mirror of https://git.ffmpeg.org/ffmpeg.git
182 lines
14 KiB
Makefile
182 lines
14 KiB
Makefile
FATE_MATROSKA-$(call ALLYES, MATROSKA_DEMUXER ZLIB) += fate-matroska-prores-zlib
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fate-matroska-prores-zlib: CMD = framecrc -i $(TARGET_SAMPLES)/mkv/prores_zlib.mkv -c:v copy
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# This tests that the matroska demuxer correctly adds the icpf header atom
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# upon demuxing; it also tests bz2 decompression and unknown-length cluster.
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FATE_MATROSKA-$(call ALLYES, MATROSKA_DEMUXER BZLIB) += fate-matroska-prores-header-insertion-bz2
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fate-matroska-prores-header-insertion-bz2: CMD = framecrc -i $(TARGET_SAMPLES)/mkv/prores_bz2.mkv -map 0 -c copy
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# This tests that the matroska demuxer supports modifying the colorspace
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# properties in remuxing (-c:v copy)
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# It also tests automatic insertion of the vp9_superframe bitstream filter
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FATE_MATROSKA-$(call DEMMUX, MATROSKA, MATROSKA) += fate-matroska-remux
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fate-matroska-remux: CMD = md5pipe -i $(TARGET_SAMPLES)/vp9-test-vectors/vp90-2-2pass-akiyo.webm -color_trc 4 -c:v copy -fflags +bitexact -strict -2 -f matroska
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fate-matroska-remux: CMP = oneline
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fate-matroska-remux: REF = b9c7b650349972c9dce42ab79b472917
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FATE_MATROSKA-$(call ALLYES, MATROSKA_DEMUXER VORBIS_PARSER) += fate-matroska-xiph-lacing
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fate-matroska-xiph-lacing: CMD = framecrc -i $(TARGET_SAMPLES)/mkv/xiph_lacing.mka -c:a copy
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# This tests that the Matroska demuxer correctly demuxes WavPack
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# without CodecPrivate; it also tests zlib compressed WavPack.
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FATE_MATROSKA-$(call ALLYES, MATROSKA_DEMUXER ZLIB) += fate-matroska-wavpack-missing-codecprivate
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fate-matroska-wavpack-missing-codecprivate: CMD = framecrc -i $(TARGET_SAMPLES)/mkv/wavpack_missing_codecprivate.mka -c copy
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# This tests that the matroska demuxer supports decompressing
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# zlib compressed tracks (both the CodecPrivate as well as the actual frames).
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FATE_MATROSKA-$(call ALLYES, MATROSKA_DEMUXER ZLIB) += fate-matroska-zlib-decompression
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fate-matroska-zlib-decompression: CMD = framecrc -i $(TARGET_SAMPLES)/mkv/subtitle_zlib.mks -c:s copy
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# This tests that the matroska demuxer can decompress lzo compressed tracks.
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FATE_MATROSKA-$(CONFIG_MATROSKA_DEMUXER) += fate-matroska-lzo-decompression
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fate-matroska-lzo-decompression: CMD = framecrc -i $(TARGET_SAMPLES)/mkv/lzo.mka -c copy
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# This tests that the matroska demuxer correctly propagates
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# the channel layout contained in vorbis comments in the CodecPrivate
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# of flac tracks. It also tests header removal compression.
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FATE_MATROSKA-$(call ALLYES, MATROSKA_DEMUXER FLAC_PARSER) += fate-matroska-flac-channel-mapping
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fate-matroska-flac-channel-mapping: CMD = framecrc -i $(TARGET_SAMPLES)/mkv/flac_channel_layouts.mka -map 0 -c:a copy
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# This tests that the Matroska muxer writes the channel layout
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# of FLAC tracks as a Vorbis comment in the CodecPrivate if necessary
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# and that FLAC extradata is correctly updated when a packet
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# with sidedata containing new extradata is encountered.
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# Furthermore it tests everything the matroska-flac-channel-mapping test
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# tests and it also tests the FLAC decoder and encoder, in particular
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# the latter's ability to send updated extradata.
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FATE_MATROSKA-$(call ALLYES, FLAC_DECODER FLAC_ENCODER FLAC_PARSER \
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MATROSKA_DEMUXER MATROSKA_MUXER) += fate-matroska-flac-extradata-update
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fate-matroska-flac-extradata-update: CMD = transcode matroska $(TARGET_SAMPLES)/mkv/flac_channel_layouts.mka \
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matroska "-map 0 -map 0:0 -c flac -frames:a:2 8" "-map 0 -c copy"
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# This test tests demuxing Vorbis and chapters from ogg and muxing it in and
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# demuxing it from Matroska/WebM. It furthermore tests the WebM muxer, in
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# particular its DASH mode. Finally, it tests writing the Cues at the front.
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FATE_MATROSKA_FFMPEG_FFPROBE-$(call ALLYES, MATROSKA_DEMUXER OGG_DEMUXER \
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VORBIS_DECODER VORBIS_PARSER WEBM_MUXER) \
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+= fate-webm-dash-chapters
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fate-webm-dash-chapters: CMD = transcode ogg $(TARGET_SAMPLES)/vorbis/vorbis_chapter_extension_demo.ogg webm "-c copy -cluster_time_limit 1500 -dash 1 -dash_track_number 124 -reserve_index_space 400" "-c copy -t 0.5" -show_chapters
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# The input file has a Block whose payload has a size of zero before reversing
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# header removal compression; it furthermore uses chained SeekHeads and has
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# level 1-elements after the Cluster. This is tested on the demuxer's side.
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# For the muxer this tests that it can correctly write huge TrackNumbers and
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# that it can expand the Cues element's length field by one byte if necessary.
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# It furthermore tests correct propagation of the description tag.
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FATE_MATROSKA_FFMPEG_FFPROBE-$(call DEMMUX, MATROSKA, MATROSKA) \
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+= fate-matroska-zero-length-block
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fate-matroska-zero-length-block: CMD = transcode matroska $(TARGET_SAMPLES)/mkv/zero_length_block.mks matroska "-c:s copy -dash 1 -dash_track_number 2000000000 -reserve_index_space 62 -metadata_header_padding 1 -default_mode infer_no_subs" "-c:s copy" "-show_entries stream_tags=description"
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# This mainly tests the Matroska muxer's ability to shift the data
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# to create enough free space to write the Cues at the front.
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# The metadata_header_padding has been chosen so that three attempts
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# to write the Cues are necessary.
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# It also tests writing PCM audio in both endiannesses and putting
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# Cues with the same timestamp in the same CuePoint as well as
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# omitting CRC-32 elements when writing Matroska.
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FATE_MATROSKA-$(call TRANSCODE, PCM_S24BE PCM_S24LE, MATROSKA, WAV_DEMUXER) \
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+= fate-matroska-move-cues-to-front
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fate-matroska-move-cues-to-front: CMD = transcode wav $(TARGET_SAMPLES)/audio-reference/divertimenti_2ch_96kHz_s24.wav matroska "-map 0 -map 0 -c:a:0 pcm_s24be -c:a:1 copy -cluster_time_limit 5 -cues_to_front yes -metadata_header_padding 7840 -write_crc32 0" "-map 0 -c copy -t 0.1"
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# This tests DOVI (reading from MP4 and Matroska and writing to Matroska)
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# as well as writing the Cues at the front (by shifting data) if
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# the initially reserved amount of space turns out to be insufficient.
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FATE_MATROSKA_FFMPEG_FFPROBE-$(call REMUX, MATROSKA, MOV_DEMUXER HEVC_DECODER) \
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+= fate-matroska-dovi-write-config7
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fate-matroska-dovi-write-config7: CMD = transcode mov $(TARGET_SAMPLES)/mov/dovi-p7.mp4 matroska "-map 0 -c copy -cues_to_front yes -reserve_index_space 40 -metadata_header_padding 64339" "-map 0 -c copy" "-show_entries stream_side_data_list"
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FATE_MATROSKA_FFMPEG_FFPROBE-$(call REMUX, MATROSKA, MOV_DEMUXER \
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HEVC_DECODER AAC_DECODER) \
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+= fate-matroska-dovi-write-config8
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fate-matroska-dovi-write-config8: CMD = transcode mov $(TARGET_SAMPLES)/hevc/dv84.mov matroska "-c copy" "-map 0 -c copy -t 0.4" "-show_entries stream_side_data_list -select_streams v"
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# This tests the scenario like tickets #4536, #5784 where
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# the first packet (with the overall lowest dts) is a video packet,
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# whereas an audio packet to be muxed later has the overall lowest pts
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# which happens to be negative and therefore needs to be shifted.
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# (-ss 1.09 ensures that a video frame has the lowest dts of all packets;
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# yet there is an audio packet with the overall lowest pts. output_ts_offset
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# makes the pts of the audio packet, but not the leading video packet negative
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# so that we run into the above issue.)
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FATE_MATROSKA-$(call REMUX, MATROSKA, MPEGTS_DEMUXER MPEGVIDEO_PARSER \
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MPEG2VIDEO_DECODER EXTRACT_EXTRADATA_BSF \
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MP3FLOAT_DECODER) \
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+= fate-matroska-avoid-negative-ts
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fate-matroska-avoid-negative-ts: CMD = transcode mpegts $(TARGET_SAMPLES)/mpeg2/t.mpg matroska "-c copy -ss 1.09 -output_ts_offset -60ms" "-c copy -t 0.4"
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# This tests writing the MS-compatibility modes V_MS/VFW/FOURCC and A_MS/ACM.
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# It furthermore tests writing the Cues at the front if the cues_to_front
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# option is set and more than enough space has been reserved in advance.
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# (Btw: The keyframe flags of the input video stream seem wrong.)
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FATE_MATROSKA-$(call REMUX, MATROSKA, AVI_DEMUXER) += fate-matroska-ms-mode
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fate-matroska-ms-mode: CMD = transcode avi $(TARGET_SAMPLES)/vp5/potter512-400-partial.avi matroska "-map 0 -c copy -cues_to_front yes -reserve_index_space 5000" "-map 0 -c copy -t 1"
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# This tests Matroska's QT-compatibility mode.
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FATE_MATROSKA-$(call REMUX, MATROSKA, MOV_DEMUXER) += fate-matroska-qt-mode
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fate-matroska-qt-mode: CMD = transcode mov $(TARGET_SAMPLES)/svq1/marymary-shackles.mov matroska "-c copy" "-c copy -t 3"
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# This test the following features of the Matroska muxer: Writing projection
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# stream side-data; not setting any track to default if the user requested it;
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# and modifying and writing colorspace properties.
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FATE_MATROSKA_FFMPEG_FFPROBE-$(call REMUX, MATROSKA, H264_DECODER H264_PARSER) \
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+= fate-matroska-spherical-mono-remux
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fate-matroska-spherical-mono-remux: CMD = transcode matroska $(TARGET_SAMPLES)/mkv/spherical.mkv matroska "-map 0 -map 0 -c copy -disposition:0 -default+forced -disposition:1 -default -default_mode passthrough -color_primaries:1 bt709 -color_trc:1 smpte170m -colorspace:1 bt2020c -color_range:1 pc" "-map 0 -c copy -t 0" "-show_entries stream_side_data_list:stream_disposition=default,forced:stream=color_range,color_space,color_primaries,color_transfer"
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# The input file of the following test contains Content Light Level as well as
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# Mastering Display Metadata and so this test tests correct muxing and demuxing
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# of these. It furthermore also tests that this data is correctly propagated
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# when reencoding (here to ffv1).
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# Both input audio tracks are completely zero, so the noise bsf is used
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# to make this test interesting.
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FATE_MATROSKA_FFMPEG_FFPROBE-$(call TRANSCODE, FFV1 PRORES, MATROSKA, MXF_DEMUXER \
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PCM_S24LE_DECODER ARESAMPLE_FILTER \
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PCM_S16BE_ENCODER NOISE_BSF) \
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+= fate-matroska-mastering-display-metadata
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fate-matroska-mastering-display-metadata: CMD = transcode mxf $(TARGET_SAMPLES)/mxf/Meridian-Apple_ProResProxy-HDR10.mxf matroska "-map 0 -map 0:0 -c:v:0 copy -c:v:1 ffv1 -c:a:0 copy -bsf:a:0 noise=amount=3 -filter:a:1 aresample -c:a:1 pcm_s16be -bsf:a:1 noise=amount=-1:drop=-4" "-map 0 -c copy" "-show_entries stream_side_data_list:stream=index,codec_name"
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# This test tests remuxing annex B H.264 into Matroska. It also tests writing
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# the correct interlaced flags and overriding the sample aspect ratio, leading
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# to anamorphic video. Given that the input file has lots of filler material,
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# the h264_metadata filter is used to remove it as well as the H.264 AUD.
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# The video is decoded twice to show that this did not change the decoded
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# output. Furthermore, this also tests writing PCM with bitdepth 32.
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FATE_MATROSKA_FFMPEG_FFPROBE-$(call TRANSCODE, PCM_S32LE MP2, MATROSKA, \
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MPEGTS_DEMUXER H264_PARSER \
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H264_DECODER MPEGAUDIO_PARSER \
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EXTRACT_EXTRADATA_BSF \
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H264_METADATA_BSF \
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ARESAMPLE_FILTER \
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PCM_S32BE_ENCODER) \
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+= fate-matroska-h264-remux
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fate-matroska-h264-remux: CMD = transcode mpegts $(TARGET_SAMPLES)/h264/h264_intra_first-small.ts matroska "-map 0:0 -map 0 -c:v copy -sar:0 3:4 -bsf:v:1 h264_metadata=aud=remove:delete_filler=1 -disposition:v +hearing_impaired -af aresample -c:a:0 pcm_s32le -c:a:1 pcm_s32be -disposition:a:0 original -metadata:s:a:0 title=swedish_silence -metadata:s:a:1 title=norwegian_silence -disposition:a:1 dub" "-map 0:v" "-show_entries stream=index,codec_name:stream_tags=title,language"
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# Tests writing BlockAdditional and BlockGroups with ReferenceBlock elements;
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# it also tests setting a track as suitable for hearing impaired.
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# It also tests the capability of the VP8 parser to set the keyframe flag
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# (the input file lacks ReferenceBlock elements making everything a keyframe).
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FATE_MATROSKA_FFMPEG_FFPROBE-$(call REMUX, MATROSKA, VP8_PARSER) \
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+= fate-matroska-vp8-alpha-remux
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fate-matroska-vp8-alpha-remux: CMD = transcode matroska $(TARGET_SAMPLES)/vp8_alpha/vp8_video_with_alpha.webm matroska "-c copy -disposition +hearing_impaired -cluster_size_limit 100000" "-c copy -t 0.2" "-show_entries stream_disposition:stream_side_data_list"
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# The audio stream to be remuxed here has AV_DISPOSITION_VISUAL_IMPAIRED.
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FATE_MATROSKA_FFMPEG_FFPROBE-$(call REMUX, MATROSKA, MPEGTS_DEMUXER AC3_DECODER) \
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+= fate-matroska-mpegts-remux
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fate-matroska-mpegts-remux: CMD = transcode mpegts $(TARGET_SAMPLES)/mpegts/pmtchange.ts matroska "-map 0:2 -map 0:2 -c copy -disposition:a:1 -visual_impaired+hearing_impaired -default_mode infer" "-map 0 -c copy" "-show_entries stream_disposition:stream=index"
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FATE_MATROSKA_FFPROBE-$(call ALLYES, MATROSKA_DEMUXER) += fate-matroska-spherical-mono
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fate-matroska-spherical-mono: CMD = run ffprobe$(PROGSSUF)$(EXESUF) -show_entries stream_side_data_list -select_streams v -v 0 $(TARGET_SAMPLES)/mkv/spherical.mkv
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# The following test tests the various flavours of WebVTT in WebM.
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# It also tests that dispositions not supported by WebM are not written
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# (and therefore lost). It moreover tests that the muxer writes CuePoints
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# with multiple CueTrackPositions if the timestamps coincide.
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FATE_MATROSKA_FFMPEG_FFPROBE-$(call REMUX, WEBM MATROSKA, WEBVTT_DEMUXER) \
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+= fate-webm-webvtt-remux
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fate-webm-webvtt-remux: CMD = transcode webvtt $(TARGET_SAMPLES)/sub/WebVTT_capability_tester.vtt webm "-map 0 -map 0 -map 0 -map 0 -c:s copy -disposition:0 original+descriptions+hearing_impaired -disposition:1 lyrics+default+metadata -disposition:2 comment+forced -disposition:3 karaoke+captions+dub" "-map 0:0 -map 0:1 -c copy" "-show_entries stream_disposition:stream=index,codec_name:packet=stream_index,pts:packet_side_data_list -show_data_hash CRC32"
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FATE_SAMPLES_AVCONV += $(FATE_MATROSKA-yes)
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FATE_SAMPLES_FFPROBE += $(FATE_MATROSKA_FFPROBE-yes)
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FATE_SAMPLES_FFMPEG_FFPROBE += $(FATE_MATROSKA_FFMPEG_FFPROBE-yes)
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fate-matroska: $(FATE_MATROSKA-yes) $(FATE_MATROSKA_FFPROBE-yes) $(FATE_MATROSKA_FFMPEG_FFPROBE-yes)
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