tests/compiler/dart2js/helpers/type_test_helper.dart - sdk - Git at Google

 // Copyright (c) 2013, 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.

 library type_test_helper;

 import 'dart:async';
 import 'package:expect/expect.dart';
 import 'package:compiler/src/common_elements.dart';
 import 'package:compiler/src/commandline_options.dart';
 import 'package:compiler/src/compiler.dart';
 import 'package:compiler/src/elements/types.dart';
 import 'package:compiler/src/compiler.dart' show Compiler;
 import 'package:compiler/src/elements/entities.dart';
 import 'package:compiler/src/kernel/kernel_strategy.dart';
 import 'package:compiler/src/world.dart' show JClosedWorld, KClosedWorld;
 import 'memory_compiler.dart' as memory;

 DartType instantiate(ClassEntity element, List<DartType> arguments) {
   return new InterfaceType(element, arguments);
 }

 class TypeEnvironment {
   final Compiler compiler;
   final bool testBackendWorld;

   static Future<TypeEnvironment> create(String source,
       {bool expectNoErrors: false,
       bool expectNoWarningsOrErrors: false,
       bool testBackendWorld: false,
       List<String> options: const <String>[],
       Map<String, String> fieldTypeMap: const <String, String>{}}) async {
     memory.DiagnosticCollector collector = new memory.DiagnosticCollector();
     Uri uri = Uri.parse('memory:main.dart');
     memory.CompilationResult result = await memory.runCompiler(
         entryPoint: uri,
         memorySourceFiles: {'main.dart': source},
         options: [Flags.disableTypeInference]..addAll(options),
         diagnosticHandler: collector,
         beforeRun: (compiler) {
           compiler.stopAfterTypeInference = true;
         });
     Compiler compiler = result.compiler;
     if (expectNoErrors || expectNoWarningsOrErrors) {
       var errors = collector.errors;
       Expect.isTrue(errors.isEmpty, 'Unexpected errors: ${errors}');
     }
     if (expectNoWarningsOrErrors) {
       var warnings = collector.warnings;
       Expect.isTrue(warnings.isEmpty, 'Unexpected warnings: ${warnings}');
     }
     return new TypeEnvironment._(compiler, testBackendWorld: testBackendWorld);
   }

   TypeEnvironment._(Compiler this.compiler, {this.testBackendWorld: false});

   ElementEnvironment get elementEnvironment {
     if (testBackendWorld) {
       return compiler.backendClosedWorldForTesting.elementEnvironment;
     } else {
       return compiler.frontendStrategy.elementEnvironment;
     }
   }

   CommonElements get commonElements {
     if (testBackendWorld) {
       return compiler.backendClosedWorldForTesting.commonElements;
     } else {
       return compiler.frontendStrategy.commonElements;
     }
   }

   DartTypes get types {
     if (testBackendWorld) {
       return compiler.backendClosedWorldForTesting.dartTypes;
     } else {
       KernelFrontEndStrategy frontendStrategy = compiler.frontendStrategy;
       return frontendStrategy.elementMap.types;
     }
   }

   Entity getElement(String name) {
     LibraryEntity mainLibrary = elementEnvironment.mainLibrary;
     dynamic element = elementEnvironment.lookupLibraryMember(mainLibrary, name);
     element ??= elementEnvironment.lookupClass(mainLibrary, name);
     element ??=
         elementEnvironment.lookupClass(commonElements.coreLibrary, name);
     Expect.isNotNull(element, "No element named '$name' found.");
     return element;
   }

   ClassEntity getClass(String name) {
     LibraryEntity mainLibrary = elementEnvironment.mainLibrary;
     ClassEntity element = elementEnvironment.lookupClass(mainLibrary, name);
     Expect.isNotNull(element, "No class named '$name' found.");
     return element;
   }

   DartType getElementType(String name) {
     dynamic element = getElement(name);
     if (element is FieldEntity) {
       return elementEnvironment.getFieldType(element);
     } else if (element is FunctionEntity) {
       return elementEnvironment.getFunctionType(element);
     } else if (element is ClassEntity) {
       return elementEnvironment.getThisType(element);
     } else {
       throw 'Unexpected element $element';
     }
   }

   DartType operator [](String name) {
     if (name == 'dynamic') {
       return const DynamicType();
     }
     if (name == 'void') {
       return const VoidType();
     }
     return getElementType(name);
   }

   MemberEntity _getMember(String name, [ClassEntity cls]) {
     if (cls != null) {
       return elementEnvironment.lookupLocalClassMember(cls, name);
     } else {
       LibraryEntity mainLibrary = elementEnvironment.mainLibrary;
       return elementEnvironment.lookupLibraryMember(mainLibrary, name);
     }
   }

   DartType getMemberType(String name, [ClassEntity cls]) {
     MemberEntity member = _getMember(name, cls);
     if (member is FieldEntity) {
       return elementEnvironment.getFieldType(member);
     } else if (member is FunctionEntity) {
       return elementEnvironment.getFunctionType(member);
     }
     throw 'Unexpected member: $member for ${name}, cls=$cls';
   }

   DartType getClosureType(String name, [ClassEntity cls]) {
     if (testBackendWorld) {
       throw new UnsupportedError(
           "getClosureType not supported for backend testing.");
     }
     MemberEntity member = _getMember(name, cls);
     DartType type;
     compiler.resolutionWorldBuilder
         .forEachLocalFunction((MemberEntity m, Local local) {
       if (member == m) {
         type ??= elementEnvironment.getLocalFunctionType(local);
       }
     });
     return type;
   }

   DartType getFieldType(String name) {
     LibraryEntity mainLibrary = elementEnvironment.mainLibrary;
     FieldEntity field =
         elementEnvironment.lookupLibraryMember(mainLibrary, name);
     Expect.isNotNull(field);
     return elementEnvironment.getFieldType(field);
   }

   bool isSubtype(DartType T, DartType S) {
     return types.isSubtype(T, S);
   }

   bool isPotentialSubtype(DartType T, DartType S) {
     return types.isPotentialSubtype(T, S);
   }

   JClosedWorld get jClosedWorld {
     assert(testBackendWorld);
     return compiler.backendClosedWorldForTesting;
   }

   KClosedWorld get kClosedWorld {
     assert(!testBackendWorld);
     return compiler.resolutionWorldBuilder.closedWorldForTesting;
   }
 }

 /// Data used to create a function type either as method declaration or a
 /// typedef declaration.
 class FunctionTypeData {
   final String returnType;
   final String name;
   final String parameters;

   const FunctionTypeData(this.returnType, this.name, this.parameters);

   @override
   String toString() => '$returnType $name$parameters';
 }

 /// Return source code that declares the function types in [dataList] as
 /// method declarations of the form:
 ///
 ///     $returnType $name$parameters => null;
 String createMethods(List<FunctionTypeData> dataList,
     {String additionalData: '', String prefix: ''}) {
   StringBuffer sb = new StringBuffer();
   for (FunctionTypeData data in dataList) {
     sb.writeln(
         '${data.returnType} $prefix${data.name}${data.parameters} => null;');
   }
   sb.write(additionalData);
   return sb.toString();
 }

 /// Return source code that declares the function types in [dataList] as
 /// typedefs of the form:
 ///
 ///     typedef fx = $returnType Function$parameters;
 ///     fx $name;
 ///
 /// where a field using the typedef is add to make the type accessible by name.
 String createTypedefs(List<FunctionTypeData> dataList,
     {String additionalData: '', String prefix: ''}) {
   StringBuffer sb = new StringBuffer();
   for (int index = 0; index < dataList.length; index++) {
     FunctionTypeData data = dataList[index];
     sb.writeln(
         'typedef f$index = ${data.returnType} Function${data.parameters};');
   }
   for (int index = 0; index < dataList.length; index++) {
     FunctionTypeData data = dataList[index];
     sb.writeln('f$index $prefix${data.name};');
   }
   sb.write(additionalData);
   return sb.toString();
 }

 /// Return source code that uses the function types in [dataList].
 String createUses(List<FunctionTypeData> dataList, {String prefix: ''}) {
   StringBuffer sb = new StringBuffer();
   for (int index = 0; index < dataList.length; index++) {
     FunctionTypeData data = dataList[index];
     sb.writeln('$prefix${data.name};');
   }
   return sb.toString();
 }
	// Copyright (c) 2013, 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.

	library type_test_helper;

	import 'dart:async';
	import 'package:expect/expect.dart';
	import 'package:compiler/src/common_elements.dart';
	import 'package:compiler/src/commandline_options.dart';
	import 'package:compiler/src/compiler.dart';
	import 'package:compiler/src/elements/types.dart';
	import 'package:compiler/src/compiler.dart' show Compiler;
	import 'package:compiler/src/elements/entities.dart';
	import 'package:compiler/src/kernel/kernel_strategy.dart';
	import 'package:compiler/src/world.dart' show JClosedWorld, KClosedWorld;
	import 'memory_compiler.dart' as memory;

	DartType instantiate(ClassEntity element, List<DartType> arguments) {
	return new InterfaceType(element, arguments);
	}

	class TypeEnvironment {
	final Compiler compiler;
	final bool testBackendWorld;

	static Future<TypeEnvironment> create(String source,
	{bool expectNoErrors: false,
	bool expectNoWarningsOrErrors: false,
	bool testBackendWorld: false,
	List<String> options: const <String>[],
	Map<String, String> fieldTypeMap: const <String, String>{}}) async {
	memory.DiagnosticCollector collector = new memory.DiagnosticCollector();
	Uri uri = Uri.parse('memory:main.dart');
	memory.CompilationResult result = await memory.runCompiler(
	entryPoint: uri,
	memorySourceFiles: {'main.dart': source},
	options: [Flags.disableTypeInference]..addAll(options),
	diagnosticHandler: collector,
	beforeRun: (compiler) {
	compiler.stopAfterTypeInference = true;
	});
	Compiler compiler = result.compiler;
	if (expectNoErrors \|\| expectNoWarningsOrErrors) {
	var errors = collector.errors;
	Expect.isTrue(errors.isEmpty, 'Unexpected errors: ${errors}');
	}
	if (expectNoWarningsOrErrors) {
	var warnings = collector.warnings;
	Expect.isTrue(warnings.isEmpty, 'Unexpected warnings: ${warnings}');
	}
	return new TypeEnvironment._(compiler, testBackendWorld: testBackendWorld);
	}

	TypeEnvironment._(Compiler this.compiler, {this.testBackendWorld: false});

	ElementEnvironment get elementEnvironment {
	if (testBackendWorld) {
	return compiler.backendClosedWorldForTesting.elementEnvironment;
	} else {
	return compiler.frontendStrategy.elementEnvironment;
	}
	}

	CommonElements get commonElements {
	if (testBackendWorld) {
	return compiler.backendClosedWorldForTesting.commonElements;
	} else {
	return compiler.frontendStrategy.commonElements;
	}
	}

	DartTypes get types {
	if (testBackendWorld) {
	return compiler.backendClosedWorldForTesting.dartTypes;
	} else {
	KernelFrontEndStrategy frontendStrategy = compiler.frontendStrategy;
	return frontendStrategy.elementMap.types;
	}
	}

	Entity getElement(String name) {
	LibraryEntity mainLibrary = elementEnvironment.mainLibrary;
	dynamic element = elementEnvironment.lookupLibraryMember(mainLibrary, name);
	element ??= elementEnvironment.lookupClass(mainLibrary, name);
	element ??=
	elementEnvironment.lookupClass(commonElements.coreLibrary, name);
	Expect.isNotNull(element, "No element named '$name' found.");
	return element;
	}

	ClassEntity getClass(String name) {
	LibraryEntity mainLibrary = elementEnvironment.mainLibrary;
	ClassEntity element = elementEnvironment.lookupClass(mainLibrary, name);
	Expect.isNotNull(element, "No class named '$name' found.");
	return element;
	}

	DartType getElementType(String name) {
	dynamic element = getElement(name);
	if (element is FieldEntity) {
	return elementEnvironment.getFieldType(element);
	} else if (element is FunctionEntity) {
	return elementEnvironment.getFunctionType(element);
	} else if (element is ClassEntity) {
	return elementEnvironment.getThisType(element);
	} else {
	throw 'Unexpected element $element';
	}
	}

	DartType operator [](String name) {
	if (name == 'dynamic') {
	return const DynamicType();
	}
	if (name == 'void') {
	return const VoidType();
	}
	return getElementType(name);
	}

	MemberEntity _getMember(String name, [ClassEntity cls]) {
	if (cls != null) {
	return elementEnvironment.lookupLocalClassMember(cls, name);
	} else {
	LibraryEntity mainLibrary = elementEnvironment.mainLibrary;
	return elementEnvironment.lookupLibraryMember(mainLibrary, name);
	}
	}

	DartType getMemberType(String name, [ClassEntity cls]) {
	MemberEntity member = _getMember(name, cls);
	if (member is FieldEntity) {
	return elementEnvironment.getFieldType(member);
	} else if (member is FunctionEntity) {
	return elementEnvironment.getFunctionType(member);
	}
	throw 'Unexpected member: $member for ${name}, cls=$cls';
	}

	DartType getClosureType(String name, [ClassEntity cls]) {
	if (testBackendWorld) {
	throw new UnsupportedError(
	"getClosureType not supported for backend testing.");
	}
	MemberEntity member = _getMember(name, cls);
	DartType type;
	compiler.resolutionWorldBuilder
	.forEachLocalFunction((MemberEntity m, Local local) {
	if (member == m) {
	type ??= elementEnvironment.getLocalFunctionType(local);
	}
	});
	return type;
	}

	DartType getFieldType(String name) {
	LibraryEntity mainLibrary = elementEnvironment.mainLibrary;
	FieldEntity field =
	elementEnvironment.lookupLibraryMember(mainLibrary, name);
	Expect.isNotNull(field);
	return elementEnvironment.getFieldType(field);
	}

	bool isSubtype(DartType T, DartType S) {
	return types.isSubtype(T, S);
	}

	bool isPotentialSubtype(DartType T, DartType S) {
	return types.isPotentialSubtype(T, S);
	}

	JClosedWorld get jClosedWorld {
	assert(testBackendWorld);
	return compiler.backendClosedWorldForTesting;
	}

	KClosedWorld get kClosedWorld {
	assert(!testBackendWorld);
	return compiler.resolutionWorldBuilder.closedWorldForTesting;
	}
	}

	/// Data used to create a function type either as method declaration or a
	/// typedef declaration.
	class FunctionTypeData {
	final String returnType;
	final String name;
	final String parameters;

	const FunctionTypeData(this.returnType, this.name, this.parameters);

	@override
	String toString() => '$returnType $name$parameters';
	}

	/// Return source code that declares the function types in [dataList] as
	/// method declarations of the form:
	///
	/// $returnType $name$parameters => null;
	String createMethods(List<FunctionTypeData> dataList,
	{String additionalData: '', String prefix: ''}) {
	StringBuffer sb = new StringBuffer();
	for (FunctionTypeData data in dataList) {
	sb.writeln(
	'${data.returnType} $prefix${data.name}${data.parameters} => null;');
	}
	sb.write(additionalData);
	return sb.toString();
	}

	/// Return source code that declares the function types in [dataList] as
	/// typedefs of the form:
	///
	/// typedef fx = $returnType Function$parameters;
	/// fx $name;
	///
	/// where a field using the typedef is add to make the type accessible by name.
	String createTypedefs(List<FunctionTypeData> dataList,
	{String additionalData: '', String prefix: ''}) {
	StringBuffer sb = new StringBuffer();
	for (int index = 0; index < dataList.length; index++) {
	FunctionTypeData data = dataList[index];
	sb.writeln(
	'typedef f$index = ${data.returnType} Function${data.parameters};');
	}
	for (int index = 0; index < dataList.length; index++) {
	FunctionTypeData data = dataList[index];
	sb.writeln('f$index $prefix${data.name};');
	}
	sb.write(additionalData);
	return sb.toString();
	}

	/// Return source code that uses the function types in [dataList].
	String createUses(List<FunctionTypeData> dataList, {String prefix: ''}) {
	StringBuffer sb = new StringBuffer();
	for (int index = 0; index < dataList.length; index++) {
	FunctionTypeData data = dataList[index];
	sb.writeln('$prefix${data.name};');
	}
	return sb.toString();
	}