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These macros check for particular C functions—whether they exist, and in some cases how they respond when given certain arguments.
Check for the alloca
function. Define HAVE_ALLOCA_H
if
alloca.h defines a working alloca
. If not, look for a
builtin alternative. If either method succeeds, define
HAVE_ALLOCA
. Otherwise, set the output variable ALLOCA
to
‘${LIBOBJDIR}alloca.o’ and define
C_ALLOCA
(so programs can periodically call ‘alloca (0)’ to
garbage collect). This variable is separate from LIBOBJS
so
multiple programs can share the value of ALLOCA
without needing
to create an actual library, in case only some of them use the code in
LIBOBJS
. The ‘${LIBOBJDIR}’ prefix serves the same
purpose as in LIBOBJS
(see AC_LIBOBJ vs LIBOBJS).
Source files that use alloca
should start with a piece of code
like the following, to declare it properly.
#include <stdlib.h> #include <stddef.h> #ifdef HAVE_ALLOCA_H # include <alloca.h> #elif !defined alloca # ifdef __GNUC__ # define alloca __builtin_alloca # elif defined _MSC_VER # include <malloc.h> # define alloca _alloca # elif !defined HAVE_ALLOCA # ifdef __cplusplus extern "C" # endif void *alloca (size_t); # endif #endif
If the chown
function is available and works (in particular, it
should accept -1 for uid
and gid
), define
HAVE_CHOWN
. The result of this macro is cached in the
ac_cv_func_chown_works
variable.
If the closedir
function does not return a meaningful value,
define CLOSEDIR_VOID
. Otherwise, callers ought to check its
return value for an error indicator.
Currently this test is implemented by running a test program. When
cross compiling the pessimistic assumption that closedir
does not
return a meaningful value is made.
The result of this macro is cached in the ac_cv_func_closedir_void
variable.
This macro is obsolescent, as closedir
returns a meaningful value
on current systems. New programs need not use this macro.
If the error_at_line
function is not found, require an
AC_LIBOBJ
replacement of ‘error’.
The result of this macro is cached in the ac_cv_lib_error_at_line
variable.
The AC_FUNC_ERROR_AT_LINE
macro is obsolescent. New programs
should use Gnulib’s error
module. See Gnulib.
If the fnmatch
function conforms to Posix, define
HAVE_FNMATCH
. Detect common implementation bugs, for example,
the bugs in Solaris 2.4.
Unlike the other specific
AC_FUNC
macros, AC_FUNC_FNMATCH
does not replace a
broken/missing fnmatch
. This is for historical reasons.
See AC_REPLACE_FNMATCH
below.
The result of this macro is cached in the ac_cv_func_fnmatch_works
variable.
This macro is obsolescent. New programs should use Gnulib’s
fnmatch-posix
module. See Gnulib.
Behave like AC_REPLACE_FNMATCH
(replace) but also test
whether fnmatch
supports GNU extensions. Detect common
implementation bugs, for example, the bugs in the GNU C
Library 2.1.
The result of this macro is cached in the ac_cv_func_fnmatch_gnu
variable.
This macro is obsolescent. New programs should use Gnulib’s
fnmatch-gnu
module. See Gnulib.
This macro checks for the fork
and vfork
functions. If a
working fork
is found, define HAVE_WORKING_FORK
. This macro
checks whether fork
is just a stub by trying to run it.
If vfork.h is found, define HAVE_VFORK_H
. If a working
vfork
is found, define HAVE_WORKING_VFORK
. Otherwise,
define vfork
to be fork
for backward compatibility with
previous versions of autoconf
. This macro checks for several known
errors in implementations of vfork
and considers the system to not
have a working vfork
if it detects any of them.
Since this macro defines vfork
only for backward compatibility with
previous versions of autoconf
you’re encouraged to define it
yourself in new code:
#ifndef HAVE_WORKING_VFORK # define vfork fork #endif
The results of this macro are cached in the ac_cv_func_fork_works
and ac_cv_func_vfork_works
variables. In order to override the
test, you also need to set the ac_cv_func_fork
and
ac_cv_func_vfork
variables.
If the fseeko
function is available, define HAVE_FSEEKO
.
Define _LARGEFILE_SOURCE
if necessary to make the prototype
visible on some systems (e.g., glibc 2.2). Otherwise linkage problems
may occur when compiling with AC_SYS_LARGEFILE
on
largefile-sensitive systems where off_t
does not default to a
64bit entity. All systems with fseeko
also supply ftello
.
If the getgroups
function is available and works (unlike on
Ultrix 4.3, where ‘getgroups (0, 0)’ always fails), define
HAVE_GETGROUPS
. Set GETGROUPS_LIBS
to any libraries
needed to get that function. This macro runs AC_TYPE_GETGROUPS
.
Check how to get the system load averages. To perform its tests
properly, this macro needs the file getloadavg.c; therefore, be
sure to set the AC_LIBOBJ
replacement directory properly (see
Generic Functions, AC_CONFIG_LIBOBJ_DIR
).
If the system has the getloadavg
function, define
HAVE_GETLOADAVG
, and set GETLOADAVG_LIBS
to any libraries
necessary to get that function. Also add GETLOADAVG_LIBS
to
LIBS
. Otherwise, require an AC_LIBOBJ
replacement for
‘getloadavg’ and possibly define several other C preprocessor
macros and output variables:
C_GETLOADAVG
.
SVR4
, DGUX
, UMAX
, or UMAX4_3
if on
those systems.
HAVE_NLIST_H
.
HAVE_STRUCT_NLIST_N_UN_N_NAME
. The obsolete symbol
NLIST_NAME_UNION
is still defined, but do not depend upon it.
getloadavg
to work. In this case, define
GETLOADAVG_PRIVILEGED
, set the output variable NEED_SETGID
to ‘true’ (and otherwise to ‘false’), and set
KMEM_GROUP
to the name of the group that should own the installed
program.
The AC_FUNC_GETLOADAVG
macro is obsolescent. New programs should
use Gnulib’s getloadavg
module. See Gnulib.
Check for getmntent
in the standard C library, and then in the
sun, seq, and gen libraries, for UNICOS,
IRIX 4, PTX, and UnixWare, respectively. Then, if
getmntent
is available, define HAVE_GETMNTENT
and set
ac_cv_func_getmntent
to yes
. Otherwise set
ac_cv_func_getmntent
to no
.
The result of this macro can be overridden by setting the cache variable
ac_cv_search_getmntent
.
Define GETPGRP_VOID
if it is an error to pass 0 to
getpgrp
; this is the Posix behavior. On older BSD
systems, you must pass 0 to getpgrp
, as it takes an argument and
behaves like Posix’s getpgid
.
#ifdef GETPGRP_VOID pid = getpgrp (); #else pid = getpgrp (0); #endif
This macro does not check whether
getpgrp
exists at all; if you need to work in that situation,
first call AC_CHECK_FUNC
for getpgrp
.
The result of this macro is cached in the ac_cv_func_getpgrp_void
variable.
This macro is obsolescent, as current systems have a getpgrp
whose signature conforms to Posix. New programs need not use this macro.
If link is a symbolic link, then lstat
should treat
link/ the same as link/.. However, many older
lstat
implementations incorrectly ignore trailing slashes.
It is safe to assume that if lstat
incorrectly ignores
trailing slashes, then other symbolic-link-aware functions like
unlink
also incorrectly ignore trailing slashes.
If lstat
behaves properly, define
LSTAT_FOLLOWS_SLASHED_SYMLINK
, otherwise require an
AC_LIBOBJ
replacement of lstat
.
The result of this macro is cached in the
ac_cv_func_lstat_dereferences_slashed_symlink
variable.
The AC_FUNC_LSTAT_FOLLOWS_SLASHED_SYMLINK
macro is obsolescent.
New programs should use Gnulib’s lstat
module. See Gnulib.
If the malloc
function is compatible with the GNU C
library malloc
(i.e., ‘malloc (0)’ returns a valid
pointer), define HAVE_MALLOC
to 1. Otherwise define
HAVE_MALLOC
to 0, ask for an AC_LIBOBJ
replacement for
‘malloc’, and define malloc
to rpl_malloc
so that the
native malloc
is not used in the main project.
Typically, the replacement file malloc.c should look like (note the ‘#undef malloc’):
#include <config.h> #undef malloc #include <sys/types.h> void *malloc (); /* Allocate an N-byte block of memory from the heap. If N is zero, allocate a 1-byte block. */ void * rpl_malloc (size_t n) { if (n == 0) n = 1; return malloc (n); }
The result of this macro is cached in the
ac_cv_func_malloc_0_nonnull
variable.
Define HAVE_MBRTOWC
to 1 if the function mbrtowc
and the
type mbstate_t
are properly declared.
The result of this macro is cached in the ac_cv_func_mbrtowc
variable.
If the memcmp
function is not available, or does not work on
8-bit data (like the one on SunOS 4.1.3), or fails when comparing 16
bytes or more and with at least one buffer not starting on a 4-byte
boundary (such as the one on NeXT x86 OpenStep), require an
AC_LIBOBJ
replacement for ‘memcmp’.
The result of this macro is cached in the
ac_cv_func_memcmp_working
variable.
This macro is obsolescent, as current systems have a working
memcmp
. New programs need not use this macro.
If the mktime
function is not available, or does not work
correctly, require an AC_LIBOBJ
replacement for ‘mktime’.
For the purposes of this test, mktime
should conform to the
Posix standard and should be the inverse of
localtime
.
The result of this macro is cached in the
ac_cv_func_working_mktime
variable.
The AC_FUNC_MKTIME
macro is obsolescent. New programs should
use Gnulib’s mktime
module. See Gnulib.
If the mmap
function exists and works correctly, define
HAVE_MMAP
. This checks only private fixed mapping of already-mapped
memory.
The result of this macro is cached in the
ac_cv_func_mmap_fixed_mapped
variable.
If the obstacks are found, define HAVE_OBSTACK
, else require an
AC_LIBOBJ
replacement for ‘obstack’.
The result of this macro is cached in the ac_cv_func_obstack
variable.
If the realloc
function is compatible with the GNU C
library realloc
(i.e., ‘realloc (NULL, 0)’ returns a
valid pointer), define HAVE_REALLOC
to 1. Otherwise define
HAVE_REALLOC
to 0, ask for an AC_LIBOBJ
replacement for
‘realloc’, and define realloc
to rpl_realloc
so that
the native realloc
is not used in the main project. See
AC_FUNC_MALLOC
for details.
The result of this macro is cached in the
ac_cv_func_realloc_0_nonnull
variable.
Determines the correct type to be passed for each of the
select
function’s arguments, and defines those types
in SELECT_TYPE_ARG1
, SELECT_TYPE_ARG234
, and
SELECT_TYPE_ARG5
respectively. SELECT_TYPE_ARG1
defaults
to ‘int’, SELECT_TYPE_ARG234
defaults to ‘int *’,
and SELECT_TYPE_ARG5
defaults to ‘struct timeval *’.
This macro is obsolescent, as current systems have a select
whose
signature conforms to Posix. New programs need not use this macro.
If setpgrp
takes no argument (the Posix version), define
SETPGRP_VOID
. Otherwise, it is the BSD version, which takes
two process IDs as arguments. This macro does not check whether
setpgrp
exists at all; if you need to work in that situation,
first call AC_CHECK_FUNC
for setpgrp
.
The result of this macro is cached in the ac_cv_func_setpgrp_void
variable.
This macro is obsolescent, as current systems have a setpgrp
whose signature conforms to Posix. New programs need not use this macro.
Determine whether stat
or lstat
have the bug that it
succeeds when given the zero-length file name as argument. The stat
and lstat
from SunOS 4.1.4 and the Hurd (as of 1998-11-01) do
this.
If it does, then define HAVE_STAT_EMPTY_STRING_BUG
(or
HAVE_LSTAT_EMPTY_STRING_BUG
) and ask for an AC_LIBOBJ
replacement of it.
The results of these macros are cached in the
ac_cv_func_stat_empty_string_bug
and the
ac_cv_func_lstat_empty_string_bug
variables, respectively.
These macros are obsolescent, as no current systems have the bug. New programs need not use these macros.
If the strcoll
function exists and works correctly, define
HAVE_STRCOLL
. This does a bit more than
‘AC_CHECK_FUNCS(strcoll)’, because some systems have incorrect
definitions of strcoll
that should not be used.
The result of this macro is cached in the ac_cv_func_strcoll_works
variable.
If strerror_r
is available, define HAVE_STRERROR_R
, and if
it is declared, define HAVE_DECL_STRERROR_R
. If it returns a
char *
message, define STRERROR_R_CHAR_P
; otherwise it
returns an int
error number. The Thread-Safe Functions option of
Posix requires strerror_r
to return int
, but
many systems (including, for example, version 2.2.4 of the GNU C
Library) return a char *
value that is not necessarily equal to
the buffer argument.
The result of this macro is cached in the
ac_cv_func_strerror_r_char_p
variable.
Check for strftime
in the intl library, for SCO Unix.
Then, if strftime
is available, define HAVE_STRFTIME
.
This macro is obsolescent, as no current systems require the intl
library for strftime
. New programs need not use this macro.
If the strtod
function does not exist or doesn’t work correctly,
ask for an AC_LIBOBJ
replacement of ‘strtod’. In this case,
because strtod.c is likely to need ‘pow’, set the output
variable POW_LIB
to the extra library needed.
This macro caches its result in the ac_cv_func_strtod
variable
and depends upon the result in the ac_cv_func_pow
variable.
The AC_FUNC_STRTOD
macro is obsolescent. New programs should
use Gnulib’s strtod
module. See Gnulib.
If the strtold
function exists and conforms to C99 or later, define
HAVE_STRTOLD
.
This macro caches its result in the ac_cv_func_strtold
variable.
If the strnlen
function is not available, or is buggy (like the one
from AIX 4.3), require an AC_LIBOBJ
replacement for it.
This macro caches its result in the ac_cv_func_strnlen_working
variable.
If ‘utime (file, NULL)’ sets file’s timestamp to
the present, define HAVE_UTIME_NULL
.
This macro caches its result in the ac_cv_func_utime_null
variable.
This macro is obsolescent, as all current systems have a utime
that behaves this way. New programs need not use this macro.
If vprintf
is found, define HAVE_VPRINTF
. Otherwise, if
_doprnt
is found, define HAVE_DOPRNT
. (If vprintf
is available, you may assume that vfprintf
and vsprintf
are also available.)
This macro is obsolescent, as all current systems have vprintf
.
New programs need not use this macro.
If the fnmatch
function does not conform to Posix (see
AC_FUNC_FNMATCH
), ask for its AC_LIBOBJ
replacement.
The files fnmatch.c, fnmatch_loop.c, and fnmatch_.h
in the AC_LIBOBJ
replacement directory are assumed to contain a
copy of the source code of GNU fnmatch
. If necessary,
this source code is compiled as an AC_LIBOBJ
replacement, and the
fnmatch_.h file is linked to fnmatch.h so that it can be
included in place of the system <fnmatch.h>
.
This macro caches its result in the ac_cv_func_fnmatch_works
variable.
This macro is obsolescent, as it assumes the use of particular source
files. New programs should use Gnulib’s fnmatch-posix
module,
which provides this macro along with the source files. See Gnulib.
Next: Generic Functions, Previous: C Compiler, Up: C [Contents][Index]