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|
# Copyright (C) 2005, 2006, 2008 Canonical Ltd
#
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation; either version 2 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program; if not, write to the Free Software
# Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
import errno
from itertools import chain
import os
import warnings
from bzrlib import (
debug,
errors,
graph as _mod_graph,
osutils,
patiencediff,
registry,
revision as _mod_revision,
tree as _mod_tree,
tsort,
)
from bzrlib.branch import Branch
from bzrlib.conflicts import ConflictList, Conflict
from bzrlib.errors import (BzrCommandError,
BzrError,
NoCommonAncestor,
NoCommits,
NoSuchRevision,
NoSuchFile,
NotBranchError,
NotVersionedError,
UnrelatedBranches,
UnsupportedOperation,
WorkingTreeNotRevision,
BinaryFile,
)
from bzrlib.graph import Graph
from bzrlib.merge3 import Merge3
from bzrlib.osutils import rename, pathjoin
from progress import DummyProgress, ProgressPhase
from bzrlib.revision import (NULL_REVISION, ensure_null)
from bzrlib.textfile import check_text_lines
from bzrlib.trace import mutter, warning, note, is_quiet
from bzrlib.transform import (TransformPreview, TreeTransform,
resolve_conflicts, cook_conflicts,
conflict_pass, FinalPaths, create_by_entry,
unique_add, ROOT_PARENT)
from bzrlib.versionedfile import PlanWeaveMerge
from bzrlib import ui
# TODO: Report back as changes are merged in
def transform_tree(from_tree, to_tree, interesting_ids=None):
merge_inner(from_tree.branch, to_tree, from_tree, ignore_zero=True,
interesting_ids=interesting_ids, this_tree=from_tree)
class Merger(object):
def __init__(self, this_branch, other_tree=None, base_tree=None,
this_tree=None, pb=DummyProgress(), change_reporter=None,
recurse='down', revision_graph=None):
object.__init__(self)
self.this_branch = this_branch
self.this_basis = _mod_revision.ensure_null(
this_branch.last_revision())
self.this_rev_id = None
self.this_tree = this_tree
self.this_revision_tree = None
self.this_basis_tree = None
self.other_tree = other_tree
self.other_branch = None
self.base_tree = base_tree
self.ignore_zero = False
self.backup_files = False
self.interesting_ids = None
self.interesting_files = None
self.show_base = False
self.reprocess = False
self._pb = pb
self.pp = None
self.recurse = recurse
self.change_reporter = change_reporter
self._cached_trees = {}
self._revision_graph = revision_graph
self._base_is_ancestor = None
self._base_is_other_ancestor = None
self._is_criss_cross = None
self._lca_trees = None
@property
def revision_graph(self):
if self._revision_graph is None:
self._revision_graph = self.this_branch.repository.get_graph()
return self._revision_graph
def _set_base_is_ancestor(self, value):
self._base_is_ancestor = value
def _get_base_is_ancestor(self):
if self._base_is_ancestor is None:
self._base_is_ancestor = self.revision_graph.is_ancestor(
self.base_rev_id, self.this_basis)
return self._base_is_ancestor
base_is_ancestor = property(_get_base_is_ancestor, _set_base_is_ancestor)
def _set_base_is_other_ancestor(self, value):
self._base_is_other_ancestor = value
def _get_base_is_other_ancestor(self):
if self._base_is_other_ancestor is None:
if self.other_basis is None:
return True
self._base_is_other_ancestor = self.revision_graph.is_ancestor(
self.base_rev_id, self.other_basis)
return self._base_is_other_ancestor
base_is_other_ancestor = property(_get_base_is_other_ancestor,
_set_base_is_other_ancestor)
@staticmethod
def from_uncommitted(tree, other_tree, pb):
"""Return a Merger for uncommitted changes in other_tree.
:param tree: The tree to merge into
:param other_tree: The tree to get uncommitted changes from
:param pb: A progress indicator
"""
merger = Merger(tree.branch, other_tree, other_tree.basis_tree(), tree,
pb)
merger.base_rev_id = merger.base_tree.get_revision_id()
merger.other_rev_id = None
merger.other_basis = merger.base_rev_id
return merger
@classmethod
def from_mergeable(klass, tree, mergeable, pb):
"""Return a Merger for a bundle or merge directive.
:param tree: The tree to merge changes into
:param mergeable: A merge directive or bundle
:param pb: A progress indicator
"""
mergeable.install_revisions(tree.branch.repository)
base_revision_id, other_revision_id, verified =\
mergeable.get_merge_request(tree.branch.repository)
revision_graph = tree.branch.repository.get_graph()
if base_revision_id is not None:
if (base_revision_id != _mod_revision.NULL_REVISION and
revision_graph.is_ancestor(
base_revision_id, tree.branch.last_revision())):
base_revision_id = None
else:
warning('Performing cherrypick')
merger = klass.from_revision_ids(pb, tree, other_revision_id,
base_revision_id, revision_graph=
revision_graph)
return merger, verified
@staticmethod
def from_revision_ids(pb, tree, other, base=None, other_branch=None,
base_branch=None, revision_graph=None):
"""Return a Merger for revision-ids.
:param tree: The tree to merge changes into
:param other: The revision-id to use as OTHER
:param base: The revision-id to use as BASE. If not specified, will
be auto-selected.
:param other_branch: A branch containing the other revision-id. If
not supplied, tree.branch is used.
:param base_branch: A branch containing the base revision-id. If
not supplied, other_branch or tree.branch will be used.
:param revision_graph: If you have a revision_graph precomputed, pass
it in, otherwise it will be created for you.
:param pb: A progress indicator
"""
merger = Merger(tree.branch, this_tree=tree, pb=pb,
revision_graph=revision_graph)
if other_branch is None:
other_branch = tree.branch
merger.set_other_revision(other, other_branch)
if base is None:
merger.find_base()
else:
if base_branch is None:
base_branch = other_branch
merger.set_base_revision(base, base_branch)
return merger
def revision_tree(self, revision_id, branch=None):
if revision_id not in self._cached_trees:
if branch is None:
branch = self.this_branch
try:
tree = self.this_tree.revision_tree(revision_id)
except errors.NoSuchRevisionInTree:
tree = branch.repository.revision_tree(revision_id)
self._cached_trees[revision_id] = tree
return self._cached_trees[revision_id]
def _get_tree(self, treespec, possible_transports=None):
from bzrlib import workingtree
location, revno = treespec
if revno is None:
tree = workingtree.WorkingTree.open_containing(location)[0]
return tree.branch, tree
branch = Branch.open_containing(location, possible_transports)[0]
if revno == -1:
revision_id = branch.last_revision()
else:
revision_id = branch.get_rev_id(revno)
revision_id = ensure_null(revision_id)
return branch, self.revision_tree(revision_id, branch)
def ensure_revision_trees(self):
if self.this_revision_tree is None:
self.this_basis_tree = self.revision_tree(self.this_basis)
if self.this_basis == self.this_rev_id:
self.this_revision_tree = self.this_basis_tree
if self.other_rev_id is None:
other_basis_tree = self.revision_tree(self.other_basis)
changes = other_basis_tree.changes_from(self.other_tree)
if changes.has_changed():
raise WorkingTreeNotRevision(self.this_tree)
other_rev_id = self.other_basis
self.other_tree = other_basis_tree
def file_revisions(self, file_id):
self.ensure_revision_trees()
def get_id(tree, file_id):
revision_id = tree.inventory[file_id].revision
return revision_id
if self.this_rev_id is None:
if self.this_basis_tree.get_file_sha1(file_id) != \
self.this_tree.get_file_sha1(file_id):
raise WorkingTreeNotRevision(self.this_tree)
trees = (self.this_basis_tree, self.other_tree)
return [get_id(tree, file_id) for tree in trees]
def check_basis(self, check_clean, require_commits=True):
if self.this_basis is None and require_commits is True:
raise BzrCommandError("This branch has no commits."
" (perhaps you would prefer 'bzr pull')")
if check_clean:
self.compare_basis()
if self.this_basis != self.this_rev_id:
raise errors.UncommittedChanges(self.this_tree)
def compare_basis(self):
try:
basis_tree = self.revision_tree(self.this_tree.last_revision())
except errors.NoSuchRevision:
basis_tree = self.this_tree.basis_tree()
changes = self.this_tree.changes_from(basis_tree)
if not changes.has_changed():
self.this_rev_id = self.this_basis
def set_interesting_files(self, file_list):
self.interesting_files = file_list
def set_pending(self):
if not self.base_is_ancestor or not self.base_is_other_ancestor or self.other_rev_id is None:
return
self._add_parent()
def _add_parent(self):
new_parents = self.this_tree.get_parent_ids() + [self.other_rev_id]
new_parent_trees = []
for revision_id in new_parents:
try:
tree = self.revision_tree(revision_id)
except errors.NoSuchRevision:
tree = None
else:
tree.lock_read()
new_parent_trees.append((revision_id, tree))
try:
self.this_tree.set_parent_trees(new_parent_trees,
allow_leftmost_as_ghost=True)
finally:
for _revision_id, tree in new_parent_trees:
if tree is not None:
tree.unlock()
def set_other(self, other_revision, possible_transports=None):
"""Set the revision and tree to merge from.
This sets the other_tree, other_rev_id, other_basis attributes.
:param other_revision: The [path, revision] list to merge from.
"""
self.other_branch, self.other_tree = self._get_tree(other_revision,
possible_transports)
if other_revision[1] == -1:
self.other_rev_id = _mod_revision.ensure_null(
self.other_branch.last_revision())
if _mod_revision.is_null(self.other_rev_id):
raise NoCommits(self.other_branch)
self.other_basis = self.other_rev_id
elif other_revision[1] is not None:
self.other_rev_id = self.other_branch.get_rev_id(other_revision[1])
self.other_basis = self.other_rev_id
else:
self.other_rev_id = None
self.other_basis = self.other_branch.last_revision()
if self.other_basis is None:
raise NoCommits(self.other_branch)
if self.other_rev_id is not None:
self._cached_trees[self.other_rev_id] = self.other_tree
self._maybe_fetch(self.other_branch,self.this_branch, self.other_basis)
def set_other_revision(self, revision_id, other_branch):
"""Set 'other' based on a branch and revision id
:param revision_id: The revision to use for a tree
:param other_branch: The branch containing this tree
"""
self.other_rev_id = revision_id
self.other_branch = other_branch
self._maybe_fetch(other_branch, self.this_branch, self.other_rev_id)
self.other_tree = self.revision_tree(revision_id)
self.other_basis = revision_id
def set_base_revision(self, revision_id, branch):
"""Set 'base' based on a branch and revision id
:param revision_id: The revision to use for a tree
:param branch: The branch containing this tree
"""
self.base_rev_id = revision_id
self.base_branch = branch
self._maybe_fetch(branch, self.this_branch, revision_id)
self.base_tree = self.revision_tree(revision_id)
def _maybe_fetch(self, source, target, revision_id):
if not source.repository.has_same_location(target.repository):
target.fetch(source, revision_id)
def find_base(self):
revisions = [ensure_null(self.this_basis),
ensure_null(self.other_basis)]
if NULL_REVISION in revisions:
self.base_rev_id = NULL_REVISION
self.base_tree = self.revision_tree(self.base_rev_id)
self._is_criss_cross = False
else:
lcas = self.revision_graph.find_lca(revisions[0], revisions[1])
self._is_criss_cross = False
if len(lcas) == 0:
self.base_rev_id = NULL_REVISION
elif len(lcas) == 1:
self.base_rev_id = list(lcas)[0]
else: # len(lcas) > 1
if len(lcas) > 2:
# find_unique_lca can only handle 2 nodes, so we have to
# start back at the beginning. It is a shame to traverse
# the graph again, but better than re-implementing
# find_unique_lca.
self.base_rev_id = self.revision_graph.find_unique_lca(
revisions[0], revisions[1])
else:
self.base_rev_id = self.revision_graph.find_unique_lca(
*lcas)
self._is_criss_cross = True
if self.base_rev_id == NULL_REVISION:
raise UnrelatedBranches()
if self._is_criss_cross:
warning('Warning: criss-cross merge encountered. See bzr'
' help criss-cross.')
interesting_revision_ids = [self.base_rev_id]
interesting_revision_ids.extend(lcas)
interesting_trees = dict((t.get_revision_id(), t)
for t in self.this_branch.repository.revision_trees(
interesting_revision_ids))
self._cached_trees.update(interesting_trees)
self.base_tree = interesting_trees.pop(self.base_rev_id)
sorted_lca_keys = self.revision_graph.find_merge_order(
revisions[0], lcas)
self._lca_trees = [interesting_trees[key]
for key in sorted_lca_keys]
else:
self.base_tree = self.revision_tree(self.base_rev_id)
self.base_is_ancestor = True
self.base_is_other_ancestor = True
def set_base(self, base_revision):
"""Set the base revision to use for the merge.
:param base_revision: A 2-list containing a path and revision number.
"""
mutter("doing merge() with no base_revision specified")
if base_revision == [None, None]:
self.find_base()
else:
base_branch, self.base_tree = self._get_tree(base_revision)
if base_revision[1] == -1:
self.base_rev_id = base_branch.last_revision()
elif base_revision[1] is None:
self.base_rev_id = _mod_revision.NULL_REVISION
else:
self.base_rev_id = _mod_revision.ensure_null(
base_branch.get_rev_id(base_revision[1]))
self._maybe_fetch(base_branch, self.this_branch, self.base_rev_id)
def make_merger(self):
kwargs = {'working_tree':self.this_tree, 'this_tree': self.this_tree,
'other_tree': self.other_tree,
'interesting_ids': self.interesting_ids,
'interesting_files': self.interesting_files,
'pp': self.pp,
'do_merge': False}
if self.merge_type.requires_base:
kwargs['base_tree'] = self.base_tree
if self.merge_type.supports_reprocess:
kwargs['reprocess'] = self.reprocess
elif self.reprocess:
raise BzrError("Conflict reduction is not supported for merge"
" type %s." % self.merge_type)
if self.merge_type.supports_show_base:
kwargs['show_base'] = self.show_base
elif self.show_base:
raise BzrError("Showing base is not supported for this"
" merge type. %s" % self.merge_type)
if (not getattr(self.merge_type, 'supports_reverse_cherrypick', True)
and not self.base_is_other_ancestor):
raise errors.CannotReverseCherrypick()
if self.merge_type.supports_cherrypick:
kwargs['cherrypick'] = (not self.base_is_ancestor or
not self.base_is_other_ancestor)
if self._is_criss_cross and getattr(self.merge_type,
'supports_lca_trees', False):
kwargs['lca_trees'] = self._lca_trees
return self.merge_type(pb=self._pb,
change_reporter=self.change_reporter,
**kwargs)
def _do_merge_to(self, merge):
merge.do_merge()
if self.recurse == 'down':
for relpath, file_id in self.this_tree.iter_references():
sub_tree = self.this_tree.get_nested_tree(file_id, relpath)
other_revision = self.other_tree.get_reference_revision(
file_id, relpath)
if other_revision == sub_tree.last_revision():
continue
sub_merge = Merger(sub_tree.branch, this_tree=sub_tree)
sub_merge.merge_type = self.merge_type
other_branch = self.other_branch.reference_parent(file_id, relpath)
sub_merge.set_other_revision(other_revision, other_branch)
base_revision = self.base_tree.get_reference_revision(file_id)
sub_merge.base_tree = \
sub_tree.branch.repository.revision_tree(base_revision)
sub_merge.base_rev_id = base_revision
sub_merge.do_merge()
def do_merge(self):
self.this_tree.lock_tree_write()
try:
if self.base_tree is not None:
self.base_tree.lock_read()
try:
if self.other_tree is not None:
self.other_tree.lock_read()
try:
merge = self.make_merger()
self._do_merge_to(merge)
finally:
if self.other_tree is not None:
self.other_tree.unlock()
finally:
if self.base_tree is not None:
self.base_tree.unlock()
finally:
self.this_tree.unlock()
if len(merge.cooked_conflicts) == 0:
if not self.ignore_zero and not is_quiet():
note("All changes applied successfully.")
else:
note("%d conflicts encountered." % len(merge.cooked_conflicts))
return len(merge.cooked_conflicts)
class _InventoryNoneEntry(object):
"""This represents an inventory entry which *isn't there*.
It simplifies the merging logic if we always have an InventoryEntry, even
if it isn't actually present
"""
executable = None
kind = None
name = None
parent_id = None
revision = None
symlink_target = None
text_sha1 = None
_none_entry = _InventoryNoneEntry()
class Merge3Merger(object):
"""Three-way merger that uses the merge3 text merger"""
requires_base = True
supports_reprocess = True
supports_show_base = True
history_based = False
supports_cherrypick = True
supports_reverse_cherrypick = True
winner_idx = {"this": 2, "other": 1, "conflict": 1}
supports_lca_trees = True
def __init__(self, working_tree, this_tree, base_tree, other_tree,
interesting_ids=None, reprocess=False, show_base=False,
pb=DummyProgress(), pp=None, change_reporter=None,
interesting_files=None, do_merge=True,
cherrypick=False, lca_trees=None):
"""Initialize the merger object and perform the merge.
:param working_tree: The working tree to apply the merge to
:param this_tree: The local tree in the merge operation
:param base_tree: The common tree in the merge operation
:param other_tree: The other other tree to merge changes from
:param interesting_ids: The file_ids of files that should be
participate in the merge. May not be combined with
interesting_files.
:param: reprocess If True, perform conflict-reduction processing.
:param show_base: If True, show the base revision in text conflicts.
(incompatible with reprocess)
:param pb: A Progress bar
:param pp: A ProgressPhase object
:param change_reporter: An object that should report changes made
:param interesting_files: The tree-relative paths of files that should
participate in the merge. If these paths refer to directories,
the contents of those directories will also be included. May not
be combined with interesting_ids. If neither interesting_files nor
interesting_ids is specified, all files may participate in the
merge.
:param lca_trees: Can be set to a dictionary of {revision_id:rev_tree}
if the ancestry was found to include a criss-cross merge.
Otherwise should be None.
"""
object.__init__(self)
if interesting_files is not None and interesting_ids is not None:
raise ValueError(
'specify either interesting_ids or interesting_files')
self.interesting_ids = interesting_ids
self.interesting_files = interesting_files
self.this_tree = working_tree
self.base_tree = base_tree
self.other_tree = other_tree
self._raw_conflicts = []
self.cooked_conflicts = []
self.reprocess = reprocess
self.show_base = show_base
self._lca_trees = lca_trees
# Uncommenting this will change the default algorithm to always use
# _entries_lca. This can be useful for running the test suite and
# making sure we haven't missed any corner cases.
# if lca_trees is None:
# self._lca_trees = [self.base_tree]
self.pb = pb
self.pp = pp
self.change_reporter = change_reporter
self.cherrypick = cherrypick
if self.pp is None:
self.pp = ProgressPhase("Merge phase", 3, self.pb)
if do_merge:
self.do_merge()
def do_merge(self):
self.this_tree.lock_tree_write()
self.base_tree.lock_read()
self.other_tree.lock_read()
self.tt = TreeTransform(self.this_tree, self.pb)
try:
self.pp.next_phase()
self._compute_transform()
self.pp.next_phase()
results = self.tt.apply(no_conflicts=True)
self.write_modified(results)
try:
self.this_tree.add_conflicts(self.cooked_conflicts)
except UnsupportedOperation:
pass
finally:
self.tt.finalize()
self.other_tree.unlock()
self.base_tree.unlock()
self.this_tree.unlock()
self.pb.clear()
def make_preview_transform(self):
self.base_tree.lock_read()
self.other_tree.lock_read()
self.tt = TransformPreview(self.this_tree)
try:
self.pp.next_phase()
self._compute_transform()
self.pp.next_phase()
finally:
self.other_tree.unlock()
self.base_tree.unlock()
self.pb.clear()
return self.tt
def _compute_transform(self):
if self._lca_trees is None:
entries = self._entries3()
resolver = self._three_way
else:
entries = self._entries_lca()
resolver = self._lca_multi_way
child_pb = ui.ui_factory.nested_progress_bar()
try:
for num, (file_id, changed, parents3, names3,
executable3) in enumerate(entries):
child_pb.update('Preparing file merge', num, len(entries))
self._merge_names(file_id, parents3, names3, resolver=resolver)
if changed:
file_status = self.merge_contents(file_id)
else:
file_status = 'unmodified'
self._merge_executable(file_id,
executable3, file_status, resolver=resolver)
finally:
child_pb.finished()
self.fix_root()
self.pp.next_phase()
child_pb = ui.ui_factory.nested_progress_bar()
try:
fs_conflicts = resolve_conflicts(self.tt, child_pb,
lambda t, c: conflict_pass(t, c, self.other_tree))
finally:
child_pb.finished()
if self.change_reporter is not None:
from bzrlib import delta
delta.report_changes(
self.tt.iter_changes(), self.change_reporter)
self.cook_conflicts(fs_conflicts)
for conflict in self.cooked_conflicts:
warning(conflict)
def _entries3(self):
"""Gather data about files modified between three trees.
Return a list of tuples of file_id, changed, parents3, names3,
executable3. changed is a boolean indicating whether the file contents
or kind were changed. parents3 is a tuple of parent ids for base,
other and this. names3 is a tuple of names for base, other and this.
executable3 is a tuple of execute-bit values for base, other and this.
"""
result = []
iterator = self.other_tree.iter_changes(self.base_tree,
include_unchanged=True, specific_files=self.interesting_files,
extra_trees=[self.this_tree])
for (file_id, paths, changed, versioned, parents, names, kind,
executable) in iterator:
if (self.interesting_ids is not None and
file_id not in self.interesting_ids):
continue
if file_id in self.this_tree.inventory:
entry = self.this_tree.inventory[file_id]
this_name = entry.name
this_parent = entry.parent_id
this_executable = entry.executable
else:
this_name = None
this_parent = None
this_executable = None
parents3 = parents + (this_parent,)
names3 = names + (this_name,)
executable3 = executable + (this_executable,)
result.append((file_id, changed, parents3, names3, executable3))
return result
def _entries_lca(self):
"""Gather data about files modified between multiple trees.
This compares OTHER versus all LCA trees, and for interesting entries,
it then compares with THIS and BASE.
For the multi-valued entries, the format will be (BASE, [lca1, lca2])
:return: [(file_id, changed, parents, names, executable)]
file_id Simple file_id of the entry
changed Boolean, True if the kind or contents changed
else False
parents ((base, [parent_id, in, lcas]), parent_id_other,
parent_id_this)
names ((base, [name, in, lcas]), name_in_other, name_in_this)
executable ((base, [exec, in, lcas]), exec_in_other, exec_in_this)
"""
if self.interesting_files is not None:
lookup_trees = [self.this_tree, self.base_tree]
lookup_trees.extend(self._lca_trees)
# I think we should include the lca trees as well
interesting_ids = self.other_tree.paths2ids(self.interesting_files,
lookup_trees)
else:
interesting_ids = self.interesting_ids
result = []
walker = _mod_tree.MultiWalker(self.other_tree, self._lca_trees)
base_inventory = self.base_tree.inventory
this_inventory = self.this_tree.inventory
for path, file_id, other_ie, lca_values in walker.iter_all():
# Is this modified at all from any of the other trees?
if other_ie is None:
other_ie = _none_entry
if interesting_ids is not None and file_id not in interesting_ids:
continue
# If other_revision is found in any of the lcas, that means this
# node is uninteresting. This is because when merging, if there are
# multiple heads(), we have to create a new node. So if we didn't,
# we know that the ancestry is linear, and that OTHER did not
# modify anything
# See doc/developers/lca_merge_resolution.txt for details
other_revision = other_ie.revision
if other_revision is not None:
# We can't use this shortcut when other_revision is None,
# because it may be None because things are WorkingTrees, and
# not because it is *actually* None.
is_unmodified = False
for lca_path, ie in lca_values:
if ie is not None and ie.revision == other_revision:
is_unmodified = True
break
if is_unmodified:
continue
lca_entries = []
for lca_path, lca_ie in lca_values:
if lca_ie is None:
lca_entries.append(_none_entry)
else:
lca_entries.append(lca_ie)
if file_id in base_inventory:
base_ie = base_inventory[file_id]
else:
base_ie = _none_entry
if file_id in this_inventory:
this_ie = this_inventory[file_id]
else:
this_ie = _none_entry
lca_kinds = []
lca_parent_ids = []
lca_names = []
lca_executable = []
for lca_ie in lca_entries:
lca_kinds.append(lca_ie.kind)
lca_parent_ids.append(lca_ie.parent_id)
lca_names.append(lca_ie.name)
lca_executable.append(lca_ie.executable)
kind_winner = self._lca_multi_way(
(base_ie.kind, lca_kinds),
other_ie.kind, this_ie.kind)
parent_id_winner = self._lca_multi_way(
(base_ie.parent_id, lca_parent_ids),
other_ie.parent_id, this_ie.parent_id)
name_winner = self._lca_multi_way(
(base_ie.name, lca_names),
other_ie.name, this_ie.name)
content_changed = True
if kind_winner == 'this':
# No kind change in OTHER, see if there are *any* changes
if other_ie.kind == None:
# No content and 'this' wins the kind, so skip this?
# continue
pass
elif other_ie.kind == 'directory':
if parent_id_winner == 'this' and name_winner == 'this':
# No change for this directory in OTHER, skip
continue
content_changed = False
elif other_ie.kind == 'file':
def get_sha1(ie, tree):
if ie.kind != 'file':
return None
return tree.get_file_sha1(file_id)
base_sha1 = get_sha1(base_ie, self.base_tree)
lca_sha1s = [get_sha1(ie, tree) for ie, tree
in zip(lca_entries, self._lca_trees)]
this_sha1 = get_sha1(this_ie, self.this_tree)
other_sha1 = get_sha1(other_ie, self.other_tree)
sha1_winner = self._lca_multi_way(
(base_sha1, lca_sha1s), other_sha1, this_sha1,
allow_overriding_lca=False)
exec_winner = self._lca_multi_way(
(base_ie.executable, lca_executable),
other_ie.executable, this_ie.executable)
if (parent_id_winner == 'this' and name_winner == 'this'
and sha1_winner == 'this' and exec_winner == 'this'):
# No kind, parent, name, exec, or content change for
# OTHER, so this node is not considered interesting
continue
if sha1_winner == 'this':
content_changed = False
elif other_ie.kind == 'symlink':
def get_target(ie, tree):
if ie.kind != 'symlink':
return None
return tree.get_symlink_target(file_id)
base_target = get_target(base_ie, self.base_tree)
lca_targets = [get_target(ie, tree) for ie, tree
in zip(lca_entries, self._lca_trees)]
this_target = get_target(this_ie, self.this_tree)
other_target = get_target(other_ie, self.other_tree)
target_winner = self._lca_multi_way(
(base_target, lca_targets),
other_target, this_target)
if (parent_id_winner == 'this' and name_winner == 'this'
and target_winner == 'this'):
# No kind, parent, name, or symlink target change
# not interesting
continue
if target_winner == 'this':
content_changed = False
elif other_ie.kind == 'tree-reference':
# The 'changed' information seems to be handled at a higher
# level. At least, _entries3 returns False for content
# changed, even when at a new revision_id.
content_changed = False
if (parent_id_winner == 'this' and name_winner == 'this'):
# Nothing interesting
continue
else:
raise AssertionError('unhandled kind: %s' % other_ie.kind)
# XXX: We need to handle kind == 'symlink'
# If we have gotten this far, that means something has changed
result.append((file_id, content_changed,
((base_ie.parent_id, lca_parent_ids),
other_ie.parent_id, this_ie.parent_id),
((base_ie.name, lca_names),
other_ie.name, this_ie.name),
((base_ie.executable, lca_executable),
other_ie.executable, this_ie.executable)
))
return result
def fix_root(self):
try:
self.tt.final_kind(self.tt.root)
except NoSuchFile:
self.tt.cancel_deletion(self.tt.root)
if self.tt.final_file_id(self.tt.root) is None:
self.tt.version_file(self.tt.tree_file_id(self.tt.root),
self.tt.root)
if self.other_tree.inventory.root is None:
return
other_root_file_id = self.other_tree.get_root_id()
other_root = self.tt.trans_id_file_id(other_root_file_id)
if other_root == self.tt.root:
return
try:
self.tt.final_kind(other_root)
except NoSuchFile:
return
if self.other_tree.inventory.root.file_id in self.this_tree.inventory:
# the other tree's root is a non-root in the current tree
return
self.reparent_children(self.other_tree.inventory.root, self.tt.root)
self.tt.cancel_creation(other_root)
self.tt.cancel_versioning(other_root)
def reparent_children(self, ie, target):
for thing, child in ie.children.iteritems():
trans_id = self.tt.trans_id_file_id(child.file_id)
self.tt.adjust_path(self.tt.final_name(trans_id), target, trans_id)
def write_modified(self, results):
modified_hashes = {}
for path in results.modified_paths:
file_id = self.this_tree.path2id(self.this_tree.relpath(path))
if file_id is None:
continue
hash = self.this_tree.get_file_sha1(file_id)
if hash is None:
continue
modified_hashes[file_id] = hash
self.this_tree.set_merge_modified(modified_hashes)
@staticmethod
def parent(entry, file_id):
"""Determine the parent for a file_id (used as a key method)"""
if entry is None:
return None
return entry.parent_id
@staticmethod
def name(entry, file_id):
"""Determine the name for a file_id (used as a key method)"""
if entry is None:
return None
return entry.name
@staticmethod
def contents_sha1(tree, file_id):
"""Determine the sha1 of the file contents (used as a key method)."""
if file_id not in tree:
return None
return tree.get_file_sha1(file_id)
@staticmethod
def executable(tree, file_id):
"""Determine the executability of a file-id (used as a key method)."""
if file_id not in tree:
return None
if tree.kind(file_id) != "file":
return False
return tree.is_executable(file_id)
@staticmethod
def kind(tree, file_id):
"""Determine the kind of a file-id (used as a key method)."""
if file_id not in tree:
return None
return tree.kind(file_id)
@staticmethod
def _three_way(base, other, this):
#if base == other, either they all agree, or only THIS has changed.
if base == other:
return 'this'
elif this not in (base, other):
return 'conflict'
# "Ambiguous clean merge" -- both sides have made the same change.
elif this == other:
return "this"
# this == base: only other has changed.
else:
return "other"
@staticmethod
def _lca_multi_way(bases, other, this, allow_overriding_lca=True):
"""Consider LCAs when determining whether a change has occurred.
If LCAS are all identical, this is the same as a _three_way comparison.
:param bases: value in (BASE, [LCAS])
:param other: value in OTHER
:param this: value in THIS
:param allow_overriding_lca: If there is more than one unique lca
value, allow OTHER to override THIS if it has a new value, and
THIS only has an lca value, or vice versa. This is appropriate for
truly scalar values, not as much for non-scalars.
:return: 'this', 'other', or 'conflict' depending on whether an entry
changed or not.
"""
# See doc/developers/lca_merge_resolution.txt for details about this
# algorithm.
if other == this:
# Either Ambiguously clean, or nothing was actually changed. We
# don't really care
return 'this'
base_val, lca_vals = bases
# Remove 'base_val' from the lca_vals, because it is not interesting
filtered_lca_vals = [lca_val for lca_val in lca_vals
if lca_val != base_val]
if len(filtered_lca_vals) == 0:
return Merge3Merger._three_way(base_val, other, this)
unique_lca_vals = set(filtered_lca_vals)
if len(unique_lca_vals) == 1:
return Merge3Merger._three_way(unique_lca_vals.pop(), other, this)
if allow_overriding_lca:
if other in unique_lca_vals:
if this in unique_lca_vals:
# Each side picked a different lca, conflict
return 'conflict'
else:
# This has a value which supersedes both lca values, and
# other only has an lca value
return 'this'
elif this in unique_lca_vals:
# OTHER has a value which supersedes both lca values, and this
# only has an lca value
return 'other'
# At this point, the lcas disagree, and the tips disagree
return 'conflict'
@staticmethod
def scalar_three_way(this_tree, base_tree, other_tree, file_id, key):
"""Do a three-way test on a scalar.
Return "this", "other" or "conflict", depending whether a value wins.
"""
key_base = key(base_tree, file_id)
key_other = key(other_tree, file_id)
#if base == other, either they all agree, or only THIS has changed.
if key_base == key_other:
return "this"
key_this = key(this_tree, file_id)
# "Ambiguous clean merge"
if key_this == key_other:
return "this"
elif key_this == key_base:
return "other"
else:
return "conflict"
def merge_names(self, file_id):
def get_entry(tree):
if file_id in tree.inventory:
return tree.inventory[file_id]
else:
return None
this_entry = get_entry(self.this_tree)
other_entry = get_entry(self.other_tree)
base_entry = get_entry(self.base_tree)
entries = (base_entry, other_entry, this_entry)
names = []
parents = []
for entry in entries:
if entry is None:
names.append(None)
parents.append(None)
else:
names.append(entry.name)
parents.append(entry.parent_id)
return self._merge_names(file_id, parents, names,
resolver=self._three_way)
def _merge_names(self, file_id, parents, names, resolver):
"""Perform a merge on file_id names and parents"""
base_name, other_name, this_name = names
base_parent, other_parent, this_parent = parents
name_winner = resolver(*names)
parent_id_winner = resolver(*parents)
if this_name is None:
if name_winner == "this":
name_winner = "other"
if parent_id_winner == "this":
parent_id_winner = "other"
if name_winner == "this" and parent_id_winner == "this":
return
if name_winner == "conflict":
trans_id = self.tt.trans_id_file_id(file_id)
self._raw_conflicts.append(('name conflict', trans_id,
this_name, other_name))
if parent_id_winner == "conflict":
trans_id = self.tt.trans_id_file_id(file_id)
self._raw_conflicts.append(('parent conflict', trans_id,
this_parent, other_parent))
if other_name is None:
# it doesn't matter whether the result was 'other' or
# 'conflict'-- if there's no 'other', we leave it alone.
return
# if we get here, name_winner and parent_winner are set to safe values.
trans_id = self.tt.trans_id_file_id(file_id)
parent_id = parents[self.winner_idx[parent_id_winner]]
if parent_id is not None:
parent_trans_id = self.tt.trans_id_file_id(parent_id)
self.tt.adjust_path(names[self.winner_idx[name_winner]],
parent_trans_id, trans_id)
def merge_contents(self, file_id):
"""Performa a merge on file_id contents."""
def contents_pair(tree):
if file_id not in tree:
return (None, None)
kind = tree.kind(file_id)
if kind == "file":
contents = tree.get_file_sha1(file_id)
elif kind == "symlink":
contents = tree.get_symlink_target(file_id)
else:
contents = None
return kind, contents
def contents_conflict():
trans_id = self.tt.trans_id_file_id(file_id)
name = self.tt.final_name(trans_id)
parent_id = self.tt.final_parent(trans_id)
if file_id in self.this_tree.inventory:
self.tt.unversion_file(trans_id)
if file_id in self.this_tree:
self.tt.delete_contents(trans_id)
file_group = self._dump_conflicts(name, parent_id, file_id,
set_version=True)
self._raw_conflicts.append(('contents conflict', file_group))
# See SPOT run. run, SPOT, run.
# So we're not QUITE repeating ourselves; we do tricky things with
# file kind...
base_pair = contents_pair(self.base_tree)
other_pair = contents_pair(self.other_tree)
if base_pair == other_pair:
# OTHER introduced no changes
return "unmodified"
this_pair = contents_pair(self.this_tree)
if this_pair == other_pair:
# THIS and OTHER introduced the same changes
return "unmodified"
else:
trans_id = self.tt.trans_id_file_id(file_id)
if this_pair == base_pair:
# only OTHER introduced changes
if file_id in self.this_tree:
# Remove any existing contents
self.tt.delete_contents(trans_id)
if file_id in self.other_tree:
# OTHER changed the file
create_by_entry(self.tt,
self.other_tree.inventory[file_id],
self.other_tree, trans_id)
if file_id not in self.this_tree.inventory:
self.tt.version_file(file_id, trans_id)
return "modified"
elif file_id in self.this_tree.inventory:
# OTHER deleted the file
self.tt.unversion_file(trans_id)
return "deleted"
#BOTH THIS and OTHER introduced changes; scalar conflict
elif this_pair[0] == "file" and other_pair[0] == "file":
# THIS and OTHER are both files, so text merge. Either
# BASE is a file, or both converted to files, so at least we
# have agreement that output should be a file.
try:
self.text_merge(file_id, trans_id)
except BinaryFile:
return contents_conflict()
if file_id not in self.this_tree.inventory:
self.tt.version_file(file_id, trans_id)
try:
self.tt.tree_kind(trans_id)
self.tt.delete_contents(trans_id)
except NoSuchFile:
pass
return "modified"
else:
# Scalar conflict, can't text merge. Dump conflicts
return contents_conflict()
def get_lines(self, tree, file_id):
"""Return the lines in a file, or an empty list."""
if file_id in tree:
return tree.get_file(file_id).readlines()
else:
return []
def text_merge(self, file_id, trans_id):
"""Perform a three-way text merge on a file_id"""
# it's possible that we got here with base as a different type.
# if so, we just want two-way text conflicts.
if file_id in self.base_tree and \
self.base_tree.kind(file_id) == "file":
base_lines = self.get_lines(self.base_tree, file_id)
else:
base_lines = []
other_lines = self.get_lines(self.other_tree, file_id)
this_lines = self.get_lines(self.this_tree, file_id)
m3 = Merge3(base_lines, this_lines, other_lines,
is_cherrypick=self.cherrypick)
start_marker = "!START OF MERGE CONFLICT!" + "I HOPE THIS IS UNIQUE"
if self.show_base is True:
base_marker = '|' * 7
else:
base_marker = None
def iter_merge3(retval):
retval["text_conflicts"] = False
for line in m3.merge_lines(name_a = "TREE",
name_b = "MERGE-SOURCE",
name_base = "BASE-REVISION",
start_marker=start_marker,
base_marker=base_marker,
reprocess=self.reprocess):
if line.startswith(start_marker):
retval["text_conflicts"] = True
yield line.replace(start_marker, '<' * 7)
else:
yield line
retval = {}
merge3_iterator = iter_merge3(retval)
self.tt.create_file(merge3_iterator, trans_id)
if retval["text_conflicts"] is True:
self._raw_conflicts.append(('text conflict', trans_id))
name = self.tt.final_name(trans_id)
parent_id = self.tt.final_parent(trans_id)
file_group = self._dump_conflicts(name, parent_id, file_id,
this_lines, base_lines,
other_lines)
file_group.append(trans_id)
def _dump_conflicts(self, name, parent_id, file_id, this_lines=None,
base_lines=None, other_lines=None, set_version=False,
no_base=False):
"""Emit conflict files.
If this_lines, base_lines, or other_lines are omitted, they will be
determined automatically. If set_version is true, the .OTHER, .THIS
or .BASE (in that order) will be created as versioned files.
"""
data = [('OTHER', self.other_tree, other_lines),
('THIS', self.this_tree, this_lines)]
if not no_base:
data.append(('BASE', self.base_tree, base_lines))
versioned = False
file_group = []
for suffix, tree, lines in data:
if file_id in tree:
trans_id = self._conflict_file(name, parent_id, tree, file_id,
suffix, lines)
file_group.append(trans_id)
if set_version and not versioned:
self.tt.version_file(file_id, trans_id)
versioned = True
return file_group
def _conflict_file(self, name, parent_id, tree, file_id, suffix,
lines=None):
"""Emit a single conflict file."""
name = name + '.' + suffix
trans_id = self.tt.create_path(name, parent_id)
entry = tree.inventory[file_id]
create_by_entry(self.tt, entry, tree, trans_id, lines)
return trans_id
def merge_executable(self, file_id, file_status):
"""Perform a merge on the execute bit."""
executable = [self.executable(t, file_id) for t in (self.base_tree,
self.other_tree, self.this_tree)]
self._merge_executable(file_id, executable, file_status,
resolver=self._three_way)
def _merge_executable(self, file_id, executable, file_status,
resolver):
"""Perform a merge on the execute bit."""
base_executable, other_executable, this_executable = executable
if file_status == "deleted":
return
winner = resolver(*executable)
if winner == "conflict":
# There must be a None in here, if we have a conflict, but we
# need executability since file status was not deleted.
if self.executable(self.other_tree, file_id) is None:
winner = "this"
else:
winner = "other"
if winner == 'this' and file_status != "modified":
return
trans_id = self.tt.trans_id_file_id(file_id)
try:
if self.tt.final_kind(trans_id) != "file":
return
except NoSuchFile:
return
if winner == "this":
executability = this_executable
else:
if file_id in self.other_tree:
executability = other_executable
elif file_id in self.this_tree:
executability = this_executable
elif file_id in self.base_tree:
executability = base_executable
if executability is not None:
trans_id = self.tt.trans_id_file_id(file_id)
self.tt.set_executability(executability, trans_id)
def cook_conflicts(self, fs_conflicts):
"""Convert all conflicts into a form that doesn't depend on trans_id"""
from conflicts import Conflict
name_conflicts = {}
self.cooked_conflicts.extend(cook_conflicts(fs_conflicts, self.tt))
fp = FinalPaths(self.tt)
for conflict in self._raw_conflicts:
conflict_type = conflict[0]
if conflict_type in ('name conflict', 'parent conflict'):
trans_id = conflict[1]
conflict_args = conflict[2:]
if trans_id not in name_conflicts:
name_conflicts[trans_id] = {}
unique_add(name_conflicts[trans_id], conflict_type,
conflict_args)
if conflict_type == 'contents conflict':
for trans_id in conflict[1]:
file_id = self.tt.final_file_id(trans_id)
if file_id is not None:
break
path = fp.get_path(trans_id)
for suffix in ('.BASE', '.THIS', '.OTHER'):
if path.endswith(suffix):
path = path[:-len(suffix)]
break
c = Conflict.factory(conflict_type, path=path, file_id=file_id)
self.cooked_conflicts.append(c)
if conflict_type == 'text conflict':
trans_id = conflict[1]
path = fp.get_path(trans_id)
file_id = self.tt.final_file_id(trans_id)
c = Conflict.factory(conflict_type, path=path, file_id=file_id)
self.cooked_conflicts.append(c)
for trans_id, conflicts in name_conflicts.iteritems():
try:
this_parent, other_parent = conflicts['parent conflict']
if this_parent == other_parent:
raise AssertionError()
except KeyError:
this_parent = other_parent = \
self.tt.final_file_id(self.tt.final_parent(trans_id))
try:
this_name, other_name = conflicts['name conflict']
if this_name == other_name:
raise AssertionError()
except KeyError:
this_name = other_name = self.tt.final_name(trans_id)
other_path = fp.get_path(trans_id)
if this_parent is not None and this_name is not None:
this_parent_path = \
fp.get_path(self.tt.trans_id_file_id(this_parent))
this_path = pathjoin(this_parent_path, this_name)
else:
this_path = "<deleted>"
file_id = self.tt.final_file_id(trans_id)
c = Conflict.factory('path conflict', path=this_path,
conflict_path=other_path, file_id=file_id)
self.cooked_conflicts.append(c)
self.cooked_conflicts.sort(key=Conflict.sort_key)
class WeaveMerger(Merge3Merger):
"""Three-way tree merger, text weave merger."""
supports_reprocess = True
supports_show_base = False
supports_reverse_cherrypick = False
history_based = True
def _merged_lines(self, file_id):
"""Generate the merged lines.
There is no distinction between lines that are meant to contain <<<<<<<
and conflicts.
"""
if self.cherrypick:
base = self.base_tree
else:
base = None
plan = self.this_tree.plan_file_merge(file_id, self.other_tree,
base=base)
if 'merge' in debug.debug_flags:
plan = list(plan)
trans_id = self.tt.trans_id_file_id(file_id)
name = self.tt.final_name(trans_id) + '.plan'
contents = ('%10s|%s' % l for l in plan)
self.tt.new_file(name, self.tt.final_parent(trans_id), contents)
textmerge = PlanWeaveMerge(plan, '<<<<<<< TREE\n',
'>>>>>>> MERGE-SOURCE\n')
return textmerge.merge_lines(self.reprocess)
def text_merge(self, file_id, trans_id):
"""Perform a (weave) text merge for a given file and file-id.
If conflicts are encountered, .THIS and .OTHER files will be emitted,
and a conflict will be noted.
"""
lines, conflicts = self._merged_lines(file_id)
lines = list(lines)
# Note we're checking whether the OUTPUT is binary in this case,
# because we don't want to get into weave merge guts.
check_text_lines(lines)
self.tt.create_file(lines, trans_id)
if conflicts:
self._raw_conflicts.append(('text conflict', trans_id))
name = self.tt.final_name(trans_id)
parent_id = self.tt.final_parent(trans_id)
file_group = self._dump_conflicts(name, parent_id, file_id,
no_base=True)
file_group.append(trans_id)
class LCAMerger(WeaveMerger):
def _merged_lines(self, file_id):
"""Generate the merged lines.
There is no distinction between lines that are meant to contain <<<<<<<
and conflicts.
"""
if self.cherrypick:
base = self.base_tree
else:
base = None
plan = self.this_tree.plan_file_lca_merge(file_id, self.other_tree,
base=base)
if 'merge' in debug.debug_flags:
plan = list(plan)
trans_id = self.tt.trans_id_file_id(file_id)
name = self.tt.final_name(trans_id) + '.plan'
contents = ('%10s|%s' % l for l in plan)
self.tt.new_file(name, self.tt.final_parent(trans_id), contents)
textmerge = PlanWeaveMerge(plan, '<<<<<<< TREE\n',
'>>>>>>> MERGE-SOURCE\n')
return textmerge.merge_lines(self.reprocess)
class Diff3Merger(Merge3Merger):
"""Three-way merger using external diff3 for text merging"""
def dump_file(self, temp_dir, name, tree, file_id):
out_path = pathjoin(temp_dir, name)
out_file = open(out_path, "wb")
try:
in_file = tree.get_file(file_id)
for line in in_file:
out_file.write(line)
finally:
out_file.close()
return out_path
def text_merge(self, file_id, trans_id):
"""Perform a diff3 merge using a specified file-id and trans-id.
If conflicts are encountered, .BASE, .THIS. and .OTHER conflict files
will be dumped, and a will be conflict noted.
"""
import bzrlib.patch
temp_dir = osutils.mkdtemp(prefix="bzr-")
try:
new_file = pathjoin(temp_dir, "new")
this = self.dump_file(temp_dir, "this", self.this_tree, file_id)
base = self.dump_file(temp_dir, "base", self.base_tree, file_id)
other = self.dump_file(temp_dir, "other", self.other_tree, file_id)
status = bzrlib.patch.diff3(new_file, this, base, other)
if status not in (0, 1):
raise BzrError("Unhandled diff3 exit code")
f = open(new_file, 'rb')
try:
self.tt.create_file(f, trans_id)
finally:
f.close()
if status == 1:
name = self.tt.final_name(trans_id)
parent_id = self.tt.final_parent(trans_id)
self._dump_conflicts(name, parent_id, file_id)
self._raw_conflicts.append(('text conflict', trans_id))
finally:
osutils.rmtree(temp_dir)
def merge_inner(this_branch, other_tree, base_tree, ignore_zero=False,
backup_files=False,
merge_type=Merge3Merger,
interesting_ids=None,
show_base=False,
reprocess=False,
other_rev_id=None,
interesting_files=None,
this_tree=None,
pb=DummyProgress(),
change_reporter=None):
"""Primary interface for merging.
typical use is probably
'merge_inner(branch, branch.get_revision_tree(other_revision),
branch.get_revision_tree(base_revision))'
"""
if this_tree is None:
raise BzrError("bzrlib.merge.merge_inner requires a this_tree "
"parameter as of bzrlib version 0.8.")
merger = Merger(this_branch, other_tree, base_tree, this_tree=this_tree,
pb=pb, change_reporter=change_reporter)
merger.backup_files = backup_files
merger.merge_type = merge_type
merger.interesting_ids = interesting_ids
merger.ignore_zero = ignore_zero
if interesting_files:
if interesting_ids:
raise ValueError('Only supply interesting_ids'
' or interesting_files')
merger.interesting_files = interesting_files
merger.show_base = show_base
merger.reprocess = reprocess
merger.other_rev_id = other_rev_id
merger.other_basis = other_rev_id
get_revision_id = getattr(base_tree, 'get_revision_id', None)
if get_revision_id is None:
get_revision_id = base_tree.last_revision
merger.set_base_revision(get_revision_id(), this_branch)
return merger.do_merge()
def get_merge_type_registry():
"""Merge type registry is in bzrlib.option to avoid circular imports.
This method provides a sanctioned way to retrieve it.
"""
from bzrlib import option
return option._merge_type_registry
def _plan_annotate_merge(annotated_a, annotated_b, ancestors_a, ancestors_b):
def status_a(revision, text):
if revision in ancestors_b:
return 'killed-b', text
else:
return 'new-a', text
def status_b(revision, text):
if revision in ancestors_a:
return 'killed-a', text
else:
return 'new-b', text
plain_a = [t for (a, t) in annotated_a]
plain_b = [t for (a, t) in annotated_b]
matcher = patiencediff.PatienceSequenceMatcher(None, plain_a, plain_b)
blocks = matcher.get_matching_blocks()
a_cur = 0
b_cur = 0
for ai, bi, l in blocks:
# process all mismatched sections
# (last mismatched section is handled because blocks always
# includes a 0-length last block)
for revision, text in annotated_a[a_cur:ai]:
yield status_a(revision, text)
for revision, text in annotated_b[b_cur:bi]:
yield status_b(revision, text)
# and now the matched section
a_cur = ai + l
b_cur = bi + l
for text_a in plain_a[ai:a_cur]:
yield "unchanged", text_a
class _PlanMergeBase(object):
def __init__(self, a_rev, b_rev, vf, key_prefix):
"""Contructor.
:param a_rev: Revision-id of one revision to merge
:param b_rev: Revision-id of the other revision to merge
:param vf: A VersionedFiles containing both revisions
:param key_prefix: A prefix for accessing keys in vf, typically
(file_id,).
"""
self.a_rev = a_rev
self.b_rev = b_rev
self.vf = vf
self._last_lines = None
self._last_lines_revision_id = None
self._cached_matching_blocks = {}
self._key_prefix = key_prefix
self._precache_tip_lines()
def _precache_tip_lines(self):
lines = self.get_lines([self.a_rev, self.b_rev])
self.lines_a = lines[self.a_rev]
self.lines_b = lines[self.b_rev]
def get_lines(self, revisions):
"""Get lines for revisions from the backing VersionedFiles.
:raises RevisionNotPresent: on absent texts.
"""
keys = [(self._key_prefix + (rev,)) for rev in revisions]
result = {}
for record in self.vf.get_record_stream(keys, 'unordered', True):
if record.storage_kind == 'absent':
raise errors.RevisionNotPresent(record.key, self.vf)
result[record.key[-1]] = osutils.split_lines(
record.get_bytes_as('fulltext'))
return result
def plan_merge(self):
"""Generate a 'plan' for merging the two revisions.
This involves comparing their texts and determining the cause of
differences. If text A has a line and text B does not, then either the
line was added to text A, or it was deleted from B. Once the causes
are combined, they are written out in the format described in
VersionedFile.plan_merge
"""
blocks = self._get_matching_blocks(self.a_rev, self.b_rev)
unique_a, unique_b = self._unique_lines(blocks)
new_a, killed_b = self._determine_status(self.a_rev, unique_a)
new_b, killed_a = self._determine_status(self.b_rev, unique_b)
return self._iter_plan(blocks, new_a, killed_b, new_b, killed_a)
def _iter_plan(self, blocks, new_a, killed_b, new_b, killed_a):
last_i = 0
last_j = 0
for i, j, n in blocks:
for a_index in range(last_i, i):
if a_index in new_a:
if a_index in killed_b:
yield 'conflicted-a', self.lines_a[a_index]
else:
yield 'new-a', self.lines_a[a_index]
else:
yield 'killed-b', self.lines_a[a_index]
for b_index in range(last_j, j):
if b_index in new_b:
if b_index in killed_a:
yield 'conflicted-b', self.lines_b[b_index]
else:
yield 'new-b', self.lines_b[b_index]
else:
yield 'killed-a', self.lines_b[b_index]
# handle common lines
for a_index in range(i, i+n):
yield 'unchanged', self.lines_a[a_index]
last_i = i+n
last_j = j+n
def _get_matching_blocks(self, left_revision, right_revision):
"""Return a description of which sections of two revisions match.
See SequenceMatcher.get_matching_blocks
"""
cached = self._cached_matching_blocks.get((left_revision,
right_revision))
if cached is not None:
return cached
if self._last_lines_revision_id == left_revision:
left_lines = self._last_lines
right_lines = self.get_lines([right_revision])[right_revision]
else:
lines = self.get_lines([left_revision, right_revision])
left_lines = lines[left_revision]
right_lines = lines[right_revision]
self._last_lines = right_lines
self._last_lines_revision_id = right_revision
matcher = patiencediff.PatienceSequenceMatcher(None, left_lines,
right_lines)
return matcher.get_matching_blocks()
def _unique_lines(self, matching_blocks):
"""Analyse matching_blocks to determine which lines are unique
:return: a tuple of (unique_left, unique_right), where the values are
sets of line numbers of unique lines.
"""
last_i = 0
last_j = 0
unique_left = []
unique_right = []
for i, j, n in matching_blocks:
unique_left.extend(range(last_i, i))
unique_right.extend(range(last_j, j))
last_i = i + n
last_j = j + n
return unique_left, unique_right
@staticmethod
def _subtract_plans(old_plan, new_plan):
"""Remove changes from new_plan that came from old_plan.
It is assumed that the difference between the old_plan and new_plan
is their choice of 'b' text.
All lines from new_plan that differ from old_plan are emitted
verbatim. All lines from new_plan that match old_plan but are
not about the 'b' revision are emitted verbatim.
Lines that match and are about the 'b' revision are the lines we
don't want, so we convert 'killed-b' -> 'unchanged', and 'new-b'
is skipped entirely.
"""
matcher = patiencediff.PatienceSequenceMatcher(None, old_plan,
new_plan)
last_j = 0
for i, j, n in matcher.get_matching_blocks():
for jj in range(last_j, j):
yield new_plan[jj]
for jj in range(j, j+n):
plan_line = new_plan[jj]
if plan_line[0] == 'new-b':
pass
elif plan_line[0] == 'killed-b':
yield 'unchanged', plan_line[1]
else:
yield plan_line
last_j = j + n
class _PlanMerge(_PlanMergeBase):
"""Plan an annotate merge using on-the-fly annotation"""
def __init__(self, a_rev, b_rev, vf, key_prefix):
super(_PlanMerge, self).__init__(a_rev, b_rev, vf, key_prefix)
self.a_key = self._key_prefix + (self.a_rev,)
self.b_key = self._key_prefix + (self.b_rev,)
self.graph = Graph(self.vf)
heads = self.graph.heads((self.a_key, self.b_key))
if len(heads) == 1:
# one side dominates, so we can just return its values, yay for
# per-file graphs
# Ideally we would know that before we get this far
self._head_key = heads.pop()
if self._head_key == self.a_key:
other = b_rev
else:
other = a_rev
mutter('found dominating revision for %s\n%s > %s', self.vf,
self._head_key[-1], other)
self._weave = None
else:
self._head_key = None
self._build_weave()
def _precache_tip_lines(self):
# Turn this into a no-op, because we will do this later
pass
def _find_recursive_lcas(self):
"""Find all the ancestors back to a unique lca"""
cur_ancestors = (self.a_key, self.b_key)
# graph.find_lca(uncommon, keys) now returns plain NULL_REVISION,
# rather than a key tuple. We will just map that directly to no common
# ancestors.
parent_map = {}
while True:
next_lcas = self.graph.find_lca(*cur_ancestors)
# Map a plain NULL_REVISION to a simple no-ancestors
if next_lcas == set([NULL_REVISION]):
next_lcas = ()
# Order the lca's based on when they were merged into the tip
# While the actual merge portion of weave merge uses a set() of
# active revisions, the order of insertion *does* effect the
# implicit ordering of the texts.
for rev_key in cur_ancestors:
ordered_parents = tuple(self.graph.find_merge_order(rev_key,
next_lcas))
parent_map[rev_key] = ordered_parents
if len(next_lcas) == 0:
break
elif len(next_lcas) == 1:
parent_map[list(next_lcas)[0]] = ()
break
elif len(next_lcas) > 2:
# More than 2 lca's, fall back to grabbing all nodes between
# this and the unique lca.
mutter('More than 2 LCAs, falling back to all nodes for:'
' %s, %s\n=> %s', self.a_key, self.b_key, cur_ancestors)
cur_lcas = next_lcas
while len(cur_lcas) > 1:
cur_lcas = self.graph.find_lca(*cur_lcas)
if len(cur_lcas) == 0:
# No common base to find, use the full ancestry
unique_lca = None
else:
unique_lca = list(cur_lcas)[0]
if unique_lca == NULL_REVISION:
# find_lca will return a plain 'NULL_REVISION' rather
# than a key tuple when there is no common ancestor, we
# prefer to just use None, because it doesn't confuse
# _get_interesting_texts()
unique_lca = None
parent_map.update(self._find_unique_parents(next_lcas,
unique_lca))
break
cur_ancestors = next_lcas
return parent_map
def _find_unique_parents(self, tip_keys, base_key):
"""Find ancestors of tip that aren't ancestors of base.
:param tip_keys: Nodes that are interesting
:param base_key: Cull all ancestors of this node
:return: The parent map for all revisions between tip_keys and
base_key. base_key will be included. References to nodes outside of
the ancestor set will also be removed.
"""
# TODO: this would be simpler if find_unique_ancestors took a list
# instead of a single tip, internally it supports it, but it
# isn't a "backwards compatible" api change.
if base_key is None:
parent_map = dict(self.graph.iter_ancestry(tip_keys))
# We remove NULL_REVISION because it isn't a proper tuple key, and
# thus confuses things like _get_interesting_texts, and our logic
# to add the texts into the memory weave.
if NULL_REVISION in parent_map:
parent_map.pop(NULL_REVISION)
else:
interesting = set()
for tip in tip_keys:
interesting.update(
self.graph.find_unique_ancestors(tip, [base_key]))
parent_map = self.graph.get_parent_map(interesting)
parent_map[base_key] = ()
culled_parent_map, child_map, tails = self._remove_external_references(
parent_map)
# Remove all the tails but base_key
if base_key is not None:
tails.remove(base_key)
self._prune_tails(culled_parent_map, child_map, tails)
# Now remove all the uninteresting 'linear' regions
simple_map = _mod_graph.collapse_linear_regions(culled_parent_map)
return simple_map
@staticmethod
def _remove_external_references(parent_map):
"""Remove references that go outside of the parent map.
:param parent_map: Something returned from Graph.get_parent_map(keys)
:return: (filtered_parent_map, child_map, tails)
filtered_parent_map is parent_map without external references
child_map is the {parent_key: [child_keys]} mapping
tails is a list of nodes that do not have any parents in the map
"""
# TODO: The basic effect of this function seems more generic than
# _PlanMerge. But the specific details of building a child_map,
# and computing tails seems very specific to _PlanMerge.
# Still, should this be in Graph land?
filtered_parent_map = {}
child_map = {}
tails = []
for key, parent_keys in parent_map.iteritems():
culled_parent_keys = [p for p in parent_keys if p in parent_map]
if not culled_parent_keys:
tails.append(key)
for parent_key in culled_parent_keys:
child_map.setdefault(parent_key, []).append(key)
# TODO: Do we want to do this, it adds overhead for every node,
# just to say that the node has no children
child_map.setdefault(key, [])
filtered_parent_map[key] = culled_parent_keys
return filtered_parent_map, child_map, tails
@staticmethod
def _prune_tails(parent_map, child_map, tails_to_remove):
"""Remove tails from the parent map.
This will remove the supplied revisions until no more children have 0
parents.
:param parent_map: A dict of {child: [parents]}, this dictionary will
be modified in place.
:param tails_to_remove: A list of tips that should be removed,
this list will be consumed
:param child_map: The reverse dict of parent_map ({parent: [children]})
this dict will be modified
:return: None, parent_map will be modified in place.
"""
while tails_to_remove:
next = tails_to_remove.pop()
parent_map.pop(next)
children = child_map.pop(next)
for child in children:
child_parents = parent_map[child]
child_parents.remove(next)
if len(child_parents) == 0:
tails_to_remove.append(child)
def _get_interesting_texts(self, parent_map):
"""Return a dict of texts we are interested in.
Note that the input is in key tuples, but the output is in plain
revision ids.
:param parent_map: The output from _find_recursive_lcas
:return: A dict of {'revision_id':lines} as returned by
_PlanMergeBase.get_lines()
"""
all_revision_keys = set(parent_map)
all_revision_keys.add(self.a_key)
all_revision_keys.add(self.b_key)
# Everything else is in 'keys' but get_lines is in 'revision_ids'
all_texts = self.get_lines([k[-1] for k in all_revision_keys])
return all_texts
def _build_weave(self):
from bzrlib import weave
self._weave = weave.Weave(weave_name='in_memory_weave',
allow_reserved=True)
parent_map = self._find_recursive_lcas()
all_texts = self._get_interesting_texts(parent_map)
# Note: Unfortunately, the order given by topo_sort will effect the
# ordering resolution in the output. Specifically, if you add A then B,
# then in the output text A lines will show up before B lines. And, of
# course, topo_sort doesn't guarantee any real ordering.
# So we use merge_sort, and add a fake node on the tip.
# This ensures that left-hand parents will always be inserted into the
# weave before right-hand parents.
tip_key = self._key_prefix + (_mod_revision.CURRENT_REVISION,)
parent_map[tip_key] = (self.a_key, self.b_key)
for seq_num, key, depth, eom in reversed(tsort.merge_sort(parent_map,
tip_key)):
if key == tip_key:
continue
# for key in tsort.topo_sort(parent_map):
parent_keys = parent_map[key]
revision_id = key[-1]
parent_ids = [k[-1] for k in parent_keys]
self._weave.add_lines(revision_id, parent_ids,
all_texts[revision_id])
def plan_merge(self):
"""Generate a 'plan' for merging the two revisions.
This involves comparing their texts and determining the cause of
differences. If text A has a line and text B does not, then either the
line was added to text A, or it was deleted from B. Once the causes
are combined, they are written out in the format described in
VersionedFile.plan_merge
"""
if self._head_key is not None: # There was a single head
if self._head_key == self.a_key:
plan = 'new-a'
else:
if self._head_key != self.b_key:
raise AssertionError('There was an invalid head: %s != %s'
% (self.b_key, self._head_key))
plan = 'new-b'
head_rev = self._head_key[-1]
lines = self.get_lines([head_rev])[head_rev]
return ((plan, line) for line in lines)
return self._weave.plan_merge(self.a_rev, self.b_rev)
class _PlanLCAMerge(_PlanMergeBase):
"""
This merge algorithm differs from _PlanMerge in that:
1. comparisons are done against LCAs only
2. cases where a contested line is new versus one LCA but old versus
another are marked as conflicts, by emitting the line as conflicted-a
or conflicted-b.
This is faster, and hopefully produces more useful output.
"""
def __init__(self, a_rev, b_rev, vf, key_prefix, graph):
_PlanMergeBase.__init__(self, a_rev, b_rev, vf, key_prefix)
lcas = graph.find_lca(key_prefix + (a_rev,), key_prefix + (b_rev,))
self.lcas = set()
for lca in lcas:
if lca == NULL_REVISION:
self.lcas.add(lca)
else:
self.lcas.add(lca[-1])
for lca in self.lcas:
if _mod_revision.is_null(lca):
lca_lines = []
else:
lca_lines = self.get_lines([lca])[lca]
matcher = patiencediff.PatienceSequenceMatcher(None, self.lines_a,
lca_lines)
blocks = list(matcher.get_matching_blocks())
self._cached_matching_blocks[(a_rev, lca)] = blocks
matcher = patiencediff.PatienceSequenceMatcher(None, self.lines_b,
lca_lines)
blocks = list(matcher.get_matching_blocks())
self._cached_matching_blocks[(b_rev, lca)] = blocks
def _determine_status(self, revision_id, unique_line_numbers):
"""Determines the status unique lines versus all lcas.
Basically, determines why the line is unique to this revision.
A line may be determined new, killed, or both.
If a line is determined new, that means it was not present in at least
one LCA, and is not present in the other merge revision.
If a line is determined killed, that means the line was present in
at least one LCA.
If a line is killed and new, this indicates that the two merge
revisions contain differing conflict resolutions.
:param revision_id: The id of the revision in which the lines are
unique
:param unique_line_numbers: The line numbers of unique lines.
:return a tuple of (new_this, killed_other):
"""
new = set()
killed = set()
unique_line_numbers = set(unique_line_numbers)
for lca in self.lcas:
blocks = self._get_matching_blocks(revision_id, lca)
unique_vs_lca, _ignored = self._unique_lines(blocks)
new.update(unique_line_numbers.intersection(unique_vs_lca))
killed.update(unique_line_numbers.difference(unique_vs_lca))
return new, killed
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