# gnulib-common.m4 # serial 93 dnl Copyright (C) 2007-2024 Free Software Foundation, Inc. dnl This file is free software; the Free Software Foundation dnl gives unlimited permission to copy and/or distribute it, dnl with or without modifications, as long as this notice is preserved. AC_PREREQ([2.62]) # gl_COMMON # is expanded unconditionally through gnulib-tool magic. AC_DEFUN([gl_COMMON], [ dnl Use AC_REQUIRE here, so that the code is expanded once only. AC_REQUIRE([gl_00GNULIB]) AC_REQUIRE([gl_COMMON_BODY]) AC_REQUIRE([gl_ZZGNULIB]) ]) AC_DEFUN([gl_COMMON_BODY], [ AH_VERBATIM([0witness], [/* Witness that has been included. */ #define _GL_CONFIG_H_INCLUDED 1 ]) AH_VERBATIM([_GL_GNUC_PREREQ], [/* True if the compiler says it groks GNU C version MAJOR.MINOR. */ #if defined __GNUC__ && defined __GNUC_MINOR__ # define _GL_GNUC_PREREQ(major, minor) \ ((major) < __GNUC__ + ((minor) <= __GNUC_MINOR__)) #else # define _GL_GNUC_PREREQ(major, minor) 0 #endif ]) AH_VERBATIM([_Noreturn], [/* The _Noreturn keyword of C11. */ #ifndef _Noreturn # if (defined __cplusplus \ && ((201103 <= __cplusplus && !(__GNUC__ == 4 && __GNUC_MINOR__ == 7)) \ || (defined _MSC_VER && 1900 <= _MSC_VER)) \ && 0) /* [[noreturn]] is not practically usable, because with it the syntax extern _Noreturn void func (...); would not be valid; such a declaration would only be valid with 'extern' and '_Noreturn' swapped, or without the 'extern' keyword. However, some AIX system header files and several gnulib header files use precisely this syntax with 'extern'. */ # define _Noreturn [[noreturn]] # elif (defined __clang__ && __clang_major__ < 16 \ && defined _GL_WORK_AROUND_LLVM_BUG_59792) /* Compile with -D_GL_WORK_AROUND_LLVM_BUG_59792 to work around that rare LLVM bug, though you may get many false-alarm warnings. */ # define _Noreturn # elif ((!defined __cplusplus || defined __clang__) \ && (201112 <= (defined __STDC_VERSION__ ? __STDC_VERSION__ : 0) \ || (!defined __STRICT_ANSI__ \ && (_GL_GNUC_PREREQ (4, 7) \ || (defined __apple_build_version__ \ ? 6000000 <= __apple_build_version__ \ : 3 < __clang_major__ + (5 <= __clang_minor__)))))) /* _Noreturn works as-is. */ # elif _GL_GNUC_PREREQ (2, 8) || defined __clang__ || 0x5110 <= __SUNPRO_C # define _Noreturn __attribute__ ((__noreturn__)) # elif 1200 <= (defined _MSC_VER ? _MSC_VER : 0) # define _Noreturn __declspec (noreturn) # else # define _Noreturn # endif #endif ]) AH_VERBATIM([isoc99_inline], [/* Work around a bug in Apple GCC 4.0.1 build 5465: In C99 mode, it supports the ISO C 99 semantics of 'extern inline' (unlike the GNU C semantics of earlier versions), but does not display it by setting __GNUC_STDC_INLINE__. __APPLE__ && __MACH__ test for Mac OS X. __APPLE_CC__ tests for the Apple compiler and its version. __STDC_VERSION__ tests for the C99 mode. */ #if defined __APPLE__ && defined __MACH__ && __APPLE_CC__ >= 5465 && !defined __cplusplus && __STDC_VERSION__ >= 199901L && !defined __GNUC_STDC_INLINE__ # define __GNUC_STDC_INLINE__ 1 #endif]) AH_VERBATIM([attribute], [/* Attributes. */ /* Define _GL_HAS_ATTRIBUTE only once, because on FreeBSD, with gcc < 5, if gets included once again after , __has_attribute(x) expands to 0 always, and redefining _GL_HAS_ATTRIBUTE would turn off all attributes. */ #ifndef _GL_HAS_ATTRIBUTE # if (defined __has_attribute \ && (!defined __clang_minor__ \ || (defined __apple_build_version__ \ ? 7000000 <= __apple_build_version__ \ : 5 <= __clang_major__))) # define _GL_HAS_ATTRIBUTE(attr) __has_attribute (__##attr##__) # else # define _GL_HAS_ATTRIBUTE(attr) _GL_ATTR_##attr # define _GL_ATTR_alloc_size _GL_GNUC_PREREQ (4, 3) # define _GL_ATTR_always_inline _GL_GNUC_PREREQ (3, 2) # define _GL_ATTR_artificial _GL_GNUC_PREREQ (4, 3) # define _GL_ATTR_cold _GL_GNUC_PREREQ (4, 3) # define _GL_ATTR_const _GL_GNUC_PREREQ (2, 95) # define _GL_ATTR_deprecated _GL_GNUC_PREREQ (3, 1) # define _GL_ATTR_diagnose_if 0 # define _GL_ATTR_error _GL_GNUC_PREREQ (4, 3) # define _GL_ATTR_externally_visible _GL_GNUC_PREREQ (4, 1) # define _GL_ATTR_fallthrough _GL_GNUC_PREREQ (7, 0) # define _GL_ATTR_format _GL_GNUC_PREREQ (2, 7) # define _GL_ATTR_leaf _GL_GNUC_PREREQ (4, 6) # define _GL_ATTR_malloc _GL_GNUC_PREREQ (3, 0) # ifdef _ICC # define _GL_ATTR_may_alias 0 # else # define _GL_ATTR_may_alias _GL_GNUC_PREREQ (3, 3) # endif # define _GL_ATTR_noinline _GL_GNUC_PREREQ (3, 1) # define _GL_ATTR_nonnull _GL_GNUC_PREREQ (3, 3) # define _GL_ATTR_nonstring _GL_GNUC_PREREQ (8, 0) # define _GL_ATTR_nothrow _GL_GNUC_PREREQ (3, 3) # define _GL_ATTR_packed _GL_GNUC_PREREQ (2, 7) # define _GL_ATTR_pure _GL_GNUC_PREREQ (2, 96) # define _GL_ATTR_returns_nonnull _GL_GNUC_PREREQ (4, 9) # define _GL_ATTR_sentinel _GL_GNUC_PREREQ (4, 0) # define _GL_ATTR_unused _GL_GNUC_PREREQ (2, 7) # define _GL_ATTR_warn_unused_result _GL_GNUC_PREREQ (3, 4) # endif #endif /* Use __has_c_attribute if available. However, do not use with pre-C23 GCC, which can issue false positives if -Wpedantic. */ #if (defined __has_c_attribute \ && ! (_GL_GNUC_PREREQ (4, 6) \ && (defined __STDC_VERSION__ ? __STDC_VERSION__ : 0) <= 201710)) # define _GL_HAVE___HAS_C_ATTRIBUTE 1 #else # define _GL_HAVE___HAS_C_ATTRIBUTE 0 #endif /* Define if, in a function declaration, the attributes in bracket syntax [[...]] must come before the attributes in __attribute__((...)) syntax. If this is defined, it is best to avoid the bracket syntax, so that the various _GL_ATTRIBUTE_* can be cumulated on the same declaration in any order. */ #ifdef __cplusplus # if defined __clang__ # define _GL_BRACKET_BEFORE_ATTRIBUTE 1 # endif #else # if defined __GNUC__ && !defined __clang__ # define _GL_BRACKET_BEFORE_ATTRIBUTE 1 # endif #endif ]dnl There is no _GL_ATTRIBUTE_ALIGNED; use stdalign's alignas instead. [ /* _GL_ATTRIBUTE_ALLOC_SIZE ((N)) declares that the Nth argument of the function is the size of the returned memory block. _GL_ATTRIBUTE_ALLOC_SIZE ((M, N)) declares that the Mth argument multiplied by the Nth argument of the function is the size of the returned memory block. */ /* Applies to: function, pointer to function, function types. */ #ifndef _GL_ATTRIBUTE_ALLOC_SIZE # if _GL_HAS_ATTRIBUTE (alloc_size) # define _GL_ATTRIBUTE_ALLOC_SIZE(args) __attribute__ ((__alloc_size__ args)) # else # define _GL_ATTRIBUTE_ALLOC_SIZE(args) # endif #endif /* _GL_ATTRIBUTE_ALWAYS_INLINE tells that the compiler should always inline the function and report an error if it cannot do so. */ /* Applies to: function. */ #ifndef _GL_ATTRIBUTE_ALWAYS_INLINE # if _GL_HAS_ATTRIBUTE (always_inline) # define _GL_ATTRIBUTE_ALWAYS_INLINE __attribute__ ((__always_inline__)) # else # define _GL_ATTRIBUTE_ALWAYS_INLINE # endif #endif /* _GL_ATTRIBUTE_ARTIFICIAL declares that the function is not important to show in stack traces when debugging. The compiler should omit the function from stack traces. */ /* Applies to: function. */ #ifndef _GL_ATTRIBUTE_ARTIFICIAL # if _GL_HAS_ATTRIBUTE (artificial) # define _GL_ATTRIBUTE_ARTIFICIAL __attribute__ ((__artificial__)) # else # define _GL_ATTRIBUTE_ARTIFICIAL # endif #endif /* _GL_ATTRIBUTE_COLD declares that the function is rarely executed. */ /* Applies to: functions. */ /* Avoid __attribute__ ((cold)) on MinGW; see thread starting at . Also, Oracle Studio 12.6 requires 'cold' not '__cold__'. */ #ifndef _GL_ATTRIBUTE_COLD # if _GL_HAS_ATTRIBUTE (cold) && !defined __MINGW32__ # ifndef __SUNPRO_C # define _GL_ATTRIBUTE_COLD __attribute__ ((__cold__)) # else # define _GL_ATTRIBUTE_COLD __attribute__ ((cold)) # endif # else # define _GL_ATTRIBUTE_COLD # endif #endif /* _GL_ATTRIBUTE_CONST declares that it is OK for a compiler to omit duplicate calls to the function with the same arguments. This attribute is safe for a function that neither depends on nor affects observable state, and always returns exactly once - e.g., does not loop forever, and does not call longjmp. (This attribute is stricter than _GL_ATTRIBUTE_PURE.) */ /* Applies to: functions. */ #ifndef _GL_ATTRIBUTE_CONST # if _GL_HAS_ATTRIBUTE (const) # define _GL_ATTRIBUTE_CONST __attribute__ ((__const__)) # else # define _GL_ATTRIBUTE_CONST # endif #endif /* _GL_ATTRIBUTE_DEALLOC (F, I) declares that the function returns pointers that can be freed by passing them as the Ith argument to the function F. _GL_ATTRIBUTE_DEALLOC_FREE declares that the function returns pointers that can be freed via 'free'; it can be used only after declaring 'free'. */ /* Applies to: functions. Cannot be used on inline functions. */ #ifndef _GL_ATTRIBUTE_DEALLOC # if _GL_GNUC_PREREQ (11, 0) # define _GL_ATTRIBUTE_DEALLOC(f, i) __attribute__ ((__malloc__ (f, i))) # else # define _GL_ATTRIBUTE_DEALLOC(f, i) # endif #endif /* If gnulib's or has already defined this macro, continue to use this earlier definition, since may not have been included yet. */ #ifndef _GL_ATTRIBUTE_DEALLOC_FREE # if defined __cplusplus && defined __GNUC__ && !defined __clang__ /* Work around GCC bug */ # define _GL_ATTRIBUTE_DEALLOC_FREE \ _GL_ATTRIBUTE_DEALLOC ((void (*) (void *)) free, 1) # else # define _GL_ATTRIBUTE_DEALLOC_FREE \ _GL_ATTRIBUTE_DEALLOC (free, 1) # endif #endif /* _GL_ATTRIBUTE_DEPRECATED: Declares that an entity is deprecated. The compiler may warn if the entity is used. */ /* Applies to: - function, variable, - struct, union, struct/union member, - enumeration, enumeration item, - typedef, in C++ also: namespace, class, template specialization. */ #ifndef _GL_ATTRIBUTE_DEPRECATED # ifndef _GL_BRACKET_BEFORE_ATTRIBUTE # if _GL_HAVE___HAS_C_ATTRIBUTE # if __has_c_attribute (__deprecated__) # define _GL_ATTRIBUTE_DEPRECATED [[__deprecated__]] # endif # endif # endif # if !defined _GL_ATTRIBUTE_DEPRECATED && _GL_HAS_ATTRIBUTE (deprecated) # define _GL_ATTRIBUTE_DEPRECATED __attribute__ ((__deprecated__)) # endif # ifndef _GL_ATTRIBUTE_DEPRECATED # define _GL_ATTRIBUTE_DEPRECATED # endif #endif /* _GL_ATTRIBUTE_ERROR(msg) requests an error if a function is called and the function call is not optimized away. _GL_ATTRIBUTE_WARNING(msg) requests a warning if a function is called and the function call is not optimized away. */ /* Applies to: functions. */ #if !(defined _GL_ATTRIBUTE_ERROR && defined _GL_ATTRIBUTE_WARNING) # if _GL_HAS_ATTRIBUTE (error) # define _GL_ATTRIBUTE_ERROR(msg) __attribute__ ((__error__ (msg))) # define _GL_ATTRIBUTE_WARNING(msg) __attribute__ ((__warning__ (msg))) # elif _GL_HAS_ATTRIBUTE (diagnose_if) # define _GL_ATTRIBUTE_ERROR(msg) __attribute__ ((__diagnose_if__ (1, msg, "error"))) # define _GL_ATTRIBUTE_WARNING(msg) __attribute__ ((__diagnose_if__ (1, msg, "warning"))) # else # define _GL_ATTRIBUTE_ERROR(msg) # define _GL_ATTRIBUTE_WARNING(msg) # endif #endif /* _GL_ATTRIBUTE_EXTERNALLY_VISIBLE declares that the entity should remain visible to debuggers etc., even with '-fwhole-program'. */ /* Applies to: functions, variables. */ #ifndef _GL_ATTRIBUTE_EXTERNALLY_VISIBLE # if _GL_HAS_ATTRIBUTE (externally_visible) # define _GL_ATTRIBUTE_EXTERNALLY_VISIBLE __attribute__ ((externally_visible)) # else # define _GL_ATTRIBUTE_EXTERNALLY_VISIBLE # endif #endif /* _GL_ATTRIBUTE_FALLTHROUGH declares that it is not a programming mistake if the control flow falls through to the immediately following 'case' or 'default' label. The compiler should not warn in this case. */ /* Applies to: Empty statement (;), inside a 'switch' statement. */ /* Always expands to something. */ #ifndef _GL_ATTRIBUTE_FALLTHROUGH # if _GL_HAVE___HAS_C_ATTRIBUTE # if __has_c_attribute (__fallthrough__) # define _GL_ATTRIBUTE_FALLTHROUGH [[__fallthrough__]] # endif # endif # if !defined _GL_ATTRIBUTE_FALLTHROUGH && _GL_HAS_ATTRIBUTE (fallthrough) # define _GL_ATTRIBUTE_FALLTHROUGH __attribute__ ((__fallthrough__)) # endif # ifndef _GL_ATTRIBUTE_FALLTHROUGH # define _GL_ATTRIBUTE_FALLTHROUGH ((void) 0) # endif #endif /* _GL_ATTRIBUTE_FORMAT ((ARCHETYPE, STRING-INDEX, FIRST-TO-CHECK)) declares that the STRING-INDEXth function argument is a format string of style ARCHETYPE, which is one of: printf, gnu_printf scanf, gnu_scanf, strftime, gnu_strftime, strfmon, or the same thing prefixed and suffixed with '__'. If FIRST-TO-CHECK is not 0, arguments starting at FIRST-TO_CHECK are suitable for the format string. */ /* Applies to: functions. */ #ifndef _GL_ATTRIBUTE_FORMAT # if _GL_HAS_ATTRIBUTE (format) # define _GL_ATTRIBUTE_FORMAT(spec) __attribute__ ((__format__ spec)) # else # define _GL_ATTRIBUTE_FORMAT(spec) # endif #endif /* _GL_ATTRIBUTE_LEAF declares that if the function is called from some other compilation unit, it executes code from that unit only by return or by exception handling. This declaration lets the compiler optimize that unit more aggressively. */ /* Applies to: functions. */ #ifndef _GL_ATTRIBUTE_LEAF # if _GL_HAS_ATTRIBUTE (leaf) # define _GL_ATTRIBUTE_LEAF __attribute__ ((__leaf__)) # else # define _GL_ATTRIBUTE_LEAF # endif #endif /* _GL_ATTRIBUTE_MALLOC declares that the function returns a pointer to freshly allocated memory. */ /* Applies to: functions. */ #ifndef _GL_ATTRIBUTE_MALLOC # if _GL_HAS_ATTRIBUTE (malloc) # define _GL_ATTRIBUTE_MALLOC __attribute__ ((__malloc__)) # else # define _GL_ATTRIBUTE_MALLOC # endif #endif /* _GL_ATTRIBUTE_MAY_ALIAS declares that pointers to the type may point to the same storage as pointers to other types. Thus this declaration disables strict aliasing optimization. */ /* Applies to: types. */ /* Oracle Studio 12.6 mishandles may_alias despite __has_attribute OK. */ #ifndef _GL_ATTRIBUTE_MAY_ALIAS # if _GL_HAS_ATTRIBUTE (may_alias) && !defined __SUNPRO_C # define _GL_ATTRIBUTE_MAY_ALIAS __attribute__ ((__may_alias__)) # else # define _GL_ATTRIBUTE_MAY_ALIAS # endif #endif /* _GL_ATTRIBUTE_MAYBE_UNUSED declares that it is not a programming mistake if the entity is not used. The compiler should not warn if the entity is not used. */ /* Applies to: - function, variable, - struct, union, struct/union member, - enumeration, enumeration item, - typedef, in C++ also: class. */ /* In C++ and C23, this is spelled [[__maybe_unused__]]. GCC's syntax is __attribute__ ((__unused__)). clang supports both syntaxes. Except that with clang ≥ 6, < 10, in C++ mode, __has_c_attribute (__maybe_unused__) yields true but the use of [[__maybe_unused__]] nevertheless produces a warning. */ #ifndef _GL_ATTRIBUTE_MAYBE_UNUSED # ifndef _GL_BRACKET_BEFORE_ATTRIBUTE # if defined __clang__ && defined __cplusplus # if !defined __apple_build_version__ && __clang_major__ >= 10 # define _GL_ATTRIBUTE_MAYBE_UNUSED [[__maybe_unused__]] # endif # elif _GL_HAVE___HAS_C_ATTRIBUTE # if __has_c_attribute (__maybe_unused__) # define _GL_ATTRIBUTE_MAYBE_UNUSED [[__maybe_unused__]] # endif # endif # endif # ifndef _GL_ATTRIBUTE_MAYBE_UNUSED # define _GL_ATTRIBUTE_MAYBE_UNUSED _GL_ATTRIBUTE_UNUSED # endif #endif /* Alternative spelling of this macro, for convenience and for compatibility with glibc/include/libc-symbols.h. */ #define _GL_UNUSED _GL_ATTRIBUTE_MAYBE_UNUSED /* Earlier spellings of this macro. */ #define _UNUSED_PARAMETER_ _GL_ATTRIBUTE_MAYBE_UNUSED /* _GL_ATTRIBUTE_NODISCARD declares that the caller of the function should not discard the return value. The compiler may warn if the caller does not use the return value, unless the caller uses something like ignore_value. */ /* Applies to: function, enumeration, class. */ #ifndef _GL_ATTRIBUTE_NODISCARD # ifndef _GL_BRACKET_BEFORE_ATTRIBUTE # if defined __clang__ && defined __cplusplus /* With clang up to 15.0.6 (at least), in C++ mode, [[__nodiscard__]] produces a warning. The 1000 below means a yet unknown threshold. When clang++ version X starts supporting [[__nodiscard__]] without warning about it, you can replace the 1000 with X. */ # if __clang_major__ >= 1000 # define _GL_ATTRIBUTE_NODISCARD [[__nodiscard__]] # endif # elif _GL_HAVE___HAS_C_ATTRIBUTE # if __has_c_attribute (__nodiscard__) # define _GL_ATTRIBUTE_NODISCARD [[__nodiscard__]] # endif # endif # endif # if !defined _GL_ATTRIBUTE_NODISCARD && _GL_HAS_ATTRIBUTE (warn_unused_result) # define _GL_ATTRIBUTE_NODISCARD __attribute__ ((__warn_unused_result__)) # endif # ifndef _GL_ATTRIBUTE_NODISCARD # define _GL_ATTRIBUTE_NODISCARD # endif #endif /* _GL_ATTRIBUTE_NOINLINE tells that the compiler should not inline the function. */ /* Applies to: functions. */ #ifndef _GL_ATTRIBUTE_NOINLINE # if _GL_HAS_ATTRIBUTE (noinline) # define _GL_ATTRIBUTE_NOINLINE __attribute__ ((__noinline__)) # else # define _GL_ATTRIBUTE_NOINLINE # endif #endif /* _GL_ATTRIBUTE_NONNULL ((N1, N2,...)) declares that the arguments N1, N2,... must not be NULL. _GL_ATTRIBUTE_NONNULL () declares that all pointer arguments must not be null. */ /* Applies to: functions. */ #ifndef _GL_ATTRIBUTE_NONNULL # if _GL_HAS_ATTRIBUTE (nonnull) # define _GL_ATTRIBUTE_NONNULL(args) __attribute__ ((__nonnull__ args)) # else # define _GL_ATTRIBUTE_NONNULL(args) # endif #endif /* _GL_ATTRIBUTE_NONSTRING declares that the contents of a character array is not meant to be NUL-terminated. */ /* Applies to: struct/union members and variables that are arrays of element type '[[un]signed] char'. */ #ifndef _GL_ATTRIBUTE_NONSTRING # if _GL_HAS_ATTRIBUTE (nonstring) # define _GL_ATTRIBUTE_NONSTRING __attribute__ ((__nonstring__)) # else # define _GL_ATTRIBUTE_NONSTRING # endif #endif /* There is no _GL_ATTRIBUTE_NORETURN; use _Noreturn instead. */ /* _GL_ATTRIBUTE_NOTHROW declares that the function does not throw exceptions. */ /* Applies to: functions. */ /* After a function's parameter list, this attribute must come first, before other attributes. */ #ifndef _GL_ATTRIBUTE_NOTHROW # if defined __cplusplus # if _GL_GNUC_PREREQ (2, 8) || __clang_major >= 4 # if __cplusplus >= 201103L # define _GL_ATTRIBUTE_NOTHROW noexcept (true) # else # define _GL_ATTRIBUTE_NOTHROW throw () # endif # else # define _GL_ATTRIBUTE_NOTHROW # endif # else # if _GL_HAS_ATTRIBUTE (nothrow) # define _GL_ATTRIBUTE_NOTHROW __attribute__ ((__nothrow__)) # else # define _GL_ATTRIBUTE_NOTHROW # endif # endif #endif /* _GL_ATTRIBUTE_PACKED declares: For struct members: The member has the smallest possible alignment. For struct, union, class: All members have the smallest possible alignment, minimizing the memory required. */ /* Applies to: struct members, struct, union, in C++ also: class. */ /* Oracle Studio 12.6 miscompiles code with __attribute__ ((__packed__)) despite __has_attribute OK. */ #ifndef _GL_ATTRIBUTE_PACKED # if _GL_HAS_ATTRIBUTE (packed) && !defined __SUNPRO_C # define _GL_ATTRIBUTE_PACKED __attribute__ ((__packed__)) # else # define _GL_ATTRIBUTE_PACKED # endif #endif /* _GL_ATTRIBUTE_PURE declares that It is OK for a compiler to omit duplicate calls to the function with the same arguments if observable state is not changed between calls. This attribute is safe for a function that does not affect observable state, and always returns exactly once. (This attribute is looser than _GL_ATTRIBUTE_CONST.) */ /* Applies to: functions. */ #ifndef _GL_ATTRIBUTE_PURE # if _GL_HAS_ATTRIBUTE (pure) # define _GL_ATTRIBUTE_PURE __attribute__ ((__pure__)) # else # define _GL_ATTRIBUTE_PURE # endif #endif /* _GL_ATTRIBUTE_RETURNS_NONNULL declares that the function's return value is a non-NULL pointer. */ /* Applies to: functions. */ #ifndef _GL_ATTRIBUTE_RETURNS_NONNULL # if _GL_HAS_ATTRIBUTE (returns_nonnull) # define _GL_ATTRIBUTE_RETURNS_NONNULL __attribute__ ((__returns_nonnull__)) # else # define _GL_ATTRIBUTE_RETURNS_NONNULL # endif #endif /* _GL_ATTRIBUTE_SENTINEL(pos) declares that the variadic function expects a trailing NULL argument. _GL_ATTRIBUTE_SENTINEL () - The last argument is NULL (requires C99). _GL_ATTRIBUTE_SENTINEL ((N)) - The (N+1)st argument from the end is NULL. */ /* Applies to: functions. */ #ifndef _GL_ATTRIBUTE_SENTINEL # if _GL_HAS_ATTRIBUTE (sentinel) # define _GL_ATTRIBUTE_SENTINEL(pos) __attribute__ ((__sentinel__ pos)) # else # define _GL_ATTRIBUTE_SENTINEL(pos) # endif #endif /* A helper macro. Don't use it directly. */ #ifndef _GL_ATTRIBUTE_UNUSED # if _GL_HAS_ATTRIBUTE (unused) # define _GL_ATTRIBUTE_UNUSED __attribute__ ((__unused__)) # else # define _GL_ATTRIBUTE_UNUSED # endif #endif ]dnl There is no _GL_ATTRIBUTE_VISIBILITY; see m4/visibility.m4 instead. [ /* _GL_UNUSED_LABEL; declares that it is not a programming mistake if the immediately preceding label is not used. The compiler should not warn if the label is not used. */ /* Applies to: label (both in C and C++). */ /* Note that g++ < 4.5 does not support the '__attribute__ ((__unused__)) ;' syntax. But clang does. */ #ifndef _GL_UNUSED_LABEL # if !(defined __cplusplus && !_GL_GNUC_PREREQ (4, 5)) || defined __clang__ # define _GL_UNUSED_LABEL _GL_ATTRIBUTE_UNUSED # else # define _GL_UNUSED_LABEL # endif #endif ]) AH_VERBATIM([c_linkage], [/* In C++, there is the concept of "language linkage", that encompasses name mangling and function calling conventions. The following macros start and end a block of "C" linkage. */ #ifdef __cplusplus # define _GL_BEGIN_C_LINKAGE extern "C" { # define _GL_END_C_LINKAGE } #else # define _GL_BEGIN_C_LINKAGE # define _GL_END_C_LINKAGE #endif ]) AH_VERBATIM([async_safe], [/* The _GL_ASYNC_SAFE marker should be attached to functions that are signal handlers (for signals other than SIGABRT, SIGPIPE) or can be invoked from such signal handlers. Such functions have some restrictions: * All functions that it calls should be marked _GL_ASYNC_SAFE as well, or should be listed as async-signal-safe in POSIX section 2.4.3. Note that malloc(), sprintf(), and fwrite(), in particular, are NOT async-signal-safe. * All memory locations (variables and struct fields) that these functions access must be marked 'volatile'. This holds for both read and write accesses. Otherwise the compiler might optimize away stores to and reads from such locations that occur in the program, depending on its data flow analysis. For example, when the program contains a loop that is intended to inspect a variable set from within a signal handler while (!signal_occurred) ; the compiler is allowed to transform this into an endless loop if the variable 'signal_occurred' is not declared 'volatile'. Additionally, recall that: * A signal handler should not modify errno (except if it is a handler for a fatal signal and ends by raising the same signal again, thus provoking the termination of the process). If it invokes a function that may clobber errno, it needs to save and restore the value of errno. */ #define _GL_ASYNC_SAFE ]) AH_VERBATIM([micro_optimizations], [/* _GL_CMP (n1, n2) performs a three-valued comparison on n1 vs. n2, where n1 and n2 are expressions without side effects, that evaluate to real numbers (excluding NaN). It returns 1 if n1 > n2 0 if n1 == n2 -1 if n1 < n2 The naïve code (n1 > n2 ? 1 : n1 < n2 ? -1 : 0) produces a conditional jump with nearly all GCC versions up to GCC 10. This variant (n1 < n2 ? -1 : n1 > n2) produces a conditional with many GCC versions up to GCC 9. The better code (n1 > n2) - (n1 < n2) from Hacker's Delight § 2-9 avoids conditional jumps in all GCC versions >= 3.4. */ #define _GL_CMP(n1, n2) (((n1) > (n2)) - ((n1) < (n2))) ]) dnl Hint which direction to take regarding cross-compilation guesses: dnl When a user installs a program on a platform they are not intimately dnl familiar with, --enable-cross-guesses=conservative is the appropriate dnl choice. It implements the "If we don't know, assume the worst" principle. dnl However, when an operating system developer (on a platform which is not dnl yet known to gnulib) builds packages for their platform, they want to dnl expose, not hide, possible platform bugs; in this case, dnl --enable-cross-guesses=risky is the appropriate choice. dnl Sets the variables dnl gl_cross_guess_normal (to be used when 'yes' is good and 'no' is bad), dnl gl_cross_guess_inverted (to be used when 'no' is good and 'yes' is bad). AC_ARG_ENABLE([cross-guesses], [AS_HELP_STRING([[--enable-cross-guesses={conservative|risky}]], [specify policy for cross-compilation guesses])], [if test "x$enableval" != xconservative && test "x$enableval" != xrisky; then AC_MSG_WARN([invalid argument supplied to --enable-cross-guesses]) enableval=conservative fi gl_cross_guesses="$enableval"], [gl_cross_guesses=conservative]) if test $gl_cross_guesses = risky; then gl_cross_guess_normal="guessing yes" gl_cross_guess_inverted="guessing no" else gl_cross_guess_normal="guessing no" gl_cross_guess_inverted="guessing yes" fi dnl Preparation for running test programs: dnl Tell glibc to write diagnostics from -D_FORTIFY_SOURCE=2 to stderr, not dnl to /dev/tty, so they can be redirected to log files. Such diagnostics dnl arise e.g., in the macros gl_PRINTF_DIRECTIVE_N, gl_SNPRINTF_DIRECTIVE_N. LIBC_FATAL_STDERR_=1 export LIBC_FATAL_STDERR_ ]) # gl_MODULE_INDICATOR_INIT_VARIABLE([variablename]) # gl_MODULE_INDICATOR_INIT_VARIABLE([variablename], [initialvalue]) # initializes the shell variable that indicates the presence of the given module # as a C preprocessor expression. AC_DEFUN([gl_MODULE_INDICATOR_INIT_VARIABLE], [ GL_MODULE_INDICATOR_PREFIX[]_[$1]=m4_if([$2], , [0], [$2]) AC_SUBST(GL_MODULE_INDICATOR_PREFIX[]_[$1]) ]) # gl_MODULE_INDICATOR_CONDITION # expands to a C preprocessor expression that evaluates to 1 or 0, depending # whether a gnulib module that has been requested shall be considered present # or not. m4_define([gl_MODULE_INDICATOR_CONDITION], [1]) # gl_MODULE_INDICATOR_SET_VARIABLE([modulename]) # sets the shell variable that indicates the presence of the given module to # a C preprocessor expression that will evaluate to 1. AC_DEFUN([gl_MODULE_INDICATOR_SET_VARIABLE], [ gl_MODULE_INDICATOR_SET_VARIABLE_AUX( [GL_MODULE_INDICATOR_PREFIX[]_GNULIB_[]m4_translit([[$1]], [abcdefghijklmnopqrstuvwxyz./-], [ABCDEFGHIJKLMNOPQRSTUVWXYZ___])], [gl_MODULE_INDICATOR_CONDITION]) ]) # gl_MODULE_INDICATOR_SET_VARIABLE_AUX([variable]) # modifies the shell variable to include the gl_MODULE_INDICATOR_CONDITION. # The shell variable's value is a C preprocessor expression that evaluates # to 0 or 1. AC_DEFUN([gl_MODULE_INDICATOR_SET_VARIABLE_AUX], [ m4_if(m4_defn([gl_MODULE_INDICATOR_CONDITION]), [1], [ dnl Simplify the expression VALUE || 1 to 1. $1=1 ], [gl_MODULE_INDICATOR_SET_VARIABLE_AUX_OR([$1], [gl_MODULE_INDICATOR_CONDITION])]) ]) # gl_MODULE_INDICATOR_SET_VARIABLE_AUX_OR([variable], [condition]) # modifies the shell variable to include the given condition. The shell # variable's value is a C preprocessor expression that evaluates to 0 or 1. AC_DEFUN([gl_MODULE_INDICATOR_SET_VARIABLE_AUX_OR], [ dnl Simplify the expression 1 || CONDITION to 1. if test "$[]$1" != 1; then dnl Simplify the expression 0 || CONDITION to CONDITION. if test "$[]$1" = 0; then $1=$2 else $1="($[]$1 || $2)" fi fi ]) # gl_MODULE_INDICATOR([modulename]) # defines a C macro indicating the presence of the given module # in a location where it can be used. # | Value | Value | # | in lib/ | in tests/ | # --------------------------------------------+---------+-----------+ # Module present among main modules: | 1 | 1 | # --------------------------------------------+---------+-----------+ # Module present among tests-related modules: | 0 | 1 | # --------------------------------------------+---------+-----------+ # Module not present at all: | 0 | 0 | # --------------------------------------------+---------+-----------+ AC_DEFUN([gl_MODULE_INDICATOR], [ AC_DEFINE_UNQUOTED([GNULIB_]m4_translit([[$1]], [abcdefghijklmnopqrstuvwxyz./-], [ABCDEFGHIJKLMNOPQRSTUVWXYZ___]), [gl_MODULE_INDICATOR_CONDITION], [Define to a C preprocessor expression that evaluates to 1 or 0, depending whether the gnulib module $1 shall be considered present.]) ]) # gl_MODULE_INDICATOR_FOR_TESTS([modulename]) # defines a C macro indicating the presence of the given module # in lib or tests. This is useful to determine whether the module # should be tested. # | Value | Value | # | in lib/ | in tests/ | # --------------------------------------------+---------+-----------+ # Module present among main modules: | 1 | 1 | # --------------------------------------------+---------+-----------+ # Module present among tests-related modules: | 1 | 1 | # --------------------------------------------+---------+-----------+ # Module not present at all: | 0 | 0 | # --------------------------------------------+---------+-----------+ AC_DEFUN([gl_MODULE_INDICATOR_FOR_TESTS], [ AC_DEFINE([GNULIB_TEST_]m4_translit([[$1]], [abcdefghijklmnopqrstuvwxyz./-], [ABCDEFGHIJKLMNOPQRSTUVWXYZ___]), [1], [Define to 1 when the gnulib module $1 should be tested.]) ]) # gl_ASSERT_NO_GNULIB_POSIXCHECK # asserts that there will never be a need to #define GNULIB_POSIXCHECK. # and thereby enables an optimization of configure and config.h. # Used by Emacs. AC_DEFUN([gl_ASSERT_NO_GNULIB_POSIXCHECK], [ dnl Override gl_WARN_ON_USE_PREPARE. dnl But hide this definition from 'aclocal'. AC_DEFUN([gl_W][ARN_ON_USE_PREPARE], []) ]) # gl_ASSERT_NO_GNULIB_TESTS # asserts that there will be no gnulib tests in the scope of the configure.ac # and thereby enables an optimization of config.h. # Used by Emacs. AC_DEFUN([gl_ASSERT_NO_GNULIB_TESTS], [ dnl Override gl_MODULE_INDICATOR_FOR_TESTS. AC_DEFUN([gl_MODULE_INDICATOR_FOR_TESTS], []) ]) # Test whether exists. # Set HAVE_FEATURES_H. AC_DEFUN([gl_FEATURES_H], [ AC_CHECK_HEADERS_ONCE([features.h]) if test $ac_cv_header_features_h = yes; then HAVE_FEATURES_H=1 else HAVE_FEATURES_H=0 fi AC_SUBST([HAVE_FEATURES_H]) ]) # gl_PROG_CC_C99 # Modifies the value of the shell variable CC in an attempt to make $CC # understand ISO C99 source code. AC_DEFUN([gl_PROG_CC_C99], [ dnl Just use AC_PROG_CC_C99. dnl When AC_PROG_CC_C99 and AC_PROG_CC_STDC are used together, the substituted dnl value of CC will contain the C99 enabling options twice. But this is only dnl a cosmetic problem. dnl With Autoconf >= 2.70, use AC_PROG_CC since it implies AC_PROG_CC_C99; dnl this avoids a "warning: The macro `AC_PROG_CC_C99' is obsolete." m4_version_prereq([2.70], [AC_REQUIRE([AC_PROG_CC])], [AC_REQUIRE([AC_PROG_CC_C99])]) ]) # gl_PROG_AR_RANLIB # Determines the values for AR, ARFLAGS, RANLIB that fit with the compiler. # The user can set the variables AR, ARFLAGS, RANLIB if he wants to override # the values. AC_DEFUN([gl_PROG_AR_RANLIB], [ dnl Minix 3 comes with two toolchains: The Amsterdam Compiler Kit compiler dnl as "cc", and GCC as "gcc". They have different object file formats and dnl library formats. In particular, the GNU binutils programs ar and ranlib dnl produce libraries that work only with gcc, not with cc. AC_REQUIRE([AC_PROG_CC]) dnl The '][' hides this use from 'aclocal'. AC_BEFORE([$0], [A][M_PROG_AR]) AC_CACHE_CHECK([for Minix Amsterdam compiler], [gl_cv_c_amsterdam_compiler], [ AC_EGREP_CPP([Amsterdam], [ #ifdef __ACK__ Amsterdam #endif ], [gl_cv_c_amsterdam_compiler=yes], [gl_cv_c_amsterdam_compiler=no]) ]) dnl Don't compete with AM_PROG_AR's decision about AR/ARFLAGS if we are not dnl building with __ACK__. if test $gl_cv_c_amsterdam_compiler = yes; then if test -z "$AR"; then AR='cc -c.a' fi if test -z "$ARFLAGS"; then ARFLAGS='-o' fi else dnl AM_PROG_AR was added in automake v1.11.2. AM_PROG_AR does not AC_SUBST dnl ARFLAGS variable (it is filed into Makefile.in directly by automake dnl script on-demand, if not specified by ./configure of course). dnl Don't AC_REQUIRE the AM_PROG_AR otherwise the code for __ACK__ above dnl will be ignored. Also, pay attention to call AM_PROG_AR in else block dnl because AM_PROG_AR is written so it could re-set AR variable even for dnl __ACK__. It may seem like its easier to avoid calling the macro here, dnl but we need to AC_SUBST both AR/ARFLAGS (thus those must have some good dnl default value and automake should usually know them). dnl dnl The '][' hides this use from 'aclocal'. m4_ifdef([A][M_PROG_AR], [A][M_PROG_AR], [:]) fi dnl In case the code above has not helped with setting AR/ARFLAGS, use dnl Automake-documented default values for AR and ARFLAGS, but prefer dnl ${host}-ar over ar (useful for cross-compiling). AC_CHECK_TOOL([AR], [ar], [ar]) if test -z "$ARFLAGS"; then ARFLAGS='cr' fi AC_SUBST([AR]) AC_SUBST([ARFLAGS]) if test -z "$RANLIB"; then if test $gl_cv_c_amsterdam_compiler = yes; then RANLIB=':' else dnl Use the ranlib program if it is available. AC_PROG_RANLIB fi fi AC_SUBST([RANLIB]) ]) # AC_C_RESTRICT # This definition is copied from post-2.70 Autoconf and overrides the # AC_C_RESTRICT macro from autoconf 2.60..2.70. m4_version_prereq([2.70.1], [], [ AC_DEFUN([AC_C_RESTRICT], [AC_CACHE_CHECK([for C/C++ restrict keyword], [ac_cv_c_restrict], [ac_cv_c_restrict=no # Put '__restrict__' first, to avoid problems with glibc and non-GCC; see: # https://lists.gnu.org/archive/html/bug-autoconf/2016-02/msg00006.html # Put 'restrict' last, because C++ lacks it. for ac_kw in __restrict__ __restrict _Restrict restrict; do AC_COMPILE_IFELSE( [AC_LANG_PROGRAM( [[typedef int *int_ptr; int foo (int_ptr $ac_kw ip) { return ip[0]; } int bar (int [$ac_kw]); /* Catch GCC bug 14050. */ int bar (int ip[$ac_kw]) { return ip[0]; } ]], [[int s[1]; int *$ac_kw t = s; t[0] = 0; return foo (t) + bar (t); ]])], [ac_cv_c_restrict=$ac_kw]) test "$ac_cv_c_restrict" != no && break done ]) AH_VERBATIM([restrict], [/* Define to the equivalent of the C99 'restrict' keyword, or to nothing if this is not supported. Do not define if restrict is supported only directly. */ #undef restrict /* Work around a bug in older versions of Sun C++, which did not #define __restrict__ or support _Restrict or __restrict__ even though the corresponding Sun C compiler ended up with "#define restrict _Restrict" or "#define restrict __restrict__" in the previous line. This workaround can be removed once we assume Oracle Developer Studio 12.5 (2016) or later. */ #if defined __SUNPRO_CC && !defined __RESTRICT && !defined __restrict__ # define _Restrict # define __restrict__ #endif]) case $ac_cv_c_restrict in restrict) ;; no) AC_DEFINE([restrict], []) ;; *) AC_DEFINE_UNQUOTED([restrict], [$ac_cv_c_restrict]) ;; esac ])# AC_C_RESTRICT ]) # gl_BIGENDIAN # is like AC_C_BIGENDIAN, except that it can be AC_REQUIREd. # Note that AC_REQUIRE([AC_C_BIGENDIAN]) does not work reliably because some # macros invoke AC_C_BIGENDIAN with arguments. AC_DEFUN([gl_BIGENDIAN], [ AC_C_BIGENDIAN ]) # A temporary file descriptor. # Must be less than 10, because dash 0.5.8 does not support redirections # with multi-digit file descriptors. m4_define([GL_TMP_FD], 9) # gl_SILENT(command) # executes command, but without the normal configure output. # This is useful when you want to invoke AC_CACHE_CHECK (or AC_CHECK_FUNC etc.) # inside another AC_CACHE_CHECK. AC_DEFUN([gl_SILENT], [ exec GL_TMP_FD>&AS_MESSAGE_FD AS_MESSAGE_FD>/dev/null $1 exec AS_MESSAGE_FD>&GL_TMP_FD GL_TMP_FD>&- ]) # gl_CACHE_VAL_SILENT(cache-id, command-to-set-it) # is like AC_CACHE_VAL(cache-id, command-to-set-it), except that it does not # output a spurious "(cached)" mark in the midst of other configure output. # This macro should be used instead of AC_CACHE_VAL when it is not surrounded # by an AC_MSG_CHECKING/AC_MSG_RESULT pair. AC_DEFUN([gl_CACHE_VAL_SILENT], [ gl_SILENT([ AC_CACHE_VAL([$1], [$2]) ]) ]) # gl_CONDITIONAL(conditional, condition) # is like AM_CONDITIONAL(conditional, condition), except that it does not # produce an error # configure: error: conditional "..." was never defined. # Usually this means the macro was only invoked conditionally. # when only invoked conditionally. Instead, in that case, both the _TRUE # and the _FALSE case are disabled. AC_DEFUN([gl_CONDITIONAL], [ pushdef([AC_CONFIG_COMMANDS_PRE], [:])dnl AM_CONDITIONAL([$1], [$2]) popdef([AC_CONFIG_COMMANDS_PRE])dnl if test -z "${[$1]_TRUE}" && test -z "${[$1]_FALSE}"; then [$1]_TRUE='#' [$1]_FALSE='#' fi ]) # gl_CC_ALLOW_WARNINGS # sets and substitutes a variable GL_CFLAG_ALLOW_WARNINGS, to a $(CC) option # that reverts a preceding '-Werror' option, if available. # This is expected to be '-Wno-error' on gcc, clang (except clang/MSVC), xlclang # and empty otherwise. AC_DEFUN([gl_CC_ALLOW_WARNINGS], [ AC_REQUIRE([AC_PROG_CC]) AC_CACHE_CHECK([for C compiler option to allow warnings], [gl_cv_cc_wallow], [rm -f conftest* echo 'int dummy;' > conftest.c AC_TRY_COMMAND([${CC-cc} $CFLAGS $CPPFLAGS -c conftest.c 2>conftest1.err]) >/dev/null AC_TRY_COMMAND([${CC-cc} $CFLAGS $CPPFLAGS -Wno-error -c conftest.c 2>conftest2.err]) >/dev/null dnl Test the number of error output lines, because AIX xlc accepts the dnl option '-Wno-error', just to produce a warning dnl "Option -Wno-error was incorrectly specified. The option will be ignored." dnl afterwards. if test $? = 0 && test `wc -l < conftest1.err` = `wc -l < conftest2.err`; then gl_cv_cc_wallow='-Wno-error' else gl_cv_cc_wallow=none fi rm -f conftest* ]) case "$gl_cv_cc_wallow" in none) GL_CFLAG_ALLOW_WARNINGS='' ;; *) GL_CFLAG_ALLOW_WARNINGS="$gl_cv_cc_wallow" ;; esac AC_SUBST([GL_CFLAG_ALLOW_WARNINGS]) ]) # gl_CXX_ALLOW_WARNINGS # sets and substitutes a variable GL_CXXFLAG_ALLOW_WARNINGS, to a $(CC) option # that reverts a preceding '-Werror' option, if available. AC_DEFUN([gl_CXX_ALLOW_WARNINGS], [ dnl Requires AC_PROG_CXX or gl_PROG_ANSI_CXX. if test -n "$CXX" && test "$CXX" != no; then AC_CACHE_CHECK([for C++ compiler option to allow warnings], [gl_cv_cxx_wallow], [rm -f conftest* echo 'int dummy;' > conftest.cc AC_TRY_COMMAND([${CXX-c++} $CXXFLAGS $CPPFLAGS -c conftest.cc 2>conftest1.err]) >/dev/null AC_TRY_COMMAND([${CXX-c++} $CXXFLAGS $CPPFLAGS -Wno-error -c conftest.cc 2>conftest2.err]) >/dev/null dnl Test the number of error output lines, because AIX xlC accepts the dnl option '-Wno-error', just to produce a warning dnl "Option -Wno-error was incorrectly specified. The option will be ignored." dnl afterwards. if test $? = 0 && test `wc -l < conftest1.err` = `wc -l < conftest2.err`; then gl_cv_cxx_wallow='-Wno-error' else gl_cv_cxx_wallow=none fi rm -f conftest* ]) case "$gl_cv_cxx_wallow" in none) GL_CXXFLAG_ALLOW_WARNINGS='' ;; *) GL_CXXFLAG_ALLOW_WARNINGS="$gl_cv_cxx_wallow" ;; esac else GL_CXXFLAG_ALLOW_WARNINGS='' fi AC_SUBST([GL_CXXFLAG_ALLOW_WARNINGS]) ]) # gl_CC_GNULIB_WARNINGS # sets and substitutes a variable GL_CFLAG_GNULIB_WARNINGS, to a $(CC) option # set that enables or disables warnings as suitable for the Gnulib coding style. AC_DEFUN([gl_CC_GNULIB_WARNINGS], [ AC_REQUIRE([gl_CC_ALLOW_WARNINGS]) dnl Assume that the compiler supports -Wno-* options only if it also supports dnl -Wno-error. GL_CFLAG_GNULIB_WARNINGS='' if test -n "$GL_CFLAG_ALLOW_WARNINGS"; then dnl Enable these warning options: dnl dnl GCC clang dnl -Wno-cast-qual >= 3 >= 3.9 dnl -Wno-conversion >= 3 >= 3.9 dnl -Wno-float-conversion >= 4.9 >= 3.9 dnl -Wno-float-equal >= 3 >= 3.9 dnl -Wimplicit-fallthrough >= 7 >= 3.9 dnl -Wno-pedantic >= 4.8 >= 3.9 dnl -Wno-sign-compare >= 3 >= 3.9 dnl -Wno-sign-conversion >= 4.3 >= 3.9 dnl -Wno-tautological-out-of-range-compare - >= 3.9 dnl -Wno-type-limits >= 4.3 >= 3.9 dnl -Wno-undef >= 3 >= 3.9 dnl -Wno-unsuffixed-float-constants >= 4.5 dnl -Wno-unused-function >= 3 >= 3.9 dnl -Wno-unused-parameter >= 3 >= 3.9 dnl cat > conftest.c <<\EOF #if __GNUC__ >= 3 || (__clang_major__ + (__clang_minor__ >= 9) > 3) -Wno-cast-qual -Wno-conversion -Wno-float-equal -Wno-sign-compare -Wno-undef -Wno-unused-function -Wno-unused-parameter #endif #if __GNUC__ + (__GNUC_MINOR__ >= 9) > 4 || (__clang_major__ + (__clang_minor__ >= 9) > 3) -Wno-float-conversion #endif #if __GNUC__ >= 7 || (__clang_major__ + (__clang_minor__ >= 9) > 3) -Wimplicit-fallthrough #endif #if __GNUC__ + (__GNUC_MINOR__ >= 8) > 4 || (__clang_major__ + (__clang_minor__ >= 9) > 3) -Wno-pedantic #endif #if 3 < __clang_major__ + (9 <= __clang_minor__) -Wno-tautological-constant-out-of-range-compare #endif #if __GNUC__ + (__GNUC_MINOR__ >= 3) > 4 || (__clang_major__ + (__clang_minor__ >= 9) > 3) -Wno-sign-conversion -Wno-type-limits #endif #if __GNUC__ + (__GNUC_MINOR__ >= 5) > 4 -Wno-unsuffixed-float-constants #endif EOF gl_command="$CC $CFLAGS $CPPFLAGS -E conftest.c > conftest.out" if AC_TRY_EVAL([gl_command]); then gl_options=`grep -v '#' conftest.out` for word in $gl_options; do GL_CFLAG_GNULIB_WARNINGS="$GL_CFLAG_GNULIB_WARNINGS $word" done fi rm -f conftest.c conftest.out fi AC_SUBST([GL_CFLAG_GNULIB_WARNINGS]) ]) dnl gl_CONDITIONAL_HEADER([foo.h]) dnl takes a shell variable GL_GENERATE_FOO_H (with value true or false) as input dnl and produces dnl - an AC_SUBSTed variable FOO_H that is either a file name or empty, based dnl on whether GL_GENERATE_FOO_H is true or false, dnl - an Automake conditional GL_GENERATE_FOO_H that evaluates to the value of dnl the shell variable GL_GENERATE_FOO_H. AC_DEFUN([gl_CONDITIONAL_HEADER], [ m4_pushdef([gl_header_name], AS_TR_SH(m4_toupper($1))) m4_pushdef([gl_generate_var], [GL_GENERATE_]AS_TR_SH(m4_toupper($1))) m4_pushdef([gl_generate_cond], [GL_GENERATE_]AS_TR_SH(m4_toupper($1))) case "$gl_generate_var" in false) gl_header_name='' ;; true) dnl It is OK to use a .h file in lib/ from within tests/, but not vice dnl versa. if test -z "$gl_header_name"; then gl_header_name="${gl_source_base_prefix}$1" fi ;; *) echo "*** gl_generate_var is not set correctly" 1>&2; exit 1 ;; esac AC_SUBST(gl_header_name) gl_CONDITIONAL(gl_generate_cond, [$gl_generate_var]) m4_popdef([gl_generate_cond]) m4_popdef([gl_generate_var]) m4_popdef([gl_header_name]) ]) dnl Preparations for gl_CHECK_FUNCS_MACOS. AC_DEFUN([gl_PREPARE_CHECK_FUNCS_MACOS], [ AC_REQUIRE([AC_CANONICAL_HOST]) AC_REQUIRE([gl_COMPILER_CLANG]) AC_CACHE_CHECK([for compiler option needed when checking for future declarations], [gl_cv_compiler_check_future_option], [case "$host_os" in dnl This is only needed on macOS. darwin*) if test $gl_cv_compiler_clang = yes; then dnl Test whether the compiler supports the option dnl '-Werror=unguarded-availability-new'. saved_ac_compile="$ac_compile" ac_compile="$ac_compile -Werror=unguarded-availability-new" AC_COMPILE_IFELSE([AC_LANG_PROGRAM([[]],[[]])], [gl_cv_compiler_check_future_option='-Werror=unguarded-availability-new'], [gl_cv_compiler_check_future_option=none]) ac_compile="$saved_ac_compile" else gl_cv_compiler_check_future_option=none fi ;; *) gl_cv_compiler_check_future_option=none ;; esac ]) ]) dnl Pieces of the expansion of dnl gl_CHECK_FUNCS_ANDROID dnl gl_CHECK_FUNCS_MACOS dnl gl_CHECK_FUNCS_ANDROID_MACOS AC_DEFUN([gl_CHECK_FUNCS_DEFAULT_CASE], [ *) AC_CHECK_FUNC([$1]) [gl_cv_onwards_func_][$1]=$[ac_cv_func_][$1] ;; ]) AC_DEFUN([gl_CHECK_FUNCS_CASE_FOR_ANDROID], [ linux*-android*) AC_CHECK_DECL([$1], , , [$2]) if test $[ac_cv_have_decl_][$1] = yes; then AC_CHECK_FUNC([[$1]]) if test $[ac_cv_func_][$1] = yes; then [gl_cv_onwards_func_][$1]=yes else dnl The function is declared but does not exist. This should not dnl happen normally. But anyway, we know that a future version dnl of Android will have the function. [gl_cv_onwards_func_][$1]='future OS version' fi else [gl_cv_onwards_func_][$1]='future OS version' fi ;; ]) AC_DEFUN([gl_CHECK_FUNCS_CASE_FOR_MACOS], [ darwin*) if test "x$gl_cv_compiler_check_future_option" != "xnone"; then dnl Use a compile test, not a link test. saved_ac_compile="$ac_compile" ac_compile="$ac_compile $gl_cv_compiler_check_future_option" saved_ac_compile_for_check_decl="$ac_compile_for_check_decl" ac_compile_for_check_decl="$ac_compile_for_check_decl $gl_cv_compiler_check_future_option" unset [ac_cv_have_decl_][$1] AC_CHECK_DECL([$1], , , [$2]) ac_compile="$saved_ac_compile" ac_compile_for_check_decl="$saved_ac_compile_for_check_decl" [ac_cv_func_][$1]="$[ac_cv_have_decl_][$1]" if test $[ac_cv_func_][$1] = yes; then [gl_cv_onwards_func_][$1]=yes else unset [ac_cv_have_decl_][$1] AC_CHECK_DECL([$1], , , [$2]) if test $[ac_cv_have_decl_][$1] = yes; then [gl_cv_onwards_func_][$1]='future OS version' else [gl_cv_onwards_func_][$1]=no fi fi else AC_CHECK_FUNC([$1]) [gl_cv_onwards_func_][$1]=$[ac_cv_func_][$1] fi ;; ]) AC_DEFUN([gl_CHECK_FUNCS_SET_RESULTS], [ case "$[gl_cv_onwards_func_][$1]" in future*) [ac_cv_func_][$1]=no ;; *) [ac_cv_func_][$1]=$[gl_cv_onwards_func_][$1] ;; esac if test $[ac_cv_func_][$1] = yes; then AC_DEFINE([HAVE_]m4_translit([[$1]], [abcdefghijklmnopqrstuvwxyz], [ABCDEFGHIJKLMNOPQRSTUVWXYZ]), [1], [Define to 1 if you have the `$1' function.]) fi ]) dnl gl_CHECK_FUNCS_ANDROID([func], [[#include ]]) dnl is like AC_CHECK_FUNCS([func]), taking into account a portability problem dnl on Android. dnl dnl When code is compiled on Android, it is in the context of a certain dnl "Android API level", which indicates the minimum version of Android on dnl which the app can be installed. In other words, you don't compile for a dnl specific version of Android. You compile for all versions of Android, dnl onwards from the given API level. dnl Thus, the question "does the OS have the function func" has three possible dnl answers: dnl - yes, in all versions starting from the given API level, dnl - no, in no version, dnl - not in the given API level, but in a later version of Android. dnl dnl In detail, this works as follows: dnl If func was added to Android API level, say, 28, then the libc.so has the dnl symbol func always, whereas the header file declares func dnl conditionally: dnl #if __ANDROID_API__ >= 28 dnl ... func (...) __INTRODUCED_IN(28); dnl #endif dnl Thus, when compiling with "clang -target armv7a-unknown-linux-android28", dnl the function func is declared and exists in libc. dnl Whereas when compiling with "clang -target armv7a-unknown-linux-android27", dnl the function func is not declared but exists in libc. dnl dnl This macro sets two variables: dnl - gl_cv_onwards_func_ to yes / no / "future OS version" dnl - ac_cv_func_ to yes / no / no dnl The first variable allows to distinguish all three cases. dnl The second variable is set, so that an invocation dnl gl_CHECK_FUNCS_ANDROID([func], [[#include ]]) dnl can be used as a drop-in replacement for dnl AC_CHECK_FUNCS([func]). AC_DEFUN([gl_CHECK_FUNCS_ANDROID], [ AC_REQUIRE([AC_CANONICAL_HOST]) AC_CACHE_CHECK([for [$1]], [[gl_cv_onwards_func_][$1]], [gl_SILENT([ case "$host_os" in gl_CHECK_FUNCS_CASE_FOR_ANDROID([$1], [$2]) gl_CHECK_FUNCS_DEFAULT_CASE([$1]) esac ]) ]) gl_CHECK_FUNCS_SET_RESULTS([$1]) ]) dnl gl_CHECK_FUNCS_MACOS([func], [[#include ]]) dnl is like AC_CHECK_FUNCS([func]), taking into account a portability problem dnl on macOS. dnl dnl When code is compiled on macOS, it is in the context of a certain minimum dnl macOS version, that can be set through the option '-mmacosx-version-min='. dnl In other words, you don't compile for a specific version of macOS. You dnl compile for all versions of macOS, onwards from the given version. dnl Thus, the question "does the OS have the function func" has three possible dnl answers: dnl - yes, in all versions starting from the given version, dnl - no, in no version, dnl - not in the given version, but in a later version of macOS. dnl dnl In detail, this works as follows: dnl If func was added to, say, macOS version 13, then the libc has the dnl symbol func always, whereas the header file declares func dnl conditionally with a special availability attribute: dnl ... func (...) __attribute__((availability(macos,introduced=13.0))); dnl Thus, when compiling with "clang mmacosx-version-min=13", there is no dnl warning about the use of func, and the resulting binary dnl - runs fine on macOS 13, dnl - aborts with a dyld "Symbol not found" message on macOS 12. dnl Whereas, when compiling with "clang mmacosx-version-min=12", there is a dnl warning: 'func' is only available on macOS 13.0 or newer dnl [-Wunguarded-availability-new], dnl and the resulting binary dnl - runs fine on macOS 13, dnl - crashes with a SIGSEGV (signal 11) on macOS 12. dnl dnl This macro sets two variables: dnl - gl_cv_onwards_func_ to yes / no / "future OS version" dnl - ac_cv_func_ to yes / no / no dnl The first variable allows to distinguish all three cases. dnl The second variable is set, so that an invocation dnl gl_CHECK_FUNCS_MACOS([func], [[#include ]]) dnl can be used as a drop-in replacement for dnl AC_CHECK_FUNCS([func]). AC_DEFUN([gl_CHECK_FUNCS_MACOS], [ AC_REQUIRE([AC_CANONICAL_HOST]) AC_REQUIRE([gl_PREPARE_CHECK_FUNCS_MACOS]) AC_CACHE_CHECK([for [$1]], [[gl_cv_onwards_func_][$1]], [gl_SILENT([ case "$host_os" in gl_CHECK_FUNCS_CASE_FOR_MACOS([$1], [$2]) gl_CHECK_FUNCS_DEFAULT_CASE([$1]) esac ]) ]) gl_CHECK_FUNCS_SET_RESULTS([$1]) ]) dnl gl_CHECK_FUNCS_ANDROID_MACOS([func], [[#include ]]) dnl is like AC_CHECK_FUNCS([func]), taking into account a portability problem dnl on Android and on macOS. dnl It is the combination of gl_CHECK_FUNCS_ANDROID and gl_CHECK_FUNCS_MACOS. AC_DEFUN([gl_CHECK_FUNCS_ANDROID_MACOS], [ AC_REQUIRE([AC_CANONICAL_HOST]) AC_REQUIRE([gl_PREPARE_CHECK_FUNCS_MACOS]) AC_CACHE_CHECK([for [$1]], [[gl_cv_onwards_func_][$1]], [gl_SILENT([ case "$host_os" in gl_CHECK_FUNCS_CASE_FOR_ANDROID([$1], [$2]) gl_CHECK_FUNCS_CASE_FOR_MACOS([$1], [$2]) gl_CHECK_FUNCS_DEFAULT_CASE([$1]) esac ]) ]) gl_CHECK_FUNCS_SET_RESULTS([$1]) ]) dnl Expands to some code for use in .c programs that, on native Windows, defines dnl the Microsoft deprecated alias function names to the underscore-prefixed dnl actual function names. With this macro, these function names are available dnl without linking with '-loldnames' and without generating warnings. dnl Usage: Use it after all system header files are included. dnl #include <...> dnl #include <...> dnl ]GL_MDA_DEFINES[ dnl ... AC_DEFUN([GL_MDA_DEFINES],[ AC_REQUIRE([_GL_MDA_DEFINES]) [$gl_mda_defines] ]) AC_DEFUN([_GL_MDA_DEFINES], [gl_mda_defines=' #if defined _WIN32 && !defined __CYGWIN__ #define access _access #define chdir _chdir #define chmod _chmod #define close _close #define creat _creat #define dup _dup #define dup2 _dup2 #define ecvt _ecvt #define execl _execl #define execle _execle #define execlp _execlp #define execv _execv #define execve _execve #define execvp _execvp #define execvpe _execvpe #define fcloseall _fcloseall #define fcvt _fcvt #define fdopen _fdopen #define fileno _fileno #define gcvt _gcvt #define getcwd _getcwd #define getpid _getpid #define getw _getw #define isatty _isatty #define j0 _j0 #define j1 _j1 #define jn _jn #define lfind _lfind #define lsearch _lsearch #define lseek _lseek #define memccpy _memccpy #define mkdir _mkdir #define mktemp _mktemp #define open _open #define putenv _putenv #define putw _putw #define read _read #define rmdir _rmdir #define strdup _strdup #define swab _swab #define tempnam _tempnam #define tzset _tzset #define umask _umask #define unlink _unlink #define utime _utime #define wcsdup _wcsdup #define write _write #define y0 _y0 #define y1 _y1 #define yn _yn #endif ' ])