prev: extract the function performing the update
That code is fairly independant so let us isolate it to simplify the rest of
the code.
import contextlib
import hashlib
from mercurial.node import nullid
from mercurial import (
branchmap,
changegroup,
cmdutil,
extensions,
repoview,
)
basefilter = set(['base', 'immutable'])
def topicfilter(name):
"""return a "topic" version of a filter level"""
if name in basefilter:
return name
elif name is None:
return None
elif name.endswith('-topic'):
return name
else:
return name + '-topic'
def istopicfilter(filtername):
if filtername is None:
return False
return filtername.endswith('-topic')
def gettopicrepo(repo):
filtername = topicfilter(repo.filtername)
if filtername == repo.filtername:
return repo
return repo.filtered(filtername)
def _setuptopicfilter(ui):
"""extend the filter related mapping with topic related one"""
funcmap = repoview.filtertable
partialmap = branchmap.subsettable
# filter level not affected by topic that we should not override
for plainname in list(funcmap):
newfilter = topicfilter(plainname)
if newfilter == plainname:
continue
def revsfunc(repo, name=plainname):
return repoview.filterrevs(repo, name)
base = topicfilter(partialmap[plainname])
if newfilter not in funcmap:
funcmap[newfilter] = revsfunc
partialmap[newfilter] = base
funcmap['unfiltered-topic'] = lambda repo: frozenset()
partialmap['unfiltered-topic'] = 'visible-topic'
def _phaseshash(repo, maxrev):
"""uniq ID for a phase matching a set of rev"""
revs = set()
cl = repo.changelog
fr = cl.filteredrevs
nm = cl.nodemap
for roots in repo._phasecache.phaseroots[1:]:
for n in roots:
r = nm.get(n)
if r not in fr and r < maxrev:
revs.add(r)
key = nullid
revs = sorted(revs)
if revs:
s = hashlib.sha1()
for rev in revs:
s.update('%s;' % rev)
key = s.digest()
return key
def modsetup(ui):
"""call at uisetup time to install various wrappings"""
_setuptopicfilter(ui)
_wrapbmcache(ui)
extensions.wrapfunction(changegroup.cg1unpacker, 'apply', cgapply)
extensions.wrapfunction(cmdutil, 'commitstatus', commitstatus)
def cgapply(orig, self, repo, *args, **kwargs):
"""make sure a topicmap is used when applying a changegroup"""
other = repo.filtered(topicfilter(repo.filtername))
return orig(self, other, *args, **kwargs)
def commitstatus(orig, repo, node, branch, bheads=None, opts=None):
# wrap commit status use the topic branch heads
ctx = repo[node]
if ctx.topic() and ctx.branch() == branch:
subbranch = "%s:%s" % (branch, ctx.topic())
bheads = repo.branchheads("%s:%s" % (subbranch, ctx.topic()))
return orig(repo, node, branch, bheads=bheads, opts=opts)
def _wrapbmcache(ui):
class topiccache(_topiccache, branchmap.branchcache):
pass
branchmap.branchcache = topiccache
extensions.wrapfunction(branchmap, 'updatecache', _wrapupdatebmcache)
def _wrapupdatebmcache(orig, repo):
previous = getattr(repo, '_autobranchmaptopic', False)
try:
repo._autobranchmaptopic = False
return orig(repo)
finally:
repo._autobranchmaptopic = previous
# needed to prevent reference used for 'super()' call using in branchmap.py to
# no go into cycle. (yes, URG)
_oldbranchmap = branchmap.branchcache
@contextlib.contextmanager
def oldbranchmap():
previous = branchmap.branchcache
try:
branchmap.branchcache = _oldbranchmap
yield
finally:
branchmap.branchcache = previous
class _topiccache(object): # combine me with branchmap.branchcache
def __init__(self, *args, **kwargs):
# super() call may fail otherwise
with oldbranchmap():
super(_topiccache, self).__init__(*args, **kwargs)
self.phaseshash = None
def copy(self):
"""return an deep copy of the branchcache object"""
new = self.__class__(self, self.tipnode, self.tiprev, self.filteredhash,
self._closednodes)
new.phaseshash = self.phaseshash
return new
def branchtip(self, branch, topic=''):
'''Return the tipmost open head on branch head, otherwise return the
tipmost closed head on branch.
Raise KeyError for unknown branch.'''
if topic:
branch = '%s:%s' % (branch, topic)
return super(_topiccache, self).branchtip(branch)
def branchheads(self, branch, closed=False, topic=''):
if topic:
branch = '%s:%s' % (branch, topic)
return super(_topiccache, self).branchheads(branch, closed=closed)
def validfor(self, repo):
"""Is the cache content valid regarding a repo
- False when cached tipnode is unknown or if we detect a strip.
- True when cache is up to date or a subset of current repo."""
valid = super(_topiccache, self).validfor(repo)
if not valid:
return False
elif not istopicfilter(repo.filtername) or self.phaseshash is None:
# phasehash at None means this is a branchmap
# come from non topic thing
return True
else:
try:
valid = self.phaseshash == _phaseshash(repo, self.tiprev)
return valid
except IndexError:
return False
def write(self, repo):
# we expect mutable set to be small enough to be that computing it all
# the time will be fast enough
if not istopicfilter(repo.filtername):
super(_topiccache, self).write(repo)
def update(self, repo, revgen):
"""Given a branchhead cache, self, that may have extra nodes or be
missing heads, and a generator of nodes that are strictly a superset of
heads missing, this function updates self to be correct.
"""
if not istopicfilter(repo.filtername):
return super(_topiccache, self).update(repo, revgen)
unfi = repo.unfiltered()
oldgetbranchinfo = unfi.revbranchcache().branchinfo
def branchinfo(r):
info = oldgetbranchinfo(r)
topic = ''
ctx = unfi[r]
if ctx.mutable():
topic = ctx.topic()
branch = info[0]
if topic:
branch = '%s:%s' % (branch, topic)
return (branch, info[1])
try:
unfi.revbranchcache().branchinfo = branchinfo
super(_topiccache, self).update(repo, revgen)
self.phaseshash = _phaseshash(repo, self.tiprev)
finally:
unfi.revbranchcache().branchinfo = oldgetbranchinfo