Language/Types/Interface_Types/subtype_t36.dart - co19 - Git at Google

 // Copyright (c) 2011, 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.

 /// @assertion A type T is more specific than a type S, written T << S, if one
 /// of the following conditions is met:
 ///  • T is S.
 ///  • T is ⊥
 ///  • S is dynamic.
 ///  • S is a direct supertype of T.
 ///  • T is a type parameter and S is the upper bound of T.
 ///  • T is a type parameter and S is Object.
 ///  • T is of the form I<T1, ..., Tn > and S is of the form I <S1, ..., Sn>
 ///    and Ti << Si 1 <= i <= n.
 ///  • T and S are both function types, and T << S under the rules of section
 ///    (Types/Function Types).
 ///  • T is a function type and S is Function.
 ///  • T << U and U << S.
 /// << is a partial order on types. T is a subtype of S, written T <: S, iff
 /// [⊥/Dynamic]T << S.
 /// . . .
 /// An interface type T may be assigned to a type S, written T <=> S, if either
 /// T <: S or S <: T.
 /// @description Checks that two generic types are not assignable even if just
 /// one type argument is not assignable. Using complex function types as type
 /// arguments.
 /// @author iefremov


 class I {}
 class J extends I {}
 class K extends J {}
 class C implements K {}

 typedef Map<List, List<Map<num,List>>> complexFunction_t1();
 typedef t1_1();
 typedef Map<List<int>, List> t1_2();
 typedef Map<List<int>, List<Map>> t1_3();
 typedef Map<List<complexFunction_t1>,
             List<Map<int,
                      List<Map<complexFunction_t1,
                               complexFunction_t2>>>>> t1_4();

 typedef badFunction(int x); //not assignable to complexFunction_t1

 typedef complexFunction_t1 complexFunction_t2(
                                               complexFunction_t1 f1,
                                               complexFunction_t1 f2);
 typedef t1_1 t2_1(t1_2 f1, badFunction f2); //not assignable to complexFunction_t2 because of badFunction

 typedef K typeParameter1(J j, complexFunction_t1 f1, [num i, complexFunction_t2 f2]);
 //      <=>              <=>  <=>                     <=>    <=/=>
 typedef C typeParameter2(K j, t1_4 f1,               [int i, t2_1 f2]);


 class Generic<G> {}

 Generic<typeParameter2> f() => new Generic<typeParameter2>();

 main() {
   Generic<typeParameter1> g = f();
 //                            ^
 // [analyzer] unspecified
 // [cfe] unspecified
 }
	// Copyright (c) 2011, 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.

	/// @assertion A type T is more specific than a type S, written T << S, if one
	/// of the following conditions is met:
	/// • T is S.
	/// • T is ⊥
	/// • S is dynamic.
	/// • S is a direct supertype of T.
	/// • T is a type parameter and S is the upper bound of T.
	/// • T is a type parameter and S is Object.
	/// • T is of the form I<T1, ..., Tn > and S is of the form I <S1, ..., Sn>
	/// and Ti << Si 1 <= i <= n.
	/// • T and S are both function types, and T << S under the rules of section
	/// (Types/Function Types).
	/// • T is a function type and S is Function.
	/// • T << U and U << S.
	/// << is a partial order on types. T is a subtype of S, written T <: S, iff
	/// [⊥/Dynamic]T << S.
	/// . . .
	/// An interface type T may be assigned to a type S, written T <=> S, if either
	/// T <: S or S <: T.
	/// @description Checks that two generic types are not assignable even if just
	/// one type argument is not assignable. Using complex function types as type
	/// arguments.
	/// @author iefremov


	class I {}
	class J extends I {}
	class K extends J {}
	class C implements K {}

	typedef Map<List, List<Map<num,List>>> complexFunction_t1();
	typedef t1_1();
	typedef Map<List<int>, List> t1_2();
	typedef Map<List<int>, List<Map>> t1_3();
	typedef Map<List<complexFunction_t1>,
	List<Map<int,
	List<Map<complexFunction_t1,
	complexFunction_t2>>>>> t1_4();

	typedef badFunction(int x); //not assignable to complexFunction_t1

	typedef complexFunction_t1 complexFunction_t2(
	complexFunction_t1 f1,
	complexFunction_t1 f2);
	typedef t1_1 t2_1(t1_2 f1, badFunction f2); //not assignable to complexFunction_t2 because of badFunction

	typedef K typeParameter1(J j, complexFunction_t1 f1, [num i, complexFunction_t2 f2]);
	// <=> <=> <=> <=> <=/=>
	typedef C typeParameter2(K j, t1_4 f1, [int i, t2_1 f2]);


	class Generic<G> {}

	Generic<typeParameter2> f() => new Generic<typeParameter2>();

	main() {
	Generic<typeParameter1> g = f();
	// ^
	// [analyzer] unspecified
	// [cfe] unspecified
	}