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#! /bin/sh
#
# Original version (C) 2000 Pontscho/fresh!mindworkz
# pontscho@makacs.poliod.hu
#
# History / Contributors: Check the Subversion log.
#
# Cleanups all over the place (c) 2001 pl
#
#
# This configure script is *not* autoconf-based and has different semantics.
# It attempts to autodetect all settings and options where possible. It is
# possible to override autodetection with the --enable-option/--disable-option
# command line parameters. --enable-option forces the option on skipping
# autodetection. Yes, this means that compilation may fail and yes, this is not
# how autoconf-based configure scripts behave.
#
# configure generates a series of configuration files:
# - config.h contains #defines that are used in the C code.
# - config.mak is included from the Makefiles.
#
# If you want to add a new check for $feature, look at the existing checks
# and try to use helper functions where you can.
#
# Furthermore you need to add the variable _feature to the list of default
# settings and set it to one of yes/no/auto. Also add appropriate
# --enable-feature/--disable-feature command line options.
# The results of the check should be written to config.h and config.mak
# at the end of this script. The variable names used for this should be
# uniform, i.e. if the option is named 'feature':
#
# _feature : should have a value of yes/no/auto
# def_feature : '#define ... 1' or '#undef ...' for conditional compilation
# _ld_feature : '-L/path/dir -lfeature' GCC options
#
#############################################################################
# Prevent locale nonsense from breaking basic text processing utils
export LC_ALL=C
# Store the configure line that was used
configuration="$*"
# Prefer these macros to full length text !
# These macros only return an error code - NO display is done
2012-08-16 11:08:38 +02:00
command_check() {
echo >> "$TMPLOG"
echo "$@" >> "$TMPLOG"
"$@" >> "$TMPLOG" 2>&1
TMPRES="$?"
echo >> "$TMPLOG"
return "$TMPRES"
}
compile_check() {
source="$1"
shift
echo >> "$TMPLOG"
cat "$source" >> "$TMPLOG"
echo >> "$TMPLOG"
echo "$_cc $WARNFLAGS $WARN_CFLAGS $CFLAGS $source $extra_cflags $_ld_static $extra_ldflags $libs_mplayer -o $TMPEXE $@" >> "$TMPLOG"
rm -f "$TMPEXE"
$_cc $WARNFLAGS $WARN_CFLAGS $CFLAGS "$source" $extra_cflags $_ld_static $extra_ldflags $libs_mplayer -o "$TMPEXE" "$@" >> "$TMPLOG" 2>&1
TMPRES="$?"
echo >> "$TMPLOG"
echo >> "$TMPLOG"
return "$TMPRES"
}
cc_check() {
compile_check $TMPC $@
}
cxx_check() {
compile_check $TMPCPP $@ -lstdc++
}
cflag_check() {
cat > $TMPC << EOF
int main(void) { return 0; }
EOF
compile_check $TMPC $@
}
header_check() {
cat > $TMPC << EOF
#include <$1>
int main(void) { return 0; }
EOF
shift
compile_check $TMPC $@
}
return_check() {
cat > $TMPC << EOF
#include <$1>
int main(void) { return $2; }
EOF
shift 2
compile_check $TMPC $@
}
statement_check() {
cat > $TMPC << EOF
#include <$1>
int main(void) { $2; return 0; }
EOF
shift
shift
compile_check $TMPC $@
}
define_statement_check() {
cat > $TMPC << EOF
#define $1
#include <$2>
int main(void) { $3; return 0; }
EOF
shift 3
compile_check $TMPC $@
}
return_statement_check() {
cat > $TMPC << EOF
#include <$1>
int main(void) { $2; return $3; }
EOF
shift 3
compile_check $TMPC $@
}
inline_asm_check() {
cat > $TMPC << EOF
int main(void) { __asm__ volatile ($1); return 0; }
EOF
shift
compile_check $TMPC $@
}
# The following checks are special and should only be used with broken and
# non-selfsufficient headers that do not include all of their dependencies.
header_check_broken() {
cat > $TMPC << EOF
#include <$1>
#include <$2>
int main(void) { return 0; }
EOF
shift
shift
compile_check $TMPC $@
}
statement_check_broken() {
cat > $TMPC << EOF
#include <$1>
#include <$2>
int main(void) { $3; return 0; }
EOF
shift 3
compile_check $TMPC $@
}
pkg_config_add() {
unset IFS # shell should not be used for programming
echo >> "$TMPLOG"
echo "$_pkg_config --cflags $@" >> "$TMPLOG"
ctmp=$($_pkg_config --cflags "$@" 2>> "$TMPLOG") || return $?
echo >> "$TMPLOG"
echo "$_pkg_config --libs $@" >> "$TMPLOG"
ltmp=$($_pkg_config --libs "$@" 2>> "$TMPLOG") || return $?
echo >> "$TMPLOG"
echo "cflags: $ctmp" >> "$TMPLOG"
echo "libs: $ltmp" >> "$TMPLOG"
echo >> "$TMPLOG"
extra_cflags="$extra_cflags $ctmp"
libs_mplayer="$libs_mplayer $ltmp"
}
tmp_run() {
"$TMPEXE" >> "$TMPLOG" 2>&1
}
# Display error message, flushes tempfile, exit
die () {
echo
echo "Error: $@" >&2
echo >&2
rm -f "$TMPEXE" "$TMPC" "$TMPS" "$TMPCPP"
echo "Check \"$TMPLOG\" if you do not understand why it failed."
exit 1
}
# OS test booleans functions
issystem() {
test "$(echo $system_name | tr A-Z a-z)" = "$(echo $1 | tr A-Z a-z)"
}
cygwin() { issystem "CYGWIN"; }
darwin() { issystem "Darwin"; }
dragonfly() { issystem "DragonFly"; }
freebsd() { issystem "FreeBSD" || issystem "GNU/kFreeBSD"; }
gnu() { issystem "GNU"; }
linux() { issystem "Linux"; }
mingw32() { issystem "MINGW32"; }
morphos() { issystem "MorphOS"; }
netbsd() { issystem "NetBSD"; }
openbsd() { issystem "OpenBSD"; }
win32() { cygwin || mingw32; }
# arch test boolean functions
x86_32() {
case "$host_arch" in
Remove compile time/runtime CPU detection, and drop some platforms mplayer had three ways of enabling CPU specific assembler routines: a) Enable them at compile time; crash if the CPU can't handle it. b) Enable them at compile time, but let the configure script detect your CPU. Your binary will only crash if you try to run it on a different system that has less features than yours. This was the default, I think. c) Runtime detection. The implementation of b) and c) suck. a) is not really feasible (it sucks for users). Remove all code related to this, and use libav's CPU detection instead. Now the configure script will always enable CPU specific features, and disable them at runtime if libav reports them not as available. One implication is that now the compiler is always expected to handle SSE (etc.) inline assembly at runtime, unless it's explicitly disabled. Only checks for x86 CPU specific features are kept, the rest is either unused or barely used. Get rid of all the dump -mpcu, -march etc. flags. Trust the compiler to select decent settings. Get rid of support for the following operating systems: - BSD/OS (some ancient BSD fork) - QNX (don't care) - BeOS (dead, Haiku support is still welcome) - AIX (don't care) - HP-UX (don't care) - OS/2 (dead, actual support has been removed a while ago) Remove the configure code for detecting the endianness. Instead, use the standard header <endian.h>, which can be used if _GNU_SOURCE or _BSD_SOURCE is defined. (Maybe these changes should have been in a separate commit.) Since this is a quite violent code removal orgy, and I'm testing only on x86 32 bit Linux, expect regressions.
2012-07-29 17:20:57 +02:00
i[3-9]86|k5|k6|k6-2|k6-3|pentium*|athlon*|i586-i686) return 0 ;;
*) return 1 ;;
esac
}
x86_64() {
case "$host_arch" in
x86_64|amd64) return 0 ;;
*) return 1 ;;
esac
}
x86() {
x86_32 || x86_64
}
ppc() {
case "$host_arch" in
ppc|ppc64|powerpc|powerpc64) return 0;;
*) return 1;;
esac
}
alpha() {
case "$host_arch" in
alpha*) return 0;;
*) return 1;;
esac
}
arm() {
case "$host_arch" in
arm*) return 0;;
*) return 1;;
esac
}
# Use this before starting a check
echocheck() {
echo "============ Checking for $@ ============" >> "$TMPLOG"
echo ${_echo_n} "Checking for $@ ... ${_echo_c}"
}
# Use this to echo the results of a check
echores() {
if test "$res_comment" ; then
res_comment="($res_comment)"
fi
echo "Result is: $@ $res_comment" >> "$TMPLOG"
echo "##########################################" >> "$TMPLOG"
echo "" >> "$TMPLOG"
echo "$@ $res_comment"
res_comment=""
}
#############################################################################
# Check how echo works in this /bin/sh
case $(echo -n) in
-n) _echo_n= _echo_c='\c' ;; # SysV echo
*) _echo_n='-n ' _echo_c= ;; # BSD echo
esac
show_help(){
cat << EOF
Usage: $0 [OPTIONS]...
Configuration:
-h, --help display this help and exit
Installation directories:
--prefix=DIR prefix directory for installation [/usr/local]
--bindir=DIR directory for installing binaries [PREFIX/bin]
--datadir=DIR directory for installing machine independent
data files (skins, etc) [PREFIX/share/mpv]
--mandir=DIR directory for installing man pages [PREFIX/share/man]
--docdir=DIR directory for installing docs [PREFIX/share/doc/mpv]
--confdir=DIR directory for installing configuration files
[PREFIX/etc/mpv]
Optional features:
--disable-encoding disable encoding functionality [enable]
--disable-lua disable Lua scripting support [autodetect]
--lua=LUA select Lua package which should be autodetected
Choices: 51 51deb 52 52deb luajit
--disable-libguess disable libguess [autodetect]
--enable-terminfo use terminfo database for key codes [autodetect]
--enable-termcap use termcap database for key codes [autodetect]
--enable-termios use termios database for key codes [autodetect]
--disable-iconv disable iconv for encoding conversion [autodetect]
--enable-lirc enable LIRC (remote control) support [autodetect]
--enable-joystick enable joystick support [disable]
--disable-vm disable X video mode extensions [autodetect]
--disable-xf86keysym disable support for multimedia keys [autodetect]
--enable-radio enable radio interface [disable]
--enable-radio-capture enable radio capture (through PCI/line-in) [disable]
--disable-radio-v4l2 disable Video4Linux2 radio interface [autodetect]
--disable-tv disable TV interface (TV/DVB grabbers) [enable]
--disable-tv-v4l2 disable Video4Linux2 TV interface [autodetect]
--disable-libv4l2 disable libv4l2 [autodetect]
--disable-pvr disable Video4Linux2 MPEG PVR [autodetect]
--enable-smb enable Samba (SMB) input [autodetect]
--disable-libquvi4 disable libquvi 0.4.x [autodetect]
--disable-libquvi9 disable libquvi 0.9.x [autodetect]
--enable-lcms2 enable LCMS2 support [autodetect]
--disable-vcd disable VCD support [autodetect]
--disable-bluray disable Blu-ray support [autodetect]
--disable-dvdread disable libdvdread [autodetect]
--disable-dvdnav disable libdvdnav [autodetect]
--disable-enca disable ENCA charset oracle library [autodetect]
--disable-pthreads disable Posix threads support [autodetect]
--disable-libass disable subtitle rendering with libass [autodetect]
osd: use libass for OSD rendering The OSD will now be rendered with libass. The old rendering code, which used freetype/fontconfig and did text layout manually, is disabled. To re-enable the old code, use the --disable-libass-osd configure switch. Some switches do nothing with the new code enabled, such as -subalign, -sub-bg-alpha, -sub-bg-color, and many more. (The reason is mostly that the code for rendering unstyled subtitles with libass doesn't make any attempts to support them. Some of them could be supported in theory.) Teletext rendering is not implemented in the new OSD rendering code. I don't have any teletext sources for testing, and since teletext is being phased out world-wide, the need for this is questionable. Note that rendering is extremely inefficient, mostly because the libass output is blended with the extremely strange mplayer OSD format. This could be improved at a later point. Remove most OSD rendering from vo_aa.c, because that was extremely hacky, can't be made work with osd_libass, and didn't work anyway in my tests. Internally, some cleanup is done. Subtitle and OSD related variable declarations were literally all over the place. Move them to sub.h and sub.c, which were hoarding most of these declarations already. Make the player core in mplayer.c free of concerns like bitmap font loading. The old OSD rendering code has been moved to osd_ft.c. The font_load.c and font_load_ft.c are only needed and compiled if the old OSD rendering code is configured.
2012-03-22 06:26:37 +01:00
--disable-libass-osd disable OSD rendering with libass [autodetect]
--enable-rpath enable runtime linker path for extra libs [disabled]
--disable-libpostproc disable postprocess filter (vf_pp) [autodetect]
--disable-libavdevice disable libavdevice demuxers [autodetect]
--disable-libavfilter disable libavfilter [autodetect]
--disable-vapoursynth disable VapourSynth filter bridge [autodetect]
Codecs:
--enable-jpeg enable JPEG input/output support [autodetect]
--enable-libcdio enable libcdio support [autodetect]
--enable-libav skip Libav autodetection [autodetect]
--disable-ladspa disable LADSPA plugin support [autodetect]
--disable-libbs2b disable libbs2b audio filter support [autodetect]
--disable-mpg123 disable libmpg123 MP3 decoding support [autodetect]
Resampler:
--disable-libavresample check for libswresample only [autodetect]
Video output:
--enable-gl enable OpenGL video output [autodetect]
--enable-caca enable CACA video output [autodetect]
--enable-direct3d enable Direct3D video output [autodetect]
--enable-sdl enable SDL audio output [disable]
--enable-sdl2 enable SDL 2.0+ audio and video output [disable]
--enable-xv enable Xv video output [autodetect]
--enable-vdpau enable VDPAU acceleration [autodetect]
video: add vda decode support (with hwaccel) and direct rendering Decoding H264 using Video Decode Acceleration used the custom 'vda_h264_dec' decoder in FFmpeg. The Good: This new implementation has some advantages over the previous one: - It works with Libav: vda_h264_dec never got into Libav since they prefer client applications to use the hwaccel API. - It is way more efficient: in my tests this implementation yields a reduction of CPU usage of roughly ~50% compared to using `vda_h264_dec` and ~65-75% compared to h264 software decoding. This is mainly because `vo_corevideo` was adapted to perform direct rendering of the `CVPixelBufferRefs` created by the Video Decode Acceleration API Framework. The Bad: - `vo_corevideo` is required to use VDA decoding acceleration. - only works with versions of ffmpeg/libav new enough (needs reference refcounting). That is FFmpeg 2.0+ and Libav's git master currently. The Ugly: VDA was hardcoded to use UYVY (2vuy) for the uploaded video texture. One one end this makes the code simple since Apple's OpenGL implementation actually supports this out of the box. It would be nice to support other output image formats and choose the best format depending on the input, or at least making it configurable. My tests indicate that CPU usage actually increases with a 420p IMGFMT output which is not what I would have expected. NOTE: There is a small memory leak with old versions of FFmpeg and with Libav since the CVPixelBufferRef is not automatically released when the AVFrame is deallocated. This can cause leaks inside libavcodec for decoded frames that are discarded before mpv wraps them inside a refcounted mp_image (this only happens on seeks). For frames that enter mpv's refcounting facilities, this is not a problem since we rewrap the CVPixelBufferRef in our mp_image that properly forwards CVPixelBufferRetain/CvPixelBufferRelease calls to the underying CVPixelBufferRef. So, for FFmpeg use something more recent than `b3d63995` for Libav the patch was posted to the dev ML in July and in review since, apparently, the proposed fix is rather hacky.
2013-08-14 15:47:18 +02:00
--enable-vda enable VDA acceleration [autodetect]
video: add vaapi decode and output support This is based on the MPlayer VA API patches. To be exact it's based on a very stripped down version of commit f1ad459a263f8537f6c from git://gitorious.org/vaapi/mplayer.git. This doesn't contain useless things like benchmarking hacks and the demo code for GLX interop. Also, unlike in the original patch, decoding and video output are split into separate source files (the separation between decoding and display also makes pixel format hacks unnecessary). On the other hand, some features not present in the original patch were added, like screenshot support. VA API is rather bad for actual video output. Dealing with older libva versions or the completely broken vdpau backend doesn't help. OSD is low quality and should be rather slow. In some cases, only either OSD or subtitles can be shown at the same time (because OSD is drawn first, OSD is prefered). Also, libva can't decide whether it accepts straight or premultiplied alpha for OSD sub-pictures: the vdpau backend seems to assume premultiplied, while a native vaapi driver uses straight. So I picked straight alpha. It doesn't matter much, because the blending code for straight alpha I added to img_convert.c is probably buggy, and ASS subtitles might be blended incorrectly. Really good video output with VA API would probably use OpenGL and the GL interop features, but at this point you might just use vo_opengl. (Patches for making HW decoding with vo_opengl have a chance of being accepted.) Despite these issues, decoding seems to work ok. I still got tearing on the Intel system I tested (Intel(R) Core(TM) i3-2350M). It was also tested with the vdpau vaapi wrapper on a nvidia system; however this was rather broken. (Fortunately, there is no reason to use mpv's VAAPI support over native VDPAU.)
2013-08-09 14:01:30 +02:00
--enable-vaapi enable VAAPI acceleration [autodetect]
--enable-vm enable XF86VidMode support [autodetect]
--enable-xinerama enable Xinerama support [autodetect]
--enable-x11 enable X11 video output [autodetect]
--enable-wayland enable Wayland video output [autodetect]
--disable-xss disable screensaver support via xss [autodetect]
--disable-corevideo disable CoreVideo video output [autodetect]
--disable-cocoa disable Cocoa OpenGL backend [autodetect]
Audio output:
--disable-alsa disable ALSA audio output [autodetect]
--disable-ossaudio disable OSS audio output [autodetect]
--disable-rsound disable RSound audio output [autodetect]
--disable-sndio disable sndio audio output [autodetect]
--disable-pulse disable Pulseaudio audio output [autodetect]
--disable-portaudio disable PortAudio audio output [autodetect]
--disable-jack disable JACK audio output [autodetect]
--enable-openal enable OpenAL audio output [disable]
--disable-coreaudio disable CoreAudio audio output [autodetect]
--disable-dsound disable DirectSound audio output [autodetect]
--disable-wasapi disable WASAPI (event mode) audio output [autodetect]
--disable-select disable using select() on the audio device [enable]
Miscellaneous options:
--enable-cross-compile enable cross-compilation [disable]
--cc=COMPILER C compiler to build mpv [gcc]
--pkg-config=PKGCONFIG pkg-config to find some libraries [pkg-config]
--windres=WINDRES windres to build mpv [windres]
--target=PLATFORM target platform (i386-linux, arm-linux, etc)
--enable-static build a statically linked binary
--with-install=PATH path to a custom install program
--disable-manpage do not build and install manpage [auto]
--disable-pdf do not build and install PDF manual [auto]
--disable-build-date do not include binary compile time
Advanced options:
--enable-shm enable shm [autodetect]
--disable-debug compile-in debugging information [enable]
--disable-optimization compile without -O2 [enable]
Use these options if autodetection fails:
--extra-cflags=FLAGS extra CFLAGS
--extra-ldflags=FLAGS extra LDFLAGS
--extra-libs=FLAGS extra linker flags
--extra-libs-mpv=FLAGS extra linker flags for mpv
This configure script is NOT autoconf-based, even though its output is similar.
It will try to autodetect all configuration options. If you --enable an option
it will be forcefully turned on, skipping autodetection. This can break
compilation, so you need to know what you are doing.
EOF
exit 0
} #show_help()
# GOTCHA: the variables below defines the default behavior for autodetection
# and have - unless stated otherwise - at least 2 states : yes no
# If autodetection is available then the third state is: auto
_install=install
_pkg_config=auto
_windres=auto
_cc=auto
test "$CC" && _cc="$CC"
_debug=-g
_opt=-O2
_cross_compile=no
_prefix="/usr/local"
ffmpeg=auto
_encoding=yes
_disable_avresample=no
_x11=auto
_wayland=auto
_xss=auto
_xv=auto
_vdpau=auto
video: add vda decode support (with hwaccel) and direct rendering Decoding H264 using Video Decode Acceleration used the custom 'vda_h264_dec' decoder in FFmpeg. The Good: This new implementation has some advantages over the previous one: - It works with Libav: vda_h264_dec never got into Libav since they prefer client applications to use the hwaccel API. - It is way more efficient: in my tests this implementation yields a reduction of CPU usage of roughly ~50% compared to using `vda_h264_dec` and ~65-75% compared to h264 software decoding. This is mainly because `vo_corevideo` was adapted to perform direct rendering of the `CVPixelBufferRefs` created by the Video Decode Acceleration API Framework. The Bad: - `vo_corevideo` is required to use VDA decoding acceleration. - only works with versions of ffmpeg/libav new enough (needs reference refcounting). That is FFmpeg 2.0+ and Libav's git master currently. The Ugly: VDA was hardcoded to use UYVY (2vuy) for the uploaded video texture. One one end this makes the code simple since Apple's OpenGL implementation actually supports this out of the box. It would be nice to support other output image formats and choose the best format depending on the input, or at least making it configurable. My tests indicate that CPU usage actually increases with a 420p IMGFMT output which is not what I would have expected. NOTE: There is a small memory leak with old versions of FFmpeg and with Libav since the CVPixelBufferRef is not automatically released when the AVFrame is deallocated. This can cause leaks inside libavcodec for decoded frames that are discarded before mpv wraps them inside a refcounted mp_image (this only happens on seeks). For frames that enter mpv's refcounting facilities, this is not a problem since we rewrap the CVPixelBufferRef in our mp_image that properly forwards CVPixelBufferRetain/CvPixelBufferRelease calls to the underying CVPixelBufferRef. So, for FFmpeg use something more recent than `b3d63995` for Libav the patch was posted to the dev ML in July and in review since, apparently, the proposed fix is rather hacky.
2013-08-14 15:47:18 +02:00
_vda=auto
_vda_refcounting=auto
video: add vaapi decode and output support This is based on the MPlayer VA API patches. To be exact it's based on a very stripped down version of commit f1ad459a263f8537f6c from git://gitorious.org/vaapi/mplayer.git. This doesn't contain useless things like benchmarking hacks and the demo code for GLX interop. Also, unlike in the original patch, decoding and video output are split into separate source files (the separation between decoding and display also makes pixel format hacks unnecessary). On the other hand, some features not present in the original patch were added, like screenshot support. VA API is rather bad for actual video output. Dealing with older libva versions or the completely broken vdpau backend doesn't help. OSD is low quality and should be rather slow. In some cases, only either OSD or subtitles can be shown at the same time (because OSD is drawn first, OSD is prefered). Also, libva can't decide whether it accepts straight or premultiplied alpha for OSD sub-pictures: the vdpau backend seems to assume premultiplied, while a native vaapi driver uses straight. So I picked straight alpha. It doesn't matter much, because the blending code for straight alpha I added to img_convert.c is probably buggy, and ASS subtitles might be blended incorrectly. Really good video output with VA API would probably use OpenGL and the GL interop features, but at this point you might just use vo_opengl. (Patches for making HW decoding with vo_opengl have a chance of being accepted.) Despite these issues, decoding seems to work ok. I still got tearing on the Intel system I tested (Intel(R) Core(TM) i3-2350M). It was also tested with the vdpau vaapi wrapper on a nvidia system; however this was rather broken. (Fortunately, there is no reason to use mpv's VAAPI support over native VDPAU.)
2013-08-09 14:01:30 +02:00
_vaapi=auto
_direct3d=auto
_sdl=no
_sdl2=no
_dsound=auto
_wasapi=auto
_jpeg=auto
_gl=auto
_aa=auto
_caca=auto
_dvb=auto
_iconv=auto
_ossaudio=auto
_rsound=auto
_pulse=auto
_portaudio=auto
_jack=auto
_openal=no
_libcdio=auto
_mpg123=auto
_ladspa=auto
_libbs2b=auto
_vcd=auto
_bluray=auto
_dvdread=auto
_dvdnav=auto
_lcms2=auto
_vapoursynth=auto
_xinerama=auto
_vm=auto
_xf86keysym=auto
_sndio=auto
_alsa=auto
_select=yes
_radio=no
_radio_capture=no
_radio_v4l2=auto
_tv=yes
_tv_v4l2=auto
_libv4l2=auto
_pvr=auto
_smb=auto
_libquvi4=auto
_libquvi9=auto
_libguess=auto
_joystick=no
_lirc=auto
_terminfo=auto
_termcap=auto
_termios=auto
_shm=auto
_cdda=auto
_coreaudio=auto
_corevideo=auto
_cocoa=auto
_enca=auto
_pthreads=auto
_ass=auto
osd: use libass for OSD rendering The OSD will now be rendered with libass. The old rendering code, which used freetype/fontconfig and did text layout manually, is disabled. To re-enable the old code, use the --disable-libass-osd configure switch. Some switches do nothing with the new code enabled, such as -subalign, -sub-bg-alpha, -sub-bg-color, and many more. (The reason is mostly that the code for rendering unstyled subtitles with libass doesn't make any attempts to support them. Some of them could be supported in theory.) Teletext rendering is not implemented in the new OSD rendering code. I don't have any teletext sources for testing, and since teletext is being phased out world-wide, the need for this is questionable. Note that rendering is extremely inefficient, mostly because the libass output is blended with the extremely strange mplayer OSD format. This could be improved at a later point. Remove most OSD rendering from vo_aa.c, because that was extremely hacky, can't be made work with osd_libass, and didn't work anyway in my tests. Internally, some cleanup is done. Subtitle and OSD related variable declarations were literally all over the place. Move them to sub.h and sub.c, which were hoarding most of these declarations already. Make the player core in mplayer.c free of concerns like bitmap font loading. The old OSD rendering code has been moved to osd_ft.c. The font_load.c and font_load_ft.c are only needed and compiled if the old OSD rendering code is configured.
2012-03-22 06:26:37 +01:00
_libass_osd=auto
_rpath=no
lua=auto
libpostproc=auto
libavfilter=auto
libavdevice=auto
_stream_cache=yes
_priority=no
def_dos_paths="#define HAVE_DOS_PATHS 0"
def_priority="#define HAVE_PRIORITY 0"
_build_man=auto
_build_pdf=auto
_build_date=yes
for ac_option do
case "$ac_option" in
--help|-help|-h)
show_help
;;
--prefix=*)
_prefix=$(echo $ac_option | cut -d '=' -f 2)
;;
--bindir=*)
_bindir=$(echo $ac_option | cut -d '=' -f 2)
;;
--mandir=*)
_mandir=$(echo $ac_option | cut -d '=' -f 2)
;;
--docdir=*)
_docdir=$(echo $ac_option | cut -d '=' -f 2)
;;
--confdir=*)
_confdir=$(echo $ac_option | cut -d '=' -f 2)
;;
--with-install=*)
_install=$(echo $ac_option | cut -d '=' -f 2 )
;;
--extra-cflags=*)
extra_cflags="$extra_cflags $(echo $ac_option | cut -d '=' -f 2-)"
;;
--extra-ldflags=*)
extra_ldflags="$extra_ldflags $(echo $ac_option | cut -d '=' -f 2-)"
;;
--extra-libs=*)
extra_libs=$(echo $ac_option | cut -d '=' -f 2)
;;
--extra-libs-mpv=*)
libs_mplayer=$(echo $ac_option | cut -d '=' -f 2)
;;
--target=*)
_target=$(echo $ac_option | cut -d '=' -f 2)
;;
--cc=*)
_cc=$(echo $ac_option | cut -d '=' -f 2)
;;
--pkg-config=*)
_pkg_config=$(echo $ac_option | cut -d '=' -f 2)
;;
--windres=*)
_windres=$(echo $ac_option | cut -d '=' -f 2)
;;
--enable-static)
_ld_static='-static'
;;
--disable-static)
_ld_static=''
;;
--enable-debug)
_debug='-g'
;;
--enable-debug=*)
_debug=$(echo $_echo_n '-g'$_echo_c; echo $ac_option | cut -d '=' -f 2)
;;
--disable-debug)
_debug=
;;
--enable-optimization)
_opt='-O2'
;;
--enable-optimization=*)
_opt=$(echo $_echo_n '-O'$_echo_c; echo $ac_option | cut -d '=' -f 2)
;;
--disable-optimization)
_opt=
;;
--enable-cross-compile) _cross_compile=yes ;;
--disable-cross-compile) _cross_compile=no ;;
--enable-encoding) _encoding=yes ;;
--disable-encoding) _encoding=no ;;
--enable-wayland) _wayland=yes ;;
--disable-wayland) _wayland=no ;;
--enable-x11) _x11=yes ;;
--disable-x11) _x11=no ;;
--enable-xss) _xss=yes ;;
--disable-xss) _xss=no ;;
--enable-xv) _xv=yes ;;
--disable-xv) _xv=no ;;
--enable-vdpau) _vdpau=yes ;;
--disable-vdpau) _vdpau=no ;;
video: add vda decode support (with hwaccel) and direct rendering Decoding H264 using Video Decode Acceleration used the custom 'vda_h264_dec' decoder in FFmpeg. The Good: This new implementation has some advantages over the previous one: - It works with Libav: vda_h264_dec never got into Libav since they prefer client applications to use the hwaccel API. - It is way more efficient: in my tests this implementation yields a reduction of CPU usage of roughly ~50% compared to using `vda_h264_dec` and ~65-75% compared to h264 software decoding. This is mainly because `vo_corevideo` was adapted to perform direct rendering of the `CVPixelBufferRefs` created by the Video Decode Acceleration API Framework. The Bad: - `vo_corevideo` is required to use VDA decoding acceleration. - only works with versions of ffmpeg/libav new enough (needs reference refcounting). That is FFmpeg 2.0+ and Libav's git master currently. The Ugly: VDA was hardcoded to use UYVY (2vuy) for the uploaded video texture. One one end this makes the code simple since Apple's OpenGL implementation actually supports this out of the box. It would be nice to support other output image formats and choose the best format depending on the input, or at least making it configurable. My tests indicate that CPU usage actually increases with a 420p IMGFMT output which is not what I would have expected. NOTE: There is a small memory leak with old versions of FFmpeg and with Libav since the CVPixelBufferRef is not automatically released when the AVFrame is deallocated. This can cause leaks inside libavcodec for decoded frames that are discarded before mpv wraps them inside a refcounted mp_image (this only happens on seeks). For frames that enter mpv's refcounting facilities, this is not a problem since we rewrap the CVPixelBufferRef in our mp_image that properly forwards CVPixelBufferRetain/CvPixelBufferRelease calls to the underying CVPixelBufferRef. So, for FFmpeg use something more recent than `b3d63995` for Libav the patch was posted to the dev ML in July and in review since, apparently, the proposed fix is rather hacky.
2013-08-14 15:47:18 +02:00
--enable-vda) _vda=yes ;;
--disable-vda) _vda=no ;;
video: add vaapi decode and output support This is based on the MPlayer VA API patches. To be exact it's based on a very stripped down version of commit f1ad459a263f8537f6c from git://gitorious.org/vaapi/mplayer.git. This doesn't contain useless things like benchmarking hacks and the demo code for GLX interop. Also, unlike in the original patch, decoding and video output are split into separate source files (the separation between decoding and display also makes pixel format hacks unnecessary). On the other hand, some features not present in the original patch were added, like screenshot support. VA API is rather bad for actual video output. Dealing with older libva versions or the completely broken vdpau backend doesn't help. OSD is low quality and should be rather slow. In some cases, only either OSD or subtitles can be shown at the same time (because OSD is drawn first, OSD is prefered). Also, libva can't decide whether it accepts straight or premultiplied alpha for OSD sub-pictures: the vdpau backend seems to assume premultiplied, while a native vaapi driver uses straight. So I picked straight alpha. It doesn't matter much, because the blending code for straight alpha I added to img_convert.c is probably buggy, and ASS subtitles might be blended incorrectly. Really good video output with VA API would probably use OpenGL and the GL interop features, but at this point you might just use vo_opengl. (Patches for making HW decoding with vo_opengl have a chance of being accepted.) Despite these issues, decoding seems to work ok. I still got tearing on the Intel system I tested (Intel(R) Core(TM) i3-2350M). It was also tested with the vdpau vaapi wrapper on a nvidia system; however this was rather broken. (Fortunately, there is no reason to use mpv's VAAPI support over native VDPAU.)
2013-08-09 14:01:30 +02:00
--enable-vaapi) _vaapi=yes ;;
--disable-vaapi) _vaapi=no ;;
--enable-direct3d) _direct3d=yes ;;
--disable-direct3d) _direct3d=no ;;
--enable-sdl) _sdl=yes ;;
--disable-sdl) _sdl=no ;;
--enable-sdl2) _sdl2=yes ;;
--disable-sdl2) _sdl2=no ;;
--enable-dsound) _dsound=yes ;;
--disable-dsound) _dsound=no ;;
--enable-wasapi) _wasapi=yes ;;
--disable-wasapi) _wasapi=no ;;
--enable-jpeg) _jpeg=yes ;;
--disable-jpeg) _jpeg=no ;;
--enable-gl) _gl=yes ;;
--disable-gl) _gl=no ;;
--enable-caca) _caca=yes ;;
--disable-caca) _caca=no ;;
--enable-dvb) _dvb=yes ;;
--disable-dvb) _dvb=no ;;
--enable-iconv) _iconv=yes ;;
--disable-iconv) _iconv=no ;;
--enable-ossaudio) _ossaudio=yes ;;
--disable-ossaudio) _ossaudio=no ;;
--enable-rsound) _rsound=yes ;;
--disable-rsound) _rsound=no ;;
--enable-sndio) _sndio=yes ;;
--disable-sndio) _sndio=no ;;
--enable-pulse) _pulse=yes ;;
--disable-pulse) _pulse=no ;;
--enable-portaudio) _portaudio=yes ;;
--disable-portaudio) _portaudio=no ;;
--enable-jack) _jack=yes ;;
--disable-jack) _jack=no ;;
--enable-openal) _openal=auto ;;
--disable-openal) _openal=no ;;
--enable-libcdio) _libcdio=yes ;;
--disable-libcdio) _libcdio=no ;;
--enable-mpg123) _mpg123=yes ;;
--disable-mpg123) _mpg123=no ;;
--enable-ladspa) _ladspa=yes ;;
--disable-ladspa) _ladspa=no ;;
--enable-libbs2b) _libbs2b=yes ;;
--disable-libbs2b) _libbs2b=no ;;
--enable-vcd) _vcd=yes ;;
--disable-vcd) _vcd=no ;;
--enable-bluray) _bluray=yes ;;
--disable-bluray) _bluray=no ;;
--enable-dvdread) _dvdread=yes ;;
--disable-dvdread) _dvdread=no ;;
--enable-dvdnav) _dvdnav=yes ;;
--disable-dvdnav) _dvdnav=no ;;
--enable-lcms2) _lcms2=yes ;;
--disable-lcms2) _lcms2=no ;;
--enable-vapoursynth) _vapoursynth=yes ;;
--dsiable-vapoursynth)_vapoursynth=no ;;
--enable-xinerama) _xinerama=yes ;;
--disable-xinerama) _xinerama=no ;;
--enable-vm) _vm=yes ;;
--disable-vm) _vm=no ;;
--enable-xf86keysym) _xf86keysym=yes ;;
--disable-xf86keysym) _xf86keysym=no ;;
--enable-alsa) _alsa=yes ;;
--disable-alsa) _alsa=no ;;
--enable-tv) _tv=yes ;;
--disable-tv) _tv=no ;;
--enable-tv-v4l2) _tv_v4l2=yes ;;
--disable-tv-v4l2) _tv_v4l2=no ;;
--enable-libv4l2) _libv4l2=yes ;;
--disable-libv4l2) _libv4l2=no ;;
--enable-radio) _radio=yes ;;
--enable-radio-capture) _radio_capture=yes ;;
--disable-radio-capture) _radio_capture=no ;;
--disable-radio) _radio=no ;;
--enable-radio-v4l2) _radio_v4l2=yes ;;
--disable-radio-v4l2) _radio_v4l2=no ;;
--enable-pvr) _pvr=yes ;;
--disable-pvr) _pvr=no ;;
--enable-smb) _smb=yes ;;
--disable-smb) _smb=no ;;
--enable-libquvi4) _libquvi4=yes ;;
--disable-libquvi4) _libquvi4=no ;;
--enable-libquvi9) _libquvi9=yes ;;
--disable-libquvi9) _libquvi9=no ;;
--enable-libguess) _libguess=yes ;;
--disable-libguess) _libguess=no ;;
--enable-joystick) _joystick=yes ;;
--disable-joystick) _joystick=no ;;
--enable-libav) ffmpeg=yes ;;
--disable-libavresample) _disable_avresample=yes ;;
--enable-libavresample) _disable_avresample=no ;;
--enable-lua) lua=yes ;;
--disable-lua) lua=no ;;
--lua=*) lua_pkg=$(echo $ac_option | cut -d '=' -f 2) ;;
--enable-lirc) _lirc=yes ;;
--disable-lirc) _lirc=no ;;
--enable-terminfo) _terminfo=yes ;;
--disable-terminfo) _terminfo=no ;;
--enable-termcap) _termcap=yes ;;
--disable-termcap) _termcap=no ;;
--enable-termios) _termios=yes ;;
--disable-termios) _termios=no ;;
--enable-shm) _shm=yes ;;
--disable-shm) _shm=no ;;
--enable-select) _select=yes ;;
--disable-select) _select=no ;;
--enable-pthreads) _pthreads=yes ;;
--disable-pthreads) _pthreads=no ;;
--enable-libass) _ass=yes ;;
--disable-libass) _ass=no ;;
osd: use libass for OSD rendering The OSD will now be rendered with libass. The old rendering code, which used freetype/fontconfig and did text layout manually, is disabled. To re-enable the old code, use the --disable-libass-osd configure switch. Some switches do nothing with the new code enabled, such as -subalign, -sub-bg-alpha, -sub-bg-color, and many more. (The reason is mostly that the code for rendering unstyled subtitles with libass doesn't make any attempts to support them. Some of them could be supported in theory.) Teletext rendering is not implemented in the new OSD rendering code. I don't have any teletext sources for testing, and since teletext is being phased out world-wide, the need for this is questionable. Note that rendering is extremely inefficient, mostly because the libass output is blended with the extremely strange mplayer OSD format. This could be improved at a later point. Remove most OSD rendering from vo_aa.c, because that was extremely hacky, can't be made work with osd_libass, and didn't work anyway in my tests. Internally, some cleanup is done. Subtitle and OSD related variable declarations were literally all over the place. Move them to sub.h and sub.c, which were hoarding most of these declarations already. Make the player core in mplayer.c free of concerns like bitmap font loading. The old OSD rendering code has been moved to osd_ft.c. The font_load.c and font_load_ft.c are only needed and compiled if the old OSD rendering code is configured.
2012-03-22 06:26:37 +01:00
--enable-libass-osd) _libass_osd=yes ;;
--disable-libass-osd) _libass_osd=no ;;
--enable-rpath) _rpath=yes ;;
--disable-rpath) _rpath=no ;;
--enable-libpostproc) libpostproc=yes ;;
--disable-libpostproc) libpostproc=no ;;
demux_lavf: add support for libavdevice libavdevice supports various "special" video and audio inputs, such as screen-capture or libavfilter filter graphs. libavdevice inputs are implemented as demuxers. They don't use the custom stream callbacks (in AVFormatContext.pb). Instead, input parameters are passed as filename. This means the mpv stream layer has to be disabled. Do this by adding the pseudo stream handler avdevice://, whose only purpose is passing the filename to demux_lavf, without actually doing anything. Change the logic how the filename is passed to libavformat. Remove handling of the filename from demux_open_lavf() and move it to lavf_check_file(). (This also fixes a possible bug when skipping the "lavf://" prefix.) libavdevice now can be invoked by specifying demuxer and args as in: mpv avdevice://demuxer:args The args are passed as filename to libavformat. When using libavdevice demuxers, their actual meaning is highly implementation specific. They don't refer to actual filenames. Note: libavdevice is disabled by default. There is one problem: libavdevice pulls in libavfilter, which in turn causes symbol clashes with mpv internals. The problem is that libavfilter includes a mplayer filter bridge, which is used to interface with a set of nearly unmodified mplayer filters copied into libavfilter. This filter bridge uses the same symbol names as mplayer/mpv's filter chain, which results in symbol clashes at link-time. This can be prevented by building ffmpeg with --disable-filter=mp, but unfortunately this is not the default. This means linking to libavdevice (which in turn forces linking with libavfilter by default) must be disabled. We try doing this by compiling a test file that defines one of the clashing symbols (vf_mpi_clear). To enable libavdevice input, ffmpeg should be built with the options: --disable-filter=mp and mpv with: --enable-libavdevice Originally, I tried to auto-detect it. But the resulting complications in configure did't seem worth the trouble.
2012-11-30 18:41:04 +01:00
--enable-libavdevice) libavdevice=auto ;;
--disable-libavdevice) libavdevice=no ;;
--enable-libavfilter) libavfilter=auto ;;
--disable-libavfilter) libavfilter=no ;;
--enable-enca) _enca=yes ;;
--disable-enca) _enca=no ;;
--enable-coreaudio) _coreaudio=yes ;;
--disable-coreaudio) _coreaudio=no ;;
--enable-corevideo) _corevideo=yes ;;
--disable-corevideo) _corevideo=no ;;
--enable-cocoa) _cocoa=yes ;;
--disable-cocoa) _cocoa=no ;;
--enable-manpage) _build_man=yes ;;
--disable-manpage) _build_man=no ;;
--enable-pdf) _build_pdf=yes ;;
--disable-pdf) _build_pdf=no ;;
--enable-build-date) _build_date=yes ;;
--disable-build-date) _build_date=no ;;
*)
echo "Unknown parameter: $ac_option" >&2
exit 1
;;
esac
done
# Atmos: moved this here, to be correct, if --prefix is specified
test -z "$_bindir" && _bindir="$_prefix/bin"
test -z "$_mandir" && _mandir="$_prefix/share/man"
test -z "$_docdir" && _docdir="$_prefix/share/doc/mpv"
test -z "$_confdir" && _confdir="$_prefix/etc/mpv"
for tmpdir in "$TMPDIR" "$TEMPDIR" "/tmp" ; do
test "$tmpdir" && break
done
mplayer_tmpdir="$tmpdir/mpv-configure-$RANDOM-$$"
mkdir $mplayer_tmpdir || die "Unable to create tmpdir."
TMPLOG="config.log"
rm -f "$TMPLOG"
echo Parameters configure was run with: > "$TMPLOG"
if test -n "$CFLAGS" ; then
echo ${_echo_n} CFLAGS="'$CFLAGS' ${_echo_c}" >> "$TMPLOG"
fi
if test -n "$PKG_CONFIG_PATH" ; then
echo ${_echo_n} PKG_CONFIG_PATH="'$PKG_CONFIG_PATH' ${_echo_c}" >> "$TMPLOG"
fi
echo ./configure $configuration >> "$TMPLOG"
echo >> "$TMPLOG"
echocheck "cross compilation"
echores $_cross_compile
if test $_cross_compile = yes; then
tmp_run() {
return 0
}
fi
tool_prefix=""
if test $_cross_compile = yes ; then
# Usually cross-compiler prefixes match with the target triplet
test -n "$_target" && tool_prefix="$_target"-
fi
test "$_windres" = auto && _windres="$tool_prefix"windres
test "$_pkg_config" = auto && _pkg_config="$tool_prefix"pkg-config
if test "$_cc" = auto ; then
if test -n "$tool_prefix" ; then
_cc="$tool_prefix"gcc
else
_cc=cc
fi
fi
# Determine our OS name and CPU architecture
if test -z "$_target" ; then
# OS name
system_name=$(uname -s 2>&1)
case "$system_name" in
Remove compile time/runtime CPU detection, and drop some platforms mplayer had three ways of enabling CPU specific assembler routines: a) Enable them at compile time; crash if the CPU can't handle it. b) Enable them at compile time, but let the configure script detect your CPU. Your binary will only crash if you try to run it on a different system that has less features than yours. This was the default, I think. c) Runtime detection. The implementation of b) and c) suck. a) is not really feasible (it sucks for users). Remove all code related to this, and use libav's CPU detection instead. Now the configure script will always enable CPU specific features, and disable them at runtime if libav reports them not as available. One implication is that now the compiler is always expected to handle SSE (etc.) inline assembly at runtime, unless it's explicitly disabled. Only checks for x86 CPU specific features are kept, the rest is either unused or barely used. Get rid of all the dump -mpcu, -march etc. flags. Trust the compiler to select decent settings. Get rid of support for the following operating systems: - BSD/OS (some ancient BSD fork) - QNX (don't care) - BeOS (dead, Haiku support is still welcome) - AIX (don't care) - HP-UX (don't care) - OS/2 (dead, actual support has been removed a while ago) Remove the configure code for detecting the endianness. Instead, use the standard header <endian.h>, which can be used if _GNU_SOURCE or _BSD_SOURCE is defined. (Maybe these changes should have been in a separate commit.) Since this is a quite violent code removal orgy, and I'm testing only on x86 32 bit Linux, expect regressions.
2012-07-29 17:20:57 +02:00
Linux|FreeBSD|NetBSD|OpenBSD|DragonFly|Darwin|GNU|MorphOS)
;;
Haiku)
Remove compile time/runtime CPU detection, and drop some platforms mplayer had three ways of enabling CPU specific assembler routines: a) Enable them at compile time; crash if the CPU can't handle it. b) Enable them at compile time, but let the configure script detect your CPU. Your binary will only crash if you try to run it on a different system that has less features than yours. This was the default, I think. c) Runtime detection. The implementation of b) and c) suck. a) is not really feasible (it sucks for users). Remove all code related to this, and use libav's CPU detection instead. Now the configure script will always enable CPU specific features, and disable them at runtime if libav reports them not as available. One implication is that now the compiler is always expected to handle SSE (etc.) inline assembly at runtime, unless it's explicitly disabled. Only checks for x86 CPU specific features are kept, the rest is either unused or barely used. Get rid of all the dump -mpcu, -march etc. flags. Trust the compiler to select decent settings. Get rid of support for the following operating systems: - BSD/OS (some ancient BSD fork) - QNX (don't care) - BeOS (dead, Haiku support is still welcome) - AIX (don't care) - HP-UX (don't care) - OS/2 (dead, actual support has been removed a while ago) Remove the configure code for detecting the endianness. Instead, use the standard header <endian.h>, which can be used if _GNU_SOURCE or _BSD_SOURCE is defined. (Maybe these changes should have been in a separate commit.) Since this is a quite violent code removal orgy, and I'm testing only on x86 32 bit Linux, expect regressions.
2012-07-29 17:20:57 +02:00
system_name=Haiku
;;
GNU/kFreeBSD)
system_name=FreeBSD
;;
[cC][yY][gG][wW][iI][nN]*)
system_name=CYGWIN
;;
MINGW32*)
system_name=MINGW32
;;
*)
system_name="$system_name-UNKNOWN"
;;
esac
# host's CPU/instruction set
host_arch=$(uname -p 2>&1)
case "$host_arch" in
i386|sparc|ppc|alpha|arm|mips|vax)
;;
powerpc) # Darwin returns 'powerpc'
host_arch=ppc
;;
*) # uname -p on Linux returns 'unknown' for the processor type,
# OpenBSD returns 'Intel Pentium/MMX ("Genuine Intel" 586-class)'
# Maybe uname -m (machine hardware name) returns something we
# recognize.
case "$(uname -m 2>&1)" in
Remove compile time/runtime CPU detection, and drop some platforms mplayer had three ways of enabling CPU specific assembler routines: a) Enable them at compile time; crash if the CPU can't handle it. b) Enable them at compile time, but let the configure script detect your CPU. Your binary will only crash if you try to run it on a different system that has less features than yours. This was the default, I think. c) Runtime detection. The implementation of b) and c) suck. a) is not really feasible (it sucks for users). Remove all code related to this, and use libav's CPU detection instead. Now the configure script will always enable CPU specific features, and disable them at runtime if libav reports them not as available. One implication is that now the compiler is always expected to handle SSE (etc.) inline assembly at runtime, unless it's explicitly disabled. Only checks for x86 CPU specific features are kept, the rest is either unused or barely used. Get rid of all the dump -mpcu, -march etc. flags. Trust the compiler to select decent settings. Get rid of support for the following operating systems: - BSD/OS (some ancient BSD fork) - QNX (don't care) - BeOS (dead, Haiku support is still welcome) - AIX (don't care) - HP-UX (don't care) - OS/2 (dead, actual support has been removed a while ago) Remove the configure code for detecting the endianness. Instead, use the standard header <endian.h>, which can be used if _GNU_SOURCE or _BSD_SOURCE is defined. (Maybe these changes should have been in a separate commit.) Since this is a quite violent code removal orgy, and I'm testing only on x86 32 bit Linux, expect regressions.
2012-07-29 17:20:57 +02:00
x86_64|amd64|i[3-9]86*|k5|k6|k6_2|k6_3|k6-2|k6-3|pentium*|athlon*|i586_i686|i586-i686|BePC) host_arch=i386 ;;
ia64) host_arch=ia64 ;;
macppc|ppc) host_arch=ppc ;;
ppc64) host_arch=ppc64 ;;
alpha) host_arch=alpha ;;
sparc) host_arch=sparc ;;
sparc64) host_arch=sparc64 ;;
parisc*|hppa*|9000*) host_arch=hppa ;;
arm*|zaurus|cats) host_arch=arm ;;
sh3|sh4|sh4a) host_arch=sh ;;
s390) host_arch=s390 ;;
s390x) host_arch=s390x ;;
*mips*) host_arch=mips ;;
vax) host_arch=vax ;;
xtensa*) host_arch=xtensa ;;
*) host_arch=UNKNOWN ;;
esac
;;
esac
else # if test -z "$_target"
for i in 2 3; do
system_name=$(echo $_target | cut -d '-' -f $i)
case "$(echo $system_name | tr A-Z a-z)" in
linux) system_name=Linux ;;
freebsd) system_name=FreeBSD ;;
gnu/kfreebsd) system_name=FreeBSD ;;
netbsd) system_name=NetBSD ;;
openbsd) system_name=OpenBSD ;;
dragonfly) system_name=DragonFly ;;
morphos) system_name=MorphOS ;;
mingw32*) system_name=MINGW32 ;;
*) continue ;;
esac
break
done
# We need to convert underscores so that values like k6-2 and pentium-mmx can be passed
host_arch=$(echo $_target | cut -d '-' -f 1)
if test $(echo $host_arch) != "x86_64" ; then
host_arch=$(echo $host_arch | tr '_' '-')
fi
fi
extra_cflags="-I. -D_GNU_SOURCE $extra_cflags"
_timer=timer-linux.c
_getch=terminal-unix.c
2013-11-27 07:59:38 +01:00
if freebsd || openbsd ; then
extra_ldflags="$extra_ldflags -L/usr/local/lib"
extra_cflags="$extra_cflags -I/usr/local/include"
fi
if netbsd || dragonfly ; then
extra_ldflags="$extra_ldflags -L/usr/pkg/lib"
extra_cflags="$extra_cflags -I/usr/pkg/include"
fi
if darwin; then
extra_cflags="-mdynamic-no-pic $extra_cflags"
_timer=timer-darwin.c
fi
_win32=no
if win32 ; then
_win32=yes
_exesuf=".exe"
2013-06-18 12:10:55 +02:00
extra_cflags="$extra_cflags -fno-common"
# -lwinmm is always needed for osdep/timer-win2.c
libs_mplayer="$libs_mplayer -lwinmm"
_pe_executable=yes
_timer=timer-win2.c
_priority=yes
def_dos_paths="#define HAVE_DOS_PATHS 1"
def_priority="#define HAVE_PRIORITY 1"
fi
if mingw32 ; then
_getch=terminal-win.c
extra_cflags="$extra_cflags -D__USE_MINGW_ANSI_STDIO=1"
# Hack for missing BYTE_ORDER declarations in <sys/types.h>.
# (For some reason, they are in <sys/param.h>, but we don't bother switching
# the includes based on whether we're compiling for MinGW.)
extra_cflags="$extra_cflags -DBYTE_ORDER=1234 -DLITTLE_ENDIAN=1234 -DBIG_ENDIAN=4321"
fi
if cygwin ; then
extra_cflags="$extra_cflags -mwin32"
fi
2012-11-02 14:37:02 +01:00
_rst2man=rst2man
if [ -f "$(which rst2man.py)" ] ; then
_rst2man=rst2man.py
fi
echocheck "whether to build manpages with rst2man"
if test "$_build_man" = auto ; then
_build_man=no
command_check "$_rst2man" --version && _build_man=yes
else
_build_man=no
fi
echores "$_build_man"
_rst2pdf=rst2pdf
if [ -f "$(which rst2pdf.py)" ] ; then
_rst2pdf=rst2pdf.py
fi
echocheck "whether to build manual PDFs with rst2pdf"
pdfcheck() {
echo test | $_rst2pdf -c --repeat-table-rows -o "$mplayer_tmpdir/test.pdf"
2013-09-25 15:54:38 +02:00
}
if test "$_build_pdf" = auto ; then
_build_pdf=no
command_check pdfcheck && _build_pdf=yes
else
_build_pdf=no
fi
echores "$_build_pdf"
echocheck "whether to print binary build date"
if test "$_build_date" = yes ; then
_build_yes=yes
else
_build_date=no
extra_cflags="$extra_cflags -DNO_BUILD_TIMESTAMPS"
fi
echores "$_build_date"
TMPC="$mplayer_tmpdir/tmp.c"
TMPCPP="$mplayer_tmpdir/tmp.cpp"
TMPEXE="$mplayer_tmpdir/tmp$_exesuf"
TMPH="$mplayer_tmpdir/tmp.h"
TMPS="$mplayer_tmpdir/tmp.S"
# Checking CC version...
# Intel C++ Compilers (no autoselect, use CC=/some/binary ./configure)
if test "$(basename $_cc)" = "icc" || test "$(basename $_cc)" = "ecc"; then
echocheck "$_cc version"
cc_vendor=intel
cc_name=$($_cc -V 2>&1 | head -n 1 | cut -d ',' -f 1)
cc_version=$($_cc -V 2>&1 | head -n 1 | cut -d ',' -f 2 | cut -d ' ' -f 3)
_cc_major=$(echo $cc_version | cut -d '.' -f 1)
_cc_minor=$(echo $cc_version | cut -d '.' -f 2)
# TODO verify older icc/ecc compatibility
case $cc_version in
'')
cc_version="v. ?.??, bad"
cc_fail=yes
;;
10.1|11.0|11.1)
cc_version="$cc_version, ok"
;;
*)
cc_version="$cc_version, bad"
cc_fail=yes
;;
esac
echores "$cc_version"
else
for _cc in "$_cc" gcc cc ; do
cc_name_tmp=$($_cc -v 2>&1 | tail -n 1 | cut -d ' ' -f 1)
if test "$cc_name_tmp" = "gcc"; then
cc_name=$cc_name_tmp
echocheck "$_cc version"
cc_vendor=gnu
cc_version=$($_cc -dumpversion 2>&1)
case $cc_version in
2.96*)
cc_fail=yes
;;
*)
_cc_major=$(echo $cc_version | cut -d '.' -f 1)
_cc_minor=$(echo $cc_version | cut -d '.' -f 2)
_cc_mini=$(echo $cc_version | cut -d '.' -f 3)
;;
esac
echores "$cc_version"
break
fi
if $_cc -v 2>&1 | grep -q "clang"; then
echocheck "$_cc version"
cc_vendor=clang
cc_version=$($_cc -dumpversion 2>&1)
res_comment="experimental support only"
echores "clang $cc_version"
break
fi
cc_name_tmp=$($_cc -V 2>&1 | head -n 1 | cut -d ' ' -f 2,3)
done
fi # icc
test "$cc_fail" = yes && die "unsupported compiler version"
echocheck "working compiler"
cflag_check "" || die "Compiler is not functioning correctly. Check your installation and custom CFLAGS $CFLAGS ."
echo "yes"
echocheck "perl"
command_check perl -Mv5.8 -e';' || die "Perl is not functioning correctly or is ancient. Install the latest perl available."
2012-08-16 11:08:38 +02:00
echo yes
if test -z "$_target" && x86 ; then
cat > $TMPC << EOF
int main(void) {
int test[(int)sizeof(char *)-7];
return 0;
}
EOF
cc_check && host_arch=x86_64 || host_arch=i386
fi
echo "Detected operating system: $system_name"
echo "Detected host architecture: $host_arch"
# ---
# now that we know what compiler should be used for compilation, try to find
# out which assembler is used by the $_cc compiler
if test "$_as" = auto ; then
_as=$($_cc -print-prog-name=as)
test -z "$_as" && _as=as
fi
def_fast_64bit='#define HAVE_FAST_64BIT 0'
2013-07-07 21:37:31 +02:00
def_arch_x86='#define ARCH_X86 0'
def_arch_x86_32='#define ARCH_X86_32 0'
def_arch_x86_64='#define ARCH_X86_64 0'
case "$host_arch" in
i[3-9]86|x86|x86pc|k5|k6|k6-2|k6-3|pentium*|athlon*|i586-i686)
Remove compile time/runtime CPU detection, and drop some platforms mplayer had three ways of enabling CPU specific assembler routines: a) Enable them at compile time; crash if the CPU can't handle it. b) Enable them at compile time, but let the configure script detect your CPU. Your binary will only crash if you try to run it on a different system that has less features than yours. This was the default, I think. c) Runtime detection. The implementation of b) and c) suck. a) is not really feasible (it sucks for users). Remove all code related to this, and use libav's CPU detection instead. Now the configure script will always enable CPU specific features, and disable them at runtime if libav reports them not as available. One implication is that now the compiler is always expected to handle SSE (etc.) inline assembly at runtime, unless it's explicitly disabled. Only checks for x86 CPU specific features are kept, the rest is either unused or barely used. Get rid of all the dump -mpcu, -march etc. flags. Trust the compiler to select decent settings. Get rid of support for the following operating systems: - BSD/OS (some ancient BSD fork) - QNX (don't care) - BeOS (dead, Haiku support is still welcome) - AIX (don't care) - HP-UX (don't care) - OS/2 (dead, actual support has been removed a while ago) Remove the configure code for detecting the endianness. Instead, use the standard header <endian.h>, which can be used if _GNU_SOURCE or _BSD_SOURCE is defined. (Maybe these changes should have been in a separate commit.) Since this is a quite violent code removal orgy, and I'm testing only on x86 32 bit Linux, expect regressions.
2012-07-29 17:20:57 +02:00
arch='x86'
subarch='x86_32'
2013-07-07 21:37:31 +02:00
def_arch_x86='#define ARCH_X86 1'
def_arch_x86_32='#define ARCH_X86_32 1'
;;
ia64)
arch='ia64'
def_fast_64bit='#define HAVE_FAST_64BIT 1'
;;
x86_64|amd64)
arch='x86'
subarch='x86_64'
2013-07-07 21:37:31 +02:00
def_arch_x86='#define ARCH_X86 1'
def_arch_x86_64='#define ARCH_X86_64 1'
def_fast_64bit='#define HAVE_FAST_64BIT 1'
;;
sparc|sparc64)
arch='sparc'
;;
arm*)
arch='arm'
;;
avr32)
arch='avr32'
;;
sh|sh4)
arch='sh4'
;;
ppc|ppc64|powerpc|powerpc64)
arch='ppc'
;;
alpha*)
arch='alpha'
;;
mips*)
arch='mips'
;;
hppa)
arch='pa_risc'
;;
s390)
arch='s390'
;;
s390x)
arch='s390x'
;;
vax)
arch='vax'
;;
xtensa)
arch='xtensa'
;;
generic)
arch='generic'
;;
*)
echo "The architecture of your CPU ($host_arch) is not supported by this configure script"
echo "It seems nobody has ported mpv to your OS or CPU type yet."
die "unsupported architecture $host_arch"
;;
esac # case "$host_arch" in
echocheck "assembler support of -pipe option"
# -I. helps to detect compilers that just misunderstand -pipe like Sun C
cflag_check -pipe -I. && _pipe="-pipe" && echores "yes" || echores "no"
# Checking for CFLAGS
if test -z "$CFLAGS" ; then
if test "$cc_vendor" = "intel" ; then
CFLAGS="$_opt $_debug $_pipe"
WARNFLAGS="-wd167 -wd556 -wd144"
elif test "$cc_vendor" = "clang"; then
CFLAGS="$_opt $_debug $_pipe"
WARNFLAGS="-Wall -Wno-switch -Wno-logical-op-parentheses -Wpointer-arith -Wundef -Wno-pointer-sign -Wmissing-prototypes -Wshadow -Wempty-body"
ERRORFLAGS="-Werror=implicit-function-declaration -Wno-error=deprecated-declarations -Wno-error=unused-function"
elif test "$cc_vendor" != "gnu" ; then
CFLAGS="$_opt $_debug $_pipe"
else
CFLAGS="$_opt $_debug $_pipe"
WARNFLAGS="-Wall -Wno-switch -Wno-parentheses -Wpointer-arith -Wredundant-decls"
ERRORFLAGS="-Werror-implicit-function-declaration -Wno-error=deprecated-declarations -Wno-error=unused-function -Wshadow -Wempty-body"
extra_ldflags="$extra_ldflags"
fi
else
warn_cflags=yes
fi
if test "$cc_vendor" = "gnu" ; then
cflag_check -Wundef && WARNFLAGS="-Wundef $WARNFLAGS"
# -std=c99 is not a warning flag but is placed in WARN_CFLAGS because
# that's the only variable specific to C now, and this option is not valid
# for C++.
cflag_check -std=c99 && WARN_CFLAGS="-std=c99 $WARN_CFLAGS"
cflag_check -Wno-pointer-sign && WARN_CFLAGS="-Wno-pointer-sign $WARN_CFLAGS"
cflag_check -Wdisabled-optimization && WARN_CFLAGS="-Wdisabled-optimization $WARN_CFLAGS"
cflag_check -Wmissing-prototypes && WARN_CFLAGS="-Wmissing-prototypes $WARN_CFLAGS"
cflag_check -Wstrict-prototypes && WARN_CFLAGS="-Wstrict-prototypes $WARN_CFLAGS"
else
CFLAGS="-D_ISOC99_SOURCE -D_BSD_SOURCE $CFLAGS"
fi
cflag_check -MD -MP && DEPFLAGS="-MD -MP"
if test -n "$LDFLAGS" ; then
extra_ldflags="$extra_ldflags $LDFLAGS"
warn_cflags=yes
elif test "$cc_vendor" = "intel" ; then
extra_ldflags="$extra_ldflags -i-static"
fi
if test -n "$CPPFLAGS" ; then
extra_cflags="$extra_cflags $CPPFLAGS"
warn_cflags=yes
fi
echocheck "PIC"
pic=no
cat > $TMPC << EOF
int main(void) {
#if !(defined(__PIC__) || defined(__pic__) || defined(PIC))
#error PIC not enabled
#endif
return 0;
}
EOF
cc_check && pic=yes && extra_cflags="$extra_cflags -DPIC"
echores $pic
if x86 ; then
echocheck "ebx availability"
ebx_available=no
def_ebx_available='#define HAVE_EBX_AVAILABLE 0'
cat > $TMPC << EOF
int main(void) {
int x;
__asm__ volatile(
"xor %0, %0"
:"=b"(x)
// just adding ebx to clobber list seems unreliable with some
// compilers, e.g. Haiku's gcc 2.95
);
// and the above check does not work for OSX 64 bit...
__asm__ volatile("":::"%ebx");
return 0;
}
EOF
cc_check && ebx_available=yes && def_ebx_available='#define HAVE_EBX_AVAILABLE 1'
echores $ebx_available
fi #if x86
######################
# MAIN TESTS GO HERE #
######################
echocheck "-lm"
if cflag_check -lm ; then
_ld_lm="-lm"
echores "yes"
else
_ld_lm=""
echores "no"
fi
echocheck "nanosleep"
_nanosleep=no
statement_check time.h 'nanosleep(0, 0)' && _nanosleep=yes
if test "$_nanosleep" = yes ; then
def_nanosleep='#define HAVE_NANOSLEEP 1'
else
def_nanosleep='#define HAVE_NANOSLEEP 0'
fi
echores "$_nanosleep"
echocheck "mman.h"
_mman=no
statement_check sys/mman.h 'mmap(0, 0, 0, 0, 0, 0)' && _mman=yes
if test "$_mman" = yes ; then
def_mman_h='#define HAVE_SYS_MMAN_H 1'
else
def_mman_h='#define HAVE_SYS_MMAN_H 0'
fi
echores "$_mman"
echocheck "dynamic loader"
_dl=no
for _ld_tmp in "" "-ldl"; do
statement_check dlfcn.h 'dlopen("", 0)' $_ld_tmp && _ld_dl="$_ld_tmp" && _dl=yes && break
done
if test "$_dl" = yes ; then
def_dl='#define HAVE_LIBDL 1'
else
def_dl='#define HAVE_LIBDL 0'
fi
echores "$_dl"
echocheck "pthread"
def_pthreads='#define HAVE_PTHREADS 0'
if linux ; then
THREAD_CFLAGS=-D_REENTRANT
Remove compile time/runtime CPU detection, and drop some platforms mplayer had three ways of enabling CPU specific assembler routines: a) Enable them at compile time; crash if the CPU can't handle it. b) Enable them at compile time, but let the configure script detect your CPU. Your binary will only crash if you try to run it on a different system that has less features than yours. This was the default, I think. c) Runtime detection. The implementation of b) and c) suck. a) is not really feasible (it sucks for users). Remove all code related to this, and use libav's CPU detection instead. Now the configure script will always enable CPU specific features, and disable them at runtime if libav reports them not as available. One implication is that now the compiler is always expected to handle SSE (etc.) inline assembly at runtime, unless it's explicitly disabled. Only checks for x86 CPU specific features are kept, the rest is either unused or barely used. Get rid of all the dump -mpcu, -march etc. flags. Trust the compiler to select decent settings. Get rid of support for the following operating systems: - BSD/OS (some ancient BSD fork) - QNX (don't care) - BeOS (dead, Haiku support is still welcome) - AIX (don't care) - HP-UX (don't care) - OS/2 (dead, actual support has been removed a while ago) Remove the configure code for detecting the endianness. Instead, use the standard header <endian.h>, which can be used if _GNU_SOURCE or _BSD_SOURCE is defined. (Maybe these changes should have been in a separate commit.) Since this is a quite violent code removal orgy, and I'm testing only on x86 32 bit Linux, expect regressions.
2012-07-29 17:20:57 +02:00
elif freebsd || netbsd || openbsd ; then
THREAD_CFLAGS=-D_THREAD_SAFE
fi
if test "$_pthreads" = auto ; then
cat > $TMPC << EOF
#include <pthread.h>
configure: fix warnings in check programs Mark local functions in configure tests as static; fixes the warnings: tmp.c:1: warning: no previous prototype for 'foo' tmp.c:2: warning: no previous prototype for 'func' tmp.c:3: warning: no previous prototype for 'catch' git-svn-id: svn://svn.mplayerhq.hu/mplayer/trunk@32228 b3059339-0415-0410-9bf9-f77b7e298cf2 Add some missing headers to configure checks; fixes the warnings: tmp.c:3: warning: implicit declaration of function 'exit' tmp.c:6: warning: implicit declaration of function 'printf' tmp.c:4: warning: implicit declaration of function 'printf' git-svn-id: svn://svn.mplayerhq.hu/mplayer/trunk@32229 b3059339-0415-0410-9bf9-f77b7e298cf2 Fix parameter types in swab() check; fixes the warnings: tmp.c:3: warning: null argument where non-null required (argument 1) tmp.c:3: warning: null argument where non-null required (argument 2) git-svn-id: svn://svn.mplayerhq.hu/mplayer/trunk@32230 b3059339-0415-0410-9bf9-f77b7e298cf2 Remove unnecessary extern declarations from aalib check; fixes the warnings: tmp.c:2: warning: redundant redeclaration of 'aa_defparams' tmp.c:3: warning: redundant redeclaration of 'aa_defrenderparams' git-svn-id: svn://svn.mplayerhq.hu/mplayer/trunk@32231 b3059339-0415-0410-9bf9-f77b7e298cf2 Remove bogus cast from configure check; fixes the warning: tmp.c:21: warning: passing argument 2 of 'iconv' from incompatible pointer type git-svn-id: svn://svn.mplayerhq.hu/mplayer/trunk@32233 b3059339-0415-0410-9bf9-f77b7e298cf2 Initialize variable in libspeex configure check; fixes the warning: tmp.c:2: warning: 'dec' is used uninitialized in this function git-svn-id: svn://svn.mplayerhq.hu/mplayer/trunk@32237 b3059339-0415-0410-9bf9-f77b7e298cf2 Initialize variable in giflib check; fixes the warning: tmp.c:5: warning: 'gif.UserData' is used uninitialized in this function git-svn-id: svn://svn.mplayerhq.hu/mplayer/trunk@32242 b3059339-0415-0410-9bf9-f77b7e298cf2 Cast return value to long instead of int in byte order check. This avoids the following warning on 64 bit systems: tmp.c:3: warning: cast from pointer to integer of different size git-svn-id: svn://svn.mplayerhq.hu/mplayer/trunk@32250 b3059339-0415-0410-9bf9-f77b7e298cf2
2010-09-14 11:41:32 +02:00
static void *func(void *arg) { return arg; }
int main(void) {
pthread_t tid;
#ifdef PTW32_STATIC_LIB
pthread_win32_process_attach_np();
pthread_win32_thread_attach_np();
#endif
return pthread_create (&tid, 0, func, 0) != 0;
}
EOF
_pthreads=no
Remove compile time/runtime CPU detection, and drop some platforms mplayer had three ways of enabling CPU specific assembler routines: a) Enable them at compile time; crash if the CPU can't handle it. b) Enable them at compile time, but let the configure script detect your CPU. Your binary will only crash if you try to run it on a different system that has less features than yours. This was the default, I think. c) Runtime detection. The implementation of b) and c) suck. a) is not really feasible (it sucks for users). Remove all code related to this, and use libav's CPU detection instead. Now the configure script will always enable CPU specific features, and disable them at runtime if libav reports them not as available. One implication is that now the compiler is always expected to handle SSE (etc.) inline assembly at runtime, unless it's explicitly disabled. Only checks for x86 CPU specific features are kept, the rest is either unused or barely used. Get rid of all the dump -mpcu, -march etc. flags. Trust the compiler to select decent settings. Get rid of support for the following operating systems: - BSD/OS (some ancient BSD fork) - QNX (don't care) - BeOS (dead, Haiku support is still welcome) - AIX (don't care) - HP-UX (don't care) - OS/2 (dead, actual support has been removed a while ago) Remove the configure code for detecting the endianness. Instead, use the standard header <endian.h>, which can be used if _GNU_SOURCE or _BSD_SOURCE is defined. (Maybe these changes should have been in a separate commit.) Since this is a quite violent code removal orgy, and I'm testing only on x86 32 bit Linux, expect regressions.
2012-07-29 17:20:57 +02:00
for _ld_tmp in "-lpthreadGC2" "" "-lpthread" "-pthread" ; do
# for crosscompilation, we cannot execute the program, be happy if we can link statically
cc_check $THREAD_CFLAGS $_ld_tmp && (tmp_run || test "$_ld_static") && _ld_pthread="$_ld_tmp" && _pthreads=yes && break
done
if test "$_pthreads" = no && mingw32 ; then
_ld_tmp="-lpthreadGC2 -lws2_32"
cc_check $_ld_tmp -DPTW32_STATIC_LIB && (tmp_run || test "$_ld_static") && _ld_pthread="$_ld_tmp" && _pthreads=yes && CFLAGS="$CFLAGS -DPTW32_STATIC_LIB"
fi
fi
if test "$_pthreads" = yes ; then
test "$_ld_pthread" && res_comment="using $_ld_pthread"
def_pthreads='#define HAVE_PTHREADS 1'
extra_cflags="$extra_cflags $THREAD_CFLAGS"
else
2013-01-13 16:20:59 +01:00
res_comment="v4l2 disabled"
def_pthreads='#define HAVE_PTHREADS 0'
2013-01-13 16:20:59 +01:00
_tv_v4l2=no
fi
echores "$_pthreads"
if test "$_pthreads" = no ; then
die "Unable to find pthreads support."
fi
echocheck "compiler support for __atomic built-ins"
_atomic=no
for _ld_tmp in "" "-latomic" ; do
statement_check stdint.h 'int64_t test = 0; test = __atomic_add_fetch(&test, 1, __ATOMIC_SEQ_CST)' $_ld_tmp &&
libs_mplayer="$libs_mplayer $_ld_tmp" && _atomic=yes && break
done
if test "$_atomic" = yes ; then
def_atomic="#define HAVE_ATOMIC_BUILTINS 1"
else
def_atomic="#define HAVE_ATOMIC_BUILTINS 0"
fi
echores "$_atomic"
if test "$_atomic" = no ; then
echocheck "compiler support for __sync built-ins"
_sync=no
statement_check stdint.h 'int64_t test = 0; test = __sync_add_and_fetch(&test, 1)' && _sync=yes
if test "$_sync" = yes ; then
def_sync="#define HAVE_SYNC_BUILTINS 1"
else
def_sync="#define HAVE_SYNC_BUILTINS 0"
fi
echores "$_sync"
else
def_sync="#define HAVE_SYNC_BUILTINS 0"
fi
if test "$_atomic" = no && test "$_sync" = no ; then
2014-01-01 21:44:05 +01:00
die "your compiler must support either __atomic or __sync built-ins."
fi
if test "$_pthreads" = yes ; then
# Cargo-cult for -lrt, which is needed on not so recent glibc version for
# clock_gettime. It's documented as required before before glibc 2.17, which
# was released in december 2012. On newer glibc versions or on other systems,
# this will hopefully do nothing.
echocheck "linking with -lrt"
_rt=no
cc_check "$_ld_pthread -lrt" && _rt=yes
if test "$_rt" = yes ; then
_ld_pthread="$_ld_pthread -lrt"
fi
echores "$_rt"
fi
echocheck "stream cache"
_stream_cache="$_pthreads"
if test "$_stream_cache" = yes ; then
def_stream_cache='#define HAVE_STREAM_CACHE 1'
else
def_stream_cache='#define HAVE_STREAM_CACHE 0'
fi
echores "$_stream_cache"
echocheck "rpath"
if test "$_rpath" = yes ; then
for I in $(echo $extra_ldflags | sed 's/-L//g') ; do
tmp="$tmp $(echo $I | sed 's/.*/ -L& -Wl,-R&/')"
done
extra_ldflags=$tmp
fi
echores "$_rpath"
echocheck "iconv"
if test "$_iconv" = auto ; then
cat > $TMPC << EOF
#include <stdio.h>
#include <unistd.h>
#include <iconv.h>
#define INBUFSIZE 1024
#define OUTBUFSIZE 4096
char inbuffer[INBUFSIZE];
char outbuffer[OUTBUFSIZE];
int main(void) {
size_t numread;
iconv_t icdsc;
char *tocode="UTF-8";
char *fromcode="cp1250";
if ((icdsc = iconv_open(tocode, fromcode)) != (iconv_t)(-1)) {
while ((numread = read(0, inbuffer, INBUFSIZE))) {
char *iptr=inbuffer;
char *optr=outbuffer;
size_t inleft=numread;
size_t outleft=OUTBUFSIZE;
configure: fix warnings in check programs Mark local functions in configure tests as static; fixes the warnings: tmp.c:1: warning: no previous prototype for 'foo' tmp.c:2: warning: no previous prototype for 'func' tmp.c:3: warning: no previous prototype for 'catch' git-svn-id: svn://svn.mplayerhq.hu/mplayer/trunk@32228 b3059339-0415-0410-9bf9-f77b7e298cf2 Add some missing headers to configure checks; fixes the warnings: tmp.c:3: warning: implicit declaration of function 'exit' tmp.c:6: warning: implicit declaration of function 'printf' tmp.c:4: warning: implicit declaration of function 'printf' git-svn-id: svn://svn.mplayerhq.hu/mplayer/trunk@32229 b3059339-0415-0410-9bf9-f77b7e298cf2 Fix parameter types in swab() check; fixes the warnings: tmp.c:3: warning: null argument where non-null required (argument 1) tmp.c:3: warning: null argument where non-null required (argument 2) git-svn-id: svn://svn.mplayerhq.hu/mplayer/trunk@32230 b3059339-0415-0410-9bf9-f77b7e298cf2 Remove unnecessary extern declarations from aalib check; fixes the warnings: tmp.c:2: warning: redundant redeclaration of 'aa_defparams' tmp.c:3: warning: redundant redeclaration of 'aa_defrenderparams' git-svn-id: svn://svn.mplayerhq.hu/mplayer/trunk@32231 b3059339-0415-0410-9bf9-f77b7e298cf2 Remove bogus cast from configure check; fixes the warning: tmp.c:21: warning: passing argument 2 of 'iconv' from incompatible pointer type git-svn-id: svn://svn.mplayerhq.hu/mplayer/trunk@32233 b3059339-0415-0410-9bf9-f77b7e298cf2 Initialize variable in libspeex configure check; fixes the warning: tmp.c:2: warning: 'dec' is used uninitialized in this function git-svn-id: svn://svn.mplayerhq.hu/mplayer/trunk@32237 b3059339-0415-0410-9bf9-f77b7e298cf2 Initialize variable in giflib check; fixes the warning: tmp.c:5: warning: 'gif.UserData' is used uninitialized in this function git-svn-id: svn://svn.mplayerhq.hu/mplayer/trunk@32242 b3059339-0415-0410-9bf9-f77b7e298cf2 Cast return value to long instead of int in byte order check. This avoids the following warning on 64 bit systems: tmp.c:3: warning: cast from pointer to integer of different size git-svn-id: svn://svn.mplayerhq.hu/mplayer/trunk@32250 b3059339-0415-0410-9bf9-f77b7e298cf2
2010-09-14 11:41:32 +02:00
if (iconv(icdsc, &iptr, &inleft, &optr, &outleft)
!= (size_t)(-1)) {
write(1, outbuffer, OUTBUFSIZE - outleft);
}
}
if (iconv_close(icdsc) == -1)
;
}
return 0;
}
EOF
_iconv=no
for _ld_tmp in "" "-liconv" "-liconv $_ld_dl" ; do
cc_check $_ld_lm $_ld_tmp && libs_mplayer="$libs_mplayer $_ld_tmp" &&
_iconv=yes && break
done
if test "$_iconv" != yes ; then
die "Unable to find iconv which should be part of standard compilation environment. Aborting. If you really mean to compile without iconv support use --disable-iconv."
fi
fi
if test "$_iconv" = yes ; then
def_iconv='#define HAVE_ICONV 1'
else
def_iconv='#define HAVE_ICONV 0'
fi
echores "$_iconv"
echocheck "soundcard.h"
_soundcard_h=no
def_soundcard_h='#define HAVE_SOUNDCARD_H 0'
def_sys_soundcard_h='#define HAVE_SYS_SOUNDCARD_H 0'
for _soundcard_header in "sys/soundcard.h" "soundcard.h"; do
header_check $_soundcard_header && _soundcard_h=yes &&
res_comment="$_soundcard_header" && break
done
if test "$_soundcard_h" = yes ; then
if test $_soundcard_header = "sys/soundcard.h"; then
def_sys_soundcard_h='#define HAVE_SYS_SOUNDCARD_H 1'
else
def_soundcard_h='#define HAVE_SOUNDCARD_H 1'
fi
fi
echores "$_soundcard_h"
echocheck "sys/videoio.h"
sys_videoio_h=no
def_sys_videoio_h='#define HAVE_SYS_VIDEOIO_H 0'
header_check sys/videoio.h && sys_videoio_h=yes &&
def_sys_videoio_h='#define HAVE_SYS_VIDEOIO_H 1'
echores "$sys_videoio_h"
echocheck "terminfo"
if test "$_terminfo" = auto ; then
_terminfo=no
for _ld_tmp in "-lncurses" "-lncursesw"; do
statement_check term.h 'setupterm(0, 1, 0)' $_ld_tmp &&
libs_mplayer="$libs_mplayer $_ld_tmp" && _terminfo=yes && break
done
fi
if test "$_terminfo" = yes ; then
def_terminfo='#define HAVE_TERMINFO 1'
test $_ld_tmp && res_comment="using $_ld_tmp"
if test "$_termcap" = auto ; then
_termcap=yes # terminfo provides termcap
fi
else
def_terminfo='#define HAVE_TERMINFO 0'
fi
echores "$_terminfo"
echocheck "termcap"
if test "$_termcap" = auto ; then
_termcap=no
for _ld_tmp in "-lncurses" "-ltinfo" "-ltermcap"; do
statement_check term.h 'tgetent(0, 0)' $_ld_tmp &&
libs_mplayer="$libs_mplayer $_ld_tmp" && _termcap=yes && break
done
fi
if test "$_termcap" = yes ; then
def_termcap='#define HAVE_TERMCAP 1'
test $_ld_tmp && res_comment="using $_ld_tmp"
else
def_termcap='#define HAVE_TERMCAP 0'
fi
echores "$_termcap"
echocheck "termios"
def_termios='#define HAVE_TERMIOS 0'
def_termios_h='#define HAVE_TERMIOS_H 0'
def_termios_sys_h='#define HAVE_SYS_TERMIOS_H 0'
if test "$_termios" = auto ; then
_termios=no
for _termios_header in "termios.h" "sys/termios.h"; do
header_check $_termios_header && _termios=yes &&
res_comment="using $_termios_header" && break
done
fi
if test "$_termios" = yes ; then
def_termios='#define HAVE_TERMIOS 1'
if test "$_termios_header" = "termios.h" ; then
def_termios_h='#define HAVE_TERMIOS_H 1'
else
def_termios_sys_h='#define HAVE_SYS_TERMIOS_H 1'
fi
fi
echores "$_termios"
echocheck "shm"
if test "$_shm" = auto ; then
cat > $TMPC << EOF
#include <sys/types.h>
#include <sys/ipc.h>
#include <sys/shm.h>
int main(void) {
shmget(0, 0, 0);
shmat(0, 0, 0);
shmctl(0, 0, 0);
return 0;
}
EOF
_shm=no
cc_check && _shm=yes
fi
if test "$_shm" = yes ; then
def_shm='#define HAVE_SHM 1'
else
def_shm='#define HAVE_SHM 0'
fi
echores "$_shm"
echocheck "POSIX select()"
cat > $TMPC << EOF
#include <stdio.h>
#include <stdlib.h>
#include <sys/types.h>
#include <string.h>
#include <sys/time.h>
#include <unistd.h>
int main(void) {int nfds = 1; fd_set readfds; struct timeval timeout; select(nfds, &readfds, NULL, NULL, &timeout); return 0; }
EOF
_posix_select=no
def_posix_select='#define HAVE_POSIX_SELECT 0'
2012-04-06 15:58:39 +02:00
cc_check && _posix_select=yes &&
def_posix_select='#define HAVE_POSIX_SELECT 1'
echores "$_posix_select"
echocheck "audio select()"
if test "$_select" = no ; then
def_select='#define HAVE_AUDIO_SELECT 0'
elif test "$_select" = yes ; then
def_select='#define HAVE_AUDIO_SELECT 1'
fi
echores "$_select"
echocheck "glob()"
_glob=no
statement_check glob.h 'glob("filename", 0, 0, 0)' && _glob=yes
need_glob=no
if test "$_glob" = yes ; then
def_glob='#define HAVE_GLOB 1'
else
def_glob='#define HAVE_GLOB 0'
# HACK! need_glob currently enables compilation of a
# win32-specific glob()-replacement.
# Other OS neither need it nor can they use it (mf:// is disabled for them).
win32 && need_glob=yes
fi
echores "$_glob"
echocheck "setmode()"
_setmode=no
def_setmode='#define HAVE_SETMODE 0'
statement_check io.h 'setmode(0, 0)' && _setmode=yes && def_setmode='#define HAVE_SETMODE 1'
echores "$_setmode"
echocheck "sys/sysinfo.h"
_sys_sysinfo=no
statement_check sys/sysinfo.h 'struct sysinfo s_info; s_info.mem_unit=0; sysinfo(&s_info)' && _sys_sysinfo=yes
if test "$_sys_sysinfo" = yes ; then
def_sys_sysinfo_h='#define HAVE_SYS_SYSINFO_H 1'
else
def_sys_sysinfo_h='#define HAVE_SYS_SYSINFO_H 0'
fi
echores "$_sys_sysinfo"
echocheck "pkg-config"
if $($_pkg_config --version > /dev/null 2>&1); then
if test "$_ld_static"; then
_pkg_config="$_pkg_config --static"
fi
echores "yes"
else
_pkg_config=false
echores "no"
fi
echocheck "libguess support"
if test "$_libguess" = auto ; then
_libguess=no
if pkg_config_add 'libguess >= 1.0' ; then
_libguess=yes
fi
fi
if test "$_libguess" = yes; then
def_libguess="#define HAVE_LIBGUESS 1"
else
def_libguess="#define HAVE_LIBGUESS 0"
fi
echores "$_libguess"
echocheck "Samba support (libsmbclient)"
if test "$_smb" = auto ; then
_smb=no
if pkg_config_add 'smbclient >= 0.2.0' ; then
_smb=yes
fi
fi
if test "$_smb" = yes; then
def_smb="#define HAVE_LIBSMBCLIENT 1"
inputmodules="smb $inputmodules"
else
def_smb="#define HAVE_LIBSMBCLIENT 0"
noinputmodules="smb $noinputmodules"
fi
echores "$_smb"
echocheck "libquvi 0.4.x support"
if test "$_libquvi4" = auto ; then
_libquvi4=no
if pkg_config_add 'libquvi >= 0.4.1' ; then
_libquvi4=yes
fi
fi
echores "$_libquvi4"
echocheck "libquvi 0.9.x support"
if test "$_libquvi4" = yes ; then
_libquvi9=no
res_comment="using libquvi 0.4.x"
fi
if test "$_libquvi9" = auto ; then
_libquvi9=no
if pkg_config_add 'libquvi-0.9 >= 0.9.0' ; then
_libquvi9=yes
fi
fi
echores "$_libquvi9"
if test "$_libquvi9" = yes || test "$_libquvi4" = yes; then
def_libquvi9="#define HAVE_LIBQUVI 1"
else
def_libquvi9="#define HAVE_LIBQUVI 0"
fi
#########
# VIDEO #
#########
if darwin; then
echocheck "Cocoa"
if test "$_cocoa" = auto ; then
cat > $TMPC <<EOF
#include <CoreServices/CoreServices.h>
#include <OpenGL/OpenGL.h>
int main(void) {
NSApplicationLoad();
}
EOF
_cocoa=no
cc_check -framework IOKit -framework Cocoa -framework OpenGL && _cocoa=yes
fi
if test "$_cocoa" = yes ; then
libs_mplayer="$libs_mplayer -framework IOKit -framework Cocoa -framework OpenGL"
extra_ldflags="$extra_ldflags -fobjc-arc" # needed for OS X 10.7
def_cocoa='#define HAVE_COCOA 1'
else
def_cocoa='#define HAVE_COCOA 0'
fi
echores "$_cocoa"
echocheck "CoreVideo"
if test "$_cocoa" = yes && test "$_corevideo" = auto ; then
cat > $TMPC <<EOF
#include <QuartzCore/CoreVideo.h>
int main(void) { return 0; }
EOF
_corevideo=no
cc_check -framework Cocoa -framework QuartzCore -framework OpenGL && _corevideo=yes
fi
if test "$_corevideo" = yes ; then
vomodules="corevideo $vomodules"
libs_mplayer="$libs_mplayer -framework QuartzCore"
def_corevideo='#define HAVE_COREVIDEO 1'
else
novomodules="corevideo $novomodules"
def_corevideo='#define HAVE_COREVIDEO 0'
fi
echores "$_corevideo"
depends_on_application_services(){
test "$_corevideo" = yes
}
else
def_cocoa='#define HAVE_COCOA 0'
def_corevideo='#define HAVE_COREVIDEO 0'
fi #if darwin
_wlver="1.2.0"
echocheck "Wayland"
2013-09-03 19:31:10 +02:00
if test "$_wayland" = yes || test "$_wayland" = auto; then
_wayland="no"
2013-09-03 19:31:10 +02:00
pkg_config_add "wayland-client >= $_wlver wayland-cursor >= $_wlver xkbcommon >= 0.3.0" \
&& _wayland="yes"
fi
if test "$_wayland" = yes; then
res_comment=""
2013-11-04 21:24:00 +01:00
def_wayland='#define HAVE_WAYLAND 1'
vomodules="wayland $vomodules"
else
2013-09-03 19:31:10 +02:00
res_comment="version >= $_wlver"
def_wayland='#define HAVE_WAYLAND 0'
novomodules="wayland $novomodules"
fi
echores "$_wayland"
2013-09-03 19:31:10 +02:00
unset _wlver
echocheck "X11"
if test "$_x11" = auto ; then
_x11="no"
pkg_config_add "x11" && _x11="yes"
fi
if test "$_x11" = yes ; then
def_x11='#define HAVE_X11 1'
vomodules="x11 $vomodules"
else
_x11=no
def_x11='#define HAVE_X11 0'
novomodules="x11 $novomodules"
res_comment="check if the dev(el) packages are installed"
fi
echores "$_x11"
echocheck "Xss screensaver extensions"
if test "$_xss" = auto ; then
_xss=no
statement_check "X11/extensions/scrnsaver.h" 'XScreenSaverSuspend(NULL, True)' -lXss && _xss=yes
fi
if test "$_xss" = yes ; then
def_xss='#define HAVE_XSS 1'
libs_mplayer="$libs_mplayer -lXss"
else
def_xss='#define HAVE_XSS 0'
fi
echores "$_xss"
echocheck "X extensions"
_xext=no
if test "$_x11" = yes ; then
pkg_config_add "xext" && _xext="yes"
fi
if test "$_xext" = yes ; then
def_xext='#define HAVE_XEXT 1'
echores "yes"
else
def_xext='#define HAVE_XEXT 0'
echores "no"
fi
echocheck "Xv"
if test "$_xv" = auto && test "$_x11" = yes ; then
_xv=no
statement_check_broken X11/Xlib.h X11/extensions/Xvlib.h 'XvGetPortAttribute(0, 0, 0, 0)' -lXv && _xv=yes
fi
if test "$_xv" = yes ; then
def_xv='#define HAVE_XV 1'
libs_mplayer="$libs_mplayer -lXv"
vomodules="xv $vomodules"
else
def_xv='#define HAVE_XV 0'
novomodules="xv $novomodules"
fi
echores "$_xv"
echocheck "VDPAU"
if test "$_vdpau" = auto && test "$_x11" = yes ; then
_vdpau=no
if test "$_dl" = yes ; then
pkg_config_add 'vdpau >= 0.2' && _vdpau=yes
fi
fi
if test "$_vdpau" = yes ; then
def_vdpau='#define HAVE_VDPAU 1'
def_vdpau_hwaccel='#define HAVE_VDPAU_HWACCEL 1'
vomodules="vdpau $vomodules"
else
def_vdpau='#define HAVE_VDPAU 0'
def_vdpau_hwaccel='#define HAVE_VDPAU_HWACCEL 0'
novomodules="vdpau $novomodules"
fi
echores "$_vdpau"
video: add vaapi decode and output support This is based on the MPlayer VA API patches. To be exact it's based on a very stripped down version of commit f1ad459a263f8537f6c from git://gitorious.org/vaapi/mplayer.git. This doesn't contain useless things like benchmarking hacks and the demo code for GLX interop. Also, unlike in the original patch, decoding and video output are split into separate source files (the separation between decoding and display also makes pixel format hacks unnecessary). On the other hand, some features not present in the original patch were added, like screenshot support. VA API is rather bad for actual video output. Dealing with older libva versions or the completely broken vdpau backend doesn't help. OSD is low quality and should be rather slow. In some cases, only either OSD or subtitles can be shown at the same time (because OSD is drawn first, OSD is prefered). Also, libva can't decide whether it accepts straight or premultiplied alpha for OSD sub-pictures: the vdpau backend seems to assume premultiplied, while a native vaapi driver uses straight. So I picked straight alpha. It doesn't matter much, because the blending code for straight alpha I added to img_convert.c is probably buggy, and ASS subtitles might be blended incorrectly. Really good video output with VA API would probably use OpenGL and the GL interop features, but at this point you might just use vo_opengl. (Patches for making HW decoding with vo_opengl have a chance of being accepted.) Despite these issues, decoding seems to work ok. I still got tearing on the Intel system I tested (Intel(R) Core(TM) i3-2350M). It was also tested with the vdpau vaapi wrapper on a nvidia system; however this was rather broken. (Fortunately, there is no reason to use mpv's VAAPI support over native VDPAU.)
2013-08-09 14:01:30 +02:00
echocheck "VAAPI"
_vaapi_vpp=no
def_vaapi_vpp='#define HAVE_VAAPI_VPP 0'
_vaapi_glx=no
def_vaapi_glx='#define HAVE_VAAPI_GLX 0'
video: add vaapi decode and output support This is based on the MPlayer VA API patches. To be exact it's based on a very stripped down version of commit f1ad459a263f8537f6c from git://gitorious.org/vaapi/mplayer.git. This doesn't contain useless things like benchmarking hacks and the demo code for GLX interop. Also, unlike in the original patch, decoding and video output are split into separate source files (the separation between decoding and display also makes pixel format hacks unnecessary). On the other hand, some features not present in the original patch were added, like screenshot support. VA API is rather bad for actual video output. Dealing with older libva versions or the completely broken vdpau backend doesn't help. OSD is low quality and should be rather slow. In some cases, only either OSD or subtitles can be shown at the same time (because OSD is drawn first, OSD is prefered). Also, libva can't decide whether it accepts straight or premultiplied alpha for OSD sub-pictures: the vdpau backend seems to assume premultiplied, while a native vaapi driver uses straight. So I picked straight alpha. It doesn't matter much, because the blending code for straight alpha I added to img_convert.c is probably buggy, and ASS subtitles might be blended incorrectly. Really good video output with VA API would probably use OpenGL and the GL interop features, but at this point you might just use vo_opengl. (Patches for making HW decoding with vo_opengl have a chance of being accepted.) Despite these issues, decoding seems to work ok. I still got tearing on the Intel system I tested (Intel(R) Core(TM) i3-2350M). It was also tested with the vdpau vaapi wrapper on a nvidia system; however this was rather broken. (Fortunately, there is no reason to use mpv's VAAPI support over native VDPAU.)
2013-08-09 14:01:30 +02:00
if test "$_vaapi" = auto && test "$_x11" = yes ; then
_vaapi=no
if test "$_dl" = yes ; then
pkg_config_add 'libva >= 0.32.0 libva-x11 >= 0.32.0' && _vaapi=yes
fi
fi
if test "$_vaapi" = yes ; then
def_vaapi='#define HAVE_VAAPI 1'
def_vaapi_hwaccel='#define HAVE_VAAPI_HWACCEL 1'
video: add vaapi decode and output support This is based on the MPlayer VA API patches. To be exact it's based on a very stripped down version of commit f1ad459a263f8537f6c from git://gitorious.org/vaapi/mplayer.git. This doesn't contain useless things like benchmarking hacks and the demo code for GLX interop. Also, unlike in the original patch, decoding and video output are split into separate source files (the separation between decoding and display also makes pixel format hacks unnecessary). On the other hand, some features not present in the original patch were added, like screenshot support. VA API is rather bad for actual video output. Dealing with older libva versions or the completely broken vdpau backend doesn't help. OSD is low quality and should be rather slow. In some cases, only either OSD or subtitles can be shown at the same time (because OSD is drawn first, OSD is prefered). Also, libva can't decide whether it accepts straight or premultiplied alpha for OSD sub-pictures: the vdpau backend seems to assume premultiplied, while a native vaapi driver uses straight. So I picked straight alpha. It doesn't matter much, because the blending code for straight alpha I added to img_convert.c is probably buggy, and ASS subtitles might be blended incorrectly. Really good video output with VA API would probably use OpenGL and the GL interop features, but at this point you might just use vo_opengl. (Patches for making HW decoding with vo_opengl have a chance of being accepted.) Despite these issues, decoding seems to work ok. I still got tearing on the Intel system I tested (Intel(R) Core(TM) i3-2350M). It was also tested with the vdpau vaapi wrapper on a nvidia system; however this was rather broken. (Fortunately, there is no reason to use mpv's VAAPI support over native VDPAU.)
2013-08-09 14:01:30 +02:00
vomodules="vaapi $vomodules"
else
def_vaapi='#define HAVE_VAAPI 0'
def_vaapi_hwaccel='#define HAVE_VAAPI_HWACCEL 0'
video: add vaapi decode and output support This is based on the MPlayer VA API patches. To be exact it's based on a very stripped down version of commit f1ad459a263f8537f6c from git://gitorious.org/vaapi/mplayer.git. This doesn't contain useless things like benchmarking hacks and the demo code for GLX interop. Also, unlike in the original patch, decoding and video output are split into separate source files (the separation between decoding and display also makes pixel format hacks unnecessary). On the other hand, some features not present in the original patch were added, like screenshot support. VA API is rather bad for actual video output. Dealing with older libva versions or the completely broken vdpau backend doesn't help. OSD is low quality and should be rather slow. In some cases, only either OSD or subtitles can be shown at the same time (because OSD is drawn first, OSD is prefered). Also, libva can't decide whether it accepts straight or premultiplied alpha for OSD sub-pictures: the vdpau backend seems to assume premultiplied, while a native vaapi driver uses straight. So I picked straight alpha. It doesn't matter much, because the blending code for straight alpha I added to img_convert.c is probably buggy, and ASS subtitles might be blended incorrectly. Really good video output with VA API would probably use OpenGL and the GL interop features, but at this point you might just use vo_opengl. (Patches for making HW decoding with vo_opengl have a chance of being accepted.) Despite these issues, decoding seems to work ok. I still got tearing on the Intel system I tested (Intel(R) Core(TM) i3-2350M). It was also tested with the vdpau vaapi wrapper on a nvidia system; however this was rather broken. (Fortunately, there is no reason to use mpv's VAAPI support over native VDPAU.)
2013-08-09 14:01:30 +02:00
novomodules="vaapi $novomodules"
fi
2013-08-12 02:14:00 +02:00
echores "$_vaapi"
video: add vaapi decode and output support This is based on the MPlayer VA API patches. To be exact it's based on a very stripped down version of commit f1ad459a263f8537f6c from git://gitorious.org/vaapi/mplayer.git. This doesn't contain useless things like benchmarking hacks and the demo code for GLX interop. Also, unlike in the original patch, decoding and video output are split into separate source files (the separation between decoding and display also makes pixel format hacks unnecessary). On the other hand, some features not present in the original patch were added, like screenshot support. VA API is rather bad for actual video output. Dealing with older libva versions or the completely broken vdpau backend doesn't help. OSD is low quality and should be rather slow. In some cases, only either OSD or subtitles can be shown at the same time (because OSD is drawn first, OSD is prefered). Also, libva can't decide whether it accepts straight or premultiplied alpha for OSD sub-pictures: the vdpau backend seems to assume premultiplied, while a native vaapi driver uses straight. So I picked straight alpha. It doesn't matter much, because the blending code for straight alpha I added to img_convert.c is probably buggy, and ASS subtitles might be blended incorrectly. Really good video output with VA API would probably use OpenGL and the GL interop features, but at this point you might just use vo_opengl. (Patches for making HW decoding with vo_opengl have a chance of being accepted.) Despite these issues, decoding seems to work ok. I still got tearing on the Intel system I tested (Intel(R) Core(TM) i3-2350M). It was also tested with the vdpau vaapi wrapper on a nvidia system; however this was rather broken. (Fortunately, there is no reason to use mpv's VAAPI support over native VDPAU.)
2013-08-09 14:01:30 +02:00
if test "$_vaapi" = yes ; then
echocheck "VAAPI VPP"
if pkg-config 'libva >= 0.34.0' ; then
_vaapi_vpp=yes
def_vaapi_vpp='#define HAVE_VAAPI_VPP 1'
fi
echores "$_vaapi_glx"
echocheck "VAAPI GLX"
if pkg_config_add 'libva-glx >= 0.32.0' ; then
_vaapi_glx=yes
def_vaapi_glx='#define HAVE_VAAPI_GLX 1'
fi
echores "$_vaapi_glx"
fi
video: add vaapi decode and output support This is based on the MPlayer VA API patches. To be exact it's based on a very stripped down version of commit f1ad459a263f8537f6c from git://gitorious.org/vaapi/mplayer.git. This doesn't contain useless things like benchmarking hacks and the demo code for GLX interop. Also, unlike in the original patch, decoding and video output are split into separate source files (the separation between decoding and display also makes pixel format hacks unnecessary). On the other hand, some features not present in the original patch were added, like screenshot support. VA API is rather bad for actual video output. Dealing with older libva versions or the completely broken vdpau backend doesn't help. OSD is low quality and should be rather slow. In some cases, only either OSD or subtitles can be shown at the same time (because OSD is drawn first, OSD is prefered). Also, libva can't decide whether it accepts straight or premultiplied alpha for OSD sub-pictures: the vdpau backend seems to assume premultiplied, while a native vaapi driver uses straight. So I picked straight alpha. It doesn't matter much, because the blending code for straight alpha I added to img_convert.c is probably buggy, and ASS subtitles might be blended incorrectly. Really good video output with VA API would probably use OpenGL and the GL interop features, but at this point you might just use vo_opengl. (Patches for making HW decoding with vo_opengl have a chance of being accepted.) Despite these issues, decoding seems to work ok. I still got tearing on the Intel system I tested (Intel(R) Core(TM) i3-2350M). It was also tested with the vdpau vaapi wrapper on a nvidia system; however this was rather broken. (Fortunately, there is no reason to use mpv's VAAPI support over native VDPAU.)
2013-08-09 14:01:30 +02:00
echocheck "Xinerama"
if test "$_xinerama" = auto && test "$_x11" = yes ; then
_xinerama=no
statement_check X11/extensions/Xinerama.h 'XineramaIsActive(0)' -lXinerama && _xinerama=yes
fi
if test "$_xinerama" = yes ; then
def_xinerama='#define HAVE_XINERAMA 1'
libs_mplayer="$libs_mplayer -lXinerama"
else
def_xinerama='#define HAVE_XINERAMA 0'
fi
echores "$_xinerama"
# Note: the -lXxf86vm library is the VideoMode extension and though it's not
# needed for DGA, AFAIK every distribution packages together with DGA stuffs
# named 'X extensions' or something similar.
# This check may be useful for future mplayer versions (to change resolution)
# If you run into problems, remove '-lXxf86vm'.
echocheck "Xxf86vm"
if test "$_vm" = auto && test "$_x11" = yes ; then
_vm=no
statement_check_broken X11/Xlib.h X11/extensions/xf86vmode.h 'XF86VidModeQueryExtension(0, 0, 0)' -lXxf86vm && _vm=yes
fi
if test "$_vm" = yes ; then
def_vm='#define HAVE_XF86VM 1'
libs_mplayer="$libs_mplayer -lXxf86vm"
else
def_vm='#define HAVE_XF86VM 0'
fi
echores "$_vm"
# Check for the presence of special keycodes, like audio control buttons
# that XFree86 might have. Used to be bundled with the xf86vm check, but
# has nothing to do with xf86vm and XFree 3.x has xf86vm but does NOT
# have these new keycodes.
echocheck "XF86keysym"
if test "$_xf86keysym" = auto && test "$_x11" = yes ; then
_xf86keysym=no
return_check X11/XF86keysym.h XF86XK_AudioPause && _xf86keysym=yes
fi
if test "$_xf86keysym" = yes ; then
def_xf86keysym='#define HAVE_XF86XK 1'
else
def_xf86keysym='#define HAVE_XF86XK 0'
fi
echores "$_xf86keysym"
echocheck "CACA"
if test "$_caca" = auto ; then
_caca=no
pkg_config_add 'caca >= 0.99.beta18' && _caca=yes
fi
if test "$_caca" = yes ; then
def_caca='#define HAVE_CACA 1'
vomodules="caca $vomodules"
else
def_caca='#define HAVE_CACA 0'
novomodules="caca $novomodules"
fi
echores "$_caca"
echocheck "DVB"
if test "$_dvb" = auto ; then
_dvb=no
cat >$TMPC << EOF
#include <poll.h>
#include <sys/ioctl.h>
#include <stdio.h>
#include <time.h>
#include <unistd.h>
#include <linux/dvb/dmx.h>
#include <linux/dvb/frontend.h>
#include <linux/dvb/video.h>
#include <linux/dvb/audio.h>
int main(void) {return 0;}
EOF
for _inc_tmp in "" "-I/usr/src/DVB/include" ; do
cc_check $_inc_tmp && _dvb=yes &&
extra_cflags="$extra_cflags $_inc_tmp" && break
done
fi
echores "$_dvb"
if test "$_dvb" = yes ; then
_dvbin=yes
inputmodules="dvb $inputmodules"
def_dvb='#define HAVE_DVB 1'
def_dvbin='#define HAVE_DVBIN 1'
else
_dvbin=no
noinputmodules="dvb $noinputmodules"
def_dvb='#define HAVE_DVB 0'
def_dvbin='#define HAVE_DVBIN 0 '
fi
echocheck "JPEG support"
if test "$_jpeg" = auto ; then
_jpeg=no
header_check_broken stdio.h jpeglib.h -ljpeg $_ld_lm && _jpeg=yes
fi
echores "$_jpeg"
if test "$_jpeg" = yes ; then
def_jpeg='#define HAVE_JPEG 1'
libs_mplayer="$libs_mplayer -ljpeg"
else
def_jpeg='#define HAVE_JPEG 0'
fi
#################
# VIDEO + AUDIO #
#################
# make sure this stays below CoreVideo to avoid issues due to namespace
# conflicts between -lGL and -framework OpenGL
echocheck "OpenGL"
#Note: this test is run even with --enable-gl since we autodetect linker flags
if (test "$_x11" = yes || test "$_wayland" = yes || test "$_cocoa" = yes || win32) && test "$_gl" != no ; then
cat > $TMPC << EOF
#ifdef GL_WIN32
#include <windows.h>
#elif defined(GL_WAYLAND)
#include <EGL/egl.h>
#else
#include <X11/Xlib.h>
#include <GL/glx.h>
#endif
#include <GL/gl.h>
int main(int argc, char *argv[]) {
#ifdef GL_WIN32
HDC dc;
wglCreateContext(dc);
#elif defined(GL_WAYLAND)
eglCreateContext(NULL, NULL, EGL_NO_CONTEXT, NULL);
#else
glXCreateContext(NULL, NULL, NULL, True);
#endif
glFinish();
return 0;
}
EOF
_gl=no
if test "$_x11" = yes ; then
for _ld_tmp in "" -lGL "-lGL -lXdamage" "-lGL $_ld_pthread" ; do
if cc_check $_ld_tmp $_ld_lm ; then
_gl=yes
_gl_x11=yes
libs_mplayer="$libs_mplayer $_ld_tmp $_ld_dl"
break
fi
done
fi
if test "$_wayland" = yes && cc_check -DGL_WAYLAND -lGL -lEGL &&
pkg_config_add "wayland-egl >= 9.0.0"; then
_gl=yes
_gl_wayland=yes
libs_mplayer="$libs_mplayer -lGL -lEGL"
fi
if win32 && cc_check -DGL_WIN32 -lopengl32 ; then
_gl=yes
_gl_win32=yes
libs_mplayer="$libs_mplayer -lopengl32 -lgdi32"
fi
if test "$_cocoa" = yes ; then
_gl=yes
_gl_cocoa=yes
fi
cat > $TMPC << EOF
#ifdef __APPLE__
#include <OpenGL/gl.h>
#include <OpenGL/glext.h>
#else
#include <GL/gl.h>
#include <GL/glext.h>
#endif
int main(int argc, char *argv[]) {
return !GL_INVALID_FRAMEBUFFER_OPERATION;
}
EOF
if ! cc_check; then
_gl=no
_gl_x11=no
_gl_wayland=no
_gl_win32=no
_gl_cocoa=no
res_comment="missing glext.h, get from http://www.opengl.org/registry/api/glext.h"
fi
else
_gl=no
fi
def_gl_cocoa='#define HAVE_GL_COCOA 0'
def_gl_win32='#define HAVE_GL_WIN32 0'
def_gl_x11='#define HAVE_GL_X11 0'
def_gl_wayland='#define HAVE_GL_WAYLAND 0'
if test "$_gl" = yes ; then
def_gl='#define HAVE_GL 1'
res_comment="backends:"
if test "$_gl_cocoa" = yes ; then
def_gl_cocoa='#define HAVE_GL_COCOA 1'
res_comment="$res_comment cocoa"
fi
if test "$_gl_win32" = yes ; then
def_gl_win32='#define HAVE_GL_WIN32 1'
res_comment="$res_comment win32"
fi
if test "$_gl_x11" = yes ; then
def_gl_x11='#define HAVE_GL_X11 1'
res_comment="$res_comment x11"
fi
if test "$_gl_wayland" = yes ; then
2013-11-04 21:24:00 +01:00
def_gl_wayland='#define HAVE_GL_WAYLAND 1'
res_comment="$res_comment wayland"
fi
vomodules="opengl $vomodules"
else
def_gl='#define HAVE_GL 0'
novomodules="opengl $novomodules"
fi
echores "$_gl"
echocheck "VDPAU with OpenGL/X11"
if test "$_gl_x11" = yes && test "$_vdpau" = yes ; then
def_vdpau_gl_x11='#define HAVE_VDPAU_GL_X11 1'
_vdpau_gl_x11=yes
else
def_vdpau_gl_x11='#define HAVE_VDPAU_GL_X11 0'
_vdpau_gl_x11=no
fi
echores "$_vdpau_gl_x11"
if win32; then
echocheck "Direct3D"
if test "$_direct3d" = auto ; then
_direct3d=no
header_check d3d9.h && _direct3d=yes
fi
if test "$_direct3d" = yes ; then
def_direct3d='#define HAVE_DIRECT3D 1'
vomodules="direct3d $vomodules"
else
def_direct3d='#define HAVE_DIRECT3D 0'
novomodules="direct3d $novomodules"
fi
echores "$_direct3d"
echocheck "DirectSound"
if test "$_dsound" = auto ; then
_dsound=no
header_check dsound.h && _dsound=yes
fi
if test "$_dsound" = yes ; then
def_dsound='#define HAVE_DSOUND 1'
aomodules="dsound $aomodules"
else
def_dsound='#define HAVE_DSOUND 0'
noaomodules="dsound $noaomodules"
fi
echores "$_dsound"
echocheck "WASAPI"
if test "$_wasapi" = auto ; then
_wasapi=no
cat > $TMPC << EOF
#define COBJMACROS 1
#define _WIN32_WINNT 0x600
#include <malloc.h>
#include <stdlib.h>
#include <process.h>
#include <initguid.h>
#include <audioclient.h>
#include <endpointvolume.h>
#include <mmdeviceapi.h>
#include <avrt.h>
const GUID *check1[] = {
&IID_IAudioClient,
&IID_IAudioRenderClient,
&IID_IAudioClient,
&IID_IAudioEndpointVolume,
};
int main(void) {
return 0;
}
EOF
2013-06-26 14:44:46 +02:00
if cc_check "-lole32"; then
_wasapi="yes"
fi
fi
if test "$_wasapi" = yes ; then
def_wasapi='#define HAVE_WASAPI 1'
aomodules="wasapi $aomodules"
2013-06-26 14:44:46 +02:00
libs_mplayer="$libs_mplayer -lole32"
else
def_wasapi='#define HAVE_WASAPI 0'
noaomodules="wasapi $noaomodules"
fi
echores "$_wasapi"
else
def_direct3d='#define HAVE_DIRECT3D 0'
def_dsound='#define HAVE_DSOUND 0'
def_wasapi='#define HAVE_WASAPI 0'
fi #if win32; then
echocheck "SDL 2.0"
if test "$_sdl2" = yes ; then
pkg_config_add 'sdl2' && _sdl2=yes
fi
if test "$_sdl2" = yes ; then
_sdl=yes # sdl2 implies sdl
def_sdl='#define HAVE_SDL1 1'
def_sdl2='#define HAVE_SDL2 1'
vomodules="sdl $vomodules"
aomodules="sdl $aomodules"
echores "$_sdl2"
else
def_sdl2='#define HAVE_SDL2 0'
echores "$_sdl2"
echocheck "SDL"
if test "$_sdl" = yes ; then
pkg_config_add 'sdl' && _sdl=yes
fi
if test "$_sdl" = yes ; then
def_sdl='#define HAVE_SDL1 1'
novomodules="sdl $novomodules"
aomodules="sdl $aomodules"
else
def_sdl='#define HAVE_SDL1 0'
novomodules="sdl $novomodules"
noaomodules="sdl $noaomodules"
fi
echores "$_sdl"
fi
#########
# AUDIO #
#########
echocheck "OSS Audio"
if test "$_ossaudio" = auto ; then
_ossaudio=no
return_check $_soundcard_header SNDCTL_DSP_SETFRAGMENT && _ossaudio=yes
fi
if test "$_ossaudio" = yes ; then
def_ossaudio='#define HAVE_OSS_AUDIO 1'
aomodules="oss $aomodules"
cat > $TMPC << EOF
#include <$_soundcard_header>
#ifdef OPEN_SOUND_SYSTEM
int main(void) { return 0; }
#else
#error Not the real thing
#endif
EOF
_real_ossaudio=no
cc_check && _real_ossaudio=yes
if test "$_real_ossaudio" = yes; then
def_ossaudio_devdsp='#define PATH_DEV_DSP "/dev/dsp"'
# Check for OSS4 headers (override default headers)
# Does not apply to systems where OSS4 is native (e.g. FreeBSD)
if test -f /etc/oss.conf; then
. /etc/oss.conf
_ossinc="$OSSLIBDIR/include"
if test -f "$_ossinc/sys/soundcard.h"; then
extra_cflags="-I$_ossinc $extra_cflags"
fi
fi
elif netbsd || openbsd ; then
def_ossaudio_devdsp='#define PATH_DEV_DSP "/dev/sound"'
libs_mplayer="$libs_mplayer -lossaudio"
else
def_ossaudio_devdsp='#define PATH_DEV_DSP "/dev/dsp"'
fi
def_ossaudio_devmixer='#define PATH_DEV_MIXER "/dev/mixer"'
else
def_ossaudio='#define HAVE_OSS_AUDIO 0'
def_ossaudio_devdsp='#define PATH_DEV_DSP ""'
def_ossaudio_devmixer='#define PATH_DEV_MIXER ""'
noaomodules="oss $noaomodules"
fi
echores "$_ossaudio"
echocheck "RSound"
if test "$_rsound" = auto ; then
_rsound=no
statement_check rsound.h 'rsd_init(NULL);' -lrsound && _rsound=yes
fi
echores "$_rsound"
if test "$_rsound" = yes ; then
def_rsound='#define HAVE_RSOUND 1'
aomodules="rsound $aomodules"
libs_mplayer="$libs_mplayer -lrsound"
else
def_rsound='#define HAVE_RSOUND 0'
noaomodules="rsound $noaomodules"
fi
echocheck "sndio"
if test "$_sndio" = auto ; then
_sndio=no
statement_check sndio.h 'struct sio_par par; sio_initpar(&par); const char *s = SIO_DEVANY' -lsndio && _sndio=yes
fi
echores "$_sndio"
if test "$_sndio" = yes ; then
def_sndio='#define HAVE_SNDIO 1'
aomodules="sndio $_aomodules"
libs_mplayer="$libs_mplayer -lsndio"
else
def_sndio='#define HAVE_SNDIO 0'
noaomodules="sndio $_noaomodules"
fi
echocheck "pulse"
if test "$_pulse" = auto ; then
_pulse=no
if pkg_config_add 'libpulse >= 0.9' ; then
_pulse=yes
fi
fi
echores "$_pulse"
if test "$_pulse" = yes ; then
def_pulse='#define HAVE_PULSE 1'
aomodules="pulse $aomodules"
else
def_pulse='#define HAVE_PULSE 0'
noaomodules="pulse $noaomodules"
fi
echocheck "PortAudio"
if test "$_portaudio" = auto && test "$_pthreads" != yes ; then
_portaudio=no
res_comment="pthreads not enabled"
fi
if test "$_portaudio" = auto ; then
_portaudio=no
if pkg_config_add 'portaudio-2.0 >= 19' ; then
_portaudio=yes
fi
fi
echores "$_portaudio"
if test "$_portaudio" = yes ; then
def_portaudio='#define HAVE_PORTAUDIO 1'
aomodules="portaudio $aomodules"
else
def_portaudio='#define HAVE_PORTAUDIO 0'
noaomodules="portaudio $noaomodules"
fi
echocheck "JACK"
if test "$_jack" = auto ; then
_jack=no
if pkg_config_add jack ; then
_jack=yes
fi
fi
if test "$_jack" = yes ; then
def_jack='#define HAVE_JACK 1'
aomodules="jack $aomodules"
else
def_jack='#define HAVE_JACK 0'
noaomodules="jack $noaomodules"
fi
echores "$_jack"
echocheck "OpenAL"
if test "$_openal" = auto ; then
_openal=no
if pkg_config_add 'openal >= 1.13' ; then
_openal=yes
fi
fi
echores "$_openal"
if test "$_openal" = yes ; then
def_openal='#define HAVE_OPENAL 1'
aomodules="openal $aomodules"
else
def_openal='#define HAVE_OPENAL 0'
noaomodules="openal $noaomodules"
fi
echocheck "ALSA audio"
if test "$_alsa" = auto ; then
_alsa=no
if pkg_config_add "alsa >= 1.0.9" ; then
_alsa=yes
fi
fi
def_alsa='#define HAVE_ALSA 0'
if test "$_alsa" = yes ; then
aomodules="alsa $aomodules"
def_alsa='#define HAVE_ALSA 1'
else
noaomodules="alsa $noaomodules"
fi
echores "$_alsa"
def_coreaudio='#define HAVE_COREAUDIO 0'
if darwin; then
echocheck "CoreAudio"
if test "$_coreaudio" = auto ; then
cat > $TMPC <<EOF
#include <CoreAudio/CoreAudio.h>
#include <AudioToolbox/AudioToolbox.h>
#include <AudioUnit/AudioUnit.h>
int main(void) { return 0; }
EOF
_coreaudio=no
cc_check -framework CoreAudio -framework AudioUnit -framework AudioToolbox && _coreaudio=yes
fi
if test "$_coreaudio" = yes ; then
libs_mplayer="$libs_mplayer -framework CoreAudio -framework AudioUnit -framework AudioToolbox"
def_coreaudio='#define HAVE_COREAUDIO 1'
aomodules="coreaudio $aomodules"
else
def_coreaudio='#define HAVE_COREAUDIO 0'
noaomodules="coreaudio $noaomodules"
fi
echores $_coreaudio
fi #if darwin
# set default CD/DVD devices
2012-04-06 15:58:39 +02:00
if win32 ; then
default_cdrom_device="D:"
elif darwin ; then
default_cdrom_device="/dev/disk1"
elif dragonfly ; then
default_cdrom_device="/dev/cd0"
elif freebsd ; then
default_cdrom_device="/dev/cd0"
elif openbsd ; then
default_cdrom_device="/dev/rcd0c"
else
default_cdrom_device="/dev/cdrom"
fi
Remove compile time/runtime CPU detection, and drop some platforms mplayer had three ways of enabling CPU specific assembler routines: a) Enable them at compile time; crash if the CPU can't handle it. b) Enable them at compile time, but let the configure script detect your CPU. Your binary will only crash if you try to run it on a different system that has less features than yours. This was the default, I think. c) Runtime detection. The implementation of b) and c) suck. a) is not really feasible (it sucks for users). Remove all code related to this, and use libav's CPU detection instead. Now the configure script will always enable CPU specific features, and disable them at runtime if libav reports them not as available. One implication is that now the compiler is always expected to handle SSE (etc.) inline assembly at runtime, unless it's explicitly disabled. Only checks for x86 CPU specific features are kept, the rest is either unused or barely used. Get rid of all the dump -mpcu, -march etc. flags. Trust the compiler to select decent settings. Get rid of support for the following operating systems: - BSD/OS (some ancient BSD fork) - QNX (don't care) - BeOS (dead, Haiku support is still welcome) - AIX (don't care) - HP-UX (don't care) - OS/2 (dead, actual support has been removed a while ago) Remove the configure code for detecting the endianness. Instead, use the standard header <endian.h>, which can be used if _GNU_SOURCE or _BSD_SOURCE is defined. (Maybe these changes should have been in a separate commit.) Since this is a quite violent code removal orgy, and I'm testing only on x86 32 bit Linux, expect regressions.
2012-07-29 17:20:57 +02:00
if win32 || dragonfly || freebsd || openbsd ; then
default_dvd_device=$default_cdrom_device
elif darwin ; then
default_dvd_device="/dev/rdiskN"
else
default_dvd_device="/dev/dvd"
fi
echocheck "VCD support"
if test "$_vcd" = auto; then
_vcd=no
Remove compile time/runtime CPU detection, and drop some platforms mplayer had three ways of enabling CPU specific assembler routines: a) Enable them at compile time; crash if the CPU can't handle it. b) Enable them at compile time, but let the configure script detect your CPU. Your binary will only crash if you try to run it on a different system that has less features than yours. This was the default, I think. c) Runtime detection. The implementation of b) and c) suck. a) is not really feasible (it sucks for users). Remove all code related to this, and use libav's CPU detection instead. Now the configure script will always enable CPU specific features, and disable them at runtime if libav reports them not as available. One implication is that now the compiler is always expected to handle SSE (etc.) inline assembly at runtime, unless it's explicitly disabled. Only checks for x86 CPU specific features are kept, the rest is either unused or barely used. Get rid of all the dump -mpcu, -march etc. flags. Trust the compiler to select decent settings. Get rid of support for the following operating systems: - BSD/OS (some ancient BSD fork) - QNX (don't care) - BeOS (dead, Haiku support is still welcome) - AIX (don't care) - HP-UX (don't care) - OS/2 (dead, actual support has been removed a while ago) Remove the configure code for detecting the endianness. Instead, use the standard header <endian.h>, which can be used if _GNU_SOURCE or _BSD_SOURCE is defined. (Maybe these changes should have been in a separate commit.) Since this is a quite violent code removal orgy, and I'm testing only on x86 32 bit Linux, expect regressions.
2012-07-29 17:20:57 +02:00
if linux || freebsd || netbsd || openbsd || dragonfly || darwin ; then
_vcd=yes
elif mingw32; then
header_check_broken windows.h ntddcdrm.h && _vcd=yes
fi
fi
if test "$_vcd" = yes; then
inputmodules="vcd $inputmodules"
def_vcd='#define HAVE_VCD 1'
else
def_vcd='#define HAVE_VCD 0'
noinputmodules="vcd $noinputmodules"
res_comment="not supported on this OS"
fi
echores "$_vcd"
echocheck "Blu-ray support"
if test "$_bluray" = auto ; then
_bluray=no
pkg_config_add 'libbluray >= 0.2.1' && _bluray=yes
fi
if test "$_bluray" = yes ; then
def_bluray='#define HAVE_LIBBLURAY 1'
inputmodules="bluray $inputmodules"
else
def_bluray='#define HAVE_LIBBLURAY 0'
noinputmodules="bluray $noinputmodules"
fi
echores "$_bluray"
echocheck "dvdread"
if test "$_dvdread" = auto ; then
_dvdread=no
pkg_config_add 'dvdread >= 4.1.0' && _dvdread=yes
fi
if test "$_dvdread" = yes ; then
def_dvdread='#define HAVE_DVDREAD 1'
inputmodules="dvdread $inputmodules"
else
def_dvdread='#define HAVE_DVDREAD 0'
noinputmodules="dvdread $noinputmodules"
fi
echores "$_dvdread"
echocheck "dvdnav"
if test "$_dvdnav" = auto ; then
_dvdnav=no
pkg_config_add 'dvdnav >= 4.2.0' && _dvdnav=yes
fi
if test "$_dvdnav" = yes ; then
def_dvdnav='#define HAVE_DVDNAV 1'
inputmodules="dvdnav $inputmodules"
else
def_dvdnav='#define HAVE_DVDNAV 0'
noinputmodules="dvdnav $noinputmodules"
fi
echores "$_dvdnav"
echocheck "libcdio"
if test "$_libcdio" = auto ; then
_libcdio=no
if pkg_config_add 'libcdio_paranoia' ; then
_libcdio=yes
fi
fi
if test "$_libcdio" = yes ; then
_cdda='yes'
def_cdda='#define HAVE_CDDA 1'
inputmodules="cdda $inputmodules"
else
_libcdio=no
_cdda='no'
def_cdda='#define HAVE_CDDA 0'
noinputmodules="cdda $noinputmodules"
fi
echores "$_libcdio"
osd: use libass for OSD rendering The OSD will now be rendered with libass. The old rendering code, which used freetype/fontconfig and did text layout manually, is disabled. To re-enable the old code, use the --disable-libass-osd configure switch. Some switches do nothing with the new code enabled, such as -subalign, -sub-bg-alpha, -sub-bg-color, and many more. (The reason is mostly that the code for rendering unstyled subtitles with libass doesn't make any attempts to support them. Some of them could be supported in theory.) Teletext rendering is not implemented in the new OSD rendering code. I don't have any teletext sources for testing, and since teletext is being phased out world-wide, the need for this is questionable. Note that rendering is extremely inefficient, mostly because the libass output is blended with the extremely strange mplayer OSD format. This could be improved at a later point. Remove most OSD rendering from vo_aa.c, because that was extremely hacky, can't be made work with osd_libass, and didn't work anyway in my tests. Internally, some cleanup is done. Subtitle and OSD related variable declarations were literally all over the place. Move them to sub.h and sub.c, which were hoarding most of these declarations already. Make the player core in mplayer.c free of concerns like bitmap font loading. The old OSD rendering code has been moved to osd_ft.c. The font_load.c and font_load_ft.c are only needed and compiled if the old OSD rendering code is configured.
2012-03-22 06:26:37 +01:00
echocheck "SSA/ASS support"
if test "$_ass" = auto ; then
if pkg_config_add libass ; then
_ass=yes
def_ass='#define HAVE_LIBASS 1'
osd: use libass for OSD rendering The OSD will now be rendered with libass. The old rendering code, which used freetype/fontconfig and did text layout manually, is disabled. To re-enable the old code, use the --disable-libass-osd configure switch. Some switches do nothing with the new code enabled, such as -subalign, -sub-bg-alpha, -sub-bg-color, and many more. (The reason is mostly that the code for rendering unstyled subtitles with libass doesn't make any attempts to support them. Some of them could be supported in theory.) Teletext rendering is not implemented in the new OSD rendering code. I don't have any teletext sources for testing, and since teletext is being phased out world-wide, the need for this is questionable. Note that rendering is extremely inefficient, mostly because the libass output is blended with the extremely strange mplayer OSD format. This could be improved at a later point. Remove most OSD rendering from vo_aa.c, because that was extremely hacky, can't be made work with osd_libass, and didn't work anyway in my tests. Internally, some cleanup is done. Subtitle and OSD related variable declarations were literally all over the place. Move them to sub.h and sub.c, which were hoarding most of these declarations already. Make the player core in mplayer.c free of concerns like bitmap font loading. The old OSD rendering code has been moved to osd_ft.c. The font_load.c and font_load_ft.c are only needed and compiled if the old OSD rendering code is configured.
2012-03-22 06:26:37 +01:00
else
die "Unable to find development files for libass. Aborting. If you really mean to compile without libass support use --disable-libass."
fi
else
def_ass='#define HAVE_LIBASS 0'
osd: use libass for OSD rendering The OSD will now be rendered with libass. The old rendering code, which used freetype/fontconfig and did text layout manually, is disabled. To re-enable the old code, use the --disable-libass-osd configure switch. Some switches do nothing with the new code enabled, such as -subalign, -sub-bg-alpha, -sub-bg-color, and many more. (The reason is mostly that the code for rendering unstyled subtitles with libass doesn't make any attempts to support them. Some of them could be supported in theory.) Teletext rendering is not implemented in the new OSD rendering code. I don't have any teletext sources for testing, and since teletext is being phased out world-wide, the need for this is questionable. Note that rendering is extremely inefficient, mostly because the libass output is blended with the extremely strange mplayer OSD format. This could be improved at a later point. Remove most OSD rendering from vo_aa.c, because that was extremely hacky, can't be made work with osd_libass, and didn't work anyway in my tests. Internally, some cleanup is done. Subtitle and OSD related variable declarations were literally all over the place. Move them to sub.h and sub.c, which were hoarding most of these declarations already. Make the player core in mplayer.c free of concerns like bitmap font loading. The old OSD rendering code has been moved to osd_ft.c. The font_load.c and font_load_ft.c are only needed and compiled if the old OSD rendering code is configured.
2012-03-22 06:26:37 +01:00
fi
echores "$_ass"
echocheck "libass OSD support"
_dummy_osd=yes
osd: use libass for OSD rendering The OSD will now be rendered with libass. The old rendering code, which used freetype/fontconfig and did text layout manually, is disabled. To re-enable the old code, use the --disable-libass-osd configure switch. Some switches do nothing with the new code enabled, such as -subalign, -sub-bg-alpha, -sub-bg-color, and many more. (The reason is mostly that the code for rendering unstyled subtitles with libass doesn't make any attempts to support them. Some of them could be supported in theory.) Teletext rendering is not implemented in the new OSD rendering code. I don't have any teletext sources for testing, and since teletext is being phased out world-wide, the need for this is questionable. Note that rendering is extremely inefficient, mostly because the libass output is blended with the extremely strange mplayer OSD format. This could be improved at a later point. Remove most OSD rendering from vo_aa.c, because that was extremely hacky, can't be made work with osd_libass, and didn't work anyway in my tests. Internally, some cleanup is done. Subtitle and OSD related variable declarations were literally all over the place. Move them to sub.h and sub.c, which were hoarding most of these declarations already. Make the player core in mplayer.c free of concerns like bitmap font loading. The old OSD rendering code has been moved to osd_ft.c. The font_load.c and font_load_ft.c are only needed and compiled if the old OSD rendering code is configured.
2012-03-22 06:26:37 +01:00
if test "$_libass_osd" = auto ; then
_libass_osd=no
if test "$_ass" = yes ; then
_libass_osd=yes
_dummy_osd=no
osd: use libass for OSD rendering The OSD will now be rendered with libass. The old rendering code, which used freetype/fontconfig and did text layout manually, is disabled. To re-enable the old code, use the --disable-libass-osd configure switch. Some switches do nothing with the new code enabled, such as -subalign, -sub-bg-alpha, -sub-bg-color, and many more. (The reason is mostly that the code for rendering unstyled subtitles with libass doesn't make any attempts to support them. Some of them could be supported in theory.) Teletext rendering is not implemented in the new OSD rendering code. I don't have any teletext sources for testing, and since teletext is being phased out world-wide, the need for this is questionable. Note that rendering is extremely inefficient, mostly because the libass output is blended with the extremely strange mplayer OSD format. This could be improved at a later point. Remove most OSD rendering from vo_aa.c, because that was extremely hacky, can't be made work with osd_libass, and didn't work anyway in my tests. Internally, some cleanup is done. Subtitle and OSD related variable declarations were literally all over the place. Move them to sub.h and sub.c, which were hoarding most of these declarations already. Make the player core in mplayer.c free of concerns like bitmap font loading. The old OSD rendering code has been moved to osd_ft.c. The font_load.c and font_load_ft.c are only needed and compiled if the old OSD rendering code is configured.
2012-03-22 06:26:37 +01:00
fi
fi
echores "$_libass_osd"
echocheck "ENCA"
if test "$_enca" = auto ; then
_enca=no
statement_check enca.h 'enca_get_languages(NULL)' -lenca $_ld_lm && _enca=yes
fi
if test "$_enca" = yes ; then
def_enca='#define HAVE_ENCA 1'
libs_mplayer="$libs_mplayer -lenca"
else
def_enca='#define HAVE_ENCA 0'
fi
echores "$_enca"
echocheck "zlib"
_zlib=no
statement_check zlib.h 'inflate(0, Z_NO_FLUSH)' -lz && _zlib=yes
if test "$_zlib" = yes ; then
def_zlib='#define HAVE_ZLIB 1'
libs_mplayer="$libs_mplayer -lz"
else
die "Unable to find development files for zlib."
fi
echores "$_zlib"
echocheck "mpg123 support"
def_mpg123='#define HAVE_MPG123 0'
if test "$_mpg123" = auto; then
_mpg123=no
pkg_config_add 'libmpg123 >= 1.14.0' && _mpg123=yes
fi
if test "$_mpg123" = yes ; then
def_mpg123='#define HAVE_MPG123 1'
codecmodules="mpg123 $codecmodules"
else
nocodecmodules="mpg123 $nocodecmodules"
fi
echores "$_mpg123"
echocheck "LADSPA plugin support"
if test "$_ladspa" = auto ; then
_ladspa=no
if test "$_dl" = yes ; then
statement_check ladspa.h 'LADSPA_Descriptor ld = {0}' && _ladspa=yes
fi
fi
if test "$_ladspa" = yes; then
def_ladspa="#define HAVE_LADSPA 1"
else
def_ladspa="#define HAVE_LADSPA 0"
fi
echores "$_ladspa"
echocheck "libbs2b audio filter support"
if test "$_libbs2b" = auto ; then
_libbs2b=no
if pkg_config_add libbs2b ; then
_libbs2b=yes
fi
fi
def_libbs2b="#define HAVE_LIBBS2B 0"
test "$_libbs2b" = yes && def_libbs2b="#define HAVE_LIBBS2B 1"
echores "$_libbs2b"
echocheck "LCMS2 support"
if test "$_lcms2" = auto ; then
_lcms2=no
if pkg_config_add lcms2 ; then
_lcms2=yes
fi
fi
if test "$_lcms2" = yes; then
def_lcms2="#define HAVE_LCMS2 1"
else
def_lcms2="#define HAVE_LCMS2 0"
fi
echores "$_lcms2"
echocheck "VapurSynth support"
if test "$_vapoursynth" = auto ; then
_vapoursynth=no
if pkg_config_add 'vapoursynth >= 23 vapoursynth-script >= 23' ; then
_vapoursynth=yes
fi
fi
if test "$_vapoursynth" = yes ; then
def_vapoursynth="#define HAVE_VAPOURSYNTH 1"
else
def_vapoursynth="#define HAVE_VAPOURSYNTH 0"
fi
echores "$_vapoursynth"
all_libav_libs="libavutil >= 52.48.101:libavcodec >= 55.34.1:libavformat >= 55.12.0:libswscale >= 2.1.2"
echocheck "Libav ($all_libav_libs)"
if test "$ffmpeg" = auto ; then
IFS=":" # shell should not be used for programming
if ! pkg_config_add $all_libav_libs ; then
die "Unable to find development files for some of the required Libav libraries above. Aborting."
fi
fi
echores "yes"
_resampler=no
_avresample=no
def_libswresample='#define HAVE_LIBSWRESAMPLE 0'
def_libavresample='#define HAVE_LIBAVRESAMPLE 0'
echocheck "libavresample >= 1.1.0"
if test "$_disable_avresample" = no ; then
if pkg_config_add "libavresample >= 1.1.0" ; then
_resampler=yes
_avresample=yes
def_libavresample='#define HAVE_LIBAVRESAMPLE 1'
fi
fi
echores "$_resampler"
if test "$_resampler" = no ; then
echocheck "libswresample >= 0.17.104"
if pkg_config_add "libswresample >= 0.17.104" ; then
_resampler=yes
def_libswresample='#define HAVE_LIBSWRESAMPLE 1'
fi
echores "$_resampler"
fi
if test "$_resampler" = no ; then
die "No resampler found. Install libavresample or libswresample (FFmpeg)."
fi
vdpau: split off decoder parts, use "new" libavcodec vdpau hwaccel API Move the decoder parts from vo_vdpau.c to a new file vdpau_old.c. This file is named so because because it's written against the "old" libavcodec vdpau pseudo-decoder (e.g. "h264_vdpau"). Add support for the "new" libavcodec vdpau support. This was recently added and replaces the "old" vdpau parts. (In fact, Libav is about to deprecate and remove the "old" API without deprecation grace period, so we have to support it now. Moreover, there will probably be no Libav release which supports both, so the transition is even less smooth than we could hope, and we have to support both the old and new API.) Whether the old or new API is used is checked by a configure test: if the new API is found, it is used, otherwise the old API is assumed. Some details might be handled differently. Especially display preemption is a bit problematic with the "new" libavcodec vdpau support: it wants to keep a pointer to a specific vdpau API function (which can be driver specific, because preemption might switch drivers). Also, surface IDs are now directly stored in AVFrames (and mp_images), so they can't be forced to VDP_INVALID_HANDLE on preemption. (This changes even with older libavcodec versions, because mp_image always uses the newer representation to make vo_vdpau.c simpler.) Decoder initialization in the new code tries to deal with codec profiles, while the old code always uses the highest profile per codec. Surface allocation changes. Since the decoder won't call config() in vo_vdpau.c on video size change anymore, we allow allocating surfaces of arbitrary size instead of locking it to what the VO was configured. The non-hwdec code also has slightly different allocation behavior now. Enabling the old vdpau special decoders via e.g. --vd=lavc:h264_vdpau doesn't work anymore (a warning suggesting the --hwdec option is printed instead).
2013-07-28 01:49:45 +02:00
echocheck "libavcodec avcodec_enum_to_chroma_pos API"
_avcodec_has_chroma_pos_api=no
statement_check libavcodec/avcodec.h 'int x, y; avcodec_enum_to_chroma_pos(&x, &y, AVCHROMA_LOC_UNSPECIFIED)' && _avcodec_has_chroma_pos_api=yes
if test "$_avcodec_has_chroma_pos_api" = yes ; then
def_avcodec_has_chroma_pos_api='#define HAVE_AVCODEC_CHROMA_POS_API 1'
else
def_avcodec_has_chroma_pos_api='#define HAVE_AVCODEC_CHROMA_POS_API 0'
fi
echores "$_avcodec_has_chroma_pos_api"
echocheck "libavcodec metadata update side data"
_avcodec_has_metadata_update_side_data=no
statement_check libavcodec/avcodec.h 'enum AVPacketSideDataType type = AV_PKT_DATA_METADATA_UPDATE' && _avcodec_has_metadata_update_side_data=yes
if test "$_avcodec_has_metadata_update_side_data" = yes ; then
def_avcodec_has_metadata_update_side_data='#define HAVE_AVCODEC_METADATA_UPDATE_SIDE_DATA 1'
else
def_avcodec_has_metadata_update_side_data='#define HAVE_AVCODEC_METADATA_UPDATE_SIDE_DATA 0'
fi
echores "$_avcodec_has_metadata_update_side_data"
echocheck "libavcodec replaygain side data"
_avcodec_has_replaygain_side_data=no
statement_check libavcodec/avcodec.h 'enum AVPacketSideDataType type = AV_PKT_DATA_REPLAYGAIN' && _avcodec_has_replaygain_side_data=yes
if test "$_avcodec_has_replaygain_side_data" = yes ; then
def_avcodec_has_replaygain_side_data='#define HAVE_AVCODEC_REPLAYGAIN_SIDE_DATA 1'
else
def_avcodec_has_replaygain_side_data='#define HAVE_AVCODEC_REPLAYGAIN_SIDE_DATA 0'
fi
echores "$_avcodec_has_replaygain_side_data"
echocheck "libavutil AVFrame metadata"
_avutil_has_avframe_metadata=no
statement_check libavutil/frame.h 'av_frame_get_metadata(NULL)' && _avutil_has_avframe_metadata=yes
if test "$_avutil_has_avframe_metadata" = yes ; then
def_avutil_has_avframe_metadata='#define HAVE_AVFRAME_METADATA 1'
else
def_avutil_has_avframe_metadata='#define HAVE_AVFRAME_METADATA 0'
fi
echores "$_avutil_has_avframe_metadata"
echocheck "libavutil QP API"
_avutil_has_qp_api=no
statement_check libavutil/frame.h 'av_frame_get_qp_table(NULL, NULL, NULL)' && _avutil_has_qp_api=yes
if test "$_avutil_has_qp_api" = yes ; then
def_avutil_has_qp_api='#define HAVE_AVUTIL_QP_API 1'
else
def_avutil_has_qp_api='#define HAVE_AVUTIL_QP_API 0'
fi
echores "$_avutil_has_qp_api"
echocheck "libavfilter"
demux_lavf: add support for libavdevice libavdevice supports various "special" video and audio inputs, such as screen-capture or libavfilter filter graphs. libavdevice inputs are implemented as demuxers. They don't use the custom stream callbacks (in AVFormatContext.pb). Instead, input parameters are passed as filename. This means the mpv stream layer has to be disabled. Do this by adding the pseudo stream handler avdevice://, whose only purpose is passing the filename to demux_lavf, without actually doing anything. Change the logic how the filename is passed to libavformat. Remove handling of the filename from demux_open_lavf() and move it to lavf_check_file(). (This also fixes a possible bug when skipping the "lavf://" prefix.) libavdevice now can be invoked by specifying demuxer and args as in: mpv avdevice://demuxer:args The args are passed as filename to libavformat. When using libavdevice demuxers, their actual meaning is highly implementation specific. They don't refer to actual filenames. Note: libavdevice is disabled by default. There is one problem: libavdevice pulls in libavfilter, which in turn causes symbol clashes with mpv internals. The problem is that libavfilter includes a mplayer filter bridge, which is used to interface with a set of nearly unmodified mplayer filters copied into libavfilter. This filter bridge uses the same symbol names as mplayer/mpv's filter chain, which results in symbol clashes at link-time. This can be prevented by building ffmpeg with --disable-filter=mp, but unfortunately this is not the default. This means linking to libavdevice (which in turn forces linking with libavfilter by default) must be disabled. We try doing this by compiling a test file that defines one of the clashing symbols (vf_mpi_clear). To enable libavdevice input, ffmpeg should be built with the options: --disable-filter=mp and mpv with: --enable-libavdevice Originally, I tried to auto-detect it. But the resulting complications in configure did't seem worth the trouble.
2012-11-30 18:41:04 +01:00
if test "$libavfilter" = auto ; then
libavfilter=no
if pkg_config_add "libavfilter >= 3.90.100" ; then
demux_lavf: add support for libavdevice libavdevice supports various "special" video and audio inputs, such as screen-capture or libavfilter filter graphs. libavdevice inputs are implemented as demuxers. They don't use the custom stream callbacks (in AVFormatContext.pb). Instead, input parameters are passed as filename. This means the mpv stream layer has to be disabled. Do this by adding the pseudo stream handler avdevice://, whose only purpose is passing the filename to demux_lavf, without actually doing anything. Change the logic how the filename is passed to libavformat. Remove handling of the filename from demux_open_lavf() and move it to lavf_check_file(). (This also fixes a possible bug when skipping the "lavf://" prefix.) libavdevice now can be invoked by specifying demuxer and args as in: mpv avdevice://demuxer:args The args are passed as filename to libavformat. When using libavdevice demuxers, their actual meaning is highly implementation specific. They don't refer to actual filenames. Note: libavdevice is disabled by default. There is one problem: libavdevice pulls in libavfilter, which in turn causes symbol clashes with mpv internals. The problem is that libavfilter includes a mplayer filter bridge, which is used to interface with a set of nearly unmodified mplayer filters copied into libavfilter. This filter bridge uses the same symbol names as mplayer/mpv's filter chain, which results in symbol clashes at link-time. This can be prevented by building ffmpeg with --disable-filter=mp, but unfortunately this is not the default. This means linking to libavdevice (which in turn forces linking with libavfilter by default) must be disabled. We try doing this by compiling a test file that defines one of the clashing symbols (vf_mpi_clear). To enable libavdevice input, ffmpeg should be built with the options: --disable-filter=mp and mpv with: --enable-libavdevice Originally, I tried to auto-detect it. But the resulting complications in configure did't seem worth the trouble.
2012-11-30 18:41:04 +01:00
libavfilter=yes
fi
fi
if test "$libavfilter" = yes ; then
def_libavfilter='#define HAVE_LIBAVFILTER 1'
demux_lavf: add support for libavdevice libavdevice supports various "special" video and audio inputs, such as screen-capture or libavfilter filter graphs. libavdevice inputs are implemented as demuxers. They don't use the custom stream callbacks (in AVFormatContext.pb). Instead, input parameters are passed as filename. This means the mpv stream layer has to be disabled. Do this by adding the pseudo stream handler avdevice://, whose only purpose is passing the filename to demux_lavf, without actually doing anything. Change the logic how the filename is passed to libavformat. Remove handling of the filename from demux_open_lavf() and move it to lavf_check_file(). (This also fixes a possible bug when skipping the "lavf://" prefix.) libavdevice now can be invoked by specifying demuxer and args as in: mpv avdevice://demuxer:args The args are passed as filename to libavformat. When using libavdevice demuxers, their actual meaning is highly implementation specific. They don't refer to actual filenames. Note: libavdevice is disabled by default. There is one problem: libavdevice pulls in libavfilter, which in turn causes symbol clashes with mpv internals. The problem is that libavfilter includes a mplayer filter bridge, which is used to interface with a set of nearly unmodified mplayer filters copied into libavfilter. This filter bridge uses the same symbol names as mplayer/mpv's filter chain, which results in symbol clashes at link-time. This can be prevented by building ffmpeg with --disable-filter=mp, but unfortunately this is not the default. This means linking to libavdevice (which in turn forces linking with libavfilter by default) must be disabled. We try doing this by compiling a test file that defines one of the clashing symbols (vf_mpi_clear). To enable libavdevice input, ffmpeg should be built with the options: --disable-filter=mp and mpv with: --enable-libavdevice Originally, I tried to auto-detect it. But the resulting complications in configure did't seem worth the trouble.
2012-11-30 18:41:04 +01:00
else
def_libavfilter='#define HAVE_LIBAVFILTER 0'
demux_lavf: add support for libavdevice libavdevice supports various "special" video and audio inputs, such as screen-capture or libavfilter filter graphs. libavdevice inputs are implemented as demuxers. They don't use the custom stream callbacks (in AVFormatContext.pb). Instead, input parameters are passed as filename. This means the mpv stream layer has to be disabled. Do this by adding the pseudo stream handler avdevice://, whose only purpose is passing the filename to demux_lavf, without actually doing anything. Change the logic how the filename is passed to libavformat. Remove handling of the filename from demux_open_lavf() and move it to lavf_check_file(). (This also fixes a possible bug when skipping the "lavf://" prefix.) libavdevice now can be invoked by specifying demuxer and args as in: mpv avdevice://demuxer:args The args are passed as filename to libavformat. When using libavdevice demuxers, their actual meaning is highly implementation specific. They don't refer to actual filenames. Note: libavdevice is disabled by default. There is one problem: libavdevice pulls in libavfilter, which in turn causes symbol clashes with mpv internals. The problem is that libavfilter includes a mplayer filter bridge, which is used to interface with a set of nearly unmodified mplayer filters copied into libavfilter. This filter bridge uses the same symbol names as mplayer/mpv's filter chain, which results in symbol clashes at link-time. This can be prevented by building ffmpeg with --disable-filter=mp, but unfortunately this is not the default. This means linking to libavdevice (which in turn forces linking with libavfilter by default) must be disabled. We try doing this by compiling a test file that defines one of the clashing symbols (vf_mpi_clear). To enable libavdevice input, ffmpeg should be built with the options: --disable-filter=mp and mpv with: --enable-libavdevice Originally, I tried to auto-detect it. But the resulting complications in configure did't seem worth the trouble.
2012-11-30 18:41:04 +01:00
fi
echores "$libavfilter"
echocheck "libavdevice >= 54.0.0"
if test "$libavdevice" = auto ; then
libavdevice=no
if pkg_config_add "libavdevice >= 54.0.0" ; then
demux_lavf: add support for libavdevice libavdevice supports various "special" video and audio inputs, such as screen-capture or libavfilter filter graphs. libavdevice inputs are implemented as demuxers. They don't use the custom stream callbacks (in AVFormatContext.pb). Instead, input parameters are passed as filename. This means the mpv stream layer has to be disabled. Do this by adding the pseudo stream handler avdevice://, whose only purpose is passing the filename to demux_lavf, without actually doing anything. Change the logic how the filename is passed to libavformat. Remove handling of the filename from demux_open_lavf() and move it to lavf_check_file(). (This also fixes a possible bug when skipping the "lavf://" prefix.) libavdevice now can be invoked by specifying demuxer and args as in: mpv avdevice://demuxer:args The args are passed as filename to libavformat. When using libavdevice demuxers, their actual meaning is highly implementation specific. They don't refer to actual filenames. Note: libavdevice is disabled by default. There is one problem: libavdevice pulls in libavfilter, which in turn causes symbol clashes with mpv internals. The problem is that libavfilter includes a mplayer filter bridge, which is used to interface with a set of nearly unmodified mplayer filters copied into libavfilter. This filter bridge uses the same symbol names as mplayer/mpv's filter chain, which results in symbol clashes at link-time. This can be prevented by building ffmpeg with --disable-filter=mp, but unfortunately this is not the default. This means linking to libavdevice (which in turn forces linking with libavfilter by default) must be disabled. We try doing this by compiling a test file that defines one of the clashing symbols (vf_mpi_clear). To enable libavdevice input, ffmpeg should be built with the options: --disable-filter=mp and mpv with: --enable-libavdevice Originally, I tried to auto-detect it. But the resulting complications in configure did't seem worth the trouble.
2012-11-30 18:41:04 +01:00
libavdevice=yes
fi
fi
if test "$libavdevice" = yes ; then
def_libavdevice='#define HAVE_LIBAVDEVICE 1'
demux_lavf: add support for libavdevice libavdevice supports various "special" video and audio inputs, such as screen-capture or libavfilter filter graphs. libavdevice inputs are implemented as demuxers. They don't use the custom stream callbacks (in AVFormatContext.pb). Instead, input parameters are passed as filename. This means the mpv stream layer has to be disabled. Do this by adding the pseudo stream handler avdevice://, whose only purpose is passing the filename to demux_lavf, without actually doing anything. Change the logic how the filename is passed to libavformat. Remove handling of the filename from demux_open_lavf() and move it to lavf_check_file(). (This also fixes a possible bug when skipping the "lavf://" prefix.) libavdevice now can be invoked by specifying demuxer and args as in: mpv avdevice://demuxer:args The args are passed as filename to libavformat. When using libavdevice demuxers, their actual meaning is highly implementation specific. They don't refer to actual filenames. Note: libavdevice is disabled by default. There is one problem: libavdevice pulls in libavfilter, which in turn causes symbol clashes with mpv internals. The problem is that libavfilter includes a mplayer filter bridge, which is used to interface with a set of nearly unmodified mplayer filters copied into libavfilter. This filter bridge uses the same symbol names as mplayer/mpv's filter chain, which results in symbol clashes at link-time. This can be prevented by building ffmpeg with --disable-filter=mp, but unfortunately this is not the default. This means linking to libavdevice (which in turn forces linking with libavfilter by default) must be disabled. We try doing this by compiling a test file that defines one of the clashing symbols (vf_mpi_clear). To enable libavdevice input, ffmpeg should be built with the options: --disable-filter=mp and mpv with: --enable-libavdevice Originally, I tried to auto-detect it. But the resulting complications in configure did't seem worth the trouble.
2012-11-30 18:41:04 +01:00
else
def_libavdevice='#define HAVE_LIBAVDEVICE 0'
demux_lavf: add support for libavdevice libavdevice supports various "special" video and audio inputs, such as screen-capture or libavfilter filter graphs. libavdevice inputs are implemented as demuxers. They don't use the custom stream callbacks (in AVFormatContext.pb). Instead, input parameters are passed as filename. This means the mpv stream layer has to be disabled. Do this by adding the pseudo stream handler avdevice://, whose only purpose is passing the filename to demux_lavf, without actually doing anything. Change the logic how the filename is passed to libavformat. Remove handling of the filename from demux_open_lavf() and move it to lavf_check_file(). (This also fixes a possible bug when skipping the "lavf://" prefix.) libavdevice now can be invoked by specifying demuxer and args as in: mpv avdevice://demuxer:args The args are passed as filename to libavformat. When using libavdevice demuxers, their actual meaning is highly implementation specific. They don't refer to actual filenames. Note: libavdevice is disabled by default. There is one problem: libavdevice pulls in libavfilter, which in turn causes symbol clashes with mpv internals. The problem is that libavfilter includes a mplayer filter bridge, which is used to interface with a set of nearly unmodified mplayer filters copied into libavfilter. This filter bridge uses the same symbol names as mplayer/mpv's filter chain, which results in symbol clashes at link-time. This can be prevented by building ffmpeg with --disable-filter=mp, but unfortunately this is not the default. This means linking to libavdevice (which in turn forces linking with libavfilter by default) must be disabled. We try doing this by compiling a test file that defines one of the clashing symbols (vf_mpi_clear). To enable libavdevice input, ffmpeg should be built with the options: --disable-filter=mp and mpv with: --enable-libavdevice Originally, I tried to auto-detect it. But the resulting complications in configure did't seem worth the trouble.
2012-11-30 18:41:04 +01:00
fi
echores "$libavdevice"
echocheck "libpostproc >= 52.0.0"
if test "$libpostproc" = auto ; then
libpostproc=no
if pkg_config_add "libpostproc >= 52.0.0" ; then
libpostproc=yes
fi
fi
if test "$libpostproc" = yes ; then
def_libpostproc='#define HAVE_LIBPOSTPROC 1'
else
def_libpostproc='#define HAVE_LIBPOSTPROC 0'
fi
echores "$libpostproc"
video: add vda decode support (with hwaccel) and direct rendering Decoding H264 using Video Decode Acceleration used the custom 'vda_h264_dec' decoder in FFmpeg. The Good: This new implementation has some advantages over the previous one: - It works with Libav: vda_h264_dec never got into Libav since they prefer client applications to use the hwaccel API. - It is way more efficient: in my tests this implementation yields a reduction of CPU usage of roughly ~50% compared to using `vda_h264_dec` and ~65-75% compared to h264 software decoding. This is mainly because `vo_corevideo` was adapted to perform direct rendering of the `CVPixelBufferRefs` created by the Video Decode Acceleration API Framework. The Bad: - `vo_corevideo` is required to use VDA decoding acceleration. - only works with versions of ffmpeg/libav new enough (needs reference refcounting). That is FFmpeg 2.0+ and Libav's git master currently. The Ugly: VDA was hardcoded to use UYVY (2vuy) for the uploaded video texture. One one end this makes the code simple since Apple's OpenGL implementation actually supports this out of the box. It would be nice to support other output image formats and choose the best format depending on the input, or at least making it configurable. My tests indicate that CPU usage actually increases with a 420p IMGFMT output which is not what I would have expected. NOTE: There is a small memory leak with old versions of FFmpeg and with Libav since the CVPixelBufferRef is not automatically released when the AVFrame is deallocated. This can cause leaks inside libavcodec for decoded frames that are discarded before mpv wraps them inside a refcounted mp_image (this only happens on seeks). For frames that enter mpv's refcounting facilities, this is not a problem since we rewrap the CVPixelBufferRef in our mp_image that properly forwards CVPixelBufferRetain/CvPixelBufferRelease calls to the underying CVPixelBufferRef. So, for FFmpeg use something more recent than `b3d63995` for Libav the patch was posted to the dev ML in July and in review since, apparently, the proposed fix is rather hacky.
2013-08-14 15:47:18 +02:00
if darwin ; then
echocheck "VDA"
if test "$_vda" = auto ; then
_vda=no
header_check VideoDecodeAcceleration/VDADecoder.h &&
statement_check libavcodec/vda.h 'ff_vda_create_decoder(NULL, NULL, NULL)' &&
_vda=yes
video: add vda decode support (with hwaccel) and direct rendering Decoding H264 using Video Decode Acceleration used the custom 'vda_h264_dec' decoder in FFmpeg. The Good: This new implementation has some advantages over the previous one: - It works with Libav: vda_h264_dec never got into Libav since they prefer client applications to use the hwaccel API. - It is way more efficient: in my tests this implementation yields a reduction of CPU usage of roughly ~50% compared to using `vda_h264_dec` and ~65-75% compared to h264 software decoding. This is mainly because `vo_corevideo` was adapted to perform direct rendering of the `CVPixelBufferRefs` created by the Video Decode Acceleration API Framework. The Bad: - `vo_corevideo` is required to use VDA decoding acceleration. - only works with versions of ffmpeg/libav new enough (needs reference refcounting). That is FFmpeg 2.0+ and Libav's git master currently. The Ugly: VDA was hardcoded to use UYVY (2vuy) for the uploaded video texture. One one end this makes the code simple since Apple's OpenGL implementation actually supports this out of the box. It would be nice to support other output image formats and choose the best format depending on the input, or at least making it configurable. My tests indicate that CPU usage actually increases with a 420p IMGFMT output which is not what I would have expected. NOTE: There is a small memory leak with old versions of FFmpeg and with Libav since the CVPixelBufferRef is not automatically released when the AVFrame is deallocated. This can cause leaks inside libavcodec for decoded frames that are discarded before mpv wraps them inside a refcounted mp_image (this only happens on seeks). For frames that enter mpv's refcounting facilities, this is not a problem since we rewrap the CVPixelBufferRef in our mp_image that properly forwards CVPixelBufferRetain/CvPixelBufferRelease calls to the underying CVPixelBufferRef. So, for FFmpeg use something more recent than `b3d63995` for Libav the patch was posted to the dev ML in July and in review since, apparently, the proposed fix is rather hacky.
2013-08-14 15:47:18 +02:00
fi
if test "$_vda" = yes ; then
def_vda='#define HAVE_VDA_HWACCEL 1'
video: add vda decode support (with hwaccel) and direct rendering Decoding H264 using Video Decode Acceleration used the custom 'vda_h264_dec' decoder in FFmpeg. The Good: This new implementation has some advantages over the previous one: - It works with Libav: vda_h264_dec never got into Libav since they prefer client applications to use the hwaccel API. - It is way more efficient: in my tests this implementation yields a reduction of CPU usage of roughly ~50% compared to using `vda_h264_dec` and ~65-75% compared to h264 software decoding. This is mainly because `vo_corevideo` was adapted to perform direct rendering of the `CVPixelBufferRefs` created by the Video Decode Acceleration API Framework. The Bad: - `vo_corevideo` is required to use VDA decoding acceleration. - only works with versions of ffmpeg/libav new enough (needs reference refcounting). That is FFmpeg 2.0+ and Libav's git master currently. The Ugly: VDA was hardcoded to use UYVY (2vuy) for the uploaded video texture. One one end this makes the code simple since Apple's OpenGL implementation actually supports this out of the box. It would be nice to support other output image formats and choose the best format depending on the input, or at least making it configurable. My tests indicate that CPU usage actually increases with a 420p IMGFMT output which is not what I would have expected. NOTE: There is a small memory leak with old versions of FFmpeg and with Libav since the CVPixelBufferRef is not automatically released when the AVFrame is deallocated. This can cause leaks inside libavcodec for decoded frames that are discarded before mpv wraps them inside a refcounted mp_image (this only happens on seeks). For frames that enter mpv's refcounting facilities, this is not a problem since we rewrap the CVPixelBufferRef in our mp_image that properly forwards CVPixelBufferRetain/CvPixelBufferRelease calls to the underying CVPixelBufferRef. So, for FFmpeg use something more recent than `b3d63995` for Libav the patch was posted to the dev ML in July and in review since, apparently, the proposed fix is rather hacky.
2013-08-14 15:47:18 +02:00
libs_mplayer="$libs_mplayer -framework VideoDecodeAcceleration -framework QuartzCore -framework IOSurface"
else
def_vda='#define HAVE_VDA_HWACCEL 0'
video: add vda decode support (with hwaccel) and direct rendering Decoding H264 using Video Decode Acceleration used the custom 'vda_h264_dec' decoder in FFmpeg. The Good: This new implementation has some advantages over the previous one: - It works with Libav: vda_h264_dec never got into Libav since they prefer client applications to use the hwaccel API. - It is way more efficient: in my tests this implementation yields a reduction of CPU usage of roughly ~50% compared to using `vda_h264_dec` and ~65-75% compared to h264 software decoding. This is mainly because `vo_corevideo` was adapted to perform direct rendering of the `CVPixelBufferRefs` created by the Video Decode Acceleration API Framework. The Bad: - `vo_corevideo` is required to use VDA decoding acceleration. - only works with versions of ffmpeg/libav new enough (needs reference refcounting). That is FFmpeg 2.0+ and Libav's git master currently. The Ugly: VDA was hardcoded to use UYVY (2vuy) for the uploaded video texture. One one end this makes the code simple since Apple's OpenGL implementation actually supports this out of the box. It would be nice to support other output image formats and choose the best format depending on the input, or at least making it configurable. My tests indicate that CPU usage actually increases with a 420p IMGFMT output which is not what I would have expected. NOTE: There is a small memory leak with old versions of FFmpeg and with Libav since the CVPixelBufferRef is not automatically released when the AVFrame is deallocated. This can cause leaks inside libavcodec for decoded frames that are discarded before mpv wraps them inside a refcounted mp_image (this only happens on seeks). For frames that enter mpv's refcounting facilities, this is not a problem since we rewrap the CVPixelBufferRef in our mp_image that properly forwards CVPixelBufferRetain/CvPixelBufferRelease calls to the underying CVPixelBufferRef. So, for FFmpeg use something more recent than `b3d63995` for Libav the patch was posted to the dev ML in July and in review since, apparently, the proposed fix is rather hacky.
2013-08-14 15:47:18 +02:00
fi
echores "$_vda"
echocheck "VDA libavcodec refcounting"
_vda_refcounting=no
if test "$_vda" = yes ; then
statement_check libavcodec/vda.h 'struct vda_context a = (struct vda_context) { .use_ref_buffer = 1 }' &&
_vda_refcounting=yes
fi
if test "$_vda_refcounting" = "yes" ; then
def_vda_refcounting='#define HAVE_VDA_LIBAVCODEC_REFCOUNTING 1'
else
def_vda_refcounting='#define HAVE_VDA_LIBAVCODEC_REFCOUNTING 0'
fi
echores "$_vda_refcounting"
echocheck "VDA with OpenGL"
if test "$_gl_cocoa" = yes && test "$_vda" = yes ; then
def_vda_gl='#define HAVE_VDA_GL 1'
_vda_gl=yes
else
def_vda_gl='#define HAVE_VDA_GL 0'
_vda_gl=no
fi
echores "$_vda_gl"
else
def_vda='#define HAVE_VDA_HWACCEL 0'
def_vda_refcounting='#define HAVE_VDA_LIBAVCODEC_REFCOUNTING 0'
def_vda_gl='#define HAVE_VDA_GL 0'
video: add vda decode support (with hwaccel) and direct rendering Decoding H264 using Video Decode Acceleration used the custom 'vda_h264_dec' decoder in FFmpeg. The Good: This new implementation has some advantages over the previous one: - It works with Libav: vda_h264_dec never got into Libav since they prefer client applications to use the hwaccel API. - It is way more efficient: in my tests this implementation yields a reduction of CPU usage of roughly ~50% compared to using `vda_h264_dec` and ~65-75% compared to h264 software decoding. This is mainly because `vo_corevideo` was adapted to perform direct rendering of the `CVPixelBufferRefs` created by the Video Decode Acceleration API Framework. The Bad: - `vo_corevideo` is required to use VDA decoding acceleration. - only works with versions of ffmpeg/libav new enough (needs reference refcounting). That is FFmpeg 2.0+ and Libav's git master currently. The Ugly: VDA was hardcoded to use UYVY (2vuy) for the uploaded video texture. One one end this makes the code simple since Apple's OpenGL implementation actually supports this out of the box. It would be nice to support other output image formats and choose the best format depending on the input, or at least making it configurable. My tests indicate that CPU usage actually increases with a 420p IMGFMT output which is not what I would have expected. NOTE: There is a small memory leak with old versions of FFmpeg and with Libav since the CVPixelBufferRef is not automatically released when the AVFrame is deallocated. This can cause leaks inside libavcodec for decoded frames that are discarded before mpv wraps them inside a refcounted mp_image (this only happens on seeks). For frames that enter mpv's refcounting facilities, this is not a problem since we rewrap the CVPixelBufferRef in our mp_image that properly forwards CVPixelBufferRetain/CvPixelBufferRelease calls to the underying CVPixelBufferRef. So, for FFmpeg use something more recent than `b3d63995` for Libav the patch was posted to the dev ML in July and in review since, apparently, the proposed fix is rather hacky.
2013-08-14 15:47:18 +02:00
fi
echocheck "TV interface"
if test "$_tv" = yes ; then
def_tv='#define HAVE_TV 1'
inputmodules="tv $inputmodules"
else
noinputmodules="tv $noinputmodules"
def_tv='#define HAVE_TV 0'
fi
echores "$_tv"
echocheck "Video 4 Linux 2 TV interface"
if test "$_tv_v4l2" = auto ; then
_tv_v4l2=no
if test "$_tv" = yes && linux ; then
header_check_broken sys/time.h linux/videodev2.h && _tv_v4l2=yes
elif test "$_tv" = yes && freebsd ; then
header_check linux/videodev2.h && _tv_v4l2=yes
elif test "$_tv" = yes && test "$sys_videoio_h" = "yes" ; then
_tv_v4l2=yes
fi
fi
if test "$_tv_v4l2" = yes ; then
_audio_input=yes
def_tv_v4l2='#define HAVE_TV_V4L2 1'
inputmodules="tv-v4l2 $inputmodules"
else
noinputmodules="tv-v4l2 $noinputmodules"
def_tv_v4l2='#define HAVE_TV_V4L2 0'
fi
echores "$_tv_v4l2"
echocheck "libv4l2 support"
if test "$_libv4l2" = auto ; then
_libv4l2=no
if pkg_config_add "libv4l2" ; then
_libv4l2=yes
fi
fi
if test "$_libv4l2" = yes; then
def_libv4l2="#define HAVE_LIBV4L2 1"
else
def_libv4l2="#define HAVE_LIBV4L2 0"
fi
echores "$_libv4l2"
echocheck "Radio interface"
if test "$_radio" = yes ; then
def_radio='#define HAVE_RADIO 1'
inputmodules="radio $inputmodules"
if test "$_alsa" != yes -a "$_ossaudio" != yes ; then
_radio_capture=no
fi
if test "$_radio_capture" = yes ; then
_audio_input=yes
def_radio_capture="#define HAVE_RADIO_CAPTURE 1"
else
def_radio_capture="#define HAVE_RADIO_CAPTURE 0"
fi
else
noinputmodules="radio $noinputmodules"
def_radio='#define HAVE_RADIO 0'
def_radio_capture="#define HAVE_RADIO_CAPTURE 0"
_radio_capture=no
fi
echores "$_radio"
echocheck "Capture for Radio interface"
echores "$_radio_capture"
echocheck "Video 4 Linux 2 Radio interface"
if test "$_radio_v4l2" = auto ; then
_radio_v4l2=no
if test "$_radio" = yes && (linux || freebsd) ; then
header_check linux/videodev2.h && _radio_v4l2=yes
fi
fi
if test "$_radio_v4l2" = yes ; then
def_radio_v4l2='#define HAVE_RADIO_V4L2 1'
else
def_radio_v4l2='#define HAVE_RADIO_V4L2 0'
fi
echores "$_radio_v4l2"
if test "$_radio_v4l2" = no && test "$_radio" = yes ; then
die "Radio driver requires V4L2!"
fi
echocheck "Video 4 Linux 2 MPEG PVR interface"
if test "$_pvr" = auto ; then
_pvr=no
if test "$_tv_v4l2" = yes ; then
cat > $TMPC <<EOF
#include <sys/time.h>
#include <linux/videodev2.h>
int main(void) { struct v4l2_ext_controls ext; return ext.controls->value; }
EOF
cc_check && _pvr=yes
fi
fi
if test "$_pvr" = yes ; then
def_pvr='#define HAVE_PVR 1'
inputmodules="pvr $inputmodules"
else
noinputmodules="pvr $noinputmodules"
def_pvr='#define HAVE_PVR 0'
fi
echores "$_pvr"
# Note: Lua has no official .pc file, so there are different OS-specific ones.
# Also, we support luajit, which is compatible to 5.1.
# The situation is further complicated by distros supporting multiple Lua
# versions, without ensuring libraries linking to conflicting Lua libs don't
# cause issues. This is a real problem with libquvi.
cat > $TMPC << EOF
#include <stdlib.h>
#include <lua.h>
#include <lualib.h>
#include <lauxlib.h>
EOF
# abuse $TMPH file as second temp file
cat > $TMPH << EOF
void test_lua(void) {
lua_State *L = luaL_newstate();
lua_pushstring(L, "test");
lua_setglobal(L, "test");
}
void test_other(void) {
EOF
# test all other Lua using packages (hack that gives us time)
if test "$_libquvi4" = yes ; then
echo "#include <quvi/quvi.h>" >> $TMPC
cat >> $TMPH << EOF
quvi_t q;
if (quvi_init(&q) == QUVI_OK)
quvi_supported(q, "http://nope");
EOF
fi
if test "$_libquvi9" = yes ; then
echo "#include <quvi.h>" >> $TMPC
cat >> $TMPH << EOF
quvi_t q = quvi_new();
if (quvi_ok(q))
quvi_supports(q, "http://nope", QUVI_SUPPORTS_MODE_OFFLINE, QUVI_SUPPORTS_TYPE_MEDIA);
EOF
fi
cat >> $TMPH << EOF
}
int main(void) {
test_lua();
test_other();
return 0;
}
EOF
cat $TMPH >> $TMPC
test_lua() {
# changed by pkg_config_add
old_extra_cflags="$extra_cflags"
old_libs_mplayer="$libs_mplayer"
echocheck "Lua $2 ($1)"
if test "$lua" = yes ; then
echores "no"
return 1
fi
if test "x$lua_pkg" != "x" && test "$lua_pkg" != "$1" ; then
echores "no"
return 1
fi
if pkg_config_add "$2" ; then
if test $_cross_compile = no ; then
if cc_check && tmp_run ; then
echo > /dev/null # idiot NOP
else
extra_cflags="$old_extra_cflags"
libs_mplayer="$old_libs_mplayer"
echores "no - does not run"
return 1
fi
fi
lua=yes
fi
echores "$lua"
test "$lua" = yes
return $?
}
if test "$lua" = auto ; then
lua=no
test_lua 51 "lua >= 5.1.0 lua < 5.2.0"
test_lua 51deb "lua5.1 >= 5.1.0" # debian
test_lua luajit "luajit >= 2.0.0"
# assume all our dependencies (libquvi in particular) link with 5.1
test_lua 52 "lua >= 5.2.0"
test_lua 52deb "lua5.2 >= 5.2.0" # debian
fi
if test "$lua" = yes ; then
def_lua='#define HAVE_LUA 1'
else
def_lua='#define HAVE_LUA 0'
fi
echocheck "encoding"
if test "$_encoding" = yes ; then
def_encoding="#define HAVE_ENCODING 1"
else
def_encoding="#define HAVE_ENCODING 0"
fi
echores "$_encoding"
# needs dlopen on unix, uses winapi on windows
_dlopen="$_dl"
if win32 ; then
_dlopen=yes
fi
if test "$_dlopen" = yes ; then
def_dlopen='#define HAVE_DLOPEN 1'
else
def_dlopen='#define HAVE_DLOPEN 0'
fi
#############################################################################
echocheck "compiler support for noexecstack"
if cflag_check -Wl,-z,noexecstack ; then
extra_ldflags="-Wl,-z,noexecstack $extra_ldflags"
echores "yes"
else
echores "no"
fi
echocheck "linker support for --nxcompat --no-seh --dynamicbase"
if cflag_check "-Wl,--nxcompat -Wl,--no-seh -Wl,--dynamicbase" ; then
extra_ldflags="-Wl,--nxcompat -Wl,--no-seh -Wl,--dynamicbase $extra_ldflags"
echores "yes"
else
echores "no"
fi
extra_ldflags="$extra_ldflags $_ld_pthread"
libs_mplayer="$libs_mplayer $_ld_dl"
(netbsd || openbsd) && x86_32 && libs_mplayer="$libs_mplayer -li386"
echocheck "joystick"
def_joystick='#define HAVE_JOYSTICK 0'
if test "$_joystick" = yes ; then
if linux || freebsd ; then
# TODO add some check
def_joystick='#define HAVE_JOYSTICK 1'
else
_joystick="no"
res_comment="unsupported under $system_name"
fi
fi
echores "$_joystick"
echocheck "lirc"
if test "$_lirc" = auto ; then
_lirc=no
header_check lirc/lirc_client.h -llirc_client && _lirc=yes
fi
if test "$_lirc" = yes ; then
def_lirc='#define HAVE_LIRC 1'
libs_mplayer="$libs_mplayer -llirc_client"
else
def_lirc='#define HAVE_LIRC 0'
fi
echores "$_lirc"
#############################################################################
if mingw32 ; then
# add this last, so that --libs from pkg-config can't override it
end_ldflags="$end_ldflags -mconsole"
fi
CFLAGS="$CFLAGS -D_LARGEFILE_SOURCE -D_FILE_OFFSET_BITS=64 -D_LARGEFILE64_SOURCE"
CXXFLAGS=" $CFLAGS -D__STDC_CONSTANT_MACROS -D__STDC_FORMAT_MACROS -D__STDC_LIMIT_MACROS"
# DO NOT ADD ANY TESTS THAT USE LINKER FLAGS HERE (like cc_check).
# This is done so waf builds won't conflict with this. In fact, waf and old
# build system can coexist in parallel, at the same time. This is because
# waf always does out-of-tree builds, while this build system does always
# in-tree builds.
if test ! -f Makefile ; then
ln -s old-makefile Makefile
fi
rm -rf old_build
mkdir old_build
BUILDCFLAGS="-Iold_build"
#############################################################################
echo "Creating config.mak"
cat > old_build/config.mak << EOF
# -------- Generated by configure -----------
# Ensure that locale settings do not interfere with shell commands.
export LC_ALL = C
CONFIGURATION = $configuration
prefix = \$(DESTDIR)$_prefix
BINDIR = \$(DESTDIR)$_bindir
MANDIR = \$(DESTDIR)$_mandir
DOCDIR = \$(DESTDIR)$_docdir
CONFDIR = \$(DESTDIR)$_confdir
CC = $_cc
CXX = $_cc
INSTALL = $_install
WINDRES = $_windres
CFLAGS = $BUILDCFLAGS $WARNFLAGS $ERRORFLAGS $WARN_CFLAGS $CFLAGS $extra_cflags
CXXFLAGS = $BUILDCFLAGS $WARNFLAGS $ERRORFLAGS $CXXFLAGS $extra_cflags $extra_cxxflags
DEPFLAGS = $DEPFLAGS
EXTRALIBS = $extra_ldflags $_ld_static $_ld_lm $extra_libs $libs_mplayer $end_ldflags
GETCH = $_getch
TIMER = $_timer
2012-11-02 14:37:02 +01:00
RST2MAN = $_rst2man
BUILD_MAN = $_build_man
RST2PDF = $_rst2pdf
BUILD_PDF = $_build_pdf
EXESUF = $_exesuf
EXESUFS_ALL = .exe
NEED_GLOB = $need_glob
# features
ALSA = $_alsa
AUDIO_INPUT = $_audio_input
CACA = $_caca
CDDA = $_cdda
COCOA = $_cocoa
COREAUDIO = $_coreaudio
COREVIDEO = $_corevideo
DIRECT3D = $_direct3d
DL = $_dl
DLOPEN = $_dlopen
SDL = $_sdl
SDL2 = $_sdl2
DSOUND = $_dsound
WASAPI = $_wasapi
DVBIN = $_dvbin
DVDREAD = $_dvdread
DVDNAV = $_dvdnav
GL = $_gl
GL_COCOA = $_gl_cocoa
GL_WIN32 = $_gl_win32
GL_X11 = $_gl_x11
GL_WAYLAND = $_gl_wayland
HAVE_POSIX_SELECT = $_posix_select
HAVE_SYS_MMAN_H = $_mman
JACK = $_jack
JOYSTICK = $_joystick
JPEG = $_jpeg
LADSPA = $_ladspa
LIBASS = $_ass
osd: use libass for OSD rendering The OSD will now be rendered with libass. The old rendering code, which used freetype/fontconfig and did text layout manually, is disabled. To re-enable the old code, use the --disable-libass-osd configure switch. Some switches do nothing with the new code enabled, such as -subalign, -sub-bg-alpha, -sub-bg-color, and many more. (The reason is mostly that the code for rendering unstyled subtitles with libass doesn't make any attempts to support them. Some of them could be supported in theory.) Teletext rendering is not implemented in the new OSD rendering code. I don't have any teletext sources for testing, and since teletext is being phased out world-wide, the need for this is questionable. Note that rendering is extremely inefficient, mostly because the libass output is blended with the extremely strange mplayer OSD format. This could be improved at a later point. Remove most OSD rendering from vo_aa.c, because that was extremely hacky, can't be made work with osd_libass, and didn't work anyway in my tests. Internally, some cleanup is done. Subtitle and OSD related variable declarations were literally all over the place. Move them to sub.h and sub.c, which were hoarding most of these declarations already. Make the player core in mplayer.c free of concerns like bitmap font loading. The old OSD rendering code has been moved to osd_ft.c. The font_load.c and font_load_ft.c are only needed and compiled if the old OSD rendering code is configured.
2012-03-22 06:26:37 +01:00
LIBASS_OSD = $_libass_osd
DUMMY_OSD = $_dummy_osd
LIBBLURAY = $_bluray
LIBBS2B = $_libbs2b
LCMS2 = $_lcms2
VAPOURSYNTH = $_vapoursynth
LUA = $lua
LIBPOSTPROC = $libpostproc
demux_lavf: add support for libavdevice libavdevice supports various "special" video and audio inputs, such as screen-capture or libavfilter filter graphs. libavdevice inputs are implemented as demuxers. They don't use the custom stream callbacks (in AVFormatContext.pb). Instead, input parameters are passed as filename. This means the mpv stream layer has to be disabled. Do this by adding the pseudo stream handler avdevice://, whose only purpose is passing the filename to demux_lavf, without actually doing anything. Change the logic how the filename is passed to libavformat. Remove handling of the filename from demux_open_lavf() and move it to lavf_check_file(). (This also fixes a possible bug when skipping the "lavf://" prefix.) libavdevice now can be invoked by specifying demuxer and args as in: mpv avdevice://demuxer:args The args are passed as filename to libavformat. When using libavdevice demuxers, their actual meaning is highly implementation specific. They don't refer to actual filenames. Note: libavdevice is disabled by default. There is one problem: libavdevice pulls in libavfilter, which in turn causes symbol clashes with mpv internals. The problem is that libavfilter includes a mplayer filter bridge, which is used to interface with a set of nearly unmodified mplayer filters copied into libavfilter. This filter bridge uses the same symbol names as mplayer/mpv's filter chain, which results in symbol clashes at link-time. This can be prevented by building ffmpeg with --disable-filter=mp, but unfortunately this is not the default. This means linking to libavdevice (which in turn forces linking with libavfilter by default) must be disabled. We try doing this by compiling a test file that defines one of the clashing symbols (vf_mpi_clear). To enable libavdevice input, ffmpeg should be built with the options: --disable-filter=mp and mpv with: --enable-libavdevice Originally, I tried to auto-detect it. But the resulting complications in configure did't seem worth the trouble.
2012-11-30 18:41:04 +01:00
LIBAVDEVICE = $libavdevice
LIBAVFILTER = $libavfilter
LIBSMBCLIENT = $_smb
LIBQUVI = $_libquvi4
LIBQUVI9 = $_libquvi9
LIBGUESS = $_libguess
LIRC = $_lirc
MPG123 = $_mpg123
OPENAL = $_openal
OSS = $_ossaudio
PE_EXECUTABLE = $_pe_executable
PRIORITY = $_priority
PULSE = $_pulse
PORTAUDIO = $_portaudio
PVR = $_pvr
RADIO=$_radio
RADIO_CAPTURE=$_radio_capture
RSOUND = $_rsound
SNDIO = $_sndio
STREAM_CACHE = $_stream_cache
TV = $_tv
TV_V4L2 = $_tv_v4l2
LIBV4L2 = $_libv4l2
VCD = $_vcd
VDPAU = $_vdpau
VDPAU_GL_X11 = $_vdpau_gl_x11
video: add vda decode support (with hwaccel) and direct rendering Decoding H264 using Video Decode Acceleration used the custom 'vda_h264_dec' decoder in FFmpeg. The Good: This new implementation has some advantages over the previous one: - It works with Libav: vda_h264_dec never got into Libav since they prefer client applications to use the hwaccel API. - It is way more efficient: in my tests this implementation yields a reduction of CPU usage of roughly ~50% compared to using `vda_h264_dec` and ~65-75% compared to h264 software decoding. This is mainly because `vo_corevideo` was adapted to perform direct rendering of the `CVPixelBufferRefs` created by the Video Decode Acceleration API Framework. The Bad: - `vo_corevideo` is required to use VDA decoding acceleration. - only works with versions of ffmpeg/libav new enough (needs reference refcounting). That is FFmpeg 2.0+ and Libav's git master currently. The Ugly: VDA was hardcoded to use UYVY (2vuy) for the uploaded video texture. One one end this makes the code simple since Apple's OpenGL implementation actually supports this out of the box. It would be nice to support other output image formats and choose the best format depending on the input, or at least making it configurable. My tests indicate that CPU usage actually increases with a 420p IMGFMT output which is not what I would have expected. NOTE: There is a small memory leak with old versions of FFmpeg and with Libav since the CVPixelBufferRef is not automatically released when the AVFrame is deallocated. This can cause leaks inside libavcodec for decoded frames that are discarded before mpv wraps them inside a refcounted mp_image (this only happens on seeks). For frames that enter mpv's refcounting facilities, this is not a problem since we rewrap the CVPixelBufferRef in our mp_image that properly forwards CVPixelBufferRetain/CvPixelBufferRelease calls to the underying CVPixelBufferRef. So, for FFmpeg use something more recent than `b3d63995` for Libav the patch was posted to the dev ML in July and in review since, apparently, the proposed fix is rather hacky.
2013-08-14 15:47:18 +02:00
VDA = $_vda
VDA_REFCOUNTING = $_vda_refcounting
VDA_GL = $_vda_gl
video: add vaapi decode and output support This is based on the MPlayer VA API patches. To be exact it's based on a very stripped down version of commit f1ad459a263f8537f6c from git://gitorious.org/vaapi/mplayer.git. This doesn't contain useless things like benchmarking hacks and the demo code for GLX interop. Also, unlike in the original patch, decoding and video output are split into separate source files (the separation between decoding and display also makes pixel format hacks unnecessary). On the other hand, some features not present in the original patch were added, like screenshot support. VA API is rather bad for actual video output. Dealing with older libva versions or the completely broken vdpau backend doesn't help. OSD is low quality and should be rather slow. In some cases, only either OSD or subtitles can be shown at the same time (because OSD is drawn first, OSD is prefered). Also, libva can't decide whether it accepts straight or premultiplied alpha for OSD sub-pictures: the vdpau backend seems to assume premultiplied, while a native vaapi driver uses straight. So I picked straight alpha. It doesn't matter much, because the blending code for straight alpha I added to img_convert.c is probably buggy, and ASS subtitles might be blended incorrectly. Really good video output with VA API would probably use OpenGL and the GL interop features, but at this point you might just use vo_opengl. (Patches for making HW decoding with vo_opengl have a chance of being accepted.) Despite these issues, decoding seems to work ok. I still got tearing on the Intel system I tested (Intel(R) Core(TM) i3-2350M). It was also tested with the vdpau vaapi wrapper on a nvidia system; however this was rather broken. (Fortunately, there is no reason to use mpv's VAAPI support over native VDPAU.)
2013-08-09 14:01:30 +02:00
VAAPI = $_vaapi
VAAPI_VPP = $_vaapi_vpp
VAAPI_GLX = $_vaapi_glx
WIN32 = $_win32
X11 = $_x11
WAYLAND = $_wayland
XV = $_xv
# FFmpeg
ENCODING = $_encoding
CONFIG_VDPAU = $_vdpau
video: add vda decode support (with hwaccel) and direct rendering Decoding H264 using Video Decode Acceleration used the custom 'vda_h264_dec' decoder in FFmpeg. The Good: This new implementation has some advantages over the previous one: - It works with Libav: vda_h264_dec never got into Libav since they prefer client applications to use the hwaccel API. - It is way more efficient: in my tests this implementation yields a reduction of CPU usage of roughly ~50% compared to using `vda_h264_dec` and ~65-75% compared to h264 software decoding. This is mainly because `vo_corevideo` was adapted to perform direct rendering of the `CVPixelBufferRefs` created by the Video Decode Acceleration API Framework. The Bad: - `vo_corevideo` is required to use VDA decoding acceleration. - only works with versions of ffmpeg/libav new enough (needs reference refcounting). That is FFmpeg 2.0+ and Libav's git master currently. The Ugly: VDA was hardcoded to use UYVY (2vuy) for the uploaded video texture. One one end this makes the code simple since Apple's OpenGL implementation actually supports this out of the box. It would be nice to support other output image formats and choose the best format depending on the input, or at least making it configurable. My tests indicate that CPU usage actually increases with a 420p IMGFMT output which is not what I would have expected. NOTE: There is a small memory leak with old versions of FFmpeg and with Libav since the CVPixelBufferRef is not automatically released when the AVFrame is deallocated. This can cause leaks inside libavcodec for decoded frames that are discarded before mpv wraps them inside a refcounted mp_image (this only happens on seeks). For frames that enter mpv's refcounting facilities, this is not a problem since we rewrap the CVPixelBufferRef in our mp_image that properly forwards CVPixelBufferRetain/CvPixelBufferRelease calls to the underying CVPixelBufferRef. So, for FFmpeg use something more recent than `b3d63995` for Libav the patch was posted to the dev ML in July and in review since, apparently, the proposed fix is rather hacky.
2013-08-14 15:47:18 +02:00
CONFIG_VDA = $_vda
video: add vaapi decode and output support This is based on the MPlayer VA API patches. To be exact it's based on a very stripped down version of commit f1ad459a263f8537f6c from git://gitorious.org/vaapi/mplayer.git. This doesn't contain useless things like benchmarking hacks and the demo code for GLX interop. Also, unlike in the original patch, decoding and video output are split into separate source files (the separation between decoding and display also makes pixel format hacks unnecessary). On the other hand, some features not present in the original patch were added, like screenshot support. VA API is rather bad for actual video output. Dealing with older libva versions or the completely broken vdpau backend doesn't help. OSD is low quality and should be rather slow. In some cases, only either OSD or subtitles can be shown at the same time (because OSD is drawn first, OSD is prefered). Also, libva can't decide whether it accepts straight or premultiplied alpha for OSD sub-pictures: the vdpau backend seems to assume premultiplied, while a native vaapi driver uses straight. So I picked straight alpha. It doesn't matter much, because the blending code for straight alpha I added to img_convert.c is probably buggy, and ASS subtitles might be blended incorrectly. Really good video output with VA API would probably use OpenGL and the GL interop features, but at this point you might just use vo_opengl. (Patches for making HW decoding with vo_opengl have a chance of being accepted.) Despite these issues, decoding seems to work ok. I still got tearing on the Intel system I tested (Intel(R) Core(TM) i3-2350M). It was also tested with the vdpau vaapi wrapper on a nvidia system; however this was rather broken. (Fortunately, there is no reason to use mpv's VAAPI support over native VDPAU.)
2013-08-09 14:01:30 +02:00
CONFIG_VAAPI = $_vaapi
CONFIG_ZLIB = $_zlib
HAVE_PTHREADS = $_pthreads
HAVE_SHM = $_shm
EOF
#############################################################################
echo "Creating config.h"
cat > $TMPH << EOF
/*----------------------------------------------------------------------------
** This file has been automatically generated by configure any changes in it
** will be lost when you run configure again.
** Instead of modifying definitions here, use the --enable/--disable options
** of the configure script! See ./configure --help for details.
*---------------------------------------------------------------------------*/
#ifndef MPLAYER_CONFIG_H
#define MPLAYER_CONFIG_H
#define CONFIGURATION "$configuration"
#define MPLAYER_CONFDIR "$_confdir"
/* we didn't bother to add actual config checks for this */
#define HAVE_BSD_FSTATFS 0
#define HAVE_LINUX_FSTATFS 0
/* system headers */
$def_mman_h
$def_mman_has_map_failed
$def_soundcard_h
$def_sys_soundcard_h
$def_sys_sysinfo_h
$def_sys_videoio_h
$def_termios_h
$def_termios_sys_h
$def_winsock2_h
/* system functions */
$def_glob
$def_nanosleep
$def_posix_select
$def_select
$def_setmode
$def_shm
$def_terminfo
$def_termcap
$def_termios
/* system-specific features */
$def_dl
$def_dos_paths
$def_iconv
$def_priority
/* configurable options */
$def_stream_cache
/* CPU stuff */
$def_ebx_available
2013-07-07 21:37:31 +02:00
$def_arch_x86
$def_arch_x86_32
$def_arch_x86_64
Remove compile time/runtime CPU detection, and drop some platforms mplayer had three ways of enabling CPU specific assembler routines: a) Enable them at compile time; crash if the CPU can't handle it. b) Enable them at compile time, but let the configure script detect your CPU. Your binary will only crash if you try to run it on a different system that has less features than yours. This was the default, I think. c) Runtime detection. The implementation of b) and c) suck. a) is not really feasible (it sucks for users). Remove all code related to this, and use libav's CPU detection instead. Now the configure script will always enable CPU specific features, and disable them at runtime if libav reports them not as available. One implication is that now the compiler is always expected to handle SSE (etc.) inline assembly at runtime, unless it's explicitly disabled. Only checks for x86 CPU specific features are kept, the rest is either unused or barely used. Get rid of all the dump -mpcu, -march etc. flags. Trust the compiler to select decent settings. Get rid of support for the following operating systems: - BSD/OS (some ancient BSD fork) - QNX (don't care) - BeOS (dead, Haiku support is still welcome) - AIX (don't care) - HP-UX (don't care) - OS/2 (dead, actual support has been removed a while ago) Remove the configure code for detecting the endianness. Instead, use the standard header <endian.h>, which can be used if _GNU_SOURCE or _BSD_SOURCE is defined. (Maybe these changes should have been in a separate commit.) Since this is a quite violent code removal orgy, and I'm testing only on x86 32 bit Linux, expect regressions.
2012-07-29 17:20:57 +02:00
#define HAVE_MMX ARCH_X86
#define HAVE_MMX2 ARCH_X86
#define HAVE_SSE ARCH_X86
#define HAVE_SSE2 ARCH_X86
#define HAVE_SSSE3 ARCH_X86
/* Blu-ray/DVD/VCD/CD */
#define DEFAULT_CDROM_DEVICE "$default_cdrom_device"
#define DEFAULT_DVD_DEVICE "$default_dvd_device"
$def_bluray
$def_cdda
$def_dvdread
$def_dvdnav
$def_vcd
/* codec libraries */
$def_mpg123
$def_zlib
$def_avutil_has_qp_api
$def_avcodec_has_chroma_pos_api
$def_avcodec_has_metadata_update_side_data
$def_avcodec_has_replaygain_side_data
$def_avutil_has_avframe_metadata
$def_libpostproc
demux_lavf: add support for libavdevice libavdevice supports various "special" video and audio inputs, such as screen-capture or libavfilter filter graphs. libavdevice inputs are implemented as demuxers. They don't use the custom stream callbacks (in AVFormatContext.pb). Instead, input parameters are passed as filename. This means the mpv stream layer has to be disabled. Do this by adding the pseudo stream handler avdevice://, whose only purpose is passing the filename to demux_lavf, without actually doing anything. Change the logic how the filename is passed to libavformat. Remove handling of the filename from demux_open_lavf() and move it to lavf_check_file(). (This also fixes a possible bug when skipping the "lavf://" prefix.) libavdevice now can be invoked by specifying demuxer and args as in: mpv avdevice://demuxer:args The args are passed as filename to libavformat. When using libavdevice demuxers, their actual meaning is highly implementation specific. They don't refer to actual filenames. Note: libavdevice is disabled by default. There is one problem: libavdevice pulls in libavfilter, which in turn causes symbol clashes with mpv internals. The problem is that libavfilter includes a mplayer filter bridge, which is used to interface with a set of nearly unmodified mplayer filters copied into libavfilter. This filter bridge uses the same symbol names as mplayer/mpv's filter chain, which results in symbol clashes at link-time. This can be prevented by building ffmpeg with --disable-filter=mp, but unfortunately this is not the default. This means linking to libavdevice (which in turn forces linking with libavfilter by default) must be disabled. We try doing this by compiling a test file that defines one of the clashing symbols (vf_mpi_clear). To enable libavdevice input, ffmpeg should be built with the options: --disable-filter=mp and mpv with: --enable-libavdevice Originally, I tried to auto-detect it. But the resulting complications in configure did't seem worth the trouble.
2012-11-30 18:41:04 +01:00
$def_libavdevice
$def_libavfilter
$def_dlopen
/* Audio output drivers */
$def_alsa
$def_coreaudio
$def_jack
$def_openal
$def_openal_h
$def_ossaudio
$def_ossaudio_devdsp
$def_ossaudio_devmixer
$def_pulse
$def_portaudio
$def_rsound
$def_sndio
$def_ladspa
$def_libbs2b
/* input */
$def_joystick
$def_lirc
$def_pvr
$def_radio
$def_radio_capture
$def_radio_v4l2
$def_tv
$def_tv_v4l2
$def_libv4l2
/* font stuff */
$def_ass
$def_enca
/* networking */
$def_smb
$def_libquvi4
$def_libquvi9
$def_libguess
$def_lcms2
$def_vapoursynth
$def_lua
/* libvo options */
$def_caca
$def_corevideo
$def_cocoa
$def_direct3d
$def_sdl
$def_sdl2
$def_dsound
$def_wasapi
$def_dvb
$def_dvbin
$def_gl
$def_gl_cocoa
$def_gl_win32
$def_gl_x11
$def_gl_wayland
$def_jpeg
$def_v4l2
$def_vdpau
$def_vdpau_gl_x11
$def_vdpau_hwaccel
video: add vda decode support (with hwaccel) and direct rendering Decoding H264 using Video Decode Acceleration used the custom 'vda_h264_dec' decoder in FFmpeg. The Good: This new implementation has some advantages over the previous one: - It works with Libav: vda_h264_dec never got into Libav since they prefer client applications to use the hwaccel API. - It is way more efficient: in my tests this implementation yields a reduction of CPU usage of roughly ~50% compared to using `vda_h264_dec` and ~65-75% compared to h264 software decoding. This is mainly because `vo_corevideo` was adapted to perform direct rendering of the `CVPixelBufferRefs` created by the Video Decode Acceleration API Framework. The Bad: - `vo_corevideo` is required to use VDA decoding acceleration. - only works with versions of ffmpeg/libav new enough (needs reference refcounting). That is FFmpeg 2.0+ and Libav's git master currently. The Ugly: VDA was hardcoded to use UYVY (2vuy) for the uploaded video texture. One one end this makes the code simple since Apple's OpenGL implementation actually supports this out of the box. It would be nice to support other output image formats and choose the best format depending on the input, or at least making it configurable. My tests indicate that CPU usage actually increases with a 420p IMGFMT output which is not what I would have expected. NOTE: There is a small memory leak with old versions of FFmpeg and with Libav since the CVPixelBufferRef is not automatically released when the AVFrame is deallocated. This can cause leaks inside libavcodec for decoded frames that are discarded before mpv wraps them inside a refcounted mp_image (this only happens on seeks). For frames that enter mpv's refcounting facilities, this is not a problem since we rewrap the CVPixelBufferRef in our mp_image that properly forwards CVPixelBufferRetain/CvPixelBufferRelease calls to the underying CVPixelBufferRef. So, for FFmpeg use something more recent than `b3d63995` for Libav the patch was posted to the dev ML in July and in review since, apparently, the proposed fix is rather hacky.
2013-08-14 15:47:18 +02:00
$def_vda
$def_vda_gl
video: add vda decode support (with hwaccel) and direct rendering Decoding H264 using Video Decode Acceleration used the custom 'vda_h264_dec' decoder in FFmpeg. The Good: This new implementation has some advantages over the previous one: - It works with Libav: vda_h264_dec never got into Libav since they prefer client applications to use the hwaccel API. - It is way more efficient: in my tests this implementation yields a reduction of CPU usage of roughly ~50% compared to using `vda_h264_dec` and ~65-75% compared to h264 software decoding. This is mainly because `vo_corevideo` was adapted to perform direct rendering of the `CVPixelBufferRefs` created by the Video Decode Acceleration API Framework. The Bad: - `vo_corevideo` is required to use VDA decoding acceleration. - only works with versions of ffmpeg/libav new enough (needs reference refcounting). That is FFmpeg 2.0+ and Libav's git master currently. The Ugly: VDA was hardcoded to use UYVY (2vuy) for the uploaded video texture. One one end this makes the code simple since Apple's OpenGL implementation actually supports this out of the box. It would be nice to support other output image formats and choose the best format depending on the input, or at least making it configurable. My tests indicate that CPU usage actually increases with a 420p IMGFMT output which is not what I would have expected. NOTE: There is a small memory leak with old versions of FFmpeg and with Libav since the CVPixelBufferRef is not automatically released when the AVFrame is deallocated. This can cause leaks inside libavcodec for decoded frames that are discarded before mpv wraps them inside a refcounted mp_image (this only happens on seeks). For frames that enter mpv's refcounting facilities, this is not a problem since we rewrap the CVPixelBufferRef in our mp_image that properly forwards CVPixelBufferRetain/CvPixelBufferRelease calls to the underying CVPixelBufferRef. So, for FFmpeg use something more recent than `b3d63995` for Libav the patch was posted to the dev ML in July and in review since, apparently, the proposed fix is rather hacky.
2013-08-14 15:47:18 +02:00
$def_vda_refcounting
video: add vaapi decode and output support This is based on the MPlayer VA API patches. To be exact it's based on a very stripped down version of commit f1ad459a263f8537f6c from git://gitorious.org/vaapi/mplayer.git. This doesn't contain useless things like benchmarking hacks and the demo code for GLX interop. Also, unlike in the original patch, decoding and video output are split into separate source files (the separation between decoding and display also makes pixel format hacks unnecessary). On the other hand, some features not present in the original patch were added, like screenshot support. VA API is rather bad for actual video output. Dealing with older libva versions or the completely broken vdpau backend doesn't help. OSD is low quality and should be rather slow. In some cases, only either OSD or subtitles can be shown at the same time (because OSD is drawn first, OSD is prefered). Also, libva can't decide whether it accepts straight or premultiplied alpha for OSD sub-pictures: the vdpau backend seems to assume premultiplied, while a native vaapi driver uses straight. So I picked straight alpha. It doesn't matter much, because the blending code for straight alpha I added to img_convert.c is probably buggy, and ASS subtitles might be blended incorrectly. Really good video output with VA API would probably use OpenGL and the GL interop features, but at this point you might just use vo_opengl. (Patches for making HW decoding with vo_opengl have a chance of being accepted.) Despite these issues, decoding seems to work ok. I still got tearing on the Intel system I tested (Intel(R) Core(TM) i3-2350M). It was also tested with the vdpau vaapi wrapper on a nvidia system; however this was rather broken. (Fortunately, there is no reason to use mpv's VAAPI support over native VDPAU.)
2013-08-09 14:01:30 +02:00
$def_vaapi
$def_vaapi_vpp
$def_vaapi_glx
$def_vaapi_hwaccel
$def_vm
$def_x11
$def_wayland
$def_xext
$def_xf86keysym
$def_xinerama
$def_xss
$def_xv
/* FFmpeg */
$def_encoding
$def_libavresample
$def_libswresample
$def_fast_64bit
$def_pthreads
$def_atomic
$def_sync
#define HAVE_INLINE_ASM 1
/* Use these registers in x86 inline asm. No proper detection yet. */
#define HAVE_EBP_AVAILABLE 1
#endif /* MPLAYER_CONFIG_H */
EOF
# Do not overwrite an unchanged config.h to avoid superfluous rebuilds.
cmp -s "$TMPH" old_build/config.h || mv -f "$TMPH" old_build/config.h
# Kill old config.h, as it might interfere with the build. Also get rid of
# old config.mak, which might be confusing.
rm -f config.h config.mak
#############################################################################
cat << EOF
Config files successfully generated by ./configure $configuration !
Install prefix: $_prefix
Config direct.: $_confdir
Enabled optional drivers:
Input: $inputmodules
Codecs: libavcodecs $codecmodules
Audio output: $aomodules
Video output: $vomodules
Disabled optional drivers:
Input: $noinputmodules
Codecs: $nocodecmodules
Audio output: $noaomodules
Video output: $novomodules
'config.h' and 'config.mak' contain your configuration options.
Note: If you alter theses files (for instance CFLAGS) mpv may no longer
compile *** DO NOT REPORT BUGS if you tweak these files ***
'make' will now compile mpv and 'make install' will install it.
Note: On non-Linux systems you might need to use 'gmake' instead of 'make'.
EOF
cat <<EOF
Check $TMPLOG if you wonder why an autodetection failed (make sure
development headers/packages are installed).
NOTE: The --enable-* parameters unconditionally force options on, completely
skipping autodetection. This behavior is unlike what you may be used to from
autoconf-based configure scripts that can decide to override you. This greater
level of control comes at a price. You may have to provide the correct compiler
and linker flags yourself.
Remove compile time/runtime CPU detection, and drop some platforms mplayer had three ways of enabling CPU specific assembler routines: a) Enable them at compile time; crash if the CPU can't handle it. b) Enable them at compile time, but let the configure script detect your CPU. Your binary will only crash if you try to run it on a different system that has less features than yours. This was the default, I think. c) Runtime detection. The implementation of b) and c) suck. a) is not really feasible (it sucks for users). Remove all code related to this, and use libav's CPU detection instead. Now the configure script will always enable CPU specific features, and disable them at runtime if libav reports them not as available. One implication is that now the compiler is always expected to handle SSE (etc.) inline assembly at runtime, unless it's explicitly disabled. Only checks for x86 CPU specific features are kept, the rest is either unused or barely used. Get rid of all the dump -mpcu, -march etc. flags. Trust the compiler to select decent settings. Get rid of support for the following operating systems: - BSD/OS (some ancient BSD fork) - QNX (don't care) - BeOS (dead, Haiku support is still welcome) - AIX (don't care) - HP-UX (don't care) - OS/2 (dead, actual support has been removed a while ago) Remove the configure code for detecting the endianness. Instead, use the standard header <endian.h>, which can be used if _GNU_SOURCE or _BSD_SOURCE is defined. (Maybe these changes should have been in a separate commit.) Since this is a quite violent code removal orgy, and I'm testing only on x86 32 bit Linux, expect regressions.
2012-07-29 17:20:57 +02:00
If you used one of these options and experience a compilation or
linking failure, make sure you have passed the necessary compiler/linker flags
to configure.
WARNING: The ./old-configure + make build system you are using is deprecated in
favour of waf and will be removed in a future version of mpv. Check the
README for instructions on how to build mpv with the new build system.
EOF
if test "$warn_cflags" = yes; then
cat <<EOF
mpv compilation will use the CPPFLAGS/CFLAGS/LDFLAGS set by you, but:
*** *** DO NOT REPORT BUGS IF IT DOES NOT COMPILE/WORK! *** ***
It is strongly recommended to let mpv choose the correct CFLAGS!
To do so, execute 'CFLAGS= ./configure <options>'
EOF
fi
# Last move:
rm -rf "$mplayer_tmpdir"