src/third_party/mozjs/js/src/jsfun.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 jsfun_h
 #define jsfun_h
 /*
  * JS function definitions.
  */
 #include "jsprvtd.h"
 #include "jsobj.h"

 #include "gc/Barrier.h"

 namespace js { class FunctionExtended; }

 class JSFunction : public JSObject
 {
   public:
     static js::Class class_;

     enum Flags {
         INTERPRETED      = 0x0001,  /* function has a JSScript and environment. */
         NATIVE_CTOR      = 0x0002,  /* native that can be called as a constructor */
         EXTENDED         = 0x0004,  /* structure is FunctionExtended */
         IS_FUN_PROTO     = 0x0010,  /* function is Function.prototype for some global object */
         EXPR_CLOSURE     = 0x0020,  /* expression closure: function(x) x*x */
         HAS_GUESSED_ATOM = 0x0040,  /* function had no explicit name, but a
                                        name was guessed for it anyway */
         LAMBDA           = 0x0080,  /* function comes from a FunctionExpression, ArrowFunction, or
                                        Function() call (not a FunctionDeclaration or nonstandard
                                        function-statement) */
         SELF_HOSTED      = 0x0100,  /* function is self-hosted builtin and must not be
                                        decompilable nor constructible. */
         SELF_HOSTED_CTOR = 0x0200,  /* function is self-hosted builtin constructor and
                                        must be constructible but not decompilable. */
         HAS_REST         = 0x0400,  /* function has a rest (...) parameter */
         HAS_DEFAULTS     = 0x0800,  /* function has at least one default parameter */
         INTERPRETED_LAZY = 0x1000,  /* function is interpreted but doesn't have a script yet */
         ARROW            = 0x2000,  /* ES6 '(args) => body' syntax */
         SH_WRAPPABLE     = 0x4000,  /* self-hosted function is wrappable, doesn't need to be cloned */

         /* Derived Flags values for convenience: */
         NATIVE_FUN = 0,
         INTERPRETED_LAMBDA = INTERPRETED | LAMBDA,
         INTERPRETED_LAMBDA_ARROW = INTERPRETED | LAMBDA | ARROW
     };

     static void staticAsserts() {
         JS_STATIC_ASSERT(INTERPRETED == JS_FUNCTION_INTERPRETED_BIT);
         MOZ_STATIC_ASSERT(sizeof(JSFunction) == sizeof(js::shadow::Function),
                           "shadow interface must match actual interface");
     }

     uint16_t        nargs;        /* maximum number of specified arguments,
                                      reflected as f.length/f.arity */
     uint16_t        flags;        /* bitfield composed of the above Flags enum */
     union U {
         class Native {
             friend class JSFunction;
             js::Native          native;       /* native method pointer or null */
             const JSJitInfo     *jitinfo;     /* Information about this function to be
                                                  used by the JIT;
                                                  use the accessor! */
         } n;
         struct Scripted {
             union {
                 JSScript *script_; /* interpreted bytecode descriptor or null;
                                       use the accessor! */
                 js::LazyScript *lazy_; /* lazily compiled script, or NULL */
             } s;
             JSObject    *env_;    /* environment for new activations;
                                      use the accessor! */
         } i;
         void            *nativeOrScript;
     } u;
   private:
     js::HeapPtrAtom  atom_;       /* name for diagnostics and decompiling */

   public:

     /* Call objects must be created for each invocation of a heavyweight function. */
     inline bool isHeavyweight() const;

     /* A function can be classified as either native (C++) or interpreted (JS): */
     bool isInterpreted()            const { return flags & (INTERPRETED | INTERPRETED_LAZY); }
     bool isNative()                 const { return !isInterpreted(); }

     /* Possible attributes of a native function: */
     bool isNativeConstructor()      const { return flags & NATIVE_CTOR; }

     /* Possible attributes of an interpreted function: */
     bool isFunctionPrototype()      const { return flags & IS_FUN_PROTO; }
     bool isInterpretedLazy()        const { return flags & INTERPRETED_LAZY; }
     bool hasScript()                const { return flags & INTERPRETED; }
     bool isExprClosure()            const { return flags & EXPR_CLOSURE; }
     bool hasGuessedAtom()           const { return flags & HAS_GUESSED_ATOM; }
     bool isLambda()                 const { return flags & LAMBDA; }
     bool isSelfHostedBuiltin()      const { return flags & SELF_HOSTED; }
     bool isSelfHostedConstructor()  const { return flags & SELF_HOSTED_CTOR; }
     bool hasRest()                  const { return flags & HAS_REST; }
     bool hasDefaults()              const { return flags & HAS_DEFAULTS; }
     bool isWrappable()              const {
         JS_ASSERT_IF(flags & SH_WRAPPABLE, isSelfHostedBuiltin());
         return flags & SH_WRAPPABLE;
     }

     // Arrow functions are a little weird.
     //
     // Like all functions, (1) when the compiler parses an arrow function, it
     // creates a function object that gets stored with the enclosing script;
     // and (2) at run time the script's function object is cloned.
     //
     // But then, unlike other functions, (3) a bound function is created with
     // the clone as its target.
     //
     // isArrow() is true for all three of these Function objects.
     // isBoundFunction() is true only for the last one.
     bool isArrow()                  const { return flags & ARROW; }

     /* Compound attributes: */
     bool isBuiltin() const {
         return isNative() || isSelfHostedBuiltin();
     }
     bool isInterpretedConstructor() const {
         return isInterpreted() && !isFunctionPrototype() &&
                (!isSelfHostedBuiltin() || isSelfHostedConstructor());
     }
     bool isNamedLambda()     const {
         return isLambda() && atom_ && !hasGuessedAtom();
     }

     /* Returns the strictness of this function, which must be interpreted. */
     inline bool strict() const;

     // Can be called multiple times by the parser.
     void setArgCount(uint16_t nargs) {
         this->nargs = nargs;
     }

     // Can be called multiple times by the parser.
     void setHasRest() {
         flags |= HAS_REST;
     }

     // Can be called multiple times by the parser.
     void setHasDefaults() {
         flags |= HAS_DEFAULTS;
     }

     void setIsSelfHostedBuiltin() {
         JS_ASSERT(!isSelfHostedBuiltin());
         flags |= SELF_HOSTED;
     }

     void setIsSelfHostedConstructor() {
         JS_ASSERT(!isSelfHostedConstructor());
         flags |= SELF_HOSTED_CTOR;
     }

     void makeWrappable() {
         JS_ASSERT(isSelfHostedBuiltin());
         JS_ASSERT(!isWrappable());
         flags |= SH_WRAPPABLE;
     }

     void setIsFunctionPrototype() {
         JS_ASSERT(!isFunctionPrototype());
         flags |= IS_FUN_PROTO;
     }

     // Can be called multiple times by the parser.
     void setIsExprClosure() {
         flags |= EXPR_CLOSURE;
     }

     JSAtom *atom() const { return hasGuessedAtom() ? NULL : atom_.get(); }
     js::PropertyName *name() const { return hasGuessedAtom() || !atom_ ? NULL : atom_->asPropertyName(); }
     inline void initAtom(JSAtom *atom);
     JSAtom *displayAtom() const { return atom_; }

     inline void setGuessedAtom(JSAtom *atom);

     /* uint16_t representation bounds number of call object dynamic slots. */
     enum { MAX_ARGS_AND_VARS = 2 * ((1U << 16) - 1) };

     /*
      * For an interpreted function, accessors for the initial scope object of
      * activations (stack frames) of the function.
      */
     inline JSObject *environment() const;
     inline void setEnvironment(JSObject *obj);
     inline void initEnvironment(JSObject *obj);

     static inline size_t offsetOfEnvironment() { return offsetof(JSFunction, u.i.env_); }
     static inline size_t offsetOfAtom() { return offsetof(JSFunction, atom_); }
 #if defined(JS_CPU_MIPS)
     static inline size_t offsetOfNargs() { return offsetof(JSFunction, nargs); }
     static inline size_t offsetOfFlags() { return offsetof(JSFunction, flags); }
 #endif

     static bool createScriptForLazilyInterpretedFunction(JSContext *cx, js::HandleFunction fun);

     // Function Scripts
     //
     // Interpreted functions may either have an explicit JSScript (hasScript())
     // or be lazy with sufficient information to construct the JSScript if
     // necessary (isInterpretedLazy()).
     //
     // A lazy function will have a LazyScript if the function came from parsed
     // source, or NULL if the function is a clone of a self hosted function.
     //
     // There are several methods to get the script of an interpreted function:
     //
     // - For all interpreted functions, getOrCreateScript() will get the
     //   JSScript, delazifying the function if necessary. This is the safest to
     //   use, but has extra checks, requires a cx and may trigger a GC.
     //
     // - For functions which may have a LazyScript but whose JSScript is known
     //   to exist, existingScript() will get the script and delazify the
     //   function if necessary.
     //
     // - For functions known to have a JSScript, nonLazyScript() will get it.

     JSScript *getOrCreateScript(JSContext *cx) {
         JS_ASSERT(isInterpreted());
         JS_ASSERT(cx);
         if (isInterpretedLazy()) {
             JS::RootedFunction self(cx, this);
             if (!createScriptForLazilyInterpretedFunction(cx, self))
                 return NULL;
             JS_ASSERT(self->hasScript());
             return self->u.i.s.script_;
         }
         JS_ASSERT(hasScript());
         return u.i.s.script_;
     }

     inline JSScript *existingScript();

     inline JSScript* existingScriptForInlinedFunction();

     JSScript *nonLazyScript() const {
         JS_ASSERT(hasScript());
         return JS::HandleScript::fromMarkedLocation(&u.i.s.script_);
     }

     js::HeapPtrScript &mutableScript() {
         JS_ASSERT(isInterpreted());
         return *(js::HeapPtrScript *)&u.i.s.script_;
     }

     js::LazyScript *lazyScript() const {
         JS_ASSERT(isInterpretedLazy() && u.i.s.lazy_);
         return u.i.s.lazy_;
     }

     js::LazyScript *lazyScriptOrNull() const {
         JS_ASSERT(isInterpretedLazy());
         return u.i.s.lazy_;
     }

     inline void setScript(JSScript *script_);
     inline void initScript(JSScript *script_);
     inline void initLazyScript(js::LazyScript *script);

     JSNative native() const {
         JS_ASSERT(isNative());
         return u.n.native;
     }

     JSNative maybeNative() const {
         return isInterpreted() ? NULL : native();
     }

     inline void initNative(js::Native native, const JSJitInfo *jitinfo);
     inline const JSJitInfo *jitInfo() const;
     inline void setJitInfo(const JSJitInfo *data);

     static unsigned offsetOfNativeOrScript() {
         JS_STATIC_ASSERT(offsetof(U, n.native) == offsetof(U, i.s.script_));
         JS_STATIC_ASSERT(offsetof(U, n.native) == offsetof(U, nativeOrScript));
         return offsetof(JSFunction, u.nativeOrScript);
     }

 #if JS_BITS_PER_WORD == 32
     static const js::gc::AllocKind FinalizeKind = js::gc::FINALIZE_OBJECT2_BACKGROUND;
     static const js::gc::AllocKind ExtendedFinalizeKind = js::gc::FINALIZE_OBJECT4_BACKGROUND;
 #else
     static const js::gc::AllocKind FinalizeKind = js::gc::FINALIZE_OBJECT4_BACKGROUND;
     static const js::gc::AllocKind ExtendedFinalizeKind = js::gc::FINALIZE_OBJECT8_BACKGROUND;
 #endif

     inline void trace(JSTracer *trc);

     /* Bound function accessors. */

     inline bool initBoundFunction(JSContext *cx, js::HandleValue thisArg,
                                   const js::Value *args, unsigned argslen);

     inline JSObject *getBoundFunctionTarget() const;
     inline const js::Value &getBoundFunctionThis() const;
     inline const js::Value &getBoundFunctionArgument(unsigned which) const;
     inline size_t getBoundFunctionArgumentCount() const;

   private:
     inline js::FunctionExtended *toExtended();
     inline const js::FunctionExtended *toExtended() const;

   public:
     inline bool isExtended() const {
         JS_STATIC_ASSERT(FinalizeKind != ExtendedFinalizeKind);
         JS_ASSERT_IF(isTenured(), !!(flags & EXTENDED) == (tenuredGetAllocKind() == ExtendedFinalizeKind));
         return !!(flags & EXTENDED);
     }

     /*
      * Accessors for data stored in extended functions. Use setExtendedSlot if
      * the function has already been initialized. Otherwise use
      * initExtendedSlot.
      */
     inline void initializeExtended();
     inline void initExtendedSlot(size_t which, const js::Value &val);
     inline void setExtendedSlot(size_t which, const js::Value &val);
     inline const js::Value &getExtendedSlot(size_t which) const;

     /* Constructs a new type for the function if necessary. */
     static bool setTypeForScriptedFunction(JSContext *cx, js::HandleFunction fun,
                                            bool singleton = false);

     /* GC support. */
     js::gc::AllocKind getAllocKind() const {
         js::gc::AllocKind kind = FinalizeKind;
         if (isExtended())
             kind = ExtendedFinalizeKind;
         JS_ASSERT_IF(isTenured(), kind == tenuredGetAllocKind());
         return kind;
     }
 };

 extern JSString *
 fun_toStringHelper(JSContext *cx, js::HandleObject obj, unsigned indent);

 inline JSFunction::Flags
 JSAPIToJSFunctionFlags(unsigned flags)
 {
     return (flags & JSFUN_CONSTRUCTOR)
            ? JSFunction::NATIVE_CTOR
            : JSFunction::NATIVE_FUN;
 }

 namespace js {

 extern JSFunction *
 NewFunction(JSContext *cx, HandleObject funobj, JSNative native, unsigned nargs,
             JSFunction::Flags flags, HandleObject parent, HandleAtom atom,
             gc::AllocKind allocKind = JSFunction::FinalizeKind,
             NewObjectKind newKind = GenericObject);

 extern JSFunction *
 DefineFunction(JSContext *cx, HandleObject obj, HandleId id, JSNative native,
                unsigned nargs, unsigned flags,
                gc::AllocKind allocKind = JSFunction::FinalizeKind,
                NewObjectKind newKind = GenericObject);

 /*
  * Function extended with reserved slots for use by various kinds of functions.
  * Most functions do not have these extensions, but enough do that efficient
  * storage is required (no malloc'ed reserved slots).
  */
 class FunctionExtended : public JSFunction
 {
   public:
     static const unsigned NUM_EXTENDED_SLOTS = 2;

   private:
     friend class JSFunction;

     /* Reserved slots available for storage by particular native functions. */
     HeapValue extendedSlots[NUM_EXTENDED_SLOTS];
 };

 extern JSFunction *
 CloneFunctionObject(JSContext *cx, HandleFunction fun, HandleObject parent,
                     gc::AllocKind kind = JSFunction::FinalizeKind,
                     NewObjectKind newKindArg = GenericObject);

 } // namespace js

 inline js::FunctionExtended *
 JSFunction::toExtended()
 {
     JS_ASSERT(isExtended());
     return static_cast<js::FunctionExtended *>(this);
 }

 inline const js::FunctionExtended *
 JSFunction::toExtended() const
 {
     JS_ASSERT(isExtended());
     return static_cast<const js::FunctionExtended *>(this);
 }

 namespace js {

 JSString *FunctionToString(JSContext *cx, HandleFunction fun, bool bodyOnly, bool lambdaParen);

 template<XDRMode mode>
 bool
 XDRInterpretedFunction(XDRState<mode> *xdr, HandleObject enclosingScope,
                        HandleScript enclosingScript, MutableHandleObject objp);

 extern JSObject *
 CloneFunctionAndScript(JSContext *cx, HandleObject enclosingScope, HandleFunction fun);

 /*
  * Report an error that call.thisv is not compatible with the specified class,
  * assuming that the method (clasp->name).prototype.<name of callee function>
  * is what was called.
  */
 extern void
 ReportIncompatibleMethod(JSContext *cx, CallReceiver call, Class *clasp);

 /*
  * Report an error that call.thisv is not an acceptable this for the callee
  * function.
  */
 extern void
 ReportIncompatible(JSContext *cx, CallReceiver call);

 JSBool
 CallOrConstructBoundFunction(JSContext *, unsigned, js::Value *);

 extern const JSFunctionSpec function_methods[];

 } /* namespace js */

 extern JSBool
 js_fun_apply(JSContext *cx, unsigned argc, js::Value *vp);

 extern JSBool
 js_fun_call(JSContext *cx, unsigned argc, js::Value *vp);

 extern JSObject*
 js_fun_bind(JSContext *cx, js::HandleObject target, js::HandleValue thisArg,
             js::Value *boundArgs, unsigned argslen);

 #endif /* jsfun_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 jsfun_h
	#define jsfun_h
	/*
	* JS function definitions.
	*/
	#include "jsprvtd.h"
	#include "jsobj.h"

	#include "gc/Barrier.h"

	namespace js { class FunctionExtended; }

	class JSFunction : public JSObject
	{
	public:
	static js::Class class_;

	enum Flags {
	INTERPRETED = 0x0001, /* function has a JSScript and environment. */
	NATIVE_CTOR = 0x0002, /* native that can be called as a constructor */
	EXTENDED = 0x0004, /* structure is FunctionExtended */
	IS_FUN_PROTO = 0x0010, /* function is Function.prototype for some global object */
	EXPR_CLOSURE = 0x0020, /* expression closure: function(x) xx /
	HAS_GUESSED_ATOM = 0x0040, /* function had no explicit name, but a
	name was guessed for it anyway */
	LAMBDA = 0x0080, /* function comes from a FunctionExpression, ArrowFunction, or
	Function() call (not a FunctionDeclaration or nonstandard
	function-statement) */
	SELF_HOSTED = 0x0100, /* function is self-hosted builtin and must not be
	decompilable nor constructible. */
	SELF_HOSTED_CTOR = 0x0200, /* function is self-hosted builtin constructor and
	must be constructible but not decompilable. */
	HAS_REST = 0x0400, /* function has a rest (...) parameter */
	HAS_DEFAULTS = 0x0800, /* function has at least one default parameter */
	INTERPRETED_LAZY = 0x1000, /* function is interpreted but doesn't have a script yet */
	ARROW = 0x2000, /* ES6 '(args) => body' syntax */
	SH_WRAPPABLE = 0x4000, /* self-hosted function is wrappable, doesn't need to be cloned */

	/* Derived Flags values for convenience: */
	NATIVE_FUN = 0,
	INTERPRETED_LAMBDA = INTERPRETED \| LAMBDA,
	INTERPRETED_LAMBDA_ARROW = INTERPRETED \| LAMBDA \| ARROW
	};

	static void staticAsserts() {
	JS_STATIC_ASSERT(INTERPRETED == JS_FUNCTION_INTERPRETED_BIT);
	MOZ_STATIC_ASSERT(sizeof(JSFunction) == sizeof(js::shadow::Function),
	"shadow interface must match actual interface");
	}

	uint16_t nargs; /* maximum number of specified arguments,
	reflected as f.length/f.arity */
	uint16_t flags; /* bitfield composed of the above Flags enum */
	union U {
	class Native {
	friend class JSFunction;
	js::Native native; /* native method pointer or null */
	const JSJitInfo jitinfo; / Information about this function to be
	used by the JIT;
	use the accessor! */
	} n;
	struct Scripted {
	union {
	JSScript script_; / interpreted bytecode descriptor or null;
	use the accessor! */
	js::LazyScript lazy_; / lazily compiled script, or NULL */
	} s;
	JSObject env_; / environment for new activations;
	use the accessor! */
	} i;
	void *nativeOrScript;
	} u;
	private:
	js::HeapPtrAtom atom_; /* name for diagnostics and decompiling */

	public:

	/* Call objects must be created for each invocation of a heavyweight function. */
	inline bool isHeavyweight() const;

	/* A function can be classified as either native (C++) or interpreted (JS): */
	bool isInterpreted() const { return flags & (INTERPRETED \| INTERPRETED_LAZY); }
	bool isNative() const { return !isInterpreted(); }

	/* Possible attributes of a native function: */
	bool isNativeConstructor() const { return flags & NATIVE_CTOR; }

	/* Possible attributes of an interpreted function: */
	bool isFunctionPrototype() const { return flags & IS_FUN_PROTO; }
	bool isInterpretedLazy() const { return flags & INTERPRETED_LAZY; }
	bool hasScript() const { return flags & INTERPRETED; }
	bool isExprClosure() const { return flags & EXPR_CLOSURE; }
	bool hasGuessedAtom() const { return flags & HAS_GUESSED_ATOM; }
	bool isLambda() const { return flags & LAMBDA; }
	bool isSelfHostedBuiltin() const { return flags & SELF_HOSTED; }
	bool isSelfHostedConstructor() const { return flags & SELF_HOSTED_CTOR; }
	bool hasRest() const { return flags & HAS_REST; }
	bool hasDefaults() const { return flags & HAS_DEFAULTS; }
	bool isWrappable() const {
	JS_ASSERT_IF(flags & SH_WRAPPABLE, isSelfHostedBuiltin());
	return flags & SH_WRAPPABLE;
	}

	// Arrow functions are a little weird.
	//
	// Like all functions, (1) when the compiler parses an arrow function, it
	// creates a function object that gets stored with the enclosing script;
	// and (2) at run time the script's function object is cloned.
	//
	// But then, unlike other functions, (3) a bound function is created with
	// the clone as its target.
	//
	// isArrow() is true for all three of these Function objects.
	// isBoundFunction() is true only for the last one.
	bool isArrow() const { return flags & ARROW; }

	/* Compound attributes: */
	bool isBuiltin() const {
	return isNative() \|\| isSelfHostedBuiltin();
	}
	bool isInterpretedConstructor() const {
	return isInterpreted() && !isFunctionPrototype() &&
	(!isSelfHostedBuiltin() \|\| isSelfHostedConstructor());
	}
	bool isNamedLambda() const {
	return isLambda() && atom_ && !hasGuessedAtom();
	}

	/* Returns the strictness of this function, which must be interpreted. */
	inline bool strict() const;

	// Can be called multiple times by the parser.
	void setArgCount(uint16_t nargs) {
	this->nargs = nargs;
	}

	// Can be called multiple times by the parser.
	void setHasRest() {
	flags \|= HAS_REST;
	}

	// Can be called multiple times by the parser.
	void setHasDefaults() {
	flags \|= HAS_DEFAULTS;
	}

	void setIsSelfHostedBuiltin() {
	JS_ASSERT(!isSelfHostedBuiltin());
	flags \|= SELF_HOSTED;
	}

	void setIsSelfHostedConstructor() {
	JS_ASSERT(!isSelfHostedConstructor());
	flags \|= SELF_HOSTED_CTOR;
	}

	void makeWrappable() {
	JS_ASSERT(isSelfHostedBuiltin());
	JS_ASSERT(!isWrappable());
	flags \|= SH_WRAPPABLE;
	}

	void setIsFunctionPrototype() {
	JS_ASSERT(!isFunctionPrototype());
	flags \|= IS_FUN_PROTO;
	}

	// Can be called multiple times by the parser.
	void setIsExprClosure() {
	flags \|= EXPR_CLOSURE;
	}

	JSAtom *atom() const { return hasGuessedAtom() ? NULL : atom_.get(); }
	js::PropertyName *name() const { return hasGuessedAtom() \|\| !atom_ ? NULL : atom_->asPropertyName(); }
	inline void initAtom(JSAtom *atom);
	JSAtom *displayAtom() const { return atom_; }

	inline void setGuessedAtom(JSAtom *atom);

	/* uint16_t representation bounds number of call object dynamic slots. */
	enum { MAX_ARGS_AND_VARS = 2 * ((1U << 16) - 1) };

	/*
	* For an interpreted function, accessors for the initial scope object of
	* activations (stack frames) of the function.
	*/
	inline JSObject *environment() const;
	inline void setEnvironment(JSObject *obj);
	inline void initEnvironment(JSObject *obj);

	static inline size_t offsetOfEnvironment() { return offsetof(JSFunction, u.i.env_); }
	static inline size_t offsetOfAtom() { return offsetof(JSFunction, atom_); }
	#if defined(JS_CPU_MIPS)
	static inline size_t offsetOfNargs() { return offsetof(JSFunction, nargs); }
	static inline size_t offsetOfFlags() { return offsetof(JSFunction, flags); }
	#endif

	static bool createScriptForLazilyInterpretedFunction(JSContext *cx, js::HandleFunction fun);

	// Function Scripts
	//
	// Interpreted functions may either have an explicit JSScript (hasScript())
	// or be lazy with sufficient information to construct the JSScript if
	// necessary (isInterpretedLazy()).
	//
	// A lazy function will have a LazyScript if the function came from parsed
	// source, or NULL if the function is a clone of a self hosted function.
	//
	// There are several methods to get the script of an interpreted function:
	//
	// - For all interpreted functions, getOrCreateScript() will get the
	// JSScript, delazifying the function if necessary. This is the safest to
	// use, but has extra checks, requires a cx and may trigger a GC.
	//
	// - For functions which may have a LazyScript but whose JSScript is known
	// to exist, existingScript() will get the script and delazify the
	// function if necessary.
	//
	// - For functions known to have a JSScript, nonLazyScript() will get it.

	JSScript getOrCreateScript(JSContext cx) {
	JS_ASSERT(isInterpreted());
	JS_ASSERT(cx);
	if (isInterpretedLazy()) {
	JS::RootedFunction self(cx, this);
	if (!createScriptForLazilyInterpretedFunction(cx, self))
	return NULL;
	JS_ASSERT(self->hasScript());
	return self->u.i.s.script_;
	}
	JS_ASSERT(hasScript());
	return u.i.s.script_;
	}

	inline JSScript *existingScript();

	inline JSScript* existingScriptForInlinedFunction();

	JSScript *nonLazyScript() const {
	JS_ASSERT(hasScript());
	return JS::HandleScript::fromMarkedLocation(&u.i.s.script_);
	}

	js::HeapPtrScript &mutableScript() {
	JS_ASSERT(isInterpreted());
	return (js::HeapPtrScript )&u.i.s.script_;
	}

	js::LazyScript *lazyScript() const {
	JS_ASSERT(isInterpretedLazy() && u.i.s.lazy_);
	return u.i.s.lazy_;
	}

	js::LazyScript *lazyScriptOrNull() const {
	JS_ASSERT(isInterpretedLazy());
	return u.i.s.lazy_;
	}

	inline void setScript(JSScript *script_);
	inline void initScript(JSScript *script_);
	inline void initLazyScript(js::LazyScript *script);

	JSNative native() const {
	JS_ASSERT(isNative());
	return u.n.native;
	}

	JSNative maybeNative() const {
	return isInterpreted() ? NULL : native();
	}

	inline void initNative(js::Native native, const JSJitInfo *jitinfo);
	inline const JSJitInfo *jitInfo() const;
	inline void setJitInfo(const JSJitInfo *data);

	static unsigned offsetOfNativeOrScript() {
	JS_STATIC_ASSERT(offsetof(U, n.native) == offsetof(U, i.s.script_));
	JS_STATIC_ASSERT(offsetof(U, n.native) == offsetof(U, nativeOrScript));
	return offsetof(JSFunction, u.nativeOrScript);
	}

	#if JS_BITS_PER_WORD == 32
	static const js::gc::AllocKind FinalizeKind = js::gc::FINALIZE_OBJECT2_BACKGROUND;
	static const js::gc::AllocKind ExtendedFinalizeKind = js::gc::FINALIZE_OBJECT4_BACKGROUND;
	#else
	static const js::gc::AllocKind FinalizeKind = js::gc::FINALIZE_OBJECT4_BACKGROUND;
	static const js::gc::AllocKind ExtendedFinalizeKind = js::gc::FINALIZE_OBJECT8_BACKGROUND;
	#endif

	inline void trace(JSTracer *trc);

	/* Bound function accessors. */

	inline bool initBoundFunction(JSContext *cx, js::HandleValue thisArg,
	const js::Value *args, unsigned argslen);

	inline JSObject *getBoundFunctionTarget() const;
	inline const js::Value &getBoundFunctionThis() const;
	inline const js::Value &getBoundFunctionArgument(unsigned which) const;
	inline size_t getBoundFunctionArgumentCount() const;

	private:
	inline js::FunctionExtended *toExtended();
	inline const js::FunctionExtended *toExtended() const;

	public:
	inline bool isExtended() const {
	JS_STATIC_ASSERT(FinalizeKind != ExtendedFinalizeKind);
	JS_ASSERT_IF(isTenured(), !!(flags & EXTENDED) == (tenuredGetAllocKind() == ExtendedFinalizeKind));
	return !!(flags & EXTENDED);
	}

	/*
	* Accessors for data stored in extended functions. Use setExtendedSlot if
	* the function has already been initialized. Otherwise use
	* initExtendedSlot.
	*/
	inline void initializeExtended();
	inline void initExtendedSlot(size_t which, const js::Value &val);
	inline void setExtendedSlot(size_t which, const js::Value &val);
	inline const js::Value &getExtendedSlot(size_t which) const;

	/* Constructs a new type for the function if necessary. */
	static bool setTypeForScriptedFunction(JSContext *cx, js::HandleFunction fun,
	bool singleton = false);

	/* GC support. */
	js::gc::AllocKind getAllocKind() const {
	js::gc::AllocKind kind = FinalizeKind;
	if (isExtended())
	kind = ExtendedFinalizeKind;
	JS_ASSERT_IF(isTenured(), kind == tenuredGetAllocKind());
	return kind;
	}
	};

	extern JSString *
	fun_toStringHelper(JSContext *cx, js::HandleObject obj, unsigned indent);

	inline JSFunction::Flags
	JSAPIToJSFunctionFlags(unsigned flags)
	{
	return (flags & JSFUN_CONSTRUCTOR)
	? JSFunction::NATIVE_CTOR
	: JSFunction::NATIVE_FUN;
	}

	namespace js {

	extern JSFunction *
	NewFunction(JSContext *cx, HandleObject funobj, JSNative native, unsigned nargs,
	JSFunction::Flags flags, HandleObject parent, HandleAtom atom,
	gc::AllocKind allocKind = JSFunction::FinalizeKind,
	NewObjectKind newKind = GenericObject);

	extern JSFunction *
	DefineFunction(JSContext *cx, HandleObject obj, HandleId id, JSNative native,
	unsigned nargs, unsigned flags,
	gc::AllocKind allocKind = JSFunction::FinalizeKind,
	NewObjectKind newKind = GenericObject);

	/*
	* Function extended with reserved slots for use by various kinds of functions.
	* Most functions do not have these extensions, but enough do that efficient
	* storage is required (no malloc'ed reserved slots).
	*/
	class FunctionExtended : public JSFunction
	{
	public:
	static const unsigned NUM_EXTENDED_SLOTS = 2;

	private:
	friend class JSFunction;

	/* Reserved slots available for storage by particular native functions. */
	HeapValue extendedSlots[NUM_EXTENDED_SLOTS];
	};

	extern JSFunction *
	CloneFunctionObject(JSContext *cx, HandleFunction fun, HandleObject parent,
	gc::AllocKind kind = JSFunction::FinalizeKind,
	NewObjectKind newKindArg = GenericObject);

	} // namespace js

	inline js::FunctionExtended *
	JSFunction::toExtended()
	{
	JS_ASSERT(isExtended());
	return static_cast<js::FunctionExtended *>(this);
	}

	inline const js::FunctionExtended *
	JSFunction::toExtended() const
	{
	JS_ASSERT(isExtended());
	return static_cast<const js::FunctionExtended *>(this);
	}

	namespace js {

	JSString FunctionToString(JSContext cx, HandleFunction fun, bool bodyOnly, bool lambdaParen);

	template<XDRMode mode>
	bool
	XDRInterpretedFunction(XDRState<mode> *xdr, HandleObject enclosingScope,
	HandleScript enclosingScript, MutableHandleObject objp);

	extern JSObject *
	CloneFunctionAndScript(JSContext *cx, HandleObject enclosingScope, HandleFunction fun);

	/*
	* Report an error that call.thisv is not compatible with the specified class,
	* assuming that the method (clasp->name).prototype.<name of callee function>
	* is what was called.
	*/
	extern void
	ReportIncompatibleMethod(JSContext cx, CallReceiver call, Class clasp);

	/*
	* Report an error that call.thisv is not an acceptable this for the callee
	* function.
	*/
	extern void
	ReportIncompatible(JSContext *cx, CallReceiver call);

	JSBool
	CallOrConstructBoundFunction(JSContext , unsigned, js::Value );

	extern const JSFunctionSpec function_methods[];

	} /* namespace js */

	extern JSBool
	js_fun_apply(JSContext cx, unsigned argc, js::Value vp);

	extern JSBool
	js_fun_call(JSContext cx, unsigned argc, js::Value vp);

	extern JSObject*
	js_fun_bind(JSContext *cx, js::HandleObject target, js::HandleValue thisArg,
	js::Value *boundArgs, unsigned argslen);

	#endif /* jsfun_h */