dnl MPFR specific autoconf macros dnl Copyright 2000, 2002-2017 Free Software Foundation, Inc. dnl Contributed by the AriC and Caramba projects, INRIA. dnl dnl This file is part of the GNU MPFR Library. dnl dnl The GNU MPFR Library is free software; you can redistribute it and/or modify dnl it under the terms of the GNU Lesser General Public License as published dnl by the Free Software Foundation; either version 3 of the License, or (at dnl your option) any later version. dnl dnl The GNU MPFR Library is distributed in the hope that it will be useful, but dnl WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY dnl or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public dnl License for more details. dnl dnl You should have received a copy of the GNU Lesser General Public License dnl along with the GNU MPFR Library; see the file COPYING.LESSER. If not, see dnl http://www.gnu.org/licenses/ or write to the Free Software Foundation, Inc., dnl 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA. dnl autoconf 2.60 is necessary because of the use of AC_PROG_SED. dnl The following line allows the autoconf wrapper (when installed) dnl to work as expected. dnl If you change the required version, please update README.dev too! AC_PREREQ(2.60) dnl ------------------------------------------------------------ dnl You must put in MPFR_CONFIGS everything which configure MPFR dnl except: dnl - Everything dealing with CC and CFLAGS in particular the ABI dnl but the IEEE-754 specific flags must be set here. dnl - Tests that depend on gmp.h (see MPFR_CHECK_DBL2INT_BUG as an example: dnl a function needs to be defined and called in configure.ac). dnl - GMP's linkage. dnl - Libtool stuff. dnl - Handling of special arguments of MPFR's configure. AC_DEFUN([MPFR_CONFIGS], [ AC_REQUIRE([AC_OBJEXT]) AC_REQUIRE([MPFR_CHECK_LIBM]) AC_REQUIRE([MPFR_CHECK_LIBQUADMATH]) AC_REQUIRE([AC_HEADER_TIME]) AC_REQUIRE([AC_CANONICAL_HOST]) AC_CHECK_HEADER([limits.h],, AC_MSG_ERROR([limits.h not found])) AC_CHECK_HEADER([float.h],, AC_MSG_ERROR([float.h not found])) AC_CHECK_HEADER([string.h],, AC_MSG_ERROR([string.h not found])) dnl Check for locales AC_CHECK_HEADERS([locale.h]) dnl Check for wide characters (wchar_t and wint_t) AC_CHECK_HEADERS([wchar.h]) dnl Check for stdargs AC_CHECK_HEADER([stdarg.h],[AC_DEFINE([HAVE_STDARG],1,[Define if stdarg])], [AC_CHECK_HEADER([varargs.h],, AC_MSG_ERROR([stdarg.h or varargs.h not found]))]) dnl sys/fpu.h - MIPS specific AC_CHECK_HEADERS([sys/time.h sys/fpu.h]) dnl Android has a , but not the following members. AC_CHECK_MEMBERS([struct lconv.decimal_point, struct lconv.thousands_sep],,, [#include ]) dnl Check how to get `alloca' AC_FUNC_ALLOCA dnl va_copy macro AC_MSG_CHECKING([how to copy va_list]) AC_LINK_IFELSE([AC_LANG_PROGRAM([[ #include ]], [[ va_list ap1, ap2; va_copy(ap1, ap2); ]])], [ AC_MSG_RESULT([va_copy]) AC_DEFINE(HAVE_VA_COPY) ], [AC_LINK_IFELSE([AC_LANG_PROGRAM([[ #include ]], [[ va_list ap1, ap2; __va_copy(ap1, ap2); ]])], [AC_DEFINE([HAVE___VA_COPY]) AC_MSG_RESULT([__va_copy])], [AC_MSG_RESULT([memcpy])])]) dnl FIXME: The functions memmove, memset and strtol are really needed by dnl MPFR, but if they are implemented as macros, this is also OK (in our dnl case). So, we do not return an error, but their tests are currently dnl useless. dnl Moreover, for memmove and memset, when gcc -Werror is used, these dnl functions are considered to be missing because of a "conflicting dnl types for built-in function" error. Possible workarounds if the dnl results of this test are used (thus one doesn't want an error): dnl * If "$GCC" is set, disable built-ins by adding -fno-builtin dnl to $CFLAGS for this test (this would yield a failure if such dnl functions are defined only as built-ins, but does this occur dnl in practice?). dnl * Enable -Werror only for the main compilation (and possibly dnl some particular tests) via a new configure option. dnl gettimeofday is not defined for MinGW AC_CHECK_FUNCS([memmove memset setlocale strtol gettimeofday signal]) dnl We cannot use AC_CHECK_FUNCS on sigaction, because while this dnl function may be provided by the C library, its prototype and dnl associated structure may not be available, e.g. when compiling dnl with "gcc -std=c99". AC_MSG_CHECKING(for sigaction and its associated structure) AC_LINK_IFELSE([AC_LANG_PROGRAM([[ #include static int f (int (*func)(int, const struct sigaction *, struct sigaction *)) { return 0; } ]], [[ return f(sigaction); ]])], [ AC_MSG_RESULT(yes) AC_DEFINE(HAVE_SIGACTION, 1, [Define if you have a working sigaction function.]) ],[AC_MSG_RESULT(no)]) dnl check for long long AC_CHECK_TYPE([long long int], AC_DEFINE(HAVE_LONG_LONG, 1, [Define if compiler supports long long]),,) dnl intmax_t is C99 AC_CHECK_TYPES([intmax_t]) if test "$ac_cv_type_intmax_t" = yes; then AC_CACHE_CHECK([for working INTMAX_MAX], mpfr_cv_have_intmax_max, [ saved_CPPFLAGS="$CPPFLAGS" CPPFLAGS="$CPPFLAGS -I$srcdir/src" AC_COMPILE_IFELSE([AC_LANG_PROGRAM( [[#include "mpfr-intmax.h"]], [[intmax_t x = INTMAX_MAX; (void) x;]] )], mpfr_cv_have_intmax_max=yes, mpfr_cv_have_intmax_max=no) CPPFLAGS="$saved_CPPFLAGS" ]) if test "$mpfr_cv_have_intmax_max" = "yes"; then AC_DEFINE(MPFR_HAVE_INTMAX_MAX,1,[Define if you have a working INTMAX_MAX.]) fi AC_CACHE_CHECK([for working printf length modifier for intmax_t], mpfr_cv_printf_maxlm, [ saved_CPPFLAGS="$CPPFLAGS" CPPFLAGS="$CPPFLAGS -I$srcdir/src" for modifier in j ll l do AC_RUN_IFELSE([AC_LANG_PROGRAM([[ #include #include #include "mpfr-intmax.h" ]],[[ char s[64]; sprintf (s, "%${modifier}d %${modifier}u", (intmax_t) -17, (uintmax_t) 42); return strcmp (s, "-17 42") != 0; ]])], mpfr_cv_printf_maxlm=${modifier}; break, mpfr_cv_printf_maxlm=none, dnl We assume that j is working when cross-compiling. mpfr_cv_printf_maxlm=j; break ) done CPPFLAGS="$saved_CPPFLAGS" ]) if test "$mpfr_cv_printf_maxlm" != "none"; then AC_DEFINE_UNQUOTED([MPFR_PRINTF_MAXLM],["$mpfr_cv_printf_maxlm"], [Define to a working printf length modifier for intmax_t]) fi fi AC_CHECK_TYPE( [union fpc_csr], AC_DEFINE(HAVE_FPC_CSR,1,[Define if union fpc_csr is available]), , [ #if HAVE_SYS_FPU_H # include #endif ]) dnl Check for _Noreturn function specifier (ISO C11) AC_CACHE_CHECK([for _Noreturn], mpfr_cv_have_noreturn, [ AC_COMPILE_IFELSE([AC_LANG_SOURCE([[_Noreturn void foo(int);]])], mpfr_cv_have_noreturn=yes, mpfr_cv_have_noreturn=no) ]) if test "$mpfr_cv_have_noreturn" = "yes"; then AC_DEFINE(MPFR_HAVE_NORETURN,1,[Define if the _Noreturn function specifier is supported.]) fi dnl Check for __builtin_unreachable AC_CACHE_CHECK([for __builtin_unreachable], mpfr_cv_have_builtin_unreachable, [ AC_LINK_IFELSE([AC_LANG_PROGRAM( [[int x;]], [[if (x) __builtin_unreachable(); ]] )], mpfr_cv_have_builtin_unreachable=yes, mpfr_cv_have_builtin_unreachable=no) ]) if test "$mpfr_cv_have_builtin_unreachable" = "yes"; then AC_DEFINE(MPFR_HAVE_BUILTIN_UNREACHABLE, 1, [Define if the __builtin_unreachable GCC built-in is supported.]) fi dnl Check for attribute constructor and destructor MPFR_CHECK_CONSTRUCTOR_ATTR() dnl Check for POSIX Thread. Since the AX_PTHREAD macro is not standard dnl (it is provided by autoconf-archive), we need to detect whether it dnl is left unexpanded, otherwise the configure script won't fail and dnl "make distcheck" won't give any error, yielding buggy tarballs! dnl The \b is necessary to avoid an error with recent ax_pthread.m4 dnl (such as with Debian's autoconf-archive 20160320-1), which contains dnl AX_PTHREAD_ZOS_MISSING, etc. It is not documented, but see: dnl https://lists.gnu.org/archive/html/autoconf/2015-03/msg00011.html dnl dnl Note: each time a change is done in m4_pattern_forbid, autogen.sh dnl should be tested with and without ax_pthread.m4 availability (in dnl the latter case, there should be an error). m4_pattern_forbid([AX_PTHREAD\b]) AX_PTHREAD([]) dnl Check for ISO C11 Thread MPFR_CHECK_C11_THREAD() dnl Check for fesetround AC_CACHE_CHECK([for fesetround], mpfr_cv_have_fesetround, [ saved_LIBS="$LIBS" LIBS="$LIBS $MPFR_LIBM" AC_LINK_IFELSE([AC_LANG_PROGRAM([[#include ]], [[fesetround(FE_TONEAREST);]])], mpfr_cv_have_fesetround=yes, mpfr_cv_have_fesetround=no) LIBS="$saved_LIBS" ]) if test "$mpfr_cv_have_fesetround" = "yes"; then AC_DEFINE(MPFR_HAVE_FESETROUND,1,[Define if you have the `fesetround' function via the header file.]) fi dnl Check for gcc float-conversion bug; if need be, -ffloat-store is used to dnl force the conversion to the destination type when a value is stored to dnl a variable (see ISO C99 standard 5.1.2.3#13, 6.3.1.5#2, 6.3.1.8#2). This dnl is important concerning the exponent range. Note that this doesn't solve dnl the double-rounding problem. if test -n "$GCC"; then AC_CACHE_CHECK([for gcc float-conversion bug], mpfr_cv_gcc_floatconv_bug, [ saved_LIBS="$LIBS" LIBS="$LIBS $MPFR_LIBM" AC_RUN_IFELSE([AC_LANG_SOURCE([[ #include #ifdef MPFR_HAVE_FESETROUND #include #endif static double get_max (void); int main (void) { double x = 0.5; double y; int i; for (i = 1; i <= 11; i++) x *= x; if (x != 0) return 1; #ifdef MPFR_HAVE_FESETROUND /* Useful test for the G4 PowerPC */ fesetround(FE_TOWARDZERO); x = y = get_max (); x *= 2.0; if (x != y) return 1; #endif return 0; } static double get_max (void) { static volatile double d = DBL_MAX; return d; } ]])], [mpfr_cv_gcc_floatconv_bug="no"], [mpfr_cv_gcc_floatconv_bug="yes, use -ffloat-store"], [mpfr_cv_gcc_floatconv_bug="cannot test, use -ffloat-store"]) LIBS="$saved_LIBS" ]) if test "$mpfr_cv_gcc_floatconv_bug" != "no"; then CFLAGS="$CFLAGS -ffloat-store" fi fi dnl Check if subnormal (denormalized) numbers are supported dnl for the binary64 format, the smallest normal number is 2^(-1022) dnl for the binary32 format, the smallest normal number is 2^(-126) AC_CACHE_CHECK([for subnormal double-precision numbers], mpfr_cv_have_denorms, [ AC_RUN_IFELSE([AC_LANG_SOURCE([[ #include int main (void) { double x = 2.22507385850720138309e-308; fprintf (stderr, "%e\n", x / 2.0); return 2.0 * (double) (x / 2.0) != x; } ]])], [mpfr_cv_have_denorms="yes"], [mpfr_cv_have_denorms="no"], [mpfr_cv_have_denorms="cannot test, assume no"]) ]) if test "$mpfr_cv_have_denorms" = "yes"; then AC_DEFINE(HAVE_DENORMS,1,[Define if subnormal (denormalized) doubles work.]) fi AC_CACHE_CHECK([for subnormal single-precision numbers], mpfr_cv_have_denorms_flt, [ AC_RUN_IFELSE([AC_LANG_SOURCE([[ #include int main (void) { float x = 1.17549435082229e-38; fprintf (stderr, "%e\n", x / 2.0); return 2.0 * (float) (x / 2.0) != x; } ]])], [mpfr_cv_have_denorms_flt="yes"], [mpfr_cv_have_denorms_flt="no"], [mpfr_cv_have_denorms_flt="cannot test, assume no"]) ]) if test "$mpfr_cv_have_denorms_flt" = "yes"; then AC_DEFINE(HAVE_DENORMS_FLT,1, [Define if subnormal (denormalized) floats work.]) fi dnl Check if signed zeros are supported. Note: the test will fail dnl if the division by 0 generates a trap. AC_CACHE_CHECK([for signed zeros], mpfr_cv_have_signedz, [ AC_RUN_IFELSE([AC_LANG_SOURCE([[ int main (void) { return 1.0 / 0.0 == 1.0 / -0.0; } ]])], [mpfr_cv_have_signedz="yes"], [mpfr_cv_have_signedz="no"], [mpfr_cv_have_signedz="cannot test, assume no"]) ]) if test "$mpfr_cv_have_signedz" = "yes"; then AC_DEFINE(HAVE_SIGNEDZ,1,[Define if signed zeros are supported.]) fi dnl Check the FP division by 0 fails (e.g. on a non-IEEE-754 platform). dnl In such a case, MPFR_ERRDIVZERO is defined to disable the tests dnl involving a FP division by 0. dnl For the developers: to check whether all these tests are disabled, dnl configure MPFR with "-DMPFR_TESTS_FPE_DIV -DMPFR_ERRDIVZERO". AC_CACHE_CHECK([if the FP division by 0 fails], mpfr_cv_errdivzero, [ AC_RUN_IFELSE([AC_LANG_SOURCE([[ int main (void) { volatile double d = 0.0, x; x = 0.0 / d; x = 1.0 / d; (void) x; return 0; } ]])], [mpfr_cv_errdivzero="no"], [mpfr_cv_errdivzero="yes"], [mpfr_cv_errdivzero="cannot test, assume no"]) ]) if test "$mpfr_cv_errdivzero" = "yes"; then AC_DEFINE(MPFR_ERRDIVZERO,1,[Define if the FP division by 0 fails.]) AC_MSG_WARN([The floating-point division by 0 fails instead of]) AC_MSG_WARN([returning a special value: NaN or infinity. Tests]) AC_MSG_WARN([involving a FP division by 0 will be disabled.]) fi dnl Check whether NAN != NAN (as required by the IEEE-754 standard, dnl but not by the ISO C standard). For instance, this is false with dnl MIPSpro 7.3.1.3m under IRIX64. By default, assume this is true. AC_CACHE_CHECK([if NAN == NAN], mpfr_cv_nanisnan, [ AC_RUN_IFELSE([AC_LANG_SOURCE([[ #include #include #ifndef NAN # define NAN (0.0/0.0) #endif int main (void) { double d; d = NAN; return d != d; } ]])], [mpfr_cv_nanisnan="yes"], [mpfr_cv_nanisnan="no"], [mpfr_cv_nanisnan="cannot test, assume no"]) ]) if test "$mpfr_cv_nanisnan" = "yes"; then AC_DEFINE(MPFR_NANISNAN,1,[Define if NAN == NAN.]) AC_MSG_WARN([The test NAN != NAN is false. The probable reason is that]) AC_MSG_WARN([your compiler optimizes floating-point expressions in an]) AC_MSG_WARN([unsafe way because some option, such as -ffast-math or]) AC_MSG_WARN([-fast (depending on the compiler), has been used. You]) AC_MSG_WARN([should NOT use such an option, otherwise MPFR functions]) AC_MSG_WARN([such as mpfr_get_d and mpfr_set_d may return incorrect]) AC_MSG_WARN([results on special FP numbers (e.g. NaN or signed zeros).]) AC_MSG_WARN([If you did not use such an option, please send us a bug]) AC_MSG_WARN([report so that we can try to find a workaround for your]) AC_MSG_WARN([platform and/or document the behavior.]) fi dnl Check if the chars '0' to '9' are consecutive values AC_MSG_CHECKING([if charset has consecutive values]) AC_RUN_IFELSE([AC_LANG_PROGRAM([[ char *number = "0123456789"; char *lower = "abcdefghijklmnopqrstuvwxyz"; char *upper = "ABCDEFGHIJKLMNOPQRSTUVWXYZ"; ]],[[ int i; unsigned char *p; for (p = (unsigned char*) number, i = 0; i < 9; i++) if ( (*p)+1 != *(p+1) ) return 1; for (p = (unsigned char*) lower, i = 0; i < 25; i++) if ( (*p)+1 != *(p+1) ) return 1; for (p = (unsigned char*) upper, i = 0; i < 25; i++) if ( (*p)+1 != *(p+1) ) return 1; ]])], [AC_MSG_RESULT(yes)],[ AC_MSG_RESULT(no) AC_DEFINE(MPFR_NO_CONSECUTIVE_CHARSET,1,[Charset is not consecutive]) ], [AC_MSG_RESULT(cannot test)]) dnl Must be checked with the LIBM dnl but we don't want to add the LIBM to MPFR dependency. dnl Can't use AC_CHECK_FUNCS since the function may be in LIBM but dnl not exported in math.h saved_LIBS="$LIBS" LIBS="$LIBS $MPFR_LIBM" dnl AC_CHECK_FUNCS([round trunc floor ceil nearbyint]) AC_MSG_CHECKING(for math/round) AC_LINK_IFELSE([AC_LANG_PROGRAM([[ #include static int f (double (*func)(double)) { return 0; } ]], [[ return f(round); ]])], [ AC_MSG_RESULT(yes) AC_DEFINE(HAVE_ROUND, 1,[Have ISO C99 round function]) ],[AC_MSG_RESULT(no)]) AC_MSG_CHECKING(for math/trunc) AC_LINK_IFELSE([AC_LANG_PROGRAM([[ #include static int f (double (*func)(double)) { return 0; } ]], [[ return f(trunc); ]])], [ AC_MSG_RESULT(yes) AC_DEFINE(HAVE_TRUNC, 1,[Have ISO C99 trunc function]) ],[AC_MSG_RESULT(no)]) AC_MSG_CHECKING(for math/floor) AC_LINK_IFELSE([AC_LANG_PROGRAM([[ #include static int f (double (*func)(double)) { return 0; } ]], [[ return f(floor); ]])], [ AC_MSG_RESULT(yes) AC_DEFINE(HAVE_FLOOR, 1,[Have ISO C99 floor function]) ],[AC_MSG_RESULT(no)]) AC_MSG_CHECKING(for math/ceil) AC_LINK_IFELSE([AC_LANG_PROGRAM([[ #include static int f (double (*func)(double)) { return 0; } ]], [[ return f(ceil); ]])], [ AC_MSG_RESULT(yes) AC_DEFINE(HAVE_CEIL, 1,[Have ISO C99 ceil function]) ],[AC_MSG_RESULT(no)]) AC_MSG_CHECKING(for math/nearbyint) AC_LINK_IFELSE([AC_LANG_PROGRAM([[ #include static int f (double (*func)(double)) { return 0; } ]], [[ return f(nearbyint); ]])], [ AC_MSG_RESULT(yes) AC_DEFINE(HAVE_NEARBYINT, 1,[Have ISO C99 nearbyint function]) ],[AC_MSG_RESULT(no)]) dnl Check if _mulx_u64 is provided dnl Note: This intrinsic is not standard. We need a run because dnl it may be provided but not working as expected (with ICC 15, dnl one gets an "Illegal instruction"). AC_MSG_CHECKING([for _mulx_u64]) AC_RUN_IFELSE([AC_LANG_PROGRAM([[ #include ]], [[ unsigned long long h1, h2; _mulx_u64(17, 42, &h1); _mulx_u64(-1, -1, &h2); return h1 == 0 && h2 == -2 ? 0 : 1; ]])], [AC_MSG_RESULT(yes) AC_DEFINE(HAVE_MULX_U64, 1,[Have a working _mulx_u64 function]) ], [AC_MSG_RESULT(no) ], [AC_MSG_RESULT([cannot test, assume no]) ]) LIBS="$saved_LIBS" dnl Now try to check the long double format MPFR_C_LONG_DOUBLE_FORMAT if test "$enable_logging" = yes; then if test "$enable_thread_safe" = yes; then AC_MSG_ERROR([enable either `Logging' or `thread-safe', not both]) else enable_thread_safe=no fi fi dnl Check if thread-local variables are supported. dnl At least two problems can occur in practice: dnl 1. The compilation fails, e.g. because the compiler doesn't know dnl about the __thread keyword. dnl 2. The compilation succeeds, but the system doesn't support TLS or dnl there is some ld configuration problem. One of the effects can dnl be that thread-local variables always evaluate to 0. So, it is dnl important to run the test below. if test "$enable_thread_safe" != no; then AC_MSG_CHECKING(for TLS support using C11) saved_CPPFLAGS="$CPPFLAGS" CPPFLAGS="$CPPFLAGS -I$srcdir/src" AC_RUN_IFELSE([AC_LANG_SOURCE([[ #define MPFR_USE_THREAD_SAFE 1 #define MPFR_USE_C11_THREAD_SAFE 1 #include "mpfr-thread.h" MPFR_THREAD_ATTR int x = 17; int main (void) { return x != 17; } ]])], [AC_MSG_RESULT(yes) AC_DEFINE([MPFR_USE_THREAD_SAFE],1,[Build MPFR as thread safe]) AC_DEFINE([MPFR_USE_C11_THREAD_SAFE],1,[Build MPFR as thread safe using C11]) tls_c11_support=yes enable_thread_safe=yes ], [AC_MSG_RESULT(no) ], [AC_MSG_RESULT([cannot test, assume no]) ]) CPPFLAGS="$saved_CPPFLAGS" if test "$tls_c11_support" != "yes" then AC_MSG_CHECKING(for TLS support) saved_CPPFLAGS="$CPPFLAGS" CPPFLAGS="$CPPFLAGS -I$srcdir/src" AC_RUN_IFELSE([AC_LANG_SOURCE([[ #define MPFR_USE_THREAD_SAFE 1 #include "mpfr-thread.h" MPFR_THREAD_ATTR int x = 17; int main (void) { return x != 17; } ]])], [AC_MSG_RESULT(yes) AC_DEFINE([MPFR_USE_THREAD_SAFE],1,[Build MPFR as thread safe]) enable_thread_safe=yes ], [AC_MSG_RESULT(no) if test "$enable_thread_safe" = yes; then AC_MSG_ERROR([please configure with --disable-thread-safe]) fi ], [if test "$enable_thread_safe" = yes; then AC_MSG_RESULT([cannot test, assume yes]) AC_DEFINE([MPFR_USE_THREAD_SAFE],1,[Build MPFR as thread safe]) else AC_MSG_RESULT([cannot test, assume no]) fi ]) CPPFLAGS="$saved_CPPFLAGS" fi fi dnl Check if decimal floats are available. dnl For the different cases, we try to use values that will not be returned dnl by build tools. For instance, 1 must not be used as it can be returned dnl by ld in case of link failure. if test "$enable_decimal_float" != no; then AC_MSG_CHECKING(if compiler knows _Decimal64) AC_COMPILE_IFELSE( [AC_LANG_PROGRAM([[_Decimal64 x;]])], [AC_MSG_RESULT(yes) AC_MSG_CHECKING(decimal float format) AC_RUN_IFELSE([AC_LANG_PROGRAM([[ #include ]], [[ volatile _Decimal64 x = 1; union { double d; _Decimal64 d64; } y; if (x != x) return 83; y.d64 = 1234567890123456.0dd; return y.d == 0.14894469406741037E-123 ? 80 : y.d == 0.59075095508629822E-68 ? 81 : 82; ]])], [AC_MSG_RESULT(internal error) AC_MSG_FAILURE(unexpected exit status 0)], [d64_exit_status=$? case "$d64_exit_status" in 80) AC_MSG_RESULT(DPD) AC_DEFINE([DPD_FORMAT],1,[DPD format]) AC_DEFINE([MPFR_WANT_DECIMAL_FLOATS],1, [Build decimal float functions]) ;; 81) AC_MSG_RESULT(BID) AC_DEFINE([MPFR_WANT_DECIMAL_FLOATS],1, [Build decimal float functions]) ;; 82) AC_MSG_RESULT(neither DPD nor BID) if test "$enable_decimal_float" = yes; then AC_MSG_ERROR([unsupported decimal float format. Please build MPFR without --enable-decimal-float.]) fi ;; *) AC_MSG_RESULT(unknown (exit status $d64_exit_status)) if test "$enable_decimal_float" = yes; then AC_MSG_ERROR([internal or link error. Please build MPFR without --enable-decimal-float.]) fi ;; esac], [AC_MSG_RESULT(assuming DPD) AC_DEFINE([DPD_FORMAT],1,[]) AC_DEFINE([MPFR_WANT_DECIMAL_FLOATS],1, [Build decimal float functions])]) ], [AC_MSG_RESULT(no) if test "$enable_decimal_float" = yes; then AC_MSG_ERROR([compiler doesn't know _Decimal64 (ISO/IEC TR 24732). Please use another compiler or build MPFR without --enable-decimal-float.]) fi]) fi dnl Check if __float128 is available. We also require the compiler dnl to support C99 constants (this prevents the __float128 support dnl with GCC's -std=c90, but who cares?). if test "$enable_float128" != no; then AC_MSG_CHECKING(if compiler knows __float128 with C99 constants) AC_COMPILE_IFELSE([AC_LANG_PROGRAM([[__float128 x = 0x1.fp+16383q;]])], [AC_MSG_RESULT(yes) AC_DEFINE([MPFR_WANT_FLOAT128],1,[Build float128 functions])], [AC_MSG_RESULT(no) if test "$enable_float128" = yes; then AC_MSG_ERROR([compiler doesn't know __float128 with C99 constants Please use another compiler or build MPFR without --enable-float128.]) fi]) fi dnl Check if Static Assertions are supported. AC_MSG_CHECKING(for Static Assertion support) saved_CPPFLAGS="$CPPFLAGS" CPPFLAGS="$CPPFLAGS -I$srcdir/src" AC_COMPILE_IFELSE([AC_LANG_SOURCE([[ #define MPFR_USE_STATIC_ASSERT 1 #include "mpfr-sassert.h" /* Test if Static Assertions work */ MPFR_DECL_STATIC_ASSERT(sizeof(char) <= sizeof(int)); int main (void) { MPFR_DECL_STATIC_ASSERT(sizeof(int) <= sizeof(long)); int x; (void) (x = 1); /* cast to void: avoid a warning, at least with GCC */ /* Test of the macro after a declaraction and a statement. */ MPFR_STAT_STATIC_ASSERT(sizeof(short) <= sizeof(int)); return 0; } ]])], [AC_MSG_RESULT(yes) AC_DEFINE([MPFR_USE_STATIC_ASSERT],1,[Build MPFR with Static Assertions]) ], [AC_MSG_RESULT(no) ], [AC_MSG_RESULT([cannot test, assume no]) ]) CPPFLAGS="$saved_CPPFLAGS" if test "$enable_lto" = "yes" ; then MPFR_LTO fi dnl Check if the shared cache was requested and its requirements are ok. if test "$mpfr_want_shared_cache" = yes ;then MPFR_CHECK_SHARED_CACHE() fi ]) dnl end of MPFR_CONFIGS dnl MPFR_CHECK_GMP dnl -------------- dnl Check GMP library vs header. Useful if the user provides --with-gmp dnl with a directory containing a GMP version that doesn't have the dnl correct ABI: the previous tests won't trigger the error if the same dnl GMP version with the right ABI is installed on the system, as this dnl library is automatically selected by the linker, while the header dnl (which depends on the ABI) of the --with-gmp include directory is dnl used. dnl Note: if the error is changed to a warning due to that fact that dnl libtool is not used, then the same thing should be done for the dnl other tests based on GMP. AC_DEFUN([MPFR_CHECK_GMP], [ AC_REQUIRE([MPFR_CONFIGS])dnl AC_CACHE_CHECK([for GMP library vs header correctness], mpfr_cv_check_gmp, [ AC_RUN_IFELSE([AC_LANG_PROGRAM([[ #include #include #include ]], [[ fprintf (stderr, "GMP_NAIL_BITS = %d\n", (int) GMP_NAIL_BITS); fprintf (stderr, "GMP_NUMB_BITS = %d\n", (int) GMP_NUMB_BITS); fprintf (stderr, "mp_bits_per_limb = %d\n", (int) mp_bits_per_limb); fprintf (stderr, "sizeof(mp_limb_t) = %d\n", (int) sizeof(mp_limb_t)); if (GMP_NAIL_BITS != 0) { fprintf (stderr, "GMP_NAIL_BITS != 0\n"); return 1; } if (GMP_NUMB_BITS != mp_bits_per_limb) { fprintf (stderr, "GMP_NUMB_BITS != mp_bits_per_limb\n"); return 2; } if (GMP_NUMB_BITS != sizeof(mp_limb_t) * CHAR_BIT) { fprintf (stderr, "GMP_NUMB_BITS != sizeof(mp_limb_t) * CHAR_BIT\n"); return 3; } return 0; ]])], [mpfr_cv_check_gmp="yes"], [mpfr_cv_check_gmp="no (exit status is $?)"], [mpfr_cv_check_gmp="cannot test, assume yes"]) ]) case $mpfr_cv_check_gmp in no*) AC_MSG_ERROR([bad GMP library or header - ABI problem? See 'config.log' for details.]) esac ]) dnl MPFR_CHECK_DBL2INT_BUG dnl ---------------------- dnl Check for double-to-integer conversion bug dnl https://gforge.inria.fr/tracker/index.php?func=detail&aid=14435 dnl For the exit status, the lowest values (including some values after 128) dnl are reserved for various system errors. So, let's use the largest values dnl below 255 for errors in the test itself. dnl The following problem has been seen under Solaris in config.log, dnl i.e. the failure to link with libgmp wasn't detected in the first dnl test: dnl configure: checking if gmp.h version and libgmp version are the same dnl configure: gcc -o conftest -Wall -Wmissing-prototypes [...] dnl configure: $? = 0 dnl configure: ./conftest dnl ld.so.1: conftest: fatal: libgmp.so.10: open failed: No such file [...] dnl configure: $? = 0 dnl configure: result: yes dnl configure: checking for double-to-integer conversion bug dnl configure: gcc -o conftest -Wall -Wmissing-prototypes [...] dnl configure: $? = 0 dnl configure: ./conftest dnl ld.so.1: conftest: fatal: libgmp.so.10: open failed: No such file [...] dnl ./configure[1680]: eval: line 1: 1971: Killed dnl configure: $? = 9 dnl configure: program exited with status 9 AC_DEFUN([MPFR_CHECK_DBL2INT_BUG], [ AC_REQUIRE([MPFR_CONFIGS])dnl AC_CACHE_CHECK([for double-to-integer conversion bug], mpfr_cv_dbl_int_bug, [ AC_RUN_IFELSE([AC_LANG_PROGRAM([[ #include ]], [[ double d; mp_limb_t u; int i; d = 1.0; for (i = 0; i < GMP_NUMB_BITS - 1; i++) d = d + d; u = (mp_limb_t) d; for (; i > 0; i--) { if (u & 1) break; u = u >> 1; } return (i == 0 && u == 1UL) ? 0 : 254 - i; ]])], [mpfr_cv_dbl_int_bug="no"], [mpfr_cv_dbl_int_bug="yes or failed to exec (exit status is $?)"], [mpfr_cv_dbl_int_bug="cannot test, assume not present"]) ]) case $mpfr_cv_dbl_int_bug in yes*) AC_MSG_ERROR([double-to-integer conversion is incorrect. You need to use another compiler (or lower the optimization level).]) esac ]) dnl MPFR_CHECK_MP_LIMB_T_VS_LONG dnl ---------------------------- dnl Check that a long can fit in a mp_limb_t. dnl If so, it set the define MPFR_LONG_WITHIN_LIMB AC_DEFUN([MPFR_CHECK_MP_LIMB_T_VS_LONG], [ AC_REQUIRE([MPFR_CONFIGS]) AC_CACHE_CHECK([for long to fit in mp_limb_t], mpfr_cv_long_within_limb, [ saved_CPPFLAGS="$CPPFLAGS" CPPFLAGS="$CPPFLAGS -I$srcdir/src" AC_COMPILE_IFELSE([AC_LANG_PROGRAM([[ #include #include "mpfr-sassert.h" ]], [[ MPFR_STAT_STATIC_ASSERT ((mp_limb_t) -1 >= (unsigned long) -1); return 0; ]])], [mpfr_cv_long_within_limb="yes"], [mpfr_cv_long_within_limb="no"], [mpfr_cv_long_within_limb="cannot test, assume not present"]) ]) case $mpfr_cv_long_within_limb in yes*) AC_DEFINE([MPFR_LONG_WITHIN_LIMB],1,[long can be stored in mp_limb_t]) esac CPPFLAGS="$saved_CPPFLAGS" ]) dnl MPFR_PARSE_DIRECTORY dnl Input: $1 = a string to a relative or absolute directory dnl Output: $2 = the variable to set with the absolute directory AC_DEFUN([MPFR_PARSE_DIRECTORY], [ dnl Check if argument is a directory if test -d $1 ; then dnl Get the absolute path of the directory in case of relative directory dnl with the realpath command. If the output is empty, the cause may be dnl that this command has not been found, and we do an alternate test, dnl the same as what autoconf does for the generated configure script to dnl determine whether a pathname is absolute or relative. local_tmp=`realpath $1 2>/dev/null` if test "$local_tmp" != "" ; then if test -d "$local_tmp" ; then $2="$local_tmp" else $2=$1 fi else dnl The quadrigraphs @<:@, @:>@ and @:}@ produce [, ] and ) dnl respectively (see Autoconf manual). We cannot use quoting here dnl as the result depends on the context in which this macro is dnl invoked! To detect that, one needs to look at every instance dnl of the macro expansion in the generated configure script. case $1 in @<:@\\/@:>@* | ?:@<:@\\/@:>@* @:}@ $2=$1 ;; *@:}@ $2="$PWD"/$1 ;; esac fi dnl Check for space in the directory if test `echo $1|cut -d' ' -f1` != $1 ; then AC_MSG_ERROR($1 directory shall not contain any space.) fi else AC_MSG_ERROR($1 shall be a valid directory) fi ]) dnl MPFR_C_LONG_DOUBLE_FORMAT dnl ------------------------- dnl Determine the format of a long double. dnl dnl The object file is grepped, so as to work when cross compiling. A dnl start and end sequence is included to avoid false matches, and dnl allowance is made for the desired data crossing an "od -b" line dnl boundary. The test number is a small integer so it should appear dnl exactly, no rounding or truncation etc. dnl dnl "od -b" is supported even by Unix V7, and the awk script used doesn't dnl have functions or anything, so even an "old" awk should suffice. dnl dnl The 10-byte IEEE extended format is generally padded to either 12 or 16 dnl bytes for alignment purposes. The SVR4 i386 ABI is 12 bytes, or i386 dnl gcc -m128bit-long-double selects 16 bytes. IA-64 is 16 bytes in LP64 dnl mode, or 12 bytes in ILP32 mode. The first 10 bytes is the relevant dnl part in all cases (big and little endian). dnl dnl Enhancements: dnl dnl Could match more formats, but no need to worry until there's code dnl wanting to use them. dnl dnl Don't want to duplicate the double matching from GMP_C_DOUBLE_FORMAT, dnl perhaps we should merge with that macro, to match data formats dnl irrespective of the C type in question. Or perhaps just let the code dnl use DOUBLE macros when sizeof(double)==sizeof(long double). AC_DEFUN([MPFR_C_LONG_DOUBLE_FORMAT], [AC_REQUIRE([AC_PROG_CC]) AC_REQUIRE([AC_PROG_AWK]) AC_REQUIRE([AC_OBJEXT]) AC_CHECK_TYPES([long double]) AC_CACHE_CHECK([format of `long double' floating point], mpfr_cv_c_long_double_format, [mpfr_cv_c_long_double_format=unknown if test "$ac_cv_type_long_double" != yes; then mpfr_cv_c_long_double_format="not available" else cat >conftest.c <<\EOF [ /* "before" is 16 bytes to ensure there's no padding between it and "x". We're not expecting any "long double" bigger than 16 bytes or with alignment requirements stricter than 16 bytes. */ struct { char before[16]; long double x; char after[8]; } foo = { { '\0', '\0', '\0', '\0', '\0', '\0', '\0', '\0', '\001', '\043', '\105', '\147', '\211', '\253', '\315', '\357' }, -123456789.0, { '\376', '\334', '\272', '\230', '\166', '\124', '\062', '\020' } }; ] EOF mpfr_compile="$CC $CFLAGS $CPPFLAGS -c conftest.c >&AS_MESSAGE_LOG_FD 2>&1" if AC_TRY_EVAL(mpfr_compile); then cat >conftest.awk <<\EOF [ BEGIN { found = 0 } # got[] holds a sliding window of bytes read the input. got[0] is the most # recent byte read, and got[31] the oldest byte read, so when looking to # match some data the indices are "reversed". # { for (f = 2; f <= NF; f++) { # new byte, shift others up for (i = 31; i >= 0; i--) got[i+1] = got[i]; got[0] = $f; # end sequence if (got[7] != "376") continue if (got[6] != "334") continue if (got[5] != "272") continue if (got[4] != "230") continue if (got[3] != "166") continue if (got[2] != "124") continue if (got[1] != "062") continue if (got[0] != "020") continue # start sequence, with 8-byte body if (got[23] == "001" && \ got[22] == "043" && \ got[21] == "105" && \ got[20] == "147" && \ got[19] == "211" && \ got[18] == "253" && \ got[17] == "315" && \ got[16] == "357") { saw = " (" got[15] \ " " got[14] \ " " got[13] \ " " got[12] \ " " got[11] \ " " got[10] \ " " got[9] \ " " got[8] ")" if (got[15] == "301" && \ got[14] == "235" && \ got[13] == "157" && \ got[12] == "064" && \ got[11] == "124" && \ got[10] == "000" && \ got[9] == "000" && \ got[8] == "000") { print "IEEE double, big endian" found = 1 exit } if (got[15] == "000" && \ got[14] == "000" && \ got[13] == "000" && \ got[12] == "124" && \ got[11] == "064" && \ got[10] == "157" && \ got[9] == "235" && \ got[8] == "301") { print "IEEE double, little endian" found = 1 exit } } # start sequence, with 12-byte body if (got[27] == "001" && \ got[26] == "043" && \ got[25] == "105" && \ got[24] == "147" && \ got[23] == "211" && \ got[22] == "253" && \ got[21] == "315" && \ got[20] == "357") { saw = " (" got[19] \ " " got[18] \ " " got[17] \ " " got[16] \ " " got[15] \ " " got[14] \ " " got[13] \ " " got[12] \ " " got[11] \ " " got[10] \ " " got[9] \ " " got[8] ")" if (got[19] == "000" && \ got[18] == "000" && \ got[17] == "000" && \ got[16] == "000" && \ got[15] == "240" && \ got[14] == "242" && \ got[13] == "171" && \ got[12] == "353" && \ got[11] == "031" && \ got[10] == "300") { print "IEEE extended, little endian" found = 1 exit } if (got[19] == "300" && \ got[18] == "031" && \ got[17] == "000" && \ got[16] == "000" && \ got[15] == "353" && \ got[14] == "171" && \ got[13] == "242" && \ got[12] == "240" && \ got[11] == "000" && \ got[10] == "000" && \ got[09] == "000" && \ got[08] == "000") { # format found on m68k print "IEEE extended, big endian" found = 1 exit } } # start sequence, with 16-byte body if (got[31] == "001" && \ got[30] == "043" && \ got[29] == "105" && \ got[28] == "147" && \ got[27] == "211" && \ got[26] == "253" && \ got[25] == "315" && \ got[24] == "357") { saw = " (" got[23] \ " " got[22] \ " " got[21] \ " " got[20] \ " " got[19] \ " " got[18] \ " " got[17] \ " " got[16] \ " " got[15] \ " " got[14] \ " " got[13] \ " " got[12] \ " " got[11] \ " " got[10] \ " " got[9] \ " " got[8] ")" if (got[23] == "000" && \ got[22] == "000" && \ got[21] == "000" && \ got[20] == "000" && \ got[19] == "240" && \ got[18] == "242" && \ got[17] == "171" && \ got[16] == "353" && \ got[15] == "031" && \ got[14] == "300") { print "IEEE extended, little endian" found = 1 exit } if (got[23] == "300" && \ got[22] == "031" && \ got[21] == "326" && \ got[20] == "363" && \ got[19] == "105" && \ got[18] == "100" && \ got[17] == "000" && \ got[16] == "000" && \ got[15] == "000" && \ got[14] == "000" && \ got[13] == "000" && \ got[12] == "000" && \ got[11] == "000" && \ got[10] == "000" && \ got[9] == "000" && \ got[8] == "000") { # format used on HP 9000/785 under HP-UX print "IEEE quad, big endian" found = 1 exit } if (got[23] == "000" && \ got[22] == "000" && \ got[21] == "000" && \ got[20] == "000" && \ got[19] == "000" && \ got[18] == "000" && \ got[17] == "000" && \ got[16] == "000" && \ got[15] == "000" && \ got[14] == "000" && \ got[13] == "100" && \ got[12] == "105" && \ got[11] == "363" && \ got[10] == "326" && \ got[9] == "031" && \ got[8] == "300") { print "IEEE quad, little endian" found = 1 exit } if (got[23] == "301" && \ got[22] == "235" && \ got[21] == "157" && \ got[20] == "064" && \ got[19] == "124" && \ got[18] == "000" && \ got[17] == "000" && \ got[16] == "000" && \ got[15] == "000" && \ got[14] == "000" && \ got[13] == "000" && \ got[12] == "000" && \ got[11] == "000" && \ got[10] == "000" && \ got[9] == "000" && \ got[8] == "000") { # format used on 32-bit PowerPC (Mac OS X and Debian GNU/Linux) print "possibly double-double, big endian" found = 1 exit } if (got[23] == "000" && \ got[22] == "000" && \ got[21] == "000" && \ got[20] == "124" && \ got[19] == "064" && \ got[18] == "157" && \ got[17] == "235" && \ got[16] == "301" && \ got[15] == "000" && \ got[14] == "000" && \ got[13] == "000" && \ got[12] == "000" && \ got[11] == "000" && \ got[10] == "000" && \ got[9] == "000" && \ got[8] == "000") { # format used on ppc64le print "possibly double-double, little endian" found = 1 exit } } } } END { if (! found) print "unknown", saw } ] EOF mpfr_cv_c_long_double_format=`od -b conftest.$OBJEXT | $AWK -f conftest.awk` case $mpfr_cv_c_long_double_format in unknown*) echo "cannot match anything, conftest.$OBJEXT contains" >&AS_MESSAGE_LOG_FD od -b conftest.$OBJEXT >&AS_MESSAGE_LOG_FD ;; esac else AC_MSG_WARN([oops, cannot compile test program]) fi fi rm -f conftest* ]) AH_VERBATIM([HAVE_LDOUBLE], [/* Define one of the following to 1 for the format of a `long double'. If your format is not among these choices, or you don't know what it is, then leave all undefined. IEEE_EXT is the 10-byte IEEE extended precision format. IEEE_QUAD is the 16-byte IEEE quadruple precision format. LITTLE or BIG is the endianness. */ #undef HAVE_LDOUBLE_IEEE_EXT_LITTLE #undef HAVE_LDOUBLE_IEEE_QUAD_BIG]) case $mpfr_cv_c_long_double_format in "IEEE double, big endian") AC_DEFINE(HAVE_LDOUBLE_IS_DOUBLE, 1) ;; "IEEE double, little endian") AC_DEFINE(HAVE_LDOUBLE_IS_DOUBLE, 1) ;; "IEEE extended, little endian") AC_DEFINE(HAVE_LDOUBLE_IEEE_EXT_LITTLE, 1) ;; "IEEE extended, big endian") AC_DEFINE(HAVE_LDOUBLE_IEEE_EXT_BIG, 1) ;; "IEEE quad, big endian") AC_DEFINE(HAVE_LDOUBLE_IEEE_QUAD_BIG, 1) ;; "IEEE quad, little endian") AC_DEFINE(HAVE_LDOUBLE_IEEE_QUAD_LITTLE, 1) ;; "possibly double-double, big endian") AC_MSG_WARN([This format is known on GCC/PowerPC platforms,]) AC_MSG_WARN([but due to GCC PR26374, we can't test further.]) AC_MSG_WARN([You can safely ignore this warning, though.]) AC_DEFINE(HAVE_LDOUBLE_MAYBE_DOUBLE_DOUBLE, 1) ;; "possibly double-double, little endian") AC_MSG_WARN([This format is known on GCC/PowerPC platforms,]) AC_MSG_WARN([but due to GCC PR26374, we can't test further.]) AC_MSG_WARN([You can safely ignore this warning, though.]) AC_DEFINE(HAVE_LDOUBLE_MAYBE_DOUBLE_DOUBLE, 1) ;; unknown* | "not available") ;; *) AC_MSG_WARN([unrecognized long double FP format: $mpfr_cv_c_long_double_format]) ;; esac ]) dnl MPFR_CHECK_LIBM dnl --------------- dnl Determine a math library -lm to use. AC_DEFUN([MPFR_CHECK_LIBM], [AC_REQUIRE([AC_CANONICAL_HOST]) AC_SUBST(MPFR_LIBM,'') case $host in *-*-beos* | *-*-cygwin* | *-*-pw32*) # According to libtool AC CHECK LIBM, these systems don't have libm ;; *-*-solaris*) # On Solaris the math functions new in C99 are in -lm9x. # FIXME: Do we need -lm9x as well as -lm, or just instead of? AC_CHECK_LIB(m9x, main, MPFR_LIBM="-lm9x") AC_CHECK_LIB(m, main, MPFR_LIBM="$MPFR_LIBM -lm") ;; *-ncr-sysv4.3*) # FIXME: What does -lmw mean? Libtool AC CHECK LIBM does it this way. AC_CHECK_LIB(mw, _mwvalidcheckl, MPFR_LIBM="-lmw") AC_CHECK_LIB(m, main, MPFR_LIBM="$MPFR_LIBM -lm") ;; *) AC_CHECK_LIB(m, main, MPFR_LIBM="-lm") ;; esac ]) dnl MPFR_CHECK_LIBQUADMATH dnl --------------- dnl Determine a math library -lquadmath to use. AC_DEFUN([MPFR_CHECK_LIBQUADMATH], [AC_REQUIRE([AC_CANONICAL_HOST]) AC_SUBST(MPFR_LIBQUADMATH,'') case $host in *) AC_CHECK_LIB(quadmath, main, MPFR_LIBQUADMATH="-lquadmath") ;; esac ]) dnl MPFR_LD_SEARCH_PATHS_FIRST dnl -------------------------- AC_DEFUN([MPFR_LD_SEARCH_PATHS_FIRST], [case "$LD $LDFLAGS" in *-Wl,-search_paths_first*) ;; *) AC_MSG_CHECKING([if the compiler understands -Wl,-search_paths_first]) saved_LDFLAGS="$LDFLAGS" LDFLAGS="-Wl,-search_paths_first $LDFLAGS" AC_LINK_IFELSE([AC_LANG_PROGRAM([[]], [[]])], [AC_MSG_RESULT(yes)], [AC_MSG_RESULT(no)] LDFLAGS="$saved_LDFLAGS") ;; esac ]) dnl GMP_C_ATTRIBUTE_MODE dnl -------------------- dnl Introduced in gcc 2.2, but perhaps not in all Apple derived versions. dnl Needed for mpfr-longlong.h; this is currently necessary for s390. dnl dnl TODO: Replace this with a cleaner type size detection, as this dnl solution only works with gcc and assumes CHAR_BIT == 8. Probably use dnl , and dnl as a fallback. AC_DEFUN([GMP_C_ATTRIBUTE_MODE], [AC_CACHE_CHECK([whether gcc __attribute__ ((mode (XX))) works], gmp_cv_c_attribute_mode, [AC_COMPILE_IFELSE([AC_LANG_PROGRAM([[typedef int SItype __attribute__ ((mode (SI)));]], [[]])], gmp_cv_c_attribute_mode=yes, gmp_cv_c_attribute_mode=no) ]) if test $gmp_cv_c_attribute_mode = yes; then AC_DEFINE(HAVE_ATTRIBUTE_MODE, 1, [Define to 1 if the compiler accepts gcc style __attribute__ ((mode (XX)))]) fi ]) dnl MPFR_FUNC_GMP_PRINTF_SPEC dnl ------------------------------------ dnl MPFR_FUNC_GMP_PRINTF_SPEC(spec, type, [includes], [if-true], [if-false]) dnl Check if gmp_sprintf supports the conversion specification 'spec' dnl with type 'type'. dnl Expand 'if-true' if printf supports 'spec', 'if-false' otherwise. AC_DEFUN([MPFR_FUNC_GMP_PRINTF_SPEC],[ AC_MSG_CHECKING(if gmp_printf supports "%$1") AC_RUN_IFELSE([AC_LANG_PROGRAM([[ #include #include $3 #include ]], [[ char s[256]; $2 a = 17; if (gmp_sprintf (s, "(%0.0$1)(%d)", a, 42) == -1) return 1; return (strcmp (s, "(17)(42)") != 0); ]])], [AC_MSG_RESULT(yes) $4], [AC_MSG_RESULT(no) $5], [AC_MSG_RESULT(cross-compiling, assuming yes) $4]) ]) dnl MPFR_CHECK_PRINTF_SPEC dnl ---------------------- dnl Check if gmp_printf supports some optional length modifiers. dnl Defined symbols are negative to shorten the gcc command line. AC_DEFUN([MPFR_CHECK_PRINTF_SPEC], [ AC_REQUIRE([MPFR_CONFIGS])dnl if test "$ac_cv_type_intmax_t" = yes; then MPFR_FUNC_GMP_PRINTF_SPEC([jd], [intmax_t], [ #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif ],, [AC_DEFINE([NPRINTF_J], 1, [gmp_printf cannot read intmax_t])]) fi MPFR_FUNC_GMP_PRINTF_SPEC([hhd], [char], [ #include ],, [AC_DEFINE([NPRINTF_HH], 1, [gmp_printf cannot use `hh' length modifier])]) MPFR_FUNC_GMP_PRINTF_SPEC([lld], [long long int], [ #include ],, [AC_DEFINE([NPRINTF_LL], 1, [gmp_printf cannot read long long int])]) MPFR_FUNC_GMP_PRINTF_SPEC([Lf], [long double], [ #include ], [AC_DEFINE([PRINTF_L], 1, [gmp_printf can read long double])], [AC_DEFINE([NPRINTF_L], 1, [gmp_printf cannot read long double])]) MPFR_FUNC_GMP_PRINTF_SPEC([td], [ptrdiff_t], [ #if defined (__cplusplus) #include #else #include #endif #include ], [AC_DEFINE([PRINTF_T], 1, [gmp_printf can read ptrdiff_t])], [AC_DEFINE([NPRINTF_T], 1, [gmp_printf cannot read ptrdiff_t])]) ]) dnl MPFR_LTO dnl -------- dnl To be representative, we need: dnl * to compile a source, dnl * to generate a library archive, dnl * to generate a program with this archive. AC_DEFUN([MPFR_LTO],[ dnl Check for -flto support CFLAGS="$CFLAGS -flto" AC_MSG_CHECKING([if Link Time Optimisation flag '-flto' is supported...]) AC_COMPILE_IFELSE([AC_LANG_SOURCE([[ int main(void) { return 0; } ]])], [AC_MSG_RESULT(yes) ], [AC_MSG_RESULT(no) AC_MSG_ERROR([Link Time Optimisation flag '-flto' is not supported.]) ]) dnl Check if it works... mpfr_compile_and_link() { echo "int f(int); int f(int n) { return n; }" > conftest-f.c echo "int f(int); int main() { return f(0); }" > conftest-m.c echo "$CC $CFLAGS -c -o conftest-f.o conftest-f.c" >&2 $CC $CFLAGS -c -o conftest-f.o conftest-f.c || return 1 echo "$AR cru conftest-lib.a conftest-f.o" >&2 $AR cru conftest-lib.a conftest-f.o || return 1 echo "$RANLIB conftest-lib.a" >&2 $RANLIB conftest-lib.a || return 1 echo "$CC $CFLAGS conftest-m.c conftest-lib.a" >&2 $CC $CFLAGS conftest-m.c conftest-lib.a || return 1 return 0 } AC_MSG_CHECKING([if Link Time Optimisation works with AR=$AR]) if mpfr_compile_and_link 2> conftest-log1.txt ; then cat conftest-log1.txt >&AS_MESSAGE_LOG_FD AC_MSG_RESULT(yes) else cat conftest-log1.txt >&AS_MESSAGE_LOG_FD AC_MSG_RESULT(no) AR=gcc-ar RANLIB=gcc-ranlib AC_MSG_CHECKING([if Link Time Optimisation works with AR=$AR]) if mpfr_compile_and_link 2> conftest-log2.txt; then cat conftest-log2.txt >&AS_MESSAGE_LOG_FD AC_MSG_RESULT(yes) else cat conftest-log2.txt >&AS_MESSAGE_LOG_FD AC_MSG_RESULT(no) AC_MSG_ERROR([Link Time Optimisation is not supported (see config.log for details).]) fi fi rm -f conftest* ]) dnl MPFR_CHECK_SHARED_CACHE dnl ---------------------- dnl Check if the conditions for the shared cache are met: dnl * either pthread / C11 are available. dnl * either constructor or once. AC_DEFUN([MPFR_CHECK_SHARED_CACHE], [ AC_MSG_CHECKING(if shared cache is supported) if test "$enable_logging" = yes ; then AC_MSG_RESULT(no) AC_MSG_ERROR([shared cache does not work with logging support.]) dnl because logging support disables threading support elif test "$enable_thread_safe" != yes ; then AC_MSG_RESULT(no) AC_MSG_ERROR([shared cache needs thread attribute.]) elif test "$ax_pthread_ok" != yes && "$mpfr_c11_thread_ok" != yes ; then AC_MSG_RESULT(no) AC_MSG_ERROR([shared cache needs pthread/C11 library.]) else AC_MSG_RESULT(yes) if test "$ax_pthread_ok" = yes ; then CFLAGS="$CFLAGS $PTHREAD_CFLAGS" LIBS="$LIBS $PTHREAD_LIBS" fi fi ]) dnl MPFR_CHECK_CONSTRUCTOR_ATTR dnl --------------------------- dnl Check for constructor/destructor attributes to function. dnl Output: Define dnl * MPFR_HAVE_CONSTRUCTOR_ATTR C define dnl * mpfr_have_constructor_destructor_attributes shell variable to yes dnl if supported. AC_DEFUN([MPFR_CHECK_CONSTRUCTOR_ATTR], [ AC_MSG_CHECKING([for constructor and destructor attributes]) AC_LINK_IFELSE([AC_LANG_PROGRAM([[ #include int x = 0; __attribute__((constructor)) static void call_f(void) { x = 1742; } __attribute__((destructor)) static void call_g(void) { x = 1448; } ]], [[ return (x == 1742) ? 0 : 1; ]])], [AC_MSG_RESULT(yes) mpfr_have_constructor_destructor_attributes=yes ], [AC_MSG_RESULT(no)] ) if test "$mpfr_have_constructor_destructor_attributes" = "yes"; then AC_DEFINE(MPFR_HAVE_CONSTRUCTOR_ATTR, 1, [Define if the constructor/destructor GCC attributes are supported.]) fi ]) dnl MPFR_CHECK_C11_THREAD dnl --------------------- dnl Check for C11 thread support dnl Output: Define dnl * MPFR_HAVE_C11_LOCK C define dnl * mpfr_c11_thread_ok shell variable to yes dnl if supported. dnl We don't check for __STDC_NO_THREADS__ define variable but rather try to mimic our usage. AC_DEFUN([MPFR_CHECK_C11_THREAD], [ AC_MSG_CHECKING([for ISO C11 thread support]) AC_LINK_IFELSE([AC_LANG_PROGRAM([[ #include #include mtx_t lock; once_flag once = ONCE_FLAG_INIT; thrd_t thd_idx; int x = 0; void once_call (void) { x = 1; } ]], [[ int err; err = mtx_init(&lock, mtx_plain); assert(err == thrd_success); err = mtx_lock(&lock); assert(err == thrd_success); err = mtx_unlock(&lock); assert(err == thrd_success); mtx_destroy(&lock); once_call(&once, once_call); return x == 1 ? 0 : -1; ]])], [AC_MSG_RESULT(yes) mpfr_c11_thread_ok=yes ], [AC_MSG_RESULT(no)] ) if test "$mpfr_c11_thread_ok" = "yes"; then AC_DEFINE(MPFR_HAVE_C11_LOCK, 1, [Define if the ISO C11 Thread is supported.]) fi ])