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

 // Copyright (c) 2021, 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(InferenceFailureOnFunctionInvocationTest);
   });
 }

 /// Tests of HintCode.INFERENCE_FAILURE_ON_FUNCTION_INVOCATION with the
 /// "strict-inference" static analysis option.
 @reflectiveTest
 class InferenceFailureOnFunctionInvocationTest
     extends PubPackageResolutionTest {
   @override
   void setUp() {
     super.setUp();
     writeTestPackageAnalysisOptionsFile(
       AnalysisOptionsFileConfig(
         strictInference: true,
       ),
     );
     writeTestPackageConfigWithMeta();
   }

   test_functionType_noInference() async {
     await assertErrorsInCode('''
 void f(void Function<T>() m) {
   m();
 }
 ''', [
       error(HintCode.INFERENCE_FAILURE_ON_FUNCTION_INVOCATION, 33, 1),
     ]);
   }

   test_functionType_notGeneric() async {
     await assertNoErrorsInCode('''
 void f(void Function() m) {
   m();
 }
 ''');
   }

   @FailingTest(issue: 'https://github.com/dart-lang/sdk/issues/48476')
   test_functionType_optionalTypeArgs() async {
     await assertNoErrorsInCode('''
 import 'package:meta/meta.dart';
 void f(@optionalTypeArgs void Function<T>() m) {
   m();
 }
 ''');
   }

   test_genericFunctionExpression_explicitTypeArg() async {
     await assertNoErrorsInCode('''
 void f(void Function<T>()? m, void Function<T>() n) {
   (m ?? n)<int>();
 }
 ''');
   }

   test_genericMethod_downwardsInference() async {
     await assertNoErrorsInCode('''
 abstract class C {
   T m<T>();
 }

 int f(C c) {
   return c.m();
 }
 ''');
   }

   test_genericMethod_explicitTypeArgs() async {
     await assertNoErrorsInCode('''
 abstract class C {
   void m<T>();
 }

 void f(C c) {
   c.m<int>();
 }
 ''');
   }

   test_genericMethod_immediatelyCast() async {
     await assertNoErrorsInCode('''
 abstract class C {
   T m<T>();
 }

 void f(C c) {
   c.m() as int;
 }
 ''');
   }

   test_genericMethod_noInference() async {
     await assertErrorsInCode('''
 abstract class C {
   void m<T>();
 }

 void f(C c) {
   c.m();
 }
 ''', [
       error(HintCode.INFERENCE_FAILURE_ON_FUNCTION_INVOCATION, 55, 1),
     ]);
   }

   test_genericMethod_optionalTypeArgs() async {
     await assertNoErrorsInCode('''
 import 'package:meta/meta.dart';
 abstract class C {
   @optionalTypeArgs
   void m<T>();
 }

 void f(C c) {
   c.m();
 }
 ''');
   }

   test_genericMethod_upwardsInference() async {
     await assertNoErrorsInCode('''
 abstract class C {
   void m<T>(T a);
 }

 void f(C c) {
   c.m(7);
 }
 ''');
   }

   test_genericStaticMethod_noInference() async {
     await assertErrorsInCode('''
 class C {
   static void m<T>() {}
 }

 void f() {
   C.m();
 }
 ''', [
       error(HintCode.INFERENCE_FAILURE_ON_FUNCTION_INVOCATION, 52, 1),
     ]);
   }

   test_genericTypedef_noInference() async {
     await assertErrorsInCode('''
 typedef Fn = void Function<T>();
 void g(Fn fn) {
   fn();
 }
 ''', [
       error(HintCode.INFERENCE_FAILURE_ON_FUNCTION_INVOCATION, 51, 2),
     ]);
   }

   test_genericTypedef_optionalTypeArgs() async {
     await assertNoErrorsInCode('''
 import 'package:meta/meta.dart';
 @optionalTypeArgs
 typedef Fn = void Function<T>();
 void g(Fn fn) {
   fn();
 }
 ''');
   }

   test_localFunction_noInference() async {
     await assertErrorsInCode('''
 void f() {
   void g<T>() {}
   g();
 }
 ''', [
       error(HintCode.INFERENCE_FAILURE_ON_FUNCTION_INVOCATION, 30, 1),
     ]);
   }

   test_localFunctionVariable_noInference() async {
     await assertErrorsInCode('''
 void f() {
   var m = <T>() {};
   m();
 }
 ''', [
       error(HintCode.INFERENCE_FAILURE_ON_FUNCTION_INVOCATION, 33, 1),
     ]);
   }

   test_nonGenericMethod() async {
     await assertNoErrorsInCode('''
 abstract class C {
   void m();
 }

 void f(C c) {
   c.m();
 }
 ''');
   }

   test_topLevelFunction_noInference() async {
     await assertErrorsInCode('''
 void f<T>() {}

 void g() {
   f();
 }
 ''', [
       error(HintCode.INFERENCE_FAILURE_ON_FUNCTION_INVOCATION, 29, 1),
     ]);
   }

   test_topLevelFunction_withImportPrefix_noInference() async {
     newFile('$testPackageLibPath/a.dart', '''
 void f<T>() {}
 ''');
     await assertErrorsInCode('''
 import 'a.dart' as a;
 void g() {
   a.f();
 }
 ''', [
       error(HintCode.INFERENCE_FAILURE_ON_FUNCTION_INVOCATION, 37, 1),
     ]);
   }

   test_topLevelFunction_withImportPrefix_optionalTypeArgs() async {
     newFile('$testPackageLibPath/a.dart', '''
 import 'package:meta/meta.dart';
 @optionalTypeArgs
 void f<T>() {}
 ''');
     await assertNoErrorsInCode('''
 import 'a.dart' as a;
 void g() {
   a.f();
 }
 ''');
   }
 }
	// Copyright (c) 2021, 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(InferenceFailureOnFunctionInvocationTest);
	});
	}

	/// Tests of HintCode.INFERENCE_FAILURE_ON_FUNCTION_INVOCATION with the
	/// "strict-inference" static analysis option.
	@reflectiveTest
	class InferenceFailureOnFunctionInvocationTest
	extends PubPackageResolutionTest {
	@override
	void setUp() {
	super.setUp();
	writeTestPackageAnalysisOptionsFile(
	AnalysisOptionsFileConfig(
	strictInference: true,
	),
	);
	writeTestPackageConfigWithMeta();
	}

	test_functionType_noInference() async {
	await assertErrorsInCode('''
	void f(void Function<T>() m) {
	m();
	}
	''', [
	error(HintCode.INFERENCE_FAILURE_ON_FUNCTION_INVOCATION, 33, 1),
	]);
	}

	test_functionType_notGeneric() async {
	await assertNoErrorsInCode('''
	void f(void Function() m) {
	m();
	}
	''');
	}

	@FailingTest(issue: 'https://github.com/dart-lang/sdk/issues/48476')
	test_functionType_optionalTypeArgs() async {
	await assertNoErrorsInCode('''
	import 'package:meta/meta.dart';
	void f(@optionalTypeArgs void Function<T>() m) {
	m();
	}
	''');
	}

	test_genericFunctionExpression_explicitTypeArg() async {
	await assertNoErrorsInCode('''
	void f(void Function<T>()? m, void Function<T>() n) {
	(m ?? n)<int>();
	}
	''');
	}

	test_genericMethod_downwardsInference() async {
	await assertNoErrorsInCode('''
	abstract class C {
	T m<T>();
	}

	int f(C c) {
	return c.m();
	}
	''');
	}

	test_genericMethod_explicitTypeArgs() async {
	await assertNoErrorsInCode('''
	abstract class C {
	void m<T>();
	}

	void f(C c) {
	c.m<int>();
	}
	''');
	}

	test_genericMethod_immediatelyCast() async {
	await assertNoErrorsInCode('''
	abstract class C {
	T m<T>();
	}

	void f(C c) {
	c.m() as int;
	}
	''');
	}

	test_genericMethod_noInference() async {
	await assertErrorsInCode('''
	abstract class C {
	void m<T>();
	}

	void f(C c) {
	c.m();
	}
	''', [
	error(HintCode.INFERENCE_FAILURE_ON_FUNCTION_INVOCATION, 55, 1),
	]);
	}

	test_genericMethod_optionalTypeArgs() async {
	await assertNoErrorsInCode('''
	import 'package:meta/meta.dart';
	abstract class C {
	@optionalTypeArgs
	void m<T>();
	}

	void f(C c) {
	c.m();
	}
	''');
	}

	test_genericMethod_upwardsInference() async {
	await assertNoErrorsInCode('''
	abstract class C {
	void m<T>(T a);
	}

	void f(C c) {
	c.m(7);
	}
	''');
	}

	test_genericStaticMethod_noInference() async {
	await assertErrorsInCode('''
	class C {
	static void m<T>() {}
	}

	void f() {
	C.m();
	}
	''', [
	error(HintCode.INFERENCE_FAILURE_ON_FUNCTION_INVOCATION, 52, 1),
	]);
	}

	test_genericTypedef_noInference() async {
	await assertErrorsInCode('''
	typedef Fn = void Function<T>();
	void g(Fn fn) {
	fn();
	}
	''', [
	error(HintCode.INFERENCE_FAILURE_ON_FUNCTION_INVOCATION, 51, 2),
	]);
	}

	test_genericTypedef_optionalTypeArgs() async {
	await assertNoErrorsInCode('''
	import 'package:meta/meta.dart';
	@optionalTypeArgs
	typedef Fn = void Function<T>();
	void g(Fn fn) {
	fn();
	}
	''');
	}

	test_localFunction_noInference() async {
	await assertErrorsInCode('''
	void f() {
	void g<T>() {}
	g();
	}
	''', [
	error(HintCode.INFERENCE_FAILURE_ON_FUNCTION_INVOCATION, 30, 1),
	]);
	}

	test_localFunctionVariable_noInference() async {
	await assertErrorsInCode('''
	void f() {
	var m = <T>() {};
	m();
	}
	''', [
	error(HintCode.INFERENCE_FAILURE_ON_FUNCTION_INVOCATION, 33, 1),
	]);
	}

	test_nonGenericMethod() async {
	await assertNoErrorsInCode('''
	abstract class C {
	void m();
	}

	void f(C c) {
	c.m();
	}
	''');
	}

	test_topLevelFunction_noInference() async {
	await assertErrorsInCode('''
	void f<T>() {}

	void g() {
	f();
	}
	''', [
	error(HintCode.INFERENCE_FAILURE_ON_FUNCTION_INVOCATION, 29, 1),
	]);
	}

	test_topLevelFunction_withImportPrefix_noInference() async {
	newFile('$testPackageLibPath/a.dart', '''
	void f<T>() {}
	''');
	await assertErrorsInCode('''
	import 'a.dart' as a;
	void g() {
	a.f();
	}
	''', [
	error(HintCode.INFERENCE_FAILURE_ON_FUNCTION_INVOCATION, 37, 1),
	]);
	}

	test_topLevelFunction_withImportPrefix_optionalTypeArgs() async {
	newFile('$testPackageLibPath/a.dart', '''
	import 'package:meta/meta.dart';
	@optionalTypeArgs
	void f<T>() {}
	''');
	await assertNoErrorsInCode('''
	import 'a.dart' as a;
	void g() {
	a.f();
	}
	''');
	}
	}