update: allow dirty update to foreground (successors)
Update to "foreground" are no longer seen as cross branch update. "Foreground"
are descendants or successors (or successors of descendants (or descendant of
successors (etc))). This allows to update with uncommited changes that get
automatically merged.
This changeset is a small step forward. We want to allow dirty update to
"background" (precursors) and takes obsolescence in account when finding the
default update destination. But those requires deeper changes and will comes in
later changesets.
# repoview.py - Filtered view of a localrepo object
#
# Copyright 2012 Pierre-Yves David <pierre-yves.david@ens-lyon.org>
# Logilab SA <contact@logilab.fr>
#
# This software may be used and distributed according to the terms of the
# GNU General Public License version 2 or any later version.
import copy
import phases
import util
import obsolete, revset
def hideablerevs(repo):
"""Revisions candidates to be hidden
This is a standalone function to help extensions to wrap it."""
return obsolete.getrevs(repo, 'obsolete')
def computehidden(repo):
"""compute the set of hidden revision to filter
During most operation hidden should be filtered."""
assert not repo.changelog.filteredrevs
hideable = hideablerevs(repo)
if hideable:
cl = repo.changelog
firsthideable = min(hideable)
revs = cl.revs(start=firsthideable)
blockers = [r for r in revset._children(repo, revs, hideable)
if r not in hideable]
for par in repo[None].parents():
blockers.append(par.rev())
for bm in repo._bookmarks.values():
blockers.append(repo[bm].rev())
blocked = cl.ancestors(blockers, inclusive=True)
return frozenset(r for r in hideable if r not in blocked)
return frozenset()
def computeunserved(repo):
"""compute the set of revision that should be filtered when used a server
Secret and hidden changeset should not pretend to be here."""
assert not repo.changelog.filteredrevs
# fast path in simple case to avoid impact of non optimised code
hiddens = filterrevs(repo, 'visible')
if phases.hassecret(repo):
cl = repo.changelog
secret = phases.secret
getphase = repo._phasecache.phase
first = min(cl.rev(n) for n in repo._phasecache.phaseroots[secret])
revs = cl.revs(start=first)
secrets = set(r for r in revs if getphase(repo, r) >= secret)
return frozenset(hiddens | secrets)
else:
return hiddens
def computemutable(repo):
"""compute the set of revision that should be filtered when used a server
Secret and hidden changeset should not pretend to be here."""
assert not repo.changelog.filteredrevs
# fast check to avoid revset call on huge repo
if util.any(repo._phasecache.phaseroots[1:]):
getphase = repo._phasecache.phase
maymutable = filterrevs(repo, 'base')
return frozenset(r for r in maymutable if getphase(repo, r))
return frozenset()
def computeimpactable(repo):
"""Everything impactable by mutable revision
The immutable filter still have some chance to get invalidated. This will
happen when:
- you garbage collect hidden changeset,
- public phase is moved backward,
- something is changed in the filtering (this could be fixed)
This filter out any mutable changeset and any public changeset that may be
impacted by something happening to a mutable revision.
This is achieved by filtered everything with a revision number egal or
higher than the first mutable changeset is filtered."""
assert not repo.changelog.filteredrevs
cl = repo.changelog
firstmutable = len(cl)
for roots in repo._phasecache.phaseroots[1:]:
if roots:
firstmutable = min(firstmutable, min(cl.rev(r) for r in roots))
# protect from nullrev root
firstmutable = max(0, firstmutable)
return frozenset(xrange(firstmutable, len(cl)))
# function to compute filtered set
filtertable = {'visible': computehidden,
'served': computeunserved,
'immutable': computemutable,
'base': computeimpactable}
### Nearest subset relation
# Nearest subset of filter X is a filter Y so that:
# * Y is included in X,
# * X - Y is as small as possible.
# This create and ordering used for branchmap purpose.
# the ordering may be partial
subsettable = {None: 'visible',
'visible': 'served',
'served': 'immutable',
'immutable': 'base'}
def filterrevs(repo, filtername):
"""returns set of filtered revision for this filter name"""
if filtername not in repo.filteredrevcache:
func = filtertable[filtername]
repo.filteredrevcache[filtername] = func(repo.unfiltered())
return repo.filteredrevcache[filtername]
class repoview(object):
"""Provide a read/write view of a repo through a filtered changelog
This object is used to access a filtered version of a repository without
altering the original repository object itself. We can not alter the
original object for two main reasons:
- It prevents the use of a repo with multiple filters at the same time. In
particular when multiple threads are involved.
- It makes scope of the filtering harder to control.
This object behaves very closely to the original repository. All attribute
operations are done on the original repository:
- An access to `repoview.someattr` actually returns `repo.someattr`,
- A write to `repoview.someattr` actually sets value of `repo.someattr`,
- A deletion of `repoview.someattr` actually drops `someattr`
from `repo.__dict__`.
The only exception is the `changelog` property. It is overridden to return
a (surface) copy of `repo.changelog` with some revisions filtered. The
`filtername` attribute of the view control the revisions that need to be
filtered. (the fact the changelog is copied is an implementation detail).
Unlike attributes, this object intercepts all method calls. This means that
all methods are run on the `repoview` object with the filtered `changelog`
property. For this purpose the simple `repoview` class must be mixed with
the actual class of the repository. This ensures that the resulting
`repoview` object have the very same methods than the repo object. This
leads to the property below.
repoview.method() --> repo.__class__.method(repoview)
The inheritance has to be done dynamically because `repo` can be of any
subclasses of `localrepo`. Eg: `bundlerepo` or `statichttprepo`.
"""
def __init__(self, repo, filtername):
object.__setattr__(self, '_unfilteredrepo', repo)
object.__setattr__(self, 'filtername', filtername)
object.__setattr__(self, '_clcachekey', None)
object.__setattr__(self, '_clcache', None)
# not a propertycache on purpose we shall implement a proper cache later
@property
def changelog(self):
"""return a filtered version of the changeset
this changelog must not be used for writing"""
# some cache may be implemented later
unfi = self._unfilteredrepo
unfichangelog = unfi.changelog
revs = filterrevs(unfi, self.filtername)
cl = self._clcache
newkey = (len(unfichangelog), unfichangelog.tip(), hash(revs))
if cl is not None:
# we need to check curkey too for some obscure reason.
# MQ test show a corruption of the underlying repo (in _clcache)
# without change in the cachekey.
oldfilter = cl.filteredrevs
try:
cl.filterrevs = () # disable filtering for tip
curkey = (len(cl), cl.tip(), hash(oldfilter))
finally:
cl.filteredrevs = oldfilter
if newkey != self._clcachekey or newkey != curkey:
cl = None
# could have been made None by the previous if
if cl is None:
cl = copy.copy(unfichangelog)
cl.filteredrevs = revs
object.__setattr__(self, '_clcache', cl)
object.__setattr__(self, '_clcachekey', newkey)
return cl
def unfiltered(self):
"""Return an unfiltered version of a repo"""
return self._unfilteredrepo
def filtered(self, name):
"""Return a filtered version of a repository"""
if name == self.filtername:
return self
return self.unfiltered().filtered(name)
# everything access are forwarded to the proxied repo
def __getattr__(self, attr):
return getattr(self._unfilteredrepo, attr)
def __setattr__(self, attr, value):
return setattr(self._unfilteredrepo, attr, value)
def __delattr__(self, attr):
return delattr(self._unfilteredrepo, attr)
# The `requirements` attribute is initialized during __init__. But
# __getattr__ won't be called as it also exists on the class. We need
# explicit forwarding to main repo here
@property
def requirements(self):
return self._unfilteredrepo.requirements