src/v8/src/elements.h - cobalt - Git at Google

 // Copyright 2012 the V8 project authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #ifndef V8_ELEMENTS_H_
 #define V8_ELEMENTS_H_

 #include "src/elements-kind.h"
 #include "src/keys.h"
 #include "src/objects.h"

 namespace v8 {
 namespace internal {

 // Abstract base class for handles that can operate on objects with differing
 // ElementsKinds.
 class ElementsAccessor {
  public:
   explicit ElementsAccessor(const char* name) : name_(name) { }
   virtual ~ElementsAccessor() { }

   const char* name() const { return name_; }

   // Returns a shared ElementsAccessor for the specified ElementsKind.
   static ElementsAccessor* ForKind(ElementsKind elements_kind) {
     DCHECK_LT(static_cast<int>(elements_kind), kElementsKindCount);
     return elements_accessors_[elements_kind];
   }

   // Checks the elements of an object for consistency, asserting when a problem
   // is found.
   virtual void Validate(JSObject* obj) = 0;

   // Returns true if a holder contains an element with the specified index
   // without iterating up the prototype chain.  The caller can optionally pass
   // in the backing store to use for the check, which must be compatible with
   // the ElementsKind of the ElementsAccessor. If backing_store is nullptr, the
   // holder->elements() is used as the backing store. If a |filter| is
   // specified the PropertyAttributes of the element at the given index
   // are compared to the given |filter|. If they match/overlap the given
   // index is ignored. Note that only Dictionary elements have custom
   // PropertyAttributes associated, hence the |filter| argument is ignored for
   // all but DICTIONARY_ELEMENTS and SLOW_SLOPPY_ARGUMENTS_ELEMENTS.
   virtual bool HasElement(JSObject* holder, uint32_t index,
                           FixedArrayBase* backing_store,
                           PropertyFilter filter = ALL_PROPERTIES) = 0;

   inline bool HasElement(JSObject* holder, uint32_t index,
                          PropertyFilter filter = ALL_PROPERTIES) {
     return HasElement(holder, index, holder->elements(), filter);
   }

   // Note: this is currently not implemented for string wrapper and
   // typed array elements.
   virtual bool HasEntry(JSObject* holder, uint32_t entry) = 0;

   // TODO(cbruni): HasEntry and Get should not be exposed publicly with the
   // entry parameter.
   virtual Handle<Object> Get(Handle<JSObject> holder, uint32_t entry) = 0;

   virtual bool HasAccessors(JSObject* holder) = 0;
   virtual uint32_t NumberOfElements(JSObject* holder) = 0;

   // Modifies the length data property as specified for JSArrays and resizes the
   // underlying backing store accordingly. The method honors the semantics of
   // changing array sizes as defined in EcmaScript 5.1 15.4.5.2, i.e. array that
   // have non-deletable elements can only be shrunk to the size of highest
   // element that is non-deletable.
   virtual void SetLength(Handle<JSArray> holder, uint32_t new_length) = 0;


   // If kCopyToEnd is specified as the copy_size to CopyElements, it copies all
   // of elements from source after source_start to the destination array.
   static const int kCopyToEnd = -1;
   // If kCopyToEndAndInitializeToHole is specified as the copy_size to
   // CopyElements, it copies all of elements from source after source_start to
   // destination array, padding any remaining uninitialized elements in the
   // destination array with the hole.
   static const int kCopyToEndAndInitializeToHole = -2;

   // Copy all indices that have elements from |object| into the given
   // KeyAccumulator. For Dictionary-based element-kinds we filter out elements
   // whose PropertyAttribute match |filter|.
   virtual void CollectElementIndices(Handle<JSObject> object,
                                      Handle<FixedArrayBase> backing_store,
                                      KeyAccumulator* keys) = 0;

   inline void CollectElementIndices(Handle<JSObject> object,
                                     KeyAccumulator* keys) {
     CollectElementIndices(object, handle(object->elements(), keys->isolate()),
                           keys);
   }

   virtual Maybe<bool> CollectValuesOrEntries(
       Isolate* isolate, Handle<JSObject> object,
       Handle<FixedArray> values_or_entries, bool get_entries, int* nof_items,
       PropertyFilter filter = ALL_PROPERTIES) = 0;

   virtual MaybeHandle<FixedArray> PrependElementIndices(
       Handle<JSObject> object, Handle<FixedArrayBase> backing_store,
       Handle<FixedArray> keys, GetKeysConversion convert,
       PropertyFilter filter = ALL_PROPERTIES) = 0;

   inline MaybeHandle<FixedArray> PrependElementIndices(
       Handle<JSObject> object, Handle<FixedArray> keys,
       GetKeysConversion convert, PropertyFilter filter = ALL_PROPERTIES) {
     return PrependElementIndices(object, handle(object->elements()), keys,
                                  convert, filter);
   }

   virtual void AddElementsToKeyAccumulator(Handle<JSObject> receiver,
                                            KeyAccumulator* accumulator,
                                            AddKeyConversion convert) = 0;

   virtual void TransitionElementsKind(Handle<JSObject> object,
                                       Handle<Map> map) = 0;
   virtual void GrowCapacityAndConvert(Handle<JSObject> object,
                                       uint32_t capacity) = 0;
   // Unlike GrowCapacityAndConvert do not attempt to convert the backing store
   // and simply return false in this case.
   virtual bool GrowCapacity(Handle<JSObject> object, uint32_t index) = 0;

   static void InitializeOncePerProcess();
   static void TearDown();

   virtual void Set(Handle<JSObject> holder, uint32_t entry, Object* value) = 0;

   virtual void Add(Handle<JSObject> object, uint32_t index,
                    Handle<Object> value, PropertyAttributes attributes,
                    uint32_t new_capacity) = 0;

   static Handle<JSArray> Concat(Isolate* isolate, Arguments* args,
                                 uint32_t concat_size, uint32_t result_length);

   virtual uint32_t Push(Handle<JSArray> receiver, Arguments* args,
                         uint32_t push_size) = 0;

   virtual uint32_t Unshift(Handle<JSArray> receiver,
                            Arguments* args, uint32_t unshift_size) = 0;

   virtual Handle<JSObject> Slice(Handle<JSObject> receiver, uint32_t start,
                                  uint32_t end) = 0;

   virtual Handle<JSObject> Slice(Handle<JSObject> receiver, uint32_t start,
                                  uint32_t end, Handle<JSObject> result) = 0;

   virtual Handle<JSArray> Splice(Handle<JSArray> receiver,
                                  uint32_t start, uint32_t delete_count,
                                  Arguments* args, uint32_t add_count) = 0;

   virtual Handle<Object> Pop(Handle<JSArray> receiver) = 0;

   virtual Handle<Object> Shift(Handle<JSArray> receiver) = 0;

   virtual Handle<NumberDictionary> Normalize(Handle<JSObject> object) = 0;

   virtual uint32_t GetCapacity(JSObject* holder,
                                FixedArrayBase* backing_store) = 0;

   virtual Object* Fill(Isolate* isolate, Handle<JSObject> receiver,
                        Handle<Object> obj_value, uint32_t start,
                        uint32_t end) = 0;

   // Check an Object's own elements for an element (using SameValueZero
   // semantics)
   virtual Maybe<bool> IncludesValue(Isolate* isolate, Handle<JSObject> receiver,
                                     Handle<Object> value, uint32_t start,
                                     uint32_t length) = 0;

   // Check an Object's own elements for the index of an element (using SameValue
   // semantics)
   virtual Maybe<int64_t> IndexOfValue(Isolate* isolate,
                                       Handle<JSObject> receiver,
                                       Handle<Object> value, uint32_t start,
                                       uint32_t length) = 0;

   virtual Maybe<int64_t> LastIndexOfValue(Isolate* isolate,
                                           Handle<JSObject> receiver,
                                           Handle<Object> value,
                                           uint32_t start) = 0;

   virtual void Reverse(JSObject* receiver) = 0;

   virtual void CopyElements(Handle<FixedArrayBase> source,
                             ElementsKind source_kind,
                             Handle<FixedArrayBase> destination, int size) = 0;

   virtual Object* CopyElements(Handle<JSReceiver> source,
                                Handle<JSObject> destination, size_t length,
                                uint32_t offset = 0) = 0;

   virtual Handle<FixedArray> CreateListFromArrayLike(Isolate* isolate,
                                                      Handle<JSObject> object,
                                                      uint32_t length) = 0;

  protected:
   friend class LookupIterator;

   // Element handlers distinguish between entries and indices when they
   // manipulate elements. Entries refer to elements in terms of their location
   // in the underlying storage's backing store representation, and are between 0
   // and GetCapacity. Indices refer to elements in terms of the value that would
   // be specified in JavaScript to access the element. In most implementations,
   // indices are equivalent to entries. In the NumberDictionary
   // ElementsAccessor, entries are mapped to an index using the KeyAt method on
   // the NumberDictionary.
   virtual uint32_t GetEntryForIndex(Isolate* isolate, JSObject* holder,
                                     FixedArrayBase* backing_store,
                                     uint32_t index) = 0;

   virtual PropertyDetails GetDetails(JSObject* holder, uint32_t entry) = 0;
   virtual void Reconfigure(Handle<JSObject> object,
                            Handle<FixedArrayBase> backing_store, uint32_t entry,
                            Handle<Object> value,
                            PropertyAttributes attributes) = 0;

   // Deletes an element in an object.
   virtual void Delete(Handle<JSObject> holder, uint32_t entry) = 0;

   // NOTE: this method violates the handlified function signature convention:
   // raw pointer parameter |source_holder| in the function that allocates.
   // This is done intentionally to avoid ArrayConcat() builtin performance
   // degradation.
   virtual void CopyElements(JSObject* source_holder, uint32_t source_start,
                             ElementsKind source_kind,
                             Handle<FixedArrayBase> destination,
                             uint32_t destination_start, int copy_size) = 0;

  private:
   static ElementsAccessor** elements_accessors_;
   const char* name_;

   DISALLOW_COPY_AND_ASSIGN(ElementsAccessor);
 };

 void CheckArrayAbuse(Handle<JSObject> obj, const char* op, uint32_t index,
                      bool allow_appending = false);

 MUST_USE_RESULT MaybeHandle<Object> ArrayConstructInitializeElements(
     Handle<JSArray> array,
     Arguments* args);

 // Called directly from CSA.
 class JSTypedArray;
 void CopyFastNumberJSArrayElementsToTypedArray(Context* context,
                                                JSArray* source,
                                                JSTypedArray* destination,
                                                uintptr_t length,
                                                uintptr_t offset);
 void CopyTypedArrayElementsToTypedArray(JSTypedArray* source,
                                         JSTypedArray* destination,
                                         uintptr_t length, uintptr_t offset);

 }  // namespace internal
 }  // namespace v8

 #endif  // V8_ELEMENTS_H_
	// Copyright 2012 the V8 project authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#ifndef V8_ELEMENTS_H_
	#define V8_ELEMENTS_H_

	#include "src/elements-kind.h"
	#include "src/keys.h"
	#include "src/objects.h"

	namespace v8 {
	namespace internal {

	// Abstract base class for handles that can operate on objects with differing
	// ElementsKinds.
	class ElementsAccessor {
	public:
	explicit ElementsAccessor(const char* name) : name_(name) { }
	virtual ~ElementsAccessor() { }

	const char* name() const { return name_; }

	// Returns a shared ElementsAccessor for the specified ElementsKind.
	static ElementsAccessor* ForKind(ElementsKind elements_kind) {
	DCHECK_LT(static_cast<int>(elements_kind), kElementsKindCount);
	return elements_accessors_[elements_kind];
	}

	// Checks the elements of an object for consistency, asserting when a problem
	// is found.
	virtual void Validate(JSObject* obj) = 0;

	// Returns true if a holder contains an element with the specified index
	// without iterating up the prototype chain. The caller can optionally pass
	// in the backing store to use for the check, which must be compatible with
	// the ElementsKind of the ElementsAccessor. If backing_store is nullptr, the
	// holder->elements() is used as the backing store. If a \|filter\| is
	// specified the PropertyAttributes of the element at the given index
	// are compared to the given \|filter\|. If they match/overlap the given
	// index is ignored. Note that only Dictionary elements have custom
	// PropertyAttributes associated, hence the \|filter\| argument is ignored for
	// all but DICTIONARY_ELEMENTS and SLOW_SLOPPY_ARGUMENTS_ELEMENTS.
	virtual bool HasElement(JSObject* holder, uint32_t index,
	FixedArrayBase* backing_store,
	PropertyFilter filter = ALL_PROPERTIES) = 0;

	inline bool HasElement(JSObject* holder, uint32_t index,
	PropertyFilter filter = ALL_PROPERTIES) {
	return HasElement(holder, index, holder->elements(), filter);
	}

	// Note: this is currently not implemented for string wrapper and
	// typed array elements.
	virtual bool HasEntry(JSObject* holder, uint32_t entry) = 0;

	// TODO(cbruni): HasEntry and Get should not be exposed publicly with the
	// entry parameter.
	virtual Handle<Object> Get(Handle<JSObject> holder, uint32_t entry) = 0;

	virtual bool HasAccessors(JSObject* holder) = 0;
	virtual uint32_t NumberOfElements(JSObject* holder) = 0;

	// Modifies the length data property as specified for JSArrays and resizes the
	// underlying backing store accordingly. The method honors the semantics of
	// changing array sizes as defined in EcmaScript 5.1 15.4.5.2, i.e. array that
	// have non-deletable elements can only be shrunk to the size of highest
	// element that is non-deletable.
	virtual void SetLength(Handle<JSArray> holder, uint32_t new_length) = 0;


	// If kCopyToEnd is specified as the copy_size to CopyElements, it copies all
	// of elements from source after source_start to the destination array.
	static const int kCopyToEnd = -1;
	// If kCopyToEndAndInitializeToHole is specified as the copy_size to
	// CopyElements, it copies all of elements from source after source_start to
	// destination array, padding any remaining uninitialized elements in the
	// destination array with the hole.
	static const int kCopyToEndAndInitializeToHole = -2;

	// Copy all indices that have elements from \|object\| into the given
	// KeyAccumulator. For Dictionary-based element-kinds we filter out elements
	// whose PropertyAttribute match \|filter\|.
	virtual void CollectElementIndices(Handle<JSObject> object,
	Handle<FixedArrayBase> backing_store,
	KeyAccumulator* keys) = 0;

	inline void CollectElementIndices(Handle<JSObject> object,
	KeyAccumulator* keys) {
	CollectElementIndices(object, handle(object->elements(), keys->isolate()),
	keys);
	}

	virtual Maybe<bool> CollectValuesOrEntries(
	Isolate* isolate, Handle<JSObject> object,
	Handle<FixedArray> values_or_entries, bool get_entries, int* nof_items,
	PropertyFilter filter = ALL_PROPERTIES) = 0;

	virtual MaybeHandle<FixedArray> PrependElementIndices(
	Handle<JSObject> object, Handle<FixedArrayBase> backing_store,
	Handle<FixedArray> keys, GetKeysConversion convert,
	PropertyFilter filter = ALL_PROPERTIES) = 0;

	inline MaybeHandle<FixedArray> PrependElementIndices(
	Handle<JSObject> object, Handle<FixedArray> keys,
	GetKeysConversion convert, PropertyFilter filter = ALL_PROPERTIES) {
	return PrependElementIndices(object, handle(object->elements()), keys,
	convert, filter);
	}

	virtual void AddElementsToKeyAccumulator(Handle<JSObject> receiver,
	KeyAccumulator* accumulator,
	AddKeyConversion convert) = 0;

	virtual void TransitionElementsKind(Handle<JSObject> object,
	Handle<Map> map) = 0;
	virtual void GrowCapacityAndConvert(Handle<JSObject> object,
	uint32_t capacity) = 0;
	// Unlike GrowCapacityAndConvert do not attempt to convert the backing store
	// and simply return false in this case.
	virtual bool GrowCapacity(Handle<JSObject> object, uint32_t index) = 0;

	static void InitializeOncePerProcess();
	static void TearDown();

	virtual void Set(Handle<JSObject> holder, uint32_t entry, Object* value) = 0;

	virtual void Add(Handle<JSObject> object, uint32_t index,
	Handle<Object> value, PropertyAttributes attributes,
	uint32_t new_capacity) = 0;

	static Handle<JSArray> Concat(Isolate* isolate, Arguments* args,
	uint32_t concat_size, uint32_t result_length);

	virtual uint32_t Push(Handle<JSArray> receiver, Arguments* args,
	uint32_t push_size) = 0;

	virtual uint32_t Unshift(Handle<JSArray> receiver,
	Arguments* args, uint32_t unshift_size) = 0;

	virtual Handle<JSObject> Slice(Handle<JSObject> receiver, uint32_t start,
	uint32_t end) = 0;

	virtual Handle<JSObject> Slice(Handle<JSObject> receiver, uint32_t start,
	uint32_t end, Handle<JSObject> result) = 0;

	virtual Handle<JSArray> Splice(Handle<JSArray> receiver,
	uint32_t start, uint32_t delete_count,
	Arguments* args, uint32_t add_count) = 0;

	virtual Handle<Object> Pop(Handle<JSArray> receiver) = 0;

	virtual Handle<Object> Shift(Handle<JSArray> receiver) = 0;

	virtual Handle<NumberDictionary> Normalize(Handle<JSObject> object) = 0;

	virtual uint32_t GetCapacity(JSObject* holder,
	FixedArrayBase* backing_store) = 0;

	virtual Object* Fill(Isolate* isolate, Handle<JSObject> receiver,
	Handle<Object> obj_value, uint32_t start,
	uint32_t end) = 0;

	// Check an Object's own elements for an element (using SameValueZero
	// semantics)
	virtual Maybe<bool> IncludesValue(Isolate* isolate, Handle<JSObject> receiver,
	Handle<Object> value, uint32_t start,
	uint32_t length) = 0;

	// Check an Object's own elements for the index of an element (using SameValue
	// semantics)
	virtual Maybe<int64_t> IndexOfValue(Isolate* isolate,
	Handle<JSObject> receiver,
	Handle<Object> value, uint32_t start,
	uint32_t length) = 0;

	virtual Maybe<int64_t> LastIndexOfValue(Isolate* isolate,
	Handle<JSObject> receiver,
	Handle<Object> value,
	uint32_t start) = 0;

	virtual void Reverse(JSObject* receiver) = 0;

	virtual void CopyElements(Handle<FixedArrayBase> source,
	ElementsKind source_kind,
	Handle<FixedArrayBase> destination, int size) = 0;

	virtual Object* CopyElements(Handle<JSReceiver> source,
	Handle<JSObject> destination, size_t length,
	uint32_t offset = 0) = 0;

	virtual Handle<FixedArray> CreateListFromArrayLike(Isolate* isolate,
	Handle<JSObject> object,
	uint32_t length) = 0;

	protected:
	friend class LookupIterator;

	// Element handlers distinguish between entries and indices when they
	// manipulate elements. Entries refer to elements in terms of their location
	// in the underlying storage's backing store representation, and are between 0
	// and GetCapacity. Indices refer to elements in terms of the value that would
	// be specified in JavaScript to access the element. In most implementations,
	// indices are equivalent to entries. In the NumberDictionary
	// ElementsAccessor, entries are mapped to an index using the KeyAt method on
	// the NumberDictionary.
	virtual uint32_t GetEntryForIndex(Isolate* isolate, JSObject* holder,
	FixedArrayBase* backing_store,
	uint32_t index) = 0;

	virtual PropertyDetails GetDetails(JSObject* holder, uint32_t entry) = 0;
	virtual void Reconfigure(Handle<JSObject> object,
	Handle<FixedArrayBase> backing_store, uint32_t entry,
	Handle<Object> value,
	PropertyAttributes attributes) = 0;

	// Deletes an element in an object.
	virtual void Delete(Handle<JSObject> holder, uint32_t entry) = 0;

	// NOTE: this method violates the handlified function signature convention:
	// raw pointer parameter \|source_holder\| in the function that allocates.
	// This is done intentionally to avoid ArrayConcat() builtin performance
	// degradation.
	virtual void CopyElements(JSObject* source_holder, uint32_t source_start,
	ElementsKind source_kind,
	Handle<FixedArrayBase> destination,
	uint32_t destination_start, int copy_size) = 0;

	private:
	static ElementsAccessor** elements_accessors_;
	const char* name_;

	DISALLOW_COPY_AND_ASSIGN(ElementsAccessor);
	};

	void CheckArrayAbuse(Handle<JSObject> obj, const char* op, uint32_t index,
	bool allow_appending = false);

	MUST_USE_RESULT MaybeHandle<Object> ArrayConstructInitializeElements(
	Handle<JSArray> array,
	Arguments* args);

	// Called directly from CSA.
	class JSTypedArray;
	void CopyFastNumberJSArrayElementsToTypedArray(Context* context,
	JSArray* source,
	JSTypedArray* destination,
	uintptr_t length,
	uintptr_t offset);
	void CopyTypedArrayElementsToTypedArray(JSTypedArray* source,
	JSTypedArray* destination,
	uintptr_t length, uintptr_t offset);

	} // namespace internal
	} // namespace v8

	#endif // V8_ELEMENTS_H_