pkg/analyzer/test/src/dart/element/nullability_eliminator_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/dart/element/nullability_suffix.dart';
 import 'package:analyzer/dart/element/type.dart';
 import 'package:analyzer/src/dart/element/nullability_eliminator.dart';
 import 'package:test/test.dart';
 import 'package:test_reflective_loader/test_reflective_loader.dart';

 import '../../../generated/type_system_test.dart';

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

 @reflectiveTest
 class NullabilityEliminatorTest extends AbstractTypeSystemNullSafetyTest {
   test_dynamicType() {
     _verifySame(typeProvider.dynamicType);
   }

   test_functionType() {
     _verify(
       functionTypeNone(returnType: voidNone),
       functionTypeStar(returnType: voidNone),
     );

     _verify(
       functionTypeQuestion(returnType: voidNone),
       functionTypeStar(returnType: voidNone),
     );

     _verifySame(
       functionTypeStar(returnType: voidNone),
     );
   }

   test_functionType_parameters() {
     _verify(
       functionTypeStar(
         parameters: [
           requiredParameter(type: intNone),
         ],
         returnType: voidNone,
       ),
       functionTypeStar(
         parameters: [
           requiredParameter(type: intStar),
         ],
         returnType: voidNone,
       ),
     );

     _verify(
       functionTypeStar(
         parameters: [
           requiredParameter(type: intQuestion),
         ],
         returnType: voidNone,
       ),
       functionTypeStar(
         parameters: [
           requiredParameter(type: intStar),
         ],
         returnType: voidNone,
       ),
     );

     _verifySame(
       functionTypeStar(
         parameters: [
           requiredParameter(type: intStar),
         ],
         returnType: voidNone,
       ),
     );
   }

   test_functionType_parameters_named() {
     _verify(
       functionTypeStar(
         parameters: [
           namedParameter(name: 'a', type: intNone),
         ],
         returnType: voidNone,
       ),
       functionTypeStar(
         parameters: [
           namedParameter(name: 'a', type: intStar),
         ],
         returnType: voidNone,
       ),
     );

     _verify(
       functionTypeStar(
         parameters: [
           namedRequiredParameter(name: 'a', type: intNone),
         ],
         returnType: voidNone,
       ),
       functionTypeStar(
         parameters: [
           namedParameter(name: 'a', type: intStar),
         ],
         returnType: voidNone,
       ),
     );

     _verify(
       functionTypeStar(
         parameters: [
           namedRequiredParameter(name: 'a', type: intStar),
         ],
         returnType: voidNone,
       ),
       functionTypeStar(
         parameters: [
           namedParameter(name: 'a', type: intStar),
         ],
         returnType: voidNone,
       ),
     );
   }

   test_functionType_returnType() {
     _verify(
       functionTypeStar(returnType: intNone),
       functionTypeStar(returnType: intStar),
     );

     _verify(
       functionTypeStar(returnType: intQuestion),
       functionTypeStar(returnType: intStar),
     );

     _verifySame(
       functionTypeStar(returnType: intStar),
     );
   }

   test_functionType_returnType_fromAlias() {
     var T = typeParameter('T');
     var A = typeAlias(
       name: 'A',
       typeParameters: [T],
       aliasedType: functionTypeNone(returnType: intNone),
     );

     var input = A.instantiate(
       typeArguments: [intNone],
       nullabilitySuffix: NullabilitySuffix.none,
     );
     expect(_typeToString(input), 'int Function()');
     expect(input.aliasElement, same(A));
     expect(input.aliasArguments!.map(_typeToString).join(', '), 'int');

     var result = NullabilityEliminator.perform(typeProvider, input);
     expect(_typeToString(result), 'int* Function()*');
     expect(result.aliasElement, same(A));
     expect(result.aliasArguments!.map(_typeToString).join(', '), 'int*');
   }

   test_functionType_typeParameters() {
     var T = typeParameter('T');

     _verifyStr(
       functionTypeNone(
         typeFormals: [T],
         returnType: typeParameterTypeNone(T),
       ),
       'T Function<T>()',
       'T* Function<T>()*',
     );
     _verifyStr(
       functionTypeNone(
         typeFormals: [T],
         returnType: typeParameterTypeQuestion(T),
       ),
       'T? Function<T>()',
       'T* Function<T>()*',
     );
     _verifyStr(
       functionTypeNone(
         typeFormals: [T],
         returnType: typeParameterTypeStar(T),
       ),
       'T* Function<T>()',
       'T* Function<T>()*',
     );

     _verifySame(
       functionTypeStar(
         typeFormals: [T],
         returnType: typeParameterTypeStar(T),
       ),
     );
   }

   test_functionType_typeParameters_bound_none() {
     var T = typeParameter('T', bound: intNone);

     _verifyStr(
       functionTypeNone(
         typeFormals: [T],
         returnType: typeParameterTypeNone(T),
       ),
       'T Function<T extends int>()',
       'T* Function<T extends int*>()*',
     );
   }

   test_functionType_typeParameters_bound_other() {
     var T = typeParameter('T', bound: intNone);
     var U = typeParameter('U', bound: typeParameterTypeNone(T));

     _verifyStr(
       functionTypeNone(
         typeFormals: [T, U],
         returnType: typeParameterTypeNone(T),
       ),
       'T Function<T extends int, U extends T>()',
       'T* Function<T extends int*, U extends T*>()*',
     );
   }

   test_functionType_typeParameters_bound_question() {
     var T = typeParameter('T', bound: intQuestion);

     _verifyStr(
       functionTypeNone(
         typeFormals: [T],
         returnType: typeParameterTypeNone(T),
       ),
       'T Function<T extends int?>()',
       'T* Function<T extends int*>()*',
     );
   }

   test_functionType_typeParameters_bound_star() {
     var T = typeParameter('T', bound: intStar);

     _verifyStr(
       functionTypeNone(
         typeFormals: [T],
         returnType: typeParameterTypeNone(T),
       ),
       'T Function<T extends int*>()',
       'T* Function<T extends int*>()*',
     );

     _verifySame(
       functionTypeStar(
         typeFormals: [T],
         returnType: typeParameterTypeStar(T),
       ),
     );
   }

   test_interfaceType_fromAlias() {
     var T = typeParameter('T');
     var A = typeAlias(
       name: 'A',
       typeParameters: [T],
       aliasedType: listNone(
         typeParameterTypeNone(T),
       ),
     );

     var input = A.instantiate(
       typeArguments: [intNone],
       nullabilitySuffix: NullabilitySuffix.none,
     );
     expect(_typeToString(input), 'List<int>');

     var result = NullabilityEliminator.perform(typeProvider, input);
     expect(_typeToString(result), 'List<int*>*');
     expect(result.aliasElement, same(A));
     expect(result.aliasArguments!.map(_typeToString).join(', '), 'int*');
   }

   test_interfaceType_int() {
     _verify(intNone, intStar);
     _verify(intQuestion, intStar);
     _verifySame(intStar);
   }

   test_interfaceType_list() {
     var expected = listStar(intStar);

     _verify(listNone(intNone), expected);
     _verify(listNone(intQuestion), expected);
     _verify(listNone(intStar), expected);

     _verify(listQuestion(intNone), expected);
     _verify(listQuestion(intQuestion), expected);
     _verify(listQuestion(intStar), expected);

     _verify(listStar(intNone), expected);
     _verify(listStar(intQuestion), expected);
     _verifySame(listStar(intStar));
   }

   test_neverType() {
     _verify(neverNone, nullStar);
     _verify(neverQuestion, nullStar);
     _verify(neverStar, nullStar);

     _verify(listNone(neverNone), listStar(nullStar));
     _verify(listQuestion(neverNone), listStar(nullStar));
     _verify(listStar(neverNone), listStar(nullStar));
   }

   test_typeParameterType() {
     var T = typeParameter('T');
     _verify(
       typeParameterTypeNone(T),
       typeParameterTypeStar(T),
     );
     _verify(
       typeParameterTypeQuestion(T),
       typeParameterTypeStar(T),
     );
     _verifySame(
       typeParameterTypeStar(T),
     );
   }

   test_voidType() {
     _verifySame(typeProvider.voidType);
   }

   String _typeToString(DartType type) {
     return type.getDisplayString(withNullability: true);
   }

   void _verify(DartType input, DartType expected) {
     var result = NullabilityEliminator.perform(typeProvider, input);
     expect(result, isNot(same(input)));
     expect(result, expected);
   }

   void _verifySame(DartType input) {
     var result = NullabilityEliminator.perform(typeProvider, input);
     expect(result, same(input));
   }

   void _verifyStr(DartType input, String inputStr, String expectedStr) {
     expect(_typeToString(input), inputStr);

     var result = NullabilityEliminator.perform(typeProvider, input);
     expect(result, isNot(same(input)));
     expect(_typeToString(result), expectedStr);
   }
 }
	// 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/dart/element/nullability_suffix.dart';
	import 'package:analyzer/dart/element/type.dart';
	import 'package:analyzer/src/dart/element/nullability_eliminator.dart';
	import 'package:test/test.dart';
	import 'package:test_reflective_loader/test_reflective_loader.dart';

	import '../../../generated/type_system_test.dart';

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

	@reflectiveTest
	class NullabilityEliminatorTest extends AbstractTypeSystemNullSafetyTest {
	test_dynamicType() {
	_verifySame(typeProvider.dynamicType);
	}

	test_functionType() {
	_verify(
	functionTypeNone(returnType: voidNone),
	functionTypeStar(returnType: voidNone),
	);

	_verify(
	functionTypeQuestion(returnType: voidNone),
	functionTypeStar(returnType: voidNone),
	);

	_verifySame(
	functionTypeStar(returnType: voidNone),
	);
	}

	test_functionType_parameters() {
	_verify(
	functionTypeStar(
	parameters: [
	requiredParameter(type: intNone),
	],
	returnType: voidNone,
	),
	functionTypeStar(
	parameters: [
	requiredParameter(type: intStar),
	],
	returnType: voidNone,
	),
	);

	_verify(
	functionTypeStar(
	parameters: [
	requiredParameter(type: intQuestion),
	],
	returnType: voidNone,
	),
	functionTypeStar(
	parameters: [
	requiredParameter(type: intStar),
	],
	returnType: voidNone,
	),
	);

	_verifySame(
	functionTypeStar(
	parameters: [
	requiredParameter(type: intStar),
	],
	returnType: voidNone,
	),
	);
	}

	test_functionType_parameters_named() {
	_verify(
	functionTypeStar(
	parameters: [
	namedParameter(name: 'a', type: intNone),
	],
	returnType: voidNone,
	),
	functionTypeStar(
	parameters: [
	namedParameter(name: 'a', type: intStar),
	],
	returnType: voidNone,
	),
	);

	_verify(
	functionTypeStar(
	parameters: [
	namedRequiredParameter(name: 'a', type: intNone),
	],
	returnType: voidNone,
	),
	functionTypeStar(
	parameters: [
	namedParameter(name: 'a', type: intStar),
	],
	returnType: voidNone,
	),
	);

	_verify(
	functionTypeStar(
	parameters: [
	namedRequiredParameter(name: 'a', type: intStar),
	],
	returnType: voidNone,
	),
	functionTypeStar(
	parameters: [
	namedParameter(name: 'a', type: intStar),
	],
	returnType: voidNone,
	),
	);
	}

	test_functionType_returnType() {
	_verify(
	functionTypeStar(returnType: intNone),
	functionTypeStar(returnType: intStar),
	);

	_verify(
	functionTypeStar(returnType: intQuestion),
	functionTypeStar(returnType: intStar),
	);

	_verifySame(
	functionTypeStar(returnType: intStar),
	);
	}

	test_functionType_returnType_fromAlias() {
	var T = typeParameter('T');
	var A = typeAlias(
	name: 'A',
	typeParameters: [T],
	aliasedType: functionTypeNone(returnType: intNone),
	);

	var input = A.instantiate(
	typeArguments: [intNone],
	nullabilitySuffix: NullabilitySuffix.none,
	);
	expect(_typeToString(input), 'int Function()');
	expect(input.aliasElement, same(A));
	expect(input.aliasArguments!.map(_typeToString).join(', '), 'int');

	var result = NullabilityEliminator.perform(typeProvider, input);
	expect(_typeToString(result), 'int* Function()*');
	expect(result.aliasElement, same(A));
	expect(result.aliasArguments!.map(_typeToString).join(', '), 'int*');
	}

	test_functionType_typeParameters() {
	var T = typeParameter('T');

	_verifyStr(
	functionTypeNone(
	typeFormals: [T],
	returnType: typeParameterTypeNone(T),
	),
	'T Function<T>()',
	'T* Function<T>()*',
	);
	_verifyStr(
	functionTypeNone(
	typeFormals: [T],
	returnType: typeParameterTypeQuestion(T),
	),
	'T? Function<T>()',
	'T* Function<T>()*',
	);
	_verifyStr(
	functionTypeNone(
	typeFormals: [T],
	returnType: typeParameterTypeStar(T),
	),
	'T* Function<T>()',
	'T* Function<T>()*',
	);

	_verifySame(
	functionTypeStar(
	typeFormals: [T],
	returnType: typeParameterTypeStar(T),
	),
	);
	}

	test_functionType_typeParameters_bound_none() {
	var T = typeParameter('T', bound: intNone);

	_verifyStr(
	functionTypeNone(
	typeFormals: [T],
	returnType: typeParameterTypeNone(T),
	),
	'T Function<T extends int>()',
	'T* Function<T extends int>()',
	);
	}

	test_functionType_typeParameters_bound_other() {
	var T = typeParameter('T', bound: intNone);
	var U = typeParameter('U', bound: typeParameterTypeNone(T));

	_verifyStr(
	functionTypeNone(
	typeFormals: [T, U],
	returnType: typeParameterTypeNone(T),
	),
	'T Function<T extends int, U extends T>()',
	'T* Function<T extends int, U extends T>()*',
	);
	}

	test_functionType_typeParameters_bound_question() {
	var T = typeParameter('T', bound: intQuestion);

	_verifyStr(
	functionTypeNone(
	typeFormals: [T],
	returnType: typeParameterTypeNone(T),
	),
	'T Function<T extends int?>()',
	'T* Function<T extends int>()',
	);
	}

	test_functionType_typeParameters_bound_star() {
	var T = typeParameter('T', bound: intStar);

	_verifyStr(
	functionTypeNone(
	typeFormals: [T],
	returnType: typeParameterTypeNone(T),
	),
	'T Function<T extends int*>()',
	'T* Function<T extends int>()',
	);

	_verifySame(
	functionTypeStar(
	typeFormals: [T],
	returnType: typeParameterTypeStar(T),
	),
	);
	}

	test_interfaceType_fromAlias() {
	var T = typeParameter('T');
	var A = typeAlias(
	name: 'A',
	typeParameters: [T],
	aliasedType: listNone(
	typeParameterTypeNone(T),
	),
	);

	var input = A.instantiate(
	typeArguments: [intNone],
	nullabilitySuffix: NullabilitySuffix.none,
	);
	expect(_typeToString(input), 'List<int>');

	var result = NullabilityEliminator.perform(typeProvider, input);
	expect(_typeToString(result), 'List<int>');
	expect(result.aliasElement, same(A));
	expect(result.aliasArguments!.map(_typeToString).join(', '), 'int*');
	}

	test_interfaceType_int() {
	_verify(intNone, intStar);
	_verify(intQuestion, intStar);
	_verifySame(intStar);
	}

	test_interfaceType_list() {
	var expected = listStar(intStar);

	_verify(listNone(intNone), expected);
	_verify(listNone(intQuestion), expected);
	_verify(listNone(intStar), expected);

	_verify(listQuestion(intNone), expected);
	_verify(listQuestion(intQuestion), expected);
	_verify(listQuestion(intStar), expected);

	_verify(listStar(intNone), expected);
	_verify(listStar(intQuestion), expected);
	_verifySame(listStar(intStar));
	}

	test_neverType() {
	_verify(neverNone, nullStar);
	_verify(neverQuestion, nullStar);
	_verify(neverStar, nullStar);

	_verify(listNone(neverNone), listStar(nullStar));
	_verify(listQuestion(neverNone), listStar(nullStar));
	_verify(listStar(neverNone), listStar(nullStar));
	}

	test_typeParameterType() {
	var T = typeParameter('T');
	_verify(
	typeParameterTypeNone(T),
	typeParameterTypeStar(T),
	);
	_verify(
	typeParameterTypeQuestion(T),
	typeParameterTypeStar(T),
	);
	_verifySame(
	typeParameterTypeStar(T),
	);
	}

	test_voidType() {
	_verifySame(typeProvider.voidType);
	}

	String _typeToString(DartType type) {
	return type.getDisplayString(withNullability: true);
	}

	void _verify(DartType input, DartType expected) {
	var result = NullabilityEliminator.perform(typeProvider, input);
	expect(result, isNot(same(input)));
	expect(result, expected);
	}

	void _verifySame(DartType input) {
	var result = NullabilityEliminator.perform(typeProvider, input);
	expect(result, same(input));
	}

	void _verifyStr(DartType input, String inputStr, String expectedStr) {
	expect(_typeToString(input), inputStr);

	var result = NullabilityEliminator.perform(typeProvider, input);
	expect(result, isNot(same(input)));
	expect(_typeToString(result), expectedStr);
	}
	}