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

 // Copyright (c) 2019, 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(UnusedFieldTest);
   });
 }

 @reflectiveTest
 class UnusedFieldTest extends PubPackageResolutionTest {
   @override
   bool get enableUnusedElement => true;

   test_isUsed_argument() async {
     await assertNoErrorsInCode(r'''
 class A {
   int _f = 0;
   main() {
     print(++_f);
   }
 }
 print(x) {}
 ''');
   }

   test_isUsed_extensionOnClass() async {
     await assertNoErrorsInCode(r'''
 class Foo {}
 extension Bar on Foo {
   int baz() => _baz;
   static final _baz = 7;
 }
 ''');
   }

   test_isUsed_extensionOnEnum() async {
     await assertNoErrorsInCode(r'''
 enum Foo {a, b}
 extension Bar on Foo {
   int baz() => _baz;
   static final _baz = 1;
 }
 ''');
   }

   test_isUsed_mixin() async {
     await assertNoErrorsInCode(r'''
 mixin M {
   int _f = 0;
 }
 class Bar with M {
   int g() => _f;
 }
 ''');
   }

   test_isUsed_mixinRestriction() async {
     await assertNoErrorsInCode(r'''
 class Foo {
   int _f = 0;
 }
 mixin M on Foo {
   int g() => _f;
 }
 ''');
   }

   test_isUsed_parameterized_subclass() async {
     await assertNoErrorsInCode(r'''
 class A<T extends num> {
   T _f;
   A._(this._f);
 }
 class B extends A<int> {
   B._(int f) : super._(f);
 }
 void main() {
   B b = B._(7);
   print(b._f == 7);
 }
 ''');
   }

   test_isUsed_privateEnum_publicValue() async {
     await assertNoErrorsInCode(r'''
 enum _Foo {a, b}
 f() => print('${_Foo.a}${_Foo.b}');
 ''');
   }

   test_isUsed_privateEnum_values() async {
     await assertNoErrorsInCode(r'''
 enum _Foo {a}
 f() => _Foo.values;
 ''');
   }

   test_isUsed_publicEnum_privateValue() async {
     await assertNoErrorsInCode(r'''
 enum Foo {_a, _b}
 f() => print('${Foo._a}${Foo._b}');
 ''');
   }

   test_isUsed_publicStaticField_privateClass() async {
     await assertNoErrorsInCode(r'''
 class _A {
   static String f1 = "x";
 }
 void main() => print(_A.f1);
 ''');
   }

   test_isUsed_publicStaticField_privateExtension() async {
     await assertNoErrorsInCode(r'''
 extension _A on String {
   static String f1 = "x";
 }
 void main() => print(_A.f1);
 ''');
   }

   test_isUsed_publicStaticField_privateMixin() async {
     await assertNoErrorsInCode(r'''
 mixin _A {
   static String f1 = "x";
 }
 void main() => print(_A.f1);
 ''');
   }

   test_isUsed_reference_implicitThis() async {
     await assertNoErrorsInCode(r'''
 class A {
   int _f;
   main() {
     print(_f);
   }
 }
 print(x) {}
 ''');
   }

   test_isUsed_reference_implicitThis_expressionFunctionBody() async {
     await assertNoErrorsInCode(r'''
 class A {
   int _f;
   m() => _f;
 }
 ''');
   }

   test_isUsed_reference_implicitThis_subclass() async {
     await assertNoErrorsInCode(r'''
 class A {
   int _f;
   main() {
     print(_f);
   }
 }
 class B extends A {
   int _f;
 }
 print(x) {}
 ''');
   }

   test_isUsed_reference_qualified_propagatedElement() async {
     await assertNoErrorsInCode(r'''
 class A {
   int _f;
 }
 main() {
   var a = new A();
   print(a._f);
 }
 print(x) {}
 ''');
   }

   test_isUsed_reference_qualified_staticElement() async {
     await assertNoErrorsInCode(r'''
 class A {
   int _f;
 }
 main() {
   A a = new A();
   print(a._f);
 }
 print(x) {}
 ''');
   }

   test_isUsed_reference_qualified_unresolved() async {
     await assertNoErrorsInCode(r'''
 class A {
   int _f;
 }
 main(a) {
   print(a._f);
 }
 print(x) {}
 ''');
   }

   test_notUsed_compoundAssign() async {
     await assertErrorsInCode(r'''
 class A {
   int _f;
   main() {
     _f += 2;
   }
 }
 ''', [
       error(HintCode.UNUSED_FIELD, 16, 2),
     ]);
   }

   test_notUsed_constructorFieldInitializers() async {
     await assertErrorsInCode(r'''
 class A {
   int _f;
   A() : _f = 0;
 }
 ''', [
       error(HintCode.UNUSED_FIELD, 16, 2),
     ]);
   }

   test_notUsed_extensionOnClass() async {
     await assertErrorsInCode(r'''
 class Foo {}
 extension Bar on Foo {
   static final _baz = 7;
 }
 ''', [
       error(HintCode.UNUSED_FIELD, 51, 4),
     ]);
   }

   test_notUsed_fieldFormalParameter() async {
     await assertErrorsInCode(r'''
 class A {
   int _f;
   A(this._f);
 }
 ''', [
       error(HintCode.UNUSED_FIELD, 16, 2),
     ]);
   }

   test_notUsed_mixin() async {
     await assertErrorsInCode(r'''
 mixin M {
   int _f = 0;
 }
 class Bar with M {}
 ''', [
       error(HintCode.UNUSED_FIELD, 16, 2),
     ]);
   }

   test_notUsed_mixinRestriction() async {
     await assertErrorsInCode(r'''
 class Foo {
   int _f = 0;
 }
 mixin M on Foo {}
 ''', [
       error(HintCode.UNUSED_FIELD, 18, 2),
     ]);
   }

   test_notUsed_noReference() async {
     await assertErrorsInCode(r'''
 class A {
   int _f;
 }
 ''', [
       error(HintCode.UNUSED_FIELD, 16, 2),
     ]);
   }

   test_notUsed_nullAssign() async {
     await assertNoErrorsInCode(r'''
 class A {
   var _f;
   m() {
     _f ??= doSomething();
   }
 }
 doSomething() => 0;
 ''');
   }

   test_notUsed_postfixExpr() async {
     await assertErrorsInCode(r'''
 class A {
   int _f = 0;
   main() {
     _f++;
   }
 }
 ''', [
       error(HintCode.UNUSED_FIELD, 16, 2),
     ]);
   }

   test_notUsed_prefixExpr() async {
     await assertErrorsInCode(r'''
 class A {
   int _f = 0;
   main() {
     ++_f;
   }
 }
 ''', [
       error(HintCode.UNUSED_FIELD, 16, 2),
     ]);
   }

   test_notUsed_privateEnum_publicValue() async {
     await assertErrorsInCode(r'''
 enum _Foo {a}
 f() => _Foo;
 ''', [
       error(HintCode.UNUSED_FIELD, 11, 1),
     ]);
   }

   test_notUsed_publicEnum_privateValue() async {
     await assertErrorsInCode(r'''
 enum Foo {_a}
 ''', [
       error(HintCode.UNUSED_FIELD, 10, 2),
     ]);
   }

   test_notUsed_publicStaticField_privateClass() async {
     await assertErrorsInCode(r'''
 class _A {
   static String f1 = "x";
 }
 void main() => print(_A);
 ''', [
       error(HintCode.UNUSED_FIELD, 27, 2),
     ]);
   }

   test_notUsed_publicStaticField_privateExtension() async {
     await assertErrorsInCode(r'''
 extension _A on String {
   static String f1 = "x";
 }
 ''', [
       error(HintCode.UNUSED_FIELD, 41, 2),
     ]);
   }

   test_notUsed_publicStaticField_privateMixin() async {
     await assertErrorsInCode(r'''
 mixin _A {
   static String f1 = "x";
 }
 void main() => print(_A);
 ''', [
       error(HintCode.UNUSED_FIELD, 27, 2),
     ]);
   }

   test_notUsed_referenceInComment() async {
     await assertErrorsInCode(r'''
 /// [A._f] is great.
 class A {
   int _f;
 }
 ''', [
       error(HintCode.UNUSED_FIELD, 37, 2),
     ]);
   }

   test_notUsed_simpleAssignment() async {
     await assertErrorsInCode(r'''
 class A {
   int _f;
   m() {
     _f = 1;
   }
 }
 main(A a) {
   a._f = 2;
 }
 ''', [
       error(HintCode.UNUSED_FIELD, 16, 2),
     ]);
   }
 }
	// Copyright (c) 2019, 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(UnusedFieldTest);
	});
	}

	@reflectiveTest
	class UnusedFieldTest extends PubPackageResolutionTest {
	@override
	bool get enableUnusedElement => true;

	test_isUsed_argument() async {
	await assertNoErrorsInCode(r'''
	class A {
	int _f = 0;
	main() {
	print(++_f);
	}
	}
	print(x) {}
	''');
	}

	test_isUsed_extensionOnClass() async {
	await assertNoErrorsInCode(r'''
	class Foo {}
	extension Bar on Foo {
	int baz() => _baz;
	static final _baz = 7;
	}
	''');
	}

	test_isUsed_extensionOnEnum() async {
	await assertNoErrorsInCode(r'''
	enum Foo {a, b}
	extension Bar on Foo {
	int baz() => _baz;
	static final _baz = 1;
	}
	''');
	}

	test_isUsed_mixin() async {
	await assertNoErrorsInCode(r'''
	mixin M {
	int _f = 0;
	}
	class Bar with M {
	int g() => _f;
	}
	''');
	}

	test_isUsed_mixinRestriction() async {
	await assertNoErrorsInCode(r'''
	class Foo {
	int _f = 0;
	}
	mixin M on Foo {
	int g() => _f;
	}
	''');
	}

	test_isUsed_parameterized_subclass() async {
	await assertNoErrorsInCode(r'''
	class A<T extends num> {
	T _f;
	A._(this._f);
	}
	class B extends A<int> {
	B._(int f) : super._(f);
	}
	void main() {
	B b = B._(7);
	print(b._f == 7);
	}
	''');
	}

	test_isUsed_privateEnum_publicValue() async {
	await assertNoErrorsInCode(r'''
	enum _Foo {a, b}
	f() => print('${_Foo.a}${_Foo.b}');
	''');
	}

	test_isUsed_privateEnum_values() async {
	await assertNoErrorsInCode(r'''
	enum _Foo {a}
	f() => _Foo.values;
	''');
	}

	test_isUsed_publicEnum_privateValue() async {
	await assertNoErrorsInCode(r'''
	enum Foo {_a, _b}
	f() => print('${Foo._a}${Foo._b}');
	''');
	}

	test_isUsed_publicStaticField_privateClass() async {
	await assertNoErrorsInCode(r'''
	class _A {
	static String f1 = "x";
	}
	void main() => print(_A.f1);
	''');
	}

	test_isUsed_publicStaticField_privateExtension() async {
	await assertNoErrorsInCode(r'''
	extension _A on String {
	static String f1 = "x";
	}
	void main() => print(_A.f1);
	''');
	}

	test_isUsed_publicStaticField_privateMixin() async {
	await assertNoErrorsInCode(r'''
	mixin _A {
	static String f1 = "x";
	}
	void main() => print(_A.f1);
	''');
	}

	test_isUsed_reference_implicitThis() async {
	await assertNoErrorsInCode(r'''
	class A {
	int _f;
	main() {
	print(_f);
	}
	}
	print(x) {}
	''');
	}

	test_isUsed_reference_implicitThis_expressionFunctionBody() async {
	await assertNoErrorsInCode(r'''
	class A {
	int _f;
	m() => _f;
	}
	''');
	}

	test_isUsed_reference_implicitThis_subclass() async {
	await assertNoErrorsInCode(r'''
	class A {
	int _f;
	main() {
	print(_f);
	}
	}
	class B extends A {
	int _f;
	}
	print(x) {}
	''');
	}

	test_isUsed_reference_qualified_propagatedElement() async {
	await assertNoErrorsInCode(r'''
	class A {
	int _f;
	}
	main() {
	var a = new A();
	print(a._f);
	}
	print(x) {}
	''');
	}

	test_isUsed_reference_qualified_staticElement() async {
	await assertNoErrorsInCode(r'''
	class A {
	int _f;
	}
	main() {
	A a = new A();
	print(a._f);
	}
	print(x) {}
	''');
	}

	test_isUsed_reference_qualified_unresolved() async {
	await assertNoErrorsInCode(r'''
	class A {
	int _f;
	}
	main(a) {
	print(a._f);
	}
	print(x) {}
	''');
	}

	test_notUsed_compoundAssign() async {
	await assertErrorsInCode(r'''
	class A {
	int _f;
	main() {
	_f += 2;
	}
	}
	''', [
	error(HintCode.UNUSED_FIELD, 16, 2),
	]);
	}

	test_notUsed_constructorFieldInitializers() async {
	await assertErrorsInCode(r'''
	class A {
	int _f;
	A() : _f = 0;
	}
	''', [
	error(HintCode.UNUSED_FIELD, 16, 2),
	]);
	}

	test_notUsed_extensionOnClass() async {
	await assertErrorsInCode(r'''
	class Foo {}
	extension Bar on Foo {
	static final _baz = 7;
	}
	''', [
	error(HintCode.UNUSED_FIELD, 51, 4),
	]);
	}

	test_notUsed_fieldFormalParameter() async {
	await assertErrorsInCode(r'''
	class A {
	int _f;
	A(this._f);
	}
	''', [
	error(HintCode.UNUSED_FIELD, 16, 2),
	]);
	}

	test_notUsed_mixin() async {
	await assertErrorsInCode(r'''
	mixin M {
	int _f = 0;
	}
	class Bar with M {}
	''', [
	error(HintCode.UNUSED_FIELD, 16, 2),
	]);
	}

	test_notUsed_mixinRestriction() async {
	await assertErrorsInCode(r'''
	class Foo {
	int _f = 0;
	}
	mixin M on Foo {}
	''', [
	error(HintCode.UNUSED_FIELD, 18, 2),
	]);
	}

	test_notUsed_noReference() async {
	await assertErrorsInCode(r'''
	class A {
	int _f;
	}
	''', [
	error(HintCode.UNUSED_FIELD, 16, 2),
	]);
	}

	test_notUsed_nullAssign() async {
	await assertNoErrorsInCode(r'''
	class A {
	var _f;
	m() {
	_f ??= doSomething();
	}
	}
	doSomething() => 0;
	''');
	}

	test_notUsed_postfixExpr() async {
	await assertErrorsInCode(r'''
	class A {
	int _f = 0;
	main() {
	_f++;
	}
	}
	''', [
	error(HintCode.UNUSED_FIELD, 16, 2),
	]);
	}

	test_notUsed_prefixExpr() async {
	await assertErrorsInCode(r'''
	class A {
	int _f = 0;
	main() {
	++_f;
	}
	}
	''', [
	error(HintCode.UNUSED_FIELD, 16, 2),
	]);
	}

	test_notUsed_privateEnum_publicValue() async {
	await assertErrorsInCode(r'''
	enum _Foo {a}
	f() => _Foo;
	''', [
	error(HintCode.UNUSED_FIELD, 11, 1),
	]);
	}

	test_notUsed_publicEnum_privateValue() async {
	await assertErrorsInCode(r'''
	enum Foo {_a}
	''', [
	error(HintCode.UNUSED_FIELD, 10, 2),
	]);
	}

	test_notUsed_publicStaticField_privateClass() async {
	await assertErrorsInCode(r'''
	class _A {
	static String f1 = "x";
	}
	void main() => print(_A);
	''', [
	error(HintCode.UNUSED_FIELD, 27, 2),
	]);
	}

	test_notUsed_publicStaticField_privateExtension() async {
	await assertErrorsInCode(r'''
	extension _A on String {
	static String f1 = "x";
	}
	''', [
	error(HintCode.UNUSED_FIELD, 41, 2),
	]);
	}

	test_notUsed_publicStaticField_privateMixin() async {
	await assertErrorsInCode(r'''
	mixin _A {
	static String f1 = "x";
	}
	void main() => print(_A);
	''', [
	error(HintCode.UNUSED_FIELD, 27, 2),
	]);
	}

	test_notUsed_referenceInComment() async {
	await assertErrorsInCode(r'''
	/// [A._f] is great.
	class A {
	int _f;
	}
	''', [
	error(HintCode.UNUSED_FIELD, 37, 2),
	]);
	}

	test_notUsed_simpleAssignment() async {
	await assertErrorsInCode(r'''
	class A {
	int _f;
	m() {
	_f = 1;
	}
	}
	main(A a) {
	a._f = 2;
	}
	''', [
	error(HintCode.UNUSED_FIELD, 16, 2),
	]);
	}
	}