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FFmpeg/tests/fate/matroska.mak

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FATE_MATROSKA-$(call ALLYES, MATROSKA_DEMUXER ZLIB) += fate-matroska-prores-zlib
fate-matroska-prores-zlib: CMD = framecrc -i $(TARGET_SAMPLES)/mkv/prores_zlib.mkv -c:v copy
# This tests that the matroska demuxer correctly adds the icpf header atom
# upon demuxing; it also tests bz2 decompression and unknown-length cluster.
FATE_MATROSKA-$(call ALLYES, MATROSKA_DEMUXER BZLIB) += fate-matroska-prores-header-insertion-bz2
fate-matroska-prores-header-insertion-bz2: CMD = framecrc -i $(TARGET_SAMPLES)/mkv/prores_bz2.mkv -map 0 -c copy
# This tests that the matroska demuxer supports modifying the colorspace
# properties in remuxing (-c:v copy)
# It also tests automatic insertion of the vp9_superframe bitstream filter
FATE_MATROSKA-$(call DEMMUX, MATROSKA, MATROSKA) += fate-matroska-remux
fate-matroska-remux: CMD = md5pipe -i $(TARGET_SAMPLES)/vp9-test-vectors/vp90-2-2pass-akiyo.webm -color_trc 4 -c:v copy -fflags +bitexact -strict -2 -f matroska
fate-matroska-remux: CMP = oneline
avformat/matroskaenc: Don't ignore tags of chapters written late The Matroska muxer writes the Chapters early when chapters were already available when writing the header; in this case any tags pertaining to these chapters get written, too. Yet if no chapters had been supplied before writing the header, Chapters can also be written when writing the trailer if any are supplied. Tags belonging to these chapters were up until now completely ignored. This commit changes this: Writing the tags belonging to chapters has been moved to mkv_write_chapters(). If mkv_write_tags() has not been called yet (i.e. when chapters are written when writing the header), the AVIOContext for writing the ordinary Tags element is used, but not output, as this is left to mkv_write_tags() in order to only write one Tags element. Yet if mkv_write_tags() has already been called, mkv_write_chapters() will output a Tags element of its own which only contains the tags for chapters. When chapters are available initially, the corresponding tags will now be the first tags in the Tags element; but the ordering of tags in Tags is irrelevant anyway. This commit also makes chapter_id_offset local to mkv_write_chapters() as it is used only there and not reused at all. Potentially writing a second Tags element means that the maximum number of SeekHead entries had to be incremented. All the changes to FATE result from the ensuing increase in the amount of space reserved for the SeekHead (21 bytes more). Signed-off-by: Andreas Rheinhardt <andreas.rheinhardt@gmail.com>
2020-04-29 10:27:23 +02:00
fate-matroska-remux: REF = 26fabd90326e3de4bb6afe1b216ce232
FATE_MATROSKA-$(call ALLYES, MATROSKA_DEMUXER VORBIS_PARSER) += fate-matroska-xiph-lacing
fate-matroska-xiph-lacing: CMD = framecrc -i $(TARGET_SAMPLES)/mkv/xiph_lacing.mka -c:a copy
# This tests that the Matroska demuxer correctly demuxes WavPack
# without CodecPrivate; it also tests zlib compressed WavPack.
FATE_MATROSKA-$(call ALLYES, MATROSKA_DEMUXER ZLIB) += fate-matroska-wavpack-missing-codecprivate
fate-matroska-wavpack-missing-codecprivate: CMD = framecrc -i $(TARGET_SAMPLES)/mkv/wavpack_missing_codecprivate.mka -c copy
# This tests that the matroska demuxer supports decompressing
# zlib compressed tracks (both the CodecPrivate as well as the actual frames).
FATE_MATROSKA-$(call ALLYES, MATROSKA_DEMUXER ZLIB) += fate-matroska-zlib-decompression
fate-matroska-zlib-decompression: CMD = framecrc -i $(TARGET_SAMPLES)/mkv/subtitle_zlib.mks -c:s copy
# This tests that the matroska demuxer can decompress lzo compressed tracks.
FATE_MATROSKA-$(call ALLYES, MATROSKA_DEMUXER LZO) += fate-matroska-lzo-decompression
fate-matroska-lzo-decompression: CMD = framecrc -i $(TARGET_SAMPLES)/mkv/lzo.mka -c copy
# This tests that the matroska demuxer correctly propagates
# the channel layout contained in vorbis comments in the CodecPrivate
# of flac tracks. It also tests header removal compression.
FATE_MATROSKA-$(call ALLYES, MATROSKA_DEMUXER FLAC_PARSER) += fate-matroska-flac-channel-mapping
fate-matroska-flac-channel-mapping: CMD = framecrc -i $(TARGET_SAMPLES)/mkv/flac_channel_layouts.mka -map 0 -c:a copy
# This tests that the Matroska muxer writes the channel layout
# of FLAC tracks as a Vorbis comment in the CodecPrivate if necessary
# and that FLAC extradata is correctly updated when a packet
# with sidedata containing new extradata is encountered.
# Furthermore it tests everything the matroska-flac-channel-mapping test
# tests and it also tests the FLAC decoder and encoder, in particular
# the latter's ability to send updated extradata.
FATE_MATROSKA-$(call ALLYES, FLAC_DECODER FLAC_ENCODER FLAC_PARSER \
MATROSKA_DEMUXER MATROSKA_MUXER) += fate-matroska-flac-extradata-update
fate-matroska-flac-extradata-update: CMD = transcode matroska $(TARGET_SAMPLES)/mkv/flac_channel_layouts.mka \
matroska "-map 0 -map 0:0 -c flac -frames:a:2 8" "-map 0 -c copy"
# This test tests demuxing Vorbis and chapters from ogg and muxing it in and
# demuxing it from Matroska/WebM. It furthermore tests the WebM muxer, in
# particular its DASH mode. Finally, it tests writing the Cues at the front.
FATE_MATROSKA_FFMPEG_FFPROBE-$(call ALLYES, MATROSKA_DEMUXER OGG_DEMUXER \
VORBIS_DECODER VORBIS_PARSER WEBM_MUXER) \
+= fate-webm-dash-chapters
fate-webm-dash-chapters: CMD = transcode ogg $(TARGET_SAMPLES)/vorbis/vorbis_chapter_extension_demo.ogg webm "-c copy -cluster_time_limit 1500 -dash 1 -dash_track_number 124 -reserve_index_space 400" "-c copy -t 0.5" "" -show_chapters
# The input file has a Block whose payload has a size of zero before reversing
# header removal compression; it furthermore uses chained SeekHeads and has
# level 1-elements after the Cluster. This is tested on the demuxer's side.
# For the muxer this tests that it can correctly write huge TrackNumbers and
# that it can expand the Cues element's length field by one byte if necessary.
# It furthermore tests correct propagation of the description tag.
FATE_MATROSKA_FFMPEG_FFPROBE-$(call DEMMUX, MATROSKA, MATROSKA) \
+= fate-matroska-zero-length-block
fate-matroska-zero-length-block: CMD = transcode matroska $(TARGET_SAMPLES)/mkv/zero_length_block.mks matroska "-c:s copy -dash 1 -dash_track_number 2000000000 -reserve_index_space 62 -metadata_header_padding 1" "-c:s copy" "" "-show_entries stream_tags=description"
# This test the following features of the Matroska muxer: Writing projection
# stream side-data; not setting any track to default if the user requested it;
# and modifying and writing colorspace properties.
FATE_MATROSKA_FFMPEG_FFPROBE-$(call ALLYES, MATROSKA_DEMUXER MATROSKA_MUXER \
H264_DECODER H264_PARSER) \
+= fate-matroska-spherical-mono-remux
fate-matroska-spherical-mono-remux: CMD = transcode matroska $(TARGET_SAMPLES)/mkv/spherical.mkv matroska "-map 0 -map 0 -c copy -disposition:0 -default+forced -disposition:1 -default -default_mode passthrough -color_primaries:1 bt709 -color_trc:1 smpte170m -colorspace:1 bt2020c -color_range:1 pc" "-map 0 -c copy -t 0" "" "-show_entries stream_side_data_list:stream_disposition=default,forced:stream=color_range,color_space,color_primaries,color_transfer"
# The input file of the following test contains Content Light Level as well as
# Mastering Display Metadata and so this test tests correct muxing and demuxing
# of these. It furthermore also tests that this data is correctly propagated
# when reencoding (here to ffv1).
# Both input audio tracks are completely zero, so the noise bsf is used
# to make this test interesting.
FATE_MATROSKA_FFMPEG_FFPROBE-$(call ALLYES, FILE_PROTOCOL MXF_DEMUXER \
PRORES_DECODER PCM_S24LE_DECODER \
FFV1_ENCODER ARESAMPLE_FILTER \
PCM_S16BE_ENCODER NOISE_BSF \
MATROSKA_MUXER MATROSKA_DEMUXER \
FRAMECRC_MUXER PIPE_PROTOCOL) \
+= fate-matroska-mastering-display-metadata
fate-matroska-mastering-display-metadata: CMD = transcode mxf $(TARGET_SAMPLES)/mxf/Meridian-Apple_ProResProxy-HDR10.mxf matroska "-map 0 -map 0:0 -c:v:0 copy -c:v:1 ffv1 -c:a:0 copy -bsf:a:0 noise=amount=3 -filter:a:1 aresample -c:a:1 pcm_s16be -bsf:a:1 noise=amount=-1:drop=-4" "-map 0 -c copy" "" "-show_entries stream_side_data_list:stream=index,codec_name"
# This test tests remuxing annex B H.264 into Matroska. It also tests writing
# the correct interlaced flags and overriding the sample aspect ratio, leading
# to anamorphic video. Given that the input file has lots of filler material,
# the h264_metadata filter is used to remove it as well as the H.264 AUD.
# The video is decoded twice to show that this did not change the decoded
# output. Furthermore, this also tests writing PCM with bitdepth 32.
FATE_MATROSKA_FFMPEG_FFPROBE-$(call ALLYES, FILE_PROTOCOL MPEGTS_DEMUXER \
H264_PARSER MPEGAUDIO_PARSER \
EXTRACT_EXTRADATA_BSF MP2_DECODER \
H264_METADATA_BSF ARESAMPLE_FILTER \
RAWVIDEO_ENCODER PCM_S32LE_ENCODER \
PCM_S32BE_ENCODER MATROSKA_MUXER \
MATROSKA_DEMUXER H264_DECODER \
FRAMECRC_MUXER PIPE_PROTOCOL) \
+= fate-matroska-h264-remux
fate-matroska-h264-remux: CMD = transcode mpegts $(TARGET_SAMPLES)/h264/h264_intra_first-small.ts matroska "-map 0:0 -map 0 -c:v copy -sar:0 3:4 -bsf:v:1 h264_metadata=aud=remove:delete_filler=1 -disposition:v +hearing_impaired -af aresample -c:a:0 pcm_s32le -c:a:1 pcm_s32be -disposition:a:0 original -metadata:s:a:0 title=swedish_silence -metadata:s:a:1 title=norwegian_silence -disposition:a:1 dub" "-map 0:v" "" "-show_entries stream=index,codec_name:stream_tags=title,language"
# Tests writing BlockAdditional and BlockGroups with ReferenceBlock elements;
# it also tests setting a track as suitable for hearing impaired.
# It also tests the capability of the VP8 parser to set the keyframe flag
# (the input file lacks ReferenceBlock elements making everything a keyframe).
FATE_MATROSKA_FFMPEG_FFPROBE-$(call ALLYES, FILE_PROTOCOL MATROSKA_DEMUXER \
VP8_PARSER MATROSKA_MUXER \
FRAMECRC_MUXER PIPE_PROTOCOL) \
+= fate-matroska-vp8-alpha-remux
fate-matroska-vp8-alpha-remux: CMD = transcode matroska $(TARGET_SAMPLES)/vp8_alpha/vp8_video_with_alpha.webm matroska "-c copy -disposition +hearing_impaired -cluster_size_limit 100000" "-c copy -t 0.2" "" "-show_entries stream_disposition:stream_side_data_list"
# The audio stream to be remuxed here has AV_DISPOSITION_VISUAL_IMPAIRED.
FATE_MATROSKA_FFMPEG_FFPROBE-$(call ALLYES, FILE_PROTOCOL MPEGTS_DEMUXER \
AC3_DECODER MATROSKA_MUXER \
MATROSKA_DEMUXER FRAMECRC_MUXER \
PIPE_PROTOCOL) \
+= fate-matroska-mpegts-remux
fate-matroska-mpegts-remux: CMD = transcode mpegts $(TARGET_SAMPLES)/mpegts/pmtchange.ts matroska "-map 0:2 -map 0:2 -c copy -disposition:a:1 -visual_impaired+hearing_impaired" "-map 0 -c copy" "" "-show_entries stream_disposition:stream=index"
FATE_MATROSKA_FFPROBE-$(call ALLYES, MATROSKA_DEMUXER) += fate-matroska-spherical-mono
fate-matroska-spherical-mono: CMD = run ffprobe$(PROGSSUF)$(EXESUF) -show_entries stream_side_data_list -select_streams v -v 0 $(TARGET_SAMPLES)/mkv/spherical.mkv
# The following test tests the various flavours of WebVTT in WebM.
# It also tests that dispositions not supported by WebM are not written
# (and therefore lost). It moreover tests that the muxer writes CuePoints
# with multiple CueTrackPositions if the timestamps coincide.
FATE_MATROSKA_FFMPEG_FFPROBE-$(call ALLYES, FILE_PROTOCOL WEBVTT_DEMUXER \
WEBM_MUXER MATROSKA_DEMUXER \
FRAMECRC_MUXER PIPE_PROTOCOL) \
+= fate-webm-webvtt-remux
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"
FATE_SAMPLES_AVCONV += $(FATE_MATROSKA-yes)
FATE_SAMPLES_FFPROBE += $(FATE_MATROSKA_FFPROBE-yes)
FATE_SAMPLES_FFMPEG_FFPROBE += $(FATE_MATROSKA_FFMPEG_FFPROBE-yes)
fate-matroska: $(FATE_MATROSKA-yes) $(FATE_MATROSKA_FFPROBE-yes) $(FATE_MATROSKA_FFMPEG_FFPROBE-yes)