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