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import ast from pyflakes import checker from pyflakes.test.harness import TestCase class TypeableVisitorTests(TestCase): """ Tests of L{_TypeableVisitor} """ @staticmethod def _run_visitor(s): """ Run L{_TypeableVisitor} on the parsed source and return the visitor. """ tree = ast.parse(s) visitor = checker._TypeableVisitor() visitor.visit(tree) return visitor def test_node_types(self): """ Test that the typeable node types are collected """ visitor = self._run_visitor( """\ x = 1 # assignment for x in range(1): pass # for loop def f(): pass # function definition with a as b: pass # with statement """ ) self.assertEqual(visitor.typeable_lines, [1, 2, 3, 4]) self.assertIsInstance(visitor.typeable_nodes[1], ast.Assign) self.assertIsInstance(visitor.typeable_nodes[2], ast.For) self.assertIsInstance(visitor.typeable_nodes[3], ast.FunctionDef) self.assertIsInstance(visitor.typeable_nodes[4], ast.With) def test_visitor_recurses(self): """ Test the common pitfall of missing `generic_visit` in visitors by ensuring that nested nodes are reported """ visitor = self._run_visitor( """\ def f(): x = 1 """ ) self.assertEqual(visitor.typeable_lines, [1, 2]) self.assertIsInstance(visitor.typeable_nodes[1], ast.FunctionDef) self.assertIsInstance(visitor.typeable_nodes[2], ast.Assign) def test_py35_node_types(self): """ Test that the PEP 492 node types are collected """ visitor = self._run_visitor( """\ async def f(): # async def async for x in y: pass # async for async with a as b: pass # async with """ ) self.assertEqual(visitor.typeable_lines, [1, 2, 3]) self.assertIsInstance(visitor.typeable_nodes[1], ast.AsyncFunctionDef) self.assertIsInstance(visitor.typeable_nodes[2], ast.AsyncFor) self.assertIsInstance(visitor.typeable_nodes[3], ast.AsyncWith) def test_last_node_wins(self): """ Test that when two typeable nodes are present on a line, the last typeable one wins. """ visitor = self._run_visitor('x = 1; y = 1') # detected both assignable nodes self.assertEqual(visitor.typeable_lines, [1, 1]) # but the assignment to `y` wins self.assertEqual(visitor.typeable_nodes[1].targets[0].id, 'y') class CollectTypeCommentsTests(TestCase): """ Tests of L{_collect_type_comments} """ @staticmethod def _collect(s): """ Run L{_collect_type_comments} on the parsed source and return the mapping from nodes to comments. The return value is converted to a set: {(node_type, tuple of comments), ...} """ tree = ast.parse(s) tokens = checker.make_tokens(s) ret = checker._collect_type_comments(tree, tokens) return {(type(k), tuple(s for _, s in v)) for k, v in ret.items()} def test_bytes(self): """ Test that the function works for binary source """ ret = self._collect(b'x = 1 # type: int') self.assertSetEqual(ret, {(ast.Assign, ('# type: int',))}) def test_text(self): """ Test that the function works for text source """ ret = self._collect('x = 1 # type: int') self.assertEqual(ret, {(ast.Assign, ('# type: int',))}) def test_non_type_comment_ignored(self): """ Test that a non-type comment is ignored """ ret = self._collect('x = 1 # noqa') self.assertSetEqual(ret, set()) def test_type_comment_before_typeable(self): """ Test that a type comment before something typeable is ignored. """ ret = self._collect('# type: int\nx = 1') self.assertSetEqual(ret, set()) def test_type_ignore_comment_ignored(self): """ Test that `# type: ignore` comments are not collected. """ ret = self._collect('x = 1 # type: ignore') self.assertSetEqual(ret, set()) def test_type_ignore_with_other_things_ignored(self): """ Test that `# type: ignore` comments with more content are also not collected. """ ret = self._collect('x = 1 # type: ignore # noqa') self.assertSetEqual(ret, set()) ret = self._collect('x = 1 #type:ignore#noqa') self.assertSetEqual(ret, set()) def test_type_comment_with_extra_still_collected(self): ret = self._collect('x = 1 # type: int # noqa') self.assertSetEqual(ret, {(ast.Assign, ('# type: int # noqa',))}) def test_type_comment_without_whitespace(self): ret = self._collect('x = 1 #type:int') self.assertSetEqual(ret, {(ast.Assign, ('#type:int',))}) def test_type_comment_starts_with_word_ignore(self): ret = self._collect('x = 1 # type: ignore[T]') self.assertSetEqual(ret, set()) def test_last_node_wins(self): """ Test that when two typeable nodes are present on a line, the last typeable one wins. """ ret = self._collect('def f(): x = 1 # type: int') self.assertSetEqual(ret, {(ast.Assign, ('# type: int',))}) def test_function_def_assigned_comments(self): """ Test that type comments for function arguments are all attributed to the function definition. """ ret = self._collect( """\ def f( a, # type: int b, # type: str ): # type: (...) -> None pass """ ) expected = {( ast.FunctionDef, ('# type: int', '# type: str', '# type: (...) -> None'), )} self.assertSetEqual(ret, expected)