tests/compiler/dart2js/codegen/trust_type_annotations_test.dart - sdk.git - Git at Google

 // Copyright (c) 2014, 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:expect/expect.dart';
 import "package:async_helper/async_helper.dart";
 import 'package:compiler/src/commandline_options.dart';
 import 'package:compiler/src/elements/entities.dart';
 import '../compiler_helper.dart';
 import '../memory_compiler.dart';

 const String TEST = """
 class A {
   int aField;

   A(this.aField);

   // Test return type annotation.
   int foo(a) => a;
   // Test parameter type annotation.
   faa (int a) => a;
   // Test annotations on locals.
   baz(x) {
     int y = x;
     return y;
   }
   // Test tear-off closure type annotations.
   int bar(x) => x;
   int tear(x) {
     var torn = bar;
     // Have torn escape through closure to disable tracing.
     var fail = (() => torn)();
     return fail(x);
   }
 }

 main () {
   var a = new A("42");
   print(a.aField);
   print(a.foo("42"));
   print(a.foo(42));
   print(a.faa("42"));
   print(a.faa(42));
   print(a.baz("42"));
   print(a.baz(42));
   // Test trusting types of tear off closures.
   print(a.tear("42"));
   print(a.tear(42));
 }
 """;

 void main() {
   runTest({bool useKernel}) async {
     var options = [Flags.trustTypeAnnotations];
     if (useKernel) {
       options.add(Flags.useKernel);
     }
     var result = await runCompiler(
         memorySourceFiles: {'main.dart': TEST}, options: options);
     var compiler = result.compiler;
     var typesInferrer = compiler.globalInference.typesInferrerInternal;
     var closedWorld = typesInferrer.closedWorld;
     var elementEnvironment = closedWorld.elementEnvironment;

     ClassEntity classA =
         elementEnvironment.lookupClass(elementEnvironment.mainLibrary, "A");

     checkReturn(String name, TypeMask type) {
       MemberEntity element = elementEnvironment.lookupClassMember(classA, name);
       var mask = typesInferrer.getReturnTypeOfMember(element);
       Expect.isTrue(type.containsMask(mask, closedWorld));
     }

     checkType(String name, type) {
       MemberEntity element = elementEnvironment.lookupClassMember(classA, name);
       Expect.isTrue(type.containsMask(
           typesInferrer.getTypeOfMember(element), closedWorld));
     }

     var intMask =
         new TypeMask.subtype(closedWorld.commonElements.intClass, closedWorld);

     checkReturn('foo', intMask);
     checkReturn('faa', intMask);
     checkType('aField', intMask);
     checkReturn('bar', intMask);
     checkReturn('baz', intMask);
     checkReturn('tear', intMask);
   }

   asyncTest(() async {
     print('--test from ast---------------------------------------------------');
     await runTest(useKernel: false);
     print('--test from kernel------------------------------------------------');
     await runTest(useKernel: true);
   });
 }
	// Copyright (c) 2014, 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:expect/expect.dart';
	import "package:async_helper/async_helper.dart";
	import 'package:compiler/src/commandline_options.dart';
	import 'package:compiler/src/elements/entities.dart';
	import '../compiler_helper.dart';
	import '../memory_compiler.dart';

	const String TEST = """
	class A {
	int aField;

	A(this.aField);

	// Test return type annotation.
	int foo(a) => a;
	// Test parameter type annotation.
	faa (int a) => a;
	// Test annotations on locals.
	baz(x) {
	int y = x;
	return y;
	}
	// Test tear-off closure type annotations.
	int bar(x) => x;
	int tear(x) {
	var torn = bar;
	// Have torn escape through closure to disable tracing.
	var fail = (() => torn)();
	return fail(x);
	}
	}

	main () {
	var a = new A("42");
	print(a.aField);
	print(a.foo("42"));
	print(a.foo(42));
	print(a.faa("42"));
	print(a.faa(42));
	print(a.baz("42"));
	print(a.baz(42));
	// Test trusting types of tear off closures.
	print(a.tear("42"));
	print(a.tear(42));
	}
	""";

	void main() {
	runTest({bool useKernel}) async {
	var options = [Flags.trustTypeAnnotations];
	if (useKernel) {
	options.add(Flags.useKernel);
	}
	var result = await runCompiler(
	memorySourceFiles: {'main.dart': TEST}, options: options);
	var compiler = result.compiler;
	var typesInferrer = compiler.globalInference.typesInferrerInternal;
	var closedWorld = typesInferrer.closedWorld;
	var elementEnvironment = closedWorld.elementEnvironment;

	ClassEntity classA =
	elementEnvironment.lookupClass(elementEnvironment.mainLibrary, "A");

	checkReturn(String name, TypeMask type) {
	MemberEntity element = elementEnvironment.lookupClassMember(classA, name);
	var mask = typesInferrer.getReturnTypeOfMember(element);
	Expect.isTrue(type.containsMask(mask, closedWorld));
	}

	checkType(String name, type) {
	MemberEntity element = elementEnvironment.lookupClassMember(classA, name);
	Expect.isTrue(type.containsMask(
	typesInferrer.getTypeOfMember(element), closedWorld));
	}

	var intMask =
	new TypeMask.subtype(closedWorld.commonElements.intClass, closedWorld);

	checkReturn('foo', intMask);
	checkReturn('faa', intMask);
	checkType('aField', intMask);
	checkReturn('bar', intMask);
	checkReturn('baz', intMask);
	checkReturn('tear', intMask);
	}

	asyncTest(() async {
	print('--test from ast---------------------------------------------------');
	await runTest(useKernel: false);
	print('--test from kernel------------------------------------------------');
	await runTest(useKernel: true);
	});
	}