tests/lib_2/mirrors/generic_interface_test.dart - sdk - Git at Google

 // 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_bounded;

 import 'dart:mirrors';

 import 'package:expect/expect.dart';

 import 'generics_helper.dart';

 class Interface<T> {}

 class Bounded<S extends num> {}

 class Fixed implements Interface<int> {}

 class Generic<R> implements Interface<R> {}

 class Bienbounded implements Bounded<int> {}

 class Malbounded implements Bounded<String> {} // //# 01: compile-time error
 class FBounded implements Interface<FBounded> {}

 class Mixin {}

 class FixedMixinApplication = Object with Mixin implements Interface<int>;
 class GenericMixinApplication<X> = Object with Mixin implements Interface<X>;

 class FixedClass extends Object with Mixin implements Interface<int> {}

 class GenericClass<Y> extends Object with Mixin implements Interface<Y> {}

 main() {
   TypeMirror dynamicMirror = currentMirrorSystem().dynamicType;

   ClassMirror interfaceDecl = reflectClass(Interface);
   ClassMirror boundedDecl = reflectClass(Bounded);

   ClassMirror interfaceOfInt = reflectClass(Fixed).superinterfaces.single;
   ClassMirror interfaceOfR = reflectClass(Generic).superinterfaces.single;
   ClassMirror interfaceOfBool =
       reflect(new Generic<bool>()).type.superinterfaces.single;

   ClassMirror boundedOfInt = reflectClass(Bienbounded).superinterfaces.single;
   ClassMirror boundedOfString = reflectClass(Malbounded).superinterfaces.single; // //# 01: continued
   ClassMirror interfaceOfFBounded =
       reflectClass(FBounded).superinterfaces.single;

   ClassMirror interfaceOfInt2 =
       reflectClass(FixedMixinApplication).superinterfaces.single;
   ClassMirror interfaceOfX =
       reflectClass(GenericMixinApplication).superinterfaces.single;
   ClassMirror interfaceOfDouble = reflect(new GenericMixinApplication<double>())
       .type
       .superinterfaces
       .single;
   ClassMirror interfaceOfInt3 = reflectClass(FixedClass).superinterfaces.single;
   ClassMirror interfaceOfY = reflectClass(GenericClass).superinterfaces.single;
   ClassMirror interfaceOfDouble2 =
       reflect(new GenericClass<double>()).type.superinterfaces.single;

   Expect.isTrue(interfaceDecl.isOriginalDeclaration);
   Expect.isTrue(boundedDecl.isOriginalDeclaration);

   Expect.isFalse(interfaceOfInt.isOriginalDeclaration);
   Expect.isFalse(interfaceOfR.isOriginalDeclaration);
   Expect.isFalse(interfaceOfBool.isOriginalDeclaration);
   Expect.isFalse(boundedOfInt.isOriginalDeclaration);
   Expect.isFalse(boundedOfString.isOriginalDeclaration); // //# 01: continued
   Expect.isFalse(interfaceOfFBounded.isOriginalDeclaration);
   Expect.isFalse(interfaceOfInt2.isOriginalDeclaration);
   Expect.isFalse(interfaceOfX.isOriginalDeclaration);
   Expect.isFalse(interfaceOfDouble.isOriginalDeclaration);
   Expect.isFalse(interfaceOfInt3.isOriginalDeclaration);
   Expect.isFalse(interfaceOfY.isOriginalDeclaration);
   Expect.isFalse(interfaceOfDouble2.isOriginalDeclaration);

   TypeVariableMirror tFromInterface = interfaceDecl.typeVariables.single;
   TypeVariableMirror sFromBounded = boundedDecl.typeVariables.single;
   TypeVariableMirror rFromGeneric = reflectClass(Generic).typeVariables.single;
   TypeVariableMirror xFromGenericMixinApplication =
       reflectClass(GenericMixinApplication).typeVariables.single;
   TypeVariableMirror yFromGenericClass =
       reflectClass(GenericClass).typeVariables.single;

   Expect.equals(reflectClass(Object), tFromInterface.upperBound);
   Expect.equals(reflectClass(num), sFromBounded.upperBound);
   Expect.equals(reflectClass(Object), rFromGeneric.upperBound);
   Expect.equals(reflectClass(Object), xFromGenericMixinApplication.upperBound);
   Expect.equals(reflectClass(Object), yFromGenericClass.upperBound);

   typeParameters(interfaceDecl, [#T]);
   typeParameters(boundedDecl, [#S]);
   typeParameters(interfaceOfInt, [#T]);
   typeParameters(interfaceOfR, [#T]);
   typeParameters(interfaceOfBool, [#T]);
   typeParameters(boundedOfInt, [#S]);
   typeParameters(boundedOfString, [#S]); // //# 01: continued
   typeParameters(interfaceOfFBounded, [#T]);
   typeParameters(interfaceOfInt2, [#T]);
   typeParameters(interfaceOfX, [#T]);
   typeParameters(interfaceOfDouble, [#T]);
   typeParameters(interfaceOfInt3, [#T]);
   typeParameters(interfaceOfY, [#T]);
   typeParameters(interfaceOfDouble2, [#T]);

   typeArguments(interfaceDecl, []);
   typeArguments(boundedDecl, []);
   typeArguments(interfaceOfInt, [reflectClass(int)]);
   typeArguments(interfaceOfR, [rFromGeneric]);
   typeArguments(interfaceOfBool, [reflectClass(bool)]);
   typeArguments(boundedOfInt, [reflectClass(int)]);
   typeArguments(boundedOfString, [reflectClass(String)]); // //# 01: continued
   typeArguments(interfaceOfFBounded, [reflectClass(FBounded)]);
   typeArguments(interfaceOfInt2, [reflectClass(int)]);
   typeArguments(interfaceOfX, [xFromGenericMixinApplication]);
   typeArguments(interfaceOfDouble, [reflectClass(double)]);
   typeArguments(interfaceOfInt3, [reflectClass(int)]);
   typeArguments(interfaceOfY, [yFromGenericClass]);
   typeArguments(interfaceOfDouble2, [reflectClass(double)]);
 }
	// 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_bounded;

	import 'dart:mirrors';

	import 'package:expect/expect.dart';

	import 'generics_helper.dart';

	class Interface<T> {}

	class Bounded<S extends num> {}

	class Fixed implements Interface<int> {}

	class Generic<R> implements Interface<R> {}

	class Bienbounded implements Bounded<int> {}

	class Malbounded implements Bounded<String> {} // //# 01: compile-time error
	class FBounded implements Interface<FBounded> {}

	class Mixin {}

	class FixedMixinApplication = Object with Mixin implements Interface<int>;
	class GenericMixinApplication<X> = Object with Mixin implements Interface<X>;

	class FixedClass extends Object with Mixin implements Interface<int> {}

	class GenericClass<Y> extends Object with Mixin implements Interface<Y> {}

	main() {
	TypeMirror dynamicMirror = currentMirrorSystem().dynamicType;

	ClassMirror interfaceDecl = reflectClass(Interface);
	ClassMirror boundedDecl = reflectClass(Bounded);

	ClassMirror interfaceOfInt = reflectClass(Fixed).superinterfaces.single;
	ClassMirror interfaceOfR = reflectClass(Generic).superinterfaces.single;
	ClassMirror interfaceOfBool =
	reflect(new Generic<bool>()).type.superinterfaces.single;

	ClassMirror boundedOfInt = reflectClass(Bienbounded).superinterfaces.single;
	ClassMirror boundedOfString = reflectClass(Malbounded).superinterfaces.single; // //# 01: continued
	ClassMirror interfaceOfFBounded =
	reflectClass(FBounded).superinterfaces.single;

	ClassMirror interfaceOfInt2 =
	reflectClass(FixedMixinApplication).superinterfaces.single;
	ClassMirror interfaceOfX =
	reflectClass(GenericMixinApplication).superinterfaces.single;
	ClassMirror interfaceOfDouble = reflect(new GenericMixinApplication<double>())
	.type
	.superinterfaces
	.single;
	ClassMirror interfaceOfInt3 = reflectClass(FixedClass).superinterfaces.single;
	ClassMirror interfaceOfY = reflectClass(GenericClass).superinterfaces.single;
	ClassMirror interfaceOfDouble2 =
	reflect(new GenericClass<double>()).type.superinterfaces.single;

	Expect.isTrue(interfaceDecl.isOriginalDeclaration);
	Expect.isTrue(boundedDecl.isOriginalDeclaration);

	Expect.isFalse(interfaceOfInt.isOriginalDeclaration);
	Expect.isFalse(interfaceOfR.isOriginalDeclaration);
	Expect.isFalse(interfaceOfBool.isOriginalDeclaration);
	Expect.isFalse(boundedOfInt.isOriginalDeclaration);
	Expect.isFalse(boundedOfString.isOriginalDeclaration); // //# 01: continued
	Expect.isFalse(interfaceOfFBounded.isOriginalDeclaration);
	Expect.isFalse(interfaceOfInt2.isOriginalDeclaration);
	Expect.isFalse(interfaceOfX.isOriginalDeclaration);
	Expect.isFalse(interfaceOfDouble.isOriginalDeclaration);
	Expect.isFalse(interfaceOfInt3.isOriginalDeclaration);
	Expect.isFalse(interfaceOfY.isOriginalDeclaration);
	Expect.isFalse(interfaceOfDouble2.isOriginalDeclaration);

	TypeVariableMirror tFromInterface = interfaceDecl.typeVariables.single;
	TypeVariableMirror sFromBounded = boundedDecl.typeVariables.single;
	TypeVariableMirror rFromGeneric = reflectClass(Generic).typeVariables.single;
	TypeVariableMirror xFromGenericMixinApplication =
	reflectClass(GenericMixinApplication).typeVariables.single;
	TypeVariableMirror yFromGenericClass =
	reflectClass(GenericClass).typeVariables.single;

	Expect.equals(reflectClass(Object), tFromInterface.upperBound);
	Expect.equals(reflectClass(num), sFromBounded.upperBound);
	Expect.equals(reflectClass(Object), rFromGeneric.upperBound);
	Expect.equals(reflectClass(Object), xFromGenericMixinApplication.upperBound);
	Expect.equals(reflectClass(Object), yFromGenericClass.upperBound);

	typeParameters(interfaceDecl, [#T]);
	typeParameters(boundedDecl, [#S]);
	typeParameters(interfaceOfInt, [#T]);
	typeParameters(interfaceOfR, [#T]);
	typeParameters(interfaceOfBool, [#T]);
	typeParameters(boundedOfInt, [#S]);
	typeParameters(boundedOfString, [#S]); // //# 01: continued
	typeParameters(interfaceOfFBounded, [#T]);
	typeParameters(interfaceOfInt2, [#T]);
	typeParameters(interfaceOfX, [#T]);
	typeParameters(interfaceOfDouble, [#T]);
	typeParameters(interfaceOfInt3, [#T]);
	typeParameters(interfaceOfY, [#T]);
	typeParameters(interfaceOfDouble2, [#T]);

	typeArguments(interfaceDecl, []);
	typeArguments(boundedDecl, []);
	typeArguments(interfaceOfInt, [reflectClass(int)]);
	typeArguments(interfaceOfR, [rFromGeneric]);
	typeArguments(interfaceOfBool, [reflectClass(bool)]);
	typeArguments(boundedOfInt, [reflectClass(int)]);
	typeArguments(boundedOfString, [reflectClass(String)]); // //# 01: continued
	typeArguments(interfaceOfFBounded, [reflectClass(FBounded)]);
	typeArguments(interfaceOfInt2, [reflectClass(int)]);
	typeArguments(interfaceOfX, [xFromGenericMixinApplication]);
	typeArguments(interfaceOfDouble, [reflectClass(double)]);
	typeArguments(interfaceOfInt3, [reflectClass(int)]);
	typeArguments(interfaceOfY, [yFromGenericClass]);
	typeArguments(interfaceOfDouble2, [reflectClass(double)]);
	}