Python SequenceHeader 예제들

예제 #1

    def test_byte_for_byte_identical(self):
        sh1 = serialise_to_bytes(
            bitstream.SequenceHeader(
                parse_parameters=bitstream.ParseParameters(
                    major_version=1,
                    profile=tables.Profiles.low_delay,
                ), ))
        sh2 = serialise_to_bytes(
            bitstream.SequenceHeader(
                parse_parameters=bitstream.ParseParameters(major_version=2), ))

        state = bytes_to_state(sh1 + sh1 + sh2)

        decoder.sequence_header(state)
        decoder.byte_align(state)
        decoder.sequence_header(state)
        decoder.byte_align(state)
        with pytest.raises(
                decoder.SequenceHeaderChangedMidSequence) as exc_info:
            decoder.sequence_header(state)

        assert exc_info.value.last_sequence_header_offset == len(sh1)
        assert exc_info.value.last_sequence_header_bytes == sh1
        assert exc_info.value.this_sequence_header_offset == len(sh1) * 2
        assert exc_info.value.this_sequence_header_bytes == sh2

예제 #2

파일: test_picture_syntax.py 프로젝트: bbc/vc2_conformance

def test_whole_picture(parse_code):
    # A sanity check which runs picture decoding for whole pictures and makes
    # sure nothing crashes

    # Serialise a sample stream
    sh = bitstream.SequenceHeader(
        video_parameters=bitstream.SourceParameters(
            frame_size=bitstream.FrameSize(
                # Don't waste time on full-sized frames
                custom_dimensions_flag=True,
                frame_width=4,
                frame_height=4,
            ),
            clean_area=bitstream.CleanArea(
                custom_clean_area_flag=True,
                clean_width=4,
                clean_height=4,
            ),
        ), )
    serialisation_state = State()
    sh_bytes = serialise_to_bytes(sh, serialisation_state)
    serialisation_state["parse_code"] = parse_code
    pic_bytes = serialise_to_bytes(bitstream.PictureParse(),
                                   serialisation_state)

    # Check it is parsed without failiures
    state = bytes_to_state(sh_bytes + pic_bytes)
    state["_num_pictures_in_sequence"] = 0
    decoder.sequence_header(state)
    state["parse_code"] = parse_code
    decoder.picture_parse(state)

예제 #3

파일: test_decoder_test_utils.py 프로젝트: bbc/vc2_conformance

    def test_non_empty_sequence(self):
        sh = bitstream.SequenceHeader()

        seq = bitstream.Sequence(data_units=[
            bitstream.DataUnit(
                parse_info=bitstream.ParseInfo(
                    parse_code=tables.ParseCodes.sequence_header, ),
                sequence_header=sh,
            ),
            bitstream.DataUnit(
                parse_info=bitstream.ParseInfo(
                    parse_code=tables.ParseCodes.sequence_header, ),
                sequence_header=sh,
            ),
            bitstream.DataUnit(parse_info=bitstream.ParseInfo(
                parse_code=tables.ParseCodes.end_of_sequence, ), ),
        ])

        sh_length = len(serialise_to_bytes(sh))
        populate_parse_offsets(seq)

        assert seq["data_units"][0]["parse_info"]["next_parse_offset"] == (
            tables.PARSE_INFO_HEADER_BYTES + sh_length)
        assert seq["data_units"][0]["parse_info"]["previous_parse_offset"] == 0

        assert seq["data_units"][1]["parse_info"]["next_parse_offset"] == (
            tables.PARSE_INFO_HEADER_BYTES + sh_length)
        assert seq["data_units"][1]["parse_info"]["previous_parse_offset"] == (
            tables.PARSE_INFO_HEADER_BYTES + sh_length)

        assert seq["data_units"][2]["parse_info"]["next_parse_offset"] == 0
        assert seq["data_units"][2]["parse_info"]["previous_parse_offset"] == (
            tables.PARSE_INFO_HEADER_BYTES + sh_length)

예제 #4

 def test_unsupported_picture_coding_mode(self):
     state = bytes_to_state(
         serialise_to_bytes(
             bitstream.SequenceHeader(picture_coding_mode=2)))
     with pytest.raises(decoder.BadPictureCodingMode) as exc_info:
         decoder.sequence_header(state)
     assert exc_info.value.picture_coding_mode == 2

예제 #5

 def test_unsupported_base_video_format(self):
     state = bytes_to_state(
         serialise_to_bytes(
             bitstream.SequenceHeader(base_video_format=9999)))
     with pytest.raises(decoder.BadBaseVideoFormat) as exc_info:
         decoder.sequence_header(state)
     assert exc_info.value.base_video_format == 9999

예제 #6

 def test_supported_picture_coding_mode(self):
     state = bytes_to_state(
         serialise_to_bytes(
             bitstream.SequenceHeader(
                 picture_coding_mode=tables.PictureCodingModes.
                 pictures_are_frames)))
     decoder.sequence_header(state)

예제 #7

파일: test_stream.py 프로젝트: bbc/vc2_conformance

    def test_profile_version_restriction(self):
        # A sequence with no pictures but (incorrectly) major_version 1 and
        # profile high quality.
        seq = bitstream.Sequence(data_units=[
            bitstream.DataUnit(
                parse_info=bitstream.ParseInfo(
                    parse_code=tables.ParseCodes.sequence_header, ),
                sequence_header=bitstream.SequenceHeader(
                    parse_parameters=bitstream.ParseParameters(
                        major_version=1,
                        profile=tables.Profiles.high_quality,
                    ),
                    video_parameters=bitstream.SourceParameters(
                        frame_size=bitstream.FrameSize(
                            # Don't waste time on full-sized frames
                            custom_dimensions_flag=True,
                            frame_width=4,
                            frame_height=4,
                        ),
                        clean_area=bitstream.CleanArea(
                            custom_clean_area_flag=True,
                            clean_width=4,
                            clean_height=4,
                        ),
                    ),
                ),
            ),
            bitstream.DataUnit(parse_info=bitstream.ParseInfo(
                parse_code=tables.ParseCodes.end_of_sequence, ), ),
        ])
        populate_parse_offsets(seq)

        state = bytes_to_state(serialise_to_bytes(seq))
        with pytest.raises(decoder.ProfileNotSupportedByVersion):
            decoder.parse_stream(state)

예제 #8

파일: test_stream.py 프로젝트: bbc/vc2_conformance

    def test_parse_code_version_restriction(self):
        # A sequence with 1 HQ picture fragment but (incorrectly) major_version 2
        seq = bitstream.Sequence(data_units=[
            bitstream.DataUnit(
                parse_info=bitstream.ParseInfo(
                    parse_code=tables.ParseCodes.sequence_header, ),
                sequence_header=bitstream.SequenceHeader(
                    parse_parameters=bitstream.ParseParameters(major_version=2,
                                                               ),
                    video_parameters=bitstream.SourceParameters(
                        frame_size=bitstream.FrameSize(
                            # Don't waste time on full-sized frames
                            custom_dimensions_flag=True,
                            frame_width=4,
                            frame_height=4,
                        ),
                        clean_area=bitstream.CleanArea(
                            custom_clean_area_flag=True,
                            clean_width=4,
                            clean_height=4,
                        ),
                    ),
                ),
            ),
            bitstream.DataUnit(
                parse_info=bitstream.ParseInfo(
                    parse_code=tables.ParseCodes.high_quality_picture_fragment,
                ),
                fragment_parse=bitstream.FragmentParse(
                    fragment_header=bitstream.FragmentHeader(
                        fragment_slice_count=0, ),
                    transform_parameters=bitstream.TransformParameters(
                        slice_parameters=bitstream.SliceParameters(
                            slices_x=1,
                            slices_y=1,
                        ), ),
                ),
            ),
            bitstream.DataUnit(
                parse_info=bitstream.ParseInfo(
                    parse_code=tables.ParseCodes.high_quality_picture_fragment,
                ),
                fragment_parse=bitstream.FragmentParse(
                    fragment_header=bitstream.FragmentHeader(
                        fragment_slice_count=1, ), ),
            ),
            bitstream.DataUnit(parse_info=bitstream.ParseInfo(
                parse_code=tables.ParseCodes.end_of_sequence, ), ),
        ])
        populate_parse_offsets(seq)

        state = bytes_to_state(serialise_to_bytes(seq))
        with pytest.raises(decoder.ParseCodeNotSupportedByVersion):
            decoder.parse_stream(state)

예제 #9

 def test_picture_dimensions_must_be_multiple_of_frame_dimensions(
     self,
     frame_width,
     frame_height,
     exp_luma_width,
     exp_luma_height,
     exp_color_diff_width,
     exp_color_diff_height,
     exp_error,
 ):
     state = bytes_to_state(
         serialise_to_bytes(
             bitstream.SequenceHeader(
                 picture_coding_mode=tables.PictureCodingModes.
                 pictures_are_fields,
                 video_parameters=bitstream.SourceParameters(
                     frame_size=bitstream.FrameSize(
                         custom_dimensions_flag=True,
                         frame_width=frame_width,
                         frame_height=frame_height,
                     ),
                     clean_area=bitstream.CleanArea(
                         custom_clean_area_flag=True,
                         clean_width=frame_width,
                         clean_height=frame_height,
                     ),
                     color_diff_sampling_format=bitstream.
                     ColorDiffSamplingFormat(
                         custom_color_diff_format_flag=True,
                         color_diff_format_index=tables.
                         ColorDifferenceSamplingFormats.
                         color_4_2_0,  # noqa: E501
                     ),
                 ),
             )))
     if exp_error:
         with pytest.raises(
                 decoder.PictureDimensionsNotMultipleOfFrameDimensions
         ) as exc_info:
             decoder.sequence_header(state)
         assert exc_info.value.luma_width == exp_luma_width
         assert exc_info.value.luma_height == exp_luma_height
         assert exc_info.value.color_diff_width == exp_color_diff_width
         assert exc_info.value.color_diff_height == exp_color_diff_height
         assert exc_info.value.frame_width == frame_width
         assert exc_info.value.frame_height == frame_height
     else:
         decoder.sequence_header(state)
         assert state["luma_width"] == exp_luma_width
         assert state["luma_height"] == exp_luma_height
         assert state["color_diff_width"] == exp_color_diff_width
         assert state["color_diff_height"] == exp_color_diff_height

예제 #10

파일: test_stream.py 프로젝트: bbc/vc2_conformance

    def test_minimal_major_version_requirement(
        self,
        num_pictures,
        major_version,
        expected_major_version,
        exp_fail,
    ):
        # A sequence with 1 (or zero) HQ pictures
        seq = bitstream.Sequence(data_units=[
            bitstream.DataUnit(
                parse_info=bitstream.ParseInfo(
                    parse_code=tables.ParseCodes.sequence_header, ),
                sequence_header=bitstream.SequenceHeader(
                    parse_parameters=bitstream.ParseParameters(
                        major_version=major_version, ),
                    video_parameters=bitstream.SourceParameters(
                        frame_size=bitstream.FrameSize(
                            # Don't waste time on full-sized frames
                            custom_dimensions_flag=True,
                            frame_width=4,
                            frame_height=4,
                        ),
                        clean_area=bitstream.CleanArea(
                            custom_clean_area_flag=True,
                            clean_width=4,
                            clean_height=4,
                        ),
                    ),
                ),
            ),
        ] + [
            bitstream.DataUnit(
                parse_info=bitstream.ParseInfo(
                    parse_code=tables.ParseCodes.high_quality_picture, ),
                picture_parse=bitstream.PictureParse(
                    picture_header=bitstream.PictureHeader(picture_number=n,
                                                           ), ),
            ) for n in range(num_pictures)
        ] + [
            bitstream.DataUnit(parse_info=bitstream.ParseInfo(
                parse_code=tables.ParseCodes.end_of_sequence, ), ),
        ])
        populate_parse_offsets(seq)

        state = bytes_to_state(serialise_to_bytes(seq))
        if exp_fail:
            with pytest.raises(decoder.MajorVersionTooHigh):
                decoder.parse_stream(state)
        else:
            decoder.parse_stream(state)
        assert state["_expected_major_version"] == expected_major_version

예제 #11

파일: test_stream.py 프로젝트: bbc/vc2_conformance

    def test_odd_number_of_fields_disallowed(self, picture_coding_mode,
                                             num_pictures, exp_fail):
        # A sequence with num_pictures HQ pictures
        seq = bitstream.Sequence(data_units=[
            bitstream.DataUnit(
                parse_info=bitstream.ParseInfo(
                    parse_code=tables.ParseCodes.sequence_header, ),
                sequence_header=bitstream.SequenceHeader(
                    picture_coding_mode=picture_coding_mode,
                    parse_parameters=bitstream.ParseParameters(
                        major_version=2),
                    video_parameters=bitstream.SourceParameters(
                        frame_size=bitstream.FrameSize(
                            # Don't waste time on full-sized frames
                            custom_dimensions_flag=True,
                            frame_width=4,
                            frame_height=4,
                        ),
                        clean_area=bitstream.CleanArea(
                            custom_clean_area_flag=True,
                            clean_width=4,
                            clean_height=4,
                        ),
                    ),
                ),
            ),
        ] + [
            bitstream.DataUnit(
                parse_info=bitstream.ParseInfo(
                    parse_code=tables.ParseCodes.high_quality_picture, ),
                picture_parse=bitstream.PictureParse(
                    picture_header=bitstream.PictureHeader(picture_number=n,
                                                           ), ),
            ) for n in range(num_pictures)
        ] + [
            bitstream.DataUnit(parse_info=bitstream.ParseInfo(
                parse_code=tables.ParseCodes.end_of_sequence, ), ),
        ])
        populate_parse_offsets(seq)

        state = bytes_to_state(serialise_to_bytes(seq))
        if exp_fail:
            with pytest.raises(
                    decoder.OddNumberOfFieldsInSequence) as exc_info:
                decoder.parse_stream(state)
            assert exc_info.value.num_fields_in_sequence == num_pictures
        else:
            decoder.parse_stream(state)

예제 #12

 def test_supported_base_video_format(self):
     state = bytes_to_state(
         serialise_to_bytes(
             bitstream.SequenceHeader(
                 base_video_format=tables.BaseVideoFormats.custom_format)))
     decoder.sequence_header(state)

예제 #13

파일: test_vc2_bitstream_validator.py 프로젝트: bbc/vc2_conformance

    def valid_bitstream(self, filename):
        """
        Creates a valid bitstream in the file whose name is returned by this
        fixture. This bitstream consists of two small pictures.


        A minimal bitstream with a pair of 4x4 pixel 4:2:0 8-bit pictures with
        picture numbers 100 and 101.
        """
        with open(filename, "wb") as f:
            w = bitstream.BitstreamWriter(f)
            seq = bitstream.Sequence(
                data_units=[
                    bitstream.DataUnit(
                        parse_info=bitstream.ParseInfo(
                            parse_code=tables.ParseCodes.sequence_header,
                            next_parse_offset=19,
                        ),
                        sequence_header=bitstream.SequenceHeader(
                            parse_parameters=bitstream.ParseParameters(
                                major_version=2,
                            ),
                            video_parameters=bitstream.SourceParameters(
                                frame_size=bitstream.FrameSize(
                                    custom_dimensions_flag=True,
                                    frame_width=4,
                                    frame_height=4,
                                ),
                                clean_area=bitstream.CleanArea(
                                    custom_clean_area_flag=True,
                                    left_offset=0,
                                    top_offset=0,
                                    clean_width=4,
                                    clean_height=4,
                                ),
                                color_diff_sampling_format=bitstream.ColorDiffSamplingFormat(  # noqa: E501
                                    custom_color_diff_format_flag=True,
                                    color_diff_format_index=tables.ColorDifferenceSamplingFormats.color_4_2_0,  # noqa: E501
                                ),
                            ),
                            picture_coding_mode=tables.PictureCodingModes.pictures_are_frames,  # noqa: E501
                        ),
                    ),
                    bitstream.DataUnit(
                        parse_info=bitstream.ParseInfo(
                            parse_code=tables.ParseCodes.high_quality_picture,
                            next_parse_offset=24,
                            previous_parse_offset=19,
                        ),
                        picture_parse=bitstream.PictureParse(
                            picture_header=bitstream.PictureHeader(
                                picture_number=100,
                            ),
                        ),
                    ),
                    bitstream.DataUnit(
                        parse_info=bitstream.ParseInfo(
                            parse_code=tables.ParseCodes.high_quality_picture,
                            next_parse_offset=24,
                            previous_parse_offset=24,
                        ),
                        picture_parse=bitstream.PictureParse(
                            picture_header=bitstream.PictureHeader(
                                picture_number=101,
                            ),
                        ),
                    ),
                    bitstream.DataUnit(
                        parse_info=bitstream.ParseInfo(
                            parse_code=tables.ParseCodes.end_of_sequence,
                            previous_parse_offset=24,
                        )
                    ),
                ]
            )
            with bitstream.Serialiser(w, seq, bitstream.vc2_default_values) as ser:
                bitstream.parse_sequence(ser, State())
            w.flush()

        return filename

예제 #14

파일: test_fragment_syntax.py 프로젝트: bbc/vc2_conformance

def test_whole_picture(parse_code, fragment_slice_counts):
    # A sanity check which runs fragmented picture decoding for whole pictures
    # and makes sure nothing crashes

    # Serialise a sample stream
    sh = bitstream.SequenceHeader(
        video_parameters=bitstream.SourceParameters(
            frame_size=bitstream.FrameSize(
                # Don't waste time on full-sized frames
                custom_dimensions_flag=True,
                frame_width=8,
                frame_height=8,
            ),
            clean_area=bitstream.CleanArea(
                custom_clean_area_flag=True,
                clean_width=8,
                clean_height=8,
            ),
        ), )
    serialisation_state = State()
    sh_bytes = serialise_to_bytes(sh, serialisation_state)
    serialisation_state["parse_code"] = parse_code
    frag_bytes = b""

    # Add the first (header) fragment in the picture
    frag_bytes += serialise_to_bytes(
        bitstream.FragmentParse(
            fragment_header=bitstream.FragmentHeader(fragment_slice_count=0, ),
            transform_parameters=bitstream.TransformParameters(
                slice_parameters=bitstream.SliceParameters(
                    slices_x=3,
                    slices_y=2,
                )),
        ),
        serialisation_state,
    )

    # Add the slice-containing fragments
    num_slices = 0
    for fragment_slice_count in fragment_slice_counts:
        x = num_slices % 3
        y = num_slices // 3
        num_slices += fragment_slice_count

        frag_bytes += serialise_to_bytes(
            bitstream.FragmentParse(fragment_header=bitstream.FragmentHeader(
                fragment_slice_count=fragment_slice_count,
                fragment_x_offset=x,
                fragment_y_offset=y,
            ), ),
            serialisation_state,
        )

    # Check it is parsed without failiures
    state = bytes_to_state(sh_bytes + frag_bytes)
    state["_num_pictures_in_sequence"] = 0
    state["_fragment_slices_remaining"] = 0
    decoder.sequence_header(state)

    # Parse header fragment
    decoder.byte_align(state)
    state["parse_code"] = parse_code
    decoder.fragment_parse(state)

    # Parse slice-containing fragments
    num_slices = 0
    for fragment_slice_count in fragment_slice_counts:
        assert state["fragmented_picture_done"] is False

        decoder.byte_align(state)
        state["parse_code"] = parse_code
        decoder.fragment_parse(state)

        num_slices += fragment_slice_count
        assert state["fragment_slices_received"] == num_slices
        assert state["_fragment_slices_remaining"] == 6 - num_slices

    assert state["fragmented_picture_done"] is True

예제 #15

def test_level_constraints():
    # Simply check that all constrainted level values get asserted. We check
    # this by making sure assert_level_constraint has added the relevant values
    # to # state["_level_constrained_values"].
    state = bytes_to_state(
        serialise_to_bytes(
            bitstream.SequenceHeader(
                base_video_format=tables.BaseVideoFormats.custom_format,
                picture_coding_mode=tables.PictureCodingModes.
                pictures_are_frames,
                parse_parameters=bitstream.ParseParameters(
                    level=tables.Levels.unconstrained,
                    profile=tables.Profiles.high_quality,
                    major_version=3,
                    minor_version=0,
                ),
                video_parameters=bitstream.SourceParameters(
                    frame_size=bitstream.FrameSize(
                        custom_dimensions_flag=True,
                        frame_width=1280,
                        frame_height=1080,
                    ),
                    color_diff_sampling_format=bitstream.
                    ColorDiffSamplingFormat(
                        custom_color_diff_format_flag=True,
                        color_diff_format_index=tables.
                        ColorDifferenceSamplingFormats.color_4_4_4,
                    ),
                    scan_format=bitstream.ScanFormat(
                        custom_scan_format_flag=True,
                        source_sampling=tables.SourceSamplingModes.progressive,
                    ),
                    frame_rate=bitstream.FrameRate(
                        custom_frame_rate_flag=True,
                        index=0,
                        frame_rate_numer=25,
                        frame_rate_denom=1,
                    ),
                    pixel_aspect_ratio=bitstream.PixelAspectRatio(
                        custom_pixel_aspect_ratio_flag=True,
                        index=0,
                        pixel_aspect_ratio_numer=1,
                        pixel_aspect_ratio_denom=1,
                    ),
                    clean_area=bitstream.CleanArea(
                        custom_clean_area_flag=True,
                        clean_width=1,
                        clean_height=2,
                        left_offset=3,
                        top_offset=4,
                    ),
                    signal_range=bitstream.SignalRange(
                        custom_signal_range_flag=True,
                        index=0,
                        luma_offset=1,
                        luma_excursion=2,
                        color_diff_offset=3,
                        color_diff_excursion=4,
                    ),
                    color_spec=bitstream.ColorSpec(
                        custom_color_spec_flag=True,
                        index=0,
                        color_primaries=bitstream.ColorPrimaries(
                            custom_color_primaries_flag=True,
                            index=tables.PresetColorPrimaries.uhdtv,
                        ),
                        color_matrix=bitstream.ColorMatrix(
                            custom_color_matrix_flag=True,
                            index=tables.PresetColorMatrices.uhdtv,
                        ),
                        transfer_function=bitstream.TransferFunction(
                            custom_transfer_function_flag=True,
                            index=tables.PresetTransferFunctions.
                            hybrid_log_gamma,
                        ),
                    ),
                ),
            )))
    decoder.sequence_header(state)
    assert state["_level_constrained_values"] == {
        # sequence_header
        "base_video_format": tables.BaseVideoFormats.custom_format,
        "picture_coding_mode": tables.PictureCodingModes.pictures_are_frames,
        # parse_parameters
        "level": tables.Levels.unconstrained,
        "profile": tables.Profiles.high_quality,
        "major_version": 3,
        "minor_version": 0,
        # frame_size
        "custom_dimensions_flag": True,
        "frame_width": 1280,
        "frame_height": 1080,
        # color_diff_sampling_format
        "custom_color_diff_format_flag": True,
        "color_diff_format_index":
        tables.ColorDifferenceSamplingFormats.color_4_4_4,
        # scan_format
        "custom_scan_format_flag": True,
        "source_sampling": tables.SourceSamplingModes.progressive,
        # frame_rate
        "custom_frame_rate_flag": True,
        "frame_rate_index": 0,
        "frame_rate_numer": 25,
        "frame_rate_denom": 1,
        # pixel_aspect_ratio
        "custom_pixel_aspect_ratio_flag": True,
        "pixel_aspect_ratio_index": 0,
        "pixel_aspect_ratio_numer": 1,
        "pixel_aspect_ratio_denom": 1,
        # clean_area
        "custom_clean_area_flag": True,
        "clean_width": 1,
        "clean_height": 2,
        "left_offset": 3,
        "top_offset": 4,
        # signal_range
        "custom_signal_range_flag": True,
        "custom_signal_range_index": 0,
        "luma_offset": 1,
        "luma_excursion": 2,
        "color_diff_offset": 3,
        "color_diff_excursion": 4,
        # color_spec
        "custom_color_spec_flag": True,
        "color_spec_index": 0,
        # color_primaries
        "custom_color_primaries_flag": True,
        "color_primaries_index": tables.PresetColorPrimaries.uhdtv,
        # color_matrix
        "custom_color_matrix_flag": True,
        "color_matrix_index": tables.PresetColorMatrices.uhdtv,
        # transfer_function
        "custom_transfer_function_flag": True,
        "transfer_function_index":
        tables.PresetTransferFunctions.hybrid_log_gamma,
    }

예제 #16

파일: test_stream.py 프로젝트: bbc/vc2_conformance

 def sh_bytes(self):
     # A sequence header
     return serialise_to_bytes(bitstream.SequenceHeader())

예제 #17

파일: test_stream.py 프로젝트: bbc/vc2_conformance

    def test_picture_and_incomplete_fragment_interleaving_disallowed(
            self, num_slices_to_send, exp_fail):
        # A sequence with a 3x2 slice picture fragment with num_slices_to_send slices in
        # it followed by an HQ picture
        seq = bitstream.Sequence(data_units=[
            bitstream.DataUnit(
                parse_info=bitstream.ParseInfo(
                    parse_code=tables.ParseCodes.sequence_header, ),
                sequence_header=bitstream.SequenceHeader(
                    video_parameters=bitstream.SourceParameters(
                        frame_size=bitstream.FrameSize(
                            # Don't waste time on full-sized pictures
                            custom_dimensions_flag=True,
                            frame_width=8,
                            frame_height=8,
                        ),
                        clean_area=bitstream.CleanArea(
                            custom_clean_area_flag=True,
                            clean_width=8,
                            clean_height=8,
                        ),
                    ), ),
            ),
            bitstream.DataUnit(
                parse_info=bitstream.ParseInfo(
                    parse_code=tables.ParseCodes.high_quality_picture_fragment,
                ),
                fragment_parse=bitstream.FragmentParse(
                    fragment_header=bitstream.FragmentHeader(
                        picture_number=0,
                        fragment_slice_count=0,
                    ),
                    transform_parameters=bitstream.TransformParameters(
                        slice_parameters=bitstream.SliceParameters(
                            slices_x=3,
                            slices_y=2,
                        ), ),
                ),
            ),
            bitstream.DataUnit(
                parse_info=bitstream.ParseInfo(
                    parse_code=tables.ParseCodes.high_quality_picture_fragment,
                ),
                fragment_parse=bitstream.FragmentParse(
                    fragment_header=bitstream.FragmentHeader(
                        picture_number=0,
                        fragment_slice_count=num_slices_to_send,
                    ), ),
            ),
            bitstream.DataUnit(
                parse_info=bitstream.ParseInfo(
                    parse_code=tables.ParseCodes.high_quality_picture, ),
                picture_parse=bitstream.PictureParse(
                    picture_header=bitstream.PictureHeader(picture_number=1,
                                                           ), ),
            ),
            bitstream.DataUnit(parse_info=bitstream.ParseInfo(
                parse_code=tables.ParseCodes.end_of_sequence, ), ),
        ])
        # Don't include second (non-header) fragment if sending no slices
        if num_slices_to_send == 0:
            del seq["data_units"][2]

        populate_parse_offsets(seq)

        state = bytes_to_state(serialise_to_bytes(seq))
        if exp_fail:
            with pytest.raises(decoder.PictureInterleavedWithFragmentedPicture
                               ) as exc_info:
                decoder.parse_stream(state)
            first_fragment_offset = (
                seq["data_units"][0]["parse_info"]["next_parse_offset"] +
                tables.PARSE_INFO_HEADER_BYTES)
            assert exc_info.value.initial_fragment_offset == (
                first_fragment_offset, 7)
            picture_offset = (
                sum(seq["data_units"][i]["parse_info"]["next_parse_offset"]
                    for i in range(len(seq["data_units"]) - 2)) +
                tables.PARSE_INFO_HEADER_BYTES)
            assert exc_info.value.this_offset == (picture_offset, 7)
            assert exc_info.value.fragment_slices_received == num_slices_to_send
            assert exc_info.value.fragment_slices_remaining == 6 - num_slices_to_send
        else:
            decoder.parse_stream(state)

예제 #18

파일: test_stream.py 프로젝트: bbc/vc2_conformance

    def test_output_picture(self):
        # This test adds a callback for output_picture and makes sure that both
        # fragments and pictures call it correctly (and that sanity-checks very
        # loosely that decoding etc. is happening). Finally, it also checks
        # that two concatenated sequences are read one after another.

        # A sequence with a HQ picture followed by a HQ fragment (both all
        # zeros)
        seq1 = bitstream.Sequence(data_units=[
            bitstream.DataUnit(
                parse_info=bitstream.ParseInfo(
                    parse_code=tables.ParseCodes.sequence_header, ),
                sequence_header=bitstream.SequenceHeader(
                    video_parameters=bitstream.SourceParameters(
                        frame_size=bitstream.FrameSize(
                            # Don't waste time on full-sized frames
                            custom_dimensions_flag=True,
                            frame_width=4,
                            frame_height=2,
                        ),
                        clean_area=bitstream.CleanArea(
                            custom_clean_area_flag=True,
                            clean_width=4,
                            clean_height=2,
                        ),
                        color_diff_sampling_format=bitstream.
                        ColorDiffSamplingFormat(
                            custom_color_diff_format_flag=True,
                            color_diff_format_index=tables.
                            ColorDifferenceSamplingFormats.
                            color_4_2_2,  # noqa: E501
                        ),
                        # Output values will be treated as 8-bit (and thus all
                        # decode to 128)
                        signal_range=bitstream.SignalRange(
                            custom_signal_range_flag=True,
                            index=tables.PresetSignalRanges.
                            video_8bit_full_range,
                        ),
                    ),
                    picture_coding_mode=tables.PictureCodingModes.
                    pictures_are_frames,
                ),
            ),
            # A HQ picture
            bitstream.DataUnit(
                parse_info=bitstream.ParseInfo(
                    parse_code=tables.ParseCodes.high_quality_picture, ),
                picture_parse=bitstream.PictureParse(
                    picture_header=bitstream.PictureHeader(picture_number=10,
                                                           ), ),
            ),
            # A fragmented HQ picture (sent over two fragments to ensure the
            # callback only fires after a whole picture arrives)
            bitstream.DataUnit(
                parse_info=bitstream.ParseInfo(
                    parse_code=tables.ParseCodes.high_quality_picture_fragment,
                ),
                fragment_parse=bitstream.FragmentParse(
                    fragment_header=bitstream.FragmentHeader(
                        picture_number=11,
                        fragment_slice_count=0,
                    ),
                    transform_parameters=bitstream.TransformParameters(
                        slice_parameters=bitstream.SliceParameters(
                            slices_x=2,
                            slices_y=1,
                        ), ),
                ),
            ),
            bitstream.DataUnit(
                parse_info=bitstream.ParseInfo(
                    parse_code=tables.ParseCodes.high_quality_picture_fragment,
                ),
                fragment_parse=bitstream.FragmentParse(
                    fragment_header=bitstream.FragmentHeader(
                        picture_number=11,
                        fragment_slice_count=1,
                        fragment_x_offset=0,
                        fragment_y_offset=0,
                    ), ),
            ),
            bitstream.DataUnit(
                parse_info=bitstream.ParseInfo(
                    parse_code=tables.ParseCodes.high_quality_picture_fragment,
                ),
                fragment_parse=bitstream.FragmentParse(
                    fragment_header=bitstream.FragmentHeader(
                        picture_number=11,
                        fragment_slice_count=1,
                        fragment_x_offset=1,
                        fragment_y_offset=0,
                    ), ),
            ),
            bitstream.DataUnit(parse_info=bitstream.ParseInfo(
                parse_code=tables.ParseCodes.end_of_sequence, ), ),
        ])

        # Another (HQ) picture in a separate sequence
        seq2 = bitstream.Sequence(data_units=[
            bitstream.DataUnit(
                parse_info=bitstream.ParseInfo(
                    parse_code=tables.ParseCodes.sequence_header, ),
                sequence_header=bitstream.SequenceHeader(
                    parse_parameters=bitstream.ParseParameters(
                        major_version=2),
                    video_parameters=bitstream.SourceParameters(
                        frame_size=bitstream.FrameSize(
                            # Don't waste time on full-sized frames
                            custom_dimensions_flag=True,
                            frame_width=4,
                            frame_height=2,
                        ),
                        clean_area=bitstream.CleanArea(
                            custom_clean_area_flag=True,
                            clean_width=4,
                            clean_height=2,
                        ),
                        color_diff_sampling_format=bitstream.
                        ColorDiffSamplingFormat(
                            custom_color_diff_format_flag=True,
                            color_diff_format_index=tables.
                            ColorDifferenceSamplingFormats.
                            color_4_2_2,  # noqa: E501
                        ),
                        # Output values will be treated as 8-bit (and thus all
                        # decode to 128)
                        signal_range=bitstream.SignalRange(
                            custom_signal_range_flag=True,
                            index=tables.PresetSignalRanges.
                            video_8bit_full_range,
                        ),
                    ),
                    picture_coding_mode=tables.PictureCodingModes.
                    pictures_are_frames,
                ),
            ),
            bitstream.DataUnit(
                parse_info=bitstream.ParseInfo(
                    parse_code=tables.ParseCodes.high_quality_picture, ),
                picture_parse=bitstream.PictureParse(
                    picture_header=bitstream.PictureHeader(
                        picture_number=12), ),
            ),
            bitstream.DataUnit(parse_info=bitstream.ParseInfo(
                parse_code=tables.ParseCodes.end_of_sequence, ), ),
        ])
        populate_parse_offsets(seq1)
        populate_parse_offsets(seq2)

        state = bytes_to_state(
            serialise_to_bytes(seq1) + serialise_to_bytes(seq2))
        state["_output_picture_callback"] = Mock()
        decoder.parse_stream(state)

        assert state["_output_picture_callback"].call_count == 3

        for i, (args, kwargs) in enumerate(
                state["_output_picture_callback"].call_args_list):
            assert kwargs == {}
            # Should get a 4x2 mid-gray frame with 4:2:2 color difference sampling
            assert args[0] == {
                "pic_num": 10 + i,
                "Y": [[128, 128, 128, 128], [128, 128, 128, 128]],
                "C1": [[128, 128], [128, 128]],
                "C2": [[128, 128], [128, 128]],
            }
            # Just sanity check the second argument looks like a set of video parameters
            assert args[1]["frame_width"] == 4
            assert args[1]["frame_height"] == 2
            assert args[1]["luma_offset"] == 0
            assert args[1]["luma_offset"] == 0
            assert args[1]["luma_excursion"] == 255
            assert args[1]["color_diff_offset"] == 128
            assert args[1]["color_diff_excursion"] == 255
            # And the picture coding mode too...
            assert args[2] == tables.PictureCodingModes.pictures_are_frames