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FATE_FFMPEG-$(call FILTERFRAMECRC, COLOR) += fate-ffmpeg-filter_complex
fate-ffmpeg-filter_complex: CMD = framecrc -filter_complex color=d=1:r=5 -fflags +bitexact
# Ticket 6603
FATE_FFMPEG-$(call FILTERFRAMECRC, AEVALSRC ASETNSAMPLES ARESAMPLE, AC3_FIXED_ENCODER) += fate-ffmpeg-filter_complex_audio
fate-ffmpeg-filter_complex_audio: CMD = framecrc -auto_conversion_filters -filter_complex "aevalsrc=0:d=0.1,asetnsamples=1537" -c ac3_fixed
# Ticket 6375, use case of NoX
FATE_SAMPLES_FFMPEG-$(call FRAMECRC, MOV, PNG ALAC, ARESAMPLE_FILTER) += fate-ffmpeg-attached_pics
fate-ffmpeg-attached_pics: CMD = threads=2 framecrc -i $(TARGET_SAMPLES)/lossless-audio/inside.m4a -threads 1 -max_muxing_queue_size 16 -af aresample
FATE_SAMPLES_FFMPEG-$(call FILTERDEMDEC, COLORKEY OVERLAY SCALE, MPEGPS IMAGE_PPM_PIPE, CAVS PPM, CAVSVIDEO_PARSER) += fate-ffmpeg-filter_colorkey
fate-ffmpeg-filter_colorkey: tests/data/filtergraphs/colorkey
fate-ffmpeg-filter_colorkey: CMD = framecrc -auto_conversion_filters -idct simple -fflags +bitexact -flags +bitexact -sws_flags +accurate_rnd+bitexact -i $(TARGET_SAMPLES)/cavs/cavs.mpg -fflags +bitexact -flags +bitexact -sws_flags +accurate_rnd+bitexact -i $(TARGET_SAMPLES)/lena.pnm -an -/filter_complex $(TARGET_PATH)/tests/data/filtergraphs/colorkey -sws_flags +accurate_rnd+bitexact -fflags +bitexact -flags +bitexact -qscale 2 -frames:v 10
FATE_FFMPEG-$(call FILTERFRAMECRC, COLOR) += fate-ffmpeg-lavfi
fate-ffmpeg-lavfi: CMD = framecrc -lavfi color=d=1:r=5 -fflags +bitexact
FATE_SAMPLES_FFMPEG-$(call ENCDEC2, MPEG4, RAWVIDEO, AVI, RAWVIDEO_DEMUXER FRAMECRC_MUXER) += fate-force_key_frames
fate-force_key_frames: tests/data/vsynth_lena.yuv
fate-force_key_frames: CMD = enc_dec \
"rawvideo -s 352x288 -pix_fmt yuv420p" tests/data/vsynth_lena.yuv \
avi "-c mpeg4 -g 240 -qscale 10 -force_key_frames 0.5,0:00:01.5" \
framecrc "" "-skip_frame nokey"
# test -force_key_frames source with and without framerate conversion
# * we don't care about the actual video content, so replace it with
# a 2x2 black square to speed up encoding
# * force mpeg2video to only emit keyframes when explicitly requested
fate-force_key_frames-source: CMD = framecrc -i $(TARGET_SAMPLES)/h264/intra_refresh.h264 \
-vf crop=2:2,drawbox=color=black:t=fill \
-c:v mpeg2video -g 400 -sc_threshold 99999 \
-force_key_frames source
fate-force_key_frames-source-drop: CMD = framecrc -i $(TARGET_SAMPLES)/h264/intra_refresh.h264 \
-vf crop=2:2,drawbox=color=black:t=fill \
-c:v mpeg2video -g 400 -sc_threshold 99999 \
-force_key_frames source -r 1
fate-force_key_frames-source-dup: CMD = framecrc -i $(TARGET_SAMPLES)/h264/intra_refresh.h264 \
-vf crop=2:2,drawbox=color=black:t=fill \
-c:v mpeg2video -g 400 -sc_threshold 99999 \
-force_key_frames source -r 39 -force_fps -strict experimental
FATE_SAMPLES_FFMPEG-$(call ENCDEC, MPEG2VIDEO H264, FRAMECRC H264, CROP_FILTER DRAWBOX_FILTER) += \
fate-force_key_frames-source fate-force_key_frames-source-drop fate-force_key_frames-source-dup
# Tests that the video is properly autorotated using the contained
# display matrix and that the generated file does not contain
# a display matrix any more.
FATE_SAMPLES_FFMPEG_FFPROBE-$(call TRANSCODE, MPEG2VIDEO, MOV, H264_DECODER AAC_FIXED_DECODER AC3_FIXED_ENCODER EXTRACT_EXTRADATA_BSF) += fate-autorotate
fate-autorotate: CMD = transcode "mov -c:a aac_fixed" $(TARGET_SAMPLES)/filter/sample-in-issue-505.mov mov "-c:v mpeg2video -c:a ac3_fixed" "-c copy -t 0.5" "-show_entries stream_side_data_list"
FATE_SAMPLES_FFMPEG-$(call FILTERDEMDEC, OVERLAY SCALE, RAWVIDEO VOBSUB, RAWVIDEO DVDSUB, DVDSUB_ENCODER) += fate-sub2video
fate-sub2video: tests/data/vsynth_lena.yuv
fate-sub2video: CMD = framecrc -auto_conversion_filters \
-f rawvideo -r 5 -s 352x288 -pix_fmt yuv420p -i $(TARGET_PATH)/tests/data/vsynth_lena.yuv \
-ss 132 -i $(TARGET_SAMPLES)/sub/vobsub.idx \
-filter_complex "sws_flags=+accurate_rnd+bitexact\;[0:0]scale=720:480[v]\;[v][1:0]overlay[v2]" \
-map "[v2]" -c:v rawvideo -threads 1 -map 1:s -c:s dvdsub
# Very basic sub2video example, decode and convert to AVFrame with sub2video.
# Attempt to not touch timestamps.
FATE_SAMPLES_FFMPEG-$(call FRAMECRC, VOBSUB, DVDSUB, SCALE_FILTER) += fate-sub2video_basic
fate-sub2video_basic: CMD = framecrc -auto_conversion_filters \
-i $(TARGET_SAMPLES)/sub/vobsub.idx \
-fps_mode passthrough -copyts \
-filter_complex "sws_flags=+accurate_rnd+bitexact\;[0:s:0]scale" \
-c:v rawvideo -threads 1
# Time-limited run with a sample that doesn't require seeking and
# contains samples within the initial period.
FATE_SAMPLES_FFMPEG-$(call FRAMECRC, SUP, PGSSUB, SCALE_FILTER RAWVIDEO_ENCODER) += fate-sub2video_time_limited
fate-sub2video_time_limited: CMD = framecrc -auto_conversion_filters \
-i $(TARGET_SAMPLES)/sub/pgs_sub.sup \
-fps_mode passthrough -copyts \
-t 15 \
-filter_complex "sws_flags=+accurate_rnd+bitexact\;[0:s:0]scale" \
-c:v rawvideo -threads 1
FATE_FFMPEG-$(call ENCDEC, PCM_S16LE, PCM_S16LE) += fate-unknown_layout-pcm
fate-unknown_layout-pcm: $(AREF)
fate-unknown_layout-pcm: CMD = md5 \
-guess_layout_max 0 -f s16le -ac 1 -ar 44100 -i $(TARGET_PATH)/$(AREF) -f s16le
FATE_FFMPEG-$(call FILTERDEMDECENCMUX, ARESAMPLE, PCM_S32LE, PCM_S32LE, AC3_FIXED, AC3) += fate-unknown_layout-ac3
fate-unknown_layout-ac3: $(AREF)
fate-unknown_layout-ac3: CMD = md5 -auto_conversion_filters \
ac3enc_fixed: convert to 32-bit sample format The AC3 encoder used to be a separate library called "Aften", which got merged into libavcodec (literally, SVN commits and all). The merge preserved as much features from the library as possible. The code had two versions - a fixed point version and a floating point version. FFmpeg had floating point DSP code used by other codecs, the AC3 decoder including, so the floating-point DSP was simply replaced with FFmpeg's own functions. However, FFmpeg had no fixed-point audio code at that point. So the encoder brought along its own fixed-point DSP functions, including a fixed-point MDCT. The fixed-point MDCT itself is trivially just a float MDCT with a different type and each multiply being a fixed-point multiply. So over time, it got refactored, and the FFT used for all other codecs was templated. Due to design decisions at the time, the fixed-point version of the encoder operates at 16-bits of precision. Although convenient, this, even at the time, was inadequate and inefficient. The encoder is noisy, does not produce output comparable to the float encoder, and even rings at higher frequencies due to the badly approximated winow function. Enter MIPS (owned by Imagination Technologies at the time). They wanted quick fixed-point decoding on their FPUless cores. So they contributed patches to template the AC3 decoder so it had both a fixed-point and a floating-point version. They also did the same for the AAC decoder. They however, used 32-bit samples. Not 16-bits. And we did not have 32-bit fixed-point DSP functions, including an MDCT. But instead of templating our MDCT to output 3 versions (float, 32-bit fixed and 16-bit fixed), they simply copy-pasted their own MDCT into ours, and completely ifdeffed our own MDCT code out if a 32-bit fixed point MDCT was selected. This is also the status quo nowadays - 2 separate MDCTs, one which produces floating point and 16-bit fixed point versions, and one sort-of integrated which produces 32-bit MDCT. MIPS weren't all that interested in encoding, so they left the encoder as-is, and they didn't care much about the ifdeffery, mess or quality - it's not their problem. So the MDCT/FFT code has always been a thorn in anyone looking to clean up code's eye. Backstory over. Internally AC3 operates on 25-bit fixed-point coefficients. So for the floating point version, the encoder simply runs the float MDCT, and converts the resulting coefficients to 25-bit fixed-point, as AC3 is inherently a fixed-point codec. For the fixed-point version, the input is 16-bit samples, so to maximize precision the frame samples are analyzed and the highest set bit is detected via ac3_max_msb_abs_int16(), and the coefficients are then scaled up via ac3_lshift_int16(), so the input for the FFT is always at least 14 bits, computed in normalize_samples(). After FFT, the coefficients are scaled up to 25 bits. This patch simply changes the encoder to accept 32-bit samples, reusing the already well-optimized 32-bit MDCT code, allowing us to clean up and drop a large part of a very messy code of ours, as well as prepare for the future lavu/tx conversion. The coefficients are simply scaled down to 25 bits during windowing, skipping 2 separate scalings, as the hacks to extend precision are simply no longer necessary. There's no point in running the MDCT always at 32 bits when you're going to drop 6 bits off anyway, the headroom is plenty, and the MDCT rounds properly. This also makes the encoder even slightly more accurate over the float version, as there's no coefficient conversion step necessary. SIZE SAVINGS: ARM32: HARDCODED TABLES: BASE - 10709590 DROP DSP - 10702872 - diff: -6.56KiB DROP MDCT - 10667932 - diff: -34.12KiB - both: -40.68KiB DROP FFT - 10336652 - diff: -323.52KiB - all: -364.20KiB SOFTCODED TABLES: BASE - 9685096 DROP DSP - 9678378 - diff: -6.56KiB DROP MDCT - 9643466 - diff: -34.09KiB - both: -40.65KiB DROP FFT - 9573918 - diff: -67.92KiB - all: -108.57KiB ARM64: HARDCODED TABLES: BASE - 14641112 DROP DSP - 14633806 - diff: -7.13KiB DROP MDCT - 14604812 - diff: -28.31KiB - both: -35.45KiB DROP FFT - 14286826 - diff: -310.53KiB - all: -345.98KiB SOFTCODED TABLES: BASE - 13636238 DROP DSP - 13628932 - diff: -7.13KiB DROP MDCT - 13599866 - diff: -28.38KiB - both: -35.52KiB DROP FFT - 13542080 - diff: -56.43KiB - all: -91.95KiB x86: HARDCODED TABLES: BASE - 12367336 DROP DSP - 12354698 - diff: -12.34KiB DROP MDCT - 12331024 - diff: -23.12KiB - both: -35.46KiB DROP FFT - 12029788 - diff: -294.18KiB - all: -329.64KiB SOFTCODED TABLES: BASE - 11358094 DROP DSP - 11345456 - diff: -12.34KiB DROP MDCT - 11321742 - diff: -23.16KiB - both: -35.50KiB DROP FFT - 11276946 - diff: -43.75KiB - all: -79.25KiB PERFORMANCE (10min random s32le): ARM32 - before - 39.9x - 0m15.046s ARM32 - after - 28.2x - 0m21.525s Speed: -30% ARM64 - before - 36.1x - 0m16.637s ARM64 - after - 36.0x - 0m16.727s Speed: -0.5% x86 - before - 184x - 0m3.277s x86 - after - 190x - 0m3.187s Speed: +3%
4 years ago
-guess_layout_max 0 -f s32le -ac 1 -ar 44100 -i $(TARGET_PATH)/$(AREF) \
-f ac3 -flags +bitexact -c ac3_fixed
FATE_SAMPLES_FFMPEG-$(call FILTERDEMDEC, AMIX ARESAMPLE SINE, RAWVIDEO, \
PCM_S16LE RAWVIDEO, LAVFI_INDEV \
MPEG4_ENCODER AC3_FIXED_ENCODER) \
+= fate-shortest
fate-shortest: tests/data/vsynth_lena.yuv
fate-shortest: CMD = framecrc -auto_conversion_filters -f lavfi -i "sine=3000:d=10" -f lavfi -i "sine=1000:d=1" -sws_flags +accurate_rnd+bitexact -fflags +bitexact -flags +bitexact -idct simple -f rawvideo -s 352x288 -pix_fmt yuv420p -i $(TARGET_PATH)/tests/data/vsynth_lena.yuv -filter_complex "[0:a:0][1:a:0]amix=inputs=2[audio]" -map 2:v:0 -map "[audio]" -sws_flags +accurate_rnd+bitexact -fflags +bitexact -flags +bitexact -idct simple -dct fastint -qscale 10 -threads 1 -c:v mpeg4 -c:a ac3_fixed -shortest
# test interleaving video with a sparse subtitle stream
FATE_SAMPLES_FFMPEG-$(call ALLYES, COLOR_FILTER, VOBSUB_DEMUXER, MATROSKA_DEMUXER,, \
RAWVIDEO_ENCODER, MATROSKA_MUXER, FRAMECRC_MUXER) += fate-shortest-sub
fate-shortest-sub: CMD = transcode \
vobsub $(TARGET_SAMPLES)/sub/vobsub.idx matroska \
"-filter_complex 'color=s=1x1:rate=1:duration=400' -pix_fmt rgb24 -allow_raw_vfw 1 -c:s copy -c:v rawvideo" \
"-map 0 -c copy -shortest -shortest_buf_duration 40 -max_delay 1"
# Basic test for fix_sub_duration, which calculates duration based on the
# following subtitle's pts.
FATE_SAMPLES_FFMPEG-$(call FILTERDEMDECENCMUX, MOVIE, MPEGVIDEO, \
MPEG2VIDEO, SUBRIP, SRT, LAVFI_INDEV \
MPEGVIDEO_PARSER CCAPTION_DECODER PIPE_PROTOCOL) \
+= fate-ffmpeg-fix_sub_duration
fate-ffmpeg-fix_sub_duration: CMD = fmtstdout srt -fix_sub_duration \
-real_time 1 -f lavfi \
-i "movie=$(TARGET_SAMPLES)/sub/Closedcaption_rollup.m2v[out0+subcc]"
# Basic test for fix_sub_duration_heartbeat, which causes a buffered subtitle
# to be pushed out when a video keyframe is received from an encoder.
FATE_SAMPLES_FFMPEG-$(call FILTERDEMDECENCMUX, MOVIE, MPEGVIDEO, \
MPEG2VIDEO, SUBRIP, SRT, LAVFI_INDEV \
MPEGVIDEO_PARSER CCAPTION_DECODER \
MPEG2VIDEO_ENCODER NULL_MUXER PIPE_PROTOCOL) \
+= fate-ffmpeg-fix_sub_duration_heartbeat
fate-ffmpeg-fix_sub_duration_heartbeat: CMD = fmtstdout srt -fix_sub_duration \
-real_time 1 -f lavfi \
-i "movie=$(TARGET_SAMPLES)/sub/Closedcaption_rollup.m2v[out0+subcc]" \
-map 0:v -map 0:s -fix_sub_duration_heartbeat:v:0 \
-c:v mpeg2video -b:v 2M -g 30 -sc_threshold 1000000000 \
-c:s srt \
-f null -
# FIXME: the integer AAC decoder does not produce the same output on all platforms
# so until that is fixed we use the volume filter to silence the data
FATE_SAMPLES_FFMPEG-$(call FRAMECRC, MATROSKA, H264 AAC_FIXED, PCM_S32LE_ENCODER VOLUME_FILTER ARESAMPLE_FILTER) += fate-ffmpeg-streamloop-transcode-av
fate-ffmpeg-streamloop-transcode-av: CMD = \
framecrc -auto_conversion_filters -stream_loop 3 -c:a aac_fixed -i $(TARGET_SAMPLES)/mkv/1242-small.mkv \
-af volume=0:precision=fixed -c:a pcm_s32le
FATE_STREAMCOPY-$(call REMUX, MP4 MOV, EAC3_DEMUXER) += fate-copy-trac3074
fate-copy-trac3074: CMD = transcode eac3 $(TARGET_SAMPLES)/eac3/csi_miami_stereo_128_spx.eac3\
mp4 "-codec copy -map 0" "-codec copy"
FATE_STREAMCOPY-$(call TRANSCODE, RAWVIDEO DVVIDEO, MOV, PCM_S16LE_DECODER) += fate-copy-trac236
fate-copy-trac236: CMD = transcode mov $(TARGET_SAMPLES)/mov/fcp_export8-236.mov\
mov "-codec copy -map 0"
FATE_STREAMCOPY-$(call TRANSCODE, RAWVIDEO MPEG2VIDEO, MXF, MPEGTS_DEMUXER MPEGVIDEO_PARSER MPEGAUDIO_PARSER MP2_DECODER ARESAMPLE_FILTER PCM_S16LE_DECODER) += fate-copy-trac4914
fate-copy-trac4914: CMD = transcode mpegts $(TARGET_SAMPLES)/mpeg2/xdcam8mp2-1s_small.ts\
mxf "-c:a pcm_s16le -af aresample -c:v copy"
FATE_STREAMCOPY-$(call TRANSCODE, RAWVIDEO MPEG2VIDEO, AVI, MPEGTS_DEMUXER MPEGVIDEO_PARSER MPEGAUDIO_PARSER EXTRACT_EXTRADATA_BSF MP2_DECODER ARESAMPLE_FILTER) += fate-copy-trac4914-avi
fate-copy-trac4914-avi: CMD = transcode mpegts $(TARGET_SAMPLES)/mpeg2/xdcam8mp2-1s_small.ts\
avi "-c:a copy -c:v copy" "-af aresample"
FATE_STREAMCOPY-$(call TRANSCODE, RAWVIDEO H264, AVI, H264_DEMUXER H264_PARSER EXTRACT_EXTRADATA_BSF) += fate-copy-trac2211-avi
fate-copy-trac2211-avi: CMD = transcode "h264 -r 14" $(TARGET_SAMPLES)/h264/bbc2.sample.h264\
avi "-c:v copy"
ifneq (,$(filter fate-lavf-apng,$(FATE_LAVF_VIDEO)))
FATE_STREAMCOPY-$(call TRANSCODE, RAWVIDEO APNG, APNG) += fate-copy-apng
endif
fate-copy-apng: fate-lavf-apng
fate-lavf-apng: KEEP_FILES ?= 1
fate-copy-apng: CMD = transcode apng tests/data/lavf/lavf.apng apng "-c:v copy"
FATE_STREAMCOPY-$(call DEMMUX, OGG, OGG) += fate-limited_input_seek fate-limited_input_seek-copyts
fate-limited_input_seek: CMD = md5 -ss 1.5 -t 1.3 -i $(TARGET_SAMPLES)/vorbis/moog_small.ogg -c:a copy -fflags +bitexact -f ogg
fate-limited_input_seek-copyts: CMD = md5 -ss 1.5 -t 1.3 -i $(TARGET_SAMPLES)/vorbis/moog_small.ogg -c:a copy -copyts -fflags +bitexact -f ogg
FATE_STREAMCOPY-$(call REMUX, PSP MOV, H264_PARSER H264_DECODER) += fate-copy-psp
fate-copy-psp: CMD = transcode "mov" $(TARGET_SAMPLES)/h264/wwwq_cut.mp4\
psp "-c copy" "-codec copy"
FATE_STREAMCOPY-$(call FRAMEMD5, FLV, H264) += fate-ffmpeg-streamloop-copy
fate-ffmpeg-streamloop-copy: CMD = framemd5 -stream_loop 2 -i $(TARGET_SAMPLES)/flv/streamloop.flv -c copy
tests/data/audio_shorter_than_video.nut: TAG = GEN
tests/data/audio_shorter_than_video.nut: tests/data/vsynth_lena.yuv
tests/data/audio_shorter_than_video.nut: ffmpeg$(PROGSSUF)$(EXESUF) | tests/data
$(M)$(TARGET_EXEC) $(TARGET_PATH)/$< -nostdin \
-sws_flags +accurate_rnd+bitexact -fflags +bitexact -flags +bitexact -idct simple -f rawvideo -s 352x288 -pix_fmt yuv420p -i $(TARGET_PATH)/tests/data/vsynth_lena.yuv \
-f lavfi -i "sine=1000:d=1" \
-sws_flags +accurate_rnd+bitexact -fflags +bitexact -flags +bitexact -idct simple -dct fastint -qscale 10 -c:v mpeg4 -threads 1 -c:a pcm_s16le -bitexact \
-y $(TARGET_PATH)/tests/data/audio_shorter_than_video.nut 2>/dev/null
FATE_STREAMCOPY-$(call FRAMEMD5, NUT, RAWVIDEO PCM_S16LE MPEG4, \
RAWVIDEO_DEMUXER LAVFI_INDEV \
MPEG4_ENCODER PCM_S16LE_ENCODER \
SINE_FILTER ARESAMPLE_FILTER AMIX_FILTER \
NUT_MUXER AC3_FIXED_ENCODER) \
+= fate-copy-shortest1 fate-copy-shortest2
fate-copy-shortest1 fate-copy-shortest2: tests/data/audio_shorter_than_video.nut
fate-copy-shortest1: CMD = framemd5 -auto_conversion_filters -fflags +bitexact -flags +bitexact -f lavfi -i "sine=3000:d=10" -f lavfi -i "sine=1000:d=1" -i $(TARGET_PATH)/tests/data/audio_shorter_than_video.nut -filter_complex "[0:a:0][1:a:0]amix=inputs=2[audio]" -map 2:v:0 -map "[audio]" -fflags +bitexact -flags +bitexact -c:v copy -c:a ac3_fixed -shortest
fate-copy-shortest2: CMD = framemd5 -auto_conversion_filters -fflags +bitexact -flags +bitexact -f lavfi -i "sine=3000:d=10" -i $(TARGET_PATH)/tests/data/audio_shorter_than_video.nut -filter_complex "[0:a:0][1:a:0]amix=inputs=2[audio]" -map 1:v:0 -map "[audio]" -fflags +bitexact -flags +bitexact -c:v copy -c:a ac3_fixed -shortest
fate-streamcopy: $(FATE_STREAMCOPY-yes)
FATE_SAMPLES_FFMPEG-yes += $(FATE_STREAMCOPY-yes)
FATE_SAMPLES_FFMPEG-$(call TRANSCODE, RAWVIDEO, MATROSKA, MOV_DEMUXER QTRLE_DECODER) += fate-rgb24-mkv
fate-rgb24-mkv: CMD = transcode "mov" $(TARGET_SAMPLES)/qtrle/aletrek-rle.mov\
matroska "-c:v rawvideo -threads 1 -pix_fmt rgb24 -allow_raw_vfw 1 -frames:v 1"
FATE_SAMPLES_FFMPEG-$(call REMUX, MOV, AAC_DEMUXER AAC_DECODER AAC_PARSER AAC_ADTSTOASC_BSF) += fate-adtstoasc_ticket3715
fate-adtstoasc_ticket3715: CMD = transcode "aac" $(TARGET_SAMPLES)/aac/foo.aac\
mov "-c copy -bsf:a aac_adtstoasc" "-codec copy"
FATE_SAMPLES_FFMPEG-$(call REMUX, H264, MOV_DEMUXER H264_MP4TOANNEXB_BSF H264_PARSER H264_DECODER EXTRACT_EXTRADATA_BSF) += fate-h264_mp4toannexb_ticket2991
fate-h264_mp4toannexb_ticket2991: CMD = transcode "mp4" $(TARGET_SAMPLES)/h264/wwwq_cut.mp4\
h264 "-c:v copy -bsf:v h264_mp4toannexb" "-codec copy"
FATE_SAMPLES_FFMPEG-$(call TRANSCODE, MPEG4 MPEG2VIDEO, AVI, MPEGPS_DEMUXER MPEGVIDEO_DEMUXER MPEGVIDEO_PARSER EXTRACT_EXTRADATA_BSF REMOVE_EXTRADATA_BSF) += fate-ffmpeg-bsf-remove-k fate-ffmpeg-bsf-remove-r fate-ffmpeg-bsf-remove-e
fate-ffmpeg-bsf-remove-k: CMD = transcode "mpeg" $(TARGET_SAMPLES)/mpeg2/matrixbench_mpeg2.lq1.mpg\
avi "-bsf:v remove_extra=k" "-codec copy"
fate-ffmpeg-bsf-remove-r: CMD = transcode "mpeg" $(TARGET_SAMPLES)/mpeg2/matrixbench_mpeg2.lq1.mpg\
avi "-bsf:v remove_extra=keyframe" "-codec copy"
fate-ffmpeg-bsf-remove-e: CMD = transcode "mpeg" $(TARGET_SAMPLES)/mpeg2/matrixbench_mpeg2.lq1.mpg\
avi "-bsf:v remove_extra=e" "-codec copy"
FATE_SAMPLES_FFMPEG-$(call DEMMUX, APNG, FRAMECRC, SETTS_BSF PIPE_PROTOCOL) += fate-ffmpeg-setts-bsf
fate-ffmpeg-setts-bsf: CMD = framecrc -i $(TARGET_SAMPLES)/apng/clock.png -c:v copy -bsf:v "setts=duration=if(eq(NEXT_PTS\,NOPTS)\,PREV_OUTDURATION\,(NEXT_PTS-PTS)/2):ts=PTS/2" -fflags +bitexact
FATE_TIME_BASE-$(call PARSERDEMDEC, MPEGVIDEO, MPEGPS, MPEG2VIDEO, MPEGVIDEO_DEMUXER MXF_MUXER) += fate-time_base
fate-time_base: CMD = md5 -i $(TARGET_SAMPLES)/mpeg2/dvd_single_frame.vob -an -sn -c:v copy -r 25 -time_base 1001:30000 -fflags +bitexact -f mxf
FATE_SAMPLES_FFMPEG-yes += $(FATE_TIME_BASE-yes)
# test -r used as an input option
fate-ffmpeg-input-r: CMD = framecrc -r 27 -idct simple -bitexact -i $(TARGET_SAMPLES)/mpeg2/sony-ct3.bs
FATE_SAMPLES_FFMPEG-$(call FRAMECRC, MPEGVIDEO, MPEG2VIDEO) += fate-ffmpeg-input-r
# file with completely undecodable TTA audio stream
# by default should exit with error code 69
fate-ffmpeg-error-rate-fail: CMD = ffmpeg -i $(TARGET_SAMPLES)/mkv/h264_tta_undecodable.mkv -c:v copy -f null -; test $$? -eq 69
fate-ffmpeg-error-rate-pass: CMD = ffmpeg -i $(TARGET_SAMPLES)/mkv/h264_tta_undecodable.mkv -c:v copy -f null - -max_error_rate 1
FATE_SAMPLES_FFMPEG-$(call ENCDEC, PCM_S16LE TTA, NULL MATROSKA) += fate-ffmpeg-error-rate-fail fate-ffmpeg-error-rate-pass
# test input -bsf
# use -stream_loop, because it tests flushing bsfs
fate-ffmpeg-bsf-input: CMD = framecrc -stream_loop 2 -bsf setts=PTS*2 -i $(TARGET_SAMPLES)/hevc/extradata-reload-multi-stsd.mov -c copy
FATE_SAMPLES_FFMPEG-$(call FRAMECRC, MOV, , SETTS_BSF) += fate-ffmpeg-bsf-input
# Test behaviour when a complex filtergraph returns EOF on one of its inputs,
# but other inputs are still active.
# cf. #10803
fate-ffmpeg-filter-in-eof: tests/data/vsynth_lena.yuv
fate-ffmpeg-filter-in-eof: CMD = framecrc \
-f rawvideo -s 352x288 -pix_fmt yuv420p -t 1 -i $(TARGET_PATH)/tests/data/vsynth_lena.yuv \
-f rawvideo -s 352x288 -pix_fmt yuv420p -t 1 -i $(TARGET_PATH)/tests/data/vsynth_lena.yuv \
-filter_complex "[0][1]concat" -c:v rawvideo
FATE_FFMPEG-$(call FRAMECRC, RAWVIDEO, RAWVIDEO, CONCAT_FILTER) += fate-ffmpeg-filter-in-eof
# Test termination on streamcopy with -t as an output option.
fate-ffmpeg-streamcopy-t: tests/data/vsynth_lena.yuv
fate-ffmpeg-streamcopy-t: CMP = null
fate-ffmpeg-streamcopy-t: CMD = ffmpeg \
-stream_loop -1 -f rawvideo -s 352x288 -pix_fmt yuv420p -i $(TARGET_PATH)/tests/data/vsynth_lena.yuv \
-c copy -f null -t 1 -
FATE_FFMPEG-$(call REMUX, RAWVIDEO) += fate-ffmpeg-streamcopy-t
# Test loopback decoding and passing the output to a complex graph.
fate-ffmpeg-loopback-decoding: tests/data/vsynth_lena.yuv
fate-ffmpeg-loopback-decoding: CMD = transcode \
"rawvideo -s 352x288 -pix_fmt yuv420p" $(TARGET_PATH)/tests/data/vsynth_lena.yuv nut \
"-map 0:v:0 -c:v mpeg2video -f null - -flags +bitexact -idct simple -threads $$threads -dec 0:0 -filter_complex '[0:v][dec:0]hstack[stack]' -map '[stack]' -c:v ffv1" ""
FATE_FFMPEG-$(call ENCDEC2, MPEG2VIDEO, FFV1, NUT, HSTACK_FILTER PIPE_PROTOCOL FRAMECRC_MUXER) += fate-ffmpeg-loopback-decoding