upstream/mercurial-mirror Files · mercurial/thirdparty/cbor/cbor2/decoder.py

copies: do copy tracing based on ctx.p[12]copies() if configured...

copies: do copy tracing based on ctx.p[12]copies() if configured This adds an option to do copy tracing in a changeset-optimized way. If the metadata is stored in filelogs, this is obviously going to be suboptimal. The point is that it provides a way of transitioning to changeset-stored metadata. Some of the tests behave a little differently, but they all seem resonable to me. The config option may very well be renamed later when it's clearer what options we want and how they will behave. When the test suite is run with --extra-config-opt to use the new copy tracing, all tests pass, besides test-copies.t (which fails in the same way as you can see in this patch). `hg debugpathcopies 4.0 4.8` reports 82 copies. With this option enabled, the only difference is this: -mercurial/pure/bdiff.py -> mercurial/cffi/bdiff.py +setup_bdiff_cffi.py -> mercurial/cffi/bdiff.py I believe that happened because it was renamed in different ways on different sides of a merge and the new algorithm arbitrarily prefers copies that happened on p1. The runtime is about 0.85 seconds with the old copy tracing and 5.7 seconds with the new copy tracing. That's kind of slow, but actually better than I had expected. Differential Revision: https://phab.mercurial-scm.org/D5991

Pulkit Goyal - - Load All Authors

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      import re

      import struct

      from datetime import datetime, timedelta

      from io import BytesIO

      from .compat import timezone, xrange, byte_as_integer, unpack_float16

      from .types import CBORTag, undefined, break_marker, CBORSimpleValue

      timestamp_re = re.compile(r'^(\d{4})-(\d\d)-(\d\d)T(\d\d):(\d\d):(\d\d)'

                                r'(?:\.(\d+))?(?:Z|([+-]\d\d):(\d\d))$')

      class CBORDecodeError(Exception):

          """Raised when an error occurs deserializing a CBOR datastream."""

      def decode_uint(decoder, subtype, shareable_index=None, allow_indefinite=False):

          # Major tag 0

          if subtype < 24:

              return subtype

          elif subtype == 24:

              return struct.unpack('>B', decoder.read(1))[0]

          elif subtype == 25:

              return struct.unpack('>H', decoder.read(2))[0]

          elif subtype == 26:

              return struct.unpack('>L', decoder.read(4))[0]

          elif subtype == 27:

              return struct.unpack('>Q', decoder.read(8))[0]

          elif subtype == 31 and allow_indefinite:

              return None

          else:

              raise CBORDecodeError('unknown unsigned integer subtype 0x%x' % subtype)

      def decode_negint(decoder, subtype, shareable_index=None):

          # Major tag 1

          uint = decode_uint(decoder, subtype)

          return -uint - 1

      def decode_bytestring(decoder, subtype, shareable_index=None):

          # Major tag 2

          length = decode_uint(decoder, subtype, allow_indefinite=True)

          if length is None:

              # Indefinite length

              buf = bytearray()

              while True:

                  initial_byte = byte_as_integer(decoder.read(1))

                  if initial_byte == 255:

                      return buf

                  else:

                      length = decode_uint(decoder, initial_byte & 31)

                      value = decoder.read(length)

                      buf.extend(value)

          else:

              return decoder.read(length)

      def decode_string(decoder, subtype, shareable_index=None):

          # Major tag 3

          return decode_bytestring(decoder, subtype).decode('utf-8')

      def decode_array(decoder, subtype, shareable_index=None):

          # Major tag 4

          items = []

          decoder.set_shareable(shareable_index, items)

          length = decode_uint(decoder, subtype, allow_indefinite=True)

          if length is None:

              # Indefinite length

              while True:

                  value = decoder.decode()

                  if value is break_marker:

                      break

                  else:

                      items.append(value)

          else:

              for _ in xrange(length):

                  item = decoder.decode()

                  items.append(item)

          return items

      def decode_map(decoder, subtype, shareable_index=None):

          # Major tag 5

          dictionary = {}

          decoder.set_shareable(shareable_index, dictionary)

          length = decode_uint(decoder, subtype, allow_indefinite=True)

          if length is None:

              # Indefinite length

              while True:

                  key = decoder.decode()

                  if key is break_marker:

                      break

                  else:

                      value = decoder.decode()

                      dictionary[key] = value

          else:

              for _ in xrange(length):

                  key = decoder.decode()

                  value = decoder.decode()

                  dictionary[key] = value

          if decoder.object_hook:

              return decoder.object_hook(decoder, dictionary)

          else:

              return dictionary

      def decode_semantic(decoder, subtype, shareable_index=None):

          # Major tag 6

          tagnum = decode_uint(decoder, subtype)

          # Special handling for the "shareable" tag

          if tagnum == 28:

              shareable_index = decoder._allocate_shareable()

              return decoder.decode(shareable_index)

          value = decoder.decode()

          semantic_decoder = semantic_decoders.get(tagnum)

          if semantic_decoder:

              return semantic_decoder(decoder, value, shareable_index)

          tag = CBORTag(tagnum, value)

          if decoder.tag_hook:

              return decoder.tag_hook(decoder, tag, shareable_index)

          else:

              return tag

      def decode_special(decoder, subtype, shareable_index=None):

          # Simple value

          if subtype < 20:

              return CBORSimpleValue(subtype)

          # Major tag 7

          return special_decoders[subtype](decoder)

      #

      # Semantic decoders (major tag 6)

      #

      def decode_datetime_string(decoder, value, shareable_index=None):

          # Semantic tag 0

          match = timestamp_re.match(value)

          if match:

              year, month, day, hour, minute, second, micro, offset_h, offset_m = match.groups()

              if offset_h:

                  tz = timezone(timedelta(hours=int(offset_h), minutes=int(offset_m)))

              else:

                  tz = timezone.utc

              return datetime(int(year), int(month), int(day), int(hour), int(minute), int(second),

                              int(micro or 0), tz)

          else:

              raise CBORDecodeError('invalid datetime string: {}'.format(value))

      def decode_epoch_datetime(decoder, value, shareable_index=None):

          # Semantic tag 1

          return datetime.fromtimestamp(value, timezone.utc)

      def decode_positive_bignum(decoder, value, shareable_index=None):

          # Semantic tag 2

          from binascii import hexlify

          return int(hexlify(value), 16)

      def decode_negative_bignum(decoder, value, shareable_index=None):

          # Semantic tag 3

          return -decode_positive_bignum(decoder, value) - 1

      def decode_fraction(decoder, value, shareable_index=None):

          # Semantic tag 4

          from decimal import Decimal

          exp = Decimal(value[0])

          mantissa = Decimal(value[1])

          return mantissa * (10 ** exp)

      def decode_bigfloat(decoder, value, shareable_index=None):

          # Semantic tag 5

          from decimal import Decimal

          exp = Decimal(value[0])

          mantissa = Decimal(value[1])

          return mantissa * (2 ** exp)

      def decode_sharedref(decoder, value, shareable_index=None):

          # Semantic tag 29

          try:

              shared = decoder._shareables[value]

          except IndexError:

              raise CBORDecodeError('shared reference %d not found' % value)

          if shared is None:

              raise CBORDecodeError('shared value %d has not been initialized' % value)

          else:

              return shared

      def decode_rational(decoder, value, shareable_index=None):

          # Semantic tag 30

          from fractions import Fraction

          return Fraction(*value)

      def decode_regexp(decoder, value, shareable_index=None):

          # Semantic tag 35

          return re.compile(value)

      def decode_mime(decoder, value, shareable_index=None):

          # Semantic tag 36

          from email.parser import Parser

          return Parser().parsestr(value)

      def decode_uuid(decoder, value, shareable_index=None):

          # Semantic tag 37

          from uuid import UUID

          return UUID(bytes=value)

      def decode_set(decoder, value, shareable_index=None):

          # Semantic tag 258

          return set(value)

      #

      # Special decoders (major tag 7)

      #

      def decode_simple_value(decoder, shareable_index=None):

          return CBORSimpleValue(struct.unpack('>B', decoder.read(1))[0])

      def decode_float16(decoder, shareable_index=None):

          payload = decoder.read(2)

          return unpack_float16(payload)

      def decode_float32(decoder, shareable_index=None):

          return struct.unpack('>f', decoder.read(4))[0]

      def decode_float64(decoder, shareable_index=None):

          return struct.unpack('>d', decoder.read(8))[0]

      major_decoders = {

          0: decode_uint,

          1: decode_negint,

          2: decode_bytestring,

          3: decode_string,

          4: decode_array,

          5: decode_map,

          6: decode_semantic,

          7: decode_special

      }

      special_decoders = {

          20: lambda self: False,

          21: lambda self: True,

          22: lambda self: None,

          23: lambda self: undefined,

          24: decode_simple_value,

          25: decode_float16,

          26: decode_float32,

          27: decode_float64,

          31: lambda self: break_marker

      }

      semantic_decoders = {

          0: decode_datetime_string,

          1: decode_epoch_datetime,

          2: decode_positive_bignum,

          3: decode_negative_bignum,

          4: decode_fraction,

          5: decode_bigfloat,

          29: decode_sharedref,

          30: decode_rational,

          35: decode_regexp,

          36: decode_mime,

          37: decode_uuid,

          258: decode_set

      }

      class CBORDecoder(object):

          """

          Deserializes a CBOR encoded byte stream.

          :param tag_hook: Callable that takes 3 arguments: the decoder instance, the

              :class:`~cbor2.types.CBORTag` and the shareable index for the resulting object, if any.

              This callback is called for any tags for which there is no built-in decoder.

              The return value is substituted for the CBORTag object in the deserialized output.

          :param object_hook: Callable that takes 2 arguments: the decoder instance and the dictionary.

              This callback is called for each deserialized :class:`dict` object.

              The return value is substituted for the dict in the deserialized output.

          """

          __slots__ = ('fp', 'tag_hook', 'object_hook', '_shareables')

          def __init__(self, fp, tag_hook=None, object_hook=None):

              self.fp = fp

              self.tag_hook = tag_hook

              self.object_hook = object_hook

              self._shareables = []

          def _allocate_shareable(self):

              self._shareables.append(None)

              return len(self._shareables) - 1

          def set_shareable(self, index, value):

              """

              Set the shareable value for the last encountered shared value marker, if any.

              If the given index is ``None``, nothing is done.

              :param index: the value of the ``shared_index`` argument to the decoder

              :param value: the shared value

              """

              if index is not None:

                  self._shareables[index] = value

          def read(self, amount):

              """

              Read bytes from the data stream.

              :param int amount: the number of bytes to read

              """

              data = self.fp.read(amount)

              if len(data) < amount:

                  raise CBORDecodeError('premature end of stream (expected to read {} bytes, got {} '

                                        'instead)'.format(amount, len(data)))

              return data

          def decode(self, shareable_index=None):

              """

              Decode the next value from the stream.

              :raises CBORDecodeError: if there is any problem decoding the stream

              """

              try:

                  initial_byte = byte_as_integer(self.fp.read(1))

                  major_type = initial_byte >> 5

                  subtype = initial_byte & 31

              except Exception as e:

                  raise CBORDecodeError('error reading major type at index {}: {}'

                                        .format(self.fp.tell(), e))

              decoder = major_decoders[major_type]

              try:

                  return decoder(self, subtype, shareable_index)

              except CBORDecodeError:

                  raise

              except Exception as e:

                  raise CBORDecodeError('error decoding value at index {}: {}'.format(self.fp.tell(), e))

          def decode_from_bytes(self, buf):

              """

              Wrap the given bytestring as a file and call :meth:`decode` with it as the argument.

              This method was intended to be used from the ``tag_hook`` hook when an object needs to be

              decoded separately from the rest but while still taking advantage of the shared value

              registry.

              """

              old_fp = self.fp

              self.fp = BytesIO(buf)

              retval = self.decode()

              self.fp = old_fp

              return retval

      def loads(payload, **kwargs):

          """

          Deserialize an object from a bytestring.

          :param bytes payload: the bytestring to serialize

          :param kwargs: keyword arguments passed to :class:`~.CBORDecoder`

          :return: the deserialized object

          """

          fp = BytesIO(payload)

          return CBORDecoder(fp, **kwargs).decode()

      def load(fp, **kwargs):

          """

          Deserialize an object from an open file.

          :param fp: the input file (any file-like object)

          :param kwargs: keyword arguments passed to :class:`~.CBORDecoder`

          :return: the deserialized object

          """

          return CBORDecoder(fp, **kwargs).decode()

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				import re
				import struct
				from datetime import datetime, timedelta
				from io import BytesIO

				from .compat import timezone, xrange, byte_as_integer, unpack_float16
				from .types import CBORTag, undefined, break_marker, CBORSimpleValue

				timestamp_re = re.compile(r'^(\d{4})-(\d\d)-(\d\d)T(\d\d):(\d\d):(\d\d)'
				r'(?:\.(\d+))?(?:Z\|([+-]\d\d):(\d\d))$')


				class CBORDecodeError(Exception):
				"""Raised when an error occurs deserializing a CBOR datastream."""


				def decode_uint(decoder, subtype, shareable_index=None, allow_indefinite=False):
				# Major tag 0
				if subtype < 24:
				return subtype
				elif subtype == 24:
				return struct.unpack('>B', decoder.read(1))[0]
				elif subtype == 25:
				return struct.unpack('>H', decoder.read(2))[0]
				elif subtype == 26:
				return struct.unpack('>L', decoder.read(4))[0]
				elif subtype == 27:
				return struct.unpack('>Q', decoder.read(8))[0]
				elif subtype == 31 and allow_indefinite:
				return None
				else:
				raise CBORDecodeError('unknown unsigned integer subtype 0x%x' % subtype)


				def decode_negint(decoder, subtype, shareable_index=None):
				# Major tag 1
				uint = decode_uint(decoder, subtype)
				return -uint - 1


				def decode_bytestring(decoder, subtype, shareable_index=None):
				# Major tag 2
				length = decode_uint(decoder, subtype, allow_indefinite=True)
				if length is None:
				# Indefinite length
				buf = bytearray()
				while True:
				initial_byte = byte_as_integer(decoder.read(1))
				if initial_byte == 255:
				return buf
				else:
				length = decode_uint(decoder, initial_byte & 31)
				value = decoder.read(length)
				buf.extend(value)
				else:
				return decoder.read(length)


				def decode_string(decoder, subtype, shareable_index=None):
				# Major tag 3
				return decode_bytestring(decoder, subtype).decode('utf-8')


				def decode_array(decoder, subtype, shareable_index=None):
				# Major tag 4
				items = []
				decoder.set_shareable(shareable_index, items)
				length = decode_uint(decoder, subtype, allow_indefinite=True)
				if length is None:
				# Indefinite length
				while True:
				value = decoder.decode()
				if value is break_marker:
				break
				else:
				items.append(value)
				else:
				for _ in xrange(length):
				item = decoder.decode()
				items.append(item)

				return items


				def decode_map(decoder, subtype, shareable_index=None):
				# Major tag 5
				dictionary = {}
				decoder.set_shareable(shareable_index, dictionary)
				length = decode_uint(decoder, subtype, allow_indefinite=True)
				if length is None:
				# Indefinite length
				while True:
				key = decoder.decode()
				if key is break_marker:
				break
				else:
				value = decoder.decode()
				dictionary[key] = value
				else:
				for _ in xrange(length):
				key = decoder.decode()
				value = decoder.decode()
				dictionary[key] = value

				if decoder.object_hook:
				return decoder.object_hook(decoder, dictionary)
				else:
				return dictionary


				def decode_semantic(decoder, subtype, shareable_index=None):
				# Major tag 6
				tagnum = decode_uint(decoder, subtype)

				# Special handling for the "shareable" tag
				if tagnum == 28:
				shareable_index = decoder._allocate_shareable()
				return decoder.decode(shareable_index)

				value = decoder.decode()
				semantic_decoder = semantic_decoders.get(tagnum)
				if semantic_decoder:
				return semantic_decoder(decoder, value, shareable_index)

				tag = CBORTag(tagnum, value)
				if decoder.tag_hook:
				return decoder.tag_hook(decoder, tag, shareable_index)
				else:
				return tag


				def decode_special(decoder, subtype, shareable_index=None):
				# Simple value
				if subtype < 20:
				return CBORSimpleValue(subtype)

				# Major tag 7
				return special_decoders[subtype](decoder)


				#
				# Semantic decoders (major tag 6)
				#

				def decode_datetime_string(decoder, value, shareable_index=None):
				# Semantic tag 0
				match = timestamp_re.match(value)
				if match:
				year, month, day, hour, minute, second, micro, offset_h, offset_m = match.groups()
				if offset_h:
				tz = timezone(timedelta(hours=int(offset_h), minutes=int(offset_m)))
				else:
				tz = timezone.utc

				return datetime(int(year), int(month), int(day), int(hour), int(minute), int(second),
				int(micro or 0), tz)
				else:
				raise CBORDecodeError('invalid datetime string: {}'.format(value))


				def decode_epoch_datetime(decoder, value, shareable_index=None):
				# Semantic tag 1
				return datetime.fromtimestamp(value, timezone.utc)


				def decode_positive_bignum(decoder, value, shareable_index=None):
				# Semantic tag 2
				from binascii import hexlify
				return int(hexlify(value), 16)


				def decode_negative_bignum(decoder, value, shareable_index=None):
				# Semantic tag 3
				return -decode_positive_bignum(decoder, value) - 1


				def decode_fraction(decoder, value, shareable_index=None):
				# Semantic tag 4
				from decimal import Decimal
				exp = Decimal(value[0])
				mantissa = Decimal(value[1])
				return mantissa * (10 ** exp)


				def decode_bigfloat(decoder, value, shareable_index=None):
				# Semantic tag 5
				from decimal import Decimal
				exp = Decimal(value[0])
				mantissa = Decimal(value[1])
				return mantissa * (2 ** exp)


				def decode_sharedref(decoder, value, shareable_index=None):
				# Semantic tag 29
				try:
				shared = decoder._shareables[value]
				except IndexError:
				raise CBORDecodeError('shared reference %d not found' % value)

				if shared is None:
				raise CBORDecodeError('shared value %d has not been initialized' % value)
				else:
				return shared


				def decode_rational(decoder, value, shareable_index=None):
				# Semantic tag 30
				from fractions import Fraction
				return Fraction(*value)


				def decode_regexp(decoder, value, shareable_index=None):
				# Semantic tag 35
				return re.compile(value)


				def decode_mime(decoder, value, shareable_index=None):
				# Semantic tag 36
				from email.parser import Parser
				return Parser().parsestr(value)


				def decode_uuid(decoder, value, shareable_index=None):
				# Semantic tag 37
				from uuid import UUID
				return UUID(bytes=value)


				def decode_set(decoder, value, shareable_index=None):
				# Semantic tag 258
				return set(value)


				#
				# Special decoders (major tag 7)
				#

				def decode_simple_value(decoder, shareable_index=None):
				return CBORSimpleValue(struct.unpack('>B', decoder.read(1))[0])


				def decode_float16(decoder, shareable_index=None):
				payload = decoder.read(2)
				return unpack_float16(payload)


				def decode_float32(decoder, shareable_index=None):
				return struct.unpack('>f', decoder.read(4))[0]


				def decode_float64(decoder, shareable_index=None):
				return struct.unpack('>d', decoder.read(8))[0]


				major_decoders = {
				0: decode_uint,
				1: decode_negint,
				2: decode_bytestring,
				3: decode_string,
				4: decode_array,
				5: decode_map,
				6: decode_semantic,
				7: decode_special
				}

				special_decoders = {
				20: lambda self: False,
				21: lambda self: True,
				22: lambda self: None,
				23: lambda self: undefined,
				24: decode_simple_value,
				25: decode_float16,
				26: decode_float32,
				27: decode_float64,
				31: lambda self: break_marker
				}

				semantic_decoders = {
				0: decode_datetime_string,
				1: decode_epoch_datetime,
				2: decode_positive_bignum,
				3: decode_negative_bignum,
				4: decode_fraction,
				5: decode_bigfloat,
				29: decode_sharedref,
				30: decode_rational,
				35: decode_regexp,
				36: decode_mime,
				37: decode_uuid,
				258: decode_set
				}


				class CBORDecoder(object):
				"""
				Deserializes a CBOR encoded byte stream.

				:param tag_hook: Callable that takes 3 arguments: the decoder instance, the
				:class:`~cbor2.types.CBORTag` and the shareable index for the resulting object, if any.
				This callback is called for any tags for which there is no built-in decoder.
				The return value is substituted for the CBORTag object in the deserialized output.
				:param object_hook: Callable that takes 2 arguments: the decoder instance and the dictionary.
				This callback is called for each deserialized :class:`dict` object.
				The return value is substituted for the dict in the deserialized output.
				"""

				__slots__ = ('fp', 'tag_hook', 'object_hook', '_shareables')

				def __init__(self, fp, tag_hook=None, object_hook=None):
				self.fp = fp
				self.tag_hook = tag_hook
				self.object_hook = object_hook
				self._shareables = []

				def _allocate_shareable(self):
				self._shareables.append(None)
				return len(self._shareables) - 1

				def set_shareable(self, index, value):
				"""
				Set the shareable value for the last encountered shared value marker, if any.

				If the given index is ``None``, nothing is done.

				:param index: the value of the ``shared_index`` argument to the decoder
				:param value: the shared value

				"""
				if index is not None:
				self._shareables[index] = value

				def read(self, amount):
				"""
				Read bytes from the data stream.

				:param int amount: the number of bytes to read

				"""
				data = self.fp.read(amount)
				if len(data) < amount:
				raise CBORDecodeError('premature end of stream (expected to read {} bytes, got {} '
				'instead)'.format(amount, len(data)))

				return data

				def decode(self, shareable_index=None):
				"""
				Decode the next value from the stream.

				:raises CBORDecodeError: if there is any problem decoding the stream

				"""
				try:
				initial_byte = byte_as_integer(self.fp.read(1))
				major_type = initial_byte >> 5
				subtype = initial_byte & 31
				except Exception as e:
				raise CBORDecodeError('error reading major type at index {}: {}'
				.format(self.fp.tell(), e))

				decoder = major_decoders[major_type]
				try:
				return decoder(self, subtype, shareable_index)
				except CBORDecodeError:
				raise
				except Exception as e:
				raise CBORDecodeError('error decoding value at index {}: {}'.format(self.fp.tell(), e))

				def decode_from_bytes(self, buf):
				"""
				Wrap the given bytestring as a file and call :meth:`decode` with it as the argument.

				This method was intended to be used from the ``tag_hook`` hook when an object needs to be
				decoded separately from the rest but while still taking advantage of the shared value
				registry.

				"""
				old_fp = self.fp
				self.fp = BytesIO(buf)
				retval = self.decode()
				self.fp = old_fp
				return retval


				def loads(payload, **kwargs):
				"""
				Deserialize an object from a bytestring.

				:param bytes payload: the bytestring to serialize
				:param kwargs: keyword arguments passed to :class:`~.CBORDecoder`
				:return: the deserialized object

				"""
				fp = BytesIO(payload)
				return CBORDecoder(fp, **kwargs).decode()


				def load(fp, **kwargs):
				"""
				Deserialize an object from an open file.

				:param fp: the input file (any file-like object)
				:param kwargs: keyword arguments passed to :class:`~.CBORDecoder`
				:return: the deserialized object

				"""
				return CBORDecoder(fp, **kwargs).decode()