dnl $Id: configure.in,v 1.148 2017/08/15 15:16:31 aleidinger Exp $ dnl dnl dnl don't forget to set ASM_FOR_ARCH to a space delimited list of dnl processor architectures, for which assembler routines exist dnl dnl dnl Exported and configured variables: dnl CC dnl CFLAGS dnl LDFLAGS dnl LDADD dnl NASM dnl extra vars for frontend: dnl FRONTEND_LDFLAGS dnl FRONTEND_CFLAGS dnl FRONTEND_LDADD AC_PREREQ(2.69) AC_INIT([lame],[3.100],[lame-dev@lists.sf.net]) AC_CONFIG_SRCDIR([libmp3lame/lame.c]) AC_LANG([C]) dnl check system AC_CANONICAL_HOST dnl automake AM_INIT_AUTOMAKE AC_CONFIG_HEADERS([config.h]) AH_TOP([ #ifndef LAME_CONFIG_H #define LAME_CONFIG_H ]) AH_BOTTOM([#endif /* LAME_CONFIG_H */]) AM_MAINTAINER_MODE AM_MAKE_INCLUDE dnl check environment AC_AIX AC_ISC_POSIX AC_MINIX case $host_os in *cygwin* ) CYGWIN=yes;; * ) CYGWIN=no;; esac dnl libtool # AC_DISABLE_SHARED AC_PROG_LIBTOOL AC_SUBST(LIBTOOL_DEPS) CFLAGS="${ac_save_CFLAGS}" # increase this when the shared lib becomes totally incompatible LIB_MAJOR_VERSION=0 # increase this when changes are made, but they are upward compatible # to previous versions LIB_MINOR_VERSION=0 dnl # work around for a bug, don't know where it is exactly if test "${ac_cv_cygwin}" = "yes"; then if test "${CC}" != "gcc"; then AC_MSG_ERROR([Please use] [ CC=gcc ./configure] [Abort this configure run and add "CC=gcc" or you will] [see errors and no lame.exe will be build.]) fi fi dnl check programs AC_PROG_CC() if test "x${GCC}" = "xyes"; then AC_MSG_CHECKING(compiler) COMPILER_TYPE="`${CC} --version | head -1 | sed -e '1,$s/version.*//g'`" case "${COMPILER_TYPE}" in *gcc*) AC_MSG_RESULT(gcc) HAVE_GCC=yes HAVE_CLANG=no ;; *clang*) AC_MSG_RESULT(clang) HAVE_CLANG=yes HAVE_GCC=no ;; *) AC_MSG_RESULT(unknown) HAVE_GCC=no HAVE_CLANG=no ;; esac if test "${HAVE_GCC}" = "yes"; then AC_MSG_CHECKING(version of GCC) GCC_version="`${CC} --version | sed -n '1s/^[[^ ]]* (.*) //;s/ .*$//;1p'`" case "${GCC_version}" in [0-9]*[0-9]*) AC_MSG_RESULT(${GCC_version}) ;; *) # probably not gcc... AC_MSG_RESULT(unknown compiler version pattern, playing safe and disabling gcc optimisations... ${GCC_version}) HAVE_GCC=no ;; esac fi if test "${HAVE_CLANG}" = "yes"; then AC_MSG_CHECKING(version of clang) CLANG_version="`${CC} --version | sed -n 's/.*clang version //;s/ .*$//;1p'`" AC_MSG_RESULT(${CLANG_version}) fi fi AC_CHECK_HEADER(dmalloc.h) if test "${ac_cv_header_dmalloc_h}" = "yes"; then AM_WITH_DMALLOC fi dnl Checks for header files. AC_HEADER_STDC AC_CHECK_HEADERS( \ errno.h \ fcntl.h \ limits.h \ stdint.h \ string.h \ sys/soundcard.h \ sys/time.h \ unistd.h \ linux/soundcard.h) dnl Checks for actually working SSE intrinsics AC_MSG_CHECKING(working SSE intrinsics) AC_COMPILE_IFELSE( [AC_LANG_PROGRAM( [[#include ]], [[_mm_sfence();]])], [AC_DEFINE([HAVE_XMMINTRIN_H], [1], [Define if SSE intrinsics work.]) ac_cv_header_xmmintrin_h=yes], [ac_cv_header_xmmintrin_h=no]) AC_MSG_RESULT(${ac_cv_header_xmmintrin_h}) dnl Checks for typedefs, structures, and compiler characteristics. AC_C_CONST AC_C_INLINE if test ${cross_compiling} = "no"; then AC_C_BIGENDIAN fi AC_SYS_LARGEFILE AC_CHECK_SIZEOF(short) AC_CHECK_SIZEOF(unsigned short) 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(float) AC_CHECK_SIZEOF(double) if test $ac_cv_sizeof_short -eq 0 \ -o $ac_cv_sizeof_unsigned_short -eq 0 \ -o $ac_cv_sizeof_int -eq 0 \ -o $ac_cv_sizeof_unsigned_int -eq 0 \ -o $ac_cv_sizeof_long -eq 0 \ -o $ac_cv_sizeof_unsigned_long -eq 0 \ -o $ac_cv_sizeof_long_long -eq 0 \ -o $ac_cv_sizeof_unsigned_long_long -eq 0 \ -o $ac_cv_sizeof_float -eq 0 \ -o $ac_cv_sizeof_double -eq 0; then echo '*** I have a problem determining the size of some variable types. Either' echo '*** you compiler is broken, or your system+compiler combination is not' echo '*** supportet by the "autoconf" framework we use to generate this' echo '*** configure script.' exit 1 fi AC_C_LONG_DOUBLE if test "${ac_cv_c_have_long_double}" = "yes" ; then AC_CHECK_SIZEOF(long double) fi AC_CHECK_TYPES([uint8_t, int8_t, uint16_t, int16_t, uint32_t, int32_t, uint64_t, int64_t]) AH_VERBATIM([HAVE_UINT8_T], [/* add uint8_t type */ #undef HAVE_UINT8_T #ifndef HAVE_UINT8_T typedef unsigned char uint8_t; #endif]) AH_VERBATIM([HAVE_INT8_T], [/* add int8_t type */ #undef HAVE_INT8_T #ifndef HAVE_INT8_T typedef char int8_t; #endif]) AH_VERBATIM([HAVE_UINT16_T], [/* add uint16_t type */ #undef HAVE_UINT16_T #ifndef HAVE_UINT16_T typedef unsigned short uint16_t; #endif]) AH_VERBATIM([HAVE_INT16_T], [/* add int16_t type */ #undef HAVE_INT16_T #ifndef HAVE_INT16_T typedef short int16_t; #endif]) if test "${HAVE_INT32_T}" = yes; then AC_DEFINE(A_UINT32_T,unsigned int32_t) else if test "${ac_cv_sizeof_unsigned_short}" = "4"; then AC_DEFINE(A_UINT32_T,unsigned short) else if test "${ac_cv_sizeof_unsigned_int}" = "4"; then AC_DEFINE(A_UINT32_T,unsigned int) else if test "${ac_cv_sizeof_unsigned_long}" = "4"; then AC_DEFINE(A_UINT32_T,unsigned long) else AC_MSG_ERROR([CHECK_TYPE_uint32_t - please report to lame-dev@lists.sourceforge.net]) fi fi fi fi AH_VERBATIM([HAVE_UINT32_T], [/* add uint32_t type */ #undef HAVE_UINT32_T #ifndef HAVE_UINT32_T #undef A_UINT32_T typedef A_UINT32_T uint32_t; #endif]) if test "${ac_cv_sizeof_short}" = "4"; then AC_DEFINE(A_INT32_T,short) else if test "${ac_cv_sizeof_int}" = "4"; then AC_DEFINE(A_INT32_T,int) else if test "${ac_cv_sizeof_long}" = "4"; then AC_DEFINE(A_INT32_T,long) else AC_MSG_ERROR([CHECK_TYPE_int32_t - please report to lame-dev@lists.sourceforge.net]) fi fi fi AH_VERBATIM([HAVE_INT32_T], [/* add int32_t type */ #undef HAVE_INT32_T #ifndef HAVE_INT32_T #undef A_INT32_T typedef A_INT32_T int32_t; #endif]) if test "${HAVE_INT64_T}" = yes; then AC_DEFINE(A_UINT64_T,unsigned int64_t) else if test "${ac_cv_sizeof_unsigned_int}" = "8"; then AC_DEFINE(A_UINT64_T,unsigned int) else if test "${ac_cv_sizeof_unsigned_long}" = "8"; then AC_DEFINE(A_UINT64_T,unsigned long) else if test "${ac_cv_sizeof_unsigned_long_long}" = "8"; then AC_DEFINE(A_UINT64_T,unsigned long long) else AC_MSG_ERROR([CHECK_TYPE_uint64_t - please report to lame-dev@lists.sourceforge.net]) fi fi fi fi AH_VERBATIM([HAVE_UINT64_T], [/* add uint64_t type */ #undef HAVE_UINT64_T #ifndef HAVE_UINT64_T #undef A_UINT64_T typedef A_UINT64_T uint64_t; #endif]) if test "${ac_cv_sizeof_int}" = "8"; then AC_DEFINE(A_INT64_T,int) else if test "${ac_cv_sizeof_long}" = "8"; then AC_DEFINE(A_INT64_T,long) else if test "${ac_cv_sizeof_long_long}" = "8"; then AC_DEFINE(A_INT64_T,long long) else AC_MSG_ERROR([CHECK_TYPE_int64_t - please report to lame-dev@lists.sourceforge.net]) fi fi fi AH_VERBATIM([HAVE_INT64_T], [/* add int64_t type */ #undef HAVE_INT64_T #ifndef HAVE_INT64_T #undef A_INT64_T typedef A_INT64_T int64_t; #endif]) alex_IEEE854_FLOAT80 if test "${alex_cv_ieee854_float80}" = "yes" ; then if test "${ac_cv_c_long_double}" = "yes" ; then AC_CHECK_TYPES(ieee854_float80_t, long double) AH_VERBATIM([HAVE_IEEE854_FLOAT80_T], [/* add ieee854_float80_t type */ #undef HAVE_IEEE854_FLOAT80_T #ifndef HAVE_IEEE854_FLOAT80_T typedef long double ieee854_float80_t; #endif]) AC_DEFINE(HAVE_IEEE854_FLOAT80, 1, [system has 80 bit floats]) fi fi AC_CHECK_TYPES([ieee754_float64_t, ieee754_float32_t]) AH_VERBATIM([HAVE_IEEE754_FLOAT64_T], [/* add ieee754_float64_t type */ #undef HAVE_IEEE754_FLOAT64_T #ifndef HAVE_IEEE754_FLOAT64_T typedef double ieee754_float64_t; #endif]) AH_VERBATIM([HAVE_IEEE754_FLOAT32_T], [/* add ieee754_float32_t type */ #undef HAVE_IEEE754_FLOAT32_T #ifndef HAVE_IEEE754_FLOAT32_T typedef float ieee754_float32_t; #endif]) AC_DEFINE(LAME_LIBRARY_BUILD, 1, [requested by Frank, seems to be temporary needed for a smooth transition]) if test ${cross_compiling} = "yes"; then AC_MSG_WARN([] [**************************************************************************] [* *] [* You are cross compiling: *] [* - I did not have a change to determine *] [* + the size of: *] [* - short *] [* - unsigned short *] [* - int *] [* - unsigned int *] [* - long *] [* - unsigned long *] [* - float *] [* - double *] [* - long double *] [* + the endianess of the system *] [* - You have to provide appropriate defines for them in config.h, e.g. *] [* + define SIZEOF_SHORT to 2 if the size of a short is 2 *] [* + define WORDS_BIGENDIAN if your system is a big endian system *] [* *] [**************************************************************************]) fi AC_TYPE_SIZE_T AC_HEADER_TIME dnl Checks for library functions. AC_FUNC_ALLOCA AC_CHECK_FUNCS(gettimeofday strtol) if test "X${ac_cv_func_strtol}" != "Xyes"; then AC_MSG_ERROR([function strtol is mandatory]) fi dnl Check if we are on a mingw system, which needs libwsock32 SOCKETFUNCTION=unknown AC_CHECK_FUNCS(socket) if test $ac_cv_func_socket = no; then # maybe it is in libsocket AC_CHECK_LIB(socket, socket, [AC_DEFINE(HAVE_SOCKET) LIBS="$LIBS -lsocket"]) if test "X${ac_cv_lib_socket_socket}" != "Xyes"; then SOCKETFUNCTION=NO else case ${host_os} in *solaris*) LIBS="$LIBS -lnsl" ;; esac fi fi dnl Initialize configuration variables for the Makefile CFLAGS=${CFLAGS} CONFIG_DEFS=${CONFIG_DEFS} NASM= INCLUDES="-I\$(top_srcdir)/include -I\$(srcdir)" FRONTEND_LDFLAGS= FRONTEND_CFLAGS= LIB_SOURCES= MAKEDEP="-M" RM_F="rm -f" AC_ARG_ENABLE(nasm, [ --enable-nasm Allow the use of nasm if available], ASM_FOR_ARCH="i386", ASM_FOR_ARCH="") dnl Checks for libraries. AC_CHECK_HEADERS(termcap.h) AC_CHECK_HEADERS(ncurses/termcap.h) AC_CHECK_LIB(termcap, initscr, HAVE_TERMCAP="termcap") AC_CHECK_LIB(curses, initscr, HAVE_TERMCAP="curses") AC_CHECK_LIB(ncurses, initscr, HAVE_TERMCAP="ncurses") AM_ICONV dnl math lib AC_CHECK_LIB(m, cos, USE_LIBM="-lm") dnl free fast math library AC_CHECK_LIB(ffm, cos, USE_LIBM="-lffm -lm") dnl Compaq fast math library. AC_ARG_ENABLE(cpml, [ --disable-cpml Do not use Compaq's fast Math Library], CONFIG_CPML="no", CONFIG_CPML="yes") if test "${CONFIG_CPML}" = yes; then AC_CHECK_LIB(cpml, cos, USE_LIBM="-lcpml") fi CONFIG_MATH_LIB="${USE_LIBM}" dnl configure use of features AM_PATH_GTK(1.2.0, HAVE_GTK="yes", HAVE_GTK="no") dnl ElectricFence malloc debugging AC_MSG_CHECKING(use of ElectricFence malloc debugging) AC_ARG_ENABLE(efence, [ --enable-efence Use ElectricFence for malloc debugging], CONFIG_EFENCE="${enableval}", CONFIG_EFENCE="no") case "${CONFIG_EFENCE}" in yes) AC_CHECK_LIB(efence, EF_Print, HAVE_EFENCE="-lefence") if test "x${HAVE_EFENCE}" != "x-lefence"; then AC_MSG_RESULT(yes, but libefence not found) else LDADD="${LDADD} ${HAVE_EFENCE}" AC_DEFINE(HAVE_EFENCE, 1, we link against libefence) AC_MSG_RESULT(${CONFIG_EFENCE}) fi ;; no) AC_MSG_RESULT(${CONFIG_EFENCE}) ;; *) AC_MSG_ERROR(bad value �${CONFIG_EFENCE}� for efence option) ;; esac dnl libsndfile WARNING= AC_ARG_WITH(fileio, [ --with-fileio=lame Use lame's internal file io routines [default]] [ =sndfile Use Erik de Castro Lopo's libsndfile] [ (no stdin possible currently)], CONFIG_FILEIO="${withval}", CONFIG_FILEIO="lame") if test "${CONFIG_FILEIO}" = "sndfile" ; then PKG_CHECK_MODULES(SNDFILE, sndfile >= 1.0.2, HAVE_SNDFILE="yes", HAVE_SNDFILE="no") fi AC_MSG_CHECKING(use of file io) if test "${CONFIG_FILEIO}" = "sndfile" ; then if test "${HAVE_SNDFILE}" = "yes" -o "x${SNDFILE_LIBS}" != "x" \ -o "x${SNDFILE_CFLAGS}" != "x"; then SNDFILE_LIBS=`echo ${SNDFILE_LIBS}` SNDFILE_CFLAGS=`echo ${SNDFILE_CFLAGS}` if test -n "${SNDFILE_LIBS}" ; then FRONTEND_LDFLAGS="${SNDFILE_LIBS} ${FRONTEND_LDFLAGS}" fi FRONTEND_LDADD="-lsndfile ${FRONTEND_LDADD}" if test -n "${SNDFILE_CFLAGS}" ; then INCLUDES="${SNDFILE_CFLAGS} ${INCLUDES}" fi AC_DEFINE(LIBSNDFILE, 1, set to 1 if you have libsndfile) else # default CONFIG_FILEIO="lame" WARNING="${WARNING} Could not find any sndfile lib on system." fi else CONFIG_FILEIO="lame" fi AC_MSG_RESULT(${CONFIG_FILEIO}) if test "x${WARNING}" != "x" ; then AC_MSG_WARN($WARNING) fi dnl check if we should remove hooks for analyzer code in library dnl default library must include these hooks AC_MSG_CHECKING(use of analyzer hooks) AC_ARG_ENABLE(analyzer-hooks, [ --disable-analyzer-hooks Exclude analyzer hooks], CONFIG_ANALYZER="${enableval}", CONFIG_ANALYZER="yes") case "${CONFIG_ANALYZER}" in yes) ;; no) AC_DEFINE(NOANALYSIS, 1, build without hooks for analyzer) ;; *) AC_MSG_ERROR(bad value �${CONFIG_ANALYZER}� for analyzer-hooks option) ;; esac AC_MSG_RESULT($CONFIG_ANALYZER) dnl mpg123 decoder AC_MSG_CHECKING(use of mpg123 decoder) AC_ARG_ENABLE(decoder, [ --disable-decoder Exclude mpg123 decoder], CONFIG_DECODER="${enableval}", CONFIG_DECODER="yes") AM_CONDITIONAL(LIB_WITH_DECODER, test "x${CONFIG_DECODER}" = "xyes") if test "${CONFIG_DECODER}" != "no" ; then CONFIG_DECODER="yes (Layer 1, 2, 3)" AC_DEFINE(HAVE_MPGLIB, 1, build with mpglib support) AC_DEFINE(DECODE_ON_THE_FLY, 1, allow to compute a more accurate replaygain value) fi AC_MSG_RESULT($CONFIG_DECODER) AC_MSG_CHECKING(if the lame frontend should be build) AC_ARG_ENABLE(frontend, [ --disable-frontend Do not build the lame executable [default=build]], WITH_FRONTEND="${enableval}", WITH_FRONTEND=yes) if test "x${WITH_FRONTEND}" = "xyes"; then WITH_FRONTEND=lame${ac_exeext} AC_MSG_RESULT(yes) else WITH_FRONTEND= AC_MSG_RESULT(no) fi AC_MSG_CHECKING(if mp3x is requested) AC_ARG_ENABLE(mp3x, [ --enable-mp3x Build GTK frame analyzer [default=no]], WITH_MP3X="${enableval}", WITH_MP3X=no) if test "x${WITH_MP3X}" = "xyes"; then WITH_MP3X=mp3x${ac_exeext} AC_MSG_RESULT(yes) else WITH_MP3X= AC_MSG_RESULT(no) fi if test "${HAVE_GTK}" = "no"; then if test "x${WITH_MP3X}" = "xmp3x"; then AC_MSG_WARN(can't build mp3x, no GTK installed) WITH_MP3X= fi if test "x${CONFIG_ANALYZER}" != "xyes"; then AC_MSG_WARN(can't build mp3x because of disabled analyzer hooks) WITH_MP3X= fi fi AC_MSG_CHECKING(if mp3rtp is requested) AC_ARG_ENABLE(mp3rtp, [ --enable-mp3rtp Build mp3rtp [default=no]], WITH_MP3RTP="${enableval}", WITH_MP3RTP=no) if test "x${WITH_MP3RTP}" = "xyes"; then if test ${SOCKETFUNCTION} = NO; then AC_MSG_ERROR([function socket is mandatory for mp3rtp]) fi WITH_MP3RTP=mp3rtp${ac_exeext} AC_MSG_RESULT(yes) else WITH_MP3RTP= AC_MSG_RESULT(no) fi AC_MSG_CHECKING(if dynamic linking of the frontends is requested) AC_ARG_ENABLE(dynamic-frontends, [ --enable-dynamic-frontends Link frontends against shared libraries [default=no]], FRONTEND_LDFLAGS="${FRONTEND_LDFLAGS}", FRONTEND_LDFLAGS="${FRONTEND_LDFLAGS} -static") case "x${FRONTEND_LDFLAGS}" in *-static*) AC_MSG_RESULT(no) ;; *) AC_MSG_RESULT(yes) ;; esac # # this is from vorbis # dnl check GLIBC case $host in *86-*-linux*) # glibc < 2.1.3 has a serious FP bug in the math inline header # that will cripple Vorbis. Look to see if the magic FP stack # clobber is missing in the mathinline header, thus indicating # the buggy version AC_EGREP_CPP(log10.*fldlg2.*fxch,[ #define __LIBC_INTERNAL_MATH_INLINES 1 #define __OPTIMIZE__ #include ],bad=maybe,bad=no) AC_MSG_CHECKING(glibc mathinline bug) if test ${bad} = "maybe" ;then AC_EGREP_CPP(log10.*fldlg2.*fxch.*st\([[0123456789]]*\), [ #define __LIBC_INTERNAL_MATH_INLINES 1 #define __OPTIMIZE__ #include ],bad=no,bad=yes) fi AC_MSG_RESULT(${bad}) if test ${bad} = "yes" ;then AC_MSG_WARN([ ]) AC_MSG_WARN([********************************************************]) AC_MSG_WARN([* The glibc headers on this machine have a serious bug *]) AC_MSG_WARN([* in /usr/include/bits/mathinline.h This bug affects *]) AC_MSG_WARN([* all floating point code, not only LAME, but all code *]) AC_MSG_WARN([* built on this machine. Upgrading to glibc 2.1.3 is *]) AC_MSG_WARN([* strongly urged to correct the problem. *]) AC_MSG_WARN([*Note: that upgrading glibc will not fix any previously*]) AC_MSG_WARN([* built programs; this is a compile-time bug. *]) AC_MSG_WARN([* To work around the problem for this build of LAME, *]) AC_MSG_WARN([* autoconf is disabling all math inlining. This will *]) AC_MSG_WARN([* hurt LAME performace but is necessary for LAME to *]) AC_MSG_WARN([* work correctly. Once glibc is upgraded, rerun *]) AC_MSG_WARN([* configure and make to build with inlining. *]) AC_MSG_WARN([********************************************************]) AC_MSG_WARN([ ]) AC_DEFINE(__NO_MATH_INLINES, 1, work around a glibc bug) fi;; esac dnl configure use of VBR bitrate histogram dnl todo: always use yes as default, use simulation instead ? AC_MSG_CHECKING(for termcap) if test "x${HAVE_TERMCAP}" != "x"; then FRONTEND_LDADD="-l${HAVE_TERMCAP} ${FRONTEND_LDADD}" AC_DEFINE(HAVE_TERMCAP, 1, have termcap) TERMCAP_DEFAULT="yes" else TERMCAP_DEFAULT="no" fi AC_MSG_RESULT(${TERMCAP_DEFAULT}) dnl ### processor specific options ### WITH_VECTOR=no case $host_cpu in x86_64|amd64) CPUTYPE="no" if test $ac_cv_header_xmmintrin_h = yes ; then WITH_XMM=yes WITH_VECTOR=yes fi AC_DEFINE(TAKEHIRO_IEEE754_HACK, 1, IEEE754 compatible machine) AC_DEFINE(USE_FAST_LOG, 1, faster log implementation with less but enoug h precission) ;; *86) CPUTYPE="i386" if test $ac_cv_header_xmmintrin_h = yes ; then WITH_XMM=yes WITH_VECTOR=yes fi # use internal knowledge of the IEEE 754 layout AC_DEFINE(TAKEHIRO_IEEE754_HACK, 1, IEEE754 compatible machine) AC_DEFINE(USE_FAST_LOG, 1, faster log implementation with less but enough precission) ;; powerpc) CPUTYPE="no" # use internal knowledge of the IEEE 754 layout AC_DEFINE(TAKEHIRO_IEEE754_HACK, 1, IEEE754 compatible machine) # The following should not get enabled on a G5. HOWTO check for a G5? AC_DEFINE(USE_FAST_LOG, 1, faster log implementation with less but enough precission) ;; *) CPUTYPE="no" ;; esac # which vector code do we support to build on this machine? AM_CONDITIONAL(WITH_XMM, test "x${WITH_XMM}" = "xyes") # needs to be defined to link in the internal vector lib AM_CONDITIONAL(WITH_VECTOR, test "x${WITH_VECTOR}" = "xyes") AC_MSG_CHECKING(if I have to build the internal vector lib) AC_MSG_RESULT(${WITH_VECTOR}) AC_PATH_PROG(NASM, nasm, no) case "${NASM}" in no) ;; *) AC_MSG_CHECKING(for assembler routines for this processor type) for recurse_over in ${ASM_FOR_ARCH} do if test "${CPUTYPE}" = "${recurse_over}"; then include_asm_routines="yes" fi case $host_os in *darwin*) # currently we have problems because of a wrong # libtool hack in the darwin case (for nasm code) include_asm_routines="no" ;; esac done if test "x${include_asm_routines}" = "xyes"; then AC_DEFINE(HAVE_NASM, 1, have nasm) AC_DEFINE(MMX_choose_table, 1, use MMX version of choose_table) else include_asm_routines="no" NASM="no" fi AC_MSG_RESULT(${include_asm_routines}) ;; esac AM_CONDITIONAL(HAVE_NASM, test "${NASM}" != "no") case $host_os in *cygwin*|*mingw32*) CYGWIN=yes NASM_FORMAT="-f win32 -DWIN32" ;; *darwin*) NASM_FORMAT="-f macho" ;; *) CYGWIN=no NASM_FORMAT="-f elf" ;; esac # # 'expopt' is used for "additional optimizations", not for optimizations which # are marked as "experimental" in the guide for the compiler. # They are "experimental" here in the LAME project (at least # "--enable-expopt=full"). # AC_MSG_CHECKING(for additional optimizations) AC_ARG_ENABLE(expopt, [ --enable-expopt=full,norm Whether to enable experimental optimizations] [ [default=no]], CONFIG_EXPOPT="${enableval}", CONFIG_EXPOPT="no") if test "x$HAVE_GCC" = "xyes" -o "x$HAVE_CLANG" = "xyes"; then # gcc defaults. OS specific options go in versious sections below # from the gcc man pages: "there is no reason to use -pedantic" if test "x${with_gnu_ld}" = "xyes"; then CFLAGS="-Wall -pipe ${CFLAGS}" else # some vendor ld's don't like '-pipe' CFLAGS="-Wall ${CFLAGS}" fi # GCC version specific generic options if test "x${HAVE_GCC}" = "xyes"; then case "${GCC_version}" in 2.96*) # for buggy version of gcc shipped with RH7.1, back of on some # optimizations OPTIMIZATION="-O -fomit-frame-pointer -ffast-math \ -funroll-loops" OPTIMIZATION_FULL="-fmove-all-movables -freduce-all-givs \ -fsched-interblock -fbranch-count-reg -fforce-addr \ -fforce-mem" ;; 3.0*) # -funroll-loops seems to produce buggy code with gcc 3.0.3 OPTIMIZATION="-O -fomit-frame-pointer -ffast-math" OPTIMIZATION_FULL="-fmove-all-movables -freduce-all-givs \ -fbranch-count-reg -fforce-addr -fforce-mem" ;; 3.*|4.0.*|4.1.*) # -fomit-frame-pointer seems to be buggy on cygwin case ${host_os} in *cygwin*) OMIT_FRAME_POINTER= ;; *) OMIT_FRAME_POINTER=-fomit-frame-pointer ;; esac OPTIMIZATION="-O3 ${OMIT_FRAME_POINTER} -ffast-math" OPTIMIZATION_FULL="-fmove-all-movables -freduce-all-givs \ -fbranch-count-reg -fforce-addr -fforce-mem" ;; [456789].*) OPTIMIZATION="-O3 -fomit-frame-pointer -ffast-math" OPTIMIZATION_FULL="-fbranch-count-reg -fforce-addr" ;; *) # default OPTIMIZATION="-O3 ${OMIT_FRAME_POINTER} -ffast-math \ -funroll-loops" OPTIMIZATION_FULL="-fbranch-count-reg -fforce-addr" ;; esac # GCC version independend generic options OPTIMIZATION_NORM="-fschedule-insns2" fi # generic CPU specific options case ${host_cpu} in sparc) case "${GCC_version}" in 3.0*) ;; [3456789].*) # doesn't work on 3.0.x, but on 3.[12] and # hopefully on every other release after that too if test -x /usr/bin/isalist; then /usr/bin/isalist | grep sparcv8plus \ >/dev/null 2>&1 && \ OPTIMIZATION="${OPTIMIZATION} \ -mcpu=ultrasparc \ -mtune=ultrasparc" fi ;; esac ;; *86) case "${GCC_version}" in [3456789].*) OPTIMIZATION="${OPTIMIZATION} \ -maccumulate-outgoing-args" ;; esac ;; esac expopt_msg_result_printed=no case "${CONFIG_EXPOPT}" in no) # if someone supplies own CFLAGS, we don't add our own if test "x${ac_save_CFLAGS}" != "x"; then OPTIMIZATION="" fi ;; norm|yes) OPTIMIZATION="${OPTIMIZATION} ${OPTIMIZATION_NORM}" ;; full) OPTIMIZATION="${OPTIMIZATION} ${OPTIMIZATION_NORM} \ ${OPTIMIZATION_FULL}" if test "${HAVE_GCC}" = "yes"; then # some hardware dependend options case "${GCC_version}" in 2.9*|3.*|4.0.*|4.1.*) # "new" GCC, use some "new" CPU specific optimizations # use -mtune instead of -m486 or -mcpu= etc, since they are # deprecated by GCC case ${host_cpu} in *486) OPTIMIZATION="${OPTIMIZATION} -mcpu=i486 \ -mfancy-math-387" ;; *586) OPTIMIZATION="${OPTIMIZATION} -mcpu=pentium \ -march=pentium -mfancy-math-387" ;; *686) OPTIMIZATION="${OPTIMIZATION} -mcpu=pentiumpro \ -march=pentiumpro -mfancy-math-387 \ -malign-double" ;; *86) OPTIMIZATION="${OPTIMIZATION} -mfancy-math-387" ;; alpha*) OPTIMIZATION="${OPTIMIZATION} -mfp-regs" AC_DEFINE(FLOAT, double, double is faster than float on Alpha) # add "-mcpu=21164a -Wa,-m21164a" to optimize # for 21164a (ev56) CPU ;; *) OPTIMIZATION="${OPTIMIZATION} -fdelayed-branch" ;; esac ;; [456789].*) case ${host_cpu} in *486) OPTIMIZATION="${OPTIMIZATION} -march=i486" ;; *586) OPTIMIZATION="${OPTIMIZATION} -march=i586 \ -mtune=native" ;; *686) OPTIMIZATION="${OPTIMIZATION} -march=i686 \ -mtune=native" ;; *86) OPTIMIZATION="${OPTIMIZATION} -march=native \ -mtune=native" ;; arm*-gnueabi) if [ -z "$(echo ${GCC_version} | awk '/4\.0/')" ]; then # Work round buggy softfloat optimization in ARM EABI compilers # -gnueabi in only gcc-4.1 onwards OPTIMIZATION="${OPTIMIZATION} -fno-finite-math-only" fi ;; esac ;; *) # no special optimization for other versions AC_MSG_RESULT(no) expopt_msg_result_printed=yes AC_MSG_WARN(LAME doesn't know about your version (${GCC_version}) of gcc, please report it to lame-dev@lists.sourceforge.net. Please make sure you try the latest LAME version first!) ;; esac fi ;; *) AC_MSG_ERROR(bad value �${CONFIG_EXPOPT}� for expopt option) ;; esac if test "x${HAVE_CLANG}" = "xyes"; then case "${CLANG_VERSION}" in 3.[89]*|[45].*) OPTIMIZATION="-Ofast" ;; *) OPTIMIZATION="-O3" ;; esac # generic CPU specific options case ${host_cpu} in *486) OPTIMIZATION="${OPTIMIZATION} -march=i486" ;; *586) OPTIMIZATION="${OPTIMIZATION} -march=i586 \ -mtune=native" ;; *686) OPTIMIZATION="${OPTIMIZATION} -march=i686 \ -mtune=native" ;; *86) OPTIMIZATION="${OPTIMIZATION} -march=native \ -mtune=native" ;; esac fi if test "${expopt_msg_result_printed}" = "no" ; then AC_MSG_RESULT(${CONFIG_EXPOPT}) fi else AC_MSG_RESULT(no) fi AC_MSG_CHECKING(for debug options) AC_ARG_ENABLE(debug, [ --enable-debug=alot,norm Enable debugging (disables optimizations)] [ [default=no]], CONFIG_DEBUG="${enableval}", CONFIG_DEBUG="no") if test "x$GCC" = "xyes"; then DEBUG_NORM_OPT="-O -g -Wall" DEBUG_ANOYING="-Wbad-function-cast -Wcast-align \ -Wcast-qual -Wchar-subscripts -Wconversion \ -Wmissing-prototypes -Wnested-externs -Wpointer-arith \ -Wredundant-decls -Wshadow -Wstrict-prototypes \ -Wwrite-strings -Winline \ -Wformat -Wswitch -Waggregate-return -Wmissing-noreturn \ -Wimplicit-int -fno-builtin" case "${CONFIG_DEBUG}" in no) dnl Comment out the NDEBUG on release build, they check for issues dnl which should also be rejected in a release build. dnl The real solution would be to do user friendly error messages dnl instead of a core dump. This is a quick and user-unfriendly fix. dnl AC_DEFINE(NDEBUG, 1, no debug build) ;; norm|yes) AC_DEFINE(ABORTFP, 1, debug define) OPTIMIZATION="${DEBUG_NORM_OPT}" ;; anoying) AC_DEFINE(ABORTFP, 1, debug define) OPTIMIZATION="${DEBUG_NORM_OPT} ${DEBUG_ANOYING}" ;; alot) AC_DEFINE(ABORTFP, 1, debug define) AC_DEFINE(DEBUG, 1, alot of debug output) OPTIMIZATION="${DEBUG_NORM_OPT}" ;; *) AC_MSG_ERROR(bad value �${CONFIG_DEBUG}� for debug option) esac AC_MSG_RESULT(${CONFIG_DEBUG}) else AC_MSG_RESULT(no) fi dnl ### system specific options ### ########################################################################## # LINUX on Digital/Compaq Alpha CPUs ########################################################################## case $host in alpha*-*-linux*) ################################################################ #### Check if 'ccc' is in our path ################################################################ if test "`which ccc 2>/dev/null | grep -c ccc`" != "0" ; then # Compaq's C Compiler CC=ccc ################################################################ #### set 'OPTIMIZATION = -arch host -tune host' #### to generate/tune instructions for this machine #### 'OPTIMIZATION += -migrate -fast -inline speed -unroll 0' #### tweak to run as fast as possible :) #### 'OPTIMIZATION += -w0' #### set warning and linking flags ################################################################ OPTIMIZATION="-arch host -tune host" OPTIMIZATION="-migrate -fast -inline speed -unroll 0 $OPTIMIZATION" OPTIMIZATION="-w0 $OPTIMIZATION" ################################################################ #### to debug, uncomment ################################################################ # For Debugging #OPTIMIZATION="-g3 $OPTIMIZATION" ################################################################ #### define __DECALPHA__ (i was getting re-declaration warnings #### in machine.h ################################################################ # Define DEC Alpha AC_DEFINE(__DECALPHA__, 1, we're on DEC Alpha) fi # gcc or ccc? ;; # alpha ########################################################################## # SunOS ########################################################################## sparc-*-sunos4*) if test CC = "cc"; then OPTIMIZATION="-O -xCC" MAKEDEP="-xM" # for gcc, use instead: # CC="gcc" # OPTIMIZATION="-O" # MAKEDEP="-M" AC_MSG_WARN([Please contact lame@lists.sourceforge.net with the output of the configure run and the file config.cache. Thank you for your cooperation.]) fi ;; #SunOS ########################################################################## # SGI ########################################################################## *-sgi-irix*) if test CC = "cc"; then OPTIMIZATION="-O3 -woff all" fi ;; # SGI ########################################################################## # Compaq Alpha running Dec Unix (OSF) ########################################################################## alpha*-dec-osf*) if test CC = "cc"; then OPTIMIZATION="-fast -O3 -std -g3 -non_shared" fi ;; #OSF esac # todo: include the following tests in the case-list UNAME=`uname` ARCH=`uname -m` ########################################################################### # MOSXS (Rhapsody PPC) ########################################################################### if test "$UNAME" = "Rhapsody"; then # CC="cc" # should be handled already by autoconf MAKEDEP="-make" fi ########################################################################### # MAC OSX Darwin PPC ########################################################################### if test "$UNAME" = "Darwin"; then MAKEDEP="-make" CFLAGS="$CFLAGS -fno-common" fi ########################################################################## # OS/2 ########################################################################## # Properly installed EMX runtime & development package is a prerequisite. # tools I used: make 3.76.1, uname 1.12, sed 2.05, PD-ksh 5.2.13 # ########################################################################## if test "$UNAME" = "OS/2"; then SHELL=sh #CC=gcc # should already be handled by configure # file extension should already be handled by automake (I don't know, # please give feedback! #FILE_EXTENSION=".exe" # Uncomment & inspect the GTK lines to use MP3x GTK frame analyzer. # Properly installed XFree86/devlibs & GTK+ is a prerequisite. # The following works for me using Xfree86/OS2 3.3.5 and GTK+ 1.2.3: # AC_DEFINE(HAVE_GTK, 1, have GTK) # AC_DEFINE(__ST_MT_ERRNO__, 1) # INCLUDES="-IC:/XFree86/include/gtk12 -IC:/XFree86/include/glib12 \ # -IC:/XFree86/include $INCLUDES" # FRONTEND_LDFLAGS="-LC:/XFree86/lib -lgtk12 -lgdk12 -lgmodule -lglib12 \ # -lXext -lX11 -lshm -lbsd -lsocket -lm $FRONTEND_LDFLAGS" # FRONTEND_CFLAGS="-Zmtd -Zsysv-signals -Zbin-files $FRONTEND_CFLAGS" fi ########################################################################### # AmigaOS ########################################################################### # Type 'Make ARCH=PPC' for PowerUP and 'Make ARCH=WOS' for WarpOS # ########################################################################### if test "$UNAME" = "AmigaOS" ; then CC="gcc -noixemul" OPTIMIZATION="$OPTIMIZATION -m68020-60 -m68881" MAKEDEP="-MM" if test "$ARCH" = "WOS"; then CC="ppc-amigaos-gcc -warpup" OPTIMIZATION="$OPTIMIZATION -mmultiple -mcpu=603e" AR="ppc-amigaos-ar" RANLIB="ppc-amigaos-ranlib" fi if test "$ARCH",PPC; then CC="ppc-amigaos-gcc" OPTIMIZATION="$OPTIMIZATION -mmultiple -mcpu=603e" AR="ppc-amigaos-ar" RANLIB="ppc-amigaos-ranlib" fi fi CFLAGS="${OPTIMIZATION} ${CFLAGS}" LDADD="${LDADD}" FRONTEND_CFLAGS="${INCICONV} ${FRONTEND_CFLAGS}" FRONTEND_LDADD="${FRONTEND_LDADD} ${LTLIBICONV} ${CONFIG_MATH_LIB}" AC_SUBST(INCLUDES) AC_SUBST(FRONTEND_LDFLAGS) AC_SUBST(FRONTEND_CFLAGS) AC_SUBST(FRONTEND_LDADD) AC_SUBST(CONFIG_MATH_LIB) AC_SUBST(LDADD) AC_SUBST(LIB_MAJOR_VERSION) AC_SUBST(LIB_MINOR_VERSION) AC_SUBST(NASM) AC_SUBST(NASM_FORMAT) AC_SUBST(MAKEDEP) AC_SUBST(RM_F) AC_SUBST(LIBTOOL_DEPS) AC_SUBST(WITH_FRONTEND) AC_SUBST(WITH_MP3X) AC_SUBST(WITH_MP3RTP) AC_SUBST(CPUTYPE) AC_SUBST(CPUCCODE) AC_SUBST(CONFIG_DEFS) AC_CONFIG_FILES([Makefile \ libmp3lame/Makefile \ libmp3lame/i386/Makefile \ libmp3lame/vector/Makefile \ frontend/Makefile \ mpglib/Makefile \ doc/Makefile \ doc/html/Makefile \ doc/man/Makefile \ include/Makefile \ Dll/Makefile \ misc/Makefile \ dshow/Makefile \ ACM/Makefile \ ACM/ADbg/Makefile \ ACM/ddk/Makefile \ ACM/tinyxml/Makefile \ lame.spec \ mac/Makefile \ macosx/Makefile \ macosx/English.lproj/Makefile \ macosx/LAME.xcodeproj/Makefile \ vc_solution/Makefile]) AC_OUTPUT