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# (C) 2005 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 os
import warnings
from bzrlib.branch import Branch
from bzrlib.errors import NoSuchRevision
from bzrlib.graph import Graph
from bzrlib.revision import (find_present_ancestors, combined_graph,
common_ancestor,
is_ancestor, MultipleRevisionSources,
NULL_REVISION)
from bzrlib.tests import TestCaseWithTransport
from bzrlib.trace import mutter
from bzrlib.workingtree import WorkingTree
# We're allowed to test deprecated interfaces
warnings.filterwarnings('ignore',
'.*get_intervening_revisions was deprecated',
DeprecationWarning,
r'bzrlib\.tests\.test_revision')
# XXX: Make this a method of a merge base case
def make_branches(self):
"""Create two branches
branch 1 has 6 commits, branch 2 has 3 commits
commit 10 is a ghosted merge merge from branch 1
the object graph is
B: A:
a..0 a..0
a..1 a..1
a..2 a..2
b..3 a..3 merges b..4
b..4 a..4
b..5 a..5 merges b..5
b..6 merges a4
so A is missing b6 at the start
and B is missing a3, a4, a5
"""
tree1 = self.make_branch_and_tree("branch1")
br1 = tree1.branch
tree1.commit("Commit one", rev_id="a@u-0-0")
tree1.commit("Commit two", rev_id="a@u-0-1")
tree1.commit("Commit three", rev_id="a@u-0-2")
tree2 = tree1.bzrdir.clone("branch2").open_workingtree()
br2 = tree2.branch
tree2.commit("Commit four", rev_id="b@u-0-3")
tree2.commit("Commit five", rev_id="b@u-0-4")
revisions_2 = br2.revision_history()
br1.fetch(br2)
tree1.add_pending_merge(revisions_2[4])
self.assertEquals(revisions_2[4], 'b@u-0-4')
tree1.commit("Commit six", rev_id="a@u-0-3")
tree1.commit("Commit seven", rev_id="a@u-0-4")
tree2.commit("Commit eight", rev_id="b@u-0-5")
br1.fetch(br2)
tree1.add_pending_merge(br2.revision_history()[5])
tree1.commit("Commit nine", rev_id="a@u-0-5")
# DO NOT FETCH HERE - we WANT a GHOST.
# br2.fetch(br1)
tree2.add_pending_merge(br1.revision_history()[4])
tree2.commit("Commit ten - ghost merge", rev_id="b@u-0-6")
return br1, br2
class TestIsAncestor(TestCaseWithTransport):
def test_recorded_ancestry(self):
"""Test that commit records all ancestors"""
br1, br2 = make_branches(self)
d = [('a@u-0-0', ['a@u-0-0']),
('a@u-0-1', ['a@u-0-0', 'a@u-0-1']),
('a@u-0-2', ['a@u-0-0', 'a@u-0-1', 'a@u-0-2']),
('b@u-0-3', ['a@u-0-0', 'a@u-0-1', 'a@u-0-2', 'b@u-0-3']),
('b@u-0-4', ['a@u-0-0', 'a@u-0-1', 'a@u-0-2', 'b@u-0-3',
'b@u-0-4']),
('a@u-0-3', ['a@u-0-0', 'a@u-0-1', 'a@u-0-2', 'b@u-0-3', 'b@u-0-4',
'a@u-0-3']),
('a@u-0-4', ['a@u-0-0', 'a@u-0-1', 'a@u-0-2', 'b@u-0-3', 'b@u-0-4',
'a@u-0-3', 'a@u-0-4']),
('b@u-0-5', ['a@u-0-0', 'a@u-0-1', 'a@u-0-2', 'b@u-0-3', 'b@u-0-4',
'b@u-0-5']),
('a@u-0-5', ['a@u-0-0', 'a@u-0-1', 'a@u-0-2', 'a@u-0-3', 'a@u-0-4',
'b@u-0-3', 'b@u-0-4',
'b@u-0-5', 'a@u-0-5']),
('b@u-0-6', ['a@u-0-0', 'a@u-0-1', 'a@u-0-2',
'b@u-0-3', 'b@u-0-4',
'b@u-0-5', 'b@u-0-6']),
]
br1_only = ('a@u-0-3', 'a@u-0-4', 'a@u-0-5')
br2_only = ('b@u-0-6',)
for branch in br1, br2:
for rev_id, anc in d:
if rev_id in br1_only and not branch is br1:
continue
if rev_id in br2_only and not branch is br2:
continue
mutter('ancestry of {%s}: %r',
rev_id, branch.repository.get_ancestry(rev_id))
result = sorted(branch.repository.get_ancestry(rev_id))
self.assertEquals(result, [None] + sorted(anc))
def test_is_ancestor(self):
"""Test checking whether a revision is an ancestor of another revision"""
br1, br2 = make_branches(self)
revisions = br1.revision_history()
revisions_2 = br2.revision_history()
sources = br1
self.assert_(is_ancestor(revisions[0], revisions[0], br1))
self.assert_(is_ancestor(revisions[1], revisions[0], sources))
self.assert_(not is_ancestor(revisions[0], revisions[1], sources))
self.assert_(is_ancestor(revisions_2[3], revisions[0], sources))
# disabled mbp 20050914, doesn't seem to happen anymore
## self.assertRaises(NoSuchRevision, is_ancestor, revisions_2[3],
## revisions[0], br1)
self.assert_(is_ancestor(revisions[3], revisions_2[4], sources))
self.assert_(is_ancestor(revisions[3], revisions_2[4], br1))
self.assert_(is_ancestor(revisions[3], revisions_2[3], sources))
## self.assert_(not is_ancestor(revisions[3], revisions_2[3], br1))
class TestIntermediateRevisions(TestCaseWithTransport):
def setUp(self):
TestCaseWithTransport.setUp(self)
self.br1, self.br2 = make_branches(self)
wt1 = self.br1.bzrdir.open_workingtree()
wt2 = self.br2.bzrdir.open_workingtree()
wt2.commit("Commit eleven", rev_id="b@u-0-7")
wt2.commit("Commit twelve", rev_id="b@u-0-8")
wt2.commit("Commit thirtteen", rev_id="b@u-0-9")
self.br1.fetch(self.br2)
wt1.add_pending_merge(self.br2.revision_history()[6])
wt1.commit("Commit fourtten", rev_id="a@u-0-6")
self.br2.fetch(self.br1)
wt2.add_pending_merge(self.br1.revision_history()[6])
wt2.commit("Commit fifteen", rev_id="b@u-0-10")
from bzrlib.revision import MultipleRevisionSources
self.sources = MultipleRevisionSources(self.br1.repository,
self.br2.repository)
class MockRevisionSource(object):
"""A RevisionSource that takes a pregenerated graph.
This is useful for testing revision graph algorithms where
the actual branch existing is irrelevant.
"""
def __init__(self, full_graph):
self._full_graph = full_graph
def get_revision_graph_with_ghosts(self, revision_ids):
# This is mocked out to just return a constant graph.
return self._full_graph
class TestCommonAncestor(TestCaseWithTransport):
"""Test checking whether a revision is an ancestor of another revision"""
def test_common_ancestor(self):
"""Pick a reasonable merge base"""
br1, br2 = make_branches(self)
revisions = br1.revision_history()
revisions_2 = br2.revision_history()
sources = MultipleRevisionSources(br1.repository, br2.repository)
expected_ancestors_list = {revisions[3]:(0, 0),
revisions[2]:(1, 1),
revisions_2[4]:(2, 1),
revisions[1]:(3, 2),
revisions_2[3]:(4, 2),
revisions[0]:(5, 3) }
ancestors_list = find_present_ancestors(revisions[3], sources)
self.assertEquals(len(expected_ancestors_list), len(ancestors_list))
for key, value in expected_ancestors_list.iteritems():
self.assertEqual(ancestors_list[key], value,
"key %r, %r != %r" % (key, ancestors_list[key],
value))
self.assertEqual(common_ancestor(revisions[0], revisions[0], sources),
revisions[0])
self.assertEqual(common_ancestor(revisions[1], revisions[2], sources),
revisions[1])
self.assertEqual(common_ancestor(revisions[1], revisions[1], sources),
revisions[1])
self.assertEqual(common_ancestor(revisions[2], revisions_2[4], sources),
revisions[2])
self.assertEqual(common_ancestor(revisions[3], revisions_2[4], sources),
revisions_2[4])
self.assertEqual(common_ancestor(revisions[4], revisions_2[5], sources),
revisions_2[4])
self.assertTrue(common_ancestor(revisions[5], revisions_2[6], sources) in
(revisions[4], revisions_2[5]))
self.assertTrue(common_ancestor(revisions_2[6], revisions[5], sources),
(revisions[4], revisions_2[5]))
self.assertEqual(None, common_ancestor(None, revisions[5], sources))
self.assertEqual(NULL_REVISION,
common_ancestor(NULL_REVISION, NULL_REVISION, sources))
self.assertEqual(NULL_REVISION,
common_ancestor(revisions[0], NULL_REVISION, sources))
self.assertEqual(NULL_REVISION,
common_ancestor(NULL_REVISION, revisions[0], sources))
def test_combined(self):
"""combined_graph
Ensure it's not order-sensitive
"""
br1, br2 = make_branches(self)
source = MultipleRevisionSources(br1.repository, br2.repository)
combined_1 = combined_graph(br1.last_revision(),
br2.last_revision(), source)
combined_2 = combined_graph(br2.last_revision(),
br1.last_revision(), source)
self.assertEquals(combined_1[1], combined_2[1])
self.assertEquals(combined_1[2], combined_2[2])
self.assertEquals(combined_1[3], combined_2[3])
self.assertEquals(combined_1, combined_2)
def test_get_history(self):
# TODO: test ghosts on the left hand branch's impact
# TODO: test ghosts on all parents, we should get some
# indicator. i.e. NULL_REVISION
# RBC 20060608
tree = self.make_branch_and_tree('.')
tree.commit('1', rev_id = '1', allow_pointless=True)
tree.commit('2', rev_id = '2', allow_pointless=True)
tree.commit('3', rev_id = '3', allow_pointless=True)
rev = tree.branch.repository.get_revision('1')
history = rev.get_history(tree.branch.repository)
self.assertEqual([None, '1'], history)
rev = tree.branch.repository.get_revision('2')
history = rev.get_history(tree.branch.repository)
self.assertEqual([None, '1', '2'], history)
rev = tree.branch.repository.get_revision('3')
history = rev.get_history(tree.branch.repository)
self.assertEqual([None, '1', '2' ,'3'], history)
def test_common_ancestor_rootless_graph(self):
# common_ancestor on a graph with no reachable roots - only
# ghosts - should still return a useful value.
graph = Graph()
# add a ghost node which would be a root if it wasn't a ghost.
graph.add_ghost('a_ghost')
# add a normal commit on top of that
graph.add_node('rev1', ['a_ghost'])
# add a left-branch revision
graph.add_node('left', ['rev1'])
# add a right-branch revision
graph.add_node('right', ['rev1'])
source = MockRevisionSource(graph)
self.assertEqual('rev1', common_ancestor('left', 'right', source))
class TestMultipleRevisionSources(TestCaseWithTransport):
"""Tests for the MultipleRevisionSources adapter."""
def test_get_revision_graph_merges_ghosts(self):
# when we ask for the revision graph for B, which
# is in repo 1 with a ghost of A, and which is not
# in repo 2, which has A, the revision_graph()
# should return A and B both.
tree_1 = self.make_branch_and_tree('1')
tree_1.add_pending_merge('A')
tree_1.commit('foo', rev_id='B', allow_pointless=True)
tree_2 = self.make_branch_and_tree('2')
tree_2.commit('bar', rev_id='A', allow_pointless=True)
source = MultipleRevisionSources(tree_1.branch.repository,
tree_2.branch.repository)
self.assertEqual({'B':['A'],
'A':[]},
source.get_revision_graph('B'))
class TestRevisionAttributes(TestCaseWithTransport):
"""Test that revision attributes are correct."""
def test_revision_accessors(self):
"""Make sure the values that come out of a revision are the same as the ones that go in.
"""
tree1 = self.make_branch_and_tree("br1")
# create a revision
tree1.commit(message="quux", allow_pointless=True, committer="jaq",
revprops={'empty':'',
'value':'one',
'unicode':'\xb5',
'multiline':'foo\nbar\n\n'
})
assert len(tree1.branch.revision_history()) > 0
rev_a = tree1.branch.repository.get_revision(tree1.branch.last_revision())
tree2 = self.make_branch_and_tree("br2")
tree2.commit(message=rev_a.message,
timestamp=rev_a.timestamp,
timezone=rev_a.timezone,
committer=rev_a.committer,
rev_id=rev_a.revision_id,
revprops=rev_a.properties,
allow_pointless=True, # there's nothing in this commit
strict=True,
verbose=True)
rev_b = tree2.branch.repository.get_revision(tree2.branch.last_revision())
self.assertEqual(rev_a.message, rev_b.message)
self.assertEqual(rev_a.timestamp, rev_b.timestamp)
self.assertEqual(rev_a.timezone, rev_b.timezone)
self.assertEqual(rev_a.committer, rev_b.committer)
self.assertEqual(rev_a.revision_id, rev_b.revision_id)
self.assertEqual(rev_a.properties, rev_b.properties)
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