looper/subprojects/mpg123/configure.ac

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2024-09-28 10:31:06 -07:00
dnl configure.ac: source for the configure script
dnl copyright by the mpg123 project - free software under the terms of the LGPL 2.1
dnl see COPYING and AUTHORS files in distribution or http://mpg123.org
dnl initially written by Nicholas J. Humfrey
dnl Autoconf 2.71 wants some changes, hope we kept it fine for
dnl 2.69 at least.
AC_PREREQ([2.69])
dnl ############# Initialisation
dnl Set version numbers from header version.h and each library API header.
dnl Do not forget the re-generate configure on version changes. This does
dnl not happen automatically, as it would with m4_include() usage, wich
dnl is too fragile with arbitrary header contents.
m4_define([V_HEADER], m4_esyscmd(grep MPG123_ src/version.h))
m4_define([V_MAJOR], m4_bregexp(V_HEADER,
[#define MPG123_MAJOR\s+\([0-9]+\)],
[\1]))
m4_define([V_MINOR], m4_bregexp(V_HEADER,
[\#define MPG123_MINOR\s+\([0-9]+\)],
[\1]))
m4_define([V_PATCH], m4_bregexp(V_HEADER,
[\#define MPG123_PATCH\s+\([0-9]+\)],
[\1]))
m4_define([V_SUFFIX], m4_bregexp(V_HEADER,
[\#define MPG123_SUFFIX\s+"\(.+\)"],
[\1]))
m4_undefine([V_HEADER])
AC_INIT([mpg123], V_MAJOR.V_MINOR.V_PATCH[]V_SUFFIX, [maintainer@mpg123.org])
m4_define([V_HEADER], m4_esyscmd(grep -e _API_VERSION -e _PATCHLEVEL src/include/mpg123.h src/include/out123.h src/include/syn123.h))
dnl libmpg123
m4_define([API_VERSION], m4_bregexp(V_HEADER,
[\#define MPG123_API_VERSION\s+\([0-9]+\)],
[\1]))
m4_define([LIB_PATCHLEVEL], m4_bregexp(V_HEADER,
[\#define MPG123_PATCHLEVEL\s+\([0-9]+\)],
[\1]))
dnl libout123
m4_define([OUTAPI_VERSION], m4_bregexp(V_HEADER,
[\#define OUT123_API_VERSION\s+\([0-9]+\)],
[\1]))
m4_define([OUTLIB_PATCHLEVEL], m4_bregexp(V_HEADER,
[\#define OUT123_PATCHLEVEL\s+\([0-9]+\)],
[\1]))
dnl libsyn123
m4_define([SYNAPI_VERSION], m4_bregexp(V_HEADER,
[\#define SYN123_API_VERSION\s+\([0-9]+\)],
[\1]))
m4_define([SYNLIB_PATCHLEVEL], m4_bregexp(V_HEADER,
[\#define SYN123_PATCHLEVEL\s+\([0-9]+\)],
[\1]))
m4_undefine([V_HEADER])
dnl Since we want to be backwards compatible, both sides get set to API_VERSION.
LIBMPG123_VERSION=API_VERSION:LIB_PATCHLEVEL:API_VERSION
LIBOUT123_VERSION=OUTAPI_VERSION:OUTLIB_PATCHLEVEL:OUTAPI_VERSION
LIBSYN123_VERSION=SYNAPI_VERSION:SYNLIB_PATCHLEVEL:SYNAPI_VERSION
AC_SUBST([LIBMPG123_VERSION])
AC_SUBST([LIBOUT123_VERSION])
AC_SUBST([LIBSYN123_VERSION])
AC_CONFIG_SRCDIR(src/mpg123.c)
AC_CONFIG_AUX_DIR(build)
AC_CONFIG_SRCDIR(doc)
AC_CONFIG_MACRO_DIR([m4])
AC_CANONICAL_HOST
dnl Version 1.7 of automake is recommended
dnl Not sure what minimal version does not choke on sub directories.
dnl Testing with 1.14.
AM_INIT_AUTOMAKE([subdir-objects])
AC_CONFIG_HEADERS([src/config.h])
# You get strange symptoms like jack module build failing because the AC_C_CONST failed to detect the working const support.
# In that case, the test failed because -Werror, not because no const there...
# After looking again, there are possibly more tests being obscured by false failures.
AC_MSG_CHECKING([for -Werror in CFLAGS (It breaks tests)])
if echo "$CFLAGS" | grep Werror; then
AC_MSG_RESULT([yes])
AC_MSG_WARN([You have -Werror in CFLAGS. That may break some tests and make this configure bogus.
If you want paranoid compilation, use --enable-nagging option, which adds -Werror for gcc.
Also note that you shall not run make distcheck after configuring with --enable-nagging.
distcheck uses the generated CFLAGS...
Anyhow, continuing at your own risk.])
else
AC_MSG_RESULT([no])
fi
buffer=enabled # try to build with buffer by default
dnl ############# Compiler and tools Checks
LT_LDFLAGS=-export-dynamic
EXEC_LT_LDFLAGS=
be_static=no
all_static=no
lib_static=no
AC_MSG_CHECKING([if you are up to something totally static with LDFLAGS/CFLAGS])
for f in $LDFLAGS $CFLAGS
do
case "$f" in
-all-static)
be_static=yes
all_static=yes
lib_static=yes
;;
-static)
be_static=yes
lib_static=yes
;;
-static-libgcc)
lib_static=yes
;;
esac
done
if test "x$be_static" = xyes; then
AC_MSG_RESULT([yes])
LT_LDFLAGS=-all-static
EXEC_LT_LDFLAGS="$LT_LDFLAGS"
else
AC_MSG_RESULT([no])
fi
if test "x$all_static" = xyes; then
AC_MSG_WARN( Use -static in LDFLAGS for all-static linking! Your compiler may blow up on that -all-static. )
fi
AM_PROG_AS
m4_version_prereq(2.70, [AC_PROG_CC], [AC_PROG_CC_C99])
AC_PROG_CPP
AC_PROG_INSTALL
# Just look, no touch.
oldLIBS=$LIBS
LT_LIB_M
dnl Test if -lrt is required for clock_gettime() (old glibc).
AC_SEARCH_LIBS([clock_gettime], [rt])
if echo " $LIBS" | grep -q -w -- -lrt; then
LIBRT=-lrt
fi
# Could actually be missing.
AC_CHECK_FUNCS([clock_gettime])
LIBS=$oldLIBS
AC_SUBST(LIBM)
dnl "Checking for egrep is broken after removal of libltdl stuff... checks use $EGREP, so searching it here."
AC_PROG_EGREP
AC_C_CONST
AC_C_INLINE
AC_C_BIGENDIAN
if test "x$lib_static" = xyes; then
CC="$CC -static-libgcc"
CCLD="$CC"
echo "Adding -static-libgcc"
fi
dnl ############# Use Libtool for dynamic module loading
modules=auto
AC_ARG_ENABLE(modules,
[AS_HELP_STRING([--disable-modules], [dynamically loadable output module support (default enabled in shared library builds)])],
[
if test "x$enableval" = xyes
then
modules=enabled
else
modules=disabled
fi
],
[
if test "x$be_static" = "xyes"; then
modules=disabled
else
modules=auto
fi
])
if test x"$enable_shared" = xno; then
modules=disabled
LT_LDFLAGS=
else
AC_DEFINE(DYNAMIC_BUILD, 1, [ Define if building with dynamcally linked libmpg123])
fi
dnl We need the windows header also for checking the module mechanism.
AC_CHECK_HEADERS([windows.h])
# enable win32 code
if test "x$ac_cv_header_windows_h" = xyes -a "x$host_os" != xcygwin -a "x$host_os" != xmidipix; then
win32_specific_codes=enabled
fi
android_build=no
case "$host" in
*-*-mingw*)
win32=yes
AC_MSG_CHECKING([if this is a UWP build])
AC_PREPROC_IFELSE([AC_LANG_PROGRAM(
[[#include <winapifamily.h>
#if WINAPI_FAMILY_PARTITION (WINAPI_PARTITION_DESKTOP)
# error Win32 Desktop build
#endif
]],[[;]])
],[
uwp_build=yes
AC_MSG_RESULT([yes])
],[
uwp_build=no
AC_MSG_RESULT([no])
])
if test x"$uwp_build" = xyes; then
AC_DEFINE( [WINDOWS_UWP], 1, [Windows UWP build] )
fi
;;
linux*)
dnl Android is linux, but a bit different
AC_MSG_CHECKING([for an Android system])
AC_PREPROC_IFELSE([AC_LANG_PROGRAM(
[[#ifndef __ANDROID__
# error Not Android
#endif
]],[[;]])
],[
android_build=yes
AC_MSG_RESULT([yes])
],[
AC_MSG_RESULT([no])
])
;;
*)
win32=no
;;
esac
if test x$win32_specific_codes = xenabled; then
# Check GetThreadErrorMode
if test x"$modules" != xdisabled; then
AC_MSG_CHECKING([if we have GetThreadErrorMode])
AC_LINK_IFELSE([AC_LANG_SOURCE([
#include <windows.h>
int main(){
return GetThreadErrorMode();
}])],[win32_thread_error=yes],[win32_winver_bump=yes])
if test "x$win32_thread_error" != "xyes"; then
AC_MSG_CHECKING([if we have GetThreadErrorMode])
AC_LINK_IFELSE([AC_LANG_SOURCE([
#define WINVER 0x600
#define _WIN32_WINNT 0x600
#include <windows.h>
int main(){
return GetThreadErrorMode();
}])],[win32_thread_error=yes],[win32_thread_error=no])
fi
if test "x$win32_thread_error" = "xyes"; then
AC_MSG_RESULT([yes])
else
AC_MSG_RESULT([no])
if test "x$modules" = xenabled; then
AC_MSG_ERROR([GetThreadErrorMode is required for modules but not found.])
else
AC_MSG_WARN([Disabling modules because of missing GetThreadErrorMode()])
modules=disabled
fi
fi
fi
fi
LIBDL=
if test x"$modules" = xdisabled
then
echo "Modules disabled, not checking for dynamic loading."
else
have_dl=no
dl_missing=no
# The dlopen() API is either in libc or in libdl.
if test "x$ac_cv_header_windows_h" = xyes &&
test "x$win32" = xyes; then
AC_MSG_CHECKING([if LoadLibrary should be used])
AC_LINK_IFELSE([AC_LANG_SOURCE([
#include <windows.h>
int main() {
LoadLibraryW(0);
GetProcAddress(0, 0);
FreeLibrary(0);
}
])], [
have_dl=yes
AC_MSG_RESULT([Using LoadLibrary])
],
[AC_MSG_RESULT([no])])
else
# Check for libdl functions, but only apply them for libcompat_dl.
# This looks too messy. Can I avoid messing with LIBS here?
oldLIBS=$LIBS
AC_SEARCH_LIBS(dlopen, dl)
AC_SEARCH_LIBS(dlsym, dl)
AC_SEARCH_LIBS(dlclose, dl)
AC_CHECK_HEADER(dlfcn.h)
AC_CHECK_FUNCS(dlopen dlsym dlclose, [ have_dl=yes ], [ dl_missing=yes] )
LIBS=$oldLIBS
# A better way to check if the library was really needed?
if test "x$ac_cv_search_dlopen" = x-ldl ||
test "x$ac_cv_search_dlsym" = x-ldl ||
test "x$ac_cv_search_dlclose" = x-ldl
then
LIBDL=-ldl
fi
fi
if test x"$dl_missing" = xyes; then
AC_MSG_WARN([Some dynamic loading functions missing.])
have_dl=no
fi
if test x"$modules" = xenabled -a x"$have_dl" = xno; then
AC_MSG_ERROR([Modules enabled but no runtime loader found! This will not work...])
fi
if test x"$modules" = xauto; then
if test x"$have_dl" = xyes; then
modules=enabled
echo "We found a runtime loader: Modules enabled."
else
echo "We did not find a runtime loader: Modules disabled."
modules=disabled
fi
fi
fi
AC_SUBST(LIBDL)
dnl Configure libtool
LT_INIT([win32-dll disable-static])
if test x"$modules" = xdisabled
then
echo "Modules disabled."
else
# Enable module support in source code
AC_DEFINE( USE_MODULES, 1, [Define if modules are enabled] )
# Export the module file suffix as LT_MODULE_EXT
LT_SYS_MODULE_EXT
fi
AM_CONDITIONAL( [HAVE_MODULES], [test "x$modules" = xenabled] )
# Ensure that a possibly hijacked libtool does not build any static libs.
if test x"$enable_static" = xno; then
LIB_CFLAGS=-shared
else
LIB_CFLAGS=
fi
AC_SUBST(LIB_CFLAGS)
AC_SUBST(LT_LDFLAGS)
AC_SUBST(EXEC_LT_LDFLAGS)
dnl ############## Component selection
AC_ARG_ENABLE(components,
[AS_HELP_STRING([--disable-components], [(not) build end-user programs with default components, select individual components via --enable-libmpg123 etc.])],
[
if test "x$enableval" = xyes
then
build_all=yes
else
build_all=no
fi
],
[
build_all=yes
]
)
AC_ARG_ENABLE(programs,
[AS_HELP_STRING([--enable-programs], [build (only) programs (with --disable-components)])],
[
if test "x$enableval" = xyes
then
build_programs=yes
else
build_programs=no
fi
],
[
build_programs=no
]
)
AC_ARG_ENABLE(libmpg123,
[AS_HELP_STRING([--enable-libmpg123], [build (only) libmpg123 (with --disable-components)])],
[
if test "x$enableval" = xyes
then
build_libmpg123=yes
else
build_libmpg123=no
fi
],
[
build_libmpg123=no
]
)
AC_ARG_ENABLE(libout123,
[AS_HELP_STRING([--enable-libout123], [build (only) libout123 (with --disable-components)])],
[
if test "x$enableval" = xyes
then
build_libout123=yes
else
build_libout123=no
fi
],
[
build_libout123=no
]
)
AC_ARG_ENABLE(libout123-modules,
[AS_HELP_STRING([--enable-libout123-modules], [build (only) libout123 modules (with --disable-components)])],
[
if test "x$enableval" = xyes
then
build_libout123_modules=yes
else
build_libout123_modules=no
fi
],
[
build_libout123_modules=no
]
)
AC_ARG_ENABLE(libsyn123,
[AS_HELP_STRING([--enable-libsyn123], [build (only) libsyn123 (with --disable-components)])],
[
if test "x$enableval" = xyes
then
build_libsyn123=yes
else
build_libsyn123=no
fi
],
[
build_libsyn123=no
]
)
if test "x$build_all" = xyes; then
build_programs=yes
build_libmpg123=yes
build_libout123=yes
build_libout123_modules=yes
build_libsyn123=yes
fi
AM_CONDITIONAL([BUILD_PROGRAMS], [ test "x$build_programs" = xyes ])
AM_CONDITIONAL([BUILD_LIBMPG123], [ test "x$build_libmpg123" = xyes ])
AM_CONDITIONAL([BUILD_LIBOUT123], [ test "x$build_libout123" = xyes ])
AM_CONDITIONAL([BUILD_LIBOUT123_MODULES], [ test "x$build_libout123_modules" = xyes ])
AM_CONDITIONAL([BUILD_LIBOUT123_OR_MODULES], [ test "x$build_libout123" = xyes || test "x$build_libout123_modules" = xyes ])
AM_CONDITIONAL([BUILD_LIBSYN123], [ test "x$build_libsyn123" = xyes ])
# If we install libraries, prompting pkgconfig and include directories.
AM_CONDITIONAL([NEED_LIB], [ test "x$build_libmpg123" = xyes || test "x$build_libout123" = xyes || test "x$build_libout123_modules" = xyes || test "x$build_libsyn123" = xyes ])
AM_CONDITIONAL([NEED_MAINLIB], [ test "x$build_libmpg123" = xyes || test "x$build_libout123" = xyes || test "x$build_libsyn123" = xyes ])
components=""
if test "x$build_programs" = xyes; then
components="$components programs"
fi
if test "x$build_libmpg123" = xyes; then
components="$components libmpg123"
fi
if test "x$build_libout123" = xyes; then
components="$components libout123"
fi
if test "x$build_libout123_modules" = xyes; then
components="$components libout123-modules"
fi
if test "x$build_libsyn123" = xyes; then
components="$components libsyn123"
fi
components=$(echo $components)
dnl ############## Configurable Options
AC_ARG_ENABLE(debug,
[AS_HELP_STRING([--enable-debug], [turn on (lots of) debugging printouts])],
[
if test "x$enableval" = xyes
then
debugging="enabled"
else
debugging="disabled"
fi
],
[ debugging="disabled" ]
)
AC_ARG_ENABLE(xdebug,
[AS_HELP_STRING([--enable-xdebug], [turn on (yet more) extreme debugging printouts])],
[
if test "x$enableval" = xyes
then
xdebugging="enabled"
else
xdebugging="disabled"
fi
],
[ xdebugging="disabled" ]
)
if test x"$xdebugging" = xenabled; then
debugging=enabled
AC_DEFINE(XDEBUG, 1, [ Define for extreme debugging. ])
fi
AC_ARG_ENABLE(nagging,
[AS_HELP_STRING([--enable-nagging], [turn on GCC's pedantic nagging with error on warnings])],
[
if test "x$enableval" = xyes
then
nagging="enabled"
else
nagging="disabled"
fi
],
[ nagging="disabled" ]
)
if test x"$debugging" = xenabled; then
AC_DEFINE(DEBUG, 1, [ Define if debugging is enabled. ])
fi
AC_ARG_ENABLE(gapless,
[AS_HELP_STRING( [--disable-gapless], [turn off gapless decoding (please don't)])],
[
if test "x$enableval" = xyes
then
gapless="enabled"
else
gapless="disabled"
fi
],
[ gapless="enabled" ]
)
if test "x$gapless" = xenabled; then
AC_DEFINE(GAPLESS, 1, [ Define if gapless is enabled. ])
fi
AC_ARG_ENABLE(fifo,
[AS_HELP_STRING( [--enable-fifo], [FIFO support for control interface (auto-enabled on linux)])],
[
if test "x$enableval" = xyes
then
fifo="enabled"
else
fifo="disabled"
fi
],
[
fifo="auto"
]
)
dnl Optional objects list, depends on decoder choice and core feature selection.
dnl Not just for specific decoders anymore...
dnl Core features that can be disabled to reduce binary size.
id3v2=enabled
AC_ARG_ENABLE(id3v2,
[AS_HELP_STRING( [--disable-id3v2], [no ID3v2 parsing])],
[
if test "x$enableval" = xno; then
id3v2="disabled"
fi
], [])
# id3v2 depends on strings... so check that in between.
string=enabled
AC_ARG_ENABLE(string,
[AS_HELP_STRING( [--disable-string], [no string API (this will disable ID3v2; main mpg123 won't build anymore)])],
[
if test "x$enableval" = xno; then
string="disabled"
fi
], [])
if test "x$string" = "xdisabled"; then
AC_DEFINE(NO_STRING, 1, [ Define to disable string functions. ])
id3v2=disabled
AC_MSG_WARN([ID3v2 support disabled because of string API being disabled.])
fi
AM_CONDITIONAL([HAVE_STRING], [test "x$string" = xenabled])
if test "x$id3v2" = "xdisabled"; then
AC_DEFINE(NO_ID3V2, 1, [ Define to disable ID3v2 parsing. ])
fi
icy=enabled
AC_ARG_ENABLE(icy,
[AS_HELP_STRING( [--disable-icy], [no ICY metainfo parsing/conversion (main mpg123 won't build!)])],
[
if test "x$enableval" = xno; then
icy="disabled"
fi
], [])
if test "x$icy" = "xdisabled"; then
AC_DEFINE(NO_ICY, 1, [ Define to disable ICY handling. ])
fi
AM_CONDITIONAL([HAVE_ICY], [test "x$icy" = xenabled])
ntom=enabled
AC_ARG_ENABLE(ntom,
[AS_HELP_STRING( [--disable-ntom], [no flexible resampling])],
[
if test "x$enableval" = xno; then
ntom="disabled"
fi
], [])
if test "x$ntom" = "xdisabled"; then
AC_DEFINE(NO_NTOM, 1, [ Define to disable ntom resampling. ])
fi
AM_CONDITIONAL([HAVE_NTOM], [test "x$ntom" = xenabled])
downsample=enabled
AC_ARG_ENABLE(downsample,
[AS_HELP_STRING( [--disable-downsample], [no downsampled decoding])],
[
if test "x$enableval" = xno; then
downsample="disabled"
fi
], [])
if test "x$downsample" = "xdisabled"; then
AC_DEFINE(NO_DOWNSAMPLE, 1, [ Define to disable downsampled decoding. ])
fi
feeder=enabled
AC_ARG_ENABLE(feeder,
[AS_HELP_STRING( [--disable-feeder], [no feeder decoding, no buffered readers])],
[
if test "x$enableval" = xno; then
feeder="disabled"
fi
], [])
if test "x$feeder" = "xdisabled"; then
AC_DEFINE(NO_FEEDER, 1, [ Define to disable feeder and buffered readers. ])
fi
moreinfo=enabled
AC_ARG_ENABLE(moreinfo,
[AS_HELP_STRING( [--disable-moreinfo], [no extra information for frame analyzers])],
[
if test "x$enableval" = xno; then
moreinfo="disabled"
fi
], [])
if test "x$moreinfo" = "xdisabled"; then
AC_DEFINE(NO_MOREINFO, 1, [ Define to disable analyzer info. ])
fi
messages=enabled
AC_ARG_ENABLE(messages,
[AS_HELP_STRING( [--disable-messages], [no error/warning messages on the console])],
[
if test "x$enableval" = xno; then
messages="disabled"
fi
], [])
if test "x$messages" = "xdisabled"; then
AC_DEFINE(NO_WARNING, 1, [ Define to disable warning messages. ])
AC_DEFINE(NO_ERRORMSG, 1, [ Define to disable error messages. ])
AC_DEFINE(NO_ERETURN, 1, [ Define to disable error messages in combination with a return value (the return is left intact). ])
fi
runtimetables=disabled
AC_ARG_ENABLE(runtime-tables,
[AS_HELP_STRING([--enable-runtime-tables], [calculate tables at runtime saving size at the expense of additional computation at load time])],
[
if test "x$enableval" = xyes; then
runtimetables=enabled
fi
]
, [])
if test "x$runtimetables" = "xenabled"; then
AC_DEFINE(RUNTIME_TABLES, 1, [ Define for calculating tables at runtime. ])
fi
AM_CONDITIONAL([HAVE_RUNTIME_TABLES], [test "x$runtimetables" = xenabled] )
newhuff=enabled
AC_ARG_ENABLE(new-huffman,
[AS_HELP_STRING([--disable-new-huffman], [new huffman decoding scheme by Taihei (faster on modern CPUs at least, so on by default)])],
[
if test "x$enableval" = xno; then
newhuff=disabled
fi
]
, [])
if test "x$newhuff" = "xenabled"; then
AC_DEFINE(USE_NEW_HUFFTABLE, 1, [ Define for new Huffman decoding scheme. ])
fi
integers=quality
AC_ARG_ENABLE(int-quality,
[AS_HELP_STRING([--disable-int-quality], [use rounding instead of fast truncation for integer output, where possible])],
[
if test "x$enableval" = xno; then
integers=fast
fi
], [])
if test $integers = quality; then
AC_DEFINE(ACCURATE_ROUNDING, 1, [ Define to use proper rounding. ])
fi
AM_CONDITIONAL([HAVE_ACCURATE], [ test x"$integers" = xquality ])
int16=enabled
AC_ARG_ENABLE(16bit,
[AS_HELP_STRING( [--disable-16bit], [no 16 bit integer output])],
[
if test "x$enableval" = xno; then
int16="disabled"
fi
], [])
int8=enabled
AC_ARG_ENABLE(8bit,
[AS_HELP_STRING( [--disable-8bit], [no 8 bit integer output])],
[
if test "x$enableval" = xno; then
int8="disabled"
fi
], [])
int32=enabled
AC_ARG_ENABLE(32bit,
[AS_HELP_STRING( [--disable-32bit], [no 32 bit integer output (also 24 bit)])],
[
if test "x$enableval" = xno; then
int32="disabled"
fi
], [])
real=enabled
AC_ARG_ENABLE(real,
[AS_HELP_STRING( [--disable-real], [no real (floating point) output])],
[
if test "x$enableval" = xno; then
real="disabled"
fi
], [])
equalizer=enabled
AC_ARG_ENABLE(equalizer,
[AS_HELP_STRING( [--disable-equalizer], [no equalizer support])],
[
if test "x$enableval" = xno; then
equalizer="disabled"
fi
], [])
AC_ARG_WITH([cpu], [AS_HELP_STRING([--with-cpu=<type>], [select CPU optimization. Choices are:])
generic[[_fpu]] Use generic processor code with floating point arithmetic
generic_float Plain alias to generic_fpu now... float output is a normal runtime option!
generic_nofpu Use generic processor code with fixed point arithmetic (p.ex. ARM)
generic_dither Use generic processor code with floating point arithmetic and dithering for 1to1 16bit decoding.
i386[[_fpu]] Use code optimized for i386 processors with floating point arithmetic
i386_nofpu Use code optimized for i386 processors with fixed point arithmetic
i486 Use code optimized for i486 processors (only usable alone!)
i586 Use code optimized for i586 processors
i586_dither Use code optimized for i586 processors with dithering (noise shaping), adds 256K to binary size
3dnow Use code optimized for 3DNow processors
3dnow_vintage Use code optimized for older 3DNow processors (K6 family)
3dnowext Use code optimized for 3DNowExt processors (K6-3+, Athlon)
3dnowext_alone Really only 3DNowExt decoder, without 3DNow fallback for flexible rate
3dnow_vintage Use code optimized for older extended 3DNow processors (like K6-III+)
mmx Use code optimized for MMX processors
mmx_alone Really only MMX decoder, without i586 fallback for flexible rate
sse Use code optimized for SSE processors
sse_vintage Use code optimized for older SSE processors (plain C DCT36)
sse_alone Really only SSE decoder, without i586 fallback for flexible rate
avx Use code optimized for x86-64 with AVX processors
x86 Pack all x86 opts into one binary (excluding i486, including dither)
x86-64 Use code optimized for x86-64 processors (AMD64 and Intel64, including AVX and dithered generic)
altivec Use code optimized for Altivec processors (PowerPC G4 and G5)
ppc_nofpu Use code optimized for PowerPC processors with fixed point arithmetic
neon Use code optimized for ARM NEON SIMD engine (Cortex-A series)
arm_fpu Pack neon and generic[[_dither]] decoders, for ARM processors with FPU and/or NEON
arm_nofpu Use code optimized for ARM processors with fixed point arithmetic
neon64 Use code optimized for AArch64 NEON SIMD engine
aarch64 Pack neon64 and generic[[_dither]] decoders, for 64bit ARM processors
])
use_yasm=auto
AC_ARG_ENABLE(yasm,
[AS_HELP_STRING( [--enable-yasm], [enforce yasm instad of default assembler for some optimizations (AVX, currently)])],
[
if test "x$enableval" = xyes; then
use_yasm="enabled"
else
use_yasm="disabled"
fi
], [])
if test x"$use_yasm" = xenabled; then
AC_MSG_ERROR([Yasm for AVX is currently broken and might go away.])
fi
AC_ARG_ENABLE(ieeefloat,
[AS_HELP_STRING( [--disable-ieeefloat], [use special hackery relying on IEEE 754 floating point storage format (to accurately round to 16 bit integer at bit more efficiently in generic decoder, enabled by default, disable in case you have a very special computer)])],
[
if test "x$enableval" = xyes; then
ieee=enabled
else
ieee=disabled
fi
], [ ieee=enabled ])
if test "x$ieee" = xenabled; then
echo "We assume IEEE754 floating point format."
AC_DEFINE(IEEE_FLOAT, 1, [ Define to indicate that float storage follows IEEE754. ])
fi
AC_ARG_ENABLE(cases,
[AS_HELP_STRING([--disable-cases], [include special cases for likely parameter values (channel count, encoding sizes in libsyn123 routines) in the hope of better optimization at the expense of some code bloat])],
[
if test "x$enableval" = xyes; then
specialcases=enabled
else
specialcases=disabled
fi
], [ specialcases=enabled ])
if test "x$specialcases" = xdisabled; then
AC_DEFINE(SYN123_NO_CASES, 1, [ Define to not duplicate some code for likely cases in libsyn123. ])
fi
sys_cppflags=
newoldwritesample=disabled
case $host in
aarch64-*linux*|arm64-*linux*|aarch64-*bsd*|arm64-*bsd*|aarch64-apple-darwin*|arm64-apple-darwin*)
cpu_type="aarch64"
;;
arm*-*-linux*-*eabihf|armv7hl*-*-linux*)
cpu_type="arm_fpu"
;;
arm*-*-linux*)
# check that... perhaps we are better off on arm with kernel math emulation
cpu_type="arm_nofpu"
;;
armv7*-apple-darwin*)
cpu_type="arm_fpu"
;;
i386-*-linux*|i386-*-kfreebsd*-gnu)
cpu_type="i386_fpu"
newoldwritesample=enabled
;;
i486-*-linux*|i486-*-kfreebsd*-gnu)
cpu_type="i486"
newoldwritesample=enabled
;;
i586-*-linux*|i586-*-kfreebsd*-gnu)
cpu_type="x86"
newoldwritesample=enabled
;;
i686-*-linux*|i686-*-kfreebsd*-gnu)
cpu_type="x86"
newoldwritesample=enabled
;;
x86_64-*-linux*|x86_64-*-kfreebsd*-gnu)
cpu_type="x86-64"
;;
*-*-linux*|*-*-kfreebsd*-gnu)
cpu_type="generic_fpu"
;;
i?86-apple-darwin10*)
AC_MSG_CHECKING([if CPU type supports x86-64])
case `sysctl -n hw.optional.x86_64` in
1)
AC_MSG_RESULT([yes])
cpu_type="x86-64"
;;
*)
AC_MSG_RESULT([no])
cpu_type="x86"
newoldwritesample=enabled
;;
esac
;;
i?86-apple-darwin*)
cpu_type="x86"
newoldwritesample=enabled
;;
x86_64-apple-darwin*)
cpu_type="x86-64"
;;
*-apple-darwin*)
AC_MSG_CHECKING([if CPU type supports AltiVec])
case `machine` in
ppc7400 | ppc7450 | ppc970)
AC_MSG_RESULT([yes])
cpu_type="altivec"
;;
*)
AC_MSG_RESULT([no])
cpu_type="generic_fpu"
;;
esac
;;
i?86-*-dragonfly* | i?86-*-freebsd* | i?86-*-midnightbsd* | i?86-*-mirbsd* | i?86-*-netbsd* | i?86-*-openbsd* | i?86-*-haiku*)
cpu_type="x86"
newoldwritesample=enabled
;;
x86_64-*-dragonfly* | x86_64-*-freebsd* | x86_64-*-midnightbsd* | x86_64-*-mirbsd* | x86_64-*-netbsd* | x86_64-*-openbsd* | x86_64-*-haiku*)
cpu_type="x86-64"
;;
*-*-dragonfly* | *-*-freebsd* | *-*-midnightbsd* | *-*-mirbsd* | *-*-netbsd* | *-*-openbsd*)
cpu_type="generic_fpu"
;;
i386-*-solaris*)
cpu_type=x86
newoldwritesample=enabled
;;
x86_64-*-solaris*)
cpu_type=x86-64
;;
*-*-solaris*)
cpu_type="generic_fpu"
;;
# os2-emx = OS/2 with some Unix fun; so p.ex. buffer works.
# Till we sorted out the assembler troubles, generic CPU is default.
i386-pc-os2-emx)
cpu_type=generic_fpu
newoldwritesample=enabled
;;
x86_64-pc-os2-emx)
# We are optimistic hat the future knows OS/2 on x86-64;-)
cpu_type=generic_fpu
;;
*-pc-os2-emx)
cpu_type="generic_fpu"
;;
*-dec-osf*)
cpu_type="generic_fpu"
;;
x86_64-*-cygwin*)
cpu_type="x86-64"
;;
i686-*-cygwin*)
cpu_type="x86"
newoldwritesample=enabled
;;
i586-*-cygwin*)
cpu_type="x86"
newoldwritesample=enabled
;;
i486-*-cygwin*)
cpu_type="i486"
newoldwritesample=enabled
;;
i386-*-cygwin*)
cpu_type="i386"
newoldwritesample=enabled
;;
*-cygwin*)
cpu_type="generic_fpu"
;;
i@<:@3-7@:>@86-*-mingw32*)
LIBS="$LIBS"
buffer=disabled
cpu_type="x86"
newoldwritesample=enabled
;;
x86_64-*-mingw32*)
LIBS="$LIBS"
buffer=disabled
cpu_type="x86-64"
;;
i386-*-nto-qnx*)
cpu_type="x86"
newoldwritesample=enabled
;;
*-ibm-aix*)
AC_MSG_WARN([AIX system detected. You might want to --disable-largefile when trouble about conflicting types for lseek64 and friends occurs.])
# Altivec instead? It is developed for MacOS ...
cpu_type=generic_fpu
# no struct winsize without _ALL_SOURCE
sys_cppflags=-D_ALL_SOURCE
;;
i386-*)
AC_MSG_WARN([Unknown host operating system])
cpu_type="i386"
buffer=disabled
sys_cppflags=-DGENERIC
newoldwritesample=enabled
;;
i486-*)
AC_MSG_WARN([Unknown host operating system])
cpu_type="i486"
buffer=disabled
sys_cppflags=-DGENERIC
newoldwritesample=enabled
;;
i586-*)
AC_MSG_WARN([Unknown host operating system])
cpu_type="x86"
buffer=disabled
sys_cppflags=-DGENERIC
newoldwritesample=enabled
;;
i686-*)
AC_MSG_WARN([Unknown host operating system])
cpu_type="x86"
buffer=disabled
sys_cppflags=-DGENERIC
newoldwritesample=enabled
;;
x86_64-*)
AC_MSG_WARN([Unknown host operating system])
cpu_type="x86-64"
buffer=disabled
sys_cppflags=-DGENERIC
;;
*)
AC_MSG_WARN([Unknown host operating system])
cpu_type="generic_fpu"
buffer=disabled
sys_cppflags=-DGENERIC
;;
esac
AC_ARG_ENABLE(buffer,
[AS_HELP_STRING([--disable-buffer], [disable audio buffer code (default enabled by some heuristics)])],
[
if test "x$enableval" = xyes
then
echo "Note: Enabling buffer per request... perhaps it will not build anyway."
buffer="enabled"
else
echo "Note: Disabling buffer per request."
buffer="disabled"
fi
]
)
AC_ARG_ENABLE(newoldwritesample,
[AS_HELP_STRING( [--enable-newoldwritesample], [new/old WRITE_SAMPLE macro for non-accurate 16 bit output, faster on certain CPUs (default on on 32 bit x86)])],
[
if test "x$enableval" = xyes
then
newoldwritesample=enabled
else
newoldwritesample=disabled
fi
])
dnl Did user choose other CPU type ?
if test "x$with_cpu" != "x"; then
cpu_type=$with_cpu
fi
# Flag for 32 bit synth output or post-processing.
case "$cpu_type" in
*_nofpu)
synth32=false
AC_DEFINE(NO_SYNTH32, 1, [ Define for post-processed 32 bit formats. ])
;;
*)
synth32=true
;;
esac
if test "x$int16" = "xdisabled"; then
AC_DEFINE(NO_16BIT, 1, [ Define to disable 16 bit integer output. ])
fi
AM_CONDITIONAL([HAVE_SYNTH16], [test "x$int16" = "xenabled"])
# 8bit works only through 16bit
if test "x$int16" = "xdisabled"; then
int8=disabled
fi
if test "x$int8" = "xdisabled"; then
AC_DEFINE(NO_8BIT, 1, [ Define to disable 8 bit integer output. ])
fi
AM_CONDITIONAL([HAVE_SYNTH8], [test "x$int8" = "xenabled"])
if test "x$int32" = "xdisabled"; then
AC_DEFINE(NO_32BIT, 1, [ Define to disable 32 bit and 24 bit integer output. ])
fi
AM_CONDITIONAL([HAVE_SYNTH32], [ $synth32 && test x"$int32" = xenabled ])
if test "x$real" = "xdisabled"; then
AC_DEFINE(NO_REAL, 1, [ Define to disable real output. ])
fi
AM_CONDITIONAL([HAVE_SYNTHREAL], [ $synth32 && test x"$real" = xenabled ] )
if test "x$equalizer" = "xdisabled"; then
AC_DEFINE(NO_EQUALIZER, 1, [ Define to disable equalizer. ] )
fi
AM_CONDITIONAL([HAVE_EQUALIZER], [ test x"$equalizer" = xenabled ] )
layer1=enabled
AC_ARG_ENABLE(layer1,
[AS_HELP_STRING( [--disable-layer1], [no layer I decoding])],
[
if test "x$enableval" = xno; then
layer1="disabled"
AC_DEFINE(NO_LAYER1, 1, [ Define to disable layer I. ])
fi
], [])
AM_CONDITIONAL([HAVE_LAYER1], [test "x$layer1" = xenabled] )
layer2=enabled
AC_ARG_ENABLE(layer2,
[AS_HELP_STRING( [--disable-layer2], [no layer II decoding])],
[
if test "x$enableval" = xno; then
layer2="disabled"
AC_DEFINE(NO_LAYER2, 1, [ Define to disable layer II. ])
fi
], [])
AM_CONDITIONAL([HAVE_LAYER2], [test "x$layer2" = xenabled] )
layer3=enabled
AC_ARG_ENABLE(layer3,
[AS_HELP_STRING( [--disable-layer3], [no layer III decoding])],
[
if test "x$enableval" = xno; then
layer3="disabled"
AC_DEFINE(NO_LAYER3, 1, [ Define to disable layer III. ])
fi
], [])
AM_CONDITIONAL([HAVE_LAYER3], [test "x$layer3" = xenabled] )
AC_ARG_WITH([audio], [
AS_HELP_STRING([--with-audio=<list of modules>], [Select a list (or only one) of audio output modules (comma or space separated list). Choices are:])
aix Use AIX as default audio output sub-system
alib Use Alib as default audio output sub-system (for HPUX)
alsa Use ALSA as default audio output sub-system (libasound)
tinyalsa Use ALSA as default audio output sub-system (tinyalsa)
arts Use aRts as default audio output sub-system (KDE sound server)
dummy Use dummy as default audio (when no sound card is available)
esd Use ESoundD as default audio output sub-system
hp Use HP as default audio output sub-system
jack Use JACK as default low-latency audio server
coreaudio Use Mac OS X as default audio output sub-system (CoreAudio)
mint Use MinT as default audio output sub-system (Atari)
nas Use NAS as default audio output (Network Audio System)
os2 Use OS2 as default audio output sub-system
oss Use OSS as default audio output sub-system (/dev/dsp)
portaudio Use PortAudio as default audio output sub-system
pulse Use Pulse audio server as default audio output sub-system
qsa Use QSA as default audio output sub-system
sdl Use SDL as default audio output sub-system (Simple DirectMedia Layer)
sgi Use SGI as default audio output sub-system (IRIX)
sndio Use OpenBSD's sndio as default audio output sub-system
sun Use Sun as default audio output sub-system (/dev/audio)
win32 Use Win32 audio as default audio output sub-system
win32_wasapi Use Win32 wasapi audio as default audio output sub-system
])
AC_ARG_WITH([default-audio], [
--with-default-audio=<list of modules> Select a list of audio output modules to try at runtime, even if not built right now (comma or space separated). See --with-audio for options.
])
AC_ARG_WITH([optimization], [
--with-optimization=0 No Optimization
--with-optimization=1 Limited Optimization (-O) (for gcc)
--with-optimization=2 Default Optimization (-O2 ...) (for gcc)
--with-optimization=3 More Optimize than default (-O3 ...) (for gcc)
--with-optimization=4 Optimize yet more (-O4 ...) (for gcc)
])
AC_ARG_WITH([seektable], [
--with-seektable=<size> choose size of seek index table (0 disables it), default 1000
])
dnl ############## Assembler, compiler properties
# based on posting from John Dalgliesh <johnd@defyne.org> on ffmpeg (LGPL) mailing list
# extended to use balign if present
AC_MSG_CHECKING([if .balign is present])
echo '.balign 4' > conftest.s
if $CCAS -c -o conftest.o conftest.s 1>/dev/null 2>&1; then
AC_MSG_RESULT([yes])
AC_DEFINE(ASMALIGN_BALIGN, 1, [ Define if .balign is present. ])
else
AC_MSG_RESULT([no])
# find if .align arg is power-of-two or not
asmalign_exp="unknown"
if test x"$asmalign_exp" = xunknown; then
AC_MSG_CHECKING([if .align takes 2-exponent])
asmalign_exp="no"
echo '.align 3' > conftest.s
if $CCAS -c -o conftest.o conftest.s 1>/dev/null 2>&1; then
asmalign_exp="yes"
AC_MSG_RESULT([yes])
else
AC_MSG_RESULT([no])
fi
rm -f conftest.o conftest.s
fi
if test x"$asmalign_exp" = xyes; then
AC_DEFINE(ASMALIGN_EXP, 1, [ Define if .align takes 3 for alignment of 2^3=8 bytes instead of 8. ])
else
AC_DEFINE(ASMALIGN_BYTE, 1, [ Define if .align just takes byte count. ])
fi
fi
ccalign="unknown"
if test x"$ccalign" = xunknown; then
AC_MSG_CHECKING([__attribute__((aligned(16)))])
ccalign="no"
echo '__attribute__((aligned(16))) float var;' > conftest.c
if $CC -c -o conftest.o conftest.c >/dev/null 2>&1; then
ccalign="yes"
AC_MSG_RESULT([yes])
else
AC_MSG_RESULT([no])
fi
rm -f conftest.o conftest.c
fi
dnl We apply alignment hints only to cpus that need it.
dnl See further below for the definition of CCALIGN
avx_support="unknown"
if test x"$avx_support" = xunknown; then
AC_MSG_CHECKING([if assembler supports AVX instructions])
avx_support="no"
echo '.text' > conftest.s
echo 'vaddps %ymm0,%ymm0,%ymm0' >> conftest.s
if $CCAS -c -o conftest.o conftest.s 1>/dev/null 2>&1; then
avx_support="yes"
AC_MSG_RESULT([yes])
else
AC_MSG_RESULT([no])
fi
rm -f conftest.o conftest.s
fi
check_yasm=no
if test x"$avx_support" = xno || test x"$use_yasm" = xenabled; then
check_yasm=yes
fi
if test x"$use_yasm" = xdisabled; then
check_yasm=no
fi
if test x"$check_yasm" = xyes; then
AC_CHECK_PROGS(YASM,[yasm],no)
if test x"$YASM" != xno; then
AC_MSG_CHECKING([if $YASM supports GAS syntax and AVX instructions])
echo '.text' > conftest.s
echo 'vaddps %ymm0,%ymm0,%ymm0' >> conftest.s
if $YASM -pgas -rcpp -o conftest.o conftest.s 1>/dev/null 2>&1; then
avx_support="yes"
YASMFLAGS="-pgas -rgas -mamd64"
AC_MSG_RESULT([yes])
else
AC_MSG_RESULT([no])
fi
rm -f conftest.o conftest.s
else
if test x"$use_yasm" = xenabled; then
AC_MSG_ERROR([Yasm enforced but not found!])
fi
fi
else
YASM="no"
fi
if test "x$cpu_type" = "xavx"; then
if test "x$avx_support" != "xyes"; then
AC_MSG_ERROR([Assembler doesn't understand AVX instructions.])
fi
fi
AC_SUBST(YASM)
AC_SUBST(YASMFLAGS)
dnl ############## Really basic headers, needed for other checks.
AC_MSG_CHECKING([for basic C99 features])
AC_LINK_IFELSE(
[AC_LANG_SOURCE([`cat "$srcdir/test_c99.c"`])],
[have_c99=yes; AC_MSG_RESULT([yes])],
[have_c99=no; AC_MSG_RESULT([no])]
)
if test "x$have_c99" = xno; then
AC_MSG_ERROR([Your toolchain lacks basic C99 features. See test_c99.c for the requirements.])
fi
dnl Is it too paranoid to specifically check for stdint.h and limits.h?
AC_CHECK_HEADERS([unistd.h sched.h sys/ioctl.h sys/types.h sys/time.h sys/wait.h sys/resource.h sys/signal.h signal.h sys/select.h dirent.h sys/stat.h])
dnl ############## LFS stuff
portable_api=no
AC_ARG_ENABLE(portable,
[AS_HELP_STRING( [--enable-portable], [only build portable API (no off_t, no internal I/O)])],
[
if test "x$enableval" = xyes; then
portable_api="yes"
fi
], [])
if test "x$portable_api" = xyes; then
AC_DEFINE(PORTABLE_API, 1, [ Define to only include portable library API (no off_t, no internal I/O). ])
fi
AM_CONDITIONAL([HAVE_LFS_WRAP], [ test x"$portable_api" = xno ] )
# Check for shape-shifting off_t just for the mpg123 client application.
# At least at first, mpg123 itself will excercise the wrappers, otherwise
# we don't know they work.
# Do not use AC_CHECK_SIZEOF twice to avoid redefinition of SIZEOF_OFF_T
# in further tests via confdefs.h.
AC_MSG_CHECKING([switched off_t size])
AC_COMPUTE_INT(switched_off_size, sizeof(off_t), [
#undef _FILE_OFFSET_BITS
#define _FILE_OFFSET_BITS 64
#include <sys/types.h>
])
AC_MSG_RESULT([$switched_off_size])
AC_MSG_CHECKING([unswitched off_t size])
AC_COMPUTE_INT(unswitched_off_size, sizeof(off_t), [
#undef _FILE_OFFSET_BITS
#include <sys/types.h>
])
AC_MSG_RESULT([$unswitched_off_size])
# Now the size without meddling, possibly enforced to 64 bits by system settings.
AC_CHECK_SIZEOF(off_t, [], [
#include <sys/types.h>
])
# Some paranoia about the limited choices we accept.
# 32 or 64 bit offsets, an the switched one better not be smaller.
if test "x$ac_cv_sizeof_off_t" = x0; then
AC_MSG_ERROR([Not even off_t found. I need some POSIX.])
fi
if test "x$ac_cv_sizeof_off_t" != x8 &&
test "x$ac_cv_sizeof_off_t" != x4; then
AC_MSG_ERROR([unexpected size of off_t])
fi
if test "x$ac_cv_sizeof_off_t" != "x$switched_off_size"; then
if test "x$switched_off_size" != x8; then
AC_MSG_ERROR([bad switched off_t size])
fi
lfs_sensitive=yes
AC_DEFINE(LFS_SENSITIVE, 1, [ System redefines off_t when defining _FILE_OFFSET_BITS to 64. ])
else
lfs_sensitive=no
fi
forced_off_64=no
if test "x$unswitched_off_size" != "x$ac_cv_sizeof_off_t"; then
if test "x$ac_cv_sizeof_off_t" = x8; then
AC_MSG_NOTICE([Detected system with enforced 64 bit offsets, dropping suffixless symbols for uncryptic ABI breakage.])
AC_DEFINE([FORCED_OFF_64], 1, [System setup enforces 64 bit offsets where 32 bit would be native.])
forced_off_64=yes
fi
fi
use_largefile=auto
AC_MSG_CHECKING([if native off_t is already 64 bits])
if test "x$ac_cv_sizeof_off_t" = x8; then
AC_MSG_RESULT([yes])
use_largefile=no
else
AC_MSG_RESULT([no])
fi
AC_ARG_ENABLE(largefile,
[AS_HELP_STRING([--disable-largefile], [to not attempt to use 64 bit file offsets internally])],
[ if test "x$enableval" = xno; then
use_largefile=no
fi
],
[])
# Large file support without the magic. Check for the API explicitly.
# The shape-shifting off_t has to be avoided for the library builds.
# The mpg123 application might still use it to check if the API works.
# Or we limit it to portable, off_t-less API at some point.
if test x"$use_largefile" != xno; then
# Expect usual_LARGEFILE64_SOURCE mechanics with off64_t and lseek64 present.
AC_CHECK_FUNCS([lseek64])
AC_CHECK_TYPE(off64_t, [have_off64_t=yes], [have_off64_t=no], [[
#define _LARGEFILE64_SOURCE
#include <sys/types.h>
#include <unistd.h>
]])
if test "x$have_off64_t" = xyes && test "x$ac_cv_func_lseek64" = xyes; then
use_largefile=yes
AC_DEFINE(LFS_LARGEFILE_64, 1, [ Define if we use _LARGEFILE64_SOURCE with off64_t and lseek64. ])
AC_MSG_CHECKING([if we have O_LARGEFILE])
AC_COMPILE_IFELSE([AC_LANG_SOURCE([
#define _LARGEFILE64_SOURCE
#include <sys/types.h>
#include <sys/stat.h>
#include <unistd.h>
#include <fcntl.h>
int foo()
{
return open("foo", O_RDONLY|O_LARGEFILE);
}
])],[have_o_largefile=yes],[have_o_largefile=no])
AC_MSG_RESULT([$have_o_largefile])
if test x"$have_o_largefile" = xyes; then
AC_DEFINE(HAVE_O_LARGEFILE, 1, [ Define if O_LARGEFILE flag for open(2) exists. ])
fi
else
use_largefile=no
fi
fi # use_largefile auto or yes
dnl ############## Function Checks
AC_CHECK_FUNCS([mmap],[have_mmap=yes],[have_mmap=no])
if test "x$have_mmap" = "xno"; then
AC_CHECK_HEADERS([sys/ipc.h sys/shm.h],[], [buffer=disabled])
AC_CHECK_FUNCS([shmget shmat shmdt shmctl],[], [buffer=disabled])
fi
# Check if system supports termios
AC_SYS_POSIX_TERMIOS
AC_MSG_CHECKING([if we have wincon.h])
AC_COMPILE_IFELSE([AC_LANG_SOURCE([
#include <windows.h>
#include <wincon.h>
void *v = &ReadConsoleInput;
])],[ac_cv_header_wincon_h=yes],[ac_cv_header_wincon_h=no])
AC_MSG_RESULT([$ac_cv_header_wincon_h])
AS_IF([test "x$ac_cv_header_wincon_h" = "xyes"],[],[AC_DEFINE([HAVE_WINCON_H],[1],[Define to 1 if you have the <wincon.h> header file.])])
term_type=none
if test "x$ac_cv_sys_posix_termios" = "xyes"; then
AC_DEFINE_UNQUOTED([HAVE_TERMIOS], 1,
[Define this if you have the POSIX termios library])
term_type=posix
elif test "x$ac_cv_header_windows_h" = "xyes" &&
test "x$ac_cv_header_wincon_h" = "xyes"; then
term_type=win32
fi
AC_CHECK_FUNCS( random setenv unsetenv )
# Check for sched_setscheduler
AC_CHECK_FUNCS( sched_setscheduler setuid getuid)
# Check for setpriority
AC_CHECK_FUNCS( setpriority )
AC_CHECK_FUNCS( strerror strerror_l uselocale )
AC_CHECK_FUNCS( setlocale nl_langinfo mbstowcs wcstombs wcswidth iswprint )
AC_CHECK_FUNCS( atoll )
AC_CHECK_FUNCS( mkfifo, [ have_mkfifo=yes ], [ have_mkfifo=no ] )
AC_CHECK_FUNCS( fork execvp, [ have_fork=yes ], [have_fork=no; break] )
AC_CHECK_FUNCS( ctermid )
dnl For Windows and OS/2.
dnl Checking for both the functions as well as the flag symbols.
dnl Taking care with _setmode() being preferred on Windows, and
dnl OS/2 providing _setmode, but not the underscored flags.
#AC_CHECK_FUNCS( _setmode setmode )
AC_LINK_IFELSE( [AC_LANG_SOURCE(
#include <io.h>
#include <fcntl.h>
#include <stdio.h>
int main()
{
_setmode(STDIN_FILENO, _O_BINARY);
_setmode(STDOUT_FILENO, _O_TEXT);
return 0;
} )], [AC_DEFINE( HAVE__SETMODE, 1, [for Win/DOS system with _setmode()] )], [] )
AC_LINK_IFELSE( [AC_LANG_SOURCE(
#include <io.h>
#include <fcntl.h>
#include <stdio.h>
int main()
{
setmode(STDIN_FILENO, O_BINARY);
setmode(STDOUT_FILENO, O_TEXT);
return 0;
} )], [AC_DEFINE( HAVE_SETMODE, 1, [for Win/DOS system with setmode()] )], [] )
dnl ############## Header and Library Checks
# locale headers
AC_CHECK_HEADERS([locale.h langinfo.h wchar.h wctype.h])
# Headers for network (http) stuff
network_internal=unknown
AC_CHECK_HEADERS([netdb.h sys/param.h sys/socket.h netinet/in.h arpa/inet.h])
if test "x$ac_cv_header_netdb_h" = "xyes" &&
test "x$ac_cv_header_sys_param_h" = "xyes" &&
test "x$ac_cv_header_sys_socket_h" = "xyes" &&
test "x$ac_cv_header_netinet_in_h" = "xyes" &&
test "x$ac_cv_header_arpa_inet_h" = "xyes"; then
have_network=yes
network_internal=posix
else
have_network=no
fi
dnl trying to get that socket lib settled in one line
AC_SEARCH_LIBS(gethostbyname, nsl socket network)
dnl OK, two lines... Solaris needs -lnsl -lsocket
AC_SEARCH_LIBS(socket, socket)
AC_CHECK_FUNCS( getaddrinfo, [ have_ipv6=yes ], [ have_ipv6=no ] )
# Checks for maths libraries.
AC_CHECK_LIB([m], [sqrt])
AC_CHECK_LIB([mx], [powf])
# attempt to make the signal stuff work... also with GENERIC - later
#if test x"$ac_cv_header_sys_signal_h" = xyes; then
# AC_CHECK_FUNCS( sigemptyset sigaddset sigprocmask sigaction )
# if test x"$ac_cv_func_sigemptyset" = xyes &&
# test x"$ac_cv_func_sigaddset" = xyes &&
# test x"$ac_cv_func_sigprocmask" = xyes &&
# test x"$ac_cv_func_sigaction" = xyes; then
# AC_DEFINE(
#fi
# Optionally use platform macros for byte swapping.
AC_CHECK_HEADERS([byteswap.h])
dnl ############## Choose compiler flags and CPU
# do not assume gcc here, so no flags by default
ADD_CFLAGS=""
ADD_CPPFLAGS="$sys_cppflags"
ADD_LDFLAGS=""
LIBS="$LIBS"
# Remove that if it is settled that tcsetattr on OS/2 is unsalvageable anyway.
# The only user of os2.h is the output module.
AC_CHECK_HEADERS([os2.h])
# If debugging is enabled, just enable debugging symbols.
# All other stuff enters nagging territory.
if test x"$debugging" = xenabled; then
ADD_CFLAGS="-g"
fi
# gcc specific...
if test x"$GCC" = xyes; then
if test x"$nagging" = xenabled; then
ADD_CFLAGS="$ADD_CFLAGS -Wall -Werror -std=c99 -pedantic"
fi
fi
dnl Only try the attribute_align_arg mumbo-jumbo on x86, x86-64 warns/errors out on that attribute.
dnl ...dunno even what about other architectures.
case $host in
i?86-*)
AC_DEFINE(ABI_ALIGN_FUN, 1, [ Define if your architecture wants/needs/can use attribute_align_arg and alignment checks. It is for 32bit x86... ])
;;
esac
dnl Choice of extra libmpg12 sources via lots of AM_CONDITIONALS.
dnl Those are defined after this block of CPU selection. Make sure
dnl that any new conditional gets added down there before using it
dnl here in definitions.
s_altivec="HAVE_ALTIVEC"
s_i386="HAVE_I386"
s_i486="$s_i386 HAVE_I486"
s_i586="$s_i386 HAVE_I586"
s_i586d="$s_i386 HAVE_I586_DITHER"
s_3dnow="$s_i386 HAVE_3DNOW"
s_3dnowext="$s_i386 HAVE_3DNOWEXT HAVE_MMXTAB"
s_3dnow_vintage="$s_3dnow HAVE_3DNOW_VINTAGE"
s_3dnowext_vintage="$s_3dnowext HAVE_3DNOWEXT_VINTAGE"
s_mmx="$s_i386 HAVE_MMX HAVE_MMXTAB"
s_sse_vintage="$s_i386 HAVE_MMXTAB HAVE_SSE_VINTAGE"
s_sse="$s_sse_vintage HAVE_SSE"
s_x86_64="HAVE_X86_64 HAVE_X86_64_MONO"
s_x86_64_mono_synths="HAVE_X86_64_MONO"
s_x86_64_avx="HAVE_AVX"
s_x86multi="HAVE_GETCPUFLAGS"
s_x86_64_multi="HAVE_GETCPUFLAGS_X86_64"
s_dither="HAVE_DITHER"
s_neon="HAVE_NEON"
s_neon64="HAVE_NEON64"
s_arm_multi="HAVE_GETCPUFLAGS_ARM"
s_arm="HAVE_ARM"
# SSE and newer invoke dct64 for float numbers when producing s32 or float output,
# as well as accurate rounding.
AM_CONDITIONAL([HAVE_FLOATDCT], [ test x"$integers" = xquality || test x"$int32" = xenabled || test x"$real" = xenabled ])
dnl CPU specific compiler flags and sources
case $cpu_type in
generic)
ADD_CPPFLAGS="$ADD_CPPFLAGS -DOPT_GENERIC -DREAL_IS_FLOAT"
more_sources=""
ccalign=no
;;
generic_dither)
ADD_CPPFLAGS="$ADD_CPPFLAGS -DOPT_GENERIC_DITHER -DREAL_IS_FLOAT"
more_sources="$s_dither"
ccalign=no
;;
generic_fpu | generic_float)
ADD_CPPFLAGS="$ADD_CPPFLAGS -DOPT_GENERIC -DREAL_IS_FLOAT"
more_sources=""
ccalign=no
;;
generic_nofpu)
ADD_CPPFLAGS="$ADD_CPPFLAGS -DOPT_GENERIC -DREAL_IS_FIXED"
more_sources=
ccalign=no
;;
ppc_nofpu)
ADD_CPPFLAGS="$ADD_CPPFLAGS -DOPT_GENERIC -DOPT_PPC -DREAL_IS_FIXED"
more_sources=
ccalign=no
;;
arm_nofpu)
ADD_CPPFLAGS="$ADD_CPPFLAGS -DOPT_ARM -DREAL_IS_FIXED"
more_sources="$s_arm"
ccalign=no
;;
altivec)
ADD_CFLAGS="$ADD_CFLAGS -maltivec"
ADD_CPPFLAGS="$ADD_CPPFLAGS -DREAL_IS_FLOAT -DOPT_ALTIVEC"
more_sources="$s_altivec"
AC_MSG_CHECKING([if $CC accepts -faltivec])
touch conftest.c
if $CC -faltivec -c -o conftest.o conftest.c >/dev/null 2>&1; then
ADD_CFLAGS="$ADD_CFLAGS -faltivec"
AC_MSG_RESULT([yes])
else
AC_MSG_RESULT([no])
fi
rm -f conftest.o conftest.c
;;
neon)
ADD_CPPFLAGS="$ADD_CPPFLAGS -DOPT_NEON -DREAL_IS_FLOAT"
more_sources="$s_neon"
;;
arm_fpu)
ADD_CPPFLAGS="$ADD_CPPFLAGS -DOPT_MULTI -DOPT_GENERIC -DOPT_GENERIC_DITHER -DOPT_NEON -DREAL_IS_FLOAT"
more_sources="$s_neon $s_dither $s_arm_multi"
;;
neon64)
ADD_CPPFLAGS="$ADD_CPPFLAGS -DOPT_NEON64 -DREAL_IS_FLOAT"
more_sources="$s_neon64"
;;
aarch64)
ADD_CPPFLAGS="$ADD_CPPFLAGS -DOPT_MULTI -DOPT_GENERIC -DOPT_GENERIC_DITHER -DOPT_NEON64 -DREAL_IS_FLOAT"
more_sources="$s_neon64 $s_dither $s_arm_multi"
;;
i386)
ADD_CPPFLAGS="$ADD_CPPFLAGS -DOPT_I386 -DREAL_IS_FLOAT"
more_sources="$s_i386"
ccalign=no
;;
i386_fpu)
ADD_CPPFLAGS="$ADD_CPPFLAGS -DOPT_I386 -DREAL_IS_FLOAT"
more_sources="$s_i386"
ccalign=no
;;
i386_nofpu)
ADD_CPPFLAGS="$ADD_CPPFLAGS -DOPT_I386 -DREAL_IS_FIXED"
more_sources="$s_i386"
have_cond
ccalign=no
;;
i486)
ADD_CPPFLAGS="$ADD_CPPFLAGS -DOPT_I486 -DREAL_IS_FLOAT"
more_sources="$s_i486"
ccalign=no
;;
i586)
ADD_CPPFLAGS="$ADD_CPPFLAGS -DOPT_I586 -DREAL_IS_FLOAT"
more_sources="$s_i586"
;;
i586_dither)
ADD_CPPFLAGS="$ADD_CPPFLAGS -DOPT_I586_DITHER -DREAL_IS_FLOAT"
more_sources="$s_i586d $s_dither"
;;
3dnow)
# legacy 3dnow had the 3dnow paired with i586...
ADD_CPPFLAGS="$ADD_CPPFLAGS -DOPT_MULTI -DOPT_I586 -DOPT_3DNOW -DREAL_IS_FLOAT"
more_sources="$s_i586 $s_3dnow $s_x86multi "
;;
3dnow_vintage)
ADD_CPPFLAGS="$ADD_CPPFLAGS -DOPT_MULTI -DOPT_I586 -DOPT_3DNOW_VINTAGE -DREAL_IS_FLOAT"
more_sources="$s_i586 $s_3dnow_vintage $s_x86multi "
;;
3dnow_alone)
ADD_CPPFLAGS="$ADD_CPPFLAGS -DOPT_3DNOW -DREAL_IS_FLOAT"
more_sources="$s_3dnow"
;;
3dnowext_alone)
ADD_CPPFLAGS="$ADD_CPPFLAGS -DOPT_3DNOWEXT -DREAL_IS_FLOAT"
more_sources="$s_3dnowext"
;;
3dnowext_vintage)
ADD_CPPFLAGS="$ADD_CPPFLAGS -DOPT_MULTI -DOPT_3DNOW -DOPT_3DNOWEXT_VINTAGE -DREAL_IS_FLOAT"
more_sources="$s_3dnowext_vintage $s_3dnow $s_x86multi"
;;
3dnowext)
ADD_CPPFLAGS="$ADD_CPPFLAGS -DOPT_MULTI -DOPT_3DNOW -DOPT_3DNOWEXT -DREAL_IS_FLOAT"
more_sources="$s_3dnowext $s_3dnow $s_x86multi"
;;
mmx_alone|mmx)
ADD_CPPFLAGS="$ADD_CPPFLAGS -DOPT_MMX -DREAL_IS_FLOAT"
more_sources="$s_mmx"
;;
sse_alone|sse)
ADD_CPPFLAGS="$ADD_CPPFLAGS -DOPT_SSE -DREAL_IS_FLOAT"
more_sources="$s_sse"
;;
sse_vintage)
ADD_CPPFLAGS="$ADD_CPPFLAGS -DOPT_SSE_VINTAGE -DREAL_IS_FLOAT"
more_sources="$s_sse_vintage"
;;
avx)
ADD_CPPFLAGS="$ADD_CPPFLAGS -DOPT_AVX -DREAL_IS_FLOAT"
more_sources="$s_x86_64_avx $s_x86_64_mono_synths"
if test "x$YASM" != "xno"; then
use_yasm_for_avx="yes"
fi
;;
x86|x86_dither)
# plain C dct36 always there, for vintage/non-vintage
# Selection of non-/vintage sources implies that
# $s_3dnow_vintage contains $s_3dnow,
# $s_sse contains $s_sse_vintage.
ADD_CPPFLAGS="$ADD_CPPFLAGS -DOPT_MULTI -DOPT_GENERIC -DOPT_GENERIC_DITHER -DOPT_I386 -DOPT_I586 -DOPT_I586_DITHER -DOPT_MMX -DOPT_3DNOW -DOPT_3DNOW_VINTAGE -DOPT_3DNOWEXT -DOPT_3DNOWEXT_VINTAGE -DOPT_SSE -DOPT_SSE_VINTAGE -DREAL_IS_FLOAT"
more_sources="$s_i386 $s_i586 $s_i586d $s_mmx $s_3dnow_vintage $s_3dnowext_vintage $s_sse $s_x86multi $s_dither"
;;
x86-64_alone)
ADD_CPPFLAGS="$ADD_CPPFLAGS -DOPT_X86_64 -DREAL_IS_FLOAT"
more_sources="$s_x86_64"
;;
x86-64|x86-64_all|x86-64_dither)
ADD_CPPFLAGS="$ADD_CPPFLAGS -DOPT_MULTI -DOPT_X86_64 -DOPT_GENERIC -DOPT_GENERIC_DITHER -DREAL_IS_FLOAT"
more_sources="$s_x86_64 $s_dither $s_x86_64_multi"
if test "x$avx_support" = "xyes"; then
ADD_CPPFLAGS="$ADD_CPPFLAGS -DOPT_AVX"
more_sources="$more_sources $s_x86_64_avx"
if test "x$YASM" != "xno"; then
use_yasm_for_avx="yes"
fi
fi
;;
*)
AC_MSG_ERROR([Unknown CPU type '$cpu_type'])
;;
esac
# Use yasm instead of the default assembler for AVX sources
if test "x$use_yasm_for_avx" = "xyes"; then
case $host_os in
*cygwin*|*mingw*)
YASM_FORMAT="-f win64"
;;
*darwin*)
YASM_FORMAT="-f macho"
;;
*)
YASM_FORMAT="-f elf"
;;
esac
AC_DEFINE(USE_YASM_FOR_AVX, 1, [Define to use yasm for assemble AVX sources.])
fi
AM_CONDITIONAL([USE_YASM_FOR_AVX], [test "x$use_yasm_for_avx" = xyes])
AC_SUBST(YASM_FORMAT)
# Check if we want feature report function.
AC_MSG_CHECKING([if we want feature report function])
feature_report=enabled
AC_ARG_ENABLE(feature_report,
[AS_HELP_STRING([--disable-feature_report], [Disable feature report function])],
[
if test "x$enableval" = xno; then
AC_MSG_RESULT([no])
feature_report=disabled
else
AC_MSG_RESULT([yes])
fi
],
[AC_MSG_RESULT([yes])])
AM_CONDITIONAL([HAVE_FEATURE], [test "x$feature_report" = xenabled])
# Return 0 if first arg appears in list of following arguments.
# Return 1 otherwise.
word_in_list() {
word=$1
shift
# Avoid naming conflict with the outside!
# Is local not POSIX sh?
for given_word in "$@"
do
if test "x$word" = "x$given_word"; then
return 0
fi
done
return 1
}
dnl Really, having to write code again to generate configure.ac code
dnl because I cannot generate macro invocations in a shell loop?
dnl Autoconf is a bit ridiculous here. There's something to say about
dnl a build system with one language that can express the stuff, not this
dnl intermingling of m4 and shell on top of each other.
dnl for c in HAVE_ALTIVEC HAVE_I386 HAVE_I486 HAVE_I586 HAVE_I586_DITHER \
dnl HAVE_3DNOW HAVE_3DNOWEXT HAVE_MMXTAB HAVE_3DNOW_VINTAGE HAVE_3DNOWEXT_VINTAGE \
dnl HAVE_MMX HAVE_SSE_VINTAGE HAVE_SSE HAVE_X86_64 HAVE_X86_64_MONO HAVE_AVX \
dnl HAVE_GETCPUFLAGS HAVE_GETCPUFLAGS_X86_64 HAVE_DITHER HAVE_NEON HAVE_NEON64 \
dnl HAVE_GETCPUFLAGS_ARM HAVE_ARM
dnl do
dnl echo "AM_CONDITIONAL([$c], [word_in_list $c \$more_sources])"
dnl done
AM_CONDITIONAL([HAVE_ALTIVEC], [word_in_list HAVE_ALTIVEC $more_sources])
AM_CONDITIONAL([HAVE_I386], [word_in_list HAVE_I386 $more_sources])
AM_CONDITIONAL([HAVE_I486], [word_in_list HAVE_I486 $more_sources])
AM_CONDITIONAL([HAVE_I586], [word_in_list HAVE_I586 $more_sources])
AM_CONDITIONAL([HAVE_I586_DITHER], [word_in_list HAVE_I586_DITHER $more_sources])
AM_CONDITIONAL([HAVE_3DNOW], [word_in_list HAVE_3DNOW $more_sources])
AM_CONDITIONAL([HAVE_3DNOWEXT], [word_in_list HAVE_3DNOWEXT $more_sources])
AM_CONDITIONAL([HAVE_MMXTAB], [word_in_list HAVE_MMXTAB $more_sources])
AM_CONDITIONAL([HAVE_3DNOW_VINTAGE], [word_in_list HAVE_3DNOW_VINTAGE $more_sources])
AM_CONDITIONAL([HAVE_3DNOWEXT_VINTAGE], [word_in_list HAVE_3DNOWEXT_VINTAGE $more_sources])
AM_CONDITIONAL([HAVE_MMX], [word_in_list HAVE_MMX $more_sources])
AM_CONDITIONAL([HAVE_SSE_VINTAGE], [word_in_list HAVE_SSE_VINTAGE $more_sources])
AM_CONDITIONAL([HAVE_SSE], [word_in_list HAVE_SSE $more_sources])
AM_CONDITIONAL([HAVE_X86_64], [word_in_list HAVE_X86_64 $more_sources])
AM_CONDITIONAL([HAVE_X86_64_MONO], [word_in_list HAVE_X86_64_MONO $more_sources])
AM_CONDITIONAL([HAVE_AVX], [word_in_list HAVE_AVX $more_sources])
AM_CONDITIONAL([HAVE_GETCPUFLAGS], [word_in_list HAVE_GETCPUFLAGS $more_sources])
AM_CONDITIONAL([HAVE_GETCPUFLAGS_X86_64], [word_in_list HAVE_GETCPUFLAGS_X86_64 $more_sources])
AM_CONDITIONAL([HAVE_DITHER], [word_in_list HAVE_DITHER $more_sources])
AM_CONDITIONAL([HAVE_NEON], [word_in_list HAVE_NEON $more_sources])
AM_CONDITIONAL([HAVE_NEON64], [word_in_list HAVE_NEON64 $more_sources])
AM_CONDITIONAL([HAVE_GETCPUFLAGS_ARM], [word_in_list HAVE_GETCPUFLAGS_ARM $more_sources])
AM_CONDITIONAL([HAVE_ARM], [word_in_list HAVE_ARM $more_sources])
dnl Finally insert the code switch for alignment, above cpu selection having possibly changed the setting.
if test x"$ccalign" = xyes; then
AC_DEFINE(CCALIGN, 1, [ Define if __attribute__((aligned(16))) shall be used ])
fi
dnl ############## Output module choice
# The full list of supported modules to check, first come, first serve.
check_modules="pulse alsa tinyalsa oss coreaudio sndio sun win32 win32_wasapi os2 esd jack portaudio sdl nas arts openal"
# Only check qsa before all else on QNX.
# It would mask ALSA otherwise.
case $host in
*-nto-qnx*)
check_modules="qsa $check_modules"
;;
esac
# The final list.
output_modules=
check_forced=no
check_failed=no
if test "x$with_audio" != "x"; then
check_modules=`echo $with_audio|tr , ' '`
echo "Limiting outputs to build according to your preference: $check_modules"
check_forced=yes
fi
# Dummy output module is always built alongside libout123, but not
# when just building the modules.
if test "x$build_libout123" = xyes && ! echo "$check_modules" | grep -qw dummy; then
check_modules="$check_modules dummy"
fi
PKG_PROG_PKG_CONFIG([])
# Now go through the modules to check and do the chores.
for m in $check_modules
do
case "$m" in
dummy)
AC_MSG_CHECKING([if you are too dumbing dumb for the dummy])
AC_MSG_RESULT([no])
output_modules="$output_modules dummy"
HAVE_DUMMY=yes
;;
oss)
AC_CHECK_HEADERS([sys/soundcard.h linux/soundcard.h machine/soundcard.h])
if test "x${ac_cv_header_sys_soundcard_h}" = "xyes" \
-o "x${ac_cv_header_linux_soundcard_h}" = "xyes" \
-o "x${ac_cv_header_machine_soundcard_h}" = "xyes";
then
output_modules="$output_modules oss"
HAVE_OSS="yes"
else
check_failed=yes
fi
;;
tinyalsa)
TINYALSA_LIBS="-ltinyalsa"
# Check for ALSA
AC_CHECK_LIB( [tinyalsa], [pcm_open],
[ AC_CHECK_HEADER( [tinyalsa/asoundlib.h],
[ output_modules="$output_modules tinyalsa" HAVE_TINYALSA="yes"],
[ AC_MSG_WARN([Found TINYALSA library but NOT header files on your system]) ] )
]
)
if test "x$HAVE_TINYALSA" != xyes; then
check_failed=yes
fi
;;
# QSA and ALSA are not distinguishable in these tests, need to block
# each other and play with test order depending on platform.
alsa)
if test "x$HAVE_QSA" = xyes; then
HAVE_ALSA=no
else
ALSA_LIBS="-lasound"
# Check for ALSA
AC_CHECK_LIB( [asound], [snd_pcm_open],
[ AC_CHECK_HEADER( [alsa/asoundlib.h],
[ output_modules="$output_modules alsa" HAVE_ALSA="yes"],
[ AC_MSG_WARN([Found ALSA library but NOT header files on your system]) ] )
]
)
if test "x$HAVE_ALSA" != xyes; then
check_failed=yes
fi
fi # HAVE_QSA
;;
qsa)
if test "x$HAVE_ALSA" = xyes; then
HAVE_QSA=no
else
QSA_LIBS="-lasound"
# Check for QSA
AC_CHECK_LIB( [asound], [snd_pcm_open],
[ AC_CHECK_HEADER( [sys/asoundlib.h],
[ output_modules="$output_modules qsa" HAVE_QSA="yes"],
[ AC_MSG_WARN([Found QSA library but NOT header files on your system]) ] )
]
)
if test "x$HAVE_QSA" != xyes; then
check_failed=yes
fi
fi # HAVE_ALSA
;;
jack)
# JACK module uses semaphores, hence -lpthread.
AC_CHECK_LIB( [pthread], [sem_post],
[ PKG_CHECK_MODULES(JACK, jack,
[
output_modules="$output_modules jack"
HAVE_JACK="yes"
JACK_LIBS="$JACK_LIBS -lpthread"
], [ HAVE_JACK="no" check_failed=yes ] )
],
[ HAVE_JACK=no check_failed=yes ]
)
;;
pulse)
PKG_CHECK_MODULES(PULSE, libpulse-simple, output_modules="$output_modules pulse" HAVE_PULSE="yes", HAVE_PULSE="no" check_failed=yes)
;;
esd)
PKG_CHECK_MODULES(ESD, esound, output_modules="$output_modules esd" HAVE_ESD="yes", HAVE_ESD="no" check_failed=yes)
;;
portaudio)
# Remember: This looks only insane because you chose an insane tab width!
PORTAUDIO_LIBS="-lportaudio"
PORTAUDIO_CFLAGS=
case $host in
*-*-mingw32)
# We tested portaudio with MME
if test "x$HAVE_PORTAUDIO" != "xyes"; then
AC_CHECK_LIB( [portaudio], [Pa_Initialize],
[ AC_CHECK_HEADER( [portaudio.h],
[ output_modules="$output_modules portaudio" HAVE_PORTAUDIO_WINMM="yes" HAVE_PORTAUDIO="yes" ],
[ AC_MSG_WARN([Found PortAudio library but NOT header files on your system]) ] )
PORTAUDIO_LIBS="$PORTAUDIO_LIBS -lwinmm"
],
[ HAVE_PORTAUDIO="no"],
[ -lwinmm ]
)
fi
;;
*)
AC_CHECK_LIB( [portaudio], [Pa_Initialize],
[ AC_CHECK_HEADER( [portaudio.h],
[ output_modules="$output_modules portaudio" HAVE_PORTAUDIO="yes" ],
[ AC_MSG_WARN([Found PortAudio library but NOT header files on your system]) ] )
]
)
;;
esac
if test "x$HAVE_PORTAUDIO" != xyes; then
check_failed=yes
else
# See if we have v19 or v18
AC_CHECK_LIB( [portaudio], [Pa_GetVersion], [:], [AC_DEFINE( [PORTAUDIO18], 1, [Define if portaudio v18 API is wanted.]) ], [$PORTAUDIO_LIBS] )
fi
;;
sdl)
PKG_CHECK_MODULES(SDL, sdl2, output_modules="$output_modules sdl" HAVE_SDL="yes", HAVE_SDL="no" check_failed=yes)
if ! test "$HAVE_SDL" = "yes"; then
check_failed=no
PKG_CHECK_MODULES(SDL, sdl, output_modules="$output_modules sdl" HAVE_SDL="yes", HAVE_SDL="no" check_failed=yes)
fi
;;
nas)
NAS_LIBS=-laudio
AC_CHECK_LIB( [audio], [AuOpenServer],
[ AC_CHECK_HEADER( [audio/audiolib.h],
[ output_modules="$output_modules nas" HAVE_NAS="yes"],
[ AC_MSG_WARN([Found NAS library but NOT header files on your system]) ] )
]
)
if test "x$HAVE_NAS" != xyes; then
check_failed=yes
fi
;;
win32)
# Check for windows ... and win32 audio
# Does not work... instead just check for header
# AC_CHECK_LIB( [winmm], [waveOutOpen] )
WIN32_LIBS=-lwinmm
if test x$ac_cv_header_windows_h = xyes; then
output_modules="$output_modules win32"
HAVE_WIN32=yes
else
HAVE_WIN32=no
check_failed=yes
fi
;;
win32_wasapi)
# Check for windows ... and win32 wasapi audio
# Does not work... instead just check for header
# AC_CHECK_LIB( [avrt], [] )
AC_MSG_CHECKING([if we have wasapi headers])
OLD_LIBS=$LIBS
LIBS="$LIBS -lole32 -lavrt"
AC_LINK_IFELSE([AC_LANG_SOURCE([
#define COBJMACROS 1
#define _WIN32_WINNT 0x601
#include <initguid.h>
#include <audioclient.h>
#include <mmdeviceapi.h>
#include <avrt.h>
int main(){
/* UUID Checks */
GUID *IDs[] = {
&CLSID_MMDeviceEnumerator,
&IID_IMMDeviceEnumerator,
&IID_IAudioClient,
&IID_IAudioRenderClient
};
return 0;
}
])], [HAVE_WIN32_WASAPI=yes], [HAVE_WIN32_WASAPI=no])
LIBS=$OLD_LIBS
WIN32_WASAPI_LIBS="-lole32 -lavrt"
AC_MSG_RESULT([$HAVE_WIN32_WASAPI])
if test "x$HAVE_WIN32_WASAPI" = xyes; then
output_modules="$output_modules win32_wasapi"
else
check_failed=yes
fi
;;
sndio)
PKG_CHECK_MODULES(SNDIO, sndio, output_modules="$output_modules sndio" HAVE_SNDIO="yes", HAVE_SNDIO="no" check_failed=yes)
;;
sun)
AC_CHECK_HEADERS([sun/audioio.h sys/audioio.h asm/audioio.h sys/audio.h])
if test "x${ac_cv_header_sun_audioio_h}" = "xyes" \
-o "x${ac_cv_header_sys_audioio_h}" = "xyes" \
-o "x${ac_cv_header_asm_audioio_h}" = "xyes";
then
output_modules="$output_modules sun"
HAVE_SUN="yes"
else
check_failed=yes
fi
;;
coreaudio)
COREAUDIO_LIBS="-framework AudioToolbox"
AC_CHECK_HEADERS([AudioUnit/AudioUnit.h AudioToolbox/AudioToolbox.h])
if test "x${ac_cv_header_AudioUnit_AudioUnit_h}" = "xyes" \
-a "x${ac_cv_header_AudioToolbox_AudioToolbox_h}" = "xyes";
then
OLD_LIBS=$LIBS
LIBS="$LIBS $COREAUDIO_LIBS"
AC_MSG_CHECKING([if AudioUnit functions are available within AudioToolbox])
AC_LINK_IFELSE([AC_LANG_PROGRAM([[#include <AudioUnit/AudioUnit.h>]], [[AudioUnitInitialize(NULL);]])],[AC_MSG_RESULT([yes])],[AC_MSG_RESULT([no])
COREAUDIO_LIBS="$COREAUDIO_LIBS -framework AudioUnit"
])
LIBS=$OLD_LIBS
AC_CHECK_HEADERS([CoreServices/CoreServices.h],
[COREAUDIO_LIBS="$COREAUDIO_LIBS -framework CoreServices"]
)
if test x"$modules" = xdisabled; then
AC_MSG_WARN([Disabling buffer because of directly linked CoreAudio! Use the module if you need the buffer.])
buffer=disabled
fi
output_modules="$output_modules coreaudio"
HAVE_COREAUDIO="yes"
else
check_failed=yes
fi
;;
arts)
AC_MSG_CHECKING([for artsc])
if artsc-config > /dev/null 2>&1; then
AC_MSG_RESULT([yes])
output_modules="$output_modules arts"
HAVE_ARTS=yes
ARTS_LIBS=`artsc-config --libs`
ARTS_CFLAGS=`artsc-config --cflags`
else
AC_MSG_RESULT([no])
check_failed=yes
fi
;;
openal)
AC_CHECK_HEADERS([OpenAL/al.h OpenAL/alc.h AL/al.h AL/alc.h al.h alc.h])
if test "x${ac_cv_header_OpenAL_al_h}" = "xyes" \
-a "x${ac_cv_header_OpenAL_alc_h}" = "xyes";
then #Mac OS X
output_modules="$output_modules openal"
OPENAL_LIBS="-framework OpenAL"
OPENAL_CFLAGS="-DOPENAL_SUBDIR_OPENAL"
HAVE_OPENAL="yes"
elif test "x${ac_cv_header_AL_al_h}" = "xyes" \
-a "x${ac_cv_header_AL_alc_h}" = "xyes";
then #Linux
output_modules="$output_modules openal"
OPENAL_LIBS="-lopenal"
OPENAL_CFLAGS="-DOPENAL_SUBDIR_AL"
HAVE_OPENAL="yes"
elif test "x${ac_cv_header_al_h}" = "xyes" \
-a "x${ac_cv_header_alc_h}" = "xyes";
then #Windows?
output_modules="$output_modules openal"
OPENAL_LIBS="-lopenal"
OPENAL_CFLAGS=""
HAVE_OPENAL="yes"
else
check_failed=yes
fi
;;
os2)
OS2_LIBS="-lcx -lmmpm2"
OS2_CFLAGS="-idirafter /@unixroot/usr/include/os2tk45"
oldcflags="$CFLAGS"
CFLAGS="$CFLAGS $OS2_CFLAGS"
AC_CHECK_HEADERS([os2.h])
# os2me.h depends on os2.h
# Yes, that way of coding it is ugly.
if test "x${ac_cv_header_os2_h}" = xyes
then
# We mimick exactly the way how the header will be used.
# It seems to be picky...
AC_CHECK_HEADERS([os2me.h], [], [], [#define INCL_OS2MM
#undef VERSION
#define INCL_DOS
#define INCL_VIO
#define INCL_KBD
#include <os2.h>
#])
fi
if test "x${ac_cv_header_os2_h}" = xyes \
-a "x${ac_cv_header_os2me_h}" = xyes
then
output_modules="$output_modules os2"
HAVE_OS2=yes
else
check_failed=yes
fi
CFLAGS="$oldcflags"
;;
# from here on only forced tests, untested code
hp)
# What's the deal with that and alib?
UNSUPPORTED_AUDIO=yes
AC_CHECK_HEADER([sys/audio.h], [output_modules="$output_modules hp" HAVE_HP=yes], [check_failed=yes])
;;
alib)
UNSUPPORTED_AUDIO=yes
# ALIB_CFLAGS="-I/opt/audio/include"
ALIB_LIBS=-lAlib
# These headers may not be all about audio but they are used.
AC_CHECK_HEADERS([ Alib.h CUlib.h netdb.h netinet/in.h netinet/tcp.h])
if test "x${ac_cv_header_Alib_h}" = xyes \
-a "x${ac_cv_header_CUlib_h}" = xyes \
-a "x${ac_cv_header_netdb_h}" = xyes \
-a "x${ac_cv_header_netinet_in_h}" = xyes \
-a "x${ac_cv_header_netinet_tcp_h}" = xyes
then
output_modules="$output_modules alib"
HAVE_ALIB=yes
else
check_failed=yes
fi
;;
mint)
UNSUPPORTED_AUDIO=yes
AC_CHECK_HEADERS([audios.h], [output_modules="$output_modules mint" HAVE_MINT=yes], [check_failes=yes])
;;
aix)
UNSUPPORTED_AUDIO=yes
AC_CHECK_HEADERS([sys/audio.h], [output_modules="$output_modules aix" HAVE_AIX=yes], [check_failed=yes])
;;
sgi)
UNSUPPORTED_AUDIO=yes
SGI_LIBS=-laudio
AC_CHECK_HEADER([dmedia/audio.h], [output_modules="$output_modules sgi" HAVE_SGI=yes], [check_failed=yes])
;;
*)
AC_MSG_ERROR([Unsupported/-known output '$m' demanded!])
;;
esac
done
if test "x$check_forced" = xyes -a "x$UNSUPPORTED_AUDIO" = xyes; then
AC_MSG_WARN([You requested bulding of an unsupported audio module. Be prepared for happy hacking and please tell us about your experience!])
fi
if test "x$check_forced" = xyes -a "x$check_failed" = "xyes"; then
AC_MSG_ERROR([One/some of your requested audio modules failed the test!])
fi
# When you extend check_modules, you should extend this:
#for i in alsa qsa oss coreaudio sndio sun win32 win32_wasapi esd jack portaudio pulse sdl nas aix alib arts hp os2 sgi mint openal dummy
#do echo $i; done |
#perl -ne 'chomp; $big = uc($_); print <<EOT;
#AC_SUBST(${big}_LIBS)
#AC_SUBST(${big}_LDFLAGS)
#AC_SUBST(${big}_CFLAGS)
#AM_CONDITIONAL( [HAVE_$big], [test "x\$HAVE_$big" = xyes] )
#EOT
#'
AC_SUBST(TINYALSA_LIBS)
AC_SUBST(TINYALSA_LDFLAGS)
AC_SUBST(TINYALSA_CFLAGS)
AM_CONDITIONAL( [HAVE_TINYALSA], [test "x$HAVE_TINYALSA" = xyes] )
AC_SUBST(ALSA_LIBS)
AC_SUBST(ALSA_LDFLAGS)
AC_SUBST(ALSA_CFLAGS)
AM_CONDITIONAL( [HAVE_ALSA], [test "x$HAVE_ALSA" = xyes] )
AC_SUBST(QSA_LIBS)
AC_SUBST(QSA_LDFLAGS)
AC_SUBST(QSA_CFLAGS)
AM_CONDITIONAL( [HAVE_QSA], [test "x$HAVE_QSA" = xyes] )
AC_SUBST(OSS_LIBS)
AC_SUBST(OSS_LDFLAGS)
AC_SUBST(OSS_CFLAGS)
AM_CONDITIONAL( [HAVE_OSS], [test "x$HAVE_OSS" = xyes] )
AC_SUBST(COREAUDIO_LIBS)
AC_SUBST(COREAUDIO_LDFLAGS)
AC_SUBST(COREAUDIO_CFLAGS)
AM_CONDITIONAL( [HAVE_COREAUDIO], [test "x$HAVE_COREAUDIO" = xyes] )
AC_SUBST(SNDIO_LIBS)
AC_SUBST(SNDIO_LDFLAGS)
AC_SUBST(SNDIO_CFLAGS)
AM_CONDITIONAL( [HAVE_SNDIO], [test "x$HAVE_SNDIO" = xyes] )
AC_SUBST(SUN_LIBS)
AC_SUBST(SUN_LDFLAGS)
AC_SUBST(SUN_CFLAGS)
AM_CONDITIONAL( [HAVE_SUN], [test "x$HAVE_SUN" = xyes] )
AC_SUBST(WIN32_LIBS)
AC_SUBST(WIN32_LDFLAGS)
AC_SUBST(WIN32_CFLAGS)
AM_CONDITIONAL( [HAVE_WIN32], [test "x$HAVE_WIN32" = xyes] )
AC_SUBST(WIN32_WASAPI_LIBS)
AC_SUBST(WIN32_WASAPI_LDFLAGS)
AC_SUBST(WIN32_WASAPI_CFLAGS)
AM_CONDITIONAL( [HAVE_WIN32_WASAPI], [test "x$HAVE_WIN32_WASAPI" = xyes] )
AC_SUBST(ESD_LIBS)
AC_SUBST(ESD_LDFLAGS)
AC_SUBST(ESD_CFLAGS)
AM_CONDITIONAL( [HAVE_ESD], [test "x$HAVE_ESD" = xyes] )
AC_SUBST(JACK_LIBS)
AC_SUBST(JACK_LDFLAGS)
AC_SUBST(JACK_CFLAGS)
AM_CONDITIONAL( [HAVE_JACK], [test "x$HAVE_JACK" = xyes] )
AC_SUBST(PORTAUDIO_LIBS)
AC_SUBST(PORTAUDIO_LDFLAGS)
AC_SUBST(PORTAUDIO_CFLAGS)
AM_CONDITIONAL( [HAVE_PORTAUDIO], [test "x$HAVE_PORTAUDIO" = xyes] )
AC_SUBST(PULSE_LIBS)
AC_SUBST(PULSE_LDFLAGS)
AC_SUBST(PULSE_CFLAGS)
AM_CONDITIONAL( [HAVE_PULSE], [test "x$HAVE_PULSE" = xyes] )
AC_SUBST(SDL_LIBS)
AC_SUBST(SDL_LDFLAGS)
AC_SUBST(SDL_CFLAGS)
AM_CONDITIONAL( [HAVE_SDL], [test "x$HAVE_SDL" = xyes] )
AC_SUBST(NAS_LIBS)
AC_SUBST(NAS_LDFLAGS)
AC_SUBST(NAS_CFLAGS)
AM_CONDITIONAL( [HAVE_NAS], [test "x$HAVE_NAS" = xyes] )
AC_SUBST(AIX_LIBS)
AC_SUBST(AIX_LDFLAGS)
AC_SUBST(AIX_CFLAGS)
AM_CONDITIONAL( [HAVE_AIX], [test "x$HAVE_AIX" = xyes] )
AC_SUBST(ALIB_LIBS)
AC_SUBST(ALIB_LDFLAGS)
AC_SUBST(ALIB_CFLAGS)
AM_CONDITIONAL( [HAVE_ALIB], [test "x$HAVE_ALIB" = xyes] )
AC_SUBST(ARTS_LIBS)
AC_SUBST(ARTS_LDFLAGS)
AC_SUBST(ARTS_CFLAGS)
AM_CONDITIONAL( [HAVE_ARTS], [test "x$HAVE_ARTS" = xyes] )
AC_SUBST(HP_LIBS)
AC_SUBST(HP_LDFLAGS)
AC_SUBST(HP_CFLAGS)
AM_CONDITIONAL( [HAVE_HP], [test "x$HAVE_HP" = xyes] )
AC_SUBST(OS2_LIBS)
AC_SUBST(OS2_LDFLAGS)
AC_SUBST(OS2_CFLAGS)
AM_CONDITIONAL( [HAVE_OS2], [test "x$HAVE_OS2" = xyes] )
AC_SUBST(SGI_LIBS)
AC_SUBST(SGI_LDFLAGS)
AC_SUBST(SGI_CFLAGS)
AM_CONDITIONAL( [HAVE_SGI], [test "x$HAVE_SGI" = xyes] )
AC_SUBST(MINT_LIBS)
AC_SUBST(MINT_LDFLAGS)
AC_SUBST(MINT_CFLAGS)
AM_CONDITIONAL( [HAVE_MINT], [test "x$HAVE_MINT" = xyes] )
AC_SUBST(OPENAL_LIBS)
AC_SUBST(OPENAL_LDFLAGS)
AC_SUBST(OPENAL_CFLAGS)
AM_CONDITIONAL( [HAVE_OPENAL], [test "x$HAVE_OPENAL" = xyes] )
AC_SUBST(DUMMY_LIBS)
AC_SUBST(DUMMY_LDFLAGS)
AC_SUBST(DUMMY_CFLAGS)
AM_CONDITIONAL( [HAVE_DUMMY], [test "x$HAVE_DUMMY" = xyes] )
# Hackery to get rid of module .la files.
output_modules=`echo $output_modules`
AC_SUBST(output_modules)
for f in $output_modules
do
output_modules_la="$output_modules_la output_$f.la"
done
AC_SUBST(output_modules_la)
list_without()
{
lw_word=$1
lw_spc=
for w in "$@"
do
if test x"$w" != x"$lw_word"; then
printf '%s%s' "$lw_spc" "$w"
lw_spc=' '
fi
done
}
first_word()
{
echo $1
}
# Did user choose default audio subsystem ?
# That's (beginning of) the list for mpg123's internal default.
if test "x$with_default_audio" != "x"; then
default_output_modules=`echo "$with_default_audio" | tr , ' '`
else
default_output_modules=`list_without dummy $output_modules`
fi
default_output_module=`first_word $default_output_modules`
# Without actual modules, there is only the builtin one.
if test x"$modules" = xdisabled; then
# Module-less build needs _some_ default module.
if test -z "$default_output_module"; then
default_output_module=dummy
fi
default_output_modules=$default_output_module
fi
# Setup the static build.
# The conditionals always need to be defined by configure, even if
# HAVE_MODULES is FALSE!
# Here's a script for that tedious list, perhaps to be outsourced together with the one in #src/output/Makefile.am
#for i in dummy tinyalsa alsa qsa coreaudio esd jack nas oss portaudio pulse sdl sndio sun win32 win32_wasapi aix alib arts hp os2 sgi mint openal
#do echo $i; done |
#perl -ne 'chomp; $big = uc($_); print <<EOT;
#AM_CONDITIONAL([BUILD_${big}], [ test "$_" = "\$default_output_module" ])
#EOT
#'
AM_CONDITIONAL([BUILD_DUMMY], [ test "dummy" = "$default_output_module" ])
AM_CONDITIONAL([BUILD_TINYALSA], [ test "tinyalsa" = "$default_output_module" ])
AM_CONDITIONAL([BUILD_ALSA], [ test "alsa" = "$default_output_module" ])
AM_CONDITIONAL([BUILD_QSA], [ test "qsa" = "$default_output_module" ])
AM_CONDITIONAL([BUILD_COREAUDIO], [ test "coreaudio" = "$default_output_module" ])
AM_CONDITIONAL([BUILD_ESD], [ test "esd" = "$default_output_module" ])
AM_CONDITIONAL([BUILD_JACK], [ test "jack" = "$default_output_module" ])
AM_CONDITIONAL([BUILD_NAS], [ test "nas" = "$default_output_module" ])
AM_CONDITIONAL([BUILD_OSS], [ test "oss" = "$default_output_module" ])
AM_CONDITIONAL([BUILD_PORTAUDIO], [ test "portaudio" = "$default_output_module" ])
AM_CONDITIONAL([BUILD_PULSE], [ test "pulse" = "$default_output_module" ])
AM_CONDITIONAL([BUILD_SDL], [ test "sdl" = "$default_output_module" ])
AM_CONDITIONAL([BUILD_SNDIO], [ test "sndio" = "$default_output_module" ])
AM_CONDITIONAL([BUILD_SUN], [ test "sun" = "$default_output_module" ])
AM_CONDITIONAL([BUILD_WIN32], [ test "win32" = "$default_output_module" ])
AM_CONDITIONAL([BUILD_WIN32_WASAPI], [ test "win32_wasapi" = "$default_output_module" ])
AM_CONDITIONAL([BUILD_AIX], [ test "aix" = "$default_output_module" ])
AM_CONDITIONAL([BUILD_ALIB], [ test "alib" = "$default_output_module" ])
AM_CONDITIONAL([BUILD_ARTS], [ test "arts" = "$default_output_module" ])
AM_CONDITIONAL([BUILD_HP], [ test "hp" = "$default_output_module" ])
AM_CONDITIONAL([BUILD_OS2], [ test "os2" = "$default_output_module" ])
AM_CONDITIONAL([BUILD_SGI], [ test "sgi" = "$default_output_module" ])
AM_CONDITIONAL([BUILD_MINT], [ test "mint" = "$default_output_module" ])
AM_CONDITIONAL([BUILD_OPENAL], [ test "openal" = "$default_output_module" ])
default_modstring=`echo "$default_output_modules"|tr ' ' ,`
AC_DEFINE_UNQUOTED( DEFAULT_OUTPUT_MODULE, "$default_modstring", [The default audio output module(s) to use] )
dnl ############## Compiler Optimizations
CFLAGS="$ADD_CFLAGS $CFLAGS"
AM_CONDITIONAL([BUILD_BUFFER], [ test x"$buffer" = xenabled ])
if test x"$buffer" = xdisabled; then
ADD_CPPFLAGS="$ADD_CPPFLAGS -DNOXFERMEM"
fi
if test x"$newoldwritesample" = xenabled; then
ADD_CPPFLAGS="$ADD_CPPFLAGS -DNEWOLD_WRITE_SAMPLE"
fi
CPPFLAGS="$ADD_CPPFLAGS $CPPFLAGS"
LDFLAGS="$ADD_LDFLAGS $LDFLAGS"
# None chosen?
if test "x$with_optimization" = "x"; then
if test x"$debugging" = xenabled; then
with_optimization="0"
else
# enable (gcc specific) default opts only with gcc
if test "x$GCC" = xyes; then
with_optimization="2"
else
with_optimization="0"
fi
fi
fi
case $with_optimization in
0)
# No Optimizations
CFLAGS="$CFLAGS"
;;
1)
CFLAGS="-O $CFLAGS"
;;
2)
CFLAGS="-O2 -fomit-frame-pointer -funroll-all-loops -finline-functions -ffast-math $CFLAGS"
;;
3)
CFLAGS="-O3 -fomit-frame-pointer -funroll-all-loops -finline-functions -ffast-math $CFLAGS"
;;
4)
CFLAGS="-O4 -fomit-frame-pointer -funroll-all-loops -finline-functions -ffast-math $CFLAGS"
;;
*)
AC_MSG_ERROR([Unknown optimizations level '$with_optimization'])
;;
esac
dnl If using gcc, prevent a bad alignment option from breaking things.
dnl Let's default to safe 16-byte alignment for any special x86 or altivec stuff.
if test "x$GCC" = xyes && echo "$CFLAGS" | $GREP 'mpreferred-stack-boundary=' > /dev/null; then
case $cpu_type in
x86 | i586* | mmx | sse | 3dnow* | altivec)
AC_MSG_WARN( [ You are trying to mess with stack alignment. I know better. ] )
CFLAGS="$CFLAGS -mpreferred-stack-boundary=4"
;;
esac
fi
dnl ############## Seektable size
if test "x$with_seektable" = "x"; then
seektable=1000
else
seektable=$with_seektable
fi
if test "$seektable" -gt 0; then
AC_DEFINE(FRAME_INDEX, 1, [ Define if frame index should be used. ])
fi
# Define that always... also without frame index enabled.
AC_DEFINE_UNQUOTED(INDEX_SIZE, $seektable, [size of the frame index seek table])
dnl ############## Win32 function checks
# Check if we want Unicode for Win32. Cygwin and Midipix does not need _wopen
COMPAT_LIBS=
win32_unicode=unneeded
win32_sockets=disabled
win32_sockets_working=no
win32_wide_working=no
win32_winver_bump=no
### mingw.org may not work properly for newer APIs
case $host_os in
*mingw*)
AC_CHECK_HEADER([_mingw_mac.h], [], [
AC_MSG_WARN(You are using the mingw.org distribution)
AC_MSG_WARN(mpg123 may not build properly)
AC_MSG_WARN(Please switch to using mingw-w64 if possible)
])
;;
esac
dnl We do not support non-unicode Windows.
if test "x$win32_specific_codes" = xenabled; then
#### Check for Wide functions
AC_CHECK_FUNC([_wopen], [win32_unicode=enabled],[win32_unicode=disabled])
if test "x$uwp_build" = xyes; then
AC_DEFINE([WANT_WIN32_UNICODE], [1], [ Define to use Unicode for Windows ])
else
AC_MSG_CHECKING([if we want Unicode File Open for Win32])
if test "x$win32_unicode" = xenabled; then
dnl We need to include the header for PathCombineW checking as
dnl the actual symbol has a very funny name.
oldlibs=$LIBS
LIBS="$LIBS -lshlwapi"
AC_MSG_RESULT([yes])
AC_MSG_CHECKING([if Unicode functions working])
AC_LINK_IFELSE([AC_LANG_SOURCE([
#include <windows.h>
#include <shlwapi.h>
#include <stdlib.h>
int main()
{
MultiByteToWideChar (0, 0, NULL, 0, NULL, 0);
WideCharToMultiByte (0, 0, NULL, 0, NULL, 0, NULL, NULL);
PathCombineW(0,0,0);
return 0;
}
])], [win32_wide_working=yes], [win32_winver_bump=yes])
if test "x$win32_wide_working" = xno; then
AC_LINK_IFELSE([AC_LANG_SOURCE([
#define WINVER 0x501
#define _WIN32_WINNT 0x501
#include <windows.h>
#include <shlwapi.h>
#include <stdlib.h>
int main()
{
MultiByteToWideChar (0, 0, NULL, 0, NULL, 0);
WideCharToMultiByte (0, 0, NULL, 0, NULL, 0, NULL, NULL);
PathCombineW(0,0,0);
return 0;
}
])], [win32_wide_working=yes], [AC_MSG_RESULT([no])])
fi
LIBS=$oldlibs
if test "x$win32_wide_working" = xyes; then
COMPAT_LIBS="-lshlwapi $COMPAT_LIBS"
AC_MSG_RESULT([yes])
AC_DEFINE([WANT_WIN32_UNICODE], [1], [ Define to use Unicode for Windows ])
else
AC_MSG_ERROR([Unicode support for Win32 not working])
fi
else
AC_MSG_ERROR([Unicode File Open for Win32 not available])
fi
fi
#### Check for Network functions
AC_CHECK_HEADERS([ws2tcpip.h], [win32_sockets=enabled], [AC_MSG_WARN([Please update your headers to support winsock 2.2.])])
AC_MSG_CHECKING([if we want Win32 sockets])
if test "x$win32_sockets" = "xenabled"; then
AC_MSG_RESULT([yes])
AC_MSG_CHECKING([if winsock2 API is available])
wsoldlibs="$LIBS"
LIBS="$LIBS -lws2_32"
AC_LINK_IFELSE([AC_LANG_SOURCE([
#include <winsock2.h>
#include <ws2tcpip.h>
#include <stdlib.h>
int main()
{
getaddrinfo(NULL, NULL, NULL, NULL);
freeaddrinfo(NULL);
return 0;
}
])], [win32_sockets_working=yes], [win32_winver_bump=yes])
if test "x$win32_sockets_working" = "xno"; then
AC_MSG_CHECKING([deeper if winsock2 API is available])
AC_LINK_IFELSE([AC_LANG_SOURCE([
#define WINVER 0x501
#define _WIN32_WINNT 0x501
#include <winsock2.h>
#include <ws2tcpip.h>
#include <stdlib.h>
int main()
{
getaddrinfo(NULL, NULL, NULL, NULL);
freeaddrinfo(NULL);
return 0;
}
])], [win32_sockets_working=yes], [AC_MSG_RESULT([no])])
fi
if test "x$win32_sockets_working" = "xyes"; then
AC_MSG_RESULT([yes])
network_internal=winsock2
have_network=yes
have_ipv6=yes
else
AC_MSG_WARN([Please update your headers to support winsock 2.2.])
fi
LIBS="$wsoldlibs"
else
AC_MSG_RESULT([no])
fi
#### Check for Win32 Named Pipe functions
win32_fifo_working=no
winver=""
if test x$win32_specific_codes = xenabled; then
AC_MSG_CHECKING([if we have Named Pipes])
if test "x$fifo" != "xdisabled"; then
AC_LINK_IFELSE([AC_LANG_SOURCE([
#include <windows.h>
int main(){
CreateNamedPipeA(NULL,PIPE_ACCESS_DUPLEX|FILE_FLAG_OVERLAPPED,PIPE_TYPE_BYTE,1,255,255,0,NULL);
CreateNamedPipeW(NULL,PIPE_ACCESS_DUPLEX|FILE_FLAG_OVERLAPPED,PIPE_TYPE_BYTE,1,255,255,0,NULL);
return 0;
}])],[win32_fifo_working=yes],[win32_winver_bump=yes])
if test "x$win32_fifo_working" != "xyes"; then
AC_LINK_IFELSE([AC_LANG_SOURCE([
#define WINVER 0x501
#define _WIN32_WINNT 0x501
#include <windows.h>
int main(){
CreateNamedPipeA(NULL,PIPE_ACCESS_DUPLEX|FILE_FLAG_OVERLAPPED,PIPE_TYPE_BYTE,1,255,255,0,NULL);
CreateNamedPipeW(NULL,PIPE_ACCESS_DUPLEX|FILE_FLAG_OVERLAPPED,PIPE_TYPE_BYTE,1,255,255,0,NULL);
return 0;
}])],[win32_fifo_working=yes],[win32_fifo_working=no])
fi
fi
have_mkfifo=$win32_fifo_working
if test "x$win32_fifo_working" = "xyes"; then
AC_MSG_RESULT([yes])
AC_DEFINE([WANT_WIN32_FIFO], [1], [ Define to use Win32 named pipes ])
else
AC_MSG_RESULT([no])
fi
fi
#### WINVER Bump
if test x$win32_specific_codes = xenabled; then
AC_MSG_CHECKING([if WINVER and _WIN32_WINNT needs version bumps])
if test "x$win32_winver_bump" = "xyes"; then
AC_MSG_RESULT([yes])
AC_DEFINE([WINVER], [0x0600], [ Windows Vista and later APIs ])
AC_DEFINE([_WIN32_WINNT], [0x0600], [ Windows Vista and later APIs ])
# getaddrinfo and freeaddrinfo are available for Win2K and above
# Bug: MinGW.org w32api ws2tcpip.h incorrectly wants (_WIN32_WINNT >= 0x0501) for getaddrinfo and freeaddrinfo
# MultiByteToWideChar and WideCharToMultiByte are available for Win2K and above
# GetThreadErrorMode only available on Vista and Later
else
AC_MSG_RESULT([no])
fi
fi
fi #END OF WIN32 CHECKS
#### Check mingw.org for EOVERFLOW
AC_MSG_CHECKING([if we have EOVERFLOW macro])
AC_COMPILE_IFELSE([AC_LANG_SOURCE([
#include <errno.h>
int i = (EOVERFLOW) + 0;
])],[eoverflow_present=yes],[eoverflow_present=no])
AC_MSG_RESULT([$eoverflow_present])
AS_IF([test "x$eoverflow_present" = "xyes"],[],[AC_DEFINE([EOVERFLOW],[EFBIG],[Use EFBIG as substitude for EOVERFLOW, mingw.org may lack the latter])])
# old network choice
AC_ARG_ENABLE(ipv6,
[AS_HELP_STRING( [--enable-ipv6], [IPv6 support in internal network stack])],
[
if test "x$enableval" = xyes
then
ipv6="enabled"
else
ipv6="disabled"
fi
],
[
ipv6="auto"
]
)
dnl make it clear that auto is the default for both enable and with options.
network_type=auto
dnl This is to be kept in sync with --with-network, it is a shortcut that
dnl keep the old semantics of being able to --disable-network support altogether.
dnl The default should match the --with-network default.
AC_ARG_ENABLE(network,
[AS_HELP_STRING( [--enable-network], [network support (http streams / webradio), if available (overruled by --with-network!)])],
[
if test "x$enableval" = xyes
then
network_type=auto
else
network_type=disabled
fi
],
[
]
)
# new network choice
AC_MSG_CHECKING([for preferred network support])
AC_ARG_WITH([network],
[AS_HELP_STRING([--with-network=<type>],
[Available options, depending on platform, are auto, none, internal, winhttp, wininet (or wininethttp for both), and exec (wget or curl binaries).
The internal code is always built in addition to external options for plain HTTP (esp. Shoutcast v1) support.
The external option is for HTTPS by default, but can be used for HTTP, too.])],
[
case "$withval" in
exec)
network_type="exec"
AC_MSG_RESULT([exec])
;;
winhttp)
network_type="winhttp"
AC_MSG_RESULT([winhttp])
;;
wininet)
network_type="wininet"
AC_MSG_RESULT([wininet])
;;
wininethttp)
network_type="wininethttp"
AC_MSG_RESULT([wininethttp])
;;
internal)
network_type="internal"
AC_MSG_RESULT([internal])
;;
yes|auto)
network_type="auto"
AC_MSG_RESULT([auto])
;;
no|none)
network_type="disabled"
AC_MSG_RESULT([none])
;;
*)
AC_MSG_ERROR([Unknown network option "$withval"])
;;
esac
],
[
AC_MSG_RESULT([$network_type])
]
)
if test x$network_type = xauto; then
AC_MSG_CHECKING([for automatic network support])
if test "x$have_fork" = "xyes"; then
network_type=exec
elif test "x$win32_specific_codes" = "xenabled"; then
network_type=wininethttp
elif test "x$have_network" = "xyes"; then
network_type="internal"
else
network_type="disabled"
fi
AC_MSG_RESULT([$network_type])
fi
# new net123
if test x$network_type != xdisabled; then
AC_DEFINE([NET123], [1], [ Define to for new net123 network stack. ])
fi
if test x$network_type = xexec -a x$have_fork != xyes; then
AC_MSG_ERROR([exec network support selected but fork not available])
fi
if test x$network_type = xwininet -o x$network_type = xwinhttp -o x$network_type = xwininethttp && test x$win32_specific_codes != xenabled; then
AC_MSG_ERROR([wininet or winhttp is currently only for Windows])
fi
#### Use Win32 support codes
AM_CONDITIONAL([WIN32_CODES], [ test "x$win32_specific_codes" = xenabled ])
if test x"$ipv6" = xauto; then
AC_MSG_CHECKING([IPv6 use])
if test x"$have_ipv6" = xyes -a x"$network_type" != xdisabled; then
ipv6=enabled
else
ipv6=disabled
fi
AC_MSG_RESULT([$ipv6])
fi
if test x$network_type != xdisabled -a x$network_internal = xwinsock2; then
AC_DEFINE([WANT_WIN32_SOCKETS], [1], [ Define to use Win32 sockets ])
fi
AM_CONDITIONAL([NETWORK_WINSOCK], [ test x$network_type != xdisabled -a x$network_internal = xwinsock2 ])
AM_CONDITIONAL([NET123], [ test x$network_type != xdisabled ])
AM_CONDITIONAL([NET123_EXEC], [ test x$network_type = xexec ])
AM_CONDITIONAL([NET123_WINHTTP], [ test x$network_type = xwinhttp || test x$network_type = xwininethttp ])
AM_CONDITIONAL([NET123_WININET], [ test x$network_type = xwininet || test x$network_type = xwininethttp ])
case "$network_type" in
exec)
AC_DEFINE(NET123_EXEC, 1, [ Define for executable-based networking (for HTTPS). ])
;;
winhttp)
AC_DEFINE(NET123_WINHTTP, 1, [ Define for winhttp networking (for HTTPS). ])
;;
wininet)
AC_DEFINE(NET123_WININET, 1, [ Define for wininet networking (for HTTPS). ])
;;
wininethttp)
AC_DEFINE(NET123_WININET, 1, [ Define for wininet networking (for HTTPS). ])
AC_DEFINE(NET123_WINHTTP, 1, [ Define for winhttp networking (for HTTPS). ])
;;
esac
dnl ############## Terminal choice
AM_CONDITIONAL( [TERM_POSIX], [test "x$term_type" = xposix] )
AM_CONDITIONAL( [TERM_NONE], [test "x$term_type" = xnone] )
AM_CONDITIONAL( [TERM_WIN32], [test "x$term_type" = xwin32] )
dnl ############## FIFO enable
if test x"$fifo" = xauto; then
if test x"$have_mkfifo" = xyes; then
fifo=enabled
else
fifo=disabled
fi
fi
if test x"$fifo" = xenabled; then
AC_DEFINE(FIFO, 1, [ Define if FIFO support is enabled. ])
if test x"$have_mkfifo" = xno; then
AC_MSG_WARN( [ You forced FIFO code while I think there is no mkfifo() available! ] )
fi
fi
dnl ############## Network enable
if test x"$network_type" != xdisabled; then
AC_DEFINE(NETWORK, 1, [ Define if network support is enabled. ])
if test x"$have_network" = xno; then
AC_MSG_WARN( [ You forced network code while I think there is support missing! ] )
fi
fi
if test x"$ipv6" = xenabled; then
AC_DEFINE(IPV6, 1, [ Define if IPV6 support is enabled. ])
if test x"$have_ipv6" = xno; then
AC_MSG_WARN( [ You forced IPv6 code while I think there is no getaddrinfo() available! ] )
fi
fi
dnl ############## Library cleanup
PROG_LIBS=$LIBS
LIBS=
LIBMPG123_LIBS="$LIBM $COMPAT_LIBS"
LIBSYN123_LIBS=$LIBM
LIBOUT123_LIBS="$LIBRT $LIBM $COMPAT_LIBS"
AC_SUBST(PROG_LIBS)
AC_SUBST(LIBM)
AC_SUBST(LIBMPG123_LIBS)
AC_SUBST(LIBSYN123_LIBS)
AC_SUBST(LIBOUT123_LIBS)
dnl ############## Final Output
AC_CONFIG_FILES([
Makefile
libmpg123.pc
libout123.pc
libsyn123.pc
mpg123.spec
])
AC_OUTPUT
dnl ############## Display Message
default_offset_bits=`expr "$ac_cv_sizeof_off_t" "*" "8"`
echo "
$PACKAGE_NAME $PACKAGE_VERSION
Install path ............ $prefix
Components .............. $components
CPU Optimization ........ $cpu_type
Compiler Optimization ... $with_optimization"
if test x"$use_yasm_for_avx" = xyes; then
echo " Use yasm (for AVX only) . enabled"
else
echo " Use yasm (for AVX only) . disabled"
fi
echo " Gapless Support ......... $gapless
Debugging ............... $debugging
Terminal control ........ $term_type
Extreme debugging ....... $xdebugging
Seek table size ......... $seektable
FIFO support ............ $fifo
Buffer .................. $buffer"
if test x$network_type != xdisabled; then
if test x$network_type != xinternal; then
echo " External network ........ $network_type"
fi
echo " Internal network type ... $network_internal
IPv6 (getaddrinfo) ...... $ipv6"
fi
echo " largefile sensitive ..... $lfs_sensitive"
echo " default offsets ......... $default_offset_bits"
echo " explicit 64 bit offsets . $use_largefile"
echo " forced 64 bit offsets ... $forced_off_64"
echo " only portable API ....... $portable_api"
if test "x$forced_off_64" = xyes; then
echo
echo "Note: Ensure that client programs are built with _FILE_OFFSET_BITS defined to 64, too."
echo " Old binaries built for 32 bit off_t may fail missing symbols in mpg123 libraries."
echo
fi
echo "
Core libmpg123 features:
Layer I ................. $layer1
Layer II ................ $layer2
Layer III ............... $layer3
NtoM resampling ......... $ntom
downsampled decoding .... $downsample
Feeder/buffered input ... $feeder
ID3v2 parsing ........... $id3v2
String API .............. $string
ICY parsing/conversion .. $icy
Error/warning messages .. $messages
Win32 Unicode File Open.. $win32_unicode
Feature Report Function.. $feature_report
Output formats (nofpu will disable all but 16 or 8 bit!):
8 bit integer ........... $int8
16 bit integer .......... $int16
32/24 bit integer ....... $int32
real (32 bit float) ..... $real
Equalizer ............... $equalizer
Optimization detail:
Integer conversion ...... $integers
IEEE 754 hackery ........ $ieee
New/old WRITE_SAMPLE .... $newoldwritesample
new Huffman scheme ...... $newhuff
runtime tables .......... $runtimetables
Note: Disabling core features is not commonly done and some combinations might
not build/work. If you encounter such a case, help yourself (and provide
a patch) or just poke the maintainers."
echo
echo " libsyn123 special cases . $specialcases"
echo
echo " Modules ................. $modules"
echo " Checked audio modules ... $check_modules"
echo " Detected audio support .. $output_modules"
echo " Runtime order ........... $default_output_modules"
if test x"$modules" = xdisabled; then
echo
echo "The _single_ active output module $default_output_module is being statically linked in."
fi
if test x"$with_optimization" = x0; then
echo
echo "No optimization flags chosen, ensure something basic in your CFLAGS at least..."
fi
if test x"$cpu_type" = xi486; then
echo
echo "WARNING: You selected the i486 decoder. This is not recommened for regular use."
echo "It was designed for actual i486 CPUs a long time ago. Generic C code is likely"
echo "to perform better nowadays. Also, the decoder misses features like volume"
echo "scaling and has clipping issues. Continue if you are into software archeology"
echo "only."
fi
if test "x$use_extlib" = xyes; then
echo
echo "Warning: You opted to use external builds of the mpg123 libraries. They need to"
echo " match the headers shipped with this source (which are used during build"
echo " regardless)."
echo
fi
echo
echo " CPPFLAGS='$CPPFLAGS'"
echo " CFLAGS='$CFLAGS'"
echo " PROG_LIBS='$PROG_LIBS'"
echo " (derived from LIBS, only used for end-user binaries and modules)"
echo " LIBDL='$LIBDL'"
echo " LIBMPG123_LIBS='$LIBMPG123_LIBS'"
echo " LIBSYN123_LIBS='$LIBSYN123_LIBS'"
echo " LIBOUT123_LIBS='$LIBOUT123_LIBS'"
echo
echo "Next type 'make' and then 'make install'."