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https://github.com/FFmpeg/FFmpeg.git
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54b29e1656
This also tests writing slice data in the unaligned mode (some of these files use CAVLC) as well as updating side data as well as parsing ISOBMFF avcc extradata. Signed-off-by: Andreas Rheinhardt <andreas.rheinhardt@outlook.com>
175 lines
6.8 KiB
Makefile
175 lines
6.8 KiB
Makefile
# Read/write tests: By default, this uses the codec metadata filters - with no
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# arguments, it decomposes the stream fully and then recomposes it
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# without making any changes.
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fate-cbs: fate-cbs-av1 fate-cbs-h264 fate-cbs-hevc fate-cbs-mpeg2 fate-cbs-vp9
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FATE_CBS_DEPS = $(call ALLYES, $(1)_DEMUXER $(2)_PARSER $(3)_METADATA_BSF $(4)_DECODER $(5)_MUXER)
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define FATE_CBS_TEST
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# (codec, test_name, sample_file, output_format)
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FATE_CBS_$(1) += fate-cbs-$(1)-$(2)
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fate-cbs-$(1)-$(2): CMD = md5 -c:v $(3) -i $(TARGET_SAMPLES)/$(4) -c:v copy -y -bsf:v $(1)_metadata -f $(5)
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endef
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# AV1 read/write
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FATE_CBS_AV1_CONFORMANCE_SAMPLES = \
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av1-1-b8-02-allintra.ivf \
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av1-1-b8-03-sizedown.ivf \
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av1-1-b8-03-sizeup.ivf \
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av1-1-b8-04-cdfupdate.ivf \
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av1-1-b8-05-mv.ivf \
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av1-1-b8-06-mfmv.ivf \
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av1-1-b8-22-svc-L1T2.ivf \
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av1-1-b8-22-svc-L2T1.ivf \
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av1-1-b8-22-svc-L2T2.ivf \
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av1-1-b8-23-film_grain-50.ivf \
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av1-1-b10-23-film_grain-50.ivf
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FATE_CBS_AV1_SAMPLES = \
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decode_model.ivf \
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frames_refs_short_signaling.ivf \
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non_uniform_tiling.ivf \
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seq_hdr_op_param_info.ivf \
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switch_frame.ivf
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$(foreach N,$(FATE_CBS_AV1_CONFORMANCE_SAMPLES),$(eval $(call FATE_CBS_TEST,av1,$(basename $(N)),av1,av1-test-vectors/$(N),rawvideo)))
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$(foreach N,$(FATE_CBS_AV1_SAMPLES),$(eval $(call FATE_CBS_TEST,av1,$(basename $(N)),av1,av1/$(N),rawvideo)))
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FATE_CBS_AV1-$(call FATE_CBS_DEPS, IVF, AV1, AV1, AV1, RAWVIDEO) = $(FATE_CBS_av1)
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FATE_SAMPLES_AVCONV += $(FATE_CBS_AV1-yes)
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fate-cbs-av1: $(FATE_CBS_AV1-yes)
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# H.264 read/write
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FATE_CBS_H264_CONFORMANCE_SAMPLES = \
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SVA_Base_B.264 \
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BASQP1_Sony_C.jsv \
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FM1_BT_B.h264 \
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CVFC1_Sony_C.jsv \
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AUD_MW_E.264 \
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CVBS3_Sony_C.jsv \
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MR1_BT_A.h264 \
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CVWP1_TOSHIBA_E.264 \
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CVNLFI1_Sony_C.jsv \
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Sharp_MP_PAFF_1r2.jvt \
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CVMANL1_TOSHIBA_B.264 \
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sp1_bt_a.h264 \
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CVSE2_Sony_B.jsv \
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CABACI3_Sony_B.jsv
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FATE_CBS_H264_SAMPLES = \
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sei-1.h264
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$(foreach N,$(FATE_CBS_H264_CONFORMANCE_SAMPLES),$(eval $(call FATE_CBS_TEST,h264,$(basename $(N)),h264,h264-conformance/$(N),h264)))
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$(foreach N,$(FATE_CBS_H264_SAMPLES),$(eval $(call FATE_CBS_TEST,h264,$(basename $(N)),h264,h264/$(N),h264)))
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FATE_CBS_H264-$(call FATE_CBS_DEPS, H264, H264, H264, H264, H264) = $(FATE_CBS_h264)
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FATE_H264_REDUNDANT_PPS-$(call REMUX, H264, MOV_DEMUXER H264_REDUNDANT_PPS_BSF \
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H264_DECODER H264_PARSER RAWVIDEO_ENCODER) \
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+= fate-h264_redundant_pps-mov
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fate-h264_redundant_pps-mov: CMD = transcode \
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mov $(TARGET_SAMPLES)/mov/frag_overlap.mp4 h264 \
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"-map 0:v -c copy -bsf h264_redundant_pps"
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# This file has changing pic_init_qp_minus26.
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FATE_H264_REDUNDANT_PPS-$(call REMUX, H264, H264_PARSER H264_REDUNDANT_PPS_BSF \
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H264_DECODER RAWVIDEO_ENCODER) \
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+= fate-h264_redundant_pps-annexb
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fate-h264_redundant_pps-annexb: CMD = transcode \
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h264 $(TARGET_SAMPLES)/h264-conformance/CABA3_TOSHIBA_E.264 \
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h264 "-map 0:v -c copy -bsf h264_redundant_pps"
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# These two tests test that new extradata in packet side data is properly
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# modified by h264_redundant_pps. nut is used as destination container
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# because it can store extradata updates (in its experimental mode);
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# setting -syncpoints none is a hack to use nut version 4.
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FATE_H264_REDUNDANT_PPS-$(call REMUX, NUT, MOV_DEMUXER H264_REDUNDANT_PPS_BSF H264_DECODER) \
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+= fate-h264_redundant_pps-side_data
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fate-h264_redundant_pps-side_data: CMD = transcode \
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mov $(TARGET_SAMPLES)/h264/thezerotheorem-cut.mp4 nut \
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"-map 0:v -c copy -bsf h264_redundant_pps -syncpoints none -strict experimental" "-c copy"
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FATE_H264_REDUNDANT_PPS-$(call REMUX, NUT, MOV_DEMUXER H264_REDUNDANT_PPS_BSF \
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H264_DECODER SCALE_FILTER RAWVIDEO_ENCODER) \
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+= fate-h264_redundant_pps-side_data2
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fate-h264_redundant_pps-side_data2: CMD = transcode \
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mov $(TARGET_SAMPLES)/h264/extradata-reload-multi-stsd.mov nut \
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"-map 0:v -c copy -bsf h264_redundant_pps -syncpoints none -strict experimental"
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fate-h264_redundant_pps: $(FATE_H264_REDUNDANT_PPS-yes)
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FATE_SAMPLES_FFMPEG += $(FATE_CBS_H264-yes) $(FATE_H264_REDUNDANT_PPS-yes)
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fate-cbs-h264: $(FATE_CBS_H264-yes) $(FATE_H264_REDUNDANT_PPS-yes)
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# H.265 read/write
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FATE_CBS_HEVC_SAMPLES = \
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STRUCT_A_Samsung_5.bit \
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WP_A_Toshiba_3.bit \
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SLIST_A_Sony_4.bit \
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SLIST_D_Sony_9.bit \
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CAINIT_E_SHARP_3.bit \
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CAINIT_H_SHARP_3.bit \
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TILES_B_Cisco_1.bit \
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WPP_A_ericsson_MAIN_2.bit \
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WPP_F_ericsson_MAIN_2.bit \
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ipcm_E_NEC_2.bit \
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NUT_A_ericsson_5.bit \
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PICSIZE_A_Bossen_1.bit \
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PICSIZE_B_Bossen_1.bit \
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RPS_A_docomo_4.bit \
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RPS_E_qualcomm_5.bit \
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LTRPSPS_A_Qualcomm_1.bit \
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RPLM_A_qualcomm_4.bit \
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CONFWIN_A_Sony_1.bit \
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HRD_A_Fujitsu_2.bit \
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SLPPLP_A_VIDYO_2.bit
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$(foreach N,$(FATE_CBS_HEVC_SAMPLES),$(eval $(call FATE_CBS_TEST,hevc,$(basename $(N)),hevc,hevc-conformance/$(N),hevc)))
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FATE_CBS_HEVC-$(call FATE_CBS_DEPS, HEVC, HEVC, HEVC, HEVC, HEVC) = $(FATE_CBS_hevc)
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FATE_SAMPLES_AVCONV += $(FATE_CBS_HEVC-yes)
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fate-cbs-hevc: $(FATE_CBS_HEVC-yes)
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# MPEG-2 read/write
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FATE_CBS_MPEG2_SAMPLES = \
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hhi_burst_422_short.bits \
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sony-ct3.bs \
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tcela-6.bits
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$(foreach N,$(FATE_CBS_MPEG2_SAMPLES),$(eval $(call FATE_CBS_TEST,mpeg2,$(basename $(N)),mpeg2video,mpeg2/$(N),mpeg2video)))
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FATE_CBS_MPEG2-$(call FATE_CBS_DEPS, MPEGVIDEO, MPEGVIDEO, MPEG2, MPEG2VIDEO, MPEG2VIDEO) = $(FATE_CBS_mpeg2)
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FATE_SAMPLES_AVCONV += $(FATE_CBS_MPEG2-yes)
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fate-cbs-mpeg2: $(FATE_CBS_MPEG2-yes)
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# VP9 read/write
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FATE_CBS_VP9_SAMPLES = \
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vp90-2-03-deltaq.webm \
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vp90-2-05-resize.ivf \
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vp90-2-06-bilinear.webm \
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vp90-2-09-lf_deltas.webm \
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vp90-2-10-show-existing-frame.webm \
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vp90-2-10-show-existing-frame2.webm \
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vp90-2-segmentation-aq-akiyo.webm \
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vp90-2-segmentation-sf-akiyo.webm \
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vp90-2-tiling-pedestrian.webm \
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vp91-2-04-yuv440.webm \
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vp91-2-04-yuv444.webm \
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vp92-2-20-10bit-yuv420.webm \
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vp93-2-20-10bit-yuv422.webm \
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vp93-2-20-12bit-yuv444.webm
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$(foreach N,$(FATE_CBS_VP9_SAMPLES),$(eval $(call FATE_CBS_TEST,vp9,$(basename $(N)),vp9,vp9-test-vectors/$(N),ivf)))
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FATE_CBS_VP9-$(call FATE_CBS_DEPS, IVF, VP9, VP9, VP9, IVF) = $(FATE_CBS_vp9)
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FATE_SAMPLES_AVCONV += $(FATE_CBS_VP9-yes)
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fate-cbs-vp9: $(FATE_CBS_VP9-yes)
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