gecko/js/src/jsweakmap.h

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 * Version: MPL 1.1/GPL 2.0/LGPL 2.1
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 * The contents of this file are subject to the Mozilla Public License Version
 * 1.1 (the "License"); you may not use this file except in compliance with
 * the License. You may obtain a copy of the License at
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 * Software distributed under the License is distributed on an "AS IS" basis,
 * WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License
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 * License.
 *
 * The Original Code is Mozilla SpiderMonkey JavaScript 1.9 code, released
 * May 28, 2008.
 *
 * The Initial Developer of the Original Code is
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 * Portions created by the Initial Developer are Copyright (C) 2009
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 * Contributor(s):
 *   Andreas Gal <gal@mozilla.com>
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#ifndef jsweakmap_h___
#define jsweakmap_h___

#include "jsapi.h"
#include "jsfriendapi.h"
#include "jscntxt.h"
#include "jsobj.h"
#include "jsgcmark.h"

#include "js/HashTable.h"

namespace js {

// A subclass template of js::HashMap whose keys and values may be garbage-collected. When
// a key is collected, the table entry disappears, dropping its reference to the value.
//
// More precisely:
//
//     A WeakMap entry is collected if and only if either the WeakMap or the entry's key
//     is collected. If an entry is not collected, it remains in the WeakMap and it has a
//     strong reference to the value.
//
// You must call this table's 'mark' method when the object of which it is a part is
// reached by the garbage collection tracer. Once a table is known to be live, the
// implementation takes care of the iterative marking needed for weak tables and removing
// table entries when collection is complete.
//
// You may provide your own MarkPolicy class to specify how keys and values are marked; a
// policy template provides default definitions for some common key/value type
// combinations.
//
// Details:
//
// The interface is as for a js::HashMap, with the following additions:
//
// - You must call the WeakMap's 'trace' member function when you discover that the map is
//   part of a live object. (You'll typically call this from the containing type's 'trace'
//   function.)
//
// - There is no AllocPolicy parameter; these are used with our garbage collector, so
//   RuntimeAllocPolicy is hard-wired.
//
// - Optional fourth and fifth parameters are the MarkPolicies for the key and value type.
//   A MarkPolicy has the constructor:
//
//     MarkPolicy(JSTracer *)
//
//   and the following member functions:
//
//     bool isMarked(const Type &x)
//        Return true if x has been marked as live by the garbage collector.
//
//     bool mark(const Type &x)
//        Return false if x is already marked. Otherwise, mark x and return true.
//
//   If omitted, the MarkPolicy parameter defaults to js::DefaultMarkPolicy<Type>,
//   a policy template with the obvious definitions for some typical
//   SpiderMonkey type combinations.

// A policy template holding default marking algorithms for common type combinations. This
// provides default types for WeakMap's MarkPolicy template parameter.
template <class Type> class DefaultMarkPolicy;

// A policy template holding default tracing algorithms for common type combinations. This
// provides default types for WeakMap's TracePolicy template parameter.
template <class Key, class Value> class DefaultTracePolicy;

// Common base class for all WeakMap specializations. The collector uses this to call
// their markIteratively and sweep methods.
class WeakMapBase {
  public:
    WeakMapBase(JSObject *memOf) : memberOf(memOf), next(NULL) { }
    virtual ~WeakMapBase() { }

    void trace(JSTracer *tracer) {
        if (IS_GC_MARKING_TRACER(tracer)) {
            // We don't do anything with a WeakMap at trace time. Rather, we wait until as
            // many keys as possible have been marked, and add ourselves to the list of
            // known-live WeakMaps to be scanned in the iterative marking phase, by
            // markAllIteratively.
            JS_ASSERT(!tracer->eagerlyTraceWeakMaps);
            JSRuntime *rt = tracer->context->runtime;
            next = rt->gcWeakMapList;
            rt->gcWeakMapList = this;
        } else {
            // If we're not actually doing garbage collection, the keys won't be marked
            // nicely as needed by the true ephemeral marking algorithm --- custom tracers
            // such as the cycle collector must use their own means for cycle detection.
            // So here we do a conservative approximation: pretend all keys are live.
            if (tracer->eagerlyTraceWeakMaps)
                nonMarkingTrace(tracer);
        }
    }

    // Garbage collector entry points.

    // Check all weak maps that have been marked as live so far in this garbage
    // collection, and mark the values of all entries that have become strong references
    // to them. Return true if we marked any new values, indicating that we need to make
    // another pass. In other words, mark my marked maps' marked members' mid-collection.
    static bool markAllIteratively(JSTracer *tracer);

    // Remove entries whose keys are dead from all weak maps marked as live in this
    // garbage collection.
    static void sweepAll(JSTracer *tracer);

    // Trace all delayed weak map bindings. Used by the cycle collector.
    static void traceAllMappings(WeakMapTracer *tracer);

  protected:
    // Instance member functions called by the above. Instantiations of WeakMap override
    // these with definitions appropriate for their Key and Value types.
    virtual void nonMarkingTrace(JSTracer *tracer) = 0;
    virtual bool markIteratively(JSTracer *tracer) = 0;
    virtual void sweep(JSTracer *tracer) = 0;
    virtual void traceMappings(WeakMapTracer *tracer) = 0;

    // Object that this weak map is part of, if any.
    JSObject *memberOf;

  private:
    // Link in a list of WeakMaps to mark iteratively and sweep in this garbage
    // collection, headed by JSRuntime::gcWeakMapList.
    WeakMapBase *next;
};

template <class Key, class Value,
          class HashPolicy = DefaultHasher<Key>,
          class KeyMarkPolicy = DefaultMarkPolicy<Key>,
          class ValueMarkPolicy = DefaultMarkPolicy<Value>,
          class TracePolicy = DefaultTracePolicy<Key, Value> >
class WeakMap : public HashMap<Key, Value, HashPolicy, RuntimeAllocPolicy>, public WeakMapBase {
  private:
    typedef HashMap<Key, Value, HashPolicy, RuntimeAllocPolicy> Base;
    typedef typename Base::Enum Enum;

  public:
    typedef typename Base::Range Range;

    explicit WeakMap(JSRuntime *rt, JSObject *memOf=NULL) : Base(rt), WeakMapBase(memOf) { }
    explicit WeakMap(JSContext *cx, JSObject *memOf=NULL) : Base(cx), WeakMapBase(memOf) { }

    // Use with caution, as result can be affected by garbage collection.
    Range nondeterministicAll() {
        return Base::all();
    }

  private:
    void nonMarkingTrace(JSTracer *trc) {
        ValueMarkPolicy vp(trc);
        for (Range r = Base::all(); !r.empty(); r.popFront())
            vp.mark(r.front().value);
    }

    bool markIteratively(JSTracer *trc) {
        KeyMarkPolicy kp(trc);
        ValueMarkPolicy vp(trc);
        bool markedAny = false;
        for (Range r = Base::all(); !r.empty(); r.popFront()) {
            const Key &k = r.front().key;
            const Value &v = r.front().value;
            /* If the entry is live, ensure its key and value are marked. */
            if (kp.isMarked(k)) {
                markedAny |= vp.mark(v);
            } else if (kp.overrideKeyMarking(k)) {
                // We always mark wrapped natives. This will cause leaks.  Bug 680937
                // will fix this so XPC wrapped natives are only marked during
                // non-BLACK marking (ie grey marking).
                kp.mark(k);
                vp.mark(v);
                markedAny = true;
            }
            JS_ASSERT_IF(kp.isMarked(k), vp.isMarked(v));
        }
        return markedAny;
    }

    void sweep(JSTracer *trc) {
        KeyMarkPolicy kp(trc);

        /* Remove all entries whose keys remain unmarked. */
        for (Enum e(*this); !e.empty(); e.popFront()) {
            if (!kp.isMarked(e.front().key))
                e.removeFront();
        }

#if DEBUG
        ValueMarkPolicy vp(trc);
        /*
         * Once we've swept, all remaining edges should stay within the
         * known-live part of the graph.
         */
        for (Range r = Base::all(); !r.empty(); r.popFront()) {
            JS_ASSERT(kp.isMarked(r.front().key));
            JS_ASSERT(vp.isMarked(r.front().value));
        }
#endif
    }

    // mapObj can be NULL, which means that the map is not part of a JSObject.
    void traceMappings(WeakMapTracer *tracer) {
        TracePolicy t(tracer);
        for (Range r = Base::all(); !r.empty(); r.popFront())
            t.traceMapping(memberOf, r.front().key, r.front().value);
    }
};

template <>
class DefaultMarkPolicy<HeapValue> {
  private:
    JSTracer *tracer;
  public:
    DefaultMarkPolicy(JSTracer *t) : tracer(t) { }
    bool isMarked(const HeapValue &x) {
        if (x.isMarkable())
            return !IsAboutToBeFinalized(tracer->context, x);
        return true;
    }
    bool mark(const HeapValue &x) {
        if (isMarked(x))
            return false;
        js::gc::MarkValue(tracer, x, "WeakMap entry");
        return true;
    }
    bool overrideKeyMarking(const HeapValue &k) { return false; }
};

template <>
class DefaultMarkPolicy<HeapPtrObject> {
  private:
    JSTracer *tracer;
  public:
    DefaultMarkPolicy(JSTracer *t) : tracer(t) { }
    bool isMarked(const HeapPtrObject &x) {
        return !IsAboutToBeFinalized(tracer->context, x);
    }
    bool mark(const HeapPtrObject &x) {
        if (isMarked(x))
            return false;
        js::gc::MarkObject(tracer, x, "WeakMap entry");
        return true;
    }
    bool overrideKeyMarking(const HeapPtrObject &k) {
        // We only need to worry about extra marking of keys when
        // we're doing a GC marking pass.
        if (!IS_GC_MARKING_TRACER(tracer))
            return false;
        return k->getClass()->ext.isWrappedNative;
    }
};

template <>
class DefaultMarkPolicy<HeapPtrScript> {
  private:
    JSTracer *tracer;
  public:
    DefaultMarkPolicy(JSTracer *t) : tracer(t) { }
    bool isMarked(const HeapPtrScript &x) {
        return !IsAboutToBeFinalized(tracer->context, x);
    }
    bool mark(const HeapPtrScript &x) {
        if (isMarked(x))
            return false;
        js::gc::MarkScript(tracer, x, "WeakMap entry");
        return true;
    }
    bool overrideKeyMarking(const HeapPtrScript &k) { return false; }
};

// Default trace policies

template <>
class DefaultTracePolicy<HeapPtrObject, HeapValue> {
  private:
    WeakMapTracer *tracer;
  public:
    DefaultTracePolicy(WeakMapTracer *t) : tracer(t) { }
    void traceMapping(JSObject *m, const HeapPtr<JSObject> &k, HeapValue &v) {
        if (v.isMarkable())
            tracer->callback(tracer, m, k.get(), JSTRACE_OBJECT, v.toGCThing(), v.gcKind());
    }
};

template <>
class DefaultTracePolicy<HeapPtrObject, HeapPtrObject> {
  private:
    WeakMapTracer *tracer;
  public:
    DefaultTracePolicy(WeakMapTracer *t) : tracer(t) { }
    void traceMapping(JSObject *m, const HeapPtrObject &k, const HeapPtrObject &v) {
        tracer->callback(tracer, m, k.get(), JSTRACE_OBJECT, v.get(), JSTRACE_OBJECT);
    }
};

template <>
class DefaultTracePolicy<HeapPtrScript, HeapPtrObject> {
  private:
    WeakMapTracer *tracer;
  public:
    DefaultTracePolicy(WeakMapTracer *t) : tracer(t) { }
    void traceMapping(JSObject *m, const HeapPtrScript &k, const HeapPtrObject &v) {
        tracer->callback(tracer, m, k.get(), JSTRACE_SCRIPT, v.get(), JSTRACE_OBJECT);
    }
};

}

extern JSObject *
js_InitWeakMapClass(JSContext *cx, JSObject *obj);

#endif