# Macros that test various C library quirks # config/c-library.m4 # PGAC_VAR_INT_TIMEZONE # --------------------- # Check if the global variable `timezone' exists. If so, define # HAVE_INT_TIMEZONE. AC_DEFUN([PGAC_VAR_INT_TIMEZONE], [AC_CACHE_CHECK(for int timezone, pgac_cv_var_int_timezone, [AC_TRY_LINK([#include int res;], [#ifndef __CYGWIN__ res = timezone / 60; #else res = _timezone / 60; #endif], [pgac_cv_var_int_timezone=yes], [pgac_cv_var_int_timezone=no])]) if test x"$pgac_cv_var_int_timezone" = xyes ; then AC_DEFINE(HAVE_INT_TIMEZONE,, [Define to 1 if you have the global variable 'int timezone'.]) fi])# PGAC_VAR_INT_TIMEZONE # PGAC_STRUCT_TIMEZONE # ------------------ # Figure out how to get the current timezone. If `struct tm' has a # `tm_zone' member, define `HAVE_TM_ZONE'. Also, if the # external array `tzname' is found, define `HAVE_TZNAME'. # This is the same as the standard macro AC_STRUCT_TIMEZONE, except that # tzname[] is checked for regardless of whether we find tm_zone. AC_DEFUN([PGAC_STRUCT_TIMEZONE], [AC_REQUIRE([AC_STRUCT_TM])dnl AC_CHECK_MEMBERS([struct tm.tm_zone],,,[#include #include <$ac_cv_struct_tm> ]) if test "$ac_cv_member_struct_tm_tm_zone" = yes; then AC_DEFINE(HAVE_TM_ZONE, 1, [Define to 1 if your `struct tm' has `tm_zone'. Deprecated, use `HAVE_STRUCT_TM_TM_ZONE' instead.]) fi AC_CACHE_CHECK(for tzname, ac_cv_var_tzname, [AC_TRY_LINK( [#include #ifndef tzname /* For SGI. */ extern char *tzname[]; /* RS6000 and others reject char **tzname. */ #endif ], [atoi(*tzname);], ac_cv_var_tzname=yes, ac_cv_var_tzname=no)]) if test $ac_cv_var_tzname = yes; then AC_DEFINE(HAVE_TZNAME, 1, [Define to 1 if you have the external array `tzname'.]) fi ])# PGAC_STRUCT_TIMEZONE # PGAC_FUNC_GETTIMEOFDAY_1ARG # --------------------------- # Check if gettimeofday() has only one arguments. (Normal is two.) # If so, define GETTIMEOFDAY_1ARG. AC_DEFUN([PGAC_FUNC_GETTIMEOFDAY_1ARG], [AC_CACHE_CHECK(whether gettimeofday takes only one argument, pgac_cv_func_gettimeofday_1arg, [AC_TRY_COMPILE([#include ], [struct timeval *tp; struct timezone *tzp; gettimeofday(tp,tzp);], [pgac_cv_func_gettimeofday_1arg=no], [pgac_cv_func_gettimeofday_1arg=yes])]) if test x"$pgac_cv_func_gettimeofday_1arg" = xyes ; then AC_DEFINE(GETTIMEOFDAY_1ARG,, [Define to 1 if gettimeofday() takes only 1 argument.]) fi AH_VERBATIM(GETTIMEOFDAY_1ARG_, [@%:@ifdef GETTIMEOFDAY_1ARG @%:@ define gettimeofday(a,b) gettimeofday(a) @%:@endif])dnl ])# PGAC_FUNC_GETTIMEOFDAY_1ARG # PGAC_FUNC_GETPWUID_R_5ARG # --------------------------- # Check if getpwuid_r() takes a fifth argument (later POSIX standard, not draft version) # If so, define GETPWUID_R_5ARG AC_DEFUN([PGAC_FUNC_GETPWUID_R_5ARG], [AC_CACHE_CHECK(whether getpwuid_r takes a fifth argument, pgac_cv_func_getpwuid_r_5arg, [AC_TRY_COMPILE([#include #include ], [uid_t uid; struct passwd *space; char *buf; size_t bufsize; struct passwd **result; getpwuid_r(uid, space, buf, bufsize, result);], [pgac_cv_func_getpwuid_r_5arg=yes], [pgac_cv_func_getpwuid_r_5arg=no])]) if test x"$pgac_cv_func_getpwuid_r_5arg" = xyes ; then AC_DEFINE(GETPWUID_R_5ARG,, [Define to 1 if getpwuid_r() takes a 5th argument.]) fi ])# PGAC_FUNC_GETPWUID_R_5ARG # PGAC_FUNC_STRERROR_R_INT # --------------------------- # Check if strerror_r() returns an int (SUSv3) rather than a char * (GNU libc) # If so, define STRERROR_R_INT AC_DEFUN([PGAC_FUNC_STRERROR_R_INT], [AC_CACHE_CHECK(whether strerror_r returns int, pgac_cv_func_strerror_r_int, [AC_TRY_COMPILE([#include ], [#ifndef _AIX int strerror_r(int, char *, size_t); #else /* Older AIX has 'int' for the third argument so we don't test the args. */ int strerror_r(); #endif], [pgac_cv_func_strerror_r_int=yes], [pgac_cv_func_strerror_r_int=no])]) if test x"$pgac_cv_func_strerror_r_int" = xyes ; then AC_DEFINE(STRERROR_R_INT,, [Define to 1 if strerror_r() returns a int.]) fi ])# PGAC_FUNC_STRERROR_R_INT # PGAC_UNION_SEMUN # ---------------- # Check if `union semun' exists. Define HAVE_UNION_SEMUN if so. # If it doesn't then one could define it as # union semun { int val; struct semid_ds *buf; unsigned short *array; } AC_DEFUN([PGAC_UNION_SEMUN], [AC_CHECK_TYPES([union semun], [], [], [#include #include #include ])])# PGAC_UNION_SEMUN # PGAC_STRUCT_SOCKADDR_UN # ----------------------- # If `struct sockaddr_un' exists, define HAVE_UNIX_SOCKETS. # (Requires test for !) AC_DEFUN([PGAC_STRUCT_SOCKADDR_UN], [AC_CHECK_TYPES([struct sockaddr_un], [AC_DEFINE(HAVE_UNIX_SOCKETS, 1, [Define to 1 if you have unix sockets.])], [], [#include #ifdef HAVE_SYS_UN_H #include #endif ])])# PGAC_STRUCT_SOCKADDR_UN # PGAC_STRUCT_SOCKADDR_STORAGE # ---------------------------- # If `struct sockaddr_storage' exists, define HAVE_STRUCT_SOCKADDR_STORAGE. # If it is missing then one could define it. AC_DEFUN([PGAC_STRUCT_SOCKADDR_STORAGE], [AC_CHECK_TYPES([struct sockaddr_storage], [], [], [#include #ifdef HAVE_SYS_SOCKET_H #include #endif ])])# PGAC_STRUCT_SOCKADDR_STORAGE # PGAC_STRUCT_SOCKADDR_STORAGE_MEMBERS # -------------------------------------- # Check the members of `struct sockaddr_storage'. We need to know about # ss_family and ss_len. (Some platforms follow RFC 2553 and call them # __ss_family and __ss_len.) We also check struct sockaddr's sa_len; # if we have to define our own `struct sockaddr_storage', this tells us # whether we need to provide an ss_len field. AC_DEFUN([PGAC_STRUCT_SOCKADDR_STORAGE_MEMBERS], [AC_CHECK_MEMBERS([struct sockaddr_storage.ss_family, struct sockaddr_storage.__ss_family, struct sockaddr_storage.ss_len, struct sockaddr_storage.__ss_len, struct sockaddr.sa_len], [], [], [#include #ifdef HAVE_SYS_SOCKET_H #include #endif ])])# PGAC_STRUCT_SOCKADDR_STORAGE_MEMBERS # PGAC_STRUCT_ADDRINFO # ----------------------- # If `struct addrinfo' exists, define HAVE_STRUCT_ADDRINFO. AC_DEFUN([PGAC_STRUCT_ADDRINFO], [AC_CHECK_TYPES([struct addrinfo], [], [], [#include #include #include ])])# PGAC_STRUCT_ADDRINFO # PGAC_FUNC_POSIX_SIGNALS # ----------------------- # Check to see if the machine has the POSIX signal interface. Define # HAVE_POSIX_SIGNALS if so. Also set the output variable HAVE_POSIX_SIGNALS # to yes or no. # # Note that this test only compiles a test program, it doesn't check # whether the routines actually work. If that becomes a problem, make # a fancier check. AC_DEFUN([PGAC_FUNC_POSIX_SIGNALS], [AC_CACHE_CHECK(for POSIX signal interface, pgac_cv_func_posix_signals, [AC_TRY_LINK([#include ], [struct sigaction act, oact; sigemptyset(&act.sa_mask); act.sa_flags = SA_RESTART; sigaction(0, &act, &oact);], [pgac_cv_func_posix_signals=yes], [pgac_cv_func_posix_signals=no])]) if test x"$pgac_cv_func_posix_signals" = xyes ; then AC_DEFINE(HAVE_POSIX_SIGNALS,, [Define to 1 if you have the POSIX signal interface.]) fi HAVE_POSIX_SIGNALS=$pgac_cv_func_posix_signals AC_SUBST(HAVE_POSIX_SIGNALS)])# PGAC_FUNC_POSIX_SIGNALS # PGAC_FUNC_SNPRINTF_LONG_LONG_INT_FORMAT # --------------------------------------- # Determine which format snprintf uses for long long int. We handle # %lld, %qd, %I64d. The result is in shell variable # LONG_LONG_INT_FORMAT. # # MinGW uses '%I64d', though gcc throws an warning with -Wall, # while '%lld' doesn't generate a warning, but doesn't work. # AC_DEFUN([PGAC_FUNC_SNPRINTF_LONG_LONG_INT_FORMAT], [AC_MSG_CHECKING([snprintf format for long long int]) AC_CACHE_VAL(pgac_cv_snprintf_long_long_int_format, [for pgac_format in '%lld' '%qd' '%I64d'; do AC_TRY_RUN([#include typedef long long int ac_int64; #define INT64_FORMAT "$pgac_format" ac_int64 a = 20000001; ac_int64 b = 40000005; int does_int64_snprintf_work() { ac_int64 c; char buf[100]; if (sizeof(ac_int64) != 8) return 0; /* doesn't look like the right size */ c = a * b; snprintf(buf, 100, INT64_FORMAT, c); if (strcmp(buf, "800000140000005") != 0) return 0; /* either multiply or snprintf is busted */ return 1; } main() { exit(! does_int64_snprintf_work()); }], [pgac_cv_snprintf_long_long_int_format=$pgac_format; break], [], [pgac_cv_snprintf_long_long_int_format=cross; break]) done])dnl AC_CACHE_VAL LONG_LONG_INT_FORMAT='' case $pgac_cv_snprintf_long_long_int_format in cross) AC_MSG_RESULT([cannot test (not on host machine)]);; ?*) AC_MSG_RESULT([$pgac_cv_snprintf_long_long_int_format]) LONG_LONG_INT_FORMAT=$pgac_cv_snprintf_long_long_int_format;; *) AC_MSG_RESULT(none);; esac])# PGAC_FUNC_SNPRINTF_LONG_LONG_INT_FORMAT # PGAC_FUNC_PRINTF_ARG_CONTROL # --------------------------------------- # Determine if printf supports %1$ argument selection, e.g. %5$ selects # the fifth argument after the printf print string. # This is not in the C99 standard, but in the Single Unix Specification (SUS). # It is used in our language translation strings. # AC_DEFUN([PGAC_FUNC_PRINTF_ARG_CONTROL], [AC_MSG_CHECKING([whether printf supports argument control]) AC_CACHE_VAL(pgac_cv_printf_arg_control, [AC_TRY_RUN([#include #include int main() { char buf[100]; /* can it swap arguments? */ snprintf(buf, 100, "%2\$d %1\$d", 3, 4); if (strcmp(buf, "4 3") != 0) return 1; return 0; }], [pgac_cv_printf_arg_control=yes], [pgac_cv_printf_arg_control=no], [pgac_cv_printf_arg_control=cross]) ])dnl AC_CACHE_VAL AC_MSG_RESULT([$pgac_cv_printf_arg_control]) ])# PGAC_FUNC_PRINTF_ARG_CONTROL # PGAC_TYPE_LOCALE_T # ------------------ # Check for the locale_t type and find the right header file. Mac OS # X needs xlocale.h; standard is locale.h, but glibc also has an # xlocale.h file that we should not use. # AC_DEFUN([PGAC_TYPE_LOCALE_T], [AC_CACHE_CHECK([for locale_t], pgac_cv_type_locale_t, [AC_COMPILE_IFELSE([AC_LANG_PROGRAM( [#include locale_t x;], [])], [pgac_cv_type_locale_t=yes], [AC_COMPILE_IFELSE([AC_LANG_PROGRAM( [#include locale_t x;], [])], [pgac_cv_type_locale_t='yes (in xlocale.h)'], [pgac_cv_type_locale_t=no])])]) if test "$pgac_cv_type_locale_t" != no; then AC_DEFINE(HAVE_LOCALE_T, 1, [Define to 1 if the system has the type `locale_t'.]) fi if test "$pgac_cv_type_locale_t" = 'yes (in xlocale.h)'; then AC_DEFINE(LOCALE_T_IN_XLOCALE, 1, [Define to 1 if `locale_t' requires .]) fi])])# PGAC_HEADER_XLOCALE