Revert "Move dart2js from sdk/lib/_internal/compiler to pkg/compiler"

pkg/compiler/lib/src/enqueue.dart

-// Copyright (c) 2012, 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.
-
-part of dart2js;
-
-typedef ItemCompilationContext ItemCompilationContextCreator();
-
-class EnqueueTask extends CompilerTask {
-  final ResolutionEnqueuer resolution;
-  final CodegenEnqueuer codegen;
-
-  String get name => 'Enqueue';
-
-  EnqueueTask(Compiler compiler)
-    : resolution = new ResolutionEnqueuer(
-          compiler, compiler.backend.createItemCompilationContext),
-      codegen = new CodegenEnqueuer(
-          compiler, compiler.backend.createItemCompilationContext),
-      super(compiler) {
-    codegen.task = this;
-    resolution.task = this;
-
-    codegen.nativeEnqueuer = compiler.backend.nativeCodegenEnqueuer(codegen);
-    resolution.nativeEnqueuer =
-        compiler.backend.nativeResolutionEnqueuer(resolution);
-  }
-
-  void forgetElement(Element element) {
-    resolution.forgetElement(element);
-    codegen.forgetElement(element);
-  }
-}
-
-abstract class Enqueuer {
-  final String name;
-  final Compiler compiler; // TODO(ahe): Remove this dependency.
-  final ItemCompilationContextCreator itemCompilationContextCreator;
-  final Map<String, Set<Element>> instanceMembersByName
-      = new Map<String, Set<Element>>();
-  final Map<String, Set<Element>> instanceFunctionsByName
-      = new Map<String, Set<Element>>();
-  final Set<ClassElement> _processedClasses = new Set<ClassElement>();
-  Set<ClassElement> recentClasses = new Setlet<ClassElement>();
-  final Universe universe = new Universe();
-
-  static final TRACE_MIRROR_ENQUEUING =
-      const bool.fromEnvironment("TRACE_MIRROR_ENQUEUING");
-
-  bool queueIsClosed = false;
-  EnqueueTask task;
-  native.NativeEnqueuer nativeEnqueuer;  // Set by EnqueueTask
-
-  bool hasEnqueuedReflectiveElements = false;
-  bool hasEnqueuedReflectiveStaticFields = false;
-
-  Enqueuer(this.name, this.compiler, this.itemCompilationContextCreator);
-
-  Queue<WorkItem> get queue;
-  bool get queueIsEmpty => queue.isEmpty;
-
-  /// Returns [:true:] if this enqueuer is the resolution enqueuer.
-  bool get isResolutionQueue => false;
-
-  QueueFilter get filter => compiler.enqueuerFilter;
-
-  /// Returns [:true:] if [member] has been processed by this enqueuer.
-  bool isProcessed(Element member);
-
-  /**
-   * Documentation wanted -- johnniwinther
-   *
-   * Invariant: [element] must be a declaration element.
-   */
-  void addToWorkList(Element element) {
-    assert(invariant(element, element.isDeclaration));
-    internalAddToWorkList(element);
-  }
-
-  /**
-   * Adds [element] to the work list if it has not already been processed.
-   *
-   * Returns [true] if the element was actually added to the queue.
-   */
-  bool internalAddToWorkList(Element element);
-
-  void registerInstantiatedType(InterfaceType type, Registry registry,
-                                {bool mirrorUsage: false}) {
-    task.measure(() {
-      ClassElement cls = type.element;
-      registry.registerDependency(cls);
-      cls.ensureResolved(compiler);
-      universe.registerTypeInstantiation(type, byMirrors: mirrorUsage);
-      processInstantiatedClass(cls);
-    });
-  }
-
-  void registerInstantiatedClass(ClassElement cls, Registry registry,
-                                 {bool mirrorUsage: false}) {
-    cls.ensureResolved(compiler);
-    registerInstantiatedType(cls.rawType, registry, mirrorUsage: mirrorUsage);
-  }
-
-  bool checkNoEnqueuedInvokedInstanceMethods() {
-    return filter.checkNoEnqueuedInvokedInstanceMethods(this);
-  }
-
-  void processInstantiatedClassMembers(ClassElement cls) {
-    cls.implementation.forEachMember(processInstantiatedClassMember);
-  }
-
-  void processInstantiatedClassMember(ClassElement cls, Element member) {
-    assert(invariant(member, member.isDeclaration));
-    if (isProcessed(member)) return;
-    if (!member.isInstanceMember) return;
-
-    String memberName = member.name;
-
-    if (member.kind == ElementKind.FIELD) {
-      // The obvious thing to test here would be "member.isNative",
-      // however, that only works after metadata has been parsed/analyzed,
-      // and that may not have happened yet.
-      // So instead we use the enclosing class, which we know have had
-      // its metadata parsed and analyzed.
-      // Note: this assumes that there are no non-native fields on native
-      // classes, which may not be the case when a native class is subclassed.
-      if (cls.isNative) {
-        compiler.world.registerUsedElement(member);
-        nativeEnqueuer.handleFieldAnnotations(member);
-        if (universe.hasInvokedGetter(member, compiler.world) ||
-            universe.hasInvocation(member, compiler.world)) {
-          nativeEnqueuer.registerFieldLoad(member);
-          // In handleUnseenSelector we can't tell if the field is loaded or
-          // stored.  We need the basic algorithm to be Church-Rosser, since the
-          // resolution 'reduction' order is different to the codegen order. So
-          // register that the field is also stored.  In other words: if we
-          // don't register the store here during resolution, the store could be
-          // registered during codegen on the handleUnseenSelector path, and
-          // cause the set of codegen elements to include unresolved elements.
-          nativeEnqueuer.registerFieldStore(member);
-          addToWorkList(member);
-          return;
-        }
-        if (universe.hasInvokedSetter(member, compiler.world)) {
-          nativeEnqueuer.registerFieldStore(member);
-          // See comment after registerFieldLoad above.
-          nativeEnqueuer.registerFieldLoad(member);
-          addToWorkList(member);
-          return;
-        }
-        // Native fields need to go into instanceMembersByName as they
-        // are virtual instantiation points and escape points.
-      } else {
-        // All field initializers must be resolved as they could
-        // have an observable side-effect (and cannot be tree-shaken
-        // away).
-        addToWorkList(member);
-        return;
-      }
-    } else if (member.kind == ElementKind.FUNCTION) {
-      FunctionElement function = member;
-      function.computeSignature(compiler);
-      if (function.name == Compiler.NO_SUCH_METHOD) {
-        enableNoSuchMethod(function);
-      }
-      if (function.name == Compiler.CALL_OPERATOR_NAME &&
-          !cls.typeVariables.isEmpty) {
-        registerCallMethodWithFreeTypeVariables(
-            function, compiler.globalDependencies);
-      }
-      // If there is a property access with the same name as a method we
-      // need to emit the method.
-      if (universe.hasInvokedGetter(function, compiler.world)) {
-        registerClosurizedMember(function, compiler.globalDependencies);
-        addToWorkList(function);
-        return;
-      }
-      // Store the member in [instanceFunctionsByName] to catch
-      // getters on the function.
-      instanceFunctionsByName.putIfAbsent(memberName, () => new Set<Element>())
-          .add(member);
-      if (universe.hasInvocation(function, compiler.world)) {
-        addToWorkList(function);
-        return;
-      }
-    } else if (member.kind == ElementKind.GETTER) {
-      FunctionElement getter = member;
-      getter.computeSignature(compiler);
-      if (universe.hasInvokedGetter(getter, compiler.world)) {
-        addToWorkList(getter);
-        return;
-      }
-      // We don't know what selectors the returned closure accepts. If
-      // the set contains any selector we have to assume that it matches.
-      if (universe.hasInvocation(getter, compiler.world)) {
-        addToWorkList(getter);
-        return;
-      }
-    } else if (member.kind == ElementKind.SETTER) {
-      FunctionElement setter = member;
-      setter.computeSignature(compiler);
-      if (universe.hasInvokedSetter(setter, compiler.world)) {
-        addToWorkList(setter);
-        return;
-      }
-    }
-
-    // The element is not yet used. Add it to the list of instance
-    // members to still be processed.
-    instanceMembersByName.putIfAbsent(memberName, () => new Set<Element>())
-        .add(member);
-  }
-
-  void enableNoSuchMethod(Element element) {}
-  void enableIsolateSupport() {}
-
-  void processInstantiatedClass(ClassElement cls) {
-    task.measure(() {
-      if (_processedClasses.contains(cls)) return;
-      // The class must be resolved to compute the set of all
-      // supertypes.
-      cls.ensureResolved(compiler);
-
-      void processClass(ClassElement cls) {
-        if (_processedClasses.contains(cls)) return;
-
-        _processedClasses.add(cls);
-        recentClasses.add(cls);
-        cls.ensureResolved(compiler);
-        cls.implementation.forEachMember(processInstantiatedClassMember);
-        if (isResolutionQueue) {
-          compiler.resolver.checkClass(cls);
-        }
-        // We only tell the backend once that [cls] was instantiated, so
-        // any additional dependencies must be treated as global
-        // dependencies.
-        compiler.backend.registerInstantiatedClass(
-            cls, this, compiler.globalDependencies);
-      }
-      processClass(cls);
-      for (Link<DartType> supertypes = cls.allSupertypes;
-           !supertypes.isEmpty; supertypes = supertypes.tail) {
-        processClass(supertypes.head.element);
-      }
-    });
-  }
-
-  void registerNewSelector(Selector selector,
-                           Map<String, Set<Selector>> selectorsMap) {
-    String name = selector.name;
-    Set<Selector> selectors =
-        selectorsMap.putIfAbsent(name, () => new Setlet<Selector>());
-    if (!selectors.contains(selector)) {
-      selectors.add(selector);
-      handleUnseenSelector(name, selector);
-    }
-  }
-
-  void registerInvocation(Selector selector) {
-    task.measure(() {
-      registerNewSelector(selector, universe.invokedNames);
-    });
-  }
-
-  void registerInvokedGetter(Selector selector) {
-    task.measure(() {
-      registerNewSelector(selector, universe.invokedGetters);
-    });
-  }
-
-  void registerInvokedSetter(Selector selector) {
-    task.measure(() {
-      registerNewSelector(selector, universe.invokedSetters);
-    });
-  }
-
-  /**
-   * Decides whether an element should be included to satisfy requirements
-   * of the mirror system. [includedEnclosing] provides a hint whether the
-   * enclosing element was included.
-   *
-   * The actual implementation depends on the current compiler phase.
-   */
-  bool shouldIncludeElementDueToMirrors(Element element,
-                                        {bool includedEnclosing});
-
-  void logEnqueueReflectiveAction(action, [msg = ""]) {
-    if (TRACE_MIRROR_ENQUEUING) {
-      print("MIRROR_ENQUEUE (${isResolutionQueue ? "R" : "C"}): $action $msg");
-    }
-  }
-
-  /// Enqeue the constructor [ctor] if it is required for reflection.
-  ///
-  /// [enclosingWasIncluded] provides a hint whether the enclosing element was
-  /// needed for reflection.
-  void enqueueReflectiveConstructor(ConstructorElement ctor,
-                                    bool enclosingWasIncluded) {
-    if (shouldIncludeElementDueToMirrors(ctor,
-        includedEnclosing: enclosingWasIncluded)) {
-      logEnqueueReflectiveAction(ctor);
-      ClassElement cls = ctor.declaration.enclosingClass;
-      registerInstantiatedType(cls.rawType, compiler.mirrorDependencies,
-          mirrorUsage: true);
-      registerStaticUse(ctor.declaration);
-    }
-  }
-
-  /// Enqeue the member [element] if it is required for reflection.
-  ///
-  /// [enclosingWasIncluded] provides a hint whether the enclosing element was
-  /// needed for reflection.
-  void enqueueReflectiveMember(Element element, bool enclosingWasIncluded) {
-    if (shouldIncludeElementDueToMirrors(element,
-            includedEnclosing: enclosingWasIncluded)) {
-      logEnqueueReflectiveAction(element);
-      if (element.isTypedef) {
-        TypedefElement typedef = element;
-        typedef.ensureResolved(compiler);
-        compiler.world.allTypedefs.add(element);
-      } else if (Elements.isStaticOrTopLevel(element)) {
-        registerStaticUse(element.declaration);
-      } else if (element.isInstanceMember) {
-        // We need to enqueue all members matching this one in subclasses, as
-        // well.
-        // TODO(herhut): Use TypedSelector.subtype for enqueueing
-        Selector selector = new Selector.fromElement(element);
-        registerSelectorUse(selector);
-        if (element.isField) {
-          Selector selector =
-              new Selector.setter(element.name, element.library);
-          registerInvokedSetter(selector);
-        }
-      }
-    }
-  }
-
-  /// Enqeue the member [element] if it is required for reflection.
-  ///
-  /// [enclosingWasIncluded] provides a hint whether the enclosing element was
-  /// needed for reflection.
-  void enqueueReflectiveElementsInClass(ClassElement cls,
-                                        Iterable<ClassElement> recents,
-                                        bool enclosingWasIncluded) {
-    if (cls.library.isInternalLibrary || cls.isInjected) return;
-    bool includeClass = shouldIncludeElementDueToMirrors(cls,
-        includedEnclosing: enclosingWasIncluded);
-    if (includeClass) {
-      logEnqueueReflectiveAction(cls, "register");
-      ClassElement decl = cls.declaration;
-      registerInstantiatedClass(decl, compiler.mirrorDependencies,
-          mirrorUsage: true);
-    }
-    // If the class is never instantiated, we know nothing of it can possibly
-    // be reflected upon.
-    // TODO(herhut): Add a warning if a mirrors annotation cannot hit.
-    if (recents.contains(cls.declaration)) {
-      logEnqueueReflectiveAction(cls, "members");
-      cls.constructors.forEach((Element element) {
-        enqueueReflectiveConstructor(element, includeClass);
-      });
-      cls.forEachClassMember((Member member) {
-        enqueueReflectiveMember(member.element, includeClass);
-      });
-    }
-  }
-
-  /// Enqeue special classes that might not be visible by normal means or that
-  /// would not normally be enqueued:
-  ///
-  /// [Closure] is treated specially as it is the superclass of all closures.
-  /// Although it is in an internal library, we mark it as reflectable. Note
-  /// that none of its methods are reflectable, unless reflectable by
-  /// inheritance.
-  void enqueueReflectiveSpecialClasses() {
-    Iterable<ClassElement> classes =
-        compiler.backend.classesRequiredForReflection;
-    for (ClassElement cls in classes) {
-      if (compiler.backend.referencedFromMirrorSystem(cls)) {
-        logEnqueueReflectiveAction(cls);
-        registerInstantiatedClass(cls, compiler.mirrorDependencies,
-            mirrorUsage: true);
-      }
-    }
-  }
-
-  /// Enqeue all local members of the library [lib] if they are required for
-  /// reflection.
-  void enqueueReflectiveElementsInLibrary(LibraryElement lib,
-                                          Iterable<ClassElement> recents) {
-    bool includeLibrary = shouldIncludeElementDueToMirrors(lib,
-        includedEnclosing: false);
-    lib.forEachLocalMember((Element member) {
-      if (member.isClass) {
-        enqueueReflectiveElementsInClass(member, recents, includeLibrary);
-      } else {
-        enqueueReflectiveMember(member, includeLibrary);
-      }
-    });
-  }
-
-  /// Enqueue all elements that are matched by the mirrors used
-  /// annotation or, in lack thereof, all elements.
-  void enqueueReflectiveElements(Iterable<ClassElement> recents) {
-    if (!hasEnqueuedReflectiveElements) {
-      logEnqueueReflectiveAction("!START enqueueAll");
-      // First round of enqueuing, visit everything that is visible to
-      // also pick up static top levels, etc.
-      // Also, during the first round, consider all classes that have been seen
-      // as recently seen, as we do not know how many rounds of resolution might
-      // have run before tree shaking is disabled and thus everything is
-      // enqueued.
-      recents = _processedClasses.toSet();
-      compiler.log('Enqueuing everything');
-      for (LibraryElement lib in compiler.libraryLoader.libraries) {
-        enqueueReflectiveElementsInLibrary(lib, recents);
-      }
-      enqueueReflectiveSpecialClasses();
-      hasEnqueuedReflectiveElements = true;
-      hasEnqueuedReflectiveStaticFields = true;
-      logEnqueueReflectiveAction("!DONE enqueueAll");
-    } else if (recents.isNotEmpty) {
-      // Keep looking at new classes until fixpoint is reached.
-      logEnqueueReflectiveAction("!START enqueueRecents");
-      recents.forEach((ClassElement cls) {
-        enqueueReflectiveElementsInClass(cls, recents,
-            shouldIncludeElementDueToMirrors(cls.library,
-                includedEnclosing: false));
-      });
-      logEnqueueReflectiveAction("!DONE enqueueRecents");
-    }
-  }
-
-  /// Enqueue the static fields that have been marked as used by reflective
-  /// usage through `MirrorsUsed`.
-  void enqueueReflectiveStaticFields(Iterable<Element> elements) {
-    if (hasEnqueuedReflectiveStaticFields) return;
-    hasEnqueuedReflectiveStaticFields = true;
-    for (Element element in elements) {
-      enqueueReflectiveMember(element, true);
-    }
-  }
-
-  void processSet(
-      Map<String, Set<Element>> map,
-      String memberName,
-      bool f(Element e)) {
-    Set<Element> members = map[memberName];
-    if (members == null) return;
-    // [f] might add elements to [: map[memberName] :] during the loop below
-    // so we create a new list for [: map[memberName] :] and prepend the
-    // [remaining] members after the loop.
-    map[memberName] = new Set<Element>();
-    Set<Element> remaining = new Set<Element>();
-    for (Element member in members) {
-      if (!f(member)) remaining.add(member);
-    }
-    map[memberName].addAll(remaining);
-  }
-
-  processInstanceMembers(String n, bool f(Element e)) {
-    processSet(instanceMembersByName, n, f);
-  }
-
-  processInstanceFunctions(String n, bool f(Element e)) {
-    processSet(instanceFunctionsByName, n, f);
-  }
-
-  void handleUnseenSelector(String methodName, Selector selector) {
-    processInstanceMembers(methodName, (Element member) {
-      if (selector.appliesUnnamed(member, compiler.world)) {
-        if (member.isFunction && selector.isGetter) {
-          registerClosurizedMember(member, compiler.globalDependencies);
-        }
-        if (member.isField && member.enclosingClass.isNative) {
-          if (selector.isGetter || selector.isCall) {
-            nativeEnqueuer.registerFieldLoad(member);
-            // We have to also handle storing to the field because we only get
-            // one look at each member and there might be a store we have not
-            // seen yet.
-            // TODO(sra): Process fields for storing separately.
-            nativeEnqueuer.registerFieldStore(member);
-          } else {
-            assert(selector.isSetter);
-            nativeEnqueuer.registerFieldStore(member);
-            // We have to also handle loading from the field because we only get
-            // one look at each member and there might be a load we have not
-            // seen yet.
-            // TODO(sra): Process fields for storing separately.
-            nativeEnqueuer.registerFieldLoad(member);
-          }
-        }
-        addToWorkList(member);
-        return true;
-      }
-      return false;
-    });
-    if (selector.isGetter) {
-      processInstanceFunctions(methodName, (Element member) {
-        if (selector.appliesUnnamed(member, compiler.world)) {
-          registerClosurizedMember(member, compiler.globalDependencies);
-          return true;
-        }
-        return false;
-      });
-    }
-  }
-
-  /**
-   * Documentation wanted -- johnniwinther
-   *
-   * Invariant: [element] must be a declaration element.
-   */
-  void registerStaticUse(Element element) {
-    if (element == null) return;
-    assert(invariant(element, element.isDeclaration));
-    addToWorkList(element);
-    compiler.backend.registerStaticUse(element, this);
-  }
-
-  void registerGetOfStaticFunction(FunctionElement element) {
-    registerStaticUse(element);
-    compiler.backend.registerGetOfStaticFunction(this);
-    universe.staticFunctionsNeedingGetter.add(element);
-  }
-
-  void registerDynamicInvocation(Selector selector) {
-    assert(selector != null);
-    registerInvocation(selector);
-  }
-
-  void registerSelectorUse(Selector selector) {
-    if (selector.isGetter) {
-      registerInvokedGetter(selector);
-    } else if (selector.isSetter) {
-      registerInvokedSetter(selector);
-    } else {
-      registerInvocation(selector);
-    }
-  }
-
-  void registerDynamicGetter(Selector selector) {
-    registerInvokedGetter(selector);
-  }
-
-  void registerDynamicSetter(Selector selector) {
-    registerInvokedSetter(selector);
-  }
-
-  void registerGetterForSuperMethod(Element element) {
-    universe.methodsNeedingSuperGetter.add(element);
-  }
-
-  void registerFieldGetter(Element element) {
-    universe.fieldGetters.add(element);
-  }
-
-  void registerFieldSetter(Element element) {
-    universe.fieldSetters.add(element);
-  }
-
-  void registerIsCheck(DartType type, Registry registry) {
-    type = universe.registerIsCheck(type, compiler);
-    // Even in checked mode, type annotations for return type and argument
-    // types do not imply type checks, so there should never be a check
-    // against the type variable of a typedef.
-    assert(type.kind != TypeKind.TYPE_VARIABLE ||
-           !type.element.enclosingElement.isTypedef);
-  }
-
-  /**
-   * If a factory constructor is used with type arguments, we lose track
-   * which arguments could be used to create instances of classes that use their
-   * type variables as expressions, so we have to remember if we saw such a use.
-   */
-  void registerFactoryWithTypeArguments(Registry registry) {
-    universe.usingFactoryWithTypeArguments = true;
-  }
-
-  void registerCallMethodWithFreeTypeVariables(
-      Element element,
-      Registry registry) {
-    compiler.backend.registerCallMethodWithFreeTypeVariables(
-        element, this, registry);
-    universe.callMethodsWithFreeTypeVariables.add(element);
-  }
-
-  void registerClosurizedMember(Element element, Registry registry) {
-    assert(element.isInstanceMember);
-    registerClosureIfFreeTypeVariables(element, registry);
-    compiler.backend.registerBoundClosure(this);
-    universe.closurizedMembers.add(element);
-  }
-
-  void registerClosureIfFreeTypeVariables(Element element, Registry registry) {
-    if (element.computeType(compiler).containsTypeVariables) {
-      compiler.backend.registerClosureWithFreeTypeVariables(
-          element, this, registry);
-      universe.closuresWithFreeTypeVariables.add(element);
-    }
-  }
-
-  void registerClosure(LocalFunctionElement element, Registry registry) {
-    universe.allClosures.add(element);
-    registerClosureIfFreeTypeVariables(element, registry);
-  }
-
-  void forEach(void f(WorkItem work)) {
-    do {
-      while (queue.isNotEmpty) {
-        // TODO(johnniwinther): Find an optimal process order.
-        filter.processWorkItem(f, queue.removeLast());
-      }
-      List recents = recentClasses.toList(growable: false);
-      recentClasses.clear();
-      if (!onQueueEmpty(recents)) recentClasses.addAll(recents);
-    } while (queue.isNotEmpty || recentClasses.isNotEmpty);
-  }
-
-  /// [onQueueEmpty] is called whenever the queue is drained. [recentClasses]
-  /// contains the set of all classes seen for the first time since
-  /// [onQueueEmpty] was called last. A return value of [true] indicates that
-  /// the [recentClasses] have been processed and may be cleared. If [false] is
-  /// returned, [onQueueEmpty] will be called once the queue is empty again (or
-  /// still empty) and [recentClasses] will be a superset of the current value.
-  bool onQueueEmpty(Iterable<ClassElement> recentClasses) {
-    return compiler.backend.onQueueEmpty(this, recentClasses);
-  }
-
-  void logSummary(log(message)) {
-    _logSpecificSummary(log);
-    nativeEnqueuer.logSummary(log);
-  }
-
-  /// Log summary specific to the concrete enqueuer.
-  void _logSpecificSummary(log(message));
-
-  String toString() => 'Enqueuer($name)';
-
-  void forgetElement(Element element) {
-    universe.forgetElement(element, compiler);
-    _processedClasses.remove(element);
-  }
-}
-
-/// [Enqueuer] which is specific to resolution.
-class ResolutionEnqueuer extends Enqueuer {
-  /**
-   * Map from declaration elements to the [TreeElements] object holding the
-   * resolution mapping for the element implementation.
-   *
-   * Invariant: Key elements are declaration elements.
-   */
-  final Set<AstElement> resolvedElements;
-
-  final Queue<ResolutionWorkItem> queue;
-
-  /**
-   * A deferred task queue for the resolution phase which is processed
-   * when the resolution queue has been emptied.
-   */
-  final Queue<DeferredTask> deferredTaskQueue;
-
-  ResolutionEnqueuer(Compiler compiler,
-                     ItemCompilationContext itemCompilationContextCreator())
-      : super('resolution enqueuer', compiler, itemCompilationContextCreator),
-        resolvedElements = new Set<AstElement>(),
-        queue = new Queue<ResolutionWorkItem>(),
-        deferredTaskQueue = new Queue<DeferredTask>();
-
-  bool get isResolutionQueue => true;
-
-  bool isProcessed(Element member) => resolvedElements.contains(member);
-
-  /// Returns `true` if [element] has been processed by the resolution enqueuer.
-  bool hasBeenResolved(Element element) {
-    return resolvedElements.contains(element.analyzableElement.declaration);
-  }
-
-  /// Registers [element] as resolved for the resolution enqueuer.
-  void registerResolvedElement(AstElement element) {
-    resolvedElements.add(element);
-  }
-
-  /**
-   * Decides whether an element should be included to satisfy requirements
-   * of the mirror system.
-   *
-   * During resolution, we have to resort to matching elements against the
-   * [MirrorsUsed] pattern, as we do not have a complete picture of the world,
-   * yet.
-   */
-  bool shouldIncludeElementDueToMirrors(Element element,
-                                        {bool includedEnclosing}) {
-    return includedEnclosing || compiler.backend.requiredByMirrorSystem(element);
-  }
-
-  bool internalAddToWorkList(Element element) {
-    assert(invariant(element, element is AnalyzableElement,
-        message: 'Element $element is not analyzable.'));
-    if (hasBeenResolved(element)) return false;
-    if (queueIsClosed) {
-      throw new SpannableAssertionFailure(element,
-          "Resolution work list is closed. Trying to add $element.");
-    }
-
-    compiler.world.registerUsedElement(element);
-
-    queue.add(new ResolutionWorkItem(element, itemCompilationContextCreator()));
-
-    // Enable isolate support if we start using something from the isolate
-    // library, or timers for the async library.  We exclude constant fields,
-    // which are ending here because their initializing expression is compiled.
-    LibraryElement library = element.library;
-    if (!compiler.hasIsolateSupport &&
-        (!element.isField || !element.isConst)) {
-      String uri = library.canonicalUri.toString();
-      if (uri == 'dart:isolate') {
-        enableIsolateSupport();
-      } else if (uri == 'dart:async') {
-        if (element.name == '_createTimer' ||
-            element.name == '_createPeriodicTimer') {
-          // The [:Timer:] class uses the event queue of the isolate
-          // library, so we make sure that event queue is generated.
-          enableIsolateSupport();
-        }
-      }
-    }
-
-    if (element.isGetter && element.name == Compiler.RUNTIME_TYPE) {
-      // Enable runtime type support if we discover a getter called runtimeType.
-      // We have to enable runtime type before hitting the codegen, so
-      // that constructors know whether they need to generate code for
-      // runtime type.
-      compiler.enabledRuntimeType = true;
-      // TODO(ahe): Record precise dependency here.
-      compiler.backend.registerRuntimeType(this, compiler.globalDependencies);
-    } else if (element == compiler.functionApplyMethod) {
-      compiler.enabledFunctionApply = true;
-    }
-
-    nativeEnqueuer.registerElement(element);
-    return true;
-  }
-
-  void enableIsolateSupport() {
-    compiler.hasIsolateSupport = true;
-    compiler.backend.enableIsolateSupport(this);
-  }
-
-  void enableNoSuchMethod(Element element) {
-    if (compiler.enabledNoSuchMethod) return;
-    if (compiler.backend.isDefaultNoSuchMethodImplementation(element)) return;
-
-    compiler.enabledNoSuchMethod = true;
-    compiler.backend.enableNoSuchMethod(element, this);
-  }
-
-  /**
-   * Adds an action to the deferred task queue.
-   *
-   * The action is performed the next time the resolution queue has been
-   * emptied.
-   *
-   * The queue is processed in FIFO order.
-   */
-  void addDeferredAction(Element element, DeferredAction action) {
-    if (queueIsClosed) {
-      throw new SpannableAssertionFailure(element,
-          "Resolution work list is closed. "
-          "Trying to add deferred action for $element");
-    }
-    deferredTaskQueue.add(new DeferredTask(element, action));
-  }
-
-  bool onQueueEmpty(Iterable<ClassElement> recentClasses) {
-    emptyDeferredTaskQueue();
-    return super.onQueueEmpty(recentClasses);
-  }
-
-  void emptyDeferredTaskQueue() {
-    while (!deferredTaskQueue.isEmpty) {
-      DeferredTask task = deferredTaskQueue.removeFirst();
-      compiler.withCurrentElement(task.element, task.action);
-    }
-  }
-
-  void registerJsCall(Send node, ResolverVisitor resolver) {
-    nativeEnqueuer.registerJsCall(node, resolver);
-  }
-
-  void registerJsEmbeddedGlobalCall(Send node, ResolverVisitor resolver) {
-    nativeEnqueuer.registerJsEmbeddedGlobalCall(node, resolver);
-  }
-
-  void _logSpecificSummary(log(message)) {
-    log('Resolved ${resolvedElements.length} elements.');
-  }
-
-  void forgetElement(Element element) {
-    super.forgetElement(element);
-    resolvedElements.remove(element);
-  }
-}
-
-/// [Enqueuer] which is specific to code generation.
-class CodegenEnqueuer extends Enqueuer {
-  final Queue<CodegenWorkItem> queue;
-  final Map<Element, js.Expression> generatedCode =
-      new Map<Element, js.Expression>();
-
-  final Set<Element> newlyEnqueuedElements;
-
-  CodegenEnqueuer(Compiler compiler,
-                  ItemCompilationContext itemCompilationContextCreator())
-      : queue = new Queue<CodegenWorkItem>(),
-        newlyEnqueuedElements = compiler.cacheStrategy.newSet(),
-        super('codegen enqueuer', compiler, itemCompilationContextCreator);
-
-  bool isProcessed(Element member) =>
-      member.isAbstract || generatedCode.containsKey(member);
-
-  /**
-   * Decides whether an element should be included to satisfy requirements
-   * of the mirror system.
-   *
-   * For code generation, we rely on the precomputed set of elements that takes
-   * subtyping constraints into account.
-   */
-  bool shouldIncludeElementDueToMirrors(Element element,
-                                        {bool includedEnclosing}) {
-    return compiler.backend.isAccessibleByReflection(element);
-  }
-
-  bool internalAddToWorkList(Element element) {
-    // Don't generate code for foreign elements.
-    if (element.isForeign(compiler.backend)) return false;
-
-    // Codegen inlines field initializers. It only needs to generate
-    // code for checked setters.
-    if (element.isField && element.isInstanceMember) {
-      if (!compiler.enableTypeAssertions
-          || element.enclosingElement.isClosure) {
-        return false;
-      }
-    }
-
-    if (compiler.hasIncrementalSupport && !isProcessed(element)) {
-      newlyEnqueuedElements.add(element);
-    }
-
-    if (queueIsClosed) {
-      throw new SpannableAssertionFailure(element,
-          "Codegen work list is closed. Trying to add $element");
-    }
-    CodegenWorkItem workItem = new CodegenWorkItem(
-        element, itemCompilationContextCreator());
-    queue.add(workItem);
-    return true;
-  }
-
-  void _logSpecificSummary(log(message)) {
-    log('Compiled ${generatedCode.length} methods.');
-  }
-
-  void forgetElement(Element element) {
-    super.forgetElement(element);
-    generatedCode.remove(element);
-    if (element is MemberElement) {
-      for (Element closure in element.nestedClosures) {
-        generatedCode.remove(closure);
-        removeFromSet(instanceMembersByName, closure);
-        removeFromSet(instanceFunctionsByName, closure);
-      }
-    }
-  }
-}
-
-/// Parameterizes filtering of which work items are enqueued.
-class QueueFilter {
-  bool checkNoEnqueuedInvokedInstanceMethods(Enqueuer enqueuer) {
-    enqueuer.task.measure(() {
-      // Run through the classes and see if we need to compile methods.
-      for (ClassElement classElement in
-               enqueuer.universe.directlyInstantiatedClasses) {
-        for (ClassElement currentClass = classElement;
-             currentClass != null;
-             currentClass = currentClass.superclass) {
-          enqueuer.processInstantiatedClassMembers(currentClass);
-        }
-      }
-    });
-    return true;
-  }
-
-  void processWorkItem(void f(WorkItem work), WorkItem work) {
-    f(work);
-  }
-}
-
-void removeFromSet(Map<String, Set<Element>> map, Element element) {
-  Set<Element> set = map[element.name];
-  if (set == null) return;
-  set.remove(element);
-}