armv7a/usr/armv7a-cros-linux-gnueabihf/usr/include/sys/cdefs.h

/* Copyright (C) 1992-2020 Free Software Foundation, Inc.
   This file is part of the GNU C Library.

   The GNU C Library 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.

   The GNU C Library 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 the GNU C Library; if not, see
   <https://www.gnu.org/licenses/>.  */

#ifndef	_SYS_CDEFS_H
#define	_SYS_CDEFS_H	1

/* We are almost always included from features.h. */
#ifndef _FEATURES_H
# include <features.h>
#endif

/* The GNU libc does not support any K&R compilers or the traditional mode
   of ISO C compilers anymore.  Check for some of the combinations not
   anymore supported.  */
#if defined __GNUC__ && !defined __STDC__
# error "You need a ISO C conforming compiler to use the glibc headers"
#endif

/* Some user header file might have defined this before.  */
#undef	__P
#undef	__PMT

#ifdef __GNUC__

/* All functions, except those with callbacks or those that
   synchronize memory, are leaf functions.  */
# if __GNUC_PREREQ (4, 6) && !defined _LIBC
#  define __LEAF , __leaf__
#  define __LEAF_ATTR __attribute__ ((__leaf__))
# else
#  define __LEAF
#  define __LEAF_ATTR
# endif

/* GCC can always grok prototypes.  For C++ programs we add throw()
   to help it optimize the function calls.  But this works only with
   gcc 2.8.x and egcs.  For gcc 3.2 and up we even mark C functions
   as non-throwing using a function attribute since programs can use
   the -fexceptions options for C code as well.  */
# if !defined __cplusplus && __GNUC_PREREQ (3, 3)
#  define __THROW	__attribute__ ((__nothrow__ __LEAF))
#  define __THROWNL	__attribute__ ((__nothrow__))
#  define __NTH(fct)	__attribute__ ((__nothrow__ __LEAF)) fct
#  define __NTHNL(fct)  __attribute__ ((__nothrow__)) fct
# else
#  if defined __cplusplus && __GNUC_PREREQ (2,8)
#   define __THROW	throw ()
#   define __THROWNL	throw ()
#   define __NTH(fct)	__LEAF_ATTR fct throw ()
#   define __NTHNL(fct) fct throw ()
#  else
#   define __THROW
#   define __THROWNL
#   define __NTH(fct)	fct
#   define __NTHNL(fct) fct
#  endif
# endif

#else	/* Not GCC.  */

# if (defined __cplusplus						\
      || (defined __STDC_VERSION__ && __STDC_VERSION__ >= 199901L))
#  define __inline	inline
# else
#  define __inline		/* No inline functions.  */
# endif

# define __THROW
# define __THROWNL
# define __NTH(fct)	fct

#endif	/* GCC.  */

/* Compilers that are not clang may object to
       #if defined __clang__ && __has_extension(...)
   even though they do not need to evaluate the right-hand side of the &&.  */
#if defined __clang__ && defined __has_extension
# define __glibc_clang_has_extension(ext) __has_extension (ext)
#else
# define __glibc_clang_has_extension(ext) 0
#endif

/* These two macros are not used in glibc anymore.  They are kept here
   only because some other projects expect the macros to be defined.  */
#define __P(args)	args
#define __PMT(args)	args

/* For these things, GCC behaves the ANSI way normally,
   and the non-ANSI way under -traditional.  */

#define __CONCAT(x,y)	x ## y
#define __STRING(x)	#x

/* This is not a typedef so `const __ptr_t' does the right thing.  */
#define __ptr_t void *


/* C++ needs to know that types and declarations are C, not C++.  */
#ifdef	__cplusplus
# define __BEGIN_DECLS	extern "C" {
# define __END_DECLS	}
#else
# define __BEGIN_DECLS
# define __END_DECLS
#endif

#if defined __clang__ && defined __has_extension
# define __clang_has_extension(x) __has_extension (x)
#else
# define __clang_has_extension(x) 0
#endif

/* Fortify support.  */
#define __fortify_function __extern_always_inline __attribute_artificial__
#if defined __clang__ && __USE_FORTIFY_LEVEL > 0 \
    && !defined _CLANG_FORTIFY_DISABLE \
    && __clang_has_extension(overloadable_unmarked)
# define __use_clang_fortify 1
/* Clang-style FORTIFY creates a different symbol for each FORTIFY'ed function,
   whereas GCC-style doesn't.  Thus, GCC can assume that the FORTIFY'ed
   function is always available externally, but clang can't.  */
# define __attribute_overloadable__ __attribute__ ((__overloadable__))
# define __attribute_transparent_overload__ \
  __attribute__ ((__overloadable__("transparent")))
# define __fortify_overload static __always_inline __attribute_overloadable__
/* For FORTIFY functions that exist only as decls.  */
# define __fortify_error_function static __attribute_overloadable__
# define __clang_pass_object_size_n(n) __attribute__ ((pass_object_size (n)))
# define __clang_warning(what) __attribute__ ((deprecated(what)))
# define __clang_prefer_this_overload __attribute__ ((enable_if (1, "")))
# define __clang_warning_if(c, m) \
  __attribute__ ((__diagnose_if__ ((c), (m), "warning")))
# define __clang_error(what) __attribute__ ((unavailable(what)))
# define __clang_error_if(c, m) \
  __attribute__ ((__diagnose_if__ ((c), (m), "error")))
# define __fortify_potential_overload __fortify_overload
#else
# define __fortify_potential_overload __fortify_function
/* Some functions/decls can be shared between clang and non-clang FORTIFY.
   Turning these into nops makes that possible.  */
# define __clang_pass_object_size_n(n)
# define __attribute_overloadable__
# define __bos_n(ptr, n) __builtin_object_size (ptr, n)
# define __clang_warning_if(c, m)
# define __clang_error_if(c, m)
#endif

#define __bos_level (__USE_FORTIFY_LEVEL > 1)
#define __bos(ptr) __builtin_object_size (ptr, __bos_level)
#define __bos0(ptr) __builtin_object_size (ptr, 0)

#define __clang_pass_object_size0 __clang_pass_object_size_n (0)
#define __clang_pass_object_size __clang_pass_object_size_n (__bos_level)

/* Some of these macros are awkwardly written, and more repetitive than they'd
   ideally need to be.  This is because both clang and gcc will emit 'note's
   about where these warnings originate from. For every macro that's expanded,
   the user sees a note that ultimately doesn't matter to them...  */
#ifdef __use_clang_fortify
# define __FORTIFY_PRECONDITIONS
# define __FORTIFY_FUNCTION_END
# define __FORTIFY_WARNING_IF(_, c, msg) __clang_warning_if(c, msg)
/* __builtin_constant_p isn't needed: this is only used in constructs that
   must be fully evaluated at compile-time.  */
# define __bos_static_lt_impl(bos_val, n, s) \
  ((bos_val) != -1ULL && (n) > (bos_val) / (s))
# define __FORTIFY_CALL_CHK 1

# define __FORTIFY_BOSN_ARGS(bos_fn, n, buf, div, complaint) \
  (__bos_static_lt_impl (bos_fn (buf), n, div)), (complaint), "warning"

#define __FORTIFY_WARNING_ONLY_IF_BOS0_LT2(fn_name, n, buf, div, complaint) \
  __attribute__ ((__diagnose_if__ \
	(__FORTIFY_BOSN_ARGS (__bos0, n, buf, div, complaint))))
#define __FORTIFY_WARNING_ONLY_IF_BOS0_LT(fn_name, n, buf, complaint) \
  __attribute__ ((__diagnose_if__ \
	(__FORTIFY_BOSN_ARGS (__bos0, n, buf, 1, complaint))))
#define __FORTIFY_WARNING_ONLY_IF_BOS_LT2(fn_name, n, buf, div, complaint) \
  __attribute__ ((__diagnose_if__ \
	(__FORTIFY_BOSN_ARGS (__bos, n, buf, div, complaint))))
#define __FORTIFY_WARNING_ONLY_IF_BOS_LT(fn_name, n, buf, complaint) \
  __attribute__ ((__diagnose_if__ \
	(__FORTIFY_BOSN_ARGS (__bos, n, buf, 1, complaint))))
#else
# define __FORTIFY_PRECONDITIONS {
# define __FORTIFY_FUNCTION_END }
/* __chk_fail was chosen arbitrarily. The function should never be called
   anyway; it just exists to be reachable after optimizations.  */
# define __FORTIFY_DECLARE_WARNING_FUNCTION(name, msg) \
  __attribute ((__warning__(msg))) \
  extern void __REDIRECT_NTH (name, (void), __chk_fail)

# define __FORTIFY_WARNING_IF_BEGIN(fn_name, cond, complaint, if_cond_true) \
  { \
    if (cond) { \
      if_cond_true; \
      __FORTIFY_DECLARE_WARNING_FUNCTION (fn_name, complaint); \
      volatile char __t = 0; \
      if (__glibc_unlikely (__t)) \
      {

# define __FORTIFY_WARNING_IF_END \
      } \
    } \
  }

# define __FORTIFY_WARNING_IF(err_fn, cond, complaint) \
  __FORTIFY_WARNING_IF_BEGIN (err_fn, cond, complaint, (void)0) \
    err_fn (); \
  __FORTIFY_WARNING_IF_END

# define __bos_static_lt_impl(bos_val, n, s) \
  (__builtin_constant_p (n) && (bos_val) != -1ULL && (n) > (bos_val) / (s))

#define __FORTIFY_BOS_WARNING_BEGIN(fn_name, bos_fn, n, buf, div, complaint) \
  char __need_dynamic_check = !__builtin_constant_p (n); \
  __FORTIFY_WARNING_IF_BEGIN (fn_name, \
			      __bos_static_lt_impl (bos_fn (buf), n, div), \
			      complaint, (__need_dynamic_check = 1))

/* Duplicate this so that the fn_name call happens with the smallest possible
   macro "call stack". This minimizes diagnostics about expanding macros.  */
#define __FORTIFY_WARNING_ONLY_IF_BOS0_LT2(err_fn, n, buf, div, complaint) \
  __FORTIFY_BOS_WARNING_BEGIN (err_fn, __bos0, n, buf, div, complaint) \
    err_fn (); \
  __FORTIFY_WARNING_IF_END

#define __FORTIFY_WARNING_ONLY_IF_BOS0_LT(err_fn, n, buf, complaint) \
  __FORTIFY_BOS_WARNING_BEGIN (err_fn, __bos0, n, buf, 1, complaint) \
    err_fn (); \
  __FORTIFY_WARNING_IF_END

#define __FORTIFY_WARNING_ONLY_IF_BOS_LT2(err_fn, n, buf, div, complaint) \
  __FORTIFY_BOS_WARNING_BEGIN (err_fn, __bos, n, buf, div, complaint) \
    err_fn (); \
  __FORTIFY_WARNING_IF_END

#define __FORTIFY_WARNING_ONLY_IF_BOS_LT(err_fn, n, buf, complaint) \
  __FORTIFY_BOS_WARNING_BEGIN (err_fn, __bos, n, buf, 1, complaint) \
    err_fn (); \
  __FORTIFY_WARNING_IF_END

# define __FORTIFY_CALL_CHK (__need_dynamic_check)
#endif

#define __bos_static_lt2(n, e, s) __bos_static_lt_impl (__bos (e), n, s)
#define __bos_static_lt(n, e) __bos_static_lt2 (n, e, 1)
#define __bos0_static_lt2(n, e, s) __bos_static_lt_impl (__bos0 (e), n, s)
#define __bos0_static_lt(n, e) __bos0_static_lt2 (n, e, 1)

#if __GNUC_PREREQ (4,3)
# define __warnattr(msg) __attribute__((__warning__ (msg)))
# define __errordecl(name, msg) \
  extern void name (void) __attribute__((__error__ (msg)))
#else
# define __warnattr(msg)
# define __errordecl(name, msg) extern void name (void)
#endif

/* Support for flexible arrays.
   Headers that should use flexible arrays only if they're "real"
   (e.g. only if they won't affect sizeof()) should test
   #if __glibc_c99_flexarr_available.  */
#if defined __STDC_VERSION__ && __STDC_VERSION__ >= 199901L
# define __flexarr	[]
# define __glibc_c99_flexarr_available 1
#elif __GNUC_PREREQ (2,97)
/* GCC 2.97 supports C99 flexible array members as an extension,
   even when in C89 mode or compiling C++ (any version).  */
# define __flexarr	[]
# define __glibc_c99_flexarr_available 1
#elif defined __GNUC__
/* Pre-2.97 GCC did not support C99 flexible arrays but did have
   an equivalent extension with slightly different notation.  */
# define __flexarr	[0]
# define __glibc_c99_flexarr_available 1
#else
/* Some other non-C99 compiler.  Approximate with [1].  */
# define __flexarr	[1]
# define __glibc_c99_flexarr_available 0
#endif


/* __asm__ ("xyz") is used throughout the headers to rename functions
   at the assembly language level.  This is wrapped by the __REDIRECT
   macro, in order to support compilers that can do this some other
   way.  When compilers don't support asm-names at all, we have to do
   preprocessor tricks instead (which don't have exactly the right
   semantics, but it's the best we can do).

   Example:
   int __REDIRECT(setpgrp, (__pid_t pid, __pid_t pgrp), setpgid); */

#if defined __GNUC__ && __GNUC__ >= 2

# define __REDIRECT(name, proto, alias) name proto __asm__ (__ASMNAME (#alias))
# ifdef __cplusplus
#  define __REDIRECT_NTH(name, proto, alias) \
     name proto __THROW __asm__ (__ASMNAME (#alias))
#  define __REDIRECT_NTHNL(name, proto, alias) \
     name proto __THROWNL __asm__ (__ASMNAME (#alias))
# else
#  define __REDIRECT_NTH(name, proto, alias) \
     name proto __asm__ (__ASMNAME (#alias)) __THROW
#  define __REDIRECT_NTHNL(name, proto, alias) \
     name proto __asm__ (__ASMNAME (#alias)) __THROWNL
# endif
# define __ASMNAME(cname)  __ASMNAME2 (__USER_LABEL_PREFIX__, cname)
# define __ASMNAME2(prefix, cname) __STRING (prefix) cname

/*
#elif __SOME_OTHER_COMPILER__

# define __REDIRECT(name, proto, alias) name proto; \
	_Pragma("let " #name " = " #alias)
*/
#endif

/* GCC has various useful declarations that can be made with the
   `__attribute__' syntax.  All of the ways we use this do fine if
   they are omitted for compilers that don't understand it. */
#if !defined __GNUC__ || __GNUC__ < 2
# define __attribute__(xyz)	/* Ignore */
#endif

/* At some point during the gcc 2.96 development the `malloc' attribute
   for functions was introduced.  We don't want to use it unconditionally
   (although this would be possible) since it generates warnings.  */
#if __GNUC_PREREQ (2,96)
# define __attribute_malloc__ __attribute__ ((__malloc__))
#else
# define __attribute_malloc__ /* Ignore */
#endif

/* Tell the compiler which arguments to an allocation function
   indicate the size of the allocation.  */
#if __GNUC_PREREQ (4, 3)
# define __attribute_alloc_size__(params) \
  __attribute__ ((__alloc_size__ params))
#else
# define __attribute_alloc_size__(params) /* Ignore.  */
#endif

/* At some point during the gcc 2.96 development the `pure' attribute
   for functions was introduced.  We don't want to use it unconditionally
   (although this would be possible) since it generates warnings.  */
#if __GNUC_PREREQ (2,96)
# define __attribute_pure__ __attribute__ ((__pure__))
#else
# define __attribute_pure__ /* Ignore */
#endif

/* This declaration tells the compiler that the value is constant.  */
#if __GNUC_PREREQ (2,5)
# define __attribute_const__ __attribute__ ((__const__))
#else
# define __attribute_const__ /* Ignore */
#endif

/* At some point during the gcc 3.1 development the `used' attribute
   for functions was introduced.  We don't want to use it unconditionally
   (although this would be possible) since it generates warnings.  */
#if __GNUC_PREREQ (3,1)
# define __attribute_used__ __attribute__ ((__used__))
# define __attribute_noinline__ __attribute__ ((__noinline__))
#else
# define __attribute_used__ __attribute__ ((__unused__))
# define __attribute_noinline__ /* Ignore */
#endif

/* Since version 3.2, gcc allows marking deprecated functions.  */
#if __GNUC_PREREQ (3,2)
# define __attribute_deprecated__ __attribute__ ((__deprecated__))
#else
# define __attribute_deprecated__ /* Ignore */
#endif

/* Since version 4.5, gcc also allows one to specify the message printed
   when a deprecated function is used.  clang claims to be gcc 4.2, but
   may also support this feature.  */
#if __GNUC_PREREQ (4,5) \
    || __glibc_clang_has_extension (__attribute_deprecated_with_message__)
# define __attribute_deprecated_msg__(msg) \
	 __attribute__ ((__deprecated__ (msg)))
#else
# define __attribute_deprecated_msg__(msg) __attribute_deprecated__
#endif

/* At some point during the gcc 2.8 development the `format_arg' attribute
   for functions was introduced.  We don't want to use it unconditionally
   (although this would be possible) since it generates warnings.
   If several `format_arg' attributes are given for the same function, in
   gcc-3.0 and older, all but the last one are ignored.  In newer gccs,
   all designated arguments are considered.  */
#if __GNUC_PREREQ (2,8)
# define __attribute_format_arg__(x) __attribute__ ((__format_arg__ (x)))
#else
# define __attribute_format_arg__(x) /* Ignore */
#endif

/* At some point during the gcc 2.97 development the `strfmon' format
   attribute for functions was introduced.  We don't want to use it
   unconditionally (although this would be possible) since it
   generates warnings.  */
#if __GNUC_PREREQ (2,97)
# define __attribute_format_strfmon__(a,b) \
  __attribute__ ((__format__ (__strfmon__, a, b)))
#else
# define __attribute_format_strfmon__(a,b) /* Ignore */
#endif

/* The nonull function attribute allows to mark pointer parameters which
   must not be NULL.  */
#if __GNUC_PREREQ (3,3)
# define __nonnull(params) __attribute__ ((__nonnull__ params))
#else
# define __nonnull(params)
#endif

/* If fortification mode, we warn about unused results of certain
   function calls which can lead to problems.  */
#if __GNUC_PREREQ (3,4)
# define __attribute_warn_unused_result__ \
   __attribute__ ((__warn_unused_result__))
# if __USE_FORTIFY_LEVEL > 0
#  define __wur __attribute_warn_unused_result__
# endif
#else
# define __attribute_warn_unused_result__ /* empty */
#endif
#ifndef __wur
# define __wur /* Ignore */
#endif

/* Forces a function to be always inlined.  */
#if __GNUC_PREREQ (3,2)
/* The Linux kernel defines __always_inline in stddef.h (283d7573), and
   it conflicts with this definition.  Therefore undefine it first to
   allow either header to be included first.  */
# undef __always_inline
# define __always_inline __inline __attribute__ ((__always_inline__))
#else
# undef __always_inline
# define __always_inline __inline
#endif

/* Associate error messages with the source location of the call site rather
   than with the source location inside the function.  */
#if __GNUC_PREREQ (4,3)
# define __attribute_artificial__ __attribute__ ((__artificial__))
#else
# define __attribute_artificial__ /* Ignore */
#endif

/* GCC 4.3 and above with -std=c99 or -std=gnu99 implements ISO C99
   inline semantics, unless -fgnu89-inline is used.  Using __GNUC_STDC_INLINE__
   or __GNUC_GNU_INLINE is not a good enough check for gcc because gcc versions
   older than 4.3 may define these macros and still not guarantee GNU inlining
   semantics.

   clang++ identifies itself as gcc-4.2, but has support for GNU inlining
   semantics, that can be checked for by using the __GNUC_STDC_INLINE_ and
   __GNUC_GNU_INLINE__ macro definitions.  */
#if (!defined __cplusplus || __GNUC_PREREQ (4,3) \
     || (defined __clang__ && (defined __GNUC_STDC_INLINE__ \
			       || defined __GNUC_GNU_INLINE__)))
# if defined __GNUC_STDC_INLINE__ || defined __cplusplus
#  define __extern_inline extern __inline __attribute__ ((__gnu_inline__))
#  define __extern_always_inline \
  extern __always_inline __attribute__ ((__gnu_inline__))
# else
#  define __extern_inline extern __inline
#  define __extern_always_inline extern __always_inline
# endif
#endif

#ifdef __extern_always_inline
# define __fortify_function __extern_always_inline __attribute_artificial__
#endif

/* GCC 4.3 and above allow passing all anonymous arguments of an
   __extern_always_inline function to some other vararg function.  */
#if __GNUC_PREREQ (4,3)
# define __va_arg_pack() __builtin_va_arg_pack ()
# define __va_arg_pack_len() __builtin_va_arg_pack_len ()
#endif

#if defined(__use_clang_fortify)
/* clang doesn't support __va_arg_pack, so we need to call the v* version of
   FORTIFY'ed functions.  */
#define __FORTIFY_ARG_PACK __fortify_ap
#define __FORTIFY_INIT_ARG_PACK(va_arg) \
  __gnuc_va_list __FORTIFY_ARG_PACK; \
  va_start (__FORTIFY_ARG_PACK, va_arg)
#define __FORTIFY_CALL_VA_ALIAS(fn, ...) __v##fn##_alias (__VA_ARGS__)
#define __FORTIFY_CALL_VA_CHK(fn, ...) __v##fn##_chk (__VA_ARGS__)
#define __FORTIFY_CALL_VA_BUILTIN(fn, ...) \
  __builtin___v##fn##_chk (__VA_ARGS__)
#define __FORTIFY_FREE_ARG_PACK() va_end (__FORTIFY_ARG_PACK)
#define __FORTIFY_ARG_PACK_OK 1
#elif defined(__va_arg_pack)
#define __FORTIFY_ARG_PACK __va_arg_pack ()
#define __FORTIFY_INIT_ARG_PACK(va_arg)
#define __FORTIFY_CALL_VA_ALIAS(fn, ...) __##fn##_alias (__VA_ARGS__)
#define __FORTIFY_CALL_VA_CHK(fn, ...) __##fn##_chk (__VA_ARGS__)
#define __FORTIFY_CALL_VA_BUILTIN(fn, ...) __builtin___##fn##_chk (__VA_ARGS__)
#define __FORTIFY_FREE_ARG_PACK()
#define __FORTIFY_ARG_PACK_OK 1
#endif

/* It is possible to compile containing GCC extensions even if GCC is
   run in pedantic mode if the uses are carefully marked using the
   `__extension__' keyword.  But this is not generally available before
   version 2.8.  */
#if !__GNUC_PREREQ (2,8)
# define __extension__		/* Ignore */
#endif

/* __restrict is known in EGCS 1.2 and above. */
#if !__GNUC_PREREQ (2,92)
# if defined __STDC_VERSION__ && __STDC_VERSION__ >= 199901L
#  define __restrict	restrict
# else
#  define __restrict	/* Ignore */
# endif
#endif

/* ISO C99 also allows to declare arrays as non-overlapping.  The syntax is
     array_name[restrict]
   GCC 3.1 supports this.  */
#if __GNUC_PREREQ (3,1) && !defined __GNUG__
# define __restrict_arr	__restrict
#else
# ifdef __GNUC__
#  define __restrict_arr	/* Not supported in old GCC.  */
# else
#  if defined __STDC_VERSION__ && __STDC_VERSION__ >= 199901L
#   define __restrict_arr	restrict
#  else
/* Some other non-C99 compiler.  */
#   define __restrict_arr	/* Not supported.  */
#  endif
# endif
#endif

#if __GNUC__ >= 3
# define __glibc_unlikely(cond)	__builtin_expect ((cond), 0)
# define __glibc_likely(cond)	__builtin_expect ((cond), 1)
#else
# define __glibc_unlikely(cond)	(cond)
# define __glibc_likely(cond)	(cond)
#endif

#ifdef __has_attribute
# define __glibc_has_attribute(attr)	__has_attribute (attr)
#else
# define __glibc_has_attribute(attr)	0
#endif

#if (!defined _Noreturn \
     && (defined __STDC_VERSION__ ? __STDC_VERSION__ : 0) < 201112 \
     &&  !__GNUC_PREREQ (4,7))
# if __GNUC_PREREQ (2,8)
#  define _Noreturn __attribute__ ((__noreturn__))
# else
#  define _Noreturn
# endif
#endif

#if __GNUC_PREREQ (8, 0)
/* Describes a char array whose address can safely be passed as the first
   argument to strncpy and strncat, as the char array is not necessarily
   a NUL-terminated string.  */
# define __attribute_nonstring__ __attribute__ ((__nonstring__))
#else
# define __attribute_nonstring__
#endif

/* Undefine (also defined in libc-symbols.h).  */
#undef __attribute_copy__
#if __GNUC_PREREQ (9, 0)
/* Copies attributes from the declaration or type referenced by
   the argument.  */
# define __attribute_copy__(arg) __attribute__ ((__copy__ (arg)))
#else
# define __attribute_copy__(arg)
#endif

#if (!defined _Static_assert && !defined __cplusplus \
     && (defined __STDC_VERSION__ ? __STDC_VERSION__ : 0) < 201112 \
     && (!__GNUC_PREREQ (4, 6) || defined __STRICT_ANSI__))
# define _Static_assert(expr, diagnostic) \
    extern int (*__Static_assert_function (void)) \
      [!!sizeof (struct { int __error_if_negative: (expr) ? 2 : -1; })]
#endif

#include <bits/wordsize.h>
#include <bits/long-double.h>

#if __LDOUBLE_REDIRECTS_TO_FLOAT128_ABI == 1
# ifdef __REDIRECT

/* Alias name defined automatically.  */
#  define __LDBL_REDIR(name, proto) ... unused__ldbl_redir
#  define __LDBL_REDIR_DECL(name) \
  extern __typeof (name) name __asm (__ASMNAME ("__" #name "ieee128"));

/* Alias name defined automatically, with leading underscores.  */
#  define __LDBL_REDIR2_DECL(name) \
  extern __typeof (__##name) __##name \
    __asm (__ASMNAME ("__" #name "ieee128"));

/* Alias name defined manually.  */
#  define __LDBL_REDIR1(name, proto, alias) ... unused__ldbl_redir1
#  define __LDBL_REDIR1_DECL(name, alias) \
  extern __typeof (name) name __asm (__ASMNAME (#alias));

#  define __LDBL_REDIR1_NTH(name, proto, alias) \
  __REDIRECT_NTH (name, proto, alias)
#  define __REDIRECT_NTH_LDBL(name, proto, alias) \
  __LDBL_REDIR1_NTH (name, proto, __##alias##ieee128)

/* Unused.  */
#  define __REDIRECT_LDBL(name, proto, alias) ... unused__redirect_ldbl
#  define __LDBL_REDIR_NTH(name, proto) ... unused__ldbl_redir_nth

# else
_Static_assert (0, "IEEE 128-bits long double requires redirection on this platform");
# endif
#elif defined __LONG_DOUBLE_MATH_OPTIONAL && defined __NO_LONG_DOUBLE_MATH
# define __LDBL_COMPAT 1
# ifdef __REDIRECT
#  define __LDBL_REDIR1(name, proto, alias) __REDIRECT (name, proto, alias)
#  define __LDBL_REDIR(name, proto) \
  __LDBL_REDIR1 (name, proto, __nldbl_##name)
#  define __LDBL_REDIR1_NTH(name, proto, alias) __REDIRECT_NTH (name, proto, alias)
#  define __LDBL_REDIR_NTH(name, proto) \
  __LDBL_REDIR1_NTH (name, proto, __nldbl_##name)
#  define __LDBL_REDIR2_DECL(name) \
  extern __typeof (__##name) __##name __asm (__ASMNAME ("__nldbl___" #name));
#  define __LDBL_REDIR1_DECL(name, alias) \
  extern __typeof (name) name __asm (__ASMNAME (#alias));
#  define __LDBL_REDIR_DECL(name) \
  extern __typeof (name) name __asm (__ASMNAME ("__nldbl_" #name));
#  define __REDIRECT_LDBL(name, proto, alias) \
  __LDBL_REDIR1 (name, proto, __nldbl_##alias)
#  define __REDIRECT_NTH_LDBL(name, proto, alias) \
  __LDBL_REDIR1_NTH (name, proto, __nldbl_##alias)
# endif
#endif
#if (!defined __LDBL_COMPAT && __LDOUBLE_REDIRECTS_TO_FLOAT128_ABI == 0) \
    || !defined __REDIRECT
# define __LDBL_REDIR1(name, proto, alias) name proto
# define __LDBL_REDIR(name, proto) name proto
# define __LDBL_REDIR1_NTH(name, proto, alias) name proto __THROW
# define __LDBL_REDIR_NTH(name, proto) name proto __THROW
# define __LDBL_REDIR2_DECL(name)
# define __LDBL_REDIR_DECL(name)
# ifdef __REDIRECT
#  define __REDIRECT_LDBL(name, proto, alias) __REDIRECT (name, proto, alias)
#  define __REDIRECT_NTH_LDBL(name, proto, alias) \
  __REDIRECT_NTH (name, proto, alias)
# endif
#endif

/* __glibc_macro_warning (MESSAGE) issues warning MESSAGE.  This is
   intended for use in preprocessor macros.

   Note: MESSAGE must be a _single_ string; concatenation of string
   literals is not supported.  */
#if __GNUC_PREREQ (4,8) || __glibc_clang_prereq (3,5)
# define __glibc_macro_warning1(message) _Pragma (#message)
# define __glibc_macro_warning(message) \
  __glibc_macro_warning1 (GCC warning message)
#else
# define __glibc_macro_warning(msg)
#endif

/* Generic selection (ISO C11) is a C-only feature, available in GCC
   since version 4.9.  Previous versions do not provide generic
   selection, even though they might set __STDC_VERSION__ to 201112L,
   when in -std=c11 mode.  Thus, we must check for !defined __GNUC__
   when testing __STDC_VERSION__ for generic selection support.
   On the other hand, Clang also defines __GNUC__, so a clang-specific
   check is required to enable the use of generic selection.  */
#if !defined __cplusplus \
    && (__GNUC_PREREQ (4, 9) \
	|| __glibc_clang_has_extension (c_generic_selections) \
	|| (!defined __GNUC__ && defined __STDC_VERSION__ \
	    && __STDC_VERSION__ >= 201112L))
# define __HAVE_GENERIC_SELECTION 1
#else
# define __HAVE_GENERIC_SELECTION 0
#endif

#if __GNUC_PREREQ (10, 0)
/* Designates a 1-based positional argument ref-index of pointer type
   that can be used to access size-index elements of the pointed-to
   array according to access mode, or at least one element when
   size-index is not provided:
     access (access-mode, <ref-index> [, <size-index>])  */
#define __attr_access(x) __attribute__ ((__access__ x))
#else
#  define __attr_access(x)
#endif

#endif	 /* sys/cdefs.h */