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Unified Diff: pkg/compiler/lib/src/inferrer/simple_types_inferrer.dart

Issue 693183006: Revert "Move dart2js from sdk/lib/_internal/compiler to pkg/compiler" (Closed) Base URL: https://dart.googlecode.com/svn/branches/bleeding_edge/dart
Patch Set: Created 6 years, 1 month ago
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Index: pkg/compiler/lib/src/inferrer/simple_types_inferrer.dart
diff --git a/pkg/compiler/lib/src/inferrer/simple_types_inferrer.dart b/pkg/compiler/lib/src/inferrer/simple_types_inferrer.dart
deleted file mode 100644
index f06b1ccafc9f8913e0e4797441cb8ba668394dca..0000000000000000000000000000000000000000
--- a/pkg/compiler/lib/src/inferrer/simple_types_inferrer.dart
+++ /dev/null
@@ -1,1344 +0,0 @@
-// 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 simple_types_inferrer;
-
-import '../closure.dart' show ClosureClassMap, ClosureScope;
-import '../dart_types.dart'
- show DartType, InterfaceType, FunctionType, TypeKind;
-import '../elements/elements.dart';
-import '../js_backend/js_backend.dart' as js;
-import '../native/native.dart' as native;
-import '../tree/tree.dart' as ast;
-import '../cps_ir/cps_ir_nodes.dart' as cps_ir show Node;
-import '../util/util.dart' show Link, Spannable, Setlet;
-import '../types/types.dart'
- show TypesInferrer, FlatTypeMask, TypeMask, ContainerTypeMask,
- ElementTypeMask, ValueTypeMask, TypeSystem, MinimalInferrerEngine;
-import 'inferrer_visitor.dart';
-
-// BUG(8802): There's a bug in the analyzer that makes the re-export
-// of Selector from dart2jslib.dart fail. For now, we work around that
-// by importing universe.dart explicitly and disabling the re-export.
-import '../dart2jslib.dart' hide Selector, TypedSelector;
-import '../universe/universe.dart' show Selector, SideEffects, TypedSelector;
-
-/**
- * An implementation of [TypeSystem] for [TypeMask].
- */
-class TypeMaskSystem implements TypeSystem<TypeMask> {
- final Compiler compiler;
- final ClassWorld classWorld;
- TypeMaskSystem(Compiler compiler)
- : this.compiler = compiler,
- this.classWorld = compiler.world;
-
- TypeMask narrowType(TypeMask type,
- DartType annotation,
- {bool isNullable: true}) {
- if (annotation.treatAsDynamic) return type;
- if (annotation.element == compiler.objectClass) return type;
- TypeMask otherType;
- if (annotation.isTypedef || annotation.isFunctionType) {
- otherType = functionType;
- } else if (annotation.isTypeVariable) {
- // TODO(ngeoffray): Narrow to bound.
- return type;
- } else if (annotation.isVoid) {
- otherType = nullType;
- } else {
- assert(annotation.isInterfaceType);
- otherType = new TypeMask.nonNullSubtype(annotation.element, classWorld);
- }
- if (isNullable) otherType = otherType.nullable();
- if (type == null) return otherType;
- return type.intersection(otherType, classWorld);
- }
-
- TypeMask computeLUB(TypeMask firstType, TypeMask secondType) {
- if (firstType == null) {
- return secondType;
- } else if (secondType == dynamicType || firstType == dynamicType) {
- return dynamicType;
- } else if (firstType == secondType) {
- return firstType;
- } else {
- TypeMask union = firstType.union(secondType, classWorld);
- // TODO(kasperl): If the union isn't nullable it seems wasteful
- // to use dynamic. Fix that.
- return union.containsAll(classWorld) ? dynamicType : union;
- }
- }
-
- TypeMask allocateDiamondPhi(TypeMask firstType, TypeMask secondType) {
- return computeLUB(firstType, secondType);
- }
-
- TypeMask get dynamicType => compiler.typesTask.dynamicType;
- TypeMask get nullType => compiler.typesTask.nullType;
- TypeMask get intType => compiler.typesTask.intType;
- TypeMask get uint32Type => compiler.typesTask.uint32Type;
- TypeMask get uint31Type => compiler.typesTask.uint31Type;
- TypeMask get positiveIntType => compiler.typesTask.positiveIntType;
- TypeMask get doubleType => compiler.typesTask.doubleType;
- TypeMask get numType => compiler.typesTask.numType;
- TypeMask get boolType => compiler.typesTask.boolType;
- TypeMask get functionType => compiler.typesTask.functionType;
- TypeMask get listType => compiler.typesTask.listType;
- TypeMask get constListType => compiler.typesTask.constListType;
- TypeMask get fixedListType => compiler.typesTask.fixedListType;
- TypeMask get growableListType => compiler.typesTask.growableListType;
- TypeMask get mapType => compiler.typesTask.mapType;
- TypeMask get constMapType => compiler.typesTask.constMapType;
- TypeMask get stringType => compiler.typesTask.stringType;
- TypeMask get typeType => compiler.typesTask.typeType;
- bool isNull(TypeMask mask) => mask.isEmpty && mask.isNullable;
-
- TypeMask stringLiteralType(ast.DartString value) => stringType;
-
- TypeMask nonNullSubtype(ClassElement type)
- => new TypeMask.nonNullSubtype(type.declaration, classWorld);
- TypeMask nonNullSubclass(ClassElement type)
- => new TypeMask.nonNullSubclass(type.declaration, classWorld);
- TypeMask nonNullExact(ClassElement type)
- => new TypeMask.nonNullExact(type.declaration, classWorld);
- TypeMask nonNullEmpty() => new TypeMask.nonNullEmpty();
-
- TypeMask allocateList(TypeMask type,
- ast.Node node,
- Element enclosing,
- [TypeMask elementType, int length]) {
- return new ContainerTypeMask(type, node, enclosing, elementType, length);
- }
-
- TypeMask allocateMap(TypeMask type, ast.Node node, Element element,
- [List<TypeMask> keys, List<TypeMask> values]) {
- return type;
- }
-
- TypeMask allocateClosure(ast.Node node, Element element) {
- return functionType;
- }
-
- Selector newTypedSelector(TypeMask receiver, Selector selector) {
- return new TypedSelector(receiver, selector, compiler.world);
- }
-
- TypeMask addPhiInput(Local variable,
- TypeMask phiType,
- TypeMask newType) {
- return computeLUB(phiType, newType);
- }
-
- TypeMask allocatePhi(ast.Node node,
- Local variable,
- TypeMask inputType) {
- return inputType;
- }
-
- TypeMask allocateLoopPhi(ast.Node node,
- Local variable,
- TypeMask inputType) {
- return inputType;
- }
-
- TypeMask simplifyPhi(ast.Node node,
- Local variable,
- TypeMask phiType) {
- return phiType;
- }
-
- bool selectorNeedsUpdate(TypeMask type, Selector selector) {
- return type != selector.mask;
- }
-
- TypeMask refineReceiver(Selector selector, TypeMask receiverType) {
- TypeMask newType = compiler.world.allFunctions.receiverType(selector);
- return receiverType.intersection(newType, classWorld);
- }
-
- TypeMask getConcreteTypeFor(TypeMask mask) => mask;
-}
-
-/**
- * Common super class used by [SimpleTypeInferrerVisitor] to propagate
- * type information about visited nodes, as well as to request type
- * information of elements.
- */
-abstract class InferrerEngine<T, V extends TypeSystem>
- implements MinimalInferrerEngine<T> {
- final Compiler compiler;
- final ClassWorld classWorld;
- final V types;
- final Map<ast.Node, T> concreteTypes = new Map<ast.Node, T>();
- final Set<Element> generativeConstructorsExposingThis = new Set<Element>();
-
- InferrerEngine(Compiler compiler, this.types)
- : this.compiler = compiler,
- this.classWorld = compiler.world;
-
- /**
- * Records the default type of parameter [parameter].
- */
- void setDefaultTypeOfParameter(ParameterElement parameter, T type);
-
- /**
- * This helper breaks abstractions but is currently required to work around
- * the wrong modelling of default values of optional parameters of
- * synthetic constructors.
- *
- * TODO(johnniwinther): Remove once default values of synthetic parameters
- * are fixed.
- */
- bool hasAlreadyComputedTypeOfParameterDefault(ParameterElement paramemter);
-
- /**
- * Returns the type of [element].
- */
- T typeOfElement(Element element);
-
- /**
- * Returns the return type of [element].
- */
- T returnTypeOfElement(Element element);
-
- /**
- * Records that [node] sets final field [element] to be of type [type].
- *
- * [nodeHolder] is the element holder of [node].
- */
- void recordTypeOfFinalField(ast.Node node,
- Element nodeHolder,
- Element field,
- T type);
-
- /**
- * Records that [node] sets non-final field [element] to be of type
- * [type].
- */
- void recordTypeOfNonFinalField(Spannable node, Element field, T type);
-
- /**
- * Records that [element] is of type [type].
- */
- void recordType(Element element, T type);
-
- /**
- * Records that the return type [element] is of type [type].
- */
- void recordReturnType(Element element, T type);
-
- /**
- * Registers that [caller] calls [callee] at location [node], with
- * [selector], and [arguments]. Note that [selector] is null for
- * forwarding constructors.
- *
- * [sideEffects] will be updated to incorporate [callee]'s side
- * effects.
- *
- * [inLoop] tells whether the call happens in a loop.
- */
- T registerCalledElement(Spannable node,
- Selector selector,
- Element caller,
- Element callee,
- ArgumentsTypes<T> arguments,
- SideEffects sideEffects,
- bool inLoop);
-
- /**
- * Registers that [caller] calls [selector] with [receiverType] as
- * receiver, and [arguments].
- *
- * [sideEffects] will be updated to incorporate the potential
- * callees' side effects.
- *
- * [inLoop] tells whether the call happens in a loop.
- */
- T registerCalledSelector(ast.Node node,
- Selector selector,
- T receiverType,
- Element caller,
- ArgumentsTypes<T> arguments,
- SideEffects sideEffects,
- bool inLoop);
-
- /**
- * Registers that [caller] calls [closure] with [arguments].
- *
- * [sideEffects] will be updated to incorporate the potential
- * callees' side effects.
- *
- * [inLoop] tells whether the call happens in a loop.
- */
- T registerCalledClosure(ast.Node node,
- Selector selector,
- T closure,
- Element caller,
- ArgumentsTypes<T> arguments,
- SideEffects sideEffects,
- bool inLoop);
-
- /**
- * Notifies to the inferrer that [analyzedElement] can have return
- * type [newType]. [currentType] is the type the [InferrerVisitor]
- * currently found.
- *
- * Returns the new type for [analyzedElement].
- */
- T addReturnTypeFor(Element analyzedElement, T currentType, T newType);
-
- /**
- * Applies [f] to all elements in the universe that match
- * [selector]. If [f] returns false, aborts the iteration.
- */
- void forEachElementMatching(Selector selector, bool f(Element element)) {
- Iterable<Element> elements = compiler.world.allFunctions.filter(selector);
- for (Element e in elements) {
- if (!f(e.implementation)) return;
- }
- }
-
- /**
- * Update [sideEffects] with the side effects of [callee] being
- * called with [selector].
- */
- void updateSideEffects(SideEffects sideEffects,
- Selector selector,
- Element callee) {
- if (callee.isField) {
- if (callee.isInstanceMember) {
- if (selector.isSetter) {
- sideEffects.setChangesInstanceProperty();
- } else if (selector.isGetter) {
- sideEffects.setDependsOnInstancePropertyStore();
- } else {
- sideEffects.setAllSideEffects();
- sideEffects.setDependsOnSomething();
- }
- } else {
- if (selector.isSetter) {
- sideEffects.setChangesStaticProperty();
- } else if (selector.isGetter) {
- sideEffects.setDependsOnStaticPropertyStore();
- } else {
- sideEffects.setAllSideEffects();
- sideEffects.setDependsOnSomething();
- }
- }
- } else if (callee.isGetter && !selector.isGetter) {
- sideEffects.setAllSideEffects();
- sideEffects.setDependsOnSomething();
- } else {
- sideEffects.add(compiler.world.getSideEffectsOfElement(callee));
- }
- }
-
- /**
- * Returns the type for [nativeBehavior]. See documentation on
- * [native.NativeBehavior].
- */
- T typeOfNativeBehavior(native.NativeBehavior nativeBehavior) {
- if (nativeBehavior == null) return types.dynamicType;
- List typesReturned = nativeBehavior.typesReturned;
- if (typesReturned.isEmpty) return types.dynamicType;
- T returnType;
- for (var type in typesReturned) {
- T mappedType;
- if (type == native.SpecialType.JsObject) {
- mappedType = types.nonNullExact(compiler.objectClass);
- } else if (type.element == compiler.stringClass) {
- mappedType = types.stringType;
- } else if (type.element == compiler.intClass) {
- mappedType = types.intType;
- } else if (type.element == compiler.doubleClass) {
- mappedType = types.doubleType;
- } else if (type.element == compiler.numClass) {
- mappedType = types.numType;
- } else if (type.element == compiler.boolClass) {
- mappedType = types.boolType;
- } else if (type.element == compiler.nullClass) {
- mappedType = types.nullType;
- } else if (type.isVoid) {
- mappedType = types.nullType;
- } else if (type.isDynamic) {
- return types.dynamicType;
- } else {
- mappedType = types.nonNullSubtype(type.element);
- }
- returnType = types.computeLUB(returnType, mappedType);
- if (returnType == types.dynamicType) {
- break;
- }
- }
- return returnType;
- }
-
- void updateSelectorInTree(
- AstElement owner, Spannable node, Selector selector) {
- if (node is cps_ir.Node) {
- // TODO(lry): update selector for IrInvokeDynamic.
- throw "updateSelector for IR node $node";
- }
- ast.Node astNode = node;
- TreeElements elements = owner.resolvedAst.elements;
- if (astNode.asSendSet() != null) {
- if (selector.isSetter || selector.isIndexSet) {
- elements.setSelector(node, selector);
- } else if (selector.isGetter || selector.isIndex) {
- elements.setGetterSelectorInComplexSendSet(node, selector);
- } else {
- assert(selector.isOperator);
- elements.setOperatorSelectorInComplexSendSet(node, selector);
- }
- } else if (astNode.asSend() != null) {
- elements.setSelector(node, selector);
- } else {
- assert(astNode.asForIn() != null);
- if (selector.asUntyped == compiler.iteratorSelector) {
- elements.setIteratorSelector(node, selector);
- } else if (selector.asUntyped == compiler.currentSelector) {
- elements.setCurrentSelector(node, selector);
- } else {
- assert(selector.asUntyped == compiler.moveNextSelector);
- elements.setMoveNextSelector(node, selector);
- }
- }
- }
-
- bool isNativeElement(Element element) {
- if (element.isNative) return true;
- return element.isClassMember
- && element.enclosingClass.isNative
- && element.isField;
- }
-
- void analyze(Element element, ArgumentsTypes arguments);
-
- bool checkIfExposesThis(Element element) {
- element = element.implementation;
- return generativeConstructorsExposingThis.contains(element);
- }
-
- void recordExposesThis(Element element, bool exposesThis) {
- element = element.implementation;
- if (exposesThis) {
- generativeConstructorsExposingThis.add(element);
- }
- }
-}
-
-class SimpleTypeInferrerVisitor<T>
- extends InferrerVisitor<T, InferrerEngine<T, TypeSystem<T>>> {
- T returnType;
- bool visitingInitializers = false;
- bool isConstructorRedirect = false;
- bool seenSuperConstructorCall = false;
- SideEffects sideEffects = new SideEffects.empty();
- final Element outermostElement;
- final InferrerEngine<T, TypeSystem<T>> inferrer;
- final Setlet<Element> capturedVariables = new Setlet<Element>();
-
- SimpleTypeInferrerVisitor.internal(analyzedElement,
- this.outermostElement,
- inferrer,
- compiler,
- locals)
- : super(analyzedElement, inferrer, inferrer.types, compiler, locals),
- this.inferrer = inferrer {
- assert(outermostElement != null);
- }
-
- SimpleTypeInferrerVisitor(Element element,
- Compiler compiler,
- InferrerEngine<T, TypeSystem<T>> inferrer,
- [LocalsHandler<T> handler])
- : this.internal(element,
- element.outermostEnclosingMemberOrTopLevel.implementation,
- inferrer, compiler, handler);
-
- void analyzeSuperConstructorCall(Element target, ArgumentsTypes arguments) {
- inferrer.analyze(target, arguments);
- isThisExposed = isThisExposed || inferrer.checkIfExposesThis(target);
- }
-
- T run() {
- var node = analyzedElement.node;
- ast.Expression initializer;
- if (analyzedElement.isField) {
- VariableElement fieldElement = analyzedElement;
- initializer = fieldElement.initializer;
- if (initializer == null) {
- // Eagerly bailout, because computing the closure data only
- // works for functions and field assignments.
- return types.nullType;
- }
- }
- // Update the locals that are boxed in [locals]. These locals will
- // be handled specially, in that we are computing their LUB at
- // each update, and reading them yields the type that was found in a
- // previous analysis of [outermostElement].
- ClosureClassMap closureData =
- compiler.closureToClassMapper.computeClosureToClassMapping(
- analyzedElement, node, elements);
- closureData.forEachCapturedVariable((variable, field) {
- locals.setCaptured(variable, field);
- });
- closureData.forEachBoxedVariable((variable, field) {
- locals.setCapturedAndBoxed(variable, field);
- });
- if (analyzedElement.isField) {
- return visit(initializer);
- }
-
- FunctionElement function = analyzedElement;
- FunctionSignature signature = function.functionSignature;
- signature.forEachOptionalParameter((ParameterElement element) {
- ast.Expression defaultValue = element.initializer;
- // If this is a default value from a different context (because
- // the current function is synthetic, e.g., a constructor from
- // a mixin application), we have to start a new inferrer visitor
- // with the correct context.
- // TODO(johnniwinther): Remove once function signatures are fixed.
- SimpleTypeInferrerVisitor visitor = this;
- if (inferrer.hasAlreadyComputedTypeOfParameterDefault(element)) return;
- if (element.functionDeclaration != analyzedElement) {
- visitor = new SimpleTypeInferrerVisitor(
- element.functionDeclaration, compiler, inferrer);
- }
- T type =
- (defaultValue == null) ? types.nullType : visitor.visit(defaultValue);
- inferrer.setDefaultTypeOfParameter(element, type);
- });
-
- if (analyzedElement.isNative) {
- // Native methods do not have a body, and we currently just say
- // they return dynamic.
- return types.dynamicType;
- }
-
- if (analyzedElement.isGenerativeConstructor) {
- isThisExposed = false;
- signature.forEachParameter((ParameterElement element) {
- T parameterType = inferrer.typeOfElement(element);
- if (element.isInitializingFormal) {
- InitializingFormalElement initializingFormal = element;
- if (initializingFormal.fieldElement.isFinal) {
- inferrer.recordTypeOfFinalField(
- node,
- analyzedElement,
- initializingFormal.fieldElement,
- parameterType);
- } else {
- locals.updateField(initializingFormal.fieldElement, parameterType);
- inferrer.recordTypeOfNonFinalField(
- initializingFormal.node,
- initializingFormal.fieldElement,
- parameterType);
- }
- }
- locals.update(element, parameterType, node);
- });
- ClassElement cls = analyzedElement.enclosingClass;
- if (analyzedElement.isSynthesized) {
- node = analyzedElement;
- ConstructorElement constructor = analyzedElement;
- synthesizeForwardingCall(node, constructor.definingConstructor);
- } else {
- visitingInitializers = true;
- visit(node.initializers);
- visitingInitializers = false;
- // For a generative constructor like: `Foo();`, we synthesize
- // a call to the default super constructor (the one that takes
- // no argument). Resolution ensures that such a constructor
- // exists.
- if (!isConstructorRedirect
- && !seenSuperConstructorCall
- && !cls.isObject) {
- Selector selector =
- new Selector.callDefaultConstructor(analyzedElement.library);
- FunctionElement target = cls.superclass.lookupConstructor(selector);
- analyzeSuperConstructorCall(target, new ArgumentsTypes([], {}));
- synthesizeForwardingCall(analyzedElement, target);
- }
- visit(node.body);
- inferrer.recordExposesThis(analyzedElement, isThisExposed);
- }
- if (!isConstructorRedirect) {
- // Iterate over all instance fields, and give a null type to
- // fields that we haven't initialized for sure.
- cls.forEachInstanceField((_, FieldElement field) {
- if (field.isFinal) return;
- T type = locals.fieldScope.readField(field);
- if (type == null && field.initializer == null) {
- inferrer.recordTypeOfNonFinalField(node, field, types.nullType);
- }
- });
- }
- returnType = types.nonNullExact(cls);
- } else {
- signature.forEachParameter((element) {
- locals.update(element, inferrer.typeOfElement(element), node);
- });
- visit(node.body);
- if (returnType == null) {
- // No return in the body.
- returnType = locals.seenReturnOrThrow
- ? types.nonNullEmpty() // Body always throws.
- : types.nullType;
- } else if (!locals.seenReturnOrThrow) {
- // We haven't seen returns on all branches. So the method may
- // also return null.
- returnType = inferrer.addReturnTypeFor(
- analyzedElement, returnType, types.nullType);
- }
- }
-
- compiler.world.registerSideEffects(analyzedElement, sideEffects);
- assert(breaksFor.isEmpty);
- assert(continuesFor.isEmpty);
- return returnType;
- }
-
- T visitFunctionExpression(ast.FunctionExpression node) {
- // We loose track of [this] in closures (see issue 20840). To be on
- // the safe side, we mark [this] as exposed here. We could do better by
- // analyzing the closure.
- // TODO(herhut): Analyze whether closure exposes this.
- isThisExposed = true;
- LocalFunctionElement element = elements.getFunctionDefinition(node);
- // We don't put the closure in the work queue of the
- // inferrer, because it will share information with its enclosing
- // method, like for example the types of local variables.
- LocalsHandler closureLocals = new LocalsHandler<T>.from(
- locals, node, useOtherTryBlock: false);
- SimpleTypeInferrerVisitor visitor = new SimpleTypeInferrerVisitor<T>(
- element, compiler, inferrer, closureLocals);
- visitor.run();
- inferrer.recordReturnType(element, visitor.returnType);
-
- // Record the types of captured non-boxed variables. Types of
- // these variables may already be there, because of an analysis of
- // a previous closure.
- ClosureClassMap nestedClosureData =
- compiler.closureToClassMapper.getMappingForNestedFunction(node);
- nestedClosureData.forEachCapturedVariable((variable, field) {
- if (!nestedClosureData.isVariableBoxed(variable)) {
- if (variable == nestedClosureData.thisLocal) {
- inferrer.recordType(field, thisType);
- }
- // The type is null for type parameters.
- if (locals.locals[variable] == null) return;
- inferrer.recordType(field, locals.locals[variable]);
- }
- capturedVariables.add(variable);
- });
-
- return inferrer.concreteTypes.putIfAbsent(node, () {
- return types.allocateClosure(node, element);
- });
- }
-
- T visitFunctionDeclaration(ast.FunctionDeclaration node) {
- LocalFunctionElement element = elements.getFunctionDefinition(node.function);
- T type = inferrer.concreteTypes.putIfAbsent(node.function, () {
- return types.allocateClosure(node.function, element);
- });
- locals.update(element, type, node);
- visit(node.function);
- return type;
- }
-
- T visitStringInterpolation(ast.StringInterpolation node) {
- // Interpolation could have any effects since it could call any toString()
- // method.
- // TODO(sra): This could be modelled by a call to toString() but with a
- // guaranteed String return type. Interpolation of known types would get
- // specialized effects. This would not currently be effective since the JS
- // code in the toString methods for intercepted primitive types is assumed
- // to have all effects. Effect annotations on JS code would be needed to
- // get the benefit.
- sideEffects.setAllSideEffects();
- return super.visitStringInterpolation(node);
- }
-
- T visitLiteralList(ast.LiteralList node) {
- // We only set the type once. We don't need to re-visit the children
- // when re-analyzing the node.
- return inferrer.concreteTypes.putIfAbsent(node, () {
- T elementType;
- int length = 0;
- for (ast.Node element in node.elements.nodes) {
- T type = visit(element);
- elementType = elementType == null
- ? types.allocatePhi(null, null, type)
- : types.addPhiInput(null, elementType, type);
- length++;
- }
- elementType = elementType == null
- ? types.nonNullEmpty()
- : types.simplifyPhi(null, null, elementType);
- T containerType = node.isConst
- ? types.constListType
- : types.growableListType;
- return types.allocateList(
- containerType,
- node,
- outermostElement,
- elementType,
- length);
- });
- }
-
- T visitLiteralMap(ast.LiteralMap node) {
- return inferrer.concreteTypes.putIfAbsent(node, () {
- ast.NodeList entries = node.entries;
- List<T> keyTypes = [];
- List<T> valueTypes = [];
-
- for (ast.LiteralMapEntry entry in entries) {
- keyTypes.add(visit(entry.key));
- valueTypes.add(visit(entry.value));
- }
-
- T type = node.isConst ? types.constMapType : types.mapType;
- return types.allocateMap(type,
- node,
- outermostElement,
- keyTypes,
- valueTypes);
- });
- }
-
- bool isThisOrSuper(ast.Node node) => node.isThis() || node.isSuper();
-
- bool isInClassOrSubclass(Element element) {
- ClassElement cls = outermostElement.enclosingClass.declaration;
- ClassElement enclosing = element.enclosingClass.declaration;
- return compiler.world.isSubclassOf(enclosing, cls);
- }
-
- void checkIfExposesThis(Selector selector) {
- if (isThisExposed) return;
- inferrer.forEachElementMatching(selector, (element) {
- if (element.isField) {
- if (!selector.isSetter
- && isInClassOrSubclass(element)
- && !element.modifiers.isFinal
- && locals.fieldScope.readField(element) == null
- && element.initializer == null) {
- // If the field is being used before this constructor
- // actually had a chance to initialize it, say it can be
- // null.
- inferrer.recordTypeOfNonFinalField(
- analyzedElement.node, element,
- types.nullType);
- }
- // Accessing a field does not expose [:this:].
- return true;
- }
- // TODO(ngeoffray): We could do better here if we knew what we
- // are calling does not expose this.
- isThisExposed = true;
- return false;
- });
- }
-
- bool get inInstanceContext {
- return (outermostElement.isInstanceMember && !outermostElement.isField)
- || outermostElement.isGenerativeConstructor;
- }
-
- bool treatAsInstanceMember(Element element) {
- return (Elements.isUnresolved(element) && inInstanceContext)
- || (element != null && element.isInstanceMember);
- }
-
- T visitSendSet(ast.SendSet node) {
- Element element = elements[node];
- if (!Elements.isUnresolved(element) && element.impliesType) {
- node.visitChildren(this);
- return types.dynamicType;
- }
-
- Selector getterSelector =
- elements.getGetterSelectorInComplexSendSet(node);
- Selector operatorSelector =
- elements.getOperatorSelectorInComplexSendSet(node);
- Selector setterSelector = elements.getSelector(node);
-
- String op = node.assignmentOperator.source;
- bool isIncrementOrDecrement = op == '++' || op == '--';
-
- T receiverType;
- bool isCallOnThis = false;
- if (node.receiver == null) {
- if (treatAsInstanceMember(element)) {
- receiverType = thisType;
- isCallOnThis = true;
- }
- } else {
- receiverType = visit(node.receiver);
- isCallOnThis = isThisOrSuper(node.receiver);
- }
-
- T rhsType;
- T indexType;
-
- if (isIncrementOrDecrement) {
- rhsType = types.uint31Type;
- if (node.isIndex) indexType = visit(node.arguments.head);
- } else if (node.isIndex) {
- indexType = visit(node.arguments.head);
- rhsType = visit(node.arguments.tail.head);
- } else {
- rhsType = visit(node.arguments.head);
- }
-
- if (!visitingInitializers && !isThisExposed) {
- for (ast.Node node in node.arguments) {
- if (isThisOrSuper(node)) {
- isThisExposed = true;
- break;
- }
- }
- if (!isThisExposed && isCallOnThis) {
- checkIfExposesThis(
- types.newTypedSelector(receiverType, setterSelector));
- if (getterSelector != null) {
- checkIfExposesThis(
- types.newTypedSelector(receiverType, getterSelector));
- }
- }
- }
-
- if (node.isIndex) {
- if (op == '=') {
- // [: foo[0] = 42 :]
- handleDynamicSend(
- node,
- setterSelector,
- receiverType,
- new ArgumentsTypes<T>([indexType, rhsType], null));
- return rhsType;
- } else {
- // [: foo[0] += 42 :] or [: foo[0]++ :].
- T getterType = handleDynamicSend(
- node,
- getterSelector,
- receiverType,
- new ArgumentsTypes<T>([indexType], null));
- T returnType = handleDynamicSend(
- node,
- operatorSelector,
- getterType,
- new ArgumentsTypes<T>([rhsType], null));
- handleDynamicSend(
- node,
- setterSelector,
- receiverType,
- new ArgumentsTypes<T>([indexType, returnType], null));
-
- if (node.isPostfix) {
- return getterType;
- } else {
- return returnType;
- }
- }
- } else if (op == '=') {
- return handlePlainAssignment(
- node, element, setterSelector, receiverType, rhsType,
- node.arguments.head);
- } else {
- // [: foo++ :] or [: foo += 1 :].
- ArgumentsTypes operatorArguments = new ArgumentsTypes<T>([rhsType], null);
- T getterType;
- T newType;
- if (Elements.isErroneousElement(element)) {
- getterType = types.dynamicType;
- newType = types.dynamicType;
- } else if (Elements.isStaticOrTopLevelField(element)) {
- Element getterElement = elements[node.selector];
- getterType =
- handleStaticSend(node, getterSelector, getterElement, null);
- newType = handleDynamicSend(
- node, operatorSelector, getterType, operatorArguments);
- handleStaticSend(
- node, setterSelector, element,
- new ArgumentsTypes<T>([newType], null));
- } else if (Elements.isUnresolved(element)
- || element.isSetter
- || element.isField) {
- getterType = handleDynamicSend(
- node, getterSelector, receiverType, null);
- newType = handleDynamicSend(
- node, operatorSelector, getterType, operatorArguments);
- handleDynamicSend(node, setterSelector, receiverType,
- new ArgumentsTypes<T>([newType], null));
- } else if (element.isLocal) {
- LocalElement local = element;
- getterType = locals.use(local);
- newType = handleDynamicSend(
- node, operatorSelector, getterType, operatorArguments);
- locals.update(element, newType, node);
- } else {
- // Bogus SendSet, for example [: myMethod += 42 :].
- getterType = types.dynamicType;
- newType = handleDynamicSend(
- node, operatorSelector, getterType, operatorArguments);
- }
-
- if (node.isPostfix) {
- return getterType;
- } else {
- return newType;
- }
- }
- }
-
- T handlePlainAssignment(ast.Node node,
- Element element,
- Selector setterSelector,
- T receiverType,
- T rhsType,
- ast.Node rhs) {
- ArgumentsTypes arguments = new ArgumentsTypes<T>([rhsType], null);
- if (Elements.isErroneousElement(element)) {
- // Code will always throw.
- } else if (Elements.isStaticOrTopLevelField(element)) {
- handleStaticSend(node, setterSelector, element, arguments);
- } else if (Elements.isUnresolved(element) || element.isSetter) {
- if (analyzedElement.isGenerativeConstructor
- && (node.asSendSet() != null)
- && (node.asSendSet().receiver != null)
- && node.asSendSet().receiver.isThis()) {
- Iterable<Element> targets = compiler.world.allFunctions.filter(
- types.newTypedSelector(thisType, setterSelector));
- // We just recognized a field initialization of the form:
- // `this.foo = 42`. If there is only one target, we can update
- // its type.
- if (targets.length == 1) {
- Element single = targets.first;
- if (single.isField) {
- locals.updateField(single, rhsType);
- }
- }
- }
- handleDynamicSend(
- node, setterSelector, receiverType, arguments);
- } else if (element.isField) {
- if (element.isFinal) {
- inferrer.recordTypeOfFinalField(
- node, outermostElement, element, rhsType);
- } else {
- if (analyzedElement.isGenerativeConstructor) {
- locals.updateField(element, rhsType);
- }
- if (visitingInitializers) {
- inferrer.recordTypeOfNonFinalField(node, element, rhsType);
- } else {
- handleDynamicSend(
- node, setterSelector, receiverType, arguments);
- }
- }
- } else if (element.isLocal) {
- locals.update(element, rhsType, node);
- }
- return rhsType;
- }
-
- T visitSuperSend(ast.Send node) {
- Element element = elements[node];
- ArgumentsTypes arguments = node.isPropertyAccess
- ? null
- : analyzeArguments(node.arguments);
- if (visitingInitializers) {
- seenSuperConstructorCall = true;
- analyzeSuperConstructorCall(element, arguments);
- }
- Selector selector = elements.getSelector(node);
- // TODO(ngeoffray): We could do better here if we knew what we
- // are calling does not expose this.
- isThisExposed = true;
- if (Elements.isUnresolved(element)
- || !selector.applies(element, compiler.world)) {
- // Ensure we create a node, to make explicit the call to the
- // `noSuchMethod` handler.
- return handleDynamicSend(node, selector, superType, arguments);
- } else if (node.isPropertyAccess
- || element.isFunction
- || element.isGenerativeConstructor) {
- return handleStaticSend(node, selector, element, arguments);
- } else {
- return inferrer.registerCalledClosure(
- node, selector, inferrer.typeOfElement(element),
- outermostElement, arguments, sideEffects, inLoop);
- }
- }
-
- // Try to find the length given to a fixed array constructor call.
- int findLength(ast.Send node) {
- ast.Node firstArgument = node.arguments.head;
- Element element = elements[firstArgument];
- ast.LiteralInt length = firstArgument.asLiteralInt();
- if (length != null) {
- return length.value;
- } else if (element != null
- && element.isField
- && Elements.isStaticOrTopLevelField(element)
- && compiler.world.fieldNeverChanges(element)) {
- var constant =
- compiler.backend.constants.getConstantForVariable(element);
- if (constant != null && constant.value.isInt) {
- return constant.value.primitiveValue;
- }
- }
- return null;
- }
-
- T visitStaticSend(ast.Send node) {
- Element element = elements[node];
- if (elements.isAssert(node)) {
- js.JavaScriptBackend backend = compiler.backend;
- element = backend.assertMethod;
- }
- ArgumentsTypes arguments = analyzeArguments(node.arguments);
- if (visitingInitializers) {
- if (ast.Initializers.isConstructorRedirect(node)) {
- isConstructorRedirect = true;
- } else if (ast.Initializers.isSuperConstructorCall(node)) {
- seenSuperConstructorCall = true;
- analyzeSuperConstructorCall(element, arguments);
- }
- }
- // If we are looking at a new expression on a forwarding factory,
- // we have to forward the call to the effective target of the
- // factory.
- if (element.isFactoryConstructor) {
- // TODO(herhut): Remove the while loop once effectiveTarget forwards to
- // patches.
- while (element.isFactoryConstructor) {
- ConstructorElement constructor = element;
- if (!constructor.isRedirectingFactory) break;
- element = constructor.effectiveTarget.implementation;
- }
- }
- if (element.isForeign(compiler.backend)) {
- return handleForeignSend(node);
- }
- Selector selector = elements.getSelector(node);
- // In erroneous code the number of arguments in the selector might not
- // match the function element.
- // TODO(polux): return nonNullEmpty and check it doesn't break anything
- if (!selector.applies(element, compiler.world)) return types.dynamicType;
-
- T returnType = handleStaticSend(node, selector, element, arguments);
- if (Elements.isGrowableListConstructorCall(element, node, compiler)) {
- return inferrer.concreteTypes.putIfAbsent(
- node, () => types.allocateList(
- types.growableListType, node, outermostElement,
- types.nonNullEmpty(), 0));
- } else if (Elements.isFixedListConstructorCall(element, node, compiler)
- || Elements.isFilledListConstructorCall(element, node, compiler)) {
-
- int length = findLength(node);
- T elementType =
- Elements.isFixedListConstructorCall(element, node, compiler)
- ? types.nullType
- : arguments.positional[1];
-
- return inferrer.concreteTypes.putIfAbsent(
- node, () => types.allocateList(
- types.fixedListType, node, outermostElement,
- elementType, length));
- } else if (Elements.isConstructorOfTypedArraySubclass(element, compiler)) {
- int length = findLength(node);
- ConstructorElement constructor = element.implementation;
- constructor = constructor.effectiveTarget;
- T elementType = inferrer.returnTypeOfElement(
- constructor.enclosingClass.lookupMember('[]'));
- return inferrer.concreteTypes.putIfAbsent(
- node, () => types.allocateList(
- types.nonNullExact(constructor.enclosingClass), node,
- outermostElement, elementType, length));
- } else if (element.isFunction || element.isConstructor) {
- return returnType;
- } else {
- assert(element.isField || element.isGetter);
- return inferrer.registerCalledClosure(
- node, selector, inferrer.typeOfElement(element),
- outermostElement, arguments, sideEffects, inLoop);
- }
- }
-
- T handleForeignSend(ast.Send node) {
- ArgumentsTypes arguments = analyzeArguments(node.arguments);
- Selector selector = elements.getSelector(node);
- String name = selector.name;
- handleStaticSend(node, selector, elements[node], arguments);
- if (name == 'JS' || name == 'JS_EMBEDDED_GLOBAL') {
- native.NativeBehavior nativeBehavior =
- compiler.enqueuer.resolution.nativeEnqueuer.getNativeBehaviorOf(node);
- sideEffects.add(nativeBehavior.sideEffects);
- return inferrer.typeOfNativeBehavior(nativeBehavior);
- } else if (name == 'JS_GET_NAME'
- || name == 'JS_NULL_CLASS_NAME'
- || name == 'JS_OBJECT_CLASS_NAME'
- || name == 'JS_OPERATOR_IS_PREFIX'
- || name == 'JS_OPERATOR_AS_PREFIX'
- || name == 'JS_STRING_CONCAT') {
- return types.stringType;
- } else {
- sideEffects.setAllSideEffects();
- return types.dynamicType;
- }
- }
-
- ArgumentsTypes analyzeArguments(Link<ast.Node> arguments) {
- List<T> positional = [];
- Map<String, T> named;
- for (var argument in arguments) {
- ast.NamedArgument namedArgument = argument.asNamedArgument();
- if (namedArgument != null) {
- argument = namedArgument.expression;
- if (named == null) named = new Map<String, T>();
- named[namedArgument.name.source] = argument.accept(this);
- } else {
- positional.add(argument.accept(this));
- }
- // TODO(ngeoffray): We could do better here if we knew what we
- // are calling does not expose this.
- isThisExposed = isThisExposed || argument.isThis();
- }
- return new ArgumentsTypes<T>(positional, named);
- }
-
- T visitGetterSend(ast.Send node) {
- Element element = elements[node];
- Selector selector = elements.getSelector(node);
- if (Elements.isStaticOrTopLevelField(element)) {
- return handleStaticSend(node, selector, element, null);
- } else if (Elements.isInstanceSend(node, elements)) {
- return visitDynamicSend(node);
- } else if (Elements.isStaticOrTopLevelFunction(element)) {
- return handleStaticSend(node, selector, element, null);
- } else if (Elements.isErroneousElement(element)) {
- return types.dynamicType;
- } else if (element.isLocal) {
- LocalElement local = element;
- assert(locals.use(local) != null);
- return locals.use(local);
- } else {
- assert(element is PrefixElement);
- return null;
- }
- }
-
- T visitClosureSend(ast.Send node) {
- assert(node.receiver == null);
- T closure = node.selector.accept(this);
- ArgumentsTypes arguments = analyzeArguments(node.arguments);
- Element element = elements[node];
- Selector selector = elements.getSelector(node);
- if (element != null && element.isFunction) {
- assert(element.isLocal);
- // This only works for function statements. We need a
- // more sophisticated type system with function types to support
- // more.
- return inferrer.registerCalledElement(
- node, selector, outermostElement, element, arguments,
- sideEffects, inLoop);
- } else {
- return inferrer.registerCalledClosure(
- node, selector, closure, outermostElement, arguments,
- sideEffects, inLoop);
- }
- }
-
- T handleStaticSend(ast.Node node,
- Selector selector,
- Element element,
- ArgumentsTypes arguments) {
- assert(!element.isFactoryConstructor ||
- !(element as ConstructorElement).isRedirectingFactory);
- // Erroneous elements may be unresolved, for example missing getters.
- if (Elements.isUnresolved(element)) return types.dynamicType;
- // TODO(herhut): should we follow redirecting constructors here? We would
- // need to pay attention of the constructor is pointing to an erroneous
- // element.
- return inferrer.registerCalledElement(
- node, selector, outermostElement, element, arguments,
- sideEffects, inLoop);
- }
-
- T handleDynamicSend(ast.Node node,
- Selector selector,
- T receiverType,
- ArgumentsTypes arguments) {
- assert(receiverType != null);
- if (types.selectorNeedsUpdate(receiverType, selector)) {
- selector = (receiverType == types.dynamicType)
- ? selector.asUntyped
- : types.newTypedSelector(receiverType, selector);
- inferrer.updateSelectorInTree(analyzedElement, node, selector);
- }
-
- // If the receiver of the call is a local, we may know more about
- // its type by refining it with the potential targets of the
- // calls.
- if (node.asSend() != null) {
- ast.Node receiver = node.asSend().receiver;
- if (receiver != null) {
- Element element = elements[receiver];
- if (Elements.isLocal(element) && !capturedVariables.contains(element)) {
- T refinedType = types.refineReceiver(selector, receiverType);
- locals.update(element, refinedType, node);
- }
- }
- }
-
- return inferrer.registerCalledSelector(
- node, selector, receiverType, outermostElement, arguments,
- sideEffects, inLoop);
- }
-
- T visitDynamicSend(ast.Send node) {
- Element element = elements[node];
- T receiverType;
- bool isCallOnThis = false;
- if (node.receiver == null) {
- if (treatAsInstanceMember(element)) {
- isCallOnThis = true;
- receiverType = thisType;
- }
- } else {
- ast.Node receiver = node.receiver;
- isCallOnThis = isThisOrSuper(receiver);
- receiverType = visit(receiver);
- }
-
- Selector selector = elements.getSelector(node);
- if (!isThisExposed && isCallOnThis) {
- checkIfExposesThis(types.newTypedSelector(receiverType, selector));
- }
-
- ArgumentsTypes arguments = node.isPropertyAccess
- ? null
- : analyzeArguments(node.arguments);
- if (selector.name == '=='
- || selector.name == '!=') {
- if (types.isNull(receiverType)) {
- potentiallyAddNullCheck(node, node.arguments.head);
- return types.boolType;
- } else if (types.isNull(arguments.positional[0])) {
- potentiallyAddNullCheck(node, node.receiver);
- return types.boolType;
- }
- }
- return handleDynamicSend(node, selector, receiverType, arguments);
- }
-
- void recordReturnType(T type) {
- returnType = inferrer.addReturnTypeFor(analyzedElement, returnType, type);
- }
-
- T synthesizeForwardingCall(Spannable node, FunctionElement element) {
- element = element.implementation;
- FunctionElement function = analyzedElement;
- FunctionSignature signature = function.functionSignature;
- FunctionSignature calleeSignature = element.functionSignature;
- if (!calleeSignature.isCompatibleWith(signature)) {
- return types.nonNullEmpty();
- }
-
- List<T> unnamed = <T>[];
- signature.forEachRequiredParameter((ParameterElement element) {
- assert(locals.use(element) != null);
- unnamed.add(locals.use(element));
- });
-
- Map<String, T> named;
- if (signature.optionalParametersAreNamed) {
- named = new Map<String, T>();
- signature.forEachOptionalParameter((ParameterElement element) {
- named[element.name] = locals.use(element);
- });
- } else {
- signature.forEachOptionalParameter((ParameterElement element) {
- unnamed.add(locals.use(element));
- });
- }
-
- ArgumentsTypes arguments = new ArgumentsTypes<T>(unnamed, named);
- return inferrer.registerCalledElement(node,
- null,
- outermostElement,
- element,
- arguments,
- sideEffects,
- inLoop);
- }
- T visitRedirectingFactoryBody(ast.RedirectingFactoryBody node) {
- Element element = elements.getRedirectingTargetConstructor(node);
- if (Elements.isErroneousElement(element)) {
- recordReturnType(types.dynamicType);
- } else {
- // We don't create a selector for redirecting factories, and
- // the send is just a property access. Therefore we must
- // manually create the [ArgumentsTypes] of the call, and
- // manually register [analyzedElement] as a caller of [element].
- T mask = synthesizeForwardingCall(node.constructorReference, element);
- recordReturnType(mask);
- }
- locals.seenReturnOrThrow = true;
- return null;
- }
-
- T visitReturn(ast.Return node) {
- ast.Node expression = node.expression;
- recordReturnType(expression == null
- ? types.nullType
- : expression.accept(this));
- locals.seenReturnOrThrow = true;
- return null;
- }
-
- T visitForIn(ast.ForIn node) {
- T expressionType = visit(node.expression);
- Selector iteratorSelector = elements.getIteratorSelector(node);
- Selector currentSelector = elements.getCurrentSelector(node);
- Selector moveNextSelector = elements.getMoveNextSelector(node);
-
- T iteratorType =
- handleDynamicSend(node, iteratorSelector, expressionType, null);
- handleDynamicSend(node, moveNextSelector,
- iteratorType, new ArgumentsTypes<T>([], null));
- T currentType =
- handleDynamicSend(node, currentSelector, iteratorType, null);
-
- if (node.expression.isThis()) {
- // Any reasonable implementation of an iterator would expose
- // this, so we play it safe and assume it will.
- isThisExposed = true;
- }
-
- ast.Node identifier = node.declaredIdentifier;
- Element element = elements.getForInVariable(node);
- Selector selector = elements.getSelector(identifier);
-
- T receiverType;
- if (element != null && element.isInstanceMember) {
- receiverType = thisType;
- } else {
- receiverType = types.dynamicType;
- }
-
- handlePlainAssignment(identifier, element, selector,
- receiverType, currentType,
- node.expression);
- return handleLoop(node, () {
- visit(node.body);
- });
- }
-}
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