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mpv/wscript_build.py

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import re
2014-11-19 17:51:53 +00:00
import os
def _add_rst_manual_dependencies(ctx):
manpage_sources_basenames = """
options.rst ao.rst vo.rst af.rst vf.rst encode.rst
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input.rst osc.rst lua.rst ipc.rst changes.rst""".split()
manpage_sources = ['DOCS/man/'+x for x in manpage_sources_basenames]
for manpage_source in manpage_sources:
ctx.add_manual_dependency(
ctx.path.find_node('DOCS/man/mpv.rst'),
ctx.path.find_node(manpage_source))
def _build_man(ctx):
ctx(
name = 'rst2man',
target = 'DOCS/man/mpv.1',
source = 'DOCS/man/mpv.rst',
rule = '${RST2MAN} ${SRC} ${TGT}',
install_path = ctx.env.MANDIR + '/man1')
_add_rst_manual_dependencies(ctx)
def _build_pdf(ctx):
ctx(
name = 'rst2pdf',
target = 'DOCS/man/mpv.pdf',
source = 'DOCS/man/mpv.rst',
rule = '${RST2PDF} -c --repeat-table-rows ${SRC} -o ${TGT}',
install_path = ctx.env.DOCDIR)
_add_rst_manual_dependencies(ctx)
def _all_includes(ctx):
return [ctx.bldnode.abspath(), ctx.srcnode.abspath()] + \
ctx.dependencies_includes()
def build(ctx):
ctx.load('waf_customizations')
ctx.load('generators.sources')
ctx.file2string(
source = "TOOLS/osxbundle/mpv.app/Contents/Resources/icon.icns",
target = "osdep/macosx_icon.inc")
ctx.file2string(
source = "video/out/x11_icon.bin",
target = "video/out/x11_icon.inc")
ctx.file2string(
source = "etc/input.conf",
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target = "input/input_conf.h")
ctx.file2string(
source = "sub/osd_font.otf",
target = "sub/osd_font.h")
vo_opengl: implement NNEDI3 prescaler Implement NNEDI3, a neural network based deinterlacer. The shader is reimplemented in GLSL and supports both 8x4 and 8x6 sampling window now. This allows the shader to be licensed under LGPL2.1 so that it can be used in mpv. The current implementation supports uploading the NN weights (up to 51kb with placebo setting) in two different way, via uniform buffer object or hard coding into shader source. UBO requires OpenGL 3.1, which only guarantee 16kb per block. But I find that 64kb seems to be a default setting for recent card/driver (which nnedi3 is targeting), so I think we're fine here (with default nnedi3 setting the size of weights is 9kb). Hard-coding into shader requires OpenGL 3.3, for the "intBitsToFloat()" built-in function. This is necessary to precisely represent these weights in GLSL. I tried several human readable floating point number format (with really high precision as for single precision float), but for some reason they are not working nicely, bad pixels (with NaN value) could be produced with some weights set. We could also add support to upload these weights with texture, just for compatibility reason (etc. upscaling a still image with a low end graphics card). But as I tested, it's rather slow even with 1D texture (we probably had to use 2D texture due to dimension size limitation). Since there is always better choice to do NNEDI3 upscaling for still image (vapoursynth plugin), it's not implemented in this commit. If this turns out to be a popular demand from the user, it should be easy to add it later. For those who wants to optimize the performance a bit further, the bottleneck seems to be: 1. overhead to upload and access these weights, (in particular, the shader code will be regenerated for each frame, it's on CPU though). 2. "dot()" performance in the main loop. 3. "exp()" performance in the main loop, there are various fast implementation with some bit tricks (probably with the help of the intBitsToFloat function). The code is tested with nvidia card and driver (355.11), on Linux. Closes #2230
2015-10-28 01:37:55 +00:00
ctx.file2string(
source = "video/out/opengl/nnedi3_weights.bin",
target = "video/out/opengl/nnedi3_weights.inc")
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lua_files = ["defaults.lua", "assdraw.lua", "options.lua", "osc.lua",
"ytdl_hook.lua"]
for fn in lua_files:
fn = "player/lua/" + fn
ctx.file2string(source = fn, target = os.path.splitext(fn)[0] + ".inc")
ctx.matroska_header(
source = "demux/ebml.c demux/demux_mkv.c",
target = "ebml_types.h")
ctx.matroska_definitions(
source = "demux/ebml.c",
target = "ebml_defs.c")
if ctx.env.DEST_OS == 'win32':
main_fn_c = 'osdep/main-fn-win.c'
elif ctx.dependency_satisfied('cocoa'):
main_fn_c = 'osdep/main-fn-cocoa.c'
else:
main_fn_c = 'osdep/main-fn-unix.c'
getch2_c = {
'win32': 'osdep/terminal-win.c',
}.get(ctx.env.DEST_OS, "osdep/terminal-unix.c")
timer_c = {
'win32': 'osdep/timer-win2.c',
'darwin': 'osdep/timer-darwin.c',
}.get(ctx.env.DEST_OS, "osdep/timer-linux.c")
sources = [
## Audio
( "audio/audio.c" ),
( "audio/audio_buffer.c" ),
( "audio/chmap.c" ),
( "audio/chmap_sel.c" ),
( "audio/fmt-conversion.c" ),
( "audio/format.c" ),
( "audio/mixer.c" ),
( "audio/decode/ad_lavc.c" ),
( "audio/decode/ad_spdif.c" ),
( "audio/decode/dec_audio.c" ),
( "audio/filter/af.c" ),
( "audio/filter/af_channels.c" ),
( "audio/filter/af_delay.c" ),
( "audio/filter/af_drc.c" ),
( "audio/filter/af_equalizer.c" ),
( "audio/filter/af_format.c" ),
( "audio/filter/af_lavcac3enc.c" ),
( "audio/filter/af_lavfi.c", "libavfilter" ),
( "audio/filter/af_lavrresample.c" ),
( "audio/filter/af_pan.c" ),
( "audio/filter/af_rubberband.c", "rubberband" ),
( "audio/filter/af_scaletempo.c" ),
( "audio/filter/af_volume.c" ),
( "audio/filter/tools.c" ),
( "audio/out/ao.c" ),
( "audio/out/ao_alsa.c", "alsa" ),
( "audio/out/ao_coreaudio.c", "coreaudio" ),
( "audio/out/ao_coreaudio_chmap.c", "coreaudio" ),
( "audio/out/ao_coreaudio_exclusive.c", "coreaudio" ),
( "audio/out/ao_coreaudio_properties.c", "coreaudio" ),
( "audio/out/ao_coreaudio_utils.c", "coreaudio" ),
( "audio/out/ao_dsound.c", "dsound" ),
( "audio/out/ao_jack.c", "jack" ),
( "audio/out/ao_lavc.c", "encoding" ),
( "audio/out/ao_null.c" ),
( "audio/out/ao_openal.c", "openal" ),
( "audio/out/ao_oss.c", "oss-audio" ),
( "audio/out/ao_pcm.c" ),
( "audio/out/ao_pulse.c", "pulse" ),
( "audio/out/ao_rsound.c", "rsound" ),
( "audio/out/ao_sdl.c", "sdl1" ),
( "audio/out/ao_sdl.c", "sdl2" ),
( "audio/out/ao_sndio.c", "sndio" ),
( "audio/out/ao_wasapi.c", "wasapi" ),
( "audio/out/ao_wasapi_utils.c", "wasapi" ),
( "audio/out/ao_wasapi_changenotify.c", "wasapi" ),
( "audio/out/pull.c" ),
( "audio/out/push.c" ),
## Core
( "common/av_common.c" ),
( "common/av_log.c" ),
( "common/codecs.c" ),
( "common/encode_lavc.c", "encoding" ),
( "common/common.c" ),
( "common/tags.c" ),
( "common/msg.c" ),
( "common/playlist.c" ),
( "common/version.c" ),
## Demuxers
( "demux/codec_tags.c" ),
( "demux/cue.c" ),
( "demux/demux.c" ),
( "demux/demux_cue.c" ),
( "demux/demux_disc.c" ),
( "demux/demux_edl.c" ),
( "demux/demux_lavf.c" ),
( "demux/demux_libarchive.c", "libarchive" ),
( "demux/demux_mf.c" ),
( "demux/demux_mkv.c" ),
( "demux/demux_mkv_timeline.c" ),
( "demux/demux_playlist.c" ),
( "demux/demux_raw.c" ),
( "demux/demux_rar.c" ),
( "demux/demux_subreader.c" ),
( "demux/demux_tv.c", "tv" ),
( "demux/ebml.c" ),
( "demux/packet.c" ),
( "demux/timeline.c" ),
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## Input
( "input/cmd_list.c" ),
( "input/cmd_parse.c" ),
( "input/event.c" ),
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( "input/input.c" ),
( "input/ipc.c", "!mingw" ),
( "input/keycodes.c" ),
( "input/pipe-win32.c", "waio" ),
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## Misc
( "misc/bstr.c" ),
( "misc/charset_conv.c" ),
( "misc/dispatch.c" ),
( "misc/json.c" ),
( "misc/ring.c" ),
( "misc/rendezvous.c" ),
## Options
( "options/m_config.c" ),
( "options/m_option.c" ),
( "options/m_property.c" ),
( "options/options.c" ),
( "options/parse_commandline.c" ),
( "options/parse_configfile.c" ),
( "options/path.c" ),
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## Player
( "player/audio.c" ),
( "player/client.c" ),
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( "player/command.c" ),
( "player/configfiles.c" ),
( "player/external_files.c" ),
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( "player/loadfile.c" ),
( "player/main.c" ),
( "player/misc.c" ),
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( "player/lua.c", "lua" ),
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( "player/osd.c" ),
( "player/playloop.c" ),
( "player/screenshot.c" ),
( "player/scripting.c" ),
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( "player/sub.c" ),
( "player/video.c" ),
## Streams
( "stream/ai_alsa1x.c", "alsa" ),
( "stream/ai_oss.c", "oss-audio" ),
( "stream/ai_sndio.c", "sndio" ),
( "stream/audio_in.c", "audio-input" ),
( "stream/cache.c" ),
( "stream/cache_file.c" ),
( "stream/cookies.c" ),
( "stream/dvb_tune.c", "dvbin" ),
( "stream/frequencies.c", "tv" ),
( "stream/rar.c" ),
( "stream/stream.c" ),
( "stream/stream_avdevice.c" ),
( "stream/stream_bluray.c", "libbluray" ),
( "stream/stream_cdda.c", "cdda" ),
( "stream/stream_dvb.c", "dvbin" ),
( "stream/stream_dvd.c", "dvdread" ),
( "stream/stream_dvd_common.c", "dvdread" ),
( "stream/stream_dvdnav.c", "dvdnav" ),
( "stream/stream_edl.c" ),
( "stream/stream_file.c" ),
( "stream/stream_lavf.c" ),
( "stream/stream_libarchive.c", "libarchive" ),
( "stream/stream_memory.c" ),
( "stream/stream_mf.c" ),
( "stream/stream_null.c" ),
( "stream/stream_pvr.c", "pvr" ),
( "stream/stream_rar.c" ),
( "stream/stream_smb.c", "libsmbclient" ),
( "stream/stream_tv.c", "tv" ),
( "stream/tv.c", "tv" ),
( "stream/tvi_dummy.c", "tv" ),
( "stream/tvi_v4l2.c", "tv-v4l2"),
## Subtitles
( "sub/ass_mp.c", "libass"),
( "sub/dec_sub.c" ),
( "sub/draw_bmp.c" ),
( "sub/img_convert.c" ),
( "sub/osd.c" ),
( "sub/osd_dummy.c", "dummy-osd" ),
( "sub/osd_libass.c", "libass-osd" ),
( "sub/sd_ass.c", "libass" ),
( "sub/sd_lavc.c" ),
( "sub/sd_lavc_conv.c" ),
( "sub/sd_lavf_srt.c" ),
( "sub/sd_microdvd.c" ),
( "sub/sd_movtext.c" ),
( "sub/sd_srt.c" ),
## Video
( "video/csputils.c" ),
( "video/fmt-conversion.c" ),
( "video/gpu_memcpy.c", "sse4-intrinsics" ),
( "video/image_writer.c" ),
( "video/img_format.c" ),
( "video/mp_image.c" ),
( "video/mp_image_pool.c" ),
( "video/sws_utils.c" ),
( "video/vaapi.c", "vaapi" ),
( "video/vdpau.c", "vdpau" ),
( "video/vdpau_mixer.c", "vdpau" ),
( "video/decode/dec_video.c"),
( "video/decode/dxva2.c", "dxva2-hwaccel" ),
RPI support This requires FFmpeg git master for accelerated hardware decoding. Keep in mind that FFmpeg must be compiled with --enable-mmal. Libav will also work. Most things work. Screenshots don't work with accelerated/opaque decoding (except using full window screenshot mode). Subtitles are very slow - even simple but huge overlays can cause frame drops. This always uses fullscreen mode. It uses dispmanx and mmal directly, and there are no window managers or anything on this level. vo_opengl also kind of works, but is pretty useless and slow. It can't use opaque hardware decoding (copy back can be used by forcing the option --vd=lavc:h264_mmal). Keep in mind that the dispmanx backend is preferred over the X11 ones in case you're trying on X11; but X11 is even more useless on RPI. This doesn't correctly reject extended h264 profiles and thus doesn't fallback to software decoding. The hw supports only up to the high profile, and will e.g. return garbage for Hi10P video. This sets a precedent of enabling hw decoding by default, but only if RPI support is compiled (which most hopefully it will be disabled on desktop Linux platforms). While it's more or less required to use hw decoding on the weak RPI, it causes more problems than it solves on real platforms (Linux has the Intel GPU problem, OSX still has some cases with broken decoding.) So I can live with this compromise of having different defaults depending on the platform. Raspberry Pi 2 is required. This wasn't tested on the original RPI, though at least decoding itself seems to work (but full playback was not tested).
2015-03-29 13:12:11 +00:00
( "video/decode/rpi.c", "rpi" ),
( "video/decode/vaapi.c", "vaapi-hwaccel" ),
( "video/decode/vd_lavc.c" ),
( "video/decode/videotoolbox.c", "videotoolbox-hwaccel" ),
( "video/decode/vdpau.c", "vdpau-hwaccel" ),
( "video/filter/vf.c" ),
( "video/filter/vf_buffer.c" ),
( "video/filter/vf_crop.c" ),
( "video/filter/vf_dlopen.c", "dlopen" ),
( "video/filter/vf_dsize.c" ),
( "video/filter/vf_eq.c" ),
( "video/filter/vf_expand.c" ),
( "video/filter/vf_flip.c" ),
( "video/filter/vf_format.c" ),
( "video/filter/vf_gradfun.c", "libavfilter"),
( "video/filter/vf_lavfi.c", "libavfilter"),
( "video/filter/vf_mirror.c", "libavfilter"),
( "video/filter/vf_noformat.c" ),
( "video/filter/vf_pullup.c", "libavfilter"),
( "video/filter/vf_rotate.c", "libavfilter"),
( "video/filter/vf_scale.c" ),
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( "video/filter/vf_stereo3d.c", "libavfilter"),
( "video/filter/vf_sub.c" ),
( "video/filter/vf_vapoursynth.c", "vapoursynth-core" ),
( "video/filter/vf_vavpp.c", "vaapi"),
( "video/filter/vf_vdpaupp.c", "vdpau" ),
( "video/filter/vf_vdpaurb.c", "vdpau" ),
( "video/filter/vf_yadif.c", "libavfilter"),
( "video/out/aspect.c" ),
( "video/out/bitmap_packer.c" ),
( "video/out/cocoa/video_view.m", "cocoa" ),
( "video/out/cocoa/events_view.m", "cocoa" ),
( "video/out/cocoa/window.m", "cocoa" ),
( "video/out/cocoa_common.m", "cocoa" ),
( "video/out/dither.c" ),
( "video/out/filter_kernels.c" ),
( "video/out/opengl/cocoa.c", "gl-cocoa" ),
( "video/out/opengl/common.c", "gl" ),
( "video/out/opengl/rpi.c", "rpi" ),
( "video/out/opengl/hwdec.c", "gl" ),
( "video/out/opengl/hwdec_dxva2.c", "gl-win32" ),
( "video/out/opengl/hwdec_vaegl.c", "vaapi-egl" ),
( "video/out/opengl/hwdec_vaglx.c", "vaapi-glx" ),
( "video/out/opengl/hwdec_osx.c", "videotoolbox-gl" ),
( "video/out/opengl/hwdec_vdpau.c", "vdpau-gl-x11" ),
( "video/out/opengl/lcms.c", "gl" ),
vo_opengl: implement NNEDI3 prescaler Implement NNEDI3, a neural network based deinterlacer. The shader is reimplemented in GLSL and supports both 8x4 and 8x6 sampling window now. This allows the shader to be licensed under LGPL2.1 so that it can be used in mpv. The current implementation supports uploading the NN weights (up to 51kb with placebo setting) in two different way, via uniform buffer object or hard coding into shader source. UBO requires OpenGL 3.1, which only guarantee 16kb per block. But I find that 64kb seems to be a default setting for recent card/driver (which nnedi3 is targeting), so I think we're fine here (with default nnedi3 setting the size of weights is 9kb). Hard-coding into shader requires OpenGL 3.3, for the "intBitsToFloat()" built-in function. This is necessary to precisely represent these weights in GLSL. I tried several human readable floating point number format (with really high precision as for single precision float), but for some reason they are not working nicely, bad pixels (with NaN value) could be produced with some weights set. We could also add support to upload these weights with texture, just for compatibility reason (etc. upscaling a still image with a low end graphics card). But as I tested, it's rather slow even with 1D texture (we probably had to use 2D texture due to dimension size limitation). Since there is always better choice to do NNEDI3 upscaling for still image (vapoursynth plugin), it's not implemented in this commit. If this turns out to be a popular demand from the user, it should be easy to add it later. For those who wants to optimize the performance a bit further, the bottleneck seems to be: 1. overhead to upload and access these weights, (in particular, the shader code will be regenerated for each frame, it's on CPU though). 2. "dot()" performance in the main loop. 3. "exp()" performance in the main loop, there are various fast implementation with some bit tricks (probably with the help of the intBitsToFloat function). The code is tested with nvidia card and driver (355.11), on Linux. Closes #2230
2015-10-28 01:37:55 +00:00
( "video/out/opengl/nnedi3.c", "gl" ),
( "video/out/opengl/osd.c", "gl" ),
( "video/out/opengl/superxbr.c", "gl" ),
( "video/out/opengl/utils.c", "gl" ),
( "video/out/opengl/video.c", "gl" ),
( "video/out/opengl/video_shaders.c", "gl" ),
( "video/out/opengl/w32.c", "gl-win32" ),
( "video/out/opengl/wayland.c", "gl-wayland" ),
( "video/out/opengl/x11.c", "gl-x11" ),
( "video/out/opengl/x11egl.c", "egl-x11" ),
vo_opengl: add DRM EGL backend Notes: - Unfortunately the only way to talk to EGL from within DRM I could find involves linking with GBM (generic buffer management for Mesa.) Because of this, I'm pretty sure it won't work with proprietary NVidia drivers, but then again, last time I checked NVidia didn't offer proper screen resolution for VT. - VT switching doesn't seem to work at all. It's worth mentioning that using vo_drm before introduction of VT switcher had an anomaly where user could switch to another VT and input text to it, while video played on top of that VT. However, that isn't the case with drm_egl: I can't switch to other VT during playback like this. This makes me think that it's either a limitation coming from my firmware or from EGL/KMS itself rather than a bug with my code. Nonetheless, I still left (untestable) VT switching code in place, in case it's useful to someone else. - The mode_id, connector_id and device_path should be configurable for power users and people who wish to watch videos on nonprimary screen. Unfortunately I didn't see anything that would allow OpenGL backends to register their own set of options. At the same time, adding them to global namespace is pointless. - A few dozens of lines could be shared with vo_drm (setting up VT switching, most of code behind page flipping). I don't have any strong opinion on this. - Sometimes I get minor visual glitches. I'm not sure if there's a race condition of some sort, unitialized variable (doubtful), or if it's buggy driver. (I'm using integrated Intel HD Graphics 4400 with Mesa) - .config and .control are very minimal. Signed-off-by: wm4 <wm4@nowhere>
2015-11-07 18:06:57 +00:00
( "video/out/opengl/drm_egl.c", "egl-drm" ),
( "video/out/vo.c" ),
( "video/out/vo_caca.c", "caca" ),
( "video/out/vo_drm.c", "drm" ),
( "video/out/vo_direct3d.c", "direct3d" ),
( "video/out/vo_image.c" ),
( "video/out/vo_lavc.c", "encoding" ),
RPI support This requires FFmpeg git master for accelerated hardware decoding. Keep in mind that FFmpeg must be compiled with --enable-mmal. Libav will also work. Most things work. Screenshots don't work with accelerated/opaque decoding (except using full window screenshot mode). Subtitles are very slow - even simple but huge overlays can cause frame drops. This always uses fullscreen mode. It uses dispmanx and mmal directly, and there are no window managers or anything on this level. vo_opengl also kind of works, but is pretty useless and slow. It can't use opaque hardware decoding (copy back can be used by forcing the option --vd=lavc:h264_mmal). Keep in mind that the dispmanx backend is preferred over the X11 ones in case you're trying on X11; but X11 is even more useless on RPI. This doesn't correctly reject extended h264 profiles and thus doesn't fallback to software decoding. The hw supports only up to the high profile, and will e.g. return garbage for Hi10P video. This sets a precedent of enabling hw decoding by default, but only if RPI support is compiled (which most hopefully it will be disabled on desktop Linux platforms). While it's more or less required to use hw decoding on the weak RPI, it causes more problems than it solves on real platforms (Linux has the Intel GPU problem, OSX still has some cases with broken decoding.) So I can live with this compromise of having different defaults depending on the platform. Raspberry Pi 2 is required. This wasn't tested on the original RPI, though at least decoding itself seems to work (but full playback was not tested).
2015-03-29 13:12:11 +00:00
( "video/out/vo_rpi.c", "rpi" ),
( "video/out/vo_null.c" ),
( "video/out/vo_opengl.c", "gl" ),
( "video/out/vo_opengl_cb.c", "gl" ),
( "video/out/vo_sdl.c", "sdl2" ),
( "video/out/vo_vaapi.c", "vaapi-x11" ),
( "video/out/vo_vdpau.c", "vdpau" ),
( "video/out/vo_wayland.c", "wayland" ),
( "video/out/vo_x11.c" , "x11" ),
( "video/out/vo_xv.c", "xv" ),
( "video/out/w32_common.c", "win32" ),
( "video/out/win32/displayconfig.c", "win32" ),
( "video/out/wayland_common.c", "wayland" ),
( "video/out/wayland/buffer.c", "wayland" ),
( "video/out/wayland/memfile.c", "wayland" ),
( "video/out/win_state.c"),
( "video/out/x11_common.c", "x11" ),
( "video/out/drm_common.c", "drm" ),
## osdep
( getch2_c ),
( "osdep/io.c" ),
( "osdep/timer.c" ),
( timer_c ),
( "osdep/threads.c" ),
( "osdep/ar/HIDRemote.m", "apple-remote" ),
( "osdep/macosx_application.m", "cocoa" ),
( "osdep/macosx_events.m", "cocoa" ),
( "osdep/semaphore_osx.c" ),
( "osdep/subprocess.c" ),
( "osdep/subprocess-posix.c", "posix-spawn" ),
( "osdep/subprocess-win.c", "os-win32" ),
( "osdep/path-macosx.m", "cocoa" ),
( "osdep/path-unix.c"),
( "osdep/path-win.c", "os-win32" ),
( "osdep/path-win.c", "os-cygwin" ),
( "osdep/glob-win.c", "glob-win32-replacement" ),
( "osdep/w32_keyboard.c", "os-win32" ),
( "osdep/w32_keyboard.c", "os-cygwin" ),
( "osdep/mpv.rc", "win32-executable" ),
( "osdep/win32/pthread.c", "win32-internal-pthreads"),
## tree_allocator
"ta/ta.c", "ta/ta_talloc.c", "ta/ta_utils.c"
]
if ctx.dependency_satisfied('win32-executable'):
from waflib import TaskGen
TaskGen.declare_chain(
name = 'windres',
rule = '${WINDRES} ${WINDRES_FLAGS} ${SRC} ${TGT}',
ext_in = '.rc',
ext_out = '-rc.o',
color = 'PINK')
ctx.env.WINDRES_FLAGS = [
'--include-dir={0}'.format(ctx.bldnode.abspath()),
'--include-dir={0}'.format(ctx.srcnode.abspath())
]
for node in 'osdep/mpv.exe.manifest etc/mpv-icon.ico'.split():
ctx.add_manual_dependency(
ctx.path.find_node('osdep/mpv.rc'),
ctx.path.find_node(node))
version = ctx.bldnode.find_node('version.h')
if version:
ctx.add_manual_dependency(
ctx.path.find_node('osdep/mpv.rc'),
version)
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if ctx.dependency_satisfied('cplayer') or ctx.dependency_satisfied('test'):
ctx(
target = "objects",
source = ctx.filtered_sources(sources),
use = ctx.dependencies_use(),
includes = _all_includes(ctx),
features = "c",
)
if ctx.dependency_satisfied('cplayer'):
ctx(
target = "mpv",
source = main_fn_c,
use = ctx.dependencies_use() + ['objects'],
includes = _all_includes(ctx),
features = "c cprogram",
install_path = ctx.env.BINDIR
)
for f in ['example.conf', 'input.conf', 'mplayer-input.conf', \
'restore-old-bindings.conf']:
ctx.install_as(os.path.join(ctx.env.DOCDIR, f),
os.path.join('etc/', f))
if ctx.env.DEST_OS == 'win32':
wrapctx = ctx(
target = "mpv",
source = ['osdep/win32-console-wrapper.c'],
features = "c cprogram",
install_path = ctx.env.BINDIR
)
wrapctx.env.cprogram_PATTERN = "%s.com"
wrapflags = ['-municode', '-mconsole']
wrapctx.env.CFLAGS = wrapflags
wrapctx.env.LAST_LINKFLAGS = wrapflags
if ctx.dependency_satisfied('test'):
for test in ctx.path.ant_glob("test/*.c"):
ctx(
target = os.path.splitext(test.srcpath())[0],
source = test.srcpath(),
use = ctx.dependencies_use() + ['objects'],
includes = _all_includes(ctx),
features = "c cprogram",
)
build_shared = ctx.dependency_satisfied('libmpv-shared')
build_static = ctx.dependency_satisfied('libmpv-static')
if build_shared or build_static:
if build_shared:
waftoolsdir = os.path.join(os.path.dirname(__file__), "waftools")
ctx.load("syms", tooldir=waftoolsdir)
vre = '^#define MPV_CLIENT_API_VERSION MPV_MAKE_VERSION\((.*), (.*)\)$'
libmpv_header = ctx.path.find_node("libmpv/client.h").read()
major, minor = re.search(vre, libmpv_header, re.M).groups()
libversion = major + '.' + minor + '.0'
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def _build_libmpv(shared):
features = "c "
if shared:
features += "cshlib syms"
else:
features += "cstlib"
ctx(
target = "mpv",
source = ctx.filtered_sources(sources),
use = ctx.dependencies_use(),
includes = [ctx.bldnode.abspath(), ctx.srcnode.abspath()] + \
ctx.dependencies_includes(),
features = features,
export_symbols_def = "libmpv/mpv.def",
install_path = ctx.env.LIBDIR,
vnum = libversion,
)
if build_shared:
_build_libmpv(True)
if build_static:
_build_libmpv(False)
def get_deps():
res = ""
for k in ctx.env.keys():
if k.startswith("LIB_") and k != "LIB_ST":
res += " ".join(["-l" + x for x in ctx.env[k]]) + " "
return res
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ctx(
target = 'libmpv/mpv.pc',
source = 'libmpv/mpv.pc.in',
features = 'subst',
PREFIX = ctx.env.PREFIX,
LIBDIR = ctx.env.LIBDIR,
INCDIR = ctx.env.INCDIR,
VERSION = libversion,
PRIV_LIBS = get_deps(),
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)
headers = ["client.h", "qthelper.hpp", "opengl_cb.h"]
for f in headers:
ctx.install_as(ctx.env.INCDIR + '/mpv/' + f, 'libmpv/' + f)
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ctx.install_as(ctx.env.LIBDIR + '/pkgconfig/mpv.pc', 'libmpv/mpv.pc')
if ctx.dependency_satisfied("vf-dlopen-filters"):
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dlfilters = "telecine tile rectangle framestep ildetect".split()
for dlfilter in dlfilters:
ctx(
target = dlfilter,
source = ['TOOLS/vf_dlopen/'+dlfilter+'.c',
'TOOLS/vf_dlopen/filterutils.c'],
includes = [ctx.srcnode.abspath() + '/video/filter'],
features = 'c cshlib',
install_path = ctx.env.LIBDIR + '/mpv' )
if ctx.dependency_satisfied('manpage-build'):
_build_man(ctx)
if ctx.dependency_satisfied('pdf-build'):
_build_pdf(ctx)
if ctx.dependency_satisfied('cplayer'):
if ctx.dependency_satisfied('zsh-comp'):
ctx.zshcomp(target = "etc/_mpv")
ctx.install_files(
ctx.env.ZSHDIR,
['etc/_mpv'])
ctx.install_files(
ctx.env.DATADIR + '/applications',
['etc/mpv.desktop'] )
ctx.install_files(ctx.env.CONFDIR, ['etc/encoding-profiles.conf'] )
for size in '16x16 32x32 64x64'.split():
ctx.install_as(
ctx.env.DATADIR + '/icons/hicolor/' + size + '/apps/mpv.png',
'etc/mpv-icon-8bit-' + size + '.png')