src/third_party/mozjs-45/js/public/HeapAPI.h - cobalt - Git at Google

 /* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 4 -*-
  * vim: set ts=8 sts=4 et sw=4 tw=99:
  * This Source Code Form is subject to the terms of the Mozilla Public
  * License, v. 2.0. If a copy of the MPL was not distributed with this
  * file, You can obtain one at http://mozilla.org/MPL/2.0/. */

 #ifndef js_HeapAPI_h
 #define js_HeapAPI_h

 #include <limits.h>

 #include "jspubtd.h"

 #include "js/TraceKind.h"
 #include "js/Utility.h"

 /* These values are private to the JS engine. */
 namespace js {

 // Whether the current thread is permitted access to any part of the specified
 // runtime or zone.
 JS_FRIEND_API(bool)
 CurrentThreadCanAccessRuntime(JSRuntime* rt);

 JS_FRIEND_API(bool)
 CurrentThreadCanAccessZone(JS::Zone* zone);

 namespace gc {

 struct Cell;

 const size_t ArenaShift = 12;
 const size_t ArenaSize = size_t(1) << ArenaShift;
 const size_t ArenaMask = ArenaSize - 1;

 #ifdef JS_GC_SMALL_CHUNK_SIZE
 const size_t ChunkShift = 18;
 #else
 const size_t ChunkShift = 20;
 #endif
 const size_t ChunkSize = size_t(1) << ChunkShift;
 const size_t ChunkMask = ChunkSize - 1;

 const size_t CellShift = 3;
 const size_t CellSize = size_t(1) << CellShift;
 const size_t CellMask = CellSize - 1;

 /* These are magic constants derived from actual offsets in gc/Heap.h. */
 #ifdef JS_GC_SMALL_CHUNK_SIZE
 const size_t ChunkMarkBitmapOffset = 258104;
 const size_t ChunkMarkBitmapBits = 31744;
 #else
 const size_t ChunkMarkBitmapOffset = 1032352;
 const size_t ChunkMarkBitmapBits = 129024;
 #endif
 const size_t ChunkRuntimeOffset = ChunkSize - sizeof(void*);
 const size_t ChunkTrailerSize = 2 * sizeof(uintptr_t) + sizeof(uint64_t);
 const size_t ChunkLocationOffset = ChunkSize - ChunkTrailerSize;
 const size_t ArenaZoneOffset = 0;

 /*
  * Live objects are marked black. How many other additional colors are available
  * depends on the size of the GCThing. Objects marked gray are eligible for
  * cycle collection.
  */
 static const uint32_t BLACK = 0;
 static const uint32_t GRAY = 1;

 /*
  * The "location" field in the Chunk trailer is a bit vector indicting various
  * roles of the chunk.
  *
  * The value 0 for the "location" field is invalid, at least one bit must be
  * set.
  *
  * Some bits preclude others, for example, any "nursery" bit precludes any
  * "tenured" or "middle generation" bit.
  */
 const uintptr_t ChunkLocationBitNursery = 1;       // Standard GGC nursery
 const uintptr_t ChunkLocationBitTenuredHeap = 2;   // Standard GGC tenured generation

 const uintptr_t ChunkLocationAnyNursery = ChunkLocationBitNursery;

 #ifdef JS_DEBUG
 /* When downcasting, ensure we are actually the right type. */
 extern JS_FRIEND_API(void)
 AssertGCThingHasType(js::gc::Cell* cell, JS::TraceKind kind);
 #else
 inline void
 AssertGCThingHasType(js::gc::Cell* cell, JS::TraceKind kind) {}
 #endif

 MOZ_ALWAYS_INLINE bool IsInsideNursery(const js::gc::Cell* cell);

 } /* namespace gc */
 } /* namespace js */

 namespace JS {
 struct Zone;

 /* Default size for the generational nursery in bytes. */
 const uint32_t DefaultNurseryBytes = 16 * js::gc::ChunkSize;

 /* Default maximum heap size in bytes to pass to JS_NewRuntime(). */
 const uint32_t DefaultHeapMaxBytes = 32 * 1024 * 1024;

 namespace shadow {

 struct Zone
 {
   protected:
     JSRuntime* const runtime_;
     JSTracer* const barrierTracer_;     // A pointer to the JSRuntime's |gcMarker|.

   public:
     bool needsIncrementalBarrier_;

     Zone(JSRuntime* runtime, JSTracer* barrierTracerArg)
       : runtime_(runtime),
         barrierTracer_(barrierTracerArg),
         needsIncrementalBarrier_(false)
     {}

     bool needsIncrementalBarrier() const {
         return needsIncrementalBarrier_;
     }

     JSTracer* barrierTracer() {
         MOZ_ASSERT(needsIncrementalBarrier_);
         MOZ_ASSERT(js::CurrentThreadCanAccessRuntime(runtime_));
         return barrierTracer_;
     }

     JSRuntime* runtimeFromMainThread() const {
         MOZ_ASSERT(js::CurrentThreadCanAccessRuntime(runtime_));
         return runtime_;
     }

     // Note: Unrestricted access to the zone's runtime from an arbitrary
     // thread can easily lead to races. Use this method very carefully.
     JSRuntime* runtimeFromAnyThread() const {
         return runtime_;
     }

     static JS::shadow::Zone* asShadowZone(JS::Zone* zone) {
         return reinterpret_cast<JS::shadow::Zone*>(zone);
     }
 };

 } /* namespace shadow */

 /**
  * A GC pointer, tagged with the trace kind.
  *
  * In general, a GC pointer should be stored with an exact type. This class
  * is for use when that is not possible because a single pointer must point
  * to several kinds of GC thing.
  */
 class JS_FRIEND_API(GCCellPtr)
 {
   public:
     // Construction from a void* and trace kind.
     GCCellPtr(void* gcthing, JS::TraceKind traceKind) : ptr(checkedCast(gcthing, traceKind)) {}

     // Automatically construct a null GCCellPtr from nullptr.
     MOZ_IMPLICIT GCCellPtr(decltype(nullptr)) : ptr(checkedCast(nullptr, JS::TraceKind::Null)) {}

     // Construction from an explicit type.
     template <typename T>
     explicit GCCellPtr(T* p) : ptr(checkedCast(p, JS::MapTypeToTraceKind<T>::kind)) { }
     explicit GCCellPtr(JSFunction* p) : ptr(checkedCast(p, JS::TraceKind::Object)) { }
     explicit GCCellPtr(JSFlatString* str) : ptr(checkedCast(str, JS::TraceKind::String)) { }
     explicit GCCellPtr(const Value& v);

     JS::TraceKind kind() const {
         JS::TraceKind traceKind = JS::TraceKind(ptr & OutOfLineTraceKindMask);
         if (uintptr_t(traceKind) != OutOfLineTraceKindMask)
             return traceKind;
         return outOfLineKind();
     }

     // Allow GCCellPtr to be used in a boolean context.
     explicit operator bool() const {
         MOZ_ASSERT(bool(asCell()) == (kind() != JS::TraceKind::Null));
         return asCell();
     }

     // Simplify checks to the kind.
     template <typename T>
     bool is() const { return kind() == JS::MapTypeToTraceKind<T>::kind; }

     // Conversions to more specific types must match the kind. Access to
     // further refined types is not allowed directly from a GCCellPtr.
     template <typename T>
     T& as() const {
         MOZ_ASSERT(kind() == JS::MapTypeToTraceKind<T>::kind);
         // We can't use static_cast here, because the fact that JSObject
         // inherits from js::gc::Cell is not part of the public API.
         return *reinterpret_cast<T*>(asCell());
     }

     // Return a pointer to the cell this |GCCellPtr| refers to, or |nullptr|.
     // (It would be more symmetrical with |to| for this to return a |Cell&|, but
     // the result can be |nullptr|, and null references are undefined behavior.)
     js::gc::Cell* asCell() const {
         return reinterpret_cast<js::gc::Cell*>(ptr & ~OutOfLineTraceKindMask);
     }

     // The CC's trace logger needs an identity that is XPIDL serializable.
     uint64_t unsafeAsInteger() const {
         return static_cast<uint64_t>(unsafeAsUIntPtr());
     }
     // Inline mark bitmap access requires direct pointer arithmetic.
     uintptr_t unsafeAsUIntPtr() const {
         MOZ_ASSERT(asCell());
         MOZ_ASSERT(!js::gc::IsInsideNursery(asCell()));
         return reinterpret_cast<uintptr_t>(asCell());
     }

     bool mayBeOwnedByOtherRuntime() const;

   private:
     static uintptr_t checkedCast(void* p, JS::TraceKind traceKind) {
         js::gc::Cell* cell = static_cast<js::gc::Cell*>(p);
         MOZ_ASSERT((uintptr_t(p) & OutOfLineTraceKindMask) == 0);
         AssertGCThingHasType(cell, traceKind);
         // Note: the OutOfLineTraceKindMask bits are set on all out-of-line kinds
         // so that we can mask instead of branching.
         MOZ_ASSERT_IF(uintptr_t(traceKind) >= OutOfLineTraceKindMask,
                       (uintptr_t(traceKind) & OutOfLineTraceKindMask) == OutOfLineTraceKindMask);
         return uintptr_t(p) | (uintptr_t(traceKind) & OutOfLineTraceKindMask);
     }

     JS::TraceKind outOfLineKind() const;

     uintptr_t ptr;
 };

 inline bool
 operator==(const GCCellPtr& ptr1, const GCCellPtr& ptr2)
 {
     return ptr1.asCell() == ptr2.asCell();
 }

 inline bool
 operator!=(const GCCellPtr& ptr1, const GCCellPtr& ptr2)
 {
     return !(ptr1 == ptr2);
 }

 // Unwraps the given GCCellPtr and calls the given functor with a template
 // argument of the actual type of the pointer.
 template <typename F, typename... Args>
 auto
 DispatchTyped(F f, GCCellPtr thing, Args&&... args)
   -> decltype(f(static_cast<JSObject*>(nullptr), mozilla::Forward<Args>(args)...))
 {
     switch (thing.kind()) {
 #define JS_EXPAND_DEF(name, type, _) \
       case JS::TraceKind::name: \
           return f(&thing.as<type>(), mozilla::Forward<Args>(args)...);
       JS_FOR_EACH_TRACEKIND(JS_EXPAND_DEF);
 #undef JS_EXPAND_DEF
       default:
           MOZ_CRASH("Invalid trace kind in DispatchTyped for GCCellPtr.");
     }
 }

 } /* namespace JS */

 namespace js {
 namespace gc {
 namespace detail {

 static MOZ_ALWAYS_INLINE uintptr_t*
 GetGCThingMarkBitmap(const uintptr_t addr)
 {
     MOZ_ASSERT(addr);
     const uintptr_t bmap_addr = (addr & ~ChunkMask) | ChunkMarkBitmapOffset;
     return reinterpret_cast<uintptr_t*>(bmap_addr);
 }

 static MOZ_ALWAYS_INLINE JS::shadow::Runtime*
 GetGCThingRuntime(const uintptr_t addr)
 {
     MOZ_ASSERT(addr);
     const uintptr_t rt_addr = (addr & ~ChunkMask) | ChunkRuntimeOffset;
     return *reinterpret_cast<JS::shadow::Runtime**>(rt_addr);
 }

 static MOZ_ALWAYS_INLINE void
 GetGCThingMarkWordAndMask(const uintptr_t addr, uint32_t color,
                           uintptr_t** wordp, uintptr_t* maskp)
 {
     MOZ_ASSERT(addr);
     const size_t bit = (addr & js::gc::ChunkMask) / js::gc::CellSize + color;
     MOZ_ASSERT(bit < js::gc::ChunkMarkBitmapBits);
     uintptr_t* bitmap = GetGCThingMarkBitmap(addr);
     const uintptr_t nbits = sizeof(*bitmap) * CHAR_BIT;
     *maskp = uintptr_t(1) << (bit % nbits);
     *wordp = &bitmap[bit / nbits];
 }

 static MOZ_ALWAYS_INLINE JS::Zone*
 GetGCThingZone(const uintptr_t addr)
 {
     MOZ_ASSERT(addr);
     const uintptr_t zone_addr = (addr & ~ArenaMask) | ArenaZoneOffset;
     return *reinterpret_cast<JS::Zone**>(zone_addr);

 }

 static MOZ_ALWAYS_INLINE bool
 CellIsMarkedGray(const Cell* cell)
 {
     MOZ_ASSERT(cell);
     MOZ_ASSERT(!js::gc::IsInsideNursery(cell));
     uintptr_t* word, mask;
     js::gc::detail::GetGCThingMarkWordAndMask(uintptr_t(cell), js::gc::GRAY, &word, &mask);
     return *word & mask;
 }

 } /* namespace detail */

 MOZ_ALWAYS_INLINE bool
 IsInsideNursery(const js::gc::Cell* cell)
 {
     if (!cell)
         return false;
     uintptr_t addr = uintptr_t(cell);
     addr &= ~js::gc::ChunkMask;
     addr |= js::gc::ChunkLocationOffset;
     uint32_t location = *reinterpret_cast<uint32_t*>(addr);
     MOZ_ASSERT(location != 0);
     return location & ChunkLocationAnyNursery;
 }

 } /* namespace gc */
 } /* namespace js */

 namespace JS {

 static MOZ_ALWAYS_INLINE Zone*
 GetTenuredGCThingZone(GCCellPtr thing)
 {
     MOZ_ASSERT(!js::gc::IsInsideNursery(thing.asCell()));
     return js::gc::detail::GetGCThingZone(thing.unsafeAsUIntPtr());
 }

 static MOZ_ALWAYS_INLINE Zone*
 GetStringZone(JSString* str)
 {
     return js::gc::detail::GetGCThingZone(uintptr_t(str));
 }

 extern JS_PUBLIC_API(Zone*)
 GetObjectZone(JSObject* obj);

 static MOZ_ALWAYS_INLINE bool
 ObjectIsTenured(JSObject* obj)
 {
     return !js::gc::IsInsideNursery(reinterpret_cast<js::gc::Cell*>(obj));
 }

 static MOZ_ALWAYS_INLINE bool
 ObjectIsMarkedGray(JSObject* obj)
 {
     /*
      * GC things residing in the nursery cannot be gray: they have no mark bits.
      * All live objects in the nursery are moved to tenured at the beginning of
      * each GC slice, so the gray marker never sees nursery things.
      */
     if (js::gc::IsInsideNursery(reinterpret_cast<js::gc::Cell*>(obj)))
         return false;
     return js::gc::detail::CellIsMarkedGray(reinterpret_cast<js::gc::Cell*>(obj));
 }

 static MOZ_ALWAYS_INLINE bool
 ScriptIsMarkedGray(JSScript* script)
 {
     return js::gc::detail::CellIsMarkedGray(reinterpret_cast<js::gc::Cell*>(script));
 }

 static MOZ_ALWAYS_INLINE bool
 GCThingIsMarkedGray(GCCellPtr thing)
 {
     if (js::gc::IsInsideNursery(thing.asCell()))
         return false;
     if (thing.mayBeOwnedByOtherRuntime())
         return false;
     return js::gc::detail::CellIsMarkedGray(thing.asCell());
 }

 } /* namespace JS */

 namespace js {
 namespace gc {

 static MOZ_ALWAYS_INLINE bool
 IsIncrementalBarrierNeededOnTenuredGCThing(JS::shadow::Runtime* rt, const JS::GCCellPtr thing)
 {
     MOZ_ASSERT(thing);
     MOZ_ASSERT(!js::gc::IsInsideNursery(thing.asCell()));
     if (rt->isHeapBusy())
         return false;
     JS::Zone* zone = JS::GetTenuredGCThingZone(thing);
     return JS::shadow::Zone::asShadowZone(zone)->needsIncrementalBarrier();
 }

 /**
  * Create an object providing access to the garbage collector's internal notion
  * of the current state of memory (both GC heap memory and GCthing-controlled
  * malloc memory.
  */
 extern JS_PUBLIC_API(JSObject*)
 NewMemoryInfoObject(JSContext* cx);

 } /* namespace gc */
 } /* namespace js */

 #endif /* js_HeapAPI_h */
	/* -- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 4 --
	* vim: set ts=8 sts=4 et sw=4 tw=99:
	* This Source Code Form is subject to the terms of the Mozilla Public
	* License, v. 2.0. If a copy of the MPL was not distributed with this
	* file, You can obtain one at http://mozilla.org/MPL/2.0/. */

	#ifndef js_HeapAPI_h
	#define js_HeapAPI_h

	#include <limits.h>

	#include "jspubtd.h"

	#include "js/TraceKind.h"
	#include "js/Utility.h"

	/* These values are private to the JS engine. */
	namespace js {

	// Whether the current thread is permitted access to any part of the specified
	// runtime or zone.
	JS_FRIEND_API(bool)
	CurrentThreadCanAccessRuntime(JSRuntime* rt);

	JS_FRIEND_API(bool)
	CurrentThreadCanAccessZone(JS::Zone* zone);

	namespace gc {

	struct Cell;

	const size_t ArenaShift = 12;
	const size_t ArenaSize = size_t(1) << ArenaShift;
	const size_t ArenaMask = ArenaSize - 1;

	#ifdef JS_GC_SMALL_CHUNK_SIZE
	const size_t ChunkShift = 18;
	#else
	const size_t ChunkShift = 20;
	#endif
	const size_t ChunkSize = size_t(1) << ChunkShift;
	const size_t ChunkMask = ChunkSize - 1;

	const size_t CellShift = 3;
	const size_t CellSize = size_t(1) << CellShift;
	const size_t CellMask = CellSize - 1;

	/* These are magic constants derived from actual offsets in gc/Heap.h. */
	#ifdef JS_GC_SMALL_CHUNK_SIZE
	const size_t ChunkMarkBitmapOffset = 258104;
	const size_t ChunkMarkBitmapBits = 31744;
	#else
	const size_t ChunkMarkBitmapOffset = 1032352;
	const size_t ChunkMarkBitmapBits = 129024;
	#endif
	const size_t ChunkRuntimeOffset = ChunkSize - sizeof(void*);
	const size_t ChunkTrailerSize = 2 * sizeof(uintptr_t) + sizeof(uint64_t);
	const size_t ChunkLocationOffset = ChunkSize - ChunkTrailerSize;
	const size_t ArenaZoneOffset = 0;

	/*
	* Live objects are marked black. How many other additional colors are available
	* depends on the size of the GCThing. Objects marked gray are eligible for
	* cycle collection.
	*/
	static const uint32_t BLACK = 0;
	static const uint32_t GRAY = 1;

	/*
	* The "location" field in the Chunk trailer is a bit vector indicting various
	* roles of the chunk.
	*
	* The value 0 for the "location" field is invalid, at least one bit must be
	* set.
	*
	* Some bits preclude others, for example, any "nursery" bit precludes any
	* "tenured" or "middle generation" bit.
	*/
	const uintptr_t ChunkLocationBitNursery = 1; // Standard GGC nursery
	const uintptr_t ChunkLocationBitTenuredHeap = 2; // Standard GGC tenured generation

	const uintptr_t ChunkLocationAnyNursery = ChunkLocationBitNursery;

	#ifdef JS_DEBUG
	/* When downcasting, ensure we are actually the right type. */
	extern JS_FRIEND_API(void)
	AssertGCThingHasType(js::gc::Cell* cell, JS::TraceKind kind);
	#else
	inline void
	AssertGCThingHasType(js::gc::Cell* cell, JS::TraceKind kind) {}
	#endif

	MOZ_ALWAYS_INLINE bool IsInsideNursery(const js::gc::Cell* cell);

	} /* namespace gc */
	} /* namespace js */

	namespace JS {
	struct Zone;

	/* Default size for the generational nursery in bytes. */
	const uint32_t DefaultNurseryBytes = 16 * js::gc::ChunkSize;

	/* Default maximum heap size in bytes to pass to JS_NewRuntime(). */
	const uint32_t DefaultHeapMaxBytes = 32 * 1024 * 1024;

	namespace shadow {

	struct Zone
	{
	protected:
	JSRuntime* const runtime_;
	JSTracer* const barrierTracer_; // A pointer to the JSRuntime's \|gcMarker\|.

	public:
	bool needsIncrementalBarrier_;

	Zone(JSRuntime* runtime, JSTracer* barrierTracerArg)
	: runtime_(runtime),
	barrierTracer_(barrierTracerArg),
	needsIncrementalBarrier_(false)
	{}

	bool needsIncrementalBarrier() const {
	return needsIncrementalBarrier_;
	}

	JSTracer* barrierTracer() {
	MOZ_ASSERT(needsIncrementalBarrier_);
	MOZ_ASSERT(js::CurrentThreadCanAccessRuntime(runtime_));
	return barrierTracer_;
	}

	JSRuntime* runtimeFromMainThread() const {
	MOZ_ASSERT(js::CurrentThreadCanAccessRuntime(runtime_));
	return runtime_;
	}

	// Note: Unrestricted access to the zone's runtime from an arbitrary
	// thread can easily lead to races. Use this method very carefully.
	JSRuntime* runtimeFromAnyThread() const {
	return runtime_;
	}

	static JS::shadow::Zone* asShadowZone(JS::Zone* zone) {
	return reinterpret_cast<JS::shadow::Zone*>(zone);
	}
	};

	} /* namespace shadow */

	/**
	* A GC pointer, tagged with the trace kind.
	*
	* In general, a GC pointer should be stored with an exact type. This class
	* is for use when that is not possible because a single pointer must point
	* to several kinds of GC thing.
	*/
	class JS_FRIEND_API(GCCellPtr)
	{
	public:
	// Construction from a void* and trace kind.
	GCCellPtr(void* gcthing, JS::TraceKind traceKind) : ptr(checkedCast(gcthing, traceKind)) {}

	// Automatically construct a null GCCellPtr from nullptr.
	MOZ_IMPLICIT GCCellPtr(decltype(nullptr)) : ptr(checkedCast(nullptr, JS::TraceKind::Null)) {}

	// Construction from an explicit type.
	template <typename T>
	explicit GCCellPtr(T* p) : ptr(checkedCast(p, JS::MapTypeToTraceKind<T>::kind)) { }
	explicit GCCellPtr(JSFunction* p) : ptr(checkedCast(p, JS::TraceKind::Object)) { }
	explicit GCCellPtr(JSFlatString* str) : ptr(checkedCast(str, JS::TraceKind::String)) { }
	explicit GCCellPtr(const Value& v);

	JS::TraceKind kind() const {
	JS::TraceKind traceKind = JS::TraceKind(ptr & OutOfLineTraceKindMask);
	if (uintptr_t(traceKind) != OutOfLineTraceKindMask)
	return traceKind;
	return outOfLineKind();
	}

	// Allow GCCellPtr to be used in a boolean context.
	explicit operator bool() const {
	MOZ_ASSERT(bool(asCell()) == (kind() != JS::TraceKind::Null));
	return asCell();
	}

	// Simplify checks to the kind.
	template <typename T>
	bool is() const { return kind() == JS::MapTypeToTraceKind<T>::kind; }

	// Conversions to more specific types must match the kind. Access to
	// further refined types is not allowed directly from a GCCellPtr.
	template <typename T>
	T& as() const {
	MOZ_ASSERT(kind() == JS::MapTypeToTraceKind<T>::kind);
	// We can't use static_cast here, because the fact that JSObject
	// inherits from js::gc::Cell is not part of the public API.
	return reinterpret_cast<T>(asCell());
	}

	// Return a pointer to the cell this \|GCCellPtr\| refers to, or \|nullptr\|.
	// (It would be more symmetrical with \|to\| for this to return a \|Cell&\|, but
	// the result can be \|nullptr\|, and null references are undefined behavior.)
	js::gc::Cell* asCell() const {
	return reinterpret_cast<js::gc::Cell*>(ptr & ~OutOfLineTraceKindMask);
	}

	// The CC's trace logger needs an identity that is XPIDL serializable.
	uint64_t unsafeAsInteger() const {
	return static_cast<uint64_t>(unsafeAsUIntPtr());
	}
	// Inline mark bitmap access requires direct pointer arithmetic.
	uintptr_t unsafeAsUIntPtr() const {
	MOZ_ASSERT(asCell());
	MOZ_ASSERT(!js::gc::IsInsideNursery(asCell()));
	return reinterpret_cast<uintptr_t>(asCell());
	}

	bool mayBeOwnedByOtherRuntime() const;

	private:
	static uintptr_t checkedCast(void* p, JS::TraceKind traceKind) {
	js::gc::Cell* cell = static_cast<js::gc::Cell*>(p);
	MOZ_ASSERT((uintptr_t(p) & OutOfLineTraceKindMask) == 0);
	AssertGCThingHasType(cell, traceKind);
	// Note: the OutOfLineTraceKindMask bits are set on all out-of-line kinds
	// so that we can mask instead of branching.
	MOZ_ASSERT_IF(uintptr_t(traceKind) >= OutOfLineTraceKindMask,
	(uintptr_t(traceKind) & OutOfLineTraceKindMask) == OutOfLineTraceKindMask);
	return uintptr_t(p) \| (uintptr_t(traceKind) & OutOfLineTraceKindMask);
	}

	JS::TraceKind outOfLineKind() const;

	uintptr_t ptr;
	};

	inline bool
	operator==(const GCCellPtr& ptr1, const GCCellPtr& ptr2)
	{
	return ptr1.asCell() == ptr2.asCell();
	}

	inline bool
	operator!=(const GCCellPtr& ptr1, const GCCellPtr& ptr2)
	{
	return !(ptr1 == ptr2);
	}

	// Unwraps the given GCCellPtr and calls the given functor with a template
	// argument of the actual type of the pointer.
	template <typename F, typename... Args>
	auto
	DispatchTyped(F f, GCCellPtr thing, Args&&... args)
	-> decltype(f(static_cast<JSObject*>(nullptr), mozilla::Forward<Args>(args)...))
	{
	switch (thing.kind()) {
	#define JS_EXPAND_DEF(name, type, _) \
	case JS::TraceKind::name: \
	return f(&thing.as<type>(), mozilla::Forward<Args>(args)...);
	JS_FOR_EACH_TRACEKIND(JS_EXPAND_DEF);
	#undef JS_EXPAND_DEF
	default:
	MOZ_CRASH("Invalid trace kind in DispatchTyped for GCCellPtr.");
	}
	}

	} /* namespace JS */

	namespace js {
	namespace gc {
	namespace detail {

	static MOZ_ALWAYS_INLINE uintptr_t*
	GetGCThingMarkBitmap(const uintptr_t addr)
	{
	MOZ_ASSERT(addr);
	const uintptr_t bmap_addr = (addr & ~ChunkMask) \| ChunkMarkBitmapOffset;
	return reinterpret_cast<uintptr_t*>(bmap_addr);
	}

	static MOZ_ALWAYS_INLINE JS::shadow::Runtime*
	GetGCThingRuntime(const uintptr_t addr)
	{
	MOZ_ASSERT(addr);
	const uintptr_t rt_addr = (addr & ~ChunkMask) \| ChunkRuntimeOffset;
	return reinterpret_cast<JS::shadow::Runtime*>(rt_addr);
	}

	static MOZ_ALWAYS_INLINE void
	GetGCThingMarkWordAndMask(const uintptr_t addr, uint32_t color,
	uintptr_t** wordp, uintptr_t* maskp)
	{
	MOZ_ASSERT(addr);
	const size_t bit = (addr & js::gc::ChunkMask) / js::gc::CellSize + color;
	MOZ_ASSERT(bit < js::gc::ChunkMarkBitmapBits);
	uintptr_t* bitmap = GetGCThingMarkBitmap(addr);
	const uintptr_t nbits = sizeof(bitmap) CHAR_BIT;
	*maskp = uintptr_t(1) << (bit % nbits);
	*wordp = &bitmap[bit / nbits];
	}

	static MOZ_ALWAYS_INLINE JS::Zone*
	GetGCThingZone(const uintptr_t addr)
	{
	MOZ_ASSERT(addr);
	const uintptr_t zone_addr = (addr & ~ArenaMask) \| ArenaZoneOffset;
	return reinterpret_cast<JS::Zone*>(zone_addr);

	}

	static MOZ_ALWAYS_INLINE bool
	CellIsMarkedGray(const Cell* cell)
	{
	MOZ_ASSERT(cell);
	MOZ_ASSERT(!js::gc::IsInsideNursery(cell));
	uintptr_t* word, mask;
	js::gc::detail::GetGCThingMarkWordAndMask(uintptr_t(cell), js::gc::GRAY, &word, &mask);
	return *word & mask;
	}

	} /* namespace detail */

	MOZ_ALWAYS_INLINE bool
	IsInsideNursery(const js::gc::Cell* cell)
	{
	if (!cell)
	return false;
	uintptr_t addr = uintptr_t(cell);
	addr &= ~js::gc::ChunkMask;
	addr \|= js::gc::ChunkLocationOffset;
	uint32_t location = reinterpret_cast<uint32_t>(addr);
	MOZ_ASSERT(location != 0);
	return location & ChunkLocationAnyNursery;
	}

	} /* namespace gc */
	} /* namespace js */

	namespace JS {

	static MOZ_ALWAYS_INLINE Zone*
	GetTenuredGCThingZone(GCCellPtr thing)
	{
	MOZ_ASSERT(!js::gc::IsInsideNursery(thing.asCell()));
	return js::gc::detail::GetGCThingZone(thing.unsafeAsUIntPtr());
	}

	static MOZ_ALWAYS_INLINE Zone*
	GetStringZone(JSString* str)
	{
	return js::gc::detail::GetGCThingZone(uintptr_t(str));
	}

	extern JS_PUBLIC_API(Zone*)
	GetObjectZone(JSObject* obj);

	static MOZ_ALWAYS_INLINE bool
	ObjectIsTenured(JSObject* obj)
	{
	return !js::gc::IsInsideNursery(reinterpret_cast<js::gc::Cell*>(obj));
	}

	static MOZ_ALWAYS_INLINE bool
	ObjectIsMarkedGray(JSObject* obj)
	{
	/*
	* GC things residing in the nursery cannot be gray: they have no mark bits.
	* All live objects in the nursery are moved to tenured at the beginning of
	* each GC slice, so the gray marker never sees nursery things.
	*/
	if (js::gc::IsInsideNursery(reinterpret_cast<js::gc::Cell*>(obj)))
	return false;
	return js::gc::detail::CellIsMarkedGray(reinterpret_cast<js::gc::Cell*>(obj));
	}

	static MOZ_ALWAYS_INLINE bool
	ScriptIsMarkedGray(JSScript* script)
	{
	return js::gc::detail::CellIsMarkedGray(reinterpret_cast<js::gc::Cell*>(script));
	}

	static MOZ_ALWAYS_INLINE bool
	GCThingIsMarkedGray(GCCellPtr thing)
	{
	if (js::gc::IsInsideNursery(thing.asCell()))
	return false;
	if (thing.mayBeOwnedByOtherRuntime())
	return false;
	return js::gc::detail::CellIsMarkedGray(thing.asCell());
	}

	} /* namespace JS */

	namespace js {
	namespace gc {

	static MOZ_ALWAYS_INLINE bool
	IsIncrementalBarrierNeededOnTenuredGCThing(JS::shadow::Runtime* rt, const JS::GCCellPtr thing)
	{
	MOZ_ASSERT(thing);
	MOZ_ASSERT(!js::gc::IsInsideNursery(thing.asCell()));
	if (rt->isHeapBusy())
	return false;
	JS::Zone* zone = JS::GetTenuredGCThingZone(thing);
	return JS::shadow::Zone::asShadowZone(zone)->needsIncrementalBarrier();
	}

	/**
	* Create an object providing access to the garbage collector's internal notion
	* of the current state of memory (both GC heap memory and GCthing-controlled
	* malloc memory.
	*/
	extern JS_PUBLIC_API(JSObject*)
	NewMemoryInfoObject(JSContext* cx);

	} /* namespace gc */
	} /* namespace js */

	#endif /* js_HeapAPI_h */