| // Copyright (c) 2019, the Dart project authors. Please see the AUTHORS file |
| // for details. All rights reserved. Use of this source code is governed by a |
| // BSD-style license that can be found in the LICENSE file. |
| |
| import 'package:analyzer/dart/ast/ast.dart'; |
| import 'package:analyzer/dart/element/type.dart'; |
| import 'package:nnbd_migration/src/decorated_class_hierarchy.dart'; |
| import 'package:nnbd_migration/src/nullability_node.dart'; |
| import 'package:test/test.dart'; |
| import 'package:test_reflective_loader/test_reflective_loader.dart'; |
| |
| import 'migration_visitor_test_base.dart'; |
| |
| main() { |
| defineReflectiveSuite(() { |
| defineReflectiveTests(DecoratedClassHierarchyTest); |
| }); |
| } |
| |
| @reflectiveTest |
| class DecoratedClassHierarchyTest extends MigrationVisitorTestBase { |
| DecoratedClassHierarchy _hierarchy; |
| |
| @override |
| Future<CompilationUnit> analyze(String code) async { |
| var unit = await super.analyze(code); |
| _hierarchy = DecoratedClassHierarchy(variables, graph); |
| return unit; |
| } |
| |
| Future<void> test_asInstanceOf_complex() async { |
| await analyze(''' |
| class Base<T> {} |
| class Derived<U> extends Base<List<U>> {} |
| Derived<int> x; |
| '''); |
| var decoratedType = decoratedTypeAnnotation('Derived<int>'); |
| var asInstanceOfBase = |
| _hierarchy.asInstanceOf(decoratedType, findElement.class_('Base')); |
| _assertType(asInstanceOfBase.type, 'Base<List<int>>'); |
| expect(asInstanceOfBase.node, same(decoratedType.node)); |
| var listOfUType = decoratedTypeAnnotation('List<U>'); |
| expect(asInstanceOfBase.typeArguments[0].node, same(listOfUType.node)); |
| var substitution = asInstanceOfBase.typeArguments[0].typeArguments[0].node |
| as NullabilityNodeForSubstitution; |
| expect(substitution.innerNode, same(decoratedType.typeArguments[0].node)); |
| expect(substitution.outerNode, same(listOfUType.typeArguments[0].node)); |
| } |
| |
| Future<void> test_getDecoratedSupertype_complex() async { |
| await analyze(''' |
| class Base<T> {} |
| class Intermediate<U> extends Base<List<U>> {} |
| class Derived<V> extends Intermediate<Map<int, V>> {} |
| '''); |
| var decoratedSupertype = _hierarchy.getDecoratedSupertype( |
| findElement.class_('Derived'), findElement.class_('Base')); |
| var listRef = decoratedTypeAnnotation('List'); |
| var uRef = decoratedTypeAnnotation('U>>'); |
| var mapRef = decoratedTypeAnnotation('Map'); |
| var intRef = decoratedTypeAnnotation('int'); |
| var vRef = decoratedTypeAnnotation('V>>'); |
| _assertType(decoratedSupertype.type, 'Base<List<Map<int, V>>>'); |
| expect(decoratedSupertype.node, same(never)); |
| var baseArgs = decoratedSupertype.typeArguments; |
| expect(baseArgs, hasLength(1)); |
| _assertType(baseArgs[0].type, 'List<Map<int, V>>'); |
| expect(baseArgs[0].node, same(listRef.node)); |
| var listArgs = baseArgs[0].typeArguments; |
| expect(listArgs, hasLength(1)); |
| _assertType(listArgs[0].type, 'Map<int, V>'); |
| var mapNode = listArgs[0].node as NullabilityNodeForSubstitution; |
| expect(mapNode.innerNode, same(mapRef.node)); |
| expect(mapNode.outerNode, same(uRef.node)); |
| var mapArgs = listArgs[0].typeArguments; |
| expect(mapArgs, hasLength(2)); |
| _assertType(mapArgs[0].type, 'int'); |
| expect(mapArgs[0].node, same(intRef.node)); |
| _assertType(mapArgs[1].type, 'V'); |
| expect(mapArgs[1].node, same(vRef.node)); |
| } |
| |
| Future<void> test_getDecoratedSupertype_extends_simple() async { |
| await analyze(''' |
| class Base<T, U> {} |
| class Derived<V, W> extends Base<V, W> {} |
| '''); |
| var decoratedSupertype = _hierarchy.getDecoratedSupertype( |
| findElement.class_('Derived'), findElement.class_('Base')); |
| var vRef = decoratedTypeAnnotation('V, W> {'); |
| var wRef = decoratedTypeAnnotation('W> {'); |
| _assertType(decoratedSupertype.type, 'Base<V, W>'); |
| expect(decoratedSupertype.node, same(never)); |
| expect(decoratedSupertype.typeArguments, hasLength(2)); |
| _assertType(decoratedSupertype.typeArguments[0].type, 'V'); |
| expect(decoratedSupertype.typeArguments[0].node, same(vRef.node)); |
| _assertType(decoratedSupertype.typeArguments[1].type, 'W'); |
| expect(decoratedSupertype.typeArguments[1].node, same(wRef.node)); |
| } |
| |
| Future<void> test_getDecoratedSupertype_implements_simple() async { |
| await analyze(''' |
| class Base<T, U> {} |
| class Derived<V, W> implements Base<V, W> {} |
| '''); |
| var decoratedSupertype = _hierarchy.getDecoratedSupertype( |
| findElement.class_('Derived'), findElement.class_('Base')); |
| var vRef = decoratedTypeAnnotation('V, W> {'); |
| var wRef = decoratedTypeAnnotation('W> {'); |
| _assertType(decoratedSupertype.type, 'Base<V, W>'); |
| expect(decoratedSupertype.node, same(never)); |
| expect(decoratedSupertype.typeArguments, hasLength(2)); |
| _assertType(decoratedSupertype.typeArguments[0].type, 'V'); |
| expect(decoratedSupertype.typeArguments[0].node, same(vRef.node)); |
| _assertType(decoratedSupertype.typeArguments[1].type, 'W'); |
| expect(decoratedSupertype.typeArguments[1].node, same(wRef.node)); |
| } |
| |
| Future<void> test_getDecoratedSupertype_not_generic() async { |
| await analyze(''' |
| class Base {} |
| class Derived<T> extends Base {} |
| '''); |
| var decoratedSupertype = _hierarchy.getDecoratedSupertype( |
| findElement.class_('Derived'), findElement.class_('Base')); |
| _assertType(decoratedSupertype.type, 'Base'); |
| expect(decoratedSupertype.node, same(never)); |
| expect(decoratedSupertype.typeArguments, isEmpty); |
| } |
| |
| Future<void> test_getDecoratedSupertype_on_simple() async { |
| await analyze(''' |
| class Base<T, U> {} |
| mixin Derived<V, W> on Base<V, W> {} |
| '''); |
| var decoratedSupertype = _hierarchy.getDecoratedSupertype( |
| findElement.mixin('Derived'), findElement.class_('Base')); |
| var vRef = decoratedTypeAnnotation('V, W> {'); |
| var wRef = decoratedTypeAnnotation('W> {'); |
| _assertType(decoratedSupertype.type, 'Base<V, W>'); |
| expect(decoratedSupertype.node, same(never)); |
| expect(decoratedSupertype.typeArguments, hasLength(2)); |
| _assertType(decoratedSupertype.typeArguments[0].type, 'V'); |
| expect(decoratedSupertype.typeArguments[0].node, same(vRef.node)); |
| _assertType(decoratedSupertype.typeArguments[1].type, 'W'); |
| expect(decoratedSupertype.typeArguments[1].node, same(wRef.node)); |
| } |
| |
| Future<void> test_getDecoratedSupertype_unrelated_type() async { |
| await analyze(''' |
| class A<T> {} |
| class B<T> {} |
| '''); |
| expect( |
| () => _hierarchy.getDecoratedSupertype( |
| findElement.class_('A'), findElement.class_('B')), |
| throwsA(TypeMatcher<StateError>())); |
| } |
| |
| Future<void> test_getDecoratedSupertype_with_simple() async { |
| await analyze(''' |
| class Base<T, U> {} |
| class Derived<V, W> extends Object with Base<V, W> {} |
| '''); |
| var decoratedSupertype = _hierarchy.getDecoratedSupertype( |
| findElement.class_('Derived'), findElement.class_('Base')); |
| var vRef = decoratedTypeAnnotation('V, W> {'); |
| var wRef = decoratedTypeAnnotation('W> {'); |
| _assertType(decoratedSupertype.type, 'Base<V, W>'); |
| expect(decoratedSupertype.node, same(never)); |
| expect(decoratedSupertype.typeArguments, hasLength(2)); |
| _assertType(decoratedSupertype.typeArguments[0].type, 'V'); |
| expect(decoratedSupertype.typeArguments[0].node, same(vRef.node)); |
| _assertType(decoratedSupertype.typeArguments[1].type, 'W'); |
| expect(decoratedSupertype.typeArguments[1].node, same(wRef.node)); |
| } |
| |
| void _assertType(DartType type, String expected) { |
| var typeStr = type.getDisplayString(withNullability: false); |
| expect(typeStr, expected); |
| } |
| } |
