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# dagutil.py - dag utilities for mercurial
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#
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# Copyright 2010 Benoit Boissinot <bboissin@gmail.com>
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# and Peter Arrenbrecht <peter@arrenbrecht.ch>
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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 node import nullrev
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from i18n import _
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class basedag(object):
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'''generic interface for DAGs
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terms:
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"ix" (short for index) identifies a nodes internally,
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"id" identifies one externally.
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All params are ixs unless explicitly suffixed otherwise.
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Pluralized params are lists or sets.
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'''
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def __init__(self):
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self._inverse = None
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def nodeset(self):
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'''set of all node idxs'''
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raise NotImplementedError
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def heads(self):
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'''list of head ixs'''
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raise NotImplementedError
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def parents(self, ix):
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'''list of parents ixs of ix'''
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raise NotImplementedError
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def inverse(self):
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'''inverse DAG, where parents becomes children, etc.'''
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raise NotImplementedError
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def ancestorset(self, starts, stops=None):
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'''
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set of all ancestors of starts (incl), but stop walk at stops (excl)
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'''
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raise NotImplementedError
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def descendantset(self, starts, stops=None):
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'''
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set of all descendants of starts (incl), but stop walk at stops (excl)
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'''
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return self.inverse().ancestorset(starts, stops)
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def headsetofconnecteds(self, ixs):
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'''
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subset of connected list of ixs so that no node has a descendant in it
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By "connected list" we mean that if an ancestor and a descendant are in
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the list, then so is at least one path connecting them.
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'''
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raise NotImplementedError
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def externalize(self, ix):
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'''return a list of (or set if given a set) of node ids'''
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return self._externalize(ix)
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def externalizeall(self, ixs):
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'''return a list of (or set if given a set) of node ids'''
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ids = self._externalizeall(ixs)
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if isinstance(ixs, set):
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return set(ids)
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return list(ids)
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def internalize(self, id):
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'''return a list of (or set if given a set) of node ixs'''
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return self._internalize(id)
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def internalizeall(self, ids, filterunknown=False):
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'''return a list of (or set if given a set) of node ids'''
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ixs = self._internalizeall(ids, filterunknown)
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if isinstance(ids, set):
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return set(ixs)
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return list(ixs)
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class genericdag(basedag):
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'''generic implementations for DAGs'''
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def ancestorset(self, starts, stops=None):
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stops = stops and set(stops) or set()
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seen = set()
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pending = list(starts)
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while pending:
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n = pending.pop()
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if n not in seen and n not in stops:
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seen.add(n)
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pending.extend(self.parents(n))
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return seen
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def headsetofconnecteds(self, ixs):
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hds = set(ixs)
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if not hds:
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return hds
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for n in ixs:
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for p in self.parents(n):
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hds.discard(p)
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assert hds
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return hds
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class revlogbaseddag(basedag):
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'''generic dag interface to a revlog'''
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def __init__(self, revlog, nodeset):
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basedag.__init__(self)
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self._revlog = revlog
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self._heads = None
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self._nodeset = nodeset
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def nodeset(self):
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return self._nodeset
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def heads(self):
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if self._heads is None:
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self._heads = self._getheads()
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return self._heads
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def _externalize(self, ix):
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return self._revlog.index[ix][7]
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def _externalizeall(self, ixs):
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idx = self._revlog.index
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return [idx[i][7] for i in ixs]
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def _internalize(self, id):
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ix = self._revlog.rev(id)
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if ix == nullrev:
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raise LookupError(id, self._revlog.indexfile, _('nullid'))
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return ix
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def _internalizeall(self, ids, filterunknown):
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rl = self._revlog
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if filterunknown:
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return [r for r in map(rl.nodemap.get, ids)
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if r is not None and r != nullrev]
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return map(self._internalize, ids)
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class revlogdag(revlogbaseddag):
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'''dag interface to a revlog'''
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def __init__(self, revlog):
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revlogbaseddag.__init__(self, revlog, set(xrange(len(revlog))))
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def _getheads(self):
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return [r for r in self._revlog.headrevs() if r != nullrev]
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def parents(self, ix):
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rlog = self._revlog
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idx = rlog.index
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revdata = idx[ix]
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prev = revdata[5]
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if prev != nullrev:
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prev2 = revdata[6]
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if prev2 == nullrev:
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return [prev]
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return [prev, prev2]
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prev2 = revdata[6]
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if prev2 != nullrev:
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return [prev2]
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return []
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def inverse(self):
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if self._inverse is None:
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self._inverse = inverserevlogdag(self)
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return self._inverse
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def ancestorset(self, starts, stops=None):
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rlog = self._revlog
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idx = rlog.index
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stops = stops and set(stops) or set()
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seen = set()
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pending = list(starts)
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while pending:
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rev = pending.pop()
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if rev not in seen and rev not in stops:
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seen.add(rev)
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revdata = idx[rev]
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for i in [5, 6]:
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prev = revdata[i]
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if prev != nullrev:
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pending.append(prev)
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return seen
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def headsetofconnecteds(self, ixs):
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if not ixs:
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return set()
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rlog = self._revlog
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idx = rlog.index
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headrevs = set(ixs)
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for rev in ixs:
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revdata = idx[rev]
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for i in [5, 6]:
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prev = revdata[i]
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if prev != nullrev:
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headrevs.discard(prev)
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assert headrevs
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return headrevs
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def linearize(self, ixs):
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'''linearize and topologically sort a list of revisions
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The linearization process tries to create long runs of revs where
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a child rev comes immediately after its first parent. This is done by
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visiting the heads of the given revs in inverse topological order,
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and for each visited rev, visiting its second parent, then its first
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parent, then adding the rev itself to the output list.
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'''
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sorted = []
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visit = list(self.headsetofconnecteds(ixs))
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visit.sort(reverse=True)
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finished = set()
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while visit:
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cur = visit.pop()
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if cur < 0:
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cur = -cur - 1
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if cur not in finished:
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sorted.append(cur)
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finished.add(cur)
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else:
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visit.append(-cur - 1)
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visit += [p for p in self.parents(cur)
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if p in ixs and p not in finished]
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assert len(sorted) == len(ixs)
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return sorted
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class inverserevlogdag(revlogbaseddag, genericdag):
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'''inverse of an existing revlog dag; see revlogdag.inverse()'''
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def __init__(self, orig):
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revlogbaseddag.__init__(self, orig._revlog, orig._nodeset)
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self._orig = orig
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self._children = {}
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self._roots = []
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self._walkfrom = len(self._revlog) - 1
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def _walkto(self, walkto):
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rev = self._walkfrom
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cs = self._children
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roots = self._roots
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idx = self._revlog.index
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while rev >= walkto:
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data = idx[rev]
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isroot = True
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for prev in [data[5], data[6]]: # parent revs
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if prev != nullrev:
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cs.setdefault(prev, []).append(rev)
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isroot = False
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if isroot:
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roots.append(rev)
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rev -= 1
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self._walkfrom = rev
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def _getheads(self):
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self._walkto(nullrev)
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return self._roots
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def parents(self, ix):
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if ix is None:
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return []
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if ix <= self._walkfrom:
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self._walkto(ix)
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return self._children.get(ix, [])
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def inverse(self):
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return self._orig
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