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# copies.py - copy detection for Mercurial
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#
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# Copyright 2008 Matt Mackall <mpm@selenic.com>
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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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# GNU General Public License version 2 or any later version.
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from __future__ import absolute_import
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import collections
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import heapq
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import os
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from .i18n import _
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from . import (
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match as matchmod,
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node,
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pathutil,
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scmutil,
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util,
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)
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def _findlimit(repo, a, b):
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"""
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Find the last revision that needs to be checked to ensure that a full
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transitive closure for file copies can be properly calculated.
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Generally, this means finding the earliest revision number that's an
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ancestor of a or b but not both, except when a or b is a direct descendent
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of the other, in which case we can return the minimum revnum of a and b.
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None if no such revision exists.
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"""
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# basic idea:
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# - mark a and b with different sides
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# - if a parent's children are all on the same side, the parent is
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# on that side, otherwise it is on no side
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# - walk the graph in topological order with the help of a heap;
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# - add unseen parents to side map
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# - clear side of any parent that has children on different sides
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# - track number of interesting revs that might still be on a side
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# - track the lowest interesting rev seen
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# - quit when interesting revs is zero
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cl = repo.changelog
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working = len(cl) # pseudo rev for the working directory
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if a is None:
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a = working
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if b is None:
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b = working
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side = {a: -1, b: 1}
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visit = [-a, -b]
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heapq.heapify(visit)
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interesting = len(visit)
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hascommonancestor = False
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limit = working
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while interesting:
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r = -heapq.heappop(visit)
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if r == working:
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parents = [cl.rev(p) for p in repo.dirstate.parents()]
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else:
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parents = cl.parentrevs(r)
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for p in parents:
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if p < 0:
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continue
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if p not in side:
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# first time we see p; add it to visit
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side[p] = side[r]
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if side[p]:
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interesting += 1
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heapq.heappush(visit, -p)
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elif side[p] and side[p] != side[r]:
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# p was interesting but now we know better
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side[p] = 0
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interesting -= 1
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hascommonancestor = True
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if side[r]:
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limit = r # lowest rev visited
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interesting -= 1
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if not hascommonancestor:
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return None
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# Consider the following flow (see test-commit-amend.t under issue4405):
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# 1/ File 'a0' committed
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# 2/ File renamed from 'a0' to 'a1' in a new commit (call it 'a1')
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# 3/ Move back to first commit
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# 4/ Create a new commit via revert to contents of 'a1' (call it 'a1-amend')
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# 5/ Rename file from 'a1' to 'a2' and commit --amend 'a1-msg'
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#
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# During the amend in step five, we will be in this state:
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#
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# @ 3 temporary amend commit for a1-amend
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# |
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# o 2 a1-amend
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# |
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# | o 1 a1
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# |/
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# o 0 a0
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#
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# When _findlimit is called, a and b are revs 3 and 0, so limit will be 2,
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# yet the filelog has the copy information in rev 1 and we will not look
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# back far enough unless we also look at the a and b as candidates.
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# This only occurs when a is a descendent of b or visa-versa.
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return min(limit, a, b)
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def _chain(src, dst, a, b):
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"""chain two sets of copies a->b"""
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t = a.copy()
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for k, v in b.iteritems():
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if v in t:
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# found a chain
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if t[v] != k:
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# file wasn't renamed back to itself
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t[k] = t[v]
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if v not in dst:
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# chain was a rename, not a copy
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del t[v]
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if v in src:
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# file is a copy of an existing file
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t[k] = v
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# remove criss-crossed copies
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for k, v in list(t.items()):
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if k in src and v in dst:
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del t[k]
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return t
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def _tracefile(fctx, am, limit=-1):
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"""return file context that is the ancestor of fctx present in ancestor
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manifest am, stopping after the first ancestor lower than limit"""
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for f in fctx.ancestors():
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if am.get(f.path(), None) == f.filenode():
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return f
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if limit >= 0 and f.linkrev() < limit and f.rev() < limit:
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return None
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def _dirstatecopies(d, match=None):
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ds = d._repo.dirstate
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c = ds.copies().copy()
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for k in list(c):
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if ds[k] not in 'anm' or (match and not match(k)):
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del c[k]
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return c
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def _computeforwardmissing(a, b, match=None):
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"""Computes which files are in b but not a.
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This is its own function so extensions can easily wrap this call to see what
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files _forwardcopies is about to process.
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"""
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ma = a.manifest()
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mb = b.manifest()
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return mb.filesnotin(ma, match=match)
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def _committedforwardcopies(a, b, match):
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"""Like _forwardcopies(), but b.rev() cannot be None (working copy)"""
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# files might have to be traced back to the fctx parent of the last
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# one-side-only changeset, but not further back than that
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limit = _findlimit(a._repo, a.rev(), b.rev())
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if limit is None:
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limit = -1
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am = a.manifest()
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# find where new files came from
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# we currently don't try to find where old files went, too expensive
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# this means we can miss a case like 'hg rm b; hg cp a b'
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cm = {}
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# Computing the forward missing is quite expensive on large manifests, since
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# it compares the entire manifests. We can optimize it in the common use
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# case of computing what copies are in a commit versus its parent (like
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# during a rebase or histedit). Note, we exclude merge commits from this
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# optimization, since the ctx.files() for a merge commit is not correct for
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# this comparison.
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forwardmissingmatch = match
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if b.p1() == a and b.p2().node() == node.nullid:
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filesmatcher = scmutil.matchfiles(a._repo, b.files())
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forwardmissingmatch = matchmod.intersectmatchers(match, filesmatcher)
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missing = _computeforwardmissing(a, b, match=forwardmissingmatch)
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ancestrycontext = a._repo.changelog.ancestors([b.rev()], inclusive=True)
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for f in missing:
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fctx = b[f]
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fctx._ancestrycontext = ancestrycontext
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ofctx = _tracefile(fctx, am, limit)
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if ofctx:
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cm[f] = ofctx.path()
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return cm
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def _forwardcopies(a, b, match=None):
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"""find {dst@b: src@a} copy mapping where a is an ancestor of b"""
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# check for working copy
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if b.rev() is None:
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if a == b.p1():
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# short-circuit to avoid issues with merge states
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return _dirstatecopies(b, match)
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cm = _committedforwardcopies(a, b.p1(), match)
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# combine copies from dirstate if necessary
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return _chain(a, b, cm, _dirstatecopies(b, match))
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return _committedforwardcopies(a, b, match)
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def _backwardrenames(a, b):
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if a._repo.ui.config('experimental', 'copytrace') == 'off':
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return {}
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# Even though we're not taking copies into account, 1:n rename situations
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# can still exist (e.g. hg cp a b; hg mv a c). In those cases we
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# arbitrarily pick one of the renames.
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f = _forwardcopies(b, a)
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r = {}
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for k, v in sorted(f.iteritems()):
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# remove copies
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if v in a:
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continue
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r[v] = k
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return r
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def pathcopies(x, y, match=None):
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"""find {dst@y: src@x} copy mapping for directed compare"""
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if x == y or not x or not y:
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return {}
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a = y.ancestor(x)
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if a == x:
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return _forwardcopies(x, y, match=match)
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if a == y:
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return _backwardrenames(x, y)
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return _chain(x, y, _backwardrenames(x, a),
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_forwardcopies(a, y, match=match))
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def _computenonoverlap(repo, c1, c2, addedinm1, addedinm2, baselabel=''):
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"""Computes, based on addedinm1 and addedinm2, the files exclusive to c1
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and c2. This is its own function so extensions can easily wrap this call
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to see what files mergecopies is about to process.
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Even though c1 and c2 are not used in this function, they are useful in
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other extensions for being able to read the file nodes of the changed files.
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"baselabel" can be passed to help distinguish the multiple computations
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done in the graft case.
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"""
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u1 = sorted(addedinm1 - addedinm2)
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u2 = sorted(addedinm2 - addedinm1)
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header = " unmatched files in %s"
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if baselabel:
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header += ' (from %s)' % baselabel
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if u1:
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repo.ui.debug("%s:\n %s\n" % (header % 'local', "\n ".join(u1)))
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if u2:
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repo.ui.debug("%s:\n %s\n" % (header % 'other', "\n ".join(u2)))
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narrowmatch = repo.narrowmatch()
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if not narrowmatch.always():
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u1 = [f for f in u1 if narrowmatch(f)]
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u2 = [f for f in u2 if narrowmatch(f)]
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return u1, u2
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def _makegetfctx(ctx):
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"""return a 'getfctx' function suitable for _checkcopies usage
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We have to re-setup the function building 'filectx' for each
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'_checkcopies' to ensure the linkrev adjustment is properly setup for
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each. Linkrev adjustment is important to avoid bug in rename
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detection. Moreover, having a proper '_ancestrycontext' setup ensures
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the performance impact of this adjustment is kept limited. Without it,
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each file could do a full dag traversal making the time complexity of
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the operation explode (see issue4537).
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This function exists here mostly to limit the impact on stable. Feel
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free to refactor on default.
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"""
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rev = ctx.rev()
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repo = ctx._repo
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ac = getattr(ctx, '_ancestrycontext', None)
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if ac is None:
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revs = [rev]
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if rev is None:
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revs = [p.rev() for p in ctx.parents()]
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ac = repo.changelog.ancestors(revs, inclusive=True)
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ctx._ancestrycontext = ac
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def makectx(f, n):
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if n in node.wdirfilenodeids: # in a working context?
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if ctx.rev() is None:
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return ctx.filectx(f)
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return repo[None][f]
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fctx = repo.filectx(f, fileid=n)
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# setup only needed for filectx not create from a changectx
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fctx._ancestrycontext = ac
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fctx._descendantrev = rev
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return fctx
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return util.lrucachefunc(makectx)
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def _combinecopies(copyfrom, copyto, finalcopy, diverge, incompletediverge):
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"""combine partial copy paths"""
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remainder = {}
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for f in copyfrom:
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if f in copyto:
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finalcopy[copyto[f]] = copyfrom[f]
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del copyto[f]
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for f in incompletediverge:
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assert f not in diverge
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ic = incompletediverge[f]
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if ic[0] in copyto:
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diverge[f] = [copyto[ic[0]], ic[1]]
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else:
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remainder[f] = ic
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return remainder
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def mergecopies(repo, c1, c2, base):
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"""
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The function calling different copytracing algorithms on the basis of config
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which find moves and copies between context c1 and c2 that are relevant for
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merging. 'base' will be used as the merge base.
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Copytracing is used in commands like rebase, merge, unshelve, etc to merge
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files that were moved/ copied in one merge parent and modified in another.
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For example:
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o ---> 4 another commit
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| o ---> 3 commit that modifies a.txt
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| /
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o / ---> 2 commit that moves a.txt to b.txt
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|/
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o ---> 1 merge base
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If we try to rebase revision 3 on revision 4, since there is no a.txt in
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revision 4, and if user have copytrace disabled, we prints the following
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message:
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```other changed <file> which local deleted```
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Returns five dicts: "copy", "movewithdir", "diverge", "renamedelete" and
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"dirmove".
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"copy" is a mapping from destination name -> source name,
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where source is in c1 and destination is in c2 or vice-versa.
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"movewithdir" is a mapping from source name -> destination name,
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where the file at source present in one context but not the other
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needs to be moved to destination by the merge process, because the
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other context moved the directory it is in.
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"diverge" is a mapping of source name -> list of destination names
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for divergent renames.
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"renamedelete" is a mapping of source name -> list of destination
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names for files deleted in c1 that were renamed in c2 or vice-versa.
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"dirmove" is a mapping of detected source dir -> destination dir renames.
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This is needed for handling changes to new files previously grafted into
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renamed directories.
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"""
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# avoid silly behavior for update from empty dir
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if not c1 or not c2 or c1 == c2:
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return {}, {}, {}, {}, {}
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# avoid silly behavior for parent -> working dir
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if c2.node() is None and c1.node() == repo.dirstate.p1():
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return repo.dirstate.copies(), {}, {}, {}, {}
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copytracing = repo.ui.config('experimental', 'copytrace')
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# Copy trace disabling is explicitly below the node == p1 logic above
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# because the logic above is required for a simple copy to be kept across a
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# rebase.
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if copytracing == 'off':
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return {}, {}, {}, {}, {}
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elif copytracing == 'heuristics':
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# Do full copytracing if only non-public revisions are involved as
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# that will be fast enough and will also cover the copies which could
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# be missed by heuristics
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if _isfullcopytraceable(repo, c1, base):
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return _fullcopytracing(repo, c1, c2, base)
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return _heuristicscopytracing(repo, c1, c2, base)
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else:
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return _fullcopytracing(repo, c1, c2, base)
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def _isfullcopytraceable(repo, c1, base):
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""" Checks that if base, source and destination are all no-public branches,
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if yes let's use the full copytrace algorithm for increased capabilities
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since it will be fast enough.
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`experimental.copytrace.sourcecommitlimit` can be used to set a limit for
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number of changesets from c1 to base such that if number of changesets are
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more than the limit, full copytracing algorithm won't be used.
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"""
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if c1.rev() is None:
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c1 = c1.p1()
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if c1.mutable() and base.mutable():
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sourcecommitlimit = repo.ui.configint('experimental',
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'copytrace.sourcecommitlimit')
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commits = len(repo.revs('%d::%d', base.rev(), c1.rev()))
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return commits < sourcecommitlimit
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return False
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def _fullcopytracing(repo, c1, c2, base):
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""" The full copytracing algorithm which finds all the new files that were
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added from merge base up to the top commit and for each file it checks if
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this file was copied from another file.
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This is pretty slow when a lot of changesets are involved but will track all
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the copies.
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"""
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# In certain scenarios (e.g. graft, update or rebase), base can be
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# overridden We still need to know a real common ancestor in this case We
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# can't just compute _c1.ancestor(_c2) and compare it to ca, because there
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# can be multiple common ancestors, e.g. in case of bidmerge. Because our
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# caller may not know if the revision passed in lieu of the CA is a genuine
|
|
|
# common ancestor or not without explicitly checking it, it's better to
|
|
|
# determine that here.
|
|
|
#
|
|
|
# base.isancestorof(wc) is False, work around that
|
|
|
_c1 = c1.p1() if c1.rev() is None else c1
|
|
|
_c2 = c2.p1() if c2.rev() is None else c2
|
|
|
# an endpoint is "dirty" if it isn't a descendant of the merge base
|
|
|
# if we have a dirty endpoint, we need to trigger graft logic, and also
|
|
|
# keep track of which endpoint is dirty
|
|
|
dirtyc1 = not base.isancestorof(_c1)
|
|
|
dirtyc2 = not base.isancestorof(_c2)
|
|
|
graft = dirtyc1 or dirtyc2
|
|
|
tca = base
|
|
|
if graft:
|
|
|
tca = _c1.ancestor(_c2)
|
|
|
|
|
|
limit = _findlimit(repo, c1.rev(), c2.rev())
|
|
|
if limit is None:
|
|
|
# no common ancestor, no copies
|
|
|
return {}, {}, {}, {}, {}
|
|
|
repo.ui.debug(" searching for copies back to rev %d\n" % limit)
|
|
|
|
|
|
m1 = c1.manifest()
|
|
|
m2 = c2.manifest()
|
|
|
mb = base.manifest()
|
|
|
|
|
|
# gather data from _checkcopies:
|
|
|
# - diverge = record all diverges in this dict
|
|
|
# - copy = record all non-divergent copies in this dict
|
|
|
# - fullcopy = record all copies in this dict
|
|
|
# - incomplete = record non-divergent partial copies here
|
|
|
# - incompletediverge = record divergent partial copies here
|
|
|
diverge = {} # divergence data is shared
|
|
|
incompletediverge = {}
|
|
|
data1 = {'copy': {},
|
|
|
'fullcopy': {},
|
|
|
'incomplete': {},
|
|
|
'diverge': diverge,
|
|
|
'incompletediverge': incompletediverge,
|
|
|
}
|
|
|
data2 = {'copy': {},
|
|
|
'fullcopy': {},
|
|
|
'incomplete': {},
|
|
|
'diverge': diverge,
|
|
|
'incompletediverge': incompletediverge,
|
|
|
}
|
|
|
|
|
|
# find interesting file sets from manifests
|
|
|
addedinm1 = m1.filesnotin(mb)
|
|
|
addedinm2 = m2.filesnotin(mb)
|
|
|
bothnew = sorted(addedinm1 & addedinm2)
|
|
|
if tca == base:
|
|
|
# unmatched file from base
|
|
|
u1r, u2r = _computenonoverlap(repo, c1, c2, addedinm1, addedinm2)
|
|
|
u1u, u2u = u1r, u2r
|
|
|
else:
|
|
|
# unmatched file from base (DAG rotation in the graft case)
|
|
|
u1r, u2r = _computenonoverlap(repo, c1, c2, addedinm1, addedinm2,
|
|
|
baselabel='base')
|
|
|
# unmatched file from topological common ancestors (no DAG rotation)
|
|
|
# need to recompute this for directory move handling when grafting
|
|
|
mta = tca.manifest()
|
|
|
u1u, u2u = _computenonoverlap(repo, c1, c2, m1.filesnotin(mta),
|
|
|
m2.filesnotin(mta),
|
|
|
baselabel='topological common ancestor')
|
|
|
|
|
|
for f in u1u:
|
|
|
_checkcopies(c1, c2, f, base, tca, dirtyc1, limit, data1)
|
|
|
|
|
|
for f in u2u:
|
|
|
_checkcopies(c2, c1, f, base, tca, dirtyc2, limit, data2)
|
|
|
|
|
|
copy = dict(data1['copy'])
|
|
|
copy.update(data2['copy'])
|
|
|
fullcopy = dict(data1['fullcopy'])
|
|
|
fullcopy.update(data2['fullcopy'])
|
|
|
|
|
|
if dirtyc1:
|
|
|
_combinecopies(data2['incomplete'], data1['incomplete'], copy, diverge,
|
|
|
incompletediverge)
|
|
|
else:
|
|
|
_combinecopies(data1['incomplete'], data2['incomplete'], copy, diverge,
|
|
|
incompletediverge)
|
|
|
|
|
|
renamedelete = {}
|
|
|
renamedeleteset = set()
|
|
|
divergeset = set()
|
|
|
for of, fl in list(diverge.items()):
|
|
|
if len(fl) == 1 or of in c1 or of in c2:
|
|
|
del diverge[of] # not actually divergent, or not a rename
|
|
|
if of not in c1 and of not in c2:
|
|
|
# renamed on one side, deleted on the other side, but filter
|
|
|
# out files that have been renamed and then deleted
|
|
|
renamedelete[of] = [f for f in fl if f in c1 or f in c2]
|
|
|
renamedeleteset.update(fl) # reverse map for below
|
|
|
else:
|
|
|
divergeset.update(fl) # reverse map for below
|
|
|
|
|
|
if bothnew:
|
|
|
repo.ui.debug(" unmatched files new in both:\n %s\n"
|
|
|
% "\n ".join(bothnew))
|
|
|
bothdiverge = {}
|
|
|
bothincompletediverge = {}
|
|
|
remainder = {}
|
|
|
both1 = {'copy': {},
|
|
|
'fullcopy': {},
|
|
|
'incomplete': {},
|
|
|
'diverge': bothdiverge,
|
|
|
'incompletediverge': bothincompletediverge
|
|
|
}
|
|
|
both2 = {'copy': {},
|
|
|
'fullcopy': {},
|
|
|
'incomplete': {},
|
|
|
'diverge': bothdiverge,
|
|
|
'incompletediverge': bothincompletediverge
|
|
|
}
|
|
|
for f in bothnew:
|
|
|
_checkcopies(c1, c2, f, base, tca, dirtyc1, limit, both1)
|
|
|
_checkcopies(c2, c1, f, base, tca, dirtyc2, limit, both2)
|
|
|
if dirtyc1:
|
|
|
# incomplete copies may only be found on the "dirty" side for bothnew
|
|
|
assert not both2['incomplete']
|
|
|
remainder = _combinecopies({}, both1['incomplete'], copy, bothdiverge,
|
|
|
bothincompletediverge)
|
|
|
elif dirtyc2:
|
|
|
assert not both1['incomplete']
|
|
|
remainder = _combinecopies({}, both2['incomplete'], copy, bothdiverge,
|
|
|
bothincompletediverge)
|
|
|
else:
|
|
|
# incomplete copies and divergences can't happen outside grafts
|
|
|
assert not both1['incomplete']
|
|
|
assert not both2['incomplete']
|
|
|
assert not bothincompletediverge
|
|
|
for f in remainder:
|
|
|
assert f not in bothdiverge
|
|
|
ic = remainder[f]
|
|
|
if ic[0] in (m1 if dirtyc1 else m2):
|
|
|
# backed-out rename on one side, but watch out for deleted files
|
|
|
bothdiverge[f] = ic
|
|
|
for of, fl in bothdiverge.items():
|
|
|
if len(fl) == 2 and fl[0] == fl[1]:
|
|
|
copy[fl[0]] = of # not actually divergent, just matching renames
|
|
|
|
|
|
if fullcopy and repo.ui.debugflag:
|
|
|
repo.ui.debug(" all copies found (* = to merge, ! = divergent, "
|
|
|
"% = renamed and deleted):\n")
|
|
|
for f in sorted(fullcopy):
|
|
|
note = ""
|
|
|
if f in copy:
|
|
|
note += "*"
|
|
|
if f in divergeset:
|
|
|
note += "!"
|
|
|
if f in renamedeleteset:
|
|
|
note += "%"
|
|
|
repo.ui.debug(" src: '%s' -> dst: '%s' %s\n" % (fullcopy[f], f,
|
|
|
note))
|
|
|
del divergeset
|
|
|
|
|
|
if not fullcopy:
|
|
|
return copy, {}, diverge, renamedelete, {}
|
|
|
|
|
|
repo.ui.debug(" checking for directory renames\n")
|
|
|
|
|
|
# generate a directory move map
|
|
|
d1, d2 = c1.dirs(), c2.dirs()
|
|
|
# Hack for adding '', which is not otherwise added, to d1 and d2
|
|
|
d1.addpath('/')
|
|
|
d2.addpath('/')
|
|
|
invalid = set()
|
|
|
dirmove = {}
|
|
|
|
|
|
# examine each file copy for a potential directory move, which is
|
|
|
# when all the files in a directory are moved to a new directory
|
|
|
for dst, src in fullcopy.iteritems():
|
|
|
dsrc, ddst = pathutil.dirname(src), pathutil.dirname(dst)
|
|
|
if dsrc in invalid:
|
|
|
# already seen to be uninteresting
|
|
|
continue
|
|
|
elif dsrc in d1 and ddst in d1:
|
|
|
# directory wasn't entirely moved locally
|
|
|
invalid.add(dsrc)
|
|
|
elif dsrc in d2 and ddst in d2:
|
|
|
# directory wasn't entirely moved remotely
|
|
|
invalid.add(dsrc)
|
|
|
elif dsrc in dirmove and dirmove[dsrc] != ddst:
|
|
|
# files from the same directory moved to two different places
|
|
|
invalid.add(dsrc)
|
|
|
else:
|
|
|
# looks good so far
|
|
|
dirmove[dsrc] = ddst
|
|
|
|
|
|
for i in invalid:
|
|
|
if i in dirmove:
|
|
|
del dirmove[i]
|
|
|
del d1, d2, invalid
|
|
|
|
|
|
if not dirmove:
|
|
|
return copy, {}, diverge, renamedelete, {}
|
|
|
|
|
|
dirmove = {k + "/": v + "/" for k, v in dirmove.iteritems()}
|
|
|
|
|
|
for d in dirmove:
|
|
|
repo.ui.debug(" discovered dir src: '%s' -> dst: '%s'\n" %
|
|
|
(d, dirmove[d]))
|
|
|
|
|
|
movewithdir = {}
|
|
|
# check unaccounted nonoverlapping files against directory moves
|
|
|
for f in u1r + u2r:
|
|
|
if f not in fullcopy:
|
|
|
for d in dirmove:
|
|
|
if f.startswith(d):
|
|
|
# new file added in a directory that was moved, move it
|
|
|
df = dirmove[d] + f[len(d):]
|
|
|
if df not in copy:
|
|
|
movewithdir[f] = df
|
|
|
repo.ui.debug((" pending file src: '%s' -> "
|
|
|
"dst: '%s'\n") % (f, df))
|
|
|
break
|
|
|
|
|
|
return copy, movewithdir, diverge, renamedelete, dirmove
|
|
|
|
|
|
def _heuristicscopytracing(repo, c1, c2, base):
|
|
|
""" Fast copytracing using filename heuristics
|
|
|
|
|
|
Assumes that moves or renames are of following two types:
|
|
|
|
|
|
1) Inside a directory only (same directory name but different filenames)
|
|
|
2) Move from one directory to another
|
|
|
(same filenames but different directory names)
|
|
|
|
|
|
Works only when there are no merge commits in the "source branch".
|
|
|
Source branch is commits from base up to c2 not including base.
|
|
|
|
|
|
If merge is involved it fallbacks to _fullcopytracing().
|
|
|
|
|
|
Can be used by setting the following config:
|
|
|
|
|
|
[experimental]
|
|
|
copytrace = heuristics
|
|
|
|
|
|
In some cases the copy/move candidates found by heuristics can be very large
|
|
|
in number and that will make the algorithm slow. The number of possible
|
|
|
candidates to check can be limited by using the config
|
|
|
`experimental.copytrace.movecandidateslimit` which defaults to 100.
|
|
|
"""
|
|
|
|
|
|
if c1.rev() is None:
|
|
|
c1 = c1.p1()
|
|
|
if c2.rev() is None:
|
|
|
c2 = c2.p1()
|
|
|
|
|
|
copies = {}
|
|
|
|
|
|
changedfiles = set()
|
|
|
m1 = c1.manifest()
|
|
|
if not repo.revs('%d::%d', base.rev(), c2.rev()):
|
|
|
# If base is not in c2 branch, we switch to fullcopytracing
|
|
|
repo.ui.debug("switching to full copytracing as base is not "
|
|
|
"an ancestor of c2\n")
|
|
|
return _fullcopytracing(repo, c1, c2, base)
|
|
|
|
|
|
ctx = c2
|
|
|
while ctx != base:
|
|
|
if len(ctx.parents()) == 2:
|
|
|
# To keep things simple let's not handle merges
|
|
|
repo.ui.debug("switching to full copytracing because of merges\n")
|
|
|
return _fullcopytracing(repo, c1, c2, base)
|
|
|
changedfiles.update(ctx.files())
|
|
|
ctx = ctx.p1()
|
|
|
|
|
|
cp = _forwardcopies(base, c2)
|
|
|
for dst, src in cp.iteritems():
|
|
|
if src in m1:
|
|
|
copies[dst] = src
|
|
|
|
|
|
# file is missing if it isn't present in the destination, but is present in
|
|
|
# the base and present in the source.
|
|
|
# Presence in the base is important to exclude added files, presence in the
|
|
|
# source is important to exclude removed files.
|
|
|
filt = lambda f: f not in m1 and f in base and f in c2
|
|
|
missingfiles = [f for f in changedfiles if filt(f)]
|
|
|
|
|
|
if missingfiles:
|
|
|
basenametofilename = collections.defaultdict(list)
|
|
|
dirnametofilename = collections.defaultdict(list)
|
|
|
|
|
|
for f in m1.filesnotin(base.manifest()):
|
|
|
basename = os.path.basename(f)
|
|
|
dirname = os.path.dirname(f)
|
|
|
basenametofilename[basename].append(f)
|
|
|
dirnametofilename[dirname].append(f)
|
|
|
|
|
|
for f in missingfiles:
|
|
|
basename = os.path.basename(f)
|
|
|
dirname = os.path.dirname(f)
|
|
|
samebasename = basenametofilename[basename]
|
|
|
samedirname = dirnametofilename[dirname]
|
|
|
movecandidates = samebasename + samedirname
|
|
|
# f is guaranteed to be present in c2, that's why
|
|
|
# c2.filectx(f) won't fail
|
|
|
f2 = c2.filectx(f)
|
|
|
# we can have a lot of candidates which can slow down the heuristics
|
|
|
# config value to limit the number of candidates moves to check
|
|
|
maxcandidates = repo.ui.configint('experimental',
|
|
|
'copytrace.movecandidateslimit')
|
|
|
|
|
|
if len(movecandidates) > maxcandidates:
|
|
|
repo.ui.status(_("skipping copytracing for '%s', more "
|
|
|
"candidates than the limit: %d\n")
|
|
|
% (f, len(movecandidates)))
|
|
|
continue
|
|
|
|
|
|
for candidate in movecandidates:
|
|
|
f1 = c1.filectx(candidate)
|
|
|
if _related(f1, f2):
|
|
|
# if there are a few related copies then we'll merge
|
|
|
# changes into all of them. This matches the behaviour
|
|
|
# of upstream copytracing
|
|
|
copies[candidate] = f
|
|
|
|
|
|
return copies, {}, {}, {}, {}
|
|
|
|
|
|
def _related(f1, f2):
|
|
|
"""return True if f1 and f2 filectx have a common ancestor
|
|
|
|
|
|
Walk back to common ancestor to see if the two files originate
|
|
|
from the same file. Since workingfilectx's rev() is None it messes
|
|
|
up the integer comparison logic, hence the pre-step check for
|
|
|
None (f1 and f2 can only be workingfilectx's initially).
|
|
|
"""
|
|
|
|
|
|
if f1 == f2:
|
|
|
return f1 # a match
|
|
|
|
|
|
g1, g2 = f1.ancestors(), f2.ancestors()
|
|
|
try:
|
|
|
f1r, f2r = f1.linkrev(), f2.linkrev()
|
|
|
|
|
|
if f1r is None:
|
|
|
f1 = next(g1)
|
|
|
if f2r is None:
|
|
|
f2 = next(g2)
|
|
|
|
|
|
while True:
|
|
|
f1r, f2r = f1.linkrev(), f2.linkrev()
|
|
|
if f1r > f2r:
|
|
|
f1 = next(g1)
|
|
|
elif f2r > f1r:
|
|
|
f2 = next(g2)
|
|
|
else: # f1 and f2 point to files in the same linkrev
|
|
|
return f1 == f2 # true if they point to the same file
|
|
|
except StopIteration:
|
|
|
return False
|
|
|
|
|
|
def _checkcopies(srcctx, dstctx, f, base, tca, remotebase, limit, data):
|
|
|
"""
|
|
|
check possible copies of f from msrc to mdst
|
|
|
|
|
|
srcctx = starting context for f in msrc
|
|
|
dstctx = destination context for f in mdst
|
|
|
f = the filename to check (as in msrc)
|
|
|
base = the changectx used as a merge base
|
|
|
tca = topological common ancestor for graft-like scenarios
|
|
|
remotebase = True if base is outside tca::srcctx, False otherwise
|
|
|
limit = the rev number to not search beyond
|
|
|
data = dictionary of dictionary to store copy data. (see mergecopies)
|
|
|
|
|
|
note: limit is only an optimization, and provides no guarantee that
|
|
|
irrelevant revisions will not be visited
|
|
|
there is no easy way to make this algorithm stop in a guaranteed way
|
|
|
once it "goes behind a certain revision".
|
|
|
"""
|
|
|
|
|
|
msrc = srcctx.manifest()
|
|
|
mdst = dstctx.manifest()
|
|
|
mb = base.manifest()
|
|
|
mta = tca.manifest()
|
|
|
# Might be true if this call is about finding backward renames,
|
|
|
# This happens in the case of grafts because the DAG is then rotated.
|
|
|
# If the file exists in both the base and the source, we are not looking
|
|
|
# for a rename on the source side, but on the part of the DAG that is
|
|
|
# traversed backwards.
|
|
|
#
|
|
|
# In the case there is both backward and forward renames (before and after
|
|
|
# the base) this is more complicated as we must detect a divergence.
|
|
|
# We use 'backwards = False' in that case.
|
|
|
backwards = not remotebase and base != tca and f in mb
|
|
|
getsrcfctx = _makegetfctx(srcctx)
|
|
|
getdstfctx = _makegetfctx(dstctx)
|
|
|
|
|
|
if msrc[f] == mb.get(f) and not remotebase:
|
|
|
# Nothing to merge
|
|
|
return
|
|
|
|
|
|
of = None
|
|
|
seen = {f}
|
|
|
for oc in getsrcfctx(f, msrc[f]).ancestors():
|
|
|
ocr = oc.linkrev()
|
|
|
of = oc.path()
|
|
|
if of in seen:
|
|
|
# check limit late - grab last rename before
|
|
|
if ocr < limit:
|
|
|
break
|
|
|
continue
|
|
|
seen.add(of)
|
|
|
|
|
|
# remember for dir rename detection
|
|
|
if backwards:
|
|
|
data['fullcopy'][of] = f # grafting backwards through renames
|
|
|
else:
|
|
|
data['fullcopy'][f] = of
|
|
|
if of not in mdst:
|
|
|
continue # no match, keep looking
|
|
|
if mdst[of] == mb.get(of):
|
|
|
return # no merge needed, quit early
|
|
|
c2 = getdstfctx(of, mdst[of])
|
|
|
# c2 might be a plain new file on added on destination side that is
|
|
|
# unrelated to the droids we are looking for.
|
|
|
cr = _related(oc, c2)
|
|
|
if cr and (of == f or of == c2.path()): # non-divergent
|
|
|
if backwards:
|
|
|
data['copy'][of] = f
|
|
|
elif of in mb:
|
|
|
data['copy'][f] = of
|
|
|
elif remotebase: # special case: a <- b <- a -> b "ping-pong" rename
|
|
|
data['copy'][of] = f
|
|
|
del data['fullcopy'][f]
|
|
|
data['fullcopy'][of] = f
|
|
|
else: # divergence w.r.t. graft CA on one side of topological CA
|
|
|
for sf in seen:
|
|
|
if sf in mb:
|
|
|
assert sf not in data['diverge']
|
|
|
data['diverge'][sf] = [f, of]
|
|
|
break
|
|
|
return
|
|
|
|
|
|
if of in mta:
|
|
|
if backwards or remotebase:
|
|
|
data['incomplete'][of] = f
|
|
|
else:
|
|
|
for sf in seen:
|
|
|
if sf in mb:
|
|
|
if tca == base:
|
|
|
data['diverge'].setdefault(sf, []).append(f)
|
|
|
else:
|
|
|
data['incompletediverge'][sf] = [of, f]
|
|
|
return
|
|
|
|
|
|
def duplicatecopies(repo, wctx, rev, fromrev, skiprev=None):
|
|
|
"""reproduce copies from fromrev to rev in the dirstate
|
|
|
|
|
|
If skiprev is specified, it's a revision that should be used to
|
|
|
filter copy records. Any copies that occur between fromrev and
|
|
|
skiprev will not be duplicated, even if they appear in the set of
|
|
|
copies between fromrev and rev.
|
|
|
"""
|
|
|
exclude = {}
|
|
|
if (skiprev is not None and
|
|
|
repo.ui.config('experimental', 'copytrace') != 'off'):
|
|
|
# copytrace='off' skips this line, but not the entire function because
|
|
|
# the line below is O(size of the repo) during a rebase, while the rest
|
|
|
# of the function is much faster (and is required for carrying copy
|
|
|
# metadata across the rebase anyway).
|
|
|
exclude = pathcopies(repo[fromrev], repo[skiprev])
|
|
|
for dst, src in pathcopies(repo[fromrev], repo[rev]).iteritems():
|
|
|
# copies.pathcopies returns backward renames, so dst might not
|
|
|
# actually be in the dirstate
|
|
|
if dst in exclude:
|
|
|
continue
|
|
|
wctx[dst].markcopied(src)
|
|
|
|