LanguageFeatures/Generic-functions-as-type-args/class_A01_t02.dart - co19 - Git at Google

 /*
  * Copyright (c) 2021, 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 Allow generic function types as type arguments and bounds
  *
  * The language disallows generic function types as type arguments and bounds.
  *
  *  late List<T Function<T>(T)> idFunctions; // INVALID.
  *  var callback = [foo<T>(T value) => value]; // Inferred as above, then invalid.
  *  late S Function<S extends T Function<T>(T)>(S) f; // INVALID.
  *
  * We remove that restriction, so a type argument and a bound can be a generic
  * function type.
  *
  * This requires no new syntax, and in some cases only the removal of a single
  * check. There might be some platforms where the implementation currently
  * assumes that generic function types cannot occur as the value of type
  * variables (an proof-of-concept attempt hit an assert in the VM). Such
  * assumptions will need to be flushed out with tests and fixed.
  *
  * Because we already infer List<T Function<T>(T)> in the code above, this
  * change will not affect type inference, it will just make the inferred type
  * not be an error afterwards.
  *
  * We do not expect the removal of this restriction to affect the feasibility of
  * type inference. After all, it's already possible to have a generic function
  * type occurring covariantly in a type argument, like List<T Function<T>(T)
  * Function()>.
  * @description Checks that generic function can be a class type argument and
  * bound: test extends clause in the class declaration dynamically.
  * @Issue 45415
  * @author iarkh@unipro.ru
  */
 // SharedOptions=--enable-experiment=generic-metadata

 import "../../Utils/expect.dart";

 typedef exp1 = T Function<T extends num>(T);
 typedef exp2 = void Function<T extends num>();
 typedef exp3 = T Function<T extends num>();
 typedef exp4 = void Function<T extends num>(T);

 class C1<X extends T Function<T extends num>(T)> {
   C1() { Expect.equals(exp1, X); }
 }

 class C2<X extends void Function<T extends num>()> {
   C2() { Expect.equals(exp2, X); }
 }

 class C3<X extends T Function<T extends num>()> {
   C3() { Expect.equals(exp3, X); }
 }

 class C4<X extends void Function<T extends num>(T)> {
   C4() { Expect.equals(exp4, X); }
 }

 main() {
   C1 c1 = C1();
   C1 c2 = C1<T Function<T extends num>(T)>();

   C2 c3 = C2();
   C2 c4 = C2<void Function<T extends num>()>();

   C3 c5 = C3();
   C3 c6 = C3<T Function<T extends num>()>();

   C4 c7 = C4();
   C4 c8 = C4<void Function<T extends num>(T)>();
 }
	/*
	* Copyright (c) 2021, 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 Allow generic function types as type arguments and bounds
	*
	* The language disallows generic function types as type arguments and bounds.
	*
	* late List<T Function<T>(T)> idFunctions; // INVALID.
	* var callback = [foo<T>(T value) => value]; // Inferred as above, then invalid.
	* late S Function<S extends T Function<T>(T)>(S) f; // INVALID.
	*
	* We remove that restriction, so a type argument and a bound can be a generic
	* function type.
	*
	* This requires no new syntax, and in some cases only the removal of a single
	* check. There might be some platforms where the implementation currently
	* assumes that generic function types cannot occur as the value of type
	* variables (an proof-of-concept attempt hit an assert in the VM). Such
	* assumptions will need to be flushed out with tests and fixed.
	*
	* Because we already infer List<T Function<T>(T)> in the code above, this
	* change will not affect type inference, it will just make the inferred type
	* not be an error afterwards.
	*
	* We do not expect the removal of this restriction to affect the feasibility of
	* type inference. After all, it's already possible to have a generic function
	* type occurring covariantly in a type argument, like List<T Function<T>(T)
	* Function()>.
	* @description Checks that generic function can be a class type argument and
	* bound: test extends clause in the class declaration dynamically.
	* @Issue 45415
	* @author iarkh@unipro.ru
	*/
	// SharedOptions=--enable-experiment=generic-metadata

	import "../../Utils/expect.dart";

	typedef exp1 = T Function<T extends num>(T);
	typedef exp2 = void Function<T extends num>();
	typedef exp3 = T Function<T extends num>();
	typedef exp4 = void Function<T extends num>(T);

	class C1<X extends T Function<T extends num>(T)> {
	C1() { Expect.equals(exp1, X); }
	}

	class C2<X extends void Function<T extends num>()> {
	C2() { Expect.equals(exp2, X); }
	}

	class C3<X extends T Function<T extends num>()> {
	C3() { Expect.equals(exp3, X); }
	}

	class C4<X extends void Function<T extends num>(T)> {
	C4() { Expect.equals(exp4, X); }
	}

	main() {
	C1 c1 = C1();
	C1 c2 = C1<T Function<T extends num>(T)>();

	C2 c3 = C2();
	C2 c4 = C2<void Function<T extends num>()>();

	C3 c5 = C3();
	C3 c6 = C3<T Function<T extends num>()>();

	C4 c7 = C4();
	C4 c8 = C4<void Function<T extends num>(T)>();
	}