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- # test_walk.py -- Tests for commit walking functionality.
- # 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
- # <http://www.gnu.org/licenses/> for a copy of the GNU General Public License
- # and <http://www.apache.org/licenses/LICENSE-2.0> for a copy of the Apache
- # License, Version 2.0.
- #
- """Tests for commit walking functionality."""
- from itertools import permutations
- from unittest import expectedFailure
- from dulwich.diff_tree import CHANGE_MODIFY, CHANGE_RENAME, RenameDetector, TreeChange
- from dulwich.errors import MissingCommitError
- from dulwich.object_store import MemoryObjectStore
- from dulwich.objects import Blob, Commit
- from dulwich.tests.utils import F, build_commit_graph, make_object, make_tag
- from dulwich.walk import ORDER_TOPO, WalkEntry, Walker, _topo_reorder
- from . import TestCase
- class TestWalkEntry:
- def __init__(self, commit, changes) -> None:
- self.commit = commit
- self.changes = changes
- def __repr__(self) -> str:
- return f"<TestWalkEntry commit={self.commit.id}, changes={self.changes!r}>"
- def __eq__(self, other):
- if not isinstance(other, WalkEntry) or self.commit != other.commit:
- return False
- if self.changes is None:
- return True
- return self.changes == other.changes()
- class WalkerTest(TestCase):
- def setUp(self):
- super().setUp()
- self.store = MemoryObjectStore()
- def make_commits(self, commit_spec, **kwargs):
- times = kwargs.pop("times", [])
- attrs = kwargs.pop("attrs", {})
- for i, t in enumerate(times):
- attrs.setdefault(i + 1, {})["commit_time"] = t
- return build_commit_graph(self.store, commit_spec, attrs=attrs, **kwargs)
- def make_linear_commits(self, num_commits, **kwargs):
- commit_spec = []
- for i in range(1, num_commits + 1):
- c = [i]
- if i > 1:
- c.append(i - 1)
- commit_spec.append(c)
- return self.make_commits(commit_spec, **kwargs)
- def assertWalkYields(self, expected, *args, **kwargs):
- walker = Walker(self.store, *args, **kwargs)
- expected = list(expected)
- for i, entry in enumerate(expected):
- if isinstance(entry, Commit):
- expected[i] = TestWalkEntry(entry, None)
- actual = list(walker)
- self.assertEqual(expected, actual)
- def test_tag(self):
- c1, c2, c3 = self.make_linear_commits(3)
- t2 = make_tag(target=c2)
- self.store.add_object(t2)
- self.assertWalkYields([c2, c1], [t2.id])
- def test_linear(self):
- c1, c2, c3 = self.make_linear_commits(3)
- self.assertWalkYields([c1], [c1.id])
- self.assertWalkYields([c2, c1], [c2.id])
- self.assertWalkYields([c3, c2, c1], [c3.id])
- self.assertWalkYields([c3, c2, c1], [c3.id, c1.id])
- self.assertWalkYields([c3, c2], [c3.id], exclude=[c1.id])
- self.assertWalkYields([c3, c2], [c3.id, c1.id], exclude=[c1.id])
- self.assertWalkYields([c3], [c3.id, c1.id], exclude=[c2.id])
- def test_missing(self):
- cs = list(reversed(self.make_linear_commits(20)))
- self.assertWalkYields(cs, [cs[0].id])
- # Exactly how close we can get to a missing commit depends on our
- # implementation (in particular the choice of _MAX_EXTRA_COMMITS), but
- # we should at least be able to walk some history in a broken repo.
- del self.store[cs[-1].id]
- for i in range(1, 11):
- self.assertWalkYields(cs[:i], [cs[0].id], max_entries=i)
- self.assertRaises(MissingCommitError, Walker, self.store, [cs[-1].id])
- def test_branch(self):
- c1, x2, x3, y4 = self.make_commits([[1], [2, 1], [3, 2], [4, 1]])
- self.assertWalkYields([x3, x2, c1], [x3.id])
- self.assertWalkYields([y4, c1], [y4.id])
- self.assertWalkYields([y4, x2, c1], [y4.id, x2.id])
- self.assertWalkYields([y4, x2], [y4.id, x2.id], exclude=[c1.id])
- self.assertWalkYields([y4, x3], [y4.id, x3.id], exclude=[x2.id])
- self.assertWalkYields([y4], [y4.id], exclude=[x3.id])
- self.assertWalkYields([x3, x2], [x3.id], exclude=[y4.id])
- def test_merge(self):
- c1, c2, c3, c4 = self.make_commits([[1], [2, 1], [3, 1], [4, 2, 3]])
- self.assertWalkYields([c4, c3, c2, c1], [c4.id])
- self.assertWalkYields([c3, c1], [c3.id])
- self.assertWalkYields([c2, c1], [c2.id])
- self.assertWalkYields([c4, c3], [c4.id], exclude=[c2.id])
- self.assertWalkYields([c4, c2], [c4.id], exclude=[c3.id])
- def test_merge_of_new_branch_from_old_base(self):
- # The commit on the branch was made at a time after any of the
- # commits on master, but the branch was from an older commit.
- # See also test_merge_of_old_branch
- self.maxDiff = None
- c1, c2, c3, c4, c5 = self.make_commits(
- [[1], [2, 1], [3, 2], [4, 1], [5, 3, 4]],
- times=[1, 2, 3, 4, 5],
- )
- self.assertWalkYields([c5, c4, c3, c2, c1], [c5.id])
- self.assertWalkYields([c3, c2, c1], [c3.id])
- self.assertWalkYields([c2, c1], [c2.id])
- @expectedFailure
- def test_merge_of_old_branch(self):
- # The commit on the branch was made at a time before any of
- # the commits on master, but it was merged into master after
- # those commits.
- # See also test_merge_of_new_branch_from_old_base
- self.maxDiff = None
- c1, c2, c3, c4, c5 = self.make_commits(
- [[1], [2, 1], [3, 2], [4, 1], [5, 3, 4]],
- times=[1, 3, 4, 2, 5],
- )
- self.assertWalkYields([c5, c4, c3, c2, c1], [c5.id])
- self.assertWalkYields([c3, c2, c1], [c3.id])
- self.assertWalkYields([c2, c1], [c2.id])
- def test_reverse(self):
- c1, c2, c3 = self.make_linear_commits(3)
- self.assertWalkYields([c1, c2, c3], [c3.id], reverse=True)
- def test_max_entries(self):
- c1, c2, c3 = self.make_linear_commits(3)
- self.assertWalkYields([c3, c2, c1], [c3.id], max_entries=3)
- self.assertWalkYields([c3, c2], [c3.id], max_entries=2)
- self.assertWalkYields([c3], [c3.id], max_entries=1)
- def test_reverse_after_max_entries(self):
- c1, c2, c3 = self.make_linear_commits(3)
- self.assertWalkYields([c1, c2, c3], [c3.id], max_entries=3, reverse=True)
- self.assertWalkYields([c2, c3], [c3.id], max_entries=2, reverse=True)
- self.assertWalkYields([c3], [c3.id], max_entries=1, reverse=True)
- def test_changes_one_parent(self):
- blob_a1 = make_object(Blob, data=b"a1")
- blob_a2 = make_object(Blob, data=b"a2")
- blob_b2 = make_object(Blob, data=b"b2")
- c1, c2 = self.make_linear_commits(
- 2,
- trees={
- 1: [(b"a", blob_a1)],
- 2: [(b"a", blob_a2), (b"b", blob_b2)],
- },
- )
- e1 = TestWalkEntry(c1, [TreeChange.add((b"a", F, blob_a1.id))])
- e2 = TestWalkEntry(
- c2,
- [
- TreeChange(CHANGE_MODIFY, (b"a", F, blob_a1.id), (b"a", F, blob_a2.id)),
- TreeChange.add((b"b", F, blob_b2.id)),
- ],
- )
- self.assertWalkYields([e2, e1], [c2.id])
- def test_changes_multiple_parents(self):
- blob_a1 = make_object(Blob, data=b"a1")
- blob_b2 = make_object(Blob, data=b"b2")
- blob_a3 = make_object(Blob, data=b"a3")
- c1, c2, c3 = self.make_commits(
- [[1], [2], [3, 1, 2]],
- trees={
- 1: [(b"a", blob_a1)],
- 2: [(b"b", blob_b2)],
- 3: [(b"a", blob_a3), (b"b", blob_b2)],
- },
- )
- # a is a modify/add conflict and b is not conflicted.
- changes = [
- [
- TreeChange(CHANGE_MODIFY, (b"a", F, blob_a1.id), (b"a", F, blob_a3.id)),
- TreeChange.add((b"a", F, blob_a3.id)),
- ]
- ]
- self.assertWalkYields(
- [TestWalkEntry(c3, changes)], [c3.id], exclude=[c1.id, c2.id]
- )
- def test_path_matches(self):
- walker = Walker(None, [], paths=[b"foo", b"bar", b"baz/quux"])
- self.assertTrue(walker._path_matches(b"foo"))
- self.assertTrue(walker._path_matches(b"foo/a"))
- self.assertTrue(walker._path_matches(b"foo/a/b"))
- self.assertTrue(walker._path_matches(b"bar"))
- self.assertTrue(walker._path_matches(b"baz/quux"))
- self.assertTrue(walker._path_matches(b"baz/quux/a"))
- self.assertFalse(walker._path_matches(None))
- self.assertFalse(walker._path_matches(b"oops"))
- self.assertFalse(walker._path_matches(b"fool"))
- self.assertFalse(walker._path_matches(b"baz"))
- self.assertFalse(walker._path_matches(b"baz/quu"))
- def test_paths(self):
- blob_a1 = make_object(Blob, data=b"a1")
- blob_b2 = make_object(Blob, data=b"b2")
- blob_a3 = make_object(Blob, data=b"a3")
- blob_b3 = make_object(Blob, data=b"b3")
- c1, c2, c3 = self.make_linear_commits(
- 3,
- trees={
- 1: [(b"a", blob_a1)],
- 2: [(b"a", blob_a1), (b"x/b", blob_b2)],
- 3: [(b"a", blob_a3), (b"x/b", blob_b3)],
- },
- )
- self.assertWalkYields([c3, c2, c1], [c3.id])
- self.assertWalkYields([c3, c1], [c3.id], paths=[b"a"])
- self.assertWalkYields([c3, c2], [c3.id], paths=[b"x/b"])
- # All changes are included, not just for requested paths.
- changes = [
- TreeChange(CHANGE_MODIFY, (b"a", F, blob_a1.id), (b"a", F, blob_a3.id)),
- TreeChange(CHANGE_MODIFY, (b"x/b", F, blob_b2.id), (b"x/b", F, blob_b3.id)),
- ]
- self.assertWalkYields(
- [TestWalkEntry(c3, changes)], [c3.id], max_entries=1, paths=[b"a"]
- )
- def test_paths_subtree(self):
- blob_a = make_object(Blob, data=b"a")
- blob_b = make_object(Blob, data=b"b")
- c1, c2, c3 = self.make_linear_commits(
- 3,
- trees={
- 1: [(b"x/a", blob_a)],
- 2: [(b"b", blob_b), (b"x/a", blob_a)],
- 3: [(b"b", blob_b), (b"x/a", blob_a), (b"x/b", blob_b)],
- },
- )
- self.assertWalkYields([c2], [c3.id], paths=[b"b"])
- self.assertWalkYields([c3, c1], [c3.id], paths=[b"x"])
- def test_paths_max_entries(self):
- blob_a = make_object(Blob, data=b"a")
- blob_b = make_object(Blob, data=b"b")
- c1, c2 = self.make_linear_commits(
- 2, trees={1: [(b"a", blob_a)], 2: [(b"a", blob_a), (b"b", blob_b)]}
- )
- self.assertWalkYields([c2], [c2.id], paths=[b"b"], max_entries=1)
- self.assertWalkYields([c1], [c1.id], paths=[b"a"], max_entries=1)
- def test_paths_merge(self):
- blob_a1 = make_object(Blob, data=b"a1")
- blob_a2 = make_object(Blob, data=b"a2")
- blob_a3 = make_object(Blob, data=b"a3")
- x1, y2, m3, m4 = self.make_commits(
- [[1], [2], [3, 1, 2], [4, 1, 2]],
- trees={
- 1: [(b"a", blob_a1)],
- 2: [(b"a", blob_a2)],
- 3: [(b"a", blob_a3)],
- 4: [(b"a", blob_a1)],
- },
- ) # Non-conflicting
- self.assertWalkYields([m3, y2, x1], [m3.id], paths=[b"a"])
- self.assertWalkYields([y2, x1], [m4.id], paths=[b"a"])
- def test_changes_with_renames(self):
- blob = make_object(Blob, data=b"blob")
- c1, c2 = self.make_linear_commits(
- 2, trees={1: [(b"a", blob)], 2: [(b"b", blob)]}
- )
- entry_a = (b"a", F, blob.id)
- entry_b = (b"b", F, blob.id)
- changes_without_renames = [
- TreeChange.delete(entry_a),
- TreeChange.add(entry_b),
- ]
- changes_with_renames = [TreeChange(CHANGE_RENAME, entry_a, entry_b)]
- self.assertWalkYields(
- [TestWalkEntry(c2, changes_without_renames)],
- [c2.id],
- max_entries=1,
- )
- detector = RenameDetector(self.store)
- self.assertWalkYields(
- [TestWalkEntry(c2, changes_with_renames)],
- [c2.id],
- max_entries=1,
- rename_detector=detector,
- )
- def test_follow_rename(self):
- blob = make_object(Blob, data=b"blob")
- names = [b"a", b"a", b"b", b"b", b"c", b"c"]
- trees = {i + 1: [(n, blob, F)] for i, n in enumerate(names)}
- c1, c2, c3, c4, c5, c6 = self.make_linear_commits(6, trees=trees)
- self.assertWalkYields([c5], [c6.id], paths=[b"c"])
- def e(n):
- return (n, F, blob.id)
- self.assertWalkYields(
- [
- TestWalkEntry(c5, [TreeChange(CHANGE_RENAME, e(b"b"), e(b"c"))]),
- TestWalkEntry(c3, [TreeChange(CHANGE_RENAME, e(b"a"), e(b"b"))]),
- TestWalkEntry(c1, [TreeChange.add(e(b"a"))]),
- ],
- [c6.id],
- paths=[b"c"],
- follow=True,
- )
- def test_follow_rename_remove_path(self):
- blob = make_object(Blob, data=b"blob")
- _, _, _, c4, c5, c6 = self.make_linear_commits(
- 6,
- trees={
- 1: [(b"a", blob), (b"c", blob)],
- 2: [],
- 3: [],
- 4: [(b"b", blob)],
- 5: [(b"a", blob)],
- 6: [(b"c", blob)],
- },
- )
- def e(n):
- return (n, F, blob.id)
- # Once the path changes to b, we aren't interested in a or c anymore.
- self.assertWalkYields(
- [
- TestWalkEntry(c6, [TreeChange(CHANGE_RENAME, e(b"a"), e(b"c"))]),
- TestWalkEntry(c5, [TreeChange(CHANGE_RENAME, e(b"b"), e(b"a"))]),
- TestWalkEntry(c4, [TreeChange.add(e(b"b"))]),
- ],
- [c6.id],
- paths=[b"c"],
- follow=True,
- )
- def test_since(self):
- c1, c2, c3 = self.make_linear_commits(3)
- self.assertWalkYields([c3, c2, c1], [c3.id], since=-1)
- self.assertWalkYields([c3, c2, c1], [c3.id], since=0)
- self.assertWalkYields([c3, c2], [c3.id], since=1)
- self.assertWalkYields([c3, c2], [c3.id], since=99)
- self.assertWalkYields([c3, c2], [c3.id], since=100)
- self.assertWalkYields([c3], [c3.id], since=101)
- self.assertWalkYields([c3], [c3.id], since=199)
- self.assertWalkYields([c3], [c3.id], since=200)
- self.assertWalkYields([], [c3.id], since=201)
- self.assertWalkYields([], [c3.id], since=300)
- def test_until(self):
- c1, c2, c3 = self.make_linear_commits(3)
- self.assertWalkYields([], [c3.id], until=-1)
- self.assertWalkYields([c1], [c3.id], until=0)
- self.assertWalkYields([c1], [c3.id], until=1)
- self.assertWalkYields([c1], [c3.id], until=99)
- self.assertWalkYields([c2, c1], [c3.id], until=100)
- self.assertWalkYields([c2, c1], [c3.id], until=101)
- self.assertWalkYields([c2, c1], [c3.id], until=199)
- self.assertWalkYields([c3, c2, c1], [c3.id], until=200)
- self.assertWalkYields([c3, c2, c1], [c3.id], until=201)
- self.assertWalkYields([c3, c2, c1], [c3.id], until=300)
- def test_since_until(self):
- c1, c2, c3 = self.make_linear_commits(3)
- self.assertWalkYields([], [c3.id], since=100, until=99)
- self.assertWalkYields([c3, c2, c1], [c3.id], since=-1, until=201)
- self.assertWalkYields([c2], [c3.id], since=100, until=100)
- self.assertWalkYields([c2], [c3.id], since=50, until=150)
- def test_since_over_scan(self):
- commits = self.make_linear_commits(11, times=[9, 0, 1, 2, 3, 4, 5, 8, 6, 7, 9])
- c8, _, c10, c11 = commits[-4:]
- del self.store[commits[0].id]
- # c9 is older than we want to walk, but is out of order with its
- # parent, so we need to walk past it to get to c8.
- # c1 would also match, but we've deleted it, and it should get pruned
- # even with over-scanning.
- self.assertWalkYields([c11, c10, c8], [c11.id], since=7)
- def assertTopoOrderEqual(self, expected_commits, commits):
- entries = [TestWalkEntry(c, None) for c in commits]
- actual_ids = [e.commit.id for e in list(_topo_reorder(entries))]
- self.assertEqual([c.id for c in expected_commits], actual_ids)
- def test_topo_reorder_linear(self):
- commits = self.make_linear_commits(5)
- commits.reverse()
- for perm in permutations(commits):
- self.assertTopoOrderEqual(commits, perm)
- def test_topo_reorder_multiple_parents(self):
- c1, c2, c3 = self.make_commits([[1], [2], [3, 1, 2]])
- # Already sorted, so totally FIFO.
- self.assertTopoOrderEqual([c3, c2, c1], [c3, c2, c1])
- self.assertTopoOrderEqual([c3, c1, c2], [c3, c1, c2])
- # c3 causes one parent to be yielded.
- self.assertTopoOrderEqual([c3, c2, c1], [c2, c3, c1])
- self.assertTopoOrderEqual([c3, c1, c2], [c1, c3, c2])
- # c3 causes both parents to be yielded.
- self.assertTopoOrderEqual([c3, c2, c1], [c1, c2, c3])
- self.assertTopoOrderEqual([c3, c2, c1], [c2, c1, c3])
- def test_topo_reorder_multiple_children(self):
- c1, c2, c3 = self.make_commits([[1], [2, 1], [3, 1]])
- # c2 and c3 are FIFO but c1 moves to the end.
- self.assertTopoOrderEqual([c3, c2, c1], [c3, c2, c1])
- self.assertTopoOrderEqual([c3, c2, c1], [c3, c1, c2])
- self.assertTopoOrderEqual([c3, c2, c1], [c1, c3, c2])
- self.assertTopoOrderEqual([c2, c3, c1], [c2, c3, c1])
- self.assertTopoOrderEqual([c2, c3, c1], [c2, c1, c3])
- self.assertTopoOrderEqual([c2, c3, c1], [c1, c2, c3])
- def test_out_of_order_children(self):
- c1, c2, c3, c4, c5 = self.make_commits(
- [[1], [2, 1], [3, 2], [4, 1], [5, 3, 4]], times=[2, 1, 3, 4, 5]
- )
- self.assertWalkYields([c5, c4, c3, c1, c2], [c5.id])
- self.assertWalkYields([c5, c4, c3, c2, c1], [c5.id], order=ORDER_TOPO)
- def test_out_of_order_with_exclude(self):
- # Create the following graph:
- # c1-------x2---m6
- # \ /
- # \-y3--y4-/--y5
- # Due to skew, y5 is the oldest commit.
- c1, x2, y3, y4, y5, m6 = self.make_commits(
- [[1], [2, 1], [3, 1], [4, 3], [5, 4], [6, 2, 4]],
- times=[2, 3, 4, 5, 1, 6],
- )
- self.assertWalkYields([m6, y4, y3, x2, c1], [m6.id])
- # Ensure that c1..y4 get excluded even though they're popped from the
- # priority queue long before y5.
- self.assertWalkYields([m6, x2], [m6.id], exclude=[y5.id])
- def test_empty_walk(self):
- c1, c2, c3 = self.make_linear_commits(3)
- self.assertWalkYields([], [c3.id], exclude=[c3.id])
- class WalkEntryTest(TestCase):
- def setUp(self):
- super().setUp()
- self.store = MemoryObjectStore()
- def make_commits(self, commit_spec, **kwargs):
- times = kwargs.pop("times", [])
- attrs = kwargs.pop("attrs", {})
- for i, t in enumerate(times):
- attrs.setdefault(i + 1, {})["commit_time"] = t
- return build_commit_graph(self.store, commit_spec, attrs=attrs, **kwargs)
- def make_linear_commits(self, num_commits, **kwargs):
- commit_spec = []
- for i in range(1, num_commits + 1):
- c = [i]
- if i > 1:
- c.append(i - 1)
- commit_spec.append(c)
- return self.make_commits(commit_spec, **kwargs)
- def test_all_changes(self):
- # Construct a commit with 2 files in different subdirectories.
- blob_a = make_object(Blob, data=b"a")
- blob_b = make_object(Blob, data=b"b")
- c1 = self.make_linear_commits(
- 1,
- trees={1: [(b"x/a", blob_a), (b"y/b", blob_b)]},
- )[0]
- # Get the WalkEntry for the commit.
- walker = Walker(self.store, c1.id)
- walker_entry = next(iter(walker))
- changes = walker_entry.changes()
- # Compare the changes with the expected values.
- entry_a = (b"x/a", F, blob_a.id)
- entry_b = (b"y/b", F, blob_b.id)
- self.assertEqual(
- [TreeChange.add(entry_a), TreeChange.add(entry_b)],
- changes,
- )
- def test_all_with_merge(self):
- blob_a = make_object(Blob, data=b"a")
- blob_a2 = make_object(Blob, data=b"a2")
- blob_b = make_object(Blob, data=b"b")
- blob_b2 = make_object(Blob, data=b"b2")
- x1, y2, m3 = self.make_commits(
- [[1], [2], [3, 1, 2]],
- trees={
- 1: [(b"x/a", blob_a)],
- 2: [(b"y/b", blob_b)],
- 3: [(b"x/a", blob_a2), (b"y/b", blob_b2)],
- },
- )
- # Get the WalkEntry for the merge commit.
- walker = Walker(self.store, m3.id)
- entries = list(walker)
- walker_entry = entries[0]
- self.assertEqual(walker_entry.commit.id, m3.id)
- changes = walker_entry.changes()
- self.assertEqual(2, len(changes))
- entry_a = (b"x/a", F, blob_a.id)
- entry_a2 = (b"x/a", F, blob_a2.id)
- entry_b = (b"y/b", F, blob_b.id)
- entry_b2 = (b"y/b", F, blob_b2.id)
- self.assertEqual(
- [
- [
- TreeChange(CHANGE_MODIFY, entry_a, entry_a2),
- TreeChange.add(entry_a2),
- ],
- [
- TreeChange.add(entry_b2),
- TreeChange(CHANGE_MODIFY, entry_b, entry_b2),
- ],
- ],
- changes,
- )
- def test_filter_changes(self):
- # Construct a commit with 2 files in different subdirectories.
- blob_a = make_object(Blob, data=b"a")
- blob_b = make_object(Blob, data=b"b")
- c1 = self.make_linear_commits(
- 1,
- trees={1: [(b"x/a", blob_a), (b"y/b", blob_b)]},
- )[0]
- # Get the WalkEntry for the commit.
- walker = Walker(self.store, c1.id)
- walker_entry = next(iter(walker))
- changes = walker_entry.changes(path_prefix=b"x")
- # Compare the changes with the expected values.
- entry_a = (b"a", F, blob_a.id)
- self.assertEqual(
- [TreeChange.add(entry_a)],
- changes,
- )
- def test_filter_with_merge(self):
- blob_a = make_object(Blob, data=b"a")
- blob_a2 = make_object(Blob, data=b"a2")
- blob_b = make_object(Blob, data=b"b")
- blob_b2 = make_object(Blob, data=b"b2")
- x1, y2, m3 = self.make_commits(
- [[1], [2], [3, 1, 2]],
- trees={
- 1: [(b"x/a", blob_a)],
- 2: [(b"y/b", blob_b)],
- 3: [(b"x/a", blob_a2), (b"y/b", blob_b2)],
- },
- )
- # Get the WalkEntry for the merge commit.
- walker = Walker(self.store, m3.id)
- entries = list(walker)
- walker_entry = entries[0]
- self.assertEqual(walker_entry.commit.id, m3.id)
- changes = walker_entry.changes(b"x")
- self.assertEqual(1, len(changes))
- entry_a = (b"a", F, blob_a.id)
- entry_a2 = (b"a", F, blob_a2.id)
- self.assertEqual(
- [[TreeChange(CHANGE_MODIFY, entry_a, entry_a2)]],
- changes,
- )
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