# test_diff_tree.py -- Tests for file and tree diff utilities.
# Copyright (C) 2010 Google, Inc.
#
# Dulwich is dual-licensed under the Apache License, Version 2.0 and the GNU
# General Public License as public by the Free Software Foundation; version 2.0
# or (at your option) any later version. You can redistribute it and/or
# modify it under the terms of either of these two licenses.
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
#
# You should have received a copy of the licenses; if not, see
# for a copy of the GNU General Public License
# and for a copy of the Apache
# License, Version 2.0.
#
"""Tests for file and tree diff utilities."""
from itertools import permutations
from dulwich.diff_tree import (
CHANGE_COPY,
CHANGE_MODIFY,
CHANGE_RENAME,
CHANGE_UNCHANGED,
RenameDetector,
TreeChange,
_count_blocks,
_count_blocks_py,
_is_tree,
_is_tree_py,
_merge_entries,
_merge_entries_py,
_similarity_score,
_tree_change_key,
tree_changes,
tree_changes_for_merge,
)
from dulwich.index import commit_tree
from dulwich.object_store import MemoryObjectStore
from dulwich.objects import Blob, ShaFile, Tree, TreeEntry
from dulwich.tests.utils import F, ext_functest_builder, functest_builder, make_object
from . import TestCase
class DiffTestCase(TestCase):
def setUp(self):
super().setUp()
self.store = MemoryObjectStore()
self.empty_tree = self.commit_tree([])
def commit_tree(self, entries):
commit_blobs = []
for entry in entries:
if len(entry) == 2:
path, obj = entry
mode = F
else:
path, obj, mode = entry
if isinstance(obj, Blob):
self.store.add_object(obj)
sha = obj.id
else:
sha = obj
commit_blobs.append((path, sha, mode))
return self.store[commit_tree(self.store, commit_blobs)]
class TreeChangesTest(DiffTestCase):
def setUp(self):
super().setUp()
self.detector = RenameDetector(self.store)
def assertMergeFails(self, merge_entries, name, mode, sha):
t = Tree()
t[name] = (mode, sha)
self.assertRaises((TypeError, ValueError), merge_entries, "", t, t)
def _do_test_merge_entries(self, merge_entries):
blob_a1 = make_object(Blob, data=b"a1")
blob_a2 = make_object(Blob, data=b"a2")
blob_b1 = make_object(Blob, data=b"b1")
blob_c2 = make_object(Blob, data=b"c2")
tree1 = self.commit_tree([(b"a", blob_a1, 0o100644), (b"b", blob_b1, 0o100755)])
tree2 = self.commit_tree([(b"a", blob_a2, 0o100644), (b"c", blob_c2, 0o100755)])
self.assertEqual([], merge_entries(b"", self.empty_tree, self.empty_tree))
self.assertEqual(
[
((None, None, None), (b"a", 0o100644, blob_a1.id)),
((None, None, None), (b"b", 0o100755, blob_b1.id)),
],
merge_entries(b"", self.empty_tree, tree1),
)
self.assertEqual(
[
((None, None, None), (b"x/a", 0o100644, blob_a1.id)),
((None, None, None), (b"x/b", 0o100755, blob_b1.id)),
],
merge_entries(b"x", self.empty_tree, tree1),
)
self.assertEqual(
[
((b"a", 0o100644, blob_a2.id), (None, None, None)),
((b"c", 0o100755, blob_c2.id), (None, None, None)),
],
merge_entries(b"", tree2, self.empty_tree),
)
self.assertEqual(
[
((b"a", 0o100644, blob_a1.id), (b"a", 0o100644, blob_a2.id)),
((b"b", 0o100755, blob_b1.id), (None, None, None)),
((None, None, None), (b"c", 0o100755, blob_c2.id)),
],
merge_entries(b"", tree1, tree2),
)
self.assertEqual(
[
((b"a", 0o100644, blob_a2.id), (b"a", 0o100644, blob_a1.id)),
((None, None, None), (b"b", 0o100755, blob_b1.id)),
((b"c", 0o100755, blob_c2.id), (None, None, None)),
],
merge_entries(b"", tree2, tree1),
)
self.assertMergeFails(merge_entries, 0xDEADBEEF, 0o100644, "1" * 40)
self.assertMergeFails(merge_entries, b"a", b"deadbeef", "1" * 40)
self.assertMergeFails(merge_entries, b"a", 0o100644, 0xDEADBEEF)
test_merge_entries = functest_builder(_do_test_merge_entries, _merge_entries_py)
test_merge_entries_extension = ext_functest_builder(
_do_test_merge_entries, _merge_entries
)
def _do_test_is_tree(self, is_tree):
self.assertFalse(is_tree(TreeEntry(None, None, None)))
self.assertFalse(is_tree(TreeEntry(b"a", 0o100644, b"a" * 40)))
self.assertFalse(is_tree(TreeEntry(b"a", 0o100755, b"a" * 40)))
self.assertFalse(is_tree(TreeEntry(b"a", 0o120000, b"a" * 40)))
self.assertTrue(is_tree(TreeEntry(b"a", 0o040000, b"a" * 40)))
self.assertRaises(TypeError, is_tree, TreeEntry(b"a", b"x", b"a" * 40))
self.assertRaises(AttributeError, is_tree, 1234)
test_is_tree = functest_builder(_do_test_is_tree, _is_tree_py)
test_is_tree_extension = ext_functest_builder(_do_test_is_tree, _is_tree)
def assertChangesEqual(self, expected, tree1, tree2, **kwargs):
actual = list(tree_changes(self.store, tree1.id, tree2.id, **kwargs))
self.assertEqual(expected, actual)
# For brevity, the following tests use tuples instead of TreeEntry objects.
def test_tree_changes_empty(self):
self.assertChangesEqual([], self.empty_tree, self.empty_tree)
def test_tree_changes_no_changes(self):
blob = make_object(Blob, data=b"blob")
tree = self.commit_tree([(b"a", blob), (b"b/c", blob)])
self.assertChangesEqual([], self.empty_tree, self.empty_tree)
self.assertChangesEqual([], tree, tree)
self.assertChangesEqual(
[
TreeChange(CHANGE_UNCHANGED, (b"a", F, blob.id), (b"a", F, blob.id)),
TreeChange(
CHANGE_UNCHANGED,
(b"b/c", F, blob.id),
(b"b/c", F, blob.id),
),
],
tree,
tree,
want_unchanged=True,
)
def test_tree_changes_add_delete(self):
blob_a = make_object(Blob, data=b"a")
blob_b = make_object(Blob, data=b"b")
tree = self.commit_tree([(b"a", blob_a, 0o100644), (b"x/b", blob_b, 0o100755)])
self.assertChangesEqual(
[
TreeChange.add((b"a", 0o100644, blob_a.id)),
TreeChange.add((b"x/b", 0o100755, blob_b.id)),
],
self.empty_tree,
tree,
)
self.assertChangesEqual(
[
TreeChange.delete((b"a", 0o100644, blob_a.id)),
TreeChange.delete((b"x/b", 0o100755, blob_b.id)),
],
tree,
self.empty_tree,
)
def test_tree_changes_modify_contents(self):
blob_a1 = make_object(Blob, data=b"a1")
blob_a2 = make_object(Blob, data=b"a2")
tree1 = self.commit_tree([(b"a", blob_a1)])
tree2 = self.commit_tree([(b"a", blob_a2)])
self.assertChangesEqual(
[TreeChange(CHANGE_MODIFY, (b"a", F, blob_a1.id), (b"a", F, blob_a2.id))],
tree1,
tree2,
)
def test_tree_changes_modify_mode(self):
blob_a = make_object(Blob, data=b"a")
tree1 = self.commit_tree([(b"a", blob_a, 0o100644)])
tree2 = self.commit_tree([(b"a", blob_a, 0o100755)])
self.assertChangesEqual(
[
TreeChange(
CHANGE_MODIFY,
(b"a", 0o100644, blob_a.id),
(b"a", 0o100755, blob_a.id),
)
],
tree1,
tree2,
)
def test_tree_changes_change_type(self):
blob_a1 = make_object(Blob, data=b"a")
blob_a2 = make_object(Blob, data=b"/foo/bar")
tree1 = self.commit_tree([(b"a", blob_a1, 0o100644)])
tree2 = self.commit_tree([(b"a", blob_a2, 0o120000)])
self.assertChangesEqual(
[
TreeChange.delete((b"a", 0o100644, blob_a1.id)),
TreeChange.add((b"a", 0o120000, blob_a2.id)),
],
tree1,
tree2,
)
def test_tree_changes_change_type_same(self):
blob_a1 = make_object(Blob, data=b"a")
blob_a2 = make_object(Blob, data=b"/foo/bar")
tree1 = self.commit_tree([(b"a", blob_a1, 0o100644)])
tree2 = self.commit_tree([(b"a", blob_a2, 0o120000)])
self.assertChangesEqual(
[
TreeChange(
CHANGE_MODIFY,
(b"a", 0o100644, blob_a1.id),
(b"a", 0o120000, blob_a2.id),
)
],
tree1,
tree2,
change_type_same=True,
)
def test_tree_changes_to_tree(self):
blob_a = make_object(Blob, data=b"a")
blob_x = make_object(Blob, data=b"x")
tree1 = self.commit_tree([(b"a", blob_a)])
tree2 = self.commit_tree([(b"a/x", blob_x)])
self.assertChangesEqual(
[
TreeChange.delete((b"a", F, blob_a.id)),
TreeChange.add((b"a/x", F, blob_x.id)),
],
tree1,
tree2,
)
def test_tree_changes_complex(self):
blob_a_1 = make_object(Blob, data=b"a1_1")
blob_bx1_1 = make_object(Blob, data=b"bx1_1")
blob_bx2_1 = make_object(Blob, data=b"bx2_1")
blob_by1_1 = make_object(Blob, data=b"by1_1")
blob_by2_1 = make_object(Blob, data=b"by2_1")
tree1 = self.commit_tree(
[
(b"a", blob_a_1),
(b"b/x/1", blob_bx1_1),
(b"b/x/2", blob_bx2_1),
(b"b/y/1", blob_by1_1),
(b"b/y/2", blob_by2_1),
]
)
blob_a_2 = make_object(Blob, data=b"a1_2")
blob_bx1_2 = blob_bx1_1
blob_by_2 = make_object(Blob, data=b"by_2")
blob_c_2 = make_object(Blob, data=b"c_2")
tree2 = self.commit_tree(
[
(b"a", blob_a_2),
(b"b/x/1", blob_bx1_2),
(b"b/y", blob_by_2),
(b"c", blob_c_2),
]
)
self.assertChangesEqual(
[
TreeChange(
CHANGE_MODIFY,
(b"a", F, blob_a_1.id),
(b"a", F, blob_a_2.id),
),
TreeChange.delete((b"b/x/2", F, blob_bx2_1.id)),
TreeChange.add((b"b/y", F, blob_by_2.id)),
TreeChange.delete((b"b/y/1", F, blob_by1_1.id)),
TreeChange.delete((b"b/y/2", F, blob_by2_1.id)),
TreeChange.add((b"c", F, blob_c_2.id)),
],
tree1,
tree2,
)
def test_tree_changes_name_order(self):
blob = make_object(Blob, data=b"a")
tree1 = self.commit_tree([(b"a", blob), (b"a.", blob), (b"a..", blob)])
# Tree order is the reverse of this, so if we used tree order, 'a..'
# would not be merged.
tree2 = self.commit_tree([(b"a/x", blob), (b"a./x", blob), (b"a..", blob)])
self.assertChangesEqual(
[
TreeChange.delete((b"a", F, blob.id)),
TreeChange.add((b"a/x", F, blob.id)),
TreeChange.delete((b"a.", F, blob.id)),
TreeChange.add((b"a./x", F, blob.id)),
],
tree1,
tree2,
)
def test_tree_changes_prune(self):
blob_a1 = make_object(Blob, data=b"a1")
blob_a2 = make_object(Blob, data=b"a2")
blob_x = make_object(Blob, data=b"x")
tree1 = self.commit_tree([(b"a", blob_a1), (b"b/x", blob_x)])
tree2 = self.commit_tree([(b"a", blob_a2), (b"b/x", blob_x)])
# Remove identical items so lookups will fail unless we prune.
subtree = self.store[tree1[b"b"][1]]
for entry in subtree.items():
del self.store[entry.sha]
del self.store[subtree.id]
self.assertChangesEqual(
[TreeChange(CHANGE_MODIFY, (b"a", F, blob_a1.id), (b"a", F, blob_a2.id))],
tree1,
tree2,
)
def test_tree_changes_rename_detector(self):
blob_a1 = make_object(Blob, data=b"a\nb\nc\nd\n")
blob_a2 = make_object(Blob, data=b"a\nb\nc\ne\n")
blob_b = make_object(Blob, data=b"b")
tree1 = self.commit_tree([(b"a", blob_a1), (b"b", blob_b)])
tree2 = self.commit_tree([(b"c", blob_a2), (b"b", blob_b)])
detector = RenameDetector(self.store)
self.assertChangesEqual(
[
TreeChange.delete((b"a", F, blob_a1.id)),
TreeChange.add((b"c", F, blob_a2.id)),
],
tree1,
tree2,
)
self.assertChangesEqual(
[
TreeChange.delete((b"a", F, blob_a1.id)),
TreeChange(
CHANGE_UNCHANGED,
(b"b", F, blob_b.id),
(b"b", F, blob_b.id),
),
TreeChange.add((b"c", F, blob_a2.id)),
],
tree1,
tree2,
want_unchanged=True,
)
self.assertChangesEqual(
[TreeChange(CHANGE_RENAME, (b"a", F, blob_a1.id), (b"c", F, blob_a2.id))],
tree1,
tree2,
rename_detector=detector,
)
self.assertChangesEqual(
[
TreeChange(CHANGE_RENAME, (b"a", F, blob_a1.id), (b"c", F, blob_a2.id)),
TreeChange(
CHANGE_UNCHANGED,
(b"b", F, blob_b.id),
(b"b", F, blob_b.id),
),
],
tree1,
tree2,
rename_detector=detector,
want_unchanged=True,
)
def assertChangesForMergeEqual(self, expected, parent_trees, merge_tree, **kwargs):
parent_tree_ids = [t.id for t in parent_trees]
actual = list(
tree_changes_for_merge(self.store, parent_tree_ids, merge_tree.id, **kwargs)
)
self.assertEqual(expected, actual)
parent_tree_ids.reverse()
expected = [list(reversed(cs)) for cs in expected]
actual = list(
tree_changes_for_merge(self.store, parent_tree_ids, merge_tree.id, **kwargs)
)
self.assertEqual(expected, actual)
def test_tree_changes_for_merge_add_no_conflict(self):
blob = make_object(Blob, data=b"blob")
parent1 = self.commit_tree([])
parent2 = merge = self.commit_tree([(b"a", blob)])
self.assertChangesForMergeEqual([], [parent1, parent2], merge)
self.assertChangesForMergeEqual([], [parent2, parent2], merge)
def test_tree_changes_for_merge_add_modify_conflict(self):
blob1 = make_object(Blob, data=b"1")
blob2 = make_object(Blob, data=b"2")
parent1 = self.commit_tree([])
parent2 = self.commit_tree([(b"a", blob1)])
merge = self.commit_tree([(b"a", blob2)])
self.assertChangesForMergeEqual(
[
[
TreeChange.add((b"a", F, blob2.id)),
TreeChange(CHANGE_MODIFY, (b"a", F, blob1.id), (b"a", F, blob2.id)),
]
],
[parent1, parent2],
merge,
)
def test_tree_changes_for_merge_modify_modify_conflict(self):
blob1 = make_object(Blob, data=b"1")
blob2 = make_object(Blob, data=b"2")
blob3 = make_object(Blob, data=b"3")
parent1 = self.commit_tree([(b"a", blob1)])
parent2 = self.commit_tree([(b"a", blob2)])
merge = self.commit_tree([(b"a", blob3)])
self.assertChangesForMergeEqual(
[
[
TreeChange(CHANGE_MODIFY, (b"a", F, blob1.id), (b"a", F, blob3.id)),
TreeChange(CHANGE_MODIFY, (b"a", F, blob2.id), (b"a", F, blob3.id)),
]
],
[parent1, parent2],
merge,
)
def test_tree_changes_for_merge_modify_no_conflict(self):
blob1 = make_object(Blob, data=b"1")
blob2 = make_object(Blob, data=b"2")
parent1 = self.commit_tree([(b"a", blob1)])
parent2 = merge = self.commit_tree([(b"a", blob2)])
self.assertChangesForMergeEqual([], [parent1, parent2], merge)
def test_tree_changes_for_merge_delete_delete_conflict(self):
blob1 = make_object(Blob, data=b"1")
blob2 = make_object(Blob, data=b"2")
parent1 = self.commit_tree([(b"a", blob1)])
parent2 = self.commit_tree([(b"a", blob2)])
merge = self.commit_tree([])
self.assertChangesForMergeEqual(
[
[
TreeChange.delete((b"a", F, blob1.id)),
TreeChange.delete((b"a", F, blob2.id)),
]
],
[parent1, parent2],
merge,
)
def test_tree_changes_for_merge_delete_no_conflict(self):
blob = make_object(Blob, data=b"blob")
has = self.commit_tree([(b"a", blob)])
doesnt_have = self.commit_tree([])
self.assertChangesForMergeEqual([], [has, has], doesnt_have)
self.assertChangesForMergeEqual([], [has, doesnt_have], doesnt_have)
def test_tree_changes_for_merge_octopus_no_conflict(self):
r = list(range(5))
blobs = [make_object(Blob, data=bytes(i)) for i in r]
parents = [self.commit_tree([(b"a", blobs[i])]) for i in r]
for i in r:
# Take the SHA from each of the parents.
self.assertChangesForMergeEqual([], parents, parents[i])
def test_tree_changes_for_merge_octopus_modify_conflict(self):
# Because the octopus merge strategy is limited, I doubt it's possible
# to create this with the git command line. But the output is well-
# defined, so test it anyway.
r = list(range(5))
parent_blobs = [make_object(Blob, data=bytes(i)) for i in r]
merge_blob = make_object(Blob, data=b"merge")
parents = [self.commit_tree([(b"a", parent_blobs[i])]) for i in r]
merge = self.commit_tree([(b"a", merge_blob)])
expected = [
[
TreeChange(
CHANGE_MODIFY,
(b"a", F, parent_blobs[i].id),
(b"a", F, merge_blob.id),
)
for i in r
]
]
self.assertChangesForMergeEqual(expected, parents, merge)
def test_tree_changes_for_merge_octopus_delete(self):
blob1 = make_object(Blob, data=b"1")
blob2 = make_object(Blob, data=b"3")
parent1 = self.commit_tree([(b"a", blob1)])
parent2 = self.commit_tree([(b"a", blob2)])
parent3 = merge = self.commit_tree([])
self.assertChangesForMergeEqual([], [parent1, parent1, parent1], merge)
self.assertChangesForMergeEqual([], [parent1, parent1, parent3], merge)
self.assertChangesForMergeEqual([], [parent1, parent3, parent3], merge)
self.assertChangesForMergeEqual(
[
[
TreeChange.delete((b"a", F, blob1.id)),
TreeChange.delete((b"a", F, blob2.id)),
None,
]
],
[parent1, parent2, parent3],
merge,
)
def test_tree_changes_for_merge_add_add_same_conflict(self):
blob = make_object(Blob, data=b"a\nb\nc\nd\n")
parent1 = self.commit_tree([(b"a", blob)])
parent2 = self.commit_tree([])
merge = self.commit_tree([(b"b", blob)])
add = TreeChange.add((b"b", F, blob.id))
self.assertChangesForMergeEqual([[add, add]], [parent1, parent2], merge)
def test_tree_changes_for_merge_add_exact_rename_conflict(self):
blob = make_object(Blob, data=b"a\nb\nc\nd\n")
parent1 = self.commit_tree([(b"a", blob)])
parent2 = self.commit_tree([])
merge = self.commit_tree([(b"b", blob)])
self.assertChangesForMergeEqual(
[
[
TreeChange(CHANGE_RENAME, (b"a", F, blob.id), (b"b", F, blob.id)),
TreeChange.add((b"b", F, blob.id)),
]
],
[parent1, parent2],
merge,
rename_detector=self.detector,
)
def test_tree_changes_for_merge_add_content_rename_conflict(self):
blob1 = make_object(Blob, data=b"a\nb\nc\nd\n")
blob2 = make_object(Blob, data=b"a\nb\nc\ne\n")
parent1 = self.commit_tree([(b"a", blob1)])
parent2 = self.commit_tree([])
merge = self.commit_tree([(b"b", blob2)])
self.assertChangesForMergeEqual(
[
[
TreeChange(CHANGE_RENAME, (b"a", F, blob1.id), (b"b", F, blob2.id)),
TreeChange.add((b"b", F, blob2.id)),
]
],
[parent1, parent2],
merge,
rename_detector=self.detector,
)
def test_tree_changes_for_merge_modify_rename_conflict(self):
blob1 = make_object(Blob, data=b"a\nb\nc\nd\n")
blob2 = make_object(Blob, data=b"a\nb\nc\ne\n")
parent1 = self.commit_tree([(b"a", blob1)])
parent2 = self.commit_tree([(b"b", blob1)])
merge = self.commit_tree([(b"b", blob2)])
self.assertChangesForMergeEqual(
[
[
TreeChange(CHANGE_RENAME, (b"a", F, blob1.id), (b"b", F, blob2.id)),
TreeChange(CHANGE_MODIFY, (b"b", F, blob1.id), (b"b", F, blob2.id)),
]
],
[parent1, parent2],
merge,
rename_detector=self.detector,
)
class RenameDetectionTest(DiffTestCase):
def _do_test_count_blocks(self, count_blocks):
blob = make_object(Blob, data=b"a\nb\na\n")
self.assertBlockCountEqual({b"a\n": 4, b"b\n": 2}, count_blocks(blob))
test_count_blocks = functest_builder(_do_test_count_blocks, _count_blocks_py)
test_count_blocks_extension = ext_functest_builder(
_do_test_count_blocks, _count_blocks
)
def _do_test_count_blocks_no_newline(self, count_blocks):
blob = make_object(Blob, data=b"a\na")
self.assertBlockCountEqual({b"a\n": 2, b"a": 1}, _count_blocks(blob))
test_count_blocks_no_newline = functest_builder(
_do_test_count_blocks_no_newline, _count_blocks_py
)
test_count_blocks_no_newline_extension = ext_functest_builder(
_do_test_count_blocks_no_newline, _count_blocks
)
def assertBlockCountEqual(self, expected, got):
self.assertEqual(
{(hash(l) & 0xFFFFFFFF): c for (l, c) in expected.items()},
{(h & 0xFFFFFFFF): c for (h, c) in got.items()},
)
def _do_test_count_blocks_chunks(self, count_blocks):
blob = ShaFile.from_raw_chunks(Blob.type_num, [b"a\nb", b"\na\n"])
self.assertBlockCountEqual({b"a\n": 4, b"b\n": 2}, _count_blocks(blob))
test_count_blocks_chunks = functest_builder(
_do_test_count_blocks_chunks, _count_blocks_py
)
test_count_blocks_chunks_extension = ext_functest_builder(
_do_test_count_blocks_chunks, _count_blocks
)
def _do_test_count_blocks_long_lines(self, count_blocks):
a = b"a" * 64
data = a + b"xxx\ny\n" + a + b"zzz\n"
blob = make_object(Blob, data=data)
self.assertBlockCountEqual(
{b"a" * 64: 128, b"xxx\n": 4, b"y\n": 2, b"zzz\n": 4},
_count_blocks(blob),
)
test_count_blocks_long_lines = functest_builder(
_do_test_count_blocks_long_lines, _count_blocks_py
)
test_count_blocks_long_lines_extension = ext_functest_builder(
_do_test_count_blocks_long_lines, _count_blocks
)
def assertSimilar(self, expected_score, blob1, blob2):
self.assertEqual(expected_score, _similarity_score(blob1, blob2))
self.assertEqual(expected_score, _similarity_score(blob2, blob1))
def test_similarity_score(self):
blob0 = make_object(Blob, data=b"")
blob1 = make_object(Blob, data=b"ab\ncd\ncd\n")
blob2 = make_object(Blob, data=b"ab\n")
blob3 = make_object(Blob, data=b"cd\n")
blob4 = make_object(Blob, data=b"cd\ncd\n")
self.assertSimilar(100, blob0, blob0)
self.assertSimilar(0, blob0, blob1)
self.assertSimilar(33, blob1, blob2)
self.assertSimilar(33, blob1, blob3)
self.assertSimilar(66, blob1, blob4)
self.assertSimilar(0, blob2, blob3)
self.assertSimilar(50, blob3, blob4)
def test_similarity_score_cache(self):
blob1 = make_object(Blob, data=b"ab\ncd\n")
blob2 = make_object(Blob, data=b"ab\n")
block_cache = {}
self.assertEqual(50, _similarity_score(blob1, blob2, block_cache=block_cache))
self.assertEqual({blob1.id, blob2.id}, set(block_cache))
def fail_chunks():
self.fail("Unexpected call to as_raw_chunks()")
blob1.as_raw_chunks = blob2.as_raw_chunks = fail_chunks
blob1.raw_length = lambda: 6
blob2.raw_length = lambda: 3
self.assertEqual(50, _similarity_score(blob1, blob2, block_cache=block_cache))
def test_tree_entry_sort(self):
sha = "abcd" * 10
expected_entries = [
TreeChange.add(TreeEntry(b"aaa", F, sha)),
TreeChange(
CHANGE_COPY,
TreeEntry(b"bbb", F, sha),
TreeEntry(b"aab", F, sha),
),
TreeChange(
CHANGE_MODIFY,
TreeEntry(b"bbb", F, sha),
TreeEntry(b"bbb", F, b"dabc" * 10),
),
TreeChange(
CHANGE_RENAME,
TreeEntry(b"bbc", F, sha),
TreeEntry(b"ddd", F, sha),
),
TreeChange.delete(TreeEntry(b"ccc", F, sha)),
]
for perm in permutations(expected_entries):
self.assertEqual(expected_entries, sorted(perm, key=_tree_change_key))
def detect_renames(self, tree1, tree2, want_unchanged=False, **kwargs):
detector = RenameDetector(self.store, **kwargs)
return detector.changes_with_renames(
tree1.id, tree2.id, want_unchanged=want_unchanged
)
def test_no_renames(self):
blob1 = make_object(Blob, data=b"a\nb\nc\nd\n")
blob2 = make_object(Blob, data=b"a\nb\ne\nf\n")
blob3 = make_object(Blob, data=b"a\nb\ng\nh\n")
tree1 = self.commit_tree([(b"a", blob1), (b"b", blob2)])
tree2 = self.commit_tree([(b"a", blob1), (b"b", blob3)])
self.assertEqual(
[TreeChange(CHANGE_MODIFY, (b"b", F, blob2.id), (b"b", F, blob3.id))],
self.detect_renames(tree1, tree2),
)
def test_exact_rename_one_to_one(self):
blob1 = make_object(Blob, data=b"1")
blob2 = make_object(Blob, data=b"2")
tree1 = self.commit_tree([(b"a", blob1), (b"b", blob2)])
tree2 = self.commit_tree([(b"c", blob1), (b"d", blob2)])
self.assertEqual(
[
TreeChange(CHANGE_RENAME, (b"a", F, blob1.id), (b"c", F, blob1.id)),
TreeChange(CHANGE_RENAME, (b"b", F, blob2.id), (b"d", F, blob2.id)),
],
self.detect_renames(tree1, tree2),
)
def test_exact_rename_split_different_type(self):
blob = make_object(Blob, data=b"/foo")
tree1 = self.commit_tree([(b"a", blob, 0o100644)])
tree2 = self.commit_tree([(b"a", blob, 0o120000)])
self.assertEqual(
[
TreeChange.add((b"a", 0o120000, blob.id)),
TreeChange.delete((b"a", 0o100644, blob.id)),
],
self.detect_renames(tree1, tree2),
)
def test_exact_rename_and_different_type(self):
blob1 = make_object(Blob, data=b"1")
blob2 = make_object(Blob, data=b"2")
tree1 = self.commit_tree([(b"a", blob1)])
tree2 = self.commit_tree([(b"a", blob2, 0o120000), (b"b", blob1)])
self.assertEqual(
[
TreeChange.add((b"a", 0o120000, blob2.id)),
TreeChange(CHANGE_RENAME, (b"a", F, blob1.id), (b"b", F, blob1.id)),
],
self.detect_renames(tree1, tree2),
)
def test_exact_rename_one_to_many(self):
blob = make_object(Blob, data=b"1")
tree1 = self.commit_tree([(b"a", blob)])
tree2 = self.commit_tree([(b"b", blob), (b"c", blob)])
self.assertEqual(
[
TreeChange(CHANGE_RENAME, (b"a", F, blob.id), (b"b", F, blob.id)),
TreeChange(CHANGE_COPY, (b"a", F, blob.id), (b"c", F, blob.id)),
],
self.detect_renames(tree1, tree2),
)
def test_exact_rename_many_to_one(self):
blob = make_object(Blob, data=b"1")
tree1 = self.commit_tree([(b"a", blob), (b"b", blob)])
tree2 = self.commit_tree([(b"c", blob)])
self.assertEqual(
[
TreeChange(CHANGE_RENAME, (b"a", F, blob.id), (b"c", F, blob.id)),
TreeChange.delete((b"b", F, blob.id)),
],
self.detect_renames(tree1, tree2),
)
def test_exact_rename_many_to_many(self):
blob = make_object(Blob, data=b"1")
tree1 = self.commit_tree([(b"a", blob), (b"b", blob)])
tree2 = self.commit_tree([(b"c", blob), (b"d", blob), (b"e", blob)])
self.assertEqual(
[
TreeChange(CHANGE_RENAME, (b"a", F, blob.id), (b"c", F, blob.id)),
TreeChange(CHANGE_COPY, (b"a", F, blob.id), (b"e", F, blob.id)),
TreeChange(CHANGE_RENAME, (b"b", F, blob.id), (b"d", F, blob.id)),
],
self.detect_renames(tree1, tree2),
)
def test_exact_copy_modify(self):
blob1 = make_object(Blob, data=b"a\nb\nc\nd\n")
blob2 = make_object(Blob, data=b"a\nb\nc\ne\n")
tree1 = self.commit_tree([(b"a", blob1)])
tree2 = self.commit_tree([(b"a", blob2), (b"b", blob1)])
self.assertEqual(
[
TreeChange(CHANGE_MODIFY, (b"a", F, blob1.id), (b"a", F, blob2.id)),
TreeChange(CHANGE_COPY, (b"a", F, blob1.id), (b"b", F, blob1.id)),
],
self.detect_renames(tree1, tree2),
)
def test_exact_copy_change_mode(self):
blob = make_object(Blob, data=b"a\nb\nc\nd\n")
tree1 = self.commit_tree([(b"a", blob)])
tree2 = self.commit_tree([(b"a", blob, 0o100755), (b"b", blob)])
self.assertEqual(
[
TreeChange(
CHANGE_MODIFY,
(b"a", F, blob.id),
(b"a", 0o100755, blob.id),
),
TreeChange(CHANGE_COPY, (b"a", F, blob.id), (b"b", F, blob.id)),
],
self.detect_renames(tree1, tree2),
)
def test_rename_threshold(self):
blob1 = make_object(Blob, data=b"a\nb\nc\n")
blob2 = make_object(Blob, data=b"a\nb\nd\n")
tree1 = self.commit_tree([(b"a", blob1)])
tree2 = self.commit_tree([(b"b", blob2)])
self.assertEqual(
[TreeChange(CHANGE_RENAME, (b"a", F, blob1.id), (b"b", F, blob2.id))],
self.detect_renames(tree1, tree2, rename_threshold=50),
)
self.assertEqual(
[
TreeChange.delete((b"a", F, blob1.id)),
TreeChange.add((b"b", F, blob2.id)),
],
self.detect_renames(tree1, tree2, rename_threshold=75),
)
def test_content_rename_max_files(self):
blob1 = make_object(Blob, data=b"a\nb\nc\nd")
blob4 = make_object(Blob, data=b"a\nb\nc\ne\n")
blob2 = make_object(Blob, data=b"e\nf\ng\nh\n")
blob3 = make_object(Blob, data=b"e\nf\ng\ni\n")
tree1 = self.commit_tree([(b"a", blob1), (b"b", blob2)])
tree2 = self.commit_tree([(b"c", blob3), (b"d", blob4)])
self.assertEqual(
[
TreeChange(CHANGE_RENAME, (b"a", F, blob1.id), (b"d", F, blob4.id)),
TreeChange(CHANGE_RENAME, (b"b", F, blob2.id), (b"c", F, blob3.id)),
],
self.detect_renames(tree1, tree2),
)
self.assertEqual(
[
TreeChange.delete((b"a", F, blob1.id)),
TreeChange.delete((b"b", F, blob2.id)),
TreeChange.add((b"c", F, blob3.id)),
TreeChange.add((b"d", F, blob4.id)),
],
self.detect_renames(tree1, tree2, max_files=1),
)
def test_content_rename_one_to_one(self):
b11 = make_object(Blob, data=b"a\nb\nc\nd\n")
b12 = make_object(Blob, data=b"a\nb\nc\ne\n")
b21 = make_object(Blob, data=b"e\nf\ng\n\nh")
b22 = make_object(Blob, data=b"e\nf\ng\n\ni")
tree1 = self.commit_tree([(b"a", b11), (b"b", b21)])
tree2 = self.commit_tree([(b"c", b12), (b"d", b22)])
self.assertEqual(
[
TreeChange(CHANGE_RENAME, (b"a", F, b11.id), (b"c", F, b12.id)),
TreeChange(CHANGE_RENAME, (b"b", F, b21.id), (b"d", F, b22.id)),
],
self.detect_renames(tree1, tree2),
)
def test_content_rename_one_to_one_ordering(self):
blob1 = make_object(Blob, data=b"a\nb\nc\nd\ne\nf\n")
blob2 = make_object(Blob, data=b"a\nb\nc\nd\ng\nh\n")
# 6/10 match to blob1, 8/10 match to blob2
blob3 = make_object(Blob, data=b"a\nb\nc\nd\ng\ni\n")
tree1 = self.commit_tree([(b"a", blob1), (b"b", blob2)])
tree2 = self.commit_tree([(b"c", blob3)])
self.assertEqual(
[
TreeChange.delete((b"a", F, blob1.id)),
TreeChange(CHANGE_RENAME, (b"b", F, blob2.id), (b"c", F, blob3.id)),
],
self.detect_renames(tree1, tree2),
)
tree3 = self.commit_tree([(b"a", blob2), (b"b", blob1)])
tree4 = self.commit_tree([(b"c", blob3)])
self.assertEqual(
[
TreeChange(CHANGE_RENAME, (b"a", F, blob2.id), (b"c", F, blob3.id)),
TreeChange.delete((b"b", F, blob1.id)),
],
self.detect_renames(tree3, tree4),
)
def test_content_rename_one_to_many(self):
blob1 = make_object(Blob, data=b"aa\nb\nc\nd\ne\n")
blob2 = make_object(Blob, data=b"ab\nb\nc\nd\ne\n") # 8/11 match
blob3 = make_object(Blob, data=b"aa\nb\nc\nd\nf\n") # 9/11 match
tree1 = self.commit_tree([(b"a", blob1)])
tree2 = self.commit_tree([(b"b", blob2), (b"c", blob3)])
self.assertEqual(
[
TreeChange(CHANGE_COPY, (b"a", F, blob1.id), (b"b", F, blob2.id)),
TreeChange(CHANGE_RENAME, (b"a", F, blob1.id), (b"c", F, blob3.id)),
],
self.detect_renames(tree1, tree2),
)
def test_content_rename_many_to_one(self):
blob1 = make_object(Blob, data=b"a\nb\nc\nd\n")
blob2 = make_object(Blob, data=b"a\nb\nc\ne\n")
blob3 = make_object(Blob, data=b"a\nb\nc\nf\n")
tree1 = self.commit_tree([(b"a", blob1), (b"b", blob2)])
tree2 = self.commit_tree([(b"c", blob3)])
self.assertEqual(
[
TreeChange(CHANGE_RENAME, (b"a", F, blob1.id), (b"c", F, blob3.id)),
TreeChange.delete((b"b", F, blob2.id)),
],
self.detect_renames(tree1, tree2),
)
def test_content_rename_many_to_many(self):
blob1 = make_object(Blob, data=b"a\nb\nc\nd\n")
blob2 = make_object(Blob, data=b"a\nb\nc\ne\n")
blob3 = make_object(Blob, data=b"a\nb\nc\nf\n")
blob4 = make_object(Blob, data=b"a\nb\nc\ng\n")
tree1 = self.commit_tree([(b"a", blob1), (b"b", blob2)])
tree2 = self.commit_tree([(b"c", blob3), (b"d", blob4)])
# TODO(dborowitz): Distribute renames rather than greedily choosing
# copies.
self.assertEqual(
[
TreeChange(CHANGE_RENAME, (b"a", F, blob1.id), (b"c", F, blob3.id)),
TreeChange(CHANGE_COPY, (b"a", F, blob1.id), (b"d", F, blob4.id)),
TreeChange.delete((b"b", F, blob2.id)),
],
self.detect_renames(tree1, tree2),
)
def test_content_rename_with_more_deletions(self):
blob1 = make_object(Blob, data=b"")
tree1 = self.commit_tree(
[(b"a", blob1), (b"b", blob1), (b"c", blob1), (b"d", blob1)]
)
tree2 = self.commit_tree([(b"e", blob1), (b"f", blob1), (b"g", blob1)])
self.maxDiff = None
self.assertEqual(
[
TreeChange(CHANGE_RENAME, (b"a", F, blob1.id), (b"e", F, blob1.id)),
TreeChange(CHANGE_RENAME, (b"b", F, blob1.id), (b"f", F, blob1.id)),
TreeChange(CHANGE_RENAME, (b"c", F, blob1.id), (b"g", F, blob1.id)),
TreeChange.delete((b"d", F, blob1.id)),
],
self.detect_renames(tree1, tree2),
)
def test_content_rename_gitlink(self):
blob1 = make_object(Blob, data=b"blob1")
blob2 = make_object(Blob, data=b"blob2")
link1 = b"1" * 40
link2 = b"2" * 40
tree1 = self.commit_tree([(b"a", blob1), (b"b", link1, 0o160000)])
tree2 = self.commit_tree([(b"c", blob2), (b"d", link2, 0o160000)])
self.assertEqual(
[
TreeChange.delete((b"a", 0o100644, blob1.id)),
TreeChange.delete((b"b", 0o160000, link1)),
TreeChange.add((b"c", 0o100644, blob2.id)),
TreeChange.add((b"d", 0o160000, link2)),
],
self.detect_renames(tree1, tree2),
)
def test_exact_rename_swap(self):
blob1 = make_object(Blob, data=b"1")
blob2 = make_object(Blob, data=b"2")
tree1 = self.commit_tree([(b"a", blob1), (b"b", blob2)])
tree2 = self.commit_tree([(b"a", blob2), (b"b", blob1)])
self.assertEqual(
[
TreeChange(CHANGE_MODIFY, (b"a", F, blob1.id), (b"a", F, blob2.id)),
TreeChange(CHANGE_MODIFY, (b"b", F, blob2.id), (b"b", F, blob1.id)),
],
self.detect_renames(tree1, tree2),
)
self.assertEqual(
[
TreeChange(CHANGE_RENAME, (b"a", F, blob1.id), (b"b", F, blob1.id)),
TreeChange(CHANGE_RENAME, (b"b", F, blob2.id), (b"a", F, blob2.id)),
],
self.detect_renames(tree1, tree2, rewrite_threshold=50),
)
def test_content_rename_swap(self):
blob1 = make_object(Blob, data=b"a\nb\nc\nd\n")
blob2 = make_object(Blob, data=b"e\nf\ng\nh\n")
blob3 = make_object(Blob, data=b"a\nb\nc\ne\n")
blob4 = make_object(Blob, data=b"e\nf\ng\ni\n")
tree1 = self.commit_tree([(b"a", blob1), (b"b", blob2)])
tree2 = self.commit_tree([(b"a", blob4), (b"b", blob3)])
self.assertEqual(
[
TreeChange(CHANGE_RENAME, (b"a", F, blob1.id), (b"b", F, blob3.id)),
TreeChange(CHANGE_RENAME, (b"b", F, blob2.id), (b"a", F, blob4.id)),
],
self.detect_renames(tree1, tree2, rewrite_threshold=60),
)
def test_rewrite_threshold(self):
blob1 = make_object(Blob, data=b"a\nb\nc\nd\n")
blob2 = make_object(Blob, data=b"a\nb\nc\ne\n")
blob3 = make_object(Blob, data=b"a\nb\nf\ng\n")
tree1 = self.commit_tree([(b"a", blob1)])
tree2 = self.commit_tree([(b"a", blob3), (b"b", blob2)])
no_renames = [
TreeChange(CHANGE_MODIFY, (b"a", F, blob1.id), (b"a", F, blob3.id)),
TreeChange(CHANGE_COPY, (b"a", F, blob1.id), (b"b", F, blob2.id)),
]
self.assertEqual(no_renames, self.detect_renames(tree1, tree2))
self.assertEqual(
no_renames, self.detect_renames(tree1, tree2, rewrite_threshold=40)
)
self.assertEqual(
[
TreeChange.add((b"a", F, blob3.id)),
TreeChange(CHANGE_RENAME, (b"a", F, blob1.id), (b"b", F, blob2.id)),
],
self.detect_renames(tree1, tree2, rewrite_threshold=80),
)
def test_find_copies_harder_exact(self):
blob = make_object(Blob, data=b"blob")
tree1 = self.commit_tree([(b"a", blob)])
tree2 = self.commit_tree([(b"a", blob), (b"b", blob)])
self.assertEqual(
[TreeChange.add((b"b", F, blob.id))],
self.detect_renames(tree1, tree2),
)
self.assertEqual(
[TreeChange(CHANGE_COPY, (b"a", F, blob.id), (b"b", F, blob.id))],
self.detect_renames(tree1, tree2, find_copies_harder=True),
)
def test_find_copies_harder_content(self):
blob1 = make_object(Blob, data=b"a\nb\nc\nd\n")
blob2 = make_object(Blob, data=b"a\nb\nc\ne\n")
tree1 = self.commit_tree([(b"a", blob1)])
tree2 = self.commit_tree([(b"a", blob1), (b"b", blob2)])
self.assertEqual(
[TreeChange.add((b"b", F, blob2.id))],
self.detect_renames(tree1, tree2),
)
self.assertEqual(
[TreeChange(CHANGE_COPY, (b"a", F, blob1.id), (b"b", F, blob2.id))],
self.detect_renames(tree1, tree2, find_copies_harder=True),
)
def test_find_copies_harder_with_rewrites(self):
blob_a1 = make_object(Blob, data=b"a\nb\nc\nd\n")
blob_a2 = make_object(Blob, data=b"f\ng\nh\ni\n")
blob_b2 = make_object(Blob, data=b"a\nb\nc\ne\n")
tree1 = self.commit_tree([(b"a", blob_a1)])
tree2 = self.commit_tree([(b"a", blob_a2), (b"b", blob_b2)])
self.assertEqual(
[
TreeChange(CHANGE_MODIFY, (b"a", F, blob_a1.id), (b"a", F, blob_a2.id)),
TreeChange(CHANGE_COPY, (b"a", F, blob_a1.id), (b"b", F, blob_b2.id)),
],
self.detect_renames(tree1, tree2, find_copies_harder=True),
)
self.assertEqual(
[
TreeChange.add((b"a", F, blob_a2.id)),
TreeChange(CHANGE_RENAME, (b"a", F, blob_a1.id), (b"b", F, blob_b2.id)),
],
self.detect_renames(
tree1, tree2, rewrite_threshold=50, find_copies_harder=True
),
)
def test_reuse_detector(self):
blob = make_object(Blob, data=b"blob")
tree1 = self.commit_tree([(b"a", blob)])
tree2 = self.commit_tree([(b"b", blob)])
detector = RenameDetector(self.store)
changes = [TreeChange(CHANGE_RENAME, (b"a", F, blob.id), (b"b", F, blob.id))]
self.assertEqual(changes, detector.changes_with_renames(tree1.id, tree2.id))
self.assertEqual(changes, detector.changes_with_renames(tree1.id, tree2.id))
def test_want_unchanged(self):
blob_a1 = make_object(Blob, data=b"a\nb\nc\nd\n")
blob_b = make_object(Blob, data=b"b")
blob_c2 = make_object(Blob, data=b"a\nb\nc\ne\n")
tree1 = self.commit_tree([(b"a", blob_a1), (b"b", blob_b)])
tree2 = self.commit_tree([(b"c", blob_c2), (b"b", blob_b)])
self.assertEqual(
[TreeChange(CHANGE_RENAME, (b"a", F, blob_a1.id), (b"c", F, blob_c2.id))],
self.detect_renames(tree1, tree2),
)
self.assertEqual(
[
TreeChange(CHANGE_RENAME, (b"a", F, blob_a1.id), (b"c", F, blob_c2.id)),
TreeChange(
CHANGE_UNCHANGED,
(b"b", F, blob_b.id),
(b"b", F, blob_b.id),
),
],
self.detect_renames(tree1, tree2, want_unchanged=True),
)