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# Copyright (C) 2006 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
"""Tests for the InterTree.compare() function."""
import os
from bzrlib import errors
from bzrlib.tests.intertree_implementations import TestCaseWithTwoTrees
class TestCompare(TestCaseWithTwoTrees):
def test_compare_empty_trees(self):
tree1 = self.make_branch_and_tree('1')
tree2 = self.make_to_branch_and_tree('2')
tree1 = self.get_tree_no_parents_no_content(tree1)
tree2 = self.get_to_tree_no_parents_no_content(tree2)
d = self.intertree_class(tree1, tree2).compare()
self.assertEqual([], d.added)
self.assertEqual([], d.modified)
self.assertEqual([], d.removed)
self.assertEqual([], d.renamed)
self.assertEqual([], d.unchanged)
def test_empty_to_abc_content(self):
tree1 = self.make_branch_and_tree('1')
tree2 = self.make_to_branch_and_tree('2')
tree1 = self.get_tree_no_parents_no_content(tree1)
tree2 = self.get_to_tree_no_parents_abc_content(tree2)
d = self.intertree_class(tree1, tree2).compare()
self.assertEqual([('a', 'a-id', 'file'),
('b', 'b-id', 'directory'),
('b/c', 'c-id', 'file'),
], d.added)
self.assertEqual([], d.modified)
self.assertEqual([], d.removed)
self.assertEqual([], d.renamed)
self.assertEqual([], d.unchanged)
def test_dangling(self):
tree1 = self.make_branch_and_tree('1')
tree2 = self.make_branch_and_tree('2')
self.build_tree(['2/a'])
tree2.add('a')
os.unlink('2/a')
self.build_tree(['1/b'])
tree1.add('b')
os.unlink('1/b')
d = self.intertree_class(tree1, tree2).compare()
self.assertEqual([], d.added)
self.assertEqual([], d.modified)
self.assertEqual([], d.removed)
self.assertEqual([], d.renamed)
self.assertEqual([], d.unchanged)
def test_abc_content_to_empty(self):
tree1 = self.make_branch_and_tree('1')
tree2 = self.make_to_branch_and_tree('2')
tree1 = self.get_tree_no_parents_abc_content(tree1)
tree2 = self.get_to_tree_no_parents_no_content(tree2)
d = self.intertree_class(tree1, tree2).compare()
self.assertEqual([], d.added)
self.assertEqual([], d.modified)
self.assertEqual([('a', 'a-id', 'file'),
('b', 'b-id', 'directory'),
('b/c', 'c-id', 'file'),
], d.removed)
self.assertEqual([], d.renamed)
self.assertEqual([], d.unchanged)
def test_content_modification(self):
tree1 = self.make_branch_and_tree('1')
tree2 = self.make_to_branch_and_tree('2')
tree1 = self.get_tree_no_parents_abc_content(tree1)
tree2 = self.get_to_tree_no_parents_abc_content_2(tree2)
d = self.intertree_class(tree1, tree2).compare()
self.assertEqual([], d.added)
self.assertEqual([('a', 'a-id', 'file', True, False)], d.modified)
self.assertEqual([], d.removed)
self.assertEqual([], d.renamed)
self.assertEqual([], d.unchanged)
def test_meta_modification(self):
tree1 = self.make_branch_and_tree('1')
tree2 = self.make_to_branch_and_tree('2')
tree1 = self.get_tree_no_parents_abc_content(tree1)
tree2 = self.get_to_tree_no_parents_abc_content_3(tree2)
d = self.intertree_class(tree1, tree2).compare()
self.assertEqual([], d.added)
self.assertEqual([('b/c', 'c-id', 'file', False, True)], d.modified)
self.assertEqual([], d.removed)
self.assertEqual([], d.renamed)
self.assertEqual([], d.unchanged)
def test_file_rename(self):
tree1 = self.make_branch_and_tree('1')
tree2 = self.make_to_branch_and_tree('2')
tree1 = self.get_tree_no_parents_abc_content(tree1)
tree2 = self.get_to_tree_no_parents_abc_content_4(tree2)
d = self.intertree_class(tree1, tree2).compare()
self.assertEqual([], d.added)
self.assertEqual([], d.modified)
self.assertEqual([], d.removed)
self.assertEqual([('a', 'd', 'a-id', 'file', False, False)], d.renamed)
self.assertEqual([], d.unchanged)
def test_file_rename_and_modification(self):
tree1 = self.make_branch_and_tree('1')
tree2 = self.make_to_branch_and_tree('2')
tree1 = self.get_tree_no_parents_abc_content(tree1)
tree2 = self.get_to_tree_no_parents_abc_content_5(tree2)
d = self.intertree_class(tree1, tree2).compare()
self.assertEqual([], d.added)
self.assertEqual([], d.modified)
self.assertEqual([], d.removed)
self.assertEqual([('a', 'd', 'a-id', 'file', True, False)], d.renamed)
self.assertEqual([], d.unchanged)
def test_file_rename_and_meta_modification(self):
tree1 = self.make_branch_and_tree('1')
tree2 = self.make_to_branch_and_tree('2')
tree1 = self.get_tree_no_parents_abc_content(tree1)
tree2 = self.get_to_tree_no_parents_abc_content_6(tree2)
d = self.intertree_class(tree1, tree2).compare()
self.assertEqual([], d.added)
self.assertEqual([], d.modified)
self.assertEqual([], d.removed)
self.assertEqual([('b/c', 'e', 'c-id', 'file', False, True)], d.renamed)
self.assertEqual([], d.unchanged)
def test_empty_to_abc_content_a_only(self):
tree1 = self.make_branch_and_tree('1')
tree2 = self.make_to_branch_and_tree('2')
tree1 = self.get_tree_no_parents_no_content(tree1)
tree2 = self.get_to_tree_no_parents_abc_content(tree2)
d = self.intertree_class(tree1, tree2).compare(specific_files=['a'])
self.assertEqual([('a', 'a-id', 'file')], d.added)
self.assertEqual([], d.modified)
self.assertEqual([], d.removed)
self.assertEqual([], d.renamed)
self.assertEqual([], d.unchanged)
def test_empty_to_abc_content_a_and_c_only(self):
tree1 = self.make_branch_and_tree('1')
tree2 = self.make_to_branch_and_tree('2')
tree1 = self.get_tree_no_parents_no_content(tree1)
tree2 = self.get_to_tree_no_parents_abc_content(tree2)
d = self.intertree_class(tree1, tree2).compare(
specific_files=['a', 'b/c'])
self.assertEqual(
[('a', 'a-id', 'file'), ('b/c', 'c-id', 'file')],
d.added)
self.assertEqual([], d.modified)
self.assertEqual([], d.removed)
self.assertEqual([], d.renamed)
self.assertEqual([], d.unchanged)
def test_empty_to_abc_content_b_only(self):
"""Restricting to a dir matches the children of the dir."""
tree1 = self.make_branch_and_tree('1')
tree2 = self.make_to_branch_and_tree('2')
tree1 = self.get_tree_no_parents_no_content(tree1)
tree2 = self.get_to_tree_no_parents_abc_content(tree2)
d = self.intertree_class(tree1, tree2).compare(specific_files=['b'])
self.assertEqual(
[('b', 'b-id', 'directory'),('b/c', 'c-id', 'file')],
d.added)
self.assertEqual([], d.modified)
self.assertEqual([], d.removed)
self.assertEqual([], d.renamed)
self.assertEqual([], d.unchanged)
def test_unchanged_with_renames_and_modifications(self):
"""want_unchanged should generate a list of unchanged entries."""
tree1 = self.make_branch_and_tree('1')
tree2 = self.make_to_branch_and_tree('2')
tree1 = self.get_tree_no_parents_abc_content(tree1)
tree2 = self.get_to_tree_no_parents_abc_content_5(tree2)
d = self.intertree_class(tree1, tree2).compare(want_unchanged=True)
self.assertEqual([], d.added)
self.assertEqual([], d.modified)
self.assertEqual([], d.removed)
self.assertEqual([('a', 'd', 'a-id', 'file', True, False)], d.renamed)
self.assertEqual(
[(u'b', 'b-id', 'directory'), (u'b/c', 'c-id', 'file')],
d.unchanged)
def test_extra_trees_finds_ids(self):
"""Ask for a delta between two trees with a path present in a third."""
tree1 = self.make_branch_and_tree('1')
tree2 = self.make_to_branch_and_tree('2')
tree1 = self.get_tree_no_parents_abc_content(tree1)
tree2 = self.get_to_tree_no_parents_abc_content_3(tree2)
# the type of tree-3 does not matter - it is used as a lookup, not
# a dispatch
tree3 = self.make_branch_and_tree('3')
tree3 = self.get_tree_no_parents_abc_content_6(tree3)
# tree 3 has 'e' which is 'c-id'. Tree 1 has c-id at b/c, and Tree 2
# has c-id at b/c with its exec flag toggled.
# without extra_trees, we should get no modifications from this
# so do one, to be sure the test is valid.
d = self.intertree_class(tree1, tree2).compare(
specific_files=['e'])
self.assertEqual([], d.modified)
# now give it an additional lookup:
d = self.intertree_class(tree1, tree2).compare(
specific_files=['e'], extra_trees=[tree3])
self.assertEqual([], d.added)
self.assertEqual([('b/c', 'c-id', 'file', False, True)], d.modified)
self.assertEqual([], d.removed)
self.assertEqual([], d.renamed)
self.assertEqual([], d.unchanged)
def test_require_versioned(self):
# this does not quite robustly test, as it is passing in missing paths
# rather than present-but-not-versioned paths. At the moment there is
# no mechanism for managing the test trees (which are readonly) to
# get present-but-not-versioned files for trees that can do that.
tree1 = self.make_branch_and_tree('1')
tree2 = self.make_to_branch_and_tree('2')
tree1 = self.get_tree_no_parents_no_content(tree1)
tree2 = self.get_to_tree_no_parents_abc_content(tree2)
self.assertRaises(errors.PathsNotVersionedError,
self.intertree_class(tree1, tree2).compare,
specific_files=['d'],
require_versioned=True)
class TestIterChanges(TestCaseWithTwoTrees):
"""Test the comparison iterator"""
def test_compare_empty_trees(self):
tree1 = self.make_branch_and_tree('1')
tree2 = self.make_to_branch_and_tree('2')
tree1 = self.get_tree_no_parents_no_content(tree1)
tree2 = self.get_to_tree_no_parents_no_content(tree2)
self.assertEqual([], list(tree2._iter_changes(tree1)))
def added(self, tree, file_id):
entry = tree.inventory[file_id]
path = tree.id2path(file_id)
return (file_id, path, True, (False, True), (None, entry.parent_id),
(None, entry.name), (None, entry.kind),
(None, entry.executable))
def deleted(self, tree, file_id):
entry = tree.inventory[file_id]
path = tree.id2path(file_id)
return (file_id, path, True, (True, False), (entry.parent_id, None),
(entry.name, None), (entry.kind, None),
(entry.executable, None))
def test_empty_to_abc_content(self):
tree1 = self.make_branch_and_tree('1')
tree2 = self.make_to_branch_and_tree('2')
tree1 = self.get_tree_no_parents_no_content(tree1)
tree2 = self.get_to_tree_no_parents_abc_content(tree2)
self.assertEqual([self.added(tree2, 'root-id'),
self.added(tree2, 'a-id'),
self.added(tree2, 'b-id'),
self.added(tree2, 'c-id'),
self.deleted(tree1, 'empty-root-id')],
list(tree2._iter_changes(tree1)))
def test_empty_to_abc_content_a_only(self):
tree1 = self.make_branch_and_tree('1')
tree2 = self.make_to_branch_and_tree('2')
tree1 = self.get_tree_no_parents_no_content(tree1)
tree2 = self.get_to_tree_no_parents_abc_content(tree2)
self.assertEqual([self.added(tree2, 'a-id')],
list(tree2._iter_changes(tree1,
specific_file_ids=['a-id'])))
self.assertEqual([self.deleted(tree2, 'a-id')],
list(tree1._iter_changes(tree2,
specific_file_ids=['a-id'])))
def test_empty_to_abc_content_a_and_c_only(self):
tree1 = self.make_branch_and_tree('1')
tree2 = self.make_to_branch_and_tree('2')
tree1 = self.get_tree_no_parents_no_content(tree1)
tree2 = self.get_to_tree_no_parents_abc_content(tree2)
self.assertEqual([self.added(tree2, 'a-id'),
self.added(tree2, 'c-id')],
list(tree2._iter_changes(tree1,
specific_file_ids=['a-id',
'c-id'])))
d = self.intertree_class(tree1, tree2).compare(
specific_files=['a', 'b/c'])
def test_abc_content(self):
tree1 = self.make_branch_and_tree('1')
tree2 = self.make_to_branch_and_tree('2')
tree1 = self.get_tree_no_parents_no_content(tree1)
tree2 = self.get_to_tree_no_parents_abc_content(tree2)
def deleted(file_id):
entry = tree2.inventory[file_id]
path = tree2.id2path(file_id)
return (file_id, path, True, (True, False),
(entry.parent_id, None),
(entry.name, None), (entry.kind, None),
(entry.executable, None))
self.assertEqual([self.added(tree1, 'empty-root-id'),
deleted('root-id'), deleted('a-id'),
deleted('b-id'), deleted('c-id')],
list(tree1._iter_changes(tree2)))
def test_content_modification(self):
tree1 = self.make_branch_and_tree('1')
tree2 = self.make_to_branch_and_tree('2')
tree1 = self.get_tree_no_parents_abc_content(tree1)
tree2 = self.get_to_tree_no_parents_abc_content_2(tree2)
root_id = tree1.inventory.root.file_id
self.assertEqual([('a-id', 'a', True, (True, True),
(root_id, root_id), ('a', 'a'),
('file', 'file'), (False, False))],
list(tree2._iter_changes(tree1)))
def test_meta_modification(self):
tree1 = self.make_branch_and_tree('1')
tree2 = self.make_to_branch_and_tree('2')
tree1 = self.get_tree_no_parents_abc_content(tree1)
tree2 = self.get_to_tree_no_parents_abc_content_3(tree2)
self.assertEqual([('c-id', 'b/c', False, (True, True),
('b-id', 'b-id'), ('c', 'c'), ('file', 'file'),
(False, True))], list(tree2._iter_changes(tree1)))
def test_file_rename(self):
tree1 = self.make_branch_and_tree('1')
tree2 = self.make_to_branch_and_tree('2')
tree1 = self.get_tree_no_parents_abc_content(tree1)
tree2 = self.get_to_tree_no_parents_abc_content_4(tree2)
root_id = tree1.inventory.root.file_id
self.assertEqual([('a-id', 'd', False, (True, True),
(root_id, root_id), ('a', 'd'), ('file', 'file'),
(False, False))], list(tree2._iter_changes(tree1)))
def test_file_rename_and_modification(self):
tree1 = self.make_branch_and_tree('1')
tree2 = self.make_to_branch_and_tree('2')
tree1 = self.get_tree_no_parents_abc_content(tree1)
tree2 = self.get_to_tree_no_parents_abc_content_5(tree2)
root_id = tree1.inventory.root.file_id
self.assertEqual([('a-id', 'd', True, (True, True),
(root_id, root_id), ('a', 'd'), ('file', 'file'),
(False, False))], list(tree2._iter_changes(tree1)))
def test_file_rename_and_meta_modification(self):
tree1 = self.make_branch_and_tree('1')
tree2 = self.make_to_branch_and_tree('2')
tree1 = self.get_tree_no_parents_abc_content(tree1)
tree2 = self.get_to_tree_no_parents_abc_content_6(tree2)
root_id = tree1.inventory.root.file_id
self.assertEqual([('c-id', 'e', False, (True, True),
('b-id', root_id), ('c', 'e'), ('file', 'file'),
(False, True))], list(tree2._iter_changes(tree1)))
def test_unchanged_with_renames_and_modifications(self):
"""want_unchanged should generate a list of unchanged entries."""
tree1 = self.make_branch_and_tree('1')
tree2 = self.make_to_branch_and_tree('2')
tree1 = self.get_tree_no_parents_abc_content(tree1)
tree2 = self.get_to_tree_no_parents_abc_content_5(tree2)
root_id = tree1.inventory.root.file_id
def unchanged(file_id):
entry = tree1.inventory[file_id]
parent = entry.parent_id
name = entry.name
kind = entry.kind
executable = entry.executable
return (file_id, tree1.id2path(file_id), False, (True, True),
(parent, parent), (name, name), (kind, kind),
(executable, executable))
self.assertEqual([unchanged(root_id), unchanged('b-id'),
('a-id', 'd', True, (True, True),
(root_id, root_id), ('a', 'd'), ('file', 'file'),
(False, False)), unchanged('c-id')],
list(tree2._iter_changes(tree1,
include_unchanged=True)))
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