src/third_party/mozjs/js/src/jsiter.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 jsiter_h
 #define jsiter_h

 /*
  * JavaScript iterators.
  */
 #include "jscntxt.h"

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

 /*
  * For cacheable native iterators, whether the iterator is currently active.
  * Not serialized by XDR.
  */
 #define JSITER_ACTIVE       0x1000
 #define JSITER_UNREUSABLE   0x2000

 namespace js {

 struct NativeIterator
 {
     HeapPtrObject obj;                  // Object being iterated.
     JSObject *iterObj_;                 // Internal iterator object.
     HeapPtr<JSFlatString> *props_array;
     HeapPtr<JSFlatString> *props_cursor;
     HeapPtr<JSFlatString> *props_end;
     Shape **shapes_array;
     uint32_t shapes_length;
     uint32_t shapes_key;
     uint32_t flags;

   private:
     /* While in compartment->enumerators, these form a doubly linked list. */
     NativeIterator *next_;
     NativeIterator *prev_;

   public:
     bool isKeyIter() const {
         return (flags & JSITER_FOREACH) == 0;
     }

     inline HeapPtr<JSFlatString> *begin() const {
         return props_array;
     }

     inline HeapPtr<JSFlatString> *end() const {
         return props_end;
     }

     size_t numKeys() const {
         return end() - begin();
     }

     JSObject *iterObj() const {
         return iterObj_;
     }
     HeapPtr<JSFlatString> *current() const {
         JS_ASSERT(props_cursor < props_end);
         return props_cursor;
     }

     NativeIterator *next() {
         return next_;
     }

     static inline size_t offsetOfNext() {
         return offsetof(NativeIterator, next_);
     }
     static inline size_t offsetOfPrev() {
         return offsetof(NativeIterator, prev_);
     }

     void incCursor() {
         props_cursor = props_cursor + 1;
     }
     void link(NativeIterator *other) {
         /* A NativeIterator cannot appear in the enumerator list twice. */
         JS_ASSERT(!next_ && !prev_);
         JS_ASSERT(flags & JSITER_ENUMERATE);

         this->next_ = other;
         this->prev_ = other->prev_;
         other->prev_->next_ = this;
         other->prev_ = this;
     }
     void unlink() {
         JS_ASSERT(flags & JSITER_ENUMERATE);

         next_->prev_ = prev_;
         prev_->next_ = next_;
         next_ = NULL;
         prev_ = NULL;
     }

     static NativeIterator *allocateSentinel(JSContext *cx);
     static NativeIterator *allocateIterator(JSContext *cx, uint32_t slength,
                                             const js::AutoIdVector &props);
     void init(JSObject *obj, JSObject *iterObj, unsigned flags, uint32_t slength, uint32_t key);

     void mark(JSTracer *trc);

     static void destroy(NativeIterator *iter) {
         js_free(iter);
     }
 };

 class PropertyIteratorObject : public JSObject
 {
   public:
     static Class class_;

     inline NativeIterator *getNativeIterator() const;
     inline void setNativeIterator(js::NativeIterator *ni);

     size_t sizeOfMisc(JSMallocSizeOfFun mallocSizeOf) const;

   private:
     static void trace(JSTracer *trc, JSObject *obj);
     static void finalize(FreeOp *fop, JSObject *obj);
 };

 /*
  * Array iterators are roughly like this:
  *
  *   Array.prototype.iterator = function iterator() {
  *       for (var i = 0; i < (this.length >>> 0); i++)
  *           yield this[i];
  *   }
  *
  * However they are not generators. They are a different class. The semantics
  * of Array iterators will be given in the eventual ES6 spec in full detail.
  */
 class ElementIteratorObject : public JSObject
 {
   public:
     static Class class_;

     static JSObject *create(JSContext *cx, Handle<Value> target);
     static const JSFunctionSpec methods[];

     enum {
         TargetSlot,
         IndexSlot,
         NumSlots
     };

     static JSBool next(JSContext *cx, unsigned argc, Value *vp);
     static bool next_impl(JSContext *cx, JS::CallArgs args);
 };

 bool
 VectorToIdArray(JSContext *cx, AutoIdVector &props, JSIdArray **idap);

 bool
 GetIterator(JSContext *cx, HandleObject obj, unsigned flags, MutableHandleValue vp);

 JSObject *
 GetIteratorObject(JSContext *cx, HandleObject obj, unsigned flags);

 bool
 VectorToKeyIterator(JSContext *cx, HandleObject obj, unsigned flags, AutoIdVector &props,
                     MutableHandleValue vp);

 bool
 VectorToValueIterator(JSContext *cx, HandleObject obj, unsigned flags, AutoIdVector &props,
                       MutableHandleValue vp);

 /*
  * Creates either a key or value iterator, depending on flags. For a value
  * iterator, performs value-lookup to convert the given list of jsids.
  */
 bool
 EnumeratedIdVectorToIterator(JSContext *cx, HandleObject obj, unsigned flags, AutoIdVector &props,
                              MutableHandleValue vp);

 /*
  * Convert the value stored in *vp to its iteration object. The flags should
  * contain JSITER_ENUMERATE if js::ValueToIterator is called when enumerating
  * for-in semantics are required, and when the caller can guarantee that the
  * iterator will never be exposed to scripts.
  */
 bool
 ValueToIterator(JSContext *cx, unsigned flags, MutableHandleValue vp);

 bool
 CloseIterator(JSContext *cx, HandleObject iterObj);

 bool
 UnwindIteratorForException(JSContext *cx, js::HandleObject obj);

 void
 UnwindIteratorForUncatchableException(JSContext *cx, JSObject *obj);

 JSBool
 IteratorConstructor(JSContext *cx, unsigned argc, Value *vp);

 }

 extern bool
 js_SuppressDeletedProperty(JSContext *cx, js::HandleObject obj, jsid id);

 extern bool
 js_SuppressDeletedElement(JSContext *cx, js::HandleObject obj, uint32_t index);

 extern bool
 js_SuppressDeletedElements(JSContext *cx, js::HandleObject obj, uint32_t begin, uint32_t end);

 /*
  * IteratorMore() indicates whether another value is available. It might
  * internally call iterobj.next() and then cache the value until its
  * picked up by IteratorNext(). The value is cached in the current context.
  */
 extern bool
 js_IteratorMore(JSContext *cx, js::HandleObject iterobj, js::MutableHandleValue rval);

 extern bool
 js_IteratorNext(JSContext *cx, js::HandleObject iterobj, js::MutableHandleValue rval);

 extern JSBool
 js_ThrowStopIteration(JSContext *cx);

 namespace js {

 /*
  * Get the next value from an iterator object.
  *
  * On success, store the next value in *vp and return true; if there are no
  * more values, store the magic value JS_NO_ITER_VALUE in *vp and return true.
  */
 inline bool
 Next(JSContext *cx, HandleObject iter, MutableHandleValue vp)
 {
     if (!js_IteratorMore(cx, iter, vp))
         return false;
     if (vp.toBoolean())
         return js_IteratorNext(cx, iter, vp);
     vp.setMagic(JS_NO_ITER_VALUE);
     return true;
 }

 /*
  * Convenience class for imitating a JS level for-of loop. Typical usage:
  *
  *     ForOfIterator it(cx, iterable);
  *     while (it.next()) {
  *        if (!DoStuff(cx, it.value()))
  *            return false;
  *     }
  *     if (!it.close())
  *         return false;
  *
  * The final it.close() check is needed in order to check for cases where
  * any of the iterator operations fail.
  *
  * it.close() may be skipped only if something in the body of the loop fails
  * and the failure is allowed to propagate on cx, as in this example if DoStuff
  * fails. In that case, ForOfIterator's destructor does all necessary cleanup.
  */
 class ForOfIterator
 {
   private:
     JSContext *cx;
     RootedObject iterator;
     RootedValue currentValue;
     bool ok;
     bool closed;

     ForOfIterator(const ForOfIterator &) MOZ_DELETE;
     ForOfIterator &operator=(const ForOfIterator &) MOZ_DELETE;

   public:
     ForOfIterator(JSContext *cx, const Value &iterable)
         : cx(cx), iterator(cx, NULL), currentValue(cx), closed(false)
     {
         RootedValue iterv(cx, iterable);
         ok = ValueToIterator(cx, JSITER_FOR_OF, &iterv);
         iterator = ok ? &iterv.get().toObject() : NULL;
     }

     ~ForOfIterator() {
         if (!closed)
             close();
     }

     bool next() {
         JS_ASSERT(!closed);
         ok = ok && Next(cx, iterator, &currentValue);
         return ok && !currentValue.get().isMagic(JS_NO_ITER_VALUE);
     }

     Value &value() {
         JS_ASSERT(ok);
         JS_ASSERT(!closed);
         return currentValue.get();
     }

     bool close() {
         JS_ASSERT(!closed);
         closed = true;
         if (!iterator)
             return false;
         bool throwing = cx->isExceptionPending();
         RootedValue exc(cx);
         if (throwing) {
             exc = cx->getPendingException();
             cx->clearPendingException();
         }
         bool closedOK = CloseIterator(cx, iterator);
         if (throwing && closedOK)
             cx->setPendingException(exc);
         return ok && !throwing && closedOK;
     }
 };

 } /* namespace js */

 #if JS_HAS_GENERATORS

 /*
  * Generator state codes.
  */
 enum JSGeneratorState
 {
     JSGEN_NEWBORN,  /* not yet started */
     JSGEN_OPEN,     /* started by a .next() or .send(undefined) call */
     JSGEN_RUNNING,  /* currently executing via .next(), etc., call */
     JSGEN_CLOSING,  /* close method is doing asynchronous return */
     JSGEN_CLOSED    /* closed, cannot be started or closed again */
 };

 struct JSGenerator
 {
     js::HeapPtrObject   obj;
     JSGeneratorState    state;
     js::FrameRegs       regs;
     JSGenerator         *prevGenerator;
     js::StackFrame      *fp;
     js::HeapValue       stackSnapshot[1];
 };

 extern JSObject *
 js_NewGenerator(JSContext *cx, const js::FrameRegs &regs);

 namespace js {

 bool
 GeneratorHasMarkableFrame(JSGenerator *gen);

 } /* namespace js */
 #endif

 extern JSObject *
 js_InitIteratorClasses(JSContext *cx, js::HandleObject obj);

 #endif /* jsiter_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 jsiter_h
	#define jsiter_h

	/*
	* JavaScript iterators.
	*/
	#include "jscntxt.h"

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

	/*
	* For cacheable native iterators, whether the iterator is currently active.
	* Not serialized by XDR.
	*/
	#define JSITER_ACTIVE 0x1000
	#define JSITER_UNREUSABLE 0x2000

	namespace js {

	struct NativeIterator
	{
	HeapPtrObject obj; // Object being iterated.
	JSObject *iterObj_; // Internal iterator object.
	HeapPtr<JSFlatString> *props_array;
	HeapPtr<JSFlatString> *props_cursor;
	HeapPtr<JSFlatString> *props_end;
	Shape **shapes_array;
	uint32_t shapes_length;
	uint32_t shapes_key;
	uint32_t flags;

	private:
	/* While in compartment->enumerators, these form a doubly linked list. */
	NativeIterator *next_;
	NativeIterator *prev_;

	public:
	bool isKeyIter() const {
	return (flags & JSITER_FOREACH) == 0;
	}

	inline HeapPtr<JSFlatString> *begin() const {
	return props_array;
	}

	inline HeapPtr<JSFlatString> *end() const {
	return props_end;
	}

	size_t numKeys() const {
	return end() - begin();
	}

	JSObject *iterObj() const {
	return iterObj_;
	}
	HeapPtr<JSFlatString> *current() const {
	JS_ASSERT(props_cursor < props_end);
	return props_cursor;
	}

	NativeIterator *next() {
	return next_;
	}

	static inline size_t offsetOfNext() {
	return offsetof(NativeIterator, next_);
	}
	static inline size_t offsetOfPrev() {
	return offsetof(NativeIterator, prev_);
	}

	void incCursor() {
	props_cursor = props_cursor + 1;
	}
	void link(NativeIterator *other) {
	/* A NativeIterator cannot appear in the enumerator list twice. */
	JS_ASSERT(!next_ && !prev_);
	JS_ASSERT(flags & JSITER_ENUMERATE);

	this->next_ = other;
	this->prev_ = other->prev_;
	other->prev_->next_ = this;
	other->prev_ = this;
	}
	void unlink() {
	JS_ASSERT(flags & JSITER_ENUMERATE);

	next_->prev_ = prev_;
	prev_->next_ = next_;
	next_ = NULL;
	prev_ = NULL;
	}

	static NativeIterator allocateSentinel(JSContext cx);
	static NativeIterator allocateIterator(JSContext cx, uint32_t slength,
	const js::AutoIdVector &props);
	void init(JSObject obj, JSObject iterObj, unsigned flags, uint32_t slength, uint32_t key);

	void mark(JSTracer *trc);

	static void destroy(NativeIterator *iter) {
	js_free(iter);
	}
	};

	class PropertyIteratorObject : public JSObject
	{
	public:
	static Class class_;

	inline NativeIterator *getNativeIterator() const;
	inline void setNativeIterator(js::NativeIterator *ni);

	size_t sizeOfMisc(JSMallocSizeOfFun mallocSizeOf) const;

	private:
	static void trace(JSTracer trc, JSObject obj);
	static void finalize(FreeOp fop, JSObject obj);
	};

	/*
	* Array iterators are roughly like this:
	*
	* Array.prototype.iterator = function iterator() {
	* for (var i = 0; i < (this.length >>> 0); i++)
	* yield this[i];
	* }
	*
	* However they are not generators. They are a different class. The semantics
	* of Array iterators will be given in the eventual ES6 spec in full detail.
	*/
	class ElementIteratorObject : public JSObject
	{
	public:
	static Class class_;

	static JSObject create(JSContext cx, Handle<Value> target);
	static const JSFunctionSpec methods[];

	enum {
	TargetSlot,
	IndexSlot,
	NumSlots
	};

	static JSBool next(JSContext cx, unsigned argc, Value vp);
	static bool next_impl(JSContext *cx, JS::CallArgs args);
	};

	bool
	VectorToIdArray(JSContext cx, AutoIdVector &props, JSIdArray *idap);

	bool
	GetIterator(JSContext *cx, HandleObject obj, unsigned flags, MutableHandleValue vp);

	JSObject *
	GetIteratorObject(JSContext *cx, HandleObject obj, unsigned flags);

	bool
	VectorToKeyIterator(JSContext *cx, HandleObject obj, unsigned flags, AutoIdVector &props,
	MutableHandleValue vp);

	bool
	VectorToValueIterator(JSContext *cx, HandleObject obj, unsigned flags, AutoIdVector &props,
	MutableHandleValue vp);

	/*
	* Creates either a key or value iterator, depending on flags. For a value
	* iterator, performs value-lookup to convert the given list of jsids.
	*/
	bool
	EnumeratedIdVectorToIterator(JSContext *cx, HandleObject obj, unsigned flags, AutoIdVector &props,
	MutableHandleValue vp);

	/*
	* Convert the value stored in *vp to its iteration object. The flags should
	* contain JSITER_ENUMERATE if js::ValueToIterator is called when enumerating
	* for-in semantics are required, and when the caller can guarantee that the
	* iterator will never be exposed to scripts.
	*/
	bool
	ValueToIterator(JSContext *cx, unsigned flags, MutableHandleValue vp);

	bool
	CloseIterator(JSContext *cx, HandleObject iterObj);

	bool
	UnwindIteratorForException(JSContext *cx, js::HandleObject obj);

	void
	UnwindIteratorForUncatchableException(JSContext cx, JSObject obj);

	JSBool
	IteratorConstructor(JSContext cx, unsigned argc, Value vp);

	}

	extern bool
	js_SuppressDeletedProperty(JSContext *cx, js::HandleObject obj, jsid id);

	extern bool
	js_SuppressDeletedElement(JSContext *cx, js::HandleObject obj, uint32_t index);

	extern bool
	js_SuppressDeletedElements(JSContext *cx, js::HandleObject obj, uint32_t begin, uint32_t end);

	/*
	* IteratorMore() indicates whether another value is available. It might
	* internally call iterobj.next() and then cache the value until its
	* picked up by IteratorNext(). The value is cached in the current context.
	*/
	extern bool
	js_IteratorMore(JSContext *cx, js::HandleObject iterobj, js::MutableHandleValue rval);

	extern bool
	js_IteratorNext(JSContext *cx, js::HandleObject iterobj, js::MutableHandleValue rval);

	extern JSBool
	js_ThrowStopIteration(JSContext *cx);

	namespace js {

	/*
	* Get the next value from an iterator object.
	*
	* On success, store the next value in *vp and return true; if there are no
	* more values, store the magic value JS_NO_ITER_VALUE in *vp and return true.
	*/
	inline bool
	Next(JSContext *cx, HandleObject iter, MutableHandleValue vp)
	{
	if (!js_IteratorMore(cx, iter, vp))
	return false;
	if (vp.toBoolean())
	return js_IteratorNext(cx, iter, vp);
	vp.setMagic(JS_NO_ITER_VALUE);
	return true;
	}

	/*
	* Convenience class for imitating a JS level for-of loop. Typical usage:
	*
	* ForOfIterator it(cx, iterable);
	* while (it.next()) {
	* if (!DoStuff(cx, it.value()))
	* return false;
	* }
	* if (!it.close())
	* return false;
	*
	* The final it.close() check is needed in order to check for cases where
	* any of the iterator operations fail.
	*
	* it.close() may be skipped only if something in the body of the loop fails
	* and the failure is allowed to propagate on cx, as in this example if DoStuff
	* fails. In that case, ForOfIterator's destructor does all necessary cleanup.
	*/
	class ForOfIterator
	{
	private:
	JSContext *cx;
	RootedObject iterator;
	RootedValue currentValue;
	bool ok;
	bool closed;

	ForOfIterator(const ForOfIterator &) MOZ_DELETE;
	ForOfIterator &operator=(const ForOfIterator &) MOZ_DELETE;

	public:
	ForOfIterator(JSContext *cx, const Value &iterable)
	: cx(cx), iterator(cx, NULL), currentValue(cx), closed(false)
	{
	RootedValue iterv(cx, iterable);
	ok = ValueToIterator(cx, JSITER_FOR_OF, &iterv);
	iterator = ok ? &iterv.get().toObject() : NULL;
	}

	~ForOfIterator() {
	if (!closed)
	close();
	}

	bool next() {
	JS_ASSERT(!closed);
	ok = ok && Next(cx, iterator, &currentValue);
	return ok && !currentValue.get().isMagic(JS_NO_ITER_VALUE);
	}

	Value &value() {
	JS_ASSERT(ok);
	JS_ASSERT(!closed);
	return currentValue.get();
	}

	bool close() {
	JS_ASSERT(!closed);
	closed = true;
	if (!iterator)
	return false;
	bool throwing = cx->isExceptionPending();
	RootedValue exc(cx);
	if (throwing) {
	exc = cx->getPendingException();
	cx->clearPendingException();
	}
	bool closedOK = CloseIterator(cx, iterator);
	if (throwing && closedOK)
	cx->setPendingException(exc);
	return ok && !throwing && closedOK;
	}
	};

	} /* namespace js */

	#if JS_HAS_GENERATORS

	/*
	* Generator state codes.
	*/
	enum JSGeneratorState
	{
	JSGEN_NEWBORN, /* not yet started */
	JSGEN_OPEN, /* started by a .next() or .send(undefined) call */
	JSGEN_RUNNING, /* currently executing via .next(), etc., call */
	JSGEN_CLOSING, /* close method is doing asynchronous return */
	JSGEN_CLOSED /* closed, cannot be started or closed again */
	};

	struct JSGenerator
	{
	js::HeapPtrObject obj;
	JSGeneratorState state;
	js::FrameRegs regs;
	JSGenerator *prevGenerator;
	js::StackFrame *fp;
	js::HeapValue stackSnapshot[1];
	};

	extern JSObject *
	js_NewGenerator(JSContext *cx, const js::FrameRegs &regs);

	namespace js {

	bool
	GeneratorHasMarkableFrame(JSGenerator *gen);

	} /* namespace js */
	#endif

	extern JSObject *
	js_InitIteratorClasses(JSContext *cx, js::HandleObject obj);

	#endif /* jsiter_h */