tests/language_2/covariance_method_test.dart - sdk - Git at Google

 // Copyright (c) 2017, 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:expect/expect.dart";

 class A {}

 abstract class B<T> {
   // x will be marked genericCovariantInterface, since x's type is covariant in
   // the type parameter T.
   void f2(T x);

   // x will be marked genericCovariantInterface, since x's type is covariant in
   // the type parameter T.
   void f3(T x);

   void f4(Object x);

   void f5(Object x) {
     f4(x);
   }
 }

 class C extends B<A> {
   void f1(A x) {}

   // x will be marked genericCovariantImpl, since it might be called via
   // e.g. B<Object>.
   void f2(A x) {}

   // x will be marked genericCovariantImpl, since it might be called via
   // e.g. B<Object>.
   void f3(covariant A x) {}

   void f4(covariant A x) {}
 }

 main() {
   // Dynamic method calls should always have their arguments type checked.
   dynamic d = new C();
   Expect.throwsTypeError(() => d.f1(new Object())); //# 01: ok

   // Closure calls should have any arguments marked "genericCovariantImpl" type
   // checked.
   B<Object> b = new C();
   void Function(Object) f = b.f2;
   Expect.throwsTypeError(() => f(new Object())); //# 02: ok

   // Interface calls should have any arguments marked "genericCovariantImpl"
   // type checked provided that the corresponding argument on the interface
   // target is marked "genericCovariantInterface".
   Expect.throwsTypeError(() => b.f2(new Object())); //# 03: ok

   // Interface calls should have any arguments marked "covariant" type checked,
   // regardless of whether the corresponding argument on the interface target is
   // marked "genericCovariantInterface".
   Expect.throwsTypeError(() => b.f3(new Object())); //# 04: ok
   Expect.throwsTypeError(() => b.f4(new Object())); //# 05: ok

   // This calls should have any arguments marked "covariant" type checked.
   Expect.throwsTypeError(() => b.f5(new Object())); //# 06: ok
 }
	// Copyright (c) 2017, 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:expect/expect.dart";

	class A {}

	abstract class B<T> {
	// x will be marked genericCovariantInterface, since x's type is covariant in
	// the type parameter T.
	void f2(T x);

	// x will be marked genericCovariantInterface, since x's type is covariant in
	// the type parameter T.
	void f3(T x);

	void f4(Object x);

	void f5(Object x) {
	f4(x);
	}
	}

	class C extends B<A> {
	void f1(A x) {}

	// x will be marked genericCovariantImpl, since it might be called via
	// e.g. B<Object>.
	void f2(A x) {}

	// x will be marked genericCovariantImpl, since it might be called via
	// e.g. B<Object>.
	void f3(covariant A x) {}

	void f4(covariant A x) {}
	}

	main() {
	// Dynamic method calls should always have their arguments type checked.
	dynamic d = new C();
	Expect.throwsTypeError(() => d.f1(new Object())); //# 01: ok

	// Closure calls should have any arguments marked "genericCovariantImpl" type
	// checked.
	B<Object> b = new C();
	void Function(Object) f = b.f2;
	Expect.throwsTypeError(() => f(new Object())); //# 02: ok

	// Interface calls should have any arguments marked "genericCovariantImpl"
	// type checked provided that the corresponding argument on the interface
	// target is marked "genericCovariantInterface".
	Expect.throwsTypeError(() => b.f2(new Object())); //# 03: ok

	// Interface calls should have any arguments marked "covariant" type checked,
	// regardless of whether the corresponding argument on the interface target is
	// marked "genericCovariantInterface".
	Expect.throwsTypeError(() => b.f3(new Object())); //# 04: ok
	Expect.throwsTypeError(() => b.f4(new Object())); //# 05: ok

	// This calls should have any arguments marked "covariant" type checked.
	Expect.throwsTypeError(() => b.f5(new Object())); //# 06: ok
	}