| // Copyright (c) 2013, 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. |
| |
| library test.generic_mixin_applications; |
| |
| import 'dart:mirrors'; |
| |
| import 'package:expect/expect.dart'; |
| |
| import 'generics_helper.dart'; |
| |
| class Super<S> {} |
| |
| class Mixin<M> {} |
| |
| class Nixim<N> {} |
| |
| class NonGenericMixinApplication1 = Super with Mixin; |
| class NonGenericMixinApplication2 = Super<num> with Mixin<String>; |
| |
| class GenericMixinApplication1<MA> = Super<MA> with Mixin<MA>; |
| class GenericMixinApplication2<MA> = Super<num> with Mixin<String>; |
| |
| class NonGenericClass1 extends Super with Mixin {} |
| |
| class NonGenericClass2 extends Super<num> with Mixin<String> {} |
| |
| class GenericClass1<C> extends Super<C> with Mixin<C> {} |
| |
| class GenericClass2<C> extends Super<num> with Mixin<String> {} |
| |
| class GenericMultipleMixins<A, B, C> extends Super<A> with Mixin<B>, Nixim<C> {} |
| |
| main() { |
| TypeMirror dynamicMirror = currentMirrorSystem().dynamicType; |
| |
| // Declarations. |
| typeParameters(reflectClass(NonGenericMixinApplication1), []); |
| typeParameters(reflectClass(NonGenericMixinApplication2), []); |
| typeParameters(reflectClass(GenericMixinApplication1), [#MA]); |
| typeParameters(reflectClass(GenericMixinApplication2), [#MA]); |
| typeParameters(reflectClass(NonGenericClass1), []); |
| typeParameters(reflectClass(NonGenericClass2), []); |
| typeParameters(reflectClass(GenericClass1), [#C]); |
| typeParameters(reflectClass(GenericClass2), [#C]); |
| typeParameters(reflectClass(GenericMultipleMixins), [#A, #B, #C]); |
| // Anonymous mixin applications have no type parameters or type arguments. |
| typeParameters(reflectClass(NonGenericClass1).superclass, []); |
| typeParameters(reflectClass(NonGenericClass2).superclass, []); |
| typeParameters(reflectClass(GenericClass1).superclass, []); |
| typeParameters(reflectClass(GenericClass2).superclass, []); |
| |
| typeArguments(reflectClass(NonGenericMixinApplication1), []); |
| typeArguments(reflectClass(NonGenericMixinApplication2), []); |
| typeArguments(reflectClass(GenericMixinApplication1), []); |
| typeArguments(reflectClass(GenericMixinApplication2), []); |
| typeArguments(reflectClass(NonGenericClass1), []); |
| typeArguments(reflectClass(NonGenericClass2), []); |
| typeArguments(reflectClass(GenericClass1), []); |
| typeArguments(reflectClass(GenericClass2), []); |
| typeArguments(reflectClass(GenericMultipleMixins), []); |
| // Anonymous mixin applications have no type parameters or type arguments. |
| typeArguments( |
| reflectClass(NonGenericClass1).superclass.originalDeclaration, []); |
| typeArguments( |
| reflectClass(NonGenericClass2).superclass.originalDeclaration, []); |
| typeArguments(reflectClass(GenericClass1).superclass.originalDeclaration, []); |
| typeArguments(reflectClass(GenericClass2).superclass.originalDeclaration, []); |
| |
| // Instantiations. |
| typeParameters(reflect(new NonGenericMixinApplication1()).type, []); |
| typeParameters(reflect(new NonGenericMixinApplication2()).type, []); |
| typeParameters(reflect(new GenericMixinApplication1<bool>()).type, [#MA]); |
| typeParameters(reflect(new GenericMixinApplication2<bool>()).type, [#MA]); |
| typeParameters(reflect(new NonGenericClass1()).type, []); |
| typeParameters(reflect(new NonGenericClass2()).type, []); |
| typeParameters(reflect(new GenericClass1<bool>()).type, [#C]); |
| typeParameters(reflect(new GenericClass2<bool>()).type, [#C]); |
| typeParameters(reflect(new GenericMultipleMixins<bool, String, int>()).type, |
| [#A, #B, #C]); |
| // Anonymous mixin applications have no type parameters or type arguments. |
| typeParameters(reflect(new NonGenericClass1()).type.superclass, []); |
| typeParameters(reflect(new NonGenericClass2()).type.superclass, []); |
| typeParameters(reflect(new GenericClass1<bool>()).type.superclass, []); |
| typeParameters(reflect(new GenericClass2<bool>()).type.superclass, []); |
| |
| typeArguments(reflect(new NonGenericMixinApplication1()).type, []); |
| typeArguments(reflect(new NonGenericMixinApplication2()).type, []); |
| typeArguments( |
| reflect(new GenericMixinApplication1<bool>()).type, [reflectClass(bool)]); |
| typeArguments( |
| reflect(new GenericMixinApplication2<bool>()).type, [reflectClass(bool)]); |
| typeArguments(reflect(new NonGenericClass1()).type, []); |
| typeArguments(reflect(new NonGenericClass2()).type, []); |
| typeArguments(reflect(new GenericClass1<bool>()).type, [reflectClass(bool)]); |
| typeArguments(reflect(new GenericClass2<bool>()).type, [reflectClass(bool)]); |
| typeArguments(reflect(new GenericMultipleMixins<bool, String, int>()).type, |
| [reflectClass(bool), reflectClass(String), reflectClass(int)]); |
| // Anonymous mixin applications have no type parameters or type arguments. |
| typeArguments(reflect(new NonGenericClass1()).type.superclass, []); |
| typeArguments(reflect(new NonGenericClass2()).type.superclass, []); |
| typeArguments(reflect(new GenericClass1<bool>()).type.superclass, []); |
| typeArguments(reflect(new GenericClass2<bool>()).type.superclass, []); |
| } |