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

evolution: report new unstable changesets...

evolution: report new unstable changesets This adds a transaction summary callback that reports the number of new orphan, content-divergent and phase-divergent changesets. The code for reporting it is based on the code from the evolve extension, but simplified a bit. It simply counts the numbers for each kind of instability before and after the transaction. That's obviously not very efficient, but it's easy to reason about, so I'm doing this as a first step that can make us quite confident about the test case changes. We can optimize it later and make sure that the tests are not affected. The code has been used in the evolve extension for a long time and has apparently been sufficiently fast, so it doesn't seem like a pressing issue. Unlike the evolve extension's version of this report, this version applies to all commands (or all transactions run as part of any command, to be exact). Differential Revision: https://phab.mercurial-scm.org/D1867

Augie Fackler - - Load All Authors

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      # peer.py - repository base classes for mercurial

      #

      # Copyright 2005, 2006 Matt Mackall <mpm@selenic.com>

      # Copyright 2006 Vadim Gelfer <vadim.gelfer@gmail.com>

      #

      # 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

      from . import (

          error,

          pycompat,

          util,

      )

      # abstract batching support

      class future(object):

          '''placeholder for a value to be set later'''

          def set(self, value):

              if util.safehasattr(self, 'value'):

                  raise error.RepoError("future is already set")

              self.value = value

      class batcher(object):

          '''base class for batches of commands submittable in a single request

          All methods invoked on instances of this class are simply queued and

          return a a future for the result. Once you call submit(), all the queued

          calls are performed and the results set in their respective futures.

          '''

          def __init__(self):

              self.calls = []

          def __getattr__(self, name):

              def call(*args, **opts):

                  resref = future()

                  # Please don't invent non-ascii method names, or you will

                  # give core hg a very sad time.

                  self.calls.append((name.encode('ascii'), args, opts, resref,))

                  return resref

              return call

          def submit(self):

              raise NotImplementedError()

      class iterbatcher(batcher):

          def submit(self):

              raise NotImplementedError()

          def results(self):

              raise NotImplementedError()

      class localiterbatcher(iterbatcher):

          def __init__(self, local):

              super(iterbatcher, self).__init__()

              self.local = local

          def submit(self):

              # submit for a local iter batcher is a noop

              pass

          def results(self):

              for name, args, opts, resref in self.calls:

                  resref.set(getattr(self.local, name)(*args, **opts))

                  yield resref.value

      def batchable(f):

          '''annotation for batchable methods

          Such methods must implement a coroutine as follows:

          @batchable

          def sample(self, one, two=None):

              # Build list of encoded arguments suitable for your wire protocol:

              encargs = [('one', encode(one),), ('two', encode(two),)]

              # Create future for injection of encoded result:

              encresref = future()

              # Return encoded arguments and future:

              yield encargs, encresref

              # Assuming the future to be filled with the result from the batched

              # request now. Decode it:

              yield decode(encresref.value)

          The decorator returns a function which wraps this coroutine as a plain

          method, but adds the original method as an attribute called "batchable",

          which is used by remotebatch to split the call into separate encoding and

          decoding phases.

          '''

          def plain(*args, **opts):

              batchable = f(*args, **opts)

              encargsorres, encresref = next(batchable)

              if not encresref:

                  return encargsorres # a local result in this case

              self = args[0]

              cmd = pycompat.bytesurl(f.__name__)  # ensure cmd is ascii bytestr

              encresref.set(self._submitone(cmd, encargsorres))

              return next(batchable)

          setattr(plain, 'batchable', f)

          return plain

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				# peer.py - repository base classes for mercurial
				#
				# Copyright 2005, 2006 Matt Mackall <mpm@selenic.com>
				# Copyright 2006 Vadim Gelfer <vadim.gelfer@gmail.com>
				#
				# 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

				from . import (
				error,
				pycompat,
				util,
				)

				# abstract batching support

				class future(object):
				'''placeholder for a value to be set later'''
				def set(self, value):
				if util.safehasattr(self, 'value'):
				raise error.RepoError("future is already set")
				self.value = value

				class batcher(object):
				'''base class for batches of commands submittable in a single request

				All methods invoked on instances of this class are simply queued and
				return a a future for the result. Once you call submit(), all the queued
				calls are performed and the results set in their respective futures.
				'''
				def __init__(self):
				self.calls = []
				def __getattr__(self, name):
				def call(args, *opts):
				resref = future()
				# Please don't invent non-ascii method names, or you will
				# give core hg a very sad time.
				self.calls.append((name.encode('ascii'), args, opts, resref,))
				return resref
				return call
				def submit(self):
				raise NotImplementedError()

				class iterbatcher(batcher):

				def submit(self):
				raise NotImplementedError()

				def results(self):
				raise NotImplementedError()

				class localiterbatcher(iterbatcher):
				def __init__(self, local):
				super(iterbatcher, self).__init__()
				self.local = local

				def submit(self):
				# submit for a local iter batcher is a noop
				pass

				def results(self):
				for name, args, opts, resref in self.calls:
				resref.set(getattr(self.local, name)(args, *opts))
				yield resref.value

				def batchable(f):
				'''annotation for batchable methods

				Such methods must implement a coroutine as follows:

				@batchable
				def sample(self, one, two=None):
				# Build list of encoded arguments suitable for your wire protocol:
				encargs = [('one', encode(one),), ('two', encode(two),)]
				# Create future for injection of encoded result:
				encresref = future()
				# Return encoded arguments and future:
				yield encargs, encresref
				# Assuming the future to be filled with the result from the batched
				# request now. Decode it:
				yield decode(encresref.value)

				The decorator returns a function which wraps this coroutine as a plain
				method, but adds the original method as an attribute called "batchable",
				which is used by remotebatch to split the call into separate encoding and
				decoding phases.
				'''
				def plain(args, *opts):
				batchable = f(args, *opts)
				encargsorres, encresref = next(batchable)
				if not encresref:
				return encargsorres # a local result in this case
				self = args[0]
				cmd = pycompat.bytesurl(f.__name__) # ensure cmd is ascii bytestr
				encresref.set(self._submitone(cmd, encargsorres))
				return next(batchable)
				setattr(plain, 'batchable', f)
				return plain