def test_disallows_unsupported_combinations(self):
state = {
"wavelet_index": tables.WaveletFilters.haar_no_shift,
"wavelet_index_ho": tables.WaveletFilters.haar_no_shift,
"dwt_depth": 1,
"dwt_depth_ho": 1,
}
state.update(
bytes_to_state(
serialise_to_bytes(
bitstream.QuantMatrix(custom_quant_matrix=False, ),
state.copy(),
)))
decoder.quant_matrix(state)
state = {
"wavelet_index": tables.WaveletFilters.haar_no_shift,
"wavelet_index_ho": tables.WaveletFilters.haar_with_shift,
"dwt_depth": 999,
"dwt_depth_ho": 9999,
}
state.update(
bytes_to_state(
serialise_to_bytes(
bitstream.QuantMatrix(custom_quant_matrix=False, ),
state.copy(),
)))
with pytest.raises(decoder.NoQuantisationMatrixAvailable) as exc_info:
decoder.quant_matrix(state)
assert exc_info.value.wavelet_index == tables.WaveletFilters.haar_no_shift
assert exc_info.value.wavelet_index_ho == tables.WaveletFilters.haar_with_shift
assert exc_info.value.dwt_depth == 999
assert exc_info.value.dwt_depth_ho == 9999
def test_index_must_be_valid(self):
state = bytes_to_state(
serialise_to_bytes(
bitstream.SignalRange(
custom_signal_range_flag=True,
index=tables.PresetSignalRanges.video_8bit,
),
{},
{},
))
state["major_version"] = 3
decoder.signal_range(state, {})
state = bytes_to_state(
serialise_to_bytes(
bitstream.SignalRange(
custom_signal_range_flag=True,
index=9999,
),
{},
{},
))
state["major_version"] = 3
with pytest.raises(decoder.BadPresetSignalRange) as exc_info:
decoder.signal_range(state, {})
assert exc_info.value.index == 9999
def test_index_must_be_valid(self):
state = bytes_to_state(
serialise_to_bytes(
bitstream.PixelAspectRatio(
custom_pixel_aspect_ratio_flag=True,
index=tables.PresetPixelAspectRatios.ratio_1_1,
),
{},
{},
))
state["major_version"] = 3
decoder.pixel_aspect_ratio(state, {})
state = bytes_to_state(
serialise_to_bytes(
bitstream.PixelAspectRatio(
custom_pixel_aspect_ratio_flag=True,
index=9999,
),
{},
{},
))
state["major_version"] = 3
with pytest.raises(decoder.BadPresetPixelAspectRatio) as exc_info:
decoder.pixel_aspect_ratio(state, {})
assert exc_info.value.index == 9999
def test_index_must_be_valid(self):
state = bytes_to_state(
serialise_to_bytes(
bitstream.ColorMatrix(
custom_color_matrix_flag=True,
index=tables.PresetColorMatrices.hdtv,
),
{},
{},
))
state["major_version"] = 3
decoder.color_matrix(state, {})
state = bytes_to_state(
serialise_to_bytes(
bitstream.ColorMatrix(
custom_color_matrix_flag=True,
index=9999,
),
{},
{},
))
state["major_version"] = 3
with pytest.raises(decoder.BadPresetColorMatrix) as exc_info:
decoder.color_matrix(state, {})
assert exc_info.value.index == 9999
def test_wavelet_index_ho_must_be_valid(self):
state = bytes_to_state(
serialise_to_bytes(
bitstream.ExtendedTransformParameters(
asym_transform_index_flag=True,
wavelet_index_ho=tables.WaveletFilters.haar_no_shift,
), ))
state["wavelet_index"] = tables.WaveletFilters.haar_no_shift
state["wavelet_index_ho"] = tables.WaveletFilters.haar_no_shift
state["dwt_depth"] = 0
state["dwt_depth_ho"] = 0
decoder.extended_transform_parameters(state)
state = bytes_to_state(
serialise_to_bytes(
bitstream.ExtendedTransformParameters(
asym_transform_index_flag=True,
wavelet_index_ho=9999,
), ))
state["wavelet_index"] = tables.WaveletFilters.haar_no_shift
state["wavelet_index_ho"] = tables.WaveletFilters.haar_no_shift
state["dwt_depth"] = 0
state["dwt_depth_ho"] = 0
with pytest.raises(decoder.BadHOWaveletIndex) as exc_info:
decoder.extended_transform_parameters(state)
assert exc_info.value.wavelet_index_ho == 9999
def test_index_must_be_valid(self):
state = bytes_to_state(
serialise_to_bytes(
bitstream.TransferFunction(
custom_transfer_function_flag=True,
index=tables.PresetTransferFunctions.hybrid_log_gamma,
),
{},
{},
))
state["major_version"] = 3
decoder.transfer_function(state, {})
state = bytes_to_state(
serialise_to_bytes(
bitstream.TransferFunction(
custom_transfer_function_flag=True,
index=9999,
),
{},
{},
))
state["major_version"] = 3
with pytest.raises(decoder.BadPresetTransferFunction) as exc_info:
decoder.transfer_function(state, {})
assert exc_info.value.index == 9999
def test_index_must_be_valid(self):
state = bytes_to_state(
serialise_to_bytes(
bitstream.FrameRate(
custom_frame_rate_flag=True,
index=tables.PresetFrameRates.fps_25,
),
{},
{},
))
state["major_version"] = 3
decoder.frame_rate(state, {})
state = bytes_to_state(
serialise_to_bytes(
bitstream.FrameRate(
custom_frame_rate_flag=True,
index=9999,
),
{},
{},
))
state["major_version"] = 3
with pytest.raises(decoder.BadPresetFrameRateIndex) as exc_info:
decoder.frame_rate(state, {})
assert exc_info.value.index == 9999
def test_color_diff_sampling_format_index_must_be_valid():
state = bytes_to_state(
serialise_to_bytes(
bitstream.ColorDiffSamplingFormat(
custom_color_diff_format_flag=True,
color_diff_format_index=tables.ColorDifferenceSamplingFormats.
color_4_4_4,
),
{},
{},
))
decoder.color_diff_sampling_format(state, {})
state = bytes_to_state(
serialise_to_bytes(
bitstream.ColorDiffSamplingFormat(
custom_color_diff_format_flag=True,
color_diff_format_index=9999,
),
{},
{},
))
with pytest.raises(decoder.BadColorDifferenceSamplingFormat) as exc_info:
decoder.color_diff_sampling_format(state, {})
assert exc_info.value.color_diff_format_index == 9999
def test_level_must_be_valid(self):
state = bytes_to_state(
serialise_to_bytes(
bitstream.ParseParameters(level=tables.Levels.unconstrained)))
decoder.parse_parameters(state)
state = bytes_to_state(
serialise_to_bytes(bitstream.ParseParameters(level=9999)))
with pytest.raises(decoder.BadLevel) as exc_info:
decoder.parse_parameters(state)
assert exc_info.value.level == 9999
def test_profile_must_be_valid(self):
state = bytes_to_state(
serialise_to_bytes(
bitstream.ParseParameters(
profile=tables.Profiles.high_quality)))
decoder.parse_parameters(state)
state = bytes_to_state(
serialise_to_bytes(bitstream.ParseParameters(profile=9999)))
with pytest.raises(decoder.BadProfile) as exc_info:
decoder.parse_parameters(state)
assert exc_info.value.profile == 9999
def test_custom_clean_area(via_custom_clean_width, clean_width, clean_height,
left_offset, top_offset, exp_fail):
frame_width = 1920
frame_height = 1080
if via_custom_clean_width:
video_parameters = {
"frame_width": frame_width,
"frame_height": frame_height,
}
state = bytes_to_state(
serialise_to_bytes(
bitstream.CleanArea(
custom_clean_area_flag=True,
clean_width=clean_width,
clean_height=clean_height,
left_offset=left_offset,
top_offset=top_offset,
),
{},
video_parameters,
))
state["major_version"] = 3
else:
video_parameters = {
"frame_width": frame_width,
"frame_height": frame_height,
"clean_width": clean_width,
"clean_height": clean_height,
"left_offset": left_offset,
"top_offset": top_offset,
}
state = bytes_to_state(
serialise_to_bytes(
bitstream.CleanArea(custom_clean_area_flag=False, ),
{},
video_parameters,
))
state["major_version"] = 3
if exp_fail:
with pytest.raises(decoder.CleanAreaOutOfRange) as exc_info:
decoder.clean_area(state, video_parameters)
assert exc_info.value.clean_width == clean_width
assert exc_info.value.clean_height == clean_height
assert exc_info.value.left_offset == left_offset
assert exc_info.value.top_offset == top_offset
assert exc_info.value.frame_width == frame_width
assert exc_info.value.frame_height == frame_height
else:
decoder.clean_area(state, video_parameters)
def test_must_not_have_too_many_slices(
self,
fragment_slice_count,
fragment_slices_remaining,
exp_fail,
):
state = bytes_to_state(
serialise_to_bytes(
bitstream.FragmentHeader(
fragment_slice_count=fragment_slice_count,
picture_number=0,
)))
state["_picture_initial_fragment_offset"] = (-1, 7)
state["_fragment_slices_remaining"] = fragment_slices_remaining
state["fragment_slices_received"] = 0
state["_last_picture_number"] = 0
# Only required in non-failing cases
state["slices_x"] = 1
state["slices_y"] = 1
if exp_fail:
with pytest.raises(
decoder.TooManySlicesInFragmentedPicture) as exc_info:
decoder.fragment_header(state)
assert exc_info.value.initial_fragment_offset == (-1, 7)
assert exc_info.value.this_fragment_offset == (0, 7)
assert exc_info.value.fragment_slices_received == 0
assert exc_info.value.fragment_slices_remaining == fragment_slices_remaining
assert exc_info.value.fragment_slice_count == fragment_slice_count
else:
decoder.fragment_header(state)
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)
def test_bad_parse_code(self):
state = bytes_to_state(
serialise_to_bytes(bitstream.ParseInfo(parse_code=0x11)))
state["_generic_sequence_matcher"] = Matcher(".*")
with pytest.raises(decoder.BadParseCode) as exc_info:
decoder.parse_info(state)
assert exc_info.value.parse_code == 0x11
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
def test_signal_range_excursion_must_be_valid(luma_excursion,
color_diff_excursion,
exp_component):
state = bytes_to_state(
serialise_to_bytes(
bitstream.SignalRange(
custom_signal_range_flag=True,
index=0,
luma_offset=0,
luma_excursion=luma_excursion,
color_diff_offset=0,
color_diff_excursion=color_diff_excursion,
),
{},
{},
))
state["major_version"] = 3
if exp_component is None:
# Should not fail
decoder.signal_range(state, {})
else:
with pytest.raises(decoder.BadCustomSignalExcursion) as exc_info:
decoder.signal_range(state, {})
assert exc_info.value.component_type_name == exp_component
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)
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
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)
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
def test_value_ranges_restricted(self, dwt_depth, dwt_depth_ho, matrix,
exp_fail_value):
state = {
"wavelet_index": tables.WaveletFilters.haar_no_shift,
"wavelet_index_ho": tables.WaveletFilters.haar_no_shift,
"dwt_depth": dwt_depth,
"dwt_depth_ho": dwt_depth_ho,
"_level_constrained_values": {
"level": tables.Levels.sub_sd
},
}
state.update(
bytes_to_state(
serialise_to_bytes(
bitstream.QuantMatrix(
custom_quant_matrix=True,
quant_matrix=matrix,
),
state.copy(),
)))
if exp_fail_value is not None:
with pytest.raises(decoder.QuantisationMatrixValueNotAllowedInLevel
) as exc_info:
decoder.quant_matrix(state)
assert exc_info.value.value == exp_fail_value
assert exc_info.value.allowed_values == ValueSet((0, 127))
assert exc_info.value.level_constrained_values == {
"level": tables.Levels.sub_sd,
"custom_quant_matrix": True,
}
else:
decoder.quant_matrix(state)
def test_picture_not_allowed_to_change_between_fragments(self):
fh1 = serialise_to_bytes(
bitstream.FragmentHeader(
fragment_slice_count=1,
picture_number=1000,
))
fh2 = serialise_to_bytes(
bitstream.FragmentHeader(
fragment_slice_count=1,
picture_number=1001,
))
state = bytes_to_state(fh1 + fh2)
state["_last_picture_number"] = 1000
state["_last_picture_number_offset"] = (-1, 4)
state["_picture_initial_fragment_offset"] = (-1, 0)
state[
"picture_coding_mode"] = tables.PictureCodingModes.pictures_are_frames
state["_num_pictures_in_sequence"] = 0
state["_fragment_slices_remaining"] = 1
state["fragment_slices_received"] = 0
state["slices_x"] = 1
state["slices_y"] = 1
decoder.fragment_header(state)
with pytest.raises(
decoder.PictureNumberChangedMidFragmentedPicture) as exc_info:
decoder.fragment_header(state)
assert exc_info.value.last_picture_number_offset == (-1, 4)
assert exc_info.value.picture_number_offset == (len(fh1) + 4, 7)
assert exc_info.value.last_picture_number == 1000
assert exc_info.value.picture_number == 1001
def test_first_fragment_must_have_slice_count_zero(
self,
fragment_slice_count,
fragment_slices_remaining,
exp_fail,
):
state = bytes_to_state(
serialise_to_bytes(
bitstream.FragmentHeader(
fragment_slice_count=fragment_slice_count, )))
state["_picture_initial_fragment_offset"] = (-1, 7)
state["fragment_slices_received"] = 0
state["_fragment_slices_remaining"] = fragment_slices_remaining
# Required only when not failing
state["_num_pictures_in_sequence"] = 0
state[
"picture_coding_mode"] = tables.PictureCodingModes.pictures_are_frames
if exp_fail:
with pytest.raises(decoder.FragmentedPictureRestarted) as exc_info:
decoder.fragment_header(state)
assert exc_info.value.initial_fragment_offset == (-1, 7)
assert exc_info.value.this_fragment_offset == (0, 7)
assert exc_info.value.fragment_slices_received == 0
assert exc_info.value.fragment_slices_remaining == fragment_slices_remaining
else:
decoder.fragment_header(state)
def test_initialize_wavelet_data(dwt_depth, dwt_depth_ho):
# This test attempts to ensure that initialize_wavelet_data produces arrays
# of the correct size etc. This is done using an all-zeros hq_slice to zero out these
# arrays (which are initialised to 'None'). If all values are zero after
# this step (and nothing crashes with an out-of-bounds error) this function
# should be correct.
state = {
"parse_code":
tables.ParseCodes.high_quality_picture,
"slices_x":
1,
"slices_y":
1,
"luma_width":
20,
"luma_height":
10,
"color_diff_width":
10,
"color_diff_height":
5,
"wavelet_index":
tables.WaveletFilters.haar_no_shift,
"wavelet_index_ho":
tables.WaveletFilters.haar_no_shift,
"dwt_depth":
dwt_depth,
"dwt_depth_ho":
dwt_depth_ho,
"slice_prefix_bytes":
0,
"slice_size_scaler":
1,
"quant_matrix":
tables.QUANTISATION_MATRICES[(
tables.WaveletFilters.haar_no_shift,
tables.WaveletFilters.haar_no_shift,
dwt_depth,
dwt_depth_ho,
)],
}
state.update(
bytes_to_state(
serialise_to_bytes(
bitstream.TransformData(),
state.copy(),
)))
decoder.transform_data(state)
for transform in ["y_transform", "c1_transform", "c2_transform"]:
for level_data in state[transform].values():
for orientation_data in level_data.values():
for row in orientation_data:
for value in row:
assert value == 0
def test_allowed_zero_next_parse_offset_for_pictures(self, parse_code):
state = bytes_to_state(
serialise_to_bytes(
bitstream.ParseInfo(
parse_code=parse_code,
next_parse_offset=0,
)))
state["major_version"] = 3
state["_generic_sequence_matcher"] = Matcher(".*")
decoder.parse_info(state)
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)
def test_never_allowed_invalid_offset(self, parse_code, next_parse_offset):
state = bytes_to_state(
serialise_to_bytes(
bitstream.ParseInfo(
parse_code=parse_code,
next_parse_offset=next_parse_offset,
)))
state["_generic_sequence_matcher"] = Matcher(".*")
with pytest.raises(decoder.InvalidNextParseOffset) as exc_info:
decoder.parse_info(state)
assert exc_info.value.next_parse_offset == next_parse_offset
def test_major_version_must_be_at_least_one(self):
state = bytes_to_state(
serialise_to_bytes(
bitstream.ParseParameters(
level=0,
profile=0,
major_version=0,
minor_version=0,
)))
with pytest.raises(decoder.MajorVersionTooLow):
decoder.parse_parameters(state)
def test_minor_version_must_be_zero(self):
state = bytes_to_state(
serialise_to_bytes(
bitstream.ParseParameters(
level=0,
profile=0,
major_version=3,
minor_version=1,
)))
with pytest.raises(decoder.MinorVersionNotZero):
decoder.parse_parameters(state)
def test_high_quality_profile_requires_version_two(self):
state = bytes_to_state(
serialise_to_bytes(
bitstream.ParseParameters(
level=0,
profile=tables.Profiles.high_quality,
major_version=1,
minor_version=0,
)))
with pytest.raises(decoder.ProfileNotSupportedByVersion):
decoder.parse_parameters(state)
