tests/language/generic_methods/explicit_instantiated_tearoff_test.dart - sdk.git - 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.

 import "package:expect/expect.dart";

 import "../static_type_helper.dart";

 // Tests that generic methods can be torn off with explicit instantiation.

 R toplevel<R, T>(T value, [T? other]) => value as R;

 class C {
   static R staticMethod<R, T>(T value, [T? other]) => value as R;
   R instanceMethod<R, T>(T value, [T? other]) => value as R;

   void tearOffsOnThis() {
     const staticTearOff = staticMethod<int, String>;
     staticMethod<int, String>
         .expectStaticType<Exactly<int Function(String, [String?])>>();
     instanceMethod<int, String>
         .expectStaticType<Exactly<int Function(String, [String?])>>();
     this.instanceMethod<int, String>
         .expectStaticType<Exactly<int Function(String, [String?])>>();

     Expect.identical(staticMethod<int, String>, staticTearOff);

     Expect.equals(
         instanceMethod<int, String>, this.instanceMethod<int, String>);
   }
 }

 mixin M on C {
   static R staticMethod<R, T>(T value, [T? other]) => value as R;
   R mixinInstanceMethod<R, T>(T value, [T? other]) => value as R;

   void mixinTearOffsOnThis() {
     const staticTearOff = staticMethod<int, String>;
     staticMethod<int, String>
         .expectStaticType<Exactly<int Function(String, [String?])>>();
     mixinInstanceMethod<int, String>
         .expectStaticType<Exactly<int Function(String, [String?])>>();
     this.mixinInstanceMethod<int, String>
         .expectStaticType<Exactly<int Function(String, [String?])>>();

     Expect.identical(staticMethod<int, String>, staticTearOff);

     Expect.equals(mixinInstanceMethod<int, String>,
         this.mixinInstanceMethod<int, String>);
   }
 }

 extension E on C {
   static R staticMethod<R, T>(T value, [T? other]) => value as R;
   R extInstanceMethod<R, T>(T value, [T? other]) => value as R;

   void extensionTearOffsOnThis() {
     const staticTearOff = staticMethod<int, String>;
     staticMethod<int, String>
         .expectStaticType<Exactly<int Function(String, [String?])>>();
     extInstanceMethod<int, String>
         .expectStaticType<Exactly<int Function(String, [String?])>>();
     this.extInstanceMethod<int, String>
         .expectStaticType<Exactly<int Function(String, [String?])>>();
     Expect.identical(staticMethod<int, String>, staticTearOff);
     // Extension instance methods do not specify equality.
   }
 }

 class D extends C with M {
   void tearOffsOnSuper() {
     super.instanceMethod<int, String>
         .expectStaticType<Exactly<int Function(String, [String?])>>();
     Expect.equals(
         super.instanceMethod<int, String>, super.instanceMethod<int, String>);
   }
 }

 void main() {
   var o = D();
   R local<R, T>(T value, [T? other]) => value as R;

   // Check that some tear-offs are constant.
   const topTearOff = toplevel<int, String>;
   const staticTearOff = C.staticMethod<int, String>;
   const mixinStaticTearOff = M.staticMethod<int, String>;
   const extensionStaticTearOff = E.staticMethod<int, String>;

   // Check that the tear-offs have the correct static type.

   toplevel<int, String>
       .expectStaticType<Exactly<int Function(String, [String?])>>();
   C.staticMethod<int, String>
       .expectStaticType<Exactly<int Function(String, [String?])>>();
   M.staticMethod<int, String>
       .expectStaticType<Exactly<int Function(String, [String?])>>();
   E.staticMethod<int, String>
       .expectStaticType<Exactly<int Function(String, [String?])>>();
   o.instanceMethod<int, String>
       .expectStaticType<Exactly<int Function(String, [String?])>>();
   o.mixinInstanceMethod<int, String>
       .expectStaticType<Exactly<int Function(String, [String?])>>();
   o.extInstanceMethod<int, String>
       .expectStaticType<Exactly<int Function(String, [String?])>>();
   local<int, String>
       .expectStaticType<Exactly<int Function(String, [String?])>>();

   // Check that the tear-offs are canonicalized where possible.
   Expect.identical(toplevel<int, String>, topTearOff);
   Expect.identical(C.staticMethod<int, String>, staticTearOff);
   Expect.identical(M.staticMethod<int, String>, mixinStaticTearOff);
   Expect.identical(E.staticMethod<int, String>, extensionStaticTearOff);

   // Instantiated local methods may or may not be equal.
   // (Specification makes no promise about equality.).

   // But not for instance method tear-off.
   // Specification requires equality.
   Expect.equals(o.instanceMethod<int, String>, o.instanceMethod<int, String>);
   Expect.equals(
       o.mixinInstanceMethod<int, String>, o.mixinInstanceMethod<int, String>);

   // Instantiated extension methods do not specify equality.

   // And not canonicalized where they shouldn't (different types).
   Expect.notEquals(toplevel<int, String>, toplevel<num, String>);
   Expect.notEquals(C.staticMethod<int, String>, C.staticMethod<num, String>);
   Expect.notEquals(local<int, String>, local<num, String>);
   Expect.notEquals(
       o.instanceMethod<int, String>, o.instanceMethod<num, String>);

   (<T>() {
     // Not canonicalized if any type is non-constant.
     // Toplevel, static and instance members are still equal
     // if types are "the same".
     // (Current implementations do not implement that).
     Expect.equals(toplevel<T, String>, toplevel<T, String>);
     Expect.equals(C.staticMethod<T, String>, C.staticMethod<T, String>);
     Expect.equals(M.staticMethod<T, String>, M.staticMethod<T, String>);
     Expect.equals(E.staticMethod<T, String>, E.staticMethod<T, String>);
     Expect.equals(toplevel<int, T>, toplevel<int, T>);
     Expect.equals(C.staticMethod<int, T>, C.staticMethod<int, T>);
     Expect.equals(M.staticMethod<int, T>, M.staticMethod<int, T>);
     Expect.equals(E.staticMethod<int, T>, E.staticMethod<int, T>);
   }<int>());

   o.tearOffsOnThis();
   o.tearOffsOnSuper();
   o.mixinTearOffsOnThis();
   o.extensionTearOffsOnThis();
 }
	// 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.

	import "package:expect/expect.dart";

	import "../static_type_helper.dart";

	// Tests that generic methods can be torn off with explicit instantiation.

	R toplevel<R, T>(T value, [T? other]) => value as R;

	class C {
	static R staticMethod<R, T>(T value, [T? other]) => value as R;
	R instanceMethod<R, T>(T value, [T? other]) => value as R;

	void tearOffsOnThis() {
	const staticTearOff = staticMethod<int, String>;
	staticMethod<int, String>
	.expectStaticType<Exactly<int Function(String, [String?])>>();
	instanceMethod<int, String>
	.expectStaticType<Exactly<int Function(String, [String?])>>();
	this.instanceMethod<int, String>
	.expectStaticType<Exactly<int Function(String, [String?])>>();

	Expect.identical(staticMethod<int, String>, staticTearOff);

	Expect.equals(
	instanceMethod<int, String>, this.instanceMethod<int, String>);
	}
	}

	mixin M on C {
	static R staticMethod<R, T>(T value, [T? other]) => value as R;
	R mixinInstanceMethod<R, T>(T value, [T? other]) => value as R;

	void mixinTearOffsOnThis() {
	const staticTearOff = staticMethod<int, String>;
	staticMethod<int, String>
	.expectStaticType<Exactly<int Function(String, [String?])>>();
	mixinInstanceMethod<int, String>
	.expectStaticType<Exactly<int Function(String, [String?])>>();
	this.mixinInstanceMethod<int, String>
	.expectStaticType<Exactly<int Function(String, [String?])>>();

	Expect.identical(staticMethod<int, String>, staticTearOff);

	Expect.equals(mixinInstanceMethod<int, String>,
	this.mixinInstanceMethod<int, String>);
	}
	}

	extension E on C {
	static R staticMethod<R, T>(T value, [T? other]) => value as R;
	R extInstanceMethod<R, T>(T value, [T? other]) => value as R;

	void extensionTearOffsOnThis() {
	const staticTearOff = staticMethod<int, String>;
	staticMethod<int, String>
	.expectStaticType<Exactly<int Function(String, [String?])>>();
	extInstanceMethod<int, String>
	.expectStaticType<Exactly<int Function(String, [String?])>>();
	this.extInstanceMethod<int, String>
	.expectStaticType<Exactly<int Function(String, [String?])>>();
	Expect.identical(staticMethod<int, String>, staticTearOff);
	// Extension instance methods do not specify equality.
	}
	}

	class D extends C with M {
	void tearOffsOnSuper() {
	super.instanceMethod<int, String>
	.expectStaticType<Exactly<int Function(String, [String?])>>();
	Expect.equals(
	super.instanceMethod<int, String>, super.instanceMethod<int, String>);
	}
	}

	void main() {
	var o = D();
	R local<R, T>(T value, [T? other]) => value as R;

	// Check that some tear-offs are constant.
	const topTearOff = toplevel<int, String>;
	const staticTearOff = C.staticMethod<int, String>;
	const mixinStaticTearOff = M.staticMethod<int, String>;
	const extensionStaticTearOff = E.staticMethod<int, String>;

	// Check that the tear-offs have the correct static type.

	toplevel<int, String>
	.expectStaticType<Exactly<int Function(String, [String?])>>();
	C.staticMethod<int, String>
	.expectStaticType<Exactly<int Function(String, [String?])>>();
	M.staticMethod<int, String>
	.expectStaticType<Exactly<int Function(String, [String?])>>();
	E.staticMethod<int, String>
	.expectStaticType<Exactly<int Function(String, [String?])>>();
	o.instanceMethod<int, String>
	.expectStaticType<Exactly<int Function(String, [String?])>>();
	o.mixinInstanceMethod<int, String>
	.expectStaticType<Exactly<int Function(String, [String?])>>();
	o.extInstanceMethod<int, String>
	.expectStaticType<Exactly<int Function(String, [String?])>>();
	local<int, String>
	.expectStaticType<Exactly<int Function(String, [String?])>>();

	// Check that the tear-offs are canonicalized where possible.
	Expect.identical(toplevel<int, String>, topTearOff);
	Expect.identical(C.staticMethod<int, String>, staticTearOff);
	Expect.identical(M.staticMethod<int, String>, mixinStaticTearOff);
	Expect.identical(E.staticMethod<int, String>, extensionStaticTearOff);

	// Instantiated local methods may or may not be equal.
	// (Specification makes no promise about equality.).

	// But not for instance method tear-off.
	// Specification requires equality.
	Expect.equals(o.instanceMethod<int, String>, o.instanceMethod<int, String>);
	Expect.equals(
	o.mixinInstanceMethod<int, String>, o.mixinInstanceMethod<int, String>);

	// Instantiated extension methods do not specify equality.

	// And not canonicalized where they shouldn't (different types).
	Expect.notEquals(toplevel<int, String>, toplevel<num, String>);
	Expect.notEquals(C.staticMethod<int, String>, C.staticMethod<num, String>);
	Expect.notEquals(local<int, String>, local<num, String>);
	Expect.notEquals(
	o.instanceMethod<int, String>, o.instanceMethod<num, String>);

	(<T>() {
	// Not canonicalized if any type is non-constant.
	// Toplevel, static and instance members are still equal
	// if types are "the same".
	// (Current implementations do not implement that).
	Expect.equals(toplevel<T, String>, toplevel<T, String>);
	Expect.equals(C.staticMethod<T, String>, C.staticMethod<T, String>);
	Expect.equals(M.staticMethod<T, String>, M.staticMethod<T, String>);
	Expect.equals(E.staticMethod<T, String>, E.staticMethod<T, String>);
	Expect.equals(toplevel<int, T>, toplevel<int, T>);
	Expect.equals(C.staticMethod<int, T>, C.staticMethod<int, T>);
	Expect.equals(M.staticMethod<int, T>, M.staticMethod<int, T>);
	Expect.equals(E.staticMethod<int, T>, E.staticMethod<int, T>);
	}<int>());

	o.tearOffsOnThis();
	o.tearOffsOnSuper();
	o.mixinTearOffsOnThis();
	o.extensionTearOffsOnThis();
	}