upstream/mercurial-mirror Files · mercurial/thirdparty/attr/_compat.py

branchmap-v3: filter topo heads using node for performance reason...

branchmap-v3: filter topo heads using node for performance reason The branchmap currently contains heads as nodeid. If we build a set of revnum with the topological heads, we need to turn the nodeid in the branchmap to revnum to be able to check if they are topo-heads. That nodeid → revnum lookup is "expensive" and adds up to something noticeable if you do it hundreds of thousand of time. Instead we turn all the topo-heads revnums into nodes and build a set. So we can directly test membership of the nodeids stored in the branchmap. That is much faster. Ideally we would have revnum in the branchmap and could directly test revnum against a revnum set and that would be even faster. However that's an adventure for another time. Without this change, the branchmap format "v3" was significantly slower than the "v2" format. With this changes, some of that gap is recovered With rust + persistent nodemap, this overhead was smaller because the extra lookup did not had to to build the nodemap from scratch. In addition the mozilla-unified repository is able to use the "pure_top" mode of branchmap v3, so it was not really affected by this. Future changeset will work of the remaining of the performance gap. ### benchmark.name = hg.command.unbundle # bin-env-vars.hg.py-re2-module = default # benchmark.variants.issue6528 = disabled # benchmark.variants.resource-usage = default # benchmark.variants.reuse-external-delta-parent = yes # benchmark.variants.revs = any-1-extra-rev # benchmark.variants.source = unbundle # benchmark.variants.validate = default # benchmark.variants.verbosity = quiet ## data-env-vars.name = netbeans-2018-08-01-zstd-sparse-revlog # bin-env-vars.hg.flavor = default branch-v2: 0.233711 ~~~~~ branch-v3 before: 0.380994 (+63.02%, +0.15) branch-v3 after: 0.368769 (+57.79%, +0.14) # bin-env-vars.hg.flavor = rust branch-v2: 0.235230 ~~~~~ branch-v3 before: 0.385060 (+63.70%, +0.15) branch-v3 after: 0.372460 (+58.34%, +0.14) ## data-env-vars.name = netbeans-2018-08-01-ds2-pnm # bin-env-vars.hg.flavor = rust branch-v2: 0.255586 ~~~~~ branch-v3 before: 0.317524 (+24.23%, +0.06) branch-v3 after: 0.318907 (+24.78%, +0.06) ## data-env-vars.name = mozilla-central-2024-03-22-zstd-sparse-revlog # bin-env-vars.hg.flavor = default branch-v2: 0.339010 ~~~~~ branch-v3 before: 0.410007 (+20.94%, +0.07) branch-v3 after: 0.349752 (+3.17%, +0.01) # bin-env-vars.hg.flavor = rust branch-v2: 0.346525 ~~~~~ branch-v3 before: 0.410428 (+18.44%, +0.06) branch-v3 after: 0.354300 (+2.24%, +0.01) ## data-env-vars.name = mozilla-central-2024-03-22-ds2-pnm # bin-env-vars.hg.flavor = rust branch-v2: 0.380202 ~~~~~ branch-v3 before: 0.393871 (+3.60%, +0.01) branch-v3 after: 0.396293 (+4.23%, +0.02) ## data-env-vars.name = mozilla-unified-2024-03-22-zstd-sparse-revlog # bin-env-vars.hg.flavor = default branch-v2: 0.412165 ~~~~~ branch-v3 before: 0.438105 (+6.29%, +0.03) branch-v3 after: 0.424769 (+3.06%, +0.01) # bin-env-vars.hg.flavor = rust branch-v2: 0.412397 ~~~~~ branch-v3 before: 0.438405 (+6.31%, +0.03) branch-v3 after: 0.421796 (+2.28%, +0.01) ## data-env-vars.name = mozilla-unified-2024-03-22-ds2-pnm # bin-env-vars.hg.flavor = rust branch-v2: 0.429501 ~~~~~ branch-v3 before: 0.452692 (+5.40%, +0.02) branch-v3 after: 0.443849 (+3.34%, +0.01) ## data-env-vars.name = mozilla-try-2024-03-26-zstd-sparse-revlog # bin-env-vars.hg.flavor = default branch-v2: 3.403171 ~~~~~ branch-v3 before: 6.562345 (+92.83%, +3.16) branch-v3 after: 6.234055 (+83.18%, +2.83) # bin-env-vars.hg.flavor = rust branch-v2: 3.454876 ~~~~~ branch-v3 before: 6.160248 (+78.31%, +2.71) branch-v3 after: 6.307813 (+82.58%, +2.85) ## data-env-vars.name = mozilla-try-2024-03-26-ds2-pnm # bin-env-vars.hg.flavor = rust branch-v2: 3.465435 ~~~~~ branch-v3 before: 5.381648 (+55.30%, +1.92) branch-v3 after: 5.176076 (+49.36%, +1.71)

Matt Harbison - - Load All Authors

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      # SPDX-License-Identifier: MIT

      import inspect

      import platform

      import sys

      import threading

      import types

      import warnings

      from collections.abc import Mapping, Sequence  # noqa

      PYPY = platform.python_implementation() == "PyPy"

      PY36 = sys.version_info[:2] >= (3, 6)

      HAS_F_STRINGS = PY36

      PY310 = sys.version_info[:2] >= (3, 10)

      if PYPY or PY36:

          ordered_dict = dict

      else:

          from collections import OrderedDict

          ordered_dict = OrderedDict

      def just_warn(*args, **kw):

          warnings.warn(

              "Running interpreter doesn't sufficiently support code object "

              "introspection.  Some features like bare super() or accessing "

              "__class__ will not work with slotted classes.",

              RuntimeWarning,

              stacklevel=2,

          )

      class _AnnotationExtractor:

          """

          Extract type annotations from a callable, returning None whenever there

          is none.

          """

          __slots__ = ["sig"]

          def __init__(self, callable):

              try:

                  self.sig = inspect.signature(callable)

              except (ValueError, TypeError):  # inspect failed

                  self.sig = None

          def get_first_param_type(self):

              """

              Return the type annotation of the first argument if it's not empty.

              """

              if not self.sig:

                  return None

              params = list(self.sig.parameters.values())

              if params and params[0].annotation is not inspect.Parameter.empty:

                  return params[0].annotation

              return None

          def get_return_type(self):

              """

              Return the return type if it's not empty.

              """

              if (

                  self.sig

                  and self.sig.return_annotation is not inspect.Signature.empty

              ):

                  return self.sig.return_annotation

              return None

      def make_set_closure_cell():

          """Return a function of two arguments (cell, value) which sets

          the value stored in the closure cell `cell` to `value`.

          """

          # pypy makes this easy. (It also supports the logic below, but

          # why not do the easy/fast thing?)

          if PYPY:

              def set_closure_cell(cell, value):

                  cell.__setstate__((value,))

              return set_closure_cell

          # Otherwise gotta do it the hard way.

          # Create a function that will set its first cellvar to `value`.

          def set_first_cellvar_to(value):

              x = value

              return

              # This function will be eliminated as dead code, but

              # not before its reference to `x` forces `x` to be

              # represented as a closure cell rather than a local.

              def force_x_to_be_a_cell():  # pragma: no cover

                  return x

          try:

              # Extract the code object and make sure our assumptions about

              # the closure behavior are correct.

              co = set_first_cellvar_to.__code__

              if co.co_cellvars != ("x",) or co.co_freevars != ():

                  raise AssertionError  # pragma: no cover

              # Convert this code object to a code object that sets the

              # function's first _freevar_ (not cellvar) to the argument.

              if sys.version_info >= (3, 8):

                  def set_closure_cell(cell, value):

                      cell.cell_contents = value

              else:

                  args = [co.co_argcount]

                  args.append(co.co_kwonlyargcount)

                  args.extend(

                      [

                          co.co_nlocals,

                          co.co_stacksize,

                          co.co_flags,

                          co.co_code,

                          co.co_consts,

                          co.co_names,

                          co.co_varnames,

                          co.co_filename,

                          co.co_name,

                          co.co_firstlineno,

                          co.co_lnotab,

                          # These two arguments are reversed:

                          co.co_cellvars,

                          co.co_freevars,

                      ]

                  )

                  set_first_freevar_code = types.CodeType(*args)

                  def set_closure_cell(cell, value):

                      # Create a function using the set_first_freevar_code,

                      # whose first closure cell is `cell`. Calling it will

                      # change the value of that cell.

                      setter = types.FunctionType(

                          set_first_freevar_code, {}, "setter", (), (cell,)

                      )

                      # And call it to set the cell.

                      setter(value)

              # Make sure it works on this interpreter:

              def make_func_with_cell():

                  x = None

                  def func():

                      return x  # pragma: no cover

                  return func

              cell = make_func_with_cell().__closure__[0]

              set_closure_cell(cell, 100)

              if cell.cell_contents != 100:

                  raise AssertionError  # pragma: no cover

          except Exception:

              return just_warn

          else:

              return set_closure_cell

      set_closure_cell = make_set_closure_cell()

      # Thread-local global to track attrs instances which are already being repr'd.

      # This is needed because there is no other (thread-safe) way to pass info

      # about the instances that are already being repr'd through the call stack

      # in order to ensure we don't perform infinite recursion.

      #

      # For instance, if an instance contains a dict which contains that instance,

      # we need to know that we're already repr'ing the outside instance from within

      # the dict's repr() call.

      #

      # This lives here rather than in _make.py so that the functions in _make.py

      # don't have a direct reference to the thread-local in their globals dict.

      # If they have such a reference, it breaks cloudpickle.

      repr_context = threading.local()

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				# SPDX-License-Identifier: MIT


				import inspect
				import platform
				import sys
				import threading
				import types
				import warnings

				from collections.abc import Mapping, Sequence # noqa


				PYPY = platform.python_implementation() == "PyPy"
				PY36 = sys.version_info[:2] >= (3, 6)
				HAS_F_STRINGS = PY36
				PY310 = sys.version_info[:2] >= (3, 10)


				if PYPY or PY36:
				ordered_dict = dict
				else:
				from collections import OrderedDict

				ordered_dict = OrderedDict


				def just_warn(args, *kw):
				warnings.warn(
				"Running interpreter doesn't sufficiently support code object "
				"introspection. Some features like bare super() or accessing "
				"__class__ will not work with slotted classes.",
				RuntimeWarning,
				stacklevel=2,
				)


				class _AnnotationExtractor:
				"""
				Extract type annotations from a callable, returning None whenever there
				is none.
				"""

				__slots__ = ["sig"]

				def __init__(self, callable):
				try:
				self.sig = inspect.signature(callable)
				except (ValueError, TypeError): # inspect failed
				self.sig = None

				def get_first_param_type(self):
				"""
				Return the type annotation of the first argument if it's not empty.
				"""
				if not self.sig:
				return None

				params = list(self.sig.parameters.values())
				if params and params[0].annotation is not inspect.Parameter.empty:
				return params[0].annotation

				return None

				def get_return_type(self):
				"""
				Return the return type if it's not empty.
				"""
				if (
				self.sig
				and self.sig.return_annotation is not inspect.Signature.empty
				):
				return self.sig.return_annotation

				return None


				def make_set_closure_cell():
				"""Return a function of two arguments (cell, value) which sets
				the value stored in the closure cell `cell` to `value`.
				"""
				# pypy makes this easy. (It also supports the logic below, but
				# why not do the easy/fast thing?)
				if PYPY:

				def set_closure_cell(cell, value):
				cell.__setstate__((value,))

				return set_closure_cell

				# Otherwise gotta do it the hard way.

				# Create a function that will set its first cellvar to `value`.
				def set_first_cellvar_to(value):
				x = value
				return

				# This function will be eliminated as dead code, but
				# not before its reference to `x` forces `x` to be
				# represented as a closure cell rather than a local.
				def force_x_to_be_a_cell(): # pragma: no cover
				return x

				try:
				# Extract the code object and make sure our assumptions about
				# the closure behavior are correct.
				co = set_first_cellvar_to.__code__
				if co.co_cellvars != ("x",) or co.co_freevars != ():
				raise AssertionError # pragma: no cover

				# Convert this code object to a code object that sets the
				# function's first _freevar_ (not cellvar) to the argument.
				if sys.version_info >= (3, 8):

				def set_closure_cell(cell, value):
				cell.cell_contents = value

				else:
				args = [co.co_argcount]
				args.append(co.co_kwonlyargcount)
				args.extend(
				[
				co.co_nlocals,
				co.co_stacksize,
				co.co_flags,
				co.co_code,
				co.co_consts,
				co.co_names,
				co.co_varnames,
				co.co_filename,
				co.co_name,
				co.co_firstlineno,
				co.co_lnotab,
				# These two arguments are reversed:
				co.co_cellvars,
				co.co_freevars,
				]
				)
				set_first_freevar_code = types.CodeType(*args)

				def set_closure_cell(cell, value):
				# Create a function using the set_first_freevar_code,
				# whose first closure cell is `cell`. Calling it will
				# change the value of that cell.
				setter = types.FunctionType(
				set_first_freevar_code, {}, "setter", (), (cell,)
				)
				# And call it to set the cell.
				setter(value)

				# Make sure it works on this interpreter:
				def make_func_with_cell():
				x = None

				def func():
				return x # pragma: no cover

				return func

				cell = make_func_with_cell().__closure__[0]
				set_closure_cell(cell, 100)
				if cell.cell_contents != 100:
				raise AssertionError # pragma: no cover

				except Exception:
				return just_warn
				else:
				return set_closure_cell


				set_closure_cell = make_set_closure_cell()

				# Thread-local global to track attrs instances which are already being repr'd.
				# This is needed because there is no other (thread-safe) way to pass info
				# about the instances that are already being repr'd through the call stack
				# in order to ensure we don't perform infinite recursion.
				#
				# For instance, if an instance contains a dict which contains that instance,
				# we need to know that we're already repr'ing the outside instance from within
				# the dict's repr() call.
				#
				# This lives here rather than in _make.py so that the functions in _make.py
				# don't have a direct reference to the thread-local in their globals dict.
				# If they have such a reference, it breaks cloudpickle.
				repr_context = threading.local()