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

interfaces: add the optional `bdiff.xdiffblocks()` method...

interfaces: add the optional `bdiff.xdiffblocks()` method PyCharm flagged where this was called on the protocol class in `mdiff.py` in the previous commit, but pytype completely missed it. PyCharm is correct here, but I'm committing this separately to highlight this potential problem- some of the implementations don't implement _all_ of the methods the others do, and there's not a great way to indicate on a protocol class that a method or attribute is optional- that's kinda the opposite of what static typing is about. Making the method an `Optional[Callable]` attribute works here, and keeps both PyCharm and pytype happy, and the generated `mdiff.pyi` and `modules.pyi` look reasonable. We might be getting a little lucky, because the method isn't invoked directly- it is returned from another method that selects which block function to use. Except since it is declared on the protocol class, every module needs this attribute (in theory, but in practice this doesn't seem to be checked), so the check for it on the module has to change from `hasattr()` to `getattr(..., None)`. We defer defining the optional attrs to the type checking phase as an extra precaution- that way it isn't an attr with a `None` value at runtime if someone is still using `hasattr()`. As to why pytype missed this, I have no clue. The generated `mdiff.pyi` even has the global variable typed as `bdiff: intmod.BDiff`, so uses of it really should comply with what is on the class, protocol class or not.

Matt Harbison - - Load All Authors

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      # configitems.py - centralized declaration of configuration option

      #

      #  Copyright 2017 Pierre-Yves David <pierre-yves.david@octobus.net>

      #

      # 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 annotations

      import functools

      import re

      from .utils import resourceutil

      from . import (

          encoding,

          error,

      )

      try:

          import tomllib  # pytype: disable=import-error

          tomllib.load  # trigger lazy import

      except ModuleNotFoundError:

          # Python <3.11 compat

          from .thirdparty import tomli as tomllib

      def loadconfigtable(ui, extname, configtable):

          """update config item known to the ui with the extension ones"""

          for section, items in sorted(configtable.items()):

              knownitems = ui._knownconfig.setdefault(section, itemregister())

              knownkeys = set(knownitems)

              newkeys = set(items)

              for key in sorted(knownkeys & newkeys):

                  msg = b"extension '%s' overwrites config item '%s.%s'"

                  msg %= (extname, section, key)

                  ui.develwarn(msg, config=b'warn-config')

              knownitems.update(items)

      class configitem:

          """represent a known config item

          :section: the official config section where to find this item,

             :name: the official name within the section,

          :default: default value for this item,

          :alias: optional list of tuples as alternatives,

          :generic: this is a generic definition, match name using regular expression.

          """

          def __init__(

              self,

              section,

              name,

              default=None,

              alias=(),

              generic=False,

              priority=0,

              experimental=False,

              documentation="",

              in_core_extension=None,

          ):

              self.section = section

              self.name = name

              self.default = default

              self.documentation = documentation

              self.alias = list(alias)

              self.generic = generic

              self.priority = priority

              self.experimental = experimental

              self._re = None

              self.in_core_extension = in_core_extension

              if generic:

                  self._re = re.compile(self.name)

      class itemregister(dict):

          """A specialized dictionary that can handle wild-card selection"""

          def __init__(self):

              super(itemregister, self).__init__()

              self._generics = set()

          def update(self, other):  # pytype: disable=signature-mismatch

              super(itemregister, self).update(other)

              self._generics.update(other._generics)

          def __setitem__(self, key, item):

              super(itemregister, self).__setitem__(key, item)

              if item.generic:

                  self._generics.add(item)

          def get(self, key):

              baseitem = super(itemregister, self).get(key)

              if baseitem is not None and not baseitem.generic:

                  return baseitem

              # search for a matching generic item

              generics = sorted(self._generics, key=(lambda x: (x.priority, x.name)))

              for item in generics:

                  # we use 'match' instead of 'search' to make the matching simpler

                  # for people unfamiliar with regular expression. Having the match

                  # rooted to the start of the string will produce less surprising

                  # result for user writing simple regex for sub-attribute.

                  #

                  # For example using "color\..*" match produces an unsurprising

                  # result, while using search could suddenly match apparently

                  # unrelated configuration that happens to contains "color."

                  # anywhere. This is a tradeoff where we favor requiring ".*" on

                  # some match to avoid the need to prefix most pattern with "^".

                  # The "^" seems more error prone.

                  if item._re.match(key):

                      return item

              return None

      def sanitize_item(item):

          """Apply the transformations that are encoded on top of the pure data"""

          # Set the special defaults

          default_type_key = "default-type"

          default_type = item.pop(default_type_key, None)

          if default_type == "dynamic":

              item["default"] = dynamicdefault

          elif default_type == "list_type":

              item["default"] = list

          elif default_type == "lambda":

              assert isinstance(item["default"], list)

              default = [e.encode() for e in item["default"]]

              item["default"] = lambda: default

          elif default_type == "lazy_module":

              item["default"] = lambda: encoding.encoding

          else:

              if default_type is not None:

                  msg = "invalid default config type %r for '%s.%s'"

                  msg %= (default_type, item["section"], item["name"])

                  raise error.ProgrammingError(msg)

          # config expects bytes

          alias = item.get("alias")

          if alias:

              item["alias"] = [(k.encode(), v.encode()) for (k, v) in alias]

          if isinstance(item.get("default"), str):

              item["default"] = item["default"].encode()

          item["section"] = item["section"].encode()

          item["name"] = item["name"].encode()

      def read_configitems_file():

          """Returns the deserialized TOML structure from the configitems file"""

          with resourceutil.open_resource(b"mercurial", b"configitems.toml") as fp:

              return tomllib.load(fp)

      def configitems_from_toml(items):

          """Register the configitems from the *deserialized* toml file"""

          for item in items["items"]:

              sanitize_item(item)

              coreconfigitem(**item)

          templates = items["templates"]

          for application in items["template-applications"]:

              template_items = templates[application["template"]]

              for template_item in template_items:

                  item = template_item.copy()

                  prefix = application.get("prefix", "")

                  item["section"] = application["section"]

                  if prefix:

                      item["name"] = f'{prefix}.{item["suffix"]}'

                  else:

                      item["name"] = item["suffix"]

                  sanitize_item(item)

                  item.pop("suffix", None)

                  coreconfigitem(**item)

      def import_configitems_from_file():

          as_toml = read_configitems_file()

          configitems_from_toml(as_toml)

      coreitems = {}

      def _register(configtable, *args, **kwargs):

          item = configitem(*args, **kwargs)

          section = configtable.setdefault(item.section, itemregister())

          if item.name in section:

              msg = b"duplicated config item registration for '%s.%s'"

              raise error.ProgrammingError(msg % (item.section, item.name))

          section[item.name] = item

      # special value for case where the default is derived from other values

      dynamicdefault = object()

      # Registering actual config items

      def getitemregister(configtable):

          f = functools.partial(_register, configtable)

          # export pseudo enum as configitem.*

          f.dynamicdefault = dynamicdefault

          return f

      coreconfigitem = getitemregister(coreitems)

      import_configitems_from_file()

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				# configitems.py - centralized declaration of configuration option
				#
				# Copyright 2017 Pierre-Yves David <pierre-yves.david@octobus.net>
				#
				# 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 annotations

				import functools
				import re

				from .utils import resourceutil

				from . import (
				encoding,
				error,
				)

				try:
				import tomllib # pytype: disable=import-error

				tomllib.load # trigger lazy import
				except ModuleNotFoundError:
				# Python <3.11 compat
				from .thirdparty import tomli as tomllib


				def loadconfigtable(ui, extname, configtable):
				"""update config item known to the ui with the extension ones"""
				for section, items in sorted(configtable.items()):
				knownitems = ui._knownconfig.setdefault(section, itemregister())
				knownkeys = set(knownitems)
				newkeys = set(items)
				for key in sorted(knownkeys & newkeys):
				msg = b"extension '%s' overwrites config item '%s.%s'"
				msg %= (extname, section, key)
				ui.develwarn(msg, config=b'warn-config')

				knownitems.update(items)


				class configitem:
				"""represent a known config item

				:section: the official config section where to find this item,
				:name: the official name within the section,
				:default: default value for this item,
				:alias: optional list of tuples as alternatives,
				:generic: this is a generic definition, match name using regular expression.
				"""

				def __init__(
				self,
				section,
				name,
				default=None,
				alias=(),
				generic=False,
				priority=0,
				experimental=False,
				documentation="",
				in_core_extension=None,
				):
				self.section = section
				self.name = name
				self.default = default
				self.documentation = documentation
				self.alias = list(alias)
				self.generic = generic
				self.priority = priority
				self.experimental = experimental
				self._re = None
				self.in_core_extension = in_core_extension
				if generic:
				self._re = re.compile(self.name)


				class itemregister(dict):
				"""A specialized dictionary that can handle wild-card selection"""

				def __init__(self):
				super(itemregister, self).__init__()
				self._generics = set()

				def update(self, other): # pytype: disable=signature-mismatch
				super(itemregister, self).update(other)
				self._generics.update(other._generics)

				def __setitem__(self, key, item):
				super(itemregister, self).__setitem__(key, item)
				if item.generic:
				self._generics.add(item)

				def get(self, key):
				baseitem = super(itemregister, self).get(key)
				if baseitem is not None and not baseitem.generic:
				return baseitem

				# search for a matching generic item
				generics = sorted(self._generics, key=(lambda x: (x.priority, x.name)))
				for item in generics:
				# we use 'match' instead of 'search' to make the matching simpler
				# for people unfamiliar with regular expression. Having the match
				# rooted to the start of the string will produce less surprising
				# result for user writing simple regex for sub-attribute.
				#
				# For example using "color\..*" match produces an unsurprising
				# result, while using search could suddenly match apparently
				# unrelated configuration that happens to contains "color."
				# anywhere. This is a tradeoff where we favor requiring ".*" on
				# some match to avoid the need to prefix most pattern with "^".
				# The "^" seems more error prone.
				if item._re.match(key):
				return item

				return None


				def sanitize_item(item):
				"""Apply the transformations that are encoded on top of the pure data"""

				# Set the special defaults
				default_type_key = "default-type"
				default_type = item.pop(default_type_key, None)
				if default_type == "dynamic":
				item["default"] = dynamicdefault
				elif default_type == "list_type":
				item["default"] = list
				elif default_type == "lambda":
				assert isinstance(item["default"], list)
				default = [e.encode() for e in item["default"]]
				item["default"] = lambda: default
				elif default_type == "lazy_module":
				item["default"] = lambda: encoding.encoding
				else:
				if default_type is not None:
				msg = "invalid default config type %r for '%s.%s'"
				msg %= (default_type, item["section"], item["name"])
				raise error.ProgrammingError(msg)

				# config expects bytes
				alias = item.get("alias")
				if alias:
				item["alias"] = [(k.encode(), v.encode()) for (k, v) in alias]
				if isinstance(item.get("default"), str):
				item["default"] = item["default"].encode()
				item["section"] = item["section"].encode()
				item["name"] = item["name"].encode()


				def read_configitems_file():
				"""Returns the deserialized TOML structure from the configitems file"""
				with resourceutil.open_resource(b"mercurial", b"configitems.toml") as fp:
				return tomllib.load(fp)


				def configitems_from_toml(items):
				"""Register the configitems from the deserialized toml file"""
				for item in items["items"]:
				sanitize_item(item)
				coreconfigitem(**item)

				templates = items["templates"]

				for application in items["template-applications"]:
				template_items = templates[application["template"]]

				for template_item in template_items:
				item = template_item.copy()
				prefix = application.get("prefix", "")
				item["section"] = application["section"]
				if prefix:
				item["name"] = f'{prefix}.{item["suffix"]}'
				else:
				item["name"] = item["suffix"]

				sanitize_item(item)
				item.pop("suffix", None)
				coreconfigitem(**item)


				def import_configitems_from_file():
				as_toml = read_configitems_file()
				configitems_from_toml(as_toml)


				coreitems = {}


				def _register(configtable, args, *kwargs):
				item = configitem(args, *kwargs)
				section = configtable.setdefault(item.section, itemregister())
				if item.name in section:
				msg = b"duplicated config item registration for '%s.%s'"
				raise error.ProgrammingError(msg % (item.section, item.name))
				section[item.name] = item


				# special value for case where the default is derived from other values
				dynamicdefault = object()

				# Registering actual config items


				def getitemregister(configtable):
				f = functools.partial(_register, configtable)
				# export pseudo enum as configitem.*
				f.dynamicdefault = dynamicdefault
				return f


				coreconfigitem = getitemregister(coreitems)

				import_configitems_from_file()