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author | Jonathan de Jong <jonathan@automatia.nl> | 2021-07-13 12:52:58 +0200 |
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committer | GitHub <noreply@github.com> | 2021-07-13 11:52:58 +0100 |
commit | 93729719b8451493e1df9930feb9f02f14ea5cef (patch) | |
tree | 90f9608894f30f35c824427aa8b3657a41246bdd /tests/util/test_itertools.py | |
parent | [pyupgrade] `tests/` (#10347) (diff) | |
download | synapse-93729719b8451493e1df9930feb9f02f14ea5cef.tar.xz |
Use inline type hints in `tests/` (#10350)
This PR is tantamount to running: python3.8 -m com2ann -v 6 tests/ (com2ann requires python 3.8 to run)
Diffstat (limited to '')
-rw-r--r-- | tests/util/test_itertools.py | 18 |
1 files changed, 9 insertions, 9 deletions
diff --git a/tests/util/test_itertools.py b/tests/util/test_itertools.py index e712eb42ea..3c0ddd4f18 100644 --- a/tests/util/test_itertools.py +++ b/tests/util/test_itertools.py @@ -44,7 +44,7 @@ class ChunkSeqTests(TestCase): ) def test_empty_input(self): - parts = chunk_seq([], 5) # type: Iterable[Sequence] + parts: Iterable[Sequence] = chunk_seq([], 5) self.assertEqual( list(parts), @@ -56,13 +56,13 @@ class SortTopologically(TestCase): def test_empty(self): "Test that an empty graph works correctly" - graph = {} # type: Dict[int, List[int]] + graph: Dict[int, List[int]] = {} self.assertEqual(list(sorted_topologically([], graph)), []) def test_handle_empty_graph(self): "Test that a graph where a node doesn't have an entry is treated as empty" - graph = {} # type: Dict[int, List[int]] + graph: Dict[int, List[int]] = {} # For disconnected nodes the output is simply sorted. self.assertEqual(list(sorted_topologically([1, 2], graph)), [1, 2]) @@ -70,7 +70,7 @@ class SortTopologically(TestCase): def test_disconnected(self): "Test that a graph with no edges work" - graph = {1: [], 2: []} # type: Dict[int, List[int]] + graph: Dict[int, List[int]] = {1: [], 2: []} # For disconnected nodes the output is simply sorted. self.assertEqual(list(sorted_topologically([1, 2], graph)), [1, 2]) @@ -78,19 +78,19 @@ class SortTopologically(TestCase): def test_linear(self): "Test that a simple `4 -> 3 -> 2 -> 1` graph works" - graph = {1: [], 2: [1], 3: [2], 4: [3]} # type: Dict[int, List[int]] + graph: Dict[int, List[int]] = {1: [], 2: [1], 3: [2], 4: [3]} self.assertEqual(list(sorted_topologically([4, 3, 2, 1], graph)), [1, 2, 3, 4]) def test_subset(self): "Test that only sorting a subset of the graph works" - graph = {1: [], 2: [1], 3: [2], 4: [3]} # type: Dict[int, List[int]] + graph: Dict[int, List[int]] = {1: [], 2: [1], 3: [2], 4: [3]} self.assertEqual(list(sorted_topologically([4, 3], graph)), [3, 4]) def test_fork(self): "Test that a forked graph works" - graph = {1: [], 2: [1], 3: [1], 4: [2, 3]} # type: Dict[int, List[int]] + graph: Dict[int, List[int]] = {1: [], 2: [1], 3: [1], 4: [2, 3]} # Valid orderings are `[1, 3, 2, 4]` or `[1, 2, 3, 4]`, but we should # always get the same one. @@ -98,12 +98,12 @@ class SortTopologically(TestCase): def test_duplicates(self): "Test that a graph with duplicate edges work" - graph = {1: [], 2: [1, 1], 3: [2, 2], 4: [3]} # type: Dict[int, List[int]] + graph: Dict[int, List[int]] = {1: [], 2: [1, 1], 3: [2, 2], 4: [3]} self.assertEqual(list(sorted_topologically([4, 3, 2, 1], graph)), [1, 2, 3, 4]) def test_multiple_paths(self): "Test that a graph with multiple paths between two nodes work" - graph = {1: [], 2: [1], 3: [2], 4: [3, 2, 1]} # type: Dict[int, List[int]] + graph: Dict[int, List[int]] = {1: [], 2: [1], 3: [2], 4: [3, 2, 1]} self.assertEqual(list(sorted_topologically([4, 3, 2, 1], graph)), [1, 2, 3, 4]) |