-dnl
-dnl Check to see if the (math function) argument passed is
-dnl declared when using the c++ compiler
-dnl ASSUMES argument is a math function with ONE parameter
-dnl
-dnl GLIBCPP_CHECK_MATH_DECL_1
-AC_DEFUN(GLIBCPP_CHECK_MATH_DECL_1, [
- AC_MSG_CHECKING([for $1 declaration])
- if test x${glibcpp_cv_func_$1_use+set} != xset; then
- AC_CACHE_VAL(glibcpp_cv_func_$1_use, [
- AC_LANG_SAVE
- AC_LANG_CPLUSPLUS
- AC_TRY_COMPILE([#include <math.h>
- #ifdef HAVE_IEEEFP_H
- #include <ieeefp.h>
- #endif
- ],
- [ $1(0);],
- [glibcpp_cv_func_$1_use=yes], [glibcpp_cv_func_$1_use=no])
- AC_LANG_RESTORE
- ])
- fi
- AC_MSG_RESULT($glibcpp_cv_func_$1_use)
-])
-
-dnl
-dnl Check to see if the (math function) argument passed is
-dnl 1) declared when using the c++ compiler
-dnl 2) has "C" linkage
-dnl 3) if not, see if 1) and 2) for argument prepended with '_'
-dnl
-dnl Define HAVE_CARGF etc if "cargf" is declared and links
-dnl
-dnl argument 1 is name of function to check
-dnl
-dnl ASSUMES argument is a math function with ONE parameter
-dnl
-dnl GLIBCPP_CHECK_MATH_DECL_AND_LINKAGE_1
-AC_DEFUN(GLIBCPP_CHECK_MATH_DECL_AND_LINKAGE_1, [
- GLIBCPP_CHECK_MATH_DECL_1($1)
- if test x$glibcpp_cv_func_$1_use = x"yes"; then
- AC_CHECK_FUNCS($1)
- else
- GLIBCPP_CHECK_MATH_DECL_1(_$1)
- if test x$glibcpp_cv_func__$1_use = x"yes"; then
- AC_CHECK_FUNCS(_$1)
- fi
- fi
-])
-
-
-dnl
-dnl Like GLIBCPP_CHECK_MATH_DECL_AND_LINKAGE_1, but does a bunch of
-dnl of functions at once. It's an all-or-nothing check -- either
-dnl HAVE_XYZ is defined for each of the functions, or for none of them.
-dnl Doing it this way saves significant configure time.
-AC_DEFUN(GLIBCPP_CHECK_MATH_DECLS_AND_LINKAGES_1, [
- AC_MSG_CHECKING([for $1 functions])
- AC_CACHE_VAL(glibcpp_cv_func_$2_use, [
- AC_LANG_SAVE
- AC_LANG_CPLUSPLUS
- AC_TRY_COMPILE([#include <math.h>],
- [ `for x in $3; do echo "$x (0);"; done` ],
- [glibcpp_cv_func_$2_use=yes],
- [glibcpp_cv_func_$2_use=no])
- AC_LANG_RESTORE])
- AC_MSG_RESULT($glibcpp_cv_func_$2_use)
- if test x$glibcpp_cv_func_$2_use = x"yes"; then
- AC_CHECK_FUNCS($3)
- fi
-])
-
-dnl
-dnl Check to see if the (math function) argument passed is
-dnl declared when using the c++ compiler
-dnl ASSUMES argument is a math function with TWO parameters
-dnl
-dnl GLIBCPP_CHECK_MATH_DECL_2
-AC_DEFUN(GLIBCPP_CHECK_MATH_DECL_2, [
- AC_MSG_CHECKING([for $1 declaration])
- if test x${glibcpp_cv_func_$1_use+set} != xset; then
- AC_CACHE_VAL(glibcpp_cv_func_$1_use, [
- AC_LANG_SAVE
- AC_LANG_CPLUSPLUS
- AC_TRY_COMPILE([#include <math.h>],
- [ $1(0, 0);],
- [glibcpp_cv_func_$1_use=yes], [glibcpp_cv_func_$1_use=no])
- AC_LANG_RESTORE
- ])
- fi
- AC_MSG_RESULT($glibcpp_cv_func_$1_use)
-])
-
-dnl
-dnl Check to see if the (math function) argument passed is
-dnl 1) declared when using the c++ compiler
-dnl 2) has "C" linkage
-dnl
-dnl Define HAVE_CARGF etc if "cargf" is declared and links
-dnl
-dnl argument 1 is name of function to check
-dnl
-dnl ASSUMES argument is a math function with TWO parameters
-dnl
-dnl GLIBCPP_CHECK_MATH_DECL_AND_LINKAGE_2
-AC_DEFUN(GLIBCPP_CHECK_MATH_DECL_AND_LINKAGE_2, [
- GLIBCPP_CHECK_MATH_DECL_2($1)
- if test x$glibcpp_cv_func_$1_use = x"yes"; then
- AC_CHECK_FUNCS($1)
- else
- GLIBCPP_CHECK_MATH_DECL_2(_$1)
- if test x$glibcpp_cv_func__$1_use = x"yes"; then
- AC_CHECK_FUNCS(_$1)
- fi
- fi
-])
-
-
-dnl
-dnl Check to see if the (math function) argument passed is
-dnl declared when using the c++ compiler
-dnl ASSUMES argument is a math function with THREE parameters
-dnl
-dnl GLIBCPP_CHECK_MATH_DECL_3
-AC_DEFUN(GLIBCPP_CHECK_MATH_DECL_3, [
- AC_MSG_CHECKING([for $1 declaration])
- if test x${glibcpp_cv_func_$1_use+set} != xset; then
- AC_CACHE_VAL(glibcpp_cv_func_$1_use, [
- AC_LANG_SAVE
- AC_LANG_CPLUSPLUS
- AC_TRY_COMPILE([#include <math.h>],
- [ $1(0, 0, 0);],
- [glibcpp_cv_func_$1_use=yes], [glibcpp_cv_func_$1_use=no])
- AC_LANG_RESTORE
- ])
- fi
- AC_MSG_RESULT($glibcpp_cv_func_$1_use)
-])
-
-dnl
-dnl Check to see if the (math function) argument passed is
-dnl 1) declared when using the c++ compiler
-dnl 2) has "C" linkage
-dnl
-dnl Define HAVE_CARGF etc if "cargf" is declared and links
-dnl
-dnl argument 1 is name of function to check
-dnl
-dnl ASSUMES argument is a math function with THREE parameters
-dnl
-dnl GLIBCPP_CHECK_MATH_DECL_AND_LINKAGE_3
-AC_DEFUN(GLIBCPP_CHECK_MATH_DECL_AND_LINKAGE_3, [
- GLIBCPP_CHECK_MATH_DECL_3($1)
- if test x$glibcpp_cv_func_$1_use = x"yes"; then
- AC_CHECK_FUNCS($1)
- else
- GLIBCPP_CHECK_MATH_DECL_3(_$1)
- if test x$glibcpp_cv_func__$1_use = x"yes"; then
- AC_CHECK_FUNCS(_$1)
- fi
- fi
-])
-
-
-dnl
-dnl Check to see if the (stdlib function) argument passed is
-dnl 1) declared when using the c++ compiler
-dnl 2) has "C" linkage
-dnl
-dnl argument 1 is name of function to check
-dnl
-dnl ASSUMES argument is a math function with TWO parameters
-dnl
-dnl GLIBCPP_CHECK_STDLIB_DECL_AND_LINKAGE_2
-AC_DEFUN(GLIBCPP_CHECK_STDLIB_DECL_AND_LINKAGE_2, [
- AC_MSG_CHECKING([for $1 declaration])
- if test x${glibcpp_cv_func_$1_use+set} != xset; then
- AC_CACHE_VAL(glibcpp_cv_func_$1_use, [
- AC_LANG_SAVE
- AC_LANG_CPLUSPLUS
- AC_TRY_COMPILE([#include <stdlib.h>],
- [ $1(0, 0);],
- [glibcpp_cv_func_$1_use=yes], [glibcpp_cv_func_$1_use=no])
- AC_LANG_RESTORE
- ])
- fi
- AC_MSG_RESULT($glibcpp_cv_func_$1_use)
- if test x$glibcpp_cv_func_$1_use = x"yes"; then
- AC_CHECK_FUNCS($1)
- fi
-])
-
-
-dnl
-dnl Check to see if the (stdlib function) argument passed is
-dnl 1) declared when using the c++ compiler
-dnl 2) has "C" linkage
-dnl
-dnl argument 1 is name of function to check
-dnl
-dnl ASSUMES argument is a function with THREE parameters
-dnl
-dnl GLIBCPP_CHECK_STDLIB_DECL_AND_LINKAGE_3
-AC_DEFUN(GLIBCPP_CHECK_STDLIB_DECL_AND_LINKAGE_3, [
- AC_MSG_CHECKING([for $1 declaration])
- if test x${glibcpp_cv_func_$1_use+set} != xset; then
- AC_CACHE_VAL(glibcpp_cv_func_$1_use, [
- AC_LANG_SAVE
- AC_LANG_CPLUSPLUS
- AC_TRY_COMPILE([#include <stdlib.h>],
- [ $1(0, 0, 0);],
- [glibcpp_cv_func_$1_use=yes], [glibcpp_cv_func_$1_use=no])
- AC_LANG_RESTORE
- ])
- fi
- AC_MSG_RESULT($glibcpp_cv_func_$1_use)
- if test x$glibcpp_cv_func_$1_use = x"yes"; then
- AC_CHECK_FUNCS($1)
- fi
-])
-
-dnl
-dnl Because the builtins are picky picky picky about the arguments they take,
-dnl do an explict linkage tests here.
-dnl Check to see if the (math function) argument passed is
-dnl 1) declared when using the c++ compiler
-dnl 2) has "C" linkage
-dnl
-dnl Define HAVE_CARGF etc if "cargf" is declared and links
-dnl
-dnl argument 1 is name of function to check
-dnl
-dnl ASSUMES argument is a math function with ONE parameter
-dnl
-dnl GLIBCPP_CHECK_BUILTIN_MATH_DECL_LINKAGE_1
-AC_DEFUN(GLIBCPP_CHECK_BUILTIN_MATH_DECL_AND_LINKAGE_1, [
- AC_MSG_CHECKING([for $1 declaration])
- if test x${glibcpp_cv_func_$1_use+set} != xset; then
- AC_CACHE_VAL(glibcpp_cv_func_$1_use, [
- AC_LANG_SAVE
- AC_LANG_CPLUSPLUS
- AC_TRY_COMPILE([#include <math.h>],
- [ $1(0);],
- [glibcpp_cv_func_$1_use=yes], [glibcpp_cv_func_$1_use=no])
- AC_LANG_RESTORE
- ])
- fi
- AC_MSG_RESULT($glibcpp_cv_func_$1_use)
- if test x$glibcpp_cv_func_$1_use = x"yes"; then
- AC_MSG_CHECKING([for $1 linkage])
- if test x${glibcpp_cv_func_$1_link+set} != xset; then
- AC_CACHE_VAL(glibcpp_cv_func_$1_link, [
- AC_TRY_LINK([#include <math.h>],
- [ $1(0);],
- [glibcpp_cv_func_$1_link=yes], [glibcpp_cv_func_$1_link=no])
- ])
- fi
- AC_MSG_RESULT($glibcpp_cv_func_$1_link)
- if test x$glibcpp_cv_func_$1_link = x"yes"; then
- ac_tr_func=HAVE_`echo $1 | tr 'abcdefghijklmnopqrstuvwxyz' 'ABCDEFGHIJKLMNOPQRSTUVWXYZ'`
- AC_DEFINE_UNQUOTED(${ac_tr_func})
- fi
- fi
-])
-
-
-dnl
-dnl Check to see what builtin math functions are supported
-dnl
-dnl check for __builtin_abs
-dnl check for __builtin_fabsf
-dnl check for __builtin_fabs
-dnl check for __builtin_fabl
-dnl check for __builtin_labs
-dnl check for __builtin_sqrtf
-dnl check for __builtin_sqrtl
-dnl check for __builtin_sqrt
-dnl check for __builtin_sinf
-dnl check for __builtin_sin
-dnl check for __builtin_sinl
-dnl check for __builtin_cosf
-dnl check for __builtin_cos
-dnl check for __builtin_cosl
-dnl
-dnl GLIBCPP_CHECK_BUILTIN_MATH_SUPPORT
-AC_DEFUN(GLIBCPP_CHECK_BUILTIN_MATH_SUPPORT, [
- dnl Test for builtin math functions.
- dnl These are made in gcc/c-common.c
- GLIBCPP_CHECK_BUILTIN_MATH_DECL_AND_LINKAGE_1(__builtin_abs)
- GLIBCPP_CHECK_BUILTIN_MATH_DECL_AND_LINKAGE_1(__builtin_fabsf)
- GLIBCPP_CHECK_BUILTIN_MATH_DECL_AND_LINKAGE_1(__builtin_fabs)
- GLIBCPP_CHECK_BUILTIN_MATH_DECL_AND_LINKAGE_1(__builtin_fabsl)
- GLIBCPP_CHECK_BUILTIN_MATH_DECL_AND_LINKAGE_1(__builtin_labs)
-
- GLIBCPP_CHECK_BUILTIN_MATH_DECL_AND_LINKAGE_1(__builtin_sqrtf)
- GLIBCPP_CHECK_BUILTIN_MATH_DECL_AND_LINKAGE_1(__builtin_sqrt)
- GLIBCPP_CHECK_BUILTIN_MATH_DECL_AND_LINKAGE_1(__builtin_sqrtl)
-
- GLIBCPP_CHECK_BUILTIN_MATH_DECL_AND_LINKAGE_1(__builtin_sinf)
- GLIBCPP_CHECK_BUILTIN_MATH_DECL_AND_LINKAGE_1(__builtin_sin)
- GLIBCPP_CHECK_BUILTIN_MATH_DECL_AND_LINKAGE_1(__builtin_sinl)
-
- GLIBCPP_CHECK_BUILTIN_MATH_DECL_AND_LINKAGE_1(__builtin_cosf)
- GLIBCPP_CHECK_BUILTIN_MATH_DECL_AND_LINKAGE_1(__builtin_cos)
- GLIBCPP_CHECK_BUILTIN_MATH_DECL_AND_LINKAGE_1(__builtin_cosl)
-
- dnl There is, without a doubt, a more elegant way to have these
- dnl names exported so that they won't be stripped out of acconfig.h by
- dnl autoheader. I leave this as an exercise to somebody less frustrated
- dnl than I.... please email the libstdc++ list if you can figure out a
- dnl more elegant approach (see autoconf/acgen.m4 and specifically
- dnl AC_CHECK_FUNC for things to steal.)
- dummyvar=no
- if test x$dummyvar = x"yes"; then
- AC_DEFINE(HAVE___BUILTIN_ABS)
- AC_DEFINE(HAVE___BUILTIN_LABS)
- AC_DEFINE(HAVE___BUILTIN_COS)
- AC_DEFINE(HAVE___BUILTIN_COSF)
- AC_DEFINE(HAVE___BUILTIN_COSL)
- AC_DEFINE(HAVE___BUILTIN_FABS)
- AC_DEFINE(HAVE___BUILTIN_FABSF)
- AC_DEFINE(HAVE___BUILTIN_FABSL)
- AC_DEFINE(HAVE___BUILTIN_SIN)
- AC_DEFINE(HAVE___BUILTIN_SINF)
- AC_DEFINE(HAVE___BUILTIN_SINL)
- AC_DEFINE(HAVE___BUILTIN_SQRT)
- AC_DEFINE(HAVE___BUILTIN_SQRTF)
- AC_DEFINE(HAVE___BUILTIN_SQRTL)
- fi
-])
-
-dnl
-dnl Check to see what the underlying c library is like
-dnl These checks need to do two things:
-dnl 1) make sure the name is declared when using the c++ compiler
-dnl 2) make sure the name has "C" linkage
-dnl This might seem like overkill but experience has shown that it's not...
-dnl
-dnl Define HAVE_STRTOLD if "strtold" is declared and links
-dnl Define HAVE_STRTOF if "strtof" is declared and links
-dnl Define HAVE_DRAND48 if "drand48" is declared and links
-dnl
-dnl GLIBCPP_CHECK_STDLIB_SUPPORT
-AC_DEFUN(GLIBCPP_CHECK_STDLIB_SUPPORT, [
- ac_test_CXXFLAGS="${CXXFLAGS+set}"
- ac_save_CXXFLAGS="$CXXFLAGS"
- CXXFLAGS='-fno-builtins -D_GNU_SOURCE'
-
- GLIBCPP_CHECK_STDLIB_DECL_AND_LINKAGE_2(strtold)
- GLIBCPP_CHECK_STDLIB_DECL_AND_LINKAGE_2(strtof)
- AC_CHECK_FUNCS(drand48)
-
- CXXFLAGS="$ac_save_CXXFLAGS"
-])
-
-dnl
-dnl Check to see what the underlying c library or math library is like.
-dnl These checks need to do two things:
-dnl 1) make sure the name is declared when using the c++ compiler
-dnl 2) make sure the name has "C" linkage
-dnl This might seem like overkill but experience has shown that it's not...
-dnl
-dnl Define HAVE_CARGF etc if "cargf" is found.
-dnl
-dnl GLIBCPP_CHECK_MATH_SUPPORT
-AC_DEFUN(GLIBCPP_CHECK_MATH_SUPPORT, [
- ac_test_CXXFLAGS="${CXXFLAGS+set}"
- ac_save_CXXFLAGS="$CXXFLAGS"
- CXXFLAGS='-fno-builtins -D_GNU_SOURCE'
-
- dnl Check libm
- AC_CHECK_LIB(m, sin, libm="-lm")
- ac_save_LIBS="$LIBS"
- LIBS="$LIBS $libm"
-
- dnl Check to see if certain C math functions exist.
- GLIBCPP_CHECK_MATH_DECL_AND_LINKAGE_1(isinf)
- GLIBCPP_CHECK_MATH_DECL_AND_LINKAGE_1(isnan)
- GLIBCPP_CHECK_MATH_DECL_AND_LINKAGE_1(finite)
- GLIBCPP_CHECK_MATH_DECL_AND_LINKAGE_2(copysign)
- GLIBCPP_CHECK_MATH_DECL_AND_LINKAGE_3(sincos)
- GLIBCPP_CHECK_MATH_DECL_AND_LINKAGE_1(fpclass)
- GLIBCPP_CHECK_MATH_DECL_AND_LINKAGE_1(qfpclass)
- GLIBCPP_CHECK_MATH_DECL_AND_LINKAGE_2(hypot)
-
- dnl Check to see if basic C math functions have float versions.
- GLIBCPP_CHECK_MATH_DECLS_AND_LINKAGES_1(float trig,
- float_trig,
- acosf asinf atanf \
- cosf sinf tanf \
- coshf sinhf tanhf)
- GLIBCPP_CHECK_MATH_DECLS_AND_LINKAGES_1(float round,
- float_round,
- ceilf floorf)
- GLIBCPP_CHECK_MATH_DECL_AND_LINKAGE_1(expf)
- GLIBCPP_CHECK_MATH_DECL_AND_LINKAGE_1(isnanf)
- GLIBCPP_CHECK_MATH_DECL_AND_LINKAGE_1(isinff)
- GLIBCPP_CHECK_MATH_DECL_AND_LINKAGE_2(atan2f)
- GLIBCPP_CHECK_MATH_DECL_AND_LINKAGE_1(fabsf)
- GLIBCPP_CHECK_MATH_DECL_AND_LINKAGE_2(fmodf)
- GLIBCPP_CHECK_MATH_DECL_AND_LINKAGE_2(frexpf)
- GLIBCPP_CHECK_MATH_DECL_AND_LINKAGE_2(hypotf)
- GLIBCPP_CHECK_MATH_DECL_AND_LINKAGE_2(ldexpf)
- GLIBCPP_CHECK_MATH_DECL_AND_LINKAGE_1(logf)
- GLIBCPP_CHECK_MATH_DECL_AND_LINKAGE_1(log10f)
- GLIBCPP_CHECK_MATH_DECL_AND_LINKAGE_2(modff)
- GLIBCPP_CHECK_MATH_DECL_AND_LINKAGE_2(powf)
- GLIBCPP_CHECK_MATH_DECL_AND_LINKAGE_1(sqrtf)
- GLIBCPP_CHECK_MATH_DECL_AND_LINKAGE_3(sincosf)
- GLIBCPP_CHECK_MATH_DECL_AND_LINKAGE_1(finitef)
-
- dnl Check to see if basic C math functions have long double versions.
- GLIBCPP_CHECK_MATH_DECLS_AND_LINKAGES_1(long double trig,
- long_double_trig,
- acosl asinl atanl \
- cosl sinl tanl \
- coshl sinhl tanhl)
- GLIBCPP_CHECK_MATH_DECLS_AND_LINKAGES_1(long double round,
- long_double_round,
- ceill floorl)
- GLIBCPP_CHECK_MATH_DECL_AND_LINKAGE_1(isnanl)
- GLIBCPP_CHECK_MATH_DECL_AND_LINKAGE_1(isinfl)
- GLIBCPP_CHECK_MATH_DECL_AND_LINKAGE_2(copysignl)
- GLIBCPP_CHECK_MATH_DECL_AND_LINKAGE_2(atan2l)
- GLIBCPP_CHECK_MATH_DECL_AND_LINKAGE_1(expl)
- GLIBCPP_CHECK_MATH_DECL_AND_LINKAGE_1(fabsl)
- GLIBCPP_CHECK_MATH_DECL_AND_LINKAGE_2(fmodl)
- GLIBCPP_CHECK_MATH_DECL_AND_LINKAGE_2(frexpl)
- GLIBCPP_CHECK_MATH_DECL_AND_LINKAGE_2(hypotl)
- GLIBCPP_CHECK_MATH_DECL_AND_LINKAGE_2(ldexpl)
- GLIBCPP_CHECK_MATH_DECL_AND_LINKAGE_1(logl)
- GLIBCPP_CHECK_MATH_DECL_AND_LINKAGE_1(log10l)
- GLIBCPP_CHECK_MATH_DECL_AND_LINKAGE_2(modfl)
- GLIBCPP_CHECK_MATH_DECL_AND_LINKAGE_2(powl)
- GLIBCPP_CHECK_MATH_DECL_AND_LINKAGE_1(sqrtl)
- GLIBCPP_CHECK_MATH_DECL_AND_LINKAGE_3(sincosl)
- GLIBCPP_CHECK_MATH_DECL_AND_LINKAGE_1(finitel)
-
- dnl Some runtimes have these functions with a preceding underscore. Please
- dnl keep this sync'd with the one above. And if you add any new symbol,
- dnl please add the corresponding block in the @BOTTOM@ section of acconfig.h.
- dnl Check to see if certain C math functions exist.
-
- dnl Check to see if basic C math functions have float versions.
- GLIBCPP_CHECK_MATH_DECLS_AND_LINKAGES_1(_float trig,
- _float_trig,
- _acosf _asinf _atanf \
- _cosf _sinf _tanf \
- _coshf _sinhf _tanhf)
- GLIBCPP_CHECK_MATH_DECLS_AND_LINKAGES_1(_float round,
- _float_round,
- _ceilf _floorf)
-
- dnl Check to see if basic C math functions have long double versions.
- GLIBCPP_CHECK_MATH_DECLS_AND_LINKAGES_1(_long double trig,
- _long_double_trig,
- _acosl _asinl _atanl \
- _cosl _sinl _tanl \
- _coshl _sinhl _tanhl)
- GLIBCPP_CHECK_MATH_DECLS_AND_LINKAGES_1(_long double round,
- _long_double_round,
- _ceill _floorl)
-
- LIBS="$ac_save_LIBS"
- CXXFLAGS="$ac_save_CXXFLAGS"
-])
-
-
-dnl
-dnl Check to see if there is native support for complex
-dnl
-dnl Don't compile bits in math/* if native support exits.
-dnl
-dnl Define USE_COMPLEX_LONG_DOUBLE etc if "copysignl" is found.
-dnl
-dnl GLIBCPP_CHECK_COMPLEX_MATH_SUPPORT
-AC_DEFUN(GLIBCPP_CHECK_COMPLEX_MATH_SUPPORT, [
- dnl Check for complex versions of math functions of platform.
- AC_CHECK_LIB(m, main)
- AC_REPLACE_MATHFUNCS(nan copysignf)
-
- dnl For __signbit to signbit conversions.
- AC_CHECK_FUNCS([__signbit], , [LIBMATHOBJS="$LIBMATHOBJS signbit.lo"])
- AC_CHECK_FUNCS([__signbitf], , [LIBMATHOBJS="$LIBMATHOBJS signbitf.lo"])
-
- dnl Compile the long double complex functions only if the function
- dnl provides the non-complex long double functions that are needed.
- dnl Currently this includes copysignl, which should be
- dnl cached from the GLIBCPP_CHECK_MATH_SUPPORT macro, above.
- if test x$ac_cv_func_copysignl = x"yes"; then
- AC_CHECK_FUNCS([__signbitl], , [LIBMATHOBJS="$LIBMATHOBJS signbitl.lo"])
- fi
-
- if test -n "$LIBMATHOBJS"; then
- need_libmath=yes
- fi
- AC_SUBST(LIBMATHOBJS)
- AM_CONDITIONAL(GLIBCPP_BUILD_LIBMATH, test "$need_libmath" = yes)
-])