pkg/analyzer/test/src/diagnostics/inconsistent_inheritance_test.dart - sdk.git - Git at Google

 // Copyright (c) 2020, 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:analyzer/src/error/codes.dart';
 import 'package:test_reflective_loader/test_reflective_loader.dart';

 import '../dart/resolution/context_collection_resolution.dart';

 main() {
   defineReflectiveSuite(() {
     defineReflectiveTests(InconsistentInheritanceTest);
   });
 }

 @reflectiveTest
 class InconsistentInheritanceTest extends PubPackageResolutionTest {
   /// https://github.com/dart-lang/sdk/issues/47026
   test_class_covariantInSuper_withTwoUnrelated() async {
     await assertErrorsInCode('''
 class D1 {}
 class D2 {}
 class D implements D1, D2 {}

 class A { void m(covariant D d) {} }
 abstract class B1 { void m(D1 d1); }
 abstract class B2 { void m(D2 d2); }
 class C extends A implements B1, B2 {}
 ''', [
       error(CompileTimeErrorCode.INCONSISTENT_INHERITANCE, 171, 1),
     ]);
   }

   test_class_parameterType() async {
     await assertErrorsInCode(r'''
 abstract class A {
   void m(int i);
 }
 abstract class B {
   void m(String s);
 }
 abstract class C implements A, B {}
 ''', [
       error(CompileTimeErrorCode.INCONSISTENT_INHERITANCE, 94, 1),
     ]);
   }

   test_class_parameterType_inheritedFromBase() async {
     await assertErrorsInCode(r'''
 abstract class A {
   void m(int i);
 }
 abstract class B {
   void m(String s);
 }
 abstract class C extends B implements A {}
 ''', [
       error(CompileTimeErrorCode.INCONSISTENT_INHERITANCE, 94, 1),
     ]);
   }

   test_class_parameterType_inheritedInInterface() async {
     await assertErrorsInCode(r'''
 abstract class A {
   void m(int i);
 }
 abstract class B {
   void m(String s);
 }
 abstract class B2 extends B {}
 abstract class C implements A, B2 {}
 ''', [
       error(CompileTimeErrorCode.INCONSISTENT_INHERITANCE, 125, 1),
     ]);
   }

   test_class_parameterType_inheritedInInterface_andMixin() async {
     await assertErrorsInCode(r'''
 abstract class A {
   void m(int i);
 }
 abstract class B {
   void m(String s);
 }
 abstract class B2 extends B {}
 abstract class C extends Object with A implements B2 {}
 ''', [
       error(CompileTimeErrorCode.INCONSISTENT_INHERITANCE, 125, 1),
     ]);
   }

   test_class_parameterType_inheritedInInterface_andMixinApplication() async {
     await assertErrorsInCode(r'''
 abstract class A {
   void m(int i);
 }
 abstract class B {
   void m(String s);
 }
 abstract class B2 extends B {}
 abstract class C = Object with A implements B2;
 ''', [
       error(CompileTimeErrorCode.INCONSISTENT_INHERITANCE, 125, 1),
     ]);
   }

   test_class_parameterType_mixedIntoInterface() async {
     await assertErrorsInCode(r'''
 abstract class A {
   void m(int i);
 }
 abstract class B {
   void m(String s);
 }
 abstract class B2 extends Object with B {}
 abstract class C implements A, B2 {}
 ''', [
       error(CompileTimeErrorCode.INCONSISTENT_INHERITANCE, 137, 1),
     ]);
   }

   test_class_parameterType_mixedIntoInterface_andMixin() async {
     await assertErrorsInCode(r'''
 abstract class A {
   void m(int i);
 }
 abstract class B {
   void m(String s);
 }
 abstract class B2 extends Object with B {}
 abstract class C extends Object with A implements B2 {}
 ''', [
       error(CompileTimeErrorCode.INCONSISTENT_INHERITANCE, 137, 1),
     ]);
   }

   test_class_parameterType_twoConflictingInterfaces() async {
     await assertErrorsInCode(r'''
 abstract class A {
   void m(int i);
 }
 abstract class B {
   void m(String s);
 }
 abstract class C {
   void n(String s);
 }
 abstract class D implements A, B, C {}
 ''', [
       error(CompileTimeErrorCode.INCONSISTENT_INHERITANCE, 135, 1),
     ]);
   }

   test_class_requiredParameters() async {
     await assertErrorsInCode(r'''
 abstract class A {
   void m();
 }
 abstract class B {
   void m(int y);
 }
 abstract class C implements A, B {}
 ''', [
       error(CompileTimeErrorCode.INCONSISTENT_INHERITANCE, 86, 1),
     ]);
   }

   test_class_returnType() async {
     await assertErrorsInCode(r'''
 abstract class A {
   int m();
 }
 abstract class B {
   String m();
 }
 abstract class C implements A, B {}
 ''', [
       error(CompileTimeErrorCode.INCONSISTENT_INHERITANCE, 82, 1),
     ]);
   }

   test_mixin_implements_parameterType() async {
     await assertErrorsInCode(r'''
 abstract class A {
   void m(int i);
 }
 abstract class B {
   void m(String s);
 }
 mixin M implements A, B {}
 ''', [
       error(CompileTimeErrorCode.INCONSISTENT_INHERITANCE, 85, 1),
     ]);
   }

   test_mixin_implements_requiredParameters() async {
     await assertErrorsInCode(r'''
 abstract class A {
   void m();
 }
 abstract class B {
   void m(int y);
 }
 mixin M implements A, B {}
 ''', [
       error(CompileTimeErrorCode.INCONSISTENT_INHERITANCE, 77, 1),
     ]);
   }

   test_mixin_implements_returnType() async {
     await assertErrorsInCode(r'''
 abstract class A {
   int m();
 }
 abstract class B {
   String m();
 }
 mixin M implements A, B {}
 ''', [
       error(CompileTimeErrorCode.INCONSISTENT_INHERITANCE, 73, 1),
     ]);
   }

   test_mixin_on_parameterType() async {
     await assertErrorsInCode(r'''
 abstract class A {
   void m(int i);
 }
 abstract class B {
   void m(String s);
 }
 mixin M on A, B {}
 ''', [
       error(CompileTimeErrorCode.INCONSISTENT_INHERITANCE, 85, 1),
     ]);
   }

   test_mixin_on_requiredParameters() async {
     await assertErrorsInCode(r'''
 abstract class A {
   void m();
 }
 abstract class B {
   void m(int y);
 }
 mixin M on A, B {}
 ''', [
       error(CompileTimeErrorCode.INCONSISTENT_INHERITANCE, 77, 1),
     ]);
   }

   test_mixin_on_returnType() async {
     await assertErrorsInCode(r'''
 abstract class A {
   int m();
 }
 abstract class B {
   String m();
 }
 mixin M on A, B {}
 ''', [
       error(CompileTimeErrorCode.INCONSISTENT_INHERITANCE, 73, 1),
     ]);
   }

   test_overrideWithDynamicParameterType_inheritsAndInterface() async {
     await assertNoErrorsInCode('''
 class B {
   void m(int i) {}
 }

 class I {
   void m(String s) {}
 }

 class C extends B implements I {
   void m(dynamic d) {}
 }
 ''');
   }

   test_overrideWithDynamicParameterType_mixinAndInterface() async {
     await assertNoErrorsInCode('''
 class B {
   void m(int i) {}
 }

 class I {
   void m(String s) {}
 }

 class C extends Object with B implements I {
   void m(dynamic d) {}
 }
 ''');
   }
 }
	// Copyright (c) 2020, 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:analyzer/src/error/codes.dart';
	import 'package:test_reflective_loader/test_reflective_loader.dart';

	import '../dart/resolution/context_collection_resolution.dart';

	main() {
	defineReflectiveSuite(() {
	defineReflectiveTests(InconsistentInheritanceTest);
	});
	}

	@reflectiveTest
	class InconsistentInheritanceTest extends PubPackageResolutionTest {
	/// https://github.com/dart-lang/sdk/issues/47026
	test_class_covariantInSuper_withTwoUnrelated() async {
	await assertErrorsInCode('''
	class D1 {}
	class D2 {}
	class D implements D1, D2 {}

	class A { void m(covariant D d) {} }
	abstract class B1 { void m(D1 d1); }
	abstract class B2 { void m(D2 d2); }
	class C extends A implements B1, B2 {}
	''', [
	error(CompileTimeErrorCode.INCONSISTENT_INHERITANCE, 171, 1),
	]);
	}

	test_class_parameterType() async {
	await assertErrorsInCode(r'''
	abstract class A {
	void m(int i);
	}
	abstract class B {
	void m(String s);
	}
	abstract class C implements A, B {}
	''', [
	error(CompileTimeErrorCode.INCONSISTENT_INHERITANCE, 94, 1),
	]);
	}

	test_class_parameterType_inheritedFromBase() async {
	await assertErrorsInCode(r'''
	abstract class A {
	void m(int i);
	}
	abstract class B {
	void m(String s);
	}
	abstract class C extends B implements A {}
	''', [
	error(CompileTimeErrorCode.INCONSISTENT_INHERITANCE, 94, 1),
	]);
	}

	test_class_parameterType_inheritedInInterface() async {
	await assertErrorsInCode(r'''
	abstract class A {
	void m(int i);
	}
	abstract class B {
	void m(String s);
	}
	abstract class B2 extends B {}
	abstract class C implements A, B2 {}
	''', [
	error(CompileTimeErrorCode.INCONSISTENT_INHERITANCE, 125, 1),
	]);
	}

	test_class_parameterType_inheritedInInterface_andMixin() async {
	await assertErrorsInCode(r'''
	abstract class A {
	void m(int i);
	}
	abstract class B {
	void m(String s);
	}
	abstract class B2 extends B {}
	abstract class C extends Object with A implements B2 {}
	''', [
	error(CompileTimeErrorCode.INCONSISTENT_INHERITANCE, 125, 1),
	]);
	}

	test_class_parameterType_inheritedInInterface_andMixinApplication() async {
	await assertErrorsInCode(r'''
	abstract class A {
	void m(int i);
	}
	abstract class B {
	void m(String s);
	}
	abstract class B2 extends B {}
	abstract class C = Object with A implements B2;
	''', [
	error(CompileTimeErrorCode.INCONSISTENT_INHERITANCE, 125, 1),
	]);
	}

	test_class_parameterType_mixedIntoInterface() async {
	await assertErrorsInCode(r'''
	abstract class A {
	void m(int i);
	}
	abstract class B {
	void m(String s);
	}
	abstract class B2 extends Object with B {}
	abstract class C implements A, B2 {}
	''', [
	error(CompileTimeErrorCode.INCONSISTENT_INHERITANCE, 137, 1),
	]);
	}

	test_class_parameterType_mixedIntoInterface_andMixin() async {
	await assertErrorsInCode(r'''
	abstract class A {
	void m(int i);
	}
	abstract class B {
	void m(String s);
	}
	abstract class B2 extends Object with B {}
	abstract class C extends Object with A implements B2 {}
	''', [
	error(CompileTimeErrorCode.INCONSISTENT_INHERITANCE, 137, 1),
	]);
	}

	test_class_parameterType_twoConflictingInterfaces() async {
	await assertErrorsInCode(r'''
	abstract class A {
	void m(int i);
	}
	abstract class B {
	void m(String s);
	}
	abstract class C {
	void n(String s);
	}
	abstract class D implements A, B, C {}
	''', [
	error(CompileTimeErrorCode.INCONSISTENT_INHERITANCE, 135, 1),
	]);
	}

	test_class_requiredParameters() async {
	await assertErrorsInCode(r'''
	abstract class A {
	void m();
	}
	abstract class B {
	void m(int y);
	}
	abstract class C implements A, B {}
	''', [
	error(CompileTimeErrorCode.INCONSISTENT_INHERITANCE, 86, 1),
	]);
	}

	test_class_returnType() async {
	await assertErrorsInCode(r'''
	abstract class A {
	int m();
	}
	abstract class B {
	String m();
	}
	abstract class C implements A, B {}
	''', [
	error(CompileTimeErrorCode.INCONSISTENT_INHERITANCE, 82, 1),
	]);
	}

	test_mixin_implements_parameterType() async {
	await assertErrorsInCode(r'''
	abstract class A {
	void m(int i);
	}
	abstract class B {
	void m(String s);
	}
	mixin M implements A, B {}
	''', [
	error(CompileTimeErrorCode.INCONSISTENT_INHERITANCE, 85, 1),
	]);
	}

	test_mixin_implements_requiredParameters() async {
	await assertErrorsInCode(r'''
	abstract class A {
	void m();
	}
	abstract class B {
	void m(int y);
	}
	mixin M implements A, B {}
	''', [
	error(CompileTimeErrorCode.INCONSISTENT_INHERITANCE, 77, 1),
	]);
	}

	test_mixin_implements_returnType() async {
	await assertErrorsInCode(r'''
	abstract class A {
	int m();
	}
	abstract class B {
	String m();
	}
	mixin M implements A, B {}
	''', [
	error(CompileTimeErrorCode.INCONSISTENT_INHERITANCE, 73, 1),
	]);
	}

	test_mixin_on_parameterType() async {
	await assertErrorsInCode(r'''
	abstract class A {
	void m(int i);
	}
	abstract class B {
	void m(String s);
	}
	mixin M on A, B {}
	''', [
	error(CompileTimeErrorCode.INCONSISTENT_INHERITANCE, 85, 1),
	]);
	}

	test_mixin_on_requiredParameters() async {
	await assertErrorsInCode(r'''
	abstract class A {
	void m();
	}
	abstract class B {
	void m(int y);
	}
	mixin M on A, B {}
	''', [
	error(CompileTimeErrorCode.INCONSISTENT_INHERITANCE, 77, 1),
	]);
	}

	test_mixin_on_returnType() async {
	await assertErrorsInCode(r'''
	abstract class A {
	int m();
	}
	abstract class B {
	String m();
	}
	mixin M on A, B {}
	''', [
	error(CompileTimeErrorCode.INCONSISTENT_INHERITANCE, 73, 1),
	]);
	}

	test_overrideWithDynamicParameterType_inheritsAndInterface() async {
	await assertNoErrorsInCode('''
	class B {
	void m(int i) {}
	}

	class I {
	void m(String s) {}
	}

	class C extends B implements I {
	void m(dynamic d) {}
	}
	''');
	}

	test_overrideWithDynamicParameterType_mixinAndInterface() async {
	await assertNoErrorsInCode('''
	class B {
	void m(int i) {}
	}

	class I {
	void m(String s) {}
	}

	class C extends Object with B implements I {
	void m(dynamic d) {}
	}
	''');
	}
	}