LanguageFeatures/Subtyping/static/generated/right_promoted_variable_arguments_binding_A01_t01.dart - co19 - Git at Google

 // Copyright (c) 2018, 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 say that a type T0 is a subtype of a type T1 (written T0 <: T1)
 /// when:
 /// Right Promoted Variable: if T1 is a promoted type variable X1 & S1 then:
 /// - T0 <: T1 iff T0 <: X1 and T0 <: S1
 /// @description Check that if type T1 is a promoted type variables X1 & S1 and
 /// T0 <: X1 and T0 <: S1 then T0 is a subtype of T1.
 /// @author sgrekhov@unipro.ru
 ///
 /// @description Check that if type T0 is a subtype of a type T1, then instance
 /// of T0 can be be used as an argument of type T1
 /// @author sgrekhov@unipro.ru
 ///
 /// This test is generated from right_promoted_variable_A01.dart and
 /// arguments_binding_x01.dart.
 /// Don't modify it. If you want to change this test, change one of the files
 /// above and then run generator.dart to regenerate the tests.


 class X1 {
   const X1();
 }
 class S1 extends X1 {
   const S1();
 }

 class T0 extends S1 {}

 T0 t0Instance = new T0();
 X1 t1Instance = new S1();

 const t1Default = const S1();


 namedArgumentsFunc1(S1 t1, {S1 t2 = t1Default}) {}
 positionalArgumentsFunc1(S1 t1, [S1 t2 = t1Default]) {}

 namedArgumentsFunc2<X>(X t1, {required X t2}) {}

 class ArgumentsBindingClass {
   ArgumentsBindingClass(S1 t1) {}

   ArgumentsBindingClass.named(S1 t1, {S1 t2 = t1Default}) {}
   ArgumentsBindingClass.positional(S1 t1, [S1 t2 = t1Default]) {}

   factory ArgumentsBindingClass.fNamed(S1 t1, {S1 t2 = t1Default}) {
     return new ArgumentsBindingClass.named(t1, t2: t2);
   }
   factory ArgumentsBindingClass.fPositional(S1 t1, [S1 t2 = t1Default]) {
     return new ArgumentsBindingClass.positional(t1, t2);
   }

   static namedArgumentsStaticMethod(S1 t1, {S1 t2 = t1Default}) {}
   static positionalArgumentsStaticMethod(S1 t1, [S1 t2 = t1Default]) {}

   namedArgumentsMethod(S1 t1, {S1 t2 = t1Default}) {}
   positionalArgumentsMethod(S1 t1, [S1 t2 = t1Default]) {}

   set testSetter(S1 val) {}
 }

 class ArgumentsBindingGen<X>  {
   ArgumentsBindingGen(X t1) {}

   ArgumentsBindingGen.named(X t1, {required X t2}) {}

   factory ArgumentsBindingGen.fNamed(X t1, {required X t2}) {
     return new ArgumentsBindingGen.named(t1, t2: t2);
   }

   namedArgumentsMethod(X t1, {required X t2}) {}

   set testSetter(X val) {}
 }


 main() {
   X1 t1Instance = new S1();
   if (t1Instance is S1) {

   // test functions
   namedArgumentsFunc1(t0Instance, t2: t0Instance);
   positionalArgumentsFunc1(t0Instance, t0Instance);

   // test class constructors
   ArgumentsBindingClass instance1 = new ArgumentsBindingClass(t0Instance);
   instance1 = new ArgumentsBindingClass.fNamed(t0Instance, t2: t0Instance);
   instance1 = new ArgumentsBindingClass.fPositional(t0Instance, t0Instance);
   instance1 = new ArgumentsBindingClass.named(t0Instance, t2: t0Instance);
   instance1 = new ArgumentsBindingClass.positional(t0Instance, t0Instance);

   // tests methods and setters
   instance1.namedArgumentsMethod(t0Instance, t2: t0Instance);
   instance1.positionalArgumentsMethod(t0Instance, t0Instance);
   instance1.testSetter = t0Instance;

   // test static methods
   ArgumentsBindingClass.namedArgumentsStaticMethod(t0Instance, t2: t0Instance);
   ArgumentsBindingClass.positionalArgumentsStaticMethod(t0Instance, t0Instance);

   // Test type parameters

   //# <-- NotGenericFunctionType
   // test generic functions
   namedArgumentsFunc2<S1>(t0Instance, t2: t0Instance);

   // test generic class constructors
   ArgumentsBindingGen<S1> instance2 = new ArgumentsBindingGen<S1>(t0Instance);
   instance2 = new ArgumentsBindingGen<S1>.fNamed(t0Instance, t2: t0Instance);
   instance2 = new ArgumentsBindingGen<S1>.named(t0Instance, t2: t0Instance);

   // test generic class methods and setters
   instance2.namedArgumentsMethod(t0Instance, t2: t0Instance);
   instance2.testSetter = t0Instance;
   //# -->

   }
 }
	// Copyright (c) 2018, 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 say that a type T0 is a subtype of a type T1 (written T0 <: T1)
	/// when:
	/// Right Promoted Variable: if T1 is a promoted type variable X1 & S1 then:
	/// - T0 <: T1 iff T0 <: X1 and T0 <: S1
	/// @description Check that if type T1 is a promoted type variables X1 & S1 and
	/// T0 <: X1 and T0 <: S1 then T0 is a subtype of T1.
	/// @author sgrekhov@unipro.ru
	///
	/// @description Check that if type T0 is a subtype of a type T1, then instance
	/// of T0 can be be used as an argument of type T1
	/// @author sgrekhov@unipro.ru
	///
	/// This test is generated from right_promoted_variable_A01.dart and
	/// arguments_binding_x01.dart.
	/// Don't modify it. If you want to change this test, change one of the files
	/// above and then run generator.dart to regenerate the tests.



	class X1 {
	const X1();
	}
	class S1 extends X1 {
	const S1();
	}

	class T0 extends S1 {}

	T0 t0Instance = new T0();
	X1 t1Instance = new S1();

	const t1Default = const S1();




	namedArgumentsFunc1(S1 t1, {S1 t2 = t1Default}) {}
	positionalArgumentsFunc1(S1 t1, [S1 t2 = t1Default]) {}

	namedArgumentsFunc2<X>(X t1, {required X t2}) {}

	class ArgumentsBindingClass {
	ArgumentsBindingClass(S1 t1) {}

	ArgumentsBindingClass.named(S1 t1, {S1 t2 = t1Default}) {}
	ArgumentsBindingClass.positional(S1 t1, [S1 t2 = t1Default]) {}

	factory ArgumentsBindingClass.fNamed(S1 t1, {S1 t2 = t1Default}) {
	return new ArgumentsBindingClass.named(t1, t2: t2);
	}
	factory ArgumentsBindingClass.fPositional(S1 t1, [S1 t2 = t1Default]) {
	return new ArgumentsBindingClass.positional(t1, t2);
	}

	static namedArgumentsStaticMethod(S1 t1, {S1 t2 = t1Default}) {}
	static positionalArgumentsStaticMethod(S1 t1, [S1 t2 = t1Default]) {}

	namedArgumentsMethod(S1 t1, {S1 t2 = t1Default}) {}
	positionalArgumentsMethod(S1 t1, [S1 t2 = t1Default]) {}

	set testSetter(S1 val) {}
	}

	class ArgumentsBindingGen<X> {
	ArgumentsBindingGen(X t1) {}

	ArgumentsBindingGen.named(X t1, {required X t2}) {}

	factory ArgumentsBindingGen.fNamed(X t1, {required X t2}) {
	return new ArgumentsBindingGen.named(t1, t2: t2);
	}

	namedArgumentsMethod(X t1, {required X t2}) {}

	set testSetter(X val) {}
	}



	main() {
	X1 t1Instance = new S1();
	if (t1Instance is S1) {

	// test functions
	namedArgumentsFunc1(t0Instance, t2: t0Instance);
	positionalArgumentsFunc1(t0Instance, t0Instance);

	// test class constructors
	ArgumentsBindingClass instance1 = new ArgumentsBindingClass(t0Instance);
	instance1 = new ArgumentsBindingClass.fNamed(t0Instance, t2: t0Instance);
	instance1 = new ArgumentsBindingClass.fPositional(t0Instance, t0Instance);
	instance1 = new ArgumentsBindingClass.named(t0Instance, t2: t0Instance);
	instance1 = new ArgumentsBindingClass.positional(t0Instance, t0Instance);

	// tests methods and setters
	instance1.namedArgumentsMethod(t0Instance, t2: t0Instance);
	instance1.positionalArgumentsMethod(t0Instance, t0Instance);
	instance1.testSetter = t0Instance;

	// test static methods
	ArgumentsBindingClass.namedArgumentsStaticMethod(t0Instance, t2: t0Instance);
	ArgumentsBindingClass.positionalArgumentsStaticMethod(t0Instance, t0Instance);

	// Test type parameters

	//# <-- NotGenericFunctionType
	// test generic functions
	namedArgumentsFunc2<S1>(t0Instance, t2: t0Instance);

	// test generic class constructors
	ArgumentsBindingGen<S1> instance2 = new ArgumentsBindingGen<S1>(t0Instance);
	instance2 = new ArgumentsBindingGen<S1>.fNamed(t0Instance, t2: t0Instance);
	instance2 = new ArgumentsBindingGen<S1>.named(t0Instance, t2: t0Instance);

	// test generic class methods and setters
	instance2.namedArgumentsMethod(t0Instance, t2: t0Instance);
	instance2.testSetter = t0Instance;
	//# -->

	}
	}