei %L muss eine explizite Funktionsschnittstelle habenLokale Variablen auf Stapel anlegen, um indirekte Rekursion zu ermöglichen.Allocate-Objekt bei %C ist kein Nicht-Prozedur-Zeiger oder reservierbare VariableALLOCATE-Objekt bei %L tritt auch bei %L aufALLOCATE-Objekt bei %L ist weder ein Datenzeiger noch eine reservierbare VariableALLOCATE-Objekt bei %L ist Subobjekt des Objekts bei %LALLOCATE-Objekt bei %L muss ALLOCATABLE oder ein POINTER seinALLOCATE-Objekt bei %L mit Parameter aufgeschobenen Typs erfordert entweder eine Typspezifikation, SOURCE-Marke oder MOLD-MarkeReservierung von %s bei %L mit Typspezifikation erfordert den selben Zeichenkettenlängenparameter wie in der DeklarationReservierung von %s mit ABSTRACT-Basistyp bei %L erfordert Typspezifikation oder QuellausdruckGCC erlauben (oder verbieten), LOOP-Befehle zu verwenden.Eine literale BOZ-Konstante in einem ungültigen Kontext erlauben, sowie mit X statt mit Z.Zugriff auf Instanzvariablen erlauben, als ob sie lokale Deklarationen innerhalb der Instanzmethoden-Implementierungen wären.Im festen Modus beliebig lange Zeilen erlauben.Im freien Modus beliebig lange Zeilen erlauben.Zulassen, dass Bitfelder Wortgrenzen überschneiden.Erlauben, Sprünge mit anderen Befehlen zu packen.Den eingebauten Funktionen ceil, floor, round, trunc erlauben, »inexact«-Exceptions zu werfen.Dollarzeichen in Entitätsnamen erlauben.Schnelle Sprünge zum Nachrichten-Dispatcher erlauben.Vorhalten von Funktionsadressen in Registern erlauben.GCC erlauben, LIW-Befehle zu verwenden.GCC erlauben, SETLB- und Lcc-Befehle zu verwenden.Hardware-Gleitkommabefehle erlauben, um 32-Bit- und 64-Bit-Befehle abzudecken.Implizite Umwandlungen zwischen Vektoren mit unterschiedlicher Anzahl der Teile und/oder abweichenden Elementtypen erlauben.Erlauben, dass der dynamische Linker Funktionen und Variablen mit solchen unterschiedlicher Semantik (oder Initialisierungen) gemischt platzieren darf.Mathematische Optimierungen erlauben, die IEEE- oder ISO-Standards verletzen könnten.Optimierung für Gleitkommaarithmetik erlauben, auch wenn durch Runden ein anderes Ergebnis herauskommen kann.Nicht ausgereifte Planung von eingereihten Befehlen erlauben.Nur-Lese-Daten in sdata-Abschnitt erlauben.Vorzeichenerweiterung in Fusionsoperationen erlauben.Spekulative Bewegung bei mehr Ladebefehlen erlauben.Spekulative Bewegung von Nicht-Lade-Befehlen erlauben.Spekulative Bewegung bei einigen Ladebefehlen erlauben.Verschiedene Typen für die Argumente des »?«-Operators erlauben.Dem Compiler erlauben, neue Datenwettläufe bei Speichervorgängen einzuführen.Im Durchlauf, der Speicheroperationen zusammenfasst, unausgerichtete Speicherungen zulassen, sofern es erlaubt ist.Verwendung von MDMX-Befehlen erlauben.Verwendung von MT-Befehlen erlauben.Verwendung von Hardware-Gleitkommabefehlen für V850E2V3 und aufwärts erlauben.Verwendung von Hardware-Gleitkomma-ABI und -befehlen erlauben.Für Festkomma-Bruchzahlen das Abschneiden statt Runden erlauben.Zwei Befehle pro Taktzyklus erlauben.Verwendung von __gcc_isr-Pseudobefehlen in ISR-Prologen und -Epilogen erlauben.Verwendung von r15 für Inline-Assembler erlauben.Variadische Funktionen ohne benannte Parameter erlauben.Bereits in CONTAINS-Block bei %CAlternative RETURN-Anweisung bei %C ist nur innerhalb einer SUBROUTINE erlaubtAlternative RETURN-Anweisung bei %L erfordert einen SCALAR-INTEGER-Spezifizierer als RückgabeAlternative Aufrufkonvention.Alternativer Rücksprung bei %L ist in einer DTIO-Prozedur nicht erlaubtAlternative Rückgabe kann nicht in Operatorschnittstelle bei %L auftretenAlternatives Rückgabe-Dummyargument kann nicht in einer SUBROUTINE mit BIND(C)-Attribut bei %L auftretenAlternativer Rückgabespezifizierer in elementarem Unterprogramm %qs bei %L ist nicht erlaubtAlternativer Rückgabespezifizierer in Funktion %qs bei %L ist nicht erlaubtArgument für Alternativrückgabe bei %CObwohl nicht referenziert, hat %qs mehrdeutige Schnittstellen bei %LAltiVec-Argument an Funktion ohne Prototyp übergebenAltiVec wird für dieses Ziel nicht unterstütztFunktionseinsprung, Sprungziele und Rücksprungadressen ausrichten.Immer weite Aufrufe erzeugen.Register $lp immer auf dem Stapel speichern.Bitfelder immer als gleichgroß wie »int« ansehen.Immer Dynamic Realigned Argument Pointer (DRAP) verwenden, um den Stapel neu auszurichten.Immer JSR für Aufrufe verwenden, niemals BSR.Mehrdeutiges !$OMP DECLARE REDUCTION von Modul %s bei %LMehrdeutige Schnittstellen in %s für %qs bei %L und %qs bei %LMehrdeutiges Symbol in TYPE-Definition bei %CDie geeignete Diagnosemeldung mit der Kommandozeilenoption anreichern, die sie steuert.Alias für -minterlink-compressed; für Rückwärtskompatibilität erhalten.Alternative Rückkehr bei %L ohne ein *-ScheinargumentInterner Fehler: An indirect edge from %s is not marked as indirect or has associated indirect_info, the corresponding statement is: Ein äußeres FORALL-Konstrukt hat bereits einen Index mit Namen %LDoppelwort-Vertauschungen aus VSX-Berechnungen analysieren und entfernen.Interner Fehler: Analyzed alias has no referenceAssemblerbefehle mit geschätzten Adressen kommentieren.Einen zweiten Unterstrich anhängen, wenn der Name bereits einen Unterstrich enthält.Unterstriche an extern sichtbare Namen anhängen.Negatives Vorzeichen auf Null-Werte anwenden.Besondere Regeln anwenden, um Paket für die Laufzeitumgebung zu kompilieren.Variablenerweiterung anwenden, wenn Schleifen abgerollt werden.Die Auswirkungen von Funktionsaufrufen abschätzen, um die Analyse zu vereinfachen.Argument %<A%> mit INTENT(OUT) bei %L des intrinsischen Unterprogramms %s darf keinen Vektorindex habenArgument %<S%> von NEAREST bei %L darf nicht Null seinArgument %qs tritt im Aufruf von %qs bei %L doppelt aufArgument %qs des intrinsischen %qs bei %L muss typkonform zu Argument %qs bei %L seinArgument %qs von %qs mit PASS(%s) bei %L darf nicht ALLOCATABLE seinArgument %qs von %qs mit PASS(%s) bei %L darf kein POINTER-Attribut habenArgument %qs von %qs mit PASS(%s) bei %L muss abgeleiteten Typ %qs habenArgument %qs von %qs mit PASS(%s) bei %L muss abgeleiteten Typ %qs habenParameter %qs von %qs mit PASS(%s) bei %L muss skalar seinArgument %qs von MOD bei %L darf nicht Null seinArgument %qs von MODULO bei %L darf nicht 0 seinFür Argument %qs des elementaren Unterprogrammes %qs bei %L muss INTENT oder das VALUE-Attribut angegeben werdenArgument %qs der elementaren Prozedur bei %L kann kein ALLOCATABLE-Attribut habenArgument %qs der elementaren Prozedur bei %L kann kein POINTER-Attribut habenArgument %qs der elementaren Prozedur bei %L muss skalar seinArgument %qs der reinen Funktion %qs bei %L muss INTENT(IN) oder VALUE seinArgument %qs der reinen Funktion %qs bei %L mit VALUE-Attribut, aber ohne INTENT(IN)Für Argument %qs des reinen Unterprogrammes %qs bei %L muss INTENT oder das VALUE-Attribut angegeben werdenArgument %qs des reinen Unterprogrammes %qs bei %L mit VALUE-Attribut, aber ohne INTENTArgument »%s« der Anweisungs-Funktion »%s« bei %L muss skalar seinArgument CPTR bei %L für C_F_POINTER muss den Typen TYPE(C_PTR) habenArgument CPTR bei %L für C_F_PROCPOINTER muss den Typen TYPE(C_FUNPTR) habenArgument C_PTR_1 bei %L für C_ASSOCIATED muss den Typ TYPE(C_PTR) oder TYPE(C_FUNPTR) habenArgument C_PTR_2 bei %L für C_ASSOCIATED muss denselben Typ wie C_PTR_1 haben: %s statt %sArgument FPTR bei %L für C_F_POINTER muss ein Zeiger seinArgument FPTR für C_F_POINTER bei %L darf nicht koindiziert seinArgument FPTR bei %L für C_F_PROCPOINTER muss ein Prozedurzeiger seinArgument FPTR bei %L für C_F_PROCPOINTER darf nicht koindiziert seinArgument NCOPIES des intrinsischen REPEAT ist negativ (sein Wert ist %ld)Argument NCOPIES des intrinsischen REPEAT ist bei %L negativArgument NCOPIES des intrinsischen REPEAT ist zu großArgument NCOPIES des intrinsischen REPEAT ist bei %L zu großArgument X bei %L für C_FUNLOC muss eine Prozedur oder ein Prozedurzeiger seinArgument X bei %L für C_FUNLOC darf nicht koindiziert seinArgument X bei %L für C_LOC darf keine Zeichenkette der Länge 0 seinArgument X bei %L für C_LOC muss entweder POINTER- oder TARGET-Attribut habenArgument X bei %L für C_LOC darf nicht koindiziert seinArgument bei %L für C_LOC darf nicht polymorph seinArgument dim bei %L muss INTEGER-Typ habenArgument dim bei %L muss skalar seinUnpassende Argumente für die überschreibende Prozedur %qs bei %L: %sArgument muss eine Konstante zwischen 0 und 31 sein.Argument muss ein Wert zwischen 0 und 3 sein.Argument muss ein Wert zwischen 0 und 7 sein.Argument von %s bei %L muss von der Länge eins seinArgument der Funktion %s bei %L ist negativArgument der Funktion %s bei %L ist zu groß für die zusammenfassende Sequenz der Art %dArgument der Funktion %s bei %L außerhalb des Wertebereichs [0,127]Argument von ACOS bei %L muss zwischen -1 und 1 liegenArgument von ACOSD bei %L muss zwischen -1 und 1 liegenArgument von ACOSH bei %L darf nicht kleiner als 1 seinArgument von ASIN bei %L muss zwischen -1 und 1 liegenArgument von ASIND bei %L muss zwischen -1 und 1 liegenArgument von ATANH bei %L muss im Bereich -1 bis 1 liegenArgument der FINAL-Prozedur bei %L muss Typ %qs habenArgument der FINAL-Prozedur bei %L darf nicht ALLOCATABLE seinArgument der FINAL-Prozedur bei %L darf nicht INTENT(OUT) seinArgument der FINAL-Prozedur bei %L darf nicht OPTIONAL seinArgument der FINAL-Prozedur bei %L darf kein POINTER seinArgument von IACHAR bei %L muss Länge Eins habenArgument der IACHAR-Funktion bei %L außerhalb des Wertebereiches 0..127Argument von ICHAR bei %L muss Länge Eins habenArgument von LOG bei %L kann nicht kleiner oder gleich Null seinArgument von LOG10 bei %L kann nicht kleiner oder gleich Null seinArgument der SELECT-Anweisung bei %L kann nicht %s seinArgument der SELECT-Anweisung bei %L muss ein skalarer Ausdruck seinArgument von SQRT bei %L hat negativen WertArgument für %<-fcheck%> ist ungültig: %sArgument für %<-ffpe-summary%> ist ungültig: %sArgument für %<-ffpe-trap%> ist ungültig: %sArgumenttypen des intrinsischen %qs bei %L müssen passen (%s/%s)Argumente von %qs bei %L und %L können nicht beide literale BOZ-Konstanten seinArgumente von %qs unterscheiden sich im Typ bei %LArithmetische IF-Anweisung bei %CArithmetische IF-Anweisung bei %L erfordert einen skalaren REAL- oder INTEGER-AusdruckArithmetisches NaN bei %LArithmetisches NaN bei Umwandlung von %s in %s bei %L. Diese Überprüfung kann mit der Option %<-fno-range-check%> ausgeschaltet werdenArithmetik OK bei %LArithmetik OK beim Konvertieren von %s in %s bei %LArithmetik-Überlauf bei %LArithmetischer Überlauf bei Umwandlung von %s in %s bei %L. Diese Überprüfung kann mit der Option %<-fno-range-check%> ausgeschaltet werdenArithmetik-Unterlauf bei %LArithmetischer Unterlauf bei Umwandlung von %s in %s bei %L. Diese Überprüfung kann mit der Option %<-fno-range-check%> ausgeschaltet werdenFeld %qs bei %L kann keine aufgeschobene Form habenFeld %qs bei %L ist eine Variable, die nicht zu konstantem Ausdruck reduziertDas Feld %qs bei %L ist größer als der Grenzwert, der durch %<-fmax-stack-var-size=%> festgelegt wurde, daher wurde es vom Stapel in den statischen Speicher verschoben. Dies macht die Prozedur unsicher, wenn sie rekursiv oder gleichzeitig von mehreren Threads aus aufgerufen wird. Erwägen Sie die Verwendung von %<-frecursive%>, oder erhöhen Sie die Grenze %<-fmax-stack-var-size=%>, oder ändern Sie den Code, um ein ALLOCATABLE-Feld zu verwenden.Feld %qs bei %L mit nicht-konstanten Grenzen kann kein EQUIVALENCE-Objekt seinFeld %qs ist nicht in Reduzierung bei %L erlaubtUnstimmige Arraygrenzen für Dimension 1 des Arrays (%ld/%ld)Unstimmige Arraygrenzen für Dimension 2 des Arrays (%ld/%ld)Feldkomponente der Struktur bei %C muss eine explizite Form habenFeldkomponente der Struktur bei %C muss explizite oder aufgeschobene Form habenFeldkonstruktor mit Typspezifikation bei %CWert für Feldkonstruktor bei %L darf nicht unbegrenzt polymorph sein [F2008: C4106]Feldeinheit bei %L benötigtFeld in der Initialisierungsliste bei %L muss eine explizite Form habenFeldindex bei %L ist ein Feld mit Rang %dFeldindex bei %L muss INTEGER-Typ haben, %s gefundenFeldindex bei %L muss skalar seinFeld ist nicht zusammenhängend bei %LFeld von interoperablem Typ bei %L für C_LOC; es ist nichtallozierbar und hat weder angenommene noch explizite GrößeArray-Operanden sind unzureichend bei %LArrayoperanden sind unzureichend beim Konvertieren von %s in %s bei %LFeldzeiger %qs bei %L muss aufgeschobene Form oder vermuteten Rang habenFeldreferenz bei %C kann nicht mehr als %d Dimensionen habenFeldreferenz bei %C darf nur maximal 7 Dimensionen habenFeldreferenz bei %L ist außerhalb der Grenzen (%ld < %ld) in Kodimension %dFeldreferenz bei %L ist außerhalb der Schranken (%ld < %ld) in Dimension %dFeldreferenz bei %L ist außerhalb der Grenzen (%ld > %ld) in Kodimension %dFeldreferenz bei %L ist außerhalb der Schranken (%ld > %ld) in Dimension %dFeldreferenz bei %L ist außerhalb der Grenzen (%ld < %ld) in Schleife, die bei %L beginntFeldreferenz bei %L ist außerhalb der Grenzen (%ld > %ld) in Schleife, die bei %L beginntFeldreferenz in EQUIVALENCE bei %C kann kein Feldabschnitt seinFeldreferenz außerhalb des WertebereichsFeldabschnitt bei %L für C_LOCFeldauswahlbezeichner, z.B. »(:)«, wird neben dem Koarray-Bezeichner »[...]« bei %C benötigtFeldabschnitt mit Vektorindex bei %L darf nicht das Ziel eines Zeigers seinFeldabschnitte: %qs ist in !$ACC DECLARE bei %L nicht erlaubtFeldspezifikation bei %C hat mehr als %d DimensionenFeldspezifikation bei %C mit mehr als 7 DimensionenFeldspezifikation für Symbol %qs in COMMON bei %C muss explizit seinFeldspezifikation muss bei %L aufgeschoben werdenFeldspezifikation oder feldwertiger SOURCE=-Ausdruck erforderlich in ALLOCATE-Anweisung bei %LIn ALLOCATE-Anweisung bei %L ist Feld-Spezifikation erforderlichFeldbereich als effektives Argument bei %L ist wegen VOLATILE-Attribut unverträglich mit dem Scheinargument ohne vermutete Form %qsFeldbereich mit Vektorindex als effektives Argument bei %L ist unverträglich mit INTENT(OUT), INTENT(INOUT), VOLATILE- und ASYNCHRONOUS-Attribut des Scheinarguments %qsDa der erweiterte Typ %qs bei %L eine Koarray-Komponente hat, muss der Elterntyp %qs auch eine habenAssembleroptionen
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Zugewiesene GOTO-Anweisung bei %CZugewiesene Marke ist keine ZielmarkeZuweisung eines anderen Wertes als 0 oder 1 an LOGICAL hat bei %L undefiniertes ErgebnisZuweisung von Skalar zu unalloziertem ArraySchnittstelle für Zuweisungsoperator bei %L muss eine SUBROUTINE seinSchnittstelle des Zuweisungsoperators bei %L muss zwei Argumente habenSchnittstelle des Zuweisungsoperators bei %L darf keine INTRINSIC Typzuweisung redefinierenZuweisung an FORALL-Indexvariable bei %LDie Zuweisung zu einer KIND- oder LEN-part_ref bei %L ist nicht erlaubtZuweisung an einen konstanten Ausdruck bei %CZuweisung an allozierbare polymorphe Variable bei %LZuweisung an allozierbare polymorphe Variable bei %L erfordert %<-frealloc-lhs%>Zuweisung an koindizierte Variable bei %L in einer PURE-ProzedurZuweisung an zusammenhängenden Zeiger von nichtzusammenhängendem Ziel bei %LZuweisung an polymorphes Koarray bei %L ist nicht erlaubtZugeordneter Name %qs bei %L wird als Feld verwendetAssociate-Name %qs kann nicht in Variablen-Definitionskontext (%s) bei %L auftreten, da sein Ziel bei %L es auch nicht kannZugeordneter Name %qs bei %L ist ein ProzedurnameZugeordneter Name %qs bei %L ist ein ProzedurzeigerDer zuordnende Selektor-Ausdruck bei %L ergibt eine ProzedurVerknüpfungsziel bei %C darf nicht koindiziert seinZuordnungsziel bei %L darf kein BOZ-Literal seinAnnehmen, dass ES während der gesamten Laufzeit 0 ist; verwenden Sie ES: für schreibgeschützte Daten.Annahme, dass ICPLBs zur Laufzeit eingeschaltet sind.Von einem großen TLS-Segment ausgehen.Annehmen, dass alle Symbole 32-Bit-Werte haben.Annehmen, dass alle Funktionen mit variablen Argumenten Prototypen haben.Assembler-Unterstützung für (DWARF2+-).loc-Direktiven annehmen.Assembler-Unterstützung für Ansicht in (DWARF2+-).loc-Direktiven annehmen.Annehmen, dass der Code mit GAS assembliert wird.Annehmen, dass der Code später mit GNU ld gebunden wird.Annehmen, dass der Code später mit HP ld gebunden wird.Annehmen, dass gemeinsame Deklarationen durch solche übersteuert werden dürfen, die ein längeres hintangestelltes Array haben.Annehmen, dass Datensegmente relativ zum Textsegment liegen.Annehmen, dass Gleitkommaoperationen abgefangen werden können (»trap«).Annehmen, dass der ankommende Stapel an dieser Potenz von 2 ausgerichtet ist.Annahme, dass Marken und Symbole mit absoluten 16-Bit-Adressen adressiert werden können.Annehmen, dass das Datenladen aus dem Flashspeicher langsamer ist als Befehle zu laden.Annehmen, dass die Speicherverweise geordnet sind und daher keine Barrieren erforderlich sind.Annehmen, dass keine NaNs oder Unendlichkeiten erzeugt werden.Normale C-Ausführungsumgebung vermuten.Annehmen, dass Zeigerüberläufe überschlagen (Wraparound).Mögliche doppelte Fehlausrichtung annehmen.Rundung zur nächsten Ganzzahl für Zwecke der Planung annehmen.Annehmen, dass vorzeichenbehaftete arithmetische Überläufe regulär überschlagen (Wraparound).Kleinen Adressraum annehmen.Annehmen, dass strenge Alias-Regeln gelten.Ziel-CPU als »big endian«-konfiguriert annehmen.Ziel-CPU als »little endian«-konfiguriert annehmen.Annemhne, dass auf alle Daten im statischen Speicher via LDS/STS zugegriffen werden kann. Diese Option ist nur für eingeschränkte Tiny-Geräte sinnvoll.Annehmen, dass Gleitkomma-Speichern und -Laden wahrscheinlich keinen Konflikt verursachen, wenn sie in dieselbe Befehlsgruppe gelegt werden.Annehmen, dass Schleifen mit einem Ausgang keine Endlosschleifen sind.Annehmen, dass Empfänger von Objective-C-Nachrichten nil sein können.Annehmen, dass Laufzeitunterstützung vorhanden ist, und daher -lsim von Linker-Kommandozeile auslassen.Annehmen, dass Standard-D-Laufzeitbibliotheken und »D main« vorhanden sind.Annahme, dass die reziproken abschätzenden Befehle höhere Genauigkeit bieten.Annehmen, dass Quelldatei in fester Form vorliegt.Annehmen, dass Quelldatei in freier Form vorliegt.Annehmen, dass die Werte einer Aufzählung immer im kleinsten Bereich des Typs liegen.Annehmen, dass bedingte Sprünge mit Weite Null schnell sind.VxWorks RTP-Umgebung vermuten.VxWorks vThreads-Umgebung vermuten.Einheitliche Syntax für Inline-Assemblercode annehmen.Fertigstellung für phsa und dessen libhsail-rt annehmen.  Schaltet zusätzliche phsa-spezifische Optimierungen ein (Vorgabe).Variable %qs mit vermuteter oder aufgeschobener Zeichenlänge in konstantem Ausdruck bei %LFeld %qs mit vermutetem Rang in Klausel %s bei %LFeld %qs mit vermuteter Form bei %L ist nicht in einem Initialisierungs-Ausdruck erlaubtFeld mit vermuteter Form bei %L muss ein Scheinargument seinFeld %qs mit vermuteter Größe bei %L ist nicht in einem Initialisierungs-Ausdruck erlaubtFeld %qs mit vermuteter Größe in Klausel %s bei %LFeld %qs mit vermuteter Größe in Klausel COPYPRIVATE bei %LFeld %qs mit vermuteter Größe in Namensliste %qs bei %C ist nicht erlaubtFeld %qs mit vermuteter Größe in Namensliste %qs bei %L ist nicht erlaubtFeld mit vermuteter Größe bei %L muss ein Schein-Argument seinPolymorphe Objekte oder Komponenten mit vermuteter Größe, so wie bei %C, wurden noch nicht implementiertVermuteter Typ bei %CVermuteter Typ bei %C ist für Komponenten nicht erlaubtVermuteter Typ der Variable %s bei %L ist nur für Scheinvariablen erlaubtArgument mit angenommenem Rang bei %L ist nur als effektives Argument der intrinsischen Abfragefunktionen erlaubtArgument mit angenommenem Rang bei %L ist nur als erstes effektives Argument der intrinsischen Abfragefunktion »%s« erlaubtArgument vermuteten Ranges erfordert eine explizite Schnittstelle bei %LFeld %qs mit vermutetem Rang bei %L ist nicht in einem Initialisierungs-Ausdruck erlaubtFeld mit vermutetem Rang bei %CFeld mit vermutetem Rang bei %L darf kein Attribut VALUE oder CODIMENSION habenFeld mit vermutetem Rang bei %L muss ein Scheinargument seinVariable %s vermuteten Ranges bei %L als effektives Argument für Abfragefunktion muss das erste Argument seinVariable %s vermuteten Ranges bei %L kann nur als effektives Argument verwendet werdenVariable »%s« vermuteten Ranges bei %L darf keine Referenz auf Subobjekt habenEffektives Argument mit vermuteter Form bei %L ist wegen VOLATILE-Attribut unverträglich mit dem Scheinargument ohne vermutete Form %qsFeld mit angenommener Form %qs bei %L als Scheinargument für die BIND(C)-Prozedur %qs bei %LFeld %qs mit vermuteter Form bei %L ist nicht in einem Initialisierungs-Ausdruck erlaubtDummyfeld mit vermuteter Größe mit »!$ACC DECLARE« bei %LFeld mit vermutetem Rang bei %L erfordert Scheinargument %qs mit vermutetem RangArgument »%s« bei %L vermuteten Typs erfordert eine explizite SchnittstelleArgument bei %L mit angenommenem Typ ist nicht als effektives Argument der intrinsischen Routine »%s« erlaubtArgument bei %L mit angenommenem Typ ist nur als erstes Argument der intrinsischen Routine »%s« erlaubtVariable %s vermuteten Typs bei %L als effektives Argument für Abfragefunktion muss das erste Argument seinVariable %s vermuteten Typs bei %L darf nicht die Attribute ALLOCATABLE, CODIMENSION, POINTER oder VALUE habenVariable %s vermuteten Typs bei %L darf nicht das Attribut INTENT(OUT) habenVariable %s vermuteten Typs bei %L kann nur als effektives Argument verwendet werdenVariable %s vermuteten Typs bei %L darf kein Feld mit ausdrücklicher Form seinVariable %s vermuteten Typs bei %L darf keine Referenz auf Subobjekt habenIm globalen Gültigkeitsbereich:Es werden höchstens %i Profildurchläufe unterstützt. Evtl. beschädigte Datei?Auf höchster Ebene:Versuch, nicht reserviertes »%s« freizugebenVersuchen, die Verzögerungsschlitze der Sprungbefehle auszufüllen.Versuch, die COMMON-Blöcke %s und %s durch EQUIVALENCE bei %C indirekt zu überschneidenVersuch, den Stapel an dieser Potenz von 2 auszurichten.Versuchen, identische Konstanten über Übersetzungseinheiten hinweg zu verschmelzen.Versuchen, identische Konstanten und konstante Variablen zu verschmelzen.Versuchen, identische Zeichenketten zur Fehlersuche über Übersetzungseinheiten hinweg zu verschmelzen.Versuch, bereits reservierte Variable zu reservierenVersuch, bereits reservierte Variable »%s« zu reservierenAttribut %s bei %L in einer TYPE-DefinitionAttribut bei %L ist in STRUCTURE-Definition nicht erlaubtAttribut bei %L ist in TYPE-Definition nicht erlaubtAttribut bei %L ist außerhalb einer TYPE-Definition nicht erlaubtAdresslisten der Variablen mit progressiven Sichten anreichern.Erkennungszahl des AutoFDO-Profils passt nichtVersion %u des AutoFDO-Profils passt nicht zu %uAutomatisches Feld %qs bei %L kann keine Initialisierung habenFügt automatisch Platz für längere Pfadnamen in Ladebefehlen hinzu (bis zu MAXPATHLEN).Zweigziele automatisch ausrichten, um Strafzyklen für Verzweigung zu verringern.Verfügbare Werte für Bits:Durchschnittliche Anzahl der Iterationen einer Schleife.Alle Bereichsgrenzen bei Aufrufbefehlen vermeiden.Vermeiden, dass mehrere Anweisungen zu einer expandierten Kante zusammengefasst werden.Erzeugung PC-relativer Aufrufe verhindern; Indirektion verwenden.Erzeugung indizierter Laden/Speichern-Befehle verhindern, wo möglich.Sich überschneidende Ziel- und Adressregister bei solchen LDRD-Befehlen vermeiden, die Cortex-M3-Errata auslösen können.Vermeiden, lesbare Daten in Programmspeicher abzulegen.Spekulative Ladeoperationen verhindern, um Hardwarebesonderheiten zu umgehen.Verwendung von DIV- und MOD-Befehlen verhindern.Interner Compilerfehler: BB %i cannot throw but has an EH edgeInterner Compilerfehler: BB %i has incorrect edgeInterner Compilerfehler: BB %i has incorrect fallthru edgeInterner Compilerfehler: BB %i has multiple EH edgesInterner Compilerfehler: BB %i is missing an EH edgeInterner Compilerfehler: BB %i is missing an edgeInterner Compilerfehler: BB %i last statement has incorrectly set lpInterner Compilerfehler: BB %i too many fallthru edgesInterner Fehler: BB_RTL flag not set for block %dBIND(C)-Variable %qs bei %L muss Länge eins habenBIND(C) auf %s %s bei %L angewendetBIND(C) bei %LBIND(C)-Attribut bei %C erfordert eine Schnittstelle mit BIND(C)BIND(C)-Attribut bei %L kann nur für Variablen oder gemeinsame Blöcke verwendet werdenBIND(C)-Attribut bei %L kann nicht für eine interne Prozedur angegeben werdenBIND(C)-Prozedur mit NAME darf kein POINTER-Attribut bei %C habenBIND(C)-Anweisung bei %CBLANK= bei %L ist in Fortran 95 nicht erlaubtBLOCK-DATA-Konstrukt bei %LBLOCK DATA Element %qs bei %L muss in COMMON seinBLOCK-Konstrukt bei %CBMX-Befehle werden nur auf der R2-Architektur unterstütztBOZ bei %L kann nicht in einer Initialisierung alten Stils vorkommenBOZ-Konstante bei %C verwendet Nicht-Standard-Postfix-SyntaxBOZ-Konstante bei %L kann nicht innerhalb eines COMPLEX-intrinsischen Unterprogramms vorkommenDie BOZ-Literalkonstante bei %L darf nicht als Initialisierer vorkommenDie BOZ-Literalkonstante bei %L darf nicht in einem ACHAR-intrinsischen Unterprogramm vorkommenDie BOZ-Literalkonstante bei %L darf nicht in einem CHAR-intrinsischen Unterprogramm vorkommenDie BOZ-Literalkonstante bei %L darf nicht in einem Strukturkonstruktor vorkommenDie BOZ-Literalkonstante bei %L darf nicht in einem Feldkonstruktor vorkommenBOZ-Literalkonstante bei %L darf nicht in einer Ausgabe-IO-Liste vorkommenBOZ-Literalkonstante bei %L darf nicht in einem FLOAT-intrinsischen Unterprogramm vorkommenDie BOZ-Literalkonstante bei %L darf kein tatsächliches Argument für %qs seinBOZ-Literalkonstante bei %L kann kein Operand des einstelligen Operators %qs seinBOZ-Literal bei %L darf nur als Wert einer DATA-Anweisung oder als Argument des intrinsischen Unterprogramms INT/REAL/DBLE/CMPLX vorkommenBOZ-Literalkonstante bei %L kann nicht als Operand eines Vergleichsoperators vorkommenBOZ-Literalkonstante in der Nähe von %L kann nicht einer %qs-Variablen zugewiesen werdenDie BOZ-Literalkonstante in der Nähe von %L kann bei einer Initialisierung alten Stils nicht einer %qs-Variablen zugewiesen werdenBOZ außerhalb einer DATA-Anweisung bei %L verwendetBYTE-Typ bei %CBei %C verwendeter BYTE-Typ ist auf der Zielmaschine nicht verfügbarFalsche 128-Bit-VerschiebungFalsche GPR-FusionFalsche INTENT-Spezifikation bei %CFalscher IO-Basistyp (%d)Falsches Reservierungs-Objekt bei %C für eine PURE-ProzedurUngültige Felddimension bei %LUngültige Feldreferenz bei %LFalsche Feldangabe für Feld mit explizit gebildeter Form bei %CFalsche Feldangabe für Feld mit durch Vermutung gebildeter Form bei %CFalsche Feldangabe für Feld mit implizit gebildeter Form bei %CFalsche Feldspezifikation in ALLOCATE-Anweisung bei %LUngültiges Zeichen %qc in OPERATOR-Name bei %CFalsche Koarray-Spezifikation in ALLOCATE-Anweisung bei %LFalsche Fortsetzungszeile bei %CFalscher Art-Ausdruck für Funktion %qs bei %LFalsche Art für Logikkonstante bei %CSchlechter NameFalscher OperatorFalsche Spezifikation für Feld mit impliziter Größe bei %CFalsche Spezifikation für Feld bei %L mit angenommener GrößeFalsche Spezifikation für Feld mit zurückgestellter Form bei %CFalsches Ziel in Zeigerzuweisung in PURE-Prozedur bei %LFalscher Typ in Konstanten-AusdruckBad type in gfc_simplify_signBasisobjekt für Aufruf der typgebundenen NOPASS-Prozedur bei %L muss skalar seinBasisobjekt für Aufruf der Prozedurzeigerkomponente bei %L hat ABSTRACT-Typ %qsBasisobjekt für Aufruf der typgebundenen Prozedur bei %L hat ABSTRACT-Typ %qsBindung bei %C muss denselben Zugriff wie bereits definierte Bindung %qs habenBindeattribute legen bereits Durchleitung fest, unzulässiges NOPASS bei %CBindeattribute legen bereits Durchleitung fest, unzulässiges PASS bei %CLeeres BLOCK DATA bei %C steht in Konflikt mit vorherigem BLOCK DATA bei %LLeerzeichen in %s-Anweisung in der Nähe von %C erwartetUmfassende SAVE-Anweisung bei %C folgt vorheriger SAVE-AnweisungBlockmarke ist ungeeignet für IF-Anweisung bei %CBlockmarke passt nicht zu arithmetischer IF-Anweisung bei %CBoardname [und Speicherbereich].Beide Planungsmodifizierer MONOTONIC und NONMONOTONIC bei %L angegebenInterner Fehler: Both section and comdat group is setSchranke für Anzahl der Kandidaten, unter der alle Kandidaten in IV-Optimierungen betrachtet werden.Schranke für Anzahl der IV-Verwendungen in bei IV-Optimierungen optimierter Schleife.Schranke für Anzahl der Laufzeitprüfungen, die von Schleifenversionierung des Vektorisierers für Aliasprüfung eingefügt werden.Schranke für Anzahl der Laufzeitprüfungen, die von Schleifenversionierung des Vektorisierers für Ausrichtungsprüfung eingefügt werden.Schranke für Größe von Ausdrücken, die im skalaren Evolutions-Analysierer verwendet werden.Schranke für die Komplexität von Ausdrücken im skalaren Evolutions-Analysierer.Schranke für die Kosten eines Ausdrucks, um die Anzahl der Durchläufe zu berechnen.Schranke für die Anzahl der Iterationen, die der Brute-Force-Algorithmus zur Auswertung der Anzahl von Iterationen auswertet.Grenzenangabe für %qs in Zeigerzuweisung bei %LSprung bei %L könnte Endlosschleife bewirkenVerzweigungen sind so teuer wie hier angegeben (beliebige Einheit).%s von %d Zweigen ausgeführt
Für Kern A bauen.Für Kern B bauen.Für SDRAM bauen.Eingebaute %qF erfordert arch14 oder höher.Eingebaute %qF erfordert z14 oder höher.Eingebaute %qF erfordert z15 oder höher.Eingebaute Funktion nicht implementiertWertargument bei %L kann kein Feld oder Feldabschnitt seinWertargument bei %L ist in diesem Kontext nicht erlaubtWertargument bei %L hat keinen numerischen TypC-kompatible zeichenwertige Scheinvariable %qs bei %L mit VALUE-Attribut muss Länge eins habenTyp-Parameter nach C-Art ist für Typ %s, aber Typ bei %L ist %sdie C++-Basisklasse »%s« benötigt mindestens eine »virtual«-FunktionC++-Konstruktoren und -Destruktoren werden für Objective-C-Felder nicht aufgerufendesignierte Initialisierer für C++ sind erst mit %<-std=c++20%> oder %<-std=gnu++20%> verfügbarNachschlagen von %qD würde in C++ ein Feld, keinen Typen zurückgebenC++ erfordert weitergegebenen Typ, nicht Enum-Typ, in %<va_arg%>%<constexpr%> von C++11 ist nur mit %<-std=c++11%> oder %<-std=gnu++11%> verfügbar%<noexcept%> von C++11 ist nur mit %<-std=c++11%> oder %<-std=gnu++11%> verfügbar%<thread_local%> in C++11 erlaubt dynamische Initialisierung und Zerstörung%<thread_local%> von C++11 ist nur mit %<-std=c++11%> oder %<-std=gnu++11%> verfügbarC++11 %<auto%> ist nur mit %<-std=c++11%> oder %<-std=gnu++11%> verfügbar%<constinit%> aus C++20 ist erst ab %<-std=c++20%> oder %<-std=gnu++20%> verfügbarC++20 %qE ist nur mit %<-fmodules-ts%> verfügbar%qE aus C++20 ist nur mit %<-fmodules-ts%> verfügbar, das ist jedoch noch nicht in %<-std=c++20%> enthaltenDie Schreibweise der C++20-Konzeptdefinition ist %<concept <Name> = <Ausdruck>%>C99-Designator %qE ist kein konstanter GanzzahlausdruckC99-Bezeichner %qE außerhalb von AggregatinitialisierungCASE-Marke bei %L überschneidet sich mit CASE-Marke bei %LUntertyp der intrinsischen CCTL-Funktion ist außerhalb des gültigen BereichsCDX-Befehle werden nur auf der R2-Architektur unterstütztCFString-Literalausdruck ist keine ZeichenkettenkonstanteCFString-Literal fehltCHANGE-TEAM-Anweisung bei %CCHARACTER-Ausdruck bei %L wird abgeschnitten (%ld/%ld)CHARACTER-Ausdruck wird in Zuweisung (%ld/%ld) bei %L abgeschnittenCHARACTER-Ausdruck wird in Konstruktor (%ld/%ld) bei %L abgeschnittenCHARACTER-Länge in !$OMP DECLARE REDUCTION %s ist bei %L nicht konstantCHARACTER-Länge bei %L muss konstant seinCHARACTER(*)-Funktion %qs bei %LCHARACTER(*)-Funktion %qs bei %L darf nicht feld-wertig seinCHARACTER(*)-Funktion %qs bei %L darf nicht zeiger-wertig seinCHARACTER(*)-Funktion %qs bei %L darf nicht rein seinCHARACTER(*)-Funktion %qs bei %L darf nicht rekursiv seinCLASS-Selektor bei %L erfordert Zwischenspeicher, was noch nicht implementiert istCLASS-Anweisung bei %CCOMMON-Block %qs bei %L kann nicht das EXTERNAL-Attribut habenCLASS-Variable %qs bei %L muss Attrappe, reservierbar oder Zeiger seinCLOSE-Anweisung bei %L erfordert eine UNIT-ZahlCLOSE-Anweisung in PURE-Prozedur bei %C nicht erlaubtCODIMENSION für %qs außerhalb seines INTERFACE-Körpers bei %L angegebenArgument der COLLAPSE-Klausel ist keine konstante positive Ganzzahl bei %CCOLLECT_GCC muss gesetzt seinCOLLECT_GCC muss gesetzt sein.COMMON %qs bei %L existiert nichtCOMMON %qs bei %L erfordert Auffüllen mit %d Bytes; bitte Elemente umordnen oder %<-fno-align-commons%> verwendenCOMMON bei %L wird mehrfach in Klauseln derselben OMP-DECLARE-TARGET-Direktive erwähntCOMMON bei %L erfordert Auffüllen mit %d Bytes; bitte Elemente umordnen oder %<-fno-align-commons%> verwendenCOMMON bei %L wurde in einer vorangehenden Direktive OMP DECLARE TARGET auf einen abweichenden DEVICE_TYPE festgelegtCOMMON-Block %qs bei %L kann nicht das EXTERNAL-Attribut habenCOMMON-Block %qs bei %L ist auch eine intrinsische ProzedurCOMMON-Block %qs bei %L wird bei %L als PARAMETER verwendetCOMMON-Block %qs bei %L, der auch ein Funktionsergebnis istCOMMON-Block %qs bei %L, der auch eine globale Prozedur istCOMMON-Block %qs bei %L verwendet denselben globalen Bezeichner wie die Entität bei %LCOMMON-Block /%s/ bei %C nicht gefundenCOMMON-Block bei %LCOMMON-Block bei %L mit Bindungsmarke %qs verwendet denselben globalen Bezeichner wie Entität bei %LCOMMON-Blockelement %qs bei %L darf in der PURE-Prozedur %qs kein EQUIVALENCE-Objekt seinCOMMON-Variable %qs bei %L muss konstante Zeichenlänge habenCOMPLEX-Argument %qs ist Argument des intrinsischen %qs bei %LCOMPLEX-Größen können nicht bei %L verglichen werdenCONTAINS-Block in Definition des abgeleiteten Typs bei %CCONTAINS-Anweisung bei %C ist bereits in einer enthaltenen ProgrammeinheitCONTAINS-Anweisung ohne FUNCTION- oder SUBROUTINE-Anweisung bei %LCONTIGUOUS-Attribut bei %CCONTIGUOUS-Anweisung bei %CCONVERT-Marke bei %LCOUNT-Argument der intrinsischen Funktion »EVENT_QUERY« bei %L muss definierbar seinCOUNT-Argument der intrinsischen Funktion EVENT_QUERY bei %L muss mindestens den Gültigkeitsbereich von Standard-Integer abdeckenDas COUNT-Argument für SYSTEM_CLOCK bei %L hat nicht-Standard-ArtDas COUNT_MAX-Argument für SYSTEM_CLOCK bei %L hat nicht-Standard-ArtDas COUNT_RATE-Argument für SYSTEM_CLOCK bei %L hat nicht-Standard-ArtDie ausgewählte CPU unterstützt nicht den x86-64-BefehlssatzCRIS-Port-Behauptung gescheitert: CRITICAL-Block innerhalb von OpenACC-Region bei %CCRITICAL-Block innerhalb von OpenMP-Region bei %CCRITICAL-Anweisung bei %CCYCLE-Anweisung bei %C ist nicht auf Nicht-Schleifenkonstrukt %qs anwendbarCYCLE-Anweisung bei %C für nicht-innerste eingeklappte »!$ACC LOOP«-SchleifeCYCLE-Anweisung bei %C für nicht-innerste eingestürzte !$OMP DO-SchleifeCYCLE-Anweisung bei %C für nicht-innerste gekachelte »!$ACC LOOP«-SchleifeVor jedem Funktionsprolog mcount für Profiling aufrufen.Dump-Funktion für Variablen und Funktion in IL aufrufen.Der Aufrufer kopiert Funktionsargumente, die über versteckte Referenzen übergeben werden.%s von %d Aufruf(en) ausgeführt
IMPORT %qs aus Host-Sichtbarkeitseinheit bei %C nicht möglich - existiert nicht.Das Modul, das gerade gebaut wird, kann nicht gleichzeitig mit USE verwendet werdenDas Teilmodul, das gerade gebaut wird, kann nicht gleichzeitig mit USE verwendet werdenAttribute des USE-verbundenen Symbols %s bei %L können nicht verändert werdenAttribute des USE-verbundenen Symbols bei %L können nicht verändert werdenVerzeichnis %s kann nicht gewechselt werdenLänge des Arrays bei %L kann nicht berechnet werden.ABSTRACT-Typ %qs bei %L kann nicht konstruiert werdenInterner Fehler: Cannot convert %qs to %qs at %L%qs bei %L kann nicht in interoperablen Typ konvertiert werden%s kann nicht nach %s bei %L umgewandelt werdenModuldatei %qs kann nicht gelöscht werden: %sTemporäre Moduldatei %qs kann nicht gelöscht werden: %sIntrinsisches Modul namens %qs bei %C nicht gefundenSchlüsselwort %qs in Aufruf von %qs bei %L kann nicht gefunden werdenName des aktuellen Verzeichnisses kann nicht ermittelt werdenDas implied-shape-Feld bei %L kann nicht mit Skalar initialisiert werdenParameter-Feld bei %L kann nicht mit Elementen variabler Länge initialisiert werdenVerzeichnis %s kann nicht erstellt werden»%s« kann nicht in den Speicher geladen werden»%s« kann nicht geöffnet werdenJSON-Ausgabedatei »%s« konnte nicht geöffnet werden
Datei %qs kann nicht geöffnet werdenModuldatei %qs kann bei %C nicht zum Lesen geöffnet werden: %sModuldatei %qs kann bei %C nicht zum Schreiben geöffnet werden: %sQuelldatei %s kann nicht geöffnet werden
GENERIC %qs bei %L kann nicht überschrieben werden»%s« kann nicht gelesen werdenBei %2$C geöffnete Moduldatei %1$qs kann nicht gelesen werden, da sie von einer anderen Version von GNU Fortran erstellt wurdeModuldatei %qs kann nicht in %qs umbenannt werden: %sInterner Fehler: Cannot set Cray pointee array spec.Interner Fehler: Cannot set pointee array spec.IMPLICIT bei %C kann nicht hinter IMPLICIT NONE angegeben werdenTippfehler abfangen.Gas veranlassen, Tomcat-Statistiken auszugeben.Index der Cgraph-Kantenanweisung nicht gefundenIndex der Cgraph-Kantenanweisung außerhalb des gültigen BereichsInterner Fehler: Chained transparent aliasesWertänderung bei Umwandlung von %qs in %qs bei %LNur die unteren 8 Bit des Stapelzeigers verändern.ABI ändern, um Doppelwortbefehle zuzulassen.Menge der Vorausplanung ändern.Größte Länge der bedingt ausgeführten Sequenzen ändern.Anzahl der temporären Register ändern, die für bedingt ausgeführte Sequenzen zur Verfügung stehen.Stapelzeiger ändern, ohne Unterbrechungen (Interrupts) auszuschalten.Sichtbarkeit wird geändert, um standardmäßig zu Microsoft Visual Studio zu passen.Zeichen %qs in Zeichenkette bei %C ist in Zeichenart %d nicht repräsentierbarZeichen %qs in Zeichenkette bei %L kann nicht in Zeichenart %d umgewandelt werdenZeichenargument %qs bei %L muss Länge 1 haben, da Prozedur %qs BIND(C) istZeichenkomponente %qs von %qs bei %L mit aufgeschobener Länge muss POINTER oder ALLOCATABLE seinZeichenwertige Scheinvariable %qs bei %L mit VALUE-Attribut muss konstante Länge habenZeichenlänge passt nicht (%ld/%ld) zwischen effektivem Argument und Scheinargument %qs mit vermuteter Form bei %LZeichenlänge passt nicht (%ld/%ld) zwischen effektivem Argument und Zeiger oder reservierbarem Scheinargument %qs bei %LZeichenlänge des effektiven Arguments kürzer als das des Scheinarguments %qs (%lu/%lu) bei %LZeichenlänge der Komponente %qs muss ein konstanter Spezifikationsausdruck bei %L seinZeichenwertiges Argument %qs der Anweisungsfunktion bei %L muss konstante Länge habenZeichenwertige interne Funktion %qs bei %L darf keine angenommene Länge habenZeichenwertige Modulprozedur %qs bei %L darf keine vermutete Länge habenZeichenwertige Anweisungsfunktion %qs bei %L muss konstante Länge habenZur Laufzeit auf Stapelüberlauf prüfen.Auf Syntaxfehler prüfen, dann anhalten.Rückgabewert des C++-Operators new prüfen.Strategie zur Erzeugung von Zeichenkettenoperationen wählen.Häppchengröße des OMP-Schedulers für Schleifen, die durch parloops parallelisiert wurden.Klausel erwartet bei %CAlle Tuningfeatures zurücksetzen.Register, die beim Funktionsaufruf verwendet wurden, am Ende auf 0 zurücksetzen.Hardwarefähigkeiten beim Linken löschen.BSS komplett löschen und mit Null initialisierte Werte in BSS platzieren.Koarray-Komponente %qs bei %L muss reservierbar mit aufgeschobener Form seinCoarray-Deklaration bei %CKoarray-Bezeichner bei %C, aber %qs ist kein KoarrayKoarray-Scheinargument %qs bei %L für elementare ProzedurCoarray-Scheinvariable %qs bei %L in BIND(C)-Prozedur %qs nicht erlaubtKoarray-Spezifikation in ALLOCATE-Anweisung bei %L erforderlichKoarray-Variable %qs bei %L darf keine Kodimensionen mit aufgeschobener Form habenCoarrays bei %C ausgeschaltet, %<-fcoarray=%> schaltet sie einKoarrays bei %L ausgeschaltet, %<-fcoarray=%> schaltet sie einCode zur Neu-Reservierung des reservierbaren Feldes bei %L wird hinzugefügtCode zur Neu-Reservierung der reservierbaren Variable bei %L wird hinzugefügtCode-Größe: small, medium oder large.Koindex der Kodimension %d muss bei %L ein Skalar seinUnpassende Ränge des Koindex in Feldreferenz bei %L (%d/%d)Koindiziertes effektives ASYNCHRONOUS- oder VOLATILE-Argument bei %L erfordert, dass Schein-%qs weder ASYNCHRONOUS noch VOLATILE hatEffektives koindiziertes Argument bei %L in PURE-Prozedur wird an POINTER-Scheinargument übergebenEffektives koindiziertes Argument bei %L in PURE-Prozedur wird an INTENT(%s)-Argument übergebenKoindiziertes effektives Argument bei %L an scheinreservierbares %qs erfordert INTENT(IN)Koindiziertes effektives Argument bei %L an Scheinzeiger %qsKoindiziertes effektives Argument bei %L mit reservierbarer endgültiger Komponente für Schein-%qs erfordert entweder VALUE oder INTENT(IN)Koindiziertes effektives Argument bei %L mit endgültiger ZeigerkomponenteKoindiziertes reservierbares Objekt bei %LKoindizierter Ausdruck bei %L wird einer Variable abgeleiteten Typs mit einer POINTER-Komponente in einer PURE-Prozedur zugewiesenKoindizierter Ausdruck auf Zeigerkomponente %qs in Strukturkonstruktor bei %LKoindiziertes Objekt mit polymorpher reservierbarer Subkomponente bei %LKoindiziertem polymorphen effektiven Argument bei %L wird polymorphes Scheinargument %qs übergebenKoindizierte Prozedurzeiger-Komponente bei %CKoindizierte Variable darf keine reservierbare endgültige Komponente in Zuweisung bei %L habenIm Falle eines internen Fehlers im C/C++-Compiler die Debuginformationen sammeln und in temporäre Datei ausgeben.Komma hinter * bei %C ist nur zusammen mit einer I/O-Liste erlaubtKomma vor Ein-/Ausgabeelementliste bei %LKomma bei %C erwartetFehlendes Komma nach P-Deskriptor in Formatzeichenkette bei %LCode für »Big Endian«-Modus erzeugen.Code für »Little Endian-Modus erzeugen. Dies ist der Standard.Code übersetzen, der Cygwin DLL-Wrapper benötigt, um C++-Operator new/delete zu ersetzen.Für 32-Bit-Zeiger kompilieren.Für 64-Bit-Zeiger kompilieren.Für ETRAX 100 (CRIS v8) übersetzen.Für ETRAX 4 (CRIS v3) übersetzen.Für V8+-ABI-übersetzen.Für das DSBT-Shared-Library-ABI kompilieren.Für m32r übersetzen.Für m32r2 übersetzen.Für m32rx übersetzen.Für v850-Prozessor übersetzen.Für v850e-Prozessor übersetzen.Für v850e1-Prozessor übersetzen.Für v850e2-Prozessor übersetzen.Für v850e2v3-Prozessor übersetzen.Für v850e3v5-Prozessor übersetzen.Für die v850es-Variante des v850e1 übersetzen.Debuggingcode mitcompilieren.Unittest-Code eincompilieren.Release-Version compilieren.Ganze Übersetzungseinheit auf einmal übersetzen.Mit 32-Bit Longs und Zeigern kompilieren (einzige unterstützte Option).Mit 32-Bit Longs und Zeigern kompilieren.Mit 64-Bit Longs und Zeigern kompilieren.Übersetzungszeit-Bonus, den IPA-CP an Kandidaten vergibt, die Schleifengrenzen oder Schrittweiten bekannt machen.Komplexes Argument von LOG bei %L kann nicht Null seinKomplexe Multiplikation und Division befolgen Fortran-Regeln.Komponente %qs bei %C bereits bei %L deklariertKomponente %qs bei %C bereits im Elterntypen bei %L deklariertKomponente %qs bei %C ist eine PRIVATE-Komponente von %qsKomponente %qs bei %L kann nicht ALLOCATABLE-Attribut haben, da es Element des BIND(C)-abgeleiteten Typs %qs bei %L istKomponente %qs bei %L kann nicht POINTER-Attribut haben, da es Element des BIND(C)-abgeleiteten Typs %qs bei %L istKomponente %qs bei %L hat das CONTIGUOUS-Attribut, aber ist kein FeldzeigerKomponente %qs bei %L mit TYPE(C_PTR) oder TYPE(C_FUNPTR) darf kein Koarray seinKomponente %qs bei %L mit Koarray-Komponente darf ein Nicht-Zeiger und nicht-reservierbares Skalar seinKomponente %qs in abgeleitetem Typ %qs bei %L könnte nicht C-kompatibel seinKomponente %qs in abgeleitetem Typ %qs bei %L könnte nicht C-kompatibel sein, obwohl abgeleiteter Typ %qs BIND(C) istKomponente %qs wird im Strukturkonstruktor bei %L doppelt initialisiertKomponente %qs von %qs bei %L hat den gleichen Namen wie eine geerbte typgebundene ProzedurKomponente %qs von BIND(C)-Typ bei %L muss Länge eins habenKomponente %qs mit CLASS bei %C muss allozierbar oder Zeiger seinKomponente %s bei %L des Typs EVENT_TYPE muss eine Kodimension haben oder eine Subkomponente eines Koarrays sein, was wegen des Zeigerattributs der Komponente nicht möglich istKomponente %s bei %L des Typs LOCK_TYPE muss eine Kodimension haben oder eine Subkomponente eines Koarrays sein, was wegen des Zeigerattributs der Komponente nicht möglich istKomponente %s des bei %L deklarierten SEQUENCE-Typen hat kein SEQUENCE-AttributKomponente bei %C muss ein POINTER-Attribut habenKomponenteninitialisierung ohne Namen hinter Komponente namens »%s« bei %LKomponente rechts einer Teilreferenz mit Rang ungleich Null darf bei %L kein Attribut ALLOCATABLE habenKomponente rechts einer Teilreferenz mit Rang größer Null darf kein POINTER-Attribut bei %L habenKomponente mit KIND-Attribut bei %C muss ein INTEGER seinKomponente mit KIND-Attribut bei %C muss per Default Ganzzahlart (%d) seinKomponente mit LEN-Attribut bei %C muss INTEGER seinKomponente mit LEN-Attribut bei %C muss per Default Ganzzahlart (%d) seinKomponenten in TYPE bei %C müssen CONTAINS vorausgehenLocview-Rücksetzpunkte auf Basis der geschätzten Befehlslängen berechnen.Berechnetes GOTO bei %CVerkettungsoperator bei %L muss Zeichenketten der gleichen Sorte verkettenVerkettungsoperator in Ausdruck bei %L muss zwei CHARACTER-Operanden habenFür das newlib-Board-spezifische Laufzeitumgebung konfigurieren. Vorgabewert ist or1ksim.Konfiguriert mit: %s
In Konflikt stehende Initialisierungen in Union bei %L und %LNäher der IBM XLC-Semantik entsprechen.Mit nichts besonderem übereinstimmen.Mit dem ISO-C-Standard von 1990, wie 1994 ergänzt, übereinstimmen.Mit dem ISO-C-Standard von von 1990 mit GNU-Erweiterungen übereinstimmen.Mit dem ISO-C-Standard von 1990 übereinstimmen.Mit dem ISO-C++-Standard von 1998 (inclusive technischer Korrekturen von 2003 sowie GNU-Erweiterungen) übereinstimmen.Mit dem ISO-C++-Standard von 1998 (inclusive technischer Korrekturen von 2003) übereinstimmen.Mit dem ISO-C-Standard von von 1999 mit GNU-Erweiterungen übereinstimmen.Mit dem ISO-C-Standard von 1999 übereinstimmen.Mit dem ISO-C-Standard von von 2011 mit GNU-Erweiterungen übereinstimmen.Mit dem ISO-C-Standard von 2011 übereinstimmen.Mit dem ISO-C++-Standard von 2011 mit GNU-Erweiterungen übereinstimmen.Mit dem ISO-C++-Standard von 2011 übereinstimmen.Mit dem ISO-C++-Standard von 2014 mit GNU-Erweiterungen übereinstimmen.Mit dem ISO-C++-Standard von 2014 übereinstimmen.Mit dem ISO-C-Standard von 2017 (veröffentlicht 2018) mit GNU-Erweiterungen übereinstimmen.Mit dem ISO-C-Standard von 2017 (2018 veröffentlicht) übereinstimmen.Mit dem ISO-C++-Standard von 2017 mit GNU-Erweiterungen übereinstimmen.Mit dem ISO-C++-Standard von 2017 übereinstimmen.Mit dem ISO-C++-Standard 2020 übereinstimmen (experimentelle und unvollständige Unterstützung).Mit dem ISO-C++-Standard für 2020 mit GNU-Erweiterungen (experimentelle und unvollständige Unterstützung) übereinstimmen.Mit dem ISO-C++-Standardentwurf 2023 übereinstimmen (experimentelle und unvollständige Unterstützung).Mit dem ISO-C++-Standardentwurf für 2023 mit GNU-Erweiterungen (experimentelle und unvollständige Unterstützung) übereinstimmen.Mit dem ISO-C-Standardentwurf 202X übereinstimmen (experimentelle und unvollständige Unterstützung).Mit dem ISO-C-Standardentwurf für 202X mit GNU-Erweiterungen (experimentelle und unvollständige Unterstützung) übereinstimmen.Mit dem Standard ISO Fortran 2003 übereinstimmen.Mit dem Standard ISO Fortran 2008 inkl. TS 29113 übereinstimmen.Mit dem Standard ISO Fortran 2008 übereinstimmen.Mit dem Standard ISO Fortran 2018 übereinstimmen.Mit dem Standard ISO Fortran 95 übereinstimmen.Mit der in GCC 4.0 implementierten Version Objective-C 1.0 übereinstimmen.Der ABI o32-FPXX entsprechen.Zugriff auf Speicher in Bytegröße als langsam betrachten.Typ »int« als 16 Bit breit ansehen.Typ »int« als 32 Bit breit ansehen.Konstanter Ausdruck in FORMAT-Markierung bei %L muss vom Standard-CHARACTER-Typ seinKonstanten-Ausdruck erforderlich bei %CKonstanter logischer Wert in CASE-Anweisung wird bei %L wiederholtNetze konstruieren und nicht zusammenhängende Verwendungen einzelner Variablen aufteilen.Enthaltene Funktion %qs bei %L hat keinen IMPLICIT-TypEnthaltene Prozedur %qs bei %C steht in Konflikt mit Prozedur, die bei %L definiert wurdeEnthaltene Prozedur %qs bei %C ist bereits mehrdeutigSchnittstellenprozedur %qs bei %L hat denselben Namen wie die umgebende ProzedurEnthaltene Prozedur %qs bei %L einer PURE-Prozedur muss auch PURE seinErstellen der Steuerung für Kehrwertabschätzungen.Den IEEE-Trap-Modus steuern.Den generierten FP-Rundungsmodus steuern.Die Präzision der FP-Ausnahmen steuern.Steuern, welche Ereignisse in den Diagnosepfaden angegeben werden.Steuert, wie der Schleifenvektorisierer partielle Vektoren verwendet. 0 bedeutet nie, 1 bedeutet nur für Schleifen, die nicht unbedingt vektorisiert werden müssen, 2 bedeutet für alle Schleifen. Voreinstellung ist 2.Umwandlung von %qs in %qs bei %LUmwandlung von %s in %s bei %LUmwandlung von %s in standardartiges COMPLEX(%d) bei %L könnte Genauigkeit verlieren, evtl. KIND-Argument verwendenUmwandlung einer Unendlichkeit oder NaN bei %L in INTEGERAdressen der Form BASE + LARGE_OFFSET in NEW_BASE + SMALL_OFFSET konvertieren, damit mehr Speicherzugriffe als komprimierte Anweisungen generiert werden können. Zielt derzeit auf 32-Bit-Integer-Laden/Speichern ab.Umwandlung bedingter Sprünge in innersten Schleifen in zweiglose Äquivalente durchführen.Gleitkommakonstanten in Konstanten einfacher Genauigkeit umwandeln.Funktionsrückkehr in Aufruf umwandeln und Thunk zurückgeben.Indirekte Aufrufe und Sprünge in Aufrufe umwandeln und Thunks zurückgeben.Feldabschnitte bei Prozedureintritt in einen zusammenhängenden Block kopieren.Copyright %s 2021 Free Software Foundation, Inc.
Unpassender Korang in Argument %qs bei %L (%d und %d)Kosten, zu denen GCSE-Optimierungen nicht die Entfernung beeinträchtigen werden, um die ein Ausdruck verschoben werden kann.Für Sprungbefehl anzunehmende Kosten.Für einen Multiplikationsbefehl anzunehmende Kosten.Für einen Multiplikationsbefehl anzunehmende Kosten; 4 entspricht einem normalen Befehl.Echte Art mit mindestens %d Bits konnte nicht gefunden werdenAddis-Wert für Fusion kann nicht erzeugt werdenAusgabedatei »%s« konnte nicht geöffnet werden
Spekulative Abhängigkeiten während Prioritätsberechnung der Befehle zählen.Cray-Zeigerende bei %C kann nicht Feld mit impliziter Form seinCray-Zeigerende bei %L tritt in mehreren pointer()-Anweisungen aufCray-Zeigerziel %qs in %s-Klausel bei %LCray-Zeigerziel %qs in Klausel SHARED bei %LCray-Zeigerziel-Objekt %qs in Klausel %s bei %LCray-Zeigerziel-Objekt %qs von abgeleitetem Typ in »%s«-Klausel bei %LCray-Zeigerziel-Objekt %qs von polymorphem Typ in %qs-Klausel bei %LCray-Zeiger %qs in %s-Klausel bei %LCray-Zeiger bei %C hat %d Bytes Genauigkeit; Speicheradressen benötigen %d BytesCray-Zeiger bei %C muss eine Ganzzahl seinCray-Zeiger-Deklaration bei %C benötigt den Schalter %<-fcray-pointer%>Cray-Zeiger-Objekt %qs in Klausel %s bei %LCray-Zeiger-Objekt von abgeleitetem Typ %qs in »%s«-Klausel bei %LCray-Zeiger-Objekt %qs von polymorphem Typ in %qs-Klausel bei %LGUI-Anwendung erzeugen.Dynamisch gebundene, lageunabhängige ausführbare Datei erzeugen.Shared Library erzeugen.Statische, lageunabhängige ausführbare Datei erzeugen.Kanonische Induktionsvariablen in Schleifen erzeugen.Konsolenanwendung erzeugen.Von »gcov« benötigte Dateien anlegen.»%s« wird erzeugt
Zwischenergebnis-Feld bei %L wird erzeugtBei %L wird ein vorübergehendes Feld für Argument %qs erzeugtvariadische Funktionen im D-Stil können nicht mit »-betterC« verwendet werdenDATA-Feld %qs bei %L muss in vorheriger Deklaration angegeben werdenDATA-Element %qs bei %L kann keinen Coindex habenDas DATA-Element %qs bei %L kann kein ALLOCATABLE-Attribut habenDATA-Element %qs bei %L ist ein Zeiger und muss daher ein vollständiges Feld seinDas DATA-Objekt in der Nähe von %L hat das Zeiger-Attribut und der entsprechende DATA-Wert ist kein gültiges initial-data-targetDATA-Anweisung bei %C hinter der ersten ausführbaren AnweisungDATA-Anweisung bei %C kann nicht innerhalb von INTERFACE auftretenDATA-Anweisung bei %C ist in PURE-Prozedur nicht erlaubtDATA-Anweisung bei %L hat mehr Werte als VariablenDATA-Anweisung bei %L hat mehr Variablen als WerteDC-Format-Spezifizierer bei %C nicht erlaubtDEALLOCATE ObjektDEALLOCATE von Koarray bei %C in CRITICAL-BlockDEALLOCATE von Koarray bei %C in DO CONCURRENT-BlockDECIMAL= bei %L ist in Fortran 95 nicht erlaubtDEF_INTERNAL_FLT_FN (%s) hat keine verknüpften eingebauten FunktionenDEF_INTERNAL_INT_FN (%s) hat keine verknüpften eingebauten FunktionenDELIM= bei %L ist in Fortran 95 nicht erlaubtDEPEND SINK wird zusammen mit DEPEND SOURCE an demselben Konstrukt bei %L verwendetDETACH-Ereignisbehandler %qs in %s-Klausel bei %LDETACH-Ereignisbehandler %qs in SHARED-Klausel bei %LDIM-Argument bei %L ist außerhalb der GrenzenDIM-Argument ohne COARRAY-Argument ist für intrinsisches THIS_IMAGE bei %L nicht erlaubtDIMENSION für %qs außerhalb seines INTERFACE-Körpers bei %L angegebenArgument DISTANCE= für NUM_IMAGES bei %LArgument DISTANCE= für THIS_IMAGE bei %LDie chunk_size der DIST_SCHEDULE-Klausel bei %L erfordert einen skalaren INTEGER-AusdruckDO CONCURRENT-Konstrukt bei %CDO-Schleife bei %L ist undefiniert, da sie überläuftDO-Schleife bei %L ist undefiniert, da sie unterläuftDO-Schleife bei %L wird null mal ausgeführtDO-Schrittwert ist NullDO-Abbruchanweisung ist nicht »END DO« oder »CONTINUE« mit Marke %d bei %CDO-Iterator %qs bei %L ist innerhalb eines Iterators mit gleichem NamenDOUBLE COMPLEX bei %CDP-Format-Spezifizierer bei %C nicht erlaubtDTIO-%s-Prozedur bei %L muss rekursiv seinDTIO-Zeichenargument bei %L muss angenommene Länge habenDTIO-Scheinargument bei %L muss ein Skalar seinDTIO-Scheinargument bei %L muss ein ASSUMED SHAPE ARRAY seinDTIO-Scheinargument bei %L muss von KIND = %d seinDTIO-Scheinargument bei %L muss vom Typ %s seinDTIO-Scheinargument bei %L muss INTENT %s habenDTIO-Prozedur %qs bei %L muss ein Unterprogramm seinDarwin unterstützt »-mfentry« oder verwandte Optionen nichtDarwin ist keine mx32-PlattformDatenelement oberhalb der oberen Feldgrenze bei %LDatenelement unterhalb der unteren Feldgrenze bei %LDaten werden im Big-Endian-Format gespeichert.Daten werden im Little-Endian-Format gespeichert (Standard).Daten werden ausgehend vom Start des Programmcodes statt der GOT adressiert (mit -fPIC/-fPIE).Datenziel bei %L darf keinen Koindex habenDatenübertragungselement bei %L kann keine vollständige Referenz auf Feld vermuteter Größe seinElement zum Datenaustausch bei %L kann nicht polymorph sein, außer es wird von einer definierten E/A-Prozedur verarbeitetDatenübertragungselement bei %L kann keine ALLOCATABLE-Komponenten haben, außer es wird von einer definierten E/A-Prozedur verarbeitetDatenübertragungselement bei %L kann keine POINTER-Komponenten haben, außer es wird von einer definierten E/A-Prozedur verarbeitetDatenübertragungselement bei %L kann keine PRIVATE-Komponenten habenDatenübertragungselement bei %L kann keine PRIVATE-Komponenten haben, außer es wird von einer definierten E/A-Prozedur verarbeitetDatenübertragungselement bei %L kann keine Prozedurzeiger-Komponenten habenDatenzeigerobjekt bei %L muss unbegrenzt polymorph oder von einem Typ mit BIND- oder SEQUENCE-Attribut sein, um zum unbegrenzt polymorphen Ziel zu passenDebugging-Bibliothe, die anstelle von phobos verwendet wird.Wenn die Methode %qD als »final« deklariert wäre, würde das die Devirtualisierung von %d Aufruf einschaltenWenn die Methode %qD als »final« deklariert wäre, würde das die Devirtualisierung von %d Aufrufen einschaltenWenn die Methode %qD als »final« deklariert wäre, würde das die Devirtualisierung von %d Aufruf, der %lli-mal ausgeführt wurde, einschaltenWenn die Methode %qD als »final« deklariert wäre, würde das die Devirtualisierung von %d Aufrufen, die %lli-mal ausgeführt wurden, einschaltenWenn Typ %qD »final« wäre, würde %i Aufruf devirtualisiert werdenWenn Typ %qD »final« wäre, würden %i Aufrufe devirtualisiert werdenWenn Typ %qD »final« wäre, würde %i Aufruf, der %lli-mal ausgeführt wurde, devirtualisiert werdenWenn Typ %qD »final« wäre, würden %i Aufrufe, die %lli-mal ausgeführt wurden, devirtualisiert werdenWenn der virtuelle Destruktor von %qD als »final« deklariert wäre, würde das die Devirtualisierung von %d Aufruf einschaltenWenn der virtuelle Destruktor von %qD als »final« deklariert wäre, würde das die Devirtualisierung von %d Aufrufen einschaltenWenn der virtuelle Destruktor von %qD als »final« deklariert wäre, würde das die Devirtualisierung von %d Aufruf, der %lli-mal ausgeführt wurde, einschaltenWenn der virtuelle Destruktor von %qD als »final« deklariert wäre, würde das die Devirtualisierung von %d Aufrufen, die %lli-mal ausgeführt wurden, einschaltenStandardbibliothek, die anstelle von phobos verwendet wird.Zurückholen der Funktionsargumente vom Stapel bis auf weiteres hinauszögern.Aufgeschobenes Feld %qs bei %L ist nicht in einem Initialisierungs-Ausdruck erlaubtParameter aufgeschobenen Typs wird noch nicht unterstütztUnerreichbare Befehle löschen, die Ausnahmen werfen können.Unnötige Nullzeigerprüfungen löschen.Gelöschte Funktion:Veraltet zugunsten von -std=c++11.Veraltet zugunsten von -std=c++14.Veraltet zugunsten von -std=c++17.Veraltet zugunsten von -std=c11.Veraltet zugunsten von -std=c99.Veraltet zugunsten von -std=gnu++11.Veraltet zugunsten von -std=gnu++14.Veraltet zugunsten von -std=gnu++17.Veraltet zugunsten von -std=gnu11.Veraltet zugunsten von -std=gnu99.Veraltet zugunsten von -std=iso9899:1999.Veraltete Option. Stattdessen -mno-vrsave verwenden.Veraltete Option. Stattdessen -mvrsave verwenden.Veraltet. Dieser Schalter hat keine Auswirkung.Abgeleiteter Typ %qs bei %C wird verwendet, bevor er definiert wirdAbgeleiteter Typ %qs bei %L kann nicht das SEQUENCE-Attribut haben, da er BIND(C) istAbgeleiteter Typ %qs bei %L wurde nicht deklariertAbgeleiteter Typ %qs bei %L darf nicht ABSTRACT seinAbgeleiteter Typ %qs bei %L muss eine Erweiterung von %qs seinAbgeleiteter Typ %qs bei %L muss erweiterbar seinAbgeleiteter Typ %qs kann bei %C nicht als Variable verwendet werdenAbgeleiteter Typ %qs kann bei %L nicht als Variable verwendet werdenAbgeleiteter Typ %qs, bei %L deklariert, muss BIND-Attribut haben, um C-kompatibel zu seinAbgeleiteter Typ %qs wird als Argument bei %L verwendetAbgeleiteter Typ %qs mit Attribut BIND(C) bei %L ist leer und könnte für entsprechenden C-Prozessor unzugreifbar seinAbgeleiteter Typ bei %C kann nur PRIVATE im Spezifikationsteil eines Moduls seinAbgeleiteter Typ bei %C kann nur PUBLIC im Spezifikationsteil eines Moduls seinAbgeleiteter Typ bei %C wurde vorher nicht definiert und kann daher nicht in einer abgeleiteten Typdefinition auftretenKomponente %C abgeleiteten Typs ist kein zulässiges EQUIVALENCE-ElementDeklaration abgeleiteten Typs mit FINAL bei %C muss im Spezifikationsteil eines Moduls seinDefinition eines abgeleiteten Typs bei %C mit leerem CONTAINS-AbschnittDefinition des abgeleiteten Typs bei %C ohne KomponentenAbgeleitete Typdefinition von %qs bei %C wurde bereits definiertAbgeleiteter Typname %qs bei %C hat bereits einen BasistypAbgeleiteter Typname %qs bei %C hat bereits einen Basistypen von %sVariable %qs abgeleiteten Typs bei %L kann keine ALLOCATABLE-Komponenten haben, um EQUIVALENCE-Objekt zu seinVariable %qs abgeleiteten Typs bei %L muss SEQUENCE-Attribut haben, um EQUIVALENCE-Objekt zu seinVariable %qs abgeleiteten Typs bei %L mit Standardinitialisierung kann nicht in EQUIVALENCE mit einer Variablen in COMMON seinVariable %qs abgeleiteten Typs bei %L mit Zeigerkomponenten kann kein EQUIVALENCE-Objekt seinVariable %qs abgeleiteten Typs in COMMON bei %L hat eine endgültige Komponente, die allozierbar istVariable %qs abgeleiteten Typs in COMMON bei %L hat weder das SEQUENCE- noch das BIND(C)-AttributVariable %qs abgeleiteten Typs in COMMON bei %L darf nicht Standardinitialisierung habenBei %2$L deklarierter abgeleiteter Typ %1$qs muss ABSTRACT sein, da %3$qs DEFERRED und nicht überschrieben istAbgeleiteter Typ %qs bei %C mit BIND(C) darf keinen CONTAINS-Abschnitt habenAbgeleiteter Typ %qs bei %C mit SEQUENCE darf keinen CONTAINS-Abschnitt habenScheinargument %qs abgeleiteten Typs bei %L war als INTENT(OUT) deklariert, aber nicht gesetzt und hat keine StandardinitialisierungKeine weiteren Informationen verfügbar.Keine weiteren Informationen verfügbar.Keine weiteren Informationen verfügbar.Keine weiteren Informationen verfügbar.Ausführungspfade erkennen, die ausgelöst werden, indem ein Nullwert auf eine Weise verwendet wird, die durch ein »returns_nonnull«- oder »nonnull«-Attribut verboten ist. Solche Pfade werden aus dem Hauptablauf herausgenommen und durch eine Trap ersetzt.Ausführungspfade erkennen, die durch Dereferenzieren eines Nullzeigers fehlerhaftes oder undefiniertes Verhalten auslösen. Solche Pfade werden aus dem Hauptablauf herausgenommen und durch eine Trap ersetzt.Feststellen, welche Abhängigkeiten zwischen Befehlen als teuer angesehen werden.Unterschiedliche CHARACTER-Längen (%ld/%ld) in FeldkonstruktorUnterschiedliche CHARACTER-Längen (%ld, %ld) in Feldkonstruktor bei %LVerschiedene Zeichenarten bei %LParameter verschiedener Typen in Zeigerzuweisung bei %LVerschiedene Ränge in Zeigerzuweisung bei %LAndere Form für %s bei %L für Dimension %d (%d und %d)Unterschiedliche Form für Argumente %qs und %qs bei %L für intrinsisches %<dot_product%>Andere Form bei Dimension 1 für Argumente %qs und %qs bei %L für intrinsisches matmulAndere Form bei Dimension 2 für Argument %qs und Dimension 1 für Argument %qs bei %L für intrinsisches matmulVerschiedene Typ-Arten bei %LVerschiedene Typen in Zeigerzuweisung bei %L; Versuch der Zuweisung von %s an %sFür %s bei %L wurden Dimensionen nach dessen Initialisierung angegebenDie Warnung »-Wframe-larger-than=« ausschalten. Entspricht »-Wframe-larger-than=<SIZE_MAX>« oder größer.Die Warnung »-Wlarger-than=« ausschalten. Entspricht »-Wlarger-than=<SIZE_MAX>« oder größer.ARCompact-spezifischen Durchlauf, um Befehle für bedingte Ausführung zu erzeugen, ausschalten.Gleitkommaregister ausschalten.FPU-ISA wird ausgeschaltet, kann mit %<-mfloat-abi=soft%> eingeschaltet werdenLR- und SR-Befehle davon abhalten, FPX-Erweiterungsregister zu verwenden.Durchlauf für Skalar-nach-Vektor-Optimierung ausschalten, der 64-Bit-Ganzzahlberechnungen in Vektorberechnungen umwandelt.Die Warnung Walloc-size-larger-than= ausschalten. Entspricht Walloc-size-larger-than=<SIZE_MAX> oder größer.Die Warnung Walloca-larger-than= ausschalten. Entspricht Walloca-larger-than=<SIZE_MAX> oder größer.Die Warnung »-Wstack-usage=« ausschalten. Entspricht »-Wstack-usage=<SIZE_MAX>« oder größer.Die Warnung Wvla-larger-than= ausschalten. Entspricht Wvla-larger-than=<SIZE_MAX> oder größer.Gleitkommaoptimierungen ausschalten, die die IEEE-Vorzeichenbehaftung von Null nicht beachten.Hardware-Gleitkommabefehle ausschalten.Indizierte Adressierung ausschalten.Von IEEE-Signalisierungs-NaNs wahrnehmbare Optimierungen ausschalten.Optimierungen, die Standard-Rundungsverhalten für Gleitkomma annehmen, ausschalten.Lageunabhängigen Code (PIC) für Verwendung in BS-Kernelcode ausschalten.Vorverarbeitung ausschalten.Leerregister ausschalten.Verwendung der RX-FPU-Befehle ausschalten.Direkte Aufrufe von globalen Funktionen verbieten.Mehr als »msched-max-memory-insns« in Befehlsgruppe verbieten. Ansonsten ist Grenze »weich« (Nicht-Speicheroperationen beim Erreichen der Grenze bevorzugen).Optimierung der Endrekursion verbieten, wenn die aufrufende Routine die Zeichenlänge weggelassen haben könnte.Reine und konstante Funktionen entdecken.Nur-lese und nicht-adressierbare statische Variablen entdecken.Nur-lese-, nur-schreib- und nicht-adressierbare statische Variablen entdecken.Übersetzungszeitstatistik anzeigen.Während der Übersetzung angesammelte Statistik anzeigen.Codebaum nach Frontend-Optimierung anzeigen.Codebaum nach Analyse anzeigen.Codebaum nach Analyse anzeigen; veraltete Option.Compiler-Version anzeigen.Frontend-AST nach dem Parsen und der semantischen Analyse anzeigen.Die globale Symboltabelle nach dem Parsen anzeigen.Die Symbole in umgekehrter Reihenfolge ausgeben.Diese Informationen anzeigen.Division durch Null bei %LDivision durch Null beim Konvertieren von %s in %s bei %LDivisionsstrategie, eine von: call-div1, call-fp, call-table.In LRA die ablaufsensitive Rematerialisierung durchführen.Adressausrichtung von Aufrufbefehlen durchführen.Dispatch-Planung durchführen, wenn Prozessor bdver1, bdver2, bdver3, bdver4 oder znver1 ist und Haifa-Planung ausgewählt ist.Die D-Programmstart-Dateien mit dem Compilat binden.Keine BRcc-Befehle in arc_reorg erzeugen.Verbieten, dass konstante Daten in Codeabschnitten platziert werden.Nicht von einem großen TLS-Segment ausgehen.Nicht annehmen, dass Funktionen, die im Trainingslauf nie ausgeführt wurden, kalt sind.Nicht annehmen, dass Standard-C-Bibliotheken und »main« vorhanden sind.Leerregister nicht ausschalten.Kommentare in Makroexpansionen nicht verwerfen.Kommentare nicht verwerfen.Übersetzte Funktionen oder verstrichene Zeit nicht ausgeben.Gemeinsame Elemente in Templatevergleichen nicht weglassen.Keine Adressierungsmodi mit Seiteneffektzuweisungen erzeugen.Keine komplexen Ganzzahlkonstanten im Nur-Lese-Speicher erzeugen.Keinen Funktionsprolog oder -epilog erzeugen.Strenge Ausrichtung nicht erzwingen.Keine #line-Direktiven erzeugen.Keine .size-Direktiven erzeugen.Nicht unbedingt einen einzigen Austrittspunkt für jede Funktion erzeugen.Keinen Code generieren, der nur im Supervisor-Modus läuft (Standard).Keine Befehle für Laden/Speichern mit Aktualisierung erzeugen.Keine mpy-Befehle für ARC700 erzeugen.Keine unausgerichteten Speicherzugriffe erzeugen.Ganzzahldivision nicht »inline« generieren.Quadratwurzel nicht »inline« generieren.Nicht gegen die Geräte-spezifische Bibliothek lib<MCU>.a binden.D-Standardbibliothek nicht in die Compilierung einbinden.PIC-Register nicht in Funktionsprologen laden.Nicht nach Objekten im Standardverzeichnis suchen.ABI-Schalter nicht in e_flags markieren.Keine Optimierungen durchführen, die die Stapelverwendung deutlich erhöhen.Gleitkommakonstanten nicht ins TOC legen.Symbol+Offset-Konstanten nicht ins TOC legen.Keine system- oder GCC-spezifischen Makros vordefinieren.Template-Spezialisierungen für die Ausgabe nicht als Template-Signatur gefolgt von den Argumenten umformatieren.Keine Standard-Start-Adresse 0x100 des Programmes bereitstellen.In Überwachungsfunktionen erweiterte Register nicht auf Stapel sichern.Standard-System-Einfügepfade nicht durchsuchen (die mit -isystem angegebenen werden trotzdem noch verwendet).Standard-System-Einfügeverzeichnisse nicht für C++ durchsuchen.Eingebaute Funktionen und Codeerzeugung für SSE4.1 und SSE4.2 nicht unterstützen.Keine Fehlersuchinformationen für C++-Klassen unterdrücken.Warnungen aus System-Headern nicht unterdrücken.Lokale Variablen und COMMON-Blöcke behandeln, als ob sie in SAVE-Anweisungen benannt worden wären.Ausrichtung von Code und der Nur-Lese-Daten nicht optimieren.Stapelausrichtung nicht optimieren.Ausrichtung der schreibbaren Daten nicht optimieren.Keine MDMX-Befehle verwenden.Keine MIPS-3D-Befehle verwenden.VAX-FP nicht verwenden.Keine Cache entleerende Funktion verwenden, bevor Stapel-Trampoline aufgerufen werden.Adressen, die globale Register belegen, nicht verwenden.Keine Bedingungscodes normaler Befehle verwenden.Hardware-Gleitkommabefehle nicht verwenden.Hardware-Gleitkommabefehle nicht verwenden.Hardware-Gleitkommabefehle nicht verwenden.Hardware-Vierfach-Gleitkommabefehle nicht verwenden.Die AIX-Vector-Extended-ABI nicht verwenden.AltiVec-ABI-Erweiterungen nicht verwenden.Bit-Feld-Befehle nicht verwenden.Den callt-Befehl nicht verwenden (Standard).Nicht die gerätespezifische Specs-Datei »device-specs/specs-<MCU>« verwenden.Spezifischen Befehl »fabsd« nicht verwenden.Spezifischen Befehl »fabss« nicht verwenden.Spezifischen Befehl »faddd« nicht verwenden.Spezifischen Befehl »fadds« nicht verwenden.Spezifischen Befehl »fatand« nicht verwenden.Spezifischen Befehl »fatans« nicht verwenden.Spezifischen Befehl »fcmpeqd« nicht verwenden.Spezifischen Befehl »fcmpeqs« nicht verwenden.Spezifischen Befehl »fcmpged« nicht verwenden.Spezifischen Befehl »fcmpges« nicht verwenden.Spezifischen Befehl »fcmpgtd« nicht verwenden.Spezifischen Befehl »fcmpgts« nicht verwenden.Spezifischen Befehl »fcmpled« nicht verwenden.Spezifischen Befehl »fcmples« nicht verwenden.Spezifischen Befehl »fcmpltd« nicht verwenden.Spezifischen Befehl »fcmplts« nicht verwenden.Spezifischen Befehl »fcmpned« nicht verwenden.Spezifischen Befehl »fcmpnes« nicht verwenden.Spezifischen Befehl »fcosd« nicht verwenden.Spezifischen Befehl »fcoss« nicht verwenden.Spezifischen Befehl »fdivd« nicht verwenden.Spezifischen Befehl »fdivs« nicht verwenden.Spezifischen Befehl »fexpd« nicht verwenden.Spezifischen Befehl »fexps« nicht verwenden.Spezifischen Befehl »fextsd« nicht verwenden.Spezifischen Befehl »fixdi« nicht verwenden.Spezifischen Befehl »fixdu« nicht verwenden.Spezifischen Befehl »fixsi« nicht verwenden.Spezifischen Befehl »fixsu« nicht verwenden.Spezifischen Befehl »floatid« nicht verwenden.Spezifischen Befehl »floatis« nicht verwenden.Spezifischen Befehl »floatud« nicht verwenden.Spezifischen Befehl »floatus« nicht verwenden.Spezifischen Befehl »flogd« nicht verwenden.Spezifischen Befehl »flogs« nicht verwenden.Spezifischen Befehl »fmaxd« nicht verwenden.Spezifischen Befehl »fmaxs« nicht verwenden.Spezifischen Befehl »fmind« nicht verwenden.Spezifischen Befehl »fmins« nicht verwenden.Spezifischen Befehl »fmuld« nicht verwenden.Spezifischen Befehl »fmuls« nicht verwenden.Spezifischen Befehl »fnegd« nicht verwenden.Spezifischen Befehl »fnegs« nicht verwenden.Spezifischen Befehl »frdxhi« nicht verwenden.Spezifischen Befehl »frdxlo« nicht verwenden.Spezifischen Befehl »frdy« nicht verwenden.Spezifischen Befehl »fsind« nicht verwenden.Spezifischen Befehl »fsins« nicht verwenden.Spezifischen Befehl »fsqrtd« nicht verwenden.Spezifischen Befehl »fsqrts« nicht verwenden.Spezifischen Befehl »fsubd« nicht verwenden.Spezifischen Befehl »fsubs« nicht verwenden.Spezifischen Befehl »ftand« nicht verwenden.Spezifischen Befehl »ftans« nicht verwenden.Den eigenen Befehl ftruncds nicht verwenden.Spezifischen Befehl »fwrx« nicht verwenden.Spezifischen Befehl »fwry« nicht verwenden.Spezifischen Befehl »round« nicht verwenden.Keine unausgerichteten Speicherreferenzen verwenden.Nicht bei Verwendung von »long long« mit -pedantic warnen.Stapel-Überprüfung mit Grenzen im L1-Zwischenspeicher durchführen.Tut nichts. Für Rückwärtskompatibilität erhalten.Tut nichts. Für Rückwärtskompatibilität erhalten.Code- und Datenelemente nicht ausrichten.Keine floats und doubles in Registern erweiterter Genauigkeit reservieren.Nicht annehmen, dass unausgerichtete Zugriffe vom System behandelt werden.Keine Funktionen zum Entleeren des Cache aufrufen.Keine Abfangfunktion zum Entleeren des Cache aufrufen.Keine dynamisch gebundene, lageunabhängige ausführbare Datei erzeugen.Keine DWARF-Ergänzungen über gewählte Version hinaus erzeugen.Keine DLL-exportierten Inline-Funktionen erzeugen, außer wenn nötig.Keine DWARF-Abschnitte für Pubnames und Pubtypes erzeugen.Keine Prüfungen für Steuerungs-Spekulation in selektiver Planung.Keinen Code nur für privilegierten Modus erzeugen; bringt »-mno-inline-ic_invalidate« mit sich, wenn der »inline«-Code nicht im Usermodus funktionieren würde.Keine Priorität mit TARGET_REGISTER_PRIORITY ausdrücken.Blockverschiebungen nicht optimieren, sondern »memcpy« verwenden.Blockkopierbefehle nicht optimieren.Keine P-Mnemonics für Zweige verwenden.Register r32..r63 nicht verwenden.Mindestens 25-Bit-Addressraum für Aufrufe verwenden.Nicht bei Verwendung von Microsoft-Erweiterungen warnen.Doppelter CLASS IS-Block in SELECT TYPE-Anweisung bei %LÜbereinstimmungsfehler zu Warnungen degradieren.Angesteuert:Schein-%qs bei %L kann keine Initialisierung habenScheinargument %qs bei %L kann nicht INTENT(OUT) seinScheinargument %qs bei %L kann nicht OPTIONAL seinScheinargument %qs bei %L darf kein abgeleiteter Typ bei %C seinScheinargument %qs bei %L mit EVENT_TYPE darf nicht INTENT(OUT) seinScheinargument %qs bei %L mit LOCK_TYPE darf nicht INTENT(OUT) seinScheinargument %qs bei %L war als INTENT(OUT) deklariert, aber nicht gesetztScheinargument %qs muss Zeiger oder Feld mit angenommener Form ohne CONTIGUOUS-Attribut sein, da das effektive Argument bei %L nicht einfach fortlaufend ist und beide ASYNCHRONOUS oder VOLATILE sindScheinargument %qs ist im Ausdruck bei %L nicht erlaubtScheinargument %qs von %qs bei %L sollte %qs genannt werden, um zum zugehörigen Argument der überschriebenen Prozedur zu passenScheinargument %qs mit INTENT(IN) in Zeiger-Verbindungskontext (%s) bei %LScheinargument %qs mit INTENT(IN) in Variablen-Definitionskontext (%s) bei %LDummyflag. Dies ist die Voreinstellung, außer wenn FPX-Schalter explizit angegeben werden.Scheinprozedur %qs bei %C kann keine allgemeine Schnittstelle habenScheinprozedur %qs bei %L darf nicht ELEMENTAL seinDummyprozedur %qs ist in Initialisierung des Prozedurzeigers bei %L ungültigScheinprozedur %qs nicht in elementarer Prozedur %qs bei %L erlaubtScheinprozedur %qs der PURE-Prozedur bei %L muss auch PURE seinScheinprozedur bei %C kann kein BIND(C)-Attribut mit NAME habenQuellcode-Abdeckungsverpflichtungen wegschreiben.Textdarstellung des expandierten Graphen nach SRCFILE.eg-ID.txt wegschreiben.Textdarstellung des expandierten Graphen nach SRCFILE.eg.txt wegschreiben.Aufrufgraphen des Analysierers nach SRCFILE.callgraph.dot wegschreiben.Daten des Analysierers nach SRCFILE.analyzer.json.gz wegschreiben.Deklaration in .decl-Datei ausgeben.Detaillierte Informationen über die GCC-interne Repräsentation von Quellcode-Stellen ausgeben.Nur die definierten Symbole wegschreiben.Optimierungsdurchläufe ausgeben.Informationen über das Wegwerfen von Zuständen nach SRCFILE.state-purge.dot wegschreiben.Expandierten Graphen des Analysierers nach SRCFILE.eg.dot wegschreiben.Gesamtgraphen des Analysierers nach SRCFILE.supergraph.dot wegschreiben.Die entmangelte Ausgabe wegschreiben.Die Details von LTO-Objekten wegschreiben.Die Kommandozeilenoptionen des Dump-Werkzeugs wegschreiben.Die Statistik der GIMPLE-Anweisungen wegschreiben.Die Statistik der Baumarten wegschreiben.Die Statistik der Bäume wegschreiben.Den Aufrufgraphen der Symboltabelle wegschreiben.Diverse Interna des Analysierers nach SRCFILE.*.fg.dot und SRCFILE.*.tg.dot wegschreiben.Diverse Interna des Analysierers nach SRCFILE.analyzer.txt wegschreiben.Diverse Interna des Analysierers auf die Standardfehlerausgabe wegschreiben.Doppeltes Attribut %s bei %LAttribut %s doppelt angegeben bei %LDoppelte Markenspezifikation %s bei %CDoppelte Spezifikation %s bei %CDoppeltes ASYNCHRONOUS-Attribut bei %L angegebenDoppeltes AUTOMATIC-Attribut bei %L angegebenDoppeltes BIND-Attribut bei %L angegebenDoppeltes DEFERRED bei %CDoppeltes DIMENSION-Attribut bei %CDoppelte ELSE-Anweisungen bei %L und %CDoppeltes EXTENDS-Attribut bei %L angegebenDoppelte IMPLICIT NONE-Anweisung bei %CDoppelte NML-Spezifikation bei %CDoppeltes NON_OVERRIDABLE bei %CDoppeltes POINTER-Attribut bei %CDoppelte PRIVATE-Anweisung bei %CDoppeltes PROTECTED-Attribut bei %L angegebenSAVE-Attribut doppelt angegeben bei %LDoppelte SEQUENCE-Anweisung bei %CDoppelte UNIT-Spezifikation bei %CDoppeltes VALUE-Attribut bei %L angegebenDoppeltes VOLATILE-Attribut bei %L angegebenDoppelte Zugriffsspezifikation bei %CDoppeltes Argument %qs bei %L für intrinsisches %sDoppelte Feldspezifikation für Cray-Zeigerende bei %CDoppelte Aufbau-Marke %qs bei %CDoppelte Format-Spezifikation bei %CDoppelter Name %qs in Verknüpfung bei %CDoppelter Name %qs in Parameterliste bei %CDoppelte Anweisungsmarke %d bei %L und %LDoppeltes Symbol %qs in formaler Argumentliste bei %CWährend der Optimierungen zur Linkzeit bei unpassenden Typen von globalen Deklarationen warnen.Dynamic Realign Argument Pointer (DRAP) wird in Interrupt-Service-Routinen nicht unterstützt. Ein Workaround ist, Funktionen mit Aggregat-Rückgabetypen zu vermeiden.CC-Register dynamisch belegen.E-Angabe nicht erlaubt mit g0-Deskriptor in Formatzeichenkette bei %LInterner Fehler: EDGE_CROSSING incorrectly set across same sectionInterner Fehler: EDGE_CROSSING missing across section boundaryInterner Fehler: EH edge crosses section boundary in bb %iInterner Fehler: EH incoming edge mixed with non-EH incoming edges in bb %iEH Landefeld-Marke ELEMENTAL-Funktion %qs bei %L muss ein skalares Ergebnis habenELEMENTAL, nicht-INTRINSIC-Prozedur %qs ist nicht als effektives Argument bei %L erlaubtELEMENTAL-Präfix fehlt in MODULE-PROCEDURE-Schnittstelle bei %LELEMENTAL Prozedurzeigerkomponente %qs ist nicht als effektives Argument bei %L erlaubtELSE-IF-Anweisung bei %C kann nicht auf eine ELSE-Anweisung bei %L folgenAnweisung ELSEWHERE bei %C folgt zuvor unmaskiertem ELSEWHEREELSEWHERE-Anweisung bei %C nicht eingeschlossen in WHERE-BlockENCODING= bei %L ist in Fortran 95 nicht erlaubtEND-TEAM-Anweisung bei %CEND-Anweisung statt %s-Anweisung bei %LEND-Tag bei %C in Ausgabe-Anweisung nicht erlaubtEND-Marke %d bei %L nicht definiertENTRY %qs bei %L kann nicht rekursiv aufgerufen werden, da Funktion %qs nicht RECURSIVE istENTRY %qs bei %L kann nicht rekursiv aufgerufen werden, da Unterprogramm %qs nicht RECURSIVE istENTRY %qs bei %L hat keinen IMPLICIT-TypENTRY-Ergebnis %s kann kein POINTER in FUNCTION %s bei %L seinENTRY-Ergebnis %s kann kein Feld in FUNCTION %s bei %L seinENTRY-Ergebnis %s kann nicht vom Typ %s in FUNCTION %s bei %L seinENTRY-Anweisung bei %CENTRY-Anweisung bei %C kann nicht in einer enthaltenen Prozedur auftretenENTRY-Anweisung bei %C kann nicht innerhalb von BLOCK DATA auftretenENTRY-Anweisung bei %C kann nicht innerhalb eines DERIVED TYPE Blockes auftretenENTRY-Anweisung bei %C kann nicht innerhalb eines DO-Blockes auftretenENTRY-Anweisung bei %C kann nicht innerhalb eines FORALL-Blockes auftretenENTRY-Anweisung bei %C kann nicht innerhalb eines MODULEs auftretenENTRY-Anweisung bei %C kann nicht innerhalb eines PROGRAMmes auftretenENTRY-Anweisung bei %C kann nicht innerhalb eines SELECT-Blockes auftretenENTRY-Anweisung bei %C kann nicht innerhalb eines STRUCTURE-Blockes auftretenENTRY-Anweisung bei %C kann nicht innerhalb eines SUBMODULEs auftretenENTRY-Anweisung bei %C kann nicht innerhalb eines WHERE-Blockes auftretenENTRY-Anweisung bei %C kann nicht innerhalb eines enthaltenen Subprogrammes auftretenENTRY-Anweisung bei %C kann nicht innerhalb eines IF-THEN-Blockes auftretenENTRY-Anweisung bei %C kann nicht innerhalb von INTERFACE auftretenENTRY-Anweisung bei %L mit BIND(C) ist in einer elementaren Prozedur verbotenENTRY_BLOCK has IL associated with itENUM und ENUMERATOR bei %CENUM-Deklaration bei %C hat keine ENUMERATORenAnweisung zur ENUM-Definition vor %C erwartetENUMERATOR %L nicht mit Ganzzahlausdruck initialisiertEOR-Marke %d bei %L nicht definiertEQUIVALENCE bei %C erfordert zwei oder mehr ObjekteEQUIVALENCE-Anweisung bei %CERR-Marke %d bei %L nicht definiertERRMSG bei %LERRMSG bei %L ist ohne STAT-Marke nutzlosERRMSG-Markierung bei %LERRMSG-Variable»ERRMSG=«-Variable bei %L muss skalare Default-CHARACTER-Variable sein»ERRMSG=«-Argument bei %L muss skalare CHARACTER-Variable seinERROR STOP-Anweisung bei %CESA/390-Architektur.»EVENT POST«-Anweisung bei %C»EVENT WAIT«-Anweisung bei %CEVENT-Argument bei %L für die intrinsische EVENT_QUERY muss vom Typ EVENT_TYPE seinEXIT-Anweisung bei %C beendet »!$ACC LOOP«-SchleifeEXIT-Anweisung bei %C beendet !$OMP DO SchleifeEXIT-Anweisung ohne DO-CONSTRUCT-Name bei %CEXIT_BLOCK has IL associated with itEXTENDS bei %LAttribut EXTERNAL steht mit Attribut FUNCTION in %qs bei %L in KonfliktEntweder alle oder keines der Objekte in bei %L gesetztem EQUIVALENCE muss das Attribut PROTECTED habenElement %d des tatsächlichen Arguments von RESHAPE bei %L darf nicht negativ seinElement in Feldkonstruktor %s bei %L ist %sElement des Feldes mit vermuteter Form oder von Zeigern bei %L kann nicht zum Argument bei %L passenElement des Feldes mit vermuteter Form oder von Zeigern wird bei %2$L an ein Feld-Scheinargument %1$qs übergebenElement mit einem Wert von %1$d in ORDER bei %2$L muss für das intrinsische RESHAPE in der Nähe von %4$L im Bereich [1, …, %3$d] liegenElementare Funktion als Initialisierungsausdruck mit Nicht-Ganzzahl-/Nicht-Zeichen-Argumenten bei %LElemente mit demselben Wert bei %L und %L in Vektorindex in einem Variablen-Definitionskontext (%s)Mehrere Funktionsaufrufe auch für unreine Funktionen entfernen.».gnu_attribute«-Etiketten erzeugen..stack_size-Direktiven erzeugen.16-bit-Adressverschiebungen in kleinen Datenbereichen ablegen.32-bit-Adressverschiebungen in kleinen Datenbereichen erzeugen.Property GNU_PROPERTY_X86_ISA_1_NEEDED GNU generieren.IEEE-konformen Code erzeugen, ohne ungenaue Ausnahmen.ELF-Attribut für RISC-V generieren.Informationen zum Aufrufgraph ausgeben.Prüfungen generieren, die bei Anwendung atomarer eingebauter Operationen auf unausgerichtetem Speicher zu »break 8«-Befehlen führen.Code für die Byte/Word-ISA-Erweiterung erzeugen.Code für die Zählen-ISA-Erweiterung erzeugen.Code für die FP-Move- und SQRT-ISA-Erweiterung erzeugen.Code für die Video-ISA-Erweiterung erzeugen.Code mit expliziten Adressverschiebungsbefehlen erzeugen.Common-ähnliche Symbole als schwache Symbole ausgeben.Debug-Kommentare während der Vorverarbeitung ausgeben.Debuginformation für den Escape-Analyse-Durchlauf ausgeben, wenn mit -fgo-optimize-allocs aufgerufen.Diagnoseinformationen zur Position der Knoten im expandierten Graphen ausgeben.Direkte Zweige in lokalen Funktionen erzeugen.Zusätzlichen Code im Funktionsprolog ausgeben, um ein Überschreiten des angegebenen Limits für die Stapelgröße abzufangen (trap).Funktionsprologe nur vor Teilen der Funktion erzeugen, die diese benötigt, statt am Anfang der Funktion.Bei PIC-Erzeugung Funktionsaufrufe ausgeben, die die globale Offsettabelle verwenden.Verschmolzene multiply-add-Befehle für long double in Vektorregistern (wfmaxb, wfmsxb, wfnmaxb, wfnmsxb) generieren. Der Durchlauf für Neuverknüpfungen verarbeitet verschmolzene multiply-add-Befehle nicht, daher enthält der vom Mittelteil generierte Code häufig lange verschmolzene multiply-add-Ketten. Das kann die Pipeline nicht gut verarbeiten, daher ist das Standardverhalten, die multiply- und add-Befehle separat zu generieren, soweit es long double in Vektorregistern betrifft. Performancemessungen haben ergeben, dass das besser ist. Diese Option erlaubt das Standardverhalten zu übersteuern, zu Testzwecken.Implizite Instanziierungen von »inline«-Templates ausgeben.Implizite Instanziierungen von Templates ausgeben.Indirekte Zweige in lokalen Funktionen erzeugen.Instrumentierungsaufrufe für Aufrufe von __tsan_func_entry() und __tsan_func_exit() erzeugen.Lange Laden/Speichern-Folgen ausgeben.Ausführlichere Beschreibungen des Steuerablaufs in den Diagnosemeldungen ausgeben.Ausführlichere Beschreibungen der Zustandsänderungen in den Diagnosemeldungen ausgeben.Diagnosemeldungen für Optimierung ausgeben.Profiling-Zähleraufruf am Funktionsanfang vor Prolog ausgeben.Aufruf für Profiling-Zähler am Funktionsanfang vor dem Prolog ausgeben. Der compilierte Code benötigt eine 64-Bit-CPU sowie glibc 2.29 oder neuer zum Laufen.Progressive empfohlene Breakpoint-Stellen ausgeben.rdval statt rduniq für Thread-Zeiger erzeugen.Spezielle Instrumentierung für Zugriff auf volatile-Objekte erzeugen.static-const-Variablen erzeugen, auch wenn sie nicht verwendet werden.Vor und nach »volatile extended«-asms Stopp-Bits ausgeben.Template-Instanziierungen als schwache Symbole ausgeben.Traps als »break 8« ausgeben, voreingestellt für CRIS v3 und aufwärts. Wenn ausgeschaltet, werden Aufrufe von abort() verwendet.Ausführliche Informationen zur Fehlersuche im Assemblercode ausgeben.Leeres FINAL bei %CLeere IMPLICIT-Anweisung bei %CLeerer Feldkonstruktor bei %C ist nicht erlaubtLeere Initialisierungsliste im alten Stil bei %CLeere Ziffernmenge in BOZ-Konstante bei %CAlternativen für q-Befehl einschalten.Registersatz mit 16 Einträgen aktivieren.Erweiterung für 64-Bit-Zeitstempel-Befehl einschalten.C++-Koroutinen einschalten (experimentell).C++-Header-Modul einschalten (experimentell).C++-modules-ts einschalten (experimentell).Unterstützung für Deallozierung mit Größenangabe aus C++14 einschalten.C-SKY-DSP-Befehle einschalten.Erweiterte C-SKY-DSP-Befehle einschalten.C-SKY-SECURE-Befehle einschalten.C-SKY-TRUST-Befehle einschalten.C-SKY-DSP-Vektorbefehle einschalten.CFI-Tabellen über GAS-Assembler-Direktiven einschalten.STATIC- und AUTOMATIC-Attribute im DEC-Stil einschalten.DIV und DIVU einschalten.DIV-REM-Befehle für ARCv2 einschalten.DSP-3.1-Paket-A-Erweiterungen einschalten.Dwarf-Zeilenfehlersuchinfo über GNU as einschalten.Befehle mit einem oder zwei Operanden für Telefonie einschalten.Die Opcodes ENTER_S und LEAVE_S für ARCv2 einschalten.Codekomprimierung für FT32B-Code aktivieren.Vollständige Redundanzentfernung (FRE) auf Bäumen einschalten.Funktionsdeskriptor-PIC-Modus einschalten.Transformation der Graphite-Identität einschalten.ID-basierte Shared Library einschalten.IEEE-128-Bit-Gleitkommazahlen mittels Schlüsselwort »__float128« einschalten.Lokale Registerzuordnung einschalten.Erweiterung für gesperrte Load/Store-Conditional-Befehle einschalten.MUL-Befehle einschalten.Befehle MUL.X und UMUL.X einschalten.MULX-Befehle einschalten, schnelle Bitverschiebung annehmen.Objective-C-Ausnahme- und -Synchronisations-Syntax einschalten.Laufzeitbibliothek zur Objective-C setjmp-Ausnahmebehandlung einschalten.OpenACC einschalten.OpenMP einschalten (bringt »-frecursive« in Fortran mit sich).Auslagern an OpenMP-GPU einschalten.SIMD-Direktiven von OpenMP einschalten.PIC-Unterstützung beim Bauen von Bibliotheken einschalten.Plan-9-Spracherweiterungen einschalten.Rcq-Constraint-Handling einschalten – der Großteil der Kurzcodeerzeugung hängt davon ab.Rcq-Constraint-Handling einschalten – ccfsm-condexec hängt zum großen Teil davon ab.Verwendung von Read-Modify-Write-Befehlen (RMW) einschalten.Zusammenfassen von nutzersichtbaren Variablen während des SSA-Durchlaufs einschalten.SSA-Codeversenkung auf Bäumen einschalten.Beseitigungsoptimierung für toten SSA-Code auf Bäumen einschalten.SSA-BIT-CCP-Optimierungen auf Bäumen einschalten.SSA-CCP-Optimierungen auf Bäumen einschalten.SSA-PRE-Optimierungen auf Bäumen einschalten.TPF-OS-Tracing-Code einschalten.Virtual-Hosting-Unterstützung einschalten.XY-Speicher-Erweiterung (DSP Version 3) einschalten.Ausrichtung von COMMON-Blöcken einschalten.Alle -Wunused- Warnungen einschalten.Alle DEC-Spracherweiterungen zulassen.Alle Informationen über Optimierungen auf stderr einschalten.Einen RTL-Guckloch-Durchlauf vor sched2 einschalten.ASan-Schutz für alloca/VLAs einschalten.ASan-Schutz für eingebaute Funktionen einschalten.ASan-Schutz für Verwendung-nach-Rückkehr-Fehler einschalten.ASan-Schutz für globale Variablen einschalten.ASan-Schutz für Ladeoperationen einschalten.ASan-Schutz für Stapelspeicher einschalten.ASan-Schutz für Speicheroperationen einschalten.Lockerung des Assemblers und Linkers einschalten. Per Vorgabe eingeschaltet bei -Os.Atomare Befehle einschalten.Backend-Fehlersuche einschalten.Rückwärtsübermittlung von Nutzungseigenschaften auf SSA-Ebene einschalten.Rohr-Bitschiebebefehle einschalten.Vektorisierung von Basisblöcken (SLP) auf Bäumen einschalten.Einfachen Programm-Profilierungscode einschalten.Bbit-Peephole2 einschalten.Cache-Umgehung für flüchtige Referenzen umgehen.Cache-Prefetch-Befehle einschalten.Bestimmte Features, die im Concept-TS vorhanden sind, einschalten.Codedichte-Befehle für ARCv2 einschalten.Codeanhebung einschalten.Allgemeine Optionen zum Erzeugen von Profil-Info für Profil-Feedback-gerichtete Optimierungen einschalten, und -fprofile-dir= setzen.Allgemeine Optionen zum Erzeugen von Profil-Info für Profil-Feedback-gerichtete Optimierungen einschalten.Allgemeine Optionen zum Durchführen von Profil-Feedback-gerichteten Optimierungen einschalten, und -fprofile-dir= setzen.Allgemeine Optionen zum Durchführen von Profil-Feedback-gerichteten Optimierungen einschalten.Kompakte casesi-Muster einschalten.Beseitigung von bedingt totem Code für Aufrufe eingebauter Funktionen einschalten.Bedingte Ausführung (für andere Befehle als Kopieren/scc) einschalten.Verwendung bedingter Kopierbefehle einschalten.Bedingte Kopierbefehle einschalten.Konstruktor-/Destruktor-Feature einschalten.Koprozessorbefehle einschalten.Kopieweitergabe von Informationen über Skalar-Evolution einschalten.Kopieweitergabe auf Bäumen einschalten.Korrektur fluss-unstimmiger Profildateneingabe einschalten.Entfernung toter Speicherungen einschalten.Ausgaben zur Fehlersuche einschalten.Hardwareunterstützung für dezimales Gleitkomma einschalten.Standardumwandlungen zwischen »__float128« und »long double« einschalten.Standardbreiten für die Formatangaben i, f und g aktivieren.Divisions- und Modulobefehle einschalten.Dominator-Optimierungen einschalten.Doppelte Load/Store-Befehle für ARC HS einschalten.Erweiterung Dual-Virterbi-Butterfly einschalten.Frühere Stopp-Bit-Platzierung für bessere Planung einschalten.Frühes Gimple-Falten von eingebauten Funktionen aktivieren.Ausnahmebehandlung einschalten.Vorwärts-Übertragung auf Bäumen einschalten.Frontend-Optimierung einschalten.Funktionsprofilierung einschalten.Funktionen umsortieren, um Codeplatzierung zu verbessern.Garbage Collection (GC) in Objective-C/Objective-C++-Programmen einschalten.Erzeugen von ARC-SIMD-Befehlen mithilfe von zielspezifischen eingebauten Funktionen zu erzeugen.Erzeugen von R2-BMX-Befehlen einschalten.Erzeugen von R2-CDX-Befehlen einschalten.Binärdateien erzeugen, die Divisionen mit Funktionen aus der libgcc durchführen. Die Vorgabe ist »-mhard-div«.Binärdateien erzeugen, die Gleitkommaberechnungen mit Funktionen aus der libgcc durchführen. Dies ist die Voreinstellung; änderbar mit »-mhard-float«.Binärdateien erzeugen, die Multiplikationen mit Funktionen aus der libgcc durchführen. Die Vorgabe ist »-mhard-mul«.Befehle für Vergleiche mit Setzen der Flags (l.sf*i) erlauben. Standardverhalten ist, stattdessen zusätzliche Befehle zu verwenden, die den Direktwert in ein Register zwischenspeichern.Befehle für bedingte Zuweisungen (l.cmov) erlauben. Standardverhalten ist, stattdessen äquivalente set- und branch-Befehle zu verwenden.Division mit Hardware-Befehlen (l.div, l.divu) aktivieren. Dies ist die Voreinstellung; änderbar mit »-msoft-div«.Gleitkommaberechnungen mit Hardware-Befehlen durchführen. Die Voreinstellung ist »-msoft-float«.Multiplikation mit Hardware-Befehlen (l.mul, l.muli) aktivieren. Dies ist die Vorgabe; änderbar mit »-msoft-mul«.Befehle für Rechtsdrehung (l.ror) erzeugen. Standardmäßig werden Funktionen aus der libgcc verwendet, um Rechtsdrehungen mit Direktoperand durchzuführen.Befehle für Rechtsdrehung mit Direktoperand (l.rori) erzeugen. Standardmäßig werden Funktionen aus der libgcc verwendet, um diese Befehle durchzuführen.Befehle für Bitverschiebung mit Direktwert (l.srai, l.srli, l.slli) erlauben. Standardverhalten ist, stattdessen zusätzliche Befehle zu verwenden, die den Direktwert in ein Register zwischenspeichern.Befehle für Vorzeichenerweiterung (l.ext*) erlauben. Standardverhalten ist, die Vorzeichenerweiterung mittels Ladebefehlen durchzuführen.Erraten der Sprungwahrscheinlichkeiten einschalten.Hardware-Gleitkommabefehle einschalten.Herausziehen aufeinanderfolgender Ladeoperationen einschalten, um Erzeugung bedingter Kopieroperationen zu fördern.Herausziehen von Ladeoperationen aus bedingten Zeigern einschalten.hwasan-Instrumentierung für alloca/VLAs einschalten.hwasan-Instrumentierung für eingebaute Funktionen einschalten.hwasan-Instrumentierung für Ladeoperationen einschalten.hwasan-Instrumentierung von auf dem Stapel allozierten Variablen fester Größe einschalten.hwasan-Instrumentierung für Speicheroperationen einschalten.Ein- und Ausgabe der Graphite-Repräsentierung einschalten.»inline«-Prüfungen für NIL-Empfänger mit NeXT-Laufzeitumgebung und ABI-Version 2 einschalten.Inlining von PLT in Funktionsaufrufen einschalten.Einschalten des Inlining von »inline«-Funktionen, ansonsten wird jegliches Inlining ausgeschaltet.Befehle einschalten, die Angriffe über return-orientierte Programmierung vereiteln.Interrupt-Stapelbefehle einschalten.Artspezifische Varianten der intrinsischen Ganzzahlfunktionen einschalten.Sprungmarkenausrichtungs-Optimierungen einschalten.Faules Modul-Importieren einschalten.Intrinsische Altlasten-Mathematik-Funktionen für Kompatibilität einschaltet.Veraltetes Parsen von INCLUDE als Anweisung einschalten.Optimierungen zur Bindezeit einschalten.Binder-Optimierungen einschalten.Binderlockerung einschalten.Binderlockerungen einschalten.Binderlockerung einschalten.Zusammenfassen von benachbarten Lade-/Speicherbefehlen einschalten.Schleifenverteilung für in Bibliotheksaufruf umgewandelte Muster einschalten.Schleifenverteilung auf Bäumen einschalten.Vektorisierung des Schleifen-Epilogs mit kleinerer Vektorgröße einschalten.Kopieren des Schleifenkopfes auf Bäumen einschalten.Umordnen der Schleifen auf Bäumen einschalten.Bewegung der Schleifeninvariante auf Bäumen einschalten.Schleifenschachtelungs-Umwandlungen einschalten. Entspricht -floop-next-optimize.Schleifenoptimierungen auf Baumebene einschalten.Schleifenvektorisierung auf Bäumen einschalten.Maschinenspezifische Guckloch-Optimierungen einschalten.Ausführlichere RTX-Kosten während des Debuggens ausgeben.  Nur für GCC-Entwickler gedacht.Die meisten Warnungen einschalten.Multicore-Unterstützung einschalten.Multiplikationsbefehle einschalten.Multiprozessorbefehle einschalten.Optimierungen für geschachtelte bedingte Ausführung einschalten.Optimierung von &&/|| in bedingter Ausführung einschalten.GIMPLE-Parsen einschalten.Vorausschauende Verwendung von »cbranchsi«-Mustern einschalten.Vorverarbeitung einschalten.Bereichsprüfung während Kompilierung einschalten.Neuverbindung auf Baumebene einschalten.Registerdruckempfindliche Befehlsplanung einschalten.Lockerung im Assembler einschalten.Planung über Basisblöcke hinaus einschalten.Gesondertes Datensegment einschalten.Setzen von GPRs auf das Ergebnis von Vergleichen einschalten.Stapelspeicher-Sicherungskopie im Rahmen der Control-Flow Enforcement Technology (CET) einschalten.Vorzeichenerweiternde Befehle einschalten.Aufteilung von 32-Bit-Immediates in oberen/unteren Teil einschalten.Stapelsondierung einschalten.Durchgang für statische Analyse einschalten.Strenge Prüfung für 32-bit psABI Strukturrückgabe einschalten.Zeichenkettenlängen-Optimierungen auf Bäumen einschalten.Unterstützung für C++-Konzepte einschalten.Unterstützung für DEC STRUCTURE/RECORD einschalten.Unterstützung für GNU-Transaktionsspeicher einschalten.Unterstützung für RH850-ABI einschalten. Dies ist der Standard.Unterstützung für altes GCC-ABI einschalten.Erweiterung für Bytevertauschbefehle einschalten.Enden-Zusammenfassung auf Bäumen einschalten.Den fundamentalen Typ char8_t einschalten und ihn als Typ für UTF-8-Zeichenketten und Zeichenliterale verwenden.Critical-Path-Heuristik im Planer einschalten.Heuristik für Abhängigkeits-Zähler bei Planung einschalten.Annäherung der Division einschalten. Dies reduziert die Genauigkeit der Division auf etwa 16 Bits für einfache Genauigkeit und 32 Bits für doppelte Genauigkeit.Erweiterte LRW-Befehle einschalten (Standard für CK801).Gruppenheuristik im Planer einschalten.Heuristik für letzte Befehle im Planer einschalten.Optimierer für geschachtelte Schleifen einschalten.Normalen Modus einschalten.Rang-Heuristik im Planer einschalten.Annäherung der reziproken Quadratwurzel einschalten. Dies reduziert die Genauigkeit der reziproken Quadratwurzelergebnisse auf etwa 16 Bits für einfache Genauigkeit und 32 Bits für doppelte Genauigkeit.Heuristik für spekulative Befehle im Planer einschalten.Annäherung der Quadratwurzel einschalten. Dies reduziert die Genauigkeit der Quadratwurzelergebnisse auf etwa 16 Bits für einfache Genauigkeit und 32 Bits für doppelte Genauigkeit. Wenn eingeschaltet, bringt es »-mlow-precition-recip-sqrt« mit sich.Verwendung von 64-Bit Gleitkommaregistern in FMOV-Befehlen einschalten. Siehe auch -mdalign, wenn 64-Bit-Ausrichtung benötigt wird.Verwendung des RX-FPU-Befehls einschalten. Dies ist Standard.Verwendung von leeren Formatelementen in Formatzeichenketten einschalten.Zeichenliterale in Zuweisungen und Datenanweisungen für Nichtzeichenvariablen aktivieren.Verwendung von indexierten Ladebefehlen einschalten.Verwendung von Pre-/Post-Modifikationen mit Registerversatz einschalten.Verwendung des LRA-Registerallozierers einschalten.Verwendung des fsca-Befehls einschalten.Verwendung des fsrra-Befehls einschalten.Verwendung des alten, defekten ABI, bei dem alle Funktionsargumente auf dem Stapel auf 32 Bits ausgerichtet sind.Verwendung der kurzen Ladebefehle einschalten.Verwendung des Standard-RX-ABI, wobei alle Funktionsargumente auf dem Stapel natürlich ausgerichtet sind. (Voreinstellung.)Die z-Vektor-Spracherweiterung einschalten, die das kontextabhängige Vektormakro einschaltet und eingebaute Funktionen im Altivec-Stil aus vecintrin.h einschaltet.Traditionelle Vorverarbeitung einschalten.Transitivität von Beschränkungen während der Analyse berücksichtigen.Nicht ausgerichtete Wort- und Halbwortzugriffe auf gepackte Daten einschalten.Verwendung der BI/BIH-Befehle einschalten, wenn verfügbar.Verwendung von GPREL für Nur-Lese-Daten in FDPIC einschalten.Verwendung der NPS400-Bitbefehle einschalten.Erweiterung für xld/xst für NPS400 einschalten.Verwendung von POST_INC / POST_DEC einschalten.Verwendung von POST_MODIFY einschalten.Verwendung von R16 bis R31 einschalten (Standard).Verwendung der ungeraden Register für Gleitkomma einfacher Genauigkeit erlauben.Verwendung von sdata/scommon/sbss einschalten.Benutzerdefinierte Befehle einschalten.IEEE-128-Bit-Gleitkomma-Befehle einschalten.Schleifenbefehle für v850e3v5 einschalten.Variable polynomiale CRC-Erweiterung einschalten.Vektorisierung auf Bäumen einschalten.Wortreiche Ausgabe einschalten.Workaround für einzelnes Erratum des AT697F-Prozessors einschalten (entspricht Erratum #13 des Prozessors AT697E).Workarounds für Errata des GR712RC-Prozessors einschalten.Workaround für Errata des UT699-Prozessors einschalten.Workarounds für Errata des UT699E/UT700-Prozessors einschalten.Traditionelle Planung in Schleifen, die bereits Modulo-Planung unterzogen wurden, einschalten/ausschalten.Adressierung relativ zu GP ein-/ausschalten.ID-basierte Shared Library einschalten.Betriebsart für positionsunabhängige Daten (PID) einschalten.Ein-/ausschalten der Verwendung der Befehle SMOVF, SMOVB, SMOVU, SUNTIL, SWHILE und RMPA. Vorgabe: eingeschaltet.Schaltet das dynamische Vektorisierer-Kostenmodell ein. Für Rückwärtskompatibilität erhalten.Ausführliche Ausgabe des Kostenmodells in den Debug-Dumpdateien einschalten.SSE-Befehle mit VEX-Präfix kodieren.End-Ausdruck in DO-SchleifeEnde der DO-Anweisung bei %C ist mit anderer DO-Schleife verwobenEnde der DO-Anweisung ohne Block bei %C ist innerhalb eines anderen BlockesEnde der skalaren Initialisierung bei %C erwartetEnde der Suchliste.
Semantik der Zugriffskontrolle für Klassenelemente erzwingen.Entität %qs bei %L hat Parameter mit aufgeschobenem Typ und benötigt entweder das POINTER- oder ALLOCATABLE-AttributEntität %qs bei %L ist bereits in der Schnittstelle vorhandenEntität mit vermuteter Zeichenlänge bei %L muss ein Scheinargument oder ein PARAMETER seinZähler übersteigt den C-Ganzzahltyp bei %CVergleich auf Gleichheit für %s bei %LÄquivalenz für %qs passt nicht zur Anordnung von COMMON %qs bei %LÄquivalent zu »-mgpopt=local«.Äquivalent zu »-mgpopt=none«.ERRMSG-Variable bei %L darf nicht »%s« innerhalb der selben »%s«-Anweisung seinFehlerFehler beim Reservieren von %lu BytesFehler bei Umwandlung von PARAMETER-Konstante in komplexer Konstante bei %CFehler beim Umwandeln einer GanzzahlFehler in Zeigerinitialisierung bei %CFehler in Typspezifikation bei %LFehler in Typbeschränktem Aufruf bei %LFehler beim Vergrößern des Speicherblocks auf %lu BytesFehler beim Schreiben der JSON-Ausgabedatei »%s«
Fehler beim Schreiben der Moduldatei %qs: %sFehler beim Schreiben der Moduldatei: %sFehler beim Schreiben der Ausgabedatei »%s«
Auswertung des nicht standardisierten Initialisierungsausdrucks bei %LZeichenkette mit mehr als 2 hoch 28 Zeichen bei %L wird erst bei Ausführung des Programms ausgewertet werden, rechnen Sie mit FehlernEreignisArgument für Ereignisvariable bei %L muss ein Koarray, aber nicht koindiziert seinArgument für Ereignisvariable bei %L muss ein Koarray oder koindiziert seinEreignis-Variable bei %L muss Skalar mit EVENT_TYPE seinAbbruchbedingung der DO WHILE-Schleife bei %L muss ein skalarer LOGICAL-Ausdruck seinBeim ersten auftretenden Fehler beenden.32-/64-Bit-Ganzzahldivision in vorzeichenlose 8-Bit-Ganzzahldivision mit Laufzeitprüfung erweitern.Im Zuge der RTL-Erzeugung die Befehle adddi3 und subdi3 in add.f/adc usw. expandieren.»)« bei %C erwartet»,« bei %C erwartet%<(%> bei %C erwartet%<)%> oder %<,%> bei %C erwartet%<,%> bei %C erwartet%<,%> oder Ende der Anweisung bei %C erwartet%<::%> nach Bindeattributen bei %C erwartet%<::%> bei %C erwartet%<=>%> bei %C erwartet%<END INTERFACE ASSIGNMENT (=)%> bei %C erwartetIn Koindex-Spezifikation in ALLOCATE-Anweisung bei %L wird »*« erwartet»::« in TYPE-Definition bei %C erwartetZeichen »=« in PARAMETER-Anweisung bei %C erwartetAQC_REL, RELEASE, oder ACQUIRE bei %C erwartetDO-Schleife bei %C erwartetHOST, NOHOST oder ANY bei %C erwartetEine der Klauseln INCLUSIVE oder EXCLUSIVE bei %C erwartetP-Bearbeitungsdeskriptor erwartet in Formatzeichenkette bei %LPARAMETER-Symbol in komplexer Konstante bei %C erwartetRANK oder RANK DEFAULT gefolgt von SELECT RANK erwartet bei %CEins von SEQ_CST, ACQ_REL oder RELAXED erwartet, für ATOMIC_DEFAULT_MEM_ORDER-Klausel bei %CSHAPE-Argument für C_F_POINTER mit Array-FPTR bei %L erwartetTYPE IS-, CLASS IS- oder END SELECT-Anweisung hinter SELECT TYPE bei %C erwartetEine der Klauseln UNIFIED_ADDRESS, UNIFIED_SHARED_MEMORY, DYNAMIC_ALLOCATORS, REVERSE_OFFLOAD oder ATOMIC_DEFAULT_MEM_ORDER bei %L erwartetCASE- oder END-SELECT-Anweisung hinter SELECT CASE bei %C erwartetNamenlose Schnittstelle bei %C erwartetProzedur für Argument %qs bei %L erwartetProzedurzeiger für Argument %qs bei %L erwartetRechte Klammer in Ausdruck bei %C erwartetSchrittvariable in Iterator bei %C erwartetZugriffsspezifikation bei %C erwartetAlternative Rücksprungmarke bei %C erwartetInitialisierungsausdruck bei %C erwartetAndere Dimension in Felddeklaration bei %C erwartetArgumentliste bei %C erwartetArrayindex erwartet bei %CFeldindexsprung erwartet bei %CVerknüpfung bei %C erwartetVerknüpfungsliste bei %C erwartetAttributbitname erwartetBindeattribut bei %C erwartetBindungsname bei %C erwartetBindungsziel hinter %<=>%> bei %C erforderlichBlockname %qs des SELECT-Konstrukts bei %C erwartetBlocknamen von %qs in »%s«-Anweisung bei %L erwartetGrenzen für %qs bei %L erwartetCoarray-Variable als Argument %qs für intrinsisches %s bei %L erwartetKomma in E/A-Liste bei %C erwartetReferenz auf Komponente bei %C erwartetDatenkonstante nach Wiederholungsangabe bei %C erwartetIn AUTOMATIC-Anweisung bei %C wird eine »entity-list« erwartet»entity-list« in STATIC-Anweisung bei %C erwartetExponent in Ausdruck bei %C erwartetAusdruck bei %C in PARAMETER-Anweisung erwartetAusdruck in %s-Anweisung bei %C erwartetErwarteter Ausdruck in Feldspezifikation bei %CAusdruckstyp erwartetFormale Argumentliste in Funktionsdefinition bei %C erwartetGenerischer Name oder Operatordeskriptor bei %C erwartetInitialisierungsausdruck bei %C erwartetErwarteter Initialisierungsausdruck in CASE bei %CGanzzahl erwartetGanzzahlzeichenkette erwartetErwarteter intrinsischer Initialisierungsausdruck OMP WORKSHARE bei %LMarke %qs für »%s«-Anweisung bei %C erwartetLinke Klammer erwartetListe von %<untere-Grenze :%> oder Liste von %<untere-Grenze : obere-Grenze%>-Angaben bei %L erwartetProzedurname im Modul bei %C erwartetName erwartetParameterliste in Typdeklaration bei %C erwartetEchte Zeichenkette erwartetRegister oder konstante Ganzzahl erwartet.Rechte Klammer erwartetSkalaren Initialisierungsausdruck bei %C erwartetSpezifischer Bindungsname bei %C erwartetZeichenkette erwartetStrukturkomponentenname bei %C erwartetName einer Strukturkomponente oder eines Operators nach ».« bei %C erwartetBeendenden Namen bei %C erwartetTypgebundene Prozedur oder Prozedurzeiger-Komponente bei %C erwartetVariablennamen bei %C erwartetVariablennamen bei %C in PARAMETER-Anweisung erwartet%<END INTERFACE %s%> bei %C erwartet%<END INTERFACE OPERATOR (%s)%> bei %C erwartet%<END INTERFACE OPERATOR (%s)%> bei %C erwartet, aber %qs erhalten%<END INTERFACE OPERATOR (.%s.)%> bei %C erwartet%s bei %C erwartet»%s«-Anweisung bei %L erwartetKomma in EQUIVALENCE bei %C erwartetSkalaren INTEGER-Ausdruck bei %C erwartet, aber %s gefundenVariable bei %L erwartetDefinierbare Entität bei %L erwartetListe benannter Einträge bei %C erwartetVariable in READ-Anweisung bei %C erwartetVariable oder io-implied-do bei %L erwartetVariable oder io-implied-do in READ-Anweisung bei %L erwartetErläutern, welche Ausrichtungsüberlegungen zu der Entscheidung führen, einen Befehl lang oder kurz zu machen.Explizite Arrayform bei %C muss eine Konstante vom Typ INTEGER sein, nicht %sExplizite Schnittstelle für %qs bei %L erforderlich: %sExplizite Schnittstelle für Komponente %qs bei %L erforderlich: %sExplizite Schnittstelle für polymorphes Argument bei %L erforderlichFeld mit expliziter Form, aber nichtkonstanten Grenzen bei %CFunktionen exportieren, auch wenn sie »inline« sein können.Ausdruck bei %L muss in diesem Kontext eine Konstante seinAusdruck bei %L muss INTEGER-Typ haben, %s gefundenAusdruck bei %L muss skalar seinAusdruck in CASE-Anweisung bei %L darf nicht %s seinAusdruck in CASE-Anweisung bei %L ist nicht im Bereich von %sAusdruck in CASE-Anweisung bei %L muss von der Art %d seinAusdruck in CASE-Anweisung bei %L muss Typ %s habenAusdruck in CASE-Anweisung bei %L muss skalar seinErweiterung: Spezifizierer %s in Anweisung %s bei %L hat Wert %qsErweiterung: Umwandlung von %s in %s bei %LErweiterung: Skalares effektives nicht-standardartiges, nicht-C_CHAR CHARACTER-Argument mit Feld-Scheinargument %qs bei %LErweiterung: Unärer Operator hinter arithmetischem Operator bei %C (Klammern verwenden)Erweiterung: Nullbreite hinter L-Deskriptor bei %LErweiterung: Zeichen Backslash bei %CErweiterung: Exponentbuchstabe %<q%> in literaler Realkonstante bei %CExternes %qs bei %L kann keine Initialisierung habenExterne IO UNIT kann kein Feld bei %L seinExternes Objekt %qs bei %L darf keinen Initialisierer habenÜberflüssige Option für %<-Xassembler%>; %s, alle Optionen der Form %<-Xassembler%> und %<-Wa%> werden verworfen.Überschüssige Zeichen im Format bei %LF2008: C1210 IMPORT-Anweisung bei %C ist im Körper einer Schnittstelle für Modulprozedur nicht erlaubt»FAIL IMAGE«-Anweisung bei %CArgument FAILED= für NUM_IMAGES bei %LDer FDPIC-Modus wird im Thumb-1-Modus nicht unterstütztFINAL-Klausel bei %L erfordert einen skalaren LOGICAL-AusdruckFINAL-Deklaration bei %C muss innerhalb von CONTAINS seinFINAL-Deklaration bei %C muss innerhalb eines CONTAINS-Abschnitts eines abgeleiteten Typs stehenFINAL-Prozedur %qs bei %L ist keine SUBROUTINEBei %2$L deklarierte FINAL-Prozedur %1$qs hat denselben Rang (%3$d) wie %4$qsFINAL-Prozedur bei %L muss genau ein Argument habenFINAL-Prozedurdeklaration bei %CFLUSH-Anweisung bei %CFORALL-Konstrukt bei %LFORALL-Endausdruck bei %L muss skalarer INTEGER seinFORALL-Index %qs kann nicht in Tripel-Spezifikation bei %L auftretenFORALL-Indexname bei %L muss skalarer INTEGER seinFORALL-Indexname bei %L muss skalarer INTEGER seinFORALL-Maskenklausel bei %L erfordert einen skalaren LOGICAL-AusdruckFORALL-Anfangsausdruck bei %L muss skalarer INTEGER seinFORALL-Schrittausdruck bei %L kann nicht Null seinFORALL-Schrittausdruck bei %L muss skalares %s seinFORM-TEAM-Anweisung bei %CFORMAT-Marke %d bei %L nicht definiertFORMAT-Anweisung bei %C kann nicht innerhalb von INTERFACE auftretenFORMAT-Anweisung bei %L hat keine AnweisungsmarkeFORMAT-Kennzeichen bei %L kann kein Feld der Größe 0 seinFORMAT-Markierung bei %L muss vom Typ Standard-CHARACTER oder INTEGER seinGleitkomma-Ausnahmen sind eingeschaltet.Gleitkomma-Register könnten trotz Attribut %qE überschrieben werden: compilieren Sie mit %<-mgeneral-regs-only%>Argument FPTR für C_F_POINTER bei %L darf nicht polymorph seinFPX-Optionen »fast« und »compact« schließen sich ausFPX: Gleitkommaerweiterungen für doppelte Genauigkeit für Argonaut-ARC-CPU einschalten.FPX: kompakte FPX-Befehle für doppelte Genauigkeit erzeugen.FPX: schnelle FPX-Befehle für doppelte Genauigkeit erzeugen.FPX: kompakte FPX-Befehle für einfache Genauigkeit erzeugen.FPX: schnelle FPX-Befehle für einfache Genauigkeit erzeugen.FROMPOS-Argument (%ld) außerhalb des Bereichs 0:%d in intrinsischem MVBITSFROMPOS(%ld)+LEN(%ld)>BIT_SIZE(%d) in intrinsischem MVBITSFUNCTION-Ergebnis %s kann kein POINTER in FUNCTION %s bei %L seinFUNCTION-Ergebnis %s kann kein Feld in FUNCTION %s bei %L seinFUNCTION-Ergebnis %s kann nicht vom Typ %s in FUNCTION %s bei %L seinKomplexe Konstruktoren und Destruktoren ausfaktorisieren, um Speicherplatz gegenüber Geschwindigkeit zu gewinnen.Failed to create structure type '%s' at %CKeine passende Klausel gefunden bei %CFailure getting length of a constant array.Fehler bei Umwandlung von BOZ in REAL bei %LSchwerwiegender FehlerFelder einer »synchronized«-Klasse können nicht »%s« seinBei %2$C geöffnete Datei %1$qs ist keine GNU-Fortran-ModuldateiDetaillierte Steuerung der Tuningfeatures.Erstes Argument der definierten Zuweisung bei %L muss INTENT(OUT) oder INTENT(INOUT) seinErstes Argument der Operatorschnittstelle bei %L kann nicht optional seinErstes Argument der Operatorschnittstelle bei %L muss INTENT(IN) seinErstes oder letztes intrinsisches Argument zu !$OMP ATOMIC muss bei %2$L %1$qs seinFix min_int calculationFeste Zeilenlänge muss mindestens sieben seinSchalter %<-fmax-stack-var-size=%d%> überschreibt %<-frecursive%> (ausgelöst durch %qs)Schalter %<-fno-automatic%> überschreibt %<-fmax-stack-var-size=%d%>Schalter %<-fno-automatic%> überschreibt %<-frecursive%>Schalter %<-fno-automatic%> überschreibt %<-frecursive%> (ausgelöst durch %qs)Schalter %<-frecursive%> überschreibt %<-fmax-stack-var-size=%d%>Name der Konfiguration für eigene Gleitkommabefehle.Renesas-(vormals Hitachi)/SuperH-Aufrufkonventionen folgen.Die C++17-Anforderungen für die Auswertungsreihenfolge von Zuweisungsausdrücken, Bitverschiebungen, Elementfunktionsaufrufe, etc. befolgen.EABI-Bindeanforderungen befolgen.For Schein-Prozedur %s in BIND(C) bei %C ist kein bindender Name erlaubtFür Intrinsics-Bibliothek: alle Parameter in Registern übergeben.Für geschachtelte Funktionen auf dem Stapel werden Ausführrechte gesetzt.Für Bitschiebeoperationen mit konstanter Anzahl, die einen einzelnen Maschinenbefehl zur Verschiebung um eine Stelle erfordern, die maximale Anzahl von Inline-Verschiebeanweisungen (Maximalwert 64) festlegen, die ausgegeben werden sollen, anstatt die entsprechende Hilfsfunktion __mspabi zu verwenden. Der Standardwert ist 4.Für Ziele, die normalerweise Trampoline für geschachtelte Funktionen benötigen, diese stets generieren, statt Deskriptoren zu verwenden.Dem Assembler (und Linker) erlauben, jede beliebige Architektur-Untervariante ohne Fehler zu verwenden.FP-als-GP-Optimierung verbieten.Verbieten, dass mittels $fp auf statische oder globale Variablen zugegriffen wird. Diese Option verhindert die FP-als-GP-Optimierung, unabhängig von -mforce-fp-as-gp.Erzwingen, dass alle Aufrufe mittels des jli-Befehls erfolgen.Erzwingen, dass die Assembler-Ausgabe immer Hexadezimalkonstanten verwendet.Bitfeld-Zugriffe zwingen, zu ihrer Typbreite zu passen.Erzeugen von temporären Variablen erzwingen, um Code für selten ausgeführtes »forall« zu testen.Ausschalten der Hardwareschleife erzwingen, selbst wenn -mext-dsp angegeben ist.Funktionen auf 4-Byte-Grenzen zwingen.Codeerzeugung von Stummeln für die Indirektion externer Symbole erzwingen.Indirekte Aufrufe und Sprünge mittels Register erzwingen.FP-als-GP-Optimierung erzwingen.Den für »wchar_t« zugrundeliegenden Typen auf »unsigned short« zwingen.Verwendung der Delay-Slots für bedingte Sprünge erzwingen.Formatanweisung im Hauptblock des Modules bei %CFortran 2003: Spezifizierer %s in Anweisung %s bei %L hat Wert %qsFortran 2003: Zeichen für Argument %qs des intrinsischen %qs bei %LFortran 2003: DT-Format-Spezifizierer bei %C nicht erlaubtFortran 2003: Skalares effektives CHARACTER-Argument mit Feld-Scheinargument %qs bei %LFortran 2008: Veraltete Funktion:Fortran 2008: COMMON-Block %qs mit Binde-Marke bei %L teilt sich Bezeichner mit gobaler nicht-COMMON-Blockentität bei %LFortran 2008: Effektives Nicht-Zeiger-Argument bei %L an Scheinzeiger %qsFortran 2008: Nullzeiger bei %L an Nicht-Zeiger-Schein-%qsFortran 2008: Zeigerfunktionen in Variablen-Definitionskontext (%s) bei %LFortran 2008: Semikolon bei %C ohne vorausgehende AnweisungFortran 2018: gelöschtes Feature:Fortran 2018: Veraltetes Feature:Fortran 2018:Fortran 95 erfordert Standard INTEGER in %s-Marke bei %LKeine passende spezifische Bindung für Aufruf des GENERIC %qs bei %L gefundenFreie Zeilenlänge muss mindestens drei seinFunktion %qs als Initialisierungsausdruck bei %LFunktion %qs bei %L kann nicht rekursiv aufgerufen werden, da sie nicht RECURSIVE istFunktion %qs bei %L darf keinen Initialisierer habenFunktion %qs bei %L hat keinen IMPLICIT-TypFunktion %qs bei %L hat keinen IMPLICIT-Typ; meinen Sie %qs?Funktion %qs bei %L ist INTRINSIC, aber nicht mit einer intrinsischen Funktion verträglichFunktion %qs bei %L muss PURE seinFunktion %qs in Initialisierungs-Ausdruck bei %L muss eine intrinsische Funktion seinFunktion %qs ist als CHARACTER(*) deklariert und kann nicht bei %L verwendet werden, da es kein Scheinargument istFunktion %qs erfordert eine Argumentliste bei %CDie Funktion %qs, Parameter %u, hat IPA-SRA-Zugriffe, die sich überlappenFunktion %s bei %L hat Einträge mit unpassenden FeldspezifikationenFunktion %s bei %L mit Einträgen, die Variablen mit verschiedenen Zeichenkettenlängen zurückgebenFunktion %s, Parameter %u, wird verwendet, hat aber keinen bestimmten IPA-SRA-ZugriffFunktion nicht gefunden.Funktionsergebnis %qs bei %L kann keine Initialisierung habenFunktionsergebnis %qs bei %L hat keinen IMPLICIT-TypFunktionsergebnis %qs bei %L ist als X-Argument für C_FUNLOC ungültigFunktionsergebnis %qs bei %L darf weder Koarray sein noch eine Koarray-Komponente habenFunktionsergebnis %qs ist als Prozedurziel in Zuweisung des Prozedurzeigers bei %L ungültigFunktionsergebnisvariable %qs bei %L von elementarer Funktion %qs darf nicht die Attribute ALLOCATABLE oder POINTER habenFunktionsanfänge werden an dieser Potenz von 2 ausgerichtet.Funktionen, die Werte zurückgeben, müssen mit return-Anweisungen enden.Bestimmte Ganzzahloperationen verschmelzen, um die Performance auf power10 zu steigern.Bestimmte Ganzzahloperationen verschmelzen, um die Performance auf power8 zu steigern.Abhängige Paare von add oder vaddudm verschmelzen, um die Performance auf power10 zu steigern.Verweise auf das Inhaltsverzeichnis für medium/large-Codemodell mit Speicherzugriffsbefehlen verschmelzen.Paare von skalaren oder logischen Vektoroperationen verschmelzen, um die Performance auf power10 zu steigern.Skalares add/subf mit logischen Operationen verschmelzen, um die Performance auf power10 zu steigern.Skalare logische Operationen mit add/subf verschmelzen, um die Performance auf power10 zu steigern.GCC kann keine Operatoren mit Ganzzahl- und Festkommatypen unterstützen, die zusammen zu viele Ganzzahl- und Bruch-Bits habenGCC bietet derzeit keine Unterstützung für Parametertyp %qT für %<simd%>-FunktionenGCC unterstützt derzeit keine Typen gemischter Größe für %<simd%>-FunktionenGCC bietet derzeit keine Unterstützung für Rückgabetyp %qT für %<simd%>-FunktionenGCC unterstützt derzeit %<simdlen %wd%> für Typ %qT nichtGCC ist nicht dafür konfiguriert, %s als Offload-Ziel zu unterstützenGCC muss mit %<--enable-newlib-nano-formatted-io%> konfiguriert werden, um %<-mtiny-printf%> zu verwendenGCC unterstützt nur %u geschachtelte GültigkeitsbereicheGCC-Vektor per Referenz übergegeben: Nicht-Standard-ABI-Erweiterung ohne KompatibilitätsgarantieGCC-Vektor per Referenz zurückgegeben: Nicht-Standard-ABI-Erweiterung ohne KompatibilitätsgarantieZu verwendende GCN-CPU-Art:GCSE ausgeschaltetGENERIC %qs bei %L kann nicht spezifische Bindung mit gleichem Namen überschreibenGENERIC %qs bei %L muss auf spezifische Bindung abzielen, %qs ist ebenfalls GENERICGENERIC bei %C muss innerhalb eines CONTAINS eines abgeleiteten Typs seinGENERIC-Bindung bei %CGENERIC-Prozedur %qs ist bei %L nicht als effektives Argument erlaubtGMP Version %s, MPFR Version %s, MPC Version %s. isl Versiom %s
GNU C unterstützt »-traditional« ohne »-E« nicht mehrGNU-Erweiterung:GNU Objective C unterstützt keine traditionelle Übersetzung mehrAttribut im GNU-Stil zwischen Label und Deklaration bezieht sich auf das LabelGOTO-Anweisung bei %L hinterlässt CRITICAL-Konstrukt für Marke bei %LGOTO-Anweisung bei %L hinterlässt DO CONCURRENT-Konstrukt für Marke bei %LSyntaxfehler hinter PARAMETERIZED-TYPE-Deklaration bei %CMMA-Befehle erzeugen (oder auch nicht).Speicheradressierung relativ zu PC (oder absolut) erzeugen.Optimierungen für Speicherzugriffe relative zu PC durchführen (nicht durchführen).Speicherzugriffsbefehle mit (oder ohne) Präfix erzeugen.16-Bit-Befehle erzeugen.16-Bit-i386-Code erzeugen.32-Bit-Code erzeugen.32-Bit-Versatz in switch-Tabellen erzeugen.32-Bit-i386-Code erzeugen.32-Bit-x86-64-Code erzeugen.32x16-Multiplizier sowie Multiplizier+Addier-Befehle generieren.64-Bit-Code erzeugen.64-Bit-x86-64-Code erzeugen.APCS-konforme Stapelrahmen erzeugen.ARCompact-32-Bit-Code für ARC600-Prozessor erzeugen.ARCompact-32-Bit-Code für ARC601-Prozessor erzeugen.ARCompact-32-Bit-Code für ARC700-Prozessor erzeugen.Stubs im AT&T-Stil für Mach-O erzeugen.C-Header mit Plattform-spezifischen Merkmalen erzeugen.C-Prototypen aus BIND(C)-Deklarationen generieren.C-Prototypen aus Nicht-BIND(C)-Deklarationen für externe Prozeduren generieren.Informationen zu Abhängigkeiten von C++-Modulen erzeugen.FPU-Befehle mit doppelter Genauigkeit für C-SKY generieren (Vorgabe für Hardware-Gleitkomma).Erweiterungsbefehle für DSP generieren.DWARF-Abschnitte für Pubnames und Pubtypes mit GNU-Erweiterungen erzeugen.DWARF-Abschnitte für Pubnames und Pubtypes erzeugen.ELF-FDPIC-Code erzeugen.GFLOAT-Code mit doppelter Genauigkeit generieren.H8/300H-Code erzeugen.H8S-Code erzeugen.H8S/2600-Code erzeugen.H8SX-Code erzeugen.ILP32-Code erzeugen.Für den ARMv8 angemessene IT-Blöcke erzeugen.JSON-Datei erzeugen.LP64-Code erzeugen.MIPS16-Code erzeugen.ModuleInfo-Struktur für Ausgabemodul generieren.PA1.0-Code erzeugen.PA1.1-Code erzeugen.PA2.0-Code erzeugen (erfordert binutils 2.10 oder neuer).SBIT, CBIT-Befehle erzeugen.SH1-Code erzeugen.SH2-Code erzeugen.FPU-freien SH2a-Code erzeugen.SH2e-Code erzeugen.SH3-Code erzeugen.SH3e-Code erzeugen.FPU-freien SH4-Code erzeugen.SH4-Code erzeugen.FPU-freien SH4-100-Code erzeugen.SH4-100-Code erzeugen.FPU-freien SH4-200-Code erzeugen.SH4-200-Code erzeugen.FPU-freien SH4-300-Code erzeugen.SH4-300-Code erzeugen.FPU-freien SH4a-Code erzeugen.SH4a-Code erzeugen.SH4al-dsp-Code erzeugen.Beim Erzeugen von AltiVec-Code VRSAVE-Befehle erzeugen.Separaten »__mcount_loc«-Abschnitt erzeugen, der alle Aufrufe von »_mcount« und »__fentry__« enthält.Separaten »__mcount_loc«-Abschnitt erzeugen, der alle Aufrufe von »mcount« und »__fentry__« enthält.Eine auf das aktuelle Verzeichnis verweisende #line-Anweisung erzeugen.Ein Mach-O-Bundle erzeugen (Dateityp MH_BUNDLE).Einen __return_loc-Abschnitt generieren, der auf jeden instrumentierten return-Code verweist.Die Funktion »abort« aufrufen, wenn eine »noreturn«-Funktion zurückkehrt.Beim Compilieren eine Default-main-Funktion für D generieren.Einen einzigen Austrittspunkt für jede Funktion erzeugen.Absolute Quellpfade für gcov erzeugen.Code zum Übergeben von Aggregaten mit maximal 64-Bit-Ausrichtung erzeugen.Ausgabedatei erzeugen, die Symbole nicht erst bei Bedarf, sondern bereits beim Laden bindet.Assemblerausgabe erzeugen, die mit Renesas AS100-Assembler verträglich ist. Dies schränkt einige Compilerfähigkeiten ein. Voreinstellung ist GAS-verträgliche Syntax.Auto-inc/dec-Befehle erzeugen.Big-Endian-Code erzeugen.Big-Endian-Code erzeugen.Big-Endian-eBPF erzeugen.Bit-Befehle erzeugen.Sprungbefehle als direkte Sprünge erzeugen.Falls nötig, »call«-Befehle als indirekte Aufrufe erzeugen.Sprungbefehle als indirekte Sprünge erzeugen.Aufrufbefehle als indirekte Registeraufrufe erzeugen.Im Funktionsprolog cld-Befehle erzeugen.Code für Laufzeitumgebung des C-SKY-Compilers statt libgcc generieren.Code für CR16C-Architektur erzeugen.Code für CR16C+-Architektur erzeugen (Standard).Code für GNU as erzeugen.Code für GNU Assembler (gas) erzeugen.Code für GNU ld erzeugen.Code für die GNU-Laufzeitumgebung erzeugen.Code für die NeXT-(Apple macOS X)-Laufzeitumgebung erzeugen.Code für OpenMP-Auslagerung erzeugen: schaltet »-msoft-stack« und »-muniform-simt« ein.Code für Serie SH4 340 erzeugen (ohne MMU/FPU).Code für Serie SH4 400 erzeugen (ohne MMU/FPU).Code für Serie SH4 500 erzeugen (ohne FPU)Code für Smart Mode erzeugen.Code für Thumb-Zustand erzeugen.Code für UNIX-Assembler erzeugen.Code für 32-Bit-ABI erzeugen.Code für einen 5206e erzeugen.Code für einen 520X erzeugen.Code für einen 528x erzeugen.Code für einen 5307 erzeugen.Code für einen 5407 erzeugen.Code für 64-Bit-ABI erzeugen.Code für 68000 erzeugen.Code für 68010 erzeugen.Code für 68020 erzeugen.Code für einen 68030 erzeugen.Code für einen 68040 ohne neue Befehle erzeugen.Code für einen 68040 erzeugen.Code für einen 68060 ohne neue Befehle erzeugen.Code für einen 68060 erzeugen.Code für einen 68302 erzeugen.Code für einen 68332 erzeugen.Code für einen 68851 erzeugen.Code für ColdFire v4e erzeugen.Code für DLL erzeugen.Code für Fido A erzeugen.Code für eine cpu32 erzeugen.Code für alle Template-Instanziierungen einschalten.Code für eine 11/10 erzeugen.Code für eine 11/40 erzeugen.Code für eine 11/45 erzeugen.Code für Assert-Verträge generieren.Code für Klassen-Invarianz-Verträge generieren.Code für ladbare Darwin-Kernelerweiterungen erzeugen.Code für Funktionen erzeugen, auch wenn sie vollständig »inline« sind.Code für die angegebene CPU erzeugen.Code für altes ausführbares BSS PLT erzeugen.Code für Nachbedingungsverträge erzeugen.Code für Vorbedingungsverträge generieren.Code für static-Funktionen erzeugen, auch wenn sie nie aufgerufen werden.Code für Switches ohne Default-Fall generieren.Code für die Android-Plattform erzeugen.Code für den M*Core M210 erzeugen.Code für den M*Core M340 erzeugen.Code für ladbare Darwin-Kernelerweiterungen oder Kernel erzeugen.Code für Supervisor-Modus generieren (Standard).Code für User-Modus generieren.Code im 32-Bit-ARM-Zustand erzeugen.Code im »Big Endian«-Modus erzeugen.Code im »Big Endian«-Modus erzeugen.Code im »Little Endian«-Modus erzeugen.Code im »Little Endian«-Modus erzeugen.Code für ausführbare Dateien (NICHT Shared Libraries) erzeugen.Für schnelles Debugging geeigneten Code erzeugen.Code erzeugen, der in dynamischen Objekten im SVR4-Stil verwendet werden kann.Code erzeugen, der lokalen Zustand in allen Bahnen einheitlich halten kann.Code erzeugen, der zum Intel-MCU-psABI passt.Code erzeugen, der zum angegebenen ABI passt.Code erzeugen, der zum angegebenen ABI passt.Code erzeugen, der sicher mit MIPS16- und microMIPS-Code gebunden werden kann.Code erzeugen, der 68881-Gleitkommabefehle verwendet.Code erzeugen, der im privilegierten Zustand läuft.Code erzeugen, der nicht mit anderen ID-shared Libraries gelinkt werden würde, aber als Shared Library verwendet werden kann.Code zur Überprüfung der Grenzen vor Arrayindizierung erzeugen.Code zur Überprüfung von Exception-Spezifikationen erzeugen.Code generieren, der Gerade-Linie-Spekulationen abwehrt.Code generieren, um mitzuverfolgen, wann die CPU falsch spekulieren könnte.Code erzeugen, der nicht ausführbares PLT und GOT enthält.Code mittels globaler Anker-Symboladressen generieren.Code erzeugen, der Hardware-Gleitkommabefehle verwendet.Code erzeugen, der nur die allgemeinen Register verwendet.Code erzeugen, der nur die Kernregister (r0–r14) verwendet.Code mit Bibliotheksaufrufen für Gleitkommaarithmetik erzeugen.Code ohne Register für globalen Zeiger erzeugen.CFString-Objekte zum Kompilierungszeitpunkt generieren.Komprimierte Fehlersuchinformationen erzeugen.Verwendung bedingter Kopierbefehle einschalten.Konstantenpools im Compiler statt im Assembler generieren.cpp-Defines für Server-IO erzeugen.cpp-Defines für Workstation-IO erzeugen.Fehlersuchinformationen im DWARF-v2-Format (oder neuer) erzeugen.Fehlersuchinformationen im STABS-Format erzeugen.Fehlersuchinformationen im VMS-Format erzeugen.Fehlersuchinformationen im XCOFF-Format erzeugen.Fehlersuchinformationen im erweiterten Standardformat erzeugen.Fehlersuchinformationen im Standardformat erzeugen.Fehlersuchinformationen im Standardversion des DWARF-Formats erzeugen.Fehlersuchinformationen im erweiterten STABS-Format erzeugen.Fehlersuchinformationen im erweiterten XCOFF-Format erzeugen.Fehlersuchinformationen in separaten .dwo-Dateien erzeugen.Standard SH2a-FPU-Code mit doppelter Genauigkeit erzeugen.Standard SH2a-FPU-Code mit einfacher Genauigkeit erzeugen.Standard SH4-Code mit einfacher Genauigkeit erzeugen.Standard SH4-100-Code mit einfacher Genauigkeit erzeugen.Standard SH4-200-Code mit einfacher Genauigkeit erzeugen.Standard SH4-300-Code mit einfacher Genauigkeit erzeugen.Standard SH4a-Code mit einfacher Genauigkeit erzeugen.Nicht zusammenhängende Stapelrahmen erzeugen.Divisions-Befehle erzeugen.Divisionsergebnisse mit dem gleichen Vorzeichen im Übertrag wie der Divisor (nicht der Dividend) erzeugen.Dokumentation erzeugen.Gleitkommabefehle doppelter Genauigkeit generieren.eBPF für die angegebene Linux-Kernelversion erzeugen.Erweiterte arithmetische Befehle erzeugen, nur für ARC700 gültig.Erweiterte Informationen für Einsprungpunkt für inline-Funktionen erzeugen.Schnelle indirekte Aufrufe erzeugen.Gleitkommaarithmetik mit gegebenem Befehlssatz erzeugen.Kombinierte Multiplizier-Addier-Befehle generieren.Die Befehle frecipd/fsqrtd/fdivd generieren (Vorgabe für Hardware-Gleitkomma).Hardware-abs-Befehle generieren.Eingebettete Gleitkommadivision erzeugen, auf Wartezeit optimieren.Eingebettete Gleitkommadivision erzeugen, auf Durchsatz optimieren.Eingebettete Ganzzahldivision erzeugen, auf Wartezeit optimieren.Eingebettete Ganzzahldivision erzeugen, auf Durchsatz optimieren.Quadratwurzel »inline« erzeugen, auf Wartezeit optimieren.Quadratwurzel »inline« erzeugen, auf Durchsatz optimieren.Befehle generieren, die vom Barrel-Shifter unterstützt werden.isel-Befehle erzeugen.Lockeres Nachschlagen von Klassen (mit objc_getClass()) für Verwendung im Null-Verknüpfungs-Modus erzeugen.Little-Endian-Code erzeugen.Little-Endian-Code erzeugen.Little-Endian-eBPF erzeugen.Befehle zum gleichzeitigen Laden/Speichern mehrerer Daten erzeugen.Befehle für Laden/Speichern mit Aktualisierung erzeugen.Atomare Operationen durch Hilfsfunktionen implementieren.Make-Abhängigkeiten erzeugen und Code übersetzen.Make-Abhängigkeiten erzeugen.Aufrufe von »mcount«/»__fentry__« als NOPs erzeugen. Um sie einzuschalten, müssen sie hineingepatcht werden.Millicode-Schnipsel erzeugen.mul64- und mulu64-Befehle erzeugen.norm-Befehl erzeugen.Code im normalen Modus erzeugen.SH2a-FPU-Code nur mit einfacher Genauigkeit erzeugen.SH4-Code nur mit einfacher Genauigkeit erzeugen.SH4-100-Code nur mit einfacher Genauigkeit erzeugen.SH4-200-Code nur mit einfacher Genauigkeit erzeugen.SH4-300-Code nur mit einfacher Genauigkeit erzeugen.SH4a-Code nur mit einfacher Genauigkeit erzeugen.PC-relativen Code erzeugen.Erweiterungsbefehle für Performance einschalten.Erweiterungsbefehle für Performance Version 2 einschalten.Unechte Ziele für alle Header erzeugen.Wenn möglich, lageunabhängigen Code für ausführbare Dateien erzeugen (large mode).Wenn möglich, positionsunabhängigen Code für ausführbare Dateien erzeugen (small mode).Wenn möglich, lageunabhängigen Code erzeugen (large mode).Wenn möglich, positionsunabhängigen Code erzeugen (small mode).Wenn verfügbar, Prefetch-Befehle für Arrays in Schleifen erzeugen.Befehle push/pop generieren (Standard).Wiedereinsprungsfähigen PIC-Code erzeugen.Reziproke statt divss und sqrtss erzeugen.return-Befehl in nackter Funktion generieren.Informationen zur Typbeschreibung zur Laufzeit erzeugen.SData-Referenzen erzeugen. Dies ist die Voreinstellung, außer wenn PIC erzeugt wird.Abschnitte .s390_indirect_jump, .s390_indirect_call, .s390_return_reg, und .s390_return_mem erzeugen, in denen die Adressen für indirekte Sprungziele gespeichert werden, die aufgrund der Optionen -mindirect-branch* oder -mfunction-return* gepatcht wurden. Die Abschnitte bestehen aus einem Array von 32-Bit-Elementen. Jedes Element enthält den Offset vom Eintrag zu der gepatchten Adresse.Selbstverschiebbaren Code erzeugen.sin, cos und sqrt für FPU erzeugen.Gleitkommabefehle einfacher Genauigkeit generieren.Reziproke Division und Quadratwurzel in Software für besseren Durchsatz erzeugen.Wenn nötig, spezielle Objective-C-Methoden zur Initialisierung/Zerstörung von nicht-POD C++ ivars, erzeugen.stm/ldm-Befehle erzeugen (Vorgabe).Erweiterungsbefehle für Zeichenketten einschalten.swap-Befehl erzeugen.Ganzzahl-Modulo-Befehle erzeugen.Atomare Quadword-Befehle zum Speicherzugriff verwenden (lqarx/stqcx).Befehle zum Laden/Speichern von Quadwords (lq/stq) erzeugen.Unausgerichtete VSX-Lade/Speicher-Befehle für Inline-Expansion von memcpy/memmove generieren.Unausgerichtete VSX-Lade/Speicher-Befehle für Vektorpaare für Inline-Expansion von memcpy/memmove generieren.Abwicklungstabellen erzeugen, die genau an jeder Befehlsgrenze liegen.Befehle push25/pop25 für v3 erzeugen.»vzeroupper«-Befehl erzeugen, bevor der Ablauf die Funktion verlässt.xBPF erzeugen.Generische Funktion %qs bei %L ist nicht mit spezifischer intrinsischer Schnittstelle vereinbarAllgemeiner Name %qs der Funktion %qs bei %L ist der gleiche wie der des abgeleiteten Typs bei %LGenerisches Unterprogramm %qs bei %L ist nicht mit intrinsischer Unterprogrammschnittstelle vereinbarSprüngen ihre Standardkosten zuweisen.Externen Symbolen einen führenden Unterstrich geben.Globaler Bindungs-Name %qs bei %L wird bereits als ein %s bei %L verwendetGlobaler Bindungs-Name %qs bei %L wird bereits bei %L verwendetGlobale Entität %qs bei %L kann nicht in einem COMMON-Block bei %L vorkommenGlobaler Name %qs bei %L wird bereits als ein %s bei %L verwendetGlobaler Name %qs bei %L wird bereits bei %L verwendetGraphite-Schleifenoptimierungen können nicht verwendet werden (ISL ist nicht verfügbar) (%<-fgraphite%>, %<-fgraphite-identity%>, %<-floop-nest-optimize%>, %<-floop-parallelize-all%>)Graphite-Schleifenoptimierungen können nicht verwendet werden (ISL ist nicht verfügbar).Linker anweisen, Befehle zu lockern.Bibliotheksfunktionen aufrufen, wenn atomare eingebaute Operationen auf unausgerichteten Speicher angewendet werden können. Hebt -mtrap-unaligned-atomic auf.Hardware-Autoprefetcher-Scheduler-Modellsteuerung: Anzahl der Vorausschauzyklen, die das Modell untersucht, bei '0' ist nur die heuristische Sortierung von Befehlen aktiviert. Standardmäßig deaktiviert.Hexadezimalkonstante bei %L verwendet Nicht-Standard X statt ZHollerithkonstante bei %CMit Host verbundene Variable %qs darf nicht in DATA-Anweisung bei %C stehenWie viel die gegebene Übersetzungseinheit durch das »inline« wachsen kann (in Prozent).Wie viel die gegebene Übersetzungseinheit durch die interprozedurale Konstantenweitergabe wachsen kann (in Prozent).E/A-Registeroperand für »%%%c«IBITS: Bad bitICE: emit_insn verwendet, wo emit_jump_insn erforderlich:
ID der zu bauenden Shared Library.ID-gemeinsam genutzte Bibliotheken und FD-PIC-Modus können nicht zusammen verwendet werdenIEEE_ARITHMETIC-Modul bei %CIEEE_EXCEPTIONS-Modul bei %CIEEE_FEATURES-Modul bei %CIF-Klausel bei %L erfordert einen skalaren LOGICAL-AusdruckIF-Klausel-Modifizierer »%s« bei %L ist dem aktuellen OpenMP-Konstrukt nicht angemessenIF-Klausel ohne Modifizierer bei %L wird zusammen mit IF-Klauseln mit Modifizierert verwendetIM-part_ref bei %C»IMPLICIT NONE (type)«-Anweisung bei %L folgt einer IMPLICIT-AnweisungIMPLICIT-Anweisung bei %C folgt auf IMPLICIT NONE (Typ-)AnweisungIMPORT NONE mit Angabenliste bei %CIMPORT-Anweisung bei %CIMPORT-Anweisung bei %C ist nur in einem INTERFACE-Körper erlaubtIMPURE-Prozedur bei %CINQUIRE-Anweisung bei %L kann nicht sowohl FILE- als auch UNIT-Spezifikationssymbole enthaltenINQUIRE-Anweisung bei %L erfordert PENDING= mit Spezifizierung ID=INQUIRE-Anweisung bei %L erfordert entweder FILE- oder UNIT-SpezifikationssymbolINQUIRE-Anweisung in PURE-Prozedur bei %C nicht erlaubtINTEGER-Ausdruck von %s-Klausel bei %L darf nicht negativ seinINTEGER-Ausdruck von %s-Klausel bei %L muss positiv seinINTEGER-Ausdruck der »chunk_size« der SCHEDULE-Klausel bei %L muss positiv seinINTEGER(KIND=8) ist nicht verfügbar für Option %<-fdefault-integer-8%>INTEGER(KIND=8) ist nicht verfügbar für Option %<-finteger-4-integer-8%>INTENT(%s) steht mit INTENT(%s) bei %L in KonfliktINTENT ist in BLOCK bei %C nicht erlaubtEffektives Argument von INTENT(%s) bei %L könnte effektives Argument bei %L stören.INTENT(IN) POINTER %qs in Klausel %s bei %LINTENT(IN)-Zeiger %qs in COPYPRIVATE-Klausel bei %LArgument %1$qs bei %3$L für die reine Prozedur %2$qs ist INTENT(OUT) und darf daher nicht polymorph seinINTERFACE-Prozedur %qs bei %L hat denselben Namen wie die umgebende ProzedurIO UNIT in %s-Anweisung bei %L muss eine interne Datei in einer PURE-Prozedur seinIO-Definition für %q+D erfordert eine AdresseIOLENGTH-Markierung in INQUIRE-Anweisung bei %C ungültigIOMSG-Markierung bei %LIPA-modref-Zusammenfassung fehlt in EingabedateiIPA-SRA-Zugriffs-Verifikation fehlgeschlagenISA %qs wird von Attribut %<target%> nicht unterstützt, verwenden Sie den Aufruf %<arch=%>ISO-C erlaubt kein %<%E (Ausdruck)%>ISO-C erlaubt kein zusätzliches %<;%> außerhalb einer FunktionISO-C erlaubt kein auf Funktionstypen angewendetes %<_Alignof%>ISO C unterstützt nicht %<#pragma STDC FLOAT_CONST_DECIMAL64%>ISO-C unterstützt kein %<++%> und %<--%> für komplexe TypenISO-C unterstützt %<[[]]%>-Attribute erst ab C2XISO-C unterstützt die Typen %<__int%d%> nichtISO-C unterstützt nicht %<~%> für komplexe KonjugationISO-C unterstützt den vordefinierten Bezeichner %qs nichtISO-C unterstützt keine komplexen GanzzahltypenISO-C unterstützt dezimale Gleitkommazahlen erst ab C2XISO-C unterstützt keine GanzzahltypenISO-C unterstützt das Weglassen von Parameternamen in Funktionsdefinitionen erst ab C2XISO-C unterstützt nicht %<double complex%> bedeutendes einfaches %<complex%>ISO-C unterstützt keine sättigenden TypenISO-C unterstützt den Typen %<_Float%d%s%> nichtISO-C verbietet %<goto *expr;%>ISO-C verbietet %<return%> mit Ausdruck, in void zurückgebender FunktionISO-C verbietet eine leere QuelldateiISO-C verbietet Zuweisung zwischen Funktionszeiger und %<void *%>ISO-C verbietet geklammerte Gruppen innerhalb von AusdrückenISO-C verbietet Typkonvertierung von Nicht-Skalar auf selben TypenISO-C verbietet Typkonvertierung auf union-TypISO-C verbietet Vergleich von %<void *%> mit FunktionszeigerISO-C verbietet bedingten Ausdruck zwischen %<void *%> und FunktionszeigerISO-C verbietet bedingten Ausdruck mit nur einer void-SeiteISO-C verbietet const- oder volatile-FunktionstypenISO-C verbietet Konvertierung von Funktionszeigern in ObjektzeigertypISO-C verbietet Konvertierung von Objektzeigertypen in FunktionszeigertypISO-C verbietet leere InitialisierungsklammernISO-C verbietet Vorwärtsdeklaration für ParameterISO-C verbietet Vorwärts-Referenzen auf %<enum%>-TypenISO-C verbietet Initialisierung zwischen Funktionszeiger und %<void *%>ISO-C verbietet MarkendeklarationenISO-C verbietet Elementdeklarationen ohne ElementeISO-C verbietet verschachtelte FunktionenISO-C verbietet das Weglassen des mittleren Terms eines %<?:%>-AusdruckesISO-C verbietet geordnete Vergleiche zwischen Zeigern auf FunktionenISO-C verbietet Übergabe des Arguments %d von %qE zwischen Funktionszeiger und %<void *%>ISO-C verbietet qualifizierte FunktionstypenISO-C verbietet return zwischen Funktionszeiger und %<void *%>ISO-C verbietet die Angabe eines zu initialisierenden ElementebereichesISO-C verbietet, ein %<register%>-Array zu indizierenISO-C verbietet Array der Größe nullISO-C verbietet Array %qE der Größe nullISO-C verbietet Argumentkonvertierung in union-TypISO-C erfordert ein benanntes Argument vor %<...%>ISO-C beschränkt Aufzählungswerte auf Bereich von %<int%>Attribut %qE aus ISO C++ ist nicht auf Funktionen anwendbar; wird als %<[[gnu::%E]]%> behandeltISO-C++ 1998 unterstützt nicht %<long long%>ISO-C++ 1998 verbietet die Verwendung von %<extern%> bei expliziten InstanziierungenISO C++ erlaubt Bitfeld-Attribute nur vor dem %<:%>-TokenISO C++ unterstützt keine Operatortemplates in Zeichenkettenliteralen, die eine Argumentpackung von Zeichen bekommenin ISO-C++ darf der mittlere Operand von %<?:%> nicht weggelassen werdenISO-C++ erlaubt kein %<alignof%> mit einem Nicht-TypISO-C++ erlaubt keine benannten Initialisierungen von C99ISO-C++ erlaubt keine benannten Initialisierungen (GNU)ISO-C++ erlaubt nicht, %<%T::%D%> als %<%T::%D%> zu definierenISO-C++ erlaubt kein auf Funktionstypen angewendetes %<alignof%>ISO-C++ unterstützt %<__int%d%> für %qs nichtISO-C++ unterstützt nicht, dass einfaches %<complex%> %<double complex%> bedeutetISO-C++ verbietet Anwendung von %<__alignof%> auf einen Ausdruck mit FunktionstypISO-C++ verbietet Anwendung von %<sizeof%> auf einen Ausdruck mit FunktionstypISO-C++ verbietet Gruppen in geschweiften Klammern innerhalb von AusdrückenISO-C++ verbietet den Aufruf von %<::main%> vom Programm ausISO-C++ verbietet Umwandlung in Arraytyp %qTISO-C++ verbietet Vergleich zwischen Zeiger und GanzzahlISO-C++ verbietet Vergleich zwischen Zeiger des Typs %<void *%> und Zeiger auf FunktionISO-C++ verbietet zusammengesetzte LiteraleISO-C++ verbietet berechnete GotosISO-C++ verbietet Bedingungsausdruck mit Zeiger des Typs %<void *%> und Zeiger auf FunktionISO-C++ verbietet Umwandlung zwischen Zeiger des Typs %<void *%> und Zeiger auf FunktionISO C++ verbietet, eine Zeichenkettenkonstante in %qT zu konvertierenISO-C++ verbietet Deklaration von %qs ohne TypISO-C++ verbietet Verringern eines Zeigers vom Typ %qTISO-C++ verbietet verringern einer AufzählungISO-C++ verbietet leere unbenannte AufzählungISO-C++ verbietet flexibles Arrayelement %qsISO-C++ verbietet flexible ArrayelementeISO-C++ verbietet Initialisierung des nicht konstanten statischen Elements %qD in der KlasseISO-C++ verbietet Erhöhen eines Zeigers vom Typ %qTISO-C++ verbietet erhöhen einer AufzählungISO-C++ verbietet Initialisierung der Elementkonstante %qD vom nicht eingebauten Typen %qTISO-C++ verbietet geschachtelten Typen %qD mit gleichem Namen wie umschließende KlasseISO-C++ verbietet das Auslassen des mittleren Terms eines %<?:%>-AusdrucksISO-C++ verbietet das Ermitteln der Adresse der Funktion %<::main%>ISO-C++ verbietet das Ermitteln der Adresse einer gebundenen Elementfunktion, um einen Zeiger auf Elementfunktion zu erzeugen. Stattdessen %<&%T::%D%> verwendenISO-C++ verbietet das Ermitteln der Adresse einer nicht qualifizierten oder geklammerten nicht-statischen Elementfunktion, um einen Zeiger auf Elementfunktion zu erzeugen. Stattdessen %<&%T::%D%> verwendenISO-C++ verbietet die Verwendung von %qE bei expliziten InstanziierungenISO-C++ verbietet typename-Schlüssel in Template-Template-Parameter; verwenden Sie %<-std=c++17%> oder %<-std=gnu++17%>ISO-C++ verbietet Gleitkommaliterale in Konstanten-AusdrückenISO-C++ verbietet die Verwendung eines Zeigers des Typs %<void *%> in SubtraktionISO-C++ verbietet die Verwendung eines Zeigers auf eine Funktion in SubtraktionISO-C++ verbietet die Verwendung eines Zeigers auf Methode in SubtraktionISO-C++ verbietet Array variabler LängeISO-C++ verbietet Array %qD variabler LängeISO-C++ verbietet Array der Größe nullISO-C++ verbietet Array %qD der Größe nullISO-C++ verbietet anonyme structsISO-C++ verbietet Überladen von %<operator ?:%>ISO C++ besagt, dass diese mehrdeutig sind, auch wenn die schlechteste Umwandlung für das erste besser ist als die schlechteste Umwandlung für das zweite:ISO-C++17 erlaubt Speicherklassenangabe %<register%> nichtISO C++17 erlaubt keine dynamischen Ausnahmespezifikationendas Weglassen der Zeichenkette in %<_Static_assert%> wird von ISO C11 nicht unterstütztISO-C90 unterstützt %<[*]%>-Arraydeklaratoren nichtISO-C90 unterstützt nicht %<_Alignas%>ISO-C90 unterstützt nicht %<_Generic%>ISO-C90 unterstützt nicht %<_Noreturn%>ISO-C90 unterstützt nicht %<_Static_assert%>ISO-C90 unterstützt den vordefinierten Bezeichner %<__func__%> nichtDeklarationen im Initialisierungsteil einer %<for%>-Schleife werden von ISO C90 nicht unterstützt; ab ISO C99 geht esISO-C90 unterstützt nicht %<long long%>ISO-C90 unterstützt kein %<static%> oder Typkennzeichner in ParameterarraydeklaratorenISO-C90 unterstützt nicht %qEISO-C90 unterstützt keine booleschen TypenISO-C90 unterstützt keine komplexen TypenISO-C90 unterstützt keine flexiblen Arrays als ElementeISO-C90 unterstützt den %<_Atomic%>-Qualifizierer nichtISO-C90 unterstützt keine namenlosen structs/unionsISO-C90 verbietet Array %qE, dessen Größe nicht ausgewertet werden kannISO-C90 verbietet Array, dessen Größe nicht ausgewertet werden kannISO-C90 verbietet zusammengesetzte LiteraleISO-C90 verbietet gemischte Deklarationen und CodeISO-C90 verbietet die Angabe von zu initialisierenden UnterobjektenISO-C90 verbietet, ein Nicht-L-Wert-Array zu indizierenISO-C90 verbietet Array variabler GrößeISO-C90 verbietet Array %qE variabler GrößeISO-C99 unterstützt nicht %<_Alignas%>ISO-C99 unterstützt nicht %<_Generic%>ISO-C99 unterstützt nicht %<_Noreturn%>ISO-C99 unterstützt nicht %<_Static_assert%>ISO-C99 unterstützt nicht %qEISO-C99 unterstützt den %<_Atomic%>-Qualifizierer nichtISO-C99 unterstützt keine namenlosen structs/unionsModul ISO_C_BINDING bei %CIntrinsisches Modul ISO_FORTRAN_ENV bei %CWenn »-ftree-vectorize« verwendet wird, die minimale Schleifengrenze einer für Vektorisierung zu betrachtenden Schleife.Wenn »-fvariable-expansion-in-unroller« verwendet wird, die Höchstzahl der Fälle, dass eine einzelne Variable während Loop-Unrolling expandiert wird.Wenn die Neuzuordnung von Grenzen bei %L angegeben wird, darf das Zeigerziel nicht NULL seinWenn das erste Argument von ATAN2 bei %L 0 ist, dann darf das zweite Argument nicht 0 seinWenn das erste Argument von ATAN2 bei %L 0 ist, dann darf das zweite Argument nicht 0 seinWenn die Anzahl der Kandidaten in der Menge kleiner ist, wird immer versucht, ungenutzte IVs während ihrer Optimierung zu entfernen.Wenn Planung nach dem Neuladen, dann Superblock-Planung.»D« in Spalte eins in statischer Form ignorieren.Attribut dllimport für Funktionen ignorieren.Den normalen zweistufigen Namensraum ignorieren; Symbole in der Reihenfolge der Befehlszeile auflösen und nicht aufzeichnen, welche Bibliothek das aufgelöste Symbol bereitgestellt hat.Nicht unterstützte Pragmas ignorieren.Ignoriert.Unzulässiges ALLOCATE-Objekt bei %C für eine PURE-ProzedurUnzulässige Zuweisung an externe Prozedur bei %LUnzulässiges Zeichen in BOZ-Konstante bei %CIllegal id in copy_walk_reduction_argUngültige PräprozessordirektiveUngültiger Referenztyp bei %L als EQUIVALENCE-ObjektUnzulässiger Schritt von Null bei %LUnzulässiger Typ in Zeichenverkettung bei %LAnweisung %s zur Image-Steuerung bei %C in CRITICAL-BlockAnweisung %s zur Image-Steuerung bei %C in DO CONCURRENT-BlockAnweisung %s zur Image-Steuerung bei %C in PURE-ProzedurCRITICAL-Anweisung zur Image-Steuerung bei %C in DO CONCURRENT-BlockCRITICAL-Anweisung zur Image-Steuerung bei %C in PURE-ProzedurAnweisung »EVENT %s« zur Image-Steuerung bei %C in CRITICAL-BlockAnweisung »EVENT %s« zur Image-Steuerung bei %C in DO CONCURRENT-BlockAnweisung »EVENT %s« zur Image-Steuerung bei %C in PURE-ProzedurRETURN-Anweisung zur Image-Steuerung bei %C in CRITICAL-BlockPRINT-Anweisung zur Image-Steuerung bei %C in DO CONCURRENT-BlockSTOP-Anweisung zur Image-Steuerung bei %C in CRITICAL-BlockSTOP-Anweisung zur Image-Steuerung bei %C in DO CONCURRENT-BlockSYNC-Anweisung zur Image-Steuerung bei %C in CRITICAL-BlockSYNC-Anweisung zur Image-Steuerung bei %C in DO CONCURRENT-BlockSYNC-Anweisung zur Image-Steuerung bei %C in PURE-ProzedurArgument für Imageset bei %L muss Skalar oder Rang-1-INTEGER-Ausdruck seinArgument für Imageset bei %L muss zwischen 1 und num_images() liegenC++17-Semantik für erbende Konstruktoren umsetzen.DIP1000 "Zeiger in Gültigkeitsbereichen" implementieren (experimentell).DIP25 "Versiegelte Referenzen" implementieren (experimentell).__atomic-Operationen über Bibliotheksaufrufe alter __sync-Funktionen durchführen.Auflösung von DR 150 für Mustervergleich von Template-Template-Argumenten umsetzen.Implizit deklarierte BIND(C)-Funktion %qs bei %L ist möglicherweise nicht interoperabel mit CImplizit deklarierte BIND(C)-Variable %qs bei %L könnte nicht C-kompatibel seinImplizit deklarierte Funktion %s wird in !$OMP DECLARE REDUCTION bei %L verwendetImplizit deklariertes Unterprogramm %s wird in !$OMP DECLARE REDUCTION bei %L verwendetImplizit deklarierte Variable %qs bei %L könnte nicht C-kompatibel sein, ist aber ein Scheinargument für BIND(C)-Prozedur %qs bei %LImplizit angegebener PARAMETER %qs bei %L passt nicht zu früherem IMPLICIT-TypEinbezogenes SAVE für Modulvariable %qs bei %L, benötigt wegen StandardinitialisierungFeld mit impliziter Form bei %LVerbesserung der Fähigkeit des GCC, Spaltennummern in großen Quelldateien zu verfolgen, auf Kosten einer langsameren Kompilierung.Unreine Funktion %qs bei %L wird möglicherweise nicht ausgewertetUnreine Funktion bei %L wird möglicherweise nicht ausgewertetIn %s bei %L müssen alle Prozeduren auch FUNCTIONs sein, da der allgemeine Name auch der Name des abgeleiteten Typs istIn %s bei %L müssen alle Prozeduren entweder SUBROUTINE oder FUNCTION seinIn C++ bedeutet ungleich Null die Warnung vor veralteter Umwandlung von Zeichenkettenliteralen in »char *«. In C erfolgt eine ähnliche Warnung, nur ist die Umwandlung nat. laut ISO-C-Standard nicht veraltet.In Fortran 2003 ist der COMMON-Block %qs bei %L ein globaler Bezeichner und muss daher den selben Bindungsnamen haben wie der gleichbenannte COMMON-Block bei %L: %s vs. %sIn SSA-PRE-Optimierungen auf Bäumen Teils-Teils-Redundanz eliminieren.In einem reinen Unterprogramm darf ein INTENT(IN)-Dummy-Argument nicht als »expr« bei %L einer intrinsischen Zuweisungsanweisung verwendet werden, in der die Variable von einem abgeleiteten Typ ist, wenn der abgeleitete Typ eine Zeigerkomponente auf irgendeiner Ebene der Komponentenauswahl hat.Im Aufruf von %qs bei %L ist eine Typunverträglichkeit bei Argument %qs; %s wurde an %s übergebenIn Konstruktor %qsIn Kopierkonstruktor %qsIn Destruktor %qsIn Datei, eingebunden vonIn Funktion %qsIn Lambda-FunktionIn Elementfunktion %qsIn ModulIn Modul, importiert beiIn statischer Elementfunktion %qsInclude-Verzeichnis %qs: %sInkompatibles ALLOCATE-Objekt bei %C für CHARACTER-Typspezifikation bei %LUnverträglicher abgeleiteter Typ in PARAMETER bei %LInkompatible Initialisierung zwischen einer abgeleiteten Typentität und einer Entität mit Typ %qs bei %CUnverträgliche Ränge %d und %d in Zuweisung bei %LUnverträgliche Ränge in %s (%d und %d) bei %LUnverträgliche Typen in DATA-Anweisung bei %L; versuchte Umwandlung von %s an %sUnverträgliche Typangabe für Feldelement bei %LUnverträgliche Verwendung von TILE und COLLAPSE bei %LInkonsistente Äquivalenzregeln mit %qs bei %L und %qs bei %LInterne Compilerwarnung: No location in expression near %LInterne Compilerwarnung: Inconsistent internal state: No location in statementRänge für Operator bei %%L und %%L stimmen nicht übereinInterner Compilerfehler: Incorrect EH edge %i->%iFalsche Ausdehnung in Argument B in MATMUL-Intrinsic in Dimension 1: ist %ld, sollte %ld seinFalscher Funktions-RückgabewertIEEE-Befolgung für Gleitkommavergleiche erhöhen.Index in Dimension %d ist außerhalb der Grenzen bei %LIndexvariable %qs ist nicht als INTENT(INOUT)-Argument definierbar bei %L in Prozedur %qs, die aus der DO-Schleife bei %L heraus aufgerufen wirdIndexvariable %qs ist nicht als INTENT(INOUT)-Argument definierbar bei %L in Unterroutine %qs, die aus der DO-Schleife bei %L heraus aufgerufen wirdIndexvariable %qs neudefiniert bei %L in Prozedur %qs, aufgerufen aus der DO-Schleife bei %LIndexvariable %qs wird auf undefiniert als INTENT(OUT)-Argument bei %L in Prozedur %qs gesetzt, wird aus der DO-Schleife bei %L aufgerufenIndexvariable %qs wird auf undefiniert gesetzt als INTENT(OUT)-Argument bei %L in Unterroutine %qs, die aus der DO-Schleife bei %L heraus aufgerufen wirdAuf Anwesenheit von Prozessorfehlern hinweisen.Priorität für r0..r3 / r12..r15 mit TARGET_REGISTER_PRIORITY ausdrücken.Vergleich auf Ungleichheit für %s bei %LVerwendung von Hardware-Gleitkommabefehlen unterdrücken.Initialisierung bei %C ist in PURE-Prozedur nicht erlaubtInitialisierung bei %C ist nicht für eine ZeigervariableInitialisierung einer allozierbaren Komponente bei %C ist nicht erlaubtInitialisierung des Zeigers bei %C ist nicht in einer PURE-Prozedur erlaubtInitialisierung einer Strukturkomponente mit einer HOLLERITH-Konstante bei %L ist nicht erlaubtInitialisierung einer Variablen bei %C ist in einer PURE-Prozedur nicht erlaubtInitialisierungszeichenkette bei %L wurde abgeschnitten, um zur Variable zu passen (%ld/%ld)Komponenten von abgeleiteten Typvariablen gemäß anderer init-Schalter initialisieren.Lokale Variablen auf Null initialisieren (von g77).Initialisiertes Symbol %qs bei %C kann nur COMMON in BLOCK DATA seinInitialisierte Variable %qs bei %L ist in leerem COMMON, aber Initialisierung ist nur in benannten COMMON-Blöcken erlaubtInitialisierer nicht erlaubt für PARAMETER %qs bei %CInitialisierung einer bereits initialisierten Variablen bei %C__atomic-Operationen »inline« erzeugen, wenn Lock-freie Befehlssequenz verfügbar ist.Alle bekannten Zeichenkettenoperationen einbetten (inline).Code inline einbetten, um Befehlscache nach dem Aufsetzen verschachtelter Funktionstrampoline zu verwerfen.Konstanten einbetten, wenn es mit 2 Befehlen oder weniger geht.Zeichenkettenoperationen memset/memcpy als »inline« einfügen, aber Inline-Version nur für kleine Blöcke durchführen.Rekursives inlinen nur, wenn die Wahrscheinlichkeit des Aufrufs den Parameter überschreitet.Befragungsparameter darf nicht in einer data-stmt-object-list bei %C vorkommenENDBR-Befehl beim Betreten einer Funktion nur via cf_check-Attribut für CET-Instrumentierung einfügen.In jedem Funktionsprolog NOP-Befehle erzeugen.Arc-basierten Programm-Profilierungscode einfügen.Code einfügen, der jede Speicherseite des Stapels bei der Allokation antestet, um vor Angriffen basierend auf Überschneidungen zu schützen.Code einfügen, um Ausdrücke zu profilen.Lockerungs-Hinweis an Linker übergeben, um Lockerung durchzuführen.Code zur Stapelprüfung in das Programm einfügen. Dasselbe wie -fstack-check=specific.Anzahl der Maschinenbefehle, die für Funktionsprolog, -Epilog und sonstigen Overhead veranschlagt werden.Anzahl der Maschinenbefehle, die für Thunk-Overhead in Funktionen veranschlagt werden.Ein- und Austritte von Funktionen beim Profilieren von Aufrufen verwenden.Verlassen von Funktionen mit __fentry__ instrumentieren, in instrumentierten Funktionen.Funktionen nur aus Dateien instrumentieren, deren Namen zu keinem der regulären Ausdrücke passen (durch Semikolon getrennt).Funktionen nur aus Dateien instrumentieren, deren Namen zu einem der regulären Ausdrücke passen (durch Semikolon getrennt).Ganzzahldivision bei %2$L zu Konstante %1$qs abgeschnittenGanzzahlausdruck erforderlich bei %CGanzzahlige ID (N) des spezifischen Befehls »fabsd«.Ganzzahlige ID (N) des spezifischen Befehls »fabss«.Ganzzahlige ID (N) des spezifischen Befehls »faddd«.Ganzzahlige ID (N) des spezifischen Befehls »fadds«.Ganzzahlige ID (N) des spezifischen Befehls »fatand«.Ganzzahlige ID (N) des spezifischen Befehls »fatans«.Ganzzahlige ID (N) des spezifischen Befehls »fcmpeqd«.Ganzzahlige ID (N) des spezifischen Befehls »fcmpeqs«.Ganzzahlige ID (N) des spezifischen Befehls »fcmpged«.Ganzzahlige ID (N) des spezifischen Befehls »fcmpges«.Ganzzahlige ID (N) des spezifischen Befehls »fcmpgtd«.Ganzzahlige ID (N) des spezifischen Befehls »fcmpgts«.Ganzzahlige ID (N) des spezifischen Befehls »fcmpled«.Ganzzahlige ID (N) des spezifischen Befehls »fcmples«.Ganzzahlige ID (N) des spezifischen Befehls »fcmpltd«.Ganzzahlige ID (N) des spezifischen Befehls »fcmplts«.Ganzzahlige ID (N) des spezifischen Befehls »fcmpned«.Ganzzahlige ID (N) des spezifischen Befehls »fcmpnes«.Ganzzahlige ID (N) des spezifischen Befehls »fcosd«.Ganzzahlige ID (N) des spezifischen Befehls »fcoss«.Ganzzahlige ID (N) des spezifischen Befehls »fdivd«.Ganzzahlige ID (N) des spezifischen Befehls »fdivs«.Ganzzahlige ID (N) des spezifischen Befehls »fexpd«.Ganzzahlige ID (N) des spezifischen Befehls »fexps«.Ganzzahlige ID (N) des spezifischen Befehls »fextsd«.Ganzzahlige ID (N) des spezifischen Befehls »fixdi«.Ganzzahlige ID (N) des spezifischen Befehls »fixdu«.Ganzzahlige ID (N) des spezifischen Befehls »fixsi«.Ganzzahlige ID (N) des spezifischen Befehls »fixsu«.Ganzzahlige ID (N) des spezifischen Befehls »floatid«.Ganzzahlige ID (N) des spezifischen Befehls »floatis«.Ganzzahlige ID (N) des spezifischen Befehls »floatud«.Ganzzahlige ID (N) des spezifischen Befehls »floatus«.Ganzzahlige ID (N) des spezifischen Befehls »flogd«.Ganzzahlige ID (N) des spezifischen Befehls »flogs«.Ganzzahlige ID (N) des spezifischen Befehls »fmaxd«.Ganzzahlige ID (N) des spezifischen Befehls »fmaxs«.Ganzzahlige ID (N) des spezifischen Befehls »fmind«.Ganzzahlige ID (N) des spezifischen Befehls »fmins«.Ganzzahlige ID (N) des spezifischen Befehls »fmuld«.Ganzzahlige ID (N) des spezifischen Befehls »fmuls«.Ganzzahlige ID (N) des spezifischen Befehls »fnegd«.Ganzzahlige ID (N) des spezifischen Befehls »fnegs«.Ganzzahlige ID (N) des spezifischen Befehls »frdxhi«.Ganzzahlige ID (N) des spezifischen Befehls »frdxlo«.Ganzzahlige ID (N) des spezifischen Befehls »frdy«.Ganzzahlige ID (N) des spezifischen Befehls »fsind«.Ganzzahlige ID (N) des spezifischen Befehls »fsins«.Ganzzahlige ID (N) des spezifischen Befehls »fsqrtd«.Ganzzahlige ID (N) des spezifischen Befehls »fsqrts«.Ganzzahlige ID (N) des spezifischen Befehls »fsubd«.Ganzzahlige ID (N) des spezifischen Befehls »fsubs«.Ganzzahlige ID (N) des spezifischen Befehls »ftand«.Ganzzahlige ID (N) des spezifischen Befehls »ftans«.Ganzzahlige ID (N) des spezifischen Befehls »ftruncds«.Ganzzahlige ID (N) des spezifischen Befehls »fwrx«.Ganzzahlige ID (N) des spezifischen Befehls »fwry«.Ganzzahlige ID (N) des spezifischen Befehls »round«.Ganzzahlart %d bei %C nicht verfügbarGanzzahl außerhalb des symmetrischen Bereichs wegen Standard-Fortran bei %LGanzzahl außerhalb des symmetrischen Bereiches wegen Standard-Fortran-Konvertierung von %s in %s bei %LGanzzahlüberlauf bei der Berechnung des zu reservierenden SpeichersGanzzahl zu groß für ihre Art bei %C. Diese Überprüfung kann mit der Option %<-fno-range-check%> ausgeschaltet werdenGanzzahl bei %C zu großGanzzahlwert zu groß in Ausdruck bei %CFunktionen in ihre Aufrufer einfügen, wenn Codegröße als nicht wachsend bekannt ist.Nicht als »inline« deklarierte Funktionen in ihre Aufrufer einfügen, wenn gewinnbringend.Nur an einer Stelle aufgerufene Funktionen in ihre Aufrufer einfügen.Intel-MCU-psABI wird im %s-Modus nicht unterstütztSchleifen bei %L werden getauschtSchnittstelle %qs bei %L ist in späterer PROCEDURE-Anweisung deklariertSchnittstelle %qs bei %L darf keine Anweisungsfunktion seinSchnittstelle %qs bei %L kann nicht allgemein seinSchnittstelle %qs bei %L muss explizit seinUnpassende Schnittstelle für Prozedurzeiger-Komponente %qs in Strukturkonstruktor bei %L: %sSchnittstelle in Scheinprozedur %qs bei %L passt nicht: %sSchnittstelle in globaler Prozedur %qs bei %L passt nicht: %sUnpassende Schnittstellen bei Zuweisung des Prozedurzeigers bei %L: %qs ist kein UnterprogrammUnpassende Schnittstellen bei Zuweisung des Prozedurzeigers bei %L: %sSchnittstelle muss für DEFERRED-Bindung bei %C angegeben werdenSchnittstellenname nach %<(%> bei %C erforderlichInterner Compilerfehler: Fehlerbehandlungsroutinen doppelt betreten.
Interne Datei bei %L mit NamenslisteInterne Prozedur %qs in %s bei %LInterne Prozedur %qs ist in Zuweisung des Prozedurzeigers bei %L ungültigInterne Prozedur %qs ist in Initialisierung des Prozedurzeigers bei %L ungültigInterne Prozedur %qs wird als effektives Argument bei %L verwendetInterne Einheit mit Vektor-Index bei %LJeden INTEGER(4) als INTEGER(8) interpretieren.Jeden REAL(4) als REAL(10) interpretieren.Jeden REAL(4) als REAL(16) interpretieren.Jeden REAL(4) als REAL(8) interpretieren.Jeden REAL(8) als REAL(10) interpretieren.Jeden REAL(8) als REAL(16) interpretieren.Jeden REAL(8) als REAL(4) interpretieren.Imaginäre, Festkomma, oder andere GNU-Zahlenauffixe als das korrespondieren Zahlenliteral statt eines benutzerdefinierten Zahlenliterals interpretieren.Interrupt-Dienst-Routinen können nicht im »Thumb-1«-Modus codiert werdenIm »text«-Abschnitt Literalbereiche mit Codebereichen verweben.Intervall, in dem der Stack geprüft wird, als Zweierpotenz in Bytes ausgedrückt.Intervallüberlappung von %<-fdbg-cnt=%s%>: [%u, %u] und [%u, %u]Intrinsisches %qs (%s) wird bei %L verwendetIntrinsisches %qs bei %L kann keine Initialisierung habenEingebautes %qs bei %L ist in Zuweisung des Prozedurzeigers ungültigEingebautes %qs bei %L ist nicht als effektives Argument erlaubtDas intrinsische %qs bei %L muss mindestens zwei Argumente habenIntrinsisches TRANSFER bei %L hat teilweise undefiniertes Ergebnis: Quellgröße %ld < Ergebnisgröße %ldIntrinsische Funktion %qs (%d) nicht erkanntIntrinsische Funktion %qs bei %L ist nicht in einem Initialisierungs-Ausdruck erlaubtIntrinsische Funktion »%s« bei %L ist nicht für CO_REDUCE erlaubtIntrinsische Funktion NULL bei %L kann kein tatsächliches Argument für STORAGE_SIZE sein, da es einen disassoziierten Zeiger zurückgibtBei %2$L referenzierter intrinsischer Operator %1$qs nicht im Modul %3$qs gefundenSchnittstelle des intrinsischen Operators bei %L muss eine FUNCTION seinIntrinsische Prozedur %qs ist in PROCEDURE-Anweisung bei %L nicht erlaubtIntrinsische Prozedur bei %L kann keine MODULE PROCEDURE seinIntrinsisches Unterprogramm %qs bei %L darf keine Typspezifizierung habenIntrinsisches Symbol wurde bei %C in »!$ACC ROUTINE ( NAME )« angegeben und mit der inkompatiblen GANG, WORKER oder VECTOR-Klausel markiertUngültige BOZ-Literalkonstante, die bei %C im Feldindex verwendet wirdUngültiger C-Name in NAME=-Spezifizierung bei %CUngültige Hollerithkonstante bei %L enthält ein Wide-ZeichenUngültige Hollerithkonstante: %L muss mindestens ein Zeichen enthaltenUngültige Hollerithkonstante: Ganzzahlart bei %L sollte Standard seinUngültiger KIND-Parameter von %s bei %LUngültiger NAME %qs in »!$ACC ROUTINE ( NAME )« bei %CUngültiges NULL bei %LUngültiges Argument für »!$ACC WAIT« bei %CUngültiges Zuordnungsziel bei %CUngültiges Zeichen %<$%> bei %L. %<-fdollar-ok%> verwenden, um es als Erweiterung zuzulassenUngültiges Zeichen %qc in Variablenname bei %CUngültiges Zeichen 0x%s bei %CUngültiges Zeichen in Name bei %CUngültige(s) Zeichen in ELSE-Anweisung nach %CUngültige Klausel in Modul mit »!$ACC DECLARE« bei %LUngültige Codimension %d bei %C, nur %d Codimensionen existierenUngültiger Kontext für NULL()-Zeiger bei %LUngültiger Kontext für NULL()-Zeiger bei %%LUngültiger Exponent-Buchstabe %<q%> in literaler Realkonstante bei %CInvalid expression in gfc_element_size.Invalid expression in gfc_target_encode_expr.Invalid expression in gfc_target_interpret_expr.Ungültiger Ausdruck im Strukturkonstruktor für Zeigerkomponente %qs bei %L in PURE-ProzedurUngültige Form der PROGRAM-Anweisung bei %CUngültige Form der WRITE-Anweisung bei %L, UNIT erforderlichUngültige Form der Feldreferenz bei %CUngültige Form der Coarray-Referenz bei %CUngültige Bildanzahl %d in SYNC IMAGESUngültiger Initialisierungsausdruck für ALLOCATABLE-Komponente %qs in Strukturkonstruktor bei %LUngültige Initialisierung %s in Data-Anweisung bei %CUngültiges Schlüsselwort %qs in intrinsischer Funktion %qs bei %LUngültige Art %d für CHARACTER-Konstante bei %CUngültige Art für %s bei %LUnerlaubtes Mischen von IEEE-128-Bit- und IBM-128-Bit-GleitkommatypenUngültige Initialisierung im alten Stil für abgeleitete Typkomponente bei %CUngültiger Operator für !$OMP DECLARE REDUCTION %s bei %LUngültiges Argument für Prozedur bei %LUngültige Zuweisung eines Prozedurzeigers bei %LUngültiger Bereich %s in Option %sUnzulässige Realart %d bei %CInvalid standard code on intrinsic %qs (%d)Ungültige Teilzeichenkette in data-implied-do in DATA-Anweisung bei %LUngültiges Typspezifikation bei %CUngültige Verwendung der BOZ-Literalkonstante bei %LUngültiger Wert für Spezifikation %s bei %CEinen Hinweis ausgeben, wenn doppelte Diagnosemeldungen zusammengefasst werden.Fehlersuche-Informationen für compilergenerierte Hilfsvariablen ausgeben.Für strikte Standardbefolgung benötigte Warnungen ausgeben.Iteratorschritt bei %L kann nicht Null seinSprungziele werden an dieser Potenz von 2 ausgerichtet.Ausschuss hinter ASSOCIATE-Anweisung bei %CAusschuss hinter CALL bei %CAusschuss hinter GENERIC-Bindung bei %CAusschuss hinter MAP-Anweisung bei %CAusschuss hinter UNION-Anweisung bei %CAusschuss hinter unverschachtelter STRUCTURE-Anweisung bei %CEinfach Abwicklungstabellen für Ausnahmebehandlung erzeugen.Einfach icc0/fcc0 verwenden.KIND-Attribut bei %C in einer STRUCTURE-DefinitionKIND-Attribut bei %C in einer TYPE-DefinitionKIND-Parameter von %s bei %L muss ein Initialisierungsausdruck seinKIND-part_ref bei %CSchlüsselwort %qs bei %C bereits in aktueller Argumentliste aufgetretenSchlüsselwort-Argument %qs bei %L ist bereits mit einem anderen effektiven Argument verbundenSchlüsselwort-Argument %qs bei %L darf innerhalb einer Anweisungsfunktion nicht auftauchenSchlüsselwort-Argument %qs bei %L ist nicht in der ProzedurSchlüsselwort-Argument %qs bei %L ist nicht in der Prozedur; meinen Sie %qs?Schlüsselwort-Argument erfordert explizite Schnittstelle für Prozedur %qs bei %LSchlüsselwortargument erfordert explizite Schnittstelle für Prozedurzeigerkomponente %qs bei %LDie Art %d wird für CHARACTER bei %C nicht unterstütztDie Art %d wird für Typ %s bei %C nicht unterstütztParameter mit KIND-Typ für Entität bei %L unterscheidet sich vom Parameter mit KIND-Typ der TypspezifikationBekannte AArch64-ABIs (für Verwendung mit Option -mabi=):Bekannte ABIs (für Verwendung mit Option -mabi=):Bekannte ARC-CPUs (für Verwendung mit Option -mcpu=):Bekannte ARM-ABIs (für Verwendung mit Option -mabi=):Bekannte ARM-CPUs (für Verwendung mit Optionen -mcpu= und -mtune=):Bekannte ARM-FPUs (für Verwendung mit Option -mfpu=):Bekannte ARM-Architekturen (für Verwendung mit Option -march=):Bekannte C6X ISAs (für Verwendung mit der Option -march=):Bekannte CPUs (für Verwendung mit Optionen -mcpu= und -mtune=):Bekannte CSKY-CPUs (für Verwendung mit Option -mcpu=):Bekannte CSKY-FPUs (für Verwendung mit Option -mfpu=):Bekannte CSKY-Architekturen (für Verwendung mit Option -march=):Bekannte FR-V-CPUs (für Verwendung mit Option -mcpu=):Bekannte IQ2000-CPUs (für Verwendung mit Option -mcpu=):Bekannte Itanium-CPUs (für Verwendung mit Option -mtune=):Bekannte M68K-CPUs (für Verwendung mit Option -mcpu=):Bekannte M68K-ISAs (für Verwendung mit Option -march=):Bekannte M68K-Mikroarchitekturen (für Verwendung mit Option -mtune=):Bekannte MIPS-ABIs (für Verwendung mit Option -mabi=):Bekannte MIPS-CPUs (für Verwendung mit Optionen -march= und -mtune=):Bekannte MIPS-IEEE-754-Einstellungen (für Verwendung mit Optionen -mabs= und -mnan=):Bekannte MIPS-ISA-Stufen (für Verwendung mit Option -mips):Bekannte PTX-ISA-Versionen (für Verwendung mit Option -misa=):Bekannte TILE-Gx CPUs (für Verwendung mit Option -mcpu=):Bekannte TILEPro-CPUs (für Verwendung mit Option -mcpu=):Bekannte TLS-Dialekte (für Verwendung mit Option -mtls-dialect=):Bekannte __fp16-Formate (für Verwendung mit der Option -mfp16-format=):Bekannter Adressmodus (für Verwendung mit Option -maddress-mode=):Bekannte Architekturen (für Verwendung mit Option -march=):Bekannte Assemblerdialekte (für Verwendung mit Option »-masm=«):Bekannte Werte für Rückkehr-Instrumentierung mit -minstrument-return=:Bekannte Codemodelle (für Verwendung mit Option -mcmodel=):Bekannte Codemodelle (für Verwendung mit Option -mict-model=):Bekannte Codemodelle (für Verwendung mit Option -mcmodel=):Bekannte CPU-Typen (für Verwendung mit Option -mcpu=):Bekannte Datenausrichtungen (für Verwendung mit Option -malign-data=):Bekannte Gleitkomma-ABIs (für Verwendung mit Option -mfloat-abi=):Bekannte Anzahl der Gleitkomma-Register (für Verwendung mit der Option -mconfig-fpu=):Bekannte indirekte Sprungauswahlen (für Verwendung mit den Optionen -mindirect-branch=/-mfunction-return=):Bekannte bevorzugte Länge von Registervektoren (für Verwendung mit der Option -mprefer-vector-width=):Bekannte Stapelschutz-Wächter (für Verwendung mit Option -mstack-protector-guard=):Bekannte ABIs für Vektorisierungs-Bibliothek (für Verwendung mit Schalter -mveclibabi=):L%d Cache-Wartezeit unbekannt für %sLEN-Argument (%ld) außerhalb des Bereichs 0:%d in intrinsischem MVBITSLEN-Argument (%ld) außerhalb des Bereichs 0:%ld in intrinsischem IBITSLEN-Attribut bei %C in einer STRUCTURE-DefinitionLEN-Attribut bei %C in einer TYPE-DefinitionLEN oder KIND-Abfrageverweis in DATA-Anweisung bei %LLEN-part_ref bei %CLHS in %<noreturn%>-AufrufLINEAR-Klauselmodifizierer wird bei %L an DO- oder SIMD-Konstrukt verwendetFür Argument bei %L ist die LINEAR-Klausel zusammen mit ORDERED-Klausel angegebenLINEAR-Dummy-Argument %qs mit VALUE-Attribut mit %s-Modifizierer bei %LLINEAR-Variable %qs bei %L muss INTEGER seinLOCK-Anweisung bei %CLOCK_EVENT in Variablen-Definitionskontext (%s) bei %LLOCK_TYPE in Variablen-Definitionskontext (%s) bei %LLOGICAL-Scheinargument %qs bei %L mit Nicht-C_Bool-Art in BIND(C)-Prozedur %qsLOGICAL-Operanden werden in Ausdruck bei %L benötigtLOGICAL-Rückgabevariable %qs bei %L mit Nicht-C_Bool-Art in BIND(C)-Prozedur %qsLTO-Unterstützung wurde in dieser Konfiguration nicht eingeschaltetMarke %d bei %C bereits als eine Formatmarke referenziertMarke %d bei %C bereits als Sprungziel referenziertMarke %d bei %C vorher als FORMAT-Marke verwendetMarke %d bei %C vorher als Sprungziel verwendetMarke %d bei %L definiert, kann aber nicht verwendet werdenMarke %d bei %L definiert, aber nicht verwendetMarke %d wird bei %L referenziert, aber nirgendwo definiertSprungmarke %qs nach %L passt nicht zur IF-Marke %qsMarke %qs bei %C passt nicht zur IF-Marke %qsMarke %qs bei %C passt nicht zur WHERE-Marke %qsMarke bei %L ist nicht im gleichen Block wie GOTO-Anweisung bei %LMarkenname %qs bei %C ist mehrdeutigDO-Anweisung mit Label bei %LÖffnende Klammer benötigt nach %<*%> in Formatzeichenkette bei %LAlte Erweiterung:Buchstabe %qc hat bei %C bereits einen IMPLICIT-TypBuchstabe %qc wurde bereits in IMPLICIT-Anweisung bei %C gesetztBuchstaben in IMPLICIT-Anweisung bei %C müssen in alphabetischer Reihenfolge seinStufe nicht gefunden, verwenden Sie %<none%>, %<slim%>, %<blocks%>, %<vops%>.Beschränkungen für GOT-Größe aufheben.Wie -M, aber System-Header-Dateien ignorieren.Wie -MD, aber System-Header-Dateien ignorieren.Wie -pedantic, aber als Fehler ausgeben.Grenze von %d Fortsetzungen in Anweisung bei %C überschrittenZeile bei %L wird abgeschnitten%s von %d Zeilen ausgeführt
Code für einen __main-Kernel einbinden.Die D-Standardbibliothek dynamisch in das Compilat binden.Die D-Standardbibliothek statisch in das Compilat binden.Binden, um Programm im ELF-Format zu erzeugen (statt mmo).Mit HAL BSP verlinken.Mit eingeschränkter Version der C-Bibliothek linken.Mit libads.a, libc.a und crt0.o binden.Mit libc.a und libdebug.a binden.Mit libc.a und libsim.a binden.Mit libmvme.a, libc.a und crt0.o binden.Mit libsim.a, libc.a und sim-crt0.o binden.Mit libyk.a, libc.a und crt0.o binden.Mit schneller Gleitkomma-Bibliothek linken.Mit Library-PIC-Bibliotheken linken.Optimierungen zur Bindezeit mit Anzahl paralleler Jobs oder Jobserver.Alle verfügbaren Fehleranalysezähler mit ihren Grenzen und Werten auflisten.Alle versteckten GC-Allokationen auflisten.Alle unveränderlichen Felder auflisten, die eine Objektinstanz belegen.Alle Verwendungen von komplexen oder imaginären Typen ausgeben.Alle Variablen auflisten, die im threadlokalen Speicher landen.Informationen über alle Sprachänderungen auflisten.Listenelement %qs bei %L wurde von einer vorhergehenden Direktive OMP DECLARE TARGET auf einen abweichenden DEVICE_TYPE festgelegtListenelement %qs mit allozierbaren Komponenten ist nicht erlaubt in einer map-Klausel bei %LListenelement bei %C darf nicht koindiziert seinListe wurde zusammen mit Speicherreihenfolge-Klausel angegeben, in FLUSH-Direktive bei %CAlle Elemente der Archivbibliotheken laden, statt nur denen, die undefinierte Symbole erfüllen.Lock-Variable bei %L muss Skalar mit LOCK_TYPE seinLogischer SELECT CASE Block bei %L hat mehr als zwei FälleLogischer Bereich in CASE-Anweisung bei %L ist nicht erlaubtLogische Werte bei %%L müssen mit %s statt mit %s verglichen werdenDie vom Linker geladenen Objektdateien wegschreiben.Symbole wegschreiben, die zum Laden eines Objekts geführt haben.PCH-Dateien suchen und verwenden, sogar bei Vorverarbeitung.Sucht Möglichkeiten, Stapel-Anpassungen und Stapel-Referenzen zu reduzieren.Schleifen an dieser Potenz von 2 ausrichten.Schleife läuft endlosSchleifenvariableSchleifenvariable bei %C kann kein Koarray seinSchleifenvariable bei %C kann keine Unter-Komponente seinSchleifenvariable bei %C kann kein Koarray seinSchleifenvariable wurde geändertSchleifen mit mindestens der angegebenen Durchlaufzahl erhalten Schleifenausrichtung.Untere Feldreferenz bei %L ist außerhalb der Schranken (%ld < %ld) in Dimension %dUntere Feldreferenz bei %L ist außerhalb der Schranken (%ld > %ld) in Dimension %dMCU %qs unterstützt keine Hardware-Multiplikation, aber %<-mhwmult%> ist auf %s gesetztMCU %qs unterstützt %s-ISA, aber %<-mcpu%> ist auf %s gesetztMCU %qs unterstützt %s-Hardware-Multiplikation, aber %<-mhwmult%> ist auf %<16-bit%> gesetztMCU %qs unterstützt %s-Hardware-Multiplikation, aber %<-mhwmult%> ist auf %<32-bit%> gesetztMCU %qs unterstützt %s-Hardware-Multiplikation, aber %<-mhwmult%> ist auf %<f5series%> gesetztMIPS16 %<-mxgot%> CodeMIPS16 PIC für ABIs außer o32 und o64MMIX Internal: %s is not a shiftable intMMIX Internal: Bad register: %dMMIX-intern: Falscher Wert für 'm', kein CONST_INTMMIX-internal: Dieser Operand kann nicht dekodiert werdenMMIX-intern: CONST_INT erwartet, aber nicht diesMMIX-intern: Konstante erwartet, aber nicht diesMMIX-intern: Register erwartet, aber nicht diesMMIX Internal: Last named vararg would not fit in a registerMMIX Internal: Missing %qc case in mmix_print_operandMMIX-intern: Dies ist keine Konstante:MMIX-intern: Diese Adresse wird nicht erkanntMMIX-intern: Versuch, ungültig umgekehrte Bedingung auszugeben:MMIX-intern: Was ist der CC davon?MMIX-intern: Was ist der CC davon?MMX-Vektorargument ohne eingeschaltetes MMX ändert das ABIMMX-Vektorrückgabe ohne eingeschaltetes MMX ändert das ABIMODULE PROCEDURE bei %C muss in einer generischen Modulschnittstelle seinMODULE-PROCEDURE-Deklaration bei %CMODULE-Präfix bei %CMODULE-Präfix bei %C muss innerhalb eines Moduls, Teilmoduls oder Interfaces seinMOLD-Argument an NULL bei %L erforderlichMOLD-Marke bei %LMOLD-Marke bei %L steht mit SOURCE-Marke bei %L in KonfliktMOLD-Marke bei %L steht mit Typspezifikation bei %L in KonfliktIn NULL()-Argument bei %L wird MOLD= benötigt: Mehrdeutig zwischen spezifischen Funktionen %s und %sMSA-MIPS16-Codeeingebaute MSP430-Funktionen sind nur innerhalb von Interrupt-Handlern einsetzbarMULT-Fall in cris_op_strGröße des zweiten Arguments von %s überschreitet Bit-Größe bei %LGrößenordnung des zweiten Arguments von ISHFTC überschreitet BIT_SIZE des ersten Arguments bei %CRückwärtskettenzeiger pflegen.Macht »char« standardmäßig vorzeichenbehaftet.»char« standardmäßig vorzeichenlos machen.Dem Linker die Befehlszeilenoption »--no-relax« anstelle der Option »--relax« übergeben.Alle Funktionsaufrufe indirekt machen.Ganzzahlen 32 Bit breit machen.Structs auf Vielfache von 4 Bytes vergrößern (Warnung: ABI geändert).Maschine zur Binder-Entspannung soll annehmen, dass ein Befehlszählerübersprung auftritt.Kaputte GENERIC-Anweisung bei %CFalsch geformte Typspezifikation bei %CDaten im P2-Raum reservieren.Gemangelte abgeleitete Typdefinition bei %CZuordnung von Modulen zu CMI-Dateien.MAC-Register als Aufruf-zerstört markieren.Alle Schleifen als parallel markieren.Implizit deklarierte Kopieroperationen als deprecated markieren, wenn die Klasse eine benutzerdefinierte Kopieroperation oder einen solchen Destruktor hat.Implizit deklarierte Kopieroperationen als deprecated markieren, wenn die Klasse eine benutzerdefinierte Kopieroperation hat.Alle inline-Funktionen und -Methoden mit versteckter Sichtbarkeit markieren.Höchstzahl der Basis-Blöcke in Schleife für Schleifeninvariantenbewegung.Maximale Schleifenanzahl für regionale Registerzuweisung (RA).Maximalzahl der Bytes, die mit Schleifen verglichen werden.Maximalzahl der Bytes, die ohne Schleifen verglichen werden.Maximalzahl der Bytes, die verglichen werden.Maximalzahl der Bytes, die inline kopiert werden.Maximale Größe der Konflikttabelle in MB.Maximalzahl der Debugmarkierungen, die expandiert oder eingereiht werden.Größte Rekursionstiefe für das Expandieren von variablenverfolgenden Ausdrücken.Maximalgröße der Speicherort-Liste, bei der Umkehrungsoperationen hinzugefügt werden sollen.Maximale Größe variablenverfolgender Hash-Tabellen.Maximaler Code-Zuwachs durch Ende-Vervielfältigung (in Prozent).Größtes durch frühes »inline« eines einzelnen Aufrufs abgeschätztes Wachstum des Funktionskörpers.Größtes geschätztes Ergebnis eines als vorhersagbar betrachteten Sprunges.Maximales Wachstum durch »inline« einer großen Funktion (in Prozent).Maximale Anzahl der Grenzendpunkte der Fallbereiche der Switch-Anweisung, die bei der Generierung der IPA-Funktionszusammenfassung verwendet werden.Kleinste Größe einer Partition für LTO (in geschätzten Befehlen)Maximales Stapelrahmen-Wachstum durch »inline« (in Prozent).Maximal erlaubte Größenzunahme und Gesamtgröße der neuen Parameter, bis zu der IPA-RSA Zeiger auf Aggregate ersetzt.Höchstzahl der Iterationen des Durchgangs über eine Funktion.Höchstzahl der ähnlichen Basisblöcke, mit denen ein Basisblock verglichen wird.Höchsttiefe beim Durchlaufen des DFS durch die modref-Escapeanalyse.Maximale Verschachtelungstiefe von Schleifen für optimistisches value-number.Maximale Tiefe der logischen Ausdrücke, die von der Bereichsanalyse erfasst werden, um ausgehende Bereiche zu evaluieren.Maximale Tiefe des rekursiven Klonens für selbstrekursive Funktionen.Größte Tiefe der Suche im Dominator-Baum für anzuhebende Ausdrücke.Maximale Verschachtelung von Quadratwurzeln, um Potenzierung mit Gleitkommakonstanten abzubilden.Höchste Erweiterungsstufe mit Typ %qs bei %L erreichtMaximallänge von Kandidatenprüfungen für geradlinige Stärkereduktion.Maximalgröße der partiellen Aufwandsmenge, wenn Baumvoroptimierung ausgeführt wird.Maximale Anzahl der VALUEs, die während eines einzelnen Aufrufs von »find_base_term« verarbeitet werden.Höchstzahl der Zugriffe, die pro modref-Verweis gespeichert werden.Höchstzahl der aktiven lokalen Speicherungen bei RTL-Eliminierung toter Speicherungen.Höchstzahl der zusammengesetzten Elemente für einen Parameter in Sprungfunktionen und Gittern.Anzahl der Argumente für ein PHI, bis zu der der FSM-Threader versucht, durch dessen Block zu laufen.Höchstzahl der Argumente in einem PHI, die einer TREE-if-Umwandlung unterstützt werden, außer wenn die Schleife mit einem SIMD-Pragma markiert ist.Höchstzahl der Arrays in einem SCoP.Maximale Anzahl von künstlichen Zugriffen, um eine Vorwärtsausbreitung zu ermöglichen, die die Skalare Ersetzung von Aggregaten für eine lokale Variable beibehält.Höchstzahl der Assertions, die während der VRP entlang der Standardkante einer switch-Anweisung hinzugefügt werden.Höchstzahl der Basen, die pro modref-Baum gespeichert werden.Höchstzahl der Basis-Blöcke, bevor EVRP einen spärlich gefüllten Cache verwendet.Höchstzahl der Basis-Blöcke in einem Mehrfachsprung in einem endlichen Automaten.Höchstzahl der Bits, für die keine FMAs erzeugt werden.Höchstzahl der gleichzeitig offenen C++-Moduldateien beim verzögerten Laden.Höchstzahl von bedingten Speicherpaaren, die ausgegeben werden können.Höchstzahl der konstanten Speicherungen, die im Speicherzusammenfassungs-Durchgang zusammengefasst werden.Höchstzahl der Datenreferenzen in Schleife zum Aufbau der Abhängigkeiten der Schleifendaten.Maximale Anzahl verschiedener Prädikate, die zur Verfolgung der Eigenschaften von Schleifen in der interprozeduralen Analyse verwendet werden.Höchstzahl der Auflösungen von Mehrdeutigkeiten pro Speicherzugriff.Höchstzahl der Ausstiegspunkte, die von modref pro SSA-Name aufgezeichnet werden.Die Höchstzahl der Felder in einer Struktur, bevor Zeigeranalyse sie als einzelne Variable behandelt.Höchstzahl der in Basis-Block zu betrachtenden Befehle für RTL-if-Umwandlung.Die Höchstzahl der Befehle in der ausführungsbereiten Liste, die zur Umbenennung in Frage kommen.Höchstzahl der zu kopierenden Befehle, wenn Blöcke auf einem Mehrsprungpfad des Zustandsautomaten dupliziert werden.Höchstzahl der ISL-Operationen, 0 bedeutet unbegrenzt.Höchstzahl der Schleifenschälungen, um Ausrichtung von Datenreferenzen in einer Schleife zu verbessern.Höchstzahl der beim spekulativen Devirtualisieren besuchten may-defs.Höchstzahl der Namensräume, in denen alternativ gesucht wird, wenn Nachschlagen eines Namens fehlschlägt.Höchstzahl der geschachtelten Aufrufe, die bei der Analyse für uninitialisierte Variablen auf Abhängigkeiten in der Ablaufsteuerung untersucht werden.Höchstzahl der neuen Sprungpfade, die für einen endlichen Automaten erzeugt werden.Maximale Anzahl von Operationen in einem Parameterausdruck, die von der IPA-Analyse behandelt werden können.Höchstzahl der Parameter in einem SCoP.Höchstzahl, wie oft das Alias-Orakel pro Speichervorgang befragt wird.Höchstzahl der Verweise, die pro modref-Basis gespeichert werden.Höchstzahl der in einem Block erlaubten Anweisungen, die für Sprungbehandlung vervielfältigt werden müssen.Höchstzahl der Anweisungen, die von der Analyse der formalen Parameter für IPA besucht werden, basierend auf der Aliasanalyse in einer gegebenen Funktion.Höchstzahl der betrachteten Anweisungen für das Entdecken von Sprungfunktionsoffsets.Höchstzahl der Speicherungsketten, die im Speicherzusammenfassungs-Durchgang gleichzeitig berücksichtigt werden.Höchstzahl der Zeichenketten, für die der strlen-Optimierungsdurchgang Zeichenkettenlängen aufzeichnet.Höchstzahl der Tests, die von modref-Anfragen durchgeführt werden.Höchstzahl, wie oft ein Befehl geplant werden könnte.Maximal erlaubte Kosten für die Befehlsfolge, die vom RTL-if-Umwandlungs-Durchlauf für eine vorhersagbare Verzweigung erzeugt wird.Maximal erlaubte Kosten für die Befehlsfolge, die vom RTL-if-Umwandlungs-Durchlauf für eine unvorhersagbare Verzweigung erzeugt wird.Maximale Stücke, die IPA-SRA pro Formalparameter verfolgt, folglich auch die maximale Anzahl von Ersetzungen eines Formalparameters.Größte Wahrscheinlichkeit des Einsprung-BB der geteilten Region (in Prozent relativ zum Einsprung-BB der Funktion), um teilweises »inline« durchzuführen.Maximal erlaubte Rekursionstiefe beim Abfragen von Eigenschaften eines SSA-Namens.Maximal Größe (in Bytes) der Objekte, die bei der Eliminierung toter Speicherungen byteweise verfolgt werden.Maximalgröße der als Operanden erlaubten Konstantenwerte in Bytes.Maximale Größe einer jedem Parameter zugeordneten Liste von Werten für interprozedurale Konstantenweitergabe.Maximale Größe eines einzelnen Bereichs einer Speicherzusammenführung in Bytes.Maximalgröße einer globalen oder statischen Variable, die in kleine Datenbereiche gelegt wird.Maximale Größe (in Speichereinheiten) von Aggregaten, die für Skalarisierung erwägt werden, wenn auf Codegröße optimiert wird.Maximale Größe (in Speichereinheiten) von Aggregaten, die für Skalarisierung erwägt werden, wenn auf Geschwindigkeit optimiert wird.Höchste Teildatensatzlänge kann %d nicht überschreitenHöchste unterstützte Bezeichnerlänge ist %dMaximaler Entrollfaktor für die »unroll-and-jam«-Transformation.Memberfunktionen, die innerhalb ihrer Klasse definiert sind, sind im Zuständigkeitsbereich des Moduls inline.Die Speicher-Tagging-Erweiterung unterstützt nicht %<-mabi=ilp32%>Nebeneinanderliegende Speicheroperationen zusammenfassen.Zustände, die ähnlich genug sind, während der Analyse zusammenfassen.Aufruf des Teilbefehls »merge«:Kleinstes Verhältnis von Befehlen zu Speicheroperationen, um Prefetching in einer Schleife einzuschalten.Kleinstes Verhältnis von Befehlen zu Prefetches, um Prefetching für eine Schleife mit unbekannter Frequentierung einzuschalten.Kleinster Abstand zwischen möglicherweise in Konflikt stehendem Speichern und Laden.Mindestwahrscheinlichkeit in Prozent für Durchfall-Kanten, damit der BB zu geerbten EBB in LRA hinzugefügt wird.Kleinste Größe einer Partition für Linkzeitoptimierung (in geschätzten Befehlen).Minimale Heaperweiterung, die Speicherbereinigung anstößt, als Prozentsatz der Gesamtgröße des Heap.Kleinste Heapgröße vor Speicherbereinigungsbeginn, in Kilobytes.Die Mindestzahl der Iterationen pro Thread in einer innersten parallelisierten Schleife.Mindestprozentsatz der Memrefs, die für unroll-and-jam verschwinden müssen, damit es profitabel ist.Unverträglichkeit in BIND(C)-Namen (%qs/%qs) bei %CKonflikt in ELEMENTAL-Attribut zwischen MODULE-PROCEDURE bei %L und seiner Schnittstelle in %sKonflikt in formalen Argumentnamen (%s/%s) von MODULE PROCEDURE bei %CKonflikt in PURE-Attribut zwischen MODULE-PROCEDURE bei %L und seiner Schnittstelle in %sKonflikt in RECURSIVE-Attribut zwischen MODULE-PROCEDURE bei %L und seiner Schnittstelle in %sUnstimmigkeit in Komponenten von Typ %qs, der von %qs abgeleitet ist bei %C: %qs erwartet, aber %qs erhaltenKonflikt in Anzahl der formalen Argumente von MODULE PROCEDURE bei %CUnpassende Zuweisung des Prozedurzeigers bei %L: Unpassende AufrufkonventionUnstimmigkeiten zwischen Dateiarchitektur und »-arch« nicht als Warnungen, sondern als Fehler ansehen!$OMP END ATOMIC fehlt hinter !$OMP ATOMIC CAPTURE bei %CIn fortgesetzter Zeichenkonstante bei %C fehlt %<&%>Fehlendes %<(%> in ELSE-IF-Ausdruck bei %CFehlendes %<(%> in IF-Ausdruck bei %CFehlendes %<)%> in ELSE-IF-Ausdruck bei %CArgument %qs des intrinsischen %qs bei %L für %qs des Typs %qs fehltFehlendes %qs-Argument für %qs bei %LFehlendes %qs in Anweisung bei oder vor %LFehlende »-mcpu«-Option in ASM_CPU_SPEC?Fehlende INITIALIZER-Klausel für !$OMP DECLARE REDUCTION von abgeleitetem Typ ohne Defaultinitialisierer bei %LFehlendes THEN in ELSE-IF-Anweisung nach %LFehlendes Argument %qs in Aufruf von %qs bei %LFehlendes effektives Argument für Argument %qs bei %LFehlende alternative Rückgabespezifikation in Unterprogrammaufruf bei %LFehlende alternative Rückgabespezifikation in Unterprogrammaufruf bei %LFehlende Argumentliste in Funktion %qs bei %CFehlendes Argument für %qs bei %CFeldspezifikation bei %L in CODIMENSION-Anweisung fehltFehlende Feldspezifikation bei %L in DIMENSION-AnweisungFehlender Zeichenbereich in IMPLICIT bei %CSchließende Klammer für Bindungsmarke bei %C fehltFehlende Kodimensionsangabe bei %CFehlendes Komma bei %LFehlende Zähler für aufgerufene Funktion %sFehlende Dimensionsangabe bei %CEntität oder Name eines gemeinsamen Blocks für Attribut-Spezifikationsanweisung bei %C fehltFehlender Exponent in Realzahl bei %CFehlende Format-Marke bei %CFehlendes Format mit Standard-Einheit bei %CFehlende allgemeine Spezifikation in USE-Anweisung bei %CFehlendes Element in Formatzeichenkette bei %LFehlender Schlüsselwortname in effektiver Argumentliste bei %CFehlender Art-Parameter bei %CFehlende öffnende Klammer in Formatzeichenkette bei %LPositive Breite hinter L-Deskriptor bei %L fehltErforderte Klammern vor BIND(C) bei %C fehlenFehlende rechte Klammer bei %CFehlende rechte Klammer oder Komma bei %CFehlendes SymbolModul %qs in Zeile %d, Spalte %d: %sModuldatei %qs wurde nicht generiert, entweder weil das Modul keine MODULE PROCEDURE enthält oder weil es einen Fehler in dem Modul gibt.Modul-Eigenschaft in USE-Anweisung bei %C muss entweder INTRINSIC oder NON_INTRINSIC seinMehr effektive als formale Argumente in Prozeduraufruf bei %LInterner Fehler: More than one edge out of thunk nodeBerechnung der Schleifeninvarianten außerhalb der Schleifen legen.Mehrere Bezeichner mit einzelner Spezifikation NAME= bei %C angegebenMehrere Schleifenachsen für Routine bei %C angegebenName %qs verweist nicht auf eine Unterroutine oder Funktion in !$ACC ROUTINE ( NAME ) bei %LNAME %qs ist in »!$ACC ROUTINE ( NAME )« bei %L ungültigNAME nicht erlaubt bei BIND(C) für ABSTRACT INTERFACE bei %CSpezifikation NAME= bei %C sollte ein konstanter Ausdruck seinNAME=-Angabe bei %C sollte ein Skalar der Standardzeichenart seinNAMELIST %qs in READ-Anweisung bei %L enthält Symbol %qs, das im Kontext zur Variablendefinition nicht auftreten darfNAMELIST-Feldobjekt %qs mit vermuteter Form in Namensliste %qs bei %LNAMELIST-Feldobjekt %qs ohne konstante Form in Namensliste %qs bei %LNAMELIST-Objekt %qs hat PRIVATE-Komponenten und kann kein Element der PUBLIC-Namensliste %qs bei %L seinNAMELIST-Objekt %qs hat Verwendungs-verbundene PRIVATE-Komponenten und kann kein Element der Namensliste %qs bei %L seinNAMELIST-Objekt %qs in Namensliste %qs bei %L hat ALLOCATABLE- oder POINTER-Komponenten erfordert daher eine definierte Ein-/AusgabeprozedurNAMELIST-Objekt %qs in Namensliste %qs bei %L ist polymorph und erfordert eine definierte Ein-/AusgabeprozedurNAMELIST-Objekt %qs in Namensliste %qs bei %L mit ALLOCATABLE- oder POINTER-KomponentenNAMELIST-Objekt %qs wurde als PRIVATE deklariert und kann kein Element der PUBLIC-Namensliste %qs bei %L seinNAMELIST-Objekt %qs ohne konstante Zeichenlänge in Namensliste %qs bei %LNEWUNIT-Spezifizierer bei %LNEWUNIT-Spezifizierer muss FILE= oder STATUS='scratch' bei %L habenPlanungsmodifizierer NONMONOTONIC zusammen mit ORDERED-Klausel bei %L angegebenNON_OVERRIDABLE und DEFERRED können nicht gleichzeitig bei %C auftretenNOPASS oder explizite Schnittstelle bei %C erforderlichInterner Fehler: NOTE_INSN_BASIC_BLOCK %d in middle of basic block %dInterner Fehler: NOTE_INSN_BASIC_BLOCK is missing for block %dNO_ARG_CHECK-AttributAuf rechter Seite in Zuweisung bei %L tritt NULL aufNULL bei %L ist nicht als tatsächliches Argument der intrinsischen Funktion %qs erlaubtintrinsisches NULL mit reservierbarem MOLD bei %LNULL in Arithmetik verwendetNULL() bei %C darf nicht in einem Feld-Konstruktor erscheinenNULL()-Initialisierung bei %C ist mehrdeutigNULL()-Initialisierung bei %C könnte kein MOLD habenNULL() in der Nähe von %L darf nicht in einer INQUIRE-Anweisung vorkommenNULLIFY erlaubt keine Neuzuordnung von Grenzen für Zeigerobjekt bei %CName %qs bei %C ist bereits als eine allgemeine Schnittstelle bei %L definiertName %qs bei %C ist eine mehrdeutige Referenz auf %qs von aktueller ProgrammeinheitName %qs bei %C ist eine mehrdeutige Referenz auf %qs vom Modul %qsName %qs bei %C ist der Name der ProzedurName %qs in %s-Anweisung bei %C ist kein KonstruktnameName %qs in %s-Anweisung bei %C ist unbekanntName %qs des ABSTRACT INTERFACE bei %C kann nicht der gleiche wie ein intrinsischer Typ seinName hinter »!$omp critical« und »!$omp end critical« passt nicht bei %CName bei %C ist zu langName der Systembibliothek, gegen die gelinkt wird.Name der Startdatei.Name zu langBenannter COMMON-Block %qs bei %L muss die gleiche Größe wie anderswo haben (%lu Bytes gegenüber %lu Bytes)Benanntes Block-DO bei %L erfordert passenden ENDDO-NamenBenannte Konstante %qs bei %L kann kein EQUIVALENCE-Objekt seinBenannte Konstante %qs in Variablen-Definitionskontext (%s) bei %LBenannte Konstante bei %C in EQUIVALENCENamensliste %qs kann bei %L kein Argument seinNamensliste %qs kann bei %L nicht als Argument für Unterprogramm oder Funktion verwendet werdenGruppenname %qs der Namensliste bei %C hat bereits einen Basistypen von %qsGruppenname %qs der Namensliste bei %C ist bereits USE-verbunden und kann nicht respezifiziert werden.Name der Namenslisten-Gruppe bei %L kann kein SAVE-Attribut habenEntweder Entität oder Name eines gemeinsamen Blocks für Attribut-Spezifikationsanweisung bei %C erforderlichNegatives Argument N bei %LNegativer Exponent der Ganzzahl bei %L ergibt 0 als ErgebnisGeschachtelter CRITICAL-Block bei %CGeschachtelte Trampolin-Funktionen werden auf dem CK801 nicht unterstützt.In BIND(C) bei %C ist kein bindender Name erlaubtKeine Zweige
Keine Aufrufe
Kein voreingestelltes crt0.o.Noch keine Beschreibung.Interner Fehler: No edge out of thunk nodeKeine ausführbaren Zeilen
Im Strukturkonstruktor bei %2$C wurde keine Initialisierung für allozierbare Komponente %1$qs angegebenIm Strukturkonstruktor bei %2$C wurde keine Initialisierung für Komponente %1$qs angegebenWird nicht mehr unterstützt.Interner Fehler: No region crossing jump at section boundary in bb %iBenutzerdefinierte Nicht-ELEMENTAL-Zuweisung in WHERE bei %LNicht-PARAMETER-Symbol %qs bei %L kann nicht implied-shape seinNicht-POINTER in Zeiger-Verbindungskontext (%s) bei %LNicht-RECURSIVE Prozedur %qs bei %L ruft sich möglicherweise rekursiv selbst auf. Sollte als RECURSIVE oder mit %<-frecursive%> verwendet werdenNicht-THREADPRIVATE-Objekt %qs in Klausel COPYIN bei %LElement eines Feldes mit vermuteter Form aus Nicht-Schriftzeichen in FORMAT-Markierung bei %LElement eines Feldes mit vermuteter Größe aus Nicht-Schriftzeichen in FORMAT-Markierung bei %LNicht-Zeichen in FORMAT-Markierung bei %LWeder Zeichen noch Hollerith in FORMAT-Markierung bei %LElement eines Zeigerfeldes aus Nicht-Schriftzeichen in FORMAT-Markierung bei %LNicht-konstante untere Grenze in Deklaration mit impliziter Form bei %LNicht-Standard-LOGICAL in %s-Marke bei %LNicht-Scheinobjekt %qs in %s-Klausel bei %LNicht-erweiterbarer abgeleiteter Typ %qs bei %L darf nicht ABSTRACT seinNicht-numerisches Zeichen in Anweisungsmarke bei %CNicht-polymorphes Scheinargument von %qs für weitergegebenes Objekt bei %LNicht-skalare FINAL-Prozedur bei %L sollte Argument mit vermuteter Form habenIrrelevante Ziffern in %qs-Zahl bei %C, möglicherweise falsche KINDNicht-variabler Ausdruck in Variablen-Definitionskontext (%s) bei %LMögliche Wertänderung bei Umwandlung von %qs in %qs bei %LVariable darf in intrinsischer Zuweisung bei %L nicht polymorph sein - bitte prüfen, ob es ein passendes spezifisches Unterprogramm für den »=«-Operator gibtNicht-Koarray-Komponente %s bei %L des Typs EVENT_TYPE oder mit Subkomponente des Typs EVENT_TYPE muss eine Kodimension haben oder die Subkomponente eines Koarrays sein. (Variablen des Typs %s dürfen keine Kodimension haben, da %s bei %L eine Kodimension oder Koarray-Subkomponente hat.)Nicht-Koarray-Komponente %s bei %L des Typs EVENT_TYPE oder mit Subkomponente des Typs EVENT_TYPE muss eine Kodimension haben oder die Subkomponente eines Koarrays sein. (Variablen des Typs %s dürfen keine Kodimension haben, da es bereits eine Koarray-Subkomponente gibt.)Nicht-Koarray-Komponente %s bei %L des Typs LOCK_TYPE oder mit Subkomponente des Typs LOCK_TYPE muss eine Kodimension haben oder die Subkomponente eines Koarrays sein. (Variablen des Typs %s dürfen keine Kodimension haben, da %s bei %L eine Kodimension oder Koarray-Subkomponente hat.)Nicht-Koarray-Komponente %s bei %L des Typs LOCK_TYPE oder mit Subkomponente des Typs LOCK_TYPE muss eine Kodimension haben oder die Subkomponente eines Koarrays sein. (Variablen des Typs %s dürfen keine Kodimension haben, da es bereits eine Koarray-Subkomponente gibt.)Tab-Zeichen bei %C passt nichtUnpassendes Tab-Zeichen in Spalte %d der Zeile %dTab-Zeichen in Format bei %C passt nichtAbschnitt eines nicht konstanten Feldes bei %L in DATA-AnweisungInclude-Verzeichnis %qs ist nicht vorhandenNichtganzzahliger Exponent in einem Initialisierungsausdruck bei %LUnverträglicher Feld-FPTR bei %L für C_F_POINTER: %sUnverträgliches Feld bei %L als Argument für C_LOC: %sUnverträgliche Prozedur bei %L für C_FUNLOCUnverträglicher Prozedurzeiger bei %L für C_F_PROCPOINTERNichtintrinsische elementare Prozedur %qs ist in Zuweisung des Prozedurzeigers bei %L ungültigNichtnegative Breite in Formatzeichenkette bei %L benötigtNichtzeiger-Objekt %qs mit Standard-Initialisierung darf nicht in einer DATA-Anweisung bei %L erscheinenNichtpolymorphe Referenz auf abstrakten Typ bei %CNichtstandard-Umwandlung von %s in %s bei %LNicht-Standard Typ-Deklaration %s*%d bei %CNicht mit %<--enable-gather-detailed-mem-stats%> konfiguriert.Nicht genug Element in Feldinitialisierung bei %CUnerwartetes TAG.Hinweisen, wenn #include-Direktiven nicht in import-Deklarationen übersetzt werden und nicht eindeutig textuell sind.Hinweisen, wenn #include-Direktiven in import-Deklarationen übersetzt werden.Pfadname für compilierte Modulschnittstelle eines bestimmten Moduls oder Header-Einheit ausgeben.Pfadnamen für compilierte Modulschnittstellen zur Info ausgeben.Hinweisen, wenn das #include eines bestimmten Headers übersetzt wird.Anzahl der Partitionen, in die das Programm aufgeteilt werden soll.Anzahl der zur Übergabe von Ganzzahlargumenten verwendeten Register.Numerischer PARAMETER in komplexer Konstante bei %C erforderlichIn Ausdruck bei %L werden numerische Operanden benötigtNumerische oder CHARACTER-Operanden benötigt in Ausdruck bei %LOLD-Argument der intrinsischen Funktion »%s« bei %L muss definierbar seinOMP ATOMIC bei %L mit mehrfachen atomic-KlauselnOMP CRITICAL bei %L mit HINT-Klausel benötigt NAME, außer wenn omp_sync_hint_none verwendet wirdOMP DECLARE TARGET COMMON bei %L wurde vorher in LINK-Klausel und später in TO-Klausel erwähntOMP DECLARE TARGET COMMON bei %L wurde vorher in TO-Klausel und später in LINK-Klausel erwähntDirektive OMP DECLARE TARGET bei %L mit nur DEVICE_TYPE-Klausel wird ignoriert»OMP DECLARE TARGET«-Variable bei %L ist ein Element eines COMMON-BlocksOMP-DECLARE-TARGET-Variable bei %L wurde vorher in LINK-Klausel und später in TO-Klausel erwähntOMP-DECLARE-TARGET-Variable bei %L wurde vorher in TO-Klausel und später in LINK-Klausel erwähntOMP TARGET UPDATE bei %L erfordert mindestens eine TO- oder FROM-KlauselOPEN-Anweisung bei %L muss UNIT oder NEWUNIT habenOPEN-Anweisung in PURE-Prozedur bei %C nicht erlaubtOPERATOR-Argument bei %L muss eine PURE-Funktion seinOPTIONAL ist in BLOCK bei %C nicht erlaubtORDER bei %L ist keine Permutation der Größe von SHAPE bei %LArgument der ORDERED-Klausel bei %C ist keine konstante positive GanzzahlORDERED-Parameter der Klausel bei %L ist weniger als COLLAPSE%<ORDERED%>-Klausel darf nicht nicht zusammen mit %<inscan%>-REDUCTION-Klausel bei %L verwendet werdenObjekt %qs bei %L ist keine VariableObjekt %qs bei %L ist keine Variable; Parameter können nicht kopiert werden und brauchen das auch nichtObjekt %qs bei %L ist keine Variable; Parameter können nicht zugeordnet werden und brauchen das auch nichtObjective-C-Deklarationen dürfen nur im globalen Gültigkeitsbereich erscheinenVeraltete Funktion:Ausgelagertes Werkzeug, um mit gcda-Zähler zu arbeiten

Zeichenlänge alten Stils bei %CInitialisierung im alten Stil bei %CDeklaration %s*%d im alten Stil wird bei %C nicht unterstütztRahmenzeiger für Blattfunktionen auslassen.Schritt zur Bereichsverkleinerung auslassen, wenn komplexe Division durchgeführt wird.Rahmenzeiger in Blattfunktionen auslassen.Eins der tatsächlichen Argumente in INITIALIZER-Klausel von !$OMP DECLARE REDUCTION bei %L muss OMP_PRIV seinNur DEFAULT ist als Reduktionsmodifizierer erlaubt, in der REDUCTION-Klausel bei %LNur SOURCE- oder SINK-Abhängigkeitstypen sind an ORDERED-Direktive bei %L erlaubtBei %2$L wurde nur FINAL-Feldprozedur für abgeleiteten Typ %1$qs definiert, skalare wird ebenfalls empfohlenNur die Schnittstelle des compilierten Moduls (CMI) ausgeben.Absolute Auslagerungen nur bei Werten mit Wordgrößen erzeugen.Nur intrinsische Operatoren können in Ausdruck bei %L verwendet werdenNur einen Befehl pro Taktzyklus ausgeben.Nur für Rückwärtskompatibilität erhalten.Nur die Form !$ACC ROUTINE ohne Liste ist im Schnittstellenblock bei %C erlaubtNur die Form !$OMP DECLARE TARGET ohne Klauseln ist im Schnittstellenblock bei %C erlaubtNur 32 FPRs verwenden.Nur 32 GPRs verwenden.OpenACC-Konstrukt innerhalb einer Nicht-OpenACC-RegionOpenACC-Direktive innerhalb von CRITICAL-Block bei %COpenACC-Direktiven außer ROUTINE dürfen in PURE-Prozeduren nicht vorkommen, bei %COpenACC-Schleifendirektive muss mit einer OpenACC-Berechnungsregion verknüpft seinOpenACC-Region innerhalb einer OpenACC-Routine, geschachtelter Parallelismus wird noch nicht unterstütztOpenMP-Konstrukte außer %<ordered simd%>, %<simd%>, %<loop%> oder %<atomic%> dürfen nicht innerhalb von %<simd%>-Regionen geschachtelt seinOpenMP-Konstrukte außer %<parallel%>, %<loop%> oder %<simd%> dürfen nicht in einer %<loop%>-Region geschachtelt seinOpenMP-Konstrukte außer %<parallel%>, %<loop%> oder %<simd%> dürfen nicht innerhalb einer Region mit %<order(concurrent)%>-Klausel geschachtelt seinOpenMP-Direktiven außer SIMD und DECLARE TARGET bei %C dürfen in PURE-Prozeduren nicht vorkommenAufruf der OpenMP-Laufzeit-API %qD in einer Region mit %<order(concurrent)%>-KlauselOperand des Operators .not. bei %%L ist %sOperand des unären numerischen Operators %%<%s%%> bei %%L ist %sOperand des Benutzeroperators %%<%s%%> bei %%L ist %sOperanden bei %L und %L können nicht als Operanden des binären Operators %qs verwendet werdenOperanden des binären numerischen Operators %%<%s%%> bei %%L sind %s/%sOperanden des Vergleichsoperators %%<%s%%> bei %%L sind %s/%sOperanden des logischen Operators %%<%s%%> bei %%L sind %s/%sOperanden des Zeichenkettenverkettungsoperators bei %%L sind %s/%sOperanden des Benutzeroperators %%<%s%%> bei %%L sind %s/%sOperatorschnittstelle bei %L steht mit intrinsischer Schnittstelle in KonfliktOperatorschnittstelle bei %L hat falsche ArgumentanzahlOperatorschnittstelle bei %L darf höchstens zwei Argumente habenAnzahl der stdarg-Register optimieren, die am Anfang einer Funktion auf dem Stapel gespeichert werden.Bedingte Ausdrücke mittels SSA-PHI-Knoten optimieren.Für CPU optimieren.Auf Fehlersuchmöglichkeiten statt Geschwindigkeit oder Größe optimieren.Auf Größe statt Geschwindigkeit optimieren.Auf Geschwindigkeit optimieren, unter Missachtung genauer Standardkonformität.Code für Rahmenkopf optimieren.Induktionsvariablen auf Bäumen optimieren.lui/addiu-Adressladebefehle optimieren.Opcodegrößen zur Linkzeit optimieren.Partitionsneutralisierung optimieren.Geschwister- und endrekursive Aufrufe optimieren.Ende-Aufruf-Befehle in Assembler und Binder optimieren.Option %<-fallow-leading-underscore%> ist nur für gfortran-Entwickler gedacht und sollte nicht für implizit getypte Variable verwendet werdenOptionen für %<-Xassembler%> passen nicht zueinander: %s, %s; alle Optionen der Form %<-Xassembler%> und %<-Wa%> werden verworfen.Optionen:
Außerhalb des Wertebereichs in IMAGE_INDEX bei %L für Dimension %d, SUB hat %ld und untere Grenze für COARRAY ist %ldAußerhalb des Wertebereichs in IMAGE_INDEX bei %L für Dimension %d, SUB hat %ld und obere Grenze für COARRAY ist %ldStapelspeicher aufgebraucht.
.debug_types-Abschnitt ausgeben, wenn DWARF v4-Debuginfo verwendet wird.Information über Aufrufgraphen auf Dateibasis mit Dekoration ausgeben.Information über Aufrufgraphen auf Dateibasis ausgeben.LTO-Objekte ausgeben, die sowohl Zwischensprache als auch Binärausgabe enthalten.Information über Stapelverwendung auf Funktionsbasis ausgeben.Verifikationszähler für VTables ausgeben.Informationen über Zeigermengen der VTable-Verifikation ausgeben.Aufruf des Teilbefehls »overlap«:Überlappende ungleiche Initialisierungen in EQUIVALENCE bei %CÜberlappende ungleiche Initialisierungen in EQUIVALENCE bei %L-mbest-lib-options überschreiben.P-Deskriptor benötigt führenden Skalierungsfaktor in Formatzeichenkette bei %LPAD= bei %L ist in Fortran 95 nicht erlaubtPARAMETER %qs wird bei %L verwendet, bevor dessen Definition vollständig istPARAMETER %qs darf nicht in einer DATA-Anweisung bei %L vorkommenFehlende Initialisierung für PARAMETER bei %LPARAMETER-Symbol in komplexer Konstante bei %CPARAMETER ohne »()« bei %CPAUSE-Anweisung bei %CLadebefehle relativ zum PC.PCS-VariantePDP11-Bitfeld-Verarbeitung wird in %qs nicht unterstütztPHI-Argument fehlt für Kante %d->%dPHI-Argument ist kein SSA_NAME, oder invariantPHI-Argument an unnormaler Kante ist nicht SSA_NAMEPHI node with locationPHI node with wrong VUSE on edge from BB %dPIC-Codeerzeugung ist mit schnellen indirekten Aufrufen unverträglichPIC-Codeerzeugung wird im portierbaren Laufzeitmodell nicht unterstütztPIC wird für %qs nicht unterstütztPIC wird nur für RTPs unterstütztPIC wird benötigt, wird aber nicht mit CONST16-Befehlen unterstütztPIC-Register durch %qs in %<asm%> zerstörtPIC-Unterstützung für %<-fstack-limit-symbol%>POINTER-Attribut ist für Prozedurzeiger-Komponente bei %C erforderlichPOINTER-Objekt %qs in Klausel %s bei %LPOINTER-Objekt %qs von polymorphem Typ in Klausel %s bei %LPOINTER-wertige Funktion tritt auf rechter Seite der Zuweisung bei %L aufPOS-Argument (%ld) außerhalb des Bereichs 0:%ld in intrinsischem »%s«POS-Argument (%ld) außerhalb des Bereichs 0:%ld in intrinsischem BTESTPOS-Argument (%ld) außerhalb des Bereichs 0:%ld in intrinsischem IBITSPOS(%ld)+LEN(%ld)>BIT_SIZE(%ld) in intrinsischem IBITSPOSITION-Angabe in OPEN-Anweisung bei %L ist nur für Datenstrom-ACCESS oder für sequentiellen ACCESS erlaubtPRE ausgeschaltetPRINT-Namensliste bei %C ist eine ErweiterungPRINT-Anweisung bei %C innerhalb PURE-Prozedur nicht erlaubtPRINT_OPERAND Null-ZeigerPRINT_OPERAND, ungültiger Befehl für %%CPRINT_OPERAND, ungültiger Befehl für %%NPRINT_OPERAND: Unbekanntes Zeichen %<%c%>PRINT_OPERAND_ADDRESS, Null-ZeigerPRIVATE-Anweisung bei %C ist nur in Spezifikationsteil eines Moduls erlaubtPRIVATE-Anweisung bei %C muss Prozedurbindungen vorausgehenPRIVATE-Anweisung bei %C muss Strukturkomponenten vorausgehenPRIVATE-Anweisung in TYPE bei %C muss innerhalb eines MODULEs seinPROCEDURE %qs bei %L darf nicht als ihre eigene Schnittstelle verwendet werdenPROCEDURE bei %C muss in einer allgemeinen Schnittstelle seinAttribut PROCEDURE steht mit Attribut INTENT in %qs bei %L in KonfliktAttribut PROCEDURE steht mit Attribut NAMELIST in %qs bei %L in KonfliktAttribut PROCEDURE steht mit Attribut PROTECTED bei %L in KonfliktAttribut PROCEDURE steht mit Attribut RESULT in %qs bei %L in KonfliktAttribut PROCEDURE steht mit Attribut SAVE in %qs bei %L in KonfliktPROCEDURE-Liste bei %CPROCEDURE-Anweisung bei %CPROCEDURE(Schnittstelle) bei %C sollte als DEFERRED deklariert seinPROTECTED bei %C nur in Spezifikationsabschnitts eines Moduls erlaubtPROTECTED-Attribut bei %CAttribut PROTECTED steht mit Attribut EXTERNAL bei %L in KonfliktPROTECTED-Anweisung bei %CPTX unterstützt keine schwachen Deklarationen (nur schwache Definitionen)PUBLIC %s %qs bei %L mit abgeleitetem PRIVATE-Typen %qsPUBLIC-Funktion %qs bei %L mit PRIVATE-Typ %qsPUBLIC-Anweisung bei %C ist nur in Spezifikationsteil eines Moduls erlaubtPURE und IMPURE dürfen bei %C nicht gleichzeitig stehenPURE-Präfix fehlt in MODULE-PROCEDURE-Schnittstelle bei %LVLIW-Befehle packen.Strukturelemente ohne Lücken zusammenpacken.Kürzere feste Formularzeilen mit Leerzeichen auf Zeilenbreite auffüllen.Auffüllen mit %d Bytes vor %qs in COMMON %qs bei %L erforderlich; bitte Elemente umordnen oder %<-fno-align-commons%> verwendenAuffüllen mit %d Bytes vor %qs in COMMON bei %L erforderlich; bitte Elemente umordnen oder %<-fno-align-commons%> verwendenParameter %qs bei %L wurde nicht deklariert oder ist eine Variable, die nicht zu konstantem Ausdruck reduziertParameterfeld %qs bei %L kann nicht automatische oder vermutete Form habenDer parametrisierte abgeleitete Typ bei %C ist mehrdeutigParametrisierter Typ %1$qs hat bei %3$L keine Komponente, die zu Parameter %2$qs gehörtOption -EB an den Linker übergeben.Option -EL an den Linker übergeben.Option -marclinux an den Linker übergeben.Option -marclinux_prof an den Linker übergeben.»-z text« an den Linker übergeben.Adresse der RA-Speicherstelle an _mcount in $12 übergeben.Weitergegebenes Objekt bei %L muss Skalar seinScheinargument des übergebenen Objektes von %qs bei %L muss an der gleichen Stelle wie das Scheinargument des übergebenen Objektes der überschriebenen Prozedur stehenScheinargument von %qs für weitergegebenes Objekt bei %L muss ein Skalar seinScheinargument von %qs für weitergegebenes Objekt bei %L darf nicht ALLOCATABLE seinScheinargument von %qs für weitergegebenes Objekt bei %L darf nicht POINTER seinGibt an den Assembler eine Anforderung weiter, damit dieser diverse Chipfehler umgeht.Gibt an den Assembler eine Anforderung weiter, damit dieser bei diversen Chipfehlern warnt.Koarray bei %L wird an reservierbares, Nicht-Coarray-Scheinargument %qs übergeben, das ungültig wird, wenn der Reservierungsstatus geändert wirdKoarray bei %L wird an reservierbares, Nicht-Coarray, INTENT(OUT) Scheinargument %qs übergebenÜbergabe der eingebauten Prozedur über die Speicherstelle ist bei %L nicht erlaubtPfad zu Headerdatei, die vor jeder Übersetzungseinheit eingebunden wird.Prozentuale Strafe für Funktionen, die nur einen einzigen Aufruf einer anderen Funktion enthalten, wenn sie zum Klonen evaluiert werden.Prozentuale Strafe für rekursive Funktionen, wenn sie zum Klonen evaluiert werden.Informationen über IPA-Wertebereiche weitergeben.Identischen Code für Funktionen und schreibgeschützte Variablen zusammenfassen.Identischen Code für Funktionen zusammenfassen.Identischen Code für Variablen zusammenfassen.SMS-basierte modulo-Planung vor erstem Planungsdurchlauf durchführen.SMS-basierte modulo-Planung mit erlaubten Register-Verschiebungen durchführen.VR4130-spezifische Ausrichtungs-Optimierungen durchführen.Wertebereichsweitergabe auf Bäumen durchführen.Schritt zur Vorwärts-Übertragung auf RTL durchführen.Eine Reihe kleiner, aber teurer, Optimierungen durchführen.Optimierungsdurchlauf zur Kopierübertragung von Registern durchführen.Einen Optimierungsdurchgang zur Registerumbenennung durchführen.Einen zielabhängigen Optimierungsdurchgang zur Befehlsfusion durchführen.Kopien erzeugen, um zwischenprozedurale Konstantenweitergabe zu verstärken.Beseitigung von Vergleichen nach Registerreservierung durchführen.Umwandlung bedingter Sprünge in zweiglose Äquivalente durchführen.Umwandlung bedingter Sprünge in bedingte Ausführung durchführen.Umwandlungen von »switch«-Initialisierungen durchführen.Optimierung zum Kreuzsprung durchführen.Frühes Inlining durchführen.Erweiterte Ladebewegung während Beseitigung globaler gemeinsamer Teilausdrücke durchführen.Funktionslokale Analyse von Zeigerzielen auf Bäumen durchführen.Beseitigung globaler gemeinsamer Teilausdrücke nach Registerreservierung durchführen.Beseitigung globaler gemeinsamer Teilausdrücke durchführen.Indirektes Inlining durchführen.Interne Konsistenzprüfungen durchführen.Zwischenprozedurale bitweise Konstantenweitergabe durchführen.Zwischenprozedurale Konstantenweitergabe durchführen.Prozedurübergreifende modref-Analyse durchführen.Zwischenprozedurale Zeigt-auf-Analyse durchführen.Zwischenprozedurale Profilweitergabe durchführen.Zwischenprozedurale Reduktion von Aggregaten durchführen.Sprung-Threading-Optimierungen durchführen.Lebensdaueraufteilung während des »SSA -> Normal«-Durchlaufs durchführen.Schleifen-Schälung durchführen.Schleifen-Aufteilung durchführen.Schleifenabwicklung für alle Schleifen durchführen.Schleifenabwicklung durchführen, wenn Anzahl der Wiederholungen bekannt ist.Schleifenausschaltung durchführen.Teilweises Inlining durchführen.Beseitigung überflüssigen Ladens nach dem Abspeichern in globalem gemeinsamem Teilausdruck durchführen.Skalarersetzung von Aggregaten durchführen.Während selektiver Planung Software-Pipelining innerer Schleifen durchführen.Während selektiver Planung Software-Pipelining äußerer Schleifen durchführen.Spekulative Devirtualisierung durchführen.Speicherbewegung nach Beseitigung globaler gemeinsamer Teilausdrücke durchführen.Geradlinige Stärkereduktion durchführen.Superblockerzeugung über Ende-Vervielfältigung durchführen.Schleifenabwicklung (unroll-and-jam) für Schleifen durchführen.Ungenutzte Symbole aus Info zur Fehlersuche entfernen.Ungenutzte Typen aus Info zur Fehlersuche entfernen.Variablenverfolgung durchführen und auch Variablen markieren, die uninitialisiert sind.Variablenverfolgung durch Zuweisungsanmerkungen durchführen.Variablenverfolgung durchführen.Gesamtprogrammoptimierung durchführen.Formatspezifikation %s bei %L erfordert PunktFormatspezifikation bei %L erfordert PunktFormatspezifikation benötigt Punkt in Formatzeichenkette bei %L»$« als Bezeichnerzeichen zulassen.Unpassende Verwendungen des TAB-Zeichens erlauben.Planung einer Sequenz für Funktionsprolog und -epilog erlauben.Planung einer Funktionsprologsequenz erlauben.Planung von Funktionsprolog- und -epilogsequenzen erlauben.Universelle Zeichennamen (\u und \U) in Bezeichnern zulassen.Bei Planung ein Stopp-Bit nach jedem Takt einfügen.Datenstücke in ihren eigenen Abschnitt legen.Jede Funktion in ihren eigenen Abschnitt platzieren.Gleitkommakonstanten ins TOC legen.Symbol+Offset-Konstanten ins TOC legen.Bitte senden Sie einen vollständigen Fehlerbericht auf Englisch ein;
inclusive vorverarbeitetem Quellcode, wenn es dienlich ist.
PluginsZeigerfeld-Komponente der Struktur bei %C muss eine aufgeschobene Form habenZeiger-Zuweisungsziel darf keine Konstante sein bei %LZeiger-Zuweisungsziel hat PROTECTED-Attribut bei %LZiel der Zeigerzuweisung in Initialisierungsausdruck bei %L muss das TARGET-Attribut habenZeiger-Zuweisungsziel bei %L ist weder TARGET noch POINTERZeiger-Zuweisungsziel ist kein POINTER bei %LZeigerzuweisung mit Vektorindex für rhs bei %LZeiger bei %L in Zeigerzuweisung könnte Zeigerziel überdauernZeigerkomponente %s bei %L hat eine Subkomponente als Nicht-Koarray des Type EVENT_TYPE, die eine Kodimension haben muss oder eine Subkomponente eines Koarrays sein mussZeigerkomponente %s bei %L hat eine Subkomponente als Nicht-Koarray des Type LOCK_TYPE, die eine Kodimension haben muss oder eine Subkomponente eines Koarrays sein mussZeigerinitialisierung bei %C benötigt %<=>%>, nicht %<=%>Ziel der Zeigerinitialisierung bei %L muss das SAVE-Attribut habenZiel der Zeigerinitialisierung bei %L muss das TARGET-Attribut habenZiel der Zeigerinitialisierung bei %L darf nicht ALLOCATABLE seinZeigerobjekt bei %C darf nicht koindiziert seinZeigerobjekt bei %L darf keinen Koindex habenZuweisung eines Prozedurzeigers bei %LZeigerfeld als effektives Argument bei %L erfordert wegen VOLATILE-Attribut ein Scheinargument %qs mit vermuteter Form oder als ZeigerfeldZeiger sind 32 Bit.Zeiger sind 64 Bit.Mögliche Richtlinien für »-mcompact-branches=«:Polymorpher FPTR bei %L für C_F_POINTERPolymorphe Komponente %s bei %L in SEQUENCE oder BIND(C)-Typ %sPolymorphes Skalar wird an Feld-Scheinargument %qs bei %L übergebenPolymorphes Subobjekt des koindizierten Objektes bei %LPositive Exponentenbreite benötigt in Formatzeichenkette bei %LPositive Breite in Formatspezifizierung %s bei %L erforderlichPositive Breite in Formatzeichenkette bei %L benötigtT-Deskriptor benötigt positive Breite in Formatzeichenkette bei %LMögliche Wertänderung bei Umwandlung von %s in %s bei %LZweige gegenüber bedingter Ausführung bevorzugen.Wortzugriffe bevorzugen (statt Bytezugriffen).Vorzugsweise Register reservieren, die kurze Befehle ermöglichen.Globalen Symbolen ein »:« voranstellen (für Verwendung mit PREFIX).Nur Direktiven vorverarbeiten.Vorverarbeiteter Quellcode wurde in Datei %s gespeichert, bitte hängen Sie die an Ihren Fehlerbericht an.
Bindestapel des PowerPC 476 durch Anpassen eines blr an bcl/bl-Befehle für GOT-Zugriffe beibehalten.Vorgeben, dass branch-around-a-move ein bedingter Sprung ist.Verhindern, dass $fp während der Registerallozierung alloziert wird, so dass der Compiler die FP-als-GP-Optimierung durchführen kann.Verwendung aller Gleitkommaoperationen verhindern.Verwendung aller Hardware-Gleitkommabefehle verhindern.Vorherige !$OMP DECLARE REDUCTION bei %LVorherige !$OMP DECLARE REDUCTION von Modul %s bei %LCPU-Feinabstimmung als Kommentar in Assemblerdatei ausgeben. Diese Option wird nur für Regressionstest des Compilers verwendet und ist nicht für den normalen Betrieb vorgesehen.CWE-Identifikatoren für Diagnosemeldungen ausgeben, sofern verfügbar.Information zur Code-Überdeckung ausgeben.

Zusätzliche (möglicherweise ungewollte) Warnungen ausgeben.Behebungshinweise in maschinenlesbarer Form ausgeben.Behebungshinweise in vereinheitlichtem Diff-Format auf stderr ausgeben.Hierarchische Vergleiche ausgeben, wenn die Templatetypen nicht zusammenpassen.Den Initialwert der Variablen ausgeben.Namen der Header-Dateien ausgeben, wie sie verwendet werden.Wahrscheinlichkeit, dass die COMDAT-Funktion mit anderer Kompilationseinheit geteilt wird.Prozedur %qs bei %C hat eine explizite Schnittstelle aus einer vorherigen DeklarationProzedur %qs bei %C wurde bereits bei %L definiertProzedur %qs bei %L hat bereits grundlegenden Typen %sProzedur %qs bei %L hat den gleichen Namen wie eine Komponente von %qsProzedur %qs bei %L hat den selben Namen wie eine vererbte Komponente von %qsProzedur %qs bei %L kann nicht grundlegenden Typen %s habenProzedur %qs bei %L muss das BIND(C)-Attribut haben, um mit C interoperabel zu seinProzedur %qs, die bei %L aufgerufen wird, ist nicht explizit deklariertProzedur %qs, die bei %L aufgerufen wird, ist nicht explizit deklariert; meinen Sie %qs?Prozedur %qs mit einer impliziten Schnittstelle bei %L aufgerufenDie Prozedur %qs, die im Interface-Körper bei %L definiert ist, passt nicht zu der internen Prozedur bei %CProzedur %qs in %s bei %L hat keine explizite SchnittstelleProzedur %qs in %s bei %L hat keine explizite Schnittstelle; meinen Sie %qs?Prozedur %qs in %s bei %L ist weder Funktion noch SubroutineProzedur %qs in %s bei %L ist weder Funktion noch Subroutine; meinen Sie %qs?Prozedur %qs in PUBLIC-Schnittstelle %qs bei %L nimmt Scheinargumente von %qs, das PRIVATE istProzedur %qs mit PASS bei %L muss mindestens ein Argument habenProzedur %qs mit PASS(%s) bei %L hat kein Argument %qsProzedur %1$qs bei %3$L mit Binde-Marke %2$qs verwenden denselben globalen Bezeichner wie die Entität bei %4$LProzedurargument bei %L ist lokal für PURE-Prozedur und hat das POINTER-AttributProzedurzeiger %qs bei %L darf nicht ELEMENTAL seinProzedurzeiger %qs in %s-Klausel bei %LProzedur-Zeiger bei %CKomponente %qs des Prozedurzeigers bei %L kann kein Element des BIND(C)-abgeleiteten Typs %qs bei %L seinProzedurzeiger-Komponente %qs mit einer impliziten Schnittstelle bei %L aufgerufenProzedurzeiger-Komponente %qs erfordert eine Argumentliste bei %CProzedurzeiger-Komponente %qs mit PASS bei %L muss mindestens ein Argument habenProzedurzeiger-Komponente %qs mit PASS(%s) bei %L hat kein Argument %qsProzedurzeiger-Komponente bei %CZiel der Zeigerinitialisierung für Prozedur bei %L darf kein Prozedurzeiger seinDem Ergebnis %qs als Prozedurzeiger bei %L fehlt das POINTER-AttributProzedurzeigerziel %qs bei %L muss entweder eine intrinsische Funktion, host- oder use-assoziiert oder referenziert sein, oder aber das EXTERNAL-Attribut haben#ident-Direktiven verarbeiten.Alle in der Kommandozeile angegebenen Module verarbeiten, aber den Code nur für das im Argument angegebene Modul generieren.Spezifikation (%s, ist »%s«) wird verarbeitet
Einen Mach-O-Dylinker (Dateityp MH_DYLINKER) generieren. Wird nur verwendet, um dyld zu bauen.Eine gemeinsam genutzte Mach-O-Bibliothek (Dateityp MH_DYLIB) generieren, Synonym für »-shared«.Backtrace erzeugen, wenn Laufzeitfehler auftritt.Warnung zur Laufzeit erzeugen, wenn ein temporäres Feld für Prozedurargument erzeugt wurde.Big-Endian-Code erzeugen.Code erzeugen, der zur Laufzeit verschiebbar ist.Little-Endian-Code erzeugen.Erzeugt eine Mach-O-Datei, die für die Verwendung in eingebetteten Systemen / ROMs geeignet ist.Profilinformation in %s ist beschädigtProgramm befindet sich vollständig in unteren 64k des Speichers.Programmeinheit bei %L hat OpenMP-Geräte-Konstrukte/-Routinen, setzt jedoch nicht !$OMP REQUIRES REVERSE_OFFSET, aber andere Programmeinheiten tun dasProgrammeinheit bei %L hat OpenMP-Geräte-Konstrukte/-Routinen, setzt jedoch nicht !$OMP REQUIRES UNIFIED_ADDRESS, aber andere Programmeinheiten tun dasProgrammeinheit bei %L hat OpenMP-Geräte-Konstrukte/-Routinen, setzt jedoch nicht !$OMP REQUIRES UNIFIED_SHARED_MEMORY, aber andere Programmeinheiten tun dasPC-relative Funktionsaufrufe verbieten.PC-relative Sprünge verbieten.Klammern in Ausdrücken schützen.Bash-Vervollständigung für Optionen anbieten, die mit der angegebenen Zeichenkette beginnen.Bibliotheken für den Simulator bereitstellen.Ungenutze Zustände während der Analyse verwerfen.In Überwachungsfunktionen erweiterte Register auf Stapel sichern.Alle lokalen Felder über Stapel übergeben.Alles in reguläres TOC legen.Sprungtabellen für »switch«-Anweisungen in den .data-Abschnitt statt in den .code-Abschnitt einfügen.Umgelagerte Nur-Lese-Daten in .data-Abschnitt legen.Uninitialisierte Konstanten im ROM ablegen (benötigt -membedded-data).Uninitialisierte globale Symbole in gemeinsamen Abschnitt legen.Null-initialisierte Daten in den bss-Abschnitt legen.Die R2-Architektur ist ausschließlich Little-EndianRANK (%i) bei %L wird bei %L wiederholtRANK (*) bei %L kann nicht mit dem Zeiger oder dem allozierbaren Selektor bei %L verwendet werdenRANK (*) bei %L wird bei %L wiederholtRANK DEFAULT bei %L wird bei %L wiederholtRE oder IM part_ref bei %CRE-part_ref bei %CREAL-Feld-Index bei %LREAL(KIND=10) ist nicht verfügbar für Option %<-fdefault-real-10%>REAL(KIND=10) ist nicht verfügbar für Option %<-freal-4-real-10%>REAL(KIND=10) ist nicht verfügbar für Option %<-freal-8-real-10%>REAL(KIND=10) ist nicht verfügbar für Option %<-freal-8-real-16%>REAL(KIND=16) ist nicht verfügbar für Option %<-fdefault-real-16%>REAL(KIND=16) ist nicht verfügbar für Option %<-freal-4-real-16%>REAL(KIND=4) ist nicht verfügbar für Option %<-freal-8-real-4%>REAL(KIND=8) ist nicht verfügbar für Option %<-fdefault-real-8%>REAL(KIND=8) ist nicht verfügbar für Option %<-freal-4-real-8%>RECL in OPEN-Anweisung bei %L muss positiv seinRECL-Angabe nicht erlaubt in OPEN-Anweisung bei %L für Datenstrom-Ein-/AusgabeRECORD bei %C ist eine Erweiterung, muss mit %<-fdec-structure%> eingeschaltet werdenRECURSIVE-Präfix fehlt in MODULE-PROCEDURE-Schnittstelle bei %LDie RESULT-Variable %qs bei %L verbietet, dass der FUNCTION-Name %qs bei %C in einer Spezifikationsanweisung auftrittRESULT-Variable bei %C muss vom Funktionsnamen verschieden seinRESULT_DECL should be read only when DECL_BY_REFERENCE is setRETURN-Anweisung im Hauptprogramm bei %CROUND= bei %L ist in Fortran 95 nicht erlaubtInterner Fehler: RTL check: access of elt %d of '%s' with last elt %d in %s, at %s:%dInterner Fehler: RTL check: access of elt %d of vector with last elt %d in %s, at %s:%dInterner Fehler: RTL check: access of hwi elt %d of vector with last elt %d in %s, at %s:%dInterner Fehler: RTL check: attempt to treat non-block symbol as a block symbol in %s, at %s:%dInterner Fehler: RTL check: expected code '%s' or '%s', have '%s' in %s, at %s:%dInterner Fehler: RTL check: expected code '%s', '%s' or '%s', have '%s' in %s, at %s:%dInterner Fehler: RTL check: expected code '%s', have '%s' in %s, at %s:%dInterner Fehler: RTL check: expected elt %d type '%c' or '%c', have '%c' (rtx %s) in %s, at %s:%dInterner Fehler: RTL check: expected elt %d type '%c', have '%c' (rtx %s) in %s, at %s:%dInterner Fehler: RTL flag check: %s used with unexpected rtx code '%s' in %s, at %s:%dRTP PIC ist mit %<-msingle-pic-base%> unverträglichRTP PIC ist mit Thumb unverträglichRTTI wird für diesen Typ nicht funktionierenRX-FPU-Befehle unterstützen keine NaNs und UnendlichkeitenErhöhung eines negativen REAL bei %L zu einer REAL-Potenz ist verbotenBereichsspezifikation bei %L kann nie passenUnverträgliche Ränge zwischen Argument bei %L und Argument bei %L (Rang-%d und Rang-%d)Unverträgliche Ränge zwischen Argument bei %L und Argument bei %L (Rang-%d und skalar)Unverträgliche Ränge zwischen Argument bei %L und Argument bei %L (skalar und Rang-%d)Unpassender Rang in Argument %qs bei %L (Rang-%d und Rang-%d)Unpassender Rang in Argument %qs bei %L (Rang-%d und Skalar)Unpassender Rang in Argument %qs bei %L (Skalar und Rang-%d)Unpassende Ränge in Feldreferenz bei %L (%d/%d)Das Umordnen des Rangs erfordert eine Liste von %<untere-Grenze : obere-Grenze%>-Angaben bei %LZiel der Rang-Neuzuordnung ist nicht Rang 1 bei %LZiel der Rang-Neuzuordnung ist kleiner als die Größe des Zeigers (%ld < %ld) bei %LZiel der Rang-Neuzuordnung muss Rang 1 oder einfach fortlaufend bei %L seinDatei %qs wird in Freiform gelesenModul %qs in Zeile %d, Spalte %d wird gelesen: %sLesen der Spezifikationen von %s
Reelles COUNT_RATE-Argument für SYSTEM_CLOCK bei %LRealkonstante überschreitet seine Art bei %CRealkonstante unterschreitet seine Art bei %CRealzahl bei %C hat einen %<d%>-Exponenten und eine explizite ArtRealzahl bei %C hat einen %<q%>-Exponenten und eine explizite ArtStapel in Prolog neu ausrichten.LHS in Zuweisungen neu reservieren.C++-Schlüsselworte wie »compl« und »xor« erkennen.GNU-definierte Schlüsselworte erkennen.Eingebaute Funktionen erkennen.Das »asm«-Schlüsselwort erkennen.DW_AT_decl_column und DW_AT_call_column in DWARF aufzeichnen.GCC-Kommandozeilenschalter in DWARF DW_AT_producer aufzeichnen.GCC-Kommandozeilenschalter in Objektdateien aufzeichnen.Dauer der Teilphasen separat aufzeichnen.Rekursives Klonen nur dann, wenn die Wahrscheinlichkeit, dass der Aufruf ausgeführt wird, den Parameter überschreitet.Redefinition von !$OMP DECLARE REDUCTION bei %LRedefinition der vordefinierten !$OMP DECLARE REDUCTION bei %LRedefinition der vordefinierten !$OMP DECLARE REDUCTION »%s« bei %LPriorität für r0..r3 / r12..r15 mit TARGET_REGISTER_PRIORITY reduzieren.Stapelausrichtung im Aufrufer reduzieren, wenn möglich.Redundantes !$ACC END LOOP bei %CRedundante ACQUIRED_LOCK-Marke bei %L gefundenRedundante ERRMSG-Marke bei %L gefundenÜberflüssige MOLD-Marke bei %L gefundenÜberflüssige SOURCE-Marke bei %L gefundenRedundante STAT-Marke bei %L gefundenRedundante UNTIL_COUNT-Marke bei %L gefundenIndex der Referenzanweisung nicht gefundenIndex der Referenzanweisung außerhalb des gültigen BereichsReferenz auf Nicht-PURE-Funktion %qs bei %L innerhalb eines DO CONCURRENT %sReferenz auf Nicht-PURE-Funktion %qs bei %L innerhalb eines FORALL %sReferenz auf Nicht-PURE-Funktion %qs bei %L innerhalb einer PURE-ProzedurInterner Fehler: Region crossing jump across same section in bb %iProfilinformation im Abschnitt .gcov_info registrieren, statt einen Konstruktor/Destruktor zu verwenden.Profilinformation im angegebenen Abschnitt registrieren, statt einen Konstruktor/Destruktor zu verwenden.Regulärer Ausdruck, um zusätzliche Allzweck-adressierbare Abschnittsnamen anzugeben.Regulärer Ausdruck, um relativ zu r0 adressierbare Abschnittsnamen anzugeben.Zweige entspannen.Literale in Assembler lockern und automatisch in den »text«-Abschnitt platzieren.Entlastung des Registerdrucks durch Live-Bereichs-Schrumpfung.Dateinamen beim Einfügen von Dateien neu abbilden.Code und Daten, die unerreichbar von jeglichen exportierten Symbolen sind, entfernen (inclusive dem Einstiegspunkt).Präfix von absolutem Pfad abschneiden, bevor dieser Name für »-fprofile-generate=« und »-fprofile-use=« gemangelt wird.Redundante Membars entfernen.In GCC 10 entfernt. Dieser Schalter hat keine Auswirkung.In GCC 8 entfernt. Dieser Schalter hat keine Auswirkung.In GCC 9 entfernt. Dieser Schalter hat keine Auswirkung.»%s« wird gelöscht
Aufruf von unreiner Funktion %qs bei %L wird entferntAufruf von unreiner Funktion bei %L wird entferntUmbenennungsoperatoren in USE-Anweisungen bei %CBasisblöcke und in heiße und kalte Abschnitte umordnen und partitionieren.Basisblöcke umsortieren, um Codeplatzierung zu verbessern.Funktionen umsortieren, um Codeplatzierung zu verbessern.Funktionen, Variablen und asms höchster Ebene umordnen.Ungültige Wiederholungsangabe in Skalar-Initialisierung bei %CWiederholungsangabe bei %C muss eine Ganzzahl seinAddieren, Vergleichen, Verzweigen mit Verzweigung anhand des Zählregisters ersetzen.Vorübergehende Ausdrücke im SSA->Normal-Durchlauf ersetzen.Über Konsistenz des Profils berichten.Über Speicherbelegung vor zwischenprozeduraler Optimierung berichten.Nur in WPA über dauerhafte Speicherreservierung berichten.Über dauerhafte Speicherreservierung berichten.Benötigte Zeit für jeden Compilerdurchlauf ausgeben.Nur in WPA verschiedene Statistiken über Linkzeit-Optimierung ausgeben.Verschiedene Statistiken über Linkzeit-Optimierung ausgeben.IEEE-konforme Mathematik-Bibliotheksroutinen (OSF/1) anfordern.Befehle nach Registerbelegung neu planen.Befehle vor Registerbelegung neu planen.Regionen mit Pipelining ohne Pipelining neu planen.Platz für Ausgabeargumente in Funktionsprolog reservieren.Umgeformtes Feld bei %C zu großDie Analyse auf die Prüfung mit dem angegebenen Namen einschränken.Verwendung der Hardware-Gleitkomma-Befehle auf 32-Bit-Operationen beschränken.Ergebnis %qs der enthaltenen Funktion %qs bei %L hat keinen IMPLICIT-TypUnpassendes Ergebnis für die überschreibende Prozedur %qs bei %L: %sErgebnis von %s ergibt für seine Art einen Bereichsfehler bei %LErgebnis von %s ist NaN bei %LErgebnis von %s überschreitet seine Art bei %LErgebnis von %s unterschreitet seine Art bei %LErgebnis von BESSEL_YN ist -INF bei %LErgebnis von NEAREST ist NaN bei %LErgebnis von SCALE überschreitet seine Art bei %LPotenzbildung bei %L überschreitet Wertebereich von %s8-Byte-Vektoren über Speicher zurückgeben.Alle Strukturen über Speicher zurückgeben (AIX-Standard).Gleitkommaergebnisse über ac0 zurückgeben (fr0 in Unix-Assemblersyntax).Zeiger sowohl in a0 als auch in d0 zurückgeben.Kleine Aggregate über Speicher, nicht Register, zurückgeben.Kleine Aggregate über Register zurückgeben.Kleine Strukturen über Register zurückgeben (SVR4-Standard).Unpassender Rückgabetyp der Funktion %qs bei %L (%s/%s)Rückgabetyp der BIND(C)-Funktion %qs bei %L kann kein Feld seinRückgabetyp der BIND(C)-Funktion %qs von Zeichentyp bei %L muss die Länge 1 habenRückgabewert %1$qs der bei %3$L deklarierten Funktion %2$qs nicht gesetztRückgabewert der Funktion %qs bei %L nicht gesetztFunktionswerte über FPU-Register zurückgeben.r30 auf Funktionsbasis wiederverwenden.Aufruf des Teilbefehls »rewrite«:Schließende Klammer erwartet bei %C in Formatzeichenkette bei %LRechte obere Schranke des Feldabschnitts angenommener Größe nicht angegeben bei %LNur die zweite Kompilierung von -fcompare-debug laufen lassen.Vorhersehende vereinheitlichende Optimierung durchlaufen.Ausgewählte Planung nach Neuladen durchführen.Selbsttests durchführen, mit dem angegebenen Pfad, um die Testdateien zu finden.Den Bindezeitoptimierer im lokalen Transformationsmodus (LTRANS) laufen lassen.Den Bindezeitoptimierer im Modus »komplettes Programm« (WPA) laufen lassen.Unbekannte Spezifikationsfunktion »%s« mit %d Argumenten

Laufzeitname.SAVE-Attribut bei %L kann nicht in einer PURE-Prozedur angegeben werdenSAVE-Anweisung bei %C folgt umfassender SAVE-AnweisungSCHEDULE-Klausel darf nicht zusammen mit %<inscan%>-REDUCTION-Klausel bei %L verwendet werdenchunk_size der SCHEDULE-Klausel bei %L erfordert einen skalaren INTEGER-AusdruckSELECT-RANK-Anweisung bei %CSELECT TYPE bei %C darf nicht in diesem Gültigkeitsbereich vorkommenSELECTED_REAL_KIND ohne Argument %<P%> oder %<R%> bei %LSEQUENCE-Attribut bei %C bereits in TYPE-Anweisung angegebenSEQUENCE-Anweisung bei %C muss CONTAINS vorausgehenSEQUENCE-Anweisung bei %C muss Strukturkomponenten vorausgehenSH2a unterstützt nicht Little-EndianSHAPE-Argument bei %L für C_F_POINTER muss dieselbe Größe haben wie der RANK des FPTRSHIFT-Argument (%ld) außerhalb des Bereichs -%ld:%ld in intrinsischem ISHFTSIZE-Argument (%ld) außerhalb des Bereichs -%ld:%ld in intrinsischem ISHFTCSHIFT-Argument (%ld) außerhalb des Bereichs 0:%ld in intrinsischem »%s«SIGN= bei %L ist in Fortran 95 nicht erlaubtSINK-Summand bei %L ist keine konstante GanzzahlSINK-Abhängigkeitstyp bei %L ist nur in ORDERED-Direktive erlaubtSIZE-Argument (%ld) außerhalb des Bereichs 1:%ld in intrinsischem ISHFTCSIZE bei %L muss positiv seinSOURCE Abhängigkeitstyp ist nur an ORDERED-Direktive erlaubt bei %LSOURCE-Marke bei %LSOURCE-Marke bei %L steht mit Typspezifikation bei %L in KonfliktSOURCE-Marke bei %L mit mehr als einem reservierbaren ObjektSSA-BeschädigungInterner Fehler: SSA name undeclaredSSA_NAME created in two different blocks %i and %iSSA_NAME_DEF_STMT is wrongSSA_NAME_OCCURS_IN_ABNORMAL_PHI sollte gesetzt seinSSE-Befehlssatz ausgeschaltet, es wird 387-Arithmetik verwendetSSE-Registerargument mit SSE ausgeschaltetSSE-Registerrückgabe mit SSE ausgeschaltetSSE-Vektorargument ohne eingeschaltetes SSE ändert das ABISSE-Vektorrückgabe ohne eingeschaltetes SSE ändert das ABISTABS-Debuginfos für Ada ist abgelaufen und wird nicht mehr unterstütztSTAT-Angabe bei %L darf keine Konstante seinSTAT-Variable»STAT=«-Argument bei %L muss skalare INTEGER-Variable seinSTAT=-Argument für %s bei %LAttribut »STAT=« in %C fehlplatziertSTATUS bei %L muss eine »INTENT(OUT)«-Variable seinSTOP-Code bei %C darf nicht negativ seinSTOP-Code bei %C enthält zu viele ZiffernSTOP-Code bei %L muss eine skalare CHARACTER-Konstante oder Ziffer[Ziffer[Ziffer[Ziffer[Ziffer]]]] seinSTOP-Code bei %L muss eine skalare CHARACTER- oder INTEGER-Konstante seinSTOP-Code bei %L muss Standardzeichentyp KIND=%d seinSTOP-Code bei %L muss Standardganzzahltyp KIND=%d seinSTOP-Code bei %L muss entweder INTEGER- oder CHARACTER-Typ habenSTOP-Code bei %L muss Skalar seinSUBMODULE-Deklaration bei %CSUBMODULE-Deklaration bei %C kann nicht innerhalb eines anderen Gültigkeitsbereichs auftretenSUBROUTINE %qs bei %L kann nicht rekursiv aufgerufen werden, da sie nicht RECURSIVE istder SVE-Typ %qT kann nur an prototypisierte Funktionen übergeben werdenSYNC-TEAM-Anweisung bei %CSYNC-Anweisung bei %CGleiches effektives Argument mit INTENT(%s)-Argument %qs und INTENT(%s)-Argument %qs bei %L verbundenDasselbe wie %s%s (oder, in negierter Form, %s%s).Dasselbe wie %s%s.Dasselbe wie %s.Das gleiche wie -fassociative-math für Ausdrücke, die Division enthalten.Identisch zu -mA6.Identisch zu -mA7.Das gleiche wie: -mep -mprolog-function.Register bei Funktionsaufrufen sichern.TOC für indirekte Aufrufe im Prolog sichern, statt vor jedem Aufruf.Skalares %qs in FORMAT-Marke bei %L ist keine ASSIGNED-VariableSkalarer INTEGER-Ausdruck bei %L erwartetSkalarer PARAMETER in komplexer Konstante bei %C erwartetSkalare Einheit bei %L benötigtSkalares Objekt %qs bei %L kann nicht ALLOCATABLE seinScalarization using DIMEN_RANGE unimplementedSkalierungsfaktor für die Anzahl der Blöcke in einem Threadingpfad, verglichen mit der Anzahl der (skalierten) Anweisungen.Skalierungsfaktor für die Anzahl der Anweisungen pro Threadingpfad, verglichen mit der Anzahl der (skalierten) Blöcke.Skalierungsfaktor bei Berechnung der größten Entfernung, um die ein Ausdruck durch GCSE-Optimierungen verschoben werden kann.Code für die gegebene CPU planen.Für angegebene CPU planen.Befehle mit selektivem Planungs-Algorithmus einplanen.Anfang und Ende der Prozedur planen.Argument 2 von %qs muss im Bereich [0, 3] liegen.Zweites Argument von %s ist bei %L negativZweites Argument der definierten Zuweisung bei %L muss INTENT(IN)Zweites Argument der Operatorschnittstelle bei %L kann nicht optional seinZweites Argument der Operatorschnittstelle bei %L muss INTENT(IN) seinAbschnitt existiert bereits: %qsWeitere Hinweise finden Sie unter »%s«.
SpeicherzugriffsverletzungSpeicherzugriffsverletzung (Code)Codemodell auswählen.Auswahl des Anteils an der Höchstfrequenz der Ausführungen des Basisblocks in Funktion, vorausgesetzt, der Basisblock wird ausgerichtet.Großes Speichermodell wählen – 20-Bit-Adressen/-Zeiger.Methode für sdata-Behandlung auswählen.Gültigkeitsbereich der signierten Rückgabeadressen.Kleines Speichermodell wählen – 16-Bit-Adressen/-Zeiger (Voreinstellung).Ziel-ABI-Variante auswählen.Name zum Speichern der Profilingnotizen festlegen.Laufzeitumgebung auswählen.Art der Abdeckungs-Bereinigung auswählen.Auswählen, was bereinigt werden soll.Auswahlausdruck in berechneter GOTO-Anweisung bei %L muss ein skalarer Ganzzahlausdruck seinSelektor bei %L darf nicht NULL() seinSelektor bei %L hat keinen TypSelektor bei %L darf nicht koindiziert seinSelektor in SELECT TYPE bei %C ist keine benannte Variable; associate-name=> verwendetSelektor muss in SELECT TYPE-Anweisung bei %L polymorph seinWählt die Art der Ziel-RL78-Kerne aus (g10/g13/g14). Voreinstellung ist der G14. Wenn angegeben, wird auch die verwendete Hardwaremultiplikation ausgewählt.Wählt die zu verwendende Art der Hardware-Multiplikation und -division aus (none/g13/g14).Selbstreferenz im Zeichenlängenausdruck für %qs bei %LSelbstreferenzielles Argument %qs bei %L ist nicht erlaubtSemikolon bei %C muss Anweisung vorausgehenGleitkommapräzision von 80387 auf 32 Bit setzen.Gleitkommapräzision von 80387 auf 64 Bit setzen.Gleitkommapräzision von 80387 auf 80 Bit setzen.Windows-defines festlegen.Feste Obergrenze für die Größe jedes Stapelrahmens angeben, in Bytes.Sprungkosten festlegen.Standardzugriff von Modulentitäten auf PRIVATE setzen.Prüfung der Abhängigkeitsentfernung in nicht ausgereifter Planung von eingereihten Befehlen festlegen.Nach eingebauten Mathematikfunktionen errno setzen.Ausgabeart des Linkers festlegen (wird intern während der LTO-Optimierung verwendet).Mindestbreite des linken Randes des Quellcodes angeben, für das Ausgeben des Quellcodes.Name des __fentry__-Symbols festlegen, das beim Betreten der Funktion aufgerufen wird.Name der Hauptroutine für den Debugger festlegen.Namen der ALI-Ausgabedatei setzen (interner Schalter).Name des Abschnitts festlegen, der die mrecord-mcount-Aufrufe aufnimmt.Anzahl der reservierten Bytes für die aufgerufene Funktion auf dem Stapel.Anzahl der zu erzeugenden NOPs vor jeder Befehlsfolge festlegen.Wahrscheinlichkeitsgrenze für unausgerichtete Zweige festlegen.Register festlegen, das den Wert -1 enthält.sizeof(bool) auf 1 festlegen.Start-Adresse der Daten festlegen.Start-Adresse des Programmes festlegen.PPC_EMB-Bit im ELF-Flags-Header setzen.Sprungkosten für bedingte Sprungbefehle festlegen. Angemessene Werte sind kleine, nicht-negative Ganzzahlen. Vorgabewert ist 0.Sprungkosten für bedingte Sprungbefehle setzen. Angemessene Werte sind kleine, nicht-negative Ganzzahlen. Standard ist 1.Verzweigungskosten auf ungefähr die angegebene Anzahl an Befehle setzen.Sprungkosten festlegen.Standard-Doppelpräzisionsart auf einen 8 Bytes breiten Typen setzen.Standard-Ganzzahlart auf einen 8 Bytes breiten Typen setzen.Standard-Realzahlart auf einen 10 Bytes breiten Typen setzen.Standard-Realzahlart auf einen 16 Bytes breiten Typen setzen.Standard-Realzahlart auf einen 8 Bytes breiten Typen setzen.Wahrscheinlichkeit in Prozent für das eingebaute »expect«. Vorgabewert ist 90 % Wahrscheinlichkeit.Maximalgröße der für den SDA-Bereich geeigneten Daten festlegen.Maximalgröße der für den TDA-Bereich geeigneten Daten festlegen.Maximalgröße der für den ZDA-Bereich geeigneten Daten setzen.Höchstanzahl der Bytes angeben, die noch im Stapel übrig sind, bevor ein Trap-Befehl ausgelöst wird.Größten Betrag für einzelne Stapelvergrößerungsoperation festlegen.Höchstzahl der parallel ausgeführten Befehle im neuverbundenen Baum festlegen. Bei 0 die zielabhängige Heuristik verwenden.Höchstzahl der Template-Instanziierungshinweise für einzelne Warnung oder Fehler festlegen.Anzahl der 64-KiB-Flash-Segmente festlegen.Das Ausgabeobjekt so festlegen, dass beim Laden dyld alle 2-stufigen Namensraum-Informationen ignoriert, und Symbole in der Entdeckungsreihenfolge für geladene Bibliotheken auflösen.Adressen des Einhängpunkts im Prolog und Epilog auf TPF_TRACE_PROLOGUE_SKIP_TARGET und TPF_TRACE_EPILOGUE_SKIP_TARGET festlegen. Gleichbedeutend mit »-mtpf-trace-hook-prologue-target=TPF_TRACE_PROLOGUE_SKIP_TARGET« und »-mtpf-trace-hook-epilogue-target=TPF_TRACE_EPILOGUE_SKIP_TARGET«Ziel-CPU-Typ angeben.Basisverzeichnis zum Speichern der Profildaten setzen. Vorgabe ist das aktuelle Verzeichnis.Adresse der Verfolgungsprüfung für TPF-Einhängpunkt im Epilog festlegenAdresse der Verfolgungsprüfung für TPF-Einhängpunkt im Prolog festlegenAdresse des Verfolgungssprungs für TPF-Einhängpunkt im Epilog festlegenAdresse des Verfolgungssprungs für TPF-Einhängpunkt im Prolog festlegenDie Version der RISC-V-ISA-Spezifikation festlegen.Legt die Registerbreite für LP_COUNT fest. Mögliche Werte sind 8, 16, 20, 24, 28 und 32.Spezifikation %s wird auf '%s' gesetzt

Formspezifikation für reservierbares Skalar bei %CFormen der Operanden bei %L und %L stimmen nicht übereinDie Formen von ORDER bei %L und SHAPE bei %L sind unterschiedlichSchlitze gemeinsam verwenden, um verschiedene harte Register zu sichern.Stapel-Schlitze für übergelaufene Pseudo-Register gemeinsam verwenden.Gemeinsam genutzte DO-Abbruchmarke %d bei %CBeim Binden Adressreferenzen verkürzen.Spaltenzahlen in Diagnose zeigen, wenn verfügbar. Standard: Ein.Beim Anzeigen von Quellcode Marker verwenden, um Bereiche des Quellcodes zu markieren.Beim Anzeigen von Quellcode Zeilennummern im linken Rand anzeigen.Stapeltiefe der Ereignisse in Pfaden anzeigen.Quellzeile mit Einschaltungszeichen anzeigen, um die Spalte zu kennzeichnen.Teile des Prologs und Epilogs separat an den nötigen Stellen erzeugen.Interner Fehler: Simplification errorVereinfachung von SPREAD bei %C ist noch nicht implementiertGröße in Bytes, über der thread-lokale Zusammenfassungen mit Logging-Funktionen statt mit Save/Restore-Paaren instrumentiert werden sollten.Größe des Arguments %qs des intrinsischen %qs bei %L ist zu klein (%i/%i)Größe des Stapelschutzes, als Zweierpotenz von Bytes ausgedrückt.Größe der Kacheln für Schleifenblockierung.Größenoptimierungsstufe: 0:keine 1:vorteilhaft 2:regalloc 3:drop align, -Os.Die Größen von ORDER bei %L und SHAPE bei %L sind unterschiedlichBeim Übergeben von variablen Argumenten das Einrichten des RAX-Registers überspringen.Bereich für kleine Daten: none, sdata, use.Weiche Grenzen für Anzahl der Speicherzugriffsbefehle pro Befehlsgruppe. Späteren Speicherbefehlen, die versuchen, in gleicher Befehlsgruppe zu planen, wird niedrigere Priorität gegeben. Oft hilfreich, um Konflikte von Cachebänken zu vermeiden. Standard: 1.Entschuldigung, !$ACC DECLARE bei %L ist in einem BLOCK-Konstrukt nicht erlaubtSorry, die %qs-Klausel bei %L an einer REQUIRES-Direktive wird noch nicht unterstütztSorry, allozierbare/Zeiger-Komponenten in polymorphen (CLASS-)getypten Koarrays bei %L werden nicht unterstütztSorry, der koindizierte Zugriff bei %L auf eine unbegrenzt polymorphe Komponente wird nicht unterstütztSorry, der koindizierte Zugriff bei %L auf ein unbegrenzt polymorphes Objekt wird nicht unterstütztEntschuldigung; für Image-Set bei %2$L ist nur Unterstützung für Ganzzahl-Art %1$d implementiertSorry, die Event-Komponente des abgeleiteten Typs bei %L wird noch nicht unterstütztSorry, die Lockkomponente des abgeleiteten Typs bei %L wird noch nicht unterstütztDie Symbole der Größe nach sortieren.Die Symbole alphabetisch sortieren.Quell-Ausdruck bei %L und ALLOCATE-Objekt bei %L müssen dieselbe Form habenQuell-Ausdruck bei %L muss skalar sein oder den selben Rang wie das ALLOCATE-Objekt bei %L habenSpezifikationsfunktion %qs bei %L kann nicht RECURSIVE seinSpezifikationsfunktion %qs bei %L kann keine Anweisungsfunktion seinSpezifikationsfunktion %qs bei %L kann keine interne Funktion seinSpezifikationsfunktion %qs bei %L muss PURE seinBit-Breite des unmittelbaren TLS-Versatzes angeben. Gültige Werte sind 12, 24, 32, 48.Gibt die Anzahl der Register an, die bei Eintritt und Austritt eines schnellen Interrupts in der zweiten Registerbank gesichert werden.Anzahl der für Interrupthandler zu reservierenden Register.Gibt die Register an, die beim Eintritt und Austritt eines Interrupts gesichert werden.Angabe, ob Interruptfunktionen das Akkumulator-Register sichern und wiederherstellen sollen.CPU für Codeerzeugungszwecke angeben.CPU für Planzwecke angeben.CPU für Planungszwecke angeben. Gültige Argumente sind 700, 7100, 7100LC, 7200, 7300, und 8000.TLS-Dialekt angeben.UNIX-Standard für Predefines und Bindung angeben.Gibt die Datei an, welche die Liste der von LTRANS ausgegebenen Dateien geschrieben wird.FPU-Konfigurationswert von 0 bis 7 angeben; 0 bis 3 sind wie in der FPU-Spezifikation beschrieben, 4 bis 7 entsprechen 0 bis 3.Zu ladendes Plugin angeben.Ausrichtung der Strukturfelder als Standard/natürlich angeben.ABI angeben.Bit-Breite des unmittelbaren TLS-Versatzes angeben.Funktion zum Entleeren des Cache angeben.Abfangfunktionsnummer zum Entleeren des Cache angeben.Konfiguration für den mul-Befehl angeben: fast1, fast2 oder slow. Vorgabe ist fast1.Standard-OpenACC-Berechnungsdimensionen angeben.Anzahl der Lese-/Schreibports für n9-/n10-Kerne angeben. Der Wert sollte 3r2w oder 2r1w sein.Angeben, wie auf den Threadzeiger zugegriffen wird.Angeben, wie jeder Kontrollflusspfad, der mit einer Diagnose verbunden ist, ausgegeben werden soll.Angeben, ob Gleitkommahardware verwendet werden sollte.Aufrufkonventionen für Ganzzahl und Gleitkomma angeben.Hauptobjekt für TPF-OS angeben.Maximale Fehlerwiedergabetiefe während der rekursiven Diagnose eines Fehlschlags der Constraint-Erfüllung an.Expansionsstrategie für memcpy bei bekannter erwarteter Größe angeben.Expansionsstrategie für memset bei bekannter erwarteter Größe angeben.Namen für die Funktion zur vorzeichenbehafteten 32-Bit-Division angeben.Bereich der zu fixierenden Register angeben.Planungspriorität für Verteilschlitz-beschränkte Befehle angeben.Größe des .local-Speichers angeben, der für den Stack verwendet wird, wenn die genaue Größe unbekannt ist.Angeben, dass eine externe BLAS-Bibliothek für matmul-Aufrufe mit großen Feldern verwendet werden sollte.Angeben, dass Backslashes in Zeichenketten ein Fluchtzeichen einleiten.Angeben, dass keine implizite Typisierung erlaubt ist, außer es wird durch explizite IMPLICIT-Anweisungen überschrieben.Angeben, dass der Compiler auf sicheren Code gemäß ARMv8-M-Security-Extensions abzielen soll.ISA angeben, für die gebaut wird: msp430, msp430x, msp430xv2.MCU angeben, für die gebaut wird.Gleitkommaformat __fp16 angeben.Strategie zur Adresserzeugung für das Codemodell von ICT-Aufrufen angeben.Strategie zur Adresserzeugung für das Codemodell angeben.Algorithmus, mit dem Symbole und Variablen zur Linkzeit partitioniert werden.Codemodell angeben.Verwendungsrichtlinie für kompakte Verzweigungen angeben.CPU für Pipeline-Modell angeben.Für das Programm zu verwendende Speichermodell angeben.Minimale Bitausrichtung von Strukturen angeben. (Veraltet)Das Modell für atomare Operationen angeben.Namen der Ziel-CPU angeben.Namen der Ziel-GPU angeben.Namen der Ziel-Architektur angeben.Name der Gleitkommakonfiguration des Ziels angeben.Namen der Gleitkommahardware/-format des Zielsystems angeben.Für PIC-Adressierung zu verwendendes Register angeben.Für das Programm zu verwendende Sicherheitsstufe von c-isr für die ganze Datei angeben.Die Größe jedes Cache-Blocks (muss eine Zweierpotenz zwischen 4 und 512 sein).Die Größe jedes Interrupt-Vektors (muss 4 oder 16 sein).Die Ziel-CPU auswählen.Typ der Ziel-RX-CPU auswählen.Ziel-Architektur angeben.Gleitkommahardware/-format des Zielsystems angeben.Ziel-Prozessor angeben.Art der Hardware-Multiplikation angeben.Die Version der PTX-ISA angeben, die verwendet wird.Schema für thread-lokalen Speicher angeben.Registernummer für Threadzeiger angeben.Software-Gleitkomma-ABI verwenden, gleichbedeutend mit -mabi=2.Software-Gleitkomma-ABI verwenden, gleichbedeutend mit -mabi=2fp+.Angeben, wo die kompilierten intrinsischen Module zu finden sind.Speicherbereiche, in den Funktionen abgelegt werden: lower (untere Bereiche), upper (obere), either (beide, platzsparend durchmischt); Vorgabe: lower.Speicherbereiche, in den Variablen abgelegt werden: lower (untere Bereiche), upper (obere), either (beide, platzsparend durchmischt); Vorgabe: lower.Zu verwendendes ABI für Code der Objective-C-Familie und Metadaten angeben.ABI-Art, für die der Code generiert wird: 2, 2fp+.Angeben, welches Schema zum Einfügen von NOPs nach der Planung angewendet werden soll.VOLATILE für Coarray-Variable %qs bei %C angegeben, die use-/host-assoziiert istNicht ausgerichtetes 32-Byte AVX-Laden auftrennen.Nicht ausgerichtetes 32-Byte AVX-Speichern auftrennen.Lebensdauer von Induktionsvariablen aufteilen, wenn Schleifen abgerollt werden.Pfade aufteilen, die zu Schleifen-Rückkanten führen.Nicht ausgerichtete 8-Byte-Vektor-Bewegungen vor Nach-Bewegungs-Adresserzeugung aufteilen.Breite Typen bereits früher in unabhängige Register aufteilen.Breite Typen in unabhängige Register aufteilen.Stapelrahmen größer als 2G wird für %<-fsplit-stack%> nicht unterstütztAnfangs-Ausdruck in DO-SchleifeStat-Variable bei %L muss skalare INTEGER-Variable seinStat-Variable bei %L darf nicht %s innerhalb der gleichen %s-Anweisung seinAnweisung bei %L ist keine gültige Sprungzielanweisung für Sprungziel bei %LAnweisungsfunktion %qs bei %L steht in Konflikt mit FunktionsnameAnweisungsfunktion %qs bei %L ist nicht als effektives Argument erlaubtAnweisungsfunktion %qs bei %L darf weder POINTER- oder ALLOCATABLE-Attribut habenAnweisungsfunktion %qs ist in Zuweisung des Prozedurzeigers bei %L ungültigAnweisungsfunktion %qs erfordert Argumentliste bei %CAnweisungsfunktion bei %CAnweisungsfunktion bei %L darf nicht innerhalb von INTERFACE auftretenAnweisungsfunktion bei %L ist rekursivAnweisungsmarke bei %C ist NullAnweisungsmarke in END CRITICAL bei %C passt nicht zur CRITICAL-MarkeAnweisungsmarke in ENDDO bei %C passt nicht zum DO-LabelAnweisungsmarkenliste in GOTO bei %C kann nicht leer seinAnweisungsmarke in leerer Anweisung bei %LGNU Fortran Hilfsbibliothek (libgfortran) statisch binden.Schrittausdruck in DO-SchleifeSchrittausdruck in DO-Schleife bei %L kann nicht Null seinVorwärtswachstum anhalten, wenn die Wahrscheinlichkeit der besten Kante weniger als dieser Schwellwert ist. Verwendet, wenn Profil-Rückmeldung verfügbar ist.Vorwärtswachstum anhalten, wenn die Wahrscheinlichkeit der besten Kante weniger als dieser Schwellwert ist. Verwendet, wenn Profil-Rückmeldung nicht verfügbar ist.Umgekehrtes Wachstum anhalten, wenn die umgekehrte Wahrscheinlichkeit der besten Kante weniger als dieser Schwellwert ist (in Prozent).Doubles in 64 Bits speichern.Funktionsnamen im Objektcode speichern.Doubles in 32 Bits speichern. Dies ist Standard.Sichert die MDUC-Register in Interrupt-Handlern für die G13-Zielarchitektur.Zusätzliche Daten verarbeiten, um in LTO-lokalem Umwandlungsmodus aggressiver zu devirtualisieren.Bei %L darf kein Schritt vorhanden seinSchrittweite sollte für Feldabschnitt in %s-Klausel bei %L nicht angegeben werdenSchrittweiten in Coarray-Index bei %C nicht erlaubtZeichenkettenlänge bei %L ist zu großStrukturkomponente %qs bei %L kann kein EQUIVALENCE-Objekt seinStrukturkonstruktor mit fehlenden optionalen Argumenten bei %CStrukturkonstruktor mit benannten Argumenten bei %CStrukturname %qs bei %C kann nicht der gleiche wie ein intrinsischer Typ seinStrukturname nach RECORD bei %C erwartetStrukturname erwartet in unverschachtelter Strukturdeklaration bei %CUnterprogramm %qs bei %L ist INTRINSIC, aber nicht mit intrinsischer Funktion verträglichUnterprogrammaufruf von %qs bei %L ist nicht PUREUnterprogrammaufruf von %qs in »DO CONCURRENT«-Block bei %L ist nicht PUREUnterprogrammaufruf von %qs in FORALL-Block bei %L ist nicht PUREUnterprogrammaufruf des intrinsischen %qs bei %L ist nicht PUREUnterprogrammaufruf von intrinsischem %qs in »DO CONCURRENT«-Block bei %L ist nicht PUREUnterprogrammaufruf mit alternativen Rückgaben in INITIALIZER-Klausel von !$OMP DECLARE REDUCTION bei %LUnterprogrammaufruf mit alternativen Rückgaben in Kombinierer von !$OMP DECLARE REDUCTION bei %LTeilzeichenkette bei %L hat Länge NullEnd-Index %ld der Teilzeichenkette bei %L überschreitet ZeichenkettenlängeEnd-Index der Teilzeichenkette bei %L überschreitet ZeichenkettenlängeEnd-Index der Teilzeichenkette bei %L ist zu großEnd-Index der Teilzeichenkette bei %L muss INTEGER-Typ habenEnd-Index der Teilzeichenkette bei %L muss skalar seinAnfangs-Index der Teilzeichenkette %ld bei %L muss kleiner als 1 seinAnfangs-Index der Teilzeichenkette bei %L ist kleiner als EinsAnfangs-Index der Teilzeichenkette bei %L muss INTEGER-Typ habenAnfangs-Index der Teilzeichenkette bei %L muss skalar seinVorschlagen, dass das Schlüsselwort »override« für Deklarationen von virtuellen Funktionen verwendet wird, die andere Funktionen übersteuern.Die Summe aus Feldrang %d und Korang %d bei %C übersteigt die Höchstanzahl %d an DimensionenSumme des zweiten und dritten Arguments von IBITS überschreitet Bit-Größe bei %LDie Liste der zu bindenden Objekte aus einer Datei liefern, statt aus der Befehlszeile.Eingebaute 3DNow!-Funktionen unterstützen.Eingebaute AES-Funktionen und Codeerzeugung unterstützen.Eingebaute Funktionen und Codeerzeugung für AMX-BF16 unterstützen.Eingebaute Funktionen und Codeerzeugung für AMX-INT8 unterstützen.Eingebaute Funktionen und Codeerzeugung für AMX-TILE unterstützen.Eingebaute Funktionen und Codeerzeugung für AVX512VNNI unterstützen.Eingebaute Funktionen und Codeerzeugung für AVX512VP2INTERSECT unterstützen.Eingebaute Athlon-3Dnow!-Funktionen unterstützen.Eingebaute Funktionen und Codeerzeugung für BMI unterstützen.Eingebaute Funktionen und Codeerzeugung für BMI2 unterstützen.C++17-Allozierung von überausgerichteten Typen unterstützen.Eingebaute Funktionen und Codeerzeugung für CLDEMOTE unterstützen.CLFLUSHOPT-Befehle unterstützen.CLWB-Befehl unterstützen.Eingebaute CLZERO-Funktionen und Codeerzeugung unterstützen.Eingebaute Funktionen und Codeerzeugung für ENQCMD unterstützen.Eingebaute F16C-Funktionen und Codeerzeugung unterstützen.Eingebaute Funktionen und Codeerzeugung für FMA4 unterstützen.Eingebaute FSGSBASE-Funktionen und Codeerzeugung unterstützen.FXSAVE- und FXRSTOR-Befehle unterstützen.Eingebaute Funktionen und Codeerzeugung für GFNI unterstützen.Eingebaute Funktionen und Codeerzeugung für HRESET unterstützen.Präfixe für Hardware-Lock-Auslassung unterstützen.Eingebaute Funktionen und Codeerzeugung für KL unterstützen.Eingebaute Funktionen und Codeerzeugung für LWP unterstützen.Eingebaute Funktion und Codeerzeugung für LZCNT unterstützen.Eingebaute Funktionen und Codeerzeugung für MMX und SSE unterstützen.Eingebaute MMX-Funktionen unterstützen.Eingebaute Funktionen und Codeerzeugung für MMX, SSE und SSE2 unterstützen.Eingebaute Funktionen und Codeerzeugung für MMX, SSE, SSE2 und SSE3 unterstützen.Eingebaute Funktionen und Codeerzeugung für MMX, SSE, SSE2, SSE3 und SSE4A unterstützen.Eingebaute Funktionen und Codeerzeugung für MMX, SSE, SSE2, SSE3 und SSSE3 unterstützen.Eingebaute Funktionen und Codeerzeugung für MMX, SSE, SSE2, SSE3, SSSE3 und SSE4.1 unterstützen.Eingebaute Funktionen und Codeerzeugung für MMX, SSE, SSE2, SSE3, SSSE3, SSE4.1 und SSE4.2 unterstützen.Eingebaute Funktionen und Codeerzeugung für MMX, SSE, SSE2, SSE3, SSSE3, SSE4.1, SSE4.2 und AVX unterstützen.Eingebaute Funktionen und Codeerzeugung für MMX, SSE, SSE2, SSE3, SSSE3, SSE4.1, SSE4.2, AVX und AVX2 unterstützen.Eingebaute Funktionen und Codeerzeugung für MMX, SSE, SSE2, SSE3, SSSE3, SSE4.1, SSE4.2, AVX und FMA unterstützen.Eingebaute Funktionen und Codeerzeugung für MMX, SSE, SSE2, SSE3, SSSE3, SSE4.1, SSE4.2, AVX, AVX2, AVX512F und AVX512BW unterstützen.Eingebaute Funktionen und Codeerzeugung für MMX, SSE, SSE2, SSE3, SSSE3, SSE4.1, SSE4.2, AVX, AVX2, AVX512F und AVX512CD unterstützen.Eingebaute Funktionen und Codeerzeugung für MMX, SSE, SSE2, SSE3, SSSE3, SSE4.1, SSE4.2, AVX, AVX2, AVX512F und AVX512DQ unterstützen.Eingebaute Funktionen und Codeerzeugung für MMX, SSE, SSE2, SSE3, SSSE3, SSE4.1, SSE4.2, AVX, AVX2, AVX512F und AVX512ER unterstützen.Eingebaute Funktionen und Codeerzeugung für MMX, SSE, SSE2, SSE3, SSSE3, SSE4.1, SSE4.2, AVX, AVX2, AVX512F und AVX512IFMA unterstützen.Eingebaute Funktionen und Codeerzeugung für MMX, SSE, SSE2, SSE3, SSSE3, SSE4.1, SSE4.2, AVX, AVX2, AVX512F und AVX512PF unterstützen.Eingebaute Funktionen und Codeerzeugung für MMX, SSE, SSE2, SSE3, SSSE3, SSE4.1, SSE4.2, AVX, AVX2, AVX512F und AVX512VBMI unterstützen.Eingebaute Funktionen und Codeerzeugung für MMX, SSE, SSE2, SSE3, SSSE3, SSE4.1, SSE4.2, AVX, AVX2, AVX512F und AVX512VL unterstützen.Eingebaute Funktionen und Codeerzeugung für MMX, SSE, SSE2, SSE3, SSSE3, SSE4.1, SSE4.2, AVX, AVX2 und AVX512F unterstützen.Eingebaute Funktionen und Codeerzeugung für MMX, SSE, SSE2, SSE3, SSSE3, SSE4.1, SSE4.2, AVX, AVX2, AVX512F und AVX5124FMAPS unterstützen.Eingebaute Funktionen und Codeerzeugung für MMX, SSE, SSE2, SSE3, SSSE3, SSE4.1, SSE4.2, AVX, AVX2, AVX512F und AVX5124VNNIW unterstützen.Eingebaute Funktionen und Codeerzeugung für MMX, SSE, SSE2, SSE3, SSSE3, SSE4.1, SSE4.2, AVX, AVX2, AVX512F und AVX512BF16 unterstützen.Eingebaute Funktionen und Codeerzeugung für MMX, SSE, SSE2, SSE3, SSSE3, SSE4.1, SSE4.2, AVX, AVX2, AVX512F und AVX512BITALG unterstützen.Eingebaute Funktionen und Codeerzeugung für MMX, SSE, SSE2, SSE3, SSSE3, SSE4.1, SSE4.2, AVX, AVX2, AVX512F und AVX512VBMI2 unterstützen.Eingebaute Funktionen und Codeerzeugung für MMX, SSE, SSE2, SSE3, SSSE3, SSE4.1, SSE4.2, AVX, AVX2, AVX512F und AVX512VPOPCNTDQ unterstützen.Eingebaute Funktionen und Codeerzeugung für MMX, SSE, SSE2, SSE3, SSSE3, SSE4.1, SSE4.2, AVX, AVX2 und AVXVNNI unterstützen.Eingebaute Funktionen und Codeerzeugung für MOVDIR64B unterstützen.Eingebaute Funktionen und Codeerzeugung für MOVDIRI unterstützen.Eingebaute MWAITX- und MONITORX-Funktionen und Codeerzeugung unterstützen.Eingebaute PCLMUL-Funktionen und Codeerzeugung unterstützen.Eingebaute Funktionen und Codeerzeugung für PCONFIG unterstützen.Eingebaute PKU-Funktionen und Codeerzeugung unterstützen.PREFETCHW-Befehl unterstützen.Eingebaute PREFETCHWT1-Funktionen und Codeerzeugung unterstützen.Eingebaute PTWRITE-Funktionen und Codeerzeugung unterstützen.Eingebaute Funktionen und Codeerzeugung für RDPID unterstützen.Eingebaute RDRND-Funktionen und Codeerzeugung unterstützen.RDSEED-Befehl unterstützen.Eingebaute RTM-Funktionen und Codeerzeugung unterstützen.Eingebaute Funktionen und Codegenerierung für SERIALIZE unterstützen.Eingebaute Funktionen und Codeerzeugung für SGX unterstützen.Eingebaute SHA1- und SHA256-Funktionen und Codeerzeugung unterstützen.Eingebaute TBM-Funktionen und Codeerzeugung unterstützen.TLS-Segment größer als 64K unterstützen.Eingebaute Funktionen und Codeerzeugung für TSXLDTRK unterstützen.Eingebaute Funktionen und Codeerzeugung für UINTR unterstützen.Eingebaute Funktionen und Codeerzeugung für VAES unterstützen.Eingebaute Funktionen und Codeerzeugung für VPCLMULQDQ unterstützen.Eingebaute Funktionen und Codeerzeugung für WAITPKG unterstützen.Eingebaute Funktionen und Codeerzeugung für WBNOINVD unterstützen.Eingebaute Funktionen und Codeerzeugung für WIDEKL unterstützen.Eingebaute Funktionen und Codeerzeugung für XOP unterstützen.XSAVE- und XRSTOR-Befehle unterstützen.XSAVEC-Befehle unterstützen.XSAVEOPT-Befehl unterstützen.XSAVES- und XRSTORS-Befehle unterstützen.Ausrichtungen von bis zu 64 Bits unterstützen.Aufrufe zwischen Thumb- und ARM-Befehlssätzen unterstützen.Codeerzeugung von Advanced-Bit-Manipulation-Befehle (ABM) unterstützen.Codeerzeugung von cmpxchg16b-Befehlen unterstützen.Codeerzeugung von crc32-Befehlen unterstützen.Codeerzeugung von movbe-Befehlen unterstützen.Codeerzeugung von popcnt-Befehlen unterstützen.Codeerzeugung von sahf-Befehlen in 64-Bit x86-64-Code unterstützen.Dynamische Initialisierung thread-lokaler Variablen in anderer Übersetzungseinheit unterstützen.Flag-erhaltende Add-Carry-Befehle unterstützen.Unterstützung für das A-Argument bei %L, das ein polymorphes A-Argument ist oder allozierbare Komponenten hat, ist noch nicht implementiertUnterstützung für das A-Argument bei %L mit allozierbaren Komponenten ist noch nicht implementiertAltes Multi-Threading unterstützen.Message-Passing mit der Parallel Environment unterstützen.Mehr als 8192 GOT-Einträge auf ColdFire unterstützen.Multi-Threading unterstützen.Multiplizier-Addier-Befehle unterstützen.Synchrone Nicht-Aufruf-Ausnahmen unterstützen.Unterstützte Rückgabeadress-Signierbereiche für AArch64 (für die Option »-msign-return-address=«):Unterstützte ABIs (für Verwendung mit Option »-mabi=«):Unterstützte ISA-Spezifikationen (für Verwendung mit Option »-misa-spec=«):Unterstützte LTO-Kompressionsalgorithmen: zlibAusgabe von Adressen in Fehlersuch-Auszügen unterdrücken.Ausgabe von Befehlszahlen, Zeilennummernangaben und Adressen in Fehlersuch-Auszügen unterdrücken.Ausgabe der vorigen und nächsten Befehlsnummern in Fehlersuch-Auszügen unterdrücken.Warnungen unterdrücken.ARM/Thumb-Modus pro Funktion abwechselnd an- und ausschalten, um den Compiler zu testen.MIPS16 ASE bei abwechselnden Funktionen für Compilertest ein-/ausschalten.Die Option »-mstack-guard« ausschalten.Die Option »-mstack-size« ausschalten.Symbol %qs bereits deklariertSymbol %qs bei %C bereits deklariertSymbol %qs bei %C ist bereits bei %L als ein Typ deklariertSymbol %qs bei %C wurde bereits mit Host verbundenSymbol %qs bei %C hat keinen IMPLICIT-TypSymbol %qs bei %C wurde vorher noch nicht definiertSymbol %qs bei %C ist bereits in einem COMMON-BlockSymbol %qs bei %C ist mehrdeutigSymbol %qs bei %C muss ein NAMELIST-Gruppenname seinSymbol %qs bei %L hat bereits eine explizite SchnittstelleSymbol %qs bei %L hat bereits grundlegenden Typen %sSymbol %qs bei %L kann keinen Typen habenSymbol %qs bei %L steht mit Symbol aus Modul %qs in Konflikt, verbunden durch Verwendung bei %LSymbol %qs bei %L steht mit Umbenennungs-Symbol bei %L in KonfliktSymbol %qs bei %L steht mit Symbol bei %L in KonfliktSymbol %qs bei %L hat keinen IMPLICIT-TypSymbol %qs bei %L hat keinen IMPLICIT-Typ; meinen Sie %qs?Symbol %qs bei %L ist mehrdeutigSymbol %qs bei %L ist als PRIVATE markiert, aber wurde mit Bindung %qs markiertDas Symbol %qs hat gemischte Komponenten- und Nicht-Komponenten-Zugriffe bei %LSymbol %qs in COMMON bei %C kann kein POINTER-Feld seinSymbol %qs in Namensliste %qs bei %C muss deklariert sein, bevor die Namensliste deklariert wird.Symbol %qs in Namensliste %qs ist INTENT(IN) bei %CSymbol %qs wird bei %L verwendet, bevor es typisiert wirdSymbol %qs muss ein PARAMETER in DATA-Anweisung bei %C seinSymbol %qs tritt bei %L sowohl in der FROM- als auch in der TO-Klausel aufSymbol %qs bei %L in mehreren Klauseln vorhandenBei %2$L referenziertes Symbol %1$qs nicht im Modul ISO_C_BINDING gefundenBei %2$L referenziertes Symbol %1$qs nicht im intrinsischen Modul ISO_FORTRAN_ENV gefundenBei %2$L referenziertes Symbol %1$qs nicht im Modul %3$qs gefundenSymbol %qs in COMMON-Block %qs bei %C wird indirekt verglichen mit anderem COMMON-Block %qsSymbol bei %C passt nicht zu einem AusdruckSymbol bei %L ist keine ScheinvariableSynonym für »-export-dynamic« für Linker-Versionen, die dies unterstützen.Synonym für »image_base«.Synonym für -Wcomment.Synonym für -gnatk8.Syntaxfehler in »!$ACC DECLARE«-Liste bei %CSyntaxfehler in »!$ACC ROUTINE ( NAME )« bei %CSyntaxfehler in !$ACC ROUTINE ( NAME ) bei %C, hinter NAME wird »)« erwartetSyntaxfehler in »!$OMP DECLARE TARGET«-Liste bei %CSyntaxfehler in !$OMP THREADPRIVATE Liste bei %CSyntaxfehler in !GCC$ ATTRIBUTES-Anweisung bei %CSyntaxfehler in !GCC$-IVDEP-Direktive bei %CSyntaxfehler in !GCC$-NOVECTOR-Direktive bei %CSyntaxfehler in !GCC$-UNROLL-Direktive bei %CSyntaxfehler in !GCC$-VECTOR-Direktive bei %CSyntaxfehler in Anweisung %s bei %CSyntaxfehler in ABSTRACT INTERFACE-Anweisung bei %CSyntaxfehler in ASYNCHRONOUS-Anweisung bei %CSyntaxfehler in AUTOMATIC-Anweisung bei %CSyntaxfehler in CASE-Spezifikation bei %CSyntaxfehler in CHARACTER-Deklaration bei %CSyntaxfehler in CLASS IS-Spezifikation bei %CSyntaxfehler in COMPLEX-Konstante bei %CSyntaxfehler in ELSE-IF-Anweisung nach %LSyntaxfehler in ENUMERATOR-Definition bei %CSyntaxfehler in EQUIVALENCE-Anweisung bei %LSyntaxfehler in FORALL-Iterator bei %CSyntaxfehler in E/A-Iterator bei %CSyntaxfehler in IF-Klausel nach %CSyntaxfehler in IF-Ausdruck bei %CSyntaxfehler in IMPORT-Anweisung bei %CSyntaxfehler in NAME=-Spezifikation für Bindungsmarke bei %CSyntaxfehler in OpenACC-Ausdrucksliste bei %CSyntaxfehler in OpenMP-»DEPEND SINK«-Liste bei %CSyntaxfehler in OpenMP-detach-Klausel bei %CSyntaxfehler in OpenMP-Variablenliste bei %CSyntaxfehler in PROCEDURE-Anweisung bei %CSyntaxfehler in PROTECTED-Anweisung bei %CSyntaxfehler in RANK-Spezifikation bei %CSyntaxfehler in SAVE-Anweisung bei %CSyntaxfehler in STATIC-Anweisung bei %CSyntaxfehler in SUBMODULE-Anweisung bei %CSyntaxfehler in SUBSTRING-Spezifikation bei %CSyntaxfehler in TYPE IS-Spezifikation bei %CSyntaxfehler in VALUE-Anweisung bei %CSyntaxfehler in VOLATILE-Anweisung bei %CSyntaxfehler in anonymer Struktur-Deklaration bei %CSyntaxfehler in Argumentliste bei %CSyntaxfehler in Feldkonstruktor bei %CSyntaxfehler in Zeichenlängenangabe bei %CSyntaxfehler im allgemeinen Blocknamen bei %CSyntaxfehler in Daten-Deklaration bei %CSyntaxfehler in Ausdruck bei %CSyntaxfehler in allgemeiner Spezifikation bei %CSyntaxfehler in Iterator bei %CSyntaxfehler in geschachtelter Struktur-Deklaration bei %CSyntaxfehler in Initialisierung im alten Stil von %s bei %CSyntaxfehler in Initialisierungsliste im alten Stil bei %CSyntaxfehler in Prozedurzeiger-Komponente bei %CSyntaxfehler: Nachfolgender Überschuss in END INTERFACE-Anweisung bei %CSyntaxfehler: Nachfolgender Überschuss in INTERFACE-Anweisung bei %CTARGET DATA muss mindestens eine der Klauseln MAP, USE_DEVICE_PTR, or USE_DEVICE_ADDR enthalten, bei %LTARGET ENTER DATA mit Zuordnungstyp außer TO oder ALLOC an MAP-Klausel bei %LTARGET EXIT DATA mit Zuordnungstyp außer FROM, RELEASE oder DELETE MAP-Klausel bei %LTARGET%s mit Zuordnungstyp außer TO, FROM, TOFROM oder ALLOC an MAP-Klausel bei %LTEAM-Argument bei %L für die intrinsische TEAM_NUMBER muss vom Typ TEAM_TYPE seinAttribut »TEAM=« in %C fehlplatziertTHREADPRIVATE-Objekt %qs in %s-Klausel bei %LTHREADPRIVATE-Objekt %qs in SHARED-Klausel bei %LTILE bei %L erfordert konstanten AusdruckZu verwendende TLS-Dialekte:TLS ist für GCN nicht implementiert.TODO: Vector sections in data statementsTODO: als typgebunden definierte Zuweisung(en) bei %L nicht durchgeführt, da Feldreferenzen mit mehreren Teilen in Ausdrücken als Zwischenergebnisse auftreten würden.TOPOS-Argument (%ld) außerhalb des Bereichs 0:%d in intrinsischem MVBITSTOPOS(%ld)+LEN(%ld)>BIT_SIZE(%d) in intrinsischem MVBITSTYPE IS bei %L überlappt sich mit TYPE IS bei %LTYPE mit intrinsischer Typspezifikation bei %CLinker-Lockerungen ausnutzen, um die Anzahl der Befehle zu reduzieren, die für das Materialisieren von Symboladressen verwendet werden.%s von %d Zweigen mindestens einmal genommen
Akzeptiert zwei durch Komma getrennte nichtnegative ganze Zahlen. Die erste Zahl gibt an, wie viele Zwei-Byte-NOP-Befehle vor der Funktionssprungmarke eingefügt werden. Die zweite Zahl gibt an, wie viele Halbwörter nach der Funktionssprungmarke mit NOP-Befehlen aufgefüllt werden. Es werden immer die größtmöglichen NOP-Befehle (6, 4 oder 2 Bytes) verwendet. Die Angabe von »0,0« schaltet das Hotpatching aus.DFLOAT-Code mit doppelter Genauigkeit generieren.Zum Absenken einer Anweisung nötige relative Ausführungsfrequenz des Ziel-Blocks (in Prozent).Zielausdruck in Zeigerzuweisung bei %L muss ein Zeigerergebnis liefernZiel hat separates I&D.Ziel für neue Rangabbildung ist zu klein (%ld < %ld)Auf AM33-Prozessor abzielen.Auf AM33/2.0-Prozessor abzielen.Auf AM34-Prozessor abzielen.Code für die FT32B-Architektur erzeugen.Auf den Software-Simulator abzielen.Ziel: %s
DCE mitteilen, dass ungenutzte C++-Allokationen entfernt werden.DSE mitteilen, dass der Speicher für ein C++-Objekt tot ist, wenn der Konstruktor anfängt und wenn der Destruktor aufhört.Die Option %<-mfloat128%> wird möglicherweise nicht vollständig unterstütztDie %1$s-Direktive bei %3$L darf nicht innerhalb einer %2$s-Region angegeben werdenArgument A bei %L hat Typ »%s«, aber die Funktion, die bei %L als OPERATOR übergeben wurde, gibt »%s« zurückDas A-Argument bei %L von CO_REDUCE darf nicht polymorph seinArgument A bei %L des intrinsischen %s darf keinen Koindex habenDas AUTOMATIC-Objekt %qs bei %L darf kein SAVE-Attribut haben und dard auch keine Variable im main-Programm, einem Modul oder einem Teilmodus sein (F08/C513)Die CHARACTER-Elemente des Feldkonstruktors bei %L müssen dieselbe Länge haben (%ld/%ld)Der DEFAULT CASE bei %L kann nicht von zweitem DEFAULT CASE bei %L gefolgt werdenDas DISTANCE-Argument darf in intrinsischer Routine bei %L nicht zusammen mit COARRAY- oder DIM-Argument angegeben werdenDas FORALL mit Index %qs wird nicht auf der linken Seite der Zuweisung bei %L verwendet und könnte somit mehrere Zuweisungen an dieses Objekt auslösenDie FROM- und TO-Argumente bei %L verletzen die Aliasing-Beschränkungen (F2003 12.4.1.7)Die FROM- und TO-Argumente des intrinsischen MOVE_ALLOC bei %L müssen den selben Ko-Rang %d/%d habenDie FROM- und TO-Argumente des intrinsischen MOVE_ALLOC bei %L müssen den selben Rang %d/%d habenDas FROM-Argument für MOVE_ALLOC bei %L darf keinen Koindex habenDas Formatspezifikationssymbol H bei %L ist eine in Fortran 95 entfernte BesonderheitHollerith-Konstante bei %L wird bei der Umwandlung in %qs abgeschnittenDas INTENT(OUT)-Scheinargument %qs bei %L hat ASSUMED SIZE und kann damit keine Standardinitialisierung habenDer KIND-Parameter %qs bei %C darf weder ASSUMED noch DEFERRED seinDer KIND-Parameter %qs im PDT-Konstruktor bei %C hat keinen WertDie KIND part_ref bei %C kann nur auf einen Ausdruck von intrinsischem Typ angewendet werdenDie LEN part_ref bei %C kann nur auf einen CHARACTER-Ausdruck angewendet werdenDas NULL im Strukturkonstruktor bei %L wird auf Komponente %qs angewandt, die aber weder ein POINTER noch ein ALLOCATABLE istDie RE oder IM part_ref bei %C kann nur auf einen COMPLEX-Ausdruck angewendet werdenDer SELECT-RANK-CASE-Ausdruck bei %C muss eine skalare, ganzzahlige Konstante seinDer SELECT-RANK-Selektor bei %C muss eine angenommene Rangvariable seinDer STATUS, der in der OPEN-Anweisung bei %L angegeben ist, kann nicht den Wert SCRATCH haben, wenn ein FILE angegeben istDer STATUS, der in der OPEN-Anweisung bei %L angegeben ist, ist %qs, es gibt jedoch keine dazu passende FILE-AngabeDas TO-Argument für MOVE_ALLOC bei %L darf keinen Koindex habenDie TO-Argumente in MOVE_ALLOC bei %L müssen polymorph sein, wenn FROM polymorph istDer absolute Wert von SHIFT bei %L muss kleiner oder gleich BIT_SIZE(%qs) seinDer absolute Wert von SHIFT bei %L muss kleiner oder gleich SIZE bei %L seinDas reservierbare Objekt %qs bei %L muss eine explizite Funktionsschnittstelle haben oder als Feld deklariert seinDas ALLOCATE-Objekt bei %L und der Quellausdruck bei %L müssen Typparameter der gleichen Art habenDie Argumentlistenfunktionen %%VAL, %%LOC oder %%REF bei %L sind in diesem Kontext nicht erlaubtArgument des intrinsischen RANK bei %L muss ein Datenobjekt seinDie Zuweisung zu einer KIND- oder LEN-Komponente eines parametrisierten Typs bei %L ist nicht erlaubtDas Feld %qs bei %L mit vermutetem Rang darf keine Kodimension habenDas Feld vermuteten Ranges bei %C darf keine Kodimension habenFeld mit vermutetem Rang bei %L erfordert Scheinargument %qs mit vermutetem RangDer Fehler ist nicht reproduzierbar, daher handelt es sich wahrscheinlich um ein Problem mit der Hardware oder dem Betriebssystem.
Zeichenkonstante bei %L wird bei der Umwandlung in %s abgeschnittenDie Zeichenlänge des A-Arguments bei %L und die Länge der Argumente für den OPERATOR bei %L muss dieselbe seinDie Zeichenlänge des A-Arguments bei %L und die Länge des Funktionsergebnisses des OPERATORs bei %L muss dieselbe seinCodemodell-Optionsnamen für -mcmodel:Die Komponente bei %C, die in der Typparameterliste bei %L erscheint, hat weder KIND- noch LEN-AttributDie Komponente bei %C, die ein Typparameter ist, muss ein Skalar seinDie Komponente bei %C mit KIND- oder LEN-Attribut erscheint nicht in der Typparameterliste bei %LDer Vorgabewert (und das Gegenteil von »-static«), wird implizit von ausführbaren Dateien, gemeinsam genutzten Bibliotheken und Bündeln verwendet.Der Nenner n des Bruchteils 1/n der Ausführungshäufigkeit des Eingangsblocks einer Funktion, den ein Basisblock dieser Funktion mindestens haben muss, um als heiß zu gelten.Der Nenner n des Bruchteils 1/n der maximalen Ausführungsanzahl eines Basisblocks im gesamten Programm, den ein Basisblock mindestens haben muss, um als heiß zu gelten (im Nicht-LTO-Modus verwendet).Der Nenner n des Bruchteils 1/n der Anzahl der profilierten Durchläufe des gesamten Programms, unter dem die Ausführungszahl eines Grundblocks liegen muss, damit der Grundblock als unwahrscheinlich angesehen wird.Der abgeleitete Parameter %qs bei %C hat keinen VorgabewertDer abgeleitete Typ %qs bei %L hat Typ %qs, der nicht definiert wurdeDas Gerät hat kein Spezialfunktionsregister SPH. Diese Option wird vom Compilertreiber mit dem korrekten Wert überschrieben, wenn An-/Abwesenheit von SPH von -mmcu=MCU abgeleitet werden kann.Die älteste macOS-Version, auf der dieses Programm laufen wird (für den Assembler formatiert).Die älteste macOS-Version, auf der dieses Programm laufen wird.Das Element im Strukturkonstruktor bei %L für Zeigerkomponente %qs sollte ein POINTER oder ein TARGET seinDas Element im Strukturkonstruktor bei %L für Zeigerkomponente %qs ist %s, sollte aber %s seinDie Äquivalenzmenge für %qs bewirkt eine ungültige Erweiterung für COMMON %qs bei %LDie Äquivalenzmenge für bei %2$L deklarierte Variable %1$qs verletzt AusrichtungsanforderungenDas Argument »errmsg=« bei %L muss eine standardartige Zeichenvariable seinEvent-Variable bei %L darf nicht koindiziert seinDie folgenden Optionen sind sprachunabhängigDie folgenden Optionen sind sprachbezogenDie folgenden Optionen sind nicht dokumentiertDie folgenden Optionen sind nur spezifisch für die Sprache Die folgenden Optionen werden von der Sprache unterstützt Die folgenden Optionen sind zielspezifischDie folgenden Optionen steuern Warnmeldungen des CompilersDie folgenden Optionen steuern OptimierungenDie folgenden Optionen steuern ParameterDie folgenden Optionen verwenden gemeinsame ArgumenteDie folgenden Optionen verwenden separate ArgumenteDie Funktion, die bei %L als OPERATOR übergeben wurde, hat Argumente vom Typ »%s« und »%s«, muss aber Typ »%s« habenDie Funktion, die bei %L als OPERATOR übergeben wird, muss Argumente haben, die nichtallozierbar und keine Zeiger sind, und der Rückgabewert muss nichtallozierbar, kein Zeiger und skalar seinDie Funktion, die bei %L als OPERATOR übergeben wird, muss das ASYNCHRONOUS-Attribut entweder für keins oder für beide Argumente habenDie Funktion, die bei %L als OPERATOR übergeben wird, muss das TARGET-Attribut entweder für keins oder für beide Argumente habenDie Funktion, die bei %L als OPERATOR übergeben wird, muss das VALUE-Attribut entweder für keins oder für beide Argumente habenDie Funktion, die bei %L als OPERATOR übergeben wird, muss zwei Argumente habenDie Funktion, die bei %L als OPERATOR übergeben wird, darf bei keinem der Argumente das OPTIONAL-Attribut habenFunktionsergebnis auf der linken Seite der Zuweisung bei %L muss Zeiger-Attribut haben.Das intrinsische %qs bei %L ist nicht im ausgewählten Standard enthalten, aber %s und %qs werden wie mit EXTERNAL deklariert behandelt. Passende Option %<-std=%> verwenden oder %<-fall-intrinsics%> definieren, um dies zuzulassen.Das bei %2$L deklarierte INTRINSIC %1$qs ist in den derzeitigen Standardeinstellungen nicht verfügbar, außer %3$s. Entsprechende Option %<-std=*%> verwenden, oder %<-fall-intrinsics%> einschalten, um es zu verwenden.Bei %C darf das am weitesten links stehende part-ref in einem data-ref keine Funktionsreferenz seinUntere Schranke für einen für Stack-Smashing-Protection betrachteten Puffer.Die Höchstzahl Reload-Pseudos, die beim Auslagern eines Nicht-Reload-Pseudos berücksichtigt werden.Höchstmenge des von GCSE zu belegenden Speichers, in Kilobyte.Die maximale Wachstumsrate der Codegröße bei der Erweiterung in eine Sprungtabelle (in Prozent). Der Parameter wird bei der Optimierung auf Größe verwendet.Die maximale Wachstumsrate der Codegröße bei der Erweiterung in eine Sprungtabelle (in Prozent). Der Parameter wird bei der Optimierung auf Geschwindigkeit verwendet.Höchste Verzögerung bei Konflikt, sodass Befehl für spekulative Bewegung in Betracht kommt.Die maximale Tiefe einer Schleifenschachtelung, die vollständig geschält wird.Die maximale Tiefe eines symbolischen Wertes, bevor der Wert als unbekannt approximiert wird.Die maximale Tiefe der explodierten Knoten, die in einem Dot-Dump erscheinen sollen, bevor auf ein weniger ausführliches Format umgeschaltet wird.Größte Tiefe mit rekursivem Inline für Inline-Funktionen.Größte Tiefe rekursiven Inlinens für Nicht-Inline-Funktionen.Der höchste Erweiterungsfaktor beim Kopieren von Basisblöcken.Die Höchstzahl der von CSE verarbeiteten Befehle vor dem Rücksetzen.Die maximale Länge eines konstanten Strings, um den eingebauten Stringvergleich zu inlinen. Vorgabewert ist 3.Größte Länge des betrachteten Pfades in CSE.Die Maximallänge der Liste der anhängigen geplanten Operationen.Höchstzahl der Speicherstellen, die von cselib aufgezeichnet werden.Die maximale Anzahl von »nach dem Superknoten« expandierten Knoten innerhalb des Analysierers pro Superknoten, bevor die Analyse abbricht.Höchstzahl der RTL-Knoten, die als letzte Werte des Kombinierers aufgezeichnet werden können.Die maximale Anzahl von SSA_NAME-Zuweisungen, die verfolgt werden, um einen Wert zu bestimmen.Die Höchstzahl der Versuche zur Rückverfolgung bei Modulo-Planung von Schleifen.Höchstzahl der für Zwischen-Block-Scheduling zu betrachtenden Blöcke in einer Region.Höchstzahl der Zweige auf dem Pfad durch die geschälte Sequenz.Die Höchstzahl der Einschränkungen pro Zustand.Die maximale Anzahl von expandierten Knoten pro Programmpunkt innerhalb des Analysierers, bevor die Analyse dieses Punkts abbricht.Höchstzahl der zu betrachtenden eingehenden Kanten für Kreuzsprung.Die maximale Anzahl der nicht durchführbaren Kanten, die zurückgewiesen werden, bevor eine Diagnose als nicht durchführbar erklärt wird.Höchstzahl von Befehlen, die »combine« zu kombinieren versucht.Höchstzahl der für Zwischen-Block-Scheduling zu betrachtenden Befehle in einer Region.Die Höchstzahl der Befehle im Schleifenkopf, die während der Schleifenkopfkopier-Phase dupliziert werden.Die Höchstzahl der Befehle einer vollständig geschälten Schleife.Die Höchstzahl der Befehle einer geschälten Schleife.Die Höchstzahl der Befehle einer ungeschalteten Schleife.Die Höchstzahl der zu vervielfältigenden Befehle, wenn berechnete Gotos expandiert werden.Die Höchstzahl der Befehle in einer einzelnen für »inline« geeigneten Funktion.Die Höchstzahl der in einer inneren Schleife zu betrachtenden Befehle für Versionierung.Die Höchstzahl der in einer äußeren Schleife zu betrachtenden Befehle für Versionierung, zusätzlich zu den Befehlen in inneren Schleifen.Die Höchstzahl der Befehle, bis zu der eine Inline-Funktion per Rekursion wachsen kann.Die Höchstzahl der Befehle, bis zu der eine Nicht-Inline-Funktion per Rekursion wachsen kann.Höchstzahl der vom Scheduler während der ersten Planphase fertig zur Ausführung zu betrachtenden Befehle.Die Höchstzahl der zu betrachtenden Befehle, um einen Verzögerungsschlitz zu füllen.Die Höchstzahl der zu betrachtenden Befehle, um richtige aktive Registerinformationen zu finden.Die Höchstzahl der zum Abrollen von Schleifen im Mittel zu betrachtenden Befehle.Die Höchstzahl der zum Abrollen von Schleifen zu betrachtenden Befehle.Höchstzahl der rückwärts zu suchenden Befehle, wenn nach äquivalentem Neuladen gesucht wird.Die Höchstzahl der Befehle für automatisches Inlinen von kleinen Funktionen.Die Höchstzahl der Befehle für automatisches Inlinen.Die Höchstzahl der Befehle für automatisches Inlinen beim Optimieren auf Codegröße.Höchstzahl der Iterationen durch CFG zur Regionserweiterung.Die Höchstzahl der Schleifendurchläufe, die statisch vorhergesagt werden.Die Höchstzahl von geschachteltem indirektem inlinen wurde bereits durch den frühen Inliner durchgeführt.Die Höchstzahl der Schälvorgänge einer einzelnen Schleife, die vollständig geschält wird.Die Höchstzahl der Schälvorgänge einer einzelnen Schleife.Die Höchstzahl der Anweisungen in geschachtelten Schleifen zum Schleifenaustausch.Die Höchstzahl, die eine Aufrufstelle in einem Aufrufstapel innerhalb des Analysierers vorkommen darf, bevor die Analyse abgebrochen wird, um zu tiefe Rekursion zu vermeiden.Die Höchstzahl der Iterationen zum Abrollen in einzelner Schleife.Die Höchstzahl der Abschaltungen in einer einzelnen Schleife.Maximales Verhältnis zwischen Arraygröße und Switch-Zweigen, bei dem eine Switch-Umwandlung erfolgt.Das maximale Verhältnis von Einfügungen zu Löschungen von Ausdrücken in GCSE.Maximale Größe des Vorgriffsfensters der wählbaren Planung.Kleinste voraussichtliche Beschleunigung, die dem Inliner erlaubt, inline-insns-single und inline-isnsns-auto zu ignorieren.Die Mindestwahrscheinlichkeit für spekulativen Erfolg (in Prozent), sodass spekulativer Befehl eingeplant wird.Kleinste UID für Nicht-Debug-Befehl.Die kleinste Schrittweite, ab der Software-Prefetch-Tipps produziert werden.Die Mindestkosten eines teuren Ausdrucks in der Schleifeninvariantenbewegung.Mindestanzahl der passenden zu betrachtenden Befehle für Kreuzsprung.Die Mindestzahl an Superknoten innerhalb einer Funktion, die vom Analysierer berücksichtigt wird, um die Auswirkungen an den Aufrufstellen zusammenzufassen.Kleinste Wahrscheinlichkeit einer Kante, sodass bei der Planung ihr Zustand gesichert wird.Die Mindestwahrscheinlichkeit für das Erreichen eines Quellblockes für spekulatives Zwischen-Block-Scheduling.Mindestgröße von Variablen, die sich Stapelspeicher teilen, wenn nicht optimiert wird.Das Mindestverhältnis der Schrittweiten, damit Schleifenaustausch profitabel ist.Der minimale Schwellwert für die Wahrscheinlichkeit, dass eine halbinvariante Bedingungsanweisung eine Schleifenteilung auslöst.Kleinster Wert der Stufenzahl, den der Swing-Modulo-Scheduler erzeugen wird.Das Feld %qs im Modul oder Hauptprogramm bei %L muss konstante Form habenDer Name %qs bei %C wurde bereits als ein externer Modulname verwendetDer Name %qs bei %C kann nicht als ein definierter Operator verwendet werdenDie Anzahl der Newton-Iterationen, um den reziproken Wert einer double-Gleitkommazahl zu berechnen. Die Genauigkeit der Division ist proportional zu diesem Parameter, wenn die angenäherte Division angeschaltet ist. Standardwert ist 2.Die Anzahl der Newton-Iterationen, um den reziproken Wert einer float-Gleitkommazahl zu berechnen. Die Genauigkeit der Division ist proportional zu diesem Parameter, wenn die angenäherte Division angeschaltet ist. Standardwert ist 1.Die Anzahl der Feldelemente des SUB-Arguments für IMAGE_INDEX bei %L muss %d (Korang) sein, nicht %dAnzahl der Zyklen, die der Swing-Modulo-Scheduler bei Konfliktprüfung mit DFA betrachtet.Die Anzahl der Elemente (%d) im Feldkonstruktor bei %L erfordert Erhöhung der erlaubten oberen Grenze %d. Siehe Option %<-fmax-array-constructor%>.Die Anzahl der Elemente, für die die Überprüfung der Hash-Tabelle für jedes gesuchte Element durchgeführt wird.Die Anzahl der Elemente im Feldkonstruktor bei %L erfordert Erhöhung der erlaubten oberen Grenze %d. Siehe Option %<-fmax-array-constructor%>Die Anzahl der Elemente im Feldkonstruktor bei %L erfordert Erhöhung der erlaubten oberen Grenze %d. Siehe Option %<-fmax-array-constructor%>Die Anzahl der Elemente im Feldkonstruktor bei %L erfordert Erhöhung der erlaubten oberen Grenze %d. Siehe Option %<-fmax-array-constructor%>Die Anzahl der Ausführungen eines Basisblocks, der als heiß angesehen wird. Dieser Parameter wird nur im GIMPLE-Frontend verwendet.Die Anzahl der ausgeführten Befehle, bevor Prefetch abgeschlossen ist.Die Anzahl der am häufigsten ausgeführten Promille der profilierten Ausführung des gesamten Programms, zu der die Ausführungszahl eines Basisblocks gehören muss, um als heiß zu gelten (im LTO-Modus verwendet).Die Anzahl der Prefetches, die gleichzeitig laufen können.Die Anzahl der Register in jeder Klasse, die von Schleifeninvariantenbewegung freigehalten werden.Das Objekt %qs bei %L hat aufgeschobenen LEN-Parameter %qs und ist weder allozierbar noch ein ZeigerDas Objekt %qs bei %L mit ASSUMED-Typparametern muss ein Dummy oder ein SELECT-TYPE-Selektor sein (F08/4.2)Der Parameterausdruck bei %C lässt sich nicht zu einer INTEGER-Konstante vereinfachenDer Parameterausdruck bei %C muss vom Typ INTEGER sein, nicht %sDer Pfad zu »devices.csv«. Im Normalfall kann der GCC-Treiber das selbst rausfinden und an den Compiler übermitteln, daher ist die Angabe eigentlich nicht nötig.Prozentsatz der Funktion, gewichtet nach Ausführungshäufigkeit, die bei Verfolgungsentwurf abgedeckt werden muss. Verwendet, wenn Profil-Rückmeldung verfügbar ist.Prozentsatz der Funktion, gewichtet nach Ausführungshäufigkeit, die bei Verfolgungsentwurf abgedeckt werden muss. Verwendet, wenn Profil-Rückmeldung nicht verfügbar ist.Das Zeigerobjekt %qs bei %L muss eine explizite Funktionsschnittstelle haben oder als Feld deklariert seinMögliche SVE-Vektorlängen:Mögliche TLS-Dialekte:Der Rang des Elements im Strukturkonstruktor bei %L passt nicht zu dem der Komponente (%d/%d)Die Datei mit den Auflösungen.Die Skalierung (in Prozent), die auf inline-insns-single und Auto-Limits angewendet wird, wenn die Heuristik darauf hinweist, dass Inlining sehr profitabel ist.Die Größe einer L1-Cacheline.Die Größe des L1-Caches.Die Größe des L2-Caches.Die Größe eines als groß angesehenen Funktionskörpers.Die Größe eines als groß angesehenen Stapelrahmens.Die Größe einer Übersetzungseinheit, ab der der IPA-CP-Durchlauf sie als groß ansieht.Die Größe einer als groß angesehenen Übersetzungseinheit.Kleinste Zahl unterschiedlicher Werte, für die eine Sprungtabelle besser als ein Baum bedingter Sprünge ist; bei 0 wird der Standard für die Zielarchitektur verwendet.Der Quellausdruck bei %L darf weder vom Typ EVENT_TYPE sein noch eine EVENT_TYPE-Komponente haben, wenn ALLOCATE-Objekt bei %L ein Koarray istDer Quellausdruck bei %L darf weder vom Typ LOCK_TYPE sein noch eine LOCK_TYPE-Komponente haben, wenn ALLOCATE-Objekt bei %L ein Koarray istDas Argument »stat=« bei %L muss INTEGER-Variable mit »kind=4« seinDas bei %2$L referenzierte Symbol %1$qs ist nicht im gewählten Standard vorhandenDer Schwellwert-Anteil für die Ausführung partieller Redundanzbeseitigung nach dem Neuladen.Der Schwellwert-Anteil des Ausführungszählers kritischer Kanten, die Redundanzbeseitigung nach dem Neuladen erlauben.Der Typ %qs bei %L darf nicht mit Wirt verbunden sein, da er von unverträglichem bei %L definierten Objekt mit gleichem Namen blockiert wirdDer Typ für Funktion %qs bei %L ist nicht zugreifbarDie Typparameter-Angabenliste bei %C kann nicht gleichzeitig ASSUMED- und DEFERRED-Parameter enthaltenDie Typparameter-Angabenliste bei %C enthält zu viele ParameterausdrückeDie Typparameter-Angabenliste bei %C enthält nicht genug ParameterausdrückeDie Spezifikationsliste für Typparameter in der Spezifikation bei %L darf keine DEFERRED-Parameter enthaltenDie Typspezifikation bei %L muss angeben, dass jeder Parameter mit Längentyp vermutet istTypspezifikation darf keinen Sequenz-abgeleiteten Typ oder Typ mit BIND-Attribut in SELECT TYPE bei %C beschreiben [F2003:C815]Obere Schranke zum gemeinsamen Verwenden von Ganzzahlkonstanten.Die obere Schranke in der letzten Dimension muss in der Referenz auf das Feld %qs vermuteter Größe bei %L auftretenDer Wert für den KIND-Parameter %qs bei %C lässt sich nicht auf einen konstanten Ausdruck reduzierenDer Wert von n in %<-finit-character=n%> muss zwischen 0 und 127 liegenDer Wert des Parameters PDT LEN »%s« stimmt nicht mit dem in der Dummy-Deklaration übereinDer Wert des SELECT-RANK-CASE-Ausdrucks bei %C darf nicht kleiner als Null oder größer als %d seinDie Version der C++-ABI, die verwendet wird.Die Version der C++-ABI, die für »-Wabi«-Warnungen und Bindungskompatibilitätsaliase verwendet wird.Es gibt bereits eine Prozedur mit Bindungsname %qs für den abgeleiteten Typ %qs bei %CEs gibt keine spezifische Funktion für das allgemeine %qs bei %LEs gibt kein spezifisches Unterprogramm für allgemeines %qs bei %LEs gibt bereits eine nicht-generische Prozedur mit Bindungsname %qs für den abgeleiteten Typ %qs bei %CDies ist freie Software; die Kopierbedingungen stehen in den Quellen. Es
gibt KEINE Garantie; auch nicht für MARKTGÄNGIGKEIT oder FÜR SPEZIELLE ZWECKE.

Dies ist der Vorgabewert.Dieser Schalter ist veraltet und hat keine Auswirkung.Diese Option wird ignoriert; sie wird nur zu Kompatibilitätszwecken bereitgestellt. Sie diente zur Auswahl von Linker- und Präprozessor-Optionen für die Verwendung mit der newlib.Diese Option ist undokumentiert.Dieser Schalter ist veraltet; nicht verwenden.Dieser Schalter ist veraltet; stattdessen -Werror=implicit-function-declaration verwenden.Dieser Schalter ist veraltet; stattdessen -Wextra verwenden.Dieser Schalter ist veraltet; stattdessen -fsanitize-recover= verwenden.Thread-Modell: %s
Threadprivate bei %L ist nicht SAVEdThreadprivate Variable bei %C ist ein Element eines COMMON-BlocksSchwellwert für Auswertung der Möglichkeit von IPA-CP, der noch als vorteilhaft zum Kopieren betrachtet wird.Thumb-1 Hardware-Gleitkomma VFP ABIThumb: Annehmen, dass Funktionszeiger an Code übergeben werden können, der nichts von Thumb weiß.Thumb: Annehmen, dass nichtstatische Funktionen von ARM-Code aus aufgerufen werden können.Thumb: (Blatt-)Stapelrahmen erzeugen, auch wenn nicht erforderlich.Thumb: (Nicht-Blatt-)Stapelrahmen erzeugen, auch wenn nicht erforderlich.Interner Fehler: Thunk is not supposed to have bodyGekachelte Schleife bei %L kann nicht über Gangs, Worker oder Vektoren übergreifend parallelisiert werdenZeit, die für Funktionsprolog, -Epilog und sonstigen Overhead veranschlagt wird.Zeit, die für Thunk-Overhead in Funktionen veranschlagt wird.Zum Einschalten der Vorverarbeitung %<-cpp%> verwenden-fvar-tracking-assignments umschalten.Erzeugung von Fehlersuchinformationen umschalten.Zu wenige Codimensionen bei %C, %d statt %d erwartetZu wenige Scheinargumente in DTIO-Prozedur %qs bei %LZu viele Argumente in Aufruf von %qs bei %LZu viele Argumente für %s bei %LZu viele Codimensionen bei %C, %d statt %d erwartetZu viele Komponenten in Strukturkonstruktor bei %LZu viele Ziffern in Anweisungsmarke bei %CZu viele Scheinargumente in DTIO-Prozedur %qs bei %LZu viele Elemente in Feldinitialisierung bei %CBedingte Speicherbefehle in unbedingte umwandeln.Transformierende Funktion %qs bei %L darf nicht in einem Initialisierungs-Ausdruck auftretenInterner Fehler: Transparent alias and target%'s assembler names differsVorzeichenbehafteten Überlauf in Addition, Subtraktion und Multiplikation abfangen (»trap«).Ganzzahldivision durch Null abfangen.Um Codegröße zu verbessern, eine throw()-Ausnahmespezifikation als »noexcept« behandeln.Alle Warnungen als Fehler behandeln.Datenreferenzen als near, far oder medium behandeln. Standard ist medium.Ganzzahlen als 32 Bit behandeln.Bekannte sprintf-Rückgabewerte als Konstanten behandeln.Zeilen mit »D« in Spalte eins als Kommentar behandeln.»main« so behandeln, als hätte sie das Attribut OS_task.Fehlende Header-Dateien als generierte Dateien behandeln.Vorzeichenbehafteten Überlauf als undefiniertes Verhalten behandeln. Wird mit -fwrapv -fwrapv-pointer negiert.Angegebene Warnung als Fehler behandeln.Die Eingabedatei als bereits vorverarbeitet behandeln.Bei den booleschen Kurzschluss-Operatoren && und || beide Seiten auswerten, wenn das nebenwirkungsfrei zu besserem Code führt.»%s« in der Shell könnte diese Beschränkung erhöhen.
Dem Linker erlauben, PIC-Aufrufe in direkte Aufrufe umzuwandeln.Versuchen, virtuelle Sprünge in direkte umzuwandeln.Versuchen, Schleifen zu tauschen, wenn es nützt.Versuchen, abgeleitete Typen so kompakt wie möglich anzuordnen.Code für angegebenen Prozessor optimieren.Die erwartete Speicher-Wartezeit abstimmen.Für angegebene Ziel-CPU oder Architektur optimieren.Alle Diagnosefunktionen deaktivieren, die die Ausgabe verkomplizieren, wie Zeilennummern, Farbe und Warn-URLs.Aktiviert CET-Instrumentierung für solche switch-Anweisungen, die Sprungtabellen und indirekte Sprünge verwenden.Durchlauf für Redundante Erweiterungsentfernung (REE) einschalten.Registerbelegung feinkalibrieren, um 16-Bit-Befehle zu generieren.Zwei Haupt-PROGRAMme bei %L und %CZwei oder mehr Teilreferenzen mit Rang größer Null dürfen nicht bei %L angegeben werdenInterner Fehler: Two symbols with same comdat_group are not linked by the same_comdat_group list.Typ %qs mit DEFERRED-Bindung bei %C ist nicht ABSTRACTTyp %qs der CLASS-Variable %qs bei %L ist nicht erweiterbarTypdeklaration %qs bei %L ist nicht C-kompatibel, aber sie ist BIND(C)Typdefinition von %qs bei %C wurde bereits bei %L definiertTyp nicht zugreifbar in Variablen-Definitionskontext (%s) bei %LUnverträgliche Typen zwischen Argument bei %L und Argument bei %L (%s/%s).Unpassender Typ in Argument %qs bei %L; %s wurde an %s übergebenTypname %qs bei %C kann nicht der gleiche wie ein intrinsischer Typ seinTypname %qs bei %C in Konflikt mit vorher deklarierter Entität bei %L, die den gleichen Namen hatTypname %qs bei %C ist mehrdeutigTyp der Entität bei %L ist mit Quellausdruck bei %L typunverträglichTyp der Entität bei %L ist mit Typspezifikation unverträglichTypparameter %qs bei %C hat keinen zugehörigen Eintrag in der Typparameter-Namensliste bei %LFür intrinsische Funktion %qs angegebener Typ bei %L wird ignoriertTypgebundener Operator bei %L kann nicht NOPASS seinTypgebundene Prozedur bei %CTypspezifikation bei %L kann keine Parameter mit aufgeschobenem Typ habenTypspezifikation bei %L darf kein Sternchen für einen Typparameter enthaltenBei %L wurde kein UNIT angegebenUNIT-Zahl in CLOSE-Anweisung bei %L muss nicht-negativ seinUNIT-Zahl in INQUIRE-Anweisung bei %L darf nicht %d seinUNIT-Zahl in Anweisung bei %L muss nicht-negativ seinFehlende UNIT-Zahl in Anweisung bei %LUNIT-Spezifikation bei %L muss ein INTEGER-Ausdruck oder eine CHARACTER-Variable seinUNIT-Spezifikation bei %L darf kein Zeichen-PARAMETER seinUNIT-Spezifizierer mit NEWUNIT bei %L nicht erlaubtUNLOCK-Anweisung bei %CArgument UNTIL_COUNT= bei %L muss ein skalarer INTEGER-Ausdruck seinUSE-Anweisung bei %C hat keinen ONLY-QualifiziererSpezifische INTRINSIC-Prozedur für Referenz %qs bei %L kann nicht gefunden werdenSymbol %qs kann nicht gefunden werdenLade-/Speicheroffset für Fusion kann nicht generiert werdenSpezifische Funktion %qs bei %L kann nicht aufgelöst werdenSpezifisches Unterprogramm %qs bei %L kann nicht aufgelöst werdenNicht klassifizierbare GCC-Anweisung bei %CNicht klassifizierbare GCC-Direktive bei %C, wird ignoriertNicht klassifizierbare OpenACC-Anweisung bei %CNicht klassifizierbare OpenMP-Anweisung bei %CNicht klassifizierbare Anweisung bei %CUndefinierte spezifische Bindung %qs als Ziel des GENERIC %qs bei %LUnter -ffast-math einen FRIZ-Befehl für (double)(long long)-Umwandlungen erzeugen.Unter der Kontrolle des Object-Size-Typs warnen, wenn Pufferüberläufe in Stringmanipulationsfunktionen wie memcpy und strcpy auftreten.Ungleiche Zeichenlängen (%ld/%ld) in %sUngleiche Zeichenlängen (%ld, %ld) in %s bei %LUnerwartetes !$OMP SCAN bei %L außerhalb eines Schleifenkonstrukts mit %<inscan%>-REDUCTION-KlauselUnerwartetes %<%c%> für Variable %qs nicht-abgeleiteten Typs bei %CUnerwartetes %<*%> für Codimension %d von %d bei %CUnerwartetes %<*%> in Coarray-Index bei %CUnerwartete Anweisung %s bei %CUnerwartete Anweisung %s bei %C in INTERFACE-KörperUnerwartete Anweisung %s in BLOCK DATA bei %CUnerwartete Anweisung %s in CONTAINS-Abschnitt bei %CUnerwartete Anweisung %s in FORALL-Block bei %CUnerwartete Anweisung %s in INTERFACE-Block bei %CUnerwartete Anweisung %s in MODULE bei %CUnerwartete Anweisung %s in WHERE-Block bei %CUnerwartete CASE-Anweisung bei %CUnerwartetes DIM-Argument mit Nicht-COARRAY-Argument bei %LUnerwartete END-Anweisung bei %CUnerwartete ENTRY-Anweisung bei %CUnerwartetes EOFUnerwartetes intrinsisches NULL() bei %L für Schein-%qsUnerwarteter OpenACC-Parallelismus.Unerwartete RANK-Anweisung bei %CUnerwartetes SHAPE-Argument bei %L für C_F_POINTER mit skalarem FPTRUnerwartete TYPE IS-Anweisung bei %CUnerwartete alternative Rückgabespezifikation in Unterprogrammaufruf bei %LUnerwartetes Zeichen in Variablenliste bei %CUnerwartete Zeichen in PARAMETER-Anweisung bei %CUnerwarteter Coarray-Bezeichner bei %CUnerwarteter Verweis auf »complex-parts designator« in »%s«-Klausel bei %LUnerwartete Konstante bei %CUnerwartete Entitäten mit abgeleitetem Typ im binären intrinsischen numerischen Operator %%<%s%%> bei %%LUnerwartetes Element %qc in Formatzeichenkette bei %LUnerwartetes Dateiende in %qsUnerwartetes Ende der Formatzeichenkette bei %LUnerwartetes ModulendeUnerwarteter intrinsischer Typ %qs bei %LUnerwarteter Ausschuss hinter »!$ACC ATOMIC«-Anweisung bei %CUnerwarteter Ausschuss hinter »!$ACC DECLARE« bei %CUnerwarteter Ausschuss hinter »!$OMP DECLARE REDUCTION« bei %CUnerwarteter Ausschuss hinter »!$OMP DECLARE TARGET« bei %CUnerwarteter Ausschuss hinter !$OMP SCAN bei %CUnerwarteter Ausschuss hinter $OMP BARRIER-Anweisung bei %CUnerwarteter Ausschuss hinter »$OMP CANCELLATION POINT«-Anweisung bei %CUnerwarteter Ausschuss hinter $OMP CRITICAL-Anweisung bei %CUnerwarteter Ausschuss inter $OMP FLUSH-Anweisung bei %CUnerwarteter Ausschuss hinter $OMP MASTER-Anweisung bei %CUnerwarteter Ausschuss hinter $OMP WORKSHARE-Anweisung bei %CUnerwarteter Ausschuss hinter %qs bei %LUnerwarteter Ausschuss hinter NOWAIT-Klausel bei %CUnerwarteter Ausschuss hinter »OMP THREADPRIVATE« bei %CUnerwarteter Ausschuss hinter TASKWAIT-Klausel bei %CUnerwarteter Ausschuss hinter TASKYIELD-Klausel bei %CUnerwartete Angaben hinter Funktionsdeklaration bei %CUnerwartete Zeichen bei %CUnerwartete Angaben in formaler Argumentliste bei %CUnerwarteter Verweis auf Teilzeichenkette in %s-Klausel bei %LUnexpected thumb1 far jumpUnerwartete Verwendung des Unterprogrammnamens %qs bei %CInterner Fehler: Uninitialized probability of edge %i->%iEinheitszahl in E/A-Anweisung zu großEinheitszahl in E/A-Anweisung zu kleinUnbekanntes Argument %qs bei %L für intrinsisches %sUnbekannte Argumentlistenfunktion bei %LUnbekanntes Attribut in !GCC$ ATTRIBUTES-Anweisung bei %CUnbekannte Form für Ausdruck für StapelgrenzeUnbekannte eingebauter OperatorUnbekannter Operator %%<%s%%> bei %%LUnbekannter Operator %%<%s%%> bei %%L; meinten Sie »%s«?Unbekannter Prozedurname %qs bei %CUnbeschränkt polymorphes ALLOCATE-Objekt bei %L erfordert entweder eine Typspezifikation, SOURCE-Marke oder MOLD-MarkeUnbekannter MCU-Name %qs, daher wird angenommen, dass er keine Hardware-Multiplikation kann.
Verwenden Sie die Option %<-mhwmult%>, um diese explizit einzustellen.Unbekannter MCU-Name %qs, daher wird angenommen, dass es ein MSP430X ohne Hardware-Multiplikation ist.
Verwenden Sie die Optionen %<-mcpu%> und %<-mhwmult%>, um diese explizit einzustellen.Unbekannter MCU-Name %qs, daher wird angenommen, dass er lediglich das MSP430X-ISA unterstützt.
Verwenden Sie die Option %<-mcpu%>, um dieses explizit einzustellen.Unbekannter MCU-Name %qs.Unbekannte Option für %<-finit-logical%>: %sUnbekannte Option für Endianess-Wert: %qsUnbekannte Option für Gleitkomma-Initialisierungswert: %qsUnbekannte Option %qsCode »%c« für Festkomma nicht unterstützt:Operand für Code »%c« nicht unterstütztNicht unterstützte Anweisung in WHERE bei %LNicht unterstützter Wert für »-mmpy-option«Mehrfache Parallelismus-Stufen in OpenACC-Routinen werden nicht unterstütztUnbeendete Zeichenkonstante beginnend bei %CUngenutzte PRIVATE-Variable %qs bei %L deklariertUngenutztes Dummyargument %qs bei %LUnbenutzte Initialisierungszeichenkette bei %L, da die Variable die Länge 0 hatUngenutzte Modulvariable »%qs«, die bei %L ausdrücklich importiert wurdeUngenutzter Parameter %qs, bei %L deklariertUngenutzter Parameter %qs, der bei %L ausdrücklich importiert wurdeUngenutzte Variable %qs, bei %L deklariertObere Feldreferenz bei %L ist außerhalb der Schranken (%ld < %ld) in Dimension %dObere Feldreferenz bei %L ist außerhalb der Schranken (%ld > %ld) in Dimension %dObere Grenze der letzten Coarray-Dimension muss %<*%> sein, bei %CObere Kogrenze ist kleiner als untere Kogrenze bei %LObere Kogrenze ist kleiner als untere Kogrenze von 1 bei %LAufruf: %s [Option]… <Teilbefehl> [Option]…

Aufruf: %s [Optionen] Datei...
Aufruf: gcov [OPTION]... QUELLE|OBJ...

»-Wa,OPTION« verwenden, um »OPTION« an den Assembler zu übergeben.

»-Wl,OPTION« verwenden, um »OPTION« an den Linker zu übergeben.

%reloc()-Operatoren statt Assemblermakros verwenden, um Adressen zu laden.-G für Daten verwenden, die nicht von aktuellem Objekt definiert wurden.-G für objekt-lokale Daten verwenden.Verwenden Sie »-mlong-double-64« für das 64-Bit-IEEE-Gleitkommazahlen-Format. Verwenden Sie »-mlong-double-128« für das 128-Bit-Gleitkommazahlen-Format (entweder IEEE oder IBM).128-Bit-AVX-Befehle statt 256-Bit-AVX-Befehlen in Auto-Vektorisierer verwenden.128-bit long double verwenden.16-Bit int verwenden.32-Bit int verwenden.32-Bit-ABI verwenden.Wenn DWARF-Debuginformationen erzeugt werden, dann im 32-Bit-Format.32-Bit-Gleitkommaregister verwenden.Allgemeine Register in 32 Bit Breite verwenden.In Sprungtabellen 32-Bit-Offsets statt 16-Bit-Offsets verwenden.4-Byte-Einträge in switch-Tabellen verwenden.4 Medien-Register verwenden.Die 4-Operanden-Befehle madd.s/madd.d und ähnliche verwenden, wo möglich.4xx-Halbwort-Multiplikationsbefehle verwenden.4xx-dlmzb-Befehl zur Zeichenkettensuche verwenden.64 FPRs verwenden.64 GPRs verwenden.64-Bit-ABI verwenden.Wenn DWARF-Debuginformationen erzeugt werden, dann im 64-Bit-Format.64-Bit-Gleitkommaregister verwenden.Allgemeine Register in 64 Bit Breite verwenden.64-bit long double verwenden.8 Medien-Register verwenden.80-bit long double verwenden.ABI-reservierte Register verwenden.AltiVec-Befehle verwenden.Bionic-C-Bibliothek verwenden.»Branch Likely«-Befehle verwenden, Standard für die Architektur überschreiben.CONST16-Befehle zum Laden von Konstanten verwenden.Befehle für Zyklische Redundanzprüfung (CRC) verwenden.EABI verwenden.Befehle zur Erweiterten Virtuellen Adressierung verwenden.Hardware-Gleitkommabefehle für Multiplikation von einfacher auf doppelte Genauigkeit (FsMULd) verwenden.Die GNU-C-Bibliothek verwenden.Abschnitte sdata/sbss relativ zum GP verwenden.GP-relative Adressierung verwenden, auf um kleine Daten zuzugreifen.Befehle für Globales INValidieren (GINV) verwenden.H8/300-Ausrichtungsregeln verwenden.IEEE-Arithmetik für Gleitkommavergleiche verwenden.IRA-basierte Registerdruckberechnungen in RTL-Optimierungen zum Anheben verwenden.IRA-basierte Registerdruckberechnungen in RTL-Schleifenoptimierungen verwenden.Befehle aus ISA 2.07 Category:Vector.AES und Category:Vector.SHA2 verwenden.Befehle aus ISA 2.07 für transaktionalen Speicher (HTM) verwenden.LRA statt Neuladen verwenden (übergangsweise).LRA statt »reload« verwenden.LRA-Registerallozierer verwenden.Loongson-Erweiterungsbefehle (EXT) verwenden.Loongson-Erweiterungsbefehle R2 (EXT2) verwenden.Loongson-MultiMedia-Erweiterungsbefehle (MMI) verwenden.MCU-Befehle verwenden.Befehle der MIPS-MSA-Erweiterung verwenden.MIPS-3D-Befehle verwenden.MIPS-DSP-Befehle REV 2 verwenden.MIPS-DSP-Befehle verwenden.Mingw-spezifische Thread-Unterstützung verwenden.Neon-Double-Word (statt Quad-Word) Register für Vektorisierung verwenden.Neon-Quad-Word (statt Double-Word) Register für Vektorisierung verwenden.%reloc()-Assembleroperatoren im NewABI-Stil verwenden.P-Mnemonics für statisch als verfolgt vorhergesehene Zweige verwenden.PLT für PIC-Aufrufe verwenden (-fno-plt: die Adresse beim Aufrufer aus der GOT laden).»mad«-Befehle im PMC-Stil verwenden.Optionale Befehle der PowerPC-Mehrzweck-Gruppe verwenden.Optionale Befehle der PowerPC-Grafik-Gruppe verwenden.Einzelfeld-mfcr-Befehl des PowerPC V2.01 verwenden.PowerPC V2.02 Gleitkomma-Rundungsbefehle verwenden.PowerPC V2.02 popcntb-Befehl verwenden.PowerPC V2.05 Bytevergleichs-Befehl verwenden.PowerPC V2.06 popcntd-Befehl verwenden.PowerPC-64-Befehlssatz verwenden.RJMP/RCALL verwenden, selbst wenn CALL/JMP verfügbar sind.ROM statt RAM verwenden.SSE-Register-Übergabekonventionen für SF- und DF-Modus verwenden.STB_GNU_UNIQUE verwenden, sofern der Assembler es unterstützt.SmartMIPS-Befehle verwenden.UNIX-Assemblersyntax verwenden.Vergleich-und-Sprung-Erweiterungen für UltraSPARC verwenden.Multiplizier-Addier-Erweiterungen für UltraSPARC verwenden.Bitzähl-Befehl für UltraSPARC verwenden.Befehl für erweitertes Subtrahieren mit Übertrag für UltraSPARC verwenden.Visuelle Befehlssatzerweiterungen Version 1.0 für UltraSPARC verwenden.Visuelle Befehlssatzerweiterungen Version 2.0 für UltraSPARC verwenden.Visuelle Befehlssatzerweiterungen Version 3.0 für UltraSPARC verwenden.Visuelle Befehlssatzerweiterungen Version 4.0 für UltraSPARC verwenden.VAX-FP verwenden.VAXC-Strukturkonventionen verwenden.Exitcodes von VMS statt POSIX verwenden.Virtualisierungsbefehle (VZ) verwenden.__cxa_atexit verwenden, um Destruktoren zu registrieren.__cxa_get_exception_ptr in Ausnahmebehandlung verwenden.Einen 32-Bit-»long«-Typ verwenden.Eine 4-Byte-Datensatzmarkierung für unformatierte Dateien verwenden.Einen 64-Bit-»long«-Typ verwenden.Leichtgewichtige Konfiguration für printf und puts verwenden, um die Codegröße zu reduzieren. Nur für Anwendungen mit einem Thread, die keine reentrante E/A brauchen. Erfordert Newlib Nano IO.Minimale Laufzeitumgebung (keine statischen Initialisierer oder Konstruktoren) für speicherarme Geräte verwenden.Eine schlaue Stapelschutzmethode für gewisse Funktionen verwenden.Eine Stapelschutzmethode für jede Funktion verwenden.Zusätzliche VIS-Befehle verwenden, die in OSA2017 hinzugefügt wurden.Adressen verwenden, die globale Register belegen.Alle Register verwenden, dadurch keine für Interrupthandler reservieren.Alternative Registernamen verwenden.8-Bit-»int«-Typ verwenden.Eine 8-Byte-Datensatzmarkierung für unformatierte Dateien verwenden.Einen konstanten Wert als Offset vom Stapelschutz-Wächterregister verwenden, sp_el0. Diese Option ist für fstack-protector-strong gedacht und nicht für die Verwendung in Benutzer-Code.Direktwerte beliebiger Größen in Bit-Operationen zulassen.Big-Endian Byte-Reihenfolge verwenden.Bittests für hinreichend große switch-Anweisungen verwenden.Sprung-und-Abbruch-Sequenzen verwenden, um auf Ganzzahldivision durch Null zu prüfen.Verzweigungsschutz-Features verwenden.Für ausführbare Datei < 64k bras verwenden.Mit Aufruf verbundene Register für Parameter und Rückgabewerte verwenden.call0-ABI verwenden.Rückruffunktionen statt inline-Code generieren, wenn innerhalb der Funktion mindestens diese Anzahl an Zugriffen stattfindet.Vom Aufrufer zu sichernde Register über Aufrufe hinweg verwenden, wenn möglich.Bestimmte skalare Befehle verwenden, die in ISA 3.0 hinzugefügt wurden.Steuerungsspekulation verwenden.Eigene Stacks statt lokalem Speicher für automatischen Speicher verwenden.Datenspekulation nach Neuladen verwenden.Datenspekulation vor Neuladen verwenden.Dezimale Gleitkommabefehle verwenden.Standardmethode für sdata-Behandlung verwenden.Andere Aufrufkonvention mit 'RTD' verwenden.Direkt vergiftende/entgiftende Befehle für Variablen verwenden, die maximal die angegebene Größe haben.Direkte Referenzen gegen %gs beim Zugriff auf TLS-Daten verwenden.Befehle für Erweiterte Physikalische Adresse (XPA) verwenden.Epsilon beachtende Gleitkomma-Vergleichsbefehle verwenden.Profile von Ausdruckswerten in Optimierungen verwenden.Die f2c-Aufrufkonvention verwenden.Eigenschaften der angegebenen CPU verwenden und dafür optimieren.Eigenschaften der gegebenen CPU verwenden und entsprechend Code planen.Für angegebene CPU planen und deren Eigenschaften verwenden.Eigenschaften der Architektur ARCH verwenden.Flaches Registerfenster-Modell verwenden.Gleitkomma-double-Befehle verwenden.FP-Register verwenden.Vollständigen Registersatz für die Allozierung verwenden.Gegebenes SPARC-V9-Codemodell verwenden.Gegebenes Codemodell TILE-Gx verwenden.Angegebenen Adressierungsmodus verwenden.Angegebenen Assemblerdialekt verwenden.Im Autovektorisierer die angegebene Breite für Vektorbefehle anstelle der maximalen Registerbreite verwenden.Angegebenen Stapelschutz-Wächter verwenden.Gegebenen Thread-lokalen Speicherdialekt verwenden.Gegebenes x86-64-Codemodell verwenden.Hardware-Gleitkommabefehle verwenden (Standard).Hardware-Gleitkommabefehle verwenden.Hardware-Divisionsbefehle auf ColdFire verwenden.Hardware-Gleitkommakonvertierungsbefehle verwenden.Hardware-Gleitkommabefehle verwenden.Hardware-Gleitkomma-Wurzel-Befehl verwenden.Hardware-Gleitkommabefehle verwenden.Hardware-Gleitkommabefehle für Division und Quadratwurzel verwenden.Hardware-Gleitkommabefehle verwenden.Hardwarebefehle für Ganzzahldivision verwenden.Hardware-»prefetch«-Befehle verwenden.Hardware-Vierfach-Gleitkommabefehle verwenden.Hardware-Transaktionsausführungs-Befehle verwenden.Hardware-Vektorbefehle verwenden und die Vektor-ABI einschalten.Blockweise Steuerungsspekulation verwenden.Blockweise Datenspekulation nach Neuladen verwenden.Blockweise Datenspekulation vor Neuladen verwenden.Registernamen der Form in/loc/out ausgeben.Indirekte CALLXn-Befehle für große Programme verwenden.Indirekte Aufrufe verwenden.Inline-PLT-Sequenzen verwenden, um lange Aufrufe und -fno-plt zu implementieren.Befehlssatz der angegebenen CPU verwenden und entsprechend Code planen.Befehle zum Multiplizieren-Addieren/Subtrahieren verwenden.Interne Funktions-ID bei Profilnachschlagen verwenden.Sprungtabellen für hinreichend große switch-Anweisungen verwenden.Kohärente Cachesteuerungs-Hinweise für ldcw/ldcd verwenden.Stubs aus libgcc zum Speichern und Wiederherstellen von Registern verwenden, die beim Übergang von der 64-Bit-Microsoft- zur System-V-ABI überschrieben werden.Little-Endian Byte-Reihenfolge verwenden.Befehle ll, sc und sync verwenden.Die Befehle lwxc1/swxc1/ldxc1/sdxc1 verwenden, wo möglich.Media-Befehle verwenden.microMIPS-Befehle verwenden.Befehle zum Multiplizieren-Addieren/Subtrahieren verwenden.Verwendet »multiply high«-Befehle für den oberen Teil einer 32×32-Multiplikation.Die musl-C-Bibliothek verwenden.Native MS-Bitfeld-Anordnung verwenden.Neue adddi3/subdi3-Muster verwenden.Normale Aufrufkonvention verwenden.Verwendung des intrinsischen Moduls %qs bei %C steht mit nicht-intrinsischem vorher verwendeten Modulnamen in KonfliktVerwendung des nicht-intrinsischen Moduls %qs bei %C steht mit vorher verwendetem intrinsischen Modulnamen in KonfliktVerwendung der Konstante NUMERIC_STORAGE_SIZE aus intrinsischem Modul ISO_FORTRAN_ENV bei %C ist mit Option %s unverträglichVerwendung der Konstante NUMERIC_STORAGE_SIZE aus intrinsischem Modul ISO_FORTRAN_ENV bei %L ist mit Option %qs unverträglichNur einen TOC-Eintrag pro Prozedur verwenden.Gewöhnlich gecachete Speicherzugriffe für flüchtige Referenzen verwenden.Gepacktes Stapellayout verwenden.Paarweise-single Gleitkommabefehle verwenden.Mustervergleichsbefehle verwenden.PC-relative switch-Tabellen verwenden – dies erlaubt kürzere Fallunterscheidungs-Tabellen.Portierbare Aufrufkonventionen verwenden.Profilierungsinformationen für Verzweigungswahrscheinlichkeiten verwenden.Propolice als Stapelschutzmethode verwenden.Push-Befehle verwenden, um ausgehende Argumente zu sichern.Register r11 verwenden, um die statische Bindung in Funktionsaufrufen über Zeiger zu speichern.Zufällige Basisadresse für jeden Rahmen wählen, statt immer 0 zu verwenden.Rote Zone in x86-64-Code verwenden.Eingeschränkten Registersatz für die Allozierung verwenden.Registerstapel für Parameter und Rückgabewerte verwenden.Register zur Argumentübergabe verwenden.Register r2 und r5 verwenden.Umverteilungsbefehle verwenden (Austausch und umgekehrte Bytereihenfolge beim Laden/Speichern; Voreinstellung).Profilierungsinformationen für Aufrufgraph-Knotengewichtungen verwenden. Vorgabe ist die Datei fbdata.afdo im aktuellen Arbeitsverzeichnis.Profilierungsinformationen für Aufrufgraph-Knotengewichtungen verwenden. Die Profilierungsdatei ist im Argument angegeben.Shared Libraries verwenden.Einfachen Datenspekulationstest für Steuerungsspekulation verwenden.Einfachen Datenspekulationstest verwenden.Simulator-Laufzeitumgebung verwenden.Kleineren, aber langsameren Code für Funktionsprologe und -epiloge verwenden.Software-Gleitkomma-Emulation verwenden (Standard).Software-Gleitkommavergleiche verwenden.Software-Gleitkomma verwenden.Stapelversatz verwenden.Stapelschutzmethode nur für Funktionen mit dem Attribut »stack_protect« verwenden.Structs an stärkeren Grenzen ausrichten, um Daten doppelwortweise zu kopieren.Stubs für Funktionsprologe verwenden.Für Funktionsprologe und -epiloge Unterprogramme verwenden.synci-Befehl verwenden, um i-Cache ungültig zu machen.Tabellenbasierte schnelle Division verwenden (Standard bei -O3).Tabellenbasierte Optimierung für die Division kleiner vorzeichenbehafteter Ganzzahlen verwenden.Befehl tas.b für __atomic_test_and_set verwenden.Die AIX-Vector-Extended-ABI verwenden.Die AltiVec-ABI-Erweiterungen verwenden.Die Cray-Zeiger-Erweiterung verwenden.DEC-Assemblersyntax verwenden.ELFv1-ABI verwenden.ELFv2-ABI verwenden.GNU-Assemblersyntax verwenden.GNU-Erweiterung für PE-Format für ausgerichtete gemeinsame Daten verwenden.Den RTL-Durchlauf zur Entfernung toten Codes verwenden.Den RTL-Durchlauf zur Entfernung toter Speicherungen verwenden.BFD-Linker statt Standardlinker verwenden.Bit-Feld-Befehle verwenden.Divisionsbefehl verwenden.Gleitkommaeinheit für Ganzzahladdition und -subtraktion verwenden.Angegebenes Basisregister zur Adressierung des Stapelschutz-Wächters verwenden.Die angegebene Datenausrichtung verwenden.Angegebenen Offset zur Addressierung des Stapelschutz-Wächters verwenden.Angegebenes Symbol für Adressierung des Stapelschutz-Wächters verwenden.Gold-Linker statt Standardlinker verwenden.Hardware-Barrel-Shifter statt der Emulation verwenden.Den LLVM-lld-Linker statt des Standardlinkers verwenden.Die meisten Optionen verwenden, die spezielle Fähigkeiten einschalten, solange sie durch andere Optionen erlaubt sind.Für Blockkopieroperationen den Befehl mvcle verwenden.Den schmalstmöglichen Ganzzahltyp für Aufzählungstypen verwenden.Min-/Max-Befehle verwenden, die in ISA 3.0 hinzugefügt wurden.Simulator-Laufzeitumgebung verwenden.Verwendet die Software-Multiplikationsemulation (Vorgabe).Softwareemulation für Divisionen verwenden (Vorgabe).Das in der Kommandozeile angegebene Systemregister als Stapelschutz-Wächterregister verwenden. Diese Option ist für fstack-protector-strong gedacht und nicht für die Verwendung in Benutzer-Code.Traditionelle GNU-Semantik für Inline-Funktionen verwenden.Für das Bereinigen von undefiniertem Verhalten eine Trap statt einer Bibliotheksfunktion verwenden.Trap-Befehle verwenden, um auf Ganzzahldivision durch Null zu prüfen.Die uClibc-C-Bibliothek verwenden.Unicode-Start verwenden und UNICODE-Makro definieren.Vektor-/skalare (VSX) Befehle verwenden, die in ISA 2.07 hinzugefügt wurden.Vektor-Befehle verwenden, die in ISA 3.0 hinzugefügt wurden.Vektor-/skalare (VSX) Befehle verwenden.ABI mit Fenster-Registern verwenden.Nullerweiternde Speicherladungen verwenden, nicht vorzeichenerweiternde.Wird zur Generierung von Code für einige ältere Kernel-Revisionen verwendet.Im Fix-and-Continue-Modus verwendet, um anzuzeigen, dass Objektdateien zur Laufzeit eingetauscht werden können (»swap«).Benutzerdefinierte nicht-ELEMENTAL-Funktion %qs bei %L ist in WORKSHARE-Konstrukt nicht erlaubtBei %2$L referenzierter Benutzeroperator %1$qs nicht im Modul %3$qs gefundenProzedur für Benutzeroperator %qs bei %L kann nicht vermutete Zeichenlänge habenProzedur für Benutzeroperator %qs bei %L muss eine FUNCTION seinProzedur für Benutzeroperator %qs bei %L muss mindestens ein Argument habenDie Verwendung dieser Option wird diagnostiziert.IBM %<long double%> mit erweiterter Genauigkeit wird verwendetIEEE %<long double%> mit erweiterter Genauigkeit wird verwendetEs werden eingebaute Spezifikationen verwendet.
Verwendung der Funktion %qs bei %L ist veraltetVerwendung von Parameter %qs, der bei %L deklariert wurde, ist veraltetVerwenden der Subroutine %qs bei %L ist veraltetVerwendung der Variable %qs bei %L ist veraltetNormalerweise werden Symbole, die »private extern« (versteckt) sind, beim Linken lokal gemacht. Dieser Befehl unterdrückt das, so dass sie exportiert bleiben.VALUE-Argument der intrinsischen Funktion »%s« bei %L muss definierbar seinVALUE-Attribut bei %CVALUE ist in BLOCK bei %C nicht erlaubtVALUE-Objekt %qs in Klausel %s bei %LVALUE-Anweisung bei %CVOIDmode bei einer AusgabeVOLATILE-Attribut bei %CVOLATILE-Attribut bei %L darf nicht in einer PURE-Prozedur angegeben werdenVOLATILE-Anweisung bei %CGültige Stufen für Nios-II-ISA (für -march):Gültige Argumente für die Option -msdata=:Gültige Argumente für -malign-:Gültige Argumente für -mcode-readable=:Gültige Argumente für -mfpmath=:Gültige Argumente für -mr10k-cache-barrier=:Gültige Argumente für -mstack-protector-guart=:Gültige Arguments für -mstringop-strategy=:Gültige Argumente für -mtp=:Gültige Optionen für GP-relative Adressierung (für -mgpopt):VTable-Zeiger validieren, bevor sie verwendet werden.Der Wert der HINT-Klausel bei %L muss ein gültiger konstanter Hinweisausdruck seinVariable %qs bei %C kann nicht innerhalb der bei %L beginnenden Schleife redefiniert werdenVariable %qs bei %C mit Initialisierung tritt bereits in einer DATA-Anweisung aufVariable %qs bei %L kann nicht BIND(C) sein, weil es weder ein COMMON-Block noch mit Sichtbarkeit auf Modulebene deklariert istVariable %qs bei %L kann nicht gleichzeitig die Attribute ALLOCATABLE und BIND(C) habenVariable %qs bei %L kann nicht gleichzeitig die Attribute OPTIONAL und VALUE haben, da Prozedur %qs BIND(C) istVariable %qs bei %L kann nicht gleichzeitig die Attribute POINTER und BIND(C) habenVariable %qs bei %L wurde keine Formatmarke zugewiesenVariable %qs bei %L in Common-Block %qs bei %C muss in einer C-kompatiblen Art deklariert sein, da Common-Block %qs bind(c) istVariable %qs bei %L muss in diesem Kontext eine Konstante seinVariable %qs bei %L ist INTENT(OUT) und kann daher kein reservierbares Coarray sein oder Coarray-Komponenten habenVariable %qs bei %L ist ein Koarray und ist weder ALLOCATABLE, SAVE, noch ein ScheinargumentVariable %qs bei %L ist ein Scheinargument für die BIND(C)-Prozedur %qs, könnte jedoch unverträglich mit C seinVariable %qs bei %L ist ein Scheinargument für die BIND(C)-Prozedur %qs, jedoch nicht interoperabel mit C, da der abgeleitete Typ %qs nicht mit C interoperabel istVariable %qs bei %L ist ein Scheinargument für die BIND(C)-Prozedur %qs, jedoch nicht interoperabel mit C, da sie polymorph istVariable %qs bei %L ist in COMMON, aber Initialisierung ist nur in BLOCK DATA erlaubtVariable %qs bei %L könnte mit C inkompatibel sein, aber sie ist BIND(C)Variable %qs bei %L kann nicht innerhalb der bei %L beginnenden Schleife als INTENT(INOUT)-Argument für Funktion %qs definiert werdenVariable %qs bei %L kann nicht innerhalb der bei %L beginnenden Schleife als INTENT(INOUT)-Argument für Unterprogramm %qs definiert werdenVariable %qs bei %L mit TYPE(C_PTR) oder TYPE(C_FUNPTR) darf kein Koarray seinVariable %qs bei %L auf undefinierten Wert innerhalb der bei %L beginnenden Schleife gesetzt, als INTENT(OUT)-Argument für Funktion %qsVariable %qs bei %L wird auf undefinierten Wert gesetzt, innerhalb der bei %L beginnenden Schleife, als INTENT(OUT)-Argument für Unterroutine %qsVariable %qs bei %L mit OPTIONAL-Attribut in Prozedur %qs, die BIND(C) istVariable %qs bei %L mit OPTIONAL-Attribut in Prozedur %qs, die jedoch BIND(C) istVariable %qs bei %L mit OPTIONAL-Attribut in Prozedur %qs, die BIND(C) istVariable %qs bei %L mit Koarraykomponente muss ein Nichtzeiger, nichtallozierbares Skalar und damit kein Koarray seinVariable %qs kann nicht in Variablen-Definitionskontext (%s) bei %L in PURE-Prozedur auftretenVariable %qs kann nicht im Ausdruck bei %L auftretenVariable %qs aus Modul %qs mit Bindungsmarke %qs bei %L verwendet denselben globalen Bezeichner wie Entität bei %L aus Modul %qsVariable %qs bei %L wurde keine Zielmarke zugewiesenVariable %qs in %s-Klausel wird in NAMELIST-Anweisung bei %L verwendetVariable %qs in Common-Block %qs bei %C kann nicht BIND(C) sein, da sie nicht global istVariable %qs in gemeinsamem Block %qs bei %C muss mit einer mit C interoperablen Art deklariert sein, da der gemeinsame Block %qs BIND(C) istVariable %qs in gemeinsamem Block %qs bei %L kann nicht mit BIND(C) deklariert werden, da sie nicht global istVariable %qs in gemeinsamem Block %qs bei %L könnte inkompatibel mit C sein, obwohl gemeinsamer Block %qs BIND(C) istVariable %qs ist PROTECTED und kann nicht in einem Zeigerzuordnungskontext (%s) bei %L vorkommenVariable %qs ist PROTECTED und kann nicht in Variablen-Definitionskontext (%s) bei %L auftretenVariable %qs bei %L ist kein DummyargumentVariable %qs wird bei %L vor Anweisung ENTRY verwendet, in der sie ein Parameter istVariable %qs muss in derselben Gültigkeitsbereichseinheit wie »!$ACC DECLARE« bei %L seinVariable %1$qs bei %3$L mit Binde-Marke %2$qs verwenden denselben globalen Bezeichner wie die Entität bei %4$LIn Spezifikationsausdruck verwendete Variable %qs wird bei %L vor Anweisung ENTRY referenziert, in der sie ein Parameter istVariable %s bei %L des Typs EVENT_TYPE oder mit Subkomponente des Typs EVENT_TYPE muss ein Koarray seinVariable %s bei %L mit LOCK_TYPE oder mit Subkomponente mit LOCK_TYPE muss ein Koarray seinVariable %s bei %L mit NO_ARG_CHECK-Attribut darf nicht die Attribute ALLOCATABLE, CODIMENSION, POINTER oder VALUE habenVariable %s bei %L mit NO_ARG_CHECK-Attribut darf nicht das Attribut INTENT(OUT) habenVariable %s bei %L mit NO_ARG_CHECK-Attribut kann nur als effektives Argument verwendet werdenVariable %s bei %L mit NO_ARG_CHECK-Attribut muss ein Scheinargument seinVariable %s bei %L mit NO_ARG_CHECK-Attribut muss vom Typ TYPE(*) oder von einem numerischen intrinsischen Typ seinVariable %s bei %L mit NO_ARG_CHECK-Attribut muss entweder skalar sein oder ein Feld vermuteter GrößeVariable %s bei %L mit NO_ARG_CHECK-Attribut darf keine Referenz auf Subobjekt habenVariable %s kann nicht INTENT(IN) bei %C seinVariable %s kann nicht in PURE-Prozedur bei %C zugewiesen werdenVariable bei %C ist ein Element eines COMMON-BlocksVariable bei %L wird mehrfach in Klauseln derselben OMP-DECLARE-TARGET-Direktive erwähntVariable ist USE-verknüpft mit »!$ACC DECLARE« bei %LVariable außer OMP_OUT oder OMP_IN wird bei %L in Kombinierer von !$OMP DECLARE REDUCTION verwendetVariable außer OMP_PRIV oder OMP_ORIG wird bei %L in INITIALIZER-Klausel von !$OMP DECLARE REDUCTION verwendetUnbekannter Variablentyp in Zuweisung bei %LVariable mit Attribut NO_ARG_CHECK bei %L ist nur als Argument der intrinsischen Funktionen C_LOC und PRESENT erlaubtZu verwendendes Vektorbibliotheks-ABI.Für Doppelwort-Operationen vektorisieren.Sicherstellen, dass die Codepfade für die ausgegebenen Meldungen machbar sind.Schleifen versionieren, je nachdem, ob sie eine Schrittweite von eins haben.Multiversionierung virtueller Funktionen wird nicht unterstütztZugriffe auf flüchtigen Speicher nutzen I/O-load/store-Befehle nicht.Zugriffe auf flüchtigen Speicher nutzen I/O-load/store-Befehle.WAIT bei %C ist in Fortran 95 nicht erlaubtWAIT-Klausel bei %L erfordert einen skalaren INTEGER-AusdruckWAIT-Anweisung ist in PURE-Prozedur bei %C nicht erlaubtWHERE-Zuweisungsziel bei %L hat ungültige FormWHERE-Maske bei %L hat ungültige FormKlausel WHERE/ELSEWHERE bei %L erfordert ein LOGICAL-FeldBei »extern«-Deklarationen außerhalb des Dateisichtbarkeitsbereiches warnen.Bei »verdächtigen« Konstrukten warnen.Warnen, wenn »new« für Typen mit großer Ausrichtung aufgerufen wird, ohne dass »-faligned-new« angegeben ist.Bei @selector() ohne vorher deklarierte Methoden warnen.Bei C-Konstrukten, die nicht in gemeinsamer Teilmenge von C und C++ sind, warnen.Bei C++-Konstrukten, deren Bedeutung sich zwischen ISO C++ 1998 und ISO C++ 2011 unterscheidet, warnen.Bei C++-Konstrukten, deren Bedeutung sich zwischen ISO C++ 2011 und ISO C++ 2014 unterscheidet, warnen.Bei C++-Konstrukten, deren Bedeutung sich zwischen ISO C++ 2014 und ISO C++ 2017 unterscheidet, warnen.Bei C++-Konstrukten warnen, deren Bedeutung sich zwischen ISO C++ 2017 und ISO C++ 2020 unterscheidet.Bei polymorphen Typen in C++ warnen, bei denen das Schlüsselwort »final« die Codequalität verbessern würde.Bei virtuellen Methoden in C++ warnen, bei denen das Schlüsselwort »final« die Codequalität verbessern würde.Bei vererbten Konstruktoren in C++11 warnen, wenn die Basisklasse variadischen Konstruktor hat.Bei GCC-Formatzeichenketten warnen, die für Diagnosemeldungen ungeeignete Zeichenketten enthalten.Warnen, wenn NULL an Argumentstellen, die als nicht-NULL erfordernd markiert sind, übergeben wird.Bei PCH-Dateien, die gefunden, aber nicht verwendet werden, warnen.Bei USE-Anweisungen, die keinen ONLY-Qualifizierer haben, warnen.Bei Verwendung von __TIME__, __DATE__ oder __TIMESTAMP__ warnen.Bei Zugriffen auf ein innenliegendes Arrayfeld der Länge 0 warnen.Bei Ausrichtung von COMMON-Blöcken warnen.Bei »switch«-Anweisungen auf Aufzählungen, denen ein Fall fehlt, warnen.Bei leerem Körper in einer if- oder else-Anweisung warnen.Bei ungültigen DO-Schleifen warnen.Warnen, wenn ein boolescher Ausdruck mit einer Ganzzahl verglichen wird, deren Wert ungleich true/false ist.Bei Pufferüberlauf in Stringfunktionen wie memcpy und strcpy warnen.Bei Aufrufen nicht explizit deklarierter Prozeduren warnen.Warnen, wenn std::move auf einem lokalen Objekt in einer return-Anweisung aufgerufen wird und dadurch das Ersparen der Kopie verhindert.Warnen, wenn Aufrufe für snprintf und ähnliche Funktionen die Ausgabe abschneiden.Bei Aufrufen von snprintf und ähnlichen Funktionen warnen, wenn sie die Ausgabe abschneiden. Entspricht -Wformat-truncation=1.Warnen bei Aufrufen von strcmp und strncmp, die auf Gleichheit geprüft werden und die notwendigerweise wahr oder falsch sind, wegen der Länge des einen und Größe des anderen Arguments.Bei Aufrufen mit impliziter Schnittstelle warnen.Warnen, wenn Funktionen in unverträgliche Typen umgewandelt werden.Warnen, wenn Funktionen in unverträgliche Funktionstypen umgewandelt werden.Bei Umwandlungen warnen, die null als Ergebnis haben.Bei Umwandlungen, die Qualifizierer streichen, warnen.Bei catch-Behandlern warnen, die nicht Referenztypen sind.Bei bestimmten Operationen auf booleschen Ausdrücken warnen.Bei Codepfaden warnen, in denen NULL an ein Funktionsargument übergeben wird, das nicht NULL sein darf.Bei Codepfaden warnen, in denen ein NULL-Zeiger dereferenziert wird.Bei Codepfaden warnen, in denen ein bereits freigegebener Wert verwendet wird.Bei Codepfaden warnen, in denen ein vom Heap reservierter Zeiger nicht freigegeben wird.Bei Codepfaden warnen, in denen ein longjmp zurückspult zu einem jmp_buf, der in einem Stapelrahmen gespeichert wurde, der bereits verlassen wurde.Bei Codepfaden warnen, in denen ein Zeiger freigegeben wird, der nicht vom Heap kommt.Bei Codepfaden warnen, in denen ein Zeiger mehr als einmal freigegeben werden kann.Bei Codepfaden warnen, in denen ein Zeiger auf einen bereits verschwundenen Stapelrahmen verwendet wird.Bei Codepfaden warnen, in denen ein Zeiger, der möglicherweise NULL ist, dereferenziert wird.Bei Codepfaden warnen, in denen ein Wert, der möglicherweise NULL ist, an ein Funktionsargument übergeben wird, das nicht NULL sein darf.Bei Codepfaden warnen, in denen Bits mit Anzahl >= Typbreite geschoben werden.Bei Codepfaden warnen, in denen Bits mit negativer Anzahl geschoben werden.Bei Codepfaden warnen, in denen eine stdio-Datei mehr als einmal geschlossen werden kann.Bei Codepfaden warnen, in denen eine stdio-Datei nicht geschlossen wird.Bei Codepfaden warnen, in denen eine Funktion, die async-signal-unsafe ist, aus einem Signalbehandler heraus aufgerufen wird.Bei Codepfaden warnen, in denen ein nicht überprüfter Wert als Arrayindex verwendet wird.Bei Codepfaden warnen, in denen sensible Daten in eine Datei geschrieben werden.Bei Codepfaden warnen, in denen die falsche Deallozierungsfunktion aufgerufen wird.Bei Codepfaden warnen, in denen in ein const-Objekt geschrieben wird.Bei Codepfaden warnen, in denen in ein Stringliteral geschrieben wird.Bei Code warnen, der strict-aliasing-Regeln verletzen könnte.Beim Vergleich verschiedener Enum-Typen warnen.Bei Ganzzahldivisionen durch Null zur Übersetzungszeit warnen.Bei Ganzzahldivisionen mit abgeschnittenem Ergebnis warnen.Bei Erzeugung temporärer Felder warnen.Bei »hängendem else« warnen.Bei Deklarationen von Entitys warnen, in denen Attribute fehlen, die bei verwandten Entitys jedoch angegeben wurden.Beim Löschen polymorpher Objekte mit nicht-virtuellen Destruktoren warnen.Vor der Verwendung des veralteten AltiVec-Typen »vector long ...« warnen.Bei veralteten arithmetischen Umwandlungen von Operanden mit Aufzählungstypen warnen.Bei veralteten arithmetischen Umwandlungen von Operanden warnen, bei denen der eine von einem Aufzählungstyp ist und der andere eine Gleitkommazahl.Warnen, wenn der Qualifizierer »volatile« in veralteter Form eingesetzt wird.Bei Divisionen von zwei %<sizeof%>-Operatoren warnen, wenn der erste auf ein Array angewendet wird und der Divisor nicht die Größe des Arrayelements ist.Bei doppelten Zweigen in if-else-Anweisungen warnen.Warnen, wenn in einer if-else-if-Kette doppelte Bedingungen auftauchen.Bei »switch«-Anweisungen auf Aufzählungen ohne »default:«-Fall warnen.Bei »switch«-Anweisungen auf Aufzählungen, denen ein Fall fehlt und die kein »default:« haben, warnen.Bei Prüfung auf Gleichheit mit REAL- oder COMPLEX-Ausdrücken warnen.Bei Merkmalen, die in ISO C2X, aber noch nicht in ISO C11 verfügbar sind, warnen.Bei Merkmalen, die in ISO C99, aber noch nicht in ISO C90 verfügbar sind, warnen.Bei Merkmalen, die in ISO C11, aber noch nicht in ISO C99 verfügbar sind, warnen.Bei Merkmalen, die in traditionellem C nicht verfügbar sind, warnen.Bei Formatstrings, die keine Literale sind, warnen.Bei Formatstrings, die NUL-Bytes enthalten, warnen.Beim Entfernen von Funktionsaufrufen warnen.Bei Funktionsaufrufen mit Formatzeichenketten warnen, die hinter das Ende der Zielregion schreiben.Bei Funktionsaufrufen mit Formatzeichenketten warnen, die hinter das Ende der Zielregion schreiben. Entspricht -Wformat-overflow=1.Bei Funktionen im K&R-Stil, die Parameter ohne Typangabe haben, warnen.Bei Arithmetik mit Funktionszeigern warnen.Bei Funktionen, die Kandidaten für __attribute__((cold)) sein könnten, warnen.Bei Funktionen, die Kandidaten für __attribute__((const)) sein könnten, warnen.Bei Funktionen, die Kandidaten für __attribute__((malloc)) sein könnten, warnen.Bei Funktionen, die Kandidaten für __attribute__((noreturn)) sein könnten, warnen.Bei Funktionen, die Kandidaten für __attribute__((pure)) sein könnten, warnen.Bei Funktionen, die Kandidaten für Formatattribute sein könnten, warnen.Vor globalen Funktionen ohne vorherige Deklaration warnen.Bei globalen Funktionen ohne Prototypen warnen.Bei impliziten Umwandlungen von enum-Typen warnen.Bei impliziten Umwandlungen von »float« nach »double« warnen.Bei impliziten Deklarationen warnen.Bei impliziten Funktionsdeklarationen warnen.Bei unpassender Attributverwendung warnen.Bei inkompatiblen Umwandlungen zwischen Zahlen und Zeigern (in beide Richtungen) warnen.Bei ungültigen OpenACC-Dimensionen warnen.Bei ungültigen Verwendungen des Makros »offsetof« warnen.Bei in der Hauptdatei definierten, ungenutzten Makros warnen.Bei Makros warnen, deren Header-Einheits-Definitionen nicht übereinstimmen.Bei möglicherweise nicht initialisierten automatischen Variablen warnen.Warnen, wenn Deklarationen von VLA-Parametern nicht übereinstimmen.Bei widersprüchlichen Deklarationen von Arrayparametern und unsicherem Zugriff auf diese warnen.Bei fehlendem »&« in fortgesetzten Zeichenkonstanten warnen.Bei fehlenden Feldern in struct-Initialisierungen warnen.Warnen, wenn Deallokationsfunktionen mit expliziter Größenangabe fehlen.Bei Missbrauch von Pragmas warnen.Bei den meisten impliziten Umwandlungen warnen.Bei mehreren Deklarationen desselben Objektes warnen.Bei verengenden Umwandlungen innerhalb von { }, die in C++11 unzulässig sind, warnen.Bei nicht-virtuellen Destruktoren warnen.Bei fehlenden ISO msvcrt scanf/printf Breiten-Erweiterungen warnen.Bei Optimierungen, die annehmen, dass vorzeichenbehafteter Überlauf undefiniert ist, warnen.Bei Überlauf in arithmetischen Ausdrücken warnen.Bei überladenen virtuellen Funktionsnamen warnen.Beim Überschreiben von Initialisierungen mit Seiteneffekten warnen.Beim Überschreiben von Initialisierungen ohne Seiteneffekte warnen.Bei gepackten Bitfeldern, deren Offset sich in GCC 4.4 geändert hat, warnen.Warnen, wenn Zeigerumwandlungen die Ausrichtung vergrößern.Bei positioneller Initialisierung von Strukturen warnen, die designierte Initialisierungen erfordern.Bei möglichem Aliasing von Dummy-Argumenten warnen.Vor möglichen Sicherheitsproblemen mit Formatfunktionen warnen.Bei möglichen Verstößen gegen Sequenzpunktregeln warnen.Bei möglicherweise falschen Arrayindexen in do-Schleifen warnen.Bei möglicherweise fehlenden Klammern um Initialisierungen warnen.Bei möglicherweise fehlenden Klammern warnen.Bei möglicherweise geschachtelten Blockkommentaren und C++-Kommentaren, die mehr als eine physikalische Zeile umfassen, warnen.Bei Unregelmäßigkeiten in printf/scanf/strftime/strfmon-Formatstrings warnen.Bei fragwürdiger Verwendung der Makros, die variable Argumente ermitteln, warnen.Warnen, wenn das Quellarray über das Ende hinaus gelesen wird, in Speicherfunktionen wie %<memchr%> und %<memcpy%>.Bei Gleitkommakonstanten-Literalen mit Exponentenbuchstaben »q« warnen.Bei redundanten Aufrufen von std::move warnen.Bei Rückgabe eines Zeigers/Referenz an lokale oder temporäre Variable warnen.Bei zurückgegebenen Strukturen, Unions oder Arrays warnen.Bei Semikolon nach Funktionsdefinition innerhalb einer Klasse warnen.Vor Vorzeichenunterschieden mit Formatfunktionen warnen.Bei Vergleichen von vorzeichenbehaftet mit vorzeichenlos warnen.Während der Optimierungen zur Linkzeit bei einigen Verletzungen der One-Definition-Rule aus C++ warnen.Bei Anweisungen warnen, die zwischen »switch (...)« und dem ersten »case:« stehen.Bei verirrten Symbolen hinter #elif und #endif warnen.Bei strftime-Formaten, die 2-stellige Jahreszahlen erzeugen, warnen.Vor Indizes mit Typ »char« warnen.Bei verdächtigen Aufrufen von memset warnen, wenn das dritte Argument die Anzahl der Elemente enthält, aber nicht mit der Elementgröße multipliziert.Bei verdächtigen Aufrufen von memset warnen, wenn das dritte Argument eine Null ist, das zweite jedoch nicht.Vor verdächtigen Deklarationen von »main« warnen.Warnen, wenn zwei sizeof-Ausdrücke durcheinander geteilt werden, die nicht korrekt mit Zeigern funktionieren.Bei verdächtigen Aufrufen bestimmter Zeichenkettenfunktionen warnen, wenn im Argument sizeof vorkommt.Vor verdächtigem Gebrauch von Speicheradressen warnen.Warnen, wenn die Vergleichswerte einer switch-Anweisung außerhalb des für den Typ erreichbaren Bereichs liegen.Bei switch-Anweisungen mit booleschem Steuerausdruck warnen.Bei den merkwürdigsten syntaktischen Mehrdeutigkeiten warnen.Bei Dingen warnen, die sich zwischen der aktuellen »-fabi-version« und der angegebenen Version ändern.Bei Dingen warnen, die sich bei der Übersetzung mit einem ABI-konformen Compiler ändern werden.Bei abgeschnittenen Zeichenausdrücken warnen.Bei abgeschnittenen Quelltextzeilen warnen.Bei Abschneiden in Stringfunktionen wie strncat und strncpy warnen.In Deklarationen mit Alias-Attributen bezüglich Typsicherheit und ähnlicher Fehler und Irrtümer warnen.Bei als Wächter verwendetem, nicht umgewandeltem NULL warnen.Bei Unterlauf numerischer Konstantenausdrücke warnen.Bei nicht initialisierten automatischen Variablen warnen.Bei Funktionsdeklarationen ohne Prototyp warnen.Bei nicht erkannten Pragmas warnen.Warnen bei unsicheren Makros, die zu mehreren Anweisungen expandiert werden und innerhalb eines if, else, while, switch oder for verwendet werden.Bei Gleitkommakonstanten ohne Suffix warnen.Bei nicht unterstützten Features im ThreadSanitizer warnen.Bei nicht verwendeten Dummy-Argumenten warnen.Bei Verwendung von Zeichenkonstanten mit mehreren Zeichen warnen.Bei unnützen Typumwandlungen warnen.Bei durch den Benutzer angegebenen Einfügepfaden, die nicht vorhanden sind, warnen.Bei Verwendungen von Deklarationen mit __attribute__((deprecated)) warnen.Bei Verwendungen von Deklarationen mit __attribute__((warning)) warnen.Warnen, wenn innerhalb eines Arrayindex ein Komma-Operator verwendet wird.Bei Verwendung der Speicherklassenangabe »register« warnen.Bei Verwendung von std::initializer_list warnen, wenn dadurch baumelnde Zeiger entstehen können.Bei Verwendung variadischer Makros warnen.Bei Variablen, die von »longjmp« oder »vfork« geändert werden könnten, warnen.Bei Variablen, die mit sich selbst initialisiert werden, warnen.Bei Verstößen gegen die Stil-Richtlinien von »Effective C++« warnen.Bei Formaten der Länge null warnen.Bei DO-Schleifen mit null Durchläufen warnen.Bei Aufrufen von Allozierungsfunktionen warnen, bei denen als Größe 0 angegeben ist.Bei Verwendung von bedingt unterstützten Konstrukten warnen.Bei Umwandlung von NULL in Nicht-Zeiger-Typ oder umgekehrt warnen.Warnen bei Deallokationsaufrufen mit Argumenten, die von nicht übereinstimmenden Allokationsfunktionen zurückgegeben werden.Bei impliziten Typumwandlungen zwischen vorzeichenbehafteten und vorzeichenlosen Ganzzahlen warnen.Bei impliziten Typumwandlungen warnen, die die Präzision von Gleitkommazahlen reduzieren.Bei impliziten Typumwandlungen warnen, die einen Wert ändern könnten.Warnen bei Nichtübereinstimmung zwischen Aufrufen der Operatoren »new« oder »delete« und dem entsprechenden Aufruf der Allokations- oder Deallokationsfunktion.Bei veralteter Verwendung in einer Deklaration warnen.Bei Placement-New-Ausdrücken mit undefiniertem Verhalten warnen.Bei verdächtigen Ganzzahl-Ausdrücken im Boolean-Kontext warnen.Warnen bei unsicherem direkten Schreibzugriff in Speicher von Klassen-Objekten.Bei spekulativen Compilierungen wie zum Beispiel __traits(compiles) warnen.Warnen, wenn »defined« außerhalb von »#if« verwendet wird.Warnen, wenn ein C++17-noexcept-Funktionstyp den gemangelten Namen eines Symbols beeinflusst.Warnen, wenn eine Typumwandlung im C-Stil im Programm verwendet wird.Warnen, wenn der Rückgabewert der mit dem Attribut warn_unused_result definierten Funktion ignoriert wird.Warnung, wenn eine Klassenschnittstelle keine Superklasse hat. Wurzelklassen können ein Attribut verwenden, um diese Warnung zu unterdrücken.Warnen, wenn ein Klassentyp eine Basis oder ein Feld hat, deren Typ den unbenannten Namensraum verwendet oder von einem Typen ohne Bindung abhängt.Warnen, wenn ein Vergleich immer zu »wahr« oder »falsch« auswertet.Warnen, wenn ein Vergleich durch beschränkten Wertebereich des Datentyps stets »wahr« oder »unwahr« ist.Warnen, wenn veraltetes Compiler-Merkmal, Klasse, Methode oder Feld verwendet wird.Warnen, wenn eine Funktion alloca verwendet oder ein Array dynamischer Größe erzeugt.Warnen, wenn eine lokale Deklaration eine Instanzvariable verdeckt.Warnen, wenn Schleife mit konstanter Anzahl von Durchläufen zu undefiniertem Verhalten führt.Warnen, wenn für eine Eigenschaft eines Objective-C-Objektes keine Zuweisungssemantik spezifiert ist.Warnen, wenn ein Selektor mehrere Methoden hat.Warnen, wenn eine SIMD-Direktive vom Vektorisierer-Kostenmodell übersteuert wird.Warnen, wenn Rahmengröße einer einzelnen Funktion die angegebene Rahmengröße überschreitet.Warnen, wenn Zeichenkette länger als die größte vom Standard angegebene portable Länge ist.Bei Teilobjekt mit Attribut abi_tag warnen, das das Gesamtobjekt nicht hat.Warnen, wenn ein throw-Ausdruck garantiert in einem Aufruf von terminate() endet.Warnen, wenn eine Benutzer-Prozedur denselben Namen wie ein Intrinsic hat.Warnen, wenn ein Array variabler Länge verwendet wird.Warnen, wenn virtuelle Basis einen nicht trivialen Zuweisungsoperator (move) hat.Warnen, wenn ein MCU-Name unbekannt ist oder mit anderen Optionen unverträglich ist (Vorgabe: eingeschaltet).Warnen, wenn auf ein Array außerhalb der Grenzen zugegriffen wird.Warnen, wenn eine Parameterdefinition im alten Stil verwendet wird.Warnen, wenn ein undefiniertes Makro in einer #if-Anweisung verwendet wird.Warnen, wenn ein Zeiger mit »nonnull«-Attribut mit NULL verglichen wird.Warnen, wenn konstante CFString-Objekte unportable Zeichen enthalten.Warnen, wenn Konstruktoren oder Destruktoren mit Prioritäten von 0 bis 100 verwendet werden.Warnen, wenn das Ergebnis der arithmetischen Berechnungen einen falschen Wert ergeben könnte, selbst wenn die Operanden korrekt konvertiert werden.Warnen, wenn das Dereferenzieren eines Nullzeigers zu fehlerhaftem oder undefiniertem Verhalten führen kann.Warnen, wenn devices.csv nicht gefunden wird oder es Probleme beim Einlesen gibt (Vorgabe: an).Warnen, wenn geerbte Methoden nicht implementiert sind.Warnen, wenn das Linksschieben eines vorzeichenbehafteten Werts überläuft.Warnen, wenn eine negative Zahl nach links geschoben wird.Warnen, wenn Schleifen getauscht wurden.Bei zu vielen Argumenten für eine Funktion (anhand Formatzeichenkette) warnen.Warnen, wenn Qualifizierer von Arrays gestrichen werden, die Zeigerziele sind.Warnen, wenn Rechts-Schiebe-Anzahl >= Breite des Typs ist.Warnen, wenn Schiebe-Anzahl negativ ist.Bei Test von Gleitkommawerten auf Gleichheit warnen.Warnen, wenn die ISR falschgeschrieben ist, beispielsweise ohne __vector-Präfix. Voreinstellung: eingeschaltet.Warnen, wenn das NSObject-Attribut auf etwas Anderes als typedef angewendet wird.Warnen, wenn sich der Adressraum einer Adresse ändert.Warnen, wenn der Code so kompliziert ist, dass er nicht vollständig analysiert werden kann.Warnen, wenn der Zeiger in einer Zeigerzuweisung sein Ziel überleben könnte.Bei Unverträglichkeit eines Variablentyps mit C warnen.Warnen, wenn Trigraphen auftreten, die die Bedeutung des Programmes beeinflussen könnten.Warnen, wenn Typqualifizierer von Zeigern ignoriert werden.Wenn Typsignaturen der Kandidatenmethoden nicht exakt passen, warnen.Warnen, wenn Profile in -fprofile-use nicht existieren.Warnen, wenn Profile in -fprofile-use nicht zueinander passen.Bei Prototypen warnen, die zu anderen Typumwandlungen führen würden, wenn der Prototyp nicht angegeben wäre.Bei jeglicher Verwendung von alloca warnen.Bei direkter Mehrfachvererbung warnen.Bei direkter virtueller Vererbung warnen.Bei Intrinsics, die nicht im gewählten Standard vorhanden sind, warnen.Bei Namensraum-Definition warnen.Bei primärer Deklaration von Templates warnen.Bei verdächtigen Aufrufen von Standardfunktionen warnen, die absolute Werte berechnen.Bei verdächtigen Konstrukten waren, an denen die umgekehrte skalare Speicherreihenfolge beteiligt ist.Warnen, dass »-fno-automatic« Rekursion kaputtmachen könnte.Warnen, wenn __builtin_frame_address oder __builtin_return_address auf unsichere Weise verwendet werden.Warnen, wenn die eingebauten Funktionen __sync_fetch_and_nand und __sync_nand_and_fetch verwendet werden.Warnen, wenn eine #warning-Direktive verwendet wird.Warnen, wenn eine Basis aufgrund von Mehrdeutigkeit im abgeleiteten Typ unzugänglich wird.Warnen, wenn eine eingebaute Funktion mit der falschen Signatur deklariert wird.Bei undefiniertem oder redefiniertem eingebauten Präprozessormakro warnen.Warnen, wenn eine Klasse neudeklariert oder mit einem unpassenden Klassenschlüssel auf sie verwiesen wird.Warnen, wenn auf eine Klasse oder einen Aufzählungstyp mit einem redundanten Klassenschlüssel verwiesen wird.Warnen, wenn eine konstante Variable nicht verwendet wird.Warnen, wenn eine Umwandlungsfunktion niemals aufgerufen werden kann, aufgrund des Umwandlungs-Zieltypen.Warnen, wenn eine Deklaration keinen Typ angibt.Warnen, wenn in einer Deklaration const, volatile, restrict oder _Atomic doppelt angegeben ist.Warnen, wenn eine Deklaration hinter einer Anweisung gefunden wird.Warnen, wenn eine Funktion ungenutzt bleibt.Warnen, wenn ein Funktionsparameter zwar gesetzt, aber nicht verwendet wird.Warnen, wenn ein Funktionsparameter nicht verwendet wird.Warnen, wenn ein Sprung die Initialisierung einer Variable überspringt.Warnen, wenn eine Sprungmarke ungenutzt bleibt.Warnen, wenn Feldvariable auf linker Seite wiederholt reserviert wird.Warnen, wenn Variable auf linker Seite wiederholt reserviert wird.Warnen, wenn ein Literal 0 als NULL-Zeiger verwendet wird.Warnen, wenn ein logischer Operator verdächtigerweise immer zu »wahr« oder »falsch« auswertet.Warnen, wenn ein »noexcept«-Ausdruck zu »falsch« auswertet, obwohl der Ausdruck nicht werfen kann.Warnen, wenn sich ein Zeiger im Vorzeichenbesitz in einer Zuweisung unterscheidet.Bei Typkonvertierung von Zeiger auf Ganzzahl anderer Breite warnen.Warnen, wenn ein Zeiger mit '\0' verglichen wird.Warnen, wenn eine bereichsbasierte for-Schleife unnötige Kopien erzeugt.Warnen, wenn eine Registervariable als »volatile« deklariert ist.Warnen, wenn Zeichenkette oder Zeichenliteral gefolgt von UD-Suffix auftritt, der nicht mit Unterstrich anfängt.Warnen, wenn in einem switch-Block ein case durchfällt.Warnen, wenn eine Variable zwar gesetzt, aber nicht verwendet wird.Warnen, wenn eine Variable nicht verwendet wird.Warnen, wenn Vektoroperation außerhalb von SIMD kompiliert wird.Warnen, wenn alle Konstruktoren und Destruktoren privat sind.Warnen, wenn ein Argument für einen »restrict«-Parameter auch in einem anderen Argument vorkommt.Warnen, wenn ein Parameter des atomaren Speichermodells erkennbar außerhalb des Wertebereiches ist.Warnen, wenn ein Ausnahmebehandler von einem anderen Behandler überdeckt wird.Warnen, wenn ein Ausdruckswert nicht verwendet wird.Warnen, wenn eine inline-Funktion nicht als solche erzeugt werden kann.Warnen, wenn ein Optimierungsdurchgang ausgeschaltet ist.Beim Versuch der Freigabe eines Nicht-Heap-Objektes warnen.Bei Umwandlung des Typs von Zeigern auf Elementfunktionen warnen.Warnen, wenn ein Zeiger auf unvollständigen Typen gelöscht wird.Warnen, wenn Felder in einer gepackten Struktur nicht ausgerichtet sind.Warnen, wenn ein logisches Nicht im linken Operanden eines Vergleichs verwendet wird.Warnen, wenn mehrere unterschiedliche schnelle Interruptbehandlungsroutinen in Übersetzungseinheit sind.Warnen, wenn Nicht-Template-Friend-Funktionen innerhalb eines Templates deklariert werden.Warnen, wenn Stapelzerstörungsschutz aus irgendeinem Grund nicht erzeugt wird.Warnen, wenn eine lokale Variable eine andere lokale Variable oder einen Parameter mit gleichem Typ überdeckt.Warnen, wenn eine lokale Variable eine andere lokale Variable oder einen Parameter überdeckt.Warnen, wenn eine Variable eine andere überdeckt (global).Warnen, wenn eine Variable eine andere überdeckt. Entspricht -Wshadow=global.Warnen, wenn Überladung zur Umwandlung von vorzeichenbehaftet zu vorzeichenlos führt.Warnen, wenn Auffüllen benötigt wird, um Strukturelemente auszurichten.Warnen beim Ableiten von Klassentemplateargumenten an Typen ohne Ableitungshinweise.Warnen, wenn Profiling-Instrumentierung verlangt wurde, aber auf eine bestimmte Funktion nicht angewandt werden konnte.Warnen, wenn sizeof auf einen Funktionsparameter angewendet wird, der als Array deklariert ist.Warnen, wenn die Adresse eines gepackten Elements einer Struktur oder Union verwendet wird.Warnen, wenn der Compiler Code umsortiert.Warnen, wenn Feld in einer Struktur nicht ausgerichtet ist.Warnen, wenn die Einrückung des Codes nicht der Blockstruktur entspricht.Warnen, wenn das »packed«-Attribut keine Auswirkung auf Strukturanordnung hat.Bei Typumwandlung in Zeiger von Ganzzahl anderer Größe warnen.Bei Zeiger-Umwandlungen zwischen inkompatiblen Zeigertypen warnen.Bei lokal in Funktionen definierten, aber nicht verwendeten Typedefs warnen.Bei Standardrückgabetyp »int« für Funktionen (C) und inkonsistenten Rückgabetypen (C++) warnen.Warnen, wenn ein Trampolin generiert wird.Immer warnen, wenn eine Objective-C-Zuweisung vom Garbage Collector abgefangen wird.Warnen, wenn Attribute ignoriert werden.Warnen, wenn Typqualifizierer ignoriert werden.WarnungWenn weder »signed« noch »unsigned« angegeben wurden, das Bitfeld vorzeichenbehaftet machen.Wenn weder »signed« noch »unsigned« angegeben ist, das Bitfeld vorzeichenlos machen.Wenn »-mhard-float« ausgewählt ist, werden Gleitkommaberechnungen mit doppelter Genauigkeit in Hardware-Befehle übersetzt. Standardmäßig werden für diese Berechnungen Funktionen aus der libgcc verwendet.Wenn »-mhard-float« ausgewählt ist, werden ungeordnete Fließkomma-Vergleichs- und Set-Flag-Befehle (lf.sfun*) erzeugt. Standardmäßig werden Funktionen von libgcc verwendet, um ungeordnete Fließkomma-Vergleichs- und Flag-Operationen durchzuführen.Bei RAM-Zugriff X wie durch Hardware vorgegeben verwenden, d.h. Pre-Dekrement, Post-Inkrement und indirekte Adressierung mit dem X-Register. Ohne diese Option nimmt der Compiler an, dass es einen Adressierungsmodus X+const, ähnlich zu Y+const und Z+const gibt und erzeugt Befehle, die diesen Adressierungsmodus für X emulieren.Bei Erzeugung von »-fpic«-Code den ausführbaren Dateien erlauben, PLTs zu verwenden. Ignoriert für »-fno-pic«.Bei Erzeugung von »-mabicalls«-Code den ausführbaren Dateien erlauben, PLTs und Kopierauslagerungen zu verwenden.Bei Erzeugung von -mabicalls den Code tauglich für gemeinsam genutzte Bibliotheken machen.Beim Binden für Big-Endian-Zielsysteme ein Abbild im BE8-Format erzeugen.Beim Binden für Big-Endian-Zielsysteme ein Abbild im veralteten BE32-Format erzeugen.Wenn möglich, keine Stapelrahmen erzeugen.Beim Durchlaufen von CSE: Sprüngen zu ihren Zielen folgen.Bei der Vektorisierung für SVE ungepackte Vektoren für kleinere Elemente in Betracht ziehen und das Kostenmodell verwenden, um den günstigsten Ansatz auszuwählen. Das Kostenmodell wählt außerdem zwischen SVE und Advanced SIMD-Vektorisierung.Falls kürzer, kanonische Pfade zu System-Headern verwenden.Ob bei -fchecking Fehler im Codegenerator als interne Compilerfehler behandelt werden sollen.Ob Software-Prefetch-Tipps für nicht-konstante Schrittweiten produziert werden.Ob kanonische Typen zu verwenden sind.Anzuwendender Algorithmus für »-fsched-pressure«.Während des Setzens des Signalhandlers: %mWährend des Setzens des Signalstapels: %mModus für Ganzprogrammanalyse (WPA) mit Anzahl der parallelen Jobs angegeben.Aufgrund des INSCAN bei %L wird ein Schleifenrumpf mit !$OMP SCAN zwischen zwei structured-block-sequences erwartetOhne Auffüllen gibt es nicht genügend Elemente in intrinsischer RESHAPE-Quelle bei %L, um zur Form zu passenErrata für VR4130 mflo/mfhi umgehen.Hardwarebesonderheit umgehen, indem jedem CSYNC und SSYNC mehrere NOPs vorangestellt werden.Einen frühen 4300-Hardware-Bug umgehen.Fehler in Multiplikationsbefehl umgehen.Bestimmte 24K-Errata umgehen.Bestimmte R10000-Errata umgehen.Bestimmte R4000-Errata umgehen.Bestimmte R4400-Errata umgehen.Bestimmte RM7000-Errata umgehen.Bestimmte VR4120-Errata umgehen.Fehler früher SB-1 Revision 2 Kerne umgehen.Hardware-Multiplikationsfehler umgehen.Workaround für R5900-Kurzschleifenfehler.Umgehung von Erratum 835769 für ARM-Cortex-A53.Umgehung von Erratum 843419 für ARM-Cortex-A53.Alle indirekten Sprünge mit execute-in-order umschließen, um Sprungvorhersage auszuschalten.Alle indirekten Aufrufe mit execute-in-order umschließen, um Sprungvorhersage auszuschalten.Alle indirekten Rücksprünge mit execute-in-order umschließen, um Sprungvorhersage auszuschalten.Alle indirekten Rücksprünge mit execute-in-order umschließen, um Sprungvorhersage auszuschalten. Dies betrifft nur Zweige, in denen die Rücksprungadresse nicht aus dem Speicher wiederhergestellt wird.Alle indirekten Rücksprünge mit execute-in-order umschließen, um Sprungvorhersage auszuschalten. Dies betrifft nur Zweige, in denen die Rücksprungadresse aus dem Speicher wiederhergestellt wird.Alle indirekten Tabellensprünge und berechnete Gotos mit execute-in-order umschließen, um Sprungvorhersage auszuschalten. Die Verwendung von thunk oder thunk-extern mit dieser Option erfordert, dass die Thunks als Signalhandler betrachtet werden, um korrekte CFI zu erzeugen. Für Umgebungen, in denen Abrollen erforderlich ist (beispielsweise für Ausnahmebehandlung), nutzen Sie stattdessen bitte thunk-inline.Eine QUELLDATEI.opt-record.json schreiben mit Details, welche Optimierungen durchgeführt wurden.Alle Deklarationen in Ada-Code nur für angegebene Datei schreiben.Alle Deklarationen in Ada-Code transitiv schreiben.Modul %qs in Zeile %d, Spalte %d wird geschrieben: %sFalsche OpenACC-Fortsetzung bei %C: !$ACC erwartet, !$OMP gefundenFalsche OpenMP-Fortsetzung bei %C: !$OMP erwartet, !$ACC gefundenX-Argument bei %L für C_LOC darf nicht polymorph seinX-Deskriptor erfordert führenden Leerzeichenzähler bei %LX32 unterstützt %<ms_abi%>-Attribut nichtXXX %<pop_everything%> wird betretenXXX %<pop_everything%> wird verlassenUm diese intrinsischen Funktionen zu verwenden, müssen Sie MVE-Befehle einschalten.Um diese intrinsischen Funktionen zu verwenden, müssen Sie NEON-Befehle einschalten (zum Beispiel mit %<-mfloat-abi=softfp -mfpu=neon%>).Um diese intrinsischen Funktionen zu verwenden, müssen Sie VFP-Befehle einschalten.Um diese intrinsischen Funktionen zu verwenden, müssen Sie Krypto-Befehle einschalten (zum Beispiel mit %<-mfloat-abi=softfp -mfpu=crypto-neon%>)Option »-msys-crt0=« erwartet eine C-Programmstart-DateiNull ist keine gültige Anweisungsmarke bei %CBreite null in Formatbeschreibung in Formatzeichenkette bei %LArray der Größe 0 bei %L gefunden, an dieser Stelle wird eine Entität mit TARGET-Attribut erwartet[…]Feldkonstruktoren im [...]-Stil bei %C[%s wird verlassen]
[verfügbar in [%s kann nicht gefunden werden][Standard][ausgeschaltet][eingeschaltet]Attribut __BELOW100__ nicht mit Speicherklasse »auto« erlaubt__delay_cycles ist auf 32-Bit-Schleifendurchläufe beschränkt__delay_cycles kann nur mit nichtnegativen Zyklusanzahlen umgehen__delay_cycles() erlaubt nur Konstanten als Argument__fp16 ohne ldrh%<__gshared%> nicht innerhalb von sicheren Funktionen erlaubt; verwenden Sie stattdessen %<shared%>»»object.TypeInfo_Tuple« wurde nicht gefunden, wird jedoch implizit von variadischen Funktionen im D-Stil verwendet»object.TypeInfo« wurde nicht gefunden, wird jedoch implizit von variadischen Funktionen im D-Stil verwendetFunktionen mit »pragma(%s)« müssen »extern(C) %s %s([Parameter]..., const(char)*, ...)« sein, nicht »%s«Funktionen mit »pragma(%s)« müssen »extern(C) %s %s([Parameter]..., const(char)*, va_list)« seineine GNU-Fortran-Erweiterungeine geschweift geklammerte Initialisierung ist hier nicht erlaubtein Konstruktoraufruf kann nicht in einem Konstanten-Ausdruck auftretenEine Typumwandlung, die weder zu ganzzahligen noch Aufzählungstypen führt, kann nicht in einem Konstantenausdruck auftreteneine Klassen-Templatedeklaration darf nichts anderes deklarierenein Komma-Operator kann nicht in einem Konstanten-Ausdruck auftretenein Konzept kann keine Elementfunktion seinein Konzept kann nicht eingeschränkt werdenein Konstruktor kann nicht %<concept%> seineine Umwandlungsfunktion darf keinen angehängten Rückgabetyp habenein Destruktor kann nicht %qs seinein unterschiedlicher Typ ist in einer anderen Übersetzungseinheit definiertein Feld mit selbem Namen aber unterschiedlichem Typ ist in einer anderen Übersetzungseinheit definiertein Feld mit unterschiedlichem Namen ist in einer anderen Übersetzungseinheit definiertein Funktionsaufruf kann nicht in einem Konstanten-Ausdruck auftretenein Funktionskonzept kann nicht eingeschränkt werdeneine Funktionsdefinition ist hier nicht erlaubteine Marke kann nur Teil einer Anweisung sein, und eine Deklaration ist keine AnweisungLambda-Abschlusstyp hat gelöschten Kopier-ZuweisungsoperatorLambda-Abschlusstyp hat gelöschten StandardkonstruktorEine spätere Option %<-fabi-version=%> (oder =0) verhindert diesen Fehler mit einer Änderung im MangelnEin Element einer Struktur oder Union kann nicht variabel modifizierten Typ habengeschachtelte Funktionen werden bei reduzierter Registeranzahl nicht unterstützteine verschachtelte Namensraumdefinition darf nicht inline seineine verschachtelte Namensraum-Definition darf keine Attribute habeneine Nicht-Template-Variable kann nicht %<concept%> seinein Parameter kann nicht als %qs deklariert seineine Parameterliste mit Auslassung kann nicht zu einer leeren Parameternamenslistendeklaration passenein Anweisungsausdruck reicht nicht als Kontext für Überladungs-Auflösung nicht auseine Speicherklasse kann nur für Objekte und Funktionen angegeben werdenSpeicherklasse an anonymem Aggregat im Klassenbereich ist nicht erlaubtein Template kann nicht vorbelegt werdeneine Template-Deklaration kann nicht im Block-Gültigkeitsbereich auftreteneine Template-ID darf nicht in »using«-Deklaration auftreteneine vorübergehende Bindung an %qD besteht nur, bis der Konstruktor beendet istein Transaktionsausdruck kann nicht in einem Konstanten-Ausdruck auftretenein Typ aus einer anderen Übersetzungseinheit ist nicht polymorphein Typ aus einer anderen Übersetzungseinheit ist polymorphein Typ mit unterschiedlichen Basistypen ist in einer anderen Übersetzungseinheit definiertein Typ mit unterschiedlicher Anzahl von Feldern ist in einer anderen Übersetzungseinheit definiertein Typ mit unterschiedlicher Genauigkeit ist in einer anderen Übersetzungseinheit definiertein Typ mit unterschiedlichem Vorzeichen ist in einer anderen Übersetzungseinheit definiertein Typ mit unterschiedlicher Größe ist in einer anderer Übersetzungseinheit definiertein Typ mit unterschiedlichen Zeigern in der virtuellen Tabelle ist in einer anderen Übersetzungseinheit definierteine Variable kann nicht als %<consteval%> deklariert seinein Variablenkonzept kann nicht eingeschränkt werdeneine Wide-Zeichenkette ist in diesem Kontext ungültigInterner Fehler: abnormal call edges for non-call insn in bb %iInterner Fehler: abnormal edges for no purpose in bb %iAbbruch in %s, bei %s:%ddie Betragsfunktion %qD bekommt hier ein Argument vom Typ %qT, erwartet jedoch einen Parameter vom Typ %qT; dadurch kann der übergebene Wert abgeschnitten werdenabstrakter Deklarator %qT als Deklaration verwendetZugriffsdeklarationen sind zugunsten von %<using%>-Deklarationen veraltet; Vorschlag: %<using%> hinzufügenZugriff auf Element %qD statt auf initialisiertes Element %qD in KonstantenausdruckZugriff auf ein Element %qE einer atomaren Struktur %qEZugriff auf ein Element %qE einer atomaren Union %qEZugriff auf Datenspeicher mit ProgrammspeicheradresseZugriff auf Programmspeicher mit DatenspeicheradresseZugriff auf threadlokalen Speicher wird derzeit mit %<-mpure-code%> oder %<-mslow-flash-data%> nicht unterstütztZugriff auf uninitialisiertes ArrayelementZugriff auf uninitialisiertes Element %qDauf Wert von %qE wird über ein %qT GL-Wert in Konstantenausdruck zugegriffenAkkumulator ist keine GanzzahlkonstanteAkkumulatorzahl außerhalb der Grenzeneffektives Argument für INTENT = OUT/INOUTfügen Sie %<using namespace std::complex_literals%> (aus %<<complex>%>) hinzu, um benutzerdefinierte Literalsuffixe aus C++14 einzuschaltenfügen Sie einen Herleitungshinweis hinzu, um diese Warnung zu unterdrückenfangen Sie %<this%> oder %<*this%> explizit einklammern Sie den Ausdruck %qE, um diese Warnung zu unterdrückenklammern Sie den Ausdruck auf der linken Seite ein, um diese Warnung zu behebenklammern Sie den zweiten %<sizeof%>-Ausdruck, um diese Warnung zu unterdrückenfügen Sie Klammern hinzu, um eine Variable zu deklarierenInterner Fehler: add_sym(): Bad sizing modedie Option %<-flarge-source-files%> erlaubt mehr Unterstützung für Spaltenverfolgung, braucht dafür jedoch mehr Zeit und Speicher beim CompilierenAdressbereichsattribut kann nicht für Funktionen angegeben werdenAdressbereich von %q+D in Konflikt mit vorheriger DeklarationAdressmodus %qs wird im %s-Bit-Modus nicht unterstütztAdresse des Aufrufs von %qs ist kein konstanter AusdruckAdresse eines Arrays mit umgekehrter Speicherreihenfolge angefordertAdresse der Register-Variablen %qD angefordertAdresse der globalen Variablen %qD angefordertAdresse der lokalen Variable %qD zurückgegebenAdresse der lokalen Variable %qD zurückgegebenAdresse einer überladenen Funktion ohne Typinformationen aus KontextAdresse der Register-Variablen %qD angefordertAdressversatz ist keine KonstanteAdressoperand erfordert Beschränkung für X-, Y- oder Z-RegisterAdresse für %qD angefordert, was als %<register%> deklariert istAdressraum %qs wird auf Geräten mit Flashspeicher bis zu %d KiB nicht unterstütztAdressräume werden auf reduzierten Tiny-Kernen nicht unterstütztAdresse genommen, aber %<TREE_ADDRESSABLE%>-Bit nicht gesetztAdresse genommen, aber ADDRESSABLE-Bit nicht gesetztAdresse eines Objektes %qE mit thread-lokalem oder automatischem Speicher ist kein konstanter AusdruckAggregat %q#D hat unvollständigen Typ und kann nicht definiert werdenzusammengesetzter Wert verwendet, wo »complex« erwartet wurdezusammengesetzten Wert verwendet, wo Festkomma erwartet wurdezusammengesetzter Wert verwendet, wo Gleitkommawert erwartet wurdezusammengesetzter Wert verwendet, wo Ganzzahl erwartet wurdealiasAlias-Definitionen werden nicht in Mach-O unterstützt; ignoriertAlias-Definitionen werden in dieser Konfiguration nicht unterstütztAlias-Template-Herleitung ist erst ab %<-std=c++20%> oder %<-std=gnu++20%> verfügbarhier ist die Alias-Deklarationverlangte Ausrichtung %u von %qT ist kleiner als %uAusrichtung (%u) für »%s« überschreitet maximale Ausrichtung für globale gemeinsame Daten. Es wird %u verwendetAusrichtung für %q+D wurde zuvor als %d angegeben und kann nicht verringert werdenFür %q+D darf keine Ausrichtung angegeben werdenAusrichtung muss eine kleine Zweierpotenz sein, nicht %dAusrichtung von %q+D ist größer als maximale Objektdateiausrichtung %dAusrichtung von %qD wurde in %<-fabi-version=9%> (GCC 5.2) erhöhtAusrichtung von %qD ist größer als ursprüngliche DeklarationAusrichtung von %qD wird in %<-fabi-version=9%> ansteigenAusrichtung der Arrayelemente ist größer als die ElementgrößeAusrichtung für %<register%>-Objekt %qE angegebenAusrichtung für Bitfeld %qE angegebenAusrichtung für Funktion %qE angegebenAusrichtung für Parameter %qE angegebenAusrichtung für Typnamen in %<sizeof%> angegebenAusrichtung für Typnamen in %qE angegebenAusrichtung für Typnamen in Cast angegebenAusrichtung für typedef %qE angegebenAusrichtung für unbenanntes Bitfeld angegebenAusrichtung für unbenannten Parameter angegebenalle Elementfunktionen in Klasse %qT sind privatallozierbares Argumentwurde hier deklariertdie Allokation ist hier%qD bereits in Lambda-Ausdruck erfasstexistiert bereits bei %s. Vielleicht in einer anderen Funktion desselben Namens?auch %<%c%s%> gefundenAlternativen sind in %<asm%>-Flag-Ausgabe nicht erlaubtmehrdeutig machende neue Deklaration %q+#Dmacht neue Deklaration %q#D mehrdeutigmehrdeutiges Attribut »%s«; könnte »%s« (via »%s:%s«) oder »%s« (via »%s:%s«) seinmehrdeutige Umwandlung für Feldindexmehrdeutige Standard-Typumwandlung von %qTmehrdeutige Methode %s%s%smehrdeutiges Überladen für mehrdeutiges Überladen für intrinsisches %qsmehrdeutige Template-Instanziierung für %q#Dmehrdeutige Template-Instanziierung für %q#Tmehrdeutige Templatespezialisierung %qD für %q+Deine %<asm%>-Spezifikation ist bei Funktionsdefinition nicht erlaubtfür lokale Variablen kann kein Adressbereichsattribut angegeben werdenein Argumenttyp mit Standard-Promotion kann nicht zu einer leeren Parameternamenslistendeklaration passenein Array unterschiedlicher Größe ist in einer anderen Übersetzungseinheit definierteine Arrayreferenz kann nicht in einem Konstanten-Ausdruck auftreteneine Zuweisung kann nicht in einem Konstanten-Ausdruck auftretenein Attribut, das sich auf eine Typspezifizierung bezieht, wird ignorierteine Verringerung kann nicht in einem Konstanten-Ausdruck auftretendas Attribut %<target_clones%> darf keine leere Zeichenkette enthalteneine Aufzählung mit anderer Anzahl von Werten ist in einer anderen Übersetzungseinheit definierteine Aufzählung mit unterschiedlichen Wertnamen ist in einer anderen Übersetzungseinheit definierteine Aufzählung mit anderen Werten ist in einer anderen Übersetzungseinheit definierteiner expliziten Spezialisierung muss %<template <>%> vorausgeheneine Erhöhung kann nicht in einem Konstanten-Ausdruck auftretenInterner Fehler: an indirect edge from %s has no corresponding call_stmtInterner Fehler: an indirect edge with unknown callee corresponding to a call_stmt with a known declaration:Ein Interrupt-Handler kann nicht mit %<-muser-mode%> kompiliert werdenAnachronismusAnachronismus: veraltete Basisklasseninitialisierungund %qT hat keinen Template-KonstruktorInterner Compilerfehler: and fieldund der implizit definierte Konstruktor initialisiert %q#D nichtdas innerhalb der Parameterliste deklarierte anonyme »%s« ist außerhalb dieser Definition oder Deklaration nicht sichtbarInterner Fehler: anonymous SSA name cannot have default definitionanonymes struct nicht innerhalb eines benannten Typsanonyme Union ohne ElementAnwendung von %<#pragma weak %+D%> nach erster Verwendung führt zu unspezifiziertem VerhaltenArchitektur %qs wird nur für Assemblierung unterstütztare_identical_variables: Bad typeArgument %d ist ein vorzeichenloses Literal, aber außerhalb des gültigen BereichsArgument %d muss ein vorzeichenloses Literal seinArgument %d von %qE entfernt Kennzeichner %<const%>Argument %d von %qE entfernt Kennzeichner %<volatile%>Argument %d von %qE könnte Kandidat für Formatattribut seinArgument %d von %qE muss ein Zeiger auf Typen konstanter Größe seinArgument %d von %qE muss eine Zeigertyp seinArgument %d von %qE darf kein Zeiger auf einen %<const%>-Typen seinArgument %d von %qE darf kein Zeiger auf einen %<volatile%>-Typen seinArgument %d von %qE darf kein Zeiger auf eine Funktion seinArgument %d von »%s« hatte nicht den erwarteten NamenArgument %d der eingebauten Funktion muss eine Konstante aus dem Bereich %d bis %d seinArgument %i im Bereich [%E, %E]Argument %q+D könnte von %<longjmp%> oder %<vfork%> zerstört werdenArgument %qD ist hier deklariertArgument %qD passt nicht zu eingebautem PrototypenArgument %qD passt nicht zum PrototypenArgument %qd ist keine KonstanteArgument %qs für %<-Waligned-new%> nicht bekanntArgument %qs für %<-Wnormalized%> nicht erkanntArgument %qs für %<-femit-struct-debug-detailed%> nicht erkanntArgument %qs für %<-femit-struct-debug-detailed%> unbekanntArgument %u in Aufruf von %qE muss ein Ganzzahltyp seinArgument %u in Aufruf von %qE muss ein Zeigertyp seinArgument %u in Aufruf von %qE darf kein Zeiger auf %qs sein (%qT)Argument %u in Aufruf von %qE muss auf einen vollständigen Typ zeigenArgument %u ist null, aber nichtnull wird erwartetArgument %u für %<__builtin_tgmath%> hat keine ArgumenteArgument %u für %<__builtin_tgmath%> hat variable Anzahl von ArgumentenArgument %u für %<__builtin_tgmath%> hat falsche Anzahl der ArgumenteArgument %u für %<__builtin_tgmath%> ist kein FunktionszeigerArgument %u für %<__builtin_tgmath%> hat keinen PrototypenArgument %u vom Typ %s ist als Zeiger deklariertArgument %u vom Typ %s ist als Array variabler Länge deklariertArgument %u vom Typ %s ist als gewöhnliches Array deklariertArgument %u vom Typ %s ist mit %u unspezifizierten Variablengrenze deklariertArgument %u vom Typ %s ist mit %u unspezifizierten Variablengrenzen deklariertArgument %u vom Typ %s ist mit %u Variablengrenze deklariertArgument %u vom Typ %s ist mit %u Variablengrenzen deklariertArgument %u vom Typ %s ist mit abweichender Grenze %<%s%> deklariertArgument %u vom Typ %s ist mit abweichendem Grenzargument %E deklariertArgument %u vom Typ %s mit abweichender GrenzeArgument %u von Funktion %qE ist vom Typ %qT, und der ist nicht garantiert 128 Bit großArgument 1 muss 0 oder 2 seinArgument 1 muss ein vorzeichenloses 1-Bit-Literal seinArgument 1 muss ein vorzeichenbehaftetes 5-Bit-Symbol seinArgument 1 muss ein vorzeichenloses 6-Bit-Literal seinArgument 1 muss eine Abbildung seinArgument 1 muss ein 8-Bit-Feldwert seinArgument 1 von %qE muss ein Nicht-Void-Zeigertyp seinArgument 1 von %qE muss ein Zeiger auf einen vollständigen Typen seinArgument 1 von %qE muss ein Zeiger auf Typen konstanter Größe seinArgument 1 von %qE muss ein Zeiger auf Objekt breiter als Null seinArgument 1 von %qs ist außerhalb des WertebereichesArgument 1 von %qs muss eine Konstante seinArgument 2 muss 0 oder 1 seinArgument 2 muss ein vorzeichenloses 1-Bit-Literal seinArgument 2 muss ein vorzeichenloses 2-Bit-Literal seinArgument 2 muss ein vorzeichenloses 3-Bit-Literal seinArgument 2 muss ein vorzeichenloses 4-Bit-Literal seinArgument 2 muss ein vorzeichenloses 5-Bit-Literal seinArgument 2 muss ein vorzeichenloses 6-Bit-Literal seinArgument 2 muss ein vorzeichenloses 7-Bit-Literal seinArgument 2 muss ein vorzeichenloses Literal zwischen 2 und 7 einschließlich seinArgument 3 in Aufruf von %qE muss Zeiger auf Ganzzahltyp seinArgument 3 in Aufruf von %qE darf kein boolescher Typ seinArgument 3 in Aufruf von %qE darf kein enum-Typ seinArgument 3 in Aufruf von %qE darf kein Zeiger auf booleschen Typ seinArgument 3 in Aufruf von %qE darf kein Zeiger auf enum-Typ seinArgument 3 muss ein vorzeichenloses 1-Bit-Symbol seinArgument 3 muss ein vorzeichenloses 2-Bit-Symbol seinArgument 3 muss ein vorzeichenloses 4-Bit-Literal seinArgument 3 muss eine Konstante im Bereich [0, 7] seinArgument 3 muss im Bereich [0, 12] liegenArgument 3 muss im Bereich [0, 3] liegenArgument 3 muss im Bereich [0, 15] liegenArgument 4 muss ein vorzeichenloses 3-Bit-Literal seinArgument 4 muss ein vorzeichenloses 8-Bit-Literal seinArgumentlistenfunktion bei %CArgument muss eine Feldreferenz seinArgument muss Array oder Scheibe oder Kanal seinArgument muss ein Kanal seinArgument muss Zeichenkette oder Array oder Scheibe oder Map oder Kanal seinArgument muss komplexen Typen habenArgument an %qs-Klausel nicht erlaubtArgument für %<__builtin_eh_return_regno%> muss konstant seinArgument des Attributs %qE wird ignoriertArgument des Attributs %qE fehltArgument des Attributes %qE ist weder »ilink« oder »firq«Argument des Attributes %qE ist weder »ilink1« oder »ilink2«Argument des Attributs %qE ist nicht »reset«, »software_exception«, »page_miss«, »timer0«, »timer1«, »message«, »dma0«, »dma1«, »wand« oder »swi«Argument des Attributes %qE ist keine ZeichenkettenkonstanteArgument des Attributs %qE ist weder Zeichenkettenkonstante noch ZahlArgument von Offsetof bringt Indirektion eines eingebetteten Feldes mit sichArgument des Funktionsaufrufs könnte Kandidat für Formatattribut seinArgument vom Typ %qT ist zusammen mit »-mgeneral-regs-only« nicht erlaubtdas Argument verweist auf ein Symbol, das hier deklariert istArgument von %<-O%> sollte eine nicht-negative Ganzzahl, %<g%>, %<s%> oder %<fast%> seinArgument von %<__integer_pack%> muss zwischen 0 und %d liegenArgument für %<decltype%> muss ein Ausdruck seinArgument für %<sizeof%> in Aufruf von %qD ist der gleiche Ausdruck wie das Ziel; sollte es dereferenziert werden?Argument für %<sizeof%> in Aufruf von %qD ist der gleiche Ausdruck wie das Ziel; sollte ausdrückliche Länge angegeben werden?Argument für %<sizeof%> in Aufruf von %qD ist der gleiche Ausdruck wie das Ziel; sollte addressof entfernt werden?Argument für %<sizeof%> in Aufruf von %qD ist der gleiche Ausdruck wie die erste Quelle; sollte es dereferenziert werden?Argument für %<sizeof%> in Aufruf von %qD ist der gleiche Ausdruck wie die erste Quelle; sollte ausdrückliche Länge angegeben werden?Argument für %<sizeof%> in Aufruf von %qD ist der gleiche Ausdruck wie die erste Quelle; sollte addressof entfernt werden?Argument für %<sizeof%> in Aufruf von %qD ist der gleiche Ausdruck wie die zweite Quelle; sollte es dereferenziert werden?Argument für %<sizeof%> in Aufruf von %qD ist der gleiche Ausdruck wie die zweite Quelle; sollte ausdrückliche Länge angegeben werden?Argument für %<sizeof%> in Aufruf von %qD ist der gleiche Ausdruck wie die zweite Quelle; sollte addressof entfernt werden?Argument für %<sizeof%> in Aufruf von %qD ist der gleiche Ausdruck wie die Quelle; sollte es dereferenziert werden?Argument für %<sizeof%> in Aufruf von %qD ist der gleiche Ausdruck wie die Quelle; sollte ausdrückliche Länge angegeben werden?Argument für %<sizeof%> in Aufruf von %qD ist der gleiche Ausdruck wie die Quelle; sollte addressof entfernt werden?Argument für %<sizeof%> in Aufruf von %qD ist der gleiche Ausdruck wie die Quelle; meinten Sie die Größe des Ziels?Argument für %<sizeof%> in Aufruf von %qD ist vom gleichen Zeigertyp %qT wie das Ziel; %qT oder ausdrückliche Länge erwartetArgument für %<sizeof%> in Aufruf von %qD ist vom gleichen Zeigertyp %qT wie die erste Quelle; %qT oder ausdrückliche Länge erwartetArgument für %<sizeof%> in Aufruf von %qD ist vom gleichen Zeigertyp %qT wie die zweite Quelle; %qT oder ausdrückliche Länge erwartetArgument für %<sizeof%> in Aufruf von %qD ist vom gleichen Zeigertyp %qT wie die Quelle; %qT oder ausdrückliche Länge erwartetArgument des Attributs %qE ist weder »eic« noch »vector=<line>«Argument des Attributes %qE ist weder Null noch EinsArgument des Attributs %qE ist weder »user«, noch »supervisor« noch »machine«Argument für %qE ist nicht (keep|thunk|thunk-extern)Argument des Attributes %qE ist nicht (keep|thunk|thunk-inline|thunk-extern)Argument des Attributes %qE ist nicht »intstack«Argument für Attribut %qE ist größer als %dArgument für %qs ist größer als %dArgument von %qs ist nicht zwischen %d und %dArgument für %qs ist zu groß (max. %d)Argument für %qs muss ein vorzeichenloses 2-Bit-Symbol seinArgument von %qs sollte eine nicht-negative Ganzzahl seinArgument für %qs sollte eine nicht-negative Ganzzahl sein, optional gefolgt von einer Größeneinheitzu formatierendes Argument ist nicht %<...%>Argument für »interrupt«-Attribut wird für »weak«-Funktionen nicht unterstütztArgumente »%s« und »%s« für intrinsisches %sArgumente »%s« und »%s« für intrinsisches »%s«Argumente »a%d« und »a%d« für intrinsisches »%s«Argumente vom Typ %qT erfordern die SVE-ISA-ErweiterungArgumente von %qs sollten nicht-negative Ganzzahlen seinArgumente für Destruktor sind nicht erlaubtArgumente für Attribut %qE müssen enge Zeichenkettenliterale seinArgumente für Attribut %qE müssen gültige Bezeichner enthaltenarith_power(): Bad basearith_power(): unknown typearithmetisches IFArithmetik zwischen den unterschiedlichen Aufzählungstypen %qT und %qT ist veraltetArithmetik zwischen Aufzählungstyp %qT und Gleitkommatyp %qT ist veraltetArithmetik zwischen Gleitkommatyp %qT und Aufzählungstyp %qT ist veraltetArithmetik mit Nullzeiger in %qEArithmetik mit Zeiger auf leeres AggregatArithmetik mit Zeiger auf unvollständigen TypenInterner Compilerfehler: array %<TYPE_DOMAIN%> is not integer typeArray %q+D als einelementig betrachtetArray %qD ist hier deklariertArray %qD mit geklammerter Zeichenkettenkonstante %qE initialisiertArray-ZuweisungArraygrenze hinter geklammerter type-id ist verbotenArraygrenze ist keine GanzzahlkonstanteArray-Deallokation eines Objekts, das mit einer Nicht-Array-Allokation alloziert wurdeArrayindex in Initialisierung überschreitet ArraygrenzenArrayindex in Initialisierung ist kein konstanter GanzzahlausdruckArrayindex in Initialisierung hat nicht GanzzahltypArrayindex in Nicht-Array-InitialisierungArrayindexbereich in Initialisierung überschreitet ArraygrenzenArray mit nicht konstantem Arrayausdruck initialisiertArray mit geklammerter Zeichenkettenkonstante initialisiertArrayelement %q#D hier deklariertArray muss mit Initialisierung mit umgebenden geschweiften Klammern initialisiert werdenArray unpassenden Typs mit Zeichenkettenkonstante initialisiertArray mit Laufzeitgrenzen kann nicht durch Kopie eingefangen werden, sondern nur über eine ReferenzArrayergebnisArrayabschnitt in %qs-Klausel hat keinen zuordenbaren TypArrayabschnitt in %<#pragma acc declare%>Arrayabschnitt ist in %qs-Klausel nicht zusammenhängendArraygröße in »new«-Ausdruck muss konstant seinArraygröße fehlt in %q+DArraygröße fehlt in %qDArraygröße fehlt in %qTArrayindex hat Typ %<char%>Arrayindex ist keine GanzzahlArrayindexwert %qE ist außerhalb der Grenzen des Arrays %qD vom Typ %qTArrayindexwert %qE ist außerhalb der Grenzen des Arraytyps %qTArraytyp hat unvollständigen Elementtypen %qTArraytypen haben unterschiedliche GrenzenArray als Initialisierung verwendetArrays von Funktionen sind sinnlos%<asm%>-Schalter werden im Thumb1-Modus nicht unterstütztAssembler unterstützt %<-mabi=ilp32%> nichtInterner Fehler: assembler name hash list corruptedBehauptung fehlt hinter %qsAttribute der Zuweisungssemantik der Eigenschaft %qD in Konflikt mit vorheriger Deklarationhier zugewiesenZuweisung an Array von InitialisierungslisteZuweisungZuweisung (nicht Initialisierung) in DeklarationZuweisung streicht Qualifizierer %qv von Zeiger-ZieltypZuweisung von anderem Objective-C-TypZuweisung von Zeiger auf nicht eingeschlossenen AdressbereichZuweisung von temporärer %<initializer_list%> führt nicht dazu, dass die Lebenszeit des zugrundeliegenden Arrays ausgeweitet wirdLinks-Zuweisung könnte Kandidat für Formatattribut seinZuweisung erzeugt aus unqualifiziertem einen qualifizierten Funktionszeiger %q#vZuweisung des konstanten Feldes %qDZuweisung der Funktion %qDZuweisung von Element %qD in schreibgeschütztem ObjektZuweisung der schreibgeschützten Speicherstelle %qEZuweisung des schreibgeschützten Elementes %qDZuweisung des schreibgeschützten benannten Rückgabewertes %qDZuweisung des schreibgeschützten Parameters %qDZuweisung der schreibgeschützten Referenz %qDZuweisung der schreibgeschützten Variable %qDZuweisungsunterdrückungZuweisung an %qT aus %qT wandelt einen Zeiger in eine Ganzzahl um, ohne explizite TypkonvertierungZuweisung an %qT von %qT wandelt eine Zahl in einen Zeiger um, ohne explizite TypkonvertierungZuweisung an %qT von inkompatiblem Zeigertyp %qTZuweisung an %qT von Zeiger auf %qD mit inkompatiblem Typ %qTZuweisung an %qT von Zeigertyp %qT mit inkompatibler Speicherreihenfolge für SkalareZuweisung an Ausdruck von Arraytypassociate_integer_pointer(): Already associatedArgument mit angenommenem RangArgument mit angenommener FormArgument von angenommenem TypUmwandlung in Typ %qT von überladener Funktion wird angenommenangenommen, dass die Ausgabe der Direktive %wu Byte groß istangenommen, dass die Ausgabe der Direktive %wu Bytes groß istZeiger auf Element %qD wird angenommenAnnahme, dass vorzeichenbehafteter Überlauf nicht auftritt, wenn Konstanten um einen Vergleich kombiniert werdenAnnahme, dass vorzeichenbehafteter Überlauf nicht auftritt, wenn Konstante in Vergleich verringert wirdAnnahme, dass vorzeichenbehafteter Überlauf nicht auftritt, wenn %</%> oder %<%%%> auf %<>>%> oder %<&%> vereinfacht wirdder Compiler geht davon aus, dass kein vorzeichenbehafteter Überlauf auftritt, und vereinfacht daher %<X - Y %s 0%> zu %<X %s 0%>Annahme, dass vorzeichenbehafteter Überlauf nicht auftritt, wenn %<abs (X)%> auf %<X%> oder %<-X%> vereinfacht wirdAnnehmen, dass vorzeichenbehafteter Überlauf nicht auftritt, wenn %<min/max (X,Y)%> zu %<X%> oder %<Y%> vereinfacht wirdAnnahme, dass vorzeichenbehafteter Überlauf bei Vereinfachung der Bedingung nicht auftrittAnnahme, dass vorzeichenbehafteter Überlauf nicht auftritt, wenn Bedingung zu Konstante vereinfacht wirdAnnahme, dass vorzeichenbehafteter Überlauf nicht auftritt, wenn Bereichsprüfung vereinfacht wirdasynchrones Argumentmindestens ein Argument vom Typ %<size_t%> erwartetan Offset %s des Zielobjekts %qE der Größe %san Offset %s des Zielobjekts der Größe %s, alloziert durch %qEan Offset %s des Quellobjekts %qE der Größe %san Offset %s des Quellobjekts der Größe %s, alloziert durch %qEan Offset %wi von %qD, das hier deklariert istan Offset [%wi, %wi] von %qD, das hier deklariert istatexit gescheitertVersuch, die Adresse eines Bitfelds zu bestimmenVersuch, die Adresse des Bitfeldstrukturelements %qD zu ermittelndem Attribut %<%E(%s)%> fehlt ein ArgumentAttribut %<%E(%s, %E)%> hat ungültiges Positionsargument %iAttribut %<%E(%s, %E, %E)%> hat ungültiges Positionsargument %i%<fallthrough%>-Attribut ist nicht direkt vor einer case-Marke oder einer default-MarkeAttribut %<fallthrough%> ist mehrfach angegebenArgument für Attribut %<target%> ist keine ZeichenketteArgument von Attribut %qE muss eins von %qs oder %qs seinArgument von Attribut %qE muss eins von %qs, %qs, %qs oder %qs seinAttributargument von %qE ist keine Zeichenketteungültiger Modus für Attribut %qEAttribut %qE ungültiger Modus %qs; erwartet wird einer von %qs, %qs, %qs oder %qsAttribut %qE Modus %qE ist kein Bezeichner; erwartet wird einer von %qs, %qs, %qs oder %qsAttribut %qE enthält unerwartete %<(%> nach Modus %qs; erwartet wird ein Positionsargument oder %<)%>Attribut %qE ohne Argumente bei einem Nicht-PrototypAttribut %qs bezieht sich nur auf Arraytypenbeim Attribut %qs ist das Argument %qs unbekanntArgument von Attribut %qs muss eine Zeichenkette seinAttribut %qs hat ungültiges positionelles ArgumentAttribut %qs ist unverträglich mit Modus %qsAttribut %qs enthält nicht übereinstimmende Positionsargumente mit den Werten %i und %idem Attribut %qs fehlt Positionsargument 2, das in der vorherigen Bestimmung in Argument %u angegeben wurdebeim Attribut %qs hat das Argument an Position %i den ungültigen Wert %wibeim Attribut %qs hat das positionelle Argument %i den Wert %wi, der die Anzahl der Funktionsparameter %u übersteigtbeim Attribut %1$qs verweist Argument 1 auf Typ %3$qT, der mit %2$qs qualifiziert istAttribut %qs hat Positionsargument 1, das sich auf das Argument des Funktionstyps %qT beziehtbeim Attribut %qs verweist Argument 1 auf Typ %qT, der kein Zeigertyp istAttribut %qs positionelles Argument 2 widerspricht der vorherigen Bestimmung von Argument %uAttribut %qs positionelles Argument 2 fehlt in vorheriger Bestimmungbeim Attribut %qs verweist Argument 2 auf Typ %qT, der nicht ganzzahlig istAttribut %qs ist mehrfach angegebenAttribut-DeklarationAttribut für %q#T muss dem Schlüsselwort %qs folgenAttribut wird ignoriertAttribut in Deklaration von %q#T ignoriertAttribut in expliter Instanziierung %q#T ignoriertattribute-using-prefix ist nur mit %<-std=c++17%> oder %<-std=gnu++17%> verfügbarAttribut, das Präfix verwendet, wird zusammen mit Gültigkeitsbereich-Attribut-Token verwendetAttributwert %qs ist im %qs-Attribut unbekanntder Wert %qs wurde bereits im Attribut %qs angegebenattribute(target("%s")) ist unbekanntAttribute hinter geklammerter Initialisierung werden ignoriertbei einer Funktionsdefinition sind keine Attribute erlaubtAttribute dürfen an dieser Stelle nicht verwendet werdenAttribute am Anfang der Anweisung werden ignoriertAttribute an Spezifizierer ausführlichen Typs ignoriert, der keine Vorwärtsdeklaration istAttribute an Templateinstanziierung ignoriertAttribute an instanziiertem Typen ignoriertAttribute in Parameterarraydeklarator ignoriertAttribute dürfen hier eingesetzt werdenAttribute dürfen nicht vor dem Objective-C++-Schlüsselwort %<@%D%> angegeben werdenAttribute sollten in einer Funktionsdefinition vor dem Deklarator angegeben werdenautomatische FPU-Auswahl ist hier momentan nicht erlaubtautomatische Variable %qE kann nicht %<threadprivate%> seinInterner Fehler: aux field set for edge %s->%sInterner Fehler: aux field set for indirect edge from %sverfügbar seit Fortran 77Backend-Deklaration für Modulvariable %qs ist bereits vorhandenfalsche ADDR_SPACE_GLOBAL-AdresseFalsche AdresseFalsche Adresse, nicht (reg+disp):falsche Adresse, keine Konstante:falsche Adresse, keine E/A-Adresse:Falsche Adresse, nicht post_inc oder pre_dec:falsche Ausrichtung: %dFalscher Betrag der Stapelspeicherentfernung: %dFalscher eingebauter CodeFalscher eingebauter fcodeFalscher eingebauter ICodeFalscher Bedingungscodebad expressionFalscher Ausdruckstyp beim Durchlaufen (%d)falscher Befehl für 'A'Falscher Befehl in frv_print_operand, Fall 0Falscher Befehl in frv_print_operand, falsches const_doubleFalscher Befehl in frv_print_operand, Fall »z«Falscher Befehl für frv_print_operand, Modifizierer »F«:Falscher Befehl für frv_print_operand, Modifizierer »L«:Falscher Befehl für frv_print_operand, Modifizierer »M/N«:Falscher Befehl für frv_print_operand, Modifizierer »O«:Falscher Befehl für frv_print_operand, Modifizierer »e«:Falscher Befehl für frv_print_operand, Modifizierer »f«:Falscher Befehl für frv_print_operand, Modifizierer »g«:Falscher Befehl für frv_print_operand, Modifizierer »P«:Falscher Befehl für frv_print_operand_address:Falscher Befehl für frv_print_operand_memory_reference:ungültige Bewegungbad opungültiger Operandschlechte Option %qs für Attribut %<optimize%>schlechte Option %qs für Pragma %<optimize%>Falscher Operand für output_condmove_singleFalscher Operand für output_move_doubleFalscher Operand für output_move_singlefalsches RegisterFalsches Register für frv_print_operand_memory_reference_reg:falscher Rückgabetyp für Funktionsargument %u von %<__builtin_tgmath%>Falscher Schiebe-Befehl:Falscher Testfalscher Typ für Argument %u von Funktionsargument %u von %<__builtin_tgmath%>falsche Verwendung der spec-Funktion %qsFalscher Wert %<%s%> für Schalter %<-mtls-size=%>Falscher Wert %qs für Schalter %<-mcpu%>Falscher Wert %qs für Schalter %<-mfp-rounding-mode%>Falscher Wert %qs für Schalter %<-mfp-trap-mode%>falscher Wert %qs für %<-mmemory-latency%>Falscher Wert %qs für Schalter %<-mtls-size%>falscher Wert %qs für Schalter %<-mtrap-precision%>falscher Wert %qs für Schalter %<-mtune%>falscher Wert (%qs) für Schalter %<-march=%>falscher Wert (%qs) für Schalter %<-mtune=%>unbekannter Wert (%qs) für %<target("arch=")%>-Attributunbekannter Wert %qs für %<target("tune=")%>-Attributfalscher Wert für %<%s-%s%>falscher Wert für %<%s=%s%>schlecht geschachtelte C-Header vom PräprozessorApostroph %<'%> außerhalb von Anführungszeichen im FormatSperrregion darf nicht innerhalb einer Region eng geschachtelt sein, die arbeitsteilend, %<loop%>, %<critical%>, %<ordered%>, %<master%>, explizit %<task%> oder %<taskloop%> istBasis %qT wird initialisiert nachBasisklasse %q#T hat einen zugänglichen nicht-virtuellen DestruktorBasisklasse %q#T sollte explizit im Kopierkonstruktor initialisiert werdenBasisklasse %qT ist nicht %<public%>Expansion der Basisinitialisierung %qT enthält keine ParameterpacksBasisoperand von %<->%> hat Nicht-Zeiger-Typ %qTBasisoperand von %<->%> ist kein ZeigerBasistyp %qT ist kein struct- oder Klassentypder Basistyp muss eine Klasse oder ein Interface sein, nicht »%s«der Basistyp muss ein Interface sein, nicht »%s«der Basistyp kann nicht %<void%> seinInterner Fehler: base variable or SSA name undeclaredInterner Fehler: basic block %d pred edge is corruptedInterner Fehler: basic block %d should be marked irreducibleInterner Fehler: basic block %d should not be marked irreducibleInterner Fehler: basic block %i edge lists are corruptedInterner Fehler: basic blocks not laid down consecutivelyInterner Fehler: bb %d does not belong to loop %dInterner Fehler: bb %d has father loop %d, should be loop %dInterner Fehler: bb %d on wrong placeda %qT vom Benutzer bereitgestelltes %qD hatda es ein Element von %qT istda er als glvalue verwendet wirdda der Arrayelementtyp %qT variable Größe hatAnfangsausdruck verweist auf äußeren Iterator %qDbinäres Argument %u für typgenerische Funktion, die ausschließlich dezimal istbinärer Ausdruck in Operand von Faltungsausdruckbinärer Operator unterstützt nicht, dass bool-Vektor mit Gleitkommavektor vermischt wirdbinärer Operator unterstützt keine zwei bool-Vektor-OperandenBinärer Operator unterstützt Boolean-Vektor-Argument nichtbind(c)-Prozedurdas Binden der Referenz vom Typ %qH an %qI streicht QualifiziererBitfeld %q#D mit Nicht-Ganzzahl-Typ %qTBreite des Bitfeldes %q+D ist keine GanzzahlkonstanteBitfeld %qD mit Nicht-Ganzzahl-Typ %qTBitfeld %qD mit Nicht-Ganzzahl-Typ %qTBitfeld %qE hat atomaren TypenBitfeld %qE in %qs-KlauselBitfeld %qs hat ungültigen TypenBreite des Bitfeldes %qs ist keine GanzzahlkonstanteBreite des Bitfeldes %qs ist kein GanzzahlkonstantenausdruckBitfeld hat atomaren TypenBitweiser Vergleich ergibt immer »false«Bitweiser Vergleich ergibt immer »true«bitweise Operation zwischen den unterschiedlichen Aufzählungstypen %qT und %qT ist veraltetBlock-IFextern-Deklaration %q#D mit Gültigkeitsbereich Block ist im Zuständigkeitsbereich des Moduls nicht erlaubtKörper der %<constexpr%>-Funktion %qD ist keine Rückgabeanweisungnur simulierte DISPOSE-Konstruktion: %dfalsche JARL-Konstruktion: %dnur simulierte JR-Konstruktion: %dnur simulierte PREPARE-Konstruktion: %dfalscher Ergebnistyp bei VergleichBoolesche Register für die Gleitkommaoption benötigtwenn %<-mstack-protector-guard=sysreg%> angegeben ist, müssen sowohl %<-mstack-protector-guard-offset%> als auch %<-mstack-protector-guard-reg%> angegeben werdensowohl %<__thread%> als auch %<thread_local%> angegebenwidersprüchliche Modifizierer %<monotonic%> und %<nonmonotonic%> angegebensowohl %qs als auch %qs angegebensowohl »%s« als auch das %qE-Attribut geben die Adresse anbeide Argumente in binärer Faltung haben unexpandierte Parameterpackungendie beiden Argumente müssen kompatibel seinbeide Argumente für %<__builtin___clear_cache%> müssen Zeiger seinsowohl binäre als auch dezimale Gleitkomma-Argumente in Aufruf von typgenerischer Funktionbeide Zweige der %<if%>-Anweisung als %qs markiertsowohl komplexe als auch dezimale Gleitkomma-Argumente in Aufruf von typgenerischer Funktiongeschweift geklammerte Spezifikation %qs endet mit Escapezeichengeschweift geklammerte Spezifikation %qs ist bei %qc ungültiggeschweift geklammerter Spezifikationskörper %qs ist ungültiggeklammerte Gruppe innerhalb eines Ausdrucks nur in einer Funktion erlaubtgeschweifte Klammern um Skalar-Initialisierunggeschweifte Klammern um skalare Initialisierung für Typ %qTZweig %2d niemals ausgeführtZweig %2d wurde genommen: %s%sbreak-Anweisung nicht innerhalb einer Schleife oder »switch«break-Anweisung mit OpenMP für Schleife verwendetbuild_dt: Format mit Namenslisteeingebaute %qD ist hier deklariertEingebaute Funktion %q+D als Nicht-Funktion deklarierteingebaute Funktion %qD als Nicht-Funktion deklarierteingebaute Funktion %qD erfordert das Kennzeichen %<-mconstant-cfstrings%>eingebaute Funktion %qD nimmt nur ein Argumenteingebaute Funktion %qE muss direkt aufgerufen werdeneingebaute Funktion %qE nicht für MIPS16 unterstützteingebaute Funktion %s erfordert Nios II R%deingebaute Funktion %qF ist veralteteingebautes %qF ist nur für interne GCC-Nutzungeingebaute %qF wird nur mit %<-mhtm%> unterstützt (standardmäßig für %<-march=zEC12%> und höher eingeschaltet)eingebaute %qF wird nur mit %<-mvx%> unterstützt (standardmäßig für %<-march=z13%> und höher eingeschaltet)eingebaute Funktion %qs kann nur im 64-Bit-Modus verwendet werdeneingebaute Funktion %qs erfordert GLIBC (2.23 oder neuer), die Hardware-Fähigkeits-Bits exportiertEingebaute Funktion %qs akzeptiert genau 1 ArgumentEingebaute Funktion %qs akzeptiert genau 2 ArgumenteEingebaute Funktion %qs akzeptiert genau 3 Argumenteeingebaute Funktion %qs akzeptiert nur ein Zeichenkettenargumenteingebaute Funktion %qs erfordert 4 Argumenteeingebaute Funktion %qs erfordert eingebaute Funktion %qsOperand %d der eingebauten Funktion muss konstant seindas eingebaute vec_step kann nur mit Vektortypen verwendet werden.aber %qD wirft nicht; vielleicht sollte sie als %<noexcept%> deklariert werdenwird aber überragt von einer Tabelle ohne RTTI-Informationen aus anderer Übersetzungseinheitaber nicht hierdurch Argument %u vom Typ %s nach %qD, die hier deklariert wurdedurch Argument %u vom Typ %s nach %qTBytecode-Strom in Datei %qs, mit einem älteren GCC-Compiler als 10.0 erzeugtBytecode-Strom in Datei %qs mit LTO-Version %d.%d statt des erwarteten %d.%d erzeugtBytecode-Strom: Marke %s statt %s erwartetBytecode-Strom: Leeren Cgraph-Knoten gefundenBytecode-Strom: Mehrere Instanzen des Cgraph-Knoten mit UID %d gefundenBytecode-Strom: Nicht nullterminierte Zeichenkette gefundenBytecode-Strom: Ausschuss am Ende des »symbols«-AbschnittsBytecode-Strom: Kein Gerufener beim Lesen der Kante gefundenBytecode-Strom: Kein Aufrufer beim Lesen der Kante gefundenBytecode-Strom: Zeichenkette zu lang für Zeichenkettentabellebytecode stream: tag %s is not in the expected range [%s, %s]Bytecode-Strom: Versuch, %d Bytes nach Ende des Eingabepuffers zu lesenBytecode-Strom: unerwarteter LTO-Abschnitt %sBytecode-Strom: unerwartete Marke %sbytecode stream: unknown GIMPLE statement tag %sC++11-Attribute nur mit %<-std=c++11%> oder %<-std=gnu++11%> verfügbarAufruf %2d niemals ausgeführt
Aufruf %2d gab %s zurück
Aufruf hat ringförmige AbhängigkeitAufruf wird niemals ausgeführt und Codegröße würde wachsenAufruf ist unwahrscheinlich und Codegröße würde wachsenAufruf von %<(%T) (%A)%> ist nicht eindeutigAufruf des überladenen %<%D(%A)%> ist nicht eindeutigAufruf des überladenen %<%s(%A)%> ist mehrdeutigder Hash der Aufrufanweisung zeigt nicht auf die erste direkte Kante der Folge von spekulativen AufrufenAufruf von %<__builtin_custom_%s%> steht in Konflikt mit Schalter %<-mcustom-%s%>Aufruf von %qD verwendet das Standardargument für Parameter %P, der noch nicht definiert wurdeAufruf der Funktion %qD, die unvollständigen Typen %q#T wirftAufruf einer Funktion, die unvollständigen Typen %q#T wirftAufruf für interne Funktion %qEAufruf der nicht-%<constexpr%>-Funktion %qDAufruf der Nicht-Funktion %qDfür Ruf vorgesehenes Register wurde für globale Registervariable verwendetvon hier aufgerufenvon dieser Funktion aus aufgerufengerufenes Objekt %qD ist keine Funktion oder Funktionszeigergerufenes Objekt %qE ist keine Funktion oder Funktionszeigergerufenes Objekt ist keine Funktion oder FunktionszeigerAufgerufene Funktion verweist auf comdat-lokale SymboleInterner Fehler: caller edge count does not match BB countInterner Fehler: caller edge count invalidAufrufer ist nicht optimiertAufruf von %qD mit SSE-Aufrufkonvention, ohne dass SSE/SSE2 eingeschaltet istdas Aufrufen von %qD mit einem nicht-null-Argument ist unsicherAufruf von %qD mit Attribut sseregparam, ohne dass SSE/SSE2 eingeschaltet istAufruf von %qT mit Attribut sseregparam, ohne dass SSE/SSE2 eingeschaltet istAufrufe von Funktionen vom Typ %qT erfordern die SVE-ISA-ErweiterungAufrufe überladener Operatoren können nicht in einem Konstanten-Ausdruck auftretencalls_comdat_local wird außerhalb einer comdat-Gruppe gesetztkann nur auf eine einzelne Deklaration angewendet werdennur Attribut %qE kann für Definitionen von Objekten eines Klassentyps im Datei-Gültigkeitsbereich verwendet werdenhöchstens einer der Spezifizierer %<constinit%> und %<constexpr%> kann verwendet werdenDie Attribute longcall und shortcall können nicht gleichzeitig für die gleiche Funktion verwendet werdenPCH-Datei kann nicht erweitert werden: %mPosition in PCH-Datei kann nicht ermittelt werden: %mPosition in PCH-Datei kann nicht gesetzt werden: %mEs können nicht mehrere Stapelprüfungsmethoden gleichzeitig verwendet werdenNicht-GP-relative absolute Adresse kann nicht verwendet werdenKandidat 1:Kandidat 2:Kandidat ist:Kandidaten sind:Kandidat:Kandidaten sind:%<dynamic_cast%> %qE (des Typs %q#T) in Typ %q#T (%s) kann nicht vorgenommen werdenAufzählungsliste kann nicht zu Template-Instanziierung hinzugefügt werdenkann keinen Alias für den Ausdruck »%s« bildenes kann kein Objekt des abstrakten Typs %qT belegt werdenStapelspeicher für Variable %q+D kann nicht angefordert werden, nackte Funktion%<%s%> kann nicht auf %qD angewendet werden, da diese bereits mit einer OpenACC-»declare target«-Direktive markiert wurde%<offsetof%> kann nicht auf nicht-konstante Adresse angewandt werden%<offsetof%> kann nicht auf Aufzähler %qD angewandt werden%<offsetof%> kann nicht auf Destruktor %<~%T%> angewandt werden%<offsetof%> kann nicht auf Elementfunktion angewandt werden%<offsetof%> kann nicht auf Elementfunktion %qD angewandt werden%<offsetof%> kann nicht auf statisches Datenelement %qD angewendet werden%<offsetof%> kann nicht angewandt werden, wenn %<operator[]%> überladen istElementzeiger %qE kann nicht auf %qE angewandt werden, da letzteres vom Nicht-Klassen-Typ %qT istkann nicht »%s« seinkönnen keine »%s«-Elemente seinkann nicht gleichzeitig »scope« und »%s« seinkann nicht gleichzeitig %<final%> und %<abstract%> seinkann nicht als Funktion deklariert werdenkann nicht %<final%> sein, meinten Sie %<const%>?kann kein weiteres Feld sein, da es die festgelegte Größe %s ändertdas Bitfeld %qE kann nicht mit %qT verbunden werdennicht-konstante lvalue-Referenz vom Typ %qH kann nicht an Wert vom Typ %qI gebunden werdennicht-konstante lvalue-Referenz vom Typ %qH kann nicht an rvalue vom Typ %qI gebunden werdendas gepackte Feld %qE kann nicht mit %qT verbunden werdenReferenz vom Typ %qH kann nicht an %qI gebunden werden, da die Arraygrenzen sich unterscheidender R-Wert %qE kann nicht mit %qT verbunden werdenrvalue-Referenz vom Typ %qH kann nicht an lvalue vom Typ %qI gebunden werden%<__builtin_custom_%s%> kann nur aufgerufen werden, wenn %<-mcustom-%s%> angegeben istein Konzept kann nicht wie eine Funktion aufgerufen werdenKonstruktor %<%T::%D%> kann nicht direkt aufgerufen werdenElementfunktion %qD kann nicht ohne Objekt aufgerufen werdender Standardkonstruktor der Basisklasse ist mit »@disabled« annotiert und kann daher nicht aufgerufen werden%qE kann nicht per Referenz aufgefangen werdenElement %qD von unbenannter Union kann nicht eingefangen werdenException vom Typ %qT kann nicht gefangen werden, da Typen mit variabler Größe beteiligt sindNicht existierende Antwortdatei konnte nicht geschlossen werdenNur-Empfangs-Kanal kann nicht geschlossen werdenGNU- und SVE-Vektoren können nicht in einer binären Operation kombiniert werden%qE kann nicht vom Typ %qH in den Typ %qI umgewandelt werden%qE kann nicht vom Typ %qT in den Typ %qT umgewandelt werden%qH kann nicht nach %qI umgewandelt werden%qH kann nicht nach %qI bei Argumentübergabe umgewandelt werden%qH kann nicht nach %qI in Zuweisung umgewandelt werden%qH kann nicht nach %qI im Standardargument umgewandelt werden%qH kann nicht nach %qI in Initialisierung umgewandelt werden%qH kann nicht nach %qI in Rückgabe umgewandelt werdenWert vom Typ %qT kann nicht in Vektortyp %qT konvertiert werden, da sie unterschiedlich groß sindVektor vom Typ %qT kann nicht in Typ %qT konvertiert werden, da sie unterschiedlich groß sindUmwandlung von %qT in Basisklasse %qT nicht möglich, da %qT unvollständig istUmwandlung von Basisklasse %qT in abgeleitete Klasse %qT nicht möglich, da die Basisklasse virtuell istUmwandlung von Basisklasse %qT in abgeleitete Klasse %qT nicht möglich, da die Basisklasse %qT virtuell istunvollständiger Typ %qH kann nicht in %qI umgewandelt werdenUmwandlung von Zeiger auf Basisklasse %qT in Zeiger auf abgeleitete Klasse %qT nicht möglich, da die Basisklasse virtuell istUmwandlung von Zeiger auf Basisklasse %qT in Zeiger auf abgeleitete Klasse %qT nicht möglich, da die Basisklasse %qT virtuell istes kann nicht in Zeigertyp konvertiert werdenTyp %qH kann nicht in den Typ %qI umgewandelt werdenWert kann nicht in einen Vektor umgewandelt werdenZeiger auf Referenzelement %qD kann nicht erzeugt werdender vorkompilierte Header %s kann nicht erzeugt werden: %mfür Typ %qT kann keine Typinformation erzeugt werden, weil dies Typen variabler Größe umfasst%<::main%> kann nicht als %qs deklariert werden%<::main%> kann nicht als globale Variable deklariert werden%<::main%> kann nicht als Template deklariert werden%<::main%> kann nicht inline deklariert werden%<::main%> kann nicht statisch deklariert werden%<catch%>-Parameter kann nicht als abstrakter Klassentyp %qT deklariert werden%<catch%>-Parameter kann nicht als R-Wert-Referenztyp %qT deklariert werden%qD kann nicht in einem anderen Modul deklariert sein%qD kann nicht als Bitfeldtyp deklariert werdenParameter kann nicht mit %<decltype(auto)%> deklariert werdenBitfeld %qD kann nicht mit %<warn_if_not_aligned%>-Typ deklariert werdenBitfeld %qD kann nicht mit Funktionstyp deklariert werdenBitfeld %qs kann nicht mit %<warn_if_not_aligned%>-Typ deklariert werdenFeld %q+D kann nicht als vom abstrakten Typ %qT deklariert werdenElement %<%T::%s%> kann nicht in %qT deklariert werdenElementfunktion %<%T::%s%> kann nicht innerhalb von %qT deklariert werdenElementfunktion %qD kann nicht deklariert werden, statische Bindung zu habenParameter %q+D kann nicht als vom abstrakten Typ %qT deklariert werdenParameter kann nicht als vom abstrakten Typ %qT deklariert werdenZeiger auf %q#T kann nicht deklariert werdenZeiger auf Element %q#T kann nicht deklariert werdenZeiger auf qualifizierten Funktionstypen %qT kann nicht deklariert werdenReferenz auf %q#T kann nicht deklariert werdenReferenz auf %q#T kann nicht deklariert werden, da letzteres weder Typedef noch Templatetyp-Argument istReferenz auf qualifizierten Funktionstypen %qT kann nicht deklariert werdenstatische Funktion innerhalb anderer Funktion kann nicht deklariert werdenVariable %q+D kann nicht als vom abstrakten Typ %qT deklariert werdenAdresse kann nicht zerlegt werdenKlassentyp %qT kann nicht dekomponiert werden, da er ein unbenanntes Strukturelement hatKlassentyp %qT kann nicht dekomponiert werden, da er ein unbenanntes Unionelement hatKlassentyp %qT ohne nicht-static-Datenelemente kann nicht dekomponiert werdenKlassentyp %qT kann nicht dekomponiert werden, da sowohl er als auch seine Basisklasse %qT nichtstatische Datenelemente habenKlassentyp %qT kann nicht dekomponiert werden, da seine Basisklassen %qT und %qT nichtstatische Datenelemente habenunzugreifbares Element %qD von %qT kann nicht dekomponiert werdenLambda-Abschluss-Typ %qT kann nicht dekomponiert werdennicht-Array-nicht-Klassentyp %qT kann nicht dekomponiert werdenUnion-Typ %qT kann nicht dekomponiert werdenArray mit variabler Länge %qT kann nicht dekomponiert werdenVektor %qT variabler Länge kann nicht zerlegt werdenZeiger auf unvollständigen Typen %qT kann nicht verringert werdenTemplateargumente für die Kopierinitialisierung von %qT können nicht abgeleitet werden, da es keine expliziten Ableitungshinweise oder benutzerdeklarierten Konstruktoren gibtTemplateargumente für %qT können nicht abgeleitet werden, da es keine Ableitungshinweise gibtfür unbenannten Union-Member ist kein Standardvergleich definiertfür flexible Arraymember ist kein Standardvergleich definiertfür Referenzelement %qD ist kein Standardvergleich definiertfür Union-Typ %qT ist kein Standardvergleich definiert%qD kann nicht in einem anderen Modul definiert sein%<friend%>-Funktion %qs kann nicht in einer lokalen Klassendefinition definiert werdenElementfunktion %<%T::%s%> kann nicht innerhalb von %qT definiert werdenElement des abhängigen Typedef %qT kann nicht definiert werdenEine Funktion kann nicht gelöscht werden. Nur Zeiger auf Objekte sind gültige Argumente für %<delete%>%qE in %qs-Klausel kann nicht dereferenziert werdenEs kann nicht von %<final%>-Basis %qT in abgeleiteten Typ %qT abgeleitet werdenEingebaute Funktion %qs kann nicht abgeschaltet werdenin PTX-Assembler können keine unausgerichteten Zeiger erzeugt werden%qs kann nicht ausgeführt werden: %s%qs kann nicht ausgeführt werden: %s: %mInitialisierung für Element %qD kann nicht expandiert werdenElement %q#D kann nicht explizit deklariert werden, externe Bindung zu habenfallthrough ist bei letztem Fall einer switch-Anweisung unmöglich%<ldd%> kann nicht gefunden werden%<nm%> kann nicht gefunden werden%qs kann nicht gefunden werden%s kann nicht in Plugin %s gefunden werden
%s%s kann nicht in Plugin %s gefunden werden: %sLTO cgraph kann in %s nicht gefunden werdenLTO-Abschnittsreferenzen können in %s nicht gefunden werdenin der Klasse %qs konnte während des Neuladens von %<asm%> kein Register gefunden werdenkein gültiger Zählername %qs auffindbar für Option %<-fdbg-cnt=%>Klasse %qE kann nicht gefunden werdenmit Eigenschaft verbundene Instanzvariable nicht gefundenSchnittstellendeklaration für %qE kann nicht gefunden werdenSchnittstellendeklaration für %qE, Basisklasse von %qE, kann nicht gefunden werdenProtokolldeklaration für %qE kann nicht gefunden werdenReferenzmarke für Klasse %qE kann nicht gefunden werdenZeiger auf Element der Nicht-Klasse %q#T kann nicht erzeugt werdenfür %qs kann kein lageunabhängiger Code erzeugt werdenPosition in PCH-Datei kann nicht ermittelt werden: %mProgrammstatus kann nicht ermittelt werden: %minkonsistente Aufrufe von %qs können nicht behandelt werdenkann keinen »in«-Vertrag haben, da die übersteuerte Funktion »%s« keinen »in«-Vertrag hatein impliziter Standardkonstruktor ist nicht möglich, da die Basisklasse »%s« keinen Standardkonstruktor hatZeiger auf unvollständigen Typen %qT kann nicht erhöht werdenvon der »final«-Klasse »%s« kann nicht geerbt werdenAggregat des Typs %qT kann nicht mit zusammengesetztem Literal initialisiert werdenArray von %qT kann nicht aus einem Zeichenkettenliteral mit Typ %<Array von %T%> initialisiert werden%<main%> ist nicht als »inline« möglichPlugin %s kann nicht geladen werden
%sPlugin %s kann nicht geladen werden: %sOperanden von dezimalen Gleitkomma- und komplexen Typen können nicht gemischt werdenOperanden von dezimalen und anderen Gleitkommatypen können nicht gemischt werdenOperanden von dezimalen Gleitkomma- und Vektortypen können nicht gemischt werdenes können maximal %d Namensräume geschachtelt werden%qs kann nicht zum Schreiben geöffnet werden: %m»%s« kann nicht geöffnet werden%s kann nicht zum Schreiben geöffnet werden: %m%s kann nicht geöffnet werden: %m»%s« kann nicht geöffnet werdenEingabedatei »%s« kann nicht geöffnet werdenZwischenspeicherdatei für gcn-asm kann nicht geöffnet werdenZwischenspeicherdatei für gcn-obj kann nicht geöffnet werdenzwischenzeitliche ptx-Datei kann nicht geöffnet werdenldd-Ausgabe kann nicht geöffnet werden: %mVerschachtelte Antwortdatei konnte nicht geöffnet werdennm-Ausgabe kann nicht geöffnet werden: %mProfilingdatei %s kann nicht geöffnet werdeneine Funktion, die nicht %<virtual%> ist, kann nicht übersteuert werden»final«-Funktion »%s« kann nicht übersteuert werden»final«-Funktion »%s.%s« kann nicht übersteuert werdenArgument kann nicht in Vektorregister übergegeben werden, da AltiVec-Befehle ausgeschaltet sind; %qs schaltet sie einObjekt mit volatile-Feld kann nicht in Register geladen werdenFehler beim Einlesen von %<LOT_section_decls%> aus %s%s kann nicht gelesen werden: %mLTO-Modus-Tabelle kann nicht aus %s gelesen werdenPCH-Datei kann nicht gelesen werden: %mFunktionsprofil aus %s kann nicht gelesen werdenSpec-Datei %qs kann nicht gelesen werden: %mZeichenkettentabelle aus %s konnte nicht gelesen werdenReferenztyp %qT kann nicht über %<...%> empfangen werdenGanzzahlkonstantenoperand kann in %<asm%> nicht neu geladen werdenkann nicht aufgelöst werdenüberladene Funktion %qD konnte nicht durch Umwandlung in Typ %qT aufgelöst werdenvom Behandler eines Funktions-try-Blocks eines Konstruktors kann nicht zurückgekehrt werdenWert kann nicht in Vektorregister zurückgegeben werden, da AltiVec-Befehle ausgeschaltet sind; %qs schaltet sie einAttribut %qE kann nicht nach der Definition festgelegt werdenUnterbrechungsattribut kann nicht gesetzt werden; keine aktuelle FunktionUnterbrechungsattribut kann nicht gesetzt werden: kein solcher BezeichnerKonzept %q#D kann nicht spezialisiert werden%<-o%> kann nicht mit %<-c%>, %<-S%> oder %<-E%> mit mehreren Dateien angegeben werdenfür eine Klasse kann kein %<override%> angegeben werden»-static« kann nicht mit »-fsanitize=Adresse« angegeben werden»-static« kann nicht mit »-fsanitize=hwaddress« angegeben werden»-static« kann nicht mit »-fsanitize=thread« angegeben werden%<-msep-data%> und %<-mid-shared-library%> können nicht zusammen angegeben werdenTail-Call nicht möglich: %sdie Adresse von %qs kann nicht ermittelt werdendie Adresse des Bit-Feldes %qD kann nicht ermittelt werdenAdresse eines Skalars mit umgekehrter Speicherreihenfolge kann nicht ermittelt werdenAdresse von %<this%> kann nicht ermittelt werden, das ein R-Wert-Ausdruck istAusdruck vom Typ %qT kann nicht geworfen werden, da Typen mit variabler Größe beteiligt sindTyp-Switch mit Nicht-Interface-Wert ist nicht möglichSSA-Form kann nicht aktualisiert werdender Eingabedateiname für einen vorkompilierten Header darf nicht %<-%> sein%<-mtp=cp15%> kann nicht mit 16-Bit-Thumb verwendet werden%<::%> kann nicht in Parameterdeklaration verwendet werden%<typeid%> kann nicht mit %<-fno-rtti%> verwendet werden%<va_arg%> kann nicht zusammen mit umgedreher Speicherreihenfolge verwendet werden%qs kann nicht als ein rufgesichertes Register verwendet werden%qs kann nicht als ein rufverwendetes Register verwendet werden%qs kann nicht als ein festes Register verwendet werdenein Objekt kann nicht als Parameter für eine Methode verwendet werdenIn der Linux-Toolchain kann die Funktion %qD nicht das Attribut »exception« habenIn der Linux-Toolchain kann das Attribut »indirect_call« nicht verwendet werdenIn der Linux-Toolchain kann die Funktion %qD nicht das Attribut »interrupt« habenModus %qs kann nicht für Aufzählungstypen verwendet werdenmshared und static können nicht zusammen verwendet werdenmthreads und mlegacy-threads können nicht zusammen verwendet werdenIn der Linux-Toolchain kann die Funktion %qD nicht das Attribut »exception« habenKleindatenzugriffe für %qs nicht möglichTemplate kann nicht verwendet werden, um das Feld zum zusammengesetzten »%s« hinzuzufügenTemplate kann nicht verwendet werden, um virtuelle Funktion zu Klasse »%s« hinzuzufügenTyp %s kann nicht als Typ %s verwendet werdenva_start in Unterbrechungsfunktion kann nicht verwendet werdenFeld mit unbekannter Grenze %qT kann nicht mit Werten initialisiert werden%s kann nicht geschrieben werden: %mPCH-Datei kann nicht geschrieben werdenPCH-Datei kann nicht geschrieben werden: %mAuffüllung für PCH-Datei kann nicht geschrieben werden: %min %s kann nicht geschrieben werden: %mkanonische Typen unterscheiden sich für identische Typen %qT und %qTEinfangen per Kopie von unvollständigem Typ %qTErfassung von Nicht-Variable %qEErfassung der Variable %qD ohne automatische SpeicherdauerEinfangen des variabel geänderten Typs %qT, der kein N3639-Array mit Laufzeitgrenzen istcase-Marke %qE nicht innerhalb einer switch-Anweisungcase-Marke reduziert nicht auf Ganzzahlkonstante»case«-Marke ist kein konstanter Ganzzahlausdruckcase-Marke nicht innerhalb einer switch-Anweisungcase-Marke überschreitet Maximalwert des Typscase-Marke ist kleiner als Minimalwert des Typsunsortierte case-Marken in switch-AnweisungCase-Marken nicht sortiert: case-Wert %qs nicht in Aufzählungstypcase-Wert %qs nicht in Aufzählungstyp %qTTypumwandlung fügt Qualifizierer %q#v zu Funktionstyp hinzuUmwandlung zwischen inkompatiblen Funktionstypen von %qH nach %qIunvollständiger Funktionstyp %qT kann nicht nach %qT umgewandelt werdenUmwandlung zwischen inkompatiblen Elementzeigertypen von %qH nach %qITypumwandlung streicht Qualifizierer %qv von Zeiger-ZieltypUmwandlung von %qH in %qI erhöht erforderliche Ausrichtung des ZieltypsTypumwandlung von %qH nach %qI verliert GenauigkeitCast von %qT ist nicht erlaubtTypumwandlung von Funktionsaufruf des Typs %qT in unpassenden Typen %qTTypkonvertierung von Zeiger auf Ganzzahl anderer BreiteUmwandlung des Typs %qT in Typ %qT entfernt QualifiziererTypkonvertierung erfordert Ausrichtung des ZieltypsTypkonvertierung gibt Arraytyp anTypkonvertierung gibt Funktionstyp anUmwandlung in %s-Adressraumzeiger von getrenntem %s-AdressraumzeigerUmwandlung in %s-Adressraumzeiger aus getrenntem allgemeinen AdressraumzeigerUmwandlung in allgemeinen Adressraumzeiger von getrenntem %s-AdressraumzeigerUmwandlung in Nicht-Ganzzahltyp %qT in konstantem AusdruckTypkonvertierung in Zeiger von Ganzzahl anderer BreiteTypkonvertierung in union-Typ von nicht in union vorhandenem TypenUmwandlung von %qT in %qT dereferenziert nicht den ZeigerUmwandlung zwischen Zeiger auf Funktion und Zeiger auf Objekt ist bedingt unterstütztNichtreferenztyp %q#T wird gefangenpolymorpher Typ %q#T wird per Wertzuweisung gefangenTyp %q#T wird per Wertzuweisung gefangenKategorie-Attribute sind in Objective-C 1.0 nicht verfügbarKategorie-Attribute sind in dieser Version des Compilers nicht verfügbar (wird ignoriert)Attribute cdecl und thiscall sind nicht verträglichInterner Fehler: cgraph count invalidInterner Fehler: cgraph_node has wrong clone listInterner Fehler: cgraph_node has wrong clone_ofInterner Fehler: cgraph_node has wrong prev_clone pointerInterner Fehler: cgraph_node is in clone list but it is not cloneÄnderung des aktiven Elements einer union von %qD zu %qDÄnderung des aktiven Elements einer union von %qD zu %qD während der Initialisierungwenn Sie den Rückgabetyp von %qs in einen Vergleichskategorietyp ändern, kann der Vergleich %qs und %qs verwendenZeichen 0x%02x ist in gemangeltem Namen nicht erlaubtZeichen 0x%04x ist in gemangeltem Namen nicht erlaubtcheck_dimension(): Bad array referencecheck_dummy_characteristics: Unexpected result %i of gfc_dep_compare_exprcheck_init_expr(): Unknown expression typecheck_intents(): List mismatchcheck_restricted(): Unknown expression typecheck_result_characteristics (1): Unexpected result %i of gfc_dep_compare_exprcheck_result_characteristics (2): Unexpected result %i of gfc_dep_compare_exprcheck_some_aliasing(): List mismatchcheck_some_aliasing(): corrupted dataPrüfsumme ist (%x,%x) statt (%x,%x)Wahl von %qD statt %qDWert der Chunkgröße muss positiv seinzirkuläre Vererbungzirkuläre Abhängigkeit eines Interfacesringförmige Zeigerdelegation erkanntzirkulärer Verweis auf enum-KonstanteKlasse %qE existiert bereitsKlasse %qE ist definiert, ohne eine Basisklasse anzugebenKlasse %qE ist veraltetKlasse %qT hat keinen Feldnamen %qDKlasse %qT ist implizit »friend« von ihr selbstKlasse %qs implementiert nicht das Protokoll %qEKlassenattribute sind in Objective-C 1.0 nicht verfügbarKlassendefinition darf nicht als »friend« deklariert seinKlassenerweiterung für Klasse %qE nach seiner %<@implementation%> deklariertKlassenerweiterungen sind in Objective-C 1.0 nicht verfügbarArgumentherleitung für Klassentemplate gescheitert:Argumentherleitung für Klassentemplate von %qT fehlgeschlagen: expliziter Herleitungshinweis in copy-list-initialization ausgewähltArgumentherleitung von Klassentemplates ist nur mit %<-std=c++17%> oder %<-std=gnu++17%> verfügbarPlatzhalter für Klassentemplate %qE ist in diesem Kontext nicht erlaubtKlassentyp %qT ist unvollständigKlauseln in %<simd%>-Eigenschaft sollten durch %<,%> getrennt werdenArgument für cleanup ist keine FunktionArgument für cleanup ist kein BezeichnerKlone für Attribut %<target_clones%> können nicht erzeugt werdenclose: %sgeschlossene IntervalleLTRANS-Ausgabeliste »%s« kann nicht geschlossen werden: %mAbhängigkeitsdatei »%s« kann nicht geschlossen werden: %mCoarray-ArgumentCode könnte fehloptimiert werden, es sei denn, %<-fno-strict-aliasing%> wird angegebenCodemodell %qs wird im ilp32-Modus nicht unterstütztCodemodell %qs wird im %s-Bit-Modus nicht unterstütztCodemodell %qs wird im x32-Modus nicht unterstütztCodemodell %qs mit %<-f%s%>Codemodell %s unterstützt keinen PIC-ModusCollapse-Argument erfordert positiven konstanten GanzzahlausdruckZusammengefallene »%s«-Schleifen bei %L nicht perfekt geschachteltzusammengelegte Schleifen sind nicht perfekt geschachteltcollect2-Version %s
Sammlung in schneller Aufzählung ist kein Objektcomdat-Symbole können nicht versioniert werdenInterner Fehler: comdat-local function called by %s outside its comdatInterner Fehler: comdat-local symbol referred to by %s outside its comdatKomma am Ende der Aufzählungslistekommagetrennte Liste in using-Deklaration ist nur mit %<-std=c++17%> oder %<-std=gnu++17%> verfügbarKommandozeilenoption %qs wird von dieser Konfiguration nicht unterstütztKommandozeilenoption %qs ist gültig für %s, aber nicht für %sKommandozeilenoption %qs ist gültig für den Treiber, aber nicht für %sgemeinsames Symbol kann nicht versioniert werdenGemeinsame Symbol-Debuginfo ist nicht als Symbol+Offset strukturiertcompare_actual_expr(): Bad component codecompare_bound_int(): Bad expressioncompare_real(): Bad operatorVergleich der endgültigen BefehlslistenVergleich von Gleitkomma mit %<==%> oder %<!=%> ist unsicherVergleich von Vektoren mit verschiedenen Element-TypenVergleich von Vektoren mit unterschiedlicher ElementanzahlVergleich ist durch beschränkten Wertebereich des Datentyps stets »unwahr«Vergleich ist durch beschränkten Wertebereich des Datentyps stets »wahr«Vergleich zwischen %q#T und %q#TVergleich zwischen %qT und %qTVergleich zwischen den unterschiedlichen Zeigertypen %qT und %qT benötigt Umwandlungbeim Vergleich zwischen unterschiedlichen Zeiger-auf-Element-Typen %qT und %qT fehlt eine TypkonvertierungVergleich zwischen Zeiger und GanzzahlVergleich zwischen Zeiger und '\0'Vergleich zwischen den Typen %qT und %qTVergleich ist immer %dVergleich ist immer %d wegen Breite des BitfeldesVergleich ist durch beschränkten Wertebereich des Datentyps stets »unwahr«Vergleich ist durch beschränkten Wertebereich des Datentyps stets »wahr«Vergleich von vollständigen und unvollständigen ZeigernVergleich der Konstanten %qE mit booleschem Ausdruck ist stets »false«Vergleich der Konstanten %qE mit booleschem Ausdruck ist stets »true«Im Vergleich verschiedener Objective-C-Typen fehlt Typumwandlungin Vergleich verschiedener Zeigertypen fehlt TypkonvertierungVergleich zwischen Aufzählungstyp %qT und Gleitkommatyp %qT ist veraltetVergleich zwischen Gleitkommatyp %qT und Aufzählungstyp %qT ist veraltetVergleich von Ganzzahlausdrücken, von denen nur einer ein Vorzeichen hat: %qT und %qTVergleich von Zeigern auf disjunkte AdressräumeVergleich von befördertem bitweisem Komplement eines vorzeichenlosen Werts mit einer KonstantenVergleich von befördertem bitweisem Komplement eines vorzeichenlosen Werts mit einer vorzeichenlosen ZahlVergleich eines vorzeichenlosen Ausdrucks in %<< 0%> ist stets unwahrVergleich eines vorzeichenlosen Ausdrucks in %<>= 0%> ist stets wahrVergleichsoperator %q+D mit Standardimplementierung nach der ersten Deklaration [class.compare.default]Vergleich mit Zeichenkettenliteral führt zu unspezifiziertem VerhaltenVergleiche wie %<X<=Y<=Z%> haben nicht ihre mathematische Bedeutungder kompatible Typ ist hierKompilierung wegen »-Wfatal-errors« beendet.
Kompilierung wegen »-fmax-errors=%u« beendet.
Kompilierung beendet.
der Compiler unterstützt ZSTD-LTO-Komprimierung nichtkomplexes Argument %u für typgenerische Funktion, die ausschließlich dezimal istkomplexe Argumente müssen Gleitkommatyp habenkomplexe Argumente müssen identische Typen habenÜberlauf von komplexen Gleitkommazahlen in Ausdruck %qE des Typs %qT ergibt %qEÜberlauf von komplexen Gleitkommazahlen in Ausdruck des Typs %qT ergibt %qEÜberlauf von komplexen Ganzzahlen in Ausdruck %qE des Typs %qT ergibt %qEÜberlauf von komplexen Ganzzahlen in Ausdruck des Typs %qT ergibt %qEcomplex ungültig für %qsKomponente %qs bei %L wurde bereits von Konstruktor für abgeleitete Typen durch einen Elternteil gesetztVerbundzuweisung mit %<volatile%>-qualifiziertem linken Operanden ist veraltetzusammengesetztes Literal hat variable Größezusammengesetztes Literal vom Nicht-Objekt-Typ %qTVerbundliteral durch Adressraumqualifizierer qualifiziertzusammengesetzte Anweisung in %<constexpr%>-Funktionkomprimierter Strom: %sKonzept %q#D mit hergeleitetem Rückgabetyp deklariertKonzept %q#D mit Funktionsparametern deklariertKonzept %q#D mit nicht-%<bool%>-Rückgabetyp %qTKonzept %qD hat keine Definitiondas Konzept %qE ist nicht im Gültigkeitsbereich des Namensraumsdas Konzept wurde hier definiertKonzept muss im Gültigkeitsbereich des Namensbereiches definiert werdenKonzept muss Typ %<bool%> habenKonzept-ID %qD in geschachteltem Namens-SpezifiziererBedingung deklariert eine FunktionBedingung deklariert ein ArrayBedingungsausdruck verweist auf Iterationsvariable %qDbedingte %<lastprivate%>-Klausel im %qs-Konstruktbedingte %<lastprivate%>-Klausel an Schleifeniterator %qD wird ignoriertBedingungsausdruck mit den unterschiedlichen Zeigertypen %qT und %qT benötigt Umwandlungim Bedingungsausdruck mit unterschiedlichen Zeiger-auf-Element-Typen %qT und %qT fehlt eine TypkonvertierungBedingungsausdruck zwischen Aufzählungstyp %qT und Gleitkommatyp %qT ist veraltetBedingungsausdruck zwischen Gleitkommatyp %qT und Aufzählungstyp %qT ist veraltetbedingter Ausdruck in Operand von Faltungsausdruckin Konflikt stehende Deklaration %q#D mit Bindung für die Sprache "C"Zugriffsangaben für Feld %qE stehen in Konflikt, ignoriertZugriffsangaben für Methode %q+D stehen in Konflikt, ignoriertin Konflikt stehende Deklaration %q#Dsteht mit neuer Deklaration von %q#D mit %qL-Bindung in Konfliktin Konflikt stehende Deklaration für C-Funktion %q#Dunverträgliche Deklaration des Templates %q#Din Konflikt stehende Export-Deklaration %qDin Konflikt stehende benannte Adressräume (%s und %s)in Konflikt stehende benannte Adressräume (%s und %s) für %q+Din Konflikt stehende benannte Adressräume (%s und generisch) für %q+Din Konflikt stehende benannte Adressräume (generisch und %s) für %q+DIn Konflikt stehende Reduktionsoperationen für %qEin Konflikt stehenden Rückgabetyp für %q+#D angegebenin Konflikt stehende Spezifikationen für Deklaration von %qsin Konflikt stehender Basisklassenname %qEin Konflikt stehenden Typattribute für %q+#D angegebenIn Konflikt stehende Typqualifizierer für %q+Din Konflikt stehende Typen für %<%c%s%>In Konflikt stehende Typen für %q+Dabweichende Typen für %q+D; der bestehende Typ ist %qTin Konflikt stehende Typen für eingebaute Funktion %q+D; erwartet wurde %qTFehlerhafte Verwendung von %<-mcustom%>-Schaltern, Zielattributen und/oder %<__builtin_custom_%>-FunktionenKonflikt mit %qDevtl. »-pg« statt »-p« mit gprof(1) verwendetevtl. »-pg« statt »-p« mit gprof(1) verwendenevtl. »-pg« statt »-p« mit gprof(1) verwendenmit const, volatile oder restrict qualifizierter Typ in %<#pragma omp declare reduction%>Übertragung von const/copy ausgeschaltetconst_double_split bekam einen falschen Befehl:konstantes Argument %d für eingebautes %qF ist ungültig (%s)konstantes Argument %d für eingebaute %qF liegt außerhalb des Bereichs %wd..%wdkonstantes Argument %d für eingebaute %qF liegt außerhalb des Bereichs 0..%wuKonstantes Argument %d für eingebaute %qF liegt außerhalb des Wertebereiches für ZieltypKonstantes Argument außerhalb des Wertebereiches für %qsKonstantes Argument außerhalb des Wertebereiches für %skonstantes Feld %qD als %<asm%>-Ausgabe verwendetKonstante wird bei %<ADDR_EXPR%>-Änderung nicht neu berechnetKonstante verweist auf sich selbstKonstanter Wert erwartet für Argument %2$d der eingebauten Funktion %1$qFunpassende Beschränkungen für Argument %d in Template-Parameterliste für %qDEinschränkungen auf einer Funktion, die kein Template hatKonstruktor kann keine statische Elementfunktion seinKonstruktor verweist auf sich selbstKonstruktordelegation folgt Speicherinitialisierung für %qDKonstruktor für fremde Klasse %qT kann kein Element seinKonstruktor ist nicht benutzerdefiniert, da er im Klassenkörper ausdrücklich standardisiert istKonstruktorprioritäten werden nicht unterstütztKonstruktorprioritäten von 0 bis %d sind für die Implementierung vorbehaltenKonstruktorprioritäten müssen Ganzzahlen von 0 bis einschließlich %d seinKonstruktorsyntax verwendet, aber kein Konstruktor für Typ %qT deklariertKonstruktoren dürfen nicht als %<virtual%> deklariert seinKonstruktoren dürfen nicht CV-qualifiziert seinKonstruktoren dürfen nicht ref-qualifiziert seinKonstruktoren, Destruktoren, »postblit«, Invarianten, »new«- und »delete«-Funktionen sind im Interface »%s« nicht erlaubtenthaltende Schleife ist hierenthält zusätzliche virtuelle Methode %qDcontinue-Anweisung nicht innerhalb einer SchleifeZusammenziehung %<%.*s%> im Format; verwenden Sie stattdessen %qscontrol flow in the middle of basic block %dKontrollfluss erreicht Ende von Nicht-void-FunktionSteuerregisternummer für »%s« muss im Bereich von 0 bis 31 liegenUmwandlung zwischen den unterschiedlichen Zeigertypen %qT und %qT benötigt Umwandlungbei Umwandlung zwischen unterschiedlichen Zeiger-auf-Element-Typen %qT und %qT fehlt eine TypkonvertierungUmformung verwirft KonstantheitUmwandlung von %q#T nach %q#TUmwandlung von %qH in %qI löscht QualifiziererUmwandlung von %qH nach %qI in einem umgewandelten konstanten AusdruckUmformung von %qH nach %qI ist mehrdeutigUmwandlung von %qH in nicht-skalaren Typen %qI angefordertUmformung von %qT nach %qT ändert den Wert von %qEUmwandlung von %qT in %qT ändert Wert von %qE nach %qEUmwandlung von %qT nach %qT verwirft imaginäre KomponenteUmwandlung von %qT nach %qT könnte den Wert ändernUmwandlung von Adressraum %qs in Adressraum %qsKonvertierung von normalem zu »notinheap«-TypenUmwandlung von Zeigertyp %qT in arithmetischen Typ %qT in Konstantenausdruckbei der Konvertierung fehlt der Typ am Ende des FormatesUmwandlung von %qE von %qH nach %qI ist mehrdeutigUmwandlung von %qs auf der linken Seite eines %qsUmwandlung eines Registers auf eine andere Größe in %qsUmwandlung von Skalar %qH in Vektor %qI führt zum AbschneidenUmwandlung von Skalar %qT in Vektor %qT führt zum AbschneidenUmwandlung in %qT von %qT könnte das Vorzeichen des Ergebnisses ändernUmwandlung in %qT aus booleschem AusdruckKonvertierung in unvollständigen TypenUmwandlung in nicht-konstanten Referenztyp %q#T von R-Wert des Typs %qTKonvertierung zu Nicht-Skalar-Typ verlangtUmwandlung in void kann die Adresse der überladenen Funktion nicht auflösenUmwandlung in void greift nicht auf Objekt %qE des unvollständigen Typs %qT zuUmwandlung in void greift nicht auf Objekt des unvollständigen Typs %qT zuUmwandlung in void greift nicht auf Objekt des nicht trivial kopierbaren Typs %qT zuUmwandlung in void greift nicht auf Objekt des Typs %qT zuUmwandlung in »volatile« Referenztyp %q#T von R-Wert des Typs %qTUmwandlungen in Arrays mit unbekannten Grenzen sind erst mit %<-std=c++20%> oder %<-std=gnu++20%> verfügbar%<false%> wird in Zeigertyp %qT umgewandelt%<false%> wird für Argument %P von %qD in Zeigertyp umgewandeltUmwandlung von %qT in %<void%> wird nie einen Typumwandlungsoperator verwendenUmwandlung von %qT in Basisklasse %qT wird nie einen Typumwandlungsoperator verwendenUmwandlung von %qT in Referenz auf Basisklasse %qT wird nie einen Typumwandlungsoperator verwendenUmwandlung von %qT in Referenz auf gleichen Typ wird nie einen Typumwandlungsoperator verwendenUmwandlung von %qT in gleichen Typ wird nie einen Typumwandlungsoperator verwendenUmwandlung von NULL in Nicht-Zeiger-Typdie Umwandlung eines gepackten Zeigers auf %qT (Ausrichtung %d) in einen Zeiger auf %qT (Ausrichtung %d) führt möglicherweise zu einem nicht ausgerichteten ZeigerUmwandlung eines zusammengesetzten Arrayliterals ist in C++ ungültigfar-Zeiger wird in near-Zeiger umgewandeltUmwandlung von %qH nach %qILambda, das %<...%> verwendendet, wird in Funktionszeiger umgewandeltUmwandung der überladenen Funktion %qD in den Typ %q#T ist mehrdeutigUmwandlung von %qH nach %qI erfordert direkte InitialisierungUmwandlung in %qT von Initialisierungsliste würde expliziten Konstruktor %qD verwendenKonvertierung in Nicht-Zeiger-Typ %qT von NULLKopieren von nicht-statischem Datenelement %q#D von rvalue-Referenztyp»copyprivate«-Variable %qE ist im äußeren Kontext weder »threadprivate« noch »private«Interner Fehler: corrupt loop tree rootInterner Fehler: corrupted exits list of loop %dInterner Fehler: corrupted head of the exits list of loop %dBeschädigte ltrans-Ausgabedatei %sbeschädigte Profilinformationen: ungültiges ZeitprofilInfo zum beschädigten Profil: Anzahl der Ausführungen der Kante »%d-%d« sollte %i seinInfo zum beschädigten Profil: Anzahl der Durchläufe des Basisblocks %d sollte %i seinInfo zum beschädigten Profil: Profildaten sind nicht Fluss-konsistentkaputtes Werteprofil: %s-Profilzähler (%d von %d) ist inkonsistent zu Basisblock-Zähler (%d)Go-Abzugsdatei konnte nicht geschlossen werden: %mendgültige Abzugsdatei %qs der Befehle konnte nicht geschlossen werden: %mAntwortdatei %s konnte nicht geschlossen werdentemporäre Antwortdatei %s konnte nicht geschlossen werdenAbzugsdatei %qs genullter Befehle konnte nicht geschlossen werden: %m%qE konnte nicht von %<void%> nach %<bool%> umgewandelt werden%qE konnte nicht von %qH nach %qI umgewandelt werdenTemplateargument %qE konnte nicht von %qT in %qT umgewandelt werden%s konnte nicht in %s gefunden werden (möglicherweise hilft %<-B%>)es konnte kein Überlaufregister gefunden werdenkein ganzzahliger Typ mit derselben Größe wie %qT gefundenKlasse %qE kann nicht gefunden werdenSchnittstelle für Klasse %qE kann nicht gefunden werdenSetter/Getter für %qE in Klasse %qE kann nicht gefunden werdenSpezifikationsdatei %s konnte nicht gefunden werden
Variantendeklaration nicht gefundenMCU-Datendatei %<devices.csv%> konnte nicht gefunden werdenGo-Abzugsdatei %qs konnte nicht geöffnet werden: %mAbzugsdatei %qs konnte nicht geöffnet werden: %mendgültige Abzugsdatei %qs der Befehle konnte nicht geöffnet werden: %mAntwortdatei %s konnte nicht geöffnet werdenDatei zur Symbolauflösung konnte nicht geöffnet werden: %mtemporäre Antwortdatei %s konnte nicht geöffnet werdenDatei-Offset konnte nicht eingelesen werdenHex-Zahl konnte nicht eingelesen werdenBRIG-Datei konnte nicht gelesen werdenTypnamen-Typ kann nicht aufgelöst werdenBefehl kann nicht aufgeteilt werdenunbekannte Version %s%<munmap%> von %<pch_address_space%> fehlgeschlagen: %min Antwortdatei %s konnte nicht geschrieben werdenin temporäre Antwortdatei %s konnte nicht geschrieben werdenkern.osversion nicht erkannt: %q.*sZählernameZählerwertCPU %qs ist ein ungültiges Argument für eingebaute Funktion %qsdie CPU »%s« basiert nicht auf Architektur »%s«, Architektur wird ignorierterzeugt und mit anderen ABIs verwendeterzeugt und mit anderen Architekturen / ABIs verwendeterzeugt und mit anderer Bytereihenfolge verwendeterzeugt und mit anderen Einstellungen von %<-fpic%> verwendeterzeugt und mit anderen Einstellungen von %<-fpie%> verwendeterzeugt und mit anderen Einstellungen von »%s« verwendetArray von %qT wird erzeugtArray von %qT wird erzeugt, was ein abstrakter Klassentyp istFeld von Funktionselementen wird erzeugtArray von Funktionen wird erzeugtFeld von Referenzen wird erzeugtArray von void wird erzeugtErzeugung eines Zeigers auf Elementfunktion des Nicht-Klassentyps %qTZeiger auf Element des Nicht-Klassentypen %qT wird erzeugtZeiger auf Element mit Typ »void« wird erzeugtZeiger auf Elementreferenztyp %qT wird erzeugtfür nicht existierende Methode %qE wird Selektor erzeugtAttribut »critical« wirkt sich nicht auf Interrupt-Funktionen auseigener Befehlsopcode für %<__builtin_custom_%s%> muss zur Kompilierzeit eine Konstante im Bereich 0 bis 255 seincv-qualifizierter TypparameterDatenbereichsattribute können nicht für lokale Variablen angegeben werdenDatenbereich von %q+D in Konflikt mit vorheriger DeklarationDaten-DeklarationDatendefinition hat keinen Typ oder SpeicherklasseDatenelement %q+D hat ungültigerweise einen Funktionstypen deklariertDatenelement %q+D hat ungültigerweise einen Methodentyp deklariertDatenelement %qD kann kein Elementtemplate seinDatenelement darf nicht variabel modifizierten Typ %qT habenDatentyp von %q+D ist nicht für Register geeignetdata-modem=far ist für Architektur CR16C ungültigInterner Compilerfehler: dead histogramunerreichbare Anweisung in EH-Tabelledie Deallokationsfunktion ist hier deklariertVersuch, bereits freigegebenen Speicher freizugebenSpeicher, der vorher nicht angefordert wurde, wird freigegebenFehlersucheDebugformat %qs steht in Konflikt mit vorheriger AuswahlDebugausgabestufe %qs ist zu großDebug-Pfadzur Fehlersuche: dezimales Gleitkomma-Argument %u für typgenerische Funktion mit nur binären Argumentendezimales Gleitkomma-Argument %u für typgenerische Funktion mit nur komplexen Argumentendezimale Gleitkommazahlen werden für dieses Ziel nicht unterstütztDeklaration %qD widerspricht der eingebauten DeklarationDeklaration %qD widerspricht dem ImportDeklaration %qD deklariert nichtsDeklaration deklariert nichtsDeklaration für nicht vorhandenen Parameter %qDDeklaration der %<constexpr%>-Variable %qD ist keine DefinitionDeklaration der %<extern%>-Variablen %qD in Anfangsdeklaration einer %<for%>-SchleifeDeklaration von %<std::initializer_list%> entspricht nicht %<#include <initializer_list>%>, ist kein TemplateDeklaration von %<~%T%> als Element von %qTDeklaration von %q#D ändert die Bedeutung von %qDDeklaration von %q#D steht mit eingebauter Deklaration %q#D in KonfliktDeklaration von %q#D hat %<extern%> und ist initialisiertDeklaration von %q#D hat keine InitialisierungDeklaration von %q#D außerhalb einer Klasse ist keine DefinitionDeklaration von %q#D überdeckt einen ParameterDeklaration von %q#TDeklaration von %q+#D überdeckt einen TemplateparameterDeklaration von %q+D überdeckt eine eingebaute FunktionDeklaration von %q+D überdeckt eine vorhergehende Nicht-VariableDeklaration von %q+D mit Attribut %<noinline%> folgt auf inline-DeklarationDeklaration von %q+D ohne Bindung folgt einer extern-DeklarationDeklaration von %qD macht vorherige Template-Instanziierung für %qD mehrdeutigDeklaration von %qD als %<typedef%>Deklaration von %qD als Feld von FunktionselementenDeklaration von %qD als Array von FunktionenDeklaration von %qD als Array von ReferenzenDeklaration von %qD als Array von voidsDeklaration von %qD als Element %qTDeklaration von %qD als multidimensionales Feld muss für alle Dimensionen außer der ersten Grenzen habenDeklaration von %qD als Nicht-FunktionDeklaration von %qD als ParameterDeklaration von %qD in %qD, das nicht %qD einschließtDeklaration von %qD in Namensraum %qD, der nicht %qD einschließtDeklaration von %qD nicht in einem Namensbereich um %qDDeklaration von %qD überdeckt eine eingebaute FunktionDeklaration von %qD überdeckt eine globale DeklarationDeklaration von %qD überdeckt ein Element von %qTDeklaration von %qD überdeckt einen ParameterDeklaration von %qD überdeckt einen vorhergehenden lokalen BezeichnerDeklaration von %qE als Array von FunktionenDeklaration von %qE als Array von voidsDeklaration von %qE als multidimensionales Array muss für alle Dimensionen außer der ersten Grenzen habenDeklaration von %qE als Nicht-FunktionDeklaration von %qE als Nicht-ElementDeklaration von %qF hat unterschiedlichen ExceptionspezifiziererDeklaration der eingebauten Funktion %qD ohne Prototyp; erwartet wurde %qTDeklaration der Funktion %qD in ungültigem KontextDeklaration von multidimensionalem Array muss für alle Dimensionen außer der ersten Grenzen habenDeklaration der Nicht-Variablen %qD in Anfangsdeklaration einer %<for%>-SchleifeDeklaration der »static«-Variablen %qD in Anfangsdeklaration einer %<for%>-SchleifeDeklaration von Templateparameter %q+#D mit unterschiedlichen EinschränkungenDeklaration des Templateparameters %q+D überdeckt einen TemplateparameterDeklaration eines Typnamen als Array von FunktionenDeklaration eines Typnamen als Array von voidsDeklarationen in abhängiger Basis %qT wurden bei unqualifizierter Suche nicht gefundenDeklarator-ID fehlt: reserviertes Wort %qD wird verwendethier deklarierthier als »private« deklarierthier als »protected« deklariertdekomprimierter Strom: %sDekrementieren eines booleschen AusdrucksVerringerung des konstanten Feldes %qDVerringerung von Aufzählungswerten (enum) ist in C++ ungültigVerringerung der Funktion %qDVerringerung des Elements %qD in schreibgeschütztem ObjektDekrementieren eines Zeigers auf unvollständigen Typ %qTVerringerung der schreibgeschützten Speicherstelle %qEVerringerung des schreibgeschützten Elementes %qDVerringerung des schreibgeschützten benannten Rückgabewertes %qDVerringerung des schreibgeschützten Parameters %qDVerringerung der schreibgeschützten Referenz %qDVerringerung der schreibgeschützten Variable %qDhergeleiteter Klassentyp %qD in Rückgabetyp von Funktionhergeleiteter Ausdruckstyp erfüllt die Platzhalterbeschränkungen nichthergeleiteter Initialisierer erfüllt die Platzhalter-Beschränkungen nichthergeleiteter Rückgabetyp erfüllt die Platzhalter-Beschränkungen nichthergeleiteter Rückgabetyp nur mit %<-std=c++14%> oder %<-std=gnu++14%> verfügbarErmittlung aus geschweift geklammerter Initialisierungsliste erfordert %<#include <initializer_list>%>Herleitungshinweis %q+D neudeklariertHerleitungshinweis %qD muss im Gültigkeitsbereich des Namensbereiches auftretenHerleitungshinweis %qD muss im selben Gültigkeitsbereich wie %qT deklariert seinHerleitungshinweis %qD darf keinen Funktionskörper habenHerleitungshinweis für %qT muss angehängten Rückgabetyp habenStandard-%<target_clones%>-Attribut wurde nicht gesetztStandardargument %qE verwendet %qDStandardargument %qE verwendet lokale Variable %qDStandardargument für Template-Parameter für %qD umschließende KlasseStandardargument für Parameter %d von %q#D angegebenZuordnungsfehler der Standardargumente in ÜberladungsauflösungStandardargument fehlt für Parameter %P von %q#DStandardargument für Lambda-Parameter angegebenStandardargument in expliziter Spezialisierung angegebenStandardargumente sind nicht in Deklaration der friend-Template-Spezialisierung %qD erlaubtStandardargumente sind nur für Funktionsparameter zugelassenStandardkonstruktion ist für den Typ »%s« deaktiviertStandardkonstruktor für %<struct%> ist nur mit %<@disable%>, ohne Rumpf und ohne Parameter erlaubtVorgabeinitialisierer für Element %qD erforderlich vor dem Ende der umschließenden KlasseDefaultinitialisierer für unbenanntes Bitfeld-ElementDefaultinitialisierer für Bitfeld-Elemente sind erst mit %<-std=c++20%> oder %<-std=gnu++20%> verfügbarStandardtemplateargumente dürfen in friend-Redeklaration eines Funktionstemplates nicht verwendet werdenStandardtemplateargumente dürfen in Funktionstemplates nur mit %<-std=c++11%> und %<-std=gnu++11%> verwendet werdenStandardtemplateargumente dürfen in teilweiser Spezialisierung nicht verwendet werdenStandardtemplateargumente dürfen in friend-Deklaration nicht verwendet werdenTemplate-Argument für %qD kann nicht aus Default-Typumwandlung bestimmt werden%qD mit Vorgabewert ist kein »friend« von %qTstandardmäßiges %qD muss %<const%> sein%qD mit %<default%> muss entweder Parameter vom Typ %<const %T&%> oder %qT haben%qD mit %<default%> muss Parameter vom Typ %<const %T&%> oder %qT haben, nicht beide%qD mit Vorgabewert kann keinen %<&&%>-ref-Qualifizierer haben%qD mit %<default%> muss den Rückgabetyp %<bool%> habenstandardmäßiges %qD ist erst ab %<-std=c++20%> oder %<-std=gnu++20%> verfügbarStandard- und gelöschte Funktionen nur mit %<-std=c++11%> oder %<-std=gnu++11%> verfügbarvorgegebener Konstruktor ruft nicht-%<constexpr%> %qD aufDefault-Deklaration %q+D passt nicht zur erwarteten SignaturStandardisierter Standardkonstruktor initialisiert %q#D nichtStandardisierter Standardkonstruktor initialisiert kein nicht-statisches DatenelementStandarddestruktor ruft nicht-%<constexpr%> %qD aufvorgegebene Funktion %q+D mit Standardargumentdas Member %qD mit %<default%> muss den Parametertyp %<const %T&%> habenStandard-Kopierzuweisung für %qT ruft nichttrivialen Operator zur Kopierzuweisung für virtuelle Basis %qT aufParameter mit zurückgestelltem Typ bei %Chier definiertDefinition eines Typs in einer Umwandlung ist in C++ ungültigDefinition eines Typs in einem zusammengesetzten Literal ist in C++ ungültigDefinition der expliziten Spezialisierung %qD in friend-DeklarationTypdefinition in Ausdruck %qs ist in C++ ungültigDefinition in Block %i herrscht nicht vor in Block %iDefinition in Block %i folgt der VerwendungDefinition von %q#D macht eingebaute Deklaration %q#D mehrdeutigDefinition von %q#D ist als %<dllimport%> markiertDefinition von %q#T in TemplateparameterlisteDefinition von %q#T ist erst nach der schließenden Klammer vollendetDefinition von %qD entspricht nicht %<#include <initializer_list>%>Deklaration von %qD ist nicht in einem Namensbereich um %qTDefinition des explizit standardisierten %q+DDefinition des implizit deklarierten %qDDefinition des Protokolls %qE nicht gefundenDefinition des statischen Datenelementes %q+D einer »dllimport«-ierten KlasseDefinition für explizite Instanziierung angegebendelegierende Konstruktoren nur mit %<-std=c++11%> oder %<-std=gnu++11%> verfügbargelöschte Definition von %qD ist nicht die erste Deklarationgelöschte Funktion %q+D übersteuert nicht gelöschte Funktiongelöscht in Fortran 95Löschen von %qT ist nicht definiertLTRANS-Datei %s kann nicht gelöscht werden: %mArray %q#E wird gelöschtDatei %s kann nicht gelöscht werden: %mLöschen des Objekts mit abstraktem Klassentyp %qT mit nicht-virtuellem Destruktor bewirkt undefiniertes VerhaltenLöschen des Objekts mit polymorphem Klassentyp %qT mit nicht-virtuellem Destruktor bewirkt möglicherweise undefiniertes VerhaltenAbhängigenname %qE wird als Nicht-Typ erkannt, aber die Instanziierung liefert einen Typveraltete Konvertierung von Zeichenkettenkonstante in %qTVeraltete Meldung ist keine ZeichenketteDereferenzierung eines %<void *%>-ZeigersDereferenzierung eines Null-ZeigersDereferenzierung eines Nullzeigers in %qEDereferenzierung eines Type-Pun-Zeigers könnte strict-aliasing-Regeln verletzenDereferenzierung eines Type-Pun-Zeigers verletzt strict-aliasing-RegelnDeklaration eines abgeleiteten Typsabgeleitete Union %qT ist ungültigInitialisierer mit Bestimmung können nur mit Aggregat-Typen (Array, struct, union) verwendet werden, nicht mit %qThier wird die Grenze des Arrays variabler Länge aus Argument %u festgelegtDesignator-Reihenfolge für Feld %qD passt nicht zur ursprünglichen Deklaration in %qTZielobjekt %qE der Größe %sZielobjekt wird hier alloziertZielobjekt ist hier deklariertZielobjekt der Größe %s, alloziert durch %qEZielobjekt, auf das durch %<restrict%>-qualifiziertes Argument 1 verwiesen wird, wurde hier deklariertder zerstörende %<operator delete%> muss eine Elementfunktion seinder zerstörende %<operator delete%> muss eine übliche Deallozierungsfunktion seinDestruktor %qD als Element-Template deklariertDestruktor kann keine statische Elementfunktion seinDestruktor für %qE darf auch nicht abgearbeitet werdenDestruktor für %qT ist mehrdeutigDestruktor für fremde Klasse %qT kann kein Element seinDestruktorprioritäten werden nicht unterstütztDestruktorprioritäten von 0 bis %d sind für die Implementierung vorbehaltenDestruktorprioritäten müssen Ganzzahlen von 0 bis einschließlich %d seinDestruktoren dürfen nicht CV-qualifiziert seinDestruktoren dürfen nicht ref-qualifiziert seinDestruktoren dürfen keine Parameter habenDestruktoren, »postblit« und Invarianten sind in »union %s« nicht erlaubtbei der Bestimmung des Wertes von %qsmeinten Sie %<-%s%>?meinten Sie %<using enum %T::%D%>?wollten Sie vielleicht den Zeiger dereferenzieren?meinten Sie ein logisches Nicht (%<!%>)?meinten Sie ein logisches Nicht (%<!%>)?Unterschied zwischen %qE und %qD hat keinen Ganzzahltypunterschiedliche Parameteranzahlunterschiedliche Ergebnisanzahlunterschiedliche Parametertypenunterschiedliche Empfängertypenunterschiedliche Ergebnistypenanderer zugrunde liegender Typ in enum %q#Tunterschiedliche variable Argumentedirekte Basis %qT ist in %qT durch Mehrdeutigkeit unzugänglichder direkte Aufruf von %s in der Folge der spekulativen Aufrufe hat kein Spekulationsflagder direkte Aufruf von %s in der Folge der spekulativen Aufrufe hat speculative_id %i außerhalb des Bereichsdirect-list-initialization von %<auto%> erfordert genau ein ElementDirektiven-Argument %qEDirektiven-Argument im Bereich [%E, %E]Direktiven mit nur %<device_type%>-Klauseln werden ignoriertDurchlauf %s für Funktion %s ausschaltenDurchlauf %s für Funktionen im Bereich [%u, %u] ausschaltenAnderer Objective-C-Typ in RückgabeDivision %<sizeof (%T) / sizeof (%T)%> berechnet nicht die Anzahl der FeldelementeDivision durch NullDivision durch Null ist kein konstanter Ausdruck»-march=…« und »-mcpu=…« dürfen nicht zusammen angegeben werdenInterner Fehler: do_check(): too many argsdo_simplify(): Too many args for intrinsicentspricht nicht der Element-Templatedeklaration hierübersteuert keine Funktionübersteuert keine Funktion, wollten Sie »%s%s« übersteuern?unterstützt nicht multilibHerrscher über %d sollte %d sein, nicht %dunbekannter Status für Herrscher über %dErweiterungsbefehle für DSPs nicht unterstützenErweiterungsbefehle für Performance nicht unterstützenErweiterungsbefehle für Performance Version 2 nicht unterstützenErweiterungsbefehle für Zeichenketten nicht unterstützen»::« in MODULE PROCEDURE-Anweisung bei %Ldouble-Konstanten werden nicht unterstütztInterner Fehler: double linked list of assembler names corruptedInterner Fehler: double linked list of clones corrupteddurch andere AusnahmespezifikationenDumpdatei: %s
doppeltes %<_Atomic%>doppeltes %<_Thread_local%> oder %<__thread%>doppelter %<asm%>-Operandenname %qsdoppelter %<asm%>-Qualifizierer %qEdoppelter %<asm%>-Qualifizierer %qTdoppeltes %<const%>doppelter %<default%>-Fall in %<_Generic%>doppeltes %<mutable%>doppeltes %<restrict%>doppeltes %<volatile%>doppeltes %qDdoppeltes %qEdoppeltes Attribut %qEDoppelter Deklarationsspezifizierer %qEdoppeltes %qsDoppelte (oder sich überschneidende) case-Wertedoppelter Basistyp %qT ungültigDoppelter case-Wertdoppelter CV-Qualifiziererdoppelte Deklaration für Protokoll %qEdoppelte Deklaration der Methode %<%c%E%> mit in Konflikt stehenden Typendoppelte Definition von »%s«doppelte Definition einer Symbolversiondoppelter direkter Aufruf von %s in der Folge der spekulativen Aufrufe mit speculative_id %idoppelte explizite Instanziierung von %q#Ddoppelte explizite Instanziierung von %q#Tdoppelte Initialisierung von %qDduplicate insn UID: %idoppelte Instanzvariable %q+Ddoppelte Schnittstellendeklaration für Kategorie %<%E(%E)%>doppelte Schnittstellendeklaration für Klasse %qEdoppelte Marke %qDDoppelte Markendeklaration %qEInterner Fehler: duplicate loop headerdoppeltes Element %q+Ddoppelter Verweis %s in der Folge der spekulativen Aufrufe mit speculative_id %idoppelter typgenerischer Parametertyp für Funktionsargument %u von %<__builtin_tgmath%>doppelter Virt-Spezifiziererdoppelte %<if%>-Bedingungdoppelt angegebener Parameter %qs in Attribut %<amdgpu_hsa_kernel%>während Neuübersetzung mit %<-fcompare-debug%>Im Durchlauf %s: %s
Dwarf-Version %wu wird nicht unterstütztdynamische Abhängigkeit »%s« nicht gefundendynamische Ausnahmespezifikationen sind in C++11 veraltetdynamischer Typ %qT seines Operanden hat keine Basisklasse vom Typ %qTder dynamische Typ %qT des Operanden hat keine eindeutige öffentliche Basisklasse %qTeBPF-Stapelgrenze überschrittenjeder nicht deklarierte Bezeichner wird nur einmal für jede Funktion, in der er vorkommt, gemeldetInterner Fehler: edge %s->%s has no corresponding call_stmtedge count is not compatible with function countInterner Fehler: edge from %d to %d should be marked irreducibleInterner Fehler: edge from %d to %d should not be marked irreducibleKante hat sowohl call_stmt als auch lto_stmt_uid gesetztInterner Fehler: edge not foundInterner Fehler: edge points to wrong declaration:entweder %<-fopenacc%> oder %<-fopenmp%> muss angegeben seinentweder %<-fopenacc%> oder %<-fopenmp%> muss angegeben seinentweder sollten alle Initialisierer-Klauseln benannt sein oder gar keineausführliche Typ-Spezifikation für einen enum mit Gültigkeitsbereich darf nicht das Schlüsselwort %qD verwendenElementtypen müssen dieselben seinelement_number(): Bad dimension typeElementare Binäroperationelementare Funktionsargumente bei %C sind nicht konformElementares UnterprogrammElemente des Arrays %q#D haben unvollständigen TypElemente des Arrays %q#T haben unvollständigen Typeingebettetes %<\0%> im Formateingebettetes NUL in CFString-Literaldas ABI zum Übergeben von leeren Klassen (%qT) als Parametern hat sich mit %<-fabi-version=12%> (GCC 8) geändertLeere DeklarationLeere Deklaration mit %<_Alignas%> redeklariert nicht SymbolLeere Deklaration mit Speicherklassenangabe redeklariert nicht SymbolLeere Deklaration mit Typqualifizierer redeklariert nicht SymbolLeeres Enum ist ungültigleerer Indexbereich in Initialisierungnicht-leere Initialisierung »init-capture« eines Lambdasleere Initialisierung in »init-capture« für Lambdaleere linke Präzision im Format %sleere Klammern sind mehrdeutig und werden als Funktionsdeklaration angesehenfehlende Präzision im Format %sleere Liste von EigenschaftsattributenLeerer Wertebereich angegebenleere Skalar-InitialisierungLeere Zeichenkette in Attribut %<target%>leere Struktur hat Größe 0 in C, aber 1 in C++leere Deklaration für strukturierte Bindungleere Union hat Größe 0 in C, aber 1 in C++Durchlauf %s für Funktion %s einschaltenDurchlauf %s für Funktionen im Bereich [%u, %u] einschaltenDas Einschalten der Ablaufverfolgung ist nur bei der Übersetzung für THUMB sinnvollDas Einschalten der Unterstützung der Aufgerufenen-Zusammenarbeit ist nur bei der Übersetzung für THUMB sinnvollumgebendes %<target%>umgebendes %qsumgebendes OpenACC-%qs-Konstruktumschließende Klasse der %<constexpr%> nicht-statischen Elementfunktion %q+#D ist kein Literaltypeinschließende Klassentemplates werden nicht explizit spezialisiertumgebendes Eltern-Berechnungs-Konstruktumgebende Regionumgebende Routineumgebende Zielregionumgebende TaskEndausdruck verweist auf äußeren Iterator %qDInterner Fehler: end insn %d for block %d not found in the insn streamEnde der Implied-do-Schleife bei %L konnte nicht zu einem konstanten Wert vereinfacht werdendie Aufzählung »%s« muss mindestens eine Konstante enthaltenenum-Konstante hier definiertenum-Konstante in booleschem Zusammenhangenum-Umwandlung von %qT nach %qT in Zuweisung ist in C++ ungültigenum-Umwandlung von %qT nach %qT in Initialisierung ist in C++ ungültigenum-Umwandlung von %qT nach %qT in Rückgabe ist in C++ ungültigenum-Umwandlung in Zuweisung ist in C++ ungültigenum-Umwandlung in Initialisierung ist in C++ ungültigEnum-Umwandlung bei Übergabe des Arguments %d von %qE ist in C++ ungültig»enum«-Typ hier definiertInterner Compilerfehler: enum value is not %<CONST_DECL%> or %<INTEGER_CST%>Interner Compilerfehler: enum value name is not %<IDENTIFIER_NODE%>Interner Compilerfehler: enum value type is not %<INTEGER_TYPE%> nor convertible to the enumAufzählungs- und Nicht-Aufzählungstyp in bedingtem Ausdruckbedingter Ausdruck enthält unverträgliche Aufzählungswerte der Typen %qT und %qTAufzählungswert %qE wird nicht von switch behandeltAufzählungswerte überschreiten Wertebereich des größten GanzzahltypenAufzählungswert %qE ist außerhalb des Gültigkeitsbereichs des zugrundeliegenden Typen %qTAufzählungswert für %qD ist keine GanzzahlkonstanteAufzählungswert für %qD muss ganzzahligen oder Aufzählungstyp ohne Gültigkeitsbereich habenAufzählungswert für %qE ist keine GanzzahlkonstanteAufzählungswert für %qE ist kein GanzzahlkonstantenausdruckUmgebungsvariable %<COLLECT_GCC%> muss gesetzt seinUmgebungsvariable %<COLLECT_GCC_OPTIONS%> muss gesetzt seinUmgebungsvariable %<COLLECT_LTO_WRAPPER%> muss gesetzt seinUmgebungsvariable %qs muss ganzzahlig sein und zwischen 0 und %wd liegenUmgebungsvariable %qs nicht definiertUmgebungsvariable COLLECT_GCC_OPTIONS muss gesetzt seinUmgebungsvariable DJGPP nicht definiertUmgebungsvariable DJGPP zeigt auf kaputte Datei %qsUmgebungsvariable DJGPP zeigt auf fehlende Datei %qsFehlerFehler beim Schließen von %s: %mFehler in Argumenten für Spezifikationsfunktion %qsFehler beim Löschen von %sFehler beim InstanziierenFehler beim Schreiben von %qsFehler beim Schreiben der Datei %s: %mFehler: Fehler beim Einfügen von Übersetzungseinheiteneval_intrinsic(): Bad operatoreval_type_intrinsic0(): op NULL%qs wird ausgewertetExceptionaufräumen für dieses Placement-New wählt delete-Operator für Nicht-PlacementAusnahmebehandlung ausgeschaltet, %<-fexceptions%> schaltet sie einFehlzuordnung von Persönlichkeiten bei AusnahmebehandlungAusnahme des Typs %<%T%> wird gefangen werdenAusnahme des Typs %qT wird bereits von einem früheren Exceptionhandler verarbeitetAusnahmen-Angabe von %qD hängt von sich selbst abüberzählige Elemente in %<char%>-Array-InitialisierungElementüberschreitung in ArrayinitialisierungElementüberschreitung in SkalarinitialisierungElementüberschreitung in struct-InitialisierungElementüberschreitung in union-InitialisierungElementüberschreitung in Vektorinitialisierungüberzähliger Verwendungs-Operand für AnweisungAusführungszähler als null angenommen
Ausführungszähler geschätzt
Interner Fehler: exit %d->%d not recordedExpansionsmuster %qE enthält keine ParameterpacksExpansionsmuster %qT enthält keine ParameterpacksExpansionspunkt ist Ort %iKlausel %<#pragma acc%> erwartet%<#pragma omp scan%> erwartet%<#pragma omp section%> oder %<}%> erwartetKlausel %<#pragma omp%> erwartet%<(%> erwartet%<(%> hinter template-argument-list erwartet%<(%> oder Zeilenende erwartet%<)%> erwartet%<)%> oder %<,%> erwartet%<*%> erwartet%<+%>, %<*%>, %<-%>, %<&%>, %<^%>, %<|%>, %<&&%>, %<||%> oder Bezeichner erwartet%<,%> erwartet%<,%> oder %<)%> erwartet%<,%> oder %<...%> erwartet%<,%> oder %<;%> erwartet%<,%> oder %<}%> erwartet%<,%>, %<;%> oder %<}%> erwartet%<.%> erwartet%<...%> erwartet%<:%> erwartet%<:%> oder %<)%> erwartet%<:%> oder %<...%> erwartet%<:%> oder %<::%> erwartet%<:%>, %<,%>, %<;%>, %<}%> oder %<__attribute__%> erwartet%<::%> erwartet%<;%> erwartet%<;%> hinter Klassendefinition erwartet%<;%> hinter Strukturdefinition erwartet%<;%> hinter Uniondefinition erwartet%<;%> am Ende von Elementdeklaration erwartet%<;%> oder %<{%> erwartet%<;%> or %<{%> nach Definition der Methodenattribute erwartet%<;%>, %<,%> oder %<)%> erwartet%<;%>, Bezeichner oder %<(%> erwartet%<<%> erwartet%<=%> erwartetnach dem Objective-C-Attribut %qE wird ein %<=%> erwartet%<=%>, %<,%>, %<;%>, %<asm%> oder %<__attribute__%> erwartet%<>%> erwartet%<@end%> erwartet%<@synchronized%> erwartet%<@throw%> erwartet%<@try%> erwartet%<[%> erwartet%<]%> erwartet%<__label__%> erwartet%<__transaction_atomic%> erwartet%<__transaction_relaxed%> erwartet%<acq_rel%>, %<release%> oder %<acquire%> erwartet%<alloc%>, %<to%>, %<from%>, %<tofrom%>, %<firstprivate%>, %<none%> oder %<default%> erwartet%<allocator%> erwartet%<asm%> erwartet%<auto%> erwartet%<auto%> oder %<decltype(auto)%> nach %qE erwartetKlauselmodifizierer %<cancel%> %<if%> erwartet%<catch%> erwartet%<class%> erwartet%<class%> oder %<typename%> erwartet%<class%>, %<typename%> oder %<template%> erwartet%<co_yield%> erwartet%<concurrent%> erwartet%<construct%>, %<device%>, %<implementation%> oder %<user%> erwartet%<data%> erwartethinter %<#pragma acc %s%> wird %<data%> erwartet%<data%>, %<update%>, %<enter%> oder %<exit%> erwartet%<declare%> erwartet%<decltype%> erwartet%<delete%> erwarteteine der Klauseln %<depend%>, %<destroy%> oder %<update%> erwartet%<extern%> erwartet%<finally%> oder %<catch%> erwartet%<for%> hinter %qs erwartet%<host%>, %<nohost%> oder %<any%> erwartet%<in%>, %<out%>, %<inout%> oder %<mutexinoutset%> erwartet%<inclusive%>- oder %<exclusive%>-Klausel erwartet%<match%> erwartet%<namespace%> erwartet%<new%> erwartet%<none%> oder %<present%> erwartet%<none%> oder %<shared%> erwartet%<omp_priv%> oder Funktionsname erwartet%<operator%> erwartet%<point%> erwarteteine der Klauseln %<read%>, %<write%>, %<update%>, %<capture%>, %<seq_cst%>, %<acq_rel%>, %<release%>, %<relaxed%> oder %<hint%> erwarteteine der Klauseln %<read%>, %<write%>, %<update%> oder %<capture%> erwartet%<return%> erwartet%<scalar%>, %<aggregate%> oder %<pointer%> erwartet%<seq_cst%>, %<relaxed%> oder %<acq_rel%> erwartet%<simd%>, %<reduction%>, %<target%> oder %<variant%> erwartet%<static_assert%> erwartet%<target%> erwartet%<teams%>, %<parallel%> oder %<thread%> erwartet%<template%> erwartet%<throw%> erwartet%<try%> erwarteteine der Klauseln %<unified_address%>, %<unified_shared_memory%>, %<dynamic_allocators%>, %<reverse_offload%> oder %<atomic_default_mem_order%> erwartet%<using%> erwartet%<while%> erwartet%<{%> erwartet%<{%> oder %<:%> erwartet%<}%> erwartet%<}%> vor %<else%> erwartet%<~%> erwartet%d Ebenen von Template-Parametern für %q#D erwartet, %d erhalten%i oder mehr erwartet, %i gefundenSelektorname für %qE erwartet%qT erwartet, aber Argument hat Typ %qT%qs %<if%>-Klausel-Modifizierer anstelle %qs erwartet%<...%> erwartet64-Bit-Adresse erwartet, aber Argument 1 hat %d Bit64-Bit-Adresse erwartet, aber Argument 2 hat %d Bitfehlendes [big-endian|little-endian|default] hinter %<#pragma scalar_storage_order%>[error|warning|ignored|push|pop] nach %<#pragma GCC diagnostic%> erwartethinter %<#pragma message%> wird eine Zeichenkette erwartetexpected an SSA_NAME objectArgument zu %<msp430_select_cpu%> erwartetBezeichner für den Attributnamen erwartetAttribut vor %<...%> erwartetzwischen %i und %i erwartet, %i gefundenbinärer Operator erwartetInterner Fehler: expected block indexInterner Fehler: expected block specifierboolescher Ausdruck erwartetboolescher Typ erwartetInterner Fehler: expected case labelKanal erwartetKlassenname erwartetKlassenschlüssel erwartetKlassenname erwartetkonstanter Ganzzahlausdruck mit gültigem sync-hint-Wert erwartetkonstanter Offset erwartetkonstante Größe erwartetKonstruktor, Destruktor oder Typumwandlung erwartetWert für die Anzahl erwartetDeklaration erwartetDeklaration oder Anweisung erwartetDeklarationsspezifizierer erwartetDeklarationsspezifizierer oder %<...%> erwartetDeklarator erwartetInterner Fehler: expected else statementhinter Schlüsselwort %<operator%> wird leere Zeichenkette erwartetunerwartetes Ende der AuffanglisteZeilenende erwartetAusdruck erwartet»expression-list« oder »type-id« erwartetHäufigkeit erwartetHäufigkeitswert erwartetFunktion erwartetFunktionsname erwartetFunktionsname und %<(%> erwartetInterner Fehler: expected goto expressionID-Ausdruck erwartet»id-expression (arguments)« erwartetBezeichner erwartetBezeichner oder %<(%> erwartetBezeichner oder %<)%> erwartetBezeichner oder %<*%> erwartetBezeichner oder Zeichenkettenliteral erwartetInitialisierung erwartetGanzzahl erwartetGanzzahlausdruck erwartetListe von Ganzzahlausdrücken erwartetSchnittstelle oder Zeiger auf Schnittstelle erwartetSchleifendeklaration oder Initialisierung erwartetIterationsanweisung erwartetSprunganweisung erwartetSprungmarke erwartetbenannte Anweisung erwartetInterner Fehler: expected loop numberAbbildungsindex auf rechter Seite erwartetModulname erwartetNamensraumname erwartetSpezifikation mit geschachteltem Namen erwartetnumerischer Typ erwartetOperator erwartetParameterbündel vor %<...%> erwartetInterner Fehler: expected pass nameZeiger erwartetInterner Fehler: expected pointer as argument of unary %<*%>Zeiger in %qs-Klausel erwartetübergeordneter Ausdruck erwartetPtr-Operator erwartetQualifizierten Namen in Friend-Deklaration für Konstruktor %qD erwartetQualifizierten Namen in Friend-Deklaration für Destruktor %qD erwartetAuswahl-Anweisung erwarteterwartete Signatur: %qDeinelnen Zeiger in %qs-Klausel erwartetSpezifizierer-Qualifizierer-Liste erwartetAnweisung erwartetZeichenkettenliteral erwartetZeichenkettenliteral erwartetSuffixbezeichner erwartetTemplateargument erwartetTemplate-ID erwartetTemplate-ID für Typ erwartetTemplatename erwartetName des Merkmalsselektors erwartetTypspezifizierer erwartetTyp-Name erwartetTypspezifikation erwartetunqualifizierte ID erwartetals Argument 1 wurde entweder ein Zeigertyp oder ein Ganzzahltyp erwartetInterner Fehler: expecting internal function nameExplizite Erfassung (als Kopie) von %<this%> ist mit Standarderfassung (als Kopie) gedoppeltExplizite Erfassung (als Kopie) von %qD ist mit Standarderfassung (als Kopie) gedoppeltExplizite Erfassung (als Referenz) von %qD ist mit Standarderfassung (als Referenz) gedoppeltexplizite Umwandlungsoperatoren nur mit %<-std=c++11%> oder %<-std=gnu++11%> verfügbarder explizite Herleitungshinweis ist hier deklariertExplizite Herleitungshinweise werden nicht für »copy-initialization« berücksichtigtExplizites Goto am Ende von bb %dexplizite Instanziierung von %q#Dexplizite Instanziierung von %q#T vor Definition des Templatesexplizite Instanziierung von %qD, aber keine Definition verfügbarexplizite Instanziierung von %qD in Namensbereich %qD (das nicht Namensbereich %qD einschließt)explizite Instanziierung von %qD außerhalb seines Namensraums muss einen nested-name-specifier verwendenExplizite Instanziierung des Funktionskonzepts %q#Dexplizite Instanziierung des Nicht-Klassen-Templates %qDexplizite Instanziierung des Nicht-Templates %q#Dexplizite Instanziierung des Nicht-Templatetyps %qTExplizite Instanziierung des Variablenkonzepts %q#Dexplizite Instanziierung darf kein %<consteval%> verwendenexplizite Instanziierung darf kein %<constexpr%> verwendenexplizite Instanziierung darf kein %<inline%> verwendenexplizite Qualifizierung in Deklaration von %qDder expliziten Spezialisierung %q#D fehlen möglicherweise Attributeexplizite Spezialisierung als %<concept%> deklariertexplizite Spezialisierung in Gültigkeitsbereich des Nicht-Namensbereiches %qDexplizite Spezialisierung von %qD nach erster Verwendungder expliziten Spezialisierung von %D muss %<template <>%> vorausgehenexplizite Spezialisierung von %qD außerhalb seines Namensraums muss einen nested-name-specifier verwendenexplizite Spezialisierung des Funktionskonzepts %qDexplizite Spezialisierung des Nicht-Templates %qTexplizite Templateargumentliste nicht erlaubtexplizite Template-Spezialisierung kann keine Speicherklasse habenExplizite Standardfunktion %q+D kann nicht als %qs deklariert werden, da die implizite Deklaration nicht %qs ist:explizit verwendete Register müssen oben auf dem Stapel gruppiert werdenExponent-Buchstabe »q« in Real-Literalkonstante bei %CAusdruck in !$OMP ATOMIC WRITE-Zuweisung »var = expr« muss skalar sein und kann keine Variable bei %L referenzierenAusdruck in Zuweisung !$OMP ATOMIC »var = var op expr« muss skalar sein und kann keine Variable bei %L referenzierenAusdruck %qE bezeichnet keine %<constexpr%>-FunktionAusdruck %qE ist kein KonstantenausdruckAusdruck kann nicht als Funktion verwendet werdenAusdruck berechnet nicht die Anzahl der Elemente in diesem Array; der Elementtyp ist %qT, nicht %qTAusdruck in new-Deklarator muss Ganzzahl- oder Aufzählungstyp habenAusdruck in statischer Behauptung ist keine GanzzahlAusdruck in statischer Behauptung ist kein konstanter GanzzahlausdruckAusdruck in statischer Behauptung ist nicht konstantAusdrucksliste als zusammengesetzten Ausdruck in funktionaler Umwandlung behandeltAusdrucksliste als zusammengesetzten Ausdruck in Initialisierung behandeltAusdrucksliste als zusammengesetzten Ausdruck in Speicherinitialisierung behandeltAusdruck muss in runden Klammern eingeschlossen seinAusdruck muss ganzzahlig seinAusdruck von abstraktem Klassentyp %qT kann nicht in throw-Ausdruck verwendet werdenAusdrucksanweisung hat unvollständigen Typextend_ref(): Bad tailerweiterte Initialisierungslisten nur mit %<-std=c++11%> oder %<-std=gnu++11%> verfügbarerweiterte Register haben keine oberen Hälftenextern-Deklaration von %q+D folgt Deklaration ohne BindungGlobaler Wert mit externem Modellexterne Symbole können keine Initialisierung habenexterne Funktionen zur TLS-Initialisierung werden auf diesem Ziel nicht unterstütztfür Symbol %q+D wird wegen des Attributes %qE externe Bindung benötigtInterner Fehler: externally visible inline clonezusätzliches %<;%>zusätzliches %<;%> hinter Funktionsdefinition innerhalb einer Klassezusätzliche geschweifte Klammern am Ende der Initialisierungzusätzliche Elemente in Skalar-InitialisierungZusätzliche ausgehende Kante %d->%dzusätzliche Qualifizierung %<%T::%> an Element %qszusätzliche Qualifizierung nicht erlaubtzusätzliches Semikolonzusätzliches Semikolon in Methodendefinition angegebenzusätzliches Semikolon in »struct« oder »union« angegebenzusätzliche Typqualifizierer in Format-Argument (Argument %d)Plugin %s kann nicht initialisiert werdenfailed to create map component '%s'failed to create union component '%s'eingebaute Funktion konnte nicht expandiert werdenEnde-Status konnte nicht ermittelt werden: %mVerarbeitungszeiten konnten nicht ermittelt werden: %mPlugin %s kann nicht initialisiert werdentemporäre Datei %s konnte nicht für LTO-Ausgaben geöffnet werdentemporäre Datei %s konnte nicht mit LTO-Ausgabe geöffnet werdenZurückfordern der nicht benötigten Funktion gescheitertZurückfordern der nicht benötigten Funktion in gleicher Comdat-Gruppe gescheitertLiteral konnte nicht in den Zeichenvorrat %qT der Ausführungsumgebung übersetzt werdenFehler-Speichermodell kann nicht stärker als Erfolgs-Speichermodell für %<__atomic_compare_exchange%> seinFehlschlag bei Vereinfachung der Teil-Zeichenketten-Referenz in DATA-Anweisung bei %LNeuladen gescheitert:Fallthru-Kante hinter einer Kontrollanweisung in bb %dInterner Fehler: fallthru edge after unconditional jump in bb %iInterner Fehler: fallthru edge crosses section boundary in bb %ifallthru to exit from bb %din Objective-C 1.0 gibt es keine schnelle AufzählungAttribute fastcall und cdecl sind nicht verträglichAttribute fastcall und regparm sind nicht verträglichAttribute fastcall und stdcall sind nicht verträglichAttribute fastcall und thiscall sind nicht verträglichschwerwiegender Fehler: fclose %s: %mfe_runtime_error string must be null terminatedfe_runtime_error: Wrong number of arguments (%d instead of %d)auf Feld %q#D kann mittels %q#D zugegriffen werdenFeld %q#D mit gleichem Namen wie KlasseFeld %qD hat unvollständigen Typen %qTFeld %qE als Funktion deklariertFeld %qE hat unvollständigen TypenFeld »%s« muss initialisiert, aber übersprungen werdenFeld kann nicht %<scope%> seinFeldname nicht in Datensatz- oder union-InitialisierungFeld nicht in Interface erlaubtFeldpräzisionsangabeFeldbreiteFeldbreite im printf-FormatFeldbreite im scanf-FormatFeldbreite im strfmon-FormatFeldbreite im strftime-FormatFeldbreitenangabeFelder haben unterschiedliches Layout in einer anderen ÜbersetzungseinheitDatei %qs verlassen, aber nicht betretenDatei endet in StandardargumentDeklaration von %qE in Datei-Sichtbarkeitsbereich spezifiziert %<auto%>Deklaration von %qE in Datei-Sichtbarkeitsbereich spezifiziert %<register%>der Dateiname %qs beginnt nicht mit dem Profil-Präfix %qsFüllzeichenFüllzeichen im strfmon-Formatfind_array_spec(): Missing specfind_array_spec(): unused as(1)find_array_spec(): unused as(2)find_enum(): Enum not foundfini-Funktion im Objekt %s gefundender Operand des ersten %<sizeof%> wurde hier deklarierterstes Argument muss []byte seindas erste Argument muss vom Typ »size_t« sein, nicht »%s«erstes Argument von %q+D sollte %<int%> seinErstes Argument für %<__builtin_call_with_static_chain%> muss ein Aufrufausdruck seinerstes Argument für %<__builtin_choose_expr%> ist keine KonstanteErstes Argument für %<va_arg%> nicht vom Typ %<va_list%>Interner Compilerfehler: first mismatch is fielderster Offset muss in umgedrehter Richtung der Schleifeniterationen seinerstes Register muss R0 seinerstmals hier gesehenerstmals hier angegebenfeststehendes ebp-Register erfordert %<-maccumulate-outgoing-args%>feststehendes ebp-Register erfordert %<target("accumulate-outgoing-args")%>festes Register %s zur Parameterübergabe an Funktion verwendetFestkommaüberlauf in Ausdruck %qE des Typs %qT ergibt %qEFestkommaüberlauf in Ausdruck des Typs %qT ergibt %qEFestkommatypen werden für dieses Ziel nicht unterstütztFestkommatypen werden in C++ nicht unterstütztflexibles Arrayelement %qD hat keine wohldefinierten Paddingbits für %qsflexibles Arrayelement %qD in ansonsten leerem %q#Tflexibles Arrayelement %qD in Unionflexibles Arrayelement %qD nicht am Ende von %q#Tflexibles Arrayelement in einer Struktur ohne benannte Elementeflexibles Arrayelement in Unionflexibles Arrayelement nicht am Ende von structGleitkommakonstante überschreitet Wertebereich von %qTGleitkommakonstante falsch verwendetGleitkommakonstante auf Null abgeschnittenGleitkommaliteral überschreitet Wertebereich des Typs %qTGleitkommaliteral auf Null abgeschnittenGleitkommaüberlauf in Ausdruck %qE des Typs %qT ergibt %qEGleitkommaüberlauf in Ausdruck des Typs %qT ergibt %qEGleitkommakonstante ist kein gültiger direkter OperandGleitkomma-Suffix %qs durch Implementierung überdecktAblaufsteuerungsbefehl innerhalb eines Basis-Blockesfmax-include-depth=<Anzahl> Maximale Tiefe von verschachtelten #include festlegen.Faltungstest: ursprünglicher Baum durch Faltung geändertFalten einer leeren Expansion über %Ofold-expressions sind nur mit %<-std=c++17%> oder %<-std=gnu++17%> verfügbarfopen %s: %mfür %qDum eine funktionsartige Umwandlung zu erreichen, entfernen Sie das redundante %<::%D%>für Funktionsparameter vom Typ Array muss die Länge angegeben seinfür Rückwärtskompatibilitätum %<std::initializer_list%> herzuleiten, verwenden Sie einen copy-list-initialization (also mit %<=%> vor dem %<{%>)Erhöhungsausdruck kann die Adresse der überladenen Funktion nicht auflösenErhöhungsausdruck hat keinen EffektErhöhungsausdruck ist eine Referenz, kein Aufruf, zur Funktion %qEfür Zeigertyp muss der Längenausdruck angegeben werdenfür Anweisung erwartetFür Template-Deklaration %q+Dfür die Option %<-mcache-block-size=X%> sind nur die Werte 4, 8, 16, 32, 64, 128, 256 oder 512 gültigfür Typ %qTfür Arraytyp mit unbekannten Grenzen muss ein Längenausdruck angegeben werdenfor-, while- oder do-Anweisung erwartetFormatFormatargument %d nicht verwendet vor verwendetem Argument %d im %<$%>-Stil-FormatFormatargument %d mehr als einmal im %s-Format verwendetFormatargument sollte eine %qs-Referenz seineine Zeichenkette wurde gefunden, aber das Format-Argument sollte eine %qs-Referenz seinFormat ist »wide character«-ZeichenketteFormat ist kein Zeichenkettenliteral, und keine FormatargumenteFormat ist kein Zeichenkettenliteral, Argumenttypen ungeprüftFormat ist kein Zeichenkettenliteral, Formatzeichenkette ungeprüftFormat der Spaltenüberschriften in %<devices.csv%> ist falschFormat-Zeichenkettenargument folgt den zu formatierenden ArgumentenFormat-Zeichenkettenargument ist kein ZeichenkettentypFormatzeichenkette ist hier definiertFormatzeichenkette ist kein Array vom Typ %qsZeiger auf qualifizierten Funktionstypen %qT wird geformtZeiger auf Referenztyp %qT wird geformtReferenz auf qualifizierten Funktionstypen %qT wird geformtReferenz auf Referenztyp %qT wird geformtReferenz auf »void« wird gebildetbeim Formen des Typs von %qsVorwärtsdeklaration von %q#T%<%c%s%> gefunden%<-%E%> statt %<+%E%> in Protokoll(en) gefunden%<:%> in Spezifikation mit geschachteltem Namen gefunden, %<::%> erwartetein %qT wurde gefunden, aber das Format-Argument sollte eine Zeichenkette seineine %qs-Referenz wurde gefunden, aber das Format-Argument sollte eine Zeichenkette seinfound a default name with a non-empty defining statementfound a real definition for a non-registerfound a virtual definition for a GIMPLE registerfound an SSA_NAME that had been released into the free poolStandard-Fall nicht am Anfang des case-Vektors gefundenGleitkomma-Software-Vervollständigung benötigt %<-mtrap-precision=i%>fr30_print_operand: ungültiger Code %%Ffr30_print_operand: ungültiger Code %%xfr30_print_operand: ungültiger Operand für Code %%Afr30_print_operand: unbehandeltes MEMfr30_print_operand: unbekannter Codefr30_print_operand: nicht erkannter Code %%Bfr30_print_operand: nicht erkannter Code %%bfr30_print_operand: nicht erkannter Code %%pfr30_print_operand_address: unbehandelte AdresseRahmenzeiger benötigt, aber reserviertRahmengröße von %qs ist %wd BytesRahmengröße der Funktion %qs ist %wd Bytes, größer als benutzerdefinierte Stapelgrenze von %d Bytes. Eine unbedingte Falle wird gesetzt.Rahmengröße der Funktion %qs ist %wd Bytes, mehr als die Hälfte der Stapelgröße. Dynamische Prüfung wäre nicht zuverlässig. Für diese Funktion wird keine Prüfung ausgegeben.Rahmengröße zu groß für zuverlässige Stapelüberprüfungfree_expr0(): Bad expr typefree_pi_tree(): Unresolved fixup»friend«-Deklaration %q#D deklariert eine Nicht-Template-FunktionFriend-Deklaration %qD in lokaler Klasse ohne vorherige Deklaration»friend«-Deklaration %qD ist für explizite Spezialisierung nicht sichtbar»friend«-Deklaration %qD darf keine »virt-specifier« haben»friend«-Deklaration benennt keine Klasse oder Funktion%<friend%>-Deklaration hierfriend-Deklaration nicht in Klassendefinition»friend«-Deklaration %q#D gibt Defaultargumente an und ist nicht die einzige Deklaration»friend«-Deklaration von %qD gibt Defaultargumente an und ist keine Definitionfriend-Deklaration erfordert Klassenschlüssel, d.h. %<friend %#T%>friend-Deklaration erfordert Klassenschlüssel, d.h. %<friend class %T::%D%>Definition der Freundfunktion %qs kann keinen Namen haben, der mit %<%D::%> qualifiziert istDefinition der Freundfunktion %qs kann keinen Namen haben, der mit %<::%> qualifiziert istaus der Definition von %q#Dvon vorheriger Deklaration %qFfrv_print_operand: unbekannter CodeFunktion kann nur mit nil verglichen werdenFunktion %q#D ist wie eine Variable initialisiertFunktionsdefinition von %q+D ist als »dllimport« markiertFunktion %q+D Teil des Alias-ZyklusFunktion %q+F kann nie kopiert werden, da sie das Attribut %<noclone%> hatdie Funktion %q+F kann nie kopiert werden, da sie ein nichtlokales »goto« empfängtdie Funktion %q+F kann nie kopiert werden, da sie die Adresse einer lokalen Marke in statischer Variablen speichertdie Funktion %q+F kann nie »inline« sein, da sie ein berechnetes »goto« enthältdie Funktion %q+F kann nie »inline« sein, da sie ein Argument vom Typ Array variabler Länge hatdie Funktion %q+F kann nie inline sein, da dies mit %<-fno-inline%> unterdrückt wirddie Funktion %q+F kann nie »inline« sein, da sie %<__builtin_return%> oder %<__builtin_apply_args%> verwendetdie Funktion %q+F kann nie »inline« sein, da sie alloca verwendet (zum Aufheben: Attribut »always_inline« verwenden)Funktion %q+F kann nie inline sein, da sie mit inline in Konflikt stehende Attribute hatdie Funktion %q+F kann nie »inline« sein, da sie ein nichtlokales »goto« enthältdie Funktion %q+F kann nie »inline« sein, da sie setjmp verwendetdie Funktion %q+F kann nie »inline« sein, da sie »setjmp-longjmp«-Ausnahmebehandlung verwendetdie Funktion %q+F kann nie »inline« sein, da sie eine variable Argumentliste verwendetFunktion %qD wurde als %<[[noreturn]]%> deklariert, das weicht von der ersten Deklaration abFunktion %qD wurde innerhalb einer Union als %<virtual%> deklariertFunktion %qD ist wie eine Variable initialisiertFunktion %qD könnte ein Kandidat für Formatattribut %qs seinFunktion %qD als Variable redeklariertFunktion %qD als %<asm%>-Ausgabe verwendetFunktion %qs kann nicht als %<mutable%> deklariert seinFunktion %qs wurde in ausgelagertem Code referenziert, wurde aber nicht markiert, dass sie im ausgelagerten Code enthalten sein dürftefunktionsargumente von %<__builtin_tgmath%> haben alle denselben Typden Funktionsargumenten von %<__builtin_tgmath%> fehlt der typgenerische ParameterFunktionsattribute %qs und %qs schließen sich gegenseitig ausFunktionskörper kann zum Link-Zeitpunkt überschrieben werdenFunktionskörper nicht verfügbarFunktionsrumpf ist innerhalb des Interface »%s« nur in final-Funktionen erlaubtFunktionsaufruf hat zusammengesetzten WertFunktion über nicht kompatiblen Typen aufgerufenFunktionskonzept muss aufgerufen werdenFunktionsdeklaration ist kein Prototypals %<noreturn%> deklarierte Funktion hat %<return%>-AnweisungFunktionsdefinition deklarierte %<auto%>Funktionsdefinition deklarierte %<register%>Funktionsdefinition deklarierte %<typedef%>Funktionsdefinition deklarierte %qsFunktionsdefinition deklariert keine ParameterFunktionsdefinition hat qualifizierten void-RückgabetypenFunktion gibt keinen Zeichenkettentypen zurückFunktion ist extern gebunden, aufgrund einer Benutzeranforderung werden nur static-Funktionen geinlinet, um Live-Patchen zu ermöglichenFunktion liefert möglicherweise Adresse einer lokalen Variablen zurückFunktion könnte ein Kandidat für Attribut %qs seinFunktion könnte Kandidat für Attribut %qs sein, wenn sie als normal zurückkehrend bekannt istFunktionsname als linker Operand von %<<%> ist in C++20 verboten; klammern Sie den Funktionsnamen mit %<()%> einFunktionsname für die Startadresse erwartetFunktionsname für die Startadresse erwartet, nicht »%s«Funktion kommt nicht für »inline« in BetrachtFunktion nicht »inline« deklariert und Codegröße würde wachsenFunktion kann nicht »inline« seinFunktion kein Kandidat für »inline«Funktions- oder Arraytyp %qT in %<#pragma omp declare reduction%>Funktions- oder Arraytyp in %<#pragma omp declare reduction%>FunktionsparameterFunktionszeiger werden mit der Option %<-mabi=ti%> nicht unterstütztUnpassende Anzahl der RückgabewerteRückgabetyp der Funktion kann keine Funktion seinFunktionsrückgabetypen nicht kompatibel wegen %<volatile%>Funktion gibt eine FunktionFunktion gibt ein Array zurückFunktion liefert Adresse einer Sprungmarke zurückFunktion liefert Adresse einer lokalen Variablen zurückFunktion gibt Aggregat zurückInterner Fehler: function symbol is not functionFunktions-Template %qD als Klassentemplate redeklariertBezeichner %qD für Funktionstemplate ist geschachteltem Namens-SpezifiziererFunktionstypen nicht wirklich kompatibel in ISO-CFunktionsversionen können nicht als %<gnu_inline%> markiert werden, Körper müssen generiert werdenFunktion mit qualifiziertem void-Rückgabetypen aufgerufenFunktions-Gültigkeitsbereich %qE ist implizit auto, jedoch als %qs deklariertFunktions-Gültigkeitsbereich %qs ist implizit auto und deklarierte %<__thread%>Rumpf eines function-try-block in einem %<constexpr%>-Konstruktor ist erst mit %<-std=c++20%> oder %<-std=gnu++20%> verfügbarRumpf eines function-try-block in einer %<constexpr%>-Funktion ist erst mit %<-std=c++20%> oder %<-std=gnu++20%> verfügbarfunction_profiler-Unterstützungfunction_profiler-Unterstützung für MMIXfunktionale Umwandlung in Arraytyp %qTFunktionen können nicht %<scope%> seinAusschuss am Ende von %<#pragma nomember_alignment%>gcc-Treiberversion %s %s führt GCC-Version %s aus
gcc-Version %s %s
gcov %s%s
Interner Fehler: generate_isocbinding_initializer(): bad iso_c_binding type, expected %<c_ptr%> or %<c_funptr%>get_mpz(): Not an integer constantKern-Dateigrößenlimit kann nicht geholt werden: %mgfc_add_interface(): Bad interface typegfc_arith_divide(): Bad basic typegfc_arith_error(): Bad error codegfc_arith_minus(): Bad basic typegfc_arith_plus(): Bad basic typegfc_arith_times(): Bad basic typegfc_arith_uminus(): Bad basic typeInterner Fehler: gfc_array_dimen_size(): Bad EXPR_ARRAY exprInterner Fehler: gfc_array_dimen_size(): Bad dimensionInterner Fehler: gfc_array_size failedgfc_ascii_statement(): Bad statement codegfc_basic_typename(): Undefined typegfc_caf_attr(): Bad array referencegfc_caf_attr(): Expression isn't a variableInterner Fehler: gfc_check_dependency: expecting an EXPR_VARIABLEgfc_check_digit(): bad radixgfc_code2string(): Bad codegfc_compare_array_spec(): Array spec clobberedgfc_compare_derived_types: invalid derived typegfc_compare_expr(): Bad basic typegfc_copy_expr(): Bad expr nodegfc_expression_rank(): Two array specsInterner Fehler: gfc_find_array_ref(): No ref foundgfc_free_statement(): Bad statementgfc_get_constant_expr(): locus %<where%> cannot be NULLgfc_get_default_type(): Bad symbol %qsgfc_is_constant_expr(): Unknown expression typegfc_match(): Bad match code %cgfc_match_sym_complex_part(): Bad typegfc_op2string(): Bad codegfc_range_check() returned bad valuegfc_range_check(): Bad typeInterner Fehler: gfc_ref_dimen_size(): Bad dimen_typegfc_ref_dimen_size(): Bad dimensiongfc_resolve_blocks(): Bad block typegfc_resolve_code(): Bad statement codegfc_resolve_code(): No expression on DO WHILEgfc_resolve_expr(): Bad expression typegfc_set_default_type(): symbol already has a typegfc_simplify_abs(): Bad typegfc_simplify_dcmplx(): Bad type (x)gfc_simplify_dcmplx(): Bad type (y)gfc_simplify_dim(): Bad typegfc_simplify_floor(): Bad kindgfc_simplify_log: bad typegfc_simplify_mod(): Bad argumentsgfc_simplify_modulo(): Bad argumentsgfc_trans_code(): Bad statement codegfc_trans_omp_workshare(): Bad statement codegfc_trans_select(): Bad type for case expr.gfc_typename(): Undefined typegfc_validate_kind(): Got bad kindgfc_validate_kind(): Got bad typegfc_variable_attr(): Expression isn't a variablegfortran unterstützt nicht -E ohne -cppgfortran: Nur eine Option %<-J%> erlaubtGimple-Aufruf hat kein ZielGimple-Aufruf hat zwei Zielegimple check: expected %s(%s), have %s(%s) in %s, at %s:%dgimple_bb (phi) is set to a wrong basic blockgimple_bb (stmt) is set to a wrong basic blockGimplifikation gescheitertglobale Konstruktoren werden für dieses Ziel nicht unterstütztglobale Destruktoren werden für dieses Ziel nicht unterstütztder Inhalt des %<global-module-fragment%> muss aus einer Präprozessor-Einbindung stammenglobale Qualifizierung von Klassenname ist ungültigglobale Register-Variable %qD in verschachtelter Funktion verwendetglobale Registervariable folgt einer Funktionsdefinitionglobale Registervariable hat AnfangswertGlobale/statische Variablenzuweisung wurde abgefangenglobale Variablen, statische Variablen, Felder, Manifest-Konstanten, ref- und out-Parameter können nicht %<scope%> sein%d Template-Parameter für %q#D erhalten%d Template-Parameter für %q#T erhaltenGoto-Ziel ist weder eine Marke noch ein ZeigerGlobaler Zeiger ist konstant (trotzdem bei indirekten Aufrufen sichern/wiederherstellen).gp_offset (%ld) oder end_offset (%ld) ist kleiner als NullGravis-Akzent %<`%> außerhalb von Anführungszeichen im Formatgsplit-dwarf wird auf dieser Plattform nicht unterstütztPCH musste verschoben werdenHardware-Gleitkommabefehle für MIPS16 für ABIs außer o32 und o64Dezimale Hardware-Gleitkommabefehle sind im ESA/390-Modus nicht verfügbarDezimale Hardware-Gleitkommabefehle sind auf %s nicht verfügbarHardware-Vektorunterstützung ist auf %s nicht verfügbarHardware-Vektorunterstützung ist mit %<-msoft-float%> nicht verfügbarhat unterschiedliche Parameter in einer anderen Übersetzungseinheithat unterschiedlichen Rückgabetyp in einer anderen Übersetzungseinheithat Vorwärtsreferenzenhat ungenauen Wert, wegen Verlust der Genauigkeithat keine »return«-Anweisung, soll aber Wert vom Typ »%s« zurückgebenhat keinen Funktionsrumpf mit Rückgabetyp-HerleitungInterner Fehler: head insn %d for block %d not found in the insn streamhierobere Grenze %qE geht über Abschnittsgröße in %qs-Klausel hinausInterner Compilerfehler: histogram value statement does not correspond to the statement it is associated withiWMMXt und NEON sind unverträglichiWMMXt wird im Thumb-Modus nicht unterstütztia64_print_operand: unbekannter Codeidentical_array_ref(): inconsistent dimensionsBezeichner %qE steht mit C++-Schlüsselwort in KonfliktBezeichner %qE wird in C++11 zum SchlüsselwortBezeichner %qE wird in C++20 zum SchlüsselwortBezeichner nach %<@protocol%> erwartetidentifier overflow: %dwenn eine der %<if%>-Klauseln einen Modifizierer verwendet, müssen alle %<if%>-Klauseln Modifizierer verwendenwenn das Apostroph sich nicht vermeiden lässt, schließen Sie es stattdessen in ein Direktivenpaar %qs und %qs einWenn dieser Code erreicht wird, wird das Programm abgebrochenwenn %qs nicht verwendbar ist, verwenden Sie stattdessen %qs%<#pragma %s %s%> wird ignoriert%<#pragma align%> wird für explizit ausgerichtetes %q+D ignoriert%<#pragma omp declare simd%> an Funktion mit %<_Atomic%>-qualifiziertem nicht-%<uniform%>-Argument wird ignoriert%<#pragma omp declare simd%> an Funktion mit %<_Atomic%>-qualifiziertem Rückgabetyp wird ignoriert%<-fschedule-insns%> wird wegen Ausnahmebehandlungsfehler ignoriert%<asm%>-Angabe für nicht-statische lokale Variable %q+D wird ignoriertAttribut %qD an unbenanntem Namensraum wird ignoriertAttribut %qD an nicht-»inline«-Namensraum wird ignoriert%qE-Attribut wird für Templateinstanziierung %qT ignoriert%qE-Attribut wird für Templatespezialisierung %qT ignoriertAttribut %qE wird ignoriert, da es sich nicht auf eine Variable beziehtAttribut %qE wird ignoriert, da es sich auf eine Variable beziehtAttribut %qE wird ignoriert, da es sich auf eine initialisierte Variable beziehtAttribut %qE wird ignoriert, da es sich auf eine uninitialisierte Variable beziehtAttribut %<%E (%u)%> wird ignoriert, da es mit Attribut %<%E (%u)%> in Konflikt stehtAttribut %qE wird nach dem früheren %qE ignoriertAttribut %qE steht mit dem Attribut %<either%> in Konflikt; wird ignoriertAttribut %qE steht mit dem Attribut %<lower%> in Konflikt; wird ignoriertAttribut %qE steht mit Attribut %<noinit%> in Konflikt; wird ignoriertAttribut %qE steht mit dem Attribut %<persistent%> in Konflikt; wird ignoriertAttribut %qE steht mit Attribut %<section%> in Konflikt; wird ignoriertAttribut %qE steht mit dem Attribut %<upper%> in Konflikt; wird ignoriertAttribut %qE steht mit Attribut %qs in Konflikt; wird ignoriertAttribut %qE wird in Deklaration der eingebauten Funktion %qD ignoriert, da es mit Attribut %qs in Konflikt stehtAttribut %qs wird ignoriert, da es dem vorherigen %qs widersprichtauf %qT nach einer Definition angewandte Attribute werden ignoriertauf Klassentyp %qT angewandte Attribute außerhalb einer Definition werden ignoriertauf abhängigen Typ %qT angewandte Attribute ohne zugehörige Deklaration werden ignoriertAttribute an Templateargument %qE werden ignoriertAttribute an Templateargument %qT werden ignoriertdoppeltes Verzeichnis »%s« wird ignoriert
große lineare Schrittweite wird ignoriertSchleifenannotation wird ignoriertfalsch geformtes %<#pragma longcall%>; wird ignoriertnicht vorhandenes Verzeichnis »%s« wird ignoriert
»packed«-Attribut für ungepacktes nicht-POD-Feld %q#D wird ignoriertmöglicherweise in Konflikt stehende Option %<-fopt-info-%s%> wird ignoriertDer Rückgabewert von %qD, der mit dem Attribut %<warn_unused_result%> deklariert wurde, wird ignoriertder Rückgabewert von %qD (mit %<nodiscard%>-Attribut deklariert) wird ignoriertder Rückgabewert von %qD (mit %<nodiscard%>-Attribut markiert) wird ignoriert%sder Rückgabewert von %qD (mit %<nodiscard%>-Attribut markiert) wird ignoriert: %<%s%>der Rückgabewert von %qD (mit %<nodiscard%>-Attribut deklariert) wird ignoriert: %E%qD hat das Attribut %<warn_unused_result%>, daher sollte der Rückgabewert nicht ignoriert werdenRückgabewert der mit dem Attribut %<warn_unused_result%> definierten Funktion wird ignoriertder Rückgabewert vom Typ %qT (mit %<nodiscard%>-Attribut deklariert) wird ignoriertder Rückgabewert vom Typ %qT (mit %<nodiscard%>-Attribut deklariert) wird ignoriert: %Eder Rückgabewert von Typ %qT (mit %<nodiscard%>-Attribut markiert) wird ignoriert%sder Rückgabewert von Typ %qT (mit %<nodiscard%>-Attribut markiert) wird ignoriert: %<%s%>»sink«-Klausel wird ignoriert, da der Offset kein Vielfaches der Schrittweite istDeklaration %q#D wird ignoriertunbekannte Option %q.*s wird ignoriertunbekannter Wert %<%s%> für Schalter %<-mcustom-fpu-cfg%> wird ignoriertSchrittweite 0 wird ignoriertillegal OP in optimize_comparisonunzulässiger Aggregattyp %qE für Instanzvariable %qs angegebenungültiges Argument 0 für %qsungültiger Operand ungültige Operandenadresse (1)ungültige Operandenadresse (2)ungültige Operandenadresse (3)ungültige Operandenadresse (4)ungültiger Operand wurde gefundenunzulässiger Referenztyp für Instanzvariable %qs angegebenunmittelbare Auswertung liefert die Adresse der unmittelbaren Funktion %qDDer Direktwert für »%2$s« muss in eine %1$d-Bit-Ganzzahl passenimplizites Einfangen von %qE via %<[=]%> ist in C++20 veraltetimplizite Umwandlung von %qH in %qI zur Anpassung an anderen Operanden des Binärausdrucksimplizite Umwandlung von %qH in %qI, um an das Ergebnis im anderen Zweig der Bedingung anzugleichenimplizite Umwandlung von %qH in %qI bei Übergabe von Argument an Funktionimplizite Umwandlung von %qT nach %qTimplizite Umwandlung von %qT in %qT zur Anpassung an anderen Operanden des Binärausdrucksimplizite Umwandlung von %qT in %qT um an anderes Ergebnis von Bedingung anzupassenimplizite Umwandlung von %qT in %qT bei Übergabe von Argument an FunktionImplizite Deklaration der Funktion %qEImplizite Deklaration der Funktion %qE; meinten Sie %qs?implizite Dereferenzierung greift nicht auf Objekt des Typs %qT in Erhöhungsausdruck zuimplizite Dereferenzierung greift nicht auf Objekt des Typs %qT in linkem Operanden des Kommaoperators zuimplizite Dereferenzierung greift nicht auf Objekt des Typs %qT in rechtem Operanden des Kommaoperators zuimplizite Dereferenzierung greift nicht auf Objekt des Typs %qT in zweitem Operanden des bedingten Ausdrucks zuimplizite Dereferenzierung greift nicht auf Objekt des Typs %qT in Anweisung zuimplizite Dereferenzierung greift nicht auf Objekt des Typs %qT in drittem Operanden des bedingten Ausdrucks zuImplizite Zuordnung von Feld %qD mit angenommener GrößeImplizite Templates dürfen nicht %<virtual%> seinFehlzuordnung in implizitem this-ZeigerInterner Fehler: implicit_section flag is set but section isn%'timplizit geholte (»pop«) Register müssen oben auf dem Stapel gruppiert werdenimplizit deklariertes %qD ist veraltetimpliziertes END DO%<import%> kann nicht direkt in einer Bindungs-Angabe vorkommender Import hat %q#D hier deklariertImport-Deklaration muss im globalen Gültigkeitsbereich seinimport_iso_c_binding_module(): Unable to create symbol for %simportiert beiunmögliche Bedingung in %<asm%>unmögliche Registerbedingung in %<asm%>unmögliche Typenbehauptung: Typ implementiert nicht Schnittstellein %s, bei %s:%din C++03 muss bei Deklaration eines »friend« ein Klassenschlüssel verwendet werdenin C++11 und neuer kann ein Defaultkonstruktor explizit seinin C++11 sind Destruktoren standardmäßig %<noexcept%>in C++11 ruft dieses %<throw%> %<terminate%> auf, da Destruktoren standardmäßig %<noexcept%> sindin C++20 ruft dieser Vergleich die aktuelle Funktion rekursiv mit vertauschten Argumenten aufin C++98 ist %<template%> (zum eindeutig machen) nur innerhalb von Templates erlaubt%q+D kann in C++98 nicht static sein, da es ein Union-Element istin C++98 muss %qD mit Konstruktor initialisiert werden, nicht mit %<{...}%>in einem Aufruf von %qD, die mit Attribut %qs hier deklariert wurdein einem Aufruf von %qT, die mit Attribut %qs deklariert wurdein einem Aufruf der hier deklarierten Allokationsfunktion %qDin einem Aufruf der eingebauten Allokationsfunktion %qDin einem Aufruf der eingebauten Funktion %qDin einem Aufruf der Funktion %qDin einem Aufruf der Funktion %qD, die als %qs deklariert istin einem Aufruf der Funktion %qD, die mit Attribut %qs deklariert wurdein einem Aufruf der nicht-statischen Elementfunktion %qDin einem Aufruf mit Typ %qTin einem Aufruf mit Typ %qT und Attribut %qsin- und out-Verträge können nur ohne Rumpf vorkommen, wenn sie virtuelle Interface-Funktionen sind, oder %<abstract%>in Argument für unäres !Interner Fehler: in basic block %d:im Aufruf von %qD, hier deklariertin Deklaration %q+Din Definition des Makros %qsbei Substitution des Makros %qsin gfc_simplify_acos(): Bad typein gfc_simplify_acosh(): Bad typein gfc_simplify_asin(): Bad typein gfc_simplify_asinh(): Bad typein gfc_simplify_atan(): Bad typein gfc_simplify_atanh(): Bad typein gfc_simplify_cos(): Bad typein gfc_simplify_exp(): Bad typein gfc_simplify_sin(): Bad typein Initialisierung der Variable %qD für strukturierte Bindungbei Übergabe des Arguments %P von %qDin Templateargument für Typ %qTin der Definition von %q#Tin diesem AusdruckInitialisierung innerhalb der Klasse des statischen Datenelements %q#D mit unvollständigem TypInitialisierung innerhalb der Klasse des statischen Datenelements %q#D mit nicht eingebautem TypZugriff auf nicht zugreifbare Plugin-Datei %s (aus kurzem Plugin-Namen %s erzeugt) nicht möglich: %munpassender Akkumulator für %qsbinden Sie %qs ein oder stellen Sie eine Deklaration von %qD bereitbinden Sie %qs ein oder stellen Sie eine Deklaration von %qE bereitEingehende Kantenzahl passt nicht zur Anzahl der PHI-Argumenteinkompatible %qs-Klausel bei Anwendung von %<%s%> auf %qD, die bereits mit einer OpenACC-»routine«-Direktive gekennzeichnet wurdeInkompatible Adressraumkennzeichen %qs und %qsinkompatible kovariante Typen »%s« und »%s«inkompatible Datenklausel mit Reduktion an %qE; wird zu %<present_or_copy%> befördertunverträglicher Gleitkomma- / Vektorregisteroperand für »%%%c«Unverträgliche implizite Deklaration der eingebauten Funktion %qDUnverträgliche implizite Deklaration der Funktion %qDdie Optionen %<-mstack-protector-guard=global%> und %<-mstack-protector-guard-offset=%s%> sind unverträglichunverträglicher Registeroperand für »%%%c«Inkompatibler Typ für Argument %d von %qEinkompatible Typen für AbbildungsindexInkompatibler Typ für Methode %s%s%sInkompatibler Typ für Methode %s%s%s (%s)inkompatible Typen für Empfängerinkompatible Typen in %<PHI%>-Argument %uunverträgliche Typen in Zuweisung von %qT an %qTinkompatible Typen in binärem Ausdruckinkompatible Typen in »send«unverträgliche Typen bei Zuweisung an Typ %qT von Typ %qTinkompatible Typen bei Initialisierung von Typ %qT mit Typ %qTunverträgliche Typen bei Rückgabe von Typ %qT, aber %qT wurde erwartetunverträgliche Vektortypen in bedingtem Ausdruck: %qT, %qT und %qTunvollständige Implementierung der Kategorie %qEunvollständige Implementierung der Klasse %qEunvollständige Mixin-Deklaration (%s)unvollständiger Typ %qT hat kein Element %qDunvollständiger Typ %qT ist nicht zuordenbarunvollständiger Typ %qT in geschachtelter Namensangabe verwendetinkonsistentes %<ifunc%>-Attributunvereinbare Anfang-/Ende-Typen in bereichsbasierter %<for%>-Anweisung: %qT und %qTinkonsistente Großschreibung im Formatwidersprüchliche Herleitung für %qT: %qT und dann %qTwidersprüchliche Herleitung für automatischen Rückgabetyp: %qT und dann %qTwidersprüchliche Spezifikation von Instanzvariableinkonsistente Operandenbedingungen in einem %<asm%>widersprüchliche Typen %qT und %qT für Lambda-Rückgabetypen hergeleitetwidersprüchliche benutzerdefinierte literale Suffixe %qD und %qD in ZeichenkettenliteralFalscher Vergleichsmodusfalscher Eintrag in %<label_to_block_map%>Falsches Format der Skalierung; 1/1 wird verwendet
Falscher Hinweis-OperandFalscher Befehl:Falsche Anzahl der Argumente für Funktion %qEfalsche Anzahl der Vektor-%qs-Elementefalsche Eigenschaft %qs des %qs-SelektorsFalscher Rundungsoperandincorrect setting of landing pad numberincorrect sharing of tree nodesungültiger Typ der Vektor-%qs-Elementefalscher Typ der Elemente eines Vektorkonstruktorsfalsch geschachtelter OpenACC-SchleifenparallelismusInkrementausdruck verweist auf Schleifenvariable %qDErhöhung ist weder konstant 1 noch konstant -1 für die %<!=%>-BedingungInkrementieren eines booleschen AusdrucksErhöhung des konstanten Feldes %qDSchrittweite von Aufzählungswerten (enum) ist in C++ ungültigErhöhung der Funktion %qDErhöhung des Elements %qD in schreibgeschütztem ObjektInkrementieren eines Zeigers auf unvollständigen Typ %qTErhöhung der schreibgeschützten Speicherstelle %qEErhöhung des schreibgeschützten Elementes %qDErhöhung des schreibgeschützten benannten Rückgabewertes %qDErhöhung des schreibgeschützten Parameters %qDErhöhung der schreibgeschützten Referenz %qDErhöhung der schreibgeschützten Variable %qDerhöhter Aufzählungswert ist zu groß für %<long%>erhöhter Aufzählungswert ist zu groß für %<unsigned long%>Index %E markiert einen Offset größer als die Größe von %qTIndex in Dimension %d ist außerhalb der Grenzen bei %LIndex muss eine Ganzzahl seinIndexwert statt Feldname in Union-InitialisierungIndexwert ist außerhalb der GrenzenInterner Fehler: indirect call count does not match BB countindirekter Aufruf in Funktion, das wird von eBPF nicht unterstütztindirekter Aufruf in der Folge der spekulativen Aufrufe hat kein Spekulationsflagindirekte Funktion %q+D kann nicht als %qE deklariert werdenindirekte Funktion %q+D kann nicht als »schwach« deklariert werdenIndirekter Funktionsaufruf mit noch unbekanntem Aufruferindirekte Sprünge sind auf dieser Zielmaschine nicht verfügbarAttribut »indirect_call« bezieht sich nicht auf »static«-FunktionenIndirektion greift nicht auf Objekt unvollständigen Typs %qT in Erhöhungsausdruck zuIndirektion greift nicht auf Objekt unvollständigen Typs %qT in linkem Operanden des Kommaoperators zuIndirektion greift nicht auf Objekt unvollständigen Typs %qT in rechtem Operanden des Kommaoperators zuIndirektion greift nicht auf Objekt unvollständigen Typs %qT in zweitem Operanden des bedingten Ausdrucks zuIndirektion greift nicht auf Objekt unvollständigen Typs %qT in Anweisung zuIndirektion greift nicht auf Objekt unvollständigen Typs %qT in drittem Operanden des bedingten Ausdrucks zuIndirektion greift nicht auf Objekt des nicht trivial kopierbaren Typs %qT in Erhöhungsausdruck zuIndirektion greift nicht auf Objekt des nicht trivial kopierbaren Typs %qT im linken Operanden des Kommaoperators zuIndirektion greift nicht auf Objekt des nicht trivial kopierbaren Typs %qT im rechten Operanden des Kommaoperators zuIndirektion greift nicht auf Objekt des nicht trivial kopierbaren Typs %qT im zweiten Operanden des bedingten Ausdrucks zuIndirektion greift nicht auf Objekt des nicht trivial kopierbaren Typs %qT in Anweisung zuIndirektion greift nicht auf Objekt des nicht trivial kopierbaren Typs %qT im dritten Operanden des bedingten Ausdrucks zuerschlossener skalarer Typ %qT muss ein Ganzzahl- oder Gleitkommatyp derselben Größe wie %qT seingeerbter Konstruktor %qD ist nicht %<constexpr%>erbende Konstruktoren nur mit %<-std=c++11%> oder %<-std=gnu++11%> verfügbarerbt vom doppelten Interface »%s«init-Funktion im Objekt %s gefunden»init-statement in Auswahlanweisungen« ist nur mit %<-std=c++17%> oder %<-std=gnu++17%> verfügbarinit_arglist(): too many argumentsInitialisierung streicht Qualifizierer %qv von Zeiger-ZieltypInitialisierung von anderem Objective-C-TypInitialisierung von Zeiger auf nicht enthaltenen AdressraumLinke-Initialisierung könnte Kandidat für Formatattribut seinInitialisierung erzeugt aus unqualifiziertem einen qualifizierten Funktionszeiger %q#vInitialisierung eines %qT aus %qT wandelt einen Zeiger in eine Zahl um, ohne explizite TypkonvertierungInitialisierung von %qT von %qT wandelt eine Zahl in einen Zeiger um, ohne explizite TypkonvertierungInitialisierung von %qT von inkompatiblem Zeigertyp %qTInitialisierung von %qT von Zeiger auf %qD mit inkompatiblem Typ %qTInitialisierung von %qT von Zeigertyp %qT mit inkompatibler Speicherreihenfolge für SkalareInitialisierung eines flexiblen Array-ElementsInitialisierung der allgemeinen Blockvariable %qs in DATA-Anweisung bei %CInitialisierung eines flexiblen Array-Elements in geschachteltem KontextInitialisierung des new-Ausdrucks für Typ %<auto%> erfordert genau ein ElementInitialisierung eines nicht-konstanten Referenztyps %q#T von R-Wert des Typs %qTInitialisierung des %<volatile%>-Referenztyps %q#T von R-Wert des Typs %qTInitialisierung mit »%s.%s + 1« erzeugt Überlauf für Typ »%s«Initialisierungen für mehrere Elemente von %qTinitialisiertes Feld überschriebeninitialisiertes Feld mit Seiteneffekten überschriebendas initialisierte Element %q+D wurde hier deklariertinitialisierte Variable %q+D ist als »dllimport« markiertInitialisierungselement ist kein konstanter AusdruckInitialisierungs-Element ist zur Lade-Zeit nicht berechenbarInitialisierungselement ist nicht konstantInitialisierung endet vorzeitigInitialisierungsausdruck verweist auf Iterationsvariable %qDInitialisierung gibt nicht die Größe von %q+D anInitialisierung gibt nicht die Größe von %qD anInitialisierung gibt nicht die Größe von %qT anInitialisierung für %<decltype(auto) %D%> hat Funktionstyp; %<()%> vergessen?Initialisierer für %q#D expandiert zu einer leeren AusdruckslisteInitialisierung für %q#D ist ungültigInitialisierung für %qT muss geklammert seinInitialisierung eines flexiblen Arrayelements %q#DInitialisierung für Gleitkommawert ist keine GleitkommakonstanteInitialisierung für Ganzzahl-/Gleitkommazahlwert ist zu kompliziertInitialisierung in bereichsbasierter %<for%>-SchleifeInitialisierung ungültig für statisches Element mit KonstruktorInitialisierung für Funktion bereitgestelltInitialisierung für »friend«-Funktion %qD angegebenInitialisierung für nicht-virtuelle Methode %q+D angegebenInitialisierung für statische Element-Funktion %qD angegebenInitialisierungs-Zeichenkette für %qT ist zu langdadurch, dass %qD mittels %qE initialisiert wird, verlängert sich die Lebenszeit des zugrundeliegenden Arrays nichtdas Initialisieren von %qH mit %qI in einem umgewandelten konstanten Ausdruck bindet nicht direktdas Initialisieren einer Basisklasse vom Typ %qT führt zu Objektslicingeingegebener Klassenname %qD als Template-Templateargument verwendetInline-Assembler ist kein konstanter Ausdruckinline clone count is not compatibleInterner Fehler: inline clone in same comdat group listInterner Fehler: inline clone is forced to outputInterner Fehler: inline clone with address takeninline-Deklaration von %qD folgt Deklaration mit Attribut %<noinline%>»inline«-Funktion %q+D ist als »dllimport« deklariert: Attribut wird ignoriertInline-Funktion %q+D deklariert, aber nirgendwo definiert»inline«-Funktion %q+D als »schwach« deklariertder inline-Funktion %q+D wurde das Attribut %qs gegebender inline-Funktion %qD wurde das Attribut %qs gegebeninline-Funktion %qD verwendet, aber nirgendwo definiertein %<inline%>-Namensraum muss bei der ersten Definition angegeben werden»inline«-Namensräume nur mit %<-std=c++11%> oder %<-std=gnu++11%> verfügbar»inline«-Variablen sind nur mit %<-std=c++17%> oder %<-std=gnu++17%> verfügbarInterner Fehler: inlined_to pointer is set but no predecessors foundInterner Fehler: inlined_to pointer is wrongInterner Fehler: inlined_to pointer refers to itselfInterner Fehler: inlined_to pointer set for noninline callersInlining beim Aufruf von %q+F mit %<always_inline%> fehlgeschlagen: %s»inline« beim Aufruf von %q+F gescheitert: %sinnere Schleife verwendet denselben OpenACC-Parallelismus wie enthaltende Schleifeinout-Variablen können nur innerhalb von inout-Funktionen deklariert werdenEingabedatei %qs ist dieselbe wie die AusgabedateiBedingung für Eingabeoperanden enthält %qcInterner Fehler: insert_bbt(): Duplicate key foundEinschub außerhalb des gültigen Bereichs in %qsInterner Fehler: insn %d basic block pointer is %d, should be %dInterner Fehler: insn %d in footer of bb %d has non-NULL basic blockInterner Fehler: insn %d in header of bb %d has non-NULL basic blockInterner Fehler: insn %d is in multiple basic blocks (%d and %d)Interner Fehler: insn %d outside of basic blocks has non-NULL bb fieldBefehlsadressen nicht freigegebenInterner Fehler: insn addresses not set after shorten_branchesBefehl enthält eine ungültige Adresse!Befehl erfüllt nicht seine Bedingungen:Befehl außerhalb eines Basis-BlockesBefehl mit UID %i nicht gefunden für Operand %i (»%s«) von Befehl %iBefehl mit UID %i nicht gefunden für Operand %i von Befehl %iinstalliere: %s%s
Installationsfehler, %<crtoffloadtable.o%> kann nicht gefunden werdenin Klassenmethode wird auf Instanzvariable %qE zugegriffenInstanzvariable %qE ist »%s«; dies wird zukünftig ein schwerer Fehler seinInstanzvariable %qE ist als »%s« deklariertInstanzvariable %qE ist als »private« deklariertInstanzvariable %qs hat unbekannte GrößeInstanzvariable %qs ist als »private« deklariertInstanzvariable %qs verwendet flexibles ArrayelementZuweisung der Instanzvariable wurde abgefangenBefehl wird niemals ausgeführtBefehlsplanung wird von dieser Zielmaschine nicht unterstütztunzureichende Informationen für Typbestimmung aus Kontextunzureichende Partitionierung verfügbar, um die Elementschleife zu parallelisierenunzureichende Partitionierung verfügbar, um Schleife zu parallelisierenunzureichende Partitionierung verfügbar, um die Kachelschleife zu parallelisierenGanzzahlkonstante ist zu groß für %<unsigned long%>-TypGanzzahldivision durch NullGanzzahlliteral überschreitet Wertebereich des Typs %qTGanzzahlüberlauf in ArraygrößeGanzzahlüberlauf in Ausdruck %qE des Typs %qT ergibt %qEGanzzahlüberlauf in Ausdruck des Typs %qT ergibt %qEGanzzahl-Suffix %qs durch Implementierung überdecktGanzzahlausdruck %qE ist nicht konstantGenauigkeit des ganzzahligen Ergebnistypen passt nicht zur Feldgröße von %qsdie Schnittstelle %qE hat keine gültige Form einer konstanten Zeichenketteinterner Compiler-FehlerInterner Compiler-Fehler. Falsche Adresse:Interner Compiler-Fehler. Falsche Verschiebung:Interner Compiler-Fehler. Unbekannter Modus:interner Compiler-Fehler: internes Konsistenzprobleminterner Fehler: falsches Register: %dinternal error: builtin function %qs already processedinternal error: builtin function %qs had an unexpected return type %qsinternal error: builtin function %qs, argument %d had unexpected argument type %qsinterner Fehler: cris_side_effect_mode_ok mit falschen OperandenInterne Prozedur %qs bei %L steht in Konflikt mit DUMMY-Argumentinterne Einheit in WRITEdie Attribute %<interrupt%> und %<naked%> sind nicht kompatibelInterrupthandler können keine MIPS16-Funktionen seinInterrupthandler können keine Argumente habenInterrupt-Service-Routine darf nur ein Zeiger- und ein optionales Ganzzahl-Argument habenInterrupt-Dienst-Routinen können nicht direkt aufgerufen werdenInterrupt-Service-Routine muss den Rückgabetyp %<void%> habenin Interrupt-Service-Routinen sollte das zweite Argument vom Typ %qs seinin Interrupt-Service-Routinen sollte das erste Argument ein Zeiger seinInterruptvektor für %qE-Attribut ist nicht vector=(sw0|sw1|hw0|hw1|hw2|hw3|hw4|hw5)interrupt_thread ist nur auf Fido verfügbarintrinsischer Registerindex ist außerhalb des gültigen Bereichsinnere Variable, die keine Prozedur istungültiger %%%c-Operandungültiger %%-Codeungültiger %%A-Operandungültiger %%A-Wertungültiger %%B-Operandungültiger %%C-Operandungültiger %%C-Wertungültiger %%D-Operandungültiger %%D-Wertungültiger %%E-Wertungültiger %%F-Wertungültiger Modus %%Gungültiger %%G-Wertungültiger %%H-Operandungültiger %%H-Spezifiziererungültiger %%H-Wertungültiger %%I-Operandungültiger %%J-Codeungültiger %%J-Wertungültiger %%K-Wertungültiger %%L-Operandungültiger %%L-Wertungültiger %%M-Operandungültiger %%M-Wertungültiger %%N-Operandungültiger %%N-Wertungültiger %%O-Wertungültiger %%P-Operandungültiger %%P-Wertungültiger %%R-Wertungültiger %%T-Wertungültiger %%U-Wertungültiger %%V-Wertungültiger %%Y-Operandungültiger %%c-Operandungültiger %%d-Operandungültiger %%d-Wertungültiger %%e-Wertungültiger %%f-Operandungültiger %%f-Wertungültiger %%h-Operandungültiger %%h-Wertungültiger %%i-Operandungültiger %%j-Codeungültiger %%j-Operandungültiger %%j-Wertungültiger %%k-Wertungültiger %%m-Wertungültiger %%p-Wertungültiger %%q-Wertungültiger %%r-Operandungültiger %%r-Wertungültiger %%s-Operandungültiger %%s-Wertungültiger %%t-Operandungültiger %%t-Wertungültiger %%t/%%b-Wertungültiger %%u-Wertungültiger %%v-Wertungültiger %%x-Wertungültiger %%xn-Codeungültiger %%y-Wert, bitte »Z«-Bedingung probierenungültiger %%z-Wertungültiges %<#pragma %s%>ungültiges %<CASE_CHAIN%>ungültiger %<CPU_TYPE%>-Wert %qs gelesen aus %<devices.csv%> für %qsungültiger %<MPY_TYPE%>-Wert %qs gelesen aus %<devices.csv%> für %qsungültiges %<PHI%>-Argumentungültiges %<PHI%>-Ergebnisungültiges %<const_cast%> von Typ %qT in Typ %qTungültiges %<const_cast%> eines R-Wertes des Typs %qT in Typ %qTungültiges %<static_cast%> von Typ %qT in Typ %qTungültiger %<task%>-Reduktionsmodifizierer in Konstrukt kombiniert mit %<simd%> oder %<loop%>ungültiger %<task%>-Reduktionsmodifizierer in Konstrukt, das nicht mit %<parallel%>, %<for%> oder %<sections%> kombiniert istungültiger %<task%>-Reduktionsmodifizierer bei Konstrukt außer %<parallel%>, %qs oder %<sections%>ungültiger Offset-Operator %qsungültiges »asm«: Ungültige (Zeiger-)Operanden %qsungültiges IACC-Argumentungültige LHS in GIMPLE-AufrufUngültiger Objective-C++-Selektornameungültige OpenACC-Klausel im Datei-Gültigkeitsbereichungültiger nicht-rechteckiger OpenMP-Schleifenschritt; %<(%E - %E) * %E%> ist kein Vielfaches von Schleife %d Schritt %qEungültige rechte Seite für GIMPLE-Speicherung: %qsungültiges UNSPEC als Operandungültiges UNSPEC als Operand: %dInterner Fehler: invalid _Literalungültiger abstrakter Parametertyp %qTungültiger abstrakter Rückgabetyp %qTungültiger abstrakter Rückgabetyp für Funktion %q+#Dungültiger abstrakter Rückgabetyp für Elementfunktion %q+#Dungültiger abstrakter Typ %qT für %qEungültiger abstrakter Typ für %q+Dungültiger Zugriff auf nicht-statisches Datenelement %qD in virtueller Basis des NULL-Objektesungültige Adresseungültige Adresse für Ausgabemodifizierer »O«ungültige Adresse für Ausgabemodifizierer »R«ungültige Adresse für Ausgabemodifizierer »S«ungültige Adresse in Operandungültiger Adressierungsmodusungültiger Adressoperand in %qsungültiger Adressierungsmodusungültige Ausrichtung für %<#pragma align%> - ignoriertUngültiger Ausrichtungswert für %<__builtin_arc_aligned%>ungültige Anwendung von %<__alignof%> auf ein Bitfeldungültige Anwendung von %<sizeof%> auf ein BitfeldUngültige Anwendung von %<sizeof%> auf einen Funktionstypenungültige Anwendung von %qs auf ElementfunktionUngültige Anwendung von %qs auf einen void-TypenUngültige Anwendung von %qs auf Arraytyp %qT mit unvollständigem ElementtypUngültige Anwendung von %qs auf unvollständigen Typen %qTUngültige Architektur für Zielattribut oder -pragma %qsungültiges Argument %qs für %<-mbranch-protection=%>ungültiges Argument %qs für %<-mharden-sls=%>Ungültiges Argument %d für eingebaute Funktion %qFungültiges Argument %qs für %qsungültiges Argument für %<-mharden-sls=%>ungültiges Argument für Attribut %qEungültiges Argument für Attribut %qsUngültiges Argument von SQRT bei %Lungültiges Argument für %qDungültiges Argument für eingebaute Funktionungültiges Argument für eingebaute Funktion »%s«ungültiges Argument für GIMPLE-Aufrufungültige Argumenteungültige Argumente für Option %<-falign-%s%>: %qsungültige Argumente für %<-fpatchable-function-entry%>Ungültige ArrayzuweisungInterner Fehler: invalid base %qE for SSA nameungültige Spezifizierung der BasisklasseInterner Fehler: invalid block indexungültiger Zweig zu/von strukturiertem %s-Blockungültiger Schalter »calls_comdat_local«ungültige »case«-Marke in switch-Anweisungungültiger »case«-Bereich in switch-Anweisungungültige Umwandlung von Typ %qT in Typ %qTungültige Typumwandlung eines prvalue-Ausdrucks des Typs %qT in Typ %qTungültige Umwandlung in abstrakte Klasse %qTungültige Umwandlung in Funktionstyp %qTungültiger Klassenname in Deklaration von %qDungültige Clique in %qsungültige Kombination mehrerer Typ-Spezifiziererinvalid comparison code in gimple condungültiger Vergleich eines generierten Arraysungültiger Vergleich mit einer generierten Strukturungültiger Vergleich von nil mit nilungültiger Vergleich eines nicht-vergleichbaren Arraysungültiger Vergleich einer nicht-vergleichbaren Strukturungültiger Vergleich eines nicht-vergleichbaren Typsungültiger Vergleich ungeordneter Typenungültiger Vergleichsoperator für Ausgabemodifizierer »E«ungültiger const_double-Operandungültige KonstanteUngültige Konstante – anderen Ausgabemodifizierer probierenungültige Konstante für Ausgabemodifizierer »%c«ungültige Konstante in %<#pragma %s%>ungültige Konstante in %<#pragma pack%> - ignoriertungültiger konstanter Vektor für Ausgabemodifizierer »%c«ungültiger beschränkter Typparameterungültige Bedingungen für Operandungültiger Konstruktor; wahrscheinlich war %<%T (const %T&)%> gemeintungültiges Steuerregister %d für mvtc; »psw« wird verwendetSteuerprädikat ungültigungültige Umwandlung von %<__fpreg%>ungültige Umwandlung von %qH in %qIungültige Umwandlung von %<* __vector_pair%>ungültige Umwandlung von Typ %<* __vector_quad%>ungültige Umwandlung von %<__vector_pair%>ungültige Umwandlung von Typ %<__vector_quad%>ungültige Umwandlung von Typ %<bfloat16_t%>ungültige Umwandlung in GIMPLE-Aufrufungültige Umwandlung in »return«-Anweisungungültige Umwandlung in %<__fpreg%>ungültige Umwandlung in %<* __vector_pair%>ungültige Umwandlung in Typ %<* __vector_quad%>ungültige Umwandlung in %<__vector_pair%>ungültige Umwandlung in Typ %<__vector_quad%>ungültige Umwandlung in Typ %<bfloat16_t%>ungültige Umwandlung in Typ %qT von Typ %qTungültiger kovarianter Rückgabetyp für %q#Dungültiger kovarianter Rückgabetyp für %q+#Dungültige CPU %qs für %s%qs%sungültige Option für benutzerdefinierten Befehl %qsUngültige Datenmodell-Option %<-mdata-model=%s%>ungültige Deklaration von %<%T::%E%>ungültige Deklaration eines Elementtemplates in lokaler Klasseungültiger Deklaratorungültiges Standardargument für einen Template-Templateparameterungültige %<default%>-Sprungmarke in switch-Anweisungungültige Definition des qualifizierten Typen %qTungültige Abhängigkeitsartungültige Abhängigkeitsart in omp %<ordered%> %<depend%>ungültige »dist_schedule«-Artungültiger Elementtyp für Attribut %qsungültiges Encoding-Präfix in Literal-Operatorungültiger Eintritt in strukturierten %s-Blockungültiger Austritt aus strukturiertem %s-Blockungültiger Ausgang von strukturiertem OpenMP-Blockungültige explizite Spezialisierungungültiger Ausdruck – anderen Ausgabemodifizierer probierenungültiger Ausdruck als Operandungültiger Ausdruck für Min-L-Wertungültiger Ausdruck für Ausgabemodifizierer »%c«ungültiger Ausdruckstyp für %<#pragma omp atomic%>ungültiges Fehler-Speichermodell für %<__atomic_compare_exchange%>unbekannter Feature-Modifizierer %qs in %<-march=%s%>unbekannter Feature-Modifizierer %qs in %<-mcpu=%s%>ungültiger Featuremodifizierer %qs mit Wert %qs in Pragma oder Attribut %<target()%>invalid fn spec attribute "%s"invalid fn spec attribute "%s" arg %iungültige »fnsummary« in LTO-Datenstromungültige Form von %<#pragma omp atomic%>ungültiges Format für sve_widthungültiges Format von %sungültige Gleitkomma-Konstanteungültige FPU für Zielattribut oder -pragma %qsungültige Funktion in GIMPLE-Aufrufungültige Verwendung von festen Registern zwischen earlyclobber-Operand und Eingabeoperandungültige Verwendung von festen Registern zwischen Ausgabeoperanden und dem zugehörigen Constraint-Operandenungültige Verwendung von festen Registern zwischen Ausgabeoperandenungültiger ID-Wert für Attribut »exception«ungültiger ID-Wert für Attribut »interrupt«ungültiger ID-Wert für Interrupt-/Exception-Attributungültiger ID-Wert für »reset«-Attributungültige Initialisierung innerhalb der Klasse des statischen Datenelements vom nicht eingebauten Typen %qTErhöhungsausdruck ungültigungültiger Anfangswert für Element %qEungültige Initialisierung einer nicht-konstanten Referenz des Typs %qH von rvalue des Typs %qIungültige Initialisierung einer Referenz des Typs %qH von Ausdruck des Typs %qIungültige Initialisierungungültige Initialisierungsklauselungültige Initialisierung für %q#Dungültige Initialisierung für Arrayelement %q#Dungültige Initialisierung für Elementfunktion %qDungültige Initialisierung für strukturierte BindungsdeklarationUngültiger Befehl:ungültiges Schleifenvariable in schneller Aufzählungungültige Sprungfunktion in LTO-DatenstromUngültiger Marken in GIMPLE-Bedingungungültige linke Seite einer Zuweisungungültige Zeile in Auflösungsdateiungültige Bindungsspezifikationungültiger Ort für %<pragma %s%>, ignoriertungültiger L-Wert in %<asm%>-Ausgabe %dungültige Zuordnungsartungültige Maskeungültiger Maskentyp in %qsungültige Elementtemplatedeklaration %qDungültiges Argument %d für Speichermodell von %qEungültiges Speichermodell-Argument für eingebaute Funktionungültiges Speichermodell für %<__atomic_load%>ungültiges Speichermodell für %<__atomic_store%>ungültiger Name (%qs) für Pragma oder Attribut %<target("arch=")%>ungültiger Name (%qs) für Pragma oder Attribut %<target("cpu=")%>ungültiger Name (%qs) für Pragma oder Attribut %<target("tune=")%>ungültiger new-Ausdruck für abstrakte Klasse %qTungültige NMI-Funktion für »reset«-Attributungültiges Templateargument ohne Typungültige Nicht-Vektor-Operanden für %qsungültige Anzahl in %<-mrgf-banked-regs=%s%>; gültige Werte sind 0, 4, 8, 16 und 32Falsche Anzahl der Argumente für Option %<-falign-%s%>: %qsungültige offload-Tabelle in %sungültiger Offset-Operand in %qsungültiger Operandungültiger Code für Operand %%xnungültige Operandenadresseungültiger Operandencode »%c«ungültiger Operand für »%%%c«ungültiger Operand für Modifizierer »A«ungültiger Operand für Modifizierer »D«ungültiger Operand für Modifizierer »H«ungültiger Operand für Modifizierer »O«ungültiger Operand für Modifizierer »T«ungültiger Operand für Modifizierer »b«ungültiger Operand für Modifizierer »e«ungültiger Operand für Modifizierer »m«ungültiger Operand für Modifizierer »o«ungültiger Operand für Modifizierer »p«ungültiger Operand für Spezifizierer »r«ungültiger Operand für Modifizierer »z«ungültiger Operand für Code »%c«ungültiger Operand in %qsungültiger Operand in indirekter Referenzungültiger Operand in »return«-Anweisungungültiger Operand in unärer Operationungültiger Modifizierer-Buchstabe für Operandungültiger Operanden-Ausgabecodeungültiges Operandenpräfixungültiger Operandenpräfix »%%%c«ungültige Operandengröße für Operandencode »O«ungültige Operandengröße für Operandencode »Z«ungültige Operandengröße für Operandencode »z«ungültiger Operand für %%H/%%L-Codeungültiger Operand für Code %%Mungültiger Operand für Code %%Nungültiger Operand für Code %%Oungültiger Operand für %%Rungültiger Operand für %%R-Codeungültiger Operand für %%Sungültiger Operand für Code %%T/%%Bungültiger Operand für %%U-Codeungültiger Operand für %%V-Codeungültiger Operand für Code %%Zungültiger Operand für Code %%pungültiger Operand für Code %%sungültiger Operand für Code %%zungültiger Operand für switch-Anweisungungültiger Operandentyp %qT für %qsungültiger Operandentyp mit Operandencode »Z« verwendetungültige Operanden in binärer Operationungültige Operanden in GIMPLE-Vergleichungültige Operanden in ternärer Operationungültige Operanden der Typen %qT und %qT für binäres %qOungültige Operanden für Code %%cungültiger Operand für %qsUngültige Operanden für binäres %s (haben %qT und %qT)Interner Fehler: invalid operationungültige Operation (%s)ungültige Operation auf %<__fpreg%>ungültiger Operator für %<#pragma omp atomic%>ungültige Reihenfolge in asm-Knoten %iungültige Parameterkombination für AltiVec-spezifisches intrinsisches %qsungültige Parameterkombination für intrinsisches %qsungültiger Parametertyp %qTungültige DurchlaufpositionierungsoperationUngültiger Zeigermodus %qsungültiger Zeiger auf Bitfeld %qDungültige Position oder Größe in %qsungültiger Positions- oder Größenoperand für %qsungültige »private«-Reduktion auf %qEungültige »proc_bind«-Artungültiger Schutztyp %qs in Pragma oder Attribut %<target("branch-protection=")%>ungültiger Prototyp für »%s«ungültiges Zeichen %qc in Bedingungungültiger »pure const«-Status für Funktionungültige reine Spezifikation (nur %<= 0%> ist erlaubt)ungültige Qualifizierer an Nicht-Element-Funktionstypungültiger angegebener Gültigkeitsbereich in Pseudodestruktor-Nameungültiges Empfangen auf Nur-Sende-Kanalungültiger Empfängertyp %qsungültiger reduction-identifierungültige Referenz für Ausgabemodifizierer »J«ungültiger Registername für %q+Dungültiger regulärer Ausdruck %qs in %qsungültige Adressverschiebungungültige Auflösung in Auflösungsdateiungültiger Rückgabetyp %qT der %<constexpr%>-Funktion %q+Dungültige gemeinsame rtl-Verwendung in Befehl gefundenungültige AblaufartUngültiges zweites Argument für %<__builtin_prefetch%>; es wird 0 verwendetungültiges »send« auf Nur-Empfangs-Kanalungültiger Setter, muss ein Argument habenungültiger SchiebeoperandInterner Fehler: invalid source block specificationungültige statische Kette in GIMPLE-Aufrufungültige Speicherklasse für Funktion %qEungültiger Wert für sve_width: %dungültiger Wert %<%d%> für Ziel-memregsungültige Templatedeklaration von %qDungültiger Nicht-Typ-Parameter für Templateungültige template-argument-listungültige Template-IDUngültiges drittes Argument für %<__builtin_prefetch%>; es wird 0 verwendetungültiger Typ %<void%> für %<new%>Ungültiger Typ %qT als Initialisierung für einen Vektor des Typs %qTungültiger Typ %qT als %<friend%> deklariertungültiger Typ %qTungültiger Typ %qT für %<->%>ungültiger Typ %qT für %<->*%>ungültiger Typ %qT für Arrayindexungültiger Argumenttyp %qT für implizite Umwandlungungültiger Typ %qT für unäres %<*%>ungültiger Typ für %<asm%>-Schalter-AusgabeInterner Fehler: invalid type for _Literal with constructorungültiger Typ für Instanzvariableungültiger Typ für Schleifenvariable %qEungültiger Typ für »make«-Funktionungültiger Typ für Parameter %d der %<constexpr%>-Funktion %q+#Dungültiger Typ für EigenschaftInterner Fehler: invalid type of %<__MEM%> operandungültiger Typ für Argument %u der typgenerischen Funktionungültiger typgenerischer Rückgabetyp für Argument %u von %<__builtin_tgmath%>ungültiger typgenerischer Typ für Argument %u von Argument %u von %<__builtin_tgmath%>ungültige Typen %<%T[%T]%> für Feldindexungültiger Typen für %qsungültige Typen in Adressraumumwandlungungültige Typen in Umwandlung zu Gleitkommaungültige Typen in Umwandlung in Ganzzahlungültige Typen Festkomma-Umwandlungungültige Typen in NOP-Umwandlungungültige Verwendung von %%d, %%x oder %%Xungültige Verwendung von %<...%> bei Aufruf einer nicht-variadischen Funktionungültige Verwendung von %<...%> mit eingebauter Funktionungültige Verwendung von %<...%> mit Nicht-Sliceungültige Verwendung von %<::%>ungültige Verwendung von %<auto%> in Umwandlungsoperatorungültige Verwendung von %<auto%> in Default-Templateargumentungültige Verwendung von %<auto%> in Ausnahmespezifikationungültige Verwendung von %<auto%> in Templateargumentungültige Verwendung von %<const_cast%> mit Typ %qT, der ein Zeiger oder Referenz auf Funktionstyp istungültige Verwendung von %<const_cast%> mit Typ %qT, der weder Zeiger, Referenz, noch Zeiger auf ein Datenelement istungültige Verwendung von %<decltype(auto)%>ungültige Verwendung der %<extern%>-Variable %qD in %<#pragma acc declare%>ungültige Verwendung der %<global%>-Variable %qD in %<#pragma acc declare%>Ungültige Verwendung von %<restrict%>ungültige Verwendung von %<this%> auf höchster Ebeneungültige Verwendung von %<this%> in Nicht-Element-Funktionungültige Verwendung von %q#T mit flexiblem Arrayelement in %q#Tungültige Verwendung von %q#T mit Array der Größe 0 in %q#Dungültige Verwendung von %qDungültige Verwendung von %qD in Spezifizierung der Bindungungültige Verwendung von %qE um Zeiger auf Elementfunktion zu erzeugenungültige Verwendung von %qTungültige Verwendung von %qT in Templateargumentungültige Verwendung von »%%%c«ungültige Verwendung des MMA-Operanden vom Typ %qs als Parameter einer Funktionungültige Verwendung des MMA-Typs %qs als Rückgabetyp einer Funktionungültige Verwendung eines Zeigers auf einen unvollständigen Typen in Zeigerarithmetikungültige Verwendung von Arrayindizierung bei Zeiger auf Elementfalsche Verwendung eines Arrays mit unbekannten Grenzenungültige Verwendung der asm-Schalter-Ausgabeungültige Verwendung des Attributs %<fallthrough%>ungültige Verwendung von Attributen in leerer Deklarationungültige Verwendung von geschweift geklammerter Initialisierungslisteungültige Verwendung des Konstruktors als Templateungültige Verwendung von cv-qualifiziertem Typ %qT in Parameterdeklarationungültige Verwendung des abhängigen Typen %qTungültige Verwendung des Destruktors %qD als Typungültige Verwendung des Destruktors %qE als Typfalsche Verwendung eines flexiblen Arrayelementsungültige Verwendung impliziter Umwandlung bei Zeiger auf Elementfalsche Verwendung des unvollständigen Typs %q#Tfalsche Verwendung des unvollständigen typedef %qTungültige Verwendung des Elements %qD (%<&%> vergessen?)ungültige Verwendung des Elementes %qD in statischer Elementfunktionungültige Verwendung von Elementfunktion %qD (%<()%> vergessen?)ungültige Verwendung eines Methodenwerts als Argument von Offsetofungültige Verwendung eines Nicht-L-Wert-Arraysungültige Verwendung des nicht-statischen Datenelementes %qDungültige Verwendung des nicht-statischen Datenelements %qEungültige Verwendung der nicht-statischen Elementfunktion %qDungültige Verwendung der nicht-statischen Elementfunktion vom Typ %qTfalsche Verwendung von %<pack expansion%> %qTfalsche Verwendung eines Packauflösungs-Ausdruckesungültige Verwendung des Platzhalters %qTungültige Verwendung des qualifizierten Namens %<%D::%D%>ungültige Verwendung des qualifizierten Namens %<%T::%D%>ungültige Verwendung des qualifizierten Namens %<::%D%>Ungültige Verwendung von Register »%s«ungültige Verwendung einer Struktur mit flexiblem Arrayelementungültige Verwendung des Parameters %qT für Template-Templateparameterungültige Verwendung des Parameters %qT für Templatetypungültige Verwendung der Template-ID %qD in Deklaration des ursprünglichen Templatesungültige Verwendung des Template-Namens %qE ohne eine Argumentlisteungültige Typ-Verwendungungültige Verwendung von Typ %<void%> in Parameterdeklarationungültige Verwendung des Typs %qT als Standardwert für einen Template-Templateparameterungültige Verwendung des unären %<*%> bei Zeiger auf Elementfalsche Verwendung des undefinierten Typs %qTfalsche Verwendung eines void-Ausdruckesin %<transaction_safe%>-Funktion ist kein volatile lvalue erlaubtungültige Verwendung eines volative lvalue innerhalb einer Transaktionungültige benutzerdefinierte Umwandlung von %qH in %qIungültige Wert-Initialisierung von Referenztypungültiger Ergebnistyp in Vektorvergleichungültige Vektorkonstanteungültiger VektordirektwertUngültiger Vektortyp für Attribut %qEungültige Vektortypen in NOP-Umwandlungungültige Versionsnummer %qsungültige »warm«-Funktion für »reset«-Attributungültige null-Extraktionumgekehrter Scheibenbereichio_kind_name(): bad I/O-kindIPA-Inline-Zusammenfassung fehlt in EingabedateiIPA-Referenzzusammenfassung fehlt in ltrans-Einheitist ein Zeiger auf eine veränderliche »struct«. Nur Zeiger auf »const«, »immutable« oder »shared struct« sind als threadlokale Variablen erlaubt, nicht jedoch »%s«ist veränderlich. Als threadlokale Variablen sind nur »const« oder »immutable class« erlaubt, nicht jedoch »%s«ist in »%s« geschachtelt, aber die Oberklasse »%s« ist in »%s« geschachteltist nicht %<static%> und kann daher keinen static-Initialisierer habenist nicht geschachtelt, aber die Oberklasse »%s« ist in »%s« geschachteltis_c_interoperable(): gfc_simplify_expr faileder ist in einer anderen Übersetzungseinheit als Zeiger in unterschiedlichem Adressraum definierter ist in einer anderen Übersetzungseinheit als Zeiger auf einen anderen Typen definiertes muss ein Zeiger auf ein Element der Form %<&X::Y%> seines muss die Adresse einer Funktion mit externer Bindung seines muss der Name einer Funktion mit externer Bindung seines wurde später hier definiertElement in READZählvariable in schneller Aufzählung ist kein ObjektDurchlauf %s führt zu undefiniertem VerhaltenSchleifenvariable %qD sollte nicht »firstprivate« seinSchleifenvariable %qD sollte keine Reduktion seinIterationsvariable %qE ist vorbestimmt linearSchleifenvariable %qE sollte »private« seinSchleifenvariable %qE sollte nicht »firstprivate« seinIterationsvariable %qE sollte nicht »linear« seinSchleifenvariable %qE sollte nicht Reduktion seinIterator %qD hat %<_Atomic%>-qualifizierten TypIterator %qD hat %<const%>-qualifizierten TypTyp des Iterators %qD ist weder ganzzahlig noch ein ZeigerIterator %qD hat Schrittweite 0Iterator-Schrittweite mit nichtganzzahligem TypIteratorvariableInterner Fehler: its dest_idx should be %d, not %dvon %<@synthesize%>-Deklaration verwendete ivar %qs muss eine existierende ivar seiniwmmxt ABI erfordert eine iwmmxt-fähige CPUiwmmxt erfordert ein AAPCS-kompatibles ABI für den richtigen Einsatzin Gültigkeitsbereich des Bezeichners mit variabel modifiziertem Typen springenSprung in Anweisungs-AusdruckSprung lässt Variableninitialisierung ausSprung zur case-MarkeSprung zur Marke %qDAusschuss am Ende von #pragma ADDRESSAusschuss am Ende von #pragma GCC memregs [0..16]Ausschuss am Ende von #pragma __nostandardAusschuss am Ende von #pragma __standardAusschuss am Ende von #pragma ghs endsdaAusschuss am Ende von #pragma ghs endtdaAusschuss am Ende von #pragma ghs endzdaAusschuss am Ende von #pragma ghs interruptAusschuss am Ende von #pragma ghs sectionAusschuss am Ende von #pragma ghs startsdaAusschuss am Ende von #pragma ghs starttdaAusschuss am Ende von #pragma ghs startzdaAusschuss am Ende von %<#pragma %s%>Ausschuss am Ende von %<#pragma CTABLE_ENTRY%>Ausschuss am Ende von %<#pragma GCC visibility%>Ausschuss am Ende von %<#pragma align%>Ausschuss am Ende von %<#pragma fini%>Ausschuss am Ende von %<#pragma init%>Ausschuss am Ende von %<#pragma longcall%>Ausschuss am Ende von %<#pragma message%>Ausschuss am Ende von %<#pragma ms_struct%>Ausschuss am Ende von %<#pragma options%>Ausschuss am Ende von %<#pragma pack%>Ausschuss am Ende von %<#pragma pop_options%>Ausschuss am Ende von %<#pragma push_options%>Ausschuss am Ende von %<#pragma redefine_extname%>Ausschuss am Ende von %<#pragma reset_options%>Ausschuss am Ende von %<#pragma unused%>Ausschuss am Ende von %<#pragma weak%>Ausschuss am Ende von »#pragma extern_model«das Schlüsselwort %<export%> ist veraltet und wird ignoriertdas Schlüsselwort %<export%> wird mit %<-fmodules-ts%> eingeschaltetSchlüsselwort %<export%> nicht implementiert, und wird ignoriertSchlüsselwort %<template%> nicht innerhalb des Klassenkopfnamens erlaubtSchlüsselwort %<template%> nicht innerhalb der declarator-id erlaubtSchlüsselwort %<typename%> in diesem Kontext nicht erlaubt (eine qualifizierte Elementinitialisierung ist implizit ein Typ)Schlüsselwort %<typename%> nicht erlaubt in diesem Kontext (die Basisklasse ist implizit ein Typ)Schlüsselwort %<typename%> nicht außerhalb von Templates erlaubtMarke Marke %q+D deklariert, aber nicht definiertMarke %q+D definiert, aber nicht verwendetMarke %q+D verwendet, aber nicht definiertMarke %qD hier definiertMarke %qE außerhalb einer Funktion referenziertMarke am Ende einer Verbundanweisungder Label-Kontext ist nicht die aktuelle FunktionsdeklarationDefinition einer Sprungmarke ist kein konstanter AusdruckInitialisierungen für Lambda-Captures sind nur mit %<-std=c++14%> oder %<-std=gnu++14%> verfügbarLambda-Einfangen von %qE ist kein konstanter AusdruckLambda-Ausdrücke nur mit %<-std=c++11%> oder %<-std=gnu++11%> verfügbarLambda in lokaler Klasse %q+T kann Variablen aus dem umschließenden Kontext nicht einfangenLambdaparameter %qD war vorher als Einfänger deklariertLambda-Templates sind nur mit %<-std=c++14%> oder %<-std=gnu++14%> verfügbarLambda-Templates sind erst mit %<-std=c++20%> oder %<-std=gnu++20%> verfügbarLambda-Ausdruck in Template-Parameter-TypLambda-Ausdruck in Template-Argument ist erst mit %<-std=c++20%> oder %<-std=gnu++20%> verfügbarLambda-Ausdruck in nicht evaluiertem Kontext ist erst mit %<-std=c++20%> oder %<-std=gnu++20%> verfügbarLambda-Ausdruck ist erst ab C++17 ein konstanter AusdruckLambdas sind erst ab C++17 implizit %<constexpr%>Spur %wd ist außerhalb des Wertebereiches %wd bis %wdSprache %s nicht erkanntSprachen-Zeichenkette %<"%E"%> nicht erkanntgroße Festkommakonstante implizit auf Festkommatypen abgeschnittengroße Rückgabewerte werden mit der Option %<-mabi=ti%> nicht unterstütztdas letzte Argument muss ein Immediate seinName des letzten Registers »%s« muss ein ungerades Register seinld gab %d als Ende-Status zurücklinkes Argument muss eine Scheibe seinlinker Operand von %<->*%> muss Zeiger auf Klasse sein, ist aber ein Zeiger auf Element des Typs %qTlinker Operand des Komma-Operators kann die Adresse der überladenen Funktion nicht auflösenlinker Operand des Komma-Operators hat keinen Effektlinker Operand des Komma-Operators ist eine Referenz, kein Aufruf, zur Funktion %qElinker Operand des Schiebeausdrucks %q+E ist negativlinke Präzisionlinke Präzision im strfmon-FormatLinks-Schiebe-Weite >= Breite des TypsLinks-Schiebe-Weite >= Breite des VektorelementsLinks-Schiebe-Weite ist negativleft shift of negative valuelinker Operand des Komma-Ausdrucks hat keinen Effektlinke Seite der Zuweisung könnte ein Kandidat für ein Formatattribut seinLänge größer als KapazitätLänge %qE geht über Abschnittsgröße in %qs-Klausel hinausLänge %qE des Arrayabschnitts muss Ganzzahltyp habenLänge wird hier berechnetLängenmodifiziererLängenmodifizierer im printf-FormatLängenmodifizierer im scanf-FormatLängenmodifizierer im strfmon-FormatBei Reservierung einer Scheibe wird Länge benötigtBuchstabe %c gefunden und Befehl war nicht CONST_INTBibliotheken: %s
Bibliotheksfunktion %q#D als Nicht-Funktion %q#D redeklariertBibliothek lib%s nicht gefundenGrenze ist %wu Bytes, Argument hat jedoch %s BytesGrenze ist %wu Bytes, Argument hat jedoch bis zu %s Bytes»linear«-Klausel wird auf Variable vom Typ %qT angewandt, die weder ganzzahlig noch Zeiger ist»linear«-Klausel auf Variable vom Typ %qT angewendet, die weder Ganzzahl noch Zeiger ist»linear«-Klausel mit Modifizierer %qs wird auf Nicht-Referenz-Variable mit Typ %qT angewandtAusdruck für »linear«-Schrittweite muss ganzzahlig seinListeninitialisierung für Nicht-Klassentyp darf nicht geklammert seinEs ist veraltet, das Stapelzeiger-Register %qs in einer Überschreibungsliste anzugebenLiteraler Operator %q#D steht mit rohem Literaloperator in KonfliktLiterale Operator-Suffixe ohne vorangehendes %<_%> sind für zukünftige Standardisierungen reserviertliterales Operatortemplate %qD hat ungültige Parameterliste; Template für Nicht-Typ Argumentpack %<<char…>%> erwartetliterales Operatortemplate %qD hat ungültige Parameterliste; nicht-Typ Templateargumentpack %<<char…>%> oder einzelner Nicht-Typ-Parameter von Klassentyp erwartetliteraler Operator mit C-BindungLivepatchen in Kombination mit LTO wird nicht unterstütztlo_sum nicht von einem Registerlokale Klasse %q#T darf kein statisches Datenelement %q#D habenlokaler Speicher für gemeinsam genutzte Daten aufgebrauchtlocal declaration from a different functionlokale Deklaration von %qE verdeckt Instanzvariablelokale Sprungmarke %qE steht in Konflikt mit bestehender Sprungmarkelokales Element %q#D ist hier deklariertlokale Methode %q#D ist hier deklariertInterner Fehler: local symbols must be definedlokale Variable %qD darf in diesem Kontext nicht auftauchenLokale Variablenspeicheranforderungen überschreiten KapazitätStelle der vorherigen Reduktion für %qElocation references block not in block treelogisches %<und%> auf nicht-boolesche Konstante angewendetlogisches %<und%> von gleichen Ausdrückenlogisches %<und%> bei sich gegenseitig ausschließenden Tests ist immer »falsch«Logisches %<or%> auf Nicht-Boolesche Konstante angewendetlogisches %<oder%> bei gemeinsam erschöpfenden Tests ist immer »wahr«logisches %<oder%> von gleichen Ausdrückenlogisches Nicht bezieht sich nur auf die linke Seite des Vergleichslogical_to_bitwise(): Bad intrinsicNachschlagen von %qT in %qT ist nicht eindeutigInterner Fehler: loop %d%'s header does not belong directly to itInterner Fehler: loop %d%'s header does not have exactly 2 entriesInterner Fehler: loop %d%'s header is not a loop headerInterner Fehler: loop %d%'s latch does not belong directly to itInterner Fehler: loop %d%'s latch does not have an edge to its headerInterner Fehler: loop %d%'s latch does not have exactly 1 successorInterner Fehler: loop %d%'s latch does not have header as successorInterner Fehler: loop %d%'s latch is marked as part of irreducible regionInterner Fehler: loop %d%'s latch is not dominated by its headerSchleife verwendet OpenACC-Parallelismus, der von der umgebenden Routine verboten wurdeSchleifenvariable %qD erzeugt eine Kopie vom Typ %qTSchleifenvariable %qD vom Typ %qT bindet an temporäres Objekt, das aus dem Typen %qT konstruiert wurdeInterner Fehler: loop verification on loop tree that needs fixupInterner Fehler: loop with header %d marked for removalInterner Fehler: loop with header %d not in loop treelockerere Ausnahmespezifikation in der übersteuernden virtuellen Funktion %q+#Funtere Grenze %qE geht über Abschnittsgröße in %qs-Klausel hinausUntere Grenze %qE des Arrayabschnitts muss Ganzzahltyp habenUnterer Wert in case-Marken-Bereich ist kleiner als der Minimalwert des Typslseek beim Lesen von Exportdaten gescheitertAls Verringerungsoperand wird L-Wert erfordertAls Erhöhungsoperand wird L-Wert erfordertAls linker Operand einer Zuweisung wird L-Wert erfordertAls Operand für unäres %<&%> wird L-Wert erfordertdie %<asm%>-Anweisung erfordert einen L-WertUmwandlung lvalue-in-rvalue eines volatile-lvalue %qE mit Typ %qTmaschinenunabhängiger eingebauter Code außerhalb des WertebereichesMakro expandiert zu mehreren AnweisungenMakroname fehlt hinter %qsInterner Compilerfehler: main variant is not definedInterner Fehler: make_generic(): Cannot find generic symbol %qsmehrfache Kopien von %qD werden erzeugtFalsch geformtes #pragma ADDRESS <Variable> <Adresse>Falsch geformtes #pragma builtinfalsch geformtes #pragma ghs sectionfalsch geformtes %<#pragma %s%>, ignoriertfalsch geformtes %<#pragma %s%>, wird ignoriertfalsch geformte Variablenadresse bei %<#pragma CTABLE_ENTRY%>falsch geformtes %<#pragma GCC pch_preprocess%>falsch geformtes %<#pragma GCC visibility push%>Falsch geformtes %<#pragma align%>Falsch geformtes %<#pragma align%> - ignoriertFalsch geformtes %<#pragma extern_model%>, ignoriertFalsch geformtes %<#pragma fini%>Falsch geformtes %<#pragma fini%>, ignoriertFalsch geformtes %<#pragma init%>Falsch geformtes %<#pragma init%>', ignoriertFalsch geformtes %<#pragma member_alignment%>Falsch geformtes %<#pragma member_alignment%>, wird ignoriertfalsch geformtes %<#pragma message%>, ignoriertFalsch geformtes %<#pragma ms_struct {on|off|reset}%>, ignoriertFalsch geformtes %<#pragma ms_struct%>, wird ignoriertFalsch geformtes %<#pragma options align={mac68k|power|reset}%>, wird ignoriertFalsch geformtes %<#pragma options%>, wird ignoriertfalsch geformtes %<#pragma pack%> - ignoriertfalsch geformtes %<#pragma pack(pop[, id])%> - ignoriertfalsch geformtes %<#pragma pack(push[, id][, <n>])%> - ignoriertfalsch geformtes %<#pragma redefine_extname%>, wird ignoriertfalsch geformtes %<#pragma weak%>, wird ignoriertungültige %<COLLECT_GCC_OPTIONS%>falsch geformtes Pragma oder Attribut %<target("%s")%>falsch geformtes Pragma oder Attribut %<target()%>falsch geformtes »#pragma __extern_prefix«, wird ignoriertfalsche Option %<-fplugin-arg-%s%>: fehlendes %<-<Schlüssel>[=<Wert>]%>kaputte PTX-Dateischlechte Argumente für Spezifikationsfunktionschlechter Name für SpezifikationsfunktionAttribut %<malloc%> ist nur an Funktionen sinnvoll, die einen Zeiger zurückgebendie Zeichen in einem gemangelten Namen können nur vom Typ %<char%> seingemangelter Name für %qD wird sich ich C++17 ändern, da die Exceptionangabe Teil des Funktionstyps istmangling %<__unterliegender_Typ%>mangling %<typeof%>, verwenden Sie stattdessen %<decltype%>%C wird gemangeltMangeln von %q#D als %qE steht mit einer vorherigen Mangelung in Konfliktunbekannter Festkommatyp wird vernichtetManifest-Konstanten müssen Initialisierer habenAbbildung kann nur mit nil verglichen werdenFeld %qE der Struktur variabler Länger wird zugeordnetMaske muss »immediate« seinmatch_attr_spec(): Bad attributematch_level_4(): Bad operatormatch_string_constant(): Delimiter not founddazu passende Bedingung erlaubt kein Registerdazu passende Bedingung in Ausgabeoperanden ungültigdazu passende Bedingung referenziert ungültige OperandennummerHöchstzahl der LTO-Partitionen, die parallel gestreamt werden.obere Grenze von %d Namensräumen für %qE durchsuchtHöchstzahl der Durchläufe für LRA-Bedingungen ist erreicht (%d)Höchstzahl der erzeugten Neuladebefehle pro Befehl ist erreicht (%d)»-EB« und »-EL« dürfen nicht gleichzeitig verwendet werden»-m32« und »-m64« dürfen nicht zusammen angegeben werdenmdoc-Register werden nur für G13-Ziel gesichertMedienfunktionen sind nur mit %<-mmedia%> verfügbarSpeicherinitialisierung für %qD folgt KonstruktordelegationElement %q+#D mit Konstruktor in anonymem Aggregat nicht erlaubtElement %q+#D mit Konstruktor nicht erlaubt in UnionElement %q+#D mit Zuweisungsoperator ist in anonymem Aggregt nicht erlaubtElement %q+#D mit Copy-Zuweisungsoperator ist nicht erlaubt in UnionElement %q+#D mit Destruktor in anonymem Aggregat nicht erlaubtElement %q+#D mit Destruktor nicht erlaubt in UnionElement %q+D darf nicht als %<mutable%>-Referenz deklariert seinElement %q+D darf nicht gleichzeitig als %<const%> und %<mutable%> deklariert seinElement %qD kann erst mit %<-std=c++20%> oder %<-std=gnu++20%> gleichzeitig %<virtual%> und %<constexpr%> seinElement %qD kann nicht gleichzeitig %<virtual%> und %<static%> seinElement %qD als »friend« deklariert, bevor Typ %qT definiert wurdeElement %qD in schreibgeschütztem Objekt als %<asm%>-Ausgabe verwendetElement %qD ist nicht initialisierte ReferenzElement %qD in %<constexpr%> muss von »mem-initializer« initialisiert werdenElement %qD mit nicht initialisierten FeldernElementfunktionen sind implizite »friends« ihrer KlasseElement-Template %qD darf keine virt-Spezifizierer habenElemente einer explizit spezialisierten Klasse sind ohne Templateheader definiertSpeicherreservierung beim Lesen der Export-Daten gescheitertSpeichereingabe %d ist nicht direkt adressierbarunverträgliches SpeicherlayoutSpeicherreferenz für Ausgabemodifizierer »S« erwartetMethode %<%c%E%> gleichzeitig als %<@optional%> und %<@required%> deklariertMethode %s%s%s ist als go:nointerface gekennzeichnetMethode %s%s%s erfordert einen Zeigerempfängerin Objective-C 1.0 gibt es keine Attribute für Methodenargumentein Objective-C 1.0 gibt es keine MethodenattributeMethodenattribute können nicht im @implementation-Kontext angegeben werdenMethodenattribute müssen am Ende angegeben werdenMethodenattribute dürfen nur am Ende angegeben werdenMethodendeklaration nicht im @interface-Kontextals %qE deklarierte Methode überschreibt Methode %qEMethodendefinition für %<%c%E%> nicht gefundenMethodendefinition nicht im @implementation-KontextMethode überschreibt Methoden %<transaction_pure%> und %qEIn Methode fehlt möglicherweise ein [super dealloc]-AufrufMethodentyp passt nicht zum ObjekttypMindestgröße der Partition darf nicht größer als Höchstgröße der Partition seinmio_array_ref(): Unknown array refProfiling für mips16-FunktionenUnstimmigkeit im Typ von Argument %u der eingebauten Funktion %qD; erwartet wurde %qTAbweichung in Grenze %Z von Argument %u, deklariert als %sAbweichung in Grenzen %Z von Argument %u, deklariert als %sKonflikt in Anzahl der Argumente für eingebautes %qF. %d erwartet, %d bekommenUnstimmigkeit im Rückgabetyp der eingebauten Funktion %qD; erwartet wurde %qTArgumentpacklängen passen nicht bei Expansion von %qEArgumentpacklängen passen nicht bei Expansion von %qTUnpassende Deklarationen während Linkzeit-Optimierungunpassender Operator in FaltungsausdruckVergleichsoperandentypen passen nichtabweichende Definitionunpassende Klammernunpassendes Objective-C++-Konstrukt %<@%D%>fehlende $-Operandennummer im Format%<(%> hinter %<#pragma GCC visibility push%> fehlt - ignoriertfehlendes %<(%> hinter %<#pragma pack%> - ignoriertFehlendes %<(%> hinter %<#pragma unused%>, wird ignoriertFehlendes %<)%> hinter %<#pragma unused%>, wird ignoriertfehlende %<PHI%>-DefinitionAttribut %<target%> fehlt für multiversioniertes %qDfehlende %qs-Klausel bei Anwendung von %<%s%> auf %qD, die bereits mit einer OpenACC-»routine«-Direktive markiert wurdeInterner Fehler: missing REG_EH_REGION note at the end of bb %ifehlendes [big-endian|little-endian|default] hinter %<#pragma scalar_storage_order%>[error|warning|ignored|push|pop] nach %<#pragma GCC diagnostic%> fehltFehlendes zusätzliches %<requries%>, um eine requires-expression zu beginnenfehlender Architekturname in %<-march=%s%>fehlendes Argument für %<-mbranch-protection=%>fehlendes Argument für Pragma oder Attribut %<target("branch-protection=")%>fehlendes Argument für %qsInterner Fehler: missing barrier after block %igeschweifte Klammern fehlen um Initialisierunggeschweifte Klammern fehlen um Initialisierung für %qTInterner Fehler: missing callgraph edge for call stmt:schließende geschweifte Klammer für benannten Operanden fehltFehlende schließende Klammerdie Sammlung in schneller Aufzählung fehltSteuerprädikat fehltfehlender CPU-Name in %<-mcpu=%s%>fehlender CPU-Name in %<-mtune=%s%>fehlender Bindestrichfehlende Definitionfehlendes Gerät oder Architektur hinter %qsmissing direct call for speculation %iFehlende Kante %i->%ifehlender Dateiname hinter %qsfehlendes Füllzeichen am Ende des strfmon-Formatesfehlender HeadernameErhöhungsausdruck fehltfehlender indirekter Aufruf in der Folge der spekulativen Aufrufefehlende Initialisierung für »%s«, Feld »%s«fehlende Initialisierung für Feld %qD von %qT fehltInitialisierung für Element %qD fehltfehlende Schleifenbedingung in Schleife mit %<GCC ivdep%>-Pragmafehlende Schleifenbedingung in Schleife mit %<GCC unroll%>-Pragmafehlendes Makefile-Ziel hinter %qsfehlende Zuordnungfehlende Methode %s%s%sfehlender Modulnamefehlender Name für Pragma oder Attribut %<target("arch=")%>fehlender Name für Pragma oder Attribut %<target("cpu=")%>Fehlende Zahlöffnende Klammer fehltfehlender OperandOption hinter %<#pragma GCC diagnostic%>-Variante fehltfehlende oder beschädigte object.dfehlender Ursprung für einen Knoten in einer verschachtelten Listefehlender Pfad hinter %qsfehlendes primäres Templateattribut %sfehlende primäre Templateattribute %sEigenschaftsattribut fehltmissing ref for speculation %ifehlende Auflösungsdaten für %sWächter in Funktionsaufruf fehltfehlende Templateargumentefehlende Templateargumente nach %qTfehlendes abschließendes Zeichen %cfehlender Typname in typedef-Deklarationfehlender Wert für Pragma oder Attribut %<target()%>falsch geschriebener Begriff %<%.*s%> im Format; verwenden Sie stattdessen %<%s%s%>Mixin-Templates sind keine regulären TemplatesVermischung von Deklarationen und Funktionsdefinitionen ist verbotenInterner Fehler: mixing different types of symbol in same comdat groups is not supportedModus %qs auf unpassenden Typen angewendetBetriebsart-Größe des nicht-ganzzahligen Ergebnisses passt nicht zur Feldgröße von %qsModifikation von %qE ist kein konstanter AusdruckModifizierer sollte an %<simd%>- oder %<for%>-Konstrukten nicht in %<linear%>-Klausel angegeben werdenin einem konstanten Ausdruck ist es nicht erlaubt, das %<const%>-Objekt %qE zu verändernModul-Eigenschaft in USE-Anweisung bei %C%<module-declaration%> ist innerhalb von %<header-unit%> nicht erlaubtModul-Deklaration ist nur als erste Deklaration erlaubt, oder wenn sie das global-module-fragment beendetmehr als %d Operanden in %<asm%>mehr als eine %<atomic_default_mem_order%>-Klausel in einer einzigen Übersetzungseinheitmehr als eine %<depend%>-Klausel mit %<source%>-Modifizierer an einem %<ordered%>-Konstruktmehr als eine »crtl«-Direktivenmehr als ein Zugriff in Basisspezifikation angegebenmehr als eine Ortsangabe in %<depend%>-Klausel in einem %<depobj%>-Konstruktdas Verschieben eines lokalen Objekts in einer return-Anweisung verhindert das Einsparen der Kopiempfr ist nicht so konfiguriert, dass alle Gleitkommamodi verarbeitet werden könnenmsp430_select_hwmult_lib erfordert mindestens ein ArgumentCompilieren von mehreren Quellen ist für C++ nicht implementiertmultidimensionales Feld muss für alle Dimensionen außer der ersten Grenzen habenMultilib-Ausschluss %qs ist ungültigMultilib-Ausschlüsse %qs sind ungültigMultilib-select %qs %qs ist ungültigMultilib-select %qs ist ungültigMultilib-Spezifikation %qs ist ungültigmehrere %<-mcpu=%>-Optionen angegeben.Mehrere %<default%>-Ziele wurden festgelegtMehrere EH-Persönlichkeiten werden nur mit Assemblern unterstützt, die die Direktive %<.cfi_personality%> unterstützenmehrere Deklarationen in bereichsbasierter %<for%>-SchleifeMehrere Standardmarken in einem »switch«mehrfache Definition von %q#Tmehrere schnelle Interruptroutinen gefunden: %qE und %qEin Union %qT werden mehrere Felder initialisiertmehrere Funktionstypattribute angegebenInterner Fehler: multiple hot/cold transitions found (bb %i)mehrere Initialisierungen für %qD angegebenmehrere Initialisierungen für Basis %qT angegebenInterner Fehler: multiple inline callersmehrere Interruptattribute sind nicht erlaubtmehrere Interruptattribute für Funktion %qDmehrere Schleifenvariablen in schneller Aufzählungmehrere Methoden namens %<%c%E%> gefundenmehrere Attribute für geschachtelte Typen für Funktion %qDmehrere Übersteuerungen derselben Funktionmehrere Parameter wurden %qD genanntmehrere vorherrschende Definitionen für %qEmehrere Methoden für Eigenschaft %qE angegeben, die letzte von denen wird verwendetmehrere ref-qualifiermehrere Registerspeicher-Attribute für Funktion %qDmehrere Selektoren namens %<%c%E%> gefundenmehrere Speicherklassen in Deklaration von %qsmehrere Speicherklassen in Deklarationmehrere Typen in einer Deklarationmultiple virtual PHI nodes in BB %dFunktionsaufruf mit mehreren Werten in Kontext mit einem WertFunktionsaufruf mit mehreren Werten in Kontext mit einem WertMultiplizieroption bringt mit sich, dass r%d festgelegt istMultiversionierung erfordert %<ifunc%>, was auf diesem Ziel nicht unterstützt wirdMultiversionierung erfordert »ifunc«, was in dieser Konfiguration nicht unterstützt wirdvor Verwendung von %<typeid%> muss %<#include <typeinfo>%> angegeben werden%<.*%> oder %<->*%> muss verwendet werden, um Zeiger auf Element als Funktion in %<%E (...)%> aufzurufen, z.B. %<(... ->* %E) (...)%>veränderliches %qD ist in konstantem Ausdruck nicht verwendbarnackte Assembler-Funktionen mit Verträgen werden nicht unterstütztnacktes Attribut bezieht sich nur auf FunktionenName %qD in benannter Initialisierung im GNU-Stil für ein Array verwendetName %qT hat unvollständigen Typender Name %qs unterscheidet sich vom Namen %qs, der in einer anderen Übersetzungseinheit definiert istName %qs ist als %wd definiert, in einer anderen Übersetzungseinheit jedoch als %wdName %qs wird in einer anderen Übersetzungseinheit mit unterschiedlichem Wert definiertName der Elementfunktion fehltName der Klasse verdeckt Template-Templateparameter %qDName in benannter Initialisierung im GNU-Stil für ein Array verwendetbenannte Rückgabewerte werden nicht mehr unterstütztNamensbereich %qD betretenNamensbereich-Alias %qD ist hier nicht erlaubt, %qD angenommenName eines Namensraums erwartetanonymes Aggregat im Gültigkeitsbereich eines Namespace muss statisch seinverengende Umwandlung von %qE von %qH nach %qIverengende Umwandlung von %qE von %qH nach %qI ist in C++11 ungültigvor %<%T::%D::%E%> ist %<typename%> erforderlich, da %<%T::%D%> ein abhängiger Gültigkeitsbereich istvor %<%T::%E%> ist %<typename%> erforderlich, da %qT ein abhängiger Gültigkeitsbereich ist%<typename%> vor %qE erforderlich, da %qT ein abhängiger Gültigkeitsbereich istausdrückliche Umwandlungen erforderlichexplizite Umwandlung nötig; Methode %s%s%s fehltnegative BefehlslängeArrayabschnitt mit negativer Länge in %qs-Klauselnegative untere Grenze in Arrayabschnitt in %qs-Klauselnegative Verschachtelungstiefe der Region %inegative Schiebeweitenegative Breite in Bitfeld %q+DNegative Breite in Bitfeld %qsweder der Destruktor noch der klassenspezifische %<operator delete%> wird aufgerufen, auch wenn sie bei der Klassendefinition deklariert werdenweder der Destruktor noch der klassenspezifische %<operator delete []%> wird aufgerufen, auch wenn sie bei der Klassendefinition deklariert werdengeschachtelte Assemblerdialekt-AlternativenGeschachtelte extern-Deklaration von %qDGeschachtelte Funktion %q+D deklariert, aber nirgendwo definiertgeschachtelte Funktion %qE als %<extern%> deklariertgeschachtelte Funktion %qs als %<extern%> deklariertgeschachtelte Funktionstrampoline werden auf GCN5 aufgrund nicht ausführbarer Stacks nicht unterstützt-ffunction-sections wird für dieses Ziel nicht unterstütztauf s390 können geschachtelte Funktionen mit %<-mfentry%> nicht im Profiling verwendet werdengeschachtelte Funktionen werden auf diesem Ziel nicht unterstütztverschachtelte inline-Namensraumdefinitionen sind erst mit %<-std=c++20%> oder %<-std=gnu++20%> verfügbargeschachtelte Schleife in Reduktion benötigt Reduktionsklausel für %qEgeschachtelter Namensgeber %qT für enum-Deklaration benennt weder Klasse noch Namensraumverschachtelte Namensraumdefinitionen sind nur mit %<-std=c++17%> oder %<-std=gnu++17%> verfügbarName eines geschachtelten Namensraums erwartetgeschachtelte q-DirektivenVerschachtelte Redefinition von %<enum %E%>Verschachtelte Redefinition von %<struct %E%>Verschachtelte Redefinition von %<union %E%>»new« kann nicht auf Funktionstyp angewendet werden»new« kann nicht auf Referenztyp angewendet werdenneue Deklaration %q#D macht eingebaute Deklaration %q#D mehrdeutigneu in Fortran 2003neu in Fortran 2008neu in Fortran 2018neu in Fortran 95neue Typen dürfen nicht in einem Rückgabetyp definiert werdennächstes Feld %q#D hier deklariertkein %<%D(int)%> für Suffix %qs deklariertkein %<%D(int)%> für Suffix %qs deklariert, stattdessen wird Präfixoperator versuchtkeine Methode %<%c%E%> gefundenkeine Elementfunktion %q#D in Klasse %qT deklariertkein %qs-Getter gefundenMischen von FPX/FPU ist nicht erlaubtkein FUNCTION_PROFILER for CRISkein Dateiname für LTRANS-Ausgabeliste angegebenweder »return Ausdruck;« noch »assert(0);« am Ende der FunktionKeine Argumentekeine Argumente für Spezifikationsfunktionauf explizite Instanziierung kann kein Attribut angewendet werdenkein Klassenname mit %qs angegebenkein Klassentemplate namens %q#T in %q#Tkein schließendes %<]%> für %<%%[%>-Formatfehlende schließende geschweifte Klammerkeine Konstruktorenkein Kontext, um Typ von %qE aufzulösenkeine Umwandlungsoperatoren deklariertkeine passende Freigabefunktion für %qDKein Datentyp für Zustand %qskeine Deklaration passt zu %q#Dkeine Deklaration der in der Schnittstelle gefundenen Eigenschaft %qskein Standard-Argument für %qDkeine Definition von »struct %s«keine Destruktorenkein Dispatcher für versionierte Attribute gefundenKein Dispatcher für Versionierungsattribute gefunden: %skein Feld %qD in initialisierter Union gefundenkeine Funktionen namens %qDKeine Liste zur sofortigen Verwendungkeine Eingabedateienkeine Eingabedateien; es werden keine Ausgabedateien geschriebenkein Ganzzahltyp kann alle Aufzählungswerte für %qT darstellenkeine unteren Register für das Hervorholen der hohen Register verfügbarkeine Übereinstimmung für keine Übereinstimmung für Aufruf von %<(%T) (%A)%>die Basisklasse enthält keinen Standardkonstruktor, der vom impliziten »super()« aufgerufen wirdbei der Umwandlung der Funktion %qD in den Typ %q#T gab es keine Übereinstimmungenkein passendes Konzept für template-introductionkeine passende Festkomma-Überladung für %qs gefundenkeine passende Funktion für Aufruf von %<%D(%A)%>keine passende Funktion für Aufruf von %<%T::%s%E(%A)%#V%>keine passende Funktion für Aufruf von %<%T::operator %T(%A)%#V%>keine passende Funktion für Aufruf von %<%s(%A)%>keine passende Funktion für typgenerischen Aufrufkein passendes push für %<#pragma GCC visibility pop%>kein passendes Template für %qD gefundenkeine Elementfunktion %qD in %qT deklariertkein Postdekrementoperator für Typkein Postinkrementoperator für Typkein Prädekrementoperator für Typkein Präinkrementoperator für Typkeine vorherige Deklaration für %qDkein vorheriger Prototyp für %qDkein Prozessortyp zum Binden angegebenkein Profiling von 64-bit-Code für dieses ABIKein Register in Adresseeine %<constexpr%>-Funktion, die etwas Anderes als %<void%> zurückgibt, muss eine return-Anweisung enthaltenkeine return-Anweisung in nicht void zurückgebender Funktionkeine return-Anweisungen in %qT zurückgebender Funktionno sclass for %s stab (0x%x)kein Semikolon am Ende von »struct« oder »union«kein geeignetes %<operator %s%> für %qTKein passendes %qD in Klasse %qT gefundenkeine Basisklasse im @interface für %qE deklariertkeine Basisklasse in Schnittstelle für %qE deklariertkein Typ namens %q#T in %q#Thier darf kein Typ oder Speicherklasse angegeben werden,keine unexpandierten Parameterpackungen in binärer Faltung%qD wurde nicht eindeutig und endgültig in %qT überschriebenkeine gültigen Klauseln in %<#pragma acc declare%> angegebenInterner Fehler: node differs from node->decl->decl_with_vis.symtab_nodeInterner Fehler: node has body_removed but is definitionKnoten hat ungültige Reihenfolge %iInterner Fehler: node has unknown typeInterner Fehler: node is alias but not definitionInterner Fehler: node is alias but not implicit aliasInterner Fehler: node is alone in a comdat groupInterner Fehler: node is analyzed but it is not a definitionInterner Fehler: node is in same_comdat_group list but has no comdat_groupInterner Fehler: node is symver but not aliasInterner Fehler: node is transparent_alias but not an aliasInterner Fehler: node is weakref but not an transparent_aliasInterner Fehler: node not found in symtab assembler name hashInterner Fehler: node not found node->decl->decl_with_vis.symtab_nodeKnoten mit nicht freigegebenem Speicher gefundennoexcept-Ausdruck wird wegen Aufruf von %qD zu %<false%> ausgewertetOperand für »%%%c« muss ein 32-Bit-Register seinREAL-Argument ohne doppelte Genauigkeit für intrinsisches %s bei %Lnicht-%<consteval%>-Funktion %q+D übersteuert %<consteval%>-Funktionvon nicht-AAPCS abgeleitete PCS-VarianteNicht-ASCII-Zeichen in CFString-LiteralNicht-NULL-Zeigerinitialisierung bei %CNicht-OpenACC-Konstrukt innerhalb einer OpenACC-RegionNicht-OpenACC-Konstrukt innerhalb einer OpenACC-RoutineNicht-Array-Deallokation eines Objekts, das mit Array-Allokation allokiert wurdeFehlzuordnung bei Ausnahmebehandlung ohne AufrufTeilspezialisierung %qE ist nur für Klassen und Variablen erlaubtInterner Fehler: non-cold basic block %d reachable only by paths crossing the cold partitionNicht-konstantes Ganzzahl-Argument %u in Aufruf von Funktion %qENicht konstantes Argument 0 für %qsNicht konstantes Argument 1 für %qsNichtkonstantes Feld in DATA-Anweisung %Lnicht konstante Arrayinitialisierungnichtkonstante Länge für neues Array muss direkt angegeben werden, nicht über %<typedef%>Nichtkonstante Länge in Array-new muss ohne Klammern um die Typ-ID angegeben werdennicht-konstantes zusammengesetztes Literal kann nicht in einem Konstanten-Ausdruck auftretenNicht-konstante Bedingung für statische Behauptungnon-constant element in constant CONSTRUCTORInitialisierung des nicht konstanten statischen Elements %qD in der Klasse ist ungültigInitialisierung des nicht konstanten statischen Elements %qD in der Klasse ist ungültigNicht-konstanter Initialisierungsausdruck bei %Lnicht herleitbares Templates %qT wird ohne Template-Argumente verwendetNicht-Standard Argument der Art INTEGER für intrinsisches »%s« bei %LNicht-Delegitimiertes UNSPEC %s (%d) am Variablenort gefundennicht gelöschte Funktion %q+D übersteuert gelöschte FunktionNicht-Gleitkomma-Argument in Aufruf von Funktion %qENicht-Gleitkomma-Argumente in Aufruf von Funktion %qENicht-Funktion %qD als implizites Template deklariertNicht-Funktion in GIMPLE-AufrufNicht ganzzahliges Argument 1 für %qsNicht-Ganzzahl-Argument 3 in Aufruf von Funktion %qENicht-Ganzzahlargument %d für Speichermodell von %qENicht-Ganzzahl-Operand mit Operandencode %<z%> verwendetswitch-Anweisung ohne eingebauten Typnicht-lokaler Lambdaausdruck kann keinen »capture-default« habennicht-lokale %<__thread%>-Variable %qD hat einen nicht-trivialen Destruktornicht-lokale %<__thread%>-Variable %qD erfordert dynamische InitialisierungInterner Fehler: non-loop with header %d not marked for removalNicht-L-Wert-Array in bedingtem AusdruckNicht-Element %qs kann nicht als %<mutable%> deklariert seinNicht-Elementfunktion %qD kann nicht CV-Qualifizierer habenNicht-Elementfunktion %qD kann keinen ref-Qualifizierer habeneine Using-Deklaration, die nicht-Member ist, benennt den Konstruktor von %qTNichtelement-Templatedeklaration von %qDEingabe von Nicht-Speicher %d muss im Speicher bleibenNicht-Speicher-Ausgabe %d muss im Speicher bleibennicht geschachtelte Funktion mit variabel modifiziertem TypenNicht-Objekt-Element %qs kann nicht als %<mutable%> deklariert seinNicht-Objective-C-Typ %qT kann nicht aufgefangen werdenNicht-Parameter %qs kann kein Parameterpack seinArgument, das kein Zeiger ist, in %<__builtin_launder%>Nicht-Register als LHS von binärer OperationNicht-Register als LHS von ternärer OperationNicht-Register als LHS von unärer Operationnicht-skalares %qsnicht-skalarer Typnichtskalare Variable %qD in bedingter %<lastprivate%>-KlauselNicht-Standard-Suffix an Gleitkommakonstantenicht-statisches const-Element %q#D in Klasse ohne einen Konstruktornicht-statisches konstantes Element %q#D, Standard-Zuweisungsoperator kann nicht verwendet werdennicht-statisches Datenelement %q+D in einer Union darf keinen Referenztypen %qT habennicht-statisches Datenelement %qE als %qs deklariertnicht-statisches Datenelement mit Platzhalter %qT deklariertnicht-statische Initialisierungen für Datenelemente nur mit %<-std=c++11%> oder %<-std=gnu++11%> verfügbarNicht-statische Deklaration von %q+D folgt statischer Deklarationnicht-statische Initialisierung eines flexiblen Arrayelementsnicht-statische Referenz %q#D in Klasse ohne Konstruktornicht-statisches Referenzelement %q#D, Standard-Zuweisungsoperator kann nicht verwendet werdenNicht-Template %qD als Template verwendetNicht-Template-Typ %qT als Template verwendetNicht-Thread-lokale Deklaration von %q#D folgt Thread-lokaler DeklarationNicht-Thread-lokale Deklaration von %q+D folgt Thread-lokaler Deklarationnicht-Top-Level %qsnicht-triviale Umwandlung in %qsnicht-triviale Umwandlung in unärer Operationnicht-trivial markierte Initialisierungen nicht unterstütztNichttyp-Teilspezialisierung %qE ist nicht erlaubtNichttypen-Templateparameter von Klassentyp sind nur mit %<-std=c++20%> oder %<-std=gnu++20%> verfügbarNichttypen-Templateparameter von hergeleitetem Klassentyp sind erst ab %<-std=c++20%> oder %<-std=gnu++20%> verfügbarNicht-Variable %qD in Deklaration mit mehr als einem Deklarator mit Platzhaltertyp%qs mit Elementen ist kein VektorNicht-Vektoroperanden in Vektorvergleichnichtkonstanter Arrayindex in InitialisierungInterner Fehler: nonempty exits list of loop %d, but exits are not recordednichtlokale Marke Arrayindex %qE ist ungleich 0 und wird mit Array %qD vom Typ %qT mit unbekannten Grenzen verwendetArrayindex %qE ist ungleich 0 und wird mit Array vom Typ %qT mit unbekannten Grenzen verwendetNormalisierung kann nicht gleichzeitig mit Skalierung aktiv sein
unerlaubte Typkombination in %qsnicht mit sysroot-Header-Suffix konfiguriertzu wenige DO-Schleifen für »%s !$ACC LOOP« bei %Lzu wenige DO-Schleifen für zusammengefallenes %s bei %LNicht genug ArgumenteNicht genug Argumente für Rückgabezu wenige for-Schleifen um sie einzuklappennicht genügend perfekt geschachtelte Schleifenzu wenig TypinformationenZu wenige variable Argumente, um zu einem Wächter zu passenPatchbereich wird nicht angelegt, da NOPs nicht unterstützt werdendie Option %<-fpic%> nicht für die v3m-Toolchain unterstützenHinweisAnmerkung: Null-ZeigerDereferenzierung eines NullzeigersNullbarkeits-Angabe %qE kann nicht auf Zeigertyp %qT angewendet werden, da dieser mehrere Ebenen von Zeigern hatNullbarkeits-Angabe %qE ist nur auf Zeigertypen anwendbar, nicht auf %qTZahl muss 0 oder 1 seinAnzahl der Argumente passt nicht zum eingebauten PrototypenAnzahl der Argumente passt nicht zum PrototypenInterner Fehler: number of bb notes in insn chain (%d) != n_basic_blocks (%d)Komponentenanzahl des Vektors ist keine ZweierpotenzKomponentenanzahl des Vektors ist keine ZweierpotenzAnzahl der Zähler in den Profilingdaten für Funktion %qD passt nicht zu deren Profilingdaten (Zähler %qs, %i erwartet aber %i gefunden)Anzahl der Ergebnisse passt nicht zur Anzahl der WerteAnzahl der spekulativen Ziele %i stimmt nicht mit num_speculative_call_targets %i übereinAnzahl der Variablen in %<depend%>-Klausel mit %<sink%>-Modifizierer passt nicht zur Anzahl der Iterationsvariablennumerisches Argument des Attributs %qE muss im Bereich 0..63 liegenobjc++-cpp-output ist veraltet; bitte stattdessen objective-c++-cpp-output verwendenobjc-cpp-output ist veraltet; bitte stattdessen objective-c-cpp-output verwendenObjekt ist keine Methodebei Verwendung von %qE fehlt ObjektObjekt-Eigenschaft %qD hat kein Attribut %<assign%>, %<retain%> oder %<copy%>; es wird %<assign%> angenommenObjekttyp %qT passt nicht zum Destruktornamen ~%qTObjekt mit variabel geändertem Typ darf keine Bindung habenMethodendeklaration in Objective-C erwartetObjective-C++ Nachrichtenargument(e) erwartetObjective-C++-Nachrichtenempfänger erwartetObjective-C++ Methodendeklaration erwartetausgedient in Fortran 95veralteter Maverick-Formatcode »%c«veraltete Option %<-I-%> verwendet, bitte stattdessen %<-iquote%> verwendenveraltete Verwendung einer bestimmten Initialisierung mit %<:%>veraltete Verwendung einer bestimmten Initialisierung ohne %<=%>von hier erhaltenodr-verwendete Inline-Variable %qD ist nicht definiertvon Modulvom Typ »struct %s« verwendet »this(this)«, das ist jedoch in »static«-Initialisierung nicht erlaubtOffload-Compiler %s nicht gefundenOffload-Compiler %s nicht gefunden (erwägen Sie %<-B%>)Auslagerungsdimension %d liegt außerhalb des WertebereichesOffset %qwi ist außerhalb der Grenzen der konstanten ZeichenketteOffset überschreitet 16 BytesOffset von %qD ist ABI-unverträglich und kann sich in zukünftigen GCC-Versionen ändernOffset des gepackten Bitfeldes %qD hat sich in GCC 4.4 geändertalte Deklaration %q#DFunktionsdefinition im alten StilParameterdeklarationen alten Stils in Prototyp-Funktionsdeklarationausgelassener mittlerer Operand für Operator %<?:%> kann nicht verarbeitet werdengenau ein Argument vom Typ %<void*%> erwartetgenau ein Argument vom Typ »void« erwartet, nicht »%s«ein Feld ist ein Bitfeld, das andere jedoch nichteins der Argumente für den Initialisierungsaufruf sollte %<&omp_priv%> seineins der Aufrufargumente für die Initialisierung sollte %<omp_priv%> oder %<&omp_priv%> seinein Typ muss konstruiert sein, der andere nichtnur %<distribute%>-, %<parallel%>- und %<loop%>-Regionen dürfen innerhalb einer %<teams%>-Region streng geschachtelt seinnur die Schalter %<inbranch%> und %<notinbranch%> sind für das %<__simd__%>-Attribut erlaubtnur %u Name für strukturelle Bindung angegebennur %u Namen für strukturelle Bindung angegebennur 0.0 kann als Immediate geladen werdenNur das DWARF-Debugformat ist für Interrupt-Service-Routinen unterstütztnur Objective-C-Objekttypen können mit Protokoll qualifiziert werdenNur das Attribut %<fallthrough%> kann auf eine leere Anweisung angewendet werdennur Konstruktoren nehmen Elementinitialisierungennur Deklarationen von Konstruktoren und Umwandlungsoperatoren können %<explicit%> seinsondern nur hier als %<friend%>nur Parameter oder foreach-Deklarationen können %<ref%> seinnur Parameter oder Variablen auf dem Stapel können %<inout%> seinnur einfacher Rückgabetyp %<auto%> kann zu %<void%> hergeleitet werdenin einer %<constexpr%>-Funktion in C++20 darf Inline-Assemblercode nur vorkommen, wenn er nicht im Auswertungspfad liegtNur uninitialisierte Variablen können in einem .bss-Abschnitt platziert werdenNur uninitialisierte Variablen können im .noinit-Bereich platziert werdennur die Werte 12 (4 kB) und 16 (64 kB) werden für die Wächtergröße unterstützt. Der angegebene Wert %d (%llu kB) liegt außerhalb des gültigen Bereichsin dieser Konfiguration werden nur schwache Aliase unterstütztIn Abschnitt %qs sind nur 0-Initialisierungen erlaubtopake Vektortypen können nicht initialisiert werdenopaque-enum-declaration ist hierintransparente Enum-Spezifikation muss einfachen Bezeichner verwendenintransparente Enum-Spezifikation ohne Namen»%s« kann nicht geöffnet werden: %s/dev/zero kann nicht geöffnet werden: %mLTRANS-Ausgabeliste »%s« kann nicht geöffnet werden: %mAbhängigkeitsdatei »%s« kann nicht geöffnet werden: %mAusgabedatei %qs wird geöffnet: %sAusgabedatei »%s« kann nicht geöffnet werden: %mOperandencode %%xn ist für QImode ungültigOperand %d sollte eine vorzeichenlose 3-Bit-Konstante seinOperand %d sollte eine vorzeichenlose 6-Bit-Konstante seinOperand %d sollte eine vorzeichenlose 8-Bit-Konstante seinOperand 1 sollte eine vorzeichenlose 3-Bit-Konstante seinOperand 1 sollte ein vorzeichenloser 3-Bit-Wert sein (I0–I7)Operand 2 sollte ein gerader 3-Bit-Wert sein (subreg 0,2,4,6)Operand 2 sollte ein vorzeichenloser 3-Bit-Wert sein (I0–I7)Operand 2 sollte ein vorzeichenloser 3-Bit-Wert sein (subreg 0–7)Operand 2 sollte ein vorzeichenloser 8-Bit-Wert seinOperand 3 sollte ein vorzeichenloser 3-Bit-Wert sein (I0–I7)Operand 3 sollte ein vorzeichenloser 8-Bit-Wert seinOperand 4 sollte ein vorzeichenloser 8-Bit-Wert sein (0–255)Operandenbedingung enthält falsch positioniertes %<+%> oder %<=%>Operandenbedingungen für %<asm%> unterscheiden sich in der Anzahl der AlternativenOperand ist kein Bedingungscode, ungültiger Operandencode »%c«Operand ist kein Bedingungscode, ungültiger Operandencode »D«Operand ist kein Bedingungscode, ungültiger Operandencode »Y«Operand ist keine bestimmte Ganzzahl, ungültiger Operandencode »R«Operand ist keine bestimmte Ganzzahl, ungültiger Operandencode »r«Operand ist keine Ganzzahl, ungültiger Operandencode »K«Operand ist keine Ganzzahl, ungültiger Operandencode »R«Operand ist keine ausgleichbare Speicherreferenz, ungültiger Operandencode »H«Operand muss »immediate« mit korrekter Größe seinOperandennummer fehlt hinter %%-BuchstabeOperandennummer außerhalb des WertebereichesOperandennummer außerhalb des Wertebereiches im FormatOperandennummer für Format ohne Argumente angegebenOperandennummer mit unterdrückter Zuweisung angegebenOperand von %<?:%> wechselt das Vorzeichen von %qT nach %qT, aufgrund der Vorzeichenlosigkeit des anderen OperandenOperand des Faltungsausdrucks hat keine unexpandierten ParameterpackungenOperandentyp %qT ist inkompatibel mit Argument %d von %qEOperandentypen sind %qT und %qTOperanden für %<?:%> haben unterschiedliche Typen %qT und %qTOperanden für %T/%t müssen reg + const_int sein:Operation nicht erlaubt auf Typ %<bfloat16_t%>Operation auf %qE könnte undefiniert seinOptimierungsattribut von %qD folgt auf die Definition, aber die Attribute passen nicht zusammenFehlzuordnung von OptimierungsstufenattributOptimierung kann Lese- und/oder Schreiboperationen auf Registervariablen entfernenOption %<%s=%s%> ist für die CPU %qs nicht verfügbardie Option %<-mdouble=32%> ist nur verfügbar, wenn %<--with-double={32|32,64|64,32}%> konfiguriert istdie Option %<-mdouble=64%> ist nur verfügbar, wenn %<--with-double={64|64,32|32,64}%> konfiguriert istdie Option %<-mirq-ctrl-saved%> ist nur für ARC-v2-Prozessoren gültigdie Option %<-mlong-double=32%> ist nur verfügbar, wenn %<--with-long-double={32|32,64|64,32}%>, oder %<--with-long-double=double%> zusammen mit %<--with-double={32|32,64|64,32}%> konfiguriert istdie Option %<-mlong-double=64%> ist nur verfügbar, wenn %<--with-long-double={64|64,32|32,64}%>, oder %<--with-long-double=double%> zusammen mit %<--with-double={64|64,32|32,64}%> konfiguriert istdie Option %<-mrgf-banked-regs%> ist nur für ARC-v2-Prozessoren gültigoption %<-mstructure-size-boundary%> ist veraltetOption %qs wird ignoriert, der Vorgabewert %qs wird für die CPU %qs verwendetOption %qs ist für die CPU %qs nicht verfügbarOption %qs ist gültig für %s, aber nicht für %sOption %qs mit abweichenden Werten (%s, %s)Option »%s« wird zusammen mit %<-fopenacc%> nicht unterstütztOption %s nicht konsistent in allen LTO-Eingabedateien verwendetOption %s mit unterschiedlichen Wertenoptionales Argumentoptionaler KlassenparameterOptionen oder Zielarchitekturen fehlen hinter %qsInterner Fehler: optype_msgid overflow: %doder ersetzen Sie die Klammern durch geschweifte Klammern, um die Variable als Aggregat zu initialisierenoder ersetzen Sie die Klammern durch geschweifte Klammern, um die Variable mit einem einzelnen Wert zu initialisierenoder nutzen Sie %<j%> statt %<i%> für das in GNU eingebaute SuffixArgument für %<ordered%> muss ein positiver, ganzzahliger Ausdruck seingeordneter Vergleich von Zeiger mit Ganzzahlnullgeordneter Vergleich von Zeiger mit der Zahl 0 (%qT und %qT)geordneter Vergleich von Zeiger mit Null-Zeigerorigin points to a different parentdas ursprüngliche %<default%> ist hierursprüngliche Deklaration trat hier aufursprüngliche Definition trat hier aufOriginal ist nicht mit zstd komprimiertOriginalgröße unbekanntwurde ursprünglich hier als %<const%> deklariertursprünglich hier definiertursprünglich indirekter Funktionsaufruf kommt nicht als »inline« in Betrachtursprüngliche hier spezifiziertverwaistes %qs-Konstruktandere Fundstelle ist hiersollte der virtuellen Methode %qD entsprechen, tut es aber nichtäußeres %<__transaction_cancel%> nicht innerhalb des äußeren %<__transaction_atomic%>Funktionsaufruf von %<__transaction_cancel%> nicht innerhalb von äußerer %<__transaction_atomic%>- oder %<transaction_may_cancel_outer%>-Funktionäußerer Block der Region %i ist falschdie äußere Iterationsvariable %qD hat einen Summandenausdruck %qE, der nicht ganzzahlig istdie äußere Iterationsvariable %qD hat einen Faktorausdruck %qE, der nicht ganzzahlig istdie äußere Iterationsvariable %qD, die im Bedingungsausdruck verwendet wird, ist von einem anderen Typen als %qTdie äußere Iterationsvariable %qD, die im Initialisierungsausdruck verwendet wird, ist von einem anderen Typen als %qTäußere Transaktion in %<transaction_may_cancel_outer%>-Funktionäußere Transaktion in %<transaction_safe%>-Funktionäußere Transaktion in TransaktionAusgabebedingung %d kann nicht zusammen mit %qs angegeben werdenAusgabebedingung %d muss ein einzelnes Register angebenAusgabebedingung %qc für Operand %d steht nicht am AnfangAusgabedatei %s existiert bereits in Ordner %skeine Ausgabedatei angegebenName der Ausgabedatei darf nicht leer seinAusgabedatei doppelt angegebenAusgabezahl %d nicht direkt adressierbarAusgabeoperand %d muss %<&%>-Bedingung verwendenBedingung des Ausgabeoperanden erfordert %<=%>Ausgabeoperand ist in %<asm%> konstantAusgaberegister müssen oben auf dem Stapel gruppiert werdenoutput_move_single:Überlauf in ArraygrößeÜberlauf in Konstanten-AusdruckÜberlauf in Umwandlung von %qT nach %qT ändert den Wert von %qEÜberlauf in Umwandlung von %qT nach %qT ändert den Wert von %qE in %qEÜberlauf in AufzählungswertenÜberlauf in Aufzählungswerten bei %qDübergelaufene Ausgabeargumentliste für %qsüberladener Funktionsname %qE in Klausel %qsüberladene Funktion ohne Typinformationen aus Kontextübersteuerte Funktion ist %q#Dübersteuerte Funktion ist %q#Fübersteuerte Funktion ist %qDÜberschreibsteuerung (override/final) nur mit %<-std=c++11%> oder %<-std=gnu++11%> verfügbar%<override%> ist nur auf Klassenelementfunktionen anwendbarübersteuert %qD, was als %<transaction_safe%> deklariert istgepacktes Expansionsargument für Parameter %qD ohne »pack« von Alias-Template %qDgepacktes Expansionsargument für Parameter %qD ohne »pack« von Konzept %qDPack-Expansion in using-Deklaration ist nur mit %<-std=c++17%> oder %<-std=gnu++17%> verfügbar%<pack init-capture%> ist erst mit %<-std=c++20%> oder %<-std=gnu++20%> verfügbargepacktes Attribut führt zu ineffizienter Ausrichtunggepacktes Attribut verursacht ineffiziente Ausrichtung für %q+Dgepacktes Attribut verursacht ineffiziente Ausrichtung für %qEgepacktes Attribut ist unnötiggepacktes Attribut ist unnötig für %q+Dgepacktes Attribut ist für %qE unnötigstruct wird bis zur Ausrichtungsgrenze aufgefülltstruct wird aufgefüllt, um %q+D auszurichtenParameter %P hat unvollständigen Typen %qTParameter %P von %qD hat unvollständigen Typen %qTParameter %q+D als %<_Noreturn%> deklariertParameter %q+D als %<inline%> deklariertParameter %q+D hat nur eine VorwärtsdeklarationParameter %qD als void deklariertParameter %qD hat unvollständigen TypenParameter %qD bezieht Zeiger auf Feld mit unbekannter Grenze %qT einParameter %qD bezieht Referenz auf Feld mit unbekannter Grenze %qT einParameter %qD deklariert ungültigerweise MethodentypParameter %qD ist initialisiertParameter %qD darf in diesem Kontext nicht auftauchenParameter %qD gesetzt, jedoch nicht verwendetParameter %qP von %qD könnte Kandidat für Formatattribut seinParameter »%s.%s« ist bereits definiertParameter %u (%q+D) hat unvollständigen TypenParameter %u (%q+D) hat void-TypenParameter %u hat unvollständigen TypenParameter %u hat void-TypenParameterdeklaration vor Lambdadeklarationsangaben ist erst ab %<-std=c++2b%> oder %<-std=gnu++2b%> optionalParameterdeklaration vor einer Lambda-Exception-Angabe ist erst ab %<-std=c++2b%> oder %<-std=gnu++2b%> optionalParameterdeklaration vor einem abschließenden Rückgabetyp ist erst ab %<-std=c++2b%> oder %<-std=gnu++2b%> optionalParameterdeklaration vor einem Lambda-Transaktions-Qualifizierer ist erst ab %<-std=c++2b%> oder %<-std=gnu++2b%> optionalParameter als %<auto%> deklariertParameter darf nicht variabel modifizierten Typ %qT habenParameter könnte ein Kandidat für ein Formatattribut seinParametername fehlt in ParameterlisteParameternamen (ohne Typen) in FunktionsdeklarationParameterpack %<__bases%> ist nur in Templatedeklaration gültigParameterpack %q+D muss am Ende der Templateparameterliste seinParameterpack %qD kann kein Standardargument habenArgument %qE für Parameterpack muss am Ende der Templateargumentliste seinArgument %qT für Parameterpack muss am Ende der Templateargumentliste seinParameterpack kann kein Standardargument habenParameterbündel nicht mit %<...%> aufgelöst:die Parameterübergabe für das Argument vom Typ %qT hat sich in GCC 7.1 geändertdie Parameterübergabe für das Argument vom Typ %qT hat sich in GCC 9.1 geändertdie Parameterübergabe für das Argument vom Typ %qT hat sich, sofern C++17 aktiviert ist, so geändert, dass es C++14 %{in GCC 10.1%} entsprichtdie Parameterübergabe für das Argument vom Typ %qT mit %<[[no_unique_address]]%>-Elementen hat sich %{in GCC 10.1%} geändertParameter für eingebaute Funktion muss Zeichenkettenkonstante oder Literal seinParameter für eingebaute Funktion ist ungültig: %sparametrisiertes abgeleitetes TypargumentEltern-Unterprogramm kann nicht geinlinet werdenKlammern um %qE können nicht verwendet werden, einen Zeiger auf Elementfunktion zu erzeugenKlammern müssen weggelassen werden, wenn die Argumentliste des %qE-Attributs leer istKlammern müssen weggelassen werden, wenn die Argumentenliste des Attributs leer istUm dieses zusammengesetzte Literal sind Klammern erforderlich, um Mehrdeutigkeit zu vermeidenKlammern waren mehrdeutig und wurden als Funktionsdeklaration angesehengeklammerte Initialisierung ist in OpenMP-%<for%>-Schleife nicht erlaubtgeklammerte Initialisierung in Array-»new«Syntaxfehler in SELECT-RANK-Anweisung bei %CSyntaxfehler in »SELECT TYPE«-Anweisung bei %CSyntaxfehler in Templateargumentlistepart-ref mit Zeigerattribut bei %L ist nicht das rechteste part-ref des data-stmt-objectsTeilspezialisierung %q+D spezialisiert keine Templateargumente und ist nicht eingeschränkter als das primäre Template; um das primäre Template zu definieren, entfernen Sie die TemplateargumentlisteTeilspezialisierung %q+D spezialisiert keine Templateargumente; um das primäre Template zu definieren, entfernen Sie die TemplateargumentlisteTeilspezialisierung %qD ist nicht spezialisierter alsTeilspezialisierung %qT als %<friend%> deklariertpartielle Spezialisierung ist nicht näher spezialisiert als das ursprüngliche Template, da es mehrere Parameter mit einer »pack«-Erweiterung ersetztteilweise Spezialisierung von %qD nach Instanziierung von %qDInterner Fehler: partition found but function partition flag not setDurchlauf %qs nicht gefunden, wird jedoch von neuem Durchlauf %qs referenziertpass %s does not support cloningpass %s needs a %<set_pass_param%> implementation to handle the extra argument in %<NEXT_PASS%>Die Übergabe von %qT als %<this%>-Argument streicht QualifiziererÜbergabe von %qT wählt %qT statt %qTÜbergabe von NULL an Nicht-Zeiger-Argument %P von %qDÜbergabe des Arguments %d von %qE als %<float%> statt %<double%> aufgrund des PrototypsÜbergabe des Arguments %d von %qE als %qT statt %qT aufgrund des PrototypsÜbergabe des Arguments %d von %qE als komplex statt Gleitkomma aufgrund des PrototypsÜbergabe des Arguments %d von %qE als komplex statt Ganzzahl aufgrund des PrototypsÜbergabe des Arguments %d von %qE als Gleitkomma statt komplex aufgrund des PrototypsÜbergabe des Arguments %d von %qE als Gleitkomma statt Ganzzahl aufgrund des PrototypsÜbergabe des Arguments %d von %qE als Ganzzahl statt komplex aufgrund des PrototypsÜbergabe des Arguments %d von %qE als Ganzzahl statt Gleitkomma aufgrund des PrototypsÜbergabe des Arguments %d von %qE als vorzeichenbehaftet aufgrund des PrototypsÜbergabe des Arguments %d von %qE als vorzeichenlos aufgrund des PrototypsÜbergabe des Arguments %d von %qE entfernt Kennzeichner %qv von Zeiger-Ziel-TypÜbergabe des Arguments %d von %qE entfernt Qualifizierer von Zeiger-Ziel-TypÜbergabe des Arguments %d von %qE von anderem Objective-C-TypÜbergabe des Arguments %d von %qE von inkompatiblem ZeigertypÜbergabe des Arguments %d von %qE von inkompatibler Speicherreihenfolge für SkalareÜbergabe des Arguments %d von %qE von Zeiger auf nicht eingeschlossenen AdressbereichÜbergabe des Arguments %d von %qE erzeugt aus unqualifiziertem einen qualifizierten Funktionszeiger %q#vÜbergabe des Arguments %d von %qE wandelt eine Zahl in einen Zeiger um, ohne explizite TypkonvertierungÜbergabe des Arguments %d von %qE wandelt eine Zahl in einen Zeiger um, ohne explizite TypkonvertierungÜbergabe des Arguments %d von %qE mit anderer Breite aufgrund des PrototypsArgument %i wird an den mit %qs qualifizierten Parameter übergeben, dadurch wird es zum Alias für Argument %ZArgument %i wird an den mit %qs qualifizierten Parameter übergeben, dadurch wird es zum Alias für die Argumente %ZArgumente werden an Auslassungspunkte des geerbten Konstruktors %qD übergebenDas Übergeben des nicht trivial-kopierbaren Typs %q#T über %<...%> ist »conditionally-supported« ([expr.call] 5.2.2/7)Übergabe von zu großem Argument auf dem Stapelpatchbarer Funktionseintrag %wu überschreitet die Größe %wuPfad: Ped. WarnungPed. Warnung: vielleicht hilft ein Zeilenumbruch oder eine andere Kenntlichmachung, damit dies nicht mehr als Modul-Steuerzeile angesehen wirdvielleicht brauchen Sie explizite Templateargumente im »nested-name-specifier«Sie könnten ein explizites %<%T::%> hinzufügenPerm. FehlerPerm. Fehler: pex_init gescheitert: %mPlatzhalter-Beschränkungen nicht erfülltPlatzhaltertyp ist in diesem Kontext nicht erlaubtPlacement-New erzeugt ein Array von Objekten vom Typ %qT mit Größe %qwu in einer Region von Typ %qT mit Größe %qwiPlacement-New erzeugt ein Array von Objekten vom Typ %qT mit Größe %qwu in einer Region vom Typ %qT mit Maximalgröße %qwuPlacement-New erzeugt ein Objekt vom Typ %<%T [%wu]%> mit Größe %qwu in einer Region von Typ %qT mit Größe %qwiPlacement-New erzeugt ein Objekt vom Typ %<%T [%wu]%> mit Größe %qwu in einer Region vom Typ %qT mit Maximalgröße %qwuPlacement-New erzeugt ein Objekt vom Typ %qT mit Größe %qwu in einer Region von Typ %qT mit Größe %qwiPlacement-New erzeugt ein Objekt vom Typ %qT mit Größe %qwu in einer Region vom Typ %qT mit Maximalgröße %qwubitte geben Sie den CPU-Namen explizit an. Gültige CPU-Namen sind: %sPlugin %qs wurde mit anderen Pfaden angegeben: %qs und %qsPlugin %s ist nicht unter einer GPL-kompatiblen Lizenz lizenziert
%sPlugin %s ist nicht unter einer GPL-kompatiblen Lizenz lizenziert: %sPlugin %s hat eine Null-Callback-Funktion für Ereignis %s registriertPlugin %s sollte vor %<-fplugin-arg-%s%> in der Kommandozeile angegeben werdenPlugin kann keinen fehlenden Durchlauf registrierenPlugin kann keinen unbenannten Durchlauf registrierenPlugin kann keinen Durchlauf %qs ohne Referenzdurchlaufnamen registrierenPlugin-Unterstützung ist ausgeschaltet; mit --enable-plugin konfigurierenZeigerZeigerargumentZeigerarithmetik für Objekte mit Garbage-Collection ist nicht erlaubtZeigerzuweisungdas Zeigerelement %q+D wurde hier deklariertZeiger auf Typen %<void *%> in Arithmetik verwendetZeiger des Typs %<void *%> in Subtraktion verwendetZeigeroffset von Symbol könnte falsch seinZeiger oder allozierbares ResultatZeiger-Zieltypen sind in C++ inkompatibelZeiger auf Adressraum %qs muss in %qT konstant seinZeiger auf Adressraum %qs muss in %s %q+D konstant seinZeigerziele in Zuweisung von %qT nach %qT unterscheiden sich im VorzeichenbesitzZeigerziele in Initialisierung von %qT nach %qT unterscheiden sich im VorzeichenbesitzZeigerziele bei Übergabe des Arguments %d von %qE unterscheiden sich im VorzeichenbesitzZeigerziele in Rückgabe von %qT aus einer Funktion mit Rückgabetyp %qT unterscheiden sich im VorzeichenbesitzZeiger auf Funktion in Arithmetik verwendetZeiger auf eine Funktion in Subtraktion verwendetZeiger auf Array verliert durch den Bedingungsausdruck QualifiziererZeiger auf Schnittstellentyp hat keine MethodenUmwandlung in Zeiger auf Element über virtuelle Basis %qTZeiger auf Elementtyp %qT mit Objekttyp %qT inkompatibelunverträgliche Zeigertypen %qT und %qT von %qD und %qD in bedingtem AusdruckZeigertyp passt nicht in bedingtem AusdruckZeigerwert verwendet, wo »complex« erwartet wurdeZeigerwert verwendet, wo Gleitkommawert erwartet wurdeZeiger auf Elementfunktion %qE kann nicht ohne Objekt aufgerufen werden; verwenden Sie beispielsweise %<.*%> oder %<->*%>Typ für Zeiger auf Elementfunktion %qT braucht einen lvalueZeiger-auf-Element-Funktions-Typ %qT braucht vor C++20 einen lvalueTyp für Zeiger auf Elementfunktion %qT braucht einen rvalueZeiger-/Ganzzahltyp passt nicht in bedingtem AusdruckZeiger sind nicht als case-Werte zugelassenZeiger auf Arrays mit unterschiedlichen Qualifizierern sind in ISO-C inkompatibelZeiger auf disjunkte Adressräume in bedingtem Ausdruck verwendetpolymorphes ArgumentPosition plus Größe überschreitet die Größe des referenzierten Objekts in %qslageunabhängiger Code erfordert %qslageunabhängiger Code erfordert das Linux-ABIpositionelle Initialisierung eines Feldes in %<struct%>, die mit dem %<designated_init%>-Attribut deklariert wurdePositive Breite benötigt bei %Lmögliches Problem bei Aufruf von %<operator delete%> erkanntmögliches Problem bei Aufruf von %<operator delete []%> erkanntPost-Increment-Adresse ist kein Registerpost-module-declarations müssen zusammenhängend sein%<post-module-declaration%>-Importe dürfen nicht aus Header-Einbindung stammen%<post-module-declaration%>-Importe dürfen nicht %<include-translated%> seinSuffix-%qD muss %<int%> als sein Argument nehmenSuffix-%qD muss %<int%> als sein zweites Argument nehmenSuffix-%qD sollte %qT zurückgebenMögliche Dereferenzierung eines Nullzeigerspower9-Zieloption ist mit %<%s=<xxx>%> für <xxx> kleiner als power9 inkompatibeldem Pragma fehlt das schließende %<;%>Pragma oder Attribut %<target("%s")%> akzeptiert keine ArgumentePragma oder Attribut %<target("%s")%> erlaubt keine negierte FormPragma oder Attribut %<target("%s")%> ist nicht gültigPragma oder Attribut %<target("%s=%s")%> ist nicht gültigPre-Decrement-Adresse ist kein RegisterPre-Increment-Adresse ist kein RegisterGenauigkeitGenauigkeit im printf-Formatvordeklarierter arithmetischer Typ %qT in %<#pragma omp declare reduction%>vordefinierter arithmetischer Typ in %<#pragma omp declare reduction%>bedingter Thumb-Befehlbedingter Befehl in bedingter SequenzPräfix-%qD sollte %qT zurückgebenPräfix-Attribute vor %<@%D%> werden ignoriertPräfixattribute werden für Implementierungen ignoriertPräfixattribute werden für Methoden ignoriertInterner Fehler: prev_bb of %d should be %d, not %dvorheriges %<#pragma omp declare reduction%>vorherige Deklaration von %<pragma omp declare reduction%>vorherige Deklarationvorherige Deklaration von %q#Dvorherige Deklaration von %q#D ist hiervorherige Deklaration %qDvorherige Deklaration %qD verwendete %d Template-Parametervorherige Deklaration %qD verwendete %d Template-Parameterbisherige Deklaration als %q#Dvorherige Deklaration hiervorherige Deklaration von %<%c%E%>vorherige Deklaration von %<%c%E%> als %<@optional%>vorherige Deklaration von %<%c%E%> als %<@required%>vorherige Deklaration von %<%c%s%>vorherige Deklaration von %q#Dvorherige Deklaration von %q+Dvorherige Deklaration von %qD vom Typ %qTvorherige Deklaration von %qDvorherige Deklaration von %qD war hiervorherige Deklaration von %qEbisherige Deklaration mit %qL-Bindungvorherige Definition hiervorherige Definition von %q#Tvorherige Definition von %q+D vom Typ %qTvorherige Definition von %qD war hiervorherige implizite Deklaration von %q+D vom Typ %qTvorherige Sprungmarkevorherige Mangelung von %q#Dvorherige Nicht-Prototyp-Definition hiervorherige Angabebisherige Spezifikation in %q+#D hiervorher als %s deklariertwar vorher als %s mit %u unspezifizierten Variablengrenze deklariertwar vorher als %s mit %u unspezifizierten Variablengrenzen deklariertwar vorher als %s mit %u Variablengrenze deklariertwar vorher als %s mit %u Variablengrenzen deklariertwar vorher als %s deklariert, mit Grenze %qswar vorher als %s deklariert, mit Grenze %qswar vorher als %s deklariert, mit Grenzargument %Ewar vorher als Zeiger %s deklariertwar vorher als Array variabler Länge %s deklariertwar vorher als Array %s deklariertwar vorher als gewöhnliches Array %s deklariertvorher hier deklariertvorher hier definiertvorher hier als %s definiertBereits hier verwendetprimäres Template %qDursprüngliches Template hierprivates Element %q#D in anonymer Unionprivate-module-fragment%<private-module-fragment%> ist nur im Zuständigkeitsbereich eines Modulinterfaces oder einer Partition zulässigWahrscheinlichkeit %qE liegt außerhalb des Bereichs [0.0, 1.0]Wahrscheinlichkeit %qE muss eine konstanter Gleitkommaausdruck seinProblem beim Erstellen des Zielabbilds für %sProfildaten für Funktion %u sind beschädigtProfil für Funktion %qD nicht in Profilingdaten gefundenProfilerunterstützung für CR16Profilerunterstützung für VxWorksProfiling von %<-mcmodel=large%> wird mit PIC nicht unterstütztProfiling ist für dieses Ziel noch nicht implementiertProfiling wird mit »-mg« nicht unterstütztProgramme: %s
weitergegebenes Argument %qD passt nicht zu eingebautem Prototypenweitergegebenes Argument %qD passt nicht zum Prototypendas beförderte (promoted) bitweise Komplement eines vorzeichenlosen Wertes ist immer ungleich Null, da die höchstwertigen Bits 1 sindEigenschaften für %<simd%>-Selektor dürfen nicht in %<metadirective%> angegeben werdenEigenschaften müssen benannt seinEigenschaft %qs ist bereits in %<@dynamic%> festgelegtEigenschaft %qs ist bereits in %<@synthesize%> festgelegtEigenschaft %qs verwendet Instanzvariable %qs unverträglichen TypsEigenschaft %qs verwendet dieselbe Instanzvariable wie die Eigenschaft %qsEigenschaft kann kein Bitfeld seinEigenschaft kann kein Array seinEigenschaftsdeklaration nicht im Kontext von %<@interface%>, %<@protocol%> oder %<category%>Eigenschaft muss ein konstanter ganzzahliger Ausdruck seinEigenschaft muss ein konstanter ganzzahliger Ausdruck oder ein Zeichenkettenliteral seingeschütztes Element %q#D in anonymer Uniongeschützte Sichtbarkeitsattribute werden in dieser Konfiguration nicht unterstützt; ignoriertProtokoll %qE hat ringförmige AbhängigkeitProtokoll %qE ist veraltetProtokoll-Attribute sind in Objective-C 1.0 nicht verfügbarPrototyp-DeklarationPrototyp für %q+D deklariert Argument %d mit inkompatiblem TypenPrototyp für %q+D deklariert weniger Argumente als vorherige Definition im alten StilPrototyp für %q+D deklariert mehr Argumente als vorherige Definition im alten StilPrototyp für %q+D folgt einer Nicht-Prototyp-DefinitionPrototyp für »%s« hat Pflichtoperanden hinter optionalen OperandenPrototyp für %q#D angegebenfür %qD bereitgestelltPseudo-Destruktor wird nicht aufgerufenpure virtuelle %q#D aus Konstruktor heraus aufgerufenpure virtuelle %q#D aus Destruktor heraus aufgerufenpure virtuelle %q#D aus nichtstatischem Datenelement-Initialisierer heraus aufgerufenreiner Spezifizierer bei Funktionsdefinitionq/Q-Modifizierer für Symbolreferenzen ungültigÜberprüfung für qsort-Vergleichsfunktion fehlgeschlagenVergleichsfunktion für qsort liefert nicht-negatives Ergebnis für sortierte Ausgabe: %dVergleichsfunktion für qsort ist nicht antisymmetrisch: %d, %dVergleichsfunktion für qsort ist nicht transitiv: %d, %d, %dqualifizierter Name benennt keine Klassequalifizierter Typ %qT passt nicht zum Destruktornamen ~%qTqualified-id in DeklarationQualifizierer sind bei Konstruktordeklarationen nicht erlaubtQualifizierer sind bei Deklaration von %<operator %T%> nicht erlaubtQualifizierer sind bei Deklaration von Herleitungshinweis nicht erlaubtQualifizierer sind bei Destruktordeklarationen nicht erlaubtqualifizierender Typ %qT passt nicht zum Destruktornamen ~%qT%qs innerhalb von Anführungszeichen im Format%qs-Direktive innerhalb von Anführungszeichen im Format; verwenden Sie stattdessen %qsr0 muss als aufrufzerstörtes Register verfügbar seinBereichsklausel muss vom Typ Array, Scheibe, Zeichenkette, Map oder Kanal seinWertebereichsausdrücke in switch-Anweisungen sind nicht standardkonformbereichsbasierter %<for%>-Ausdruck mit Typ %qT hat unvollständigen TypBereichsbasierte %<for%>-Schleifen sind nur mit %<-std=c++11%> oder %<-std=gnu++11%> verfügbarBereichsbasierte %<for%>-Schleifen mit Initialisierer sind erst mit %<-std=c++20%> oder %<-std=gnu++20%> verfügbarRang + Korang von %qs übersteigt %d bei %Croher Literaloperator %q#D steht mit literalem Operatortemplate in Konfliktrdynamic wird nicht unterstütztReinitialisierung von %qs bei %LErreichbarkeitsdefinition %s ist hierLesen der Export-Daten gescheitertschreibgeschützte Stelle %qE als %<asm%>-Ausgabe verwendetschreibgeschütztes Element %qD als %<asm%>-Ausgabe verwendetschreibgeschützter benannter Rückgabewert %qD als %<asm%>-Ausgabe verwendetschreibgeschützter Parameter %qD als %<asm%>-Ausgabe verwendetschreibgeschützte Referenz %qD als %<asm%>-Ausgabe verwendetschreibgeschützte Variable %qD als %<asm%>-Ausgabe verwendetEingabedatei wird gelesenLesen über Null-Zeiger (Argument %d)Das Übergeben des nicht trivial-kopierbaren Typs %q#T über %<...%> ist »conditionally-supported« ([expr.call] 5.2.2/7)Neuübersetzung mit %<-fcompare-debug%>rekursive Auswertung des Standardarguments für %q#Drekursive Expansionrekursives Inliningrekursive Instanziierung von Vorgabeinitialisierer für Element %qDrekursive Mixin-Instanziierungrekursiver Typ %qT nicht definiertrekursiv erforderlich durch Ersetzung von %qS
rekursiv erfordert von %q#D
rekursiv erfordert von hier
Redeklaration %q#D mit unterschiedlichen ConstraintsRedeklaration %qD unterscheidet sich in %qs von vorheriger DeklarationRedeklaration von %<enum %E%>Redeklaration von %<pragma omp declare reduction%>Redeklaration von %q#DRedeklaration von %q#D hat möglicherweise keine Default-ArgumenteNeudeklaration von %q#D mit unterschiedlichen TemplateparameternRedeklaration von %q+D mit anderer Sichtbarkeit (alte Sichtbarkeit beibehalten)Redeklaration von %q+D ohne BindungRedeklaration von %qD fügt ABI-Marke %qE hinzuRedeklaration von %qT als Nicht-TemplateRedeklaration von %qs %<#pragma omp declare reduction%> für Typ %qTRedeklaration des eingebauten C++-Typs %qTRedeklaration der Objective-C-Klasse %qsRedeklaration von Aufzählung %q+DRedeklaration des »friend« %q#D kann keine Standardtemplateargumente habenRedeklaration der Eigenschaft %qDhier als %q#D redeklariertmit %d Template-Parameter redeklariertmit %d Template-Parametern redeklariertredefinierte »extern inline«-Funktionen kommen nicht als »inline« in BetrachtN/ARedefinition von %<struct %E%>Redefinition von %<union %E%>Redefinition von %q#DRedefinition von %q#TRedefinition von %q+DRedefinition des Standardarguments für %q#DRedefinition des Parameters %q+DRedefinition des typedef %q+DRedefinition des typedef %q+D mit anderem TypRedefinition des typedef %q+D mit variabel modifiziertem Typredundanter Klassenschlüssel %qs in Verweis auf %q#Tredundanter Aufzählungsschlüssel %<enum%s%> in Bezug auf %q#Tredundantes Verschieben in Rückgabeanweisungredundante Redeklaration von %<constexpr%>static-Datenmember %qDRedundante Redeklaration von %q+Dredundante Redeklaration von %qD im selben Gültigkeitsbereichref-Qualifizierer sind nur mit %<-std=c++11%> oder %<-std=gnu++11%> verfügbar%<dynamic_cast%> auf Referenz fehlgeschlagenReferenz %qD wird mit sich selbst initialisiertReferenz %qs kann nicht als %<mutable%> deklariert seinVerweis hat sowohl stmt als auch lto_stmt_uid gesetztReferenz auf %<%T::%D%> ist mehrdeutigReferenz auf %qD ist mehrdeutigInterner Fehler: reference to dead statementReferenz auf lokale Variable %qD zurückgegebenReferenz auf scope-Klasse muss selbst auch %<scope%> seinReferenztyp %qT in %<#pragma omp declare reduction%>das referenzierte Argument wird hier deklariertdas referenzierte Symbol wird hier deklariertdas verweisende Argument %u vom Typ %qTRegion von lp %i ist falschRegistername für Nicht-Registervariable %q+D angegebenfür %q+D wurde kein Registername angegebenRegisternummer muss bereits zur Kompilierzeit eine Konstante sein. Probieren Sie eine stärkere OptimierungsstufeRegisternummer für %s muss im Bereich von 0 bis 31 liegenRegister von %qD für mehrere globale Registervariablen verwendetRegister oder Speicherausdruck für Ausgabemodifizierer »M« erwartetRegister oder Speicherausdruck für Ausgabemodifizierer »N« erwartetfür %q+D angegebenes Register ist ein GCC-internes Implementierungsdetailfür %q+D angegebenes Register eignet sich nicht für DatentypRegister-Variable %qD in verschachtelter Funktion verwendetAttribute regparam und thiscall sind nicht verträglichReimplementation der Klasse %qEentspannte Transaktion in %<transaction_safe%>-Funktionentspannte Transaktion in atomarer Transaktionentfernen Sie den Aufruf von %<std::move%>entfernen Sie die %<{ }%> um den Initialisiererentfernen Sie die Klammernentfernen Sie die Klammern, um stattdessen eine Variable mit ihrem Vorgabewert zu initialisierenentfernen Sie den Klassenschlüssel oder ersetzen Sie ihn durch %qsInterner Fehler: removed loop %d in loop treeSpezifikation wird von %s nach %s umbenannt
wiederholtes %<@%> vor Objective-C-Zeichenkettewiederholtes %s im Formatersetzen Sie die Klammern durch geschweifte Klammern, um eine Variable zu deklarierenKlassenschlüssel durch %qs ersetzenAnfrage zur impliziten für Umwandlung von %qT in %qT ist in C++ nicht erlaubtAbfrage des Elementes %qD in %qE, das vom Nicht-Klassentyp %qT istAnforderung des Elements %qD in %qE, das vom Zeigertyp %qT ist (vielleicht war %<->%> gemeint?)Abfrage des Elementes %qD ist mehrdeutigAbfrage des Elementes %qD ist im Gitter der Mehrfachvererbung mehrdeutigAbfrage des Elementes %qE in Nicht-Klassentyp %qTAnfrage nach Element %qE in etwas, was keine Struktur oder Variante istangeforderte %<init_priority%> %i liegt außerhalb des Bereichs [0, %i]angeforderte %<init_priority%> %i ist für interne Verwendung reserviertangeforderte %<init_priority%> muss ganzzahlig und konstant seindas angeforderte %qE-Attribut ist kein kommaseparierter Paar von nichtnegativen ganzzahligen Konstanten, oder es ist zu groß (maximal %d)die angeforderte ABI erfordert %<-march%>, um die %qc-Erweiterung zu ermittelnverlangte Ausrichtung %qE übersteigt den Höchstwert %uverlangte Ausrichtung %qE ist größer als die maximale Dateigröße %uVerlangte Ausrichtung %qE ist keine positive Zweierpotenzangeforderte Ausrichtung für %q+D ist größer als die implementierte Ausrichtung von %wuVerlangte Ausrichtung ist keine GanzzahlkonstanteAngeforderte Position ist kleiner als NullAngeforderte Position ist keine GanzzahlkonstanteZeichenkette erfordert ID-Argumentrequire_atom(): bad atom type requirederforderlich durch Ersetzung von %qS
erfordert durch %q#D
von hier erfordert
erfordert»requires«-Klausel in Deklaration von Nichtfunktionstyp %qT»requires«-Klausel für Rückgabetyprequires-clause an type-idrequires-clause an TypedefAuflösungs-Sub-ID %wx nicht in Objekt-DateiInterner Fehler: resolve_function(): bad function typeresolve_intrinsic(): Too many args for intrinsicresolve_operator(): Bad intrinsicresolve_ref(): Bad array referenceresolve_subroutine(): bad function typeAuflöser-indirekte Funktion ist hier deklariertErgebnis von %<operator->()%> ergibt Nicht-Zeiger-ErgebnisErgebnis von %qE erfordert %u Bits, aber %qT hat nur %u BitsRückgabetyp ist keine einfache Typ-EinschränkungResultat mit nicht konstanter ZeichenlängeSignieren der Rückgabeadresse wird nur für %<-mabi=lp64%> unterstütztreturn streicht Qualifizierer %qv von Zeiger-ZieltypReturn-Kante zeigt nicht auf Ausgang in bb %dRückgabe von Pointer auf nicht enthaltenen Adressraumreturn erzeugt aus unqualifiziertem einen qualifizierten Funktionszeiger %q#v»return« nicht gefolgt von SperreRückgabetyp %q#T ist unvollständigRückgabetyp ist auf %<int%> voreingestelltHerleitung des Rückgabetypen wird nicht unterstützt, wenn die Funktion der Basisklasse übersteuert werden kannRückgabetyp ist unvollständigRückgabetyp könnte Kandidat für Formatattribut seinRückgabetyp von %qD ist nicht %<int%>Rückgabetyp von %qD ist nicht %qsRückgabetyp für FunktionAngabe des Rückgabetyps für Konstruktor ist ungültigAngabe des Rückgabetyps für Destruktor ist ungültigRückgabetyp für %<operator %T%> angegebenRückgabetyp für Herleitungshinweis angegebenunverträgliche RückgabetypenRückgabe eines Wertes in Funktion ohne RückgabetypReturn-Anweisung mit Wert, in Funktion mit Rückgabetyp %qTReturn-Anweisung ohne Wert, in %qT zurückgebender Funktion%<return-type-requirement%> ist keine Typ-Einschränkungzurückgegeben von %qDzurückgegeben von %qTRückgabe von %qT aus einer Funktion mit inkompatiblem Rückgabetyp %qTRückgabe von %qT aus einer Funktion mit Rückgabetyp %qT wandelt einen Zeiger in eine Zahl um, ohne explizite TypkonvertierungRückgabe von %qT aus einer Funktion mit Rückgabetyp %qT wandelt eine Zahl in einen Zeiger um, ohne explizite TypkonvertierungRückgabe von %qT von Zeigertyp %qT mit inkompatibler Speicherreihenfolge für SkalareRückgabe eines Wertes von einem KonstruktorWert von Destruktor zurückgegebenInitialisierungsliste wird zurückgegebendas Zurückgeben der lokalen %<initializer_list%>-Variable %qD verlängert nicht die Lebenszeit des zugrundeliegenden ArraysRückgabe von Zeiger auf %qD vom Typ %qT aus einer Funktion mit inkompatiblem Rückgabetyp %qTReferenz auf temporären Wert wird zurückgegebendas Zurückgeben einer temporären %<initializer_list%> verlängert nicht die Lebenszeit des zugrundeliegenden Arraysumgekehrte Speicherreihenfolge für Gleitkommaskalareumgekehrte Speicherreihenfolge für Skalareumgekehrte Speicherreihenfolge für »%smode«rechter Operand des Komma-Operators kann die Adresse der überladenen Funktion nicht auflösenrechter Operand des Komma-Operators hat keinen Effektrechter Operand des Komma-Operators ist eine Referenz, kein Aufruf, zur Funktion %qErechter Operand des Schiebeausdrucks %q+E ist mindestens so groß wie die Genauigkeit %wu des linken Operandenrechter Operand des Schiebeausdrucks %q+E ist negativrechte Präzisionrechte Präzision im strfmon-FormatRechts-Schiebe-Weite >= Breite des TypsRechts-Schiebe-Weite >= Breite des VektorelementsRechts-Schiebe-Weite ist negativrechter Operand des Komma-Ausdrucks hat keinen EffektRundungsmodus für VAX-Floats nicht unterstütztRundungsergebnis wird immer 0 seinRundung auf %d Bits hat keinen Effekt für Festkommawert mit %d Bit NachkommaanteilRoutine %qD ist hier deklariertUnterprogrammaufruf verwendet OpenACC-Parallelismus, der von der umgebenden Routine verboten wurdeUnterprogrammaufruf verwendet denselben OpenACC-Parallelismus wie enthaltende Schleiferv32e erfordert die ilp32e-ABICPU rx100 hat keine FPU-HardwareCPU rx200 hat keine FPU-Hardwareselber kanonischer Typknoten für die unterschiedlichen Typen %qT und %qTselbe Variable wird in %<firstprivate%>- und %<lastprivate%>-Klauseln am %<distribute%>-Konstruktdieselbe Version wurde zuvor hier definiertInterner Fehler: same_comdat_group is not a circular listInterner Fehler: same_comdat_group list across different groupsFehlzuordnung von Attributen der Bereinigungsfunktion%d %<template<>%> gefunden, %d werden für Spezialisierung eines Elementfunktionstemplates benötigt%<typename %E%> sagen, wenn ein Typ gemeint istskalares Objekt %qD erfordert ein Element in InitialisierungSkalierung muss nichtnegativ seinSkalierung und Normalisierung können nicht gleichzeitig aktiv sein; wird übersprungen
Ablauf %<auto%> akzeptiert keinen Parameter %<chunk_size%>Ablauf %<runtime%> akzeptiert keinen Parameter %<chunk_size%>Plan-Teilgrößenausdruck muss bestimmt seinBereich %qT vor %<~%> ist kein Klassennameenum %qT mit eingeschränkter Sichtbarkeit wird vor %<-fabi-version=6%> als Typ %qT, später jedoch als %qT durch %<...%> übergebenenums mit Gültigkeitsbereich nur mit %<-std=c++11%> oder %<-std=gnu++11%> verfügbarfalsche Zuordnung zwischen innerhalb und außerhalb eines Gültigkeitsbereiches in enum %q#Tdas Score-Argument muss ein konstanter ganzzahliger Ausdruck seindas Score-Argument darf nicht negativ seinzweites Argument muss eine Scheibe oder Zeichenkette seinzweites Argument von %q+D sollte %<char **%> seinZweites Argument für %<__builtin_call_with_static_chain%> muss ein Zeigertyp seinZweites Argument für %<__builtin_prefetch%> muss eine Konstante seinzweites Argument für %<va_arg%> ist vom unvollständigen Typ %qTzweites Argument für %qs muss im Bereich [0, 12] liegenzweites Argument für Funktion %qE muss eine konstante Zweierpotenz zwischen %qi und %qu Bits seinzweiter Operand des bedingten Ausdrucks kann die Adresse der überladenen Funktion nicht auflösenzweiter Operand des bedingten Ausdrucks hat keinen Effektzweiter Operand des bedingten Ausdrucks ist eine Referenz, kein Aufruf, zur Funktion %qEzweiter Operand für Bedingungsoperator ist vom Typ %<void%>, aber der dritte Operand ist weder ein Throw-Ausdruck noch vom Typ %<void%>Zweiter Parameter von %<va_start%> ist nicht letztgenanntes ArgumentAbschnittsanker müssen ausgeschaltet sein, wenn Toplevel-Neuordnung ausgeschaltet istAbschnittsanker müssen ausgeschaltet sein, wenn »unit-at-a-time« ausgeschaltet istArgument des Abschnittsattributs ist keine ZeichenkettenkonstanteAbschnitts-Attribut kann nicht für lokale Variablen angegeben werdenAbschnitts-Attribut nicht erlaubt für %q+DAbschnitts-Attribute werden für dieses Ziel nicht unterstütztAbschnitt von %q+D kann nicht aufgehoben werdenAbschnitt von %q+D in Konflikt mit vorheriger DeklarationAbschnitt des Aliases %q+D muss zum Abschnitt seines Ziels passenAbschnittstypkonfliktAbschnittstypkonflikt mit %qDdie ausgewählten fp16-Optionen sind inkompatibelSelektor %qs akzeptiert keine EigenschaftenSelektor %qs nicht erlaubt für Kontext-Selektorsatz %qsSelektor %qs mehr als einmal im Satz %qs angegebenWähler muss »immediate« seinSelektor muss eine Ganzzahlkonstante im Bereich [0, %wi] seinSelektorsatz %qs mehr als einmal angegebenVergleich mit sich selbst ergibt immer »false«Vergleich mit sich selbst ergibt immer »true«Selbsttests sind in diesem Build nicht eingeschaltetSelbsttests sind unverträglich mit %<-E%>setjmp/longjmp innerhalb %<simd%>-KonstruktsMethodennamen von Settern müssen mit %<:%> aufhörenKern-Dateigrößenlimit kann nicht gesetzt werden: %mverdeckte Deklaration ist hiereingebaute Funktion %q#D wird überdecktBibliotheksfunktion %q#D wird überdecktvorherige Typdeklaration von %q#D wird überschattetGemeinsam genutzte SSA-Namen-Infoshared und mdll sind unverträglichInterner Fehler: shared call_stmt:shared wird nicht unterstütztGemeinsames rtxSchiebeweite ist keine GanzzahlSchiebeausdruck %q+E läuft überSchiebeoperation eines Nicht-Ganzzahloperandenzu wenig Export-Daten gelesenInterner Fehler: show_array_ref(): Unknown array referenceInterner Fehler: show_array_spec(): Unhandled array shape type.Interner Fehler: show_code_node(): Bad statement codeInterner Fehler: show_expr(): Bad intrinsic in expressionInterner Fehler: show_expr(): Don't know how to show exprInterner Fehler: show_ref(): Bad component codeInterner Fehler: sibcall edges for non-call insn in bb %iSeiteneffekte werden bei %<ADDR_EXPR%>-Änderung nicht neu berechnetside-effects element in no-side-effects CONSTRUCTORVorzeichenbehaftete Umwandlung von %qT nach %qT ändert den Wert von %qEVorzeichenbehaftete Umwandlung von %qT nach %qT ändert den Wert von %qE nach %qEVorzeicheneigenschaft des Typen und Maschinenmodus %qs passen nicht zusammeneinfaches IFsimplify_intrinsic_op(): Bad operatorsimplify_min_max(): Bad type in arglisteinzelnes %<target_clones%>-Attribut wird ignoriertGröße %qE des Arrays %qE übersteigt maximale Objektgröße %EGröße %qE des Arrays %qE ist negativGröße %qE des Arrays überschreitet maximale Objektgröße %qEGröße %qE des Arrays ist negativGröße des Arrays bei »new« muss Ganzzahltyp habenUnpassende Größe in Argument %d von %qEGröße von %q+D überschreitet mit %E Bytes die maximale Objektgröße %wuGröße von %qD passt nicht zur ursprünglichen DeklarationArraygröße von %qD hat nicht-ganzzahligen Typen %qTGröße des Arrays %qD ist kein konstanter GanzzahlausdruckGröße des Arrays %qE übersteigt maximale Objektgröße %EArraygröße von %qE hat unvollständigen TypArraygröße von %qE hat Nicht-GanzzahltypGröße des Arrays %qE ist negativGröße des Arrays %qE ist kein konstanter AusdruckArraygröße von %qE ist zu großGröße des Arrayelements ist kein Vielfaches seiner AusrichtungGröße des Arrays übersteigt maximale Objektgröße %qEArraygröße hat nicht-ganzzahligen Typen %qTGröße des Arrays ist kein konstanter AusdruckGröße des Arrays ist kein konstanter GanzzahlausdruckArraygröße ist zu großInterner Fehler: size of loop %d should be %d, not %dGröße des Rückgabewertes von %q+D ist %u BytesGröße des Rückgabewertes von %q+D ist größer als %wu BytesGröße des Zeichenkettenliterals ist zu großGröße des Typs %qT ist zu groß (%qE Bytes)Größe des Typs »%s« ist ungültigGröße eines unbenannten Arrays hat unvollständigen TypGröße eines unbenannten Arrays hat Nicht-GanzzahltypGröße des unbenannten Arrays ist negativGröße des unbenannten Arrays ist zu großGröße der Variablen %q+D ist zu hochGrößenbereiche der Option %qs sollten aufsteigend seinsizeof(long double) ist 12.sizeof(long double) ist 16.Ausschnitt kann nur mit nil verglichen werdenScheibenkapazität muss ganzzahlig seinScheibenende muss eine Ganzzahl seinScheibe ohne adressierbaren Wertjegliche Instanziierung mit nichtleerer Parameterpackung wäre unzulässigsoft-float und long-double-128 sind unverträglichEinige Teile des expandierten Makros sind nicht von diesem %qs-Konstrukt erfasstnicht implementiertnicht implementiert: Entschuldigung: Semantik von static-Variable %q#D in inline-Funktion ist falsch (mehrere Kopien wären die Folge)Entschuldigung: Semantik der Inline-Variable %q#D ist falsch (mehrere Kopien wären die Folge)Quelle ist ein Zeiger auf unvollständigen TypenQuelle ist kein ZeigerQuelle ist kein Zeiger auf KlasseQuelle hat nicht KlassentypenQuelle hat unvollständigen KlassentypenQuellorte für Funktion %qD haben sich geändert, Profilingdaten möglicherweise veraltetQuellobjekt %qE der Größe %sQuellobjekt wird hier alloziertQuellobjekt ist hier deklariertQuellobjekt der Größe %s, alloziert durch %qEQuellentyp ist nicht polymorphLeerzeichen gefolgt von Satzzeichen %<%c%>Spezifikation %qs hat ungültiges %<%%0%c%>Spezifikation %qs hat ungültiges %<%%@%c%>Spezifikation %qs hat ungültiges %<%%W%c%>Spezifikation %qs hat ungültiges %<%%x%c%>Spezifikation %qs ist ungültigSpezifikationsfehler: %<%%*%> wurde nicht durch Mustererkennung initialisiertSpezifikationsfehler: mehr als ein Argument für %<SYSROOT_HEADERS_SUFFIX_SPEC%>Spezifikationsfehler: mehr als ein Argument für %<SYSROOT_SUFFIX_SPEC%>Spezifikationsfehler: nicht erkannte Spezifikationsoption %qcSpezifikationsdatei hat keine Spezifikation zum BindenSpezifikation ist '%s'

aus Spezifikation erzeugtes switch ist nur %<-%>spec_dimen_size(): Bad dimensionSpezialisierung %qT hinter Instanziierung %qTSpezialisierung von %qD nach InstanziierungSpezialisierung von %qD in anderem NamensbereichSpezialisierung von %qD muss im Gültigkeitsbereich des Namensbereiches auftretenSpezialisierung von %qT hinter InstanziierungSpezialisierung des Alias-Template %qDSpezialisierung der implizit deklarierten speziellen ElementfunktionSpezialisierung des Variablenkonzepts %q#DSpezialisierung des Variablentemplates %qD als Funktion deklariertspezialisierendes Element %<%T::%E%> erfordert Syntax %<template<>%>angegebene Grenze %wu überschreitet %<INT_MAX%>angegebene Grenze %wu überschreitet maximale Objektgröße %wuangegebene Grenze %wu überschreitet die Größe %wu des Zielobjektsangegebene Bereichsgrenze [%wu, %wu] überschreitet %<INT_MAX%>angegebener Modus zu klein für AufzählungswerteOption %qs wurde mehrmals angegebenSystemregister mit einem kurzem Namen (weniger als 100 Zeichen) angeben.Angabe von Vektortypen mit %<__attribute__ ((mode))%> ist veraltetfalsche %%include-Syntax für Spezifikationen nach %ld Zeichenfalsche %%rename-Syntax für Spezifikationen nach %ld Zeichenkeine %s-Spezifikation zum Umbenennen gefundenFehler in Spezifikationsdatei nach %ld ZeichenSpezifikation: unbekannter %%-Befehl nach %ld Zeichenspekulative Kanten sind nicht benachbartfalsches %<>>%>; %<>%> verwenden, um eine Templateargumentliste zu beendenverdächtige Folge von Satzzeichen %<%.*s%> am Anfang des Formatsstörendes letztes %<%%%> im Formatverdächtige Folge von Satzzeichen %<%.*s%> am Ende des Formatsüberzähliges Leerzeichen am Ende des FormatsGröße des Stapelkollisionswächters %d muss gleich dem Sondierungsintervall %d seinStapelrahmen muss kleiner als 64k seinstack frame not a multiple of 8 bytes: %wdstack frame not a multiple of octabyte: %wdStapelrahmen zu großStapel-Überwachungswert muss eine exakte Zweierpotenz seinAusdruck der Stapelgrenze wird nicht unterstütztStapelgrenzen nicht für dieses Ziel unterstütztStapelsonde für SVE-RahmenStapel-Überprüfung erfordert %<-maccumulate-outgoing-args%> für KorrektheitStapel-Überprüfung erfordert %<target("accumulate-outgoing-args")%> für KorrektheitStapelschutz schützt nicht Funktion: Alle lokalen Arrays sind kleiner als %d BytesStapelschutz schützt nicht lokale Variablen: Puffer variabler GrößeStapelregister für globale Registervariable verwendetStapelgröße muss eine exakte Zweierpotenz seinStapelgröße muss größer als der Stapel-Überwachungswert seinStapelgröße darf nicht größer als 64k seinStapelverbrauchsberechnung wird für dieses Ziel nicht unterstütztStapelverbrauch ist %wu BytesStapelverbrauch könnte %wu Bytes seinStapelverbrauch möglicherweise unbegrenztstack_offset muss ein Vielfaches von 4 seinstack_offset muss mindestens 4 seinStapelrahmen zu groß: %d BytesStandardattribute für Namensräume müssen vor dem Namen des Namensraums stehenstart of RTL fragment must be on an earlier line than endAnfang der Implied-do-Schleife bei %L konnte nicht zu einem konstanten Wert vereinfacht werdenAnfang/Ende von RTL-Fragment sind in verschiedenen DateienAnweisung kann die Adresse der überladenen Funktion nicht auflösenAnweisung hat keinen EffektAnweisung ist eine Referenz, kein Aufruf, zur Funktion %qEAnweisung ist kein KonstantenausdruckAnweisung inmitten eines Blocks für throw markiertAnweisung für throw markiert, wirft jedoch nichtsAnweisung verwendet freigegebenen SSA-Namenvolatile-Kennzeichen für Anweisung nicht aktuellAnweisung wird niemals ausgeführtAnweisung ohne EffektAnweisungs-Ausdruck in konstantem AusdruckAnweisungs-Ausdrücke sind weder außerhalb von Funktionen noch in Template-Argumenten erlaubt»static IO«-Deklaration von %q+D erfordert eine Adressestatische Behauptung gescheitertstatische Behauptung gescheitert: %Estatische Erklärung gescheitert: %sstatische Kette mit Funktion, die keine verwendet»static«-Klasse kann nicht von geschachtelter Klasse »%s« erbenstatisches Datenelement %qD in unbenannter Klassestatisches Datenelement %qE als %qs deklariertStatische Deklaration von %q+D folgt nicht-statischer Deklarationstatisches Feld %qD ist nicht zuordenbarstatische Initialisierung der Variablen %q+D in %<.shared%>-Speicher wird nicht unterstütztstatic wird auf TPF-OS nicht unterstütztstatisches Element %qD kann kein Bitfeld seinstatisches Element %qD als %<register%> deklariertstatische Elementfunktion %q#D mit Typqualifizierern deklariertstatische Elementfunktion %qD kann nicht CV-Qualifizierer habenstatische Elementfunktion %qD kann keinen ref-Qualifizierer habenstatisches Element hat kein %<this%>, auf das sich das %<return%> beziehen könnte»static« oder Typkennzeichner in Nicht-Parameter-ArraydeklaratorVariablen im %<static%>-Speicher können keine Destruktoren habender statische Typ %qT des Operanden ist eine nicht öffentliche Basisklasse des dynamischen Typs %qTstatisch reservierte Instanz der Objective-C-Klasse %qEAttribute stdcall und cdecl sind nicht verträglichAttribute stdcall und fastcall sind nicht verträglichAttribute stdcall und thiscall sind nicht verträglichAusdruck für die Schrittweite verweist auf äußeren Iterator %qDSchritt der Implied-do-Schleife bei %L konnte nicht zu einem konstanten Wert vereinfacht werdenSchrittweite der implied-do-Schleife bei %L darf nicht 0 seinAnweisung (%p) nach Optimierungsdurchgang als geändert markiert: stmt with wrong VUSEInterner Fehler: stmts without blockSpeicherklasse %<__thread%> ungültig für Funktion %qsSpeicherklasse %<auto%> ungültig für Funktion %qsSpeicherklasse %<register%> ungültig für Funktion %qsSpeicherklasse %<thread_local%> ungültig für Funktion %qsSpeicherklasse %qD auf Templateinstanziierung angewendetSpeicherklasse %<auto%> hat nur dann einen Effekt, wenn der Rückgabetyp hergeleitet istSpeicherklasse %<auto%> hat nur dann einen Effekt, wenn der Typ hergeleitet ist; meinten Sie %<scope%>?Speicherklasse %<auto%> ist beim Deklarieren einer Klasse ungültig, meinten Sie %<scope%>?Speicherklasse %qs angegebenSpeicherklasse für Parameter %qE angegebenSpeicherklasse für Parameter %qs angegebenSpeicherklasse für Strukturfeld angegebenSpeicherklasse für Strukturfeld %qE angegebenSpeicherklasse für Template-Parameter %qs angegebenSpeicherklasse für Typnamen angegebenSpeicherklasse für unbenannten Parameter angegebenSpeicherklassenangaben sind in friend-Funktionsdeklarationen ungültigSpeichergröße von %q+D ist nicht konstantSpeichergröße von %q+D ist unbekanntSpeichergröße von %qD ist nicht konstantSpeichergröße von %qD ist unbekanntMerkwürdiger Gerätename %qs nach %qs: falsches Zeichen %qcStrategiename %qs für Option %qs angegeben, wird jedoch für 32-Bit-Code nicht unterstütztüberflüssiges %<,%> am Ende der Elementdeklarationverirrtes %<@%> im Programmverirrtes %<\%o%> im Programmverirrtes %qc im Programmüberflüssiges %qs zwischen Objective-C++ Methodenverirrtes %qs im ProgrammStreaming-Kindprozess fehlgeschlagenDer Streaming-Kindprozess wurde durch ein Signal beendetstrftime-Formate können keine Argumente formatierenZeichenkette für Bibliotheksnamen erwartetZeichenkette für gemangelten Namen erwartetZeichenkettenlänge %qd ist größer als die Länge %qd, die von ISO-C%d-Compilern unterstützt werden mussZuweisung mit starker Typumwandlung wurde abgefangenMöglicherweise wird starke Typumwandlung benötigt»struct« wurde hier definiertstruct hat keine Elementestruct hat keine benannten Elemente%<struct%> und %<union%> können nicht %<abstract%> seinStrukturausrichtung muss eine kleine Zweierpotenz sein, nicht %wuStrukturfeldGrenze für Strukturgröße kann nur auf 8 oder 32 gesetzt werdenGrenze für Strukturgröße kann nur auf 8, 32 oder 64 gesetzt werdenstrukturierte Bindungsdeklarationen können erst ab %<-std=c++20%> oder %<-std=gnu++20%> %qs seinDeklaration für strukturierte Bindung darf nicht als %qs deklariert werdenDeklaration für strukturierte Bindung darf nicht als %<auto%> (C++98) deklariert werdenDeklaration für strukturierte Bindung darf nicht vom Typen %qT seinDeklaration für strukturierte Bindung festgelegt, aber nicht verwendetStrukturierte Bindung hat unvollständigen Typen %qTStrukturierte Bindung verweist auf unvollständigen Klassentypen %qTStrukturierte Bindung verweist auf unvollständigen Typen %qTstrukturierte Bindungen sind nur mit %<-std=c++17%> oder %<-std=gnu++17%> verfügbarUnter-Framework-Include %s steht mit Framework-Include in KonfliktTeilobjekt %qD ist hier deklariertUnterprogramm %q+F nicht als %<Inline%> markiertUnterprogramm %q+F nicht als %<Inline_Always%> markiertIndex fehlt in Arrayreferenzindizierter Wert ist weder ein Array noch ein Zeigerindizierter Wert ist weder Array noch Zeiger noch Vektorindizierter Wert ist Zeiger auf FunktionIndizierung eines als %<register%> deklarierten Arrayswar später als %s mit %u unspezifizierten Variablengrenze deklariertwar später als %s mit %u unspezifizierten Variablengrenze deklariertgeschweifte Klammern um leeren Körper in %<do%>-Anweisung empfohlengeschweifte Klammern um leeren Körper in einer %<else%>-Anweisung empfohlengeschweifte Klammern um leeren Körper in einer %<if%>-Anweisung empfohlenes wird empfohlen, explizite geschweifte Klammern um leeren Körper in %<do%>-Anweisung zu setzenes wird empfohlen, explizite geschweifte Klammern zu setzen, um mehrdeutiges %<else%> zu vermeidenKlammern um %<&&%> innerhalb von %<||%> empfohlenKlammern um %<+%> in Operand von %<&%> empfohlenKlammern um %<+%> innerhalb von %<<<%> empfohlenKlammern um %<+%> innerhalb von %<>>%> empfohlenKlammern um %<-%> in Operand von %<&%> empfohlenKlammern um %<-%> innerhalb von %<<<%>Klammern um %<-%> innerhalb von %<>>%> empfohlenKlammern um %<>>%>-Ausdruck empfohlenKlammern um Arithmetik in Operand von %<^%> empfohlenKlammern um Arithmetik in Operand von %<|%> empfohlenUm Zuweisung, die als Wahrheitswert verwendet wird, werden Klammern empfohlenKlammern um Vergleich in Operand von %<!=%> empfohlenKlammern um Vergleich in Operand von %<&%> empfohlenKlammern um Vergleich in Operand von %<==%> empfohlenKlammern um Vergleich in Operand von %<^%> empfohlenKlammern um Vergleich in Operand von %<|%> empfohlenKlammern um Operand von %<!%> empfohlen, oder Änderung von %<&%> in %<&&%> oder %<!%> in %<~%>Klammern um Operand von %<!%> empfohlen, oder Änderung von %<|%> in %<||%> oder %<!%> in %<~%>empfohlene Alternative:empfohlene Alternativen:Unterstützung für Modus %qsUnterstützte Kernarchitekturen:%sSchalter %<-mcpu=%s%> steht mit dem Schalter %<-march=%s%> in KonfliktSchalter %<-mcpu=%s%> steht mit dem Schalter %<-march=%s%> in KonfliktOption %<-mcustom-%s%> steht mit Option %<-mcustom-%s%> in KonfliktOption %<-mcustom-%s%> wird für doppeltgenaue Gleitkomma benötigtWert %2$d für Schalter %<-mcustom-%1$s%> muss zwischen 0 und 255 liegenSchalter %qs beginnt nicht mit %<-%>Schalter %qs wird nicht mehr unterstütztswitch-Bedingung hat booleschen Wertswitch springt in Anweisungs-Ausdruckswitch springt über VariableninitialisierungDie Standardfallbehandlung in switch fehltswitch-Größe ist keine Ganzzahlswitch beginnt hierswitch-Anweisung der Größe %lu Einträge ist zu großSymbol %qD, das von %qD referenziert wird, wurde hier deklariertSymbol muss definiert sein, um eine Version zu habenZeichen als Immediate-Operand verwendetZeichen sowohl mit Basis- als auch Index-Registern verwendetSymbol mit Offset im PIC-Modus verwendetsymbolische Speicherreferenzen werden nur auf z10 oder neuer unterstütztInterner Fehler: symtab_node::verify failedArgument des Attributs »symver« muss das Format %<Name@Nodenname%> habenInterner Fehler: symver is not exported with default visibility%<symver%> wird nur auf ELF-Plattformen unterstütztInterner Fehler: symver target is not exported with default visibility»synchronized«-Funktion »%s« muss ein Element der Klasse seinerzeugte Methode %qD zuerst hier erfordertsysctl für kern.osversion gescheitert: %mSystem-Pfad %qs ist nicht absolutverarbeitet kein ArgumentAdresse der direkten Funktion %qD wird genommenAdresse des Konstruktors %qD wird genommenAdresse des Destruktors %qD wird genommenAdresse des Ausdrucks des Typs %<void%> wird genommenZugriff auf die Adresse des gepackten Elements von %qT führt möglicherweise zu einem nicht ausgerichteten ZeigerwertAdresse eines rvalues wird ermitteltAdresse eines temporären Wertes wird verwendetden Betrag des vorzeichenlosen Typs %qT zu berechnen, hat keine AuswirkungDas Ermitteln der Adresse einer Marke ist nicht standardkonformZiel-CPU unterstützt nicht ARM-ModusZiel-CPU unterstützt keine ARMv8-M-Security-ErweiterungenZiel-CPU unterstützt keine THUMB-BefehleZiel-CPU unterstützt keine ZusammenarbeitZiel-CPU unterstützt keine unausgerichteten ZugriffeZiel-Betriebssystem unterstützt keine unausgerichteten ZugriffeZielargumentZiel-Attribut wird auf dieser Maschine nicht unterstütztZiel-Attribut oder Pragma ändert Größe von %<long double%>Ziel-Attribut oder Pragma ändert AltiVec ABIZiel-Attribut oder Pragma ändert darwin64 ABIZiel unterstützt kein Aktualisieren des atomaren Profils, einfacher Modus wird ausgewähltZielsystem unterstützt Funktionsversions-Dispatcher nichtZielformat unterstützt nicht »unendlich«Ziel ist kein Zeiger oder ReferenzZiel ist kein Zeiger oder Referenz auf KlasseZiel ist kein Zeiger oder Referenz auf vollständigen TypenZiel der Umwandlung könnte Kandidat ein für ein Formatattribut seinZiel der Initialisierung könnte ein Kandidat für Formatattribut seinzielspezifische eingebaute Funktion ist nicht verfügbarFehlzuordnung zielspezifischer OptionenZielsystem unterstützt keine TestausgabenZielsystem unterstützt nicht das Testformat %qsTemplate %qD deklariertTemplate %qE in Klausel %qsTemplateargument %d ist ungültigTemplateargument %qE für Typ %qT ist keine Übersetzungszeit-KonstanteTemplateargument %qE betrifft TemplateparameterTemplateargument für %qD verwendet lokalen Typ %qTTemplate-Argument für %<%s %T%> benötigtTemplate-Argumente für %qD passen nicht zum ursprünglichen Template %qDTemplateklasse ohne NamenTemplate-Einschränkung für %qD fehlgeschlagenTemplatedeklaration von %<typedef%>Templatedeklaration von %q#DTemplate-Definition eines Nicht-Templates %q#DTemplate-Instanziierung »%s« verweist vorgreifend auf die Template-Deklaration »%s«Instanziierungstiefe für Templates überschreitet Höchstwert %d (%<-ftemplate-depth=%> verwenden, um dies zu erhöhen)Instanziierungstiefe für Templates überschreitet Höchstwert %d beim Instanziieren von %q+D, möglicherweise wegen Generierung der virtuellen Tabelle (%<-ftemplate-depth=%> verwenden, um den Höchstwert zu erhöhen)Template-Parameter %q+#DTemplateparameter %qD hier deklariertTemplateparameter %qD vom Typ %qT ist in ganzzahligem Konstantenausdruck nicht erlaubt, da er nicht Ganzzahl- oder Aufzählungstyp hatTemplateparameterliste in expliziter Instanziierung verwendetangegebene Template-Parameterlisten passen nicht zu Templateparametern von %qDTemplateparameterpack %qD kann kein Standardargument habenTemplateparameterpack kann kein Standardargument habenTemplate-Parameterpacks können keine Standardargumente habenTemplate-Parameter-Typ %qT als %<friend%> deklariertTemplate-Parameter können keine »friends« seinTemplate-Parameter passen nicht zum Template %qDTemplateparameter nicht in partieller Spezialisierung herleitbar:Template-Platzhaltertyp %qT muss von einer einfachen declarator-id gefolgt seinTemplatespezialisierung von %qD durch ISO C++ nicht erlaubtTemplatespezialisierung mit C-Bindung angegebenkeine Templatespezifizierer in Deklaration von %qD angegebenTemplate-Template-Parameter %qT in Deklaration von AbleitungshinweisTemplate-Tupelparameter muss der letzte seinTemplatetypparameter müssen das Schlüsselwort %<class%> oder %<typename%> verwendenTemplate mit C-BindungTemplate-ID %qD für %q+D passt zu keiner TemplatedeklarationTemplate-ID %qD als Deklarator verwendetTemplate-ID %qE in Deklaration des ersten TemplatesTemplate-ID ist für Destruktor nicht erlaubtTemplate-Einführungen sind nicht Teil der C++20-Konzepte; verwenden Sie %qs, um sie zu aktivierenTemplate-Parameter-Templates dürfen nicht %<virtual%> seinZwischenergebnis des nicht-literalen Typs %qT in konstantem Ausdruckternärer %<operator?:%>ternärer %<operator?:%> in %<%E ? %E : %E%>das Schlüsselwort %<bool%> ist in einer Konzeptdefinition in C++20 nicht erlaubtdas %<interrupt%>-Attribut erfordert einen MIPS32r2-Prozessor oder neuerdas Attribut %qE kann nicht auf einen SVE-Funktionstyp angewendet werdenAttribut %qE erfordert Argumentedie Architektur %qs unterstützt %<-m%s=2008%>die Architektur %qs unterstützt %<-m%s=legacy%> nichtdie Architektur %qs unterstützt %<-mfp32%> nichtdie Architektur %qs unterstützt keine DSP-Befehledie Architektur %qs unterstützt keine Befehle mit Sprungwahrscheinlichkeitdie Architektur %qs unterstützt die Befehle »madd« und »msub« nichtdie Architektur %qs unterstützt keine ungeraden Register für einfache Genauigkeitdie Architektur %qs unterstützt keine paarweisen Einzel-Befehledie Architektur %qs unterstützt nicht den synci-Befehldas Debug-Format %qs kann nicht mit vorkompilierten Headern verwendet werdendas » «-printf-Kennzeichendas »!«-strfmon-Kennzeichendas »#«-printf-Kennzeichendas »#«-strftime-Kennzeichendas »'«-printf-Kennzeichendas »'«-scanf-Kennzeichendas »(«-strfmon-Kennzeichendas »+«-printf-Kennzeichendas »+«-strfmon-Kennzeichendas »-«-printf-Kennzeichendas »-«-strfmon-Kennzeichendas »-«-strftime-Kennzeichendas »0«-printf-Kennzeichendas »0«-strftime-Kennzeichender »E«-strftime-Modifiziererdas »I«-printf-Kennzeichendas »I«-scanf-Kennzeichender »O«-Modifiziererder »O«-strftime-Modifiziererdas »^«-strfmon-Kennzeichendas »^«-strftime-Kennzeichendas »_«-strftime-Kennzeichendas »a«-scanf-Kennzeichendas »m«-scanf-Kennzeichendas »q«-Diagnose-KennzeichenDie Option »-shared« wird derzeit nicht für VAX ELF unterstütztDas ABI der Parameterübergabe mit %d-Byte-Ausrichtung hat sich in GCC 4.6 geändertdas ABI der Parameterübergabe für Aggregate mit %d-Byte-Ausrichtung hat sich in GCC 5 geändertdas ABI für die Übergabe von homogenen %<float%>-Aggregaten hat sich in GCC 5 geändertDas ABI der Struct-Übergabe mit einem flexiblen Arrayelement hat sich in GCC 4.4 geändertdas ABI der Strukturübergabe mit %<complex float%>-Element hat sich in GCC 4.4 geändertdas ABI der Union-Übergabe mit %<long double%> hat sich in GCC 4.4 geändertOperand für den ENI-Befehl muss entweder 0 oder 1 seinDie RX100-CPU hat keine FPU-HardwareDie RX200-CPU hat keine FPU-Hardwaredie Adresse von %qD ist kein gültiges Templateargumentdie Adresse von %qD ist kein gültiges Templateargument, weil sie keine statische Lebensdauer hatDie Adresse von %qD wird immer zu %<wahr%> auswertenDie Adresse von %qD wird nie NULL seindie Adresse einer Marke kann nicht in einem Konstanten-Ausdruck auftretendie Adresse des %qT-Teilobjekts von %qD ist kein gültiges Templateargumentdie Ausrichtung von %<_Atomic %T%>-Feldern wurde mit %{GCC 11.1%} geändertDas Argument zum eingebauten %<xabort%> ein 8-Bit-Direktwert seindas scanf-Merkmal der Zuweisungsunterdrückungder Aufruf erfordert %<ifunc%>, was von diesem Ziel nicht unterstützt wirddie Aufrufkonvention für %qT ändert sich mit %<-fabi-version=13%> (GCC 8.2)die Kombination von %qs und %qs ist mit %qs unverträglichVergleich wird stets als %<false%> ausgewertet da die Adresse von %qD nie NULL wirdVergleich wird stets als %<true%> ausgewertet da die Adresse von %qD nie NULL wirdder Compiler kann davon ausgehen, dass die Adresse von %qD immer zu %<true%> evaluiertder Compiler kann annehmen, dass die Adresse von %qD niemals NULL istDie Komponente %qs ist ein PRIVATE-Typ und kann nicht Komponente von %qs sein, die PUBLIC bei %L istder in Konflikt stehende Typ aus der anderen Übersetzungseinheitdie virtuelle Tabelle des in Konflikt stehenden Typs aus der anderen Übersetzungseinheit ist unterschiedlich großder in Konflikt stehende Typ aus der anderen Übersetzungseinheit hat virtuelle Tabelle mit unterschiedlichem Inhaltder in Konflikt stehende Typ aus der anderen Übersetzungseinheit hat virtuelle Tabelle mit mehr Einträgender in Konflikt stehende Typ aus der anderen Übersetzungseinheit hat unterschiedliche RTTI-Informationder Wert von uninitialisiertem Speicher ist in konstantem Ausdruck nicht verwendbarKontrollfluss der Funktion %qD passt nicht zu ihren Profilingdaten (Zähler %qs)der Zähler darf nicht kleiner als 0 sein. Bitte das intrinsische _mm_sll_pi16 im Code prüfen.der Zähler darf nicht kleiner als 0 sein. Bitte das intrinsische _mm_sll_pi32 im Code prüfen.der Zähler darf nicht kleiner als 0 sein. Bitte das intrinsische _mm_sll_si64 im Code prüfen.der Zähler darf nicht kleiner als 0 sein. Bitte das intrinsische _mm_slli_pi16 im Code prüfen.der Zähler darf nicht kleiner als 0 sein. Bitte das intrinsische _mm_slli_pi32 im Code prüfen.der Zähler darf nicht kleiner als 0 sein. Bitte das intrinsische _mm_slli_si64 im Code prüfen.der Zähler darf nicht kleiner als 0 sein. Bitte das intrinsische _mm_sra_pi16 im Code prüfen.der Zähler darf nicht kleiner als 0 sein. Bitte das intrinsische _mm_sra_pi32 im Code prüfen.der Zähler darf nicht kleiner als 0 sein. Bitte das intrinsische _mm_sra_si64 im Code prüfen.der Zähler darf nicht kleiner als 0 sein. Bitte das intrinsische _mm_srai_pi16 im Code prüfen.der Zähler darf nicht kleiner als 0 sein. Bitte das intrinsische _mm_srai_pi32 im Code prüfen.der Zähler darf nicht kleiner als 0 sein. Bitte das intrinsische _mm_srai_si64 im Code prüfen.der Zähler darf nicht kleiner als 0 sein. Bitte das intrinsische _mm_srl_pi16 im Code prüfen.der Zähler darf nicht kleiner als 0 sein. Bitte das intrinsische _mm_srl_pi32 im Code prüfen.der Zähler darf nicht kleiner als 0 sein. Bitte das intrinsische _mm_srl_si64 im Code prüfen.der Zähler darf nicht kleiner als 0 sein. Bitte das intrinsische _mm_srli_pi16 im Code prüfen.der Zähler darf nicht kleiner als 0 sein. Bitte das intrinsische _mm_srli_pi32 im Code prüfen.der Zähler darf nicht kleiner als 0 sein. Bitte das intrinsische _mm_srli_si64 im Code prüfen.in Objective-C 1.0 gibt es keine Dot-Syntaxdie Auslassung in %qD wurde nicht vererbtdas Ereignishandle einer %<detach%>-Klausel sollte nicht in einer data-sharing-Klausel seindie zusätzliche Basisklasse ist hier definiertfünftes Argument muss ein 8-Bit-Immediate seindas erste Argument eines %qs muss von booleschem Vektortyp sein und gleich viele Elemente wie das Ergebnis habender erste Unterschied der entsprechenden Definitionen ist Feld %qDder erste Unterschied der entsprechenden Definitionen ist Methode %qDder erste Parameter von %<operator new%> kann nicht das Standardargument habenDas vierte Argument muss Skalierung 1, 2, 4, 8 seindie Rahmengröße von %wu Bytes überschreitet %wu BytesDer direkte Argument muss ein 4-Bit-Immediate seinDas direkte Argument muss ein 5-Bit-Immediate seinDas direkte Argument muss ein 8-Bit-Immediate seinder inkompatible Typ, der in einer anderen Übersetzungseinheit definiert istder inkompatible Typ ist hier definiertdas Lambda hat keinen »capture-default«Das letzte Argument muss ein 1-Bit-Immediate seinDas letzte Argument muss ein 2-Bit-Immediate seindas letzte Argument muss ein 3-Bit-Immediate seinDas letzte Argument muss ein 32-Bit-Immediate seinDas letzte Argument muss ein 4-Bit-Immediate seinDas letzte Argument muss ein 5-Bit-Immediate seinDas letzte Argument muss ein 1-Bit-Immediate seinDas letzte Argument muss ein 8-Bit-Immediate seinDas letzte muss Skalierung 1, 2, 4, 8 seindas Layout von Aggregaten, die Vektoren mit %d-Byte-Ausrichtung enthalten, hat sich in GCC 5 geändertder m210 hat keine Little-Endian-Unterstützungdas Makro %qs war noch nicht definiertder gemangelte Name von %qD hat sich zwischen %<%s=%d%> (%qD) und %<%s=%d%> (%qD) geändertder gemangelte Name von %qD ändert sich zwischen %<%s=%d%> (%qD) und %<%s=%d%> (%qD)der gemangelte Name von %qD ändert sich zwischen %<-fabi-version=%d%> und %<-fabi-version=%d%>der gemangelte Name eines Thunks für %qD ändert sich zwischen %<-fabi-version=%d%> und %<-fabi-version=%d%>der gemangelte Name der Initialisierungswächter-Variable für %qD ändert sich zwischen %<-fabi-version=%d%> und %<-fabi-version=%d%>der Maximalwert für den letzten Größenbereich sollte für Option %qs -1 seinDas vorletzte Argument muss ein 8-Bit-Immediate seinDer ausgelassene mittlere Operand in %<?:%> ist immer %<true%>; ausdrücklicher mittlerer Operand wird empfohlendas Programm sollte auch %qD definierender Wertebereich des Zählers ist 0 bis 32. Bitte intrinsisches _mm_ror_pi16 im Code prüfen.der Wertebereich des Zählers ist 0 bis 32. Bitte intrinsisches _mm_ror_pi32 im Code prüfen.der Wertebereich des Zählers ist 0 bis 32. Bitte intrinsisches _mm_rori_pi16 im Code prüfen.der Wertebereich des Zählers ist 0 bis 32. Bitte intrinsisches _mm_rori_pi32 im Code prüfen.der Wertebereich des Zählers ist 0 bis 64. Bitte intrinsisches _mm_ror_si64 im Code prüfen.der Wertebereich des Zählers ist 0 bis 64. Bitte intrinsisches _mm_rori_si64 im Code prüfen.der Wertebereich der Maske ist 0 bis 255der Wertebereich des Selektors sollte 0 bis 1 seinder Wertebereich des Selektors sollte 0 bis 3 seinder Wertebereich des Selektors sollte 0 bis 7 seindas Register %qs kann in %<asm%> für das aktuelle Ziel nicht bestraft werdenfür %q+D angegebenes Register kann vom aktuellen Ziel nicht zugegriffen werdenfür %q+D angegebenes Register ist nicht allgemein genug, um als eine Registervariable verwendet zu werdendas Ergebnis des Befehls xxspltidp ist für denormalisierte Eingabewerte undefiniertdas Ergebnis der Umwandlung ist nicht spezifiziert, da %qE außerhalb des Wertebereichs des Typs %qT liegtdie selben Schleifen-Iterationsvariablen %qD werden in mehreren verknüpften Schleifen verwendetdieses Ziel unterstützt nicht %<asm goto%> mit Ausgaben in %<asm%>drittes Argument muss ein 8-Bit-Immediate seindas dritte Argument muss eine Vergleichskonstante seinder Typ %qT der %<constexpr%>-Variable %qD ist kein Literalder zerstörte Typ ist %qT, aber der Destruktor verweist auf %qTder Wert von %qD ist in konstantem Ausdruck nicht verwendbarDer Wert des Stapelzeigers muss nach einer %<asm%>-Anweisung derselbe sein wie vor der AnweisungDie y-Option ist obsolet und wird ignoriertes gibt keine Argumente für %qD, die von einem Templateparameter abhängen, weshalb eine Deklaration von %qD verfügbar sein mussdrittes Argument von %q+D sollte wahrscheinlich %<char **%> seinDrittes Argument für %<__builtin_prefetch%> muss eine Konstante seindrittes Argument für %qs muss im Bereich [0, 12] liegenDrittes Argument für Funktion %qE muss eine konstante Ganzzahl seindritter Operand des bedingten Ausdrucks kann die Adresse der überladenen Funktion nicht auflösendritter Operand des bedingten Ausdrucks hat keinen Effektdritter Operand des bedingten Ausdrucks ist eine Referenz, kein Aufruf, zur Funktion %qEdritter Operand für Bedingungsoperator ist vom Typ %<void%>, aber der zweite Operand ist weder ein Throw-Ausdruck noch vom Typ %<void%>diese %qs-Klausel beschützt nicht …diese eingebaute Funktion ist nur auf dem fr405 und fr450 verfügbardiese eingebaute Funktion ist nur auf dem fr450 verfügbardiese eingebaute Funktion ist nur auf dem fr500 und fr550 verfügbardiese eingebaute Funktion ist nur mit der Toolchain v3f verfügbardiese eingebaute Funktion ist nur mit der Toolchain v3s oder v3f verfügbardiese eingebaute Funktion wird von der Toolchain v3m nicht unterstütztdiese eingebaute Funktion wird auf diesem Ziel nicht unterstütztdieser Compiler unterstützt %s nichtdieser Compiler unterstützt PowerPC nicht (arch-Flags werden ignoriert)dieser Compiler unterstützt X86 nicht (arch-Flags werden ignoriert)diese Bedingung hat identische Zweigediese Dezimalkonstante ist nur in ISO-C90 vorzeichenlosdiese Dezimalkonstante wäre in ISO-C90 vorzeichenlosdiese Flexibilität ist veraltet und wird demnächst entferntdies ist ein GCC-Bug; ein Workaround ist, die aufgerufene Funktion mit dem »used«-Attribut zu markierenDies ist die erste StandardmarkeDies ist der erste Eintrag, der diesen Wert überschneidetdies ist der Befehl:diese Medienfunktion ist nur auf dem fr400 und fr550 verfügbardiese Medienfunktion ist nur auf dem fr500 verfügbardiese Operation erfordert die SVE-ISA-Erweiterungdiese Anweisung könnte durchfallendieses Ziel definiert keine Spekulationsbarriere; das erzeugte Programm wird trotzdem korrekt laufen, aber irrige Spekulationen sind möglicherweise nicht eingeschränktdieses Ziel unterstützt nicht %qsDiese Zielarchitektur ist »Little Endian«diese Zielmaschine hat keine verzögerten ZweigeThread-lokale COMMON-Daten nicht implementiertThread-lokale Deklaration von %q#D folgt nicht-Thread-lokaler DeklarationThread-lokale Deklaration von %q+D folgt nicht-Thread-lokaler Deklarationthreadprivate Variable %qE in Zielregion mit %<order(concurrent)%>-Klausel verwendetthreadprivate Variable %qE in Zielregion verwendetthreadprivate Variable %qE in unverknüpfter Task verwendetDreiwege-Vergleich von %qD hat den Typ %qT, nicht den Vergleichskategorie-TypDreiwege-Vergleich von %qD ist vom Typ %qT, der sich nicht in %qT umwandeln lässtDrei-Wege-Vergleich von Vektorenwirft NULL, was ganzzahlig, aber kein Zeigertyp istthunk-inline wird nur mit %<-mindirect-branch-jump%> unterstütztzur Sicherheit müssen alle vorübergehenden Zeiger in Umwandlung von %qT in %qT mit %<const%> qualifiziert seinum Abhängigkeiten zu erzeugen, müssen Sie entweder %<-M%> oder %<-MM%> angebenandere Fundstelle von %qs ist hierum auf ein Typelement eines Templateparameters zu verweisen, %<typename %E%> verwendenToken %u hat %<x-location == %u%>Token %u hat %<x-location == y-location == %u%>Token %u hat %<y-location == %u%>zu wenige Argumente für %%:version-compareZu wenige Argumente für %<__builtin_tgmath%>zu wenige Argumente für eingebaute Funktion %qE, %u erwartetzu wenige Argumente für Konstruktor %q#Dzu wenige Argumente für FunktionZu wenige Argumente für %<va_start%>zu wenige Argumente für Funktion %q#DZu wenige Argumente für Funktion %qEZu wenige Argumente für Elementfunktion %q#Dzu wenige Argumente für Methode %q#Dzu wenige Ausdrücke für Strukturzu wenige Templateparameterlisten in Deklaration von %qDzu wenige Templateparameterlistentoo large function value type, needs %d registers, have only %d registers for thiszu spät für »#«-Direktive, um Debug-Verzeichnis festzulegenzu viele %<#pragma options align=reset%>zu viele %<...%> in Lambda-Capturezu viele %<defaultmap%>-Klauseln mit %qs-Kategoriezu viele %<defaultmap%>-Klauseln mit nicht angegebener Kategoriezu viele %<if%>-Klauselnzu viele %<if%>-Klauseln mit %qs-Modifiziererzu viele %<if%>-Klauseln ohne Modifiziererzu viele %<static%>-Argumentezu viele %qs-Klauselnzu viele %qs-Klauseln an einem Task-Konstruktzu viele Alternativen in %<asm%>zu viele Argumentezu viele Argumente für %%:dumpszu viele Argumente für Formatzu viele Argumente für teilweise Spezialisierung %qTzu viele Argumente, die in SGPR-Registern übergeben werdenzu viele Argumente für %%:version-comparezu viele Argumente für %%:compare-debug-self-optzu viele Argumente für %%:version-comparezu viele Argumente für eingebaute Funktion %qE, nur %d erwartetzu viele Argumente für Konstruktor %q#Dzu viele Argumente für Funktionzu viele Argumente für Funktion %q#Dzu viele Argumente für Funktion %qEzu viele Argumente für makezu viele Argumente für Elementfunktion %q#Dzu viele Argumente für Methode %q#Dzu viele Argumente für Methode %qEzu viele atomare Klauselnzu viele geschweifte Klammern um Initialisierung für %qTzu viele geschweifte Klammern um skalare Initialisierung für Typ %qTInterner Fehler: too many exception handling edges in bb %izu viele Ausdrücke für Strukturzu viele Dateinamen angegeben; geben Sie %<%s %s%> für das Aufrufformat einzu viele Funktionsargumente für eBPFzu viele Initialisierer für %qTzu viele EingabedateienInterner Fehler: too many loop exits recordedzu viele Speicherreihenfolge-Klauselnzu viele öffnende KlammernInterner Fehler: too many outgoing branch edges from bb %izu viele Größenbereiche in Option %qs angegebenzu viele Templateheader für %qD (sollten %d sein)zu viele Templateparameterlisten in Deklaration von %qDzu viele Templateparameterlistenzu viele Werte in Rückgabeanweisungzu viele Variablen in Bereichsklausel mit KanalZu viel Stapelspeicher zu entsorgen: %dZu viel Stapelspeicher vorzubereiten: %dungeklammerte Komma-Ausdrücke in Arrayindex-Ausdrücken sind veraltetDeklaration höchster Ebene von %qs gibt %<auto%> anToplevel-Neuordnung muss ausgeschaltet sein, wenn »unit-at-a-time« ausgeschaltet istGesamtgröße der lokalen Objekte %wu überschreitet das Maximum %wuGesamtgröße der lokalen Objekte überschreitet das Maximum %wuGesamtgröße der lokalen Objekte ist zu hochGesamtgröße der lokalen Variablen übersteigt Grenze der Architekturtp_first_run must be non-negativetraditionelles C bietet keinen separaten Namensraum für Marken an, Bezeichner %qE steht in Konflikttraditionelles C weist Funktionsdefinitionen im ISO-C-Stil zurücktraditionelles C lehnt automatische Gesamt-Initialisierung abtraditionelles C lehnt Initialisierung von unions abtraditionelles C weist Zeichenkettenkonstantenverkettung zurücktraditionelles C weist den unären Plus-Operator zurückangehängter Rückgabetyp %qT den Ableitungshinweises ist keine Spezialisierung von %qTnachgestellter Rückgabetyp nur mit %<-std=c++11%> oder %<-std=gnu++11%> verfügbarTrampolin für geschachtelte Funktion %qD erzeugttransaktionsbasierter Speicher wird von %<-fsanitize=address%> nicht unterstützttransaktionsbasierter Speicher wird von %<-fsanitize=kernel-address%> nicht unterstützttransaktionsbasierter Speicher wird von Nicht-Aufruf-Ausnahmen nicht unterstütztTransformierende intrinsische Routine %qs bei %L ist in einem Initialisierungs-Ausdruck nicht erlaubtTrap-Modus für VAX-Floats nicht unterstützttree check: %s, have %s in %s, at %s:%dtree check: accessed elt %d of %<tree_int_cst%> with %d elts in %s, at %s:%dtree check: accessed elt %d of %<tree_vec%> with %d elts in %s, at %s:%dtree check: accessed operand %d of %<omp_clause %s%> with %d operands in %s, at %s:%dtree check: accessed operand %d of %s with %d operands in %s, at %s:%dtree check: did not expect class %qs, have %qs (%s) in %s, at %s:%dtree check: expected %<omp_clause %s%>, have %qs in %s, at %s:%dtree check: expected class %qs, have %qs (%s) in %s, at %s:%dtree check: expected none of %s, have %s in %s, at %s:%dtree check: expected tree that contains %qs structure, have %qs in %s, at %s:%dBaumcode %qs wird in LTO-Strömen nicht unterstütztBaumliste endet bei Tiefe %iWahr/Falsch-Kante hinter einer Nicht-GIMPLE_COND in bb %dKlammern um die Type-ID sollten entfernt werdenstattdessen %qE verwendenVersuch, %qD in Instanziierung eines generischen Lambdas einzufangenes wird versucht, einen Nicht-Ganzzahltyp als Bitfeld zu kodierenLesen der struct konnte wegen Syntaxfehlern nicht beendet werdenVersuch, die Klasse %qT zu einem »friend« des globalen Gültigkeitsbereiches zu machenTuning-Zeichenkette fehlt in Option »%s«zwei aufeinander folgende %<[%> dürfen nur ein Attribut einführenzwei unterschiedliche äußere Iterationsvariablen %qD und %qD werden in einer einzigen Schleife verwendetzwei oder mehr Datentypen in Deklaration von %qszwei oder mehr Datentypen in Deklarationzwei oder mehr Abschnitte für %sArgument vom Typ %q#T wurde an %<delete%> übergeben, Zeiger erwartetTyp %qE hat einen benutzerdefinierten KonstruktorTyp %qE hat einen benutzerdefinierten DestruktorTyp %qE hat keinen aufrufbaren Standard-KonstruktorTyp %qE hat virtuelle ElementfunktionenTyp %qT (typedef von %qT) verletzt die One-Definition-Rule von C++Typ %qT (in unbenanntem Namensraum definiert) kann nicht passen (über Grenzen von Übersetzungseinheiten hinaus)Typ %qT (in unbenanntem Namensraum definiert) kann nicht zum Typ %qT passen (über Grenzen von Übersetzungseinheiten hinaus)Typ %qT hat keine bekannte GrößeTyp %qT für explizite Instanziierung %qD passt nicht zum deklarierten Typ %qTTyp %qT ist kein Basistyp für Typ %qTTyp %qT ist keine direkte Basis von %qTTyp %qT ist keine direkte oder virtuelle Basis von %qTTyp %qT ist zu großTyp %qT verletzt für sich genommen die One-Definition-Rule von C++Typ %qT des Templatearguments %qE hängt von Templateparameter abTyp %qT des Templatearguments %qE hängt von Templateparametern abTyp %qT sollte Typ %qT entsprechenTyp %qT verletzt die One-Definition-Rule von C++Typ %qT ohne Bindung für Funktionsdeklaration %q#D mit Bindung deklariertTyp %qT ohne Bindung verwendet, um Variable %q#D mit Bindung zu deklarierenTyp %qT mit virtuellen Elementen ist nicht zuordenbarTyp %qs entspricht nicht dem Protokoll %qETyp %qs verletzt die One-Definition-Rule von C++Typ %s wird aus dem Initialisierer %s hergeleitet, und Variablen können nicht vom Typ »void« seinTypbehauptung nur gültig für SchnittstellentypenTypattribute ignoriert, nachdem Typ bereits definiert ist%<int%> ist Standardtyp in Deklaration von %qE%<int%> ist Standardtyp in Typ-DeklarationTyp hat keine MethodenTyp ist veraltetTyp ist veraltet: %sInterner Compilerfehler: type is not compatible with its varianttype mismatch between an SSA_NAME and its symbolunpassender Typ für »case«-Marke in switch-Anweisungunverträgliche Typen in %qsTypunverträglichkeit in %qs-AusdruckTypunverträglichkeit in %qs-VerweisTyp passt nicht in binärem AusdruckTyp passt nicht in bedingtem Ausdruckunverträgliche Typen in Parameter %iTyp muss cv-qualifizierter %<auto%> oder Referenz auf cv-qualifizierten %<auto%> seinTypname %qs sollte dem Typnamen %qs entsprechenTypname als Funktion, die eine Funktion zurückgibt, deklariertTypname als Funktion, die ein Array zurückgibt, deklariertTyp des %<asm%>-Operanden %qE konnte nicht ermittelt werdenTyp des %<depobj%>-Ausdrucks ist nicht %<omp_depend_t%>Typ von %qD ist auf %<int%> voreingestelltTyp von %qD passt nicht zur ursprünglichen DeklarationTyp von %qE ist unbekanntTyp des Arrays %q+D vervollständigt Unverträglichkeit mit impliziter InitialisierungTyp des Bitfeldes %qs ist eine Erweiterung des GCCTyp des formalen Parameters %d ist unvollständigTyp des Iterators %qD verweist auf äußeren Iterator %qDTyp der Eigenschaft %qD in Konflikt mit vorheriger Deklarationunpassende Präzision für Typ in switch-AnweisungTypkennzeichner an Umwandlungs-Rückgabetyp ignoriertTypkennzeichner an Funktions-Rückgabewert ignoriertTyp für Vektor-»delete« ist weder Zeiger- noch Arraytyptyptransparentes %q#T kann nicht transparent gemacht werden, weil der Typ des ersten Feldes anderes ABI als gesamte Klasse hattyptransparentes %q#T hat keine Feldertyptransparente Klasse %qT hat Basisklassentyptransparente Klasse %qT hat virtuelle FunktionenInterner Compilerfehler: type variant differs by %sInterner Compilerfehler: type variant has different %<TREE_TYPE%>Interner Compilerfehler: type variant has different %<TYPE_BINFO%>Interner Compilerfehler: type variant has different %<TYPE_FIELDS%>Interner Compilerfehler: type variant has different %<TYPE_SIZE_UNIT%>Interner Compilerfehler: type variant has different %<TYPE_VFIELD%>Interner Compilerfehler: type variant with %<TYPE_ALIAS_SET_KNOWN_P%>Interner Compilerfehler: type variant%'s %<TREE_TYPE%>Interner Compilerfehler: type variant%'s %<TYPE_BINFO%>Interner Compilerfehler: type variant%'s %<TYPE_SIZE_UNIT%>Typ war vorher als %qE deklariertInterner Compilerfehler: type%'s %<TREE_TYPE%>Interner Compilerfehler: type%'s %<TYPE_BINFO%>Interner Compilerfehler: type%'s %<TYPE_SIZE_UNIT%>Type-Punning auf unvollständigen Typen kann strict-aliasing-Regeln verletzentype-specifier ist in Lambda ungültigTyp/Wert des Arguments %d passt nicht in Template-Parameterliste für %qDtypedef %q+D als %<_Noreturn%> deklarierttypedef %q+D als %<inline%> deklarierttypedef %qD ist initialisiert (verwenden Sie stattdessen lieber %<__typeof__%>)typedef %qD ist initialisiert (stattdessen %qs verwenden)typedef %qD lokal definiert, aber nicht verwendet»typedef«-Deklaration in Parameterdeklaration ungültig»typedef« als %<auto%> deklariertmit %<typedef%> definierte Funktion darf keinen Rumpf %<{ … }%> habenmit %<typedef%> definierte Elementfunktion darf keinen Rumpf %<{ … }%> habentypedef-Name darf kein Spezifizierer mit geschachteltem Namen seintypedef-Name %qD als Destruktor-Deklarator verwendetTypen nicht ganz kompatibelTypen unterscheiden sich im VorzeichenbesitzTypen haben unterschiedliche Anzahl von ParameternTypen dürfen nicht in %<decltype%>-Ausdrücken definiert werdenTypen dürfen nicht in %<noexcept%>-Ausdrücken definiert werdenTypen dürfen nicht in einem %qs-Ausdruck definiert werdenTypen dürfen nicht in einem %<typeid%>-Ausdruck definiert werdenTypen dürfen nicht in einem »conversion-type-id« definiert werdenin einer for-Bereichs-Deklaration dürfen keine Typen definiert werdenTypen dürfen nicht in einem »new«-Ausdruck definiert werdenTypen dürfen nicht in einem »new-type-id« definiert werdenTypen dürfen nicht in Alias-Templatedeklarationen definiert werdenTypen dürfen nicht in einer Ausnahmespezifikation definiert werdenTypen dürfen nicht in Typumwandlungen definiert werdenTypen dürfen nicht in Bedingungen definiert werdenneue Typen dürfen nicht in einem Rückgabetyp definiert werdenTypen dürfen nicht in enum-base definiert werdenTypen dürfen nicht in Ausnahmedeklarationen definiert werdenTypen dürfen nicht in explicit-specifier definiert werdenTypen dürfen nicht in Iteratortyp definiert werdenTypen dürfen nicht in Parametertypen definiert werdenin Template-Argumenten dürfen keine Typen definiert werdenTypen dürfen nicht innerhalb von %<__builtin_offsetof%> definiert werdenTypspezifikation in ALLOCATE bei %LWirkliche Stelle des gestapelten Parameters kann nicht berechnet werden%qT kann nicht aus %qE hergeleitet werdenLambda-Rückgabewert von %qE kann nicht hergeleitet werden%qs kann nicht emuliert werdenKein Register zum Auslagern gefundenin Klasse %qs konnte kein Register für Überlauf gefunden werdenOperator %qD für Zeichenliterale mit Argument %qT kann nicht gefunden werdennumerischer literaler Operator %qD konnte nicht gefunden werdenliteraler Operator für Zeichenketten %qD mit Argumenten %qT, %qT konnte nicht gefunden werdenNeuladungen für unmögliche Einschränkungen konnten nicht generiert werden:Neuladungen konnten nicht generiert werden für:Standard-Linkerscript %qs kann nicht in den Bibliotheks-Suchpfaden gefunden werdendynamische Abhängigkeit %qs kann nicht geöffnet werdenDatei kann nicht geöffnet werdenLogdatei %<vtv_class_set_sizes.log%> kann nicht geöffnet werden: %mLogdatei %<vtv_count_data.log%> kann nicht geöffnet werden: %mLogdatei %<vtv_set_ptr_data.log%> kann nicht geöffnet werden: %mOperand kann noch nicht ausgegeben werden; Code == %d (%c)Informationen für Plugin %qs können nicht registriert werden: Pluginname nicht gefunden%qs kann nicht als PIC-Register verwendet werdenunausgeglichenes Satzzeichen %<%c%> im Formatunausgeglichenes Satzzeichen %qc im Formatunbedingtes %2d niemals ausgeführt
unbedingtes %2d, genommen: %s
nicht deklarierter Selektor %qEundefiniertes Verhalten, wenn zweiter Parameter von %<va_start%> mit %<register%>-Speicherklasse deklariert wirdbenannter Operand %qs ist nicht definiertzugrunde liegender Typ %qT von %qT muss ein ganzzahliger Typ seinfalsche Zuordnung des zugrunde liegenden Typs in enum %q#TUnerwarteter »!$OMP ATOMIC«Ausdruck bei %Lunerwartetes %<%s%> nach %<%s%>unerwarteter AST der Art %sunerwartetes Argumentunerwartetes Argument für msp430_select_hwmult_lib: %sunerwartetes Attributunerwarteter Basistyp in cris_print_baseunerwarteter Fehler beim Öffnen von %<devices.csv%>unexpected expression %qE of kind %sunerwarteter Dateiname %s in Linker-Auflösungsdatei. %s erwartetunerwartetes erstes Argument für msp430_select_hwmult_lib: %sunerwarteter Indextyp in cris_print_indexunerwartetes Schlüsselwort; entfernen Sie Leerzeichen zwischen Anführungszeichen und Suffixbezeichnerunerwarteter multiplikativer Operandunerwarteter Offsetunerwarteter Operandunerwarteter Operand: %dunerwarteter Platzhalter in eingeschränktem Ergebnistypunerwartete Seiteneffekte in Adresseunerwartete Template-ID %qEunerwartete Textadresse:unbehandelte Ausrichtung für %<#pragma nomember_alignment%>unbehandelte Argumente %qs und %qs für %<msp430_set_driver_var%>unbehandelter Ausdruckunbehandelter Ausdruckstypnicht initialisiertes %<const %D%>nicht initialisiertes %<const %qD%> ist in C++ ungültignicht initialisierte Konstante in %<new%> von %q#Tnicht initialisiertes konstantes Element in %q#Tnicht initialisiertes konstantes Element in %q#T verwendet %<new%> ohne new-Initialisierungnicht initialisiertes konstantes Element %qT ist in C++ ungültignicht initialisiertes konstantes Element in Basis %q#T von %q#Tnicht initialisiertes konstantes Element in Basis %q#T von %q#T verwendet %<new%> ohne new-Initialisierungnicht initialisiertes Referenzelement in %q#Tnicht initialisiertes Referenzelement in %q#T verwendet %<new%> ohne new-Initialisierungnicht initialisiertes Referenzelement in Basis %q#T von %q#Tnicht initialisiertes Referenzelement in Basis %q#T von %q#T verwendet %<new%> ohne new-Initialisierungnicht initialisierte Variable %q+D in Programmspeicherbereich platziertuninitialisierte Variable %qD in %<constexpr%>-Kontextuninitialisierte Variable %qD in %<constexpr%>-Funktionunion kann nicht transparent gemacht werden»union« wurde hier definiertUnion hat keine ElementeUnion hat keine benannten ElementeUnion-Element %q+D mit nichttrivialem %qDunbekannte Option %qs für %<#pragma GCC aarch64%>unbekanntes Modell %qs für %<#pragma extern_model%>unbekannter Name %qs für %<#pragma member_alignment%>unbekannter Schalter %<-mdebug-%s%>unbekannte Ausgabe %qs des %<asm%>-Schaltersunbekannte CRIS-CPU-Versionsangabe in %<-mtune=%>: %sunbekannte CRIS-Versionsangabe in %<-march=%> oder %<-mcpu=%>: %sUnbekannte Schutzstufe %qs für Kontrollflussunbekannter IRA-Algorithmus %qsunbekannte IRA-Region %qsUnbekanntes LTO-Partitionierungs-Modell %qsunbekannte Stufe %qs für Live-PatchingUnbekannte Stufe %qs für Stapel-Wiederverwendungunbekanntes TLS-Modell %qsunbekannte Aktion %qE für %<#pragma pack%> - ignoriertunbekannte Ausrichtung %qs für Option %qs angegebenUnbekanntes architekturspezifisches SpeichermodellUnbekannte Architekturspezifikation in Speichermodell für eingebaute Funktionunbekannte Einstellung %qs für Arraygrenzenunbekannte Arraygröße in »delete«unbekanntes Attribut %qEunbekannter Basisblock-Umsortierungs-Algorithmus %qsInterner Fehler: unknown block specifierunbekannter eingebauter direkter Operandentyp für Operand %dunbekanntes Callback-Ereignis von Plugin %s registriertunbekanntes Konvertierungstyp-Zeichen %qc im FormatUnbekannte Kernarchitektur %qs in %qs angegebenunbekannte CPU %qs für %<-mtune%>unbekannter Entmangelstil %qsunbekanntes Zielunbekannter Fehler beim Lesen von %s aus %<devices.csv%>unbekannter evrp-Modus %qsunbekannte Art überschüssiger Genauigkeit %qsunbekanntes Flag wurde in %<-moverride=%s%> übergeben (%s)unbekannte Art der Gleitkomma-Kürzung %qsunbekannter BefehlsmodusInterner Fehler: unknown internal function %qEunbekannte Linkerausgabe %qsUnbekannter Maschinenzustand %qEFalscher Kopierbefehl:Unbekannte Offload-ABI %qsunbekannter Operandenbuchstabe: »%c«unbekannter Operator %qs in %%:version-compareunbekannte Option %q.*s in %<-fopt-info-%s%>Option hinter %<#pragma GCC diagnostic%> Art unbekanntunbekannte Option für %<%s=%s%>unbekannte Option für %<-mrecip=%s%>Unbekannter Parameter für Option %<-mtune-ctrl%>: %sunbekannter Durchlauf %s in %<-fdisable%> angegebenunbekannter Durchlauf %s in %<-fenable%> angegebenunbekanntes Zeigergrößenmodell %qsUnbekannte Profil-QualitätUnbekannte Profil-Reproduzierbarkeitsstufe %qsUnbekannte Profil-Aktualisierungs-Methode %qsunbekannte Eigenschaft %qE des %qs-Selektorsunbekannte Eigenschaft %qs des %qs-Selektorsunbekanntes Eigenschaftsattributunbekanntes Eigenschaftsattribut %<%s%s%>unbekanntes Eigenschaftsattribut %qEunbekanntes Zeichen »%c«unbekannter Registername %qs in %<asm%>unbekannter Registername: %sunbekannte Adressverschiebungs-Unspecunbekannte Spezifikationsfunktion %qsunbekannte Spezifikation für die Menge der FLT_EVAL_METHOD-Werte, um %qs zu erlaubenunbekannte Angabe %<%qs%> in Attribut %<amdgpu_hsa_kernel%>unbekannte Quelleunbekannter Stapel-Überprüfungsparameter %qsunbekannter Schalter %<-mlong-double-%s%>Unbekanntes Zielattribut oder -pragma %qsunbekannte Tuning-Option »%s«unbekannter Typ %<%T%> bei Objective-C-Kodierung gefundenunbekannter Typname: %qEUnbekannter Typname %qE; meinten Sie %qs?unbekannter Typname %qE; verwenden Sie das %<enum%>-Schlüsselwort, um auf den Typ zu verweisenunbekannter Typname %qE; verwenden Sie das %<struct%>-Schlüsselwort, um auf den Typ zu verweisenunbekannter Typname %qE; verwenden Sie das %<union%>-Schlüsselwort, um auf den Typ zu verweisenunbekannter Wert %qs für %<-march%>unbekannter Wert %qs für %<-mcpu%>unbekannter Wert %qs für %<-mtune%>unbekannter Wert %qs von %<-mmacosx-version-min%>unbekannter ABI-Typ (%qs) für Vektorisierungsbibliothek für Schalter %qsUnbekanntes Vektorisierer-Kostenmodell %qsUnbekannte Initialisierungspriorität %qs für VTable-VerifikationAlleinstehende Farbrücksetz-DirektiveAlleinstehende q-Direktiveunbenannte Klasse wurde hier definiertunbenanntes Feld hat unvollständigen Typenunbenanntes Feld ist weder eine Funktion noch Elementfunktion; kann nicht als %<friend%> deklariert werdenunbenannte Initialisierung für %qT, das keine Basisklassen hatunbenannte Initialisierung für %qT, das Mehrfachvererbung verwendetunbenanntes »enum« mit Gültigkeitsbereich ist nicht erlaubtUnbenannte struct/union, die keine Instanzen definiertunbenannter Typ ohne Bindung wird verwendet, um Funktion %q#D mit Bindung zu deklarierenunbenannter Typ ohne Bindung wird verwendet, um Variable %q#D mit Bindung zu deklarierenunbenannte Variable oder Feld als »void« deklariertunnötige Klammern in Deklaration von %qsungeordneter Vergleich mit Nicht-Gleitkomma-Argumentunquote_string(): got bad stringAttribut außerhalb von Anführungszeichen im FormatSteuerzeichen %qc außerhalb von Anführungszeichen im FormatSteuerzeichen außerhalb von Anführungszeichen im FormatBezeichner oder Schlüsselwort außerhalb von Anführungszeichen %<%.*s%> im FormatSchlüsselwort %<%.*s%> außerhalb von Anführungszeichen im FormatName der eingebauten Funktion %<%.*s%> außerhalb von Anführungszeichen im Formatnicht-grafisches Zeichen %qc außerhalb von Anführungszeichen im Formatnicht-grafische Zeichen außerhalb von Anführungszeichen im FormatOperator %<%.*s%> außerhalb von Anführungszeichen im FormatOptionsname %<%.*s%> außerhalb von Anführungszeichen im FormatVorverarbeitungsdirektive %<%.*s%> außerhalb von Anführungszeichen im FormatFolge von %i aufeinanderfolgenden Satzzeichen %q.*s außerhalb von Anführungszeichen im Format%i aufeinanderfolgende Leerzeichen außerhalb von Anführungszeichen im FormatTypname %<%.*s%> außerhalb von Anführungszeichen im FormatLeerzeichen %qc außerhalb von Anführungszeichen im FormatNicht erreichbarnicht erkanntes Kommandozeilenargument von Option unerkennbarer Befehl:unbekanntes Ziel für %<-mfpu%>: %sunbekanntes Feld %<hwmpy%> in %<hard_msp430_mcu_data[%d]%>: %qdnicht erkanntes %<include_flags 0x%x%> an %<print_specific_help%> weitergegebenunbekanntes Feld %<revision%> in %<hard_msp430_mcu_data[%d]%>: %qdAttribut %qE hat unbekanntes Argument %qsunbekanntes Ziel für %s: %sunerkannte Adressenicht erkanntes Kommandozeilenargument in Option %qsArgument %q.*s für Option %<--help=%> nicht erkanntunbekanntes Argument für Option %<-f%ssanitize%s=%>: %q.*sunbekanntes Argument für Option %<-f%ssanitize%s=%>: %q.*s; meinten Sie %qs?Argument %qs für Option %<-flto=%> nicht erkanntArgument für Option %<-fzero-call-used-regs=%> nicht erkannt: %qsunbekannte Kommandozeilenoption %<-%s%>unbekannte Kommandozeilenoption %<-%s%>; meinten Sie %<-%s%>?nicht erkannte Kommandozeilenoption %<-fdump-%s%>unbekannte Kommandozeilenoption %<-fdump-%s%>; meinten Sie %<-fdump-%s%>?nicht erkannte Kommandozeilenoption %<-fopt-info-%s%>nicht erkannte Kommandozeilenoption %qsUnbekannte Kommandozeilenoption %qs könnte den Zweck haben, bisherige Diagnosemeldungen zu unterdrückenunbekannte Steuerregisternummer %d; %<psw%> wird verwendetUnbekannte Debugausgabestufe %qsunbekannter Kantenschalter: %qsunbekannter enum-Wert: %qsunerkannte FormatangabeGCC-Debuggingoption nicht erkannt: %cunbekanntes Interrupt-Vektor-Argument für Attribut %qEunbekannter ivar-Sichtbarkeitswert %qsunbekannter Operand für %%:asm_auto_mfpuunbekannter Operand für %%:canon_for_mlibunbekannte Option %<-fdisable%>unbekannte Option %<-fenable%>unbekannte Option an %%:target_mode_check weitergegebenunbekannter Registername %qsunbekannter Wert %qs für Speicherreihenfolge von Skalarennicht erkannter Abschnittsname %qEunerkannter Schatten-Adressoffset %qsunerkannte vermutete Konstanteunbekannter Sichtbarkeitswert %qsnicht behebbarer Fehlerungelöste Überladung des eingebauten Altivec %qFunaufgelöste überladene eingebaute Funktionuneingeschränkte »Unions« sind nur mit %<-std=c++11%> oder %<-std=gnu++11%> verfügbarunsicherer Funktionsaufruf %qD innerhalb von %<transaction_safe%>-Funktionunsicherer Funktionsaufruf %qD innerhalb von atomarer Transaktionunsicherer Funktionsaufruf %qE innerhalb von %<transaction_safe%>-Funktionunsicherer Funktionsaufruf %qE innerhalb von atomarer Transaktionunsicherer indirekter Funktionsaufruf innerhalb von %<transaction_safe%>-Funktionunsicherer indirekter Funktionsaufruf innerhalb von atomarer Transaktionnicht gesetzte Option %qs wird ignoriert, für CPU %qs ist sie stets eingeschaltetVorzeichenlose Umwandlung von %qT nach %qT ändert den Wert von %qEVorzeichenlose Umwandlung von %qT nach %qT ändert den Wert von %qE nach %qEGleitkommakonstante ohne Suffixnicht unterstütztes Argument für %qDnicht unterstützter Argumenttyp %qT für SIMDnicht unterstützter Argumenttyp für eingebaute FunktionCode »%c« für Festkomma nicht unterstützt:nicht unterstützte Kombination: %qs %snicht unterstützte Kombination: %qs%s %snicht unterstützte Kombination: %snicht unterstützte konstante Adresse:der Kernel hat einen nicht unterstützten CPU-Namen für %<-mcpu=native%> zurückgegeben: %sFestkommaumwandlung nicht unterstütztnicht unterstützter Speicherausdruck:nicht unterstützte Nicht-Standard-Verkettung von Zeichenkettenliteralennicht unterstützter Nicht-Standard-Suffix an Gleitkommakonstantenicht unterstützter Operandnicht unterstützter Operand %s für Code »%c«Operand für Code »%c« nicht unterstütztnicht unterstützte Operandengröße für erweitertes RegisterIn booleschem Vektorvergleich ist die Operation oder der Typ nicht unterstütztnicht unterstütztes Record-Layoutnicht unterstützter Rückgabetyp %qT für %<simd%>-Funktionennicht unterstützter Rückgabetyp %qT für SIMDnicht unterstützte simdlen %wdnicht unterstützte Größe für Ganzzahlregisterunbeendete Assemblerdialekt-Alternativeunbeendete Farbdirektiveunbeendete Formatzeichenketteunbeendetes Anführungszeichen %<%c%> im Formatunbeendete q-Direktiveunverwendete Argumente in %<$%>-Stil-Formatunverwendeter Parameter %qDungenutzte Deklaration für strukturierte BindungVariable %q+D wird nicht verwendetVariable %qD wird nicht verwendetAbwicklungstabellen erfordern derzeit entweder einen Rahmenzeiger oder %<-maccumulate-outgoing-args%> für KorrektheitOberer Wert in case-Marken-Bereich überschreitet den Maximalwert des Typsverwenden Sie stattdessen %<#include%>stattdessen %<%T::%D%> verwenden%<%T::%D%> statt %<%T::%D%> verwenden, um den Konstruktor mit qualifiziertem Namen zu benennen%<%T::template %D%> verwenden, um dies als Template zu kennzeichnen%<-Winvalid-pch%> für weitere Informationen verwendenverwenden Sie %<-faligned-new%>, um die C++17-Unterstützung für überausgerichtetes New einzuschaltenverwenden Sie %<-fext-numeric-literals%>, um weitere eingebaute Suffixe einzuschalten%<-flax-vector-conversions%> verwenden, um Umwandlung zwischen Vektoren mit unterschiedlichen Elementtypen oder Anzahl der Teile zu erlauben%<...%> verwenden, um Argumentpack aufzulösenverwenden Sie stattdessen %<__attribute__ ((vector_size))%>%<__builtin_rx_mvtc (0, ... )%> verwenden, um beliebige Werte in PSW zu schreibenverwenden Sie %<auto%> für ein abgekürztes Funktionstemplateverwenden Sie %<template<>%> für eine explizite Spezialisierungstattdessen %<this->%D%> verwendenverwenden Sie stattdessen %qsnutzen Sie einen Cast auf den erwarteten Typen, um die Mehrdeutigkeit aufzulösenVerwenden Sie zum Beispiel %<-Wabi=11%>, um vor Änderungen von GCC 7 zu warnenverwenden Sie den Nicht-Referenz-Typ %qT, um das Kopieren explizit zu machen, oder %qT um das Kopieren zu sparenVerwendung von %<auto%> in Lambda-Parameterdeklaration ist nur mit %<-std=c++14%> oder %<-std=gnu++14%> verfügbarVerwendung von %<auto%> in Umwandlungsoperator von Elementtemplate kann niemals hergeleitet werdenVerwendung von %<auto%> in Parameterdeklaration ist nur mit %<-fconcepts-ts%> verfügbarVerwendung von %<auto%> in Parameterdeklaration ist nur mit %<-std=c++14%> oder %<-std=gnu++14%> verfügbarVerwendung von %<complex%> in AltiVec-Typen ist ungültigVerwendung von %<double%> in AltiVec-Typen ist ohne %qs ungültigVerwendung von %<long double%> in AltiVec-Typen ist ungültigVerwendung von %<long long%> in AltiVec-Typen ist ohne %qs ungültigVerwendung von %<long%> in AltiVec-Typen ist veraltet; %<int%> verwendenVerwendung von %<long%> in AltiVec-Typen ist für 64-Bit-Code ohne %qs ungültigVerwendung von %<this%> in KonstantenausdruckVerwendung von %qD vor Herleitung von %<auto%>Verwendung von %qs in TemplateVerwendung des %qs-Längenmodifizierers mit %qc-Typ-Zeichen hat entweder keine Auswirkung oder undefiniertes Verhaltengleichzeitige Verwendung von %s und %s im Format %sVerwendung von %s und %s zusammen mit Format %<%%%c%> für %sangeforderter Speicher wird in konstantem Ausdruck verwendet, nachdem er wieder freigegeben wurdeVerwendung eines Operanden vom Typ %qT in %<operator++%> ist veraltetVerwendung eines Operanden vom Typ %qT in %<operator++%> ist in C++17 verbotenVerwendung eines Operanden vom Typ %qT in %<operator--%> ist verbotenVerwendung boolescher Typen in AltiVec-Typen ist ungültigVerwendung von eingebautem Parameterpack %qD außerhalb eines TemplatesVerwendung der eingebauten Eigenschaft %qE in Funktionssignatur; stattdessen sollten Bibliothekseigenschaften verwendet werdenVerwendung des Klassentemplates %qT als AusdruckVerwendung dezimaler Gleitkommatypen in AltiVec-Typen ist ungültiggelöschte Funktion %qD wird verwendetVerwendung des enum %q#D ohne vorherige DeklarationVerwendung der Funktion %qD mit nicht erfüllten EinschränkungenVerwendung des ungültigen Variablentemplates %qEVerwendung lokaler Variable mit automatischer Speicherklasse aus enthaltender FunktionVerwendung einer multiversionierten Funktion ohne StandardargumentVerwendung einer Typumwandlung nach %q#T im alten StilVerwendung eines Parameters aus enthaltender FunktionVerwendung eines Parameters außerhalb des FunktionskörpersVerwendung von ungetyptem nilfür die Anweisung fehlt der Verwendungs-Operanddie Option %<-std=c99%>, %<-std=gnu99%>, %<-std=c11%> oder %<-std=gnu11%> verwenden, um den Code zu übersetzenverwenden Sie einen Referenztyp, um das Kopieren zu sparenverwenden Sie stattdessen die Apostroph-Direktive %qsArray, das nicht in Zeiger umgewandelt werden kann, anstelle des geforderten Skalars verwendetals umgeschriebener Kandidat für den Vergleich von %qT und %qT verwendetWert eines struct-Typs anstelle des geforderten Skalars verwendetWert eines union-Typs anstelle des geforderten Skalars verwendetVektortyp verwendet, wo Skalars benötigt wirdnutzloses %<_Alignas%> in leerer Deklarationnutzloses %qs in leerer Deklarationnutzlose Umwandlung in Typ %q#TNutzlose Speicherklassenangabe in leerer DeklarationNutzloser Typname in leerer DeklarationNutzloser Typqualifizierer in leerer Deklarationbenutzerdefinierte Reduktionsauflösung ist mehrdeutigbenutzerdefinierte Reduktion für %qE nicht gefundenbenutzerdefinierte Reduktion mit Konstruktorinitialisierung für Basisklasse %qTbenutzerdefiniertes %qD wertet immer beide Argumente ausbenutzerdefinierte Literale nur mit %<-std=c++11%> oder %<-std=gnu++11%> verfügbarverwendet %qD, das jedoch keinen Ausrichtungsparameter hat%<%c%s%> wird verwendet%<num_workers (%d)%> wird verwendet, %d wird ignoriert%<vector_length (64)%> wird verwendet, %d wird ignoriert%<vector_length (64)%> wird verwendet, Laufzeiteinstellung wird ignoriertVerwendung von %qs mit vorzeichenlosem Typ hat keinen EffektTemplatespezialisierung alias %qT hinter %qs wird verwendetdie Funktion %qD berechnet den Betrag einer komplexen Zahl, bekommt hier jedoch ein Argument vom Gleitkommatyp %qT übergebendie Funktion %qD berechnet den Betrag einer komplexen Gleitkommazahl, bekommt hier jedoch ein Argument vom Ganzzahltyp %qT übergebendarwin64-ABI wird verwendetdie Funktion %qD berechnet den Betrag einer dezimalen Gleitkommazahl, bekommt hier jedoch ein Argument vom komplexen Typ %qT übergebendie Funktion %qD berechnet den Betrag einer dezimalen Gleitkommazahl, bekommt hier jedoch ein Argument vom binären Gleitkommatyp %qT übergebendie Funktion %qD berechnet den Betrag einer dezimalen Gleitkommazahl, bekommt hier jedoch ein Argument vom Ganzzahltyp %qT übergebendie Funktion %qD berechnet den Betrag einer binären Gleitkommazahl, bekommt hier jedoch ein Argument vom komplexen Typ %qT übergebendie Funktion %qD berechnet den Betrag einer binären Gleitkommazahl, bekommt hier jedoch ein Argument vom dezimalen Gleitkommatyp %qT übergebendie Funktion %qD berechnet den Betrag einer Gleitkommazahl, bekommt hier jedoch ein Argument vom Ganzzahltyp %qT übergebendie Funktion %qD berechnet den Betrag einer Ganzzahl, bekommt hier jedoch ein Argument vom komplexen Typ %qT übergebendie Funktion %qD berechnet den Betrag einer Ganzzahl, bekommt hier jedoch ein Argument vom Gleitkommatyp %qT übergebenungültiges Feld %qD wird verwendetnum_workers (%d) wird verwendet, %d wird ignoriertAltes darwin-ABI wird verwendetErgebnis einer %<void%> zurückgebenden Funktion verwendetrvalue wird als lvalue verwendetNach der Registerbelegung wird eine einfache CSE verwendetTemplatetyp-Parameter %qT wird nach %qs verwendetdas Intervall [%E, %E] wird für das Argument der Direktive verwendettypedef-Name %qD wird nach %qs verwendetdie Verwendung des Wertes der einfachen Zuweisung mit %<volatile%>-qualifiziertem linken Operand ist veraltetvector_length (%d) wird verwendet, da eine vektor-partitionierbare Routine aufgerufen wird, %d wird ignoriertvector_length (%d) wird verwendet, %d wird ignoriertvector_length (%d) wird verwendet, Laufzeiteinstellung wird ignoriert%<using%>-Deklaration für Element außerhalb des Gültigkeitsbereichs der Klasse»using«-Deklaration für Nicht-Element im Gültigkeitsbereich der Klasse%<using%>-Deklaration darf den Namensraum %qD nicht benennengültige Argumente sind: %sgültige Argumente sind: %s;gültige Argumente sind: %s; meinten Sie %qs?gültige Argumente für %<-march=%> sind: %sgültige Argumente für %<-march=%> sind: %s; meinten Sie %qs?gültige Argumente für %<-mtune=%> sind: %sgültige Argumente für %<-mtune=%> sind: %s; meinten Sie %qs?gültige Argumente für %<target("arch=")%> sind: %sgültige Argumente für %<target("arch=")%> sind: %s; meinten Sie %qs?gültige Argumente für %<target("tune=")%> sind: %sgültige Argumente für %<target("tune=")%> sind: %s; meinten Sie %qs?gültige Argumente für %qs sind: %sgültige Argumente für %qs sind: %s; meinten Sie %qs?gültige Featurenamen sind: %sgültige Featurenamen sind: %s; meinten Sie %qs?gültive Werte für eingebautes %qF, Argument %d, sind 64, 128, 256, 512, 1024, 2048, und 4096Wert %qE vom Typ %qT ist kein KonstantenausdruckWert %qs wird von Attribut %<target%> nicht unterstütztWertargumentberechneter Wert ist unbenutztWert von %<-mfixed-range%> muss die Form REG1-REG2 habenin %qs übergebener Wert ist zu großWertinitialisierung des Funktionstypen %qTWertinitialisierung des unvollständigen Typen %qTWertinitialisierung des Referenztypen %qTvar-tracking-assignments ändert selektive PlanungVariableVariable %q#D hat Initialisierung, aber unvollständigen TypVariable %q+D als %<_Noreturn%> deklariertVariable %q+D als %<inline%> deklariertVariablendefinition von %q+D ist als dllimport markiertVariable %q+D könnte von %<longjmp%> oder %<vfork%> zerstört werdenVariable %q+D muss konstant sein, um mit %qs in Nur-Lese-Abschnitt gelegt zu werdenVariable %q+D Teil des Alias-Zyklusdynamisch initialisierte Variable %q+D in Programmspeicherbereich platziertVariable %qD hat FunktionstypVariable %qD hat Initialisierung, aber unvollständigen TypVariable %qD des nicht-literalen Typs %qT in %<constexpr%>-FunktionVariable %qD als Funktion redeklariertVariable %qD gesetzt, aber nicht verwendetVariable %qD wird in %<#pragma acc declare%> mehr als einmal verwendetVariable %qE in umgebender %<host_data%>-Region deklariertVariable %qE ist keine Iteration der äußersten Schleife %d, jedoch %qE erwartetauf Variable %qE des unvollständigen Typs %qT wird in Erhöhungsausdruck nicht zugegriffenauf Variable %qE des unvollständigen Typs %qT wird nicht im linken Operanden des Kommaoperators zugegriffenauf Variable %qE des unvollständigen Typs %qT wird nicht im rechten Operanden des Kommaoperators zugegriffenauf Variable %qE des unvollständigen Typs %qT wird nicht im zweiten Operanden des bedingten Ausdrucks zugegriffenauf Variable %qE des unvollständigen Typs %qT wird in Anweisung nicht zugegriffenauf Variable %qE des unvollständigen Typs %qT wird nicht im dritten Operanden des bedingten Ausdrucks zugegriffenVariable %qs wurde in ausgelagertem Code referenziert, wurde aber nicht markiert, dass sie im ausgelagerten Code enthalten sein dürfteVariablenkonzept hat keine InitialisierungArray %qD variabler Länge wird verwendetArray variabler Größe wird verwendetElementtyp variabler Länge in %<reduction%>-Klausel eines ArraysVariable mit demselben Assemblernamen wie die virtuelle Tabelle ist in anderer Übersetzungseinheit definiertVariable oder Feld %qE als »void« deklariertVariable oder Feld als »void« deklariertals %<extern%> redeklarierte Variable war bereits als %<static%> deklariertTyp %qT mit variabler Länge in %<reduction%>-KlauselTyp %qT mit variabler Größe in %qs-KlauselInterner Fehler: variable symbol is not variableVariablentemplate hier deklariertBezeichner %qD für Variablentemplate ist geschachteltem Namens-Spezifizierervariable Templates sind nur mit %<-std=c++14%> oder %<-std=gnu++14%> verfügbarVariablenverfolgung angefordert, jedoch nicht von diesem Debug-Format unterstütztVariablenverfolgung angefordert, jedoch nutzlos ohne Debug-InfoGrenze zur Variablenverfolgung überschrittenObere Größengrenze zur Variablenverfolgung mit %<-fvar-tracking-assignments%> überschritten; neuer Versuch ohnezusammengesetztes Literal variabler GrößeObjekt variabler Größe darf nicht initialisiert werdenVariablen können nicht vom Typ %<void%> seinvariabel modifiziertes %qE im Dateibereichvariabel modifiziertes Feld im Dateibereichim »new«-Ausdruck ist kein variabel modifizierter Typ erlaubtvariadische Funktionen müssen die AAPCS-Basisvariante verwendenvariadische Templates nur mit %<-std=c++11%> oder %<-std=gnu++11%> verfügbarvariadischer Thunk-AufrufVariante %qD und Basis %qD haben unverträgliche Typendie Variante %qD ist eine eingebauteVariante %qD ist keine Funktion%qs-Element des Vektors ist kein GIMPLE-WertVektor-%qs mit Elementindex, der nicht NULL istVektor-Argument an Funktion ohne Prototyp übergebenVektorbedingung wird stückweise ausgeweitetVektoroperation wird parallel ausgeweitetVektoroperation wird stückweise ausgeweitetVektoroperation wird mit einzelner skalarer Operation ausgeweitetVektorüberlauf in Ausdruck %qE des Typs %qT ergibt %qEVektorüberlauf in Ausdruck des Typs %qT ergibt %qEVektorumverteilungsoperation wird stückweise ausgeweitetVektorgröße kein ganzzahliges Vielfaches der KomponentengrößeVektortypen erwartet in %qsVektortypen erwartet in %qsVektorisierung für eine SIMD-Schleife nicht durchgeführtVektoren unterschiedlicher Elementanzahl in %qs gefundenverify_bind_c_derived_type(): Given symbol is unexpectedly NULLInterner Fehler: verify_cgraph_node failedInterner Fehler: verify_flow_info failedInterner Fehler: verify_flow_info: Basic block %d succ edge is corruptedInterner Fehler: verify_flow_info: Block %i has loop_father, but there are no loopsInterner Fehler: verify_flow_info: Block %i lacks loop_fatherInterner Fehler: verify_flow_info: Duplicate edge %i->%iInterner Fehler: verify_flow_info: Incorrect blocks for fallthru %i->%iInterner Fehler: verify_flow_info: Incorrect fallthru %i->%iInterner Fehler: verify_flow_info: Missing count of block %iInterner Fehler: verify_flow_info: REG_BR_PROB does not match cfg %i %iInterner Fehler: verify_flow_info: REG_BR_PROB is set but cfg probability is notInterner Fehler: verify_flow_info: Wrong count of block %iInterner Fehler: verify_flow_info: Wrong probability of edge %i->%iverify_gimple failedverify_ssa gescheitertVersionsattribut ist keine ZeichenketteKonfliktmarker für Versionskontrolle in Dateivon %qT geerbte Version ist hier deklariertVersion von %<g%> wird weggelassen, bitte geben Sie die Version für die individuelle Erweiterung an.das versionierte Symbol muss %<public%> seinversioniertes Symbol muss standardmäßige Sichtbarkeit habenvirt-Spezifikation in %qs ist außerhalb einer Klassendefinition nicht erlaubtvirtual PHI with argument locationsvirtual SSA name for non-VOP declvirtuelle Basis %qT ist in %qT durch Mehrdeutigkeit unzugänglichfür Anweisung fehlt virtueller Definitions-Operandvirtual definition is not an SSA namevirtuelle Definition der Anweisung nicht aktuellvirtuelle Funktion %q+D übersteuert final-Funktionvirtuelle Funktionen kann keinen hergeleiteten Rückgabetyp habenMultiversionierung virtueller Funktionen wird nicht unterstütztvirtuelle Funktionen können erst mit C++20 %<constexpr%> seinvirtuelle Funktionen können keine friends seinvirtuelle Methode %qDvirtuelle Nicht-Klassen-Funktion %qsvirtuelle Tabelle des Typs %qD enthält RTTI-Informationvirtuelle Tabelle des Typs %qD verletzt die One-Definition-RuleZeiger auf Virtuelle Tabelle wird uninitialisiert verwendetvirtuelle Verwendung von Anweisung nicht aktuellfür die Anweisung fehlt der virtuelle Verwendungs-OperandSichtbarkeitsargument ist keine ZeichenketteSichtbarkeitsattribute werden in dieser Konfiguration nicht unterstützt; ignoriertvms »#pragma __message« wird ignoriertvoid-Initialisierer für Zeiger ist in %<safe%>-Funktionen nicht erlaubtvoid-Wert nicht ignoriert wie es sein sollteflüchtiges Argumentvtable für Vtable-Verifikation wird in Kombination mit LTO nicht unterstütztwaitpid gescheitertWarnung: Warnung: Evtl. mit »-static« linken, da Systembibliotheken mit»%s« wurde erwartetschwaches %q+D kann nicht als %qE definiert werdenschwache Aliase werden nicht unterstütztschwache Deklaration von %q+D wird auf bereits existierende »static«-Definition angewandtschwache Deklaration von %q+D muss öffentlich seinschwache Deklaration von %q+D wird nicht unterstütztweakref wird in dieser Konfiguration nicht unterstütztGewichte müssen nichtnegativ seinbeim Schreiben der Ausgabe nach %s: %mwährend %qT in %E Elemente zerlegt wirdwährend %qT in %wu Element zerlegt wirdwährend %qT in %wu Elemente zerlegt wirdBreite von %qD übersteigt seinen TypenBreite von %qs überschreitet dessen TypenBreite des Bit-Feldes %qD hat Nicht-Ganzzahl-Typ %qTmitinnerhalb dieser Schleifeohne %<-gdwarf-5%> ist %<-gvariable-location-views=incompat5%> gleichbedeutend mit %<-gvariable-location-views%>ohne »this« kann »%s« nicht seinarbeitsteilende Region darf nicht innerhalb einer Region eng geschachtelt sein, die arbeitsteilend, %<loop%>, %<critical%>, %<ordered%>, %<master%>, explizit %<task%> oder %<taskloop%> istSchreiben von %wu Bit Daten außerhalb der Grenzen des Zielobjekts, Daten wurden auf %wu Bit abgeschnittenwrite_atom(): Trying to write dab atomwrite_symbol(): bad module symbol %qswrite_symtree(): Symbol not writtenSchreiben in konstantes Objekt (Argument %d)Ausgabedatei wird geschriebenSchreiben über Null-Zeiger (Argument %d)beim Schreiben in LTRANS-Ausgabeliste %s: %mSchreibzugriff auf Adressraum %qs wird nicht unterstütztInterner Compilerfehler: wrong %<TYPE_CACHED_VALUES%> entryInterner Fehler: wrong amount of branch edges after conditional jump in bb %iInterner Fehler: wrong amount of branch edges after unconditional jump %ifalsches Argument %qs für Option %qsFalsche Kante %d->%d für PHI-ArgumentInterner Compilerfehler: wrong entry in %<TYPE_ARG_TYPES%> listFalsche Liste zur sofortigen Verwendungfalscher Befehl in »fallthru«-Kantefalsche Liste der verlassenen Schleifen für Kante %d->%dFalsche Anzahl an Argumenten für das Attribut %qE angegebenfalsche Anzahl der Argumente für %%:debug-level-gtfalsche Anzahl von Argumenten für %%:dwarf-version-gtfalsche Anzahl von Argumenten für %<__builtin_addressof%>falsche Anzahl der Argumente für %<__builtin_call_with_static_chain%>falsche Anzahl der Argumente für %<__builtin_choose_expr%>falsche Anzahl der Argumente für %<__builtin_complex%>falsche Anzahl von Argumenten für %<__builtin_convertvector%>falsche Anzahl von Argumenten für %<__builtin_launder%>falsche Anzahl der Argumente für %<__builtin_shuffle%>falsche Anzahl der Argumente für Funktion %<__builtin_next_arg%>falsche Anzahl der Argumente für Funktion %<va_start%>Interner Fehler: wrong number of branch edges after unconditional jump in bb %ifalsche Anzahl der Templateargumente (%d, sollte %d sein)falsche Anzahl der Templateargumente (%d, sollte mindestens %d sein)Falsche ausgehende Kantenmarken am Ende des bb %dfalscher Strategiename %qs für Option %qs angegebenInterner Compilerfehler: wrong tree in %<TYPE_FIELDS%> listArgument falschen Typs für %sArgument falschen Typs für absfalsches Typargument für »absu«Argument falschen Typs für Bit-KomplementArgument falschen Typs für KonjugationArgument falschen Typs für DekrementierungArgument falschen Typs für InkrementierungArgument falschen Typs für unäres AusrufungszeichenArgument falschen Typs für unäres MinusArgument falschen Typs für unäres PlusArgument falschen Typs für »%s«x87-Registerrückgabe mit ausgeschaltetem x87xstormy16_print_operand: unbekannter CodeSie können SVE mit der Befehlszeilenoption %<-march%>, oder mit dem Attribut %<target%> oder Pragma aktivierenSie können stattdessen einen inline-Namensraum verwendendies kann durch das Löschen der Initialisierung umgangen werdenBei Verwendung der Option %qs kann die Adresse von geschachtelten Funktionen nicht verwendet werdenz/Architektur.Null als NullzeigerkonstanteArrayabschnitt der Länge 0 in %qs-KlauselArraygröße von %q+D ist null oder negativTyp %qT mit Größe 0 in %<reduction%>-KlauselTyp %qT mit Größe 0 in %qs-KlauselVektorgröße NullBreite Null für Bitfeld %q+DBreite Null für Bitfeld %qsBreite null im Format %sFormat-Zeichenkette %s der Länge nullleere Zeichenkette ist für gemangelten Namen nicht erlaubtArray %qD der Größe nullArray %qT der Größe nullArrayelement %qD mit Länge 0 in ansonsten leerem %q#TArrayelement %qD mit Länge 0 befindet sich nicht am Ende von %q#T{anonym}{fehlerhaft}
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