src/third_party/mozjs-45/js/public/CallArgs.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/. */

 /*
  * Helper classes encapsulating access to the callee, |this| value, arguments,
  * and argument count for a function call.
  *
  * The intent of JS::CallArgs and JS::CallReceiver is that they be used to
  * encapsulate access to the un-abstracted |unsigned argc, Value* vp| arguments
  * to a function.  It's possible (albeit deprecated) to manually index into
  * |vp| to access the callee, |this|, and arguments of a function, and to set
  * its return value.  It's also possible to use the supported API of JS_CALLEE,
  * JS_THIS, JS_ARGV, JS_RVAL and JS_SET_RVAL to the same ends.  But neither API
  * has the error-handling or moving-GC correctness of CallArgs or CallReceiver.
  * New code should use CallArgs and CallReceiver instead whenever possible.
  *
  * The eventual plan is to change JSNative to take |const CallArgs&| directly,
  * for automatic assertion of correct use and to make calling functions more
  * efficient.  Embedders should start internally switching away from using
  * |argc| and |vp| directly, except to create a |CallArgs|.  Then, when an
  * eventual release making that change occurs, porting efforts will require
  * changing methods' signatures but won't require invasive changes to the
  * methods' implementations, potentially under time pressure.
  */

 #ifndef js_CallArgs_h
 #define js_CallArgs_h

 #include "mozilla/Assertions.h"
 #include "mozilla/Attributes.h"
 #include "mozilla/TypeTraits.h"

 #include "jstypes.h"

 #include "js/RootingAPI.h"
 #include "js/Value.h"

 /* Typedef for native functions called by the JS VM. */
 typedef bool
 (* JSNative)(JSContext* cx, unsigned argc, JS::Value* vp);

 /*
  * Compute |this| for the |vp| inside a JSNative, either boxing primitives or
  * replacing with the global object as necessary.
  *
  * This method will go away at some point: instead use |args.thisv()|.  If the
  * value is an object, no further work is required.  If that value is |null| or
  * |undefined|, use |JS_GetGlobalForObject| to compute the global object.  If
  * the value is some other primitive, use |JS_ValueToObject| to box it.
  */
 extern JS_PUBLIC_API(JS::Value)
 JS_ComputeThis(JSContext* cx, JS::Value* vp);

 namespace JS {

 extern JS_PUBLIC_DATA(const HandleValue) UndefinedHandleValue;

 /*
  * JS::CallReceiver encapsulates access to the callee, |this|, and eventual
  * return value for a function call.  The principal way to create a
  * CallReceiver is using JS::CallReceiverFromVp:
  *
  *   static bool
  *   FunctionReturningThis(JSContext* cx, unsigned argc, JS::Value* vp)
  *   {
  *       JS::CallReceiver rec = JS::CallReceiverFromVp(vp);
  *
  *       // Access to the callee must occur before accessing/setting
  *       // the return value.
  *       JSObject& callee = rec.callee();
  *       rec.rval().set(JS::ObjectValue(callee));
  *
  *       // callee() and calleev() will now assert.
  *
  *       // It's always fine to access thisv().
  *       HandleValue thisv = rec.thisv();
  *       rec.rval().set(thisv);
  *
  *       // As the return value was last set to |this|, returns |this|.
  *       return true;
  *   }
  *
  * A note on JS_ComputeThis and JS_THIS_OBJECT: these methods currently aren't
  * part of the CallReceiver interface.  We will likely add them at some point.
  * Until then, you should probably continue using |vp| directly for these two
  * cases.
  *
  * CallReceiver is exposed publicly and used internally.  Not all parts of its
  * public interface are meant to be used by embedders!  See inline comments to
  * for details.
  */

 namespace detail {

 #ifdef JS_DEBUG
 extern JS_PUBLIC_API(void)
 CheckIsValidConstructible(Value v);
 #endif

 enum UsedRval { IncludeUsedRval, NoUsedRval };

 template<UsedRval WantUsedRval>
 class MOZ_STACK_CLASS UsedRvalBase;

 template<>
 class MOZ_STACK_CLASS UsedRvalBase<IncludeUsedRval>
 {
   protected:
     mutable bool usedRval_;
     void setUsedRval() const { usedRval_ = true; }
     void clearUsedRval() const { usedRval_ = false; }
 };

 template<>
 class MOZ_STACK_CLASS UsedRvalBase<NoUsedRval>
 {
   protected:
     void setUsedRval() const {}
     void clearUsedRval() const {}
 };

 template<UsedRval WantUsedRval>
 class MOZ_STACK_CLASS CallReceiverBase : public UsedRvalBase<
 #ifdef JS_DEBUG
         WantUsedRval
 #else
         NoUsedRval
 #endif
     >
 {
   protected:
     Value* argv_;

   public:
     /*
      * Returns the function being called, as an object.  Must not be called
      * after rval() has been used!
      */
     JSObject& callee() const {
         MOZ_ASSERT(!this->usedRval_);
         return argv_[-2].toObject();
     }

     /*
      * Returns the function being called, as a value.  Must not be called after
      * rval() has been used!
      */
     HandleValue calleev() const {
         MOZ_ASSERT(!this->usedRval_);
         return HandleValue::fromMarkedLocation(&argv_[-2]);
     }

     /*
      * Returns the |this| value passed to the function.  This method must not
      * be called when the function is being called as a constructor via |new|.
      * The value may or may not be an object: it is the individual function's
      * responsibility to box the value if needed.
      */
     HandleValue thisv() const {
         // Some internal code uses thisv() in constructing cases, so don't do
         // this yet.
         // MOZ_ASSERT(!argv_[-1].isMagic(JS_IS_CONSTRUCTING));
         return HandleValue::fromMarkedLocation(&argv_[-1]);
     }

     Value computeThis(JSContext* cx) const {
         if (thisv().isObject())
             return thisv();

         return JS_ComputeThis(cx, base());
     }

     bool isConstructing() const {
 #ifdef JS_DEBUG
         if (this->usedRval_)
             CheckIsValidConstructible(calleev());
 #endif
         return argv_[-1].isMagic();
     }

     /*
      * Returns the currently-set return value.  The initial contents of this
      * value are unspecified.  Once this method has been called, callee() and
      * calleev() can no longer be used.  (If you're compiling against a debug
      * build of SpiderMonkey, these methods will assert to aid debugging.)
      *
      * If the method you're implementing succeeds by returning true, you *must*
      * set this.  (SpiderMonkey doesn't currently assert this, but it will do
      * so eventually.)  You don't need to use or change this if your method
      * fails.
      */
     MutableHandleValue rval() const {
         this->setUsedRval();
         return MutableHandleValue::fromMarkedLocation(&argv_[-2]);
     }

   public:
     // These methods are only intended for internal use.  Embedders shouldn't
     // use them!

     Value* base() const { return argv_ - 2; }

     Value* spAfterCall() const {
         this->setUsedRval();
         return argv_ - 1;
     }

   public:
     // These methods are publicly exposed, but they are *not* to be used when
     // implementing a JSNative method and encapsulating access to |vp| within
     // it.  You probably don't want to use these!

     void setCallee(Value aCalleev) const {
         this->clearUsedRval();
         argv_[-2] = aCalleev;
     }

     void setThis(Value aThisv) const {
         argv_[-1] = aThisv;
     }

     MutableHandleValue mutableThisv() const {
         return MutableHandleValue::fromMarkedLocation(&argv_[-1]);
     }
 };

 } // namespace detail

 class MOZ_STACK_CLASS CallReceiver : public detail::CallReceiverBase<detail::IncludeUsedRval>
 {
   private:
     friend CallReceiver CallReceiverFromVp(Value* vp);
     friend CallReceiver CallReceiverFromArgv(Value* argv);
 };

 MOZ_ALWAYS_INLINE CallReceiver
 CallReceiverFromArgv(Value* argv)
 {
     CallReceiver receiver;
     receiver.clearUsedRval();
     receiver.argv_ = argv;
     return receiver;
 }

 MOZ_ALWAYS_INLINE CallReceiver
 CallReceiverFromVp(Value* vp)
 {
     return CallReceiverFromArgv(vp + 2);
 }

 /*
  * JS::CallArgs encapsulates everything JS::CallReceiver does, plus access to
  * the function call's arguments.  The principal way to create a CallArgs is
  * like so, using JS::CallArgsFromVp:
  *
  *   static bool
  *   FunctionReturningArgcTimesArg0(JSContext* cx, unsigned argc, JS::Value* vp)
  *   {
  *       JS::CallArgs args = JS::CallArgsFromVp(argc, vp);
  *
  *       // Guard against no arguments or a non-numeric arg0.
  *       if (args.length() == 0 || !args[0].isNumber()) {
  *           args.rval().setInt32(0);
  *           return true;
  *       }
  *
  *       args.rval().set(JS::NumberValue(args.length() * args[0].toNumber()));
  *       return true;
  *   }
  *
  * CallArgs is exposed publicly and used internally.  Not all parts of its
  * public interface are meant to be used by embedders!  See inline comments to
  * for details.
  */
 namespace detail {

 template<UsedRval WantUsedRval>
 class MOZ_STACK_CLASS CallArgsBase :
         public mozilla::Conditional<WantUsedRval == detail::IncludeUsedRval,
                                     CallReceiver,
                                     CallReceiverBase<NoUsedRval> >::Type
 {
   protected:
     unsigned argc_;
     bool constructing_;

   public:
     /* Returns the number of arguments. */
     unsigned length() const { return argc_; }

     /* Returns the i-th zero-indexed argument. */
     MutableHandleValue operator[](unsigned i) const {
         MOZ_ASSERT(i < argc_);
         return MutableHandleValue::fromMarkedLocation(&this->argv_[i]);
     }

     /*
      * Returns the i-th zero-indexed argument, or |undefined| if there's no
      * such argument.
      */
     HandleValue get(unsigned i) const {
         return i < length()
                ? HandleValue::fromMarkedLocation(&this->argv_[i])
                : UndefinedHandleValue;
     }

     /*
      * Returns true if the i-th zero-indexed argument is present and is not
      * |undefined|.
      */
     bool hasDefined(unsigned i) const {
         return i < argc_ && !this->argv_[i].isUndefined();
     }

     MutableHandleValue newTarget() const {
         MOZ_ASSERT(constructing_);
         return MutableHandleValue::fromMarkedLocation(&this->argv_[argc_]);
     }

   public:
     // These methods are publicly exposed, but we're less sure of the interface
     // here than we'd like (because they're hackish and drop assertions).  Try
     // to avoid using these if you can.

     Value* array() const { return this->argv_; }
     Value* end() const { return this->argv_ + argc_ + constructing_; }
 };

 } // namespace detail

 class MOZ_STACK_CLASS CallArgs : public detail::CallArgsBase<detail::IncludeUsedRval>
 {
   private:
     friend CallArgs CallArgsFromVp(unsigned argc, Value* vp);
     friend CallArgs CallArgsFromSp(unsigned stackSlots, Value* sp, bool constructing);

     static CallArgs create(unsigned argc, Value* argv, bool constructing) {
         CallArgs args;
         args.clearUsedRval();
         args.argv_ = argv;
         args.argc_ = argc;
         args.constructing_ = constructing;
         return args;
     }

   public:
     /*
      * Returns true if there are at least |required| arguments passed in. If
      * false, it reports an error message on the context.
      */
     bool requireAtLeast(JSContext* cx, const char* fnname, unsigned required) const;

 };

 MOZ_ALWAYS_INLINE CallArgs
 CallArgsFromVp(unsigned argc, Value* vp)
 {
     return CallArgs::create(argc, vp + 2, vp[1].isMagic(JS_IS_CONSTRUCTING));
 }

 // This method is only intended for internal use in SpiderMonkey.  We may
 // eventually move it to an internal header.  Embedders should use
 // JS::CallArgsFromVp!
 MOZ_ALWAYS_INLINE CallArgs
 CallArgsFromSp(unsigned stackSlots, Value* sp, bool constructing = false)
 {
     return CallArgs::create(stackSlots - constructing, sp - stackSlots, constructing);
 }

 } // namespace JS

 /*
  * Macros to hide interpreter stack layout details from a JSNative using its
  * JS::Value* vp parameter.  DO NOT USE THESE!  Instead use JS::CallArgs and
  * friends, above.  These macros will be removed when we change JSNative to
  * take a const JS::CallArgs&.
  */

 #define JS_THIS_OBJECT(cx,vp)   (JS_THIS(cx,vp).toObjectOrNull())

 /*
  * Note: if this method returns null, an error has occurred and must be
  * propagated or caught.
  */
 MOZ_ALWAYS_INLINE JS::Value
 JS_THIS(JSContext* cx, JS::Value* vp)
 {
     return vp[1].isPrimitive() ? JS_ComputeThis(cx, vp) : vp[1];
 }

 /*
  * |this| is passed to functions in ES5 without change.  Functions themselves
  * do any post-processing they desire to box |this|, compute the global object,
  * &c.  This macro retrieves a function's unboxed |this| value.
  *
  * This macro must not be used in conjunction with JS_THIS or JS_THIS_OBJECT,
  * or vice versa.  Either use the provided this value with this macro, or
  * compute the boxed |this| value using those.  JS_THIS_VALUE must not be used
  * if the function is being called as a constructor.
  *
  * But: DO NOT USE THIS!  Instead use JS::CallArgs::thisv(), above.
  *
  */
 #define JS_THIS_VALUE(cx,vp)    ((vp)[1])

 #endif /* js_CallArgs_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/. */

	/*
	* Helper classes encapsulating access to the callee, \|this\| value, arguments,
	* and argument count for a function call.
	*
	* The intent of JS::CallArgs and JS::CallReceiver is that they be used to
	* encapsulate access to the un-abstracted \|unsigned argc, Value* vp\| arguments
	* to a function. It's possible (albeit deprecated) to manually index into
	* \|vp\| to access the callee, \|this\|, and arguments of a function, and to set
	* its return value. It's also possible to use the supported API of JS_CALLEE,
	* JS_THIS, JS_ARGV, JS_RVAL and JS_SET_RVAL to the same ends. But neither API
	* has the error-handling or moving-GC correctness of CallArgs or CallReceiver.
	* New code should use CallArgs and CallReceiver instead whenever possible.
	*
	* The eventual plan is to change JSNative to take \|const CallArgs&\| directly,
	* for automatic assertion of correct use and to make calling functions more
	* efficient. Embedders should start internally switching away from using
	* \|argc\| and \|vp\| directly, except to create a \|CallArgs\|. Then, when an
	* eventual release making that change occurs, porting efforts will require
	* changing methods' signatures but won't require invasive changes to the
	* methods' implementations, potentially under time pressure.
	*/

	#ifndef js_CallArgs_h
	#define js_CallArgs_h

	#include "mozilla/Assertions.h"
	#include "mozilla/Attributes.h"
	#include "mozilla/TypeTraits.h"

	#include "jstypes.h"

	#include "js/RootingAPI.h"
	#include "js/Value.h"

	/* Typedef for native functions called by the JS VM. */
	typedef bool
	(* JSNative)(JSContext* cx, unsigned argc, JS::Value* vp);

	/*
	* Compute \|this\| for the \|vp\| inside a JSNative, either boxing primitives or
	* replacing with the global object as necessary.
	*
	* This method will go away at some point: instead use \|args.thisv()\|. If the
	* value is an object, no further work is required. If that value is \|null\| or
	* \|undefined\|, use \|JS_GetGlobalForObject\| to compute the global object. If
	* the value is some other primitive, use \|JS_ValueToObject\| to box it.
	*/
	extern JS_PUBLIC_API(JS::Value)
	JS_ComputeThis(JSContext* cx, JS::Value* vp);

	namespace JS {

	extern JS_PUBLIC_DATA(const HandleValue) UndefinedHandleValue;

	/*
	* JS::CallReceiver encapsulates access to the callee, \|this\|, and eventual
	* return value for a function call. The principal way to create a
	* CallReceiver is using JS::CallReceiverFromVp:
	*
	* static bool
	* FunctionReturningThis(JSContext* cx, unsigned argc, JS::Value* vp)
	* {
	* JS::CallReceiver rec = JS::CallReceiverFromVp(vp);
	*
	* // Access to the callee must occur before accessing/setting
	* // the return value.
	* JSObject& callee = rec.callee();
	* rec.rval().set(JS::ObjectValue(callee));
	*
	* // callee() and calleev() will now assert.
	*
	* // It's always fine to access thisv().
	* HandleValue thisv = rec.thisv();
	* rec.rval().set(thisv);
	*
	* // As the return value was last set to \|this\|, returns \|this\|.
	* return true;
	* }
	*
	* A note on JS_ComputeThis and JS_THIS_OBJECT: these methods currently aren't
	* part of the CallReceiver interface. We will likely add them at some point.
	* Until then, you should probably continue using \|vp\| directly for these two
	* cases.
	*
	* CallReceiver is exposed publicly and used internally. Not all parts of its
	* public interface are meant to be used by embedders! See inline comments to
	* for details.
	*/

	namespace detail {

	#ifdef JS_DEBUG
	extern JS_PUBLIC_API(void)
	CheckIsValidConstructible(Value v);
	#endif

	enum UsedRval { IncludeUsedRval, NoUsedRval };

	template<UsedRval WantUsedRval>
	class MOZ_STACK_CLASS UsedRvalBase;

	template<>
	class MOZ_STACK_CLASS UsedRvalBase<IncludeUsedRval>
	{
	protected:
	mutable bool usedRval_;
	void setUsedRval() const { usedRval_ = true; }
	void clearUsedRval() const { usedRval_ = false; }
	};

	template<>
	class MOZ_STACK_CLASS UsedRvalBase<NoUsedRval>
	{
	protected:
	void setUsedRval() const {}
	void clearUsedRval() const {}
	};

	template<UsedRval WantUsedRval>
	class MOZ_STACK_CLASS CallReceiverBase : public UsedRvalBase<
	#ifdef JS_DEBUG
	WantUsedRval
	#else
	NoUsedRval
	#endif
	>
	{
	protected:
	Value* argv_;

	public:
	/*
	* Returns the function being called, as an object. Must not be called
	* after rval() has been used!
	*/
	JSObject& callee() const {
	MOZ_ASSERT(!this->usedRval_);
	return argv_[-2].toObject();
	}

	/*
	* Returns the function being called, as a value. Must not be called after
	* rval() has been used!
	*/
	HandleValue calleev() const {
	MOZ_ASSERT(!this->usedRval_);
	return HandleValue::fromMarkedLocation(&argv_[-2]);
	}

	/*
	* Returns the \|this\| value passed to the function. This method must not
	* be called when the function is being called as a constructor via \|new\|.
	* The value may or may not be an object: it is the individual function's
	* responsibility to box the value if needed.
	*/
	HandleValue thisv() const {
	// Some internal code uses thisv() in constructing cases, so don't do
	// this yet.
	// MOZ_ASSERT(!argv_[-1].isMagic(JS_IS_CONSTRUCTING));
	return HandleValue::fromMarkedLocation(&argv_[-1]);
	}

	Value computeThis(JSContext* cx) const {
	if (thisv().isObject())
	return thisv();

	return JS_ComputeThis(cx, base());
	}

	bool isConstructing() const {
	#ifdef JS_DEBUG
	if (this->usedRval_)
	CheckIsValidConstructible(calleev());
	#endif
	return argv_[-1].isMagic();
	}

	/*
	* Returns the currently-set return value. The initial contents of this
	* value are unspecified. Once this method has been called, callee() and
	* calleev() can no longer be used. (If you're compiling against a debug
	* build of SpiderMonkey, these methods will assert to aid debugging.)
	*
	* If the method you're implementing succeeds by returning true, you must
	* set this. (SpiderMonkey doesn't currently assert this, but it will do
	* so eventually.) You don't need to use or change this if your method
	* fails.
	*/
	MutableHandleValue rval() const {
	this->setUsedRval();
	return MutableHandleValue::fromMarkedLocation(&argv_[-2]);
	}

	public:
	// These methods are only intended for internal use. Embedders shouldn't
	// use them!

	Value* base() const { return argv_ - 2; }

	Value* spAfterCall() const {
	this->setUsedRval();
	return argv_ - 1;
	}

	public:
	// These methods are publicly exposed, but they are not to be used when
	// implementing a JSNative method and encapsulating access to \|vp\| within
	// it. You probably don't want to use these!

	void setCallee(Value aCalleev) const {
	this->clearUsedRval();
	argv_[-2] = aCalleev;
	}

	void setThis(Value aThisv) const {
	argv_[-1] = aThisv;
	}

	MutableHandleValue mutableThisv() const {
	return MutableHandleValue::fromMarkedLocation(&argv_[-1]);
	}
	};

	} // namespace detail

	class MOZ_STACK_CLASS CallReceiver : public detail::CallReceiverBase<detail::IncludeUsedRval>
	{
	private:
	friend CallReceiver CallReceiverFromVp(Value* vp);
	friend CallReceiver CallReceiverFromArgv(Value* argv);
	};

	MOZ_ALWAYS_INLINE CallReceiver
	CallReceiverFromArgv(Value* argv)
	{
	CallReceiver receiver;
	receiver.clearUsedRval();
	receiver.argv_ = argv;
	return receiver;
	}

	MOZ_ALWAYS_INLINE CallReceiver
	CallReceiverFromVp(Value* vp)
	{
	return CallReceiverFromArgv(vp + 2);
	}

	/*
	* JS::CallArgs encapsulates everything JS::CallReceiver does, plus access to
	* the function call's arguments. The principal way to create a CallArgs is
	* like so, using JS::CallArgsFromVp:
	*
	* static bool
	* FunctionReturningArgcTimesArg0(JSContext* cx, unsigned argc, JS::Value* vp)
	* {
	* JS::CallArgs args = JS::CallArgsFromVp(argc, vp);
	*
	* // Guard against no arguments or a non-numeric arg0.
	* if (args.length() == 0 \|\| !args[0].isNumber()) {
	* args.rval().setInt32(0);
	* return true;
	* }
	*
	* args.rval().set(JS::NumberValue(args.length() * args[0].toNumber()));
	* return true;
	* }
	*
	* CallArgs is exposed publicly and used internally. Not all parts of its
	* public interface are meant to be used by embedders! See inline comments to
	* for details.
	*/
	namespace detail {

	template<UsedRval WantUsedRval>
	class MOZ_STACK_CLASS CallArgsBase :
	public mozilla::Conditional<WantUsedRval == detail::IncludeUsedRval,
	CallReceiver,
	CallReceiverBase<NoUsedRval> >::Type
	{
	protected:
	unsigned argc_;
	bool constructing_;

	public:
	/* Returns the number of arguments. */
	unsigned length() const { return argc_; }

	/* Returns the i-th zero-indexed argument. */
	MutableHandleValue operator[](unsigned i) const {
	MOZ_ASSERT(i < argc_);
	return MutableHandleValue::fromMarkedLocation(&this->argv_[i]);
	}

	/*
	* Returns the i-th zero-indexed argument, or \|undefined\| if there's no
	* such argument.
	*/
	HandleValue get(unsigned i) const {
	return i < length()
	? HandleValue::fromMarkedLocation(&this->argv_[i])
	: UndefinedHandleValue;
	}

	/*
	* Returns true if the i-th zero-indexed argument is present and is not
	* \|undefined\|.
	*/
	bool hasDefined(unsigned i) const {
	return i < argc_ && !this->argv_[i].isUndefined();
	}

	MutableHandleValue newTarget() const {
	MOZ_ASSERT(constructing_);
	return MutableHandleValue::fromMarkedLocation(&this->argv_[argc_]);
	}

	public:
	// These methods are publicly exposed, but we're less sure of the interface
	// here than we'd like (because they're hackish and drop assertions). Try
	// to avoid using these if you can.

	Value* array() const { return this->argv_; }
	Value* end() const { return this->argv_ + argc_ + constructing_; }
	};

	} // namespace detail

	class MOZ_STACK_CLASS CallArgs : public detail::CallArgsBase<detail::IncludeUsedRval>
	{
	private:
	friend CallArgs CallArgsFromVp(unsigned argc, Value* vp);
	friend CallArgs CallArgsFromSp(unsigned stackSlots, Value* sp, bool constructing);

	static CallArgs create(unsigned argc, Value* argv, bool constructing) {
	CallArgs args;
	args.clearUsedRval();
	args.argv_ = argv;
	args.argc_ = argc;
	args.constructing_ = constructing;
	return args;
	}

	public:
	/*
	* Returns true if there are at least \|required\| arguments passed in. If
	* false, it reports an error message on the context.
	*/
	bool requireAtLeast(JSContext* cx, const char* fnname, unsigned required) const;

	};

	MOZ_ALWAYS_INLINE CallArgs
	CallArgsFromVp(unsigned argc, Value* vp)
	{
	return CallArgs::create(argc, vp + 2, vp[1].isMagic(JS_IS_CONSTRUCTING));
	}

	// This method is only intended for internal use in SpiderMonkey. We may
	// eventually move it to an internal header. Embedders should use
	// JS::CallArgsFromVp!
	MOZ_ALWAYS_INLINE CallArgs
	CallArgsFromSp(unsigned stackSlots, Value* sp, bool constructing = false)
	{
	return CallArgs::create(stackSlots - constructing, sp - stackSlots, constructing);
	}

	} // namespace JS

	/*
	* Macros to hide interpreter stack layout details from a JSNative using its
	* JS::Value* vp parameter. DO NOT USE THESE! Instead use JS::CallArgs and
	* friends, above. These macros will be removed when we change JSNative to
	* take a const JS::CallArgs&.
	*/

	#define JS_THIS_OBJECT(cx,vp) (JS_THIS(cx,vp).toObjectOrNull())

	/*
	* Note: if this method returns null, an error has occurred and must be
	* propagated or caught.
	*/
	MOZ_ALWAYS_INLINE JS::Value
	JS_THIS(JSContext* cx, JS::Value* vp)
	{
	return vp[1].isPrimitive() ? JS_ComputeThis(cx, vp) : vp[1];
	}

	/*
	* \|this\| is passed to functions in ES5 without change. Functions themselves
	* do any post-processing they desire to box \|this\|, compute the global object,
	* &c. This macro retrieves a function's unboxed \|this\| value.
	*
	* This macro must not be used in conjunction with JS_THIS or JS_THIS_OBJECT,
	* or vice versa. Either use the provided this value with this macro, or
	* compute the boxed \|this\| value using those. JS_THIS_VALUE must not be used
	* if the function is being called as a constructor.
	*
	* But: DO NOT USE THIS! Instead use JS::CallArgs::thisv(), above.
	*
	*/
	#define JS_THIS_VALUE(cx,vp) ((vp)[1])

	#endif /* js_CallArgs_h */