upstream/mercurial-mirror Commit - r42351:6631f3e8

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# setdiscovery.py - improved discovery of common nodeset for mercurial

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# setdiscovery.py - improved discovery of common nodeset for mercurial

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#

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#

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# and Peter Arrenbrecht <peter@arrenbrecht.ch>

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# and Peter Arrenbrecht <peter@arrenbrecht.ch>

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#

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#

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

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

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

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

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"""

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"""

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Algorithm works in the following way. You have two repository: local and

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Algorithm works in the following way. You have two repository: local and

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remote. They both contains a DAG of changelists.

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remote. They both contains a DAG of changelists.

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The goal of the discovery protocol is to find one set of node *common*,

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The goal of the discovery protocol is to find one set of node *common*,

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the set of nodes shared by local and remote.

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the set of nodes shared by local and remote.

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One of the issue with the original protocol was latency, it could

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One of the issue with the original protocol was latency, it could

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potentially require lots of roundtrips to discover that the local repo was a

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potentially require lots of roundtrips to discover that the local repo was a

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subset of remote (which is a very common case, you usually have few changes

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subset of remote (which is a very common case, you usually have few changes

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compared to upstream, while upstream probably had lots of development).

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compared to upstream, while upstream probably had lots of development).

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The new protocol only requires one interface for the remote repo: `known()`,

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The new protocol only requires one interface for the remote repo: `known()`,

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which given a set of changelists tells you if they are present in the DAG.

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which given a set of changelists tells you if they are present in the DAG.

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The algorithm then works as follow:

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The algorithm then works as follow:

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- We will be using three sets, `common`, `missing`, `unknown`. Originally

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- We will be using three sets, `common`, `missing`, `unknown`. Originally

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all nodes are in `unknown`.

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all nodes are in `unknown`.

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- Take a sample from `unknown`, call `remote.known(sample)`

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- Take a sample from `unknown`, call `remote.known(sample)`

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- For each node that remote knows, move it and all its ancestors to `common`

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- For each node that remote knows, move it and all its ancestors to `common`

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- For each node that remote doesn't know, move it and all its descendants

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- For each node that remote doesn't know, move it and all its descendants

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to `missing`

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to `missing`

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- Iterate until `unknown` is empty

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- Iterate until `unknown` is empty

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There are a couple optimizations, first is instead of starting with a random

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There are a couple optimizations, first is instead of starting with a random

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sample of missing, start by sending all heads, in the case where the local

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sample of missing, start by sending all heads, in the case where the local

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repo is a subset, you computed the answer in one round trip.

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repo is a subset, you computed the answer in one round trip.

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Then you can do something similar to the bisecting strategy used when

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Then you can do something similar to the bisecting strategy used when

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finding faulty changesets. Instead of random samples, you can try picking

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finding faulty changesets. Instead of random samples, you can try picking

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nodes that will maximize the number of nodes that will be

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nodes that will maximize the number of nodes that will be

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classified with it (since all ancestors or descendants will be marked as well).

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classified with it (since all ancestors or descendants will be marked as well).

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"""

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"""

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from __future__ import absolute_import

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from __future__ import absolute_import

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import collections

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import collections

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import random

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import random

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from .i18n import _

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from .i18n import _

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from .node import (

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from .node import (

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nullid,

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nullid,

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nullrev,

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nullrev,

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)

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)

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from . import (

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from . import (

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error,

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error,

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util,

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util,

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)

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)

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def _updatesample(revs, heads, sample, parentfn, quicksamplesize=0):

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def _updatesample(revs, heads, sample, parentfn, quicksamplesize=0):

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"""update an existing sample to match the expected size

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"""update an existing sample to match the expected size

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The sample is updated with revs exponentially distant from each head of the

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The sample is updated with revs exponentially distant from each head of the

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<revs> set. (H~1, H~2, H~4, H~8, etc).

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<revs> set. (H~1, H~2, H~4, H~8, etc).

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If a target size is specified, the sampling will stop once this size is

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If a target size is specified, the sampling will stop once this size is

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reached. Otherwise sampling will happen until roots of the <revs> set are

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reached. Otherwise sampling will happen until roots of the <revs> set are

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reached.

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reached.

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:revs: set of revs we want to discover (if None, assume the whole dag)

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:revs: set of revs we want to discover (if None, assume the whole dag)

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:heads: set of DAG head revs

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:heads: set of DAG head revs

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:sample: a sample to update

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:sample: a sample to update

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:parentfn: a callable to resolve parents for a revision

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:parentfn: a callable to resolve parents for a revision

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:quicksamplesize: optional target size of the sample"""

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:quicksamplesize: optional target size of the sample"""

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dist = {}

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dist = {}

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visit = collections.deque(heads)

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visit = collections.deque(heads)

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seen = set()

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seen = set()

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factor = 1

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factor = 1

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while visit:

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while visit:

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curr = visit.popleft()

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curr = visit.popleft()

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if curr in seen:

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if curr in seen:

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continue

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continue

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d = dist.setdefault(curr, 1)

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d = dist.setdefault(curr, 1)

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if d > factor:

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if d > factor:

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factor *= 2

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factor *= 2

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if d == factor:

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if d == factor:

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sample.add(curr)

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sample.add(curr)

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if quicksamplesize and (len(sample) >= quicksamplesize):

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if quicksamplesize and (len(sample) >= quicksamplesize):

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return

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return

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seen.add(curr)

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seen.add(curr)

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for p in parentfn(curr):

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for p in parentfn(curr):

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if p != nullrev and (not revs or p in revs):

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if p != nullrev and (not revs or p in revs):

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dist.setdefault(p, d + 1)

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dist.setdefault(p, d + 1)

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visit.append(p)

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visit.append(p)

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def _limitsample(sample, desiredlen):

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def _limitsample(sample, desiredlen):

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"""return a random subset of sample of at most desiredlen item"""

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"""return a random subset of sample of at most desiredlen item"""

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if len(sample) > desiredlen:

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if len(sample) > desiredlen:

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sample = set(random.sample(sample, desiredlen))

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sample = set(random.sample(sample, desiredlen))

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return sample

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return sample

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class partialdiscovery(object):

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class partialdiscovery(object):

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"""an object representing ongoing discovery

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"""an object representing ongoing discovery

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Feed with data from the remote repository, this object keep track of the

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Feed with data from the remote repository, this object keep track of the

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current set of changeset in various states:

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current set of changeset in various states:

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- common: revs also known remotely

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- common: revs also known remotely

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- undecided: revs we don't have information on yet

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- undecided: revs we don't have information on yet

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- missing: revs missing remotely

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- missing: revs missing remotely

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(all tracked revisions are known locally)

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(all tracked revisions are known locally)

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"""

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"""

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def __init__(self, repo, targetheads):

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def __init__(self, repo, targetheads):

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self._repo = repo

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self._repo = repo

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self._targetheads = targetheads

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self._targetheads = targetheads

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self._common = repo.changelog.incrementalmissingrevs()

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self._common = repo.changelog.incrementalmissingrevs()

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self._undecided = None

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self._undecided = None

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self.missing = set()

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self.missing = set()

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self._childrenmap = None

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self._childrenmap = None

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def addcommons(self, commons):

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def addcommons(self, commons):

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"""registrer nodes known as common"""

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"""register nodes known as common"""

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self._common.addbases(commons)

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self._common.addbases(commons)

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if self._undecided is not None:

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if self._undecided is not None:

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self._common.removeancestorsfrom(self._undecided)

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self._common.removeancestorsfrom(self._undecided)

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def addmissings(self, missings):

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def addmissings(self, missings):

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"""registrer some nodes as missing"""

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"""register some nodes as missing"""

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newmissing = self._repo.revs('%ld::%ld', missings, self.undecided)

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newmissing = self._repo.revs('%ld::%ld', missings, self.undecided)

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if newmissing:

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if newmissing:

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self.missing.update(newmissing)

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self.missing.update(newmissing)

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self.undecided.difference_update(newmissing)

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self.undecided.difference_update(newmissing)

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def addinfo(self, sample):

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def addinfo(self, sample):

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"""consume an iterable of (rev, known) tuples"""

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"""consume an iterable of (rev, known) tuples"""

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common = set()

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common = set()

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missing = set()

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missing = set()

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for rev, known in sample:

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for rev, known in sample:

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if known:

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if known:

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common.add(rev)

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common.add(rev)

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else:

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else:

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missing.add(rev)

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missing.add(rev)

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if common:

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if common:

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self.addcommons(common)

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self.addcommons(common)

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if missing:

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if missing:

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self.addmissings(missing)

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self.addmissings(missing)

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def hasinfo(self):

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def hasinfo(self):

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"""return True is we have any clue about the remote state"""

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"""return True is we have any clue about the remote state"""

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return self._common.hasbases()

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return self._common.hasbases()

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def iscomplete(self):

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def iscomplete(self):

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"""True if all the necessary data have been gathered"""

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"""True if all the necessary data have been gathered"""

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return self._undecided is not None and not self._undecided

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return self._undecided is not None and not self._undecided

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@property

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@property

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def undecided(self):

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def undecided(self):

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if self._undecided is not None:

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if self._undecided is not None:

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return self._undecided

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return self._undecided

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self._undecided = set(self._common.missingancestors(self._targetheads))

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self._undecided = set(self._common.missingancestors(self._targetheads))

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return self._undecided

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return self._undecided

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def stats(self):

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def stats(self):

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return {

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return {

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'undecided': len(self.undecided),

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'undecided': len(self.undecided),

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}

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}

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def commonheads(self):

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def commonheads(self):

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"""the heads of the known common set"""

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"""the heads of the known common set"""

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# heads(common) == heads(common.bases) since common represents

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# heads(common) == heads(common.bases) since common represents

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# common.bases and all its ancestors

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# common.bases and all its ancestors

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return self._common.basesheads()

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return self._common.basesheads()

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def _parentsgetter(self):

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def _parentsgetter(self):

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getrev = self._repo.changelog.index.__getitem__

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getrev = self._repo.changelog.index.__getitem__

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def getparents(r):

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def getparents(r):

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return getrev(r)[5:7]

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return getrev(r)[5:7]

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return getparents

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return getparents

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def _childrengetter(self):

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def _childrengetter(self):

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if self._childrenmap is not None:

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if self._childrenmap is not None:

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# During discovery, the `undecided` set keep shrinking.

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# During discovery, the `undecided` set keep shrinking.

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# Therefore, the map computed for an iteration N will be

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# Therefore, the map computed for an iteration N will be

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# valid for iteration N+1. Instead of computing the same

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# valid for iteration N+1. Instead of computing the same

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# data over and over we cached it the first time.

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# data over and over we cached it the first time.

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return self._childrenmap.__getitem__

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return self._childrenmap.__getitem__

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# _updatesample() essentially does interaction over revisions to look

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# _updatesample() essentially does interaction over revisions to look

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# up their children. This lookup is expensive and doing it in a loop is

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# up their children. This lookup is expensive and doing it in a loop is

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# quadratic. We precompute the children for all relevant revisions and

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# quadratic. We precompute the children for all relevant revisions and

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# make the lookup in _updatesample() a simple dict lookup.

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# make the lookup in _updatesample() a simple dict lookup.

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self._childrenmap = children = {}

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self._childrenmap = children = {}

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parentrevs = self._parentsgetter()

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parentrevs = self._parentsgetter()

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revs = self.undecided

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revs = self.undecided

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for rev in sorted(revs):

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for rev in sorted(revs):

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# Always ensure revision has an entry so we don't need to worry

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# Always ensure revision has an entry so we don't need to worry

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# about missing keys.

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# about missing keys.

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children[rev] = []

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children[rev] = []

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for prev in parentrevs(rev):

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for prev in parentrevs(rev):

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if prev == nullrev:

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if prev == nullrev:

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continue

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continue

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c = children.get(prev)

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c = children.get(prev)

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if c is not None:

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if c is not None:

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c.append(rev)

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c.append(rev)

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return children.__getitem__

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return children.__getitem__

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def takequicksample(self, headrevs, size):

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def takequicksample(self, headrevs, size):

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"""takes a quick sample of size <size>

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"""takes a quick sample of size <size>

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It is meant for initial sampling and focuses on querying heads and close

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It is meant for initial sampling and focuses on querying heads and close

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ancestors of heads.

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ancestors of heads.

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:headrevs: set of head revisions in local DAG to consider

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:headrevs: set of head revisions in local DAG to consider

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:size: the maximum size of the sample"""

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:size: the maximum size of the sample"""

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revs = self.undecided

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revs = self.undecided

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if len(revs) <= size:

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if len(revs) <= size:

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return list(revs)

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return list(revs)

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sample = set(self._repo.revs('heads(%ld)', revs))

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sample = set(self._repo.revs('heads(%ld)', revs))

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if len(sample) >= size:

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if len(sample) >= size:

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return _limitsample(sample, size)

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return _limitsample(sample, size)

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_updatesample(None, headrevs, sample, self._parentsgetter(),

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_updatesample(None, headrevs, sample, self._parentsgetter(),

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quicksamplesize=size)

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quicksamplesize=size)

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return sample

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return sample

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def takefullsample(self, headrevs, size):

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def takefullsample(self, headrevs, size):

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revs = self.undecided

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revs = self.undecided

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if len(revs) <= size:

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if len(revs) <= size:

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return list(revs)

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return list(revs)

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repo = self._repo

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repo = self._repo

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sample = set(repo.revs('heads(%ld)', revs))

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sample = set(repo.revs('heads(%ld)', revs))

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parentrevs = self._parentsgetter()

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parentrevs = self._parentsgetter()

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# update from heads

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# update from heads

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revsheads = sample.copy()

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revsheads = sample.copy()

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_updatesample(revs, revsheads, sample, parentrevs)

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_updatesample(revs, revsheads, sample, parentrevs)

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# update from roots

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# update from roots

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revsroots = set(repo.revs('roots(%ld)', revs))

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revsroots = set(repo.revs('roots(%ld)', revs))

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childrenrevs = self._childrengetter()

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childrenrevs = self._childrengetter()

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_updatesample(revs, revsroots, sample, childrenrevs)

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_updatesample(revs, revsroots, sample, childrenrevs)

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assert sample

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assert sample

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sample = _limitsample(sample, size)

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sample = _limitsample(sample, size)

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if len(sample) < size:

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if len(sample) < size:

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more = size - len(sample)

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more = size - len(sample)

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sample.update(random.sample(list(revs - sample), more))

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sample.update(random.sample(list(revs - sample), more))

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return sample

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return sample

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def findcommonheads(ui, local, remote,

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def findcommonheads(ui, local, remote,

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initialsamplesize=100,

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initialsamplesize=100,

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fullsamplesize=200,

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fullsamplesize=200,

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abortwhenunrelated=True,

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abortwhenunrelated=True,

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ancestorsof=None):

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ancestorsof=None):

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'''Return a tuple (common, anyincoming, remoteheads) used to identify

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'''Return a tuple (common, anyincoming, remoteheads) used to identify

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missing nodes from or in remote.

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missing nodes from or in remote.

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'''

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'''

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start = util.timer()

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start = util.timer()

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roundtrips = 0

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roundtrips = 0

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cl = local.changelog

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cl = local.changelog

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clnode = cl.node

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clnode = cl.node

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clrev = cl.rev

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clrev = cl.rev

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if ancestorsof is not None:

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if ancestorsof is not None:

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ownheads = [clrev(n) for n in ancestorsof]

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ownheads = [clrev(n) for n in ancestorsof]

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else:

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else:

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ownheads = [rev for rev in cl.headrevs() if rev != nullrev]

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ownheads = [rev for rev in cl.headrevs() if rev != nullrev]

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# early exit if we know all the specified remote heads already

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# early exit if we know all the specified remote heads already

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ui.debug("query 1; heads\n")

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ui.debug("query 1; heads\n")

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roundtrips += 1

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roundtrips += 1

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# We also ask remote about all the local heads. That set can be arbitrarily

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# We also ask remote about all the local heads. That set can be arbitrarily

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# large, so we used to limit it size to `initialsamplesize`. We no longer

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# large, so we used to limit it size to `initialsamplesize`. We no longer

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# do as it proved counter productive. The skipped heads could lead to a

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# do as it proved counter productive. The skipped heads could lead to a

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# large "undecided" set, slower to be clarified than if we asked the

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# large "undecided" set, slower to be clarified than if we asked the

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# question for all heads right away.

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# question for all heads right away.

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#

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#

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# We are already fetching all server heads using the `heads` commands,

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# We are already fetching all server heads using the `heads` commands,

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# sending a equivalent number of heads the other way should not have a

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# sending a equivalent number of heads the other way should not have a

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# significant impact. In addition, it is very likely that we are going to

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# significant impact. In addition, it is very likely that we are going to

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# have to issue "known" request for an equivalent amount of revisions in

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# have to issue "known" request for an equivalent amount of revisions in

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# order to decide if theses heads are common or missing.

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# order to decide if theses heads are common or missing.

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#

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#

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# find a detailled analysis below.

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# find a detailled analysis below.

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#

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#

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# Case A: local and server both has few heads

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# Case A: local and server both has few heads

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#

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#

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# Ownheads is below initialsamplesize, limit would not have any effect.

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# Ownheads is below initialsamplesize, limit would not have any effect.

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#

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#

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# Case B: local has few heads and server has many

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# Case B: local has few heads and server has many

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#

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#

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# Ownheads is below initialsamplesize, limit would not have any effect.

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# Ownheads is below initialsamplesize, limit would not have any effect.

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#

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#

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# Case C: local and server both has many heads

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# Case C: local and server both has many heads

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#

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#

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# We now transfert some more data, but not significantly more than is

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# We now transfert some more data, but not significantly more than is

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# already transfered to carry the server heads.

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# already transfered to carry the server heads.

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#

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#

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# Case D: local has many heads, server has few

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# Case D: local has many heads, server has few

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#

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#

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# D.1 local heads are mostly known remotely

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# D.1 local heads are mostly known remotely

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#

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#

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# All the known head will have be part of a `known` request at some

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# All the known head will have be part of a `known` request at some

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# point for the discovery to finish. Sending them all earlier is

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# point for the discovery to finish. Sending them all earlier is

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# actually helping.

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# actually helping.

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#

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#

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# (This case is fairly unlikely, it requires the numerous heads to all

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# (This case is fairly unlikely, it requires the numerous heads to all

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# be merged server side in only a few heads)

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# be merged server side in only a few heads)

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#

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#

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# D.2 local heads are mostly missing remotely

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# D.2 local heads are mostly missing remotely

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#

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#

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# To determine that the heads are missing, we'll have to issue `known`

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# To determine that the heads are missing, we'll have to issue `known`

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# request for them or one of their ancestors. This amount of `known`

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# request for them or one of their ancestors. This amount of `known`

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# request will likely be in the same order of magnitude than the amount

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# request will likely be in the same order of magnitude than the amount

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# of local heads.

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# of local heads.

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#

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#

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# The only case where we can be more efficient using `known` request on

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# The only case where we can be more efficient using `known` request on

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# ancestors are case were all the "missing" local heads are based on a

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# ancestors are case were all the "missing" local heads are based on a

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# few changeset, also "missing". This means we would have a "complex"

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# few changeset, also "missing". This means we would have a "complex"

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# graph (with many heads) attached to, but very independant to a the

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# graph (with many heads) attached to, but very independant to a the

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# "simple" graph on the server. This is a fairly usual case and have

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# "simple" graph on the server. This is a fairly usual case and have

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# not been met in the wild so far.

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# not been met in the wild so far.

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if remote.limitedarguments:

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if remote.limitedarguments:

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sample = _limitsample(ownheads, initialsamplesize)

330

sample = _limitsample(ownheads, initialsamplesize)

331

# indices between sample and externalized version must match

331

# indices between sample and externalized version must match

332

sample = list(sample)

332

sample = list(sample)

333

else:

333

else:

334

sample = ownheads

334

sample = ownheads

335

336

with remote.commandexecutor() as e:

336

with remote.commandexecutor() as e:

337

fheads = e.callcommand('heads', {})

337

fheads = e.callcommand('heads', {})

338

fknown = e.callcommand('known', {

338

fknown = e.callcommand('known', {

339

'nodes': [clnode(r) for r in sample],

339

'nodes': [clnode(r) for r in sample],

340

})

340

})

341

342

srvheadhashes, yesno = fheads.result(), fknown.result()

342

srvheadhashes, yesno = fheads.result(), fknown.result()

343

344

if cl.tip() == nullid:

344

if cl.tip() == nullid:

345

if srvheadhashes != [nullid]:

345

if srvheadhashes != [nullid]:

346

return [nullid], True, srvheadhashes

346

return [nullid], True, srvheadhashes

347

return [nullid], False, []

347

return [nullid], False, []

348

349

# start actual discovery (we note this before the next "if" for

349

# start actual discovery (we note this before the next "if" for

350

# compatibility reasons)

350

# compatibility reasons)

351

ui.status(_("searching for changes\n"))

351

ui.status(_("searching for changes\n"))

352

353

knownsrvheads = [] # revnos of remote heads that are known locally

353

knownsrvheads = [] # revnos of remote heads that are known locally

354

for node in srvheadhashes:

354

for node in srvheadhashes:

355

if node == nullid:

355

if node == nullid:

356

continue

356

continue

357

358

try:

358

try:

359

knownsrvheads.append(clrev(node))

359

knownsrvheads.append(clrev(node))

360

# Catches unknown and filtered nodes.

360

# Catches unknown and filtered nodes.

361

except error.LookupError:

361

except error.LookupError:

362

continue

362

continue

363

364

if len(knownsrvheads) == len(srvheadhashes):

364

if len(knownsrvheads) == len(srvheadhashes):

365

ui.debug("all remote heads known locally\n")

365

ui.debug("all remote heads known locally\n")

366

return srvheadhashes, False, srvheadhashes

366

return srvheadhashes, False, srvheadhashes

367

368

if len(sample) == len(ownheads) and all(yesno):

368

if len(sample) == len(ownheads) and all(yesno):

369

ui.note(_("all local heads known remotely\n"))

369

ui.note(_("all local heads known remotely\n"))

370

ownheadhashes = [clnode(r) for r in ownheads]

370

ownheadhashes = [clnode(r) for r in ownheads]

371

return ownheadhashes, True, srvheadhashes

371

return ownheadhashes, True, srvheadhashes

372

373

# full blown discovery

373

# full blown discovery

374

375

disco = partialdiscovery(local, ownheads)

375

disco = partialdiscovery(local, ownheads)

376

# treat remote heads (and maybe own heads) as a first implicit sample

376

# treat remote heads (and maybe own heads) as a first implicit sample

377

# response

377

# response

378

disco.addcommons(knownsrvheads)

378

disco.addcommons(knownsrvheads)

379

disco.addinfo(zip(sample, yesno))

379

disco.addinfo(zip(sample, yesno))

380

381

full = False

381

full = False

382

progress = ui.makeprogress(_('searching'), unit=_('queries'))

382

progress = ui.makeprogress(_('searching'), unit=_('queries'))

383

while not disco.iscomplete():

383

while not disco.iscomplete():

384

385

if full or disco.hasinfo():

385

if full or disco.hasinfo():

386

if full:

386

if full:

387

ui.note(_("sampling from both directions\n"))

387

ui.note(_("sampling from both directions\n"))

388

else:

388

else:

389

ui.debug("taking initial sample\n")

389

ui.debug("taking initial sample\n")

390

samplefunc = disco.takefullsample

390

samplefunc = disco.takefullsample

391

targetsize = fullsamplesize

391

targetsize = fullsamplesize

392

else:

392

else:

393

# use even cheaper initial sample

393

# use even cheaper initial sample

394

ui.debug("taking quick initial sample\n")

394

ui.debug("taking quick initial sample\n")

395

samplefunc = disco.takequicksample

395

samplefunc = disco.takequicksample

396

targetsize = initialsamplesize

396

targetsize = initialsamplesize

397

sample = samplefunc(ownheads, targetsize)

397

sample = samplefunc(ownheads, targetsize)

398

399

roundtrips += 1

399

roundtrips += 1

400

progress.update(roundtrips)

400

progress.update(roundtrips)

401

stats = disco.stats()

401

stats = disco.stats()

402

ui.debug("query %i; still undecided: %i, sample size is: %i\n"

402

ui.debug("query %i; still undecided: %i, sample size is: %i\n"

403

% (roundtrips, stats['undecided'], len(sample)))

403

% (roundtrips, stats['undecided'], len(sample)))

404

405

# indices between sample and externalized version must match

405

# indices between sample and externalized version must match

406

sample = list(sample)

406

sample = list(sample)

407

408

with remote.commandexecutor() as e:

408

with remote.commandexecutor() as e:

409

yesno = e.callcommand('known', {

409

yesno = e.callcommand('known', {

410

'nodes': [clnode(r) for r in sample],

410

'nodes': [clnode(r) for r in sample],

411

}).result()

411

}).result()

412

413

full = True

413

full = True

414

415

disco.addinfo(zip(sample, yesno))

415

disco.addinfo(zip(sample, yesno))

416

417

result = disco.commonheads()

417

result = disco.commonheads()

418

elapsed = util.timer() - start

418

elapsed = util.timer() - start

419

progress.complete()

419

progress.complete()

420

ui.debug("%d total queries in %.4fs\n" % (roundtrips, elapsed))

420

ui.debug("%d total queries in %.4fs\n" % (roundtrips, elapsed))

421

msg = ('found %d common and %d unknown server heads,'

421

msg = ('found %d common and %d unknown server heads,'

422

' %d roundtrips in %.4fs\n')

422

' %d roundtrips in %.4fs\n')

423

missing = set(result) - set(knownsrvheads)

423

missing = set(result) - set(knownsrvheads)

424

ui.log('discovery', msg, len(result), len(missing), roundtrips,

424

ui.log('discovery', msg, len(result), len(missing), roundtrips,

425

elapsed)

425

elapsed)

426

427

if not result and srvheadhashes != [nullid]:

427

if not result and srvheadhashes != [nullid]:

428

if abortwhenunrelated:

428

if abortwhenunrelated:

429

raise error.Abort(_("repository is unrelated"))

429

raise error.Abort(_("repository is unrelated"))

430

else:

430

else:

431

ui.warn(_("warning: repository is unrelated\n"))

431

ui.warn(_("warning: repository is unrelated\n"))

432

return ({nullid}, True, srvheadhashes,)

432

return ({nullid}, True, srvheadhashes,)

433

434

anyincoming = (srvheadhashes != [nullid])

434

anyincoming = (srvheadhashes != [nullid])

435

result = {clnode(r) for r in result}

435

result = {clnode(r) for r in result}

436

return result, anyincoming, srvheadhashes

436

return result, anyincoming, srvheadhashes

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             # setdiscovery.py - improved discovery of common nodeset for mercurial
             #
             # Copyright 2010 Benoit Boissinot <bboissin@gmail.com>
             # and Peter Arrenbrecht <peter@arrenbrecht.ch>
             #
             # This software may be used and distributed according to the terms of the
             # GNU General Public License version 2 or any later version.
             """
             Algorithm works in the following way. You have two repository: local and
             remote. They both contains a DAG of changelists.
             The goal of the discovery protocol is to find one set of node *common*,
             the set of nodes shared by local and remote.
             One of the issue with the original protocol was latency, it could
             potentially require lots of roundtrips to discover that the local repo was a
             subset of remote (which is a very common case, you usually have few changes
             compared to upstream, while upstream probably had lots of development).
             The new protocol only requires one interface for the remote repo: `known()`,
             which given a set of changelists tells you if they are present in the DAG.
             The algorithm then works as follow:
              - We will be using three sets, `common`, `missing`, `unknown`. Originally
              all nodes are in `unknown`.
              - Take a sample from `unknown`, call `remote.known(sample)`
                - For each node that remote knows, move it and all its ancestors to `common`
                - For each node that remote doesn't know, move it and all its descendants
                to `missing`
              - Iterate until `unknown` is empty
             There are a couple optimizations, first is instead of starting with a random
             sample of missing, start by sending all heads, in the case where the local
             repo is a subset, you computed the answer in one round trip.
             Then you can do something similar to the bisecting strategy used when
             finding faulty changesets. Instead of random samples, you can try picking
             nodes that will maximize the number of nodes that will be
             classified with it (since all ancestors or descendants will be marked as well).
             """
             from __future__ import absolute_import
             import collections
             import random
             from .i18n import _
             from .node import (
                 nullid,
                 nullrev,
             )
             from . import (
                 error,
                 util,
             )
             def _updatesample(revs, heads, sample, parentfn, quicksamplesize=0):
                 """update an existing sample to match the expected size
                 The sample is updated with revs exponentially distant from each head of the
                 <revs> set. (H~1, H~2, H~4, H~8, etc).
                 If a target size is specified, the sampling will stop once this size is
                 reached. Otherwise sampling will happen until roots of the <revs> set are
                 reached.
                 :revs:  set of revs we want to discover (if None, assume the whole dag)
                 :heads: set of DAG head revs
                 :sample: a sample to update
                 :parentfn: a callable to resolve parents for a revision
                 :quicksamplesize: optional target size of the sample"""
                 dist = {}
                 visit = collections.deque(heads)
                 seen = set()
                 factor = 1
                 while visit:
                     curr = visit.popleft()
                     if curr in seen:
                         continue
                     d = dist.setdefault(curr, 1)
                     if d > factor:
                         factor *= 2
                     if d == factor:
                         sample.add(curr)
                         if quicksamplesize and (len(sample) >= quicksamplesize):
                             return
                     seen.add(curr)
                     for p in parentfn(curr):
                         if p != nullrev and (not revs or p in revs):
                             dist.setdefault(p, d + 1)
                             visit.append(p)
             def _limitsample(sample, desiredlen):
                 """return a random subset of sample of at most desiredlen item"""
                 if len(sample) > desiredlen:
                     sample = set(random.sample(sample, desiredlen))
                 return sample
             class partialdiscovery(object):
                 """an object representing ongoing discovery
                 Feed with data from the remote repository, this object keep track of the
                 current set of changeset in various states:
                 - common:    revs also known remotely
                 - undecided: revs we don't have information on yet
                 - missing:   revs missing remotely
                 (all tracked revisions are known locally)
                 """
                 def __init__(self, repo, targetheads):
                     self._repo = repo
                     self._targetheads = targetheads
                     self._common = repo.changelog.incrementalmissingrevs()
                     self._undecided = None
                     self.missing = set()
                     self._childrenmap = None
                 def addcommons(self, commons):
-                    """registrer nodes known as common"""
+                    """register nodes known as common"""
                     self._common.addbases(commons)
                     if self._undecided is not None:
                         self._common.removeancestorsfrom(self._undecided)
                 def addmissings(self, missings):
-                    """registrer some nodes as missing"""
+                    """register some nodes as missing"""
                     newmissing = self._repo.revs('%ld::%ld', missings, self.undecided)
                     if newmissing:
                         self.missing.update(newmissing)
                         self.undecided.difference_update(newmissing)
                 def addinfo(self, sample):
                     """consume an iterable of (rev, known) tuples"""
                     common = set()
                     missing = set()
                     for rev, known in sample:
                         if known:
                             common.add(rev)
                         else:
                             missing.add(rev)
                     if common:
                         self.addcommons(common)
                     if missing:
                         self.addmissings(missing)
                 def hasinfo(self):
                     """return True is we have any clue about the remote state"""
                     return self._common.hasbases()
                 def iscomplete(self):
                     """True if all the necessary data have been gathered"""
                     return self._undecided is not None and not self._undecided
                 @property
                 def undecided(self):
                     if self._undecided is not None:
                         return self._undecided
                     self._undecided = set(self._common.missingancestors(self._targetheads))
                     return self._undecided
                 def stats(self):
                     return {
                         'undecided': len(self.undecided),
                     }
                 def commonheads(self):
                     """the heads of the known common set"""
                     # heads(common) == heads(common.bases) since common represents
                     # common.bases and all its ancestors
                     return self._common.basesheads()
                 def _parentsgetter(self):
                     getrev = self._repo.changelog.index.__getitem__
                     def getparents(r):
                         return getrev(r)[5:7]
                     return getparents
                 def _childrengetter(self):
                     if self._childrenmap is not None:
                         # During discovery, the `undecided` set keep shrinking.
                         # Therefore, the map computed for an iteration N will be
                         # valid for iteration N+1. Instead of computing the same
                         # data over and over we cached it the first time.
                         return self._childrenmap.__getitem__
                     # _updatesample() essentially does interaction over revisions to look
                     # up their children. This lookup is expensive and doing it in a loop is
                     # quadratic. We precompute the children for all relevant revisions and
                     # make the lookup in _updatesample() a simple dict lookup.
                     self._childrenmap = children = {}
                     parentrevs = self._parentsgetter()
                     revs = self.undecided
                     for rev in sorted(revs):
                         # Always ensure revision has an entry so we don't need to worry
                         # about missing keys.
                         children[rev] = []
                         for prev in parentrevs(rev):
                             if prev == nullrev:
                                 continue
                             c = children.get(prev)
                             if c is not None:
                                 c.append(rev)
                     return children.__getitem__
                 def takequicksample(self, headrevs, size):
                     """takes a quick sample of size <size>
                     It is meant for initial sampling and focuses on querying heads and close
                     ancestors of heads.
                     :headrevs: set of head revisions in local DAG to consider
                     :size: the maximum size of the sample"""
                     revs = self.undecided
                     if len(revs) <= size:
                         return list(revs)
                     sample = set(self._repo.revs('heads(%ld)', revs))
                     if len(sample) >= size:
                         return _limitsample(sample, size)
                     _updatesample(None, headrevs, sample, self._parentsgetter(),
                                   quicksamplesize=size)
                     return sample
                 def takefullsample(self, headrevs, size):
                     revs = self.undecided
                     if len(revs) <= size:
                         return list(revs)
                     repo = self._repo
                     sample = set(repo.revs('heads(%ld)', revs))
                     parentrevs = self._parentsgetter()
                     # update from heads
                     revsheads = sample.copy()
                     _updatesample(revs, revsheads, sample, parentrevs)
                     # update from roots
                     revsroots = set(repo.revs('roots(%ld)', revs))
                     childrenrevs = self._childrengetter()
                     _updatesample(revs, revsroots, sample, childrenrevs)
                     assert sample
                     sample = _limitsample(sample, size)
                     if len(sample) < size:
                         more = size - len(sample)
                         sample.update(random.sample(list(revs - sample), more))
                     return sample
             def findcommonheads(ui, local, remote,
                                 initialsamplesize=100,
                                 fullsamplesize=200,
                                 abortwhenunrelated=True,
                                 ancestorsof=None):
                 '''Return a tuple (common, anyincoming, remoteheads) used to identify
                 missing nodes from or in remote.
                 '''
                 start = util.timer()
                 roundtrips = 0
                 cl = local.changelog
                 clnode = cl.node
                 clrev = cl.rev
                 if ancestorsof is not None:
                     ownheads = [clrev(n) for n in ancestorsof]
                 else:
                     ownheads = [rev for rev in cl.headrevs() if rev != nullrev]
                 # early exit if we know all the specified remote heads already
                 ui.debug("query 1; heads\n")
                 roundtrips += 1
                 # We also ask remote about all the local heads. That set can be arbitrarily
                 # large, so we used to limit it size to `initialsamplesize`. We no longer
                 # do as it proved counter productive. The skipped heads could lead to a
                 # large "undecided" set, slower to be clarified than if we asked the
                 # question for all heads right away.
                 #
                 # We are already fetching all server heads using the `heads` commands,
                 # sending a equivalent number of heads the other way should not have a
                 # significant impact.  In addition, it is very likely that we are going to
                 # have to issue "known" request for an equivalent amount of revisions in
                 # order to decide if theses heads are common or missing.
                 #
                 # find a detailled analysis below.
                 #
                 # Case A: local and server both has few heads
                 #
                 #     Ownheads is below initialsamplesize, limit would not have any effect.
                 #
                 # Case B: local has few heads and server has many
                 #
                 #     Ownheads is below initialsamplesize, limit would not have any effect.
                 #
                 # Case C: local and server both has many heads
                 #
                 #     We now transfert some more data, but not significantly more than is
                 #     already transfered to carry the server heads.
                 #
                 # Case D: local has many heads, server has few
                 #
                 #   D.1 local heads are mostly known remotely
                 #
                 #     All the known head will have be part of a `known` request at some
                 #     point for the discovery to finish. Sending them all earlier is
                 #     actually helping.
                 #
                 #     (This case is fairly unlikely, it requires the numerous heads to all
                 #     be merged server side in only a few heads)
                 #
                 #   D.2 local heads are mostly missing remotely
                 #
                 #     To determine that the heads are missing, we'll have to issue `known`
                 #     request for them or one of their ancestors. This amount of `known`
                 #     request will likely be in the same order of magnitude than the amount
                 #     of local heads.
                 #
                 #     The only case where we can be more efficient using `known` request on
                 #     ancestors are case were all the "missing" local heads are based on a
                 #     few changeset, also "missing".  This means we would have a "complex"
                 #     graph (with many heads) attached to, but very independant to a the
                 #     "simple" graph on the server. This is a fairly usual case and have
                 #     not been met in the wild so far.
                 if remote.limitedarguments:
                     sample = _limitsample(ownheads, initialsamplesize)
                     # indices between sample and externalized version must match
                     sample = list(sample)
                 else:
                     sample = ownheads
                 with remote.commandexecutor() as e:
                     fheads = e.callcommand('heads', {})
                     fknown = e.callcommand('known', {
                         'nodes': [clnode(r) for r in sample],
                     })
                 srvheadhashes, yesno = fheads.result(), fknown.result()
                 if cl.tip() == nullid:
                     if srvheadhashes != [nullid]:
                         return [nullid], True, srvheadhashes
                     return [nullid], False, []
                 # start actual discovery (we note this before the next "if" for
                 # compatibility reasons)
                 ui.status(_("searching for changes\n"))
                 knownsrvheads = []  # revnos of remote heads that are known locally
                 for node in srvheadhashes:
                     if node == nullid:
                         continue
                     try:
                         knownsrvheads.append(clrev(node))
                     # Catches unknown and filtered nodes.
                     except error.LookupError:
                         continue
                 if len(knownsrvheads) == len(srvheadhashes):
                     ui.debug("all remote heads known locally\n")
                     return srvheadhashes, False, srvheadhashes
                 if len(sample) == len(ownheads) and all(yesno):
                     ui.note(_("all local heads known remotely\n"))
                     ownheadhashes = [clnode(r) for r in ownheads]
                     return ownheadhashes, True, srvheadhashes
                 # full blown discovery
                 disco = partialdiscovery(local, ownheads)
                 # treat remote heads (and maybe own heads) as a first implicit sample
                 # response
                 disco.addcommons(knownsrvheads)
                 disco.addinfo(zip(sample, yesno))
                 full = False
                 progress = ui.makeprogress(_('searching'), unit=_('queries'))
                 while not disco.iscomplete():
                     if full or disco.hasinfo():
                         if full:
                             ui.note(_("sampling from both directions\n"))
                         else:
                             ui.debug("taking initial sample\n")
                         samplefunc = disco.takefullsample
                         targetsize = fullsamplesize
                     else:
                         # use even cheaper initial sample
                         ui.debug("taking quick initial sample\n")
                         samplefunc = disco.takequicksample
                         targetsize = initialsamplesize
                     sample = samplefunc(ownheads, targetsize)
                     roundtrips += 1
                     progress.update(roundtrips)
                     stats = disco.stats()
                     ui.debug("query %i; still undecided: %i, sample size is: %i\n"
                              % (roundtrips, stats['undecided'], len(sample)))
                     # indices between sample and externalized version must match
                     sample = list(sample)
                     with remote.commandexecutor() as e:
                         yesno = e.callcommand('known', {
                             'nodes': [clnode(r) for r in sample],
                         }).result()
                     full = True
                     disco.addinfo(zip(sample, yesno))
                 result = disco.commonheads()
                 elapsed = util.timer() - start
                 progress.complete()
                 ui.debug("%d total queries in %.4fs\n" % (roundtrips, elapsed))
                 msg = ('found %d common and %d unknown server heads,'
                        ' %d roundtrips in %.4fs\n')
                 missing = set(result) - set(knownsrvheads)
                 ui.log('discovery', msg, len(result), len(missing), roundtrips,
                        elapsed)
                 if not result and srvheadhashes != [nullid]:
                     if abortwhenunrelated:
                         raise error.Abort(_("repository is unrelated"))
                     else:
                         ui.warn(_("warning: repository is unrelated\n"))
                     return ({nullid}, True, srvheadhashes,)
                 anyincoming = (srvheadhashes != [nullid])
                 result = {clnode(r) for r in result}
                 return result, anyincoming, srvheadhashes