upstream/mercurial-mirror Files · contrib/python-zstandard/tests/test_data_structures.py

crecord: new keys g & G to navigate to the top and bottom respectively...

crecord: new keys g & G to navigate to the top and bottom respectively This patch introduces two new keys 'g' and 'G' that helps to navigate to the top and bottom of the file/hunk/line respectively. This is inline with the shortcuts used in man, less, more and such tools that makes it convenient to navigate swiftly. 'g' or HOME navigates to the top most file in the ncurses window. 'G' or END navigates to the bottom most file/hunk/line depending on the whether the fold is active or not. If the bottom most file is folded, it navigates to that file and stops there. If the bottom most file is unfolded, it navigates to the bottom most hunk in that file and stops there. If the bottom most hunk is unfolded, it navigates to the bottom most line in that hunk. Differential Revision: https://phab.mercurial-scm.org/D6178

Gregory Szorc - - Load All Authors

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      import sys

      import unittest

      import zstandard as zstd

      from . common import (

          make_cffi,

      )

      @make_cffi

      class TestCompressionParameters(unittest.TestCase):

          def test_bounds(self):

              zstd.ZstdCompressionParameters(window_log=zstd.WINDOWLOG_MIN,

                                             chain_log=zstd.CHAINLOG_MIN,

                                             hash_log=zstd.HASHLOG_MIN,

                                             search_log=zstd.SEARCHLOG_MIN,

                                             min_match=zstd.MINMATCH_MIN + 1,

                                             target_length=zstd.TARGETLENGTH_MIN,

                                             strategy=zstd.STRATEGY_FAST)

              zstd.ZstdCompressionParameters(window_log=zstd.WINDOWLOG_MAX,

                                             chain_log=zstd.CHAINLOG_MAX,

                                             hash_log=zstd.HASHLOG_MAX,

                                             search_log=zstd.SEARCHLOG_MAX,

                                             min_match=zstd.MINMATCH_MAX - 1,

                                             target_length=zstd.TARGETLENGTH_MAX,

                                             strategy=zstd.STRATEGY_BTULTRA2)

          def test_from_level(self):

              p = zstd.ZstdCompressionParameters.from_level(1)

              self.assertIsInstance(p, zstd.CompressionParameters)

              self.assertEqual(p.window_log, 19)

              p = zstd.ZstdCompressionParameters.from_level(-4)

              self.assertEqual(p.window_log, 19)

          def test_members(self):

              p = zstd.ZstdCompressionParameters(window_log=10,

                                                 chain_log=6,

                                                 hash_log=7,

                                                 search_log=4,

                                                 min_match=5,

                                                 target_length=8,

                                                 strategy=1)

              self.assertEqual(p.window_log, 10)

              self.assertEqual(p.chain_log, 6)

              self.assertEqual(p.hash_log, 7)

              self.assertEqual(p.search_log, 4)

              self.assertEqual(p.min_match, 5)

              self.assertEqual(p.target_length, 8)

              self.assertEqual(p.compression_strategy, 1)

              p = zstd.ZstdCompressionParameters(compression_level=2)

              self.assertEqual(p.compression_level, 2)

              p = zstd.ZstdCompressionParameters(threads=4)

              self.assertEqual(p.threads, 4)

              p = zstd.ZstdCompressionParameters(threads=2, job_size=1048576,

                                                 overlap_log=6)

              self.assertEqual(p.threads, 2)

              self.assertEqual(p.job_size, 1048576)

              self.assertEqual(p.overlap_log, 6)

              self.assertEqual(p.overlap_size_log, 6)

              p = zstd.ZstdCompressionParameters(compression_level=-1)

              self.assertEqual(p.compression_level, -1)

              p = zstd.ZstdCompressionParameters(compression_level=-2)

              self.assertEqual(p.compression_level, -2)

              p = zstd.ZstdCompressionParameters(force_max_window=True)

              self.assertEqual(p.force_max_window, 1)

              p = zstd.ZstdCompressionParameters(enable_ldm=True)

              self.assertEqual(p.enable_ldm, 1)

              p = zstd.ZstdCompressionParameters(ldm_hash_log=7)

              self.assertEqual(p.ldm_hash_log, 7)

              p = zstd.ZstdCompressionParameters(ldm_min_match=6)

              self.assertEqual(p.ldm_min_match, 6)

              p = zstd.ZstdCompressionParameters(ldm_bucket_size_log=7)

              self.assertEqual(p.ldm_bucket_size_log, 7)

              p = zstd.ZstdCompressionParameters(ldm_hash_rate_log=8)

              self.assertEqual(p.ldm_hash_every_log, 8)

              self.assertEqual(p.ldm_hash_rate_log, 8)

          def test_estimated_compression_context_size(self):

              p = zstd.ZstdCompressionParameters(window_log=20,

                                                 chain_log=16,

                                                 hash_log=17,

                                                 search_log=1,

                                                 min_match=5,

                                                 target_length=16,

                                                 strategy=zstd.STRATEGY_DFAST)

              # 32-bit has slightly different values from 64-bit.

              self.assertAlmostEqual(p.estimated_compression_context_size(), 1294072,

                                     delta=250)

          def test_strategy(self):

              with self.assertRaisesRegexp(ValueError, 'cannot specify both compression_strategy'):

                  zstd.ZstdCompressionParameters(strategy=0, compression_strategy=0)

              p = zstd.ZstdCompressionParameters(strategy=2)

              self.assertEqual(p.compression_strategy, 2)

              p = zstd.ZstdCompressionParameters(strategy=3)

              self.assertEqual(p.compression_strategy, 3)

          def test_ldm_hash_rate_log(self):

              with self.assertRaisesRegexp(ValueError, 'cannot specify both ldm_hash_rate_log'):

                  zstd.ZstdCompressionParameters(ldm_hash_rate_log=8, ldm_hash_every_log=4)

              p = zstd.ZstdCompressionParameters(ldm_hash_rate_log=8)

              self.assertEqual(p.ldm_hash_every_log, 8)

              p = zstd.ZstdCompressionParameters(ldm_hash_every_log=16)

              self.assertEqual(p.ldm_hash_every_log, 16)

          def test_overlap_log(self):

              with self.assertRaisesRegexp(ValueError, 'cannot specify both overlap_log'):

                  zstd.ZstdCompressionParameters(overlap_log=1, overlap_size_log=9)

              p = zstd.ZstdCompressionParameters(overlap_log=2)

              self.assertEqual(p.overlap_log, 2)

              self.assertEqual(p.overlap_size_log, 2)

              p = zstd.ZstdCompressionParameters(overlap_size_log=4)

              self.assertEqual(p.overlap_log, 4)

              self.assertEqual(p.overlap_size_log, 4)

      @make_cffi

      class TestFrameParameters(unittest.TestCase):

          def test_invalid_type(self):

              with self.assertRaises(TypeError):

                  zstd.get_frame_parameters(None)

              # Python 3 doesn't appear to convert unicode to Py_buffer.

              if sys.version_info[0] >= 3:

                  with self.assertRaises(TypeError):

                      zstd.get_frame_parameters(u'foobarbaz')

              else:

                  # CPython will convert unicode to Py_buffer. But CFFI won't.

                  if zstd.backend == 'cffi':

                      with self.assertRaises(TypeError):

                          zstd.get_frame_parameters(u'foobarbaz')

                  else:

                      with self.assertRaises(zstd.ZstdError):

                          zstd.get_frame_parameters(u'foobarbaz')

          def test_invalid_input_sizes(self):

              with self.assertRaisesRegexp(zstd.ZstdError, 'not enough data for frame'):

                  zstd.get_frame_parameters(b'')

              with self.assertRaisesRegexp(zstd.ZstdError, 'not enough data for frame'):

                  zstd.get_frame_parameters(zstd.FRAME_HEADER)

          def test_invalid_frame(self):

              with self.assertRaisesRegexp(zstd.ZstdError, 'Unknown frame descriptor'):

                  zstd.get_frame_parameters(b'foobarbaz')

          def test_attributes(self):

              params = zstd.get_frame_parameters(zstd.FRAME_HEADER + b'\x00\x00')

              self.assertEqual(params.content_size, zstd.CONTENTSIZE_UNKNOWN)

              self.assertEqual(params.window_size, 1024)

              self.assertEqual(params.dict_id, 0)

              self.assertFalse(params.has_checksum)

              # Lowest 2 bits indicate a dictionary and length. Here, the dict id is 1 byte.

              params = zstd.get_frame_parameters(zstd.FRAME_HEADER + b'\x01\x00\xff')

              self.assertEqual(params.content_size, zstd.CONTENTSIZE_UNKNOWN)

              self.assertEqual(params.window_size, 1024)

              self.assertEqual(params.dict_id, 255)

              self.assertFalse(params.has_checksum)

              # Lowest 3rd bit indicates if checksum is present.

              params = zstd.get_frame_parameters(zstd.FRAME_HEADER + b'\x04\x00')

              self.assertEqual(params.content_size, zstd.CONTENTSIZE_UNKNOWN)

              self.assertEqual(params.window_size, 1024)

              self.assertEqual(params.dict_id, 0)

              self.assertTrue(params.has_checksum)

              # Upper 2 bits indicate content size.

              params = zstd.get_frame_parameters(zstd.FRAME_HEADER + b'\x40\x00\xff\x00')

              self.assertEqual(params.content_size, 511)

              self.assertEqual(params.window_size, 1024)

              self.assertEqual(params.dict_id, 0)

              self.assertFalse(params.has_checksum)

              # Window descriptor is 2nd byte after frame header.

              params = zstd.get_frame_parameters(zstd.FRAME_HEADER + b'\x00\x40')

              self.assertEqual(params.content_size, zstd.CONTENTSIZE_UNKNOWN)

              self.assertEqual(params.window_size, 262144)

              self.assertEqual(params.dict_id, 0)

              self.assertFalse(params.has_checksum)

              # Set multiple things.

              params = zstd.get_frame_parameters(zstd.FRAME_HEADER + b'\x45\x40\x0f\x10\x00')

              self.assertEqual(params.content_size, 272)

              self.assertEqual(params.window_size, 262144)

              self.assertEqual(params.dict_id, 15)

              self.assertTrue(params.has_checksum)

          def test_input_types(self):

              v = zstd.FRAME_HEADER + b'\x00\x00'

              mutable_array = bytearray(len(v))

              mutable_array[:] = v

              sources = [

                  memoryview(v),

                  bytearray(v),

                  mutable_array,

              ]

              for source in sources:

                  params = zstd.get_frame_parameters(source)

                  self.assertEqual(params.content_size, zstd.CONTENTSIZE_UNKNOWN)

                  self.assertEqual(params.window_size, 1024)

                  self.assertEqual(params.dict_id, 0)

                  self.assertFalse(params.has_checksum)

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				import sys
				import unittest

				import zstandard as zstd

				from . common import (
				make_cffi,
				)


				@make_cffi
				class TestCompressionParameters(unittest.TestCase):
				def test_bounds(self):
				zstd.ZstdCompressionParameters(window_log=zstd.WINDOWLOG_MIN,
				chain_log=zstd.CHAINLOG_MIN,
				hash_log=zstd.HASHLOG_MIN,
				search_log=zstd.SEARCHLOG_MIN,
				min_match=zstd.MINMATCH_MIN + 1,
				target_length=zstd.TARGETLENGTH_MIN,
				strategy=zstd.STRATEGY_FAST)

				zstd.ZstdCompressionParameters(window_log=zstd.WINDOWLOG_MAX,
				chain_log=zstd.CHAINLOG_MAX,
				hash_log=zstd.HASHLOG_MAX,
				search_log=zstd.SEARCHLOG_MAX,
				min_match=zstd.MINMATCH_MAX - 1,
				target_length=zstd.TARGETLENGTH_MAX,
				strategy=zstd.STRATEGY_BTULTRA2)

				def test_from_level(self):
				p = zstd.ZstdCompressionParameters.from_level(1)
				self.assertIsInstance(p, zstd.CompressionParameters)

				self.assertEqual(p.window_log, 19)

				p = zstd.ZstdCompressionParameters.from_level(-4)
				self.assertEqual(p.window_log, 19)

				def test_members(self):
				p = zstd.ZstdCompressionParameters(window_log=10,
				chain_log=6,
				hash_log=7,
				search_log=4,
				min_match=5,
				target_length=8,
				strategy=1)
				self.assertEqual(p.window_log, 10)
				self.assertEqual(p.chain_log, 6)
				self.assertEqual(p.hash_log, 7)
				self.assertEqual(p.search_log, 4)
				self.assertEqual(p.min_match, 5)
				self.assertEqual(p.target_length, 8)
				self.assertEqual(p.compression_strategy, 1)

				p = zstd.ZstdCompressionParameters(compression_level=2)
				self.assertEqual(p.compression_level, 2)

				p = zstd.ZstdCompressionParameters(threads=4)
				self.assertEqual(p.threads, 4)

				p = zstd.ZstdCompressionParameters(threads=2, job_size=1048576,
				overlap_log=6)
				self.assertEqual(p.threads, 2)
				self.assertEqual(p.job_size, 1048576)
				self.assertEqual(p.overlap_log, 6)
				self.assertEqual(p.overlap_size_log, 6)

				p = zstd.ZstdCompressionParameters(compression_level=-1)
				self.assertEqual(p.compression_level, -1)

				p = zstd.ZstdCompressionParameters(compression_level=-2)
				self.assertEqual(p.compression_level, -2)

				p = zstd.ZstdCompressionParameters(force_max_window=True)
				self.assertEqual(p.force_max_window, 1)

				p = zstd.ZstdCompressionParameters(enable_ldm=True)
				self.assertEqual(p.enable_ldm, 1)

				p = zstd.ZstdCompressionParameters(ldm_hash_log=7)
				self.assertEqual(p.ldm_hash_log, 7)

				p = zstd.ZstdCompressionParameters(ldm_min_match=6)
				self.assertEqual(p.ldm_min_match, 6)

				p = zstd.ZstdCompressionParameters(ldm_bucket_size_log=7)
				self.assertEqual(p.ldm_bucket_size_log, 7)

				p = zstd.ZstdCompressionParameters(ldm_hash_rate_log=8)
				self.assertEqual(p.ldm_hash_every_log, 8)
				self.assertEqual(p.ldm_hash_rate_log, 8)

				def test_estimated_compression_context_size(self):
				p = zstd.ZstdCompressionParameters(window_log=20,
				chain_log=16,
				hash_log=17,
				search_log=1,
				min_match=5,
				target_length=16,
				strategy=zstd.STRATEGY_DFAST)

				# 32-bit has slightly different values from 64-bit.
				self.assertAlmostEqual(p.estimated_compression_context_size(), 1294072,
				delta=250)

				def test_strategy(self):
				with self.assertRaisesRegexp(ValueError, 'cannot specify both compression_strategy'):
				zstd.ZstdCompressionParameters(strategy=0, compression_strategy=0)

				p = zstd.ZstdCompressionParameters(strategy=2)
				self.assertEqual(p.compression_strategy, 2)

				p = zstd.ZstdCompressionParameters(strategy=3)
				self.assertEqual(p.compression_strategy, 3)

				def test_ldm_hash_rate_log(self):
				with self.assertRaisesRegexp(ValueError, 'cannot specify both ldm_hash_rate_log'):
				zstd.ZstdCompressionParameters(ldm_hash_rate_log=8, ldm_hash_every_log=4)

				p = zstd.ZstdCompressionParameters(ldm_hash_rate_log=8)
				self.assertEqual(p.ldm_hash_every_log, 8)

				p = zstd.ZstdCompressionParameters(ldm_hash_every_log=16)
				self.assertEqual(p.ldm_hash_every_log, 16)

				def test_overlap_log(self):
				with self.assertRaisesRegexp(ValueError, 'cannot specify both overlap_log'):
				zstd.ZstdCompressionParameters(overlap_log=1, overlap_size_log=9)

				p = zstd.ZstdCompressionParameters(overlap_log=2)
				self.assertEqual(p.overlap_log, 2)
				self.assertEqual(p.overlap_size_log, 2)

				p = zstd.ZstdCompressionParameters(overlap_size_log=4)
				self.assertEqual(p.overlap_log, 4)
				self.assertEqual(p.overlap_size_log, 4)


				@make_cffi
				class TestFrameParameters(unittest.TestCase):
				def test_invalid_type(self):
				with self.assertRaises(TypeError):
				zstd.get_frame_parameters(None)

				# Python 3 doesn't appear to convert unicode to Py_buffer.
				if sys.version_info[0] >= 3:
				with self.assertRaises(TypeError):
				zstd.get_frame_parameters(u'foobarbaz')
				else:
				# CPython will convert unicode to Py_buffer. But CFFI won't.
				if zstd.backend == 'cffi':
				with self.assertRaises(TypeError):
				zstd.get_frame_parameters(u'foobarbaz')
				else:
				with self.assertRaises(zstd.ZstdError):
				zstd.get_frame_parameters(u'foobarbaz')

				def test_invalid_input_sizes(self):
				with self.assertRaisesRegexp(zstd.ZstdError, 'not enough data for frame'):
				zstd.get_frame_parameters(b'')

				with self.assertRaisesRegexp(zstd.ZstdError, 'not enough data for frame'):
				zstd.get_frame_parameters(zstd.FRAME_HEADER)

				def test_invalid_frame(self):
				with self.assertRaisesRegexp(zstd.ZstdError, 'Unknown frame descriptor'):
				zstd.get_frame_parameters(b'foobarbaz')

				def test_attributes(self):
				params = zstd.get_frame_parameters(zstd.FRAME_HEADER + b'\x00\x00')
				self.assertEqual(params.content_size, zstd.CONTENTSIZE_UNKNOWN)
				self.assertEqual(params.window_size, 1024)
				self.assertEqual(params.dict_id, 0)
				self.assertFalse(params.has_checksum)

				# Lowest 2 bits indicate a dictionary and length. Here, the dict id is 1 byte.
				params = zstd.get_frame_parameters(zstd.FRAME_HEADER + b'\x01\x00\xff')
				self.assertEqual(params.content_size, zstd.CONTENTSIZE_UNKNOWN)
				self.assertEqual(params.window_size, 1024)
				self.assertEqual(params.dict_id, 255)
				self.assertFalse(params.has_checksum)

				# Lowest 3rd bit indicates if checksum is present.
				params = zstd.get_frame_parameters(zstd.FRAME_HEADER + b'\x04\x00')
				self.assertEqual(params.content_size, zstd.CONTENTSIZE_UNKNOWN)
				self.assertEqual(params.window_size, 1024)
				self.assertEqual(params.dict_id, 0)
				self.assertTrue(params.has_checksum)

				# Upper 2 bits indicate content size.
				params = zstd.get_frame_parameters(zstd.FRAME_HEADER + b'\x40\x00\xff\x00')
				self.assertEqual(params.content_size, 511)
				self.assertEqual(params.window_size, 1024)
				self.assertEqual(params.dict_id, 0)
				self.assertFalse(params.has_checksum)

				# Window descriptor is 2nd byte after frame header.
				params = zstd.get_frame_parameters(zstd.FRAME_HEADER + b'\x00\x40')
				self.assertEqual(params.content_size, zstd.CONTENTSIZE_UNKNOWN)
				self.assertEqual(params.window_size, 262144)
				self.assertEqual(params.dict_id, 0)
				self.assertFalse(params.has_checksum)

				# Set multiple things.
				params = zstd.get_frame_parameters(zstd.FRAME_HEADER + b'\x45\x40\x0f\x10\x00')
				self.assertEqual(params.content_size, 272)
				self.assertEqual(params.window_size, 262144)
				self.assertEqual(params.dict_id, 15)
				self.assertTrue(params.has_checksum)

				def test_input_types(self):
				v = zstd.FRAME_HEADER + b'\x00\x00'

				mutable_array = bytearray(len(v))
				mutable_array[:] = v

				sources = [
				memoryview(v),
				bytearray(v),
				mutable_array,
				]

				for source in sources:
				params = zstd.get_frame_parameters(source)
				self.assertEqual(params.content_size, zstd.CONTENTSIZE_UNKNOWN)
				self.assertEqual(params.window_size, 1024)
				self.assertEqual(params.dict_id, 0)
				self.assertFalse(params.has_checksum)