##// END OF EJS Templates
largefiles: fix path handling for cp/mv (issue3516)...
largefiles: fix path handling for cp/mv (issue3516) Previously, a copy or a move of a largefile only worked if the cwd was the root of the repository. The first issue was that the destination path passed to os.mkdirs() chopped the absolute path to the standin after '.hglf/', which essentially created a path relative to the repository root. Similarly, the second issue was that the source and dest paths for copyfile() were relative to the repo root. This converts these three paths to absolute paths. Some notable issues, regardless of the directory in which the cp/mv is executed: 1) The copy is not being recorded in lfdirstate, but it is in dirstate for the standins. I'm not sure if this is by design (i.e. minimal info in lfdirstate). 2) status -C doesn't behave as expected. Using the testcase as an example: # after mv + ci $ hg status -C -v --rev '.^' # expected to see 'A' and ' ' lines too R dira\dirb\largefile $ hg status -C -v --rev '.^' foo/largefile # no output # expected to see 'A' and ' ' lines only $ hg status -C -v --rev '.^' foo/ # no output # expected to see 'A', ' ' and 'R' lines $ hg status -C -v --rev '.^' ./ # expected to see 'A' and ' ' lines too R dirb\largefile $ hg status -C -v --rev '.^' ../.hglf/dira/foo/largefile A ..\.hglf\dira\foo\largefile ..\.hglf\dira\dirb\largefile # no 'R' expected when new file is specified $ hg status -C -v --rev '.^' ../.hglf # OK A ..\.hglf\dira\foo\largefile ..\.hglf\dira\dirb\largefile R ..\.hglf\dira\dirb\largefile

File last commit:

r17214:738ad56d default
r17245:6e84171a stable
Show More
discovery.py
372 lines | 14.4 KiB | text/x-python | PythonLexer
# discovery.py - protocol changeset discovery functions
#
# Copyright 2010 Matt Mackall <mpm@selenic.com>
#
# This software may be used and distributed according to the terms of the
# GNU General Public License version 2 or any later version.
from node import nullid, short
from i18n import _
import util, setdiscovery, treediscovery, phases, obsolete
def findcommonincoming(repo, remote, heads=None, force=False):
"""Return a tuple (common, anyincoming, heads) used to identify the common
subset of nodes between repo and remote.
"common" is a list of (at least) the heads of the common subset.
"anyincoming" is testable as a boolean indicating if any nodes are missing
locally. If remote does not support getbundle, this actually is a list of
roots of the nodes that would be incoming, to be supplied to
changegroupsubset. No code except for pull should be relying on this fact
any longer.
"heads" is either the supplied heads, or else the remote's heads.
If you pass heads and they are all known locally, the reponse lists justs
these heads in "common" and in "heads".
Please use findcommonoutgoing to compute the set of outgoing nodes to give
extensions a good hook into outgoing.
"""
if not remote.capable('getbundle'):
return treediscovery.findcommonincoming(repo, remote, heads, force)
if heads:
allknown = True
nm = repo.changelog.nodemap
for h in heads:
if nm.get(h) is None:
allknown = False
break
if allknown:
return (heads, False, heads)
res = setdiscovery.findcommonheads(repo.ui, repo, remote,
abortwhenunrelated=not force)
common, anyinc, srvheads = res
return (list(common), anyinc, heads or list(srvheads))
class outgoing(object):
'''Represents the set of nodes present in a local repo but not in a
(possibly) remote one.
Members:
missing is a list of all nodes present in local but not in remote.
common is a list of all nodes shared between the two repos.
excluded is the list of missing changeset that shouldn't be sent remotely.
missingheads is the list of heads of missing.
commonheads is the list of heads of common.
The sets are computed on demand from the heads, unless provided upfront
by discovery.'''
def __init__(self, revlog, commonheads, missingheads):
self.commonheads = commonheads
self.missingheads = missingheads
self._revlog = revlog
self._common = None
self._missing = None
self.excluded = []
def _computecommonmissing(self):
sets = self._revlog.findcommonmissing(self.commonheads,
self.missingheads)
self._common, self._missing = sets
@util.propertycache
def common(self):
if self._common is None:
self._computecommonmissing()
return self._common
@util.propertycache
def missing(self):
if self._missing is None:
self._computecommonmissing()
return self._missing
def findcommonoutgoing(repo, other, onlyheads=None, force=False,
commoninc=None, portable=False):
'''Return an outgoing instance to identify the nodes present in repo but
not in other.
If onlyheads is given, only nodes ancestral to nodes in onlyheads
(inclusive) are included. If you already know the local repo's heads,
passing them in onlyheads is faster than letting them be recomputed here.
If commoninc is given, it must the the result of a prior call to
findcommonincoming(repo, other, force) to avoid recomputing it here.
If portable is given, compute more conservative common and missingheads,
to make bundles created from the instance more portable.'''
# declare an empty outgoing object to be filled later
og = outgoing(repo.changelog, None, None)
# get common set if not provided
if commoninc is None:
commoninc = findcommonincoming(repo, other, force=force)
og.commonheads, _any, _hds = commoninc
# compute outgoing
mayexclude = (repo._phasecache.phaseroots[phases.secret] or repo.obsstore)
if not mayexclude:
og.missingheads = onlyheads or repo.heads()
elif onlyheads is None:
# use visible heads as it should be cached
og.missingheads = visibleheads(repo)
# extinct changesets are silently ignored
og.excluded = [ctx.node() for ctx in repo.set('secret()')]
else:
# compute common, missing and exclude secret stuff
sets = repo.changelog.findcommonmissing(og.commonheads, onlyheads)
og._common, allmissing = sets
og._missing = missing = []
og.excluded = excluded = []
for node in allmissing:
ctx = repo[node]
if not ctx.extinct():
# extinct changesets are silently ignored
if ctx.phase() >= phases.secret:
excluded.append(node)
else:
missing.append(node)
if len(missing) == len(allmissing):
missingheads = onlyheads
else: # update missing heads
missingheads = phases.newheads(repo, onlyheads, excluded)
og.missingheads = missingheads
if portable:
# recompute common and missingheads as if -r<rev> had been given for
# each head of missing, and --base <rev> for each head of the proper
# ancestors of missing
og._computecommonmissing()
cl = repo.changelog
missingrevs = set(cl.rev(n) for n in og._missing)
og._common = set(cl.ancestors(missingrevs)) - missingrevs
commonheads = set(og.commonheads)
og.missingheads = [h for h in og.missingheads if h not in commonheads]
return og
def _headssummary(repo, remote, outgoing):
"""compute a summary of branch and heads status before and after push
return {'branch': ([remoteheads], [newheads], [unsyncedheads])} mapping
- branch: the branch name
- remoteheads: the list of remote heads known locally
None is the branch is new
- newheads: the new remote heads (known locally) with outgoing pushed
- unsyncedheads: the list of remote heads unknown locally.
"""
cl = repo.changelog
headssum = {}
# A. Create set of branches involved in the push.
branches = set(repo[n].branch() for n in outgoing.missing)
remotemap = remote.branchmap()
newbranches = branches - set(remotemap)
branches.difference_update(newbranches)
# A. register remote heads
remotebranches = set()
for branch, heads in remote.branchmap().iteritems():
remotebranches.add(branch)
known = []
unsynced = []
for h in heads:
if h in cl.nodemap:
known.append(h)
else:
unsynced.append(h)
headssum[branch] = (known, list(known), unsynced)
# B. add new branch data
missingctx = list(repo[n] for n in outgoing.missing)
touchedbranches = set()
for ctx in missingctx:
branch = ctx.branch()
touchedbranches.add(branch)
if branch not in headssum:
headssum[branch] = (None, [], [])
# C drop data about untouched branches:
for branch in remotebranches - touchedbranches:
del headssum[branch]
# D. Update newmap with outgoing changes.
# This will possibly add new heads and remove existing ones.
newmap = dict((branch, heads[1]) for branch, heads in headssum.iteritems()
if heads[0] is not None)
repo._updatebranchcache(newmap, missingctx)
for branch, newheads in newmap.iteritems():
headssum[branch][1][:] = newheads
return headssum
def _oldheadssummary(repo, remoteheads, outgoing, inc=False):
"""Compute branchmapsummary for repo without branchmap support"""
cl = repo.changelog
# 1-4b. old servers: Check for new topological heads.
# Construct {old,new}map with branch = None (topological branch).
# (code based on _updatebranchcache)
oldheads = set(h for h in remoteheads if h in cl.nodemap)
# all nodes in outgoing.missing are children of either:
# - an element of oldheads
# - another element of outgoing.missing
# - nullrev
# This explains why the new head are very simple to compute.
r = repo.set('heads(%ln + %ln)', oldheads, outgoing.missing)
newheads = list(c.node() for c in r)
unsynced = inc and set([None]) or set()
return {None: (oldheads, newheads, unsynced)}
def checkheads(repo, remote, outgoing, remoteheads, newbranch=False, inc=False):
"""Check that a push won't add any outgoing head
raise Abort error and display ui message as needed.
"""
# Check for each named branch if we're creating new remote heads.
# To be a remote head after push, node must be either:
# - unknown locally
# - a local outgoing head descended from update
# - a remote head that's known locally and not
# ancestral to an outgoing head
if remoteheads == [nullid]:
# remote is empty, nothing to check.
return
if remote.capable('branchmap'):
headssum = _headssummary(repo, remote, outgoing)
else:
headssum = _oldheadssummary(repo, remoteheads, outgoing, inc)
newbranches = [branch for branch, heads in headssum.iteritems()
if heads[0] is None]
# 1. Check for new branches on the remote.
if newbranches and not newbranch: # new branch requires --new-branch
branchnames = ', '.join(sorted(newbranches))
raise util.Abort(_("push creates new remote branches: %s!")
% branchnames,
hint=_("use 'hg push --new-branch' to create"
" new remote branches"))
# 2 compute newly pushed bookmarks. We
# we don't warned about bookmarked heads.
localbookmarks = repo._bookmarks
remotebookmarks = remote.listkeys('bookmarks')
bookmarkedheads = set()
for bm in localbookmarks:
rnode = remotebookmarks.get(bm)
if rnode and rnode in repo:
lctx, rctx = repo[bm], repo[rnode]
if rctx == lctx.ancestor(rctx):
bookmarkedheads.add(lctx.node())
# 3. Check for new heads.
# If there are more heads after the push than before, a suitable
# error message, depending on unsynced status, is displayed.
error = None
unsynced = False
allmissing = set(outgoing.missing)
for branch, heads in headssum.iteritems():
if heads[0] is None:
# Maybe we should abort if we push more that one head
# for new branches ?
continue
if heads[2]:
unsynced = True
oldhs = set(heads[0])
candidate_newhs = set(heads[1])
# add unsynced data
oldhs.update(heads[2])
candidate_newhs.update(heads[2])
dhs = None
if repo.obsstore:
# remove future heads which are actually obsolete by another
# pushed element:
#
# XXX There is several case this case does not handle properly
#
# (1) if <nh> is public, it won't be affected by obsolete marker
# and a new is created
#
# (2) if the new heads have ancestors which are not obsolete and
# not ancestors of any other heads we will have a new head too.
#
# This two case will be easy to handle for know changeset but much
# more tricky for unsynced changes.
newhs = set()
for nh in candidate_newhs:
for suc in obsolete.anysuccessors(repo.obsstore, nh):
if suc != nh and suc in allmissing:
break
else:
newhs.add(nh)
else:
newhs = candidate_newhs
if len(newhs) > len(oldhs):
# strip updates to existing remote heads from the new heads list
dhs = list(newhs - bookmarkedheads - oldhs)
if dhs:
if error is None:
if branch not in ('default', None):
error = _("push creates new remote head %s "
"on branch '%s'!") % (short(dhs[0]), branch)
else:
error = _("push creates new remote head %s!"
) % short(dhs[0])
if heads[2]: # unsynced
hint = _("you should pull and merge or "
"use push -f to force")
else:
hint = _("did you forget to merge? "
"use push -f to force")
if branch is not None:
repo.ui.note(_("new remote heads on branch '%s'\n") % branch)
for h in dhs:
repo.ui.note(_("new remote head %s\n") % short(h))
if error:
raise util.Abort(error, hint=hint)
# 6. Check for unsynced changes on involved branches.
if unsynced:
repo.ui.warn(_("note: unsynced remote changes!\n"))
def visibleheads(repo):
"""return the set of visible head of this repo"""
# XXX we want a cache on this
sroots = repo._phasecache.phaseroots[phases.secret]
if sroots or repo.obsstore:
# XXX very slow revset. storing heads or secret "boundary"
# would help.
revset = repo.set('heads(not (%ln:: + extinct()))', sroots)
vheads = [ctx.node() for ctx in revset]
if not vheads:
vheads.append(nullid)
else:
vheads = repo.heads()
return vheads
def visiblebranchmap(repo):
"""return a branchmap for the visible set"""
# XXX Recomputing this data on the fly is very slow. We should build a
# XXX cached version while computin the standard branchmap version.
sroots = repo._phasecache.phaseroots[phases.secret]
if sroots or repo.obsstore:
vbranchmap = {}
for branch, nodes in repo.branchmap().iteritems():
# search for secret heads.
for n in nodes:
if repo[n].phase() >= phases.secret:
nodes = None
break
# if secret heads were found we must compute them again
if nodes is None:
s = repo.set('heads(branch(%s) - secret() - extinct())',
branch)
nodes = [c.node() for c in s]
vbranchmap[branch] = nodes
else:
vbranchmap = repo.branchmap()
return vbranchmap