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# Copyright (C) 2006-2009, 2011 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., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
"""Tests for Tree and InterTree."""
from bzrlib import (
errors,
revision,
tree as _mod_tree,
)
from bzrlib.tests import TestCaseWithTransport
from bzrlib.tree import InterTree
class TestInterTree(TestCaseWithTransport):
def test_revision_tree_revision_tree(self):
# we should have an InterTree registered for RevisionTree to
# RevisionTree.
tree = self.make_branch_and_tree('.')
rev_id = tree.commit('first post')
rev_id2 = tree.commit('second post', allow_pointless=True)
rev_tree = tree.branch.repository.revision_tree(rev_id)
rev_tree2 = tree.branch.repository.revision_tree(rev_id2)
optimiser = InterTree.get(rev_tree, rev_tree2)
self.assertIsInstance(optimiser, InterTree)
optimiser = InterTree.get(rev_tree2, rev_tree)
self.assertIsInstance(optimiser, InterTree)
def test_working_tree_revision_tree(self):
# we should have an InterTree available for WorkingTree to
# RevisionTree.
tree = self.make_branch_and_tree('.')
rev_id = tree.commit('first post')
rev_tree = tree.branch.repository.revision_tree(rev_id)
optimiser = InterTree.get(rev_tree, tree)
self.assertIsInstance(optimiser, InterTree)
optimiser = InterTree.get(tree, rev_tree)
self.assertIsInstance(optimiser, InterTree)
def test_working_tree_working_tree(self):
# we should have an InterTree available for WorkingTree to
# WorkingTree.
tree = self.make_branch_and_tree('1')
tree2 = self.make_branch_and_tree('2')
optimiser = InterTree.get(tree, tree2)
self.assertIsInstance(optimiser, InterTree)
optimiser = InterTree.get(tree2, tree)
self.assertIsInstance(optimiser, InterTree)
class RecordingOptimiser(InterTree):
calls = []
def compare(self, want_unchanged=False, specific_files=None,
extra_trees=None, require_versioned=False, include_root=False,
want_unversioned=False):
self.calls.append(
('compare', self.source, self.target, want_unchanged,
specific_files, extra_trees, require_versioned,
include_root, want_unversioned)
)
@classmethod
def is_compatible(klass, source, target):
return True
class TestTree(TestCaseWithTransport):
def test_compare_calls_InterTree_compare(self):
"""This test tests the way Tree.compare() uses InterTree."""
old_optimisers = InterTree._optimisers
try:
InterTree._optimisers = []
RecordingOptimiser.calls = []
InterTree.register_optimiser(RecordingOptimiser)
tree = self.make_branch_and_tree('1')
tree2 = self.make_branch_and_tree('2')
# do a series of calls:
# trivial usage
tree.changes_from(tree2)
# pass in all optional arguments by position
tree.changes_from(tree2, 'unchanged', 'specific', 'extra',
'require', True)
# pass in all optional arguments by keyword
tree.changes_from(tree2,
specific_files='specific',
want_unchanged='unchanged',
extra_trees='extra',
require_versioned='require',
include_root=True,
want_unversioned=True,
)
finally:
InterTree._optimisers = old_optimisers
self.assertEqual(
[
('compare', tree2, tree, False, None, None, False, False, False),
('compare', tree2, tree, 'unchanged', 'specific', 'extra',
'require', True, False),
('compare', tree2, tree, 'unchanged', 'specific', 'extra',
'require', True, True),
], RecordingOptimiser.calls)
def test_changes_from_with_root(self):
"""Ensure the include_root option does what's expected."""
wt = self.make_branch_and_tree('.')
delta = wt.changes_from(wt.basis_tree())
self.assertEqual(len(delta.added), 0)
delta = wt.changes_from(wt.basis_tree(), include_root=True)
self.assertEqual(len(delta.added), 1)
self.assertEqual(delta.added[0][0], '')
def test_changes_from_with_require_versioned(self):
"""Ensure the require_versioned option does what's expected."""
wt = self.make_branch_and_tree('.')
self.build_tree(['known_file', 'unknown_file'])
wt.add('known_file')
self.assertRaises(errors.PathsNotVersionedError,
wt.changes_from, wt.basis_tree(), wt, specific_files=['known_file',
'unknown_file'], require_versioned=True)
# we need to pass a known file with an unknown file to get this to
# fail when expected.
delta = wt.changes_from(wt.basis_tree(),
specific_files=['known_file', 'unknown_file'] ,
require_versioned=False)
self.assertEqual(len(delta.added), 1)
class TestMultiWalker(TestCaseWithTransport):
def assertStepOne(self, has_more, path, file_id, iterator):
retval = _mod_tree.MultiWalker._step_one(iterator)
if not has_more:
self.assertIs(None, path)
self.assertIs(None, file_id)
self.assertEqual((False, None, None), retval)
else:
self.assertEqual((has_more, path, file_id),
(retval[0], retval[1], retval[2].file_id))
def test__step_one_empty(self):
tree = self.make_branch_and_tree('empty')
repo = tree.branch.repository
empty_tree = repo.revision_tree(revision.NULL_REVISION)
iterator = empty_tree.iter_entries_by_dir()
self.assertStepOne(False, None, None, iterator)
self.assertStepOne(False, None, None, iterator)
def test__step_one(self):
tree = self.make_branch_and_tree('tree')
self.build_tree(['tree/a', 'tree/b/', 'tree/b/c'])
tree.add(['a', 'b', 'b/c'], ['a-id', 'b-id', 'c-id'])
iterator = tree.iter_entries_by_dir()
tree.lock_read()
self.addCleanup(tree.unlock)
root_id = tree.path2id('')
self.assertStepOne(True, '', root_id, iterator)
self.assertStepOne(True, 'a', 'a-id', iterator)
self.assertStepOne(True, 'b', 'b-id', iterator)
self.assertStepOne(True, 'b/c', 'c-id', iterator)
self.assertStepOne(False, None, None, iterator)
self.assertStepOne(False, None, None, iterator)
def assertWalkerNext(self, exp_path, exp_file_id, master_has_node,
exp_other_paths, iterator):
"""Check what happens when we step the iterator.
:param path: The path for this entry
:param file_id: The file_id for this entry
:param master_has_node: Does the master tree have this entry?
:param exp_other_paths: A list of other_path values.
:param iterator: The iterator to step
"""
path, file_id, master_ie, other_values = iterator.next()
self.assertEqual((exp_path, exp_file_id), (path, file_id),
'Master entry did not match')
if master_has_node:
self.assertIsNot(None, master_ie, 'master should have an entry')
else:
self.assertIs(None, master_ie, 'master should not have an entry')
self.assertEqual(len(exp_other_paths), len(other_values),
'Wrong number of other entries')
other_paths = []
other_file_ids = []
for path, ie in other_values:
other_paths.append(path)
if ie is None:
other_file_ids.append(None)
else:
other_file_ids.append(ie.file_id)
exp_file_ids = []
for path in exp_other_paths:
if path is None:
exp_file_ids.append(None)
else:
exp_file_ids.append(file_id)
self.assertEqual(exp_other_paths, other_paths, "Other paths incorrect")
self.assertEqual(exp_file_ids, other_file_ids,
"Other file_ids incorrect")
def lock_and_get_basis_and_root_id(self, tree):
tree.lock_read()
self.addCleanup(tree.unlock)
basis_tree = tree.basis_tree()
basis_tree.lock_read()
self.addCleanup(basis_tree.unlock)
root_id = tree.path2id('')
return basis_tree, root_id
def test_simple_stepping(self):
tree = self.make_branch_and_tree('tree')
self.build_tree(['tree/a', 'tree/b/', 'tree/b/c'])
tree.add(['a', 'b', 'b/c'], ['a-id', 'b-id', 'c-id'])
tree.commit('first', rev_id='first-rev-id')
basis_tree, root_id = self.lock_and_get_basis_and_root_id(tree)
walker = _mod_tree.MultiWalker(tree, [basis_tree])
iterator = walker.iter_all()
self.assertWalkerNext(u'', root_id, True, [u''], iterator)
self.assertWalkerNext(u'a', 'a-id', True, [u'a'], iterator)
self.assertWalkerNext(u'b', 'b-id', True, [u'b'], iterator)
self.assertWalkerNext(u'b/c', 'c-id', True, [u'b/c'], iterator)
self.assertRaises(StopIteration, iterator.next)
def test_master_has_extra(self):
tree = self.make_branch_and_tree('tree')
self.build_tree(['tree/a', 'tree/b/', 'tree/c', 'tree/d'])
tree.add(['a', 'b', 'd'], ['a-id', 'b-id', 'd-id'])
tree.commit('first', rev_id='first-rev-id')
tree.add(['c'], ['c-id'])
basis_tree, root_id = self.lock_and_get_basis_and_root_id(tree)
walker = _mod_tree.MultiWalker(tree, [basis_tree])
iterator = walker.iter_all()
self.assertWalkerNext(u'', root_id, True, [u''], iterator)
self.assertWalkerNext(u'a', 'a-id', True, [u'a'], iterator)
self.assertWalkerNext(u'b', 'b-id', True, [u'b'], iterator)
self.assertWalkerNext(u'c', 'c-id', True, [None], iterator)
self.assertWalkerNext(u'd', 'd-id', True, [u'd'], iterator)
self.assertRaises(StopIteration, iterator.next)
def test_master_renamed_to_earlier(self):
"""The record is still present, it just shows up early."""
tree = self.make_branch_and_tree('tree')
self.build_tree(['tree/a', 'tree/c', 'tree/d'])
tree.add(['a', 'c', 'd'], ['a-id', 'c-id', 'd-id'])
tree.commit('first', rev_id='first-rev-id')
tree.rename_one('d', 'b')
basis_tree, root_id = self.lock_and_get_basis_and_root_id(tree)
walker = _mod_tree.MultiWalker(tree, [basis_tree])
iterator = walker.iter_all()
self.assertWalkerNext(u'', root_id, True, [u''], iterator)
self.assertWalkerNext(u'a', 'a-id', True, [u'a'], iterator)
self.assertWalkerNext(u'b', 'd-id', True, [u'd'], iterator)
self.assertWalkerNext(u'c', 'c-id', True, [u'c'], iterator)
self.assertRaises(StopIteration, iterator.next)
def test_master_renamed_to_later(self):
tree = self.make_branch_and_tree('tree')
self.build_tree(['tree/a', 'tree/b', 'tree/d'])
tree.add(['a', 'b', 'd'], ['a-id', 'b-id', 'd-id'])
tree.commit('first', rev_id='first-rev-id')
tree.rename_one('b', 'e')
basis_tree, root_id = self.lock_and_get_basis_and_root_id(tree)
walker = _mod_tree.MultiWalker(tree, [basis_tree])
iterator = walker.iter_all()
self.assertWalkerNext(u'', root_id, True, [u''], iterator)
self.assertWalkerNext(u'a', 'a-id', True, [u'a'], iterator)
self.assertWalkerNext(u'd', 'd-id', True, [u'd'], iterator)
self.assertWalkerNext(u'e', 'b-id', True, [u'b'], iterator)
self.assertRaises(StopIteration, iterator.next)
def test_other_extra_in_middle(self):
tree = self.make_branch_and_tree('tree')
self.build_tree(['tree/a', 'tree/b', 'tree/d'])
tree.add(['a', 'b', 'd'], ['a-id', 'b-id', 'd-id'])
tree.commit('first', rev_id='first-rev-id')
tree.remove(['b'])
basis_tree, root_id = self.lock_and_get_basis_and_root_id(tree)
walker = _mod_tree.MultiWalker(tree, [basis_tree])
iterator = walker.iter_all()
self.assertWalkerNext(u'', root_id, True, [u''], iterator)
self.assertWalkerNext(u'a', 'a-id', True, [u'a'], iterator)
self.assertWalkerNext(u'd', 'd-id', True, [u'd'], iterator)
self.assertWalkerNext(u'b', 'b-id', False, [u'b'], iterator)
self.assertRaises(StopIteration, iterator.next)
def test_other_extra_at_end(self):
tree = self.make_branch_and_tree('tree')
self.build_tree(['tree/a', 'tree/b', 'tree/d'])
tree.add(['a', 'b', 'd'], ['a-id', 'b-id', 'd-id'])
tree.commit('first', rev_id='first-rev-id')
tree.remove(['d'])
basis_tree, root_id = self.lock_and_get_basis_and_root_id(tree)
walker = _mod_tree.MultiWalker(tree, [basis_tree])
iterator = walker.iter_all()
self.assertWalkerNext(u'', root_id, True, [u''], iterator)
self.assertWalkerNext(u'a', 'a-id', True, [u'a'], iterator)
self.assertWalkerNext(u'b', 'b-id', True, [u'b'], iterator)
self.assertWalkerNext(u'd', 'd-id', False, [u'd'], iterator)
self.assertRaises(StopIteration, iterator.next)
def test_others_extra_at_end(self):
tree = self.make_branch_and_tree('tree')
self.build_tree(['tree/a', 'tree/b', 'tree/c', 'tree/d', 'tree/e'])
tree.add(['a', 'b', 'c', 'd', 'e'],
['a-id', 'b-id', 'c-id', 'd-id', 'e-id'])
tree.commit('first', rev_id='first-rev-id')
tree.remove(['e'])
tree.commit('second', rev_id='second-rev-id')
tree.remove(['d'])
tree.commit('third', rev_id='third-rev-id')
tree.remove(['c'])
basis_tree, root_id = self.lock_and_get_basis_and_root_id(tree)
first_tree = tree.branch.repository.revision_tree('first-rev-id')
second_tree = tree.branch.repository.revision_tree('second-rev-id')
walker = _mod_tree.MultiWalker(tree, [basis_tree, first_tree,
second_tree])
iterator = walker.iter_all()
self.assertWalkerNext(u'', root_id, True, [u'', u'', u''], iterator)
self.assertWalkerNext(u'a', 'a-id', True, [u'a', u'a', u'a'], iterator)
self.assertWalkerNext(u'b', 'b-id', True, [u'b', u'b', u'b'], iterator)
self.assertWalkerNext(u'c', 'c-id', False, [u'c', u'c', u'c'], iterator)
self.assertWalkerNext(u'd', 'd-id', False, [None, u'd', u'd'], iterator)
self.assertWalkerNext(u'e', 'e-id', False, [None, u'e', None], iterator)
self.assertRaises(StopIteration, iterator.next)
def test_different_file_id_in_others(self):
tree = self.make_branch_and_tree('tree')
self.build_tree(['tree/a', 'tree/b', 'tree/c/'])
tree.add(['a', 'b', 'c'], ['a-id', 'b-id', 'c-id'])
tree.commit('first', rev_id='first-rev-id')
tree.rename_one('b', 'c/d')
self.build_tree(['tree/b'])
tree.add(['b'], ['b2-id'])
tree.commit('second', rev_id='second-rev-id')
tree.rename_one('a', 'c/e')
self.build_tree(['tree/a'])
tree.add(['a'], ['a2-id'])
basis_tree, root_id = self.lock_and_get_basis_and_root_id(tree)
first_tree = tree.branch.repository.revision_tree('first-rev-id')
walker = _mod_tree.MultiWalker(tree, [basis_tree, first_tree])
iterator = walker.iter_all()
self.assertWalkerNext(u'', root_id, True, [u'', u''], iterator)
self.assertWalkerNext(u'a', 'a2-id', True, [None, None], iterator)
self.assertWalkerNext(u'b', 'b2-id', True, [u'b', None], iterator)
self.assertWalkerNext(u'c', 'c-id', True, [u'c', u'c'], iterator)
self.assertWalkerNext(u'c/d', 'b-id', True, [u'c/d', u'b'], iterator)
self.assertWalkerNext(u'c/e', 'a-id', True, [u'a', u'a'], iterator)
self.assertRaises(StopIteration, iterator.next)
def assertCmpByDirblock(self, cmp_val, path1, path2):
self.assertEqual(cmp_val,
_mod_tree.MultiWalker._cmp_path_by_dirblock(path1, path2))
def test__cmp_path_by_dirblock(self):
# We only support Unicode strings at this point
self.assertRaises(TypeError,
_mod_tree.MultiWalker._cmp_path_by_dirblock, '', 'b')
self.assertCmpByDirblock(0, u'', u'')
self.assertCmpByDirblock(0, u'a', u'a')
self.assertCmpByDirblock(0, u'a/b', u'a/b')
self.assertCmpByDirblock(0, u'a/b/c', u'a/b/c')
self.assertCmpByDirblock(1, u'a-a', u'a')
self.assertCmpByDirblock(-1, u'a-a', u'a/a')
self.assertCmpByDirblock(-1, u'a=a', u'a/a')
self.assertCmpByDirblock(1, u'a-a/a', u'a/a')
self.assertCmpByDirblock(1, u'a=a/a', u'a/a')
self.assertCmpByDirblock(1, u'a-a/a', u'a/a/a')
self.assertCmpByDirblock(1, u'a=a/a', u'a/a/a')
self.assertCmpByDirblock(1, u'a-a/a/a', u'a/a/a')
self.assertCmpByDirblock(1, u'a=a/a/a', u'a/a/a')
def assertPathToKey(self, expected, path):
self.assertEqual(expected, _mod_tree.MultiWalker._path_to_key(path))
def test__path_to_key(self):
self.assertPathToKey(([u''], u''), u'')
self.assertPathToKey(([u''], u'a'), u'a')
self.assertPathToKey(([u'a'], u'b'), u'a/b')
self.assertPathToKey(([u'a', u'b'], u'c'), u'a/b/c')
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