pkg/analyzer/test/src/diagnostics/inference_failure_on_instance_creation_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/test.dart';
 import 'package:test_reflective_loader/test_reflective_loader.dart';

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

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

 @reflectiveTest
 class InferenceFailureOnInstanceCreationTest extends PubPackageResolutionTest {
   @override
   void setUp() {
     super.setUp();
     writeTestPackageAnalysisOptionsFile(
       AnalysisOptionsFileConfig(
         strictInference: true,
       ),
     );
   }

   test_constructorNames_named() async {
     await assertErrorsInCode('''
 import 'dart:collection';
 void f() {
   HashMap.from({1: 1, 2: 2, 3: 3});
 }
 ''', [
       error(HintCode.INFERENCE_FAILURE_ON_INSTANCE_CREATION, 39, 12),
     ]);
     expect(result.errors[0].message, contains("'HashMap.from'"));
   }

   test_constructorNames_named_importPrefix() async {
     await assertErrorsInCode('''
 import 'dart:collection' as c;
 void f() {
   c.HashMap.from({1: 1, 2: 2, 3: 3});
 }
 ''', [
       error(HintCode.INFERENCE_FAILURE_ON_INSTANCE_CREATION, 44, 14),
     ]);
     expect(result.errors[0].message, contains("'c.HashMap.from'"));
   }

   test_constructorNames_unnamed() async {
     await assertErrorsInCode('''
 import 'dart:collection';
 void f() {
   HashMap();
 }
 ''', [
       error(HintCode.INFERENCE_FAILURE_ON_INSTANCE_CREATION, 39, 7),
     ]);
     expect(result.errors[0].message, contains("'HashMap'"));
   }

   test_constructorNames_unnamed_importPrefix() async {
     await assertErrorsInCode('''
 import 'dart:collection' as c;
 void f() {
   c.HashMap();
 }
 ''', [
       error(HintCode.INFERENCE_FAILURE_ON_INSTANCE_CREATION, 44, 9),
     ]);
     expect(result.errors[0].message, contains("'c.HashMap'"));
   }

   test_explicitTypeArgument() async {
     await assertNoErrorsInCode(r'''
 import 'dart:collection';
 void f() {
   HashMap<int, int>();
 }
 ''');
   }

   test_genericMetadata_missingTypeArg() async {
     await assertErrorsInCode(r'''
 class C<T> {
   const C();
 }

 @C()
 void f() {}
 ''', [
       error(HintCode.INFERENCE_FAILURE_ON_INSTANCE_CREATION, 29, 4),
     ]);
   }

   test_genericMetadata_missingTypeArg_withoutGenericMetadata() async {
     writeTestPackageConfig(PackageConfigFileBuilder(), languageVersion: '2.12');
     await assertNoErrorsInCode(r'''
 class C<T> {
   const C();
 }

 @C()
 void f() {}
 ''');
   }

   test_genericMetadata_upwardsInference() async {
     await assertNoErrorsInCode(r'''
 class C<T> {
   final T f;
   const C(this.f);
 }

 @C(7)
 void g() {}
 ''');
   }

   test_genericMetadata_withTypeArg() async {
     await assertNoErrorsInCode(r'''
 class C<T> {
   const C();
 }

 @C<int>()
 void f() {}
 ''');
   }

   test_missingTypeArgument_downwardInference() async {
     await assertNoErrorsInCode(r'''
 import 'dart:collection';
 HashMap<int, int> f() {
   return HashMap();
 }
 ''');
   }

   test_missingTypeArgument_interfaceTypeTypedef_noInference() async {
     // `typedef A = HashMap;` means `typedef A = HashMap<dynamic, dynamic>;`.
     // So, there is no inference failure on `new A();`.
     await assertNoErrorsInCode(r'''
 import 'dart:collection';
 typedef A = HashMap;
 void f() {
   A();
 }
 ''');
   }

   test_missingTypeArgument_noInference() async {
     await assertErrorsInCode(r'''
 import 'dart:collection';
 void f() {
   HashMap();
 }
 ''', [
       error(HintCode.INFERENCE_FAILURE_ON_INSTANCE_CREATION, 39, 7),
     ]);
   }

   test_missingTypeArgument_noInference_optionalTypeArgs() async {
     writeTestPackageConfigWithMeta();
     await assertNoErrorsInCode(r'''
 import 'package:meta/meta.dart';
 @optionalTypeArgs
 class C<T> {}
 void f() {
   C();
 }
 ''');
   }

   test_missingTypeArgument_upwardInference() async {
     await assertNoErrorsInCode(r'''
 import 'dart:collection';
 void f() {
   HashMap.of({1: 1, 2: 2, 3: 3});
 }
 ''');
   }
 }
	// 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/test.dart';
	import 'package:test_reflective_loader/test_reflective_loader.dart';

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

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

	@reflectiveTest
	class InferenceFailureOnInstanceCreationTest extends PubPackageResolutionTest {
	@override
	void setUp() {
	super.setUp();
	writeTestPackageAnalysisOptionsFile(
	AnalysisOptionsFileConfig(
	strictInference: true,
	),
	);
	}

	test_constructorNames_named() async {
	await assertErrorsInCode('''
	import 'dart:collection';
	void f() {
	HashMap.from({1: 1, 2: 2, 3: 3});
	}
	''', [
	error(HintCode.INFERENCE_FAILURE_ON_INSTANCE_CREATION, 39, 12),
	]);
	expect(result.errors[0].message, contains("'HashMap.from'"));
	}

	test_constructorNames_named_importPrefix() async {
	await assertErrorsInCode('''
	import 'dart:collection' as c;
	void f() {
	c.HashMap.from({1: 1, 2: 2, 3: 3});
	}
	''', [
	error(HintCode.INFERENCE_FAILURE_ON_INSTANCE_CREATION, 44, 14),
	]);
	expect(result.errors[0].message, contains("'c.HashMap.from'"));
	}

	test_constructorNames_unnamed() async {
	await assertErrorsInCode('''
	import 'dart:collection';
	void f() {
	HashMap();
	}
	''', [
	error(HintCode.INFERENCE_FAILURE_ON_INSTANCE_CREATION, 39, 7),
	]);
	expect(result.errors[0].message, contains("'HashMap'"));
	}

	test_constructorNames_unnamed_importPrefix() async {
	await assertErrorsInCode('''
	import 'dart:collection' as c;
	void f() {
	c.HashMap();
	}
	''', [
	error(HintCode.INFERENCE_FAILURE_ON_INSTANCE_CREATION, 44, 9),
	]);
	expect(result.errors[0].message, contains("'c.HashMap'"));
	}

	test_explicitTypeArgument() async {
	await assertNoErrorsInCode(r'''
	import 'dart:collection';
	void f() {
	HashMap<int, int>();
	}
	''');
	}

	test_genericMetadata_missingTypeArg() async {
	await assertErrorsInCode(r'''
	class C<T> {
	const C();
	}

	@C()
	void f() {}
	''', [
	error(HintCode.INFERENCE_FAILURE_ON_INSTANCE_CREATION, 29, 4),
	]);
	}

	test_genericMetadata_missingTypeArg_withoutGenericMetadata() async {
	writeTestPackageConfig(PackageConfigFileBuilder(), languageVersion: '2.12');
	await assertNoErrorsInCode(r'''
	class C<T> {
	const C();
	}

	@C()
	void f() {}
	''');
	}

	test_genericMetadata_upwardsInference() async {
	await assertNoErrorsInCode(r'''
	class C<T> {
	final T f;
	const C(this.f);
	}

	@C(7)
	void g() {}
	''');
	}

	test_genericMetadata_withTypeArg() async {
	await assertNoErrorsInCode(r'''
	class C<T> {
	const C();
	}

	@C<int>()
	void f() {}
	''');
	}

	test_missingTypeArgument_downwardInference() async {
	await assertNoErrorsInCode(r'''
	import 'dart:collection';
	HashMap<int, int> f() {
	return HashMap();
	}
	''');
	}

	test_missingTypeArgument_interfaceTypeTypedef_noInference() async {
	// `typedef A = HashMap;` means `typedef A = HashMap<dynamic, dynamic>;`.
	// So, there is no inference failure on `new A();`.
	await assertNoErrorsInCode(r'''
	import 'dart:collection';
	typedef A = HashMap;
	void f() {
	A();
	}
	''');
	}

	test_missingTypeArgument_noInference() async {
	await assertErrorsInCode(r'''
	import 'dart:collection';
	void f() {
	HashMap();
	}
	''', [
	error(HintCode.INFERENCE_FAILURE_ON_INSTANCE_CREATION, 39, 7),
	]);
	}

	test_missingTypeArgument_noInference_optionalTypeArgs() async {
	writeTestPackageConfigWithMeta();
	await assertNoErrorsInCode(r'''
	import 'package:meta/meta.dart';
	@optionalTypeArgs
	class C<T> {}
	void f() {
	C();
	}
	''');
	}

	test_missingTypeArgument_upwardInference() async {
	await assertNoErrorsInCode(r'''
	import 'dart:collection';
	void f() {
	HashMap.of({1: 1, 2: 2, 3: 3});
	}
	''');
	}
	}