# Owner(s): ["module: functorch"] """Adapted from https://github.com/arogozhnikov/einops/blob/230ac1526c1f42c9e1f7373912c7f8047496df11/tests/test_parsing.py. MIT License Copyright (c) 2018 Alex Rogozhnikov Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. """ from typing import Any, Callable, Dict from unittest import mock from functorch.einops._parsing import ( _ellipsis, AnonymousAxis, parse_pattern, ParsedExpression, validate_rearrange_expressions, ) from torch.testing._internal.common_utils import run_tests, TestCase mock_anonymous_axis_eq: Callable[[AnonymousAxis, object], bool] = ( lambda self, other: isinstance(other, AnonymousAxis) and self.value == other.value ) class TestAnonymousAxis(TestCase): def test_anonymous_axes(self) -> None: a, b = AnonymousAxis("2"), AnonymousAxis("2") self.assertNotEqual(a, b) with mock.patch.object(AnonymousAxis, "__eq__", mock_anonymous_axis_eq): c, d = AnonymousAxis("2"), AnonymousAxis("3") self.assertEqual(a, c) self.assertEqual(b, c) self.assertNotEqual(a, d) self.assertNotEqual(b, d) self.assertListEqual([a, 2, b], [c, 2, c]) class TestParsedExpression(TestCase): def test_elementary_axis_name(self) -> None: for name in [ "a", "b", "h", "dx", "h1", "zz", "i9123", "somelongname", "Alex", "camelCase", "u_n_d_e_r_score", "unreasonablyLongAxisName", ]: self.assertTrue(ParsedExpression.check_axis_name(name)) for name in [ "", "2b", "12", "_startWithUnderscore", "endWithUnderscore_", "_", "...", _ellipsis, ]: self.assertFalse(ParsedExpression.check_axis_name(name)) def test_invalid_expressions(self) -> None: # double ellipsis should raise an error ParsedExpression("... a b c d") with self.assertRaises(ValueError): ParsedExpression("... a b c d ...") with self.assertRaises(ValueError): ParsedExpression("... a b c (d ...)") with self.assertRaises(ValueError): ParsedExpression("(... a) b c (d ...)") # double/missing/enclosed parenthesis ParsedExpression("(a) b c (d ...)") with self.assertRaises(ValueError): ParsedExpression("(a)) b c (d ...)") with self.assertRaises(ValueError): ParsedExpression("(a b c (d ...)") with self.assertRaises(ValueError): ParsedExpression("(a) (()) b c (d ...)") with self.assertRaises(ValueError): ParsedExpression("(a) ((b c) (d ...))") # invalid identifiers ParsedExpression("camelCase under_scored cApiTaLs \u00DF ...") with self.assertRaises(ValueError): ParsedExpression("1a") with self.assertRaises(ValueError): ParsedExpression("_pre") with self.assertRaises(ValueError): ParsedExpression("...pre") with self.assertRaises(ValueError): ParsedExpression("pre...") @mock.patch.object(AnonymousAxis, "__eq__", mock_anonymous_axis_eq) def test_parse_expression(self, *mocks: mock.MagicMock) -> None: parsed = ParsedExpression("a1 b1 c1 d1") self.assertSetEqual(parsed.identifiers, {"a1", "b1", "c1", "d1"}) self.assertListEqual(parsed.composition, [["a1"], ["b1"], ["c1"], ["d1"]]) self.assertFalse(parsed.has_non_unitary_anonymous_axes) self.assertFalse(parsed.has_ellipsis) parsed = ParsedExpression("() () () ()") self.assertSetEqual(parsed.identifiers, set()) self.assertListEqual(parsed.composition, [[], [], [], []]) self.assertFalse(parsed.has_non_unitary_anonymous_axes) self.assertFalse(parsed.has_ellipsis) parsed = ParsedExpression("1 1 1 ()") self.assertSetEqual(parsed.identifiers, set()) self.assertListEqual(parsed.composition, [[], [], [], []]) self.assertFalse(parsed.has_non_unitary_anonymous_axes) self.assertFalse(parsed.has_ellipsis) parsed = ParsedExpression("5 (3 4)") self.assertEqual(len(parsed.identifiers), 3) self.assertSetEqual( { i.value if isinstance(i, AnonymousAxis) else i for i in parsed.identifiers }, {3, 4, 5}, ) self.assertListEqual( parsed.composition, [[AnonymousAxis("5")], [AnonymousAxis("3"), AnonymousAxis("4")]], ) self.assertTrue(parsed.has_non_unitary_anonymous_axes) self.assertFalse(parsed.has_ellipsis) parsed = ParsedExpression("5 1 (1 4) 1") self.assertEqual(len(parsed.identifiers), 2) self.assertSetEqual( { i.value if isinstance(i, AnonymousAxis) else i for i in parsed.identifiers }, {4, 5}, ) self.assertListEqual( parsed.composition, [[AnonymousAxis("5")], [], [AnonymousAxis("4")], []] ) parsed = ParsedExpression("name1 ... a1 12 (name2 14)") self.assertEqual(len(parsed.identifiers), 6) self.assertEqual( len(parsed.identifiers - {"name1", _ellipsis, "a1", "name2"}), 2 ) self.assertListEqual( parsed.composition, [ ["name1"], _ellipsis, ["a1"], [AnonymousAxis("12")], ["name2", AnonymousAxis("14")], ], ) self.assertTrue(parsed.has_non_unitary_anonymous_axes) self.assertTrue(parsed.has_ellipsis) self.assertFalse(parsed.has_ellipsis_parenthesized) parsed = ParsedExpression("(name1 ... a1 12) name2 14") self.assertEqual(len(parsed.identifiers), 6) self.assertEqual( len(parsed.identifiers - {"name1", _ellipsis, "a1", "name2"}), 2 ) self.assertListEqual( parsed.composition, [ ["name1", _ellipsis, "a1", AnonymousAxis("12")], ["name2"], [AnonymousAxis("14")], ], ) self.assertTrue(parsed.has_non_unitary_anonymous_axes) self.assertTrue(parsed.has_ellipsis) self.assertTrue(parsed.has_ellipsis_parenthesized) class TestParsingUtils(TestCase): def test_parse_pattern_number_of_arrows(self) -> None: axes_lengths: Dict[str, int] = {} too_many_arrows_pattern = "a -> b -> c -> d" with self.assertRaises(ValueError): parse_pattern(too_many_arrows_pattern, axes_lengths) too_few_arrows_pattern = "a" with self.assertRaises(ValueError): parse_pattern(too_few_arrows_pattern, axes_lengths) just_right_arrows = "a -> a" parse_pattern(just_right_arrows, axes_lengths) def test_ellipsis_invalid_identifier(self) -> None: axes_lengths: Dict[str, int] = {"a": 1, _ellipsis: 2} pattern = f"a {_ellipsis} -> {_ellipsis} a" with self.assertRaises(ValueError): parse_pattern(pattern, axes_lengths) def test_ellipsis_matching(self) -> None: axes_lengths: Dict[str, int] = {} pattern = "a -> a ..." with self.assertRaises(ValueError): parse_pattern(pattern, axes_lengths) # raising an error on this pattern is handled by the rearrange expression validation pattern = "a ... -> a" parse_pattern(pattern, axes_lengths) pattern = "a ... -> ... a" parse_pattern(pattern, axes_lengths) def test_left_parenthesized_ellipsis(self) -> None: axes_lengths: Dict[str, int] = {} pattern = "(...) -> ..." with self.assertRaises(ValueError): parse_pattern(pattern, axes_lengths) class MaliciousRepr: def __repr__(self) -> str: return "print('hello world!')" class TestValidateRearrangeExpressions(TestCase): def test_validate_axes_lengths_are_integers(self) -> None: axes_lengths: Dict[str, Any] = {"a": 1, "b": 2, "c": 3} pattern = "a b c -> c b a" left, right = parse_pattern(pattern, axes_lengths) validate_rearrange_expressions(left, right, axes_lengths) axes_lengths = {"a": 1, "b": 2, "c": MaliciousRepr()} left, right = parse_pattern(pattern, axes_lengths) with self.assertRaises(TypeError): validate_rearrange_expressions(left, right, axes_lengths) def test_non_unitary_anonymous_axes_raises_error(self) -> None: axes_lengths: Dict[str, int] = {} left_non_unitary_axis = "a 2 -> 1 1 a" left, right = parse_pattern(left_non_unitary_axis, axes_lengths) with self.assertRaises(ValueError): validate_rearrange_expressions(left, right, axes_lengths) right_non_unitary_axis = "1 1 a -> a 2" left, right = parse_pattern(right_non_unitary_axis, axes_lengths) with self.assertRaises(ValueError): validate_rearrange_expressions(left, right, axes_lengths) def test_identifier_mismatch(self) -> None: axes_lengths: Dict[str, int] = {} mismatched_identifiers = "a -> a b" left, right = parse_pattern(mismatched_identifiers, axes_lengths) with self.assertRaises(ValueError): validate_rearrange_expressions(left, right, axes_lengths) mismatched_identifiers = "a b -> a" left, right = parse_pattern(mismatched_identifiers, axes_lengths) with self.assertRaises(ValueError): validate_rearrange_expressions(left, right, axes_lengths) def test_unexpected_axes_lengths(self) -> None: axes_lengths: Dict[str, int] = {"c": 2} pattern = "a b -> b a" left, right = parse_pattern(pattern, axes_lengths) with self.assertRaises(ValueError): validate_rearrange_expressions(left, right, axes_lengths) if __name__ == "__main__": run_tests()