tests/language/deferred_constraints_type_annotation_test.dart - sdk.git - Git at Google

 // Copyright (c) 2014, 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 'package:async_helper/async_helper.dart';

 import "deferred_constraints_lib.dart" deferred as lib;
 import "deferred_constraints_lib.dart" as lib2; /// type_annotation_non_deferred: ok

 class F {}
 class G2<T> {}

 main() {
   lib.C a = null; /// type_annotation_null: static type warning
   Expect.throws(() { /// new_before_load: static type warning
     lib.C a = new lib.C(); /// new_before_load: continued
   }, (e) => e is Error); /// new_before_load: continued

   // In this case we do not defer C.
   lib2.C a1 = new lib2.C(); /// type_annotation_non_deferred: continued
   asyncStart();
   lib.loadLibrary().then((_) {
     lib.C a2 = new lib.C(); /// type_annotation1: dynamic type error, static type warning
     lib.G<F> a3 = new lib.G<F>(); /// type_annotation_generic1: dynamic type error, static type warning
     G2<lib.C> a4 = new G2(); /// type_annotation_generic2: static type warning
     G2<lib.C> a5 = new G2<lib.C>(); /// type_annotation_generic3: static type warning
     lib.G<lib.C> a = new lib.G<lib.C>(); /// type_annotation_generic4: dynamic type error, static type warning
     var a6 = new lib.C(); /// new: ok
     var g1 = new lib.G<F>(); /// new_generic1: ok
     // new G2<lib.C>() does not give a dynamic type error because a malformed
     // type used as type-parameter is treated as dynamic.
     var g2 = new G2<lib.C>(); /// new_generic2: static type warning
     var g3 = new lib.G<lib.C>(); /// new_generic3: static type warning
     var instance = lib.constantInstance;
     Expect.throws(() { /// is_check: static type warning
       bool a7 = instance is lib.Const; /// is_check: continued
     }, (e) => e is TypeError); /// is_check: continued
     Expect.throws(() { /// as_operation: static type warning
       instance as lib.Const; /// as_operation: continued
     }, (e) => e is TypeError); /// as_operation: continued
     Expect.throws(() { /// catch_check: static type warning
       try { throw instance; } on lib.Const {} /// catch_check: continued
     }, (e) => e is TypeError); /// catch_check: continued
     int i = lib.C.staticMethod(); /// static_method: ok
     asyncEnd();
   });
 }

 lib.C a9 = null; /// type_annotation_top_level: static type warning
	// Copyright (c) 2014, 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 'package:async_helper/async_helper.dart';

	import "deferred_constraints_lib.dart" deferred as lib;
	import "deferred_constraints_lib.dart" as lib2; /// type_annotation_non_deferred: ok

	class F {}
	class G2<T> {}

	main() {
	lib.C a = null; /// type_annotation_null: static type warning
	Expect.throws(() { /// new_before_load: static type warning
	lib.C a = new lib.C(); /// new_before_load: continued
	}, (e) => e is Error); /// new_before_load: continued

	// In this case we do not defer C.
	lib2.C a1 = new lib2.C(); /// type_annotation_non_deferred: continued
	asyncStart();
	lib.loadLibrary().then((_) {
	lib.C a2 = new lib.C(); /// type_annotation1: dynamic type error, static type warning
	lib.G<F> a3 = new lib.G<F>(); /// type_annotation_generic1: dynamic type error, static type warning
	G2<lib.C> a4 = new G2(); /// type_annotation_generic2: static type warning
	G2<lib.C> a5 = new G2<lib.C>(); /// type_annotation_generic3: static type warning
	lib.G<lib.C> a = new lib.G<lib.C>(); /// type_annotation_generic4: dynamic type error, static type warning
	var a6 = new lib.C(); /// new: ok
	var g1 = new lib.G<F>(); /// new_generic1: ok
	// new G2<lib.C>() does not give a dynamic type error because a malformed
	// type used as type-parameter is treated as dynamic.
	var g2 = new G2<lib.C>(); /// new_generic2: static type warning
	var g3 = new lib.G<lib.C>(); /// new_generic3: static type warning
	var instance = lib.constantInstance;
	Expect.throws(() { /// is_check: static type warning
	bool a7 = instance is lib.Const; /// is_check: continued
	}, (e) => e is TypeError); /// is_check: continued
	Expect.throws(() { /// as_operation: static type warning
	instance as lib.Const; /// as_operation: continued
	}, (e) => e is TypeError); /// as_operation: continued
	Expect.throws(() { /// catch_check: static type warning
	try { throw instance; } on lib.Const {} /// catch_check: continued
	}, (e) => e is TypeError); /// catch_check: continued
	int i = lib.C.staticMethod(); /// static_method: ok
	asyncEnd();
	});
	}

	lib.C a9 = null; /// type_annotation_top_level: static type warning