pkg/compiler/lib/src/inferrer/kernel_inferrer_engine.dart - sdk.git - Git at Google

 // Copyright (c) 2017, 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:kernel/ast.dart' as ir;

 import '../../compiler_new.dart';
 import '../closure.dart';
 import '../common.dart';
 import '../common_elements.dart';
 import '../common/names.dart';
 import '../compiler.dart';
 import '../constants/values.dart';
 import '../elements/entities.dart';
 import '../elements/types.dart';
 import '../js_backend/mirrors_data.dart';
 import '../js_backend/no_such_method_registry.dart';
 import '../js_emitter/sorter.dart';
 import '../js_model/locals.dart';
 import '../kernel/element_map.dart';
 import '../options.dart';
 import '../types/types.dart';
 import '../world.dart';
 import 'builder_kernel.dart';
 import 'inferrer_engine.dart';
 import 'type_graph_inferrer.dart';
 import 'type_graph_nodes.dart';
 import 'type_system.dart';

 class KernelTypeGraphInferrer extends TypeGraphInferrer<ir.Node> {
   final Compiler _compiler;
   final KernelToElementMapForBuilding _elementMap;
   final GlobalLocalsMap _globalLocalsMap;
   final ClosureDataLookup<ir.Node> _closureDataLookup;

   KernelTypeGraphInferrer(
       this._compiler,
       this._elementMap,
       this._globalLocalsMap,
       this._closureDataLookup,
       ClosedWorld closedWorld,
       ClosedWorldRefiner closedWorldRefiner,
       {bool disableTypeInference: false})
       : super(closedWorld, closedWorldRefiner,
             disableTypeInference: disableTypeInference);

   @override
   InferrerEngine<ir.Node> createInferrerEngineFor(FunctionEntity main) {
     return new KernelInferrerEngine(
         _compiler.options,
         _compiler.progress,
         _compiler.reporter,
         _compiler.outputProvider,
         _elementMap,
         _globalLocalsMap,
         _closureDataLookup,
         closedWorld,
         closedWorldRefiner,
         _compiler.backend.mirrorsData,
         _compiler.backend.noSuchMethodRegistry,
         main,
         _compiler.backendStrategy.sorter);
   }

   @override
   GlobalTypeInferenceResults createResults() {
     return new KernelGlobalTypeInferenceResults(this, closedWorld);
   }
 }

 class KernelGlobalTypeInferenceResults
     extends GlobalTypeInferenceResults<ir.Node> {
   KernelGlobalTypeInferenceResults(
       TypesInferrer<ir.Node> inferrer, ClosedWorld closedWorld)
       : super(inferrer, closedWorld);

   GlobalTypeInferenceMemberResult<ir.Node> createMemberResult(
       TypeGraphInferrer<ir.Node> inferrer, MemberEntity member,
       {bool isJsInterop: false}) {
     return new GlobalTypeInferenceMemberResultImpl<ir.Node>(
         member,
         // We store data in the context of the enclosing method, even
         // for closure elements.
         inferrer.inferrer.lookupDataOfMember(member),
         inferrer,
         isJsInterop,
         dynamicType);
   }

   GlobalTypeInferenceParameterResult<ir.Node> createParameterResult(
       TypeGraphInferrer<ir.Node> inferrer, Local parameter) {
     return new GlobalTypeInferenceParameterResultImpl<ir.Node>(
         parameter, inferrer, dynamicType);
   }
 }

 class KernelInferrerEngine extends InferrerEngineImpl<ir.Node> {
   final KernelToElementMapForBuilding _elementMap;
   final GlobalLocalsMap _globalLocalsMap;
   final ClosureDataLookup<ir.Node> _closureDataLookup;

   KernelInferrerEngine(
       CompilerOptions options,
       Progress progress,
       DiagnosticReporter reporter,
       CompilerOutput compilerOutput,
       this._elementMap,
       this._globalLocalsMap,
       this._closureDataLookup,
       ClosedWorld closedWorld,
       ClosedWorldRefiner closedWorldRefiner,
       MirrorsData mirrorsData,
       NoSuchMethodRegistry noSuchMethodRegistry,
       FunctionEntity mainElement,
       Sorter sorter)
       : super(
             options,
             progress,
             reporter,
             compilerOutput,
             closedWorld,
             closedWorldRefiner,
             mirrorsData,
             noSuchMethodRegistry,
             mainElement,
             sorter,
             new KernelTypeSystemStrategy(
                 _elementMap, _globalLocalsMap, _closureDataLookup));

   ElementEnvironment get _elementEnvironment => _elementMap.elementEnvironment;

   @override
   ConstantValue getFieldConstant(FieldEntity field) {
     return _elementMap.getFieldConstantValue(field);
   }

   @override
   bool isFieldInitializerPotentiallyNull(
       FieldEntity field, ir.Node initializer) {
     // TODO(13429): We could do better here by using the
     // constant handler to figure out if it's a lazy field or not.
     // TODO(johnniwinther): Implement the ad-hoc check in ast inferrer? This
     // mimicks that ast inferrer which return `true` for [ast.Send] and
     // non-const [ast.NewExpression].
     if (initializer is ir.MethodInvocation ||
         initializer is ir.PropertyGet ||
         initializer is ir.PropertySet ||
         initializer is ir.StaticInvocation ||
         initializer is ir.StaticGet ||
         initializer is ir.StaticSet ||
         initializer is ir.Let ||
         initializer is ir.ConstructorInvocation && !initializer.isConst) {
       return true;
     }
     return false;
   }

   @override
   TypeInformation computeMemberTypeInformation(
       MemberEntity member, ir.Node body) {
     KernelTypeGraphBuilder visitor = new KernelTypeGraphBuilder(
         options,
         closedWorld,
         _closureDataLookup,
         this,
         member,
         body,
         _elementMap,
         _globalLocalsMap.getLocalsMap(member));
     return visitor.run();
   }

   @override
   FunctionEntity lookupCallMethod(ClassEntity cls) {
     FunctionEntity function =
         _elementEnvironment.lookupClassMember(cls, Identifiers.call);
     if (function == null || function.isAbstract) {
       function =
           _elementEnvironment.lookupClassMember(cls, Identifiers.noSuchMethod_);
     }
     return function;
   }

   @override
   ir.Node computeMemberBody(MemberEntity member) {
     MemberDefinition definition = _elementMap.getMemberDefinition(member);
     switch (definition.kind) {
       case MemberKind.regular:
         ir.Member node = definition.node;
         if (node is ir.Field) {
           return getFieldInitializer(_elementMap, member);
         } else if (node is ir.Procedure) {
           return node.function;
         }
         break;
       case MemberKind.constructor:
         return definition.node;
       case MemberKind.constructorBody:
         ir.Member node = definition.node;
         if (node is ir.Constructor) {
           return node.function;
         } else if (node is ir.Procedure) {
           return node.function;
         }
         break;
       case MemberKind.closureCall:
         ir.TreeNode node = definition.node;
         if (node is ir.FunctionDeclaration) {
           return node.function;
         } else if (node is ir.FunctionExpression) {
           return node.function;
         }
         break;
       case MemberKind.closureField:
       case MemberKind.signature:
       case MemberKind.generatorBody:
         break;
     }
     failedAt(member, 'Unexpected member definition: $definition.');
     return null;
   }

   @override
   int computeMemberSize(MemberEntity member) {
     // TODO(johnniwinther): Find an ordering that can be shared between the
     // front ends.
     return 0;
   }

   @override
   GlobalTypeInferenceElementData<ir.Node> createElementData() {
     return new KernelGlobalTypeInferenceElementData();
   }

   @override
   bool hasCallType(ClassEntity cls) {
     return _elementMap.types
             .getCallType(_elementMap.elementEnvironment.getThisType(cls)) !=
         null;
   }
 }

 class KernelTypeSystemStrategy implements TypeSystemStrategy<ir.Node> {
   KernelToElementMapForBuilding _elementMap;
   GlobalLocalsMap _globalLocalsMap;
   ClosureDataLookup<ir.Node> _closureDataLookup;

   KernelTypeSystemStrategy(
       this._elementMap, this._globalLocalsMap, this._closureDataLookup);

   ElementEnvironment get _elementEnvironment => _elementMap.elementEnvironment;

   @override
   bool checkClassEntity(ClassEntity cls) => true;

   @override
   bool checkMapNode(ir.Node node) => true;

   @override
   bool checkListNode(ir.Node node) => true;

   @override
   bool checkLoopPhiNode(ir.Node node) => true;

   @override
   bool checkPhiNode(ir.Node node) => true;

   @override
   void forEachParameter(FunctionEntity function, void f(Local parameter)) {
     forEachOrderedParameter(_globalLocalsMap, _elementMap, function, f);
   }

   @override
   ParameterTypeInformation createParameterTypeInformation(
       covariant JLocal parameter, TypeSystem<ir.Node> types) {
     MemberEntity context = parameter.memberContext;
     KernelToLocalsMap localsMap = _globalLocalsMap.getLocalsMap(context);
     ir.FunctionNode functionNode =
         localsMap.getFunctionNodeForParameter(parameter);
     DartType type = localsMap.getLocalType(_elementMap, parameter);
     MemberEntity member;
     bool isClosure = false;
     if (functionNode.parent is ir.Member) {
       member = _elementMap.getMember(functionNode.parent);
     } else if (functionNode.parent is ir.FunctionExpression ||
         functionNode.parent is ir.FunctionDeclaration) {
       ClosureRepresentationInfo info =
           _closureDataLookup.getClosureInfo(functionNode.parent);
       member = info.callMethod;
       isClosure = true;
     }
     MemberTypeInformation memberTypeInformation =
         types.getInferredTypeOfMember(member);
     if (isClosure) {
       return new ParameterTypeInformation.localFunction(
           memberTypeInformation, parameter, type, member);
     } else if (member.isInstanceMember) {
       return new ParameterTypeInformation.instanceMember(memberTypeInformation,
           parameter, type, member, new ParameterAssignments());
     } else {
       return new ParameterTypeInformation.static(
           memberTypeInformation, parameter, type, member);
     }
   }

   @override
   MemberTypeInformation createMemberTypeInformation(MemberEntity member) {
     if (member.isField) {
       FieldEntity field = member;
       DartType type = _elementEnvironment.getFieldType(field);
       return new FieldTypeInformation(field, type);
     } else if (member.isGetter) {
       FunctionEntity getter = member;
       DartType type = _elementEnvironment.getFunctionType(getter);
       return new GetterTypeInformation(getter, type);
     } else if (member.isSetter) {
       FunctionEntity setter = member;
       return new SetterTypeInformation(setter);
     } else if (member.isFunction) {
       FunctionEntity method = member;
       DartType type = _elementEnvironment.getFunctionType(method);
       return new MethodTypeInformation(method, type);
     } else {
       ConstructorEntity constructor = member;
       if (constructor.isFactoryConstructor) {
         DartType type = _elementEnvironment.getFunctionType(constructor);
         return new FactoryConstructorTypeInformation(constructor, type);
       } else {
         return new GenerativeConstructorTypeInformation(constructor);
       }
     }
   }
 }

 class KernelGlobalTypeInferenceElementData
     extends GlobalTypeInferenceElementData<ir.Node> {
   // TODO(johnniwinther): Rename this together with [typeOfSend].
   Map<ir.Node, TypeMask> _sendMap;

   Map<ir.ForInStatement, TypeMask> _iteratorMap;
   Map<ir.ForInStatement, TypeMask> _currentMap;
   Map<ir.ForInStatement, TypeMask> _moveNextMap;

   @override
   TypeMask typeOfSend(ir.Node node) {
     if (_sendMap == null) return null;
     return _sendMap[node];
   }

   @override
   void setCurrentTypeMask(covariant ir.ForInStatement node, TypeMask mask) {
     _currentMap ??= <ir.ForInStatement, TypeMask>{};
     _currentMap[node] = mask;
   }

   @override
   void setMoveNextTypeMask(covariant ir.ForInStatement node, TypeMask mask) {
     _moveNextMap ??= <ir.ForInStatement, TypeMask>{};
     _moveNextMap[node] = mask;
   }

   @override
   void setIteratorTypeMask(covariant ir.ForInStatement node, TypeMask mask) {
     _iteratorMap ??= <ir.ForInStatement, TypeMask>{};
     _iteratorMap[node] = mask;
   }

   @override
   TypeMask typeOfIteratorCurrent(covariant ir.ForInStatement node) {
     if (_currentMap == null) return null;
     return _currentMap[node];
   }

   @override
   TypeMask typeOfIteratorMoveNext(covariant ir.ForInStatement node) {
     if (_moveNextMap == null) return null;
     return _moveNextMap[node];
   }

   @override
   TypeMask typeOfIterator(covariant ir.ForInStatement node) {
     if (_iteratorMap == null) return null;
     return _iteratorMap[node];
   }

   @override
   void setOperatorTypeMaskInComplexSendSet(ir.Node node, TypeMask mask) {
     throw new UnsupportedError(
         'KernelGlobalTypeInferenceElementData.setOperatorTypeMaskInComplexSendSet');
   }

   @override
   void setGetterTypeMaskInComplexSendSet(ir.Node node, TypeMask mask) {
     throw new UnsupportedError(
         'KernelGlobalTypeInferenceElementData.setGetterTypeMaskInComplexSendSet');
   }

   @override
   void setTypeMask(ir.Node node, TypeMask mask) {
     _sendMap ??= <ir.Node, TypeMask>{};
     _sendMap[node] = mask;
   }

   @override
   TypeMask typeOfOperator(ir.Node node) {
     throw new UnsupportedError(
         'KernelGlobalTypeInferenceElementData.typeOfOperator');
   }

   @override
   TypeMask typeOfGetter(ir.Node node) {
     if (_sendMap == null) return null;
     return _sendMap[node];
   }
 }

 /// Returns the initializer for [field].
 ///
 /// If [field] is an instance field with a null literal initializer `null` is
 /// returned, otherwise the initializer of the [ir.Field] is returned.
 ir.Node getFieldInitializer(
     KernelToElementMapForBuilding elementMap, FieldEntity field) {
   MemberDefinition definition = elementMap.getMemberDefinition(field);
   ir.Field node = definition.node;
   if (node.isInstanceMember &&
       !node.isFinal &&
       node.initializer is ir.NullLiteral) {
     return null;
   }
   return node.initializer;
 }
	// Copyright (c) 2017, 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:kernel/ast.dart' as ir;

	import '../../compiler_new.dart';
	import '../closure.dart';
	import '../common.dart';
	import '../common_elements.dart';
	import '../common/names.dart';
	import '../compiler.dart';
	import '../constants/values.dart';
	import '../elements/entities.dart';
	import '../elements/types.dart';
	import '../js_backend/mirrors_data.dart';
	import '../js_backend/no_such_method_registry.dart';
	import '../js_emitter/sorter.dart';
	import '../js_model/locals.dart';
	import '../kernel/element_map.dart';
	import '../options.dart';
	import '../types/types.dart';
	import '../world.dart';
	import 'builder_kernel.dart';
	import 'inferrer_engine.dart';
	import 'type_graph_inferrer.dart';
	import 'type_graph_nodes.dart';
	import 'type_system.dart';

	class KernelTypeGraphInferrer extends TypeGraphInferrer<ir.Node> {
	final Compiler _compiler;
	final KernelToElementMapForBuilding _elementMap;
	final GlobalLocalsMap _globalLocalsMap;
	final ClosureDataLookup<ir.Node> _closureDataLookup;

	KernelTypeGraphInferrer(
	this._compiler,
	this._elementMap,
	this._globalLocalsMap,
	this._closureDataLookup,
	ClosedWorld closedWorld,
	ClosedWorldRefiner closedWorldRefiner,
	{bool disableTypeInference: false})
	: super(closedWorld, closedWorldRefiner,
	disableTypeInference: disableTypeInference);

	@override
	InferrerEngine<ir.Node> createInferrerEngineFor(FunctionEntity main) {
	return new KernelInferrerEngine(
	_compiler.options,
	_compiler.progress,
	_compiler.reporter,
	_compiler.outputProvider,
	_elementMap,
	_globalLocalsMap,
	_closureDataLookup,
	closedWorld,
	closedWorldRefiner,
	_compiler.backend.mirrorsData,
	_compiler.backend.noSuchMethodRegistry,
	main,
	_compiler.backendStrategy.sorter);
	}

	@override
	GlobalTypeInferenceResults createResults() {
	return new KernelGlobalTypeInferenceResults(this, closedWorld);
	}
	}

	class KernelGlobalTypeInferenceResults
	extends GlobalTypeInferenceResults<ir.Node> {
	KernelGlobalTypeInferenceResults(
	TypesInferrer<ir.Node> inferrer, ClosedWorld closedWorld)
	: super(inferrer, closedWorld);

	GlobalTypeInferenceMemberResult<ir.Node> createMemberResult(
	TypeGraphInferrer<ir.Node> inferrer, MemberEntity member,
	{bool isJsInterop: false}) {
	return new GlobalTypeInferenceMemberResultImpl<ir.Node>(
	member,
	// We store data in the context of the enclosing method, even
	// for closure elements.
	inferrer.inferrer.lookupDataOfMember(member),
	inferrer,
	isJsInterop,
	dynamicType);
	}

	GlobalTypeInferenceParameterResult<ir.Node> createParameterResult(
	TypeGraphInferrer<ir.Node> inferrer, Local parameter) {
	return new GlobalTypeInferenceParameterResultImpl<ir.Node>(
	parameter, inferrer, dynamicType);
	}
	}

	class KernelInferrerEngine extends InferrerEngineImpl<ir.Node> {
	final KernelToElementMapForBuilding _elementMap;
	final GlobalLocalsMap _globalLocalsMap;
	final ClosureDataLookup<ir.Node> _closureDataLookup;

	KernelInferrerEngine(
	CompilerOptions options,
	Progress progress,
	DiagnosticReporter reporter,
	CompilerOutput compilerOutput,
	this._elementMap,
	this._globalLocalsMap,
	this._closureDataLookup,
	ClosedWorld closedWorld,
	ClosedWorldRefiner closedWorldRefiner,
	MirrorsData mirrorsData,
	NoSuchMethodRegistry noSuchMethodRegistry,
	FunctionEntity mainElement,
	Sorter sorter)
	: super(
	options,
	progress,
	reporter,
	compilerOutput,
	closedWorld,
	closedWorldRefiner,
	mirrorsData,
	noSuchMethodRegistry,
	mainElement,
	sorter,
	new KernelTypeSystemStrategy(
	_elementMap, _globalLocalsMap, _closureDataLookup));

	ElementEnvironment get _elementEnvironment => _elementMap.elementEnvironment;

	@override
	ConstantValue getFieldConstant(FieldEntity field) {
	return _elementMap.getFieldConstantValue(field);
	}

	@override
	bool isFieldInitializerPotentiallyNull(
	FieldEntity field, ir.Node initializer) {
	// TODO(13429): We could do better here by using the
	// constant handler to figure out if it's a lazy field or not.
	// TODO(johnniwinther): Implement the ad-hoc check in ast inferrer? This
	// mimicks that ast inferrer which return `true` for [ast.Send] and
	// non-const [ast.NewExpression].
	if (initializer is ir.MethodInvocation \|\|
	initializer is ir.PropertyGet \|\|
	initializer is ir.PropertySet \|\|
	initializer is ir.StaticInvocation \|\|
	initializer is ir.StaticGet \|\|
	initializer is ir.StaticSet \|\|
	initializer is ir.Let \|\|
	initializer is ir.ConstructorInvocation && !initializer.isConst) {
	return true;
	}
	return false;
	}

	@override
	TypeInformation computeMemberTypeInformation(
	MemberEntity member, ir.Node body) {
	KernelTypeGraphBuilder visitor = new KernelTypeGraphBuilder(
	options,
	closedWorld,
	_closureDataLookup,
	this,
	member,
	body,
	_elementMap,
	_globalLocalsMap.getLocalsMap(member));
	return visitor.run();
	}

	@override
	FunctionEntity lookupCallMethod(ClassEntity cls) {
	FunctionEntity function =
	_elementEnvironment.lookupClassMember(cls, Identifiers.call);
	if (function == null \|\| function.isAbstract) {
	function =
	_elementEnvironment.lookupClassMember(cls, Identifiers.noSuchMethod_);
	}
	return function;
	}

	@override
	ir.Node computeMemberBody(MemberEntity member) {
	MemberDefinition definition = _elementMap.getMemberDefinition(member);
	switch (definition.kind) {
	case MemberKind.regular:
	ir.Member node = definition.node;
	if (node is ir.Field) {
	return getFieldInitializer(_elementMap, member);
	} else if (node is ir.Procedure) {
	return node.function;
	}
	break;
	case MemberKind.constructor:
	return definition.node;
	case MemberKind.constructorBody:
	ir.Member node = definition.node;
	if (node is ir.Constructor) {
	return node.function;
	} else if (node is ir.Procedure) {
	return node.function;
	}
	break;
	case MemberKind.closureCall:
	ir.TreeNode node = definition.node;
	if (node is ir.FunctionDeclaration) {
	return node.function;
	} else if (node is ir.FunctionExpression) {
	return node.function;
	}
	break;
	case MemberKind.closureField:
	case MemberKind.signature:
	case MemberKind.generatorBody:
	break;
	}
	failedAt(member, 'Unexpected member definition: $definition.');
	return null;
	}

	@override
	int computeMemberSize(MemberEntity member) {
	// TODO(johnniwinther): Find an ordering that can be shared between the
	// front ends.
	return 0;
	}

	@override
	GlobalTypeInferenceElementData<ir.Node> createElementData() {
	return new KernelGlobalTypeInferenceElementData();
	}

	@override
	bool hasCallType(ClassEntity cls) {
	return _elementMap.types
	.getCallType(_elementMap.elementEnvironment.getThisType(cls)) !=
	null;
	}
	}

	class KernelTypeSystemStrategy implements TypeSystemStrategy<ir.Node> {
	KernelToElementMapForBuilding _elementMap;
	GlobalLocalsMap _globalLocalsMap;
	ClosureDataLookup<ir.Node> _closureDataLookup;

	KernelTypeSystemStrategy(
	this._elementMap, this._globalLocalsMap, this._closureDataLookup);

	ElementEnvironment get _elementEnvironment => _elementMap.elementEnvironment;

	@override
	bool checkClassEntity(ClassEntity cls) => true;

	@override
	bool checkMapNode(ir.Node node) => true;

	@override
	bool checkListNode(ir.Node node) => true;

	@override
	bool checkLoopPhiNode(ir.Node node) => true;

	@override
	bool checkPhiNode(ir.Node node) => true;

	@override
	void forEachParameter(FunctionEntity function, void f(Local parameter)) {
	forEachOrderedParameter(_globalLocalsMap, _elementMap, function, f);
	}

	@override
	ParameterTypeInformation createParameterTypeInformation(
	covariant JLocal parameter, TypeSystem<ir.Node> types) {
	MemberEntity context = parameter.memberContext;
	KernelToLocalsMap localsMap = _globalLocalsMap.getLocalsMap(context);
	ir.FunctionNode functionNode =
	localsMap.getFunctionNodeForParameter(parameter);
	DartType type = localsMap.getLocalType(_elementMap, parameter);
	MemberEntity member;
	bool isClosure = false;
	if (functionNode.parent is ir.Member) {
	member = _elementMap.getMember(functionNode.parent);
	} else if (functionNode.parent is ir.FunctionExpression \|\|
	functionNode.parent is ir.FunctionDeclaration) {
	ClosureRepresentationInfo info =
	_closureDataLookup.getClosureInfo(functionNode.parent);
	member = info.callMethod;
	isClosure = true;
	}
	MemberTypeInformation memberTypeInformation =
	types.getInferredTypeOfMember(member);
	if (isClosure) {
	return new ParameterTypeInformation.localFunction(
	memberTypeInformation, parameter, type, member);
	} else if (member.isInstanceMember) {
	return new ParameterTypeInformation.instanceMember(memberTypeInformation,
	parameter, type, member, new ParameterAssignments());
	} else {
	return new ParameterTypeInformation.static(
	memberTypeInformation, parameter, type, member);
	}
	}

	@override
	MemberTypeInformation createMemberTypeInformation(MemberEntity member) {
	if (member.isField) {
	FieldEntity field = member;
	DartType type = _elementEnvironment.getFieldType(field);
	return new FieldTypeInformation(field, type);
	} else if (member.isGetter) {
	FunctionEntity getter = member;
	DartType type = _elementEnvironment.getFunctionType(getter);
	return new GetterTypeInformation(getter, type);
	} else if (member.isSetter) {
	FunctionEntity setter = member;
	return new SetterTypeInformation(setter);
	} else if (member.isFunction) {
	FunctionEntity method = member;
	DartType type = _elementEnvironment.getFunctionType(method);
	return new MethodTypeInformation(method, type);
	} else {
	ConstructorEntity constructor = member;
	if (constructor.isFactoryConstructor) {
	DartType type = _elementEnvironment.getFunctionType(constructor);
	return new FactoryConstructorTypeInformation(constructor, type);
	} else {
	return new GenerativeConstructorTypeInformation(constructor);
	}
	}
	}
	}

	class KernelGlobalTypeInferenceElementData
	extends GlobalTypeInferenceElementData<ir.Node> {
	// TODO(johnniwinther): Rename this together with [typeOfSend].
	Map<ir.Node, TypeMask> _sendMap;

	Map<ir.ForInStatement, TypeMask> _iteratorMap;
	Map<ir.ForInStatement, TypeMask> _currentMap;
	Map<ir.ForInStatement, TypeMask> _moveNextMap;

	@override
	TypeMask typeOfSend(ir.Node node) {
	if (_sendMap == null) return null;
	return _sendMap[node];
	}

	@override
	void setCurrentTypeMask(covariant ir.ForInStatement node, TypeMask mask) {
	_currentMap ??= <ir.ForInStatement, TypeMask>{};
	_currentMap[node] = mask;
	}

	@override
	void setMoveNextTypeMask(covariant ir.ForInStatement node, TypeMask mask) {
	_moveNextMap ??= <ir.ForInStatement, TypeMask>{};
	_moveNextMap[node] = mask;
	}

	@override
	void setIteratorTypeMask(covariant ir.ForInStatement node, TypeMask mask) {
	_iteratorMap ??= <ir.ForInStatement, TypeMask>{};
	_iteratorMap[node] = mask;
	}

	@override
	TypeMask typeOfIteratorCurrent(covariant ir.ForInStatement node) {
	if (_currentMap == null) return null;
	return _currentMap[node];
	}

	@override
	TypeMask typeOfIteratorMoveNext(covariant ir.ForInStatement node) {
	if (_moveNextMap == null) return null;
	return _moveNextMap[node];
	}

	@override
	TypeMask typeOfIterator(covariant ir.ForInStatement node) {
	if (_iteratorMap == null) return null;
	return _iteratorMap[node];
	}

	@override
	void setOperatorTypeMaskInComplexSendSet(ir.Node node, TypeMask mask) {
	throw new UnsupportedError(
	'KernelGlobalTypeInferenceElementData.setOperatorTypeMaskInComplexSendSet');
	}

	@override
	void setGetterTypeMaskInComplexSendSet(ir.Node node, TypeMask mask) {
	throw new UnsupportedError(
	'KernelGlobalTypeInferenceElementData.setGetterTypeMaskInComplexSendSet');
	}

	@override
	void setTypeMask(ir.Node node, TypeMask mask) {
	_sendMap ??= <ir.Node, TypeMask>{};
	_sendMap[node] = mask;
	}

	@override
	TypeMask typeOfOperator(ir.Node node) {
	throw new UnsupportedError(
	'KernelGlobalTypeInferenceElementData.typeOfOperator');
	}

	@override
	TypeMask typeOfGetter(ir.Node node) {
	if (_sendMap == null) return null;
	return _sendMap[node];
	}
	}

	/// Returns the initializer for [field].
	///
	/// If [field] is an instance field with a null literal initializer `null` is
	/// returned, otherwise the initializer of the [ir.Field] is returned.
	ir.Node getFieldInitializer(
	KernelToElementMapForBuilding elementMap, FieldEntity field) {
	MemberDefinition definition = elementMap.getMemberDefinition(field);
	ir.Field node = definition.node;
	if (node.isInstanceMember &&
	!node.isFinal &&
	node.initializer is ir.NullLiteral) {
	return null;
	}
	return node.initializer;
	}