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- Committer: Robert Collins
- Date: 2005-09-12 12:39:58 UTC
- mfrom: (1185.3.4)
- mto: (1185.1.10)
- mto: This revision was merged to the branch mainline in revision 1390.
- Revision ID: robertc@robertcollins.net-20050912123958-7982e808f291f439
merge up with head
- files added:
- bzrlib/graph.py
- files modified:
- NEWS
added
removed
bzrlib/revision.py
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import bzrlib.errors
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from bzrlib.graph import farthest_nodes, node_distances, all_descendants
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class RevisionReference(object):
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"""
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def __repr__(self):
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return "<Revision id %s>" % self.revision_id
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def to_element(self):
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from bzrlib.xml import Element, SubElement
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root = Element('revision',
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committer = self.committer,
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timestamp = '%.9f' % self.timestamp,
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revision_id = self.revision_id,
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inventory_id = self.inventory_id,
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inventory_sha1 = self.inventory_sha1,
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)
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if self.timezone:
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root.set('timezone', str(self.timezone))
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root.text = '\n'
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msg = SubElement(root, 'message')
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msg.text = self.message
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msg.tail = '\n'
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if self.parents:
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pelts = SubElement(root, 'parents')
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pelts.tail = pelts.text = '\n'
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for rr in self.parents:
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assert isinstance(rr, RevisionReference)
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p = SubElement(pelts, 'revision_ref')
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p.tail = '\n'
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assert rr.revision_id
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p.set('revision_id', rr.revision_id)
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if rr.revision_sha1:
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p.set('revision_sha1', rr.revision_sha1)
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return root
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def from_element(cls, elt):
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return unpack_revision(elt)
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from_element = classmethod(from_element)
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def unpack_revision(elt):
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"""Convert XML element into Revision object."""
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# <changeset> is deprecated...
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if elt.tag not in ('revision', 'changeset'):
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raise bzrlib.errors.BzrError("unexpected tag in revision file: %r" % elt)
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rev = Revision(committer = elt.get('committer'),
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timestamp = float(elt.get('timestamp')),
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revision_id = elt.get('revision_id'),
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inventory_id = elt.get('inventory_id'),
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inventory_sha1 = elt.get('inventory_sha1')
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)
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precursor = elt.get('precursor')
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precursor_sha1 = elt.get('precursor_sha1')
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pelts = elt.find('parents')
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if pelts:
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for p in pelts:
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assert p.tag == 'revision_ref', \
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"bad parent node tag %r" % p.tag
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rev_ref = RevisionReference(p.get('revision_id'),
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p.get('revision_sha1'))
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rev.parents.append(rev_ref)
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if precursor:
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# must be consistent
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prec_parent = rev.parents[0].revision_id
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assert prec_parent == precursor
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elif precursor:
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# revisions written prior to 0.0.5 have a single precursor
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# give as an attribute
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rev_ref = RevisionReference(precursor, precursor_sha1)
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rev.parents.append(rev_ref)
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v = elt.get('timezone')
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rev.timezone = v and int(v)
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rev.message = elt.findtext('message') # text of <message>
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return rev
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def __eq__(self, other):
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if not isinstance(other, Revision):
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return False
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return (self.inventory_id == other.inventory_id
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and self.inventory_sha1 == other.inventory_sha1
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and self.revision_id == other.revision_id
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and self.timestamp == other.timestamp
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and self.message == other.message
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and self.timezone == other.timezone
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and self.committer == other.committer)
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def __ne__(self, other):
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return not self.__eq__(other)
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REVISION_ID_RE = None
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return matches
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def common_ancestor(revision_a, revision_b, revision_source):
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def old_common_ancestor(revision_a, revision_b, revision_source):
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"""Find the ancestor common to both revisions that is closest to both.
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"""
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from bzrlib.trace import mutter
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raise bzrlib.errors.AmbiguousBase((a_closest[0], b_closest[0]))
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return a_closest[0]
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def revision_graph(revision, revision_source):
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"""Produce a graph of the ancestry of the specified revision.
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Return root, ancestors map, descendants map
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TODO: Produce graphs with the NULL revision as root, so that we can find
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a common even when trees are not branches don't represent a single line
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of descent.
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"""
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ancestors = {}
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descendants = {}
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lines = [revision]
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root = None
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descendants[revision] = {}
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while len(lines) > 0:
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new_lines = set()
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for line in lines:
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try:
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rev = revision_source.get_revision(line)
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parents = [p.revision_id for p in rev.parents]
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if len(parents) == 0:
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root = line
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except bzrlib.errors.NoSuchRevision:
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if line == revision:
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raise
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parents = None
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if parents is not None:
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for parent in parents:
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if parent not in ancestors:
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new_lines.add(parent)
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if parent not in descendants:
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descendants[parent] = {}
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descendants[parent][line] = 1
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if parents is not None:
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ancestors[line] = set(parents)
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lines = new_lines
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assert root not in descendants[root]
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assert root not in ancestors[root]
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return root, ancestors, descendants
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def combined_graph(revision_a, revision_b, revision_source):
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"""Produce a combined ancestry graph.
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Return graph root, ancestors map, descendants map, set of common nodes"""
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root, ancestors, descendants = revision_graph(revision_a, revision_source)
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root_b, ancestors_b, descendants_b = revision_graph(revision_b,
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revision_source)
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assert root == root_b
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common = set()
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for node, node_anc in ancestors_b.iteritems():
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if node in ancestors:
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common.add(node)
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else:
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ancestors[node] = set()
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ancestors[node].update(node_anc)
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for node, node_dec in descendants_b.iteritems():
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if node not in descendants:
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descendants[node] = set()
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descendants[node].update(node_dec)
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return root, ancestors, descendants, common
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def common_ancestor(revision_a, revision_b, revision_source):
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root, ancestors, descendants, common = \
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combined_graph(revision_a, revision_b, revision_source)
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nodes = farthest_nodes(descendants, ancestors, root)
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for node in nodes:
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if node in common:
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return node
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class MultipleRevisionSources(object):
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"""Proxy that looks in multiple branches for revisions."""
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def __init__(self, *args):
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Otherwise, rev_id will be the last entry. ancestor_id will never appear.
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If ancestor_id is not an ancestor, NotAncestor will be thrown
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"""
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[rev_source.get_revision(r) for r in (ancestor_id, rev_id)]
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if ancestor_id == rev_id:
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return []
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def historical_lines(line):
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"""Return a tuple of historical/non_historical lines, for sorting.
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The non_historical count is negative, since non_historical lines are
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a bad thing.
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"""
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good_count = 0
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bad_count = 0
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for revision in line:
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if revision in revision_history:
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good_count += 1
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else:
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bad_count -= 1
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return good_count, bad_count
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active = [[rev_id]]
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successful_lines = []
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while len(active) > 0:
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new_active = []
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for line in active:
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parent_ids = [p.revision_id for p in
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rev_source.get_revision(line[-1]).parents]
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for parent in parent_ids:
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line_copy = line[:]
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if parent == ancestor_id:
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successful_lines.append(line_copy)
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else:
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line_copy.append(parent)
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new_active.append(line_copy)
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active = new_active
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if len(successful_lines) == 0:
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raise bzrlib.errors.NotAncestor(rev_id, ancestor_id)
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for line in successful_lines:
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line.reverse()
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if revision_history is not None:
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by_historical_lines = []
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for line in successful_lines:
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count = historical_lines(line)
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by_historical_lines.append((count, line))
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by_historical_lines.sort()
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if by_historical_lines[-1][0][0] > 0:
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return by_historical_lines[-1][1]
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assert len(successful_lines)
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successful_lines.sort(cmp, len)
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return successful_lines[-1]
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root, ancestors, descendants = revision_graph(rev_id, rev_source)
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if len(descendants) == 0:
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raise NoSuchRevision(rev_source, rev_id)
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if ancestor_id not in descendants:
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rev_source.get_revision(ancestor_id)
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raise bzrlib.errors.NotAncestor(rev_id, ancestor_id)
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root_descendants = all_descendants(descendants, ancestor_id)
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root_descendants.add(ancestor_id)
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if rev_id not in root_descendants:
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raise bzrlib.errors.NotAncestor(rev_id, ancestor_id)
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distances = node_distances(descendants, ancestors, ancestor_id,
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root_descendants=root_descendants)
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def best_ancestor(rev_id):
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best = None
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for anc_id in ancestors[rev_id]:
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try:
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distance = distances[anc_id]
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except KeyError:
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continue
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if revision_history is not None and anc_id in revision_history:
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return anc_id
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elif best is None or distance > best[1]:
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best = (anc_id, distance)
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return best[0]
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next = rev_id
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path = []
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while next != ancestor_id:
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path.append(next)
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next = best_ancestor(next)
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path.reverse()
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return path
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