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view src/fftw-3.3.3/configure.ac @ 169:223a55898ab9 tip default
Add null config files
| author | Chris Cannam <cannam@all-day-breakfast.com> |
|---|---|
| date | Mon, 02 Mar 2020 14:03:47 +0000 |
| parents | 89f5e221ed7b |
| children |
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dnl Process this file with autoconf to produce a configure script. AC_INIT(fftw, 3.3.3, fftw@fftw.org) AC_CONFIG_SRCDIR(kernel/ifftw.h) # fftw-3.1.x was 4:X:1 # fftw-3.2.x was 5:X:2 # fftw-3.3.x was 6:X:3 SHARED_VERSION_INFO="6:2:3" # CURRENT:REVISION:AGE AM_INIT_AUTOMAKE(1.7) AM_CONFIG_HEADER(config.h) AC_CONFIG_MACRO_DIR([m4]) AM_MAINTAINER_MODE AC_SUBST(SHARED_VERSION_INFO) AC_DISABLE_SHARED dnl to hell with shared libraries AC_CANONICAL_HOST dnl configure options case "${host_cpu}" in powerpc*) have_fma=yes;; ia64*) have_fma=yes;; hppa*) have_fma=yes;; mips64*) have_fma=yes;; *) have_fma=no;; esac AC_ARG_ENABLE(fma, [AC_HELP_STRING([--enable-fma],[enable optimizations for machines with fused multiply-add])], have_fma=$enableval) if test "$have_fma"x = "yes"x; then AC_DEFINE(HAVE_FMA,1,[Define if you have a machine with fused multiply-add]) fi AC_ARG_ENABLE(debug, [AC_HELP_STRING([--enable-debug],[compile fftw with extra runtime checks for debugging])], ok=$enableval, ok=no) if test "$ok" = "yes"; then AC_DEFINE(FFTW_DEBUG,1,[Define to enable extra FFTW debugging code.]) debug_malloc=yes else debug_malloc=no fi AC_ARG_ENABLE(debug-malloc, [AC_HELP_STRING([--enable-debug-malloc],[enable malloc debugging version])], ok=$enableval, ok=$debug_malloc) if test "$ok" = "yes"; then AC_DEFINE(FFTW_DEBUG_MALLOC,1,[Define to enable debugging malloc.]) fi AC_ARG_ENABLE(debug-alignment, [AC_HELP_STRING([--enable-debug-alignment],[enable alignment debugging hacks])], ok=$enableval, ok=no) if test "$ok" = "yes"; then AC_DEFINE(FFTW_DEBUG_ALIGNMENT,1,[Define to enable alignment debugging hacks.]) fi AC_ARG_ENABLE(random-estimator, [AC_HELP_STRING([--enable-random-estimator],[enable pseudorandom estimator (debugging hack)])], ok=$enableval, ok=no) if test "$ok" = "yes"; then AC_DEFINE(FFTW_RANDOM_ESTIMATOR,1,[Define to enable pseudorandom estimate planning for debugging.]) CHECK_PL_OPTS="--estimate" fi AC_ARG_ENABLE(alloca, [AC_HELP_STRING([--disable-alloca],[disable use of the alloca() function (may be broken on mingw64)])], ok=$enableval, ok=yes) if test "$ok" = "yes"; then AC_DEFINE(FFTW_ENABLE_ALLOCA,1,[Define to enable the use of alloca().]) fi AC_ARG_ENABLE(single, [AC_HELP_STRING([--enable-single],[compile fftw in single precision])], ok=$enableval, ok=no) AC_ARG_ENABLE(float, [AC_HELP_STRING([--enable-float],[synonym for --enable-single])], ok=$enableval) if test "$ok" = "yes"; then AC_DEFINE(FFTW_SINGLE,1,[Define to compile in single precision.]) AC_DEFINE(BENCHFFT_SINGLE,1,[Define to compile in single precision.]) PRECISION=s else PRECISION=d fi AM_CONDITIONAL(SINGLE, test "$ok" = "yes") AC_ARG_ENABLE(long-double, [AC_HELP_STRING([--enable-long-double],[compile fftw in long-double precision])], ok=$enableval, ok=no) if test "$ok" = "yes"; then if test "$PRECISION" = "s"; then AC_MSG_ERROR([--enable-single/--enable-long-double conflict]) fi AC_DEFINE(FFTW_LDOUBLE,1,[Define to compile in long-double precision.]) AC_DEFINE(BENCHFFT_LDOUBLE,1,[Define to compile in long-double precision.]) PRECISION=l fi AM_CONDITIONAL(LDOUBLE, test "$ok" = "yes") AC_ARG_ENABLE(quad-precision, [AC_HELP_STRING([--enable-quad-precision],[compile fftw in quadruple precision if available])], ok=$enableval, ok=no) if test "$ok" = "yes"; then if test "$PRECISION" != "d"; then AC_MSG_ERROR([conflicting precisions specified]) fi AC_DEFINE(FFTW_QUAD,1,[Define to compile in quad precision.]) AC_DEFINE(BENCHFFT_QUAD,1,[Define to compile in quad precision.]) PRECISION=q fi AM_CONDITIONAL(QUAD, test "$ok" = "yes") AC_SUBST(PRECISION) AC_SUBST(CHECK_PL_OPTS) AC_ARG_ENABLE(sse, [AC_HELP_STRING([--enable-sse],[enable SSE optimizations])], have_sse=$enableval, have_sse=no) if test "$have_sse" = "yes"; then if test "$PRECISION" != "s"; then AC_MSG_ERROR([SSE requires single precision]) fi fi AC_ARG_ENABLE(sse2, [AC_HELP_STRING([--enable-sse2],[enable SSE/SSE2 optimizations])], have_sse2=$enableval, have_sse2=no) if test "$have_sse" = "yes"; then have_sse2=yes; fi if test "$have_sse2" = "yes"; then AC_DEFINE(HAVE_SSE2,1,[Define to enable SSE/SSE2 optimizations.]) if test "$PRECISION" != "d" -a "$PRECISION" != "s"; then AC_MSG_ERROR([SSE2 requires single or double precision]) fi fi AM_CONDITIONAL(HAVE_SSE2, test "$have_sse2" = "yes") AC_ARG_ENABLE(avx, [AC_HELP_STRING([--enable-avx],[enable AVX optimizations])], have_avx=$enableval, have_avx=no) if test "$have_avx" = "yes"; then AC_DEFINE(HAVE_AVX,1,[Define to enable AVX optimizations.]) if test "$PRECISION" != "d" -a "$PRECISION" != "s"; then AC_MSG_ERROR([AVX requires single or double precision]) fi fi AM_CONDITIONAL(HAVE_AVX, test "$have_avx" = "yes") AC_ARG_ENABLE(altivec, [AC_HELP_STRING([--enable-altivec],[enable Altivec optimizations])], have_altivec=$enableval, have_altivec=no) if test "$have_altivec" = "yes"; then AC_DEFINE(HAVE_ALTIVEC,1,[Define to enable Altivec optimizations.]) if test "$PRECISION" != "s"; then AC_MSG_ERROR([Altivec requires single precision]) fi fi AM_CONDITIONAL(HAVE_ALTIVEC, test "$have_altivec" = "yes") AC_ARG_ENABLE(neon, [AC_HELP_STRING([--enable-neon],[enable ARM NEON optimizations])], have_neon=$enableval, have_neon=no) if test "$have_neon" = "yes"; then AC_DEFINE(HAVE_NEON,1,[Define to enable ARM NEON optimizations.]) if test "$PRECISION" != "s"; then AC_MSG_ERROR([NEON requires single precision]) fi fi AM_CONDITIONAL(HAVE_NEON, test "$have_neon" = "yes") dnl FIXME: dnl AC_ARG_ENABLE(mips-ps, [AC_HELP_STRING([--enable-mips-ps],[enable MIPS pair-single optimizations])], have_mips_ps=$enableval, have_mips_ps=no) dnl if test "$have_mips_ps" = "yes"; then dnl AC_DEFINE(HAVE_MIPS_PS,1,[Define to enable MIPS paired-single optimizations.]) dnl if test "$PRECISION" != "s"; then dnl AC_MSG_ERROR([MIPS paired-single requires single precision]) dnl fi dnl fi dnl AM_CONDITIONAL(HAVE_MIPS_PS, test "$have_mips_ps" = "yes") AC_ARG_WITH(slow-timer, [AC_HELP_STRING([--with-slow-timer],[use low-precision timers (SLOW)])], with_slow_timer=$withval, with_slow_timer=no) if test "$with_slow_timer" = "yes"; then AC_DEFINE(WITH_SLOW_TIMER,1,[Use low-precision timers, making planner very slow]) fi AC_ARG_ENABLE(mips_zbus_timer, [AC_HELP_STRING([--enable-mips-zbus-timer],[use MIPS ZBus cycle-counter])], have_mips_zbus_timer=$enableval, have_mips_zbus_timer=no) if test "$have_mips_zbus_timer" = "yes"; then AC_DEFINE(HAVE_MIPS_ZBUS_TIMER,1,[Define to enable use of MIPS ZBus cycle-counter.]) fi AC_ARG_WITH(our-malloc, [AC_HELP_STRING([--with-our-malloc],[use our aligned malloc (helpful for Win32)])], with_our_malloc=$withval, with_our_malloc=no) AC_ARG_WITH(our-malloc16, [AC_HELP_STRING([--with-our-malloc16],[Obsolete alias for --with-our-malloc16])], with_our_malloc=$withval) if test "$with_our_malloc" = "yes"; then AC_DEFINE(WITH_OUR_MALLOC,1,[Use our own aligned malloc routine; mainly helpful for Windows systems lacking aligned allocation system-library routines.]) fi AC_ARG_WITH(windows-f77-mangling, [AC_HELP_STRING([--with-windows-f77-mangling],[use common Win32 Fortran interface styles])], with_windows_f77_mangling=$withval, with_windows_f77_mangling=no) if test "$with_windows_f77_mangling" = "yes"; then AC_DEFINE(WINDOWS_F77_MANGLING,1,[Use common Windows Fortran mangling styles for the Fortran interfaces.]) fi AC_ARG_WITH(incoming-stack-boundary, [AC_HELP_STRING([--with-incoming-stack-boundary=X],[Assume that stack is aligned to (1<<X) bytes])], with_incoming_stack_boundary=$withval, with_incoming_stack_boundary=no) dnl compute library suffix case "$PRECISION" in s) PREC_SUFFIX=f;; d) PREC_SUFFIX=;; l) PREC_SUFFIX=l;; q) PREC_SUFFIX=q;; esac AC_SUBST(PREC_SUFFIX) dnl Checks for programs. AC_PROG_CC AM_PROG_CC_C_O AX_COMPILER_VENDOR AC_PROG_CC_STDC AC_PROG_INSTALL AC_PROG_LN_S AC_PROG_MAKE_SET AC_LIBTOOL_WIN32_DLL AC_PROG_LIBTOOL AC_CHECK_PROG(OCAMLBUILD, ocamlbuild, ocamlbuild) dnl ----------------------------------------------------------------------- AC_ARG_ENABLE(mpi, [AC_HELP_STRING([--enable-mpi],[compile FFTW MPI library])], enable_mpi=$enableval, enable_mpi=no) if test "$enable_mpi" = "yes"; then if test $PRECISION = q; then AC_MSG_ERROR([quad precision is not supported in MPI]) fi ACX_MPI([],[AC_MSG_ERROR([could not find mpi library for --enable-mpi])]) AC_CHECK_PROG(MPIRUN, mpirun, mpirun) AC_SUBST(MPIRUN) save_CC=$CC CC=$MPICC AC_CHECK_SIZEOF(MPI_Fint, [], [#include <mpi.h>]) CC=$save_CC if test 0 = $ac_cv_sizeof_MPI_Fint; then AC_MSG_WARN([sizeof(MPI_Fint) test failed]); dnl As a backup, assume Fortran integer == C int AC_CHECK_SIZEOF(int) if test 0 = $ac_cv_sizeof_int; then AC_MSG_ERROR([sizeof(int) test failed]); fi ac_cv_sizeof_MPI_Fint=$ac_cv_sizeof_int fi C_MPI_FINT=C_INT`expr $ac_cv_sizeof_MPI_Fint \* 8`_T AC_SUBST(C_MPI_FINT) fi AM_CONDITIONAL(MPI, test "$enable_mpi" = "yes") dnl ----------------------------------------------------------------------- dnl determine CFLAGS first AX_CC_MAXOPT case "${ax_cv_c_compiler_vendor}" in intel) # Stop icc from defining __GNUC__, except on MacOS where this fails case "${host_os}" in *darwin*) ;; # icc -no-gcc fails to compile some system headers *) AX_CHECK_COMPILER_FLAGS([-no-gcc], [CC="$CC -no-gcc"]) ;; esac ;; hp) # must (sometimes) manually increase cpp limits to handle fftw3.h AX_CHECK_COMPILER_FLAGS([-Wp,-H128000], [CC="$CC -Wp,-H128000"]) ;; portland) # -Masmkeyword required for asm("") cycle counters AX_CHECK_COMPILER_FLAGS([-Masmkeyword], [CC="$CC -Masmkeyword"]) ;; esac dnl Determine SIMD CFLAGS at least for gcc and icc case "${ax_cv_c_compiler_vendor}" in gnu|intel) # SSE/SSE2 if test "$have_sse2" = "yes" -a "x$SSE2_CFLAGS" = x; then if test "$PRECISION" = d; then flag=msse2; else flag=msse; fi AX_CHECK_COMPILER_FLAGS(-$flag, [SSE2_CFLAGS="-$flag"], [AC_MSG_ERROR([Need a version of gcc with -$flag])]) fi # AVX if test "$have_avx" = "yes" -a "x$AVX_CFLAGS" = x; then AX_CHECK_COMPILER_FLAGS(-mavx, [AVX_CFLAGS="-mavx"], [AC_MSG_ERROR([Need a version of gcc with -mavx])]) fi if test "$have_altivec" = "yes" -a "x$ALTIVEC_CFLAGS" = x; then # -DFAKE__VEC__ is a workaround because gcc-3.3 does not # #define __VEC__ with -maltivec. AX_CHECK_COMPILER_FLAGS(-faltivec, [ALTIVEC_CFLAGS="-faltivec"], [AX_CHECK_COMPILER_FLAGS(-maltivec -mabi=altivec, [ALTIVEC_CFLAGS="-maltivec -mabi=altivec -DFAKE__VEC__"], [AX_CHECK_COMPILER_FLAGS(-fvec, [ALTIVEC_CFLAGS="-fvec"], [AC_MSG_ERROR([Need a version of gcc with -maltivec])])])]) fi if test "$have_neon" = "yes" -a "x$NEON_CFLAGS" = x; then AX_CHECK_COMPILER_FLAGS(-mfpu=neon, [NEON_CFLAGS="-mfpu=neon"], [AC_MSG_ERROR([Need a version of gcc with -mfpu=neon])]) fi dnl FIXME: dnl elif test "$have_mips_ps" = "yes"; then dnl # Just punt here and use only new 4.2 compiler :( dnl # Should add section for older compilers... dnl AX_CHECK_COMPILER_FLAGS(-mpaired-single, dnl [SIMD_CFLAGS="-mpaired-single"], dnl #[AC_MSG_ERROR([Need a version of gcc with -mpaired-single])]) dnl [AX_CHECK_COMPILER_FLAGS(-march=mips64, dnl [SIMD_CFLAGS="-march=mips64"], dnl [AC_MSG_ERROR( dnl [Need a version of gcc with -mpaired-single or -march=mips64]) dnl ])]) dnl fi ;; esac AC_SUBST(SSE2_CFLAGS) AC_SUBST(AVX_CFLAGS) AC_SUBST(ALTIVEC_CFLAGS) AC_SUBST(NEON_CFLAGS) dnl add stack alignment CFLAGS if so requested if test "$with_incoming_stack_boundary"x != "no"x; then case "${ax_cv_c_compiler_vendor}" in gnu) tentative_flags="-mincoming-stack-boundary=$with_incoming_stack_boundary"; AX_CHECK_COMPILER_FLAGS($tentative_flags, [STACK_ALIGN_CFLAGS=$tentative_flags]) ;; esac fi AC_SUBST(STACK_ALIGN_CFLAGS) dnl Checks for header files. AC_HEADER_STDC AC_CHECK_HEADERS([libintl.h malloc.h stddef.h stdlib.h string.h strings.h sys/time.h unistd.h limits.h c_asm.h intrinsics.h stdint.h mach/mach_time.h sys/sysctl.h]) dnl c_asm.h: Header file for enabling asm() on Digital Unix dnl intrinsics.h: cray unicos dnl sys/sysctl.h: MacOS X altivec detection dnl altivec.h requires $ALTIVEC_CFLAGS save_CFLAGS="$CFLAGS" save_CPPFLAGS="$CPPFLAGS" CFLAGS="$CFLAGS $ALTIVEC_CFLAGS" CPPFLAGS="$CPPFLAGS $ALTIVEC_CFLAGS" AC_CHECK_HEADERS([altivec.h]) CFLAGS="$save_CFLAGS" CPPFLAGS="$save_CPPFLAGS" dnl Checks for typedefs, structures, and compiler characteristics. AC_C_CONST AC_C_INLINE AC_TYPE_SIZE_T AC_HEADER_TIME AC_CHECK_TYPE([long double], [AC_DEFINE(HAVE_LONG_DOUBLE, 1, [Define to 1 if the compiler supports `long double'])], [ if test $PRECISION = l; then AC_MSG_ERROR([long double is not a supported type with your compiler.]) fi ]) AC_CHECK_TYPE([hrtime_t],[AC_DEFINE(HAVE_HRTIME_T, 1, [Define to 1 if hrtime_t is defined in <sys/time.h>])],, [ #if HAVE_SYS_TIME_H #include <sys/time.h> #endif ]) AC_CHECK_SIZEOF(int) AC_CHECK_SIZEOF(unsigned int) AC_CHECK_SIZEOF(long) AC_CHECK_SIZEOF(unsigned long) AC_CHECK_SIZEOF(long long) AC_CHECK_SIZEOF(unsigned long long) AC_CHECK_SIZEOF(size_t) AC_CHECK_SIZEOF(ptrdiff_t) AC_CHECK_TYPES(uintptr_t, [], [AC_CHECK_SIZEOF(void *)], [$ac_includes_default #ifdef HAVE_STDINT_H # include <stdint.h> #endif]) AC_CHECK_SIZEOF(float) AC_CHECK_SIZEOF(double) dnl Check sizeof fftw_r2r_kind for Fortran interface [it has == sizeof(int) dnl for years, but being paranoid]. Note: the definition here must match dnl the one in api/fftw3.h! AC_CHECK_SIZEOF(fftw_r2r_kind, [], [typedef enum { FFTW_R2HC=0, FFTW_HC2R=1, FFTW_DHT=2, FFTW_REDFT00=3, FFTW_REDFT01=4, FFTW_REDFT10=5, FFTW_REDFT11=6, FFTW_RODFT00=7, FFTW_RODFT01=8, FFTW_RODFT10=9, FFTW_RODFT11=10 } fftw_r2r_kind;]) if test 0 = $ac_cv_sizeof_fftw_r2r_kind; then AC_MSG_ERROR([sizeof(fftw_r2r_kind) test failed]); fi C_FFTW_R2R_KIND=C_INT`expr $ac_cv_sizeof_fftw_r2r_kind \* 8`_T AC_SUBST(C_FFTW_R2R_KIND) dnl Checks for library functions. AC_FUNC_ALLOCA AC_FUNC_STRTOD AC_FUNC_VPRINTF AC_CHECK_LIB(m, sin) if test $PRECISION = q; then AX_GCC_VERSION(4,6,0,[],[AC_MSG_ERROR([gcc 4.6 or later required for quad precision support])]) AC_CHECK_LIB(quadmath, sinq, [], [AC_MSG_ERROR([quad precision requires libquadmath for quad-precision trigonometric routines])]) LIBQUADMATH=-lquadmath fi AC_SUBST(LIBQUADMATH) AC_CHECK_FUNCS([BSDgettimeofday gettimeofday gethrtime read_real_time time_base_to_time drand48 sqrt memset posix_memalign memalign _mm_malloc _mm_free clock_gettime mach_absolute_time sysctl abort sinl cosl snprintf]) AC_CHECK_DECLS([drand48, srand48, memalign, posix_memalign, sinl, cosl, sinq, cosq]) dnl Cray UNICOS _rtc() (real-time clock) intrinsic AC_MSG_CHECKING([for _rtc intrinsic]) rtc_ok=yes AC_TRY_LINK([#ifdef HAVE_INTRINSICS_H #include <intrinsics.h> #endif], [_rtc()], [AC_DEFINE(HAVE__RTC,1,[Define if you have the UNICOS _rtc() intrinsic.])], [rtc_ok=no]) AC_MSG_RESULT($rtc_ok) if test "$PRECISION" = "l"; then AC_CHECK_FUNCS([cosl sinl tanl], [], [AC_MSG_ERROR([long-double precision requires long-double trigonometric routines])]) fi AC_MSG_CHECKING([for isnan]) AC_TRY_LINK([#include <math.h> ], if (!isnan(3.14159)) isnan(2.7183);, ok=yes, ok=no) if test "$ok" = "yes"; then AC_DEFINE(HAVE_ISNAN,1,[Define if the isnan() function/macro is available.]) fi AC_MSG_RESULT(${ok}) dnl TODO AX_GCC_ALIGNS_STACK() dnl override CFLAGS selection when debugging if test "${enable_debug}" = "yes"; then CFLAGS="-g" fi dnl add gcc warnings, in debug/maintainer mode only if test "$enable_debug" = yes || test "$USE_MAINTAINER_MODE" = yes; then if test "$ac_test_CFLAGS" != "set"; then if test $ac_cv_prog_gcc = yes; then CFLAGS="$CFLAGS -Wall -W -Wcast-qual -Wpointer-arith -Wcast-align -pedantic -Wno-long-long -Wshadow -Wbad-function-cast -Wwrite-strings -Wstrict-prototypes -Wredundant-decls -Wnested-externs" # -Wundef -Wconversion -Wmissing-prototypes -Wmissing-declarations fi fi fi dnl ----------------------------------------------------------------------- AC_ARG_ENABLE(fortran, [AC_HELP_STRING([--disable-fortran],[don't include Fortran-callable wrappers])], enable_fortran=$enableval, enable_fortran=yes) if test "$enable_fortran" = "yes"; then AC_PROG_F77 if test -z "$F77"; then enable_fortran=no AC_MSG_WARN([*** Couldn't find f77 compiler; using default Fortran wrappers.]) else AC_F77_DUMMY_MAIN([], [enable_fortran=no AC_MSG_WARN([*** Couldn't figure out how to link C and Fortran; using default Fortran wrappers.])]) fi else AC_DEFINE([DISABLE_FORTRAN], 1, [Define to disable Fortran wrappers.]) fi if test "x$enable_fortran" = xyes; then AC_F77_WRAPPERS AC_F77_FUNC(f77foo) AC_F77_FUNC(f77_foo) f77_foo2=`echo $f77foo | sed 's/77/77_/'` if test "$f77_foo" = "$f77_foo2"; then AC_DEFINE(F77_FUNC_EQUIV, 1, [Define if F77_FUNC and F77_FUNC_ are equivalent.]) # Include g77 wrappers by default for GNU systems or gfortran with_g77_wrappers=$ac_cv_f77_compiler_gnu case $host_os in *gnu*) with_g77_wrappers=yes ;; esac fi else with_g77_wrappers=no fi AC_ARG_WITH(g77-wrappers, [AC_HELP_STRING([--with-g77-wrappers],[force inclusion of g77-compatible wrappers in addition to any other Fortran compiler that is detected])], with_g77_wrappers=$withval) if test "x$with_g77_wrappers" = "xyes"; then AC_DEFINE(WITH_G77_WRAPPERS,1,[Include g77-compatible wrappers in addition to any other Fortran wrappers.]) fi dnl ----------------------------------------------------------------------- have_smp="no" AC_ARG_ENABLE(openmp, [AC_HELP_STRING([--enable-openmp],[use OpenMP directives for parallelism])], enable_openmp=$enableval, enable_openmp=no) if test "$enable_openmp" = "yes"; then AC_DEFINE(HAVE_OPENMP,1,[Define to enable OpenMP]) AX_OPENMP([], [AC_MSG_ERROR([don't know how to enable OpenMP])]) fi AC_ARG_ENABLE(threads, [AC_HELP_STRING([--enable-threads],[compile FFTW SMP threads library])], enable_threads=$enableval, enable_threads=no) if test "$enable_threads" = "yes"; then AC_DEFINE(HAVE_THREADS,1,[Define to enable SMP threads]) fi AC_ARG_WITH(combined-threads, [AC_HELP_STRING([--with-combined-threads],[combine threads into main libfftw3])], with_combined_threads=$withval, with_combined_threads=no) if test "$with_combined_threads" = yes; then if test "$enable_openmp" = "yes"; then AC_MSG_ERROR([--with-combined-threads incompatible with --enable-openmp]) fi if test "$enable_threads" != "yes"; then AC_MSG_ERROR([--with-combined-threads requires --enable-threads]) fi fi dnl Check for threads library... THREADLIBS="" if test "$enable_threads" = "yes"; then # POSIX threads, the default choice: if test -z "$THREADLIBS"; then ACX_PTHREAD([THREADLIBS="$PTHREAD_LIBS " CC="$PTHREAD_CC" AC_DEFINE(USING_POSIX_THREADS, 1, [Define if we have and are using POSIX threads.])]) fi if test -z "$THREADLIBS"; then AC_MSG_CHECKING([for Win32 threads]) AC_TRY_LINK([#include <windows.h>], [_beginthreadex(0,0,0,0,0,0);], [THREADLIBS=" "; AC_MSG_RESULT(yes)], [AC_MSG_RESULT(no)]) fi if test -z "$THREADLIBS"; then AC_MSG_ERROR([couldn't find threads library for --enable-threads]) fi AC_DEFINE(HAVE_THREADS, 1, [Define if we have a threads library.]) fi AC_SUBST(THREADLIBS) AM_CONDITIONAL(THREADS, test "$enable_threads" = "yes") AM_CONDITIONAL(OPENMP, test "$enable_openmp" = "yes") AM_CONDITIONAL(SMP, test "$enable_threads" = "yes" -o "$enable_openmp" = "yes") AM_CONDITIONAL(COMBINED_THREADS, test x"$with_combined_threads" = xyes) dnl ----------------------------------------------------------------------- AC_MSG_CHECKING([whether a cycle counter is available]) save_CPPFLAGS=$CPPFLAGS CPPFLAGS="$CPPFLAGS -I$srcdir/kernel" AC_TRY_CPP([#include "cycle.h" #ifndef HAVE_TICK_COUNTER # error No cycle counter #endif], [ok=yes], [ok=no]) CPPFLAGS=$save_CPPFLAGS AC_MSG_RESULT($ok) if test $ok = no && test "x$with_slow_timer" = xno; then echo "***************************************************************" echo "WARNING: No cycle counter found. FFTW will use ESTIMATE mode " echo " for all plans. See the manual for more information." echo "***************************************************************" fi dnl ----------------------------------------------------------------------- AC_DEFINE_UNQUOTED(FFTW_CC, "$CC $CFLAGS", [C compiler name and flags]) AC_CONFIG_FILES([ Makefile support/Makefile genfft/Makefile kernel/Makefile simd-support/Makefile dft/Makefile dft/scalar/Makefile dft/scalar/codelets/Makefile dft/simd/Makefile dft/simd/common/Makefile dft/simd/sse2/Makefile dft/simd/avx/Makefile dft/simd/altivec/Makefile dft/simd/neon/Makefile rdft/Makefile rdft/scalar/Makefile rdft/scalar/r2cf/Makefile rdft/scalar/r2cb/Makefile rdft/scalar/r2r/Makefile rdft/simd/Makefile rdft/simd/common/Makefile rdft/simd/sse2/Makefile rdft/simd/avx/Makefile rdft/simd/altivec/Makefile rdft/simd/neon/Makefile reodft/Makefile threads/Makefile api/Makefile mpi/Makefile libbench2/Makefile tests/Makefile doc/Makefile doc/FAQ/Makefile tools/Makefile tools/fftw_wisdom.1 tools/fftw-wisdom-to-conf m4/Makefile fftw.pc ]) AC_OUTPUT