kc3-lang/gnulib/lib/fenv-except-state-set.c

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• Hash : b1fcec6d
  Author :
  Date : 2025-09-10T23:22:53
  

  Remove support for IRIX.
  
  * all-modules: Update comments.
  * build-aux/install-reloc: Likewise.
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  * gnulib-tool: Likewise.
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  * gnulib-tool.sh: Likewise.
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  * lib/c32srtombs-state.c: Likewise.
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  * lib/c32width.c: Likewise.
  * lib/errno.in.h: Likewise.
  * lib/euidaccess.c: Likewise.
  * lib/fbufmode.c: Likewise.
  * lib/fenv-except-state-get.c: Likewise.
  * lib/fenv-except-state-set.c: Likewise.
  * lib/fenv-except-tracking-clear.c: Likewise.
  * lib/fenv-except-tracking-set.c: Likewise.
  * lib/fenv-except-tracking-test.c: Likewise.
  * lib/fenv-except-trapping.c: Likewise.
  * lib/fenv-round.c: Likewise.
  * lib/fflush.c: Likewise.
  * lib/fileblocks.c: Likewise.
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  * lib/limits.in.h: Likewise.
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  * lib/unistd.in.h: Likewise.
  * lib/vasnprintf.c: Likewise.
  * lib/wcrtomb.c: Likewise.
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  * m4/fenv-environment.m4: Likewise.
  * m4/fenv-exceptions-state.m4: Likewise.
  * m4/fenv-exceptions-tracking.m4: Likewise.
  * m4/fenv-rounding.m4: Likewise.
  * m4/fmod.m4: Likewise.
  * m4/getdomainname.m4: Likewise.
  * m4/getloadavg.m4: Likewise.
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  * tests/test-strtof.h: Likewise.
  * tests/test-strtold.h: Likewise.
  * tests/test-vasnprintf.c: Likewise.
  * tests/test-vasnwprintf.c: Likewise.
  

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• lib/fenv-except-state-set.c

• /* Functions for saving the floating-point exception status flags.
     Copyright (C) 1997-2025 Free Software Foundation, Inc.
  
     This file is free software: you can redistribute it and/or modify
     it under the terms of the GNU Lesser General Public License as
     published by the Free Software Foundation; either version 2.1 of the
     License, or (at your option) any later version.
  
     This file is distributed in the hope that it will be useful,
     but WITHOUT ANY WARRANTY; without even the implied warranty of
     MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
     GNU Lesser General Public License for more details.
  
     You should have received a copy of the GNU Lesser General Public License
     along with this program.  If not, see <https://www.gnu.org/licenses/>.  */
  
  /* Based on glibc/sysdeps/<cpu>/{fgetexcptflg.c,fsetexcptflg.c}
     together with glibc/sysdeps/<cpu>/{fpu_control.h,fenv_private.h,fenv_libc.h}.  */
  
  #include <config.h>
  
  /* Specification.  */
  #include <fenv.h>
  
  #include "fenv-private.h"
  
  #if defined __GNUC__ || defined __clang__ || defined _MSC_VER
  
  # if (defined __x86_64__ || defined _M_X64) || (defined __i386 || defined _M_IX86)
  
  /* On most OSes, fexcept_t is binary-equivalent to an 'unsigned short'.
     On NetBSD, OpenBSD, Solaris, Cygwin, MSVC, Android/x86_64, Minix, fexcept_t
     is equivalent to an 'unsigned int'.
     A simple C cast does the necessary conversion.  */
  
  int
  fesetexceptflag (fexcept_t const *saved_flags, int exceptions)
  {
    exceptions &= FE_ALL_EXCEPT;
  
    unsigned int desired_flags = (unsigned int) *saved_flags;
  
    exceptions = exceptions_to_x86hardware (exceptions);
    desired_flags = exceptions_to_x86hardware (desired_flags);
  
  #  if defined _MSC_VER
  
    /* Modify the flags in the SSE unit.  */
    unsigned int mxcsr, orig_mxcsr;
    _FPU_GETSSECW (orig_mxcsr);
    mxcsr = orig_mxcsr ^ ((orig_mxcsr ^ desired_flags) & exceptions);
    if (mxcsr != orig_mxcsr)
      _FPU_SETSSECW (mxcsr);
  
  #  else
  
    /* The flags can be set in the 387 unit or in the SSE unit.
       When we need to clear a flag, we need to do so in both units,
       due to the way fetestexcept() is implemented.
       When we need to set a flag, it is sufficient to do it in the SSE unit,
       because that is guaranteed to not trap.  However, on i386 CPUs that have
       only a 387 unit, set the flags in the 387, as long as this cannot trap.  */
  
    if (CPU_HAS_SSE ())
      {
        /* Modify the flags in the SSE unit.  */
        unsigned int mxcsr, orig_mxcsr;
        _FPU_GETSSECW (orig_mxcsr);
        mxcsr = orig_mxcsr ^ ((orig_mxcsr ^ desired_flags) & exceptions);
        if (mxcsr != orig_mxcsr)
          _FPU_SETSSECW (mxcsr);
  
        /* Modify the flags in the 387 unit, but only by clearing bits, not by
           setting bits.  */
        x86_387_fenv_t env;
        __asm__ __volatile__ ("fnstenv %0" : "=m" (*&env));
        /* Note: fnstenv masks all floating-point exceptions until the fldenv
           below.  */
        env.__status_word &= ~ (exceptions & ~desired_flags);
        __asm__ __volatile__ ("fldenv %0" : : "m" (*&env));
      }
  #   if !(defined __x86_64__ || defined _M_X64)
    else
      {
        /* Modify the flags in the 387 unit.  */
        x86_387_fenv_t env;
        __asm__ __volatile__ ("fnstenv %0" : "=m" (*&env));
        /* Note: fnstenv masks all floating-point exceptions until the fldenv
           or fldcw below.  */
        env.__status_word ^= ((env.__status_word ^ desired_flags) & exceptions);
        if ((~env.__control_word) & env.__status_word & exceptions)
          {
            /* Setting the exception flags may trigger a trap (at the next
               floating-point instruction, but that does not matter).
               ISO C 23 § 7.6.4.5 does not allow it.  */
            __asm__ __volatile__ ("fldcw %0" : : "m" (*&env.__control_word));
            return -1;
          }
        __asm__ __volatile__ ("fldenv %0" : : "m" (*&env));
      }
  #   endif
  #  endif
    return 0;
  }
  
  # elif defined __aarch64__ /* arm64 */
  
  /* On Linux, NetBSD, and Android, fexcept_t is binary-equivalent to
     an 'unsigned int'.
     On macOS, fexcept_t is binary-equivalent to an 'unsigned short'.
     On FreeBSD and OpenBSD, fexcept_t is binary-equivalent to an 'unsigned long'.
     A simple C cast does the necessary conversion.  */
  
  int
  fesetexceptflag (fexcept_t const *saved_flags, int exceptions)
  {
    unsigned long desired_flags = (unsigned long) *saved_flags;
    unsigned long fpsr, orig_fpsr;
    _FPU_GETFPSR (orig_fpsr);
    fpsr = orig_fpsr ^ ((orig_fpsr ^ desired_flags) & FE_ALL_EXCEPT & exceptions);
    if (fpsr != orig_fpsr)
      _FPU_SETFPSR (fpsr);
    /* Possibly some new exception flags have been set.  But just storing them
       does not cause a trap to be executed (when traps are enabled).  */
    return 0;
  }
  
  # elif defined __arm__
  
  /* On all OSes, fexcept_t is binary-equivalent to an 'unsigned int'.  */
  
  int
  fesetexceptflag (fexcept_t const *saved_flags, int exceptions)
  {
  #  ifdef __SOFTFP__
    if (exceptions != 0)
      return -1;
  #  else
    unsigned int desired_flags = (unsigned int) *saved_flags;
    unsigned int fpscr, orig_fpscr;
    _FPU_GETCW (orig_fpscr);
    fpscr = orig_fpscr ^ ((orig_fpscr ^ desired_flags) & FE_ALL_EXCEPT & exceptions);
    if (fpscr != orig_fpscr)
      _FPU_SETCW (fpscr);
  #  endif
    return 0;
  }
  
  # elif defined __alpha
  
  /* On all OSes except NetBSD and OpenBSD, fexcept_t is binary-equivalent to
     an 'unsigned long'.
     On NetBSD, it is equivalent to an 'unsigned short'.
     On OpenBSD, it is equivalent to an 'unsigned int'.
     A simple C cast does the necessary conversion.  */
  
  int
  fesetexceptflag (fexcept_t const *saved_flags, int exceptions)
  {
    unsigned long desired_flags = (unsigned long) *saved_flags;
    unsigned long swcr, orig_swcr;
    orig_swcr = __ieee_get_fp_control ();
    swcr = orig_swcr ^ ((orig_swcr ^ desired_flags) & FE_ALL_EXCEPT & exceptions);
    if (swcr != orig_swcr)
      __ieee_set_fp_control (swcr);
    /* Possibly some new exception flags have been set.  But just storing them
       does not cause a trap to be executed (when traps are enabled).  */
    return 0;
  }
  
  # elif defined __hppa
  
  /* On all OSes, fexcept_t is binary-equivalent to an 'unsigned int'.  */
  
  int
  fesetexceptflag (fexcept_t const *saved_flags, int exceptions)
  {
    unsigned int desired_flags = (unsigned int) *saved_flags;
    union { unsigned long long fpreg; unsigned int halfreg[2]; } s;
    /* Get the current status word. */
    __asm__ __volatile__ ("fstd %%fr0,0(%1)" : "=m" (s.fpreg) : "r" (&s.fpreg) : "%r0");
    unsigned int old_halfreg0 = s.halfreg[0];
    /* Modify all the relevant bits. */
    s.halfreg[0] ^= (s.halfreg[0] ^ (desired_flags << 27)) & ((FE_ALL_EXCEPT & exceptions) << 27);
    if (s.halfreg[0] != old_halfreg0)
      {
        /* Store the new status word.  */
        __asm__ __volatile__ ("fldd 0(%0),%%fr0" : : "r" (&s.fpreg), "m" (s.fpreg) : "%r0");
      }
    /* Possibly some new exception flags have been set.  But just storing them
       does not cause a trap to be executed (when traps are enabled).  */
    return 0;
  }
  
  # elif defined __ia64__
  
  /* On all OSes except NetBSD, fexcept_t is binary-equivalent to
     an 'unsigned long'.
     On NetBSD, it is equivalent to an 'unsigned short'.
     A simple C cast does the necessary conversion.  */
  
  int
  fesetexceptflag (fexcept_t const *saved_flags, int exceptions)
  {
    unsigned long desired_flags = (unsigned long) *saved_flags;
    unsigned long fpsr, orig_fpsr;
    _FPU_GETCW (orig_fpsr);
    fpsr = orig_fpsr ^ ((orig_fpsr ^ (desired_flags << 13)) & ((FE_ALL_EXCEPT & exceptions) << 13));
    if (fpsr != orig_fpsr)
      _FPU_SETCW (fpsr);
    /* Possibly some new exception flags have been set.  But just storing them
       does not cause a trap to be executed (when traps are enabled).  */
    return 0;
  }
  
  # elif defined __m68k__
  
  /* On all OSes, fexcept_t is binary-equivalent to an 'unsigned int'.  */
  
  int
  fesetexceptflag (fexcept_t const *saved_flags, int exceptions)
  {
    unsigned int desired_flags = (unsigned int) *saved_flags;
    unsigned int fpsr, orig_fpsr;
    _FPU_GETFPSR (orig_fpsr);
    fpsr = orig_fpsr ^ ((orig_fpsr ^ desired_flags) & FE_ALL_EXCEPT & exceptions);
    if (fpsr != orig_fpsr)
      _FPU_SETFPSR (fpsr);
    /* Possibly some new exception flags have been set.  But just storing them
       does not cause a trap to be executed (when traps are enabled).  */
    return 0;
  }
  
  # elif defined __mips__
  
  /* On all OSes except NetBSD and OpenBSD, fexcept_t is binary-equivalent to
     an 'unsigned short'.
     On NetBSD and OpenBSD, it is equivalent to an 'unsigned int'.
     A simple C cast does the necessary conversion.  */
  
  int
  fesetexceptflag (fexcept_t const *saved_flags, int exceptions)
  {
    unsigned int desired_flags = (unsigned int) *saved_flags;
    unsigned int fcsr, orig_fcsr;
    _FPU_GETCW (orig_fcsr);
    fcsr = orig_fcsr ^ ((orig_fcsr ^ desired_flags) & FE_ALL_EXCEPT & exceptions);
    if (fcsr != orig_fcsr)
      _FPU_SETCW (fcsr);
    return 0;
  }
  
  # elif defined __loongarch__
  
  /* On all OSes, fexcept_t is binary-equivalent to an 'unsigned int'.  */
  
  int
  fesetexceptflag (fexcept_t const *saved_flags, int exceptions)
  {
    unsigned int desired_flags = (unsigned int) *saved_flags;
    unsigned int fcsr, orig_fcsr;
    _FPU_GETCW (orig_fcsr);
    fcsr = orig_fcsr ^ ((orig_fcsr ^ desired_flags) & FE_ALL_EXCEPT & exceptions);
    if (fcsr != orig_fcsr)
      _FPU_SETCW (fcsr);
    /* Possibly some new exception flags have been set.  But just storing them
       does not cause a trap to be executed (when traps are enabled).  */
    return 0;
  }
  
  # elif defined __powerpc__
  
  /* On all OSes, fexcept_t is binary-equivalent to an 'unsigned int'.  */
  
  int
  fesetexceptflag (fexcept_t const *saved_flags, int exceptions)
  {
    /* The hardware does not support setting an exception flag without triggering
       a trap, except through the "Ignore Exceptions Mode", bits FE0 and FE1 of
       the MSR register set to zero, that can be obtained through a system call:
         - On Linux and NetBSD: prctl (PR_SET_FPEXC, PR_FP_EXC_DISABLED);
         - On AIX: fp_trap (FP_TRAP_OFF);
       But that is not what we need here, as it would have a persistent effect on
       the thread.  */
    exceptions &= FE_ALL_EXCEPT;
  
    unsigned int desired_flags = (unsigned int) *saved_flags;
    desired_flags &= exceptions;
  
    union { unsigned long long u; double f; } memenv, orig_memenv;
    _FPU_GETCW_AS_DOUBLE (memenv.f);
    orig_memenv = memenv;
  
    /* Instead of clearing FE_INVALID (= bit 29), we need to clear the
       individual bits.  */
    memenv.u &= ~ (exceptions & FE_INVALID
                   ? (exceptions & ~FE_INVALID) | 0x01F80700U
                   : exceptions);
    /* Instead of setting FE_INVALID (= bit 29), we need to set one of the
       individual bits: bit 10 or, if that does not work, bit 24.  */
    memenv.u |= (desired_flags & FE_INVALID
                 ? (desired_flags & ~FE_INVALID) | (1U << 10)
                 : desired_flags);
  
    if (!(memenv.u == orig_memenv.u))
      {
        if (memenv.u & (exceptions >> 22))
          {
            /* Setting the exception flags may trigger a trap.
               ISO C 23 § 7.6.4.5 does not allow it.  */
            return -1;
          }
        _FPU_SETCW_AS_DOUBLE (memenv.f);
        if (desired_flags & FE_INVALID)
          {
            /* Did it work?  */
            _FPU_GETCW_AS_DOUBLE (memenv.f);
            if ((memenv.u & FE_INVALID) == 0)
              {
                memenv.u |= (1U << 24);
                _FPU_SETCW_AS_DOUBLE (memenv.f);
              }
          }
      }
  
    return 0;
  }
  
  # elif defined __riscv
  
  /* On all OSes except FreeBSD, fexcept_t is binary-equivalent to
     an 'unsigned int'.
     On FreeBSD, it is equivalent to an 'unsigned long'.
     A simple C cast does the necessary conversion.  */
  
  int
  fesetexceptflag (fexcept_t const *saved_flags, int exceptions)
  {
  #  if 1 /* both should be equivalent */
    exceptions &= FE_ALL_EXCEPT;
  
    unsigned int desired_flags = (unsigned int) *saved_flags;
    desired_flags &= exceptions;
  
    __asm__ __volatile__ ("csrc fflags, %0" : : "r" (exceptions));
    __asm__ __volatile__ ("csrs fflags, %0" : : "r" (desired_flags));
  #  else
    unsigned int desired_flags = (unsigned int) *saved_flags;
    unsigned int fcsr, orig_fcsr;
    __asm__ __volatile__ ("frflags %0" : "=r" (orig_fcsr)); /* same as "csrr %0, fflags" */
    fcsr = orig_fcsr ^ ((orig_fcsr ^ desired_flags) & FE_ALL_EXCEPT & exceptions);
    if (fcsr != orig_fcsr)
      __asm__ __volatile__ ("fsflags %0" : : "r" (fcsr)); /* same as "csrw fflags, %0" */
  #  endif
  
    return 0;
  }
  
  # elif defined __s390__ || defined __s390x__
  
  /* On all OSes, fexcept_t is binary-equivalent to an 'unsigned int'.  */
  
  int
  fesetexceptflag (fexcept_t const *saved_flags, int exceptions)
  {
    unsigned int desired_flags = (unsigned int) *saved_flags;
    unsigned int fpc, orig_fpc;
    _FPU_GETCW (orig_fpc);
  #  if FE_INEXACT == 8 /* glibc compatible FE_* values */
    fpc = orig_fpc ^ ((orig_fpc ^ (desired_flags << 16)) & ((FE_ALL_EXCEPT & exceptions) << 16));
    if ((fpc & 0x00000300) == 0)
      /* Clear the corresponding bits of the "data exception code".  */
      fpc &= ~((FE_ALL_EXCEPT & exceptions) << 8);
  #  else /* musl libc compatible FE_* values */
    fpc = orig_fpc ^ ((orig_fpc ^ desired_flags) & FE_ALL_EXCEPT & exceptions);
    if ((fpc & 0x00000300) == 0)
      /* Clear the corresponding bits of the "data exception code".  */
      fpc &= ~((FE_ALL_EXCEPT & exceptions) >> 8);
  #  endif
    if (fpc != orig_fpc)
      _FPU_SETCW (fpc);
    /* Possibly some new exception flags have been set.  But just storing them
       does not cause a trap to be executed (when traps are enabled).  */
    return 0;
  }
  
  # elif defined __sh__
  
  /* On glibc, fexcept_t is binary-equivalent to an 'unsigned short'.
     On all other OSes, fexcept_t is binary-equivalent to an 'unsigned int'.
     A simple C cast does the necessary conversion.  */
  
  int
  fesetexceptflag (fexcept_t const *saved_flags, int exceptions)
  {
    unsigned int desired_flags = (unsigned int) *saved_flags;
    unsigned int fpscr, orig_fpscr;
    _FPU_GETCW (orig_fpscr);
    fpscr = orig_fpscr ^ ((orig_fpscr ^ desired_flags) & FE_ALL_EXCEPT & exceptions);
    if (fpscr != orig_fpscr)
      _FPU_SETCW (fpscr);
    /* Possibly some new exception flags have been set.  But just storing them
       does not cause a trap to be executed (when traps are enabled).  */
    return 0;
  }
  
  # elif defined __sparc
  
  /* On all OSes except Solaris, fexcept_t is binary-equivalent to an 'unsigned long'.
     On Solaris, fexcept_t is an 'int'.
     A simple C cast does the necessary conversion.  */
  
  int
  fesetexceptflag (fexcept_t const *saved_flags, int exceptions)
  {
    unsigned long desired_flags = (unsigned long) *saved_flags;
    unsigned long fsr, orig_fsr;
    _FPU_GETCW (orig_fsr);
  #  if FE_INEXACT == 32 /* glibc compatible FE_* values */
    fsr = orig_fsr ^ ((orig_fsr ^ desired_flags) & FE_ALL_EXCEPT & exceptions);
  #  else /* Solaris compatible FE_* values */
    fsr = orig_fsr ^ ((orig_fsr ^ (desired_flags << 5)) & ((FE_ALL_EXCEPT & exceptions) << 5));
  #  endif
    if (fsr != orig_fsr)
      _FPU_SETCW (fsr);
    /* Possibly some new exception flags have been set.  But just storing them
       does not cause a trap to be executed (when traps are enabled).  */
    return 0;
  }
  
  # else
  
  #  if defined __GNUC__ || defined __clang__
  #   warning "Unknown CPU / architecture. Please report your platform and compiler to <bug-gnulib@gnu.org>."
  #  endif
  #  define NEED_FALLBACK 1
  
  # endif
  
  #else
  
  /* The compiler does not support __asm__ statements or equivalent
     intrinsics.  */
  
  # if (defined __sun || __GLIBC__ >= 2) && ((defined __x86_64__ || defined _M_X64) || (defined __i386 || defined _M_IX86)) && defined __SUNPRO_C
  /* Solaris/i386, Solaris/x86_64, glibc/i386, glibc/x86_64, with SunPRO C.  */
  
  /* On these Solaris platforms, fpsetsticky cannot be used here, because it may
     generate traps (since fpsetsticky calls _putsw, which modifies the control
     word of the 387 unit).  Instead, we need to modify only the flags in the SSE
     unit.  */
  
  /* Accessors for the mxcsr register.  Fortunately, the SunPRO C compiler
     supports a poor form of 'asm'.  */
  
  static void
  getssecw (unsigned int *mxcsr_p)
  {
  #  if defined __x86_64__ || defined _M_X64
    asm ("stmxcsr (%rdi)");
  #  else
    /* The compiler generates a stack frame.  Therefore the first argument is in
       8(%ebp), not in 4(%esp).  */
    asm ("movl 8(%ebp),%eax");
    asm ("stmxcsr (%eax)");
  #  endif
  }
  
  static void
  setssecw (unsigned int const *mxcsr_p)
  {
  #  if defined __x86_64__ || defined _M_X64
    asm ("ldmxcsr (%rdi)");
  #  else
    /* The compiler generates a stack frame.  Therefore the first argument is in
       8(%ebp), not in 4(%esp).  */
    asm ("movl 8(%ebp),%eax");
    asm ("ldmxcsr (%eax)");
  #  endif
  }
  
  #  if __GLIBC__ >= 2
  /* Clears flags in the 387 unit.  */
  static void
  mask387cw (unsigned short mask)
  {
  #   if defined __x86_64__ || defined _M_X64
    asm ("fnstenv -32(%rsp)");
    asm ("andw %di,-28(%rsp)");
    asm ("fldenv -32(%rsp)");
  #   else
    /* The compiler generates a stack frame.  Therefore the first argument is in
       8(%ebp), not in 4(%esp).  */
    asm ("movl 8(%ebp),%eax");
    asm ("fnstenv -32(%esp)");
    asm ("andw %ax,-28(%esp)");
    asm ("fldenv -32(%esp)");
  #   endif
  }
  #  endif
  
  int
  fesetexceptflag (fexcept_t const *saved_flags, int exceptions)
  {
    exceptions &= FE_ALL_EXCEPT;
    unsigned int desired_flags = (unsigned int) *saved_flags;
  
    /* Modify the flags in the SSE unit.  */
    unsigned int mxcsr, orig_mxcsr;
    getssecw (&orig_mxcsr);
    mxcsr = orig_mxcsr ^ ((orig_mxcsr ^ desired_flags) & exceptions);
    if (mxcsr != orig_mxcsr)
      setssecw (&mxcsr);
  
  #  if __GLIBC__ >= 2
    /* Modify the flags in the 387 unit, but only by clearing bits, not by
       setting bits.  */
    mask387cw (~ (exceptions & ~desired_flags));
  #  endif
  
    return 0;
  }
  
  # elif HAVE_FPSETSTICKY
  /* FreeBSD ≥ 3.1, NetBSD ≥ 1.1, OpenBSD, Solaris, Minix ≥ 3.2.  */
  
  /* Get fpgetsticky, fpsetsticky.  */
  #  include <ieeefp.h>
  /* The type is called 'fp_except_t' on FreeBSD, but 'fp_except' on
     all other systems.  */
  #  if !defined __FreeBSD__
  #   define fp_except_t fp_except
  #  endif
  
  int
  fesetexceptflag (fexcept_t const *saved_flags, int exceptions)
  {
    unsigned long desired_flags = (unsigned long) *saved_flags;
    fp_except_t flags, orig_flags;
    orig_flags = fpgetsticky ();
    flags = orig_flags ^ ((orig_fsr ^ desired_flags) & FE_ALL_EXCEPT & exceptions);
    if (flags != orig_flags)
      fpsetsticky (flags);
    /* Possibly some new exception flags have been set.  But just storing them
       does not cause a trap to be executed (when traps are enabled).  */
    return 0;
  }
  
  # elif defined _AIX && defined __powerpc__ /* AIX */
  
  #  include <float.h>
  #  include <fpxcp.h>
  
  #  include <fptrap.h>
  
  /* Documentation:
     <https://www.ibm.com/docs/en/aix/7.3?topic=f-fp-clr-flag-fp-set-flag-fp-read-flag-fp-swap-flag-subroutine>  */
  
  int
  fesetexceptflag (fexcept_t const *saved_flags, int exceptions)
  {
    exceptions &= FE_ALL_EXCEPT;
  
    unsigned int desired_flags = (unsigned int) *saved_flags;
    int exceptions_to_clear = exceptions & ~desired_flags;
    int exceptions_to_set = exceptions & desired_flags;
  
    fpflag_t orig_flags = fp_read_flag ();
    /* In addition to clearing FE_INVALID (= bit 29), we also need to clear the
       individual bits.  */
    fpflag_t f_to_clear =
      exceptions_to_fpflag (exceptions_to_clear)
      | (exceptions_to_clear & FE_INVALID ? 0x01F80700U : 0);
    /* Instead of setting FE_INVALID (= bit 29), we need to set one of the
       individual bits: bit 10 or, if that does not work, bit 24.  */
    fpflag_t f_to_set =
      (exceptions_to_set & FE_INVALID
       ? exceptions_to_fpflag (exceptions_to_set & ~FE_INVALID) | (1U << 10)
       : exceptions_to_fpflag (exceptions_to_set));
    if (f_to_clear != 0)
      fp_clr_flag (f_to_clear);
    if (f_to_set != 0)
      {
        if ((fegetexcept_impl () & exceptions) != 0)
          {
            /* Setting the exception flags may trigger a trap.
               ISO C 23 § 7.6.4.5 does not allow it.  */
            return -1;
          }
        fp_set_flag (f_to_set);
        if (exceptions & FE_INVALID)
          {
            /* Did it work?  */
            if ((fp_read_flag () & FP_INVALID) == 0)
              fp_set_flag (1U << 24);
          }
      }
  
    return 0;
  }
  
  # else
  
  #  define NEED_FALLBACK 1
  
  # endif
  
  #endif
  
  #if NEED_FALLBACK
  
  /* A dummy fallback.  */
  
  int
  fesetexceptflag (fexcept_t const *saved_flags, int exceptions)
  {
    if (exceptions != 0)
      return -1;
    return 0;
  }
  
  #endif
  

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