src/third_party/mozjs-45/js/src/vm/ArgumentsObject.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 vm_ArgumentsObject_h
 #define vm_ArgumentsObject_h

 #include "mozilla/MemoryReporting.h"

 #include "gc/Barrier.h"
 #include "vm/NativeObject.h"

 namespace js {

 class AbstractFramePtr;
 class ScriptFrameIter;

 namespace jit {
 class JitFrameLayout;
 } // namespace jit

 /*
  * ArgumentsData stores the initial indexed arguments provided to the
  * corresponding and that function itself.  It is used to store arguments[i]
  * and arguments.callee -- up until the corresponding property is modified,
  * when the relevant value is flagged to memorialize the modification.
  */
 struct ArgumentsData
 {
     /*
      * numArgs = Max(numFormalArgs, numActualArgs)
      * The array 'args' has numArgs elements.
      */
     uint32_t    numArgs;

     /* Size of ArgumentsData and data allocated after it. */
     uint32_t    dataBytes;

     /*
      * arguments.callee, or MagicValue(JS_OVERWRITTEN_CALLEE) if
      * arguments.callee has been modified.
      */
     HeapValue   callee;

     /* The script for the function containing this arguments object. */
     JSScript*   script;

     /*
      * Pointer to an array of bits indicating, for every argument in 'slots',
      * whether the element has been deleted. See isElementDeleted comment.
      */
     size_t*     deletedBits;

     /*
      * This array holds either the current argument value or the magic
      * forwarding value. The latter means that the function has both a
      * CallObject and an ArgumentsObject AND the particular formal variable is
      * aliased by the CallObject. In such cases, the CallObject holds the
      * canonical value so any element access to the arguments object should load
      * the value out of the CallObject (which is pointed to by MAYBE_CALL_SLOT).
      */
     HeapValue   args[1];

     /* For jit use: */
     static ptrdiff_t offsetOfArgs() { return offsetof(ArgumentsData, args); }

     /* Iterate args. */
     HeapValue* begin() { return args; }
     const HeapValue* begin() const { return args; }
     HeapValue* end() { return args + numArgs; }
     const HeapValue* end() const { return args + numArgs; }
 };

 // Maximum supported value of arguments.length. This bounds the maximum
 // number of arguments that can be supplied to Function.prototype.apply.
 // This value also bounds the number of elements parsed in an array
 // initializer.
 static const unsigned ARGS_LENGTH_MAX = 500 * 1000;

 /*
  * ArgumentsObject instances represent |arguments| objects created to store
  * function arguments when a function is called.  It's expensive to create such
  * objects if they're never used, so they're only created when they are
  * potentially used.
  *
  * Arguments objects are complicated because, for non-strict mode code, they
  * must alias any named arguments which were provided to the function.  Gnarly
  * example:
  *
  *   function f(a, b, c, d)
  *   {
  *     arguments[0] = "seta";
  *     assertEq(a, "seta");
  *     b = "setb";
  *     assertEq(arguments[1], "setb");
  *     c = "setc";
  *     assertEq(arguments[2], undefined);
  *     arguments[3] = "setd";
  *     assertEq(d, undefined);
  *   }
  *   f("arga", "argb");
  *
  * ES5's strict mode behaves more sanely, and named arguments don't alias
  * elements of an arguments object.
  *
  * ArgumentsObject instances use the following reserved slots:
  *
  *   INITIAL_LENGTH_SLOT
  *     Stores the initial value of arguments.length, plus a bit indicating
  *     whether arguments.length has been modified.  Use initialLength() and
  *     hasOverriddenLength() to access these values.  If arguments.length has
  *     been modified, then the current value of arguments.length is stored in
  *     another slot associated with a new property.
  *   DATA_SLOT
  *     Stores an ArgumentsData*, described above.
  */
 class ArgumentsObject : public NativeObject
 {
   protected:
     static const uint32_t INITIAL_LENGTH_SLOT = 0;
     static const uint32_t DATA_SLOT = 1;
     static const uint32_t MAYBE_CALL_SLOT = 2;

   public:
     static const uint32_t LENGTH_OVERRIDDEN_BIT = 0x1;
     static const uint32_t PACKED_BITS_COUNT = 1;

   protected:
     template <typename CopyArgs>
     static ArgumentsObject* create(JSContext* cx, HandleFunction callee, unsigned numActuals,
                                    CopyArgs& copy);

     ArgumentsData* data() const {
         return reinterpret_cast<ArgumentsData*>(getFixedSlot(DATA_SLOT).toPrivate());
     }

     static bool obj_delProperty(JSContext* cx, HandleObject obj, HandleId id,
                                 ObjectOpResult& result);

   public:
     static const uint32_t RESERVED_SLOTS = 3;
     static const gc::AllocKind FINALIZE_KIND = gc::AllocKind::OBJECT4_BACKGROUND;

     /* Create an arguments object for a frame that is expecting them. */
     static ArgumentsObject* createExpected(JSContext* cx, AbstractFramePtr frame);

     /*
      * Purposefully disconnect the returned arguments object from the frame
      * by always creating a new copy that does not alias formal parameters.
      * This allows function-local analysis to determine that formals are
      * not aliased and generally simplifies arguments objects.
      */
     static ArgumentsObject* createUnexpected(JSContext* cx, ScriptFrameIter& iter);
     static ArgumentsObject* createUnexpected(JSContext* cx, AbstractFramePtr frame);
     static ArgumentsObject* createForIon(JSContext* cx, jit::JitFrameLayout* frame,
                                          HandleObject scopeChain);

     static ArgumentsObject* createTemplateObject(JSContext* cx, bool mapped);

     /*
      * Return the initial length of the arguments.  This may differ from the
      * current value of arguments.length!
      */
     uint32_t initialLength() const {
         uint32_t argc = uint32_t(getFixedSlot(INITIAL_LENGTH_SLOT).toInt32()) >> PACKED_BITS_COUNT;
         MOZ_ASSERT(argc <= ARGS_LENGTH_MAX);
         return argc;
     }

     /* The script for the function containing this arguments object. */
     JSScript* containingScript() const {
         return data()->script;
     }

     /* True iff arguments.length has been assigned or its attributes changed. */
     bool hasOverriddenLength() const {
         const Value& v = getFixedSlot(INITIAL_LENGTH_SLOT);
         return v.toInt32() & LENGTH_OVERRIDDEN_BIT;
     }

     void markLengthOverridden() {
         uint32_t v = getFixedSlot(INITIAL_LENGTH_SLOT).toInt32() | LENGTH_OVERRIDDEN_BIT;
         setFixedSlot(INITIAL_LENGTH_SLOT, Int32Value(v));
     }

     /*
      * Because the arguments object is a real object, its elements may be
      * deleted. This is implemented by setting a 'deleted' flag for the arg
      * which is read by argument object resolve and getter/setter hooks.
      *
      * NB: an element, once deleted, stays deleted. Thus:
      *
      *   function f(x) { delete arguments[0]; arguments[0] = 42; return x }
      *   assertEq(f(1), 1);
      *
      * This works because, once a property is deleted from an arguments object,
      * it gets regular properties with regular getters/setters that don't alias
      * ArgumentsData::slots.
      */
     bool isElementDeleted(uint32_t i) const {
         MOZ_ASSERT(i < data()->numArgs);
         if (i >= initialLength())
             return false;
         return IsBitArrayElementSet(data()->deletedBits, initialLength(), i);
     }

     bool isAnyElementDeleted() const {
         return IsAnyBitArrayElementSet(data()->deletedBits, initialLength());
     }

     void markElementDeleted(uint32_t i) {
         SetBitArrayElement(data()->deletedBits, initialLength(), i);
     }

     /*
      * An ArgumentsObject serves two roles:
      *  - a real object, accessed through regular object operations, e.g..,
      *    GetElement corresponding to 'arguments[i]';
      *  - a VM-internal data structure, storing the value of arguments (formal
      *    and actual) that are accessed directly by the VM when a reading the
      *    value of a formal parameter.
      * There are two ways to access the ArgumentsData::args corresponding to
      * these two use cases:
      *  - object access should use elements(i) which will take care of
      *    forwarding when the value is the magic forwarding value;
      *  - VM argument access should use arg(i) which will assert that the
      *    value is not the magic forwarding value (since, if such forwarding was
      *    needed, the frontend should have emitted JSOP_GETALIASEDVAR).
      */
     const Value& element(uint32_t i) const;

     inline void setElement(JSContext* cx, uint32_t i, const Value& v);

     const Value& arg(unsigned i) const {
         MOZ_ASSERT(i < data()->numArgs);
         const Value& v = data()->args[i];
         MOZ_ASSERT(!v.isMagic());
         return v;
     }

     void setArg(unsigned i, const Value& v) {
         MOZ_ASSERT(i < data()->numArgs);
         HeapValue& lhs = data()->args[i];
         MOZ_ASSERT(!lhs.isMagic());
         lhs = v;
     }

     /*
      * Attempt to speedily and efficiently access the i-th element of this
      * arguments object.  Return true if the element was speedily returned.
      * Return false if the element must be looked up more slowly using
      * getProperty or some similar method. The second overload copies the
      * elements [start, start + count) into the locations starting at 'vp'.
      *
      * NB: Returning false does not indicate error!
      */
     bool maybeGetElement(uint32_t i, MutableHandleValue vp) {
         if (i >= initialLength() || isElementDeleted(i))
             return false;
         vp.set(element(i));
         return true;
     }

     inline bool maybeGetElements(uint32_t start, uint32_t count, js::Value* vp);

     /*
      * Measures things hanging off this ArgumentsObject that are counted by the
      * |miscSize| argument in JSObject::sizeOfExcludingThis().
      */
     size_t sizeOfMisc(mozilla::MallocSizeOf mallocSizeOf) const {
         return mallocSizeOf(data());
     }
     size_t sizeOfData() const {
         return data()->dataBytes;
     }

     static void finalize(FreeOp* fop, JSObject* obj);
     static void trace(JSTracer* trc, JSObject* obj);
     static size_t objectMovedDuringMinorGC(JSTracer* trc, JSObject* dst, JSObject* src);

     /* For jit use: */
     static size_t getDataSlotOffset() {
         return getFixedSlotOffset(DATA_SLOT);
     }
     static size_t getInitialLengthSlotOffset() {
         return getFixedSlotOffset(INITIAL_LENGTH_SLOT);
     }

     static Value MagicScopeSlotValue(uint32_t slot) {
         // When forwarding slots to a backing CallObject, the slot numbers are
         // stored as uint32 magic values. This raises an ambiguity if we have
         // also copied JS_OPTIMIZED_OUT magic from a JIT frame or
         // JS_UNINITIALIZED_LEXICAL magic on the CallObject. To distinguish
         // normal magic values (those with a JSWhyMagic) and uint32 magic
         // values, we add the maximum JSWhyMagic value to the slot
         // number. This is safe as ARGS_LENGTH_MAX is well below UINT32_MAX.
         JS_STATIC_ASSERT(UINT32_MAX - JS_WHY_MAGIC_COUNT > ARGS_LENGTH_MAX);
         return JS::MagicValueUint32(slot + JS_WHY_MAGIC_COUNT);
     }
     static uint32_t SlotFromMagicScopeSlotValue(const Value& v) {
         JS_STATIC_ASSERT(UINT32_MAX - JS_WHY_MAGIC_COUNT > ARGS_LENGTH_MAX);
         return v.magicUint32() - JS_WHY_MAGIC_COUNT;
     }
     static bool IsMagicScopeSlotValue(const Value& v) {
         return v.isMagic() && v.magicUint32() > JS_WHY_MAGIC_COUNT;
     }

     static void MaybeForwardToCallObject(AbstractFramePtr frame, ArgumentsObject* obj,
                                          ArgumentsData* data);
     static void MaybeForwardToCallObject(jit::JitFrameLayout* frame, HandleObject callObj,
                                          ArgumentsObject* obj, ArgumentsData* data);
 };

 class MappedArgumentsObject : public ArgumentsObject
 {
   public:
     static const Class class_;

     /*
      * Stores arguments.callee, or MagicValue(JS_ARGS_HOLE) if the callee has
      * been cleared.
      */
     const js::Value& callee() const {
         return data()->callee;
     }

     /* Clear the location storing arguments.callee's initial value. */
     void clearCallee() {
         data()->callee = MagicValue(JS_OVERWRITTEN_CALLEE);
     }

   private:
     static bool obj_enumerate(JSContext* cx, HandleObject obj);
     static bool obj_resolve(JSContext* cx, HandleObject obj, HandleId id, bool* resolvedp);
 };

 class UnmappedArgumentsObject : public ArgumentsObject
 {
   public:
     static const Class class_;

   private:
     static bool obj_enumerate(JSContext* cx, HandleObject obj);
     static bool obj_resolve(JSContext* cx, HandleObject obj, HandleId id, bool* resolvedp);
 };

 } // namespace js

 template<>
 inline bool
 JSObject::is<js::ArgumentsObject>() const
 {
     return is<js::MappedArgumentsObject>() || is<js::UnmappedArgumentsObject>();
 }

 #endif /* vm_ArgumentsObject_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 vm_ArgumentsObject_h
	#define vm_ArgumentsObject_h

	#include "mozilla/MemoryReporting.h"

	#include "gc/Barrier.h"
	#include "vm/NativeObject.h"

	namespace js {

	class AbstractFramePtr;
	class ScriptFrameIter;

	namespace jit {
	class JitFrameLayout;
	} // namespace jit

	/*
	* ArgumentsData stores the initial indexed arguments provided to the
	* corresponding and that function itself. It is used to store arguments[i]
	* and arguments.callee -- up until the corresponding property is modified,
	* when the relevant value is flagged to memorialize the modification.
	*/
	struct ArgumentsData
	{
	/*
	* numArgs = Max(numFormalArgs, numActualArgs)
	* The array 'args' has numArgs elements.
	*/
	uint32_t numArgs;

	/* Size of ArgumentsData and data allocated after it. */
	uint32_t dataBytes;

	/*
	* arguments.callee, or MagicValue(JS_OVERWRITTEN_CALLEE) if
	* arguments.callee has been modified.
	*/
	HeapValue callee;

	/* The script for the function containing this arguments object. */
	JSScript* script;

	/*
	* Pointer to an array of bits indicating, for every argument in 'slots',
	* whether the element has been deleted. See isElementDeleted comment.
	*/
	size_t* deletedBits;

	/*
	* This array holds either the current argument value or the magic
	* forwarding value. The latter means that the function has both a
	* CallObject and an ArgumentsObject AND the particular formal variable is
	* aliased by the CallObject. In such cases, the CallObject holds the
	* canonical value so any element access to the arguments object should load
	* the value out of the CallObject (which is pointed to by MAYBE_CALL_SLOT).
	*/
	HeapValue args[1];

	/* For jit use: */
	static ptrdiff_t offsetOfArgs() { return offsetof(ArgumentsData, args); }

	/* Iterate args. */
	HeapValue* begin() { return args; }
	const HeapValue* begin() const { return args; }
	HeapValue* end() { return args + numArgs; }
	const HeapValue* end() const { return args + numArgs; }
	};

	// Maximum supported value of arguments.length. This bounds the maximum
	// number of arguments that can be supplied to Function.prototype.apply.
	// This value also bounds the number of elements parsed in an array
	// initializer.
	static const unsigned ARGS_LENGTH_MAX = 500 * 1000;

	/*
	* ArgumentsObject instances represent \|arguments\| objects created to store
	* function arguments when a function is called. It's expensive to create such
	* objects if they're never used, so they're only created when they are
	* potentially used.
	*
	* Arguments objects are complicated because, for non-strict mode code, they
	* must alias any named arguments which were provided to the function. Gnarly
	* example:
	*
	* function f(a, b, c, d)
	* {
	* arguments[0] = "seta";
	* assertEq(a, "seta");
	* b = "setb";
	* assertEq(arguments[1], "setb");
	* c = "setc";
	* assertEq(arguments[2], undefined);
	* arguments[3] = "setd";
	* assertEq(d, undefined);
	* }
	* f("arga", "argb");
	*
	* ES5's strict mode behaves more sanely, and named arguments don't alias
	* elements of an arguments object.
	*
	* ArgumentsObject instances use the following reserved slots:
	*
	* INITIAL_LENGTH_SLOT
	* Stores the initial value of arguments.length, plus a bit indicating
	* whether arguments.length has been modified. Use initialLength() and
	* hasOverriddenLength() to access these values. If arguments.length has
	* been modified, then the current value of arguments.length is stored in
	* another slot associated with a new property.
	* DATA_SLOT
	* Stores an ArgumentsData*, described above.
	*/
	class ArgumentsObject : public NativeObject
	{
	protected:
	static const uint32_t INITIAL_LENGTH_SLOT = 0;
	static const uint32_t DATA_SLOT = 1;
	static const uint32_t MAYBE_CALL_SLOT = 2;

	public:
	static const uint32_t LENGTH_OVERRIDDEN_BIT = 0x1;
	static const uint32_t PACKED_BITS_COUNT = 1;

	protected:
	template <typename CopyArgs>
	static ArgumentsObject* create(JSContext* cx, HandleFunction callee, unsigned numActuals,
	CopyArgs& copy);

	ArgumentsData* data() const {
	return reinterpret_cast<ArgumentsData*>(getFixedSlot(DATA_SLOT).toPrivate());
	}

	static bool obj_delProperty(JSContext* cx, HandleObject obj, HandleId id,
	ObjectOpResult& result);

	public:
	static const uint32_t RESERVED_SLOTS = 3;
	static const gc::AllocKind FINALIZE_KIND = gc::AllocKind::OBJECT4_BACKGROUND;

	/* Create an arguments object for a frame that is expecting them. */
	static ArgumentsObject* createExpected(JSContext* cx, AbstractFramePtr frame);

	/*
	* Purposefully disconnect the returned arguments object from the frame
	* by always creating a new copy that does not alias formal parameters.
	* This allows function-local analysis to determine that formals are
	* not aliased and generally simplifies arguments objects.
	*/
	static ArgumentsObject* createUnexpected(JSContext* cx, ScriptFrameIter& iter);
	static ArgumentsObject* createUnexpected(JSContext* cx, AbstractFramePtr frame);
	static ArgumentsObject* createForIon(JSContext* cx, jit::JitFrameLayout* frame,
	HandleObject scopeChain);

	static ArgumentsObject* createTemplateObject(JSContext* cx, bool mapped);

	/*
	* Return the initial length of the arguments. This may differ from the
	* current value of arguments.length!
	*/
	uint32_t initialLength() const {
	uint32_t argc = uint32_t(getFixedSlot(INITIAL_LENGTH_SLOT).toInt32()) >> PACKED_BITS_COUNT;
	MOZ_ASSERT(argc <= ARGS_LENGTH_MAX);
	return argc;
	}

	/* The script for the function containing this arguments object. */
	JSScript* containingScript() const {
	return data()->script;
	}

	/* True iff arguments.length has been assigned or its attributes changed. */
	bool hasOverriddenLength() const {
	const Value& v = getFixedSlot(INITIAL_LENGTH_SLOT);
	return v.toInt32() & LENGTH_OVERRIDDEN_BIT;
	}

	void markLengthOverridden() {
	uint32_t v = getFixedSlot(INITIAL_LENGTH_SLOT).toInt32() \| LENGTH_OVERRIDDEN_BIT;
	setFixedSlot(INITIAL_LENGTH_SLOT, Int32Value(v));
	}

	/*
	* Because the arguments object is a real object, its elements may be
	* deleted. This is implemented by setting a 'deleted' flag for the arg
	* which is read by argument object resolve and getter/setter hooks.
	*
	* NB: an element, once deleted, stays deleted. Thus:
	*
	* function f(x) { delete arguments[0]; arguments[0] = 42; return x }
	* assertEq(f(1), 1);
	*
	* This works because, once a property is deleted from an arguments object,
	* it gets regular properties with regular getters/setters that don't alias
	* ArgumentsData::slots.
	*/
	bool isElementDeleted(uint32_t i) const {
	MOZ_ASSERT(i < data()->numArgs);
	if (i >= initialLength())
	return false;
	return IsBitArrayElementSet(data()->deletedBits, initialLength(), i);
	}

	bool isAnyElementDeleted() const {
	return IsAnyBitArrayElementSet(data()->deletedBits, initialLength());
	}

	void markElementDeleted(uint32_t i) {
	SetBitArrayElement(data()->deletedBits, initialLength(), i);
	}

	/*
	* An ArgumentsObject serves two roles:
	* - a real object, accessed through regular object operations, e.g..,
	* GetElement corresponding to 'arguments[i]';
	* - a VM-internal data structure, storing the value of arguments (formal
	* and actual) that are accessed directly by the VM when a reading the
	* value of a formal parameter.
	* There are two ways to access the ArgumentsData::args corresponding to
	* these two use cases:
	* - object access should use elements(i) which will take care of
	* forwarding when the value is the magic forwarding value;
	* - VM argument access should use arg(i) which will assert that the
	* value is not the magic forwarding value (since, if such forwarding was
	* needed, the frontend should have emitted JSOP_GETALIASEDVAR).
	*/
	const Value& element(uint32_t i) const;

	inline void setElement(JSContext* cx, uint32_t i, const Value& v);

	const Value& arg(unsigned i) const {
	MOZ_ASSERT(i < data()->numArgs);
	const Value& v = data()->args[i];
	MOZ_ASSERT(!v.isMagic());
	return v;
	}

	void setArg(unsigned i, const Value& v) {
	MOZ_ASSERT(i < data()->numArgs);
	HeapValue& lhs = data()->args[i];
	MOZ_ASSERT(!lhs.isMagic());
	lhs = v;
	}

	/*
	* Attempt to speedily and efficiently access the i-th element of this
	* arguments object. Return true if the element was speedily returned.
	* Return false if the element must be looked up more slowly using
	* getProperty or some similar method. The second overload copies the
	* elements [start, start + count) into the locations starting at 'vp'.
	*
	* NB: Returning false does not indicate error!
	*/
	bool maybeGetElement(uint32_t i, MutableHandleValue vp) {
	if (i >= initialLength() \|\| isElementDeleted(i))
	return false;
	vp.set(element(i));
	return true;
	}

	inline bool maybeGetElements(uint32_t start, uint32_t count, js::Value* vp);

	/*
	* Measures things hanging off this ArgumentsObject that are counted by the
	* \|miscSize\| argument in JSObject::sizeOfExcludingThis().
	*/
	size_t sizeOfMisc(mozilla::MallocSizeOf mallocSizeOf) const {
	return mallocSizeOf(data());
	}
	size_t sizeOfData() const {
	return data()->dataBytes;
	}

	static void finalize(FreeOp* fop, JSObject* obj);
	static void trace(JSTracer* trc, JSObject* obj);
	static size_t objectMovedDuringMinorGC(JSTracer* trc, JSObject* dst, JSObject* src);

	/* For jit use: */
	static size_t getDataSlotOffset() {
	return getFixedSlotOffset(DATA_SLOT);
	}
	static size_t getInitialLengthSlotOffset() {
	return getFixedSlotOffset(INITIAL_LENGTH_SLOT);
	}

	static Value MagicScopeSlotValue(uint32_t slot) {
	// When forwarding slots to a backing CallObject, the slot numbers are
	// stored as uint32 magic values. This raises an ambiguity if we have
	// also copied JS_OPTIMIZED_OUT magic from a JIT frame or
	// JS_UNINITIALIZED_LEXICAL magic on the CallObject. To distinguish
	// normal magic values (those with a JSWhyMagic) and uint32 magic
	// values, we add the maximum JSWhyMagic value to the slot
	// number. This is safe as ARGS_LENGTH_MAX is well below UINT32_MAX.
	JS_STATIC_ASSERT(UINT32_MAX - JS_WHY_MAGIC_COUNT > ARGS_LENGTH_MAX);
	return JS::MagicValueUint32(slot + JS_WHY_MAGIC_COUNT);
	}
	static uint32_t SlotFromMagicScopeSlotValue(const Value& v) {
	JS_STATIC_ASSERT(UINT32_MAX - JS_WHY_MAGIC_COUNT > ARGS_LENGTH_MAX);
	return v.magicUint32() - JS_WHY_MAGIC_COUNT;
	}
	static bool IsMagicScopeSlotValue(const Value& v) {
	return v.isMagic() && v.magicUint32() > JS_WHY_MAGIC_COUNT;
	}

	static void MaybeForwardToCallObject(AbstractFramePtr frame, ArgumentsObject* obj,
	ArgumentsData* data);
	static void MaybeForwardToCallObject(jit::JitFrameLayout* frame, HandleObject callObj,
	ArgumentsObject* obj, ArgumentsData* data);
	};

	class MappedArgumentsObject : public ArgumentsObject
	{
	public:
	static const Class class_;

	/*
	* Stores arguments.callee, or MagicValue(JS_ARGS_HOLE) if the callee has
	* been cleared.
	*/
	const js::Value& callee() const {
	return data()->callee;
	}

	/* Clear the location storing arguments.callee's initial value. */
	void clearCallee() {
	data()->callee = MagicValue(JS_OVERWRITTEN_CALLEE);
	}

	private:
	static bool obj_enumerate(JSContext* cx, HandleObject obj);
	static bool obj_resolve(JSContext* cx, HandleObject obj, HandleId id, bool* resolvedp);
	};

	class UnmappedArgumentsObject : public ArgumentsObject
	{
	public:
	static const Class class_;

	private:
	static bool obj_enumerate(JSContext* cx, HandleObject obj);
	static bool obj_resolve(JSContext* cx, HandleObject obj, HandleId id, bool* resolvedp);
	};

	} // namespace js

	template<>
	inline bool
	JSObject::is<js::ArgumentsObject>() const
	{
	return is<js::MappedArgumentsObject>() \|\| is<js::UnmappedArgumentsObject>();
	}

	#endif /* vm_ArgumentsObject_h */