tests/lib/html/js_typed_interop_lazy_test.dart - sdk.git - Git at Google

 // Copyright (c) 2015, 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.

 @JS()
 library js_typed_interop_lazy_test;

 import 'dart:html';

 import 'package:js/js.dart';
 import 'package:js/js_util.dart' as js_util;
 import 'package:expect/minitest.dart';

 @JS('someProperty')
 external get foo;

 @JS('baz.bar')
 external get bar;

 @JS('baz.LazyClass')
 class LazyClass {
   external factory LazyClass(a);
   external get a;
 }

 @JS('baz.foo.NestedLazyClass')
 class NestedLazyClass {
   external factory NestedLazyClass(a);
   external get a;
 }

 @anonymous
 @JS('some.bogus.ignored.js.path')
 class AnonClass {
   external factory AnonClass({a});
   external get a;
 }

 @anonymous
 @JS()
 class AnonClass2 {
   external factory AnonClass2({b});
   external get b;
 }

 abstract class Foo<T> {
   T get obj;
 }

 class Mock1LazyClass implements LazyClass {
   noSuchMethod(Invocation i) => i.memberName == #a ? 42 : null;
 }

 class Mock2LazyClass implements LazyClass {
   get a => 42;
 }

 class Mock1NestedLazyClass implements NestedLazyClass {
   noSuchMethod(Invocation i) => i.memberName == #a ? 42 : null;
 }

 class Mock2NestedLazyClass implements NestedLazyClass {
   get a => 42;
 }

 class Other {
   noSuchMethod(Invocation i) {}
 }

 // Test that the lazy JS classes can be used as a generic type argument.
 class FooImpl extends Foo<LazyClass> {
   LazyClass get obj => new LazyClass(100);
 }

 class NestedFooImpl extends Foo<NestedLazyClass> {
   NestedLazyClass get obj => new NestedLazyClass(100);
 }

 class ExampleGenericClass<T> {
   String add(T foo) {
     return foo.toString();
   }
 }

 main() {
   group('lazy property', () {
     test('simple', () {
       expect(foo, isNull);
       js_util.setProperty(window, 'someProperty', 42);
       expect(foo, equals(42));
     });

     test('nested', () {
       js_util.setProperty(window, 'baz', js_util.newObject());
       expect(bar, isNull);
       js_util.setProperty(window, 'baz', js_util.jsify({'bar': 100}));
       expect(bar, equals(100));
     });
   });

   group('lazy class', () {
     test('type literal', () {
       // Fine because we can determine the class literals are equal without
       // having to determine what (non-existant) JS type they correspond to.
       var x = LazyClass;
       var y = LazyClass;
       expect(x == y, isTrue);
     });

     test('reference in type parameter', () {
       var o = new FooImpl();
       expect(o is Foo<LazyClass>, isTrue);
     });

     test('create instance', () {
       var anon = new AnonClass(a: 42);
       // Until LazyClass is defined, fall back to Anon behavior.
       expect(anon is LazyClass, isTrue); //# 01: ok
       expect(new Object() is! LazyClass, isTrue);

       document.body!.append(new ScriptElement()
         ..type = 'text/javascript'
         ..innerHtml = r"""
 window.baz = {};

 baz.LazyClass = function LazyClass(a) {
   this.a = a;
 };
 """);
       var l = new LazyClass(42);
       expect(l.a, equals(42));
       expect(l is LazyClass, isTrue);
       expect(l is AnonClass, isTrue);
       expect((l as AnonClass) == l, isTrue);
       expect((l as AnonClass2) == l, isTrue);
       expect(anon is AnonClass, isTrue);
       expect(anon is AnonClass2, isTrue);

       // Sanity check that is and as are not broken.
       expect(new Object() is! LazyClass, isTrue);
       expect(new Object() is! AnonClass, isTrue);
       expect(new Object() is! AnonClass2, isTrue);

       expect(<AnonClass>[] is List<AnonClass>, isTrue);
       // TODO(jacobr): why doesn't this test pass?
       // expect(<AnonClass>[] is List<AnonClass2>, isTrue);
       expect(<int>[] is! List<AnonClass>, isTrue);
       expect(<AnonClass>[] is! List<LazyClass>, isTrue); //# 01: ok
       expect(<int>[] is! List<LazyClass>, isTrue);
       expect(<LazyClass>[] is List<LazyClass>, isTrue);

       var listLazyClass = <LazyClass?>[];
       Object instanceLazyObject = l;
       expect(() => listLazyClass.add(42 as dynamic), throws); //# 01: ok
       // Regression test for bug where this call failed.
       listLazyClass.add(instanceLazyObject as LazyClass?);
       listLazyClass.add(null);

       dynamic listLazyClassDynamic = listLazyClass;
       expect(() => listLazyClassDynamic.add(42), throws); //# 01: ok
       // Regression test for bug where this call failed.
       listLazyClassDynamic.add(instanceLazyObject);
       listLazyClassDynamic.add(null);

       var genericClass = new ExampleGenericClass<LazyClass?>();
       genericClass.add(instanceLazyObject as LazyClass?);
       expect(() => genericClass.add(42 as dynamic), throws); //# 01: ok
       genericClass.add(null);

       dynamic genericClassDynamic = genericClass;
       genericClassDynamic.add(instanceLazyObject);
       expect(() => genericClassDynamic.add(42), throws); //# 01: ok
       genericClassDynamic.add(null);
     });

     test('mocks', () {
       var mock1 = new Mock1LazyClass();
       expect(mock1 is LazyClass, isTrue);
       expect((mock1 as dynamic) as LazyClass, equals(mock1));
       expect(mock1.a, equals(42));

       var mock2 = new Mock2LazyClass();
       expect(mock2 is LazyClass, isTrue);
       expect((mock2 as dynamic) as LazyClass, equals(mock2));
       expect(mock2.a, equals(42));

       Object other = new Other();
       expect(other is LazyClass, isFalse);
     });
   });

   group('nested lazy class', () {
     test('type literal', () {
       // Fine because we can determine the class literals are equal without
       // having to determine what (non-existant) JS type they correspond to.
       var x = NestedLazyClass;
       var y = NestedLazyClass;
       expect(x == y, isTrue);
     });

     test('reference in type parameter', () {
       var o = new NestedFooImpl();
       expect(o is Foo<NestedLazyClass>, isTrue);
     });

     test('create instance', () {
       var anon = new AnonClass(a: 42);
       // Until NestedLazyClass is defined, fall back to Anon behavior.
       expect(anon is NestedLazyClass, isTrue); //# 01: ok
       expect(new Object() is! NestedLazyClass, isTrue);

       document.body!.append(new ScriptElement()
         ..type = 'text/javascript'
         ..innerHtml = r"""
 window.baz = window.baz || {};
 window.baz.foo = {};

 baz.foo.NestedLazyClass = function NestedLazyClass(a) {
   this.a = a;
 };
 """);
       var l = new NestedLazyClass(42);
       expect(l.a, equals(42));
       expect(l is NestedLazyClass, isTrue);
       expect(l is AnonClass, isTrue);
       expect((l as AnonClass) == l, isTrue);
       expect((l as AnonClass2) == l, isTrue);
       expect(anon is AnonClass, isTrue);
       expect(anon is AnonClass2, isTrue);

       // Sanity check that is and as are not broken.
       expect(new Object() is! NestedLazyClass, isTrue);
       expect(new Object() is! AnonClass, isTrue);
       expect(new Object() is! AnonClass2, isTrue);

       expect(<AnonClass>[] is List<AnonClass>, isTrue);
       // TODO(jacobr): why doesn't this test pass?
       // expect(<AnonClass>[] is List<AnonClass2>, isTrue);
       expect(<int>[] is! List<AnonClass>, isTrue);
       expect(<AnonClass>[] is! List<NestedLazyClass>, isTrue); //# 01: ok
       expect(<int>[] is! List<NestedLazyClass>, isTrue);
       expect(<NestedLazyClass>[] is List<NestedLazyClass>, isTrue);

       var listLazyClass = <NestedLazyClass?>[];
       Object instanceLazyObject = l;
       expect(() => listLazyClass.add(42 as dynamic), throws); //# 01: ok
       // Regression test for bug where this call failed.
       listLazyClass.add(instanceLazyObject as NestedLazyClass?);
       listLazyClass.add(null);

       dynamic listLazyClassDynamic = listLazyClass;
       expect(() => listLazyClassDynamic.add(42), throws); //# 01: ok
       // Regression test for bug where this call failed.
       listLazyClassDynamic.add(instanceLazyObject);
       listLazyClassDynamic.add(null);

       var genericClass = new ExampleGenericClass<NestedLazyClass?>();
       genericClass.add(instanceLazyObject as NestedLazyClass?);
       expect(() => genericClass.add(42 as dynamic), throws); //# 01: ok
       genericClass.add(null);

       dynamic genericClassDynamic = genericClass;
       genericClassDynamic.add(instanceLazyObject);
       expect(() => genericClassDynamic.add(42), throws); //# 01: ok
       genericClassDynamic.add(null);
     });

     test('mocks', () {
       var mock1 = new Mock1NestedLazyClass();
       expect(mock1 is NestedLazyClass, isTrue);
       expect((mock1 as dynamic) as NestedLazyClass, equals(mock1));
       expect(mock1.a, equals(42));

       var mock2 = new Mock2NestedLazyClass();
       expect(mock2 is NestedLazyClass, isTrue);
       expect((mock2 as dynamic) as NestedLazyClass, equals(mock2));
       expect(mock2.a, equals(42));

       Object other = new Other();
       expect(other is NestedLazyClass, isFalse);
     });
   });
 }
	// Copyright (c) 2015, 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.

	@JS()
	library js_typed_interop_lazy_test;

	import 'dart:html';

	import 'package:js/js.dart';
	import 'package:js/js_util.dart' as js_util;
	import 'package:expect/minitest.dart';

	@JS('someProperty')
	external get foo;

	@JS('baz.bar')
	external get bar;

	@JS('baz.LazyClass')
	class LazyClass {
	external factory LazyClass(a);
	external get a;
	}

	@JS('baz.foo.NestedLazyClass')
	class NestedLazyClass {
	external factory NestedLazyClass(a);
	external get a;
	}

	@anonymous
	@JS('some.bogus.ignored.js.path')
	class AnonClass {
	external factory AnonClass({a});
	external get a;
	}

	@anonymous
	@JS()
	class AnonClass2 {
	external factory AnonClass2({b});
	external get b;
	}

	abstract class Foo<T> {
	T get obj;
	}

	class Mock1LazyClass implements LazyClass {
	noSuchMethod(Invocation i) => i.memberName == #a ? 42 : null;
	}

	class Mock2LazyClass implements LazyClass {
	get a => 42;
	}

	class Mock1NestedLazyClass implements NestedLazyClass {
	noSuchMethod(Invocation i) => i.memberName == #a ? 42 : null;
	}

	class Mock2NestedLazyClass implements NestedLazyClass {
	get a => 42;
	}

	class Other {
	noSuchMethod(Invocation i) {}
	}

	// Test that the lazy JS classes can be used as a generic type argument.
	class FooImpl extends Foo<LazyClass> {
	LazyClass get obj => new LazyClass(100);
	}

	class NestedFooImpl extends Foo<NestedLazyClass> {
	NestedLazyClass get obj => new NestedLazyClass(100);
	}

	class ExampleGenericClass<T> {
	String add(T foo) {
	return foo.toString();
	}
	}

	main() {
	group('lazy property', () {
	test('simple', () {
	expect(foo, isNull);
	js_util.setProperty(window, 'someProperty', 42);
	expect(foo, equals(42));
	});

	test('nested', () {
	js_util.setProperty(window, 'baz', js_util.newObject());
	expect(bar, isNull);
	js_util.setProperty(window, 'baz', js_util.jsify({'bar': 100}));
	expect(bar, equals(100));
	});
	});

	group('lazy class', () {
	test('type literal', () {
	// Fine because we can determine the class literals are equal without
	// having to determine what (non-existant) JS type they correspond to.
	var x = LazyClass;
	var y = LazyClass;
	expect(x == y, isTrue);
	});

	test('reference in type parameter', () {
	var o = new FooImpl();
	expect(o is Foo<LazyClass>, isTrue);
	});

	test('create instance', () {
	var anon = new AnonClass(a: 42);
	// Until LazyClass is defined, fall back to Anon behavior.
	expect(anon is LazyClass, isTrue); //# 01: ok
	expect(new Object() is! LazyClass, isTrue);

	document.body!.append(new ScriptElement()
	..type = 'text/javascript'
	..innerHtml = r"""
	window.baz = {};

	baz.LazyClass = function LazyClass(a) {
	this.a = a;
	};
	""");
	var l = new LazyClass(42);
	expect(l.a, equals(42));
	expect(l is LazyClass, isTrue);
	expect(l is AnonClass, isTrue);
	expect((l as AnonClass) == l, isTrue);
	expect((l as AnonClass2) == l, isTrue);
	expect(anon is AnonClass, isTrue);
	expect(anon is AnonClass2, isTrue);

	// Sanity check that is and as are not broken.
	expect(new Object() is! LazyClass, isTrue);
	expect(new Object() is! AnonClass, isTrue);
	expect(new Object() is! AnonClass2, isTrue);

	expect(<AnonClass>[] is List<AnonClass>, isTrue);
	// TODO(jacobr): why doesn't this test pass?
	// expect(<AnonClass>[] is List<AnonClass2>, isTrue);
	expect(<int>[] is! List<AnonClass>, isTrue);
	expect(<AnonClass>[] is! List<LazyClass>, isTrue); //# 01: ok
	expect(<int>[] is! List<LazyClass>, isTrue);
	expect(<LazyClass>[] is List<LazyClass>, isTrue);

	var listLazyClass = <LazyClass?>[];
	Object instanceLazyObject = l;
	expect(() => listLazyClass.add(42 as dynamic), throws); //# 01: ok
	// Regression test for bug where this call failed.
	listLazyClass.add(instanceLazyObject as LazyClass?);
	listLazyClass.add(null);

	dynamic listLazyClassDynamic = listLazyClass;
	expect(() => listLazyClassDynamic.add(42), throws); //# 01: ok
	// Regression test for bug where this call failed.
	listLazyClassDynamic.add(instanceLazyObject);
	listLazyClassDynamic.add(null);

	var genericClass = new ExampleGenericClass<LazyClass?>();
	genericClass.add(instanceLazyObject as LazyClass?);
	expect(() => genericClass.add(42 as dynamic), throws); //# 01: ok
	genericClass.add(null);

	dynamic genericClassDynamic = genericClass;
	genericClassDynamic.add(instanceLazyObject);
	expect(() => genericClassDynamic.add(42), throws); //# 01: ok
	genericClassDynamic.add(null);
	});

	test('mocks', () {
	var mock1 = new Mock1LazyClass();
	expect(mock1 is LazyClass, isTrue);
	expect((mock1 as dynamic) as LazyClass, equals(mock1));
	expect(mock1.a, equals(42));

	var mock2 = new Mock2LazyClass();
	expect(mock2 is LazyClass, isTrue);
	expect((mock2 as dynamic) as LazyClass, equals(mock2));
	expect(mock2.a, equals(42));

	Object other = new Other();
	expect(other is LazyClass, isFalse);
	});
	});

	group('nested lazy class', () {
	test('type literal', () {
	// Fine because we can determine the class literals are equal without
	// having to determine what (non-existant) JS type they correspond to.
	var x = NestedLazyClass;
	var y = NestedLazyClass;
	expect(x == y, isTrue);
	});

	test('reference in type parameter', () {
	var o = new NestedFooImpl();
	expect(o is Foo<NestedLazyClass>, isTrue);
	});

	test('create instance', () {
	var anon = new AnonClass(a: 42);
	// Until NestedLazyClass is defined, fall back to Anon behavior.
	expect(anon is NestedLazyClass, isTrue); //# 01: ok
	expect(new Object() is! NestedLazyClass, isTrue);

	document.body!.append(new ScriptElement()
	..type = 'text/javascript'
	..innerHtml = r"""
	window.baz = window.baz \|\| {};
	window.baz.foo = {};

	baz.foo.NestedLazyClass = function NestedLazyClass(a) {
	this.a = a;
	};
	""");
	var l = new NestedLazyClass(42);
	expect(l.a, equals(42));
	expect(l is NestedLazyClass, isTrue);
	expect(l is AnonClass, isTrue);
	expect((l as AnonClass) == l, isTrue);
	expect((l as AnonClass2) == l, isTrue);
	expect(anon is AnonClass, isTrue);
	expect(anon is AnonClass2, isTrue);

	// Sanity check that is and as are not broken.
	expect(new Object() is! NestedLazyClass, isTrue);
	expect(new Object() is! AnonClass, isTrue);
	expect(new Object() is! AnonClass2, isTrue);

	expect(<AnonClass>[] is List<AnonClass>, isTrue);
	// TODO(jacobr): why doesn't this test pass?
	// expect(<AnonClass>[] is List<AnonClass2>, isTrue);
	expect(<int>[] is! List<AnonClass>, isTrue);
	expect(<AnonClass>[] is! List<NestedLazyClass>, isTrue); //# 01: ok
	expect(<int>[] is! List<NestedLazyClass>, isTrue);
	expect(<NestedLazyClass>[] is List<NestedLazyClass>, isTrue);

	var listLazyClass = <NestedLazyClass?>[];
	Object instanceLazyObject = l;
	expect(() => listLazyClass.add(42 as dynamic), throws); //# 01: ok
	// Regression test for bug where this call failed.
	listLazyClass.add(instanceLazyObject as NestedLazyClass?);
	listLazyClass.add(null);

	dynamic listLazyClassDynamic = listLazyClass;
	expect(() => listLazyClassDynamic.add(42), throws); //# 01: ok
	// Regression test for bug where this call failed.
	listLazyClassDynamic.add(instanceLazyObject);
	listLazyClassDynamic.add(null);

	var genericClass = new ExampleGenericClass<NestedLazyClass?>();
	genericClass.add(instanceLazyObject as NestedLazyClass?);
	expect(() => genericClass.add(42 as dynamic), throws); //# 01: ok
	genericClass.add(null);

	dynamic genericClassDynamic = genericClass;
	genericClassDynamic.add(instanceLazyObject);
	expect(() => genericClassDynamic.add(42), throws); //# 01: ok
	genericClassDynamic.add(null);
	});

	test('mocks', () {
	var mock1 = new Mock1NestedLazyClass();
	expect(mock1 is NestedLazyClass, isTrue);
	expect((mock1 as dynamic) as NestedLazyClass, equals(mock1));
	expect(mock1.a, equals(42));

	var mock2 = new Mock2NestedLazyClass();
	expect(mock2 is NestedLazyClass, isTrue);
	expect((mock2 as dynamic) as NestedLazyClass, equals(mock2));
	expect(mock2.a, equals(42));

	Object other = new Other();
	expect(other is NestedLazyClass, isFalse);
	});
	});
	}