src/third_party/mozjs/js/src/jstypedarrayinlines.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 jstypedarrayinlines_h
 #define jstypedarrayinlines_h

 #include "jsapi.h"
 #include "jsobj.h"
 #include "jstypedarray.h"

 #include "jsobjinlines.h"

 // Sentinel value used to initialize ArrayBufferViews' NEXT_BUFFER_SLOTs to
 // show that they have not yet been added to any ArrayBuffer list
 JSObject * const UNSET_BUFFER_LINK = (JSObject*)0x2;

 inline void
 js::ArrayBufferObject::setElementsHeader(js::ObjectElements *header, uint32_t bytes)
 {
     header->flags = 0;
     header->initializedLength = bytes;

     // NB: one or both of these fields is clobbered by GetViewList to store the
     // 'views' link. Set them to 0 to effectively initialize 'views' to NULL.
     header->length = 0;
     header->capacity = 0;
 }

 inline uint32_t
 js::ArrayBufferObject::getElementsHeaderInitializedLength(const js::ObjectElements *header)
 {
     return header->initializedLength;
 }

 inline uint32_t
 js::ArrayBufferObject::byteLength() const
 {
     JS_ASSERT(is<ArrayBufferObject>());
     return getElementsHeader()->initializedLength;
 }

 inline uint8_t *
 js::ArrayBufferObject::dataPointer() const
 {
     return (uint8_t *) elements;
 }

 namespace js {

 inline bool
 ArrayBufferObject::hasData() const
 {
     return getClass() == &class_;
 }

 static inline int32_t
 ClampIntForUint8Array(int32_t x)
 {
     if (x < 0)
         return 0;
     if (x > 255)
         return 255;
     return x;
 }

 inline Value
 TypedArray::lengthValue(JSObject *obj)
 {
     JS_ASSERT(obj->isTypedArray());
     return obj->getFixedSlot(LENGTH_SLOT);
 }

 inline uint32_t
 TypedArray::length(JSObject *obj)
 {
     return lengthValue(obj).toInt32();
 }

 inline Value
 TypedArray::byteOffsetValue(JSObject *obj)
 {
     JS_ASSERT(obj->isTypedArray());
     return obj->getFixedSlot(BYTEOFFSET_SLOT);
 }

 inline uint32_t
 TypedArray::byteOffset(JSObject *obj)
 {
     return byteOffsetValue(obj).toInt32();
 }

 inline Value
 TypedArray::byteLengthValue(JSObject *obj)
 {
     JS_ASSERT(obj->isTypedArray());
     return obj->getFixedSlot(BYTELENGTH_SLOT);
 }

 inline uint32_t
 TypedArray::byteLength(JSObject *obj)
 {
     return byteLengthValue(obj).toInt32();
 }

 inline uint32_t
 TypedArray::type(JSObject *obj)
 {
     JS_ASSERT(obj->isTypedArray());
     return obj->getFixedSlot(TYPE_SLOT).toInt32();
 }

 inline Value
 TypedArray::bufferValue(JSObject *obj)
 {
     JS_ASSERT(obj->isTypedArray());
     return obj->getFixedSlot(BUFFER_SLOT);
 }

 inline ArrayBufferObject *
 TypedArray::buffer(JSObject *obj)
 {
     return &bufferValue(obj).toObject().as<ArrayBufferObject>();
 }

 inline void *
 TypedArray::viewData(JSObject *obj)
 {
     JS_ASSERT(obj->isTypedArray());
     return (void *)obj->getPrivate(DATA_SLOT);
 }

 inline uint32_t
 TypedArray::slotWidth(int atype) {
     switch (atype) {
     case js::TypedArray::TYPE_INT8:
     case js::TypedArray::TYPE_UINT8:
     case js::TypedArray::TYPE_UINT8_CLAMPED:
         return 1;
     case js::TypedArray::TYPE_INT16:
     case js::TypedArray::TYPE_UINT16:
         return 2;
     case js::TypedArray::TYPE_INT32:
     case js::TypedArray::TYPE_UINT32:
     case js::TypedArray::TYPE_FLOAT32:
         return 4;
     case js::TypedArray::TYPE_FLOAT64:
         return 8;
     default:
         JS_NOT_REACHED("invalid typed array type");
         return 0;
     }
 }

 inline int
 TypedArray::slotWidth(JSObject *obj) {
     return slotWidth(type(obj));
 }

 bool
 DataViewObject::is(const Value &v)
 {
     return v.isObject() && v.toObject().hasClass(&class_);
 }

 #ifdef JSGC_GENERATIONAL
 class ArrayBufferViewByteOffsetRef : public gc::BufferableRef
 {
     JSObject *obj;

   public:
     explicit ArrayBufferViewByteOffsetRef(JSObject *obj) : obj(obj) {}

     void mark(JSTracer *trc) {
         /* Update obj's private to point to the moved buffer's array data. */
         MarkObjectUnbarriered(trc, &obj, "TypedArray");
         HeapSlot &bufSlot = obj->getReservedSlotRef(BufferView::BUFFER_SLOT);
         gc::MarkSlot(trc, &bufSlot, "TypedArray::BUFFER_SLOT");
         ArrayBufferObject &buf = bufSlot.toObject().as<ArrayBufferObject>();
         int32_t offset = obj->getReservedSlot(BufferView::BYTEOFFSET_SLOT).toInt32();
         obj->initPrivate(buf.dataPointer() + offset);
     }
 };
 #endif

 static inline void
 InitArrayBufferViewDataPointer(JSObject *obj, ArrayBufferObject *buffer, size_t byteOffset)
 {
     /*
      * N.B. The base of the array's data is stored in the object's
      * private data rather than a slot to avoid alignment restrictions
      * on private Values.
      */
     obj->initPrivate(buffer->dataPointer() + byteOffset);
 #ifdef JSGC_GENERATIONAL
     if (IsInsideNursery(obj->runtime(), buffer) && buffer->hasFixedElements())
         obj->runtime()->gcStoreBuffer.putGeneric(ArrayBufferViewByteOffsetRef(obj));
 #endif
 }

 static NewObjectKind
 DataViewNewObjectKind(JSContext *cx, uint32_t byteLength, JSObject *proto)
 {
     if (!proto && byteLength >= TypedArray::SINGLETON_TYPE_BYTE_LENGTH)
         return SingletonObject;
     jsbytecode *pc;
     JSScript *script = cx->currentScript(&pc);
     if (!script)
         return GenericObject;
     return types::UseNewTypeForInitializer(cx, script, pc, &DataViewObject::class_);
 }

 inline DataViewObject *
 DataViewObject::create(JSContext *cx, uint32_t byteOffset, uint32_t byteLength,
                        Handle<ArrayBufferObject*> arrayBuffer, JSObject *protoArg)
 {
     JS_ASSERT(byteOffset <= INT32_MAX);
     JS_ASSERT(byteLength <= INT32_MAX);

     RootedObject proto(cx, protoArg);
     RootedObject obj(cx);

     NewObjectKind newKind = DataViewNewObjectKind(cx, byteLength, proto);
     obj = NewBuiltinClassInstance(cx, &class_, newKind);
     if (!obj)
         return NULL;

     if (proto) {
         types::TypeObject *type = proto->getNewType(cx, &class_);
         if (!type)
             return NULL;
         obj->setType(type);
     } else if (cx->typeInferenceEnabled()) {
         if (byteLength >= TypedArray::SINGLETON_TYPE_BYTE_LENGTH) {
             JS_ASSERT(obj->hasSingletonType());
         } else {
             jsbytecode *pc;
             RootedScript script(cx, cx->currentScript(&pc));
             if (script) {
                 if (!types::SetInitializerObjectType(cx, script, pc, obj, newKind))
                     return NULL;
             }
         }
     }

     JS_ASSERT(arrayBuffer->is<ArrayBufferObject>());

     DataViewObject &dvobj = obj->as<DataViewObject>();
     dvobj.setFixedSlot(BYTEOFFSET_SLOT, Int32Value(byteOffset));
     dvobj.setFixedSlot(BYTELENGTH_SLOT, Int32Value(byteLength));
     dvobj.setFixedSlot(BUFFER_SLOT, ObjectValue(*arrayBuffer));
     dvobj.setFixedSlot(NEXT_VIEW_SLOT, PrivateValue(NULL));
     dvobj.setFixedSlot(NEXT_BUFFER_SLOT, PrivateValue(UNSET_BUFFER_LINK));
     InitArrayBufferViewDataPointer(obj, arrayBuffer, byteOffset);
     JS_ASSERT(byteOffset + byteLength <= arrayBuffer->byteLength());

     // Verify that the private slot is at the expected place
     JS_ASSERT(dvobj.numFixedSlots() == DATA_SLOT);

     arrayBuffer->as<ArrayBufferObject>().addView(&dvobj);

     return &dvobj;
 }

 inline uint32_t
 DataViewObject::byteLength()
 {
     JS_ASSERT(JSObject::is<DataViewObject>());
     int32_t length = getReservedSlot(BYTELENGTH_SLOT).toInt32();
     JS_ASSERT(length >= 0);
     return static_cast<uint32_t>(length);
 }

 inline uint32_t
 DataViewObject::byteOffset()
 {
     JS_ASSERT(JSObject::is<DataViewObject>());
     int32_t offset = getReservedSlot(BYTEOFFSET_SLOT).toInt32();
     JS_ASSERT(offset >= 0);
     return static_cast<uint32_t>(offset);
 }

 inline void *
 DataViewObject::dataPointer()
 {
     JS_ASSERT(JSObject::is<DataViewObject>());
     return getPrivate();
 }

 inline ArrayBufferObject &
 DataViewObject::arrayBuffer()
 {
     JS_ASSERT(JSObject::is<DataViewObject>());
     return getReservedSlot(BUFFER_SLOT).toObject().as<ArrayBufferObject>();
 }

 inline bool
 DataViewObject::hasBuffer() const
 {
     JS_ASSERT(JSObject::is<DataViewObject>());
     return getReservedSlot(BUFFER_SLOT).isObject();
 }

 inline Value
 DataViewObject::bufferValue(DataViewObject &view)
 {
     return view.hasBuffer() ? ObjectValue(view.arrayBuffer()) : UndefinedValue();
 }

 inline Value
 DataViewObject::byteOffsetValue(DataViewObject &view)
 {
     return Int32Value(view.byteOffset());
 }

 inline Value
 DataViewObject::byteLengthValue(DataViewObject &view)
 {
     return Int32Value(view.byteLength());
 }

 } /* namespace js */

 #endif /* jstypedarrayinlines_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 jstypedarrayinlines_h
	#define jstypedarrayinlines_h

	#include "jsapi.h"
	#include "jsobj.h"
	#include "jstypedarray.h"

	#include "jsobjinlines.h"

	// Sentinel value used to initialize ArrayBufferViews' NEXT_BUFFER_SLOTs to
	// show that they have not yet been added to any ArrayBuffer list
	JSObject * const UNSET_BUFFER_LINK = (JSObject*)0x2;

	inline void
	js::ArrayBufferObject::setElementsHeader(js::ObjectElements *header, uint32_t bytes)
	{
	header->flags = 0;
	header->initializedLength = bytes;

	// NB: one or both of these fields is clobbered by GetViewList to store the
	// 'views' link. Set them to 0 to effectively initialize 'views' to NULL.
	header->length = 0;
	header->capacity = 0;
	}

	inline uint32_t
	js::ArrayBufferObject::getElementsHeaderInitializedLength(const js::ObjectElements *header)
	{
	return header->initializedLength;
	}

	inline uint32_t
	js::ArrayBufferObject::byteLength() const
	{
	JS_ASSERT(is<ArrayBufferObject>());
	return getElementsHeader()->initializedLength;
	}

	inline uint8_t *
	js::ArrayBufferObject::dataPointer() const
	{
	return (uint8_t *) elements;
	}

	namespace js {

	inline bool
	ArrayBufferObject::hasData() const
	{
	return getClass() == &class_;
	}

	static inline int32_t
	ClampIntForUint8Array(int32_t x)
	{
	if (x < 0)
	return 0;
	if (x > 255)
	return 255;
	return x;
	}

	inline Value
	TypedArray::lengthValue(JSObject *obj)
	{
	JS_ASSERT(obj->isTypedArray());
	return obj->getFixedSlot(LENGTH_SLOT);
	}

	inline uint32_t
	TypedArray::length(JSObject *obj)
	{
	return lengthValue(obj).toInt32();
	}

	inline Value
	TypedArray::byteOffsetValue(JSObject *obj)
	{
	JS_ASSERT(obj->isTypedArray());
	return obj->getFixedSlot(BYTEOFFSET_SLOT);
	}

	inline uint32_t
	TypedArray::byteOffset(JSObject *obj)
	{
	return byteOffsetValue(obj).toInt32();
	}

	inline Value
	TypedArray::byteLengthValue(JSObject *obj)
	{
	JS_ASSERT(obj->isTypedArray());
	return obj->getFixedSlot(BYTELENGTH_SLOT);
	}

	inline uint32_t
	TypedArray::byteLength(JSObject *obj)
	{
	return byteLengthValue(obj).toInt32();
	}

	inline uint32_t
	TypedArray::type(JSObject *obj)
	{
	JS_ASSERT(obj->isTypedArray());
	return obj->getFixedSlot(TYPE_SLOT).toInt32();
	}

	inline Value
	TypedArray::bufferValue(JSObject *obj)
	{
	JS_ASSERT(obj->isTypedArray());
	return obj->getFixedSlot(BUFFER_SLOT);
	}

	inline ArrayBufferObject *
	TypedArray::buffer(JSObject *obj)
	{
	return &bufferValue(obj).toObject().as<ArrayBufferObject>();
	}

	inline void *
	TypedArray::viewData(JSObject *obj)
	{
	JS_ASSERT(obj->isTypedArray());
	return (void *)obj->getPrivate(DATA_SLOT);
	}

	inline uint32_t
	TypedArray::slotWidth(int atype) {
	switch (atype) {
	case js::TypedArray::TYPE_INT8:
	case js::TypedArray::TYPE_UINT8:
	case js::TypedArray::TYPE_UINT8_CLAMPED:
	return 1;
	case js::TypedArray::TYPE_INT16:
	case js::TypedArray::TYPE_UINT16:
	return 2;
	case js::TypedArray::TYPE_INT32:
	case js::TypedArray::TYPE_UINT32:
	case js::TypedArray::TYPE_FLOAT32:
	return 4;
	case js::TypedArray::TYPE_FLOAT64:
	return 8;
	default:
	JS_NOT_REACHED("invalid typed array type");
	return 0;
	}
	}

	inline int
	TypedArray::slotWidth(JSObject *obj) {
	return slotWidth(type(obj));
	}

	bool
	DataViewObject::is(const Value &v)
	{
	return v.isObject() && v.toObject().hasClass(&class_);
	}

	#ifdef JSGC_GENERATIONAL
	class ArrayBufferViewByteOffsetRef : public gc::BufferableRef
	{
	JSObject *obj;

	public:
	explicit ArrayBufferViewByteOffsetRef(JSObject *obj) : obj(obj) {}

	void mark(JSTracer *trc) {
	/* Update obj's private to point to the moved buffer's array data. */
	MarkObjectUnbarriered(trc, &obj, "TypedArray");
	HeapSlot &bufSlot = obj->getReservedSlotRef(BufferView::BUFFER_SLOT);
	gc::MarkSlot(trc, &bufSlot, "TypedArray::BUFFER_SLOT");
	ArrayBufferObject &buf = bufSlot.toObject().as<ArrayBufferObject>();
	int32_t offset = obj->getReservedSlot(BufferView::BYTEOFFSET_SLOT).toInt32();
	obj->initPrivate(buf.dataPointer() + offset);
	}
	};
	#endif

	static inline void
	InitArrayBufferViewDataPointer(JSObject obj, ArrayBufferObject buffer, size_t byteOffset)
	{
	/*
	* N.B. The base of the array's data is stored in the object's
	* private data rather than a slot to avoid alignment restrictions
	* on private Values.
	*/
	obj->initPrivate(buffer->dataPointer() + byteOffset);
	#ifdef JSGC_GENERATIONAL
	if (IsInsideNursery(obj->runtime(), buffer) && buffer->hasFixedElements())
	obj->runtime()->gcStoreBuffer.putGeneric(ArrayBufferViewByteOffsetRef(obj));
	#endif
	}

	static NewObjectKind
	DataViewNewObjectKind(JSContext cx, uint32_t byteLength, JSObject proto)
	{
	if (!proto && byteLength >= TypedArray::SINGLETON_TYPE_BYTE_LENGTH)
	return SingletonObject;
	jsbytecode *pc;
	JSScript *script = cx->currentScript(&pc);
	if (!script)
	return GenericObject;
	return types::UseNewTypeForInitializer(cx, script, pc, &DataViewObject::class_);
	}

	inline DataViewObject *
	DataViewObject::create(JSContext *cx, uint32_t byteOffset, uint32_t byteLength,
	Handle<ArrayBufferObject> arrayBuffer, JSObject protoArg)
	{
	JS_ASSERT(byteOffset <= INT32_MAX);
	JS_ASSERT(byteLength <= INT32_MAX);

	RootedObject proto(cx, protoArg);
	RootedObject obj(cx);

	NewObjectKind newKind = DataViewNewObjectKind(cx, byteLength, proto);
	obj = NewBuiltinClassInstance(cx, &class_, newKind);
	if (!obj)
	return NULL;

	if (proto) {
	types::TypeObject *type = proto->getNewType(cx, &class_);
	if (!type)
	return NULL;
	obj->setType(type);
	} else if (cx->typeInferenceEnabled()) {
	if (byteLength >= TypedArray::SINGLETON_TYPE_BYTE_LENGTH) {
	JS_ASSERT(obj->hasSingletonType());
	} else {
	jsbytecode *pc;
	RootedScript script(cx, cx->currentScript(&pc));
	if (script) {
	if (!types::SetInitializerObjectType(cx, script, pc, obj, newKind))
	return NULL;
	}
	}
	}

	JS_ASSERT(arrayBuffer->is<ArrayBufferObject>());

	DataViewObject &dvobj = obj->as<DataViewObject>();
	dvobj.setFixedSlot(BYTEOFFSET_SLOT, Int32Value(byteOffset));
	dvobj.setFixedSlot(BYTELENGTH_SLOT, Int32Value(byteLength));
	dvobj.setFixedSlot(BUFFER_SLOT, ObjectValue(*arrayBuffer));
	dvobj.setFixedSlot(NEXT_VIEW_SLOT, PrivateValue(NULL));
	dvobj.setFixedSlot(NEXT_BUFFER_SLOT, PrivateValue(UNSET_BUFFER_LINK));
	InitArrayBufferViewDataPointer(obj, arrayBuffer, byteOffset);
	JS_ASSERT(byteOffset + byteLength <= arrayBuffer->byteLength());

	// Verify that the private slot is at the expected place
	JS_ASSERT(dvobj.numFixedSlots() == DATA_SLOT);

	arrayBuffer->as<ArrayBufferObject>().addView(&dvobj);

	return &dvobj;
	}

	inline uint32_t
	DataViewObject::byteLength()
	{
	JS_ASSERT(JSObject::is<DataViewObject>());
	int32_t length = getReservedSlot(BYTELENGTH_SLOT).toInt32();
	JS_ASSERT(length >= 0);
	return static_cast<uint32_t>(length);
	}

	inline uint32_t
	DataViewObject::byteOffset()
	{
	JS_ASSERT(JSObject::is<DataViewObject>());
	int32_t offset = getReservedSlot(BYTEOFFSET_SLOT).toInt32();
	JS_ASSERT(offset >= 0);
	return static_cast<uint32_t>(offset);
	}

	inline void *
	DataViewObject::dataPointer()
	{
	JS_ASSERT(JSObject::is<DataViewObject>());
	return getPrivate();
	}

	inline ArrayBufferObject &
	DataViewObject::arrayBuffer()
	{
	JS_ASSERT(JSObject::is<DataViewObject>());
	return getReservedSlot(BUFFER_SLOT).toObject().as<ArrayBufferObject>();
	}

	inline bool
	DataViewObject::hasBuffer() const
	{
	JS_ASSERT(JSObject::is<DataViewObject>());
	return getReservedSlot(BUFFER_SLOT).isObject();
	}

	inline Value
	DataViewObject::bufferValue(DataViewObject &view)
	{
	return view.hasBuffer() ? ObjectValue(view.arrayBuffer()) : UndefinedValue();
	}

	inline Value
	DataViewObject::byteOffsetValue(DataViewObject &view)
	{
	return Int32Value(view.byteOffset());
	}

	inline Value
	DataViewObject::byteLengthValue(DataViewObject &view)
	{
	return Int32Value(view.byteLength());
	}

	} /* namespace js */

	#endif /* jstypedarrayinlines_h */