Language/Interfaces/Superinterfaces/Inheritance_and_Overriding/inheritance_t06.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 We define inherited(J, K) to be
 /// the set of members m such that all of the following hold:
 /// • m is accessible to K and
 /// • A is a direct superinterface of J and either
 /// – A declares a member m or
 /// – m is a member of inherited(A, K).
 /// • m is not overridden by J.
 /// ...
 /// Otherwise, if the static types T1,...,Tk of the members m1,...,mk are not
 /// identical, then there must be a member mx such that Tx <: Ti, 1 ≤ x ≤ k for
 /// all i ∈ 1..k, or a static type warning occurs. The member that is inherited
 /// is mx, if it exists; otherwise: let numberOf P ositionals(f) denote the
 /// number of positional parameters of a function f, and let numberOf
 /// RequiredParams(f) denote the number of required parameters of a function f.
 /// Furthermore, let s denote the set of all named parameters of the m1,...,mk.
 /// Then let
 /// h = max(numberOf Positionals(mi)),
 /// r = min(numberOf RequiredParams(mi)), i ∈ 1..k.
 /// Then I has a method named n, with r required parameters of type dynamic,
 /// h positional parameters of type dynamic, named parameters s of type dynamic
 /// and return type dynamic.
 /// @description Checks that there's no static warning if class implements two
 /// interfaces with same named methods and different number of required formal
 /// parameters and defines method with minimum number of required parameters
 /// and maximum number of positional parameters.
 /// @author ngl@unipro.ru


 abstract class SI1 {
   void foo(var v);
 }

 abstract class SI2 {
   void foo(var v, var vv);
 }

 class I implements SI1, SI2 {
   // It is expected that I inherits void foo(dynamic v1, [dynamic a])
   void foo(dynamic v, [dynamic a]) {}
 }

 main() {
   I i = new I();
   i.foo(1);
   i.foo(1,2);
 }
	// 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 We define inherited(J, K) to be
	/// the set of members m such that all of the following hold:
	/// • m is accessible to K and
	/// • A is a direct superinterface of J and either
	/// – A declares a member m or
	/// – m is a member of inherited(A, K).
	/// • m is not overridden by J.
	/// ...
	/// Otherwise, if the static types T1,...,Tk of the members m1,...,mk are not
	/// identical, then there must be a member mx such that Tx <: Ti, 1 ≤ x ≤ k for
	/// all i ∈ 1..k, or a static type warning occurs. The member that is inherited
	/// is mx, if it exists; otherwise: let numberOf P ositionals(f) denote the
	/// number of positional parameters of a function f, and let numberOf
	/// RequiredParams(f) denote the number of required parameters of a function f.
	/// Furthermore, let s denote the set of all named parameters of the m1,...,mk.
	/// Then let
	/// h = max(numberOf Positionals(mi)),
	/// r = min(numberOf RequiredParams(mi)), i ∈ 1..k.
	/// Then I has a method named n, with r required parameters of type dynamic,
	/// h positional parameters of type dynamic, named parameters s of type dynamic
	/// and return type dynamic.
	/// @description Checks that there's no static warning if class implements two
	/// interfaces with same named methods and different number of required formal
	/// parameters and defines method with minimum number of required parameters
	/// and maximum number of positional parameters.
	/// @author ngl@unipro.ru


	abstract class SI1 {
	void foo(var v);
	}

	abstract class SI2 {
	void foo(var v, var vv);
	}

	class I implements SI1, SI2 {
	// It is expected that I inherits void foo(dynamic v1, [dynamic a])
	void foo(dynamic v, [dynamic a]) {}
	}

	main() {
	I i = new I();
	i.foo(1);
	i.foo(1,2);
	}