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convert: avoid wrong lfconvert defaults by moving configitems to core...
convert: avoid wrong lfconvert defaults by moving configitems to core The `hg lfconvert --to-normal` command uses the convert extension internally to work its magic, but that produced devel-warn messages if the convert extension wasn't loaded by the user. The test in fcd2f9b06629 (modified here) wasn't showing the warnings because the convert extension was loaded via $HGRCPATH. Most of the config options default to None/False, but 'hg.usebranchnames' and 'hg.tagsbranch' are supposed to default to True and 'default' respectively. The first iteration of this was to ui.setconfig() inside lfconvert, to force the convert extension to load. But there really is no precedent for doing this, and check-config complained that 'extensions.convert' isn't documented. Yuya suggested this alternative. This partially backs out 0d5a1175d0f9.
Gregory Szorc - - Load All Authors

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test_decompressor.py
741 lines | 25.1 KiB | text/x-python | PythonLexer
/ contrib / python-zstandard / tests / test_decompressor.py
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import io
import random
import struct
import sys
try:
import unittest2 as unittest
except ImportError:
import unittest
import zstd
from .common import (
make_cffi,
OpCountingBytesIO,
)
if sys.version_info[0] >= 3:
next = lambda it: it.__next__()
else:
next = lambda it: it.next()
@make_cffi
class TestDecompressor_decompress(unittest.TestCase):
def test_empty_input(self):
dctx = zstd.ZstdDecompressor()
with self.assertRaisesRegexp(zstd.ZstdError, 'input data invalid'):
dctx.decompress(b'')
def test_invalid_input(self):
dctx = zstd.ZstdDecompressor()
with self.assertRaisesRegexp(zstd.ZstdError, 'input data invalid'):
dctx.decompress(b'foobar')
def test_no_content_size_in_frame(self):
cctx = zstd.ZstdCompressor(write_content_size=False)
compressed = cctx.compress(b'foobar')
dctx = zstd.ZstdDecompressor()
with self.assertRaisesRegexp(zstd.ZstdError, 'input data invalid'):
dctx.decompress(compressed)
def test_content_size_present(self):
cctx = zstd.ZstdCompressor(write_content_size=True)
compressed = cctx.compress(b'foobar')
dctx = zstd.ZstdDecompressor()
decompressed = dctx.decompress(compressed)
self.assertEqual(decompressed, b'foobar')
def test_max_output_size(self):
cctx = zstd.ZstdCompressor(write_content_size=False)
source = b'foobar' * 256
compressed = cctx.compress(source)
dctx = zstd.ZstdDecompressor()
# Will fit into buffer exactly the size of input.
decompressed = dctx.decompress(compressed, max_output_size=len(source))
self.assertEqual(decompressed, source)
# Input size - 1 fails
with self.assertRaisesRegexp(zstd.ZstdError, 'Destination buffer is too small'):
dctx.decompress(compressed, max_output_size=len(source) - 1)
# Input size + 1 works
decompressed = dctx.decompress(compressed, max_output_size=len(source) + 1)
self.assertEqual(decompressed, source)
# A much larger buffer works.
decompressed = dctx.decompress(compressed, max_output_size=len(source) * 64)
self.assertEqual(decompressed, source)
def test_stupidly_large_output_buffer(self):
cctx = zstd.ZstdCompressor(write_content_size=False)
compressed = cctx.compress(b'foobar' * 256)
dctx = zstd.ZstdDecompressor()
# Will get OverflowError on some Python distributions that can't
# handle really large integers.
with self.assertRaises((MemoryError, OverflowError)):
dctx.decompress(compressed, max_output_size=2**62)
def test_dictionary(self):
samples = []
for i in range(128):
samples.append(b'foo' * 64)
samples.append(b'bar' * 64)
samples.append(b'foobar' * 64)
d = zstd.train_dictionary(8192, samples)
orig = b'foobar' * 16384
cctx = zstd.ZstdCompressor(level=1, dict_data=d, write_content_size=True)
compressed = cctx.compress(orig)
dctx = zstd.ZstdDecompressor(dict_data=d)
decompressed = dctx.decompress(compressed)
self.assertEqual(decompressed, orig)
def test_dictionary_multiple(self):
samples = []
for i in range(128):
samples.append(b'foo' * 64)
samples.append(b'bar' * 64)
samples.append(b'foobar' * 64)
d = zstd.train_dictionary(8192, samples)
sources = (b'foobar' * 8192, b'foo' * 8192, b'bar' * 8192)
compressed = []
cctx = zstd.ZstdCompressor(level=1, dict_data=d, write_content_size=True)
for source in sources:
compressed.append(cctx.compress(source))
dctx = zstd.ZstdDecompressor(dict_data=d)
for i in range(len(sources)):
decompressed = dctx.decompress(compressed[i])
self.assertEqual(decompressed, sources[i])
@make_cffi
class TestDecompressor_copy_stream(unittest.TestCase):
def test_no_read(self):
source = object()
dest = io.BytesIO()
dctx = zstd.ZstdDecompressor()
with self.assertRaises(ValueError):
dctx.copy_stream(source, dest)
def test_no_write(self):
source = io.BytesIO()
dest = object()
dctx = zstd.ZstdDecompressor()
with self.assertRaises(ValueError):
dctx.copy_stream(source, dest)
def test_empty(self):
source = io.BytesIO()
dest = io.BytesIO()
dctx = zstd.ZstdDecompressor()
# TODO should this raise an error?
r, w = dctx.copy_stream(source, dest)
self.assertEqual(r, 0)
self.assertEqual(w, 0)
self.assertEqual(dest.getvalue(), b'')
def test_large_data(self):
source = io.BytesIO()
for i in range(255):
source.write(struct.Struct('>B').pack(i) * 16384)
source.seek(0)
compressed = io.BytesIO()
cctx = zstd.ZstdCompressor()
cctx.copy_stream(source, compressed)
compressed.seek(0)
dest = io.BytesIO()
dctx = zstd.ZstdDecompressor()
r, w = dctx.copy_stream(compressed, dest)
self.assertEqual(r, len(compressed.getvalue()))
self.assertEqual(w, len(source.getvalue()))
def test_read_write_size(self):
source = OpCountingBytesIO(zstd.ZstdCompressor().compress(
b'foobarfoobar'))
dest = OpCountingBytesIO()
dctx = zstd.ZstdDecompressor()
r, w = dctx.copy_stream(source, dest, read_size=1, write_size=1)
self.assertEqual(r, len(source.getvalue()))
self.assertEqual(w, len(b'foobarfoobar'))
self.assertEqual(source._read_count, len(source.getvalue()) + 1)
self.assertEqual(dest._write_count, len(dest.getvalue()))
@make_cffi
class TestDecompressor_decompressobj(unittest.TestCase):
def test_simple(self):
data = zstd.ZstdCompressor(level=1).compress(b'foobar')
dctx = zstd.ZstdDecompressor()
dobj = dctx.decompressobj()
self.assertEqual(dobj.decompress(data), b'foobar')
def test_reuse(self):
data = zstd.ZstdCompressor(level=1).compress(b'foobar')
dctx = zstd.ZstdDecompressor()
dobj = dctx.decompressobj()
dobj.decompress(data)
with self.assertRaisesRegexp(zstd.ZstdError, 'cannot use a decompressobj'):
dobj.decompress(data)
def decompress_via_writer(data):
buffer = io.BytesIO()
dctx = zstd.ZstdDecompressor()
with dctx.write_to(buffer) as decompressor:
decompressor.write(data)
return buffer.getvalue()
@make_cffi
class TestDecompressor_write_to(unittest.TestCase):
def test_empty_roundtrip(self):
cctx = zstd.ZstdCompressor()
empty = cctx.compress(b'')
self.assertEqual(decompress_via_writer(empty), b'')
def test_large_roundtrip(self):
chunks = []
for i in range(255):
chunks.append(struct.Struct('>B').pack(i) * 16384)
orig = b''.join(chunks)
cctx = zstd.ZstdCompressor()
compressed = cctx.compress(orig)
self.assertEqual(decompress_via_writer(compressed), orig)
def test_multiple_calls(self):
chunks = []
for i in range(255):
for j in range(255):
chunks.append(struct.Struct('>B').pack(j) * i)
orig = b''.join(chunks)
cctx = zstd.ZstdCompressor()
compressed = cctx.compress(orig)
buffer = io.BytesIO()
dctx = zstd.ZstdDecompressor()
with dctx.write_to(buffer) as decompressor:
pos = 0
while pos < len(compressed):
pos2 = pos + 8192
decompressor.write(compressed[pos:pos2])
pos += 8192
self.assertEqual(buffer.getvalue(), orig)
def test_dictionary(self):
samples = []
for i in range(128):
samples.append(b'foo' * 64)
samples.append(b'bar' * 64)
samples.append(b'foobar' * 64)
d = zstd.train_dictionary(8192, samples)
orig = b'foobar' * 16384
buffer = io.BytesIO()
cctx = zstd.ZstdCompressor(dict_data=d)
with cctx.write_to(buffer) as compressor:
self.assertEqual(compressor.write(orig), 1544)
compressed = buffer.getvalue()
buffer = io.BytesIO()
dctx = zstd.ZstdDecompressor(dict_data=d)
with dctx.write_to(buffer) as decompressor:
self.assertEqual(decompressor.write(compressed), len(orig))
self.assertEqual(buffer.getvalue(), orig)
def test_memory_size(self):
dctx = zstd.ZstdDecompressor()
buffer = io.BytesIO()
with dctx.write_to(buffer) as decompressor:
size = decompressor.memory_size()
self.assertGreater(size, 100000)
def test_write_size(self):
source = zstd.ZstdCompressor().compress(b'foobarfoobar')
dest = OpCountingBytesIO()
dctx = zstd.ZstdDecompressor()
with dctx.write_to(dest, write_size=1) as decompressor:
s = struct.Struct('>B')
for c in source:
if not isinstance(c, str):
c = s.pack(c)
decompressor.write(c)
self.assertEqual(dest.getvalue(), b'foobarfoobar')
self.assertEqual(dest._write_count, len(dest.getvalue()))
@make_cffi
class TestDecompressor_read_from(unittest.TestCase):
def test_type_validation(self):
dctx = zstd.ZstdDecompressor()
# Object with read() works.
dctx.read_from(io.BytesIO())
# Buffer protocol works.
dctx.read_from(b'foobar')
with self.assertRaisesRegexp(ValueError, 'must pass an object with a read'):
b''.join(dctx.read_from(True))
def test_empty_input(self):
dctx = zstd.ZstdDecompressor()
source = io.BytesIO()
it = dctx.read_from(source)
# TODO this is arguably wrong. Should get an error about missing frame foo.
with self.assertRaises(StopIteration):
next(it)
it = dctx.read_from(b'')
with self.assertRaises(StopIteration):
next(it)
def test_invalid_input(self):
dctx = zstd.ZstdDecompressor()
source = io.BytesIO(b'foobar')
it = dctx.read_from(source)
with self.assertRaisesRegexp(zstd.ZstdError, 'Unknown frame descriptor'):
next(it)
it = dctx.read_from(b'foobar')
with self.assertRaisesRegexp(zstd.ZstdError, 'Unknown frame descriptor'):
next(it)
def test_empty_roundtrip(self):
cctx = zstd.ZstdCompressor(level=1, write_content_size=False)
empty = cctx.compress(b'')
source = io.BytesIO(empty)
source.seek(0)
dctx = zstd.ZstdDecompressor()
it = dctx.read_from(source)
# No chunks should be emitted since there is no data.
with self.assertRaises(StopIteration):
next(it)
# Again for good measure.
with self.assertRaises(StopIteration):
next(it)
def test_skip_bytes_too_large(self):
dctx = zstd.ZstdDecompressor()
with self.assertRaisesRegexp(ValueError, 'skip_bytes must be smaller than read_size'):
b''.join(dctx.read_from(b'', skip_bytes=1, read_size=1))
with self.assertRaisesRegexp(ValueError, 'skip_bytes larger than first input chunk'):
b''.join(dctx.read_from(b'foobar', skip_bytes=10))
def test_skip_bytes(self):
cctx = zstd.ZstdCompressor(write_content_size=False)
compressed = cctx.compress(b'foobar')
dctx = zstd.ZstdDecompressor()
output = b''.join(dctx.read_from(b'hdr' + compressed, skip_bytes=3))
self.assertEqual(output, b'foobar')
def test_large_output(self):
source = io.BytesIO()
source.write(b'f' * zstd.DECOMPRESSION_RECOMMENDED_OUTPUT_SIZE)
source.write(b'o')
source.seek(0)
cctx = zstd.ZstdCompressor(level=1)
compressed = io.BytesIO(cctx.compress(source.getvalue()))
compressed.seek(0)
dctx = zstd.ZstdDecompressor()
it = dctx.read_from(compressed)
chunks = []
chunks.append(next(it))
chunks.append(next(it))
with self.assertRaises(StopIteration):
next(it)
decompressed = b''.join(chunks)
self.assertEqual(decompressed, source.getvalue())
# And again with buffer protocol.
it = dctx.read_from(compressed.getvalue())
chunks = []
chunks.append(next(it))
chunks.append(next(it))
with self.assertRaises(StopIteration):
next(it)
decompressed = b''.join(chunks)
self.assertEqual(decompressed, source.getvalue())
def test_large_input(self):
bytes = list(struct.Struct('>B').pack(i) for i in range(256))
compressed = io.BytesIO()
input_size = 0
cctx = zstd.ZstdCompressor(level=1)
with cctx.write_to(compressed) as compressor:
while True:
compressor.write(random.choice(bytes))
input_size += 1
have_compressed = len(compressed.getvalue()) > zstd.DECOMPRESSION_RECOMMENDED_INPUT_SIZE
have_raw = input_size > zstd.DECOMPRESSION_RECOMMENDED_OUTPUT_SIZE * 2
if have_compressed and have_raw:
break
compressed.seek(0)
self.assertGreater(len(compressed.getvalue()),
zstd.DECOMPRESSION_RECOMMENDED_INPUT_SIZE)
dctx = zstd.ZstdDecompressor()
it = dctx.read_from(compressed)
chunks = []
chunks.append(next(it))
chunks.append(next(it))
chunks.append(next(it))
with self.assertRaises(StopIteration):
next(it)
decompressed = b''.join(chunks)
self.assertEqual(len(decompressed), input_size)
# And again with buffer protocol.
it = dctx.read_from(compressed.getvalue())
chunks = []
chunks.append(next(it))
chunks.append(next(it))
chunks.append(next(it))
with self.assertRaises(StopIteration):
next(it)
decompressed = b''.join(chunks)
self.assertEqual(len(decompressed), input_size)
def test_interesting(self):
# Found this edge case via fuzzing.
cctx = zstd.ZstdCompressor(level=1)
source = io.BytesIO()
compressed = io.BytesIO()
with cctx.write_to(compressed) as compressor:
for i in range(256):
chunk = b'\0' * 1024
compressor.write(chunk)
source.write(chunk)
dctx = zstd.ZstdDecompressor()
simple = dctx.decompress(compressed.getvalue(),
max_output_size=len(source.getvalue()))
self.assertEqual(simple, source.getvalue())
compressed.seek(0)
streamed = b''.join(dctx.read_from(compressed))
self.assertEqual(streamed, source.getvalue())
def test_read_write_size(self):
source = OpCountingBytesIO(zstd.ZstdCompressor().compress(b'foobarfoobar'))
dctx = zstd.ZstdDecompressor()
for chunk in dctx.read_from(source, read_size=1, write_size=1):
self.assertEqual(len(chunk), 1)
self.assertEqual(source._read_count, len(source.getvalue()))
@make_cffi
class TestDecompressor_content_dict_chain(unittest.TestCase):
def test_bad_inputs_simple(self):
dctx = zstd.ZstdDecompressor()
with self.assertRaises(TypeError):
dctx.decompress_content_dict_chain(b'foo')
with self.assertRaises(TypeError):
dctx.decompress_content_dict_chain((b'foo', b'bar'))
with self.assertRaisesRegexp(ValueError, 'empty input chain'):
dctx.decompress_content_dict_chain([])
with self.assertRaisesRegexp(ValueError, 'chunk 0 must be bytes'):
dctx.decompress_content_dict_chain([u'foo'])
with self.assertRaisesRegexp(ValueError, 'chunk 0 must be bytes'):
dctx.decompress_content_dict_chain([True])
with self.assertRaisesRegexp(ValueError, 'chunk 0 is too small to contain a zstd frame'):
dctx.decompress_content_dict_chain([zstd.FRAME_HEADER])
with self.assertRaisesRegexp(ValueError, 'chunk 0 is not a valid zstd frame'):
dctx.decompress_content_dict_chain([b'foo' * 8])
no_size = zstd.ZstdCompressor().compress(b'foo' * 64)
with self.assertRaisesRegexp(ValueError, 'chunk 0 missing content size in frame'):
dctx.decompress_content_dict_chain([no_size])
# Corrupt first frame.
frame = zstd.ZstdCompressor(write_content_size=True).compress(b'foo' * 64)
frame = frame[0:12] + frame[15:]
with self.assertRaisesRegexp(zstd.ZstdError, 'could not decompress chunk 0'):
dctx.decompress_content_dict_chain([frame])
def test_bad_subsequent_input(self):
initial = zstd.ZstdCompressor(write_content_size=True).compress(b'foo' * 64)
dctx = zstd.ZstdDecompressor()
with self.assertRaisesRegexp(ValueError, 'chunk 1 must be bytes'):
dctx.decompress_content_dict_chain([initial, u'foo'])
with self.assertRaisesRegexp(ValueError, 'chunk 1 must be bytes'):
dctx.decompress_content_dict_chain([initial, None])
with self.assertRaisesRegexp(ValueError, 'chunk 1 is too small to contain a zstd frame'):
dctx.decompress_content_dict_chain([initial, zstd.FRAME_HEADER])
with self.assertRaisesRegexp(ValueError, 'chunk 1 is not a valid zstd frame'):
dctx.decompress_content_dict_chain([initial, b'foo' * 8])
no_size = zstd.ZstdCompressor().compress(b'foo' * 64)
with self.assertRaisesRegexp(ValueError, 'chunk 1 missing content size in frame'):
dctx.decompress_content_dict_chain([initial, no_size])
# Corrupt second frame.
cctx = zstd.ZstdCompressor(write_content_size=True, dict_data=zstd.ZstdCompressionDict(b'foo' * 64))
frame = cctx.compress(b'bar' * 64)
frame = frame[0:12] + frame[15:]
with self.assertRaisesRegexp(zstd.ZstdError, 'could not decompress chunk 1'):
dctx.decompress_content_dict_chain([initial, frame])
def test_simple(self):
original = [
b'foo' * 64,
b'foobar' * 64,
b'baz' * 64,
b'foobaz' * 64,
b'foobarbaz' * 64,
]
chunks = []
chunks.append(zstd.ZstdCompressor(write_content_size=True).compress(original[0]))
for i, chunk in enumerate(original[1:]):
d = zstd.ZstdCompressionDict(original[i])
cctx = zstd.ZstdCompressor(dict_data=d, write_content_size=True)
chunks.append(cctx.compress(chunk))
for i in range(1, len(original)):
chain = chunks[0:i]
expected = original[i - 1]
dctx = zstd.ZstdDecompressor()
decompressed = dctx.decompress_content_dict_chain(chain)
self.assertEqual(decompressed, expected)
# TODO enable for CFFI
class TestDecompressor_multi_decompress_to_buffer(unittest.TestCase):
def test_invalid_inputs(self):
dctx = zstd.ZstdDecompressor()
with self.assertRaises(TypeError):
dctx.multi_decompress_to_buffer(True)
with self.assertRaises(TypeError):
dctx.multi_decompress_to_buffer((1, 2))
with self.assertRaisesRegexp(TypeError, 'item 0 not a bytes like object'):
dctx.multi_decompress_to_buffer([u'foo'])
with self.assertRaisesRegexp(ValueError, 'could not determine decompressed size of item 0'):
dctx.multi_decompress_to_buffer([b'foobarbaz'])
def test_list_input(self):
cctx = zstd.ZstdCompressor(write_content_size=True)
original = [b'foo' * 4, b'bar' * 6]
frames = [cctx.compress(d) for d in original]
dctx = zstd.ZstdDecompressor()
result = dctx.multi_decompress_to_buffer(frames)
self.assertEqual(len(result), len(frames))
self.assertEqual(result.size(), sum(map(len, original)))
for i, data in enumerate(original):
self.assertEqual(result[i].tobytes(), data)
self.assertEqual(result[0].offset, 0)
self.assertEqual(len(result[0]), 12)
self.assertEqual(result[1].offset, 12)
self.assertEqual(len(result[1]), 18)
def test_list_input_frame_sizes(self):
cctx = zstd.ZstdCompressor(write_content_size=False)
original = [b'foo' * 4, b'bar' * 6, b'baz' * 8]
frames = [cctx.compress(d) for d in original]
sizes = struct.pack('=' + 'Q' * len(original), *map(len, original))
dctx = zstd.ZstdDecompressor()
result = dctx.multi_decompress_to_buffer(frames, decompressed_sizes=sizes)
self.assertEqual(len(result), len(frames))
self.assertEqual(result.size(), sum(map(len, original)))
for i, data in enumerate(original):
self.assertEqual(result[i].tobytes(), data)
def test_buffer_with_segments_input(self):
cctx = zstd.ZstdCompressor(write_content_size=True)
original = [b'foo' * 4, b'bar' * 6]
frames = [cctx.compress(d) for d in original]
dctx = zstd.ZstdDecompressor()
segments = struct.pack('=QQQQ', 0, len(frames[0]), len(frames[0]), len(frames[1]))
b = zstd.BufferWithSegments(b''.join(frames), segments)
result = dctx.multi_decompress_to_buffer(b)
self.assertEqual(len(result), len(frames))
self.assertEqual(result[0].offset, 0)
self.assertEqual(len(result[0]), 12)
self.assertEqual(result[1].offset, 12)
self.assertEqual(len(result[1]), 18)
def test_buffer_with_segments_sizes(self):
cctx = zstd.ZstdCompressor(write_content_size=False)
original = [b'foo' * 4, b'bar' * 6, b'baz' * 8]
frames = [cctx.compress(d) for d in original]
sizes = struct.pack('=' + 'Q' * len(original), *map(len, original))
segments = struct.pack('=QQQQQQ', 0, len(frames[0]),
len(frames[0]), len(frames[1]),
len(frames[0]) + len(frames[1]), len(frames[2]))
b = zstd.BufferWithSegments(b''.join(frames), segments)
dctx = zstd.ZstdDecompressor()
result = dctx.multi_decompress_to_buffer(b, decompressed_sizes=sizes)
self.assertEqual(len(result), len(frames))
self.assertEqual(result.size(), sum(map(len, original)))
for i, data in enumerate(original):
self.assertEqual(result[i].tobytes(), data)
def test_buffer_with_segments_collection_input(self):
cctx = zstd.ZstdCompressor(write_content_size=True)
original = [
b'foo0' * 2,
b'foo1' * 3,
b'foo2' * 4,
b'foo3' * 5,
b'foo4' * 6,
]
frames = cctx.multi_compress_to_buffer(original)
# Check round trip.
dctx = zstd.ZstdDecompressor()
decompressed = dctx.multi_decompress_to_buffer(frames, threads=3)
self.assertEqual(len(decompressed), len(original))
for i, data in enumerate(original):
self.assertEqual(data, decompressed[i].tobytes())
# And a manual mode.
b = b''.join([frames[0].tobytes(), frames[1].tobytes()])
b1 = zstd.BufferWithSegments(b, struct.pack('=QQQQ',
0, len(frames[0]),
len(frames[0]), len(frames[1])))
b = b''.join([frames[2].tobytes(), frames[3].tobytes(), frames[4].tobytes()])
b2 = zstd.BufferWithSegments(b, struct.pack('=QQQQQQ',
0, len(frames[2]),
len(frames[2]), len(frames[3]),
len(frames[2]) + len(frames[3]), len(frames[4])))
c = zstd.BufferWithSegmentsCollection(b1, b2)
dctx = zstd.ZstdDecompressor()
decompressed = dctx.multi_decompress_to_buffer(c)
self.assertEqual(len(decompressed), 5)
for i in range(5):
self.assertEqual(decompressed[i].tobytes(), original[i])
def test_multiple_threads(self):
cctx = zstd.ZstdCompressor(write_content_size=True)
frames = []
frames.extend(cctx.compress(b'x' * 64) for i in range(256))
frames.extend(cctx.compress(b'y' * 64) for i in range(256))
dctx = zstd.ZstdDecompressor()
result = dctx.multi_decompress_to_buffer(frames, threads=-1)
self.assertEqual(len(result), len(frames))
self.assertEqual(result.size(), 2 * 64 * 256)
self.assertEqual(result[0].tobytes(), b'x' * 64)
self.assertEqual(result[256].tobytes(), b'y' * 64)
def test_item_failure(self):
cctx = zstd.ZstdCompressor(write_content_size=True)
frames = [cctx.compress(b'x' * 128), cctx.compress(b'y' * 128)]
frames[1] = frames[1] + b'extra'
dctx = zstd.ZstdDecompressor()
with self.assertRaisesRegexp(zstd.ZstdError, 'error decompressing item 1: Src size incorrect'):
dctx.multi_decompress_to_buffer(frames)
with self.assertRaisesRegexp(zstd.ZstdError, 'error decompressing item 1: Src size incorrect'):
dctx.multi_decompress_to_buffer(frames, threads=2)