upstream/mercurial-mirror Files · mercurial/config.py

rust-node: binary Node ID and conversion utilities...

rust-node: binary Node ID and conversion utilities The choice of type makes sure that a `Node` has the exact wanted size. We'll use a different type for prefixes. Added dependency: hexadecimal conversion relies on the `hex` crate. The fact that sooner or later Mercurial is going to need to change its hash sizes has been taken strongly in consideration: - the hash length is a constant, but that is not directly exposed to callers. Changing the value of that constant is the only thing to do to change the hash length (even in unit tests) - the code could be adapted to support several sizes of hashes, if that turned out to be useful. To that effect, only the size of a given `Node` is exposed in the public API. - callers not involved in initial computation, I/O and FFI are able to operate without a priori assumptions on the hash size. The traits `FromHex` and `ToHex` have not been directly implemented, so that the doc-comments explaining these restrictions would stay really visible in `cargo doc` Differential Revision: https://phab.mercurial-scm.org/D7788

Augie Fackler - - Load All Authors

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      # config.py - configuration parsing for Mercurial

      #

      #  Copyright 2009 Matt Mackall <mpm@selenic.com> and others

      #

      # This software may be used and distributed according to the terms of the

      # GNU General Public License version 2 or any later version.

      from __future__ import absolute_import

      import errno

      import os

      from .i18n import _

      from .pycompat import getattr

      from . import (

          encoding,

          error,

          pycompat,

          util,

      )

      class config(object):

          def __init__(self, data=None, includepaths=None):

              self._data = {}

              self._unset = []

              self._includepaths = includepaths or []

              if data:

                  for k in data._data:

                      self._data[k] = data[k].copy()

                  self._source = data._source.copy()

              else:

                  self._source = util.cowdict()

          def copy(self):

              return config(self)

          def __contains__(self, section):

              return section in self._data

          def hasitem(self, section, item):

              return item in self._data.get(section, {})

          def __getitem__(self, section):

              return self._data.get(section, {})

          def __iter__(self):

              for d in self.sections():

                  yield d

          def update(self, src):

              self._source = self._source.preparewrite()

              for s, n in src._unset:

                  ds = self._data.get(s, None)

                  if ds is not None and n in ds:

                      self._data[s] = ds.preparewrite()

                      del self._data[s][n]

                      del self._source[(s, n)]

              for s in src:

                  ds = self._data.get(s, None)

                  if ds:

                      self._data[s] = ds.preparewrite()

                  else:

                      self._data[s] = util.cowsortdict()

                  self._data[s].update(src._data[s])

              self._source.update(src._source)

          def get(self, section, item, default=None):

              return self._data.get(section, {}).get(item, default)

          def backup(self, section, item):

              """return a tuple allowing restore to reinstall a previous value

              The main reason we need it is because it handles the "no data" case.

              """

              try:

                  value = self._data[section][item]

                  source = self.source(section, item)

                  return (section, item, value, source)

              except KeyError:

                  return (section, item)

          def source(self, section, item):

              return self._source.get((section, item), b"")

          def sections(self):

              return sorted(self._data.keys())

          def items(self, section):

              return list(pycompat.iteritems(self._data.get(section, {})))

          def set(self, section, item, value, source=b""):

              if pycompat.ispy3:

                  assert not isinstance(

                      section, str

                  ), b'config section may not be unicode strings on Python 3'

                  assert not isinstance(

                      item, str

                  ), b'config item may not be unicode strings on Python 3'

                  assert not isinstance(

                      value, str

                  ), b'config values may not be unicode strings on Python 3'

              if section not in self:

                  self._data[section] = util.cowsortdict()

              else:

                  self._data[section] = self._data[section].preparewrite()

              self._data[section][item] = value

              if source:

                  self._source = self._source.preparewrite()

                  self._source[(section, item)] = source

          def restore(self, data):

              """restore data returned by self.backup"""

              self._source = self._source.preparewrite()

              if len(data) == 4:

                  # restore old data

                  section, item, value, source = data

                  self._data[section] = self._data[section].preparewrite()

                  self._data[section][item] = value

                  self._source[(section, item)] = source

              else:

                  # no data before, remove everything

                  section, item = data

                  if section in self._data:

                      self._data[section].pop(item, None)

                  self._source.pop((section, item), None)

          def parse(self, src, data, sections=None, remap=None, include=None):

              sectionre = util.re.compile(br'\[([^\[]+)\]')

              itemre = util.re.compile(br'([^=\s][^=]*?)\s*=\s*(.*\S|)')

              contre = util.re.compile(br'\s+(\S|\S.*\S)\s*$')

              emptyre = util.re.compile(br'(;|#|\s*$)')

              commentre = util.re.compile(br'(;|#)')

              unsetre = util.re.compile(br'%unset\s+(\S+)')

              includere = util.re.compile(br'%include\s+(\S|\S.*\S)\s*$')

              section = b""

              item = None

              line = 0

              cont = False

              if remap:

                  section = remap.get(section, section)

              for l in data.splitlines(True):

                  line += 1

                  if line == 1 and l.startswith(b'\xef\xbb\xbf'):

                      # Someone set us up the BOM

                      l = l[3:]

                  if cont:

                      if commentre.match(l):

                          continue

                      m = contre.match(l)

                      if m:

                          if sections and section not in sections:

                              continue

                          v = self.get(section, item) + b"\n" + m.group(1)

                          self.set(section, item, v, b"%s:%d" % (src, line))

                          continue

                      item = None

                      cont = False

                  m = includere.match(l)

                  if m and include:

                      expanded = util.expandpath(m.group(1))

                      includepaths = [os.path.dirname(src)] + self._includepaths

                      for base in includepaths:

                          inc = os.path.normpath(os.path.join(base, expanded))

                          try:

                              include(inc, remap=remap, sections=sections)

                              break

                          except IOError as inst:

                              if inst.errno != errno.ENOENT:

                                  raise error.ParseError(

                                      _(b"cannot include %s (%s)")

                                      % (inc, encoding.strtolocal(inst.strerror)),

                                      b"%s:%d" % (src, line),

                                  )

                      continue

                  if emptyre.match(l):

                      continue

                  m = sectionre.match(l)

                  if m:

                      section = m.group(1)

                      if remap:

                          section = remap.get(section, section)

                      if section not in self:

                          self._data[section] = util.cowsortdict()

                      continue

                  m = itemre.match(l)

                  if m:

                      item = m.group(1)

                      cont = True

                      if sections and section not in sections:

                          continue

                      self.set(section, item, m.group(2), b"%s:%d" % (src, line))

                      continue

                  m = unsetre.match(l)

                  if m:

                      name = m.group(1)

                      if sections and section not in sections:

                          continue

                      if self.get(section, name) is not None:

                          self._data[section] = self._data[section].preparewrite()

                          del self._data[section][name]

                      self._unset.append((section, name))

                      continue

                  raise error.ParseError(l.rstrip(), (b"%s:%d" % (src, line)))

          def read(self, path, fp=None, sections=None, remap=None):

              if not fp:

                  fp = util.posixfile(path, b'rb')

              assert getattr(fp, 'mode', 'rb') == 'rb', (

                  b'config files must be opened in binary mode, got fp=%r mode=%r'

                  % (fp, fp.mode,)

              )

              self.parse(

                  path, fp.read(), sections=sections, remap=remap, include=self.read

              )

      def parselist(value):

          """parse a configuration value as a list of comma/space separated strings

          >>> parselist(b'this,is "a small" ,test')

          ['this', 'is', 'a small', 'test']

          """

          def _parse_plain(parts, s, offset):

              whitespace = False

              while offset < len(s) and (

                  s[offset : offset + 1].isspace() or s[offset : offset + 1] == b','

              ):

                  whitespace = True

                  offset += 1

              if offset >= len(s):

                  return None, parts, offset

              if whitespace:

                  parts.append(b'')

              if s[offset : offset + 1] == b'"' and not parts[-1]:

                  return _parse_quote, parts, offset + 1

              elif s[offset : offset + 1] == b'"' and parts[-1][-1:] == b'\\':

                  parts[-1] = parts[-1][:-1] + s[offset : offset + 1]

                  return _parse_plain, parts, offset + 1

              parts[-1] += s[offset : offset + 1]

              return _parse_plain, parts, offset + 1

          def _parse_quote(parts, s, offset):

              if offset < len(s) and s[offset : offset + 1] == b'"':  # ""

                  parts.append(b'')

                  offset += 1

                  while offset < len(s) and (

                      s[offset : offset + 1].isspace()

                      or s[offset : offset + 1] == b','

                  ):

                      offset += 1

                  return _parse_plain, parts, offset

              while offset < len(s) and s[offset : offset + 1] != b'"':

                  if (

                      s[offset : offset + 1] == b'\\'

                      and offset + 1 < len(s)

                      and s[offset + 1 : offset + 2] == b'"'

                  ):

                      offset += 1

                      parts[-1] += b'"'

                  else:

                      parts[-1] += s[offset : offset + 1]

                  offset += 1

              if offset >= len(s):

                  real_parts = _configlist(parts[-1])

                  if not real_parts:

                      parts[-1] = b'"'

                  else:

                      real_parts[0] = b'"' + real_parts[0]

                      parts = parts[:-1]

                      parts.extend(real_parts)

                  return None, parts, offset

              offset += 1

              while offset < len(s) and s[offset : offset + 1] in [b' ', b',']:

                  offset += 1

              if offset < len(s):

                  if offset + 1 == len(s) and s[offset : offset + 1] == b'"':

                      parts[-1] += b'"'

                      offset += 1

                  else:

                      parts.append(b'')

              else:

                  return None, parts, offset

              return _parse_plain, parts, offset

          def _configlist(s):

              s = s.rstrip(b' ,')

              if not s:

                  return []

              parser, parts, offset = _parse_plain, [b''], 0

              while parser:

                  parser, parts, offset = parser(parts, s, offset)

              return parts

          if value is not None and isinstance(value, bytes):

              result = _configlist(value.lstrip(b' ,\n'))

          else:

              result = value

          return result or []

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				# config.py - configuration parsing for Mercurial
				#
				# Copyright 2009 Matt Mackall <mpm@selenic.com> and others
				#
				# This software may be used and distributed according to the terms of the
				# GNU General Public License version 2 or any later version.

				from __future__ import absolute_import

				import errno
				import os

				from .i18n import _
				from .pycompat import getattr
				from . import (
				encoding,
				error,
				pycompat,
				util,
				)


				class config(object):
				def __init__(self, data=None, includepaths=None):
				self._data = {}
				self._unset = []
				self._includepaths = includepaths or []
				if data:
				for k in data._data:
				self._data[k] = data[k].copy()
				self._source = data._source.copy()
				else:
				self._source = util.cowdict()

				def copy(self):
				return config(self)

				def __contains__(self, section):
				return section in self._data

				def hasitem(self, section, item):
				return item in self._data.get(section, {})

				def __getitem__(self, section):
				return self._data.get(section, {})

				def __iter__(self):
				for d in self.sections():
				yield d

				def update(self, src):
				self._source = self._source.preparewrite()
				for s, n in src._unset:
				ds = self._data.get(s, None)
				if ds is not None and n in ds:
				self._data[s] = ds.preparewrite()
				del self._data[s][n]
				del self._source[(s, n)]
				for s in src:
				ds = self._data.get(s, None)
				if ds:
				self._data[s] = ds.preparewrite()
				else:
				self._data[s] = util.cowsortdict()
				self._data[s].update(src._data[s])
				self._source.update(src._source)

				def get(self, section, item, default=None):
				return self._data.get(section, {}).get(item, default)

				def backup(self, section, item):
				"""return a tuple allowing restore to reinstall a previous value

				The main reason we need it is because it handles the "no data" case.
				"""
				try:
				value = self._data[section][item]
				source = self.source(section, item)
				return (section, item, value, source)
				except KeyError:
				return (section, item)

				def source(self, section, item):
				return self._source.get((section, item), b"")

				def sections(self):
				return sorted(self._data.keys())

				def items(self, section):
				return list(pycompat.iteritems(self._data.get(section, {})))

				def set(self, section, item, value, source=b""):
				if pycompat.ispy3:
				assert not isinstance(
				section, str
				), b'config section may not be unicode strings on Python 3'
				assert not isinstance(
				item, str
				), b'config item may not be unicode strings on Python 3'
				assert not isinstance(
				value, str
				), b'config values may not be unicode strings on Python 3'
				if section not in self:
				self._data[section] = util.cowsortdict()
				else:
				self._data[section] = self._data[section].preparewrite()
				self._data[section][item] = value
				if source:
				self._source = self._source.preparewrite()
				self._source[(section, item)] = source

				def restore(self, data):
				"""restore data returned by self.backup"""
				self._source = self._source.preparewrite()
				if len(data) == 4:
				# restore old data
				section, item, value, source = data
				self._data[section] = self._data[section].preparewrite()
				self._data[section][item] = value
				self._source[(section, item)] = source
				else:
				# no data before, remove everything
				section, item = data
				if section in self._data:
				self._data[section].pop(item, None)
				self._source.pop((section, item), None)

				def parse(self, src, data, sections=None, remap=None, include=None):
				sectionre = util.re.compile(br'\[([^\[]+)\]')
				itemre = util.re.compile(br'([^=\s][^=]?)\s=\s(.\S\|)')
				contre = util.re.compile(br'\s+(\S\|\S.\S)\s$')
				emptyre = util.re.compile(br'(;\|#\|\s*$)')
				commentre = util.re.compile(br'(;\|#)')
				unsetre = util.re.compile(br'%unset\s+(\S+)')
				includere = util.re.compile(br'%include\s+(\S\|\S.\S)\s$')
				section = b""
				item = None
				line = 0
				cont = False

				if remap:
				section = remap.get(section, section)

				for l in data.splitlines(True):
				line += 1
				if line == 1 and l.startswith(b'\xef\xbb\xbf'):
				# Someone set us up the BOM
				l = l[3:]
				if cont:
				if commentre.match(l):
				continue
				m = contre.match(l)
				if m:
				if sections and section not in sections:
				continue
				v = self.get(section, item) + b"\n" + m.group(1)
				self.set(section, item, v, b"%s:%d" % (src, line))
				continue
				item = None
				cont = False
				m = includere.match(l)

				if m and include:
				expanded = util.expandpath(m.group(1))
				includepaths = [os.path.dirname(src)] + self._includepaths

				for base in includepaths:
				inc = os.path.normpath(os.path.join(base, expanded))

				try:
				include(inc, remap=remap, sections=sections)
				break
				except IOError as inst:
				if inst.errno != errno.ENOENT:
				raise error.ParseError(
				_(b"cannot include %s (%s)")
				% (inc, encoding.strtolocal(inst.strerror)),
				b"%s:%d" % (src, line),
				)
				continue
				if emptyre.match(l):
				continue
				m = sectionre.match(l)
				if m:
				section = m.group(1)
				if remap:
				section = remap.get(section, section)
				if section not in self:
				self._data[section] = util.cowsortdict()
				continue
				m = itemre.match(l)
				if m:
				item = m.group(1)
				cont = True
				if sections and section not in sections:
				continue
				self.set(section, item, m.group(2), b"%s:%d" % (src, line))
				continue
				m = unsetre.match(l)
				if m:
				name = m.group(1)
				if sections and section not in sections:
				continue
				if self.get(section, name) is not None:
				self._data[section] = self._data[section].preparewrite()
				del self._data[section][name]
				self._unset.append((section, name))
				continue

				raise error.ParseError(l.rstrip(), (b"%s:%d" % (src, line)))

				def read(self, path, fp=None, sections=None, remap=None):
				if not fp:
				fp = util.posixfile(path, b'rb')
				assert getattr(fp, 'mode', 'rb') == 'rb', (
				b'config files must be opened in binary mode, got fp=%r mode=%r'
				% (fp, fp.mode,)
				)
				self.parse(
				path, fp.read(), sections=sections, remap=remap, include=self.read
				)


				def parselist(value):
				"""parse a configuration value as a list of comma/space separated strings

				>>> parselist(b'this,is "a small" ,test')
				['this', 'is', 'a small', 'test']
				"""

				def _parse_plain(parts, s, offset):
				whitespace = False
				while offset < len(s) and (
				s[offset : offset + 1].isspace() or s[offset : offset + 1] == b','
				):
				whitespace = True
				offset += 1
				if offset >= len(s):
				return None, parts, offset
				if whitespace:
				parts.append(b'')
				if s[offset : offset + 1] == b'"' and not parts[-1]:
				return _parse_quote, parts, offset + 1
				elif s[offset : offset + 1] == b'"' and parts[-1][-1:] == b'\\':
				parts[-1] = parts[-1][:-1] + s[offset : offset + 1]
				return _parse_plain, parts, offset + 1
				parts[-1] += s[offset : offset + 1]
				return _parse_plain, parts, offset + 1

				def _parse_quote(parts, s, offset):
				if offset < len(s) and s[offset : offset + 1] == b'"': # ""
				parts.append(b'')
				offset += 1
				while offset < len(s) and (
				s[offset : offset + 1].isspace()
				or s[offset : offset + 1] == b','
				):
				offset += 1
				return _parse_plain, parts, offset

				while offset < len(s) and s[offset : offset + 1] != b'"':
				if (
				s[offset : offset + 1] == b'\\'
				and offset + 1 < len(s)
				and s[offset + 1 : offset + 2] == b'"'
				):
				offset += 1
				parts[-1] += b'"'
				else:
				parts[-1] += s[offset : offset + 1]
				offset += 1

				if offset >= len(s):
				real_parts = _configlist(parts[-1])
				if not real_parts:
				parts[-1] = b'"'
				else:
				real_parts[0] = b'"' + real_parts[0]
				parts = parts[:-1]
				parts.extend(real_parts)
				return None, parts, offset

				offset += 1
				while offset < len(s) and s[offset : offset + 1] in [b' ', b',']:
				offset += 1

				if offset < len(s):
				if offset + 1 == len(s) and s[offset : offset + 1] == b'"':
				parts[-1] += b'"'
				offset += 1
				else:
				parts.append(b'')
				else:
				return None, parts, offset

				return _parse_plain, parts, offset

				def _configlist(s):
				s = s.rstrip(b' ,')
				if not s:
				return []
				parser, parts, offset = _parse_plain, [b''], 0
				while parser:
				parser, parts, offset = parser(parts, s, offset)
				return parts

				if value is not None and isinstance(value, bytes):
				result = _configlist(value.lstrip(b' ,\n'))
				else:
				result = value
				return result or []