src/keys.h - v8/v8 - 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_KEYS_H_
 #define V8_KEYS_H_

 #include "src/isolate.h"
 #include "src/objects.h"

 namespace v8 {
 namespace internal {

 enum AddKeyConversion { DO_NOT_CONVERT, CONVERT_TO_ARRAY_INDEX, PROXY_MAGIC };

 // This is a helper class for JSReceiver::GetKeys which collects and sorts keys.
 // GetKeys needs to sort keys per prototype level, first showing the integer
 // indices from elements then the strings from the properties. However, this
 // does not apply to proxies which are in full control of how the keys are
 // sorted.
 //
 // For performance reasons the KeyAccumulator internally separates integer keys
 // in |elements_| into sorted lists per prototype level. String keys are
 // collected in |string_properties_|, a single OrderedHashSet (similar for
 // Symbols in |symbol_properties_|. To separate the keys per level later when
 // assembling the final list, |levelLengths_| keeps track of the number of
 // String and Symbol keys per level.
 //
 // Only unique keys are kept by the KeyAccumulator, strings are stored in a
 // HashSet for inexpensive lookups. Integer keys are kept in sorted lists which
 // are more compact and allow for reasonably fast includes check.
 class KeyAccumulator final BASE_EMBEDDED {
  public:
   KeyAccumulator(Isolate* isolate, KeyCollectionType type,
                  PropertyFilter filter)
       : isolate_(isolate), type_(type), filter_(filter) {}
   ~KeyAccumulator();

   bool AddKey(uint32_t key);
   bool AddKey(Object* key, AddKeyConversion convert);
   bool AddKey(Handle<Object> key, AddKeyConversion convert);
   void AddKeys(Handle<FixedArray> array, AddKeyConversion convert);
   void AddKeys(Handle<JSObject> array, AddKeyConversion convert);
   void AddKeysFromProxy(Handle<JSObject> array);
   Maybe<bool> AddKeysFromProxy(Handle<JSProxy> proxy, Handle<FixedArray> keys);
   void AddElementKeysFromInterceptor(Handle<JSObject> array);
   // Jump to the next level, pushing the current |levelLength_| to
   // |levelLengths_| and adding a new list to |elements_|.
   void NextPrototype();
   // Sort the integer indices in the last list in |elements_|
   void SortCurrentElementsList();
   Handle<FixedArray> GetKeys(GetKeysConversion convert = KEEP_NUMBERS);
   int length() { return length_; }
   Isolate* isolate() { return isolate_; }
   void set_filter_proxy_keys(bool filter) { filter_proxy_keys_ = filter; }
   PropertyFilter filter() { return filter_; }

   Maybe<bool> GetKeys_Internal(Handle<JSReceiver> receiver,
                                Handle<JSReceiver> object,
                                KeyCollectionType type);
   static Handle<FixedArray> GetEnumPropertyKeys(Isolate* isolate,
                                                 Handle<JSObject> object);

   void CollectOwnElementKeys(Handle<JSObject> object);
   void CollectOwnPropertyNames(Handle<JSObject> object);

  private:
   bool AddIntegerKey(uint32_t key);
   bool AddStringKey(Handle<Object> key, AddKeyConversion convert);
   bool AddSymbolKey(Handle<Object> array);
   void SortCurrentElementsListRemoveDuplicates();

   Maybe<bool> JSProxyOwnPropertyKeys(Handle<JSReceiver> receiver,
                                      Handle<JSProxy> proxy);
   Maybe<bool> GetKeysFromJSObject(Handle<JSReceiver> receiver,
                                   Handle<JSObject> object,
                                   KeyCollectionType type);

   Isolate* isolate_;
   KeyCollectionType type_;
   PropertyFilter filter_;
   bool filter_proxy_keys_ = true;
   // |elements_| contains the sorted element keys (indices) per level.
   std::vector<std::vector<uint32_t>*> elements_;
   // |protoLengths_| contains the total number of keys (elements + properties)
   // per level. Negative values mark counts for a level with keys from a proxy.
   std::vector<int> level_lengths_;
   // |string_properties_| contains the unique String property keys for all
   // levels in insertion order per level.
   Handle<OrderedHashSet> string_properties_;
   // |symbol_properties_| contains the unique Symbol property keys for all
   // levels in insertion order per level.
   Handle<OrderedHashSet> symbol_properties_;
   Handle<FixedArray> ownProxyKeys_;
   // |length_| keeps track of the total number of all element and property keys.
   int length_ = 0;
   // |levelLength_| keeps track of the number of String keys in the current
   // level.
   int level_string_length_ = 0;
   // |levelSymbolLength_| keeps track of the number of Symbol keys in the
   // current level.
   int level_symbol_length_ = 0;

   DISALLOW_COPY_AND_ASSIGN(KeyAccumulator);
 };

 // The FastKeyAccumulator handles the cases where there are no elements on the
 // prototype chain and forwords the complex/slow cases to the normal
 // KeyAccumulator.
 class FastKeyAccumulator {
  public:
   FastKeyAccumulator(Isolate* isolate, Handle<JSReceiver> receiver,
                      KeyCollectionType type, PropertyFilter filter)
       : isolate_(isolate), receiver_(receiver), type_(type), filter_(filter) {
     Prepare();
     // TODO(cbruni): pass filter_ directly to the KeyAccumulator.
     USE(filter_);
   }

   bool is_receiver_simple_enum() { return is_receiver_simple_enum_; }
   bool has_empty_prototype() { return has_empty_prototype_; }
   void set_filter_proxy_keys(bool filter) { filter_proxy_keys_ = filter; }

   MaybeHandle<FixedArray> GetKeys(GetKeysConversion convert = KEEP_NUMBERS);

  private:
   void Prepare();
   MaybeHandle<FixedArray> GetKeysFast(GetKeysConversion convert);
   MaybeHandle<FixedArray> GetKeysSlow(GetKeysConversion convert);

   Isolate* isolate_;
   Handle<JSReceiver> receiver_;
   KeyCollectionType type_;
   PropertyFilter filter_;
   bool is_receiver_simple_enum_ = false;
   bool has_empty_prototype_ = false;
   bool filter_proxy_keys_ = true;

   DISALLOW_COPY_AND_ASSIGN(FastKeyAccumulator);
 };

 }  // namespace internal
 }  // namespace v8

 #endif  // V8_KEYS_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_KEYS_H_
	#define V8_KEYS_H_

	#include "src/isolate.h"
	#include "src/objects.h"

	namespace v8 {
	namespace internal {

	enum AddKeyConversion { DO_NOT_CONVERT, CONVERT_TO_ARRAY_INDEX, PROXY_MAGIC };

	// This is a helper class for JSReceiver::GetKeys which collects and sorts keys.
	// GetKeys needs to sort keys per prototype level, first showing the integer
	// indices from elements then the strings from the properties. However, this
	// does not apply to proxies which are in full control of how the keys are
	// sorted.
	//
	// For performance reasons the KeyAccumulator internally separates integer keys
	// in \|elements_\| into sorted lists per prototype level. String keys are
	// collected in \|string_properties_\|, a single OrderedHashSet (similar for
	// Symbols in \|symbol_properties_\|. To separate the keys per level later when
	// assembling the final list, \|levelLengths_\| keeps track of the number of
	// String and Symbol keys per level.
	//
	// Only unique keys are kept by the KeyAccumulator, strings are stored in a
	// HashSet for inexpensive lookups. Integer keys are kept in sorted lists which
	// are more compact and allow for reasonably fast includes check.
	class KeyAccumulator final BASE_EMBEDDED {
	public:
	KeyAccumulator(Isolate* isolate, KeyCollectionType type,
	PropertyFilter filter)
	: isolate_(isolate), type_(type), filter_(filter) {}
	~KeyAccumulator();

	bool AddKey(uint32_t key);
	bool AddKey(Object* key, AddKeyConversion convert);
	bool AddKey(Handle<Object> key, AddKeyConversion convert);
	void AddKeys(Handle<FixedArray> array, AddKeyConversion convert);
	void AddKeys(Handle<JSObject> array, AddKeyConversion convert);
	void AddKeysFromProxy(Handle<JSObject> array);
	Maybe<bool> AddKeysFromProxy(Handle<JSProxy> proxy, Handle<FixedArray> keys);
	void AddElementKeysFromInterceptor(Handle<JSObject> array);
	// Jump to the next level, pushing the current \|levelLength_\| to
	// \|levelLengths_\| and adding a new list to \|elements_\|.
	void NextPrototype();
	// Sort the integer indices in the last list in \|elements_\|
	void SortCurrentElementsList();
	Handle<FixedArray> GetKeys(GetKeysConversion convert = KEEP_NUMBERS);
	int length() { return length_; }
	Isolate* isolate() { return isolate_; }
	void set_filter_proxy_keys(bool filter) { filter_proxy_keys_ = filter; }
	PropertyFilter filter() { return filter_; }

	Maybe<bool> GetKeys_Internal(Handle<JSReceiver> receiver,
	Handle<JSReceiver> object,
	KeyCollectionType type);
	static Handle<FixedArray> GetEnumPropertyKeys(Isolate* isolate,
	Handle<JSObject> object);

	void CollectOwnElementKeys(Handle<JSObject> object);
	void CollectOwnPropertyNames(Handle<JSObject> object);

	private:
	bool AddIntegerKey(uint32_t key);
	bool AddStringKey(Handle<Object> key, AddKeyConversion convert);
	bool AddSymbolKey(Handle<Object> array);
	void SortCurrentElementsListRemoveDuplicates();

	Maybe<bool> JSProxyOwnPropertyKeys(Handle<JSReceiver> receiver,
	Handle<JSProxy> proxy);
	Maybe<bool> GetKeysFromJSObject(Handle<JSReceiver> receiver,
	Handle<JSObject> object,
	KeyCollectionType type);

	Isolate* isolate_;
	KeyCollectionType type_;
	PropertyFilter filter_;
	bool filter_proxy_keys_ = true;
	// \|elements_\| contains the sorted element keys (indices) per level.
	std::vector<std::vector<uint32_t>*> elements_;
	// \|protoLengths_\| contains the total number of keys (elements + properties)
	// per level. Negative values mark counts for a level with keys from a proxy.
	std::vector<int> level_lengths_;
	// \|string_properties_\| contains the unique String property keys for all
	// levels in insertion order per level.
	Handle<OrderedHashSet> string_properties_;
	// \|symbol_properties_\| contains the unique Symbol property keys for all
	// levels in insertion order per level.
	Handle<OrderedHashSet> symbol_properties_;
	Handle<FixedArray> ownProxyKeys_;
	// \|length_\| keeps track of the total number of all element and property keys.
	int length_ = 0;
	// \|levelLength_\| keeps track of the number of String keys in the current
	// level.
	int level_string_length_ = 0;
	// \|levelSymbolLength_\| keeps track of the number of Symbol keys in the
	// current level.
	int level_symbol_length_ = 0;

	DISALLOW_COPY_AND_ASSIGN(KeyAccumulator);
	};

	// The FastKeyAccumulator handles the cases where there are no elements on the
	// prototype chain and forwords the complex/slow cases to the normal
	// KeyAccumulator.
	class FastKeyAccumulator {
	public:
	FastKeyAccumulator(Isolate* isolate, Handle<JSReceiver> receiver,
	KeyCollectionType type, PropertyFilter filter)
	: isolate_(isolate), receiver_(receiver), type_(type), filter_(filter) {
	Prepare();
	// TODO(cbruni): pass filter_ directly to the KeyAccumulator.
	USE(filter_);
	}

	bool is_receiver_simple_enum() { return is_receiver_simple_enum_; }
	bool has_empty_prototype() { return has_empty_prototype_; }
	void set_filter_proxy_keys(bool filter) { filter_proxy_keys_ = filter; }

	MaybeHandle<FixedArray> GetKeys(GetKeysConversion convert = KEEP_NUMBERS);

	private:
	void Prepare();
	MaybeHandle<FixedArray> GetKeysFast(GetKeysConversion convert);
	MaybeHandle<FixedArray> GetKeysSlow(GetKeysConversion convert);

	Isolate* isolate_;
	Handle<JSReceiver> receiver_;
	KeyCollectionType type_;
	PropertyFilter filter_;
	bool is_receiver_simple_enum_ = false;
	bool has_empty_prototype_ = false;
	bool filter_proxy_keys_ = true;

	DISALLOW_COPY_AND_ASSIGN(FastKeyAccumulator);
	};

	} // namespace internal
	} // namespace v8

	#endif // V8_KEYS_H_