src/objects/dictionary.h - v8/v8 - Git at Google

 // Copyright 2017 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_OBJECTS_DICTIONARY_H_
 #define V8_OBJECTS_DICTIONARY_H_

 #include "src/base/export-template.h"
 #include "src/globals.h"
 #include "src/objects/hash-table.h"
 #include "src/objects/property-array.h"
 #include "src/objects/smi.h"

 // Has to be the last include (doesn't have include guards):
 #include "src/objects/object-macros.h"

 namespace v8 {
 namespace internal {

 template <typename T>
 class Handle;

 class Isolate;

 template <typename Derived, typename Shape>
 class Dictionary : public HashTable<Derived, Shape> {
   typedef HashTable<Derived, Shape> DerivedHashTable;

  public:
   typedef typename Shape::Key Key;
   // Returns the value at entry.
   Object* ValueAt(int entry) {
     return this->get(DerivedHashTable::EntryToIndex(entry) + 1);
   }

   // Set the value for entry.
   void ValueAtPut(int entry, Object* value) {
     this->set(DerivedHashTable::EntryToIndex(entry) + 1, value);
   }

   // Returns the property details for the property at entry.
   PropertyDetails DetailsAt(int entry) {
     return Shape::DetailsAt(Derived::cast(*this), entry);
   }

   // Set the details for entry.
   void DetailsAtPut(Isolate* isolate, int entry, PropertyDetails value) {
     Shape::DetailsAtPut(isolate, Derived::cast(*this), entry, value);
   }

   // Delete a property from the dictionary.
   V8_WARN_UNUSED_RESULT static Handle<Derived> DeleteEntry(
       Isolate* isolate, Handle<Derived> dictionary, int entry);

   // Attempt to shrink the dictionary after deletion of key.
   V8_WARN_UNUSED_RESULT static inline Handle<Derived> Shrink(
       Isolate* isolate, Handle<Derived> dictionary) {
     return DerivedHashTable::Shrink(isolate, dictionary);
   }

   int NumberOfEnumerableProperties();

 #ifdef OBJECT_PRINT
   // For our gdb macros, we should perhaps change these in the future.
   void Print();

   void Print(std::ostream& os);  // NOLINT
 #endif
   // Returns the key (slow).
   Object* SlowReverseLookup(Object* value);

   // Sets the entry to (key, value) pair.
   inline void ClearEntry(Isolate* isolate, int entry);
   inline void SetEntry(Isolate* isolate, int entry, Object* key, Object* value,
                        PropertyDetails details);

   V8_WARN_UNUSED_RESULT static Handle<Derived> Add(
       Isolate* isolate, Handle<Derived> dictionary, Key key,
       Handle<Object> value, PropertyDetails details, int* entry_out = nullptr);

  protected:
   // Generic at put operation.
   V8_WARN_UNUSED_RESULT static Handle<Derived> AtPut(Isolate* isolate,
                                                      Handle<Derived> dictionary,
                                                      Key key,
                                                      Handle<Object> value,
                                                      PropertyDetails details);

   OBJECT_CONSTRUCTORS(Dictionary, HashTable<Derived, Shape>)
 };

 template <typename Key>
 class BaseDictionaryShape : public BaseShape<Key> {
  public:
   static const bool kHasDetails = true;
   template <typename Dictionary>
   static inline PropertyDetails DetailsAt(Dictionary dict, int entry) {
     STATIC_ASSERT(Dictionary::kEntrySize == 3);
     DCHECK_GE(entry, 0);  // Not found is -1, which is not caught by get().
     return PropertyDetails(Smi::cast(dict->get(
         Dictionary::EntryToIndex(entry) + Dictionary::kEntryDetailsIndex)));
   }

   template <typename Dictionary>
   static inline void DetailsAtPut(Isolate* isolate, Dictionary dict, int entry,
                                   PropertyDetails value) {
     STATIC_ASSERT(Dictionary::kEntrySize == 3);
     dict->set(Dictionary::EntryToIndex(entry) + Dictionary::kEntryDetailsIndex,
               value.AsSmi());
   }
 };

 class NameDictionaryShape : public BaseDictionaryShape<Handle<Name>> {
  public:
   static inline bool IsMatch(Handle<Name> key, Object* other);
   static inline uint32_t Hash(Isolate* isolate, Handle<Name> key);
   static inline uint32_t HashForObject(Isolate* isolate, Object* object);
   static inline Handle<Object> AsHandle(Isolate* isolate, Handle<Name> key);
   static inline RootIndex GetMapRootIndex();
   static const int kPrefixSize = 2;
   static const int kEntrySize = 3;
   static const int kEntryValueIndex = 1;
   static const bool kNeedsHoleCheck = false;
 };

 template <typename Derived, typename Shape>
 class BaseNameDictionary : public Dictionary<Derived, Shape> {
   typedef typename Shape::Key Key;

  public:
   static const int kNextEnumerationIndexIndex =
       HashTableBase::kPrefixStartIndex;
   static const int kObjectHashIndex = kNextEnumerationIndexIndex + 1;
   static const int kEntryValueIndex = 1;

   // Accessors for next enumeration index.
   void SetNextEnumerationIndex(int index) {
     DCHECK_NE(0, index);
     this->set(kNextEnumerationIndexIndex, Smi::FromInt(index));
   }

   int NextEnumerationIndex() {
     return Smi::ToInt(this->get(kNextEnumerationIndexIndex));
   }

   void SetHash(int hash) {
     DCHECK(PropertyArray::HashField::is_valid(hash));
     this->set(kObjectHashIndex, Smi::FromInt(hash));
   }

   int Hash() const {
     Object* hash_obj = this->get(kObjectHashIndex);
     int hash = Smi::ToInt(hash_obj);
     DCHECK(PropertyArray::HashField::is_valid(hash));
     return hash;
   }

   // Creates a new dictionary.
   V8_WARN_UNUSED_RESULT static Handle<Derived> New(
       Isolate* isolate, int at_least_space_for,
       PretenureFlag pretenure = NOT_TENURED,
       MinimumCapacity capacity_option = USE_DEFAULT_MINIMUM_CAPACITY);

   // Collect the keys into the given KeyAccumulator, in ascending chronological
   // order of property creation.
   static void CollectKeysTo(Handle<Derived> dictionary, KeyAccumulator* keys);

   // Return the key indices sorted by its enumeration index.
   static Handle<FixedArray> IterationIndices(Isolate* isolate,
                                              Handle<Derived> dictionary);

   // Copies enumerable keys to preallocated fixed array.
   // Does not throw for uninitialized exports in module namespace objects, so
   // this has to be checked separately.
   static void CopyEnumKeysTo(Isolate* isolate, Handle<Derived> dictionary,
                              Handle<FixedArray> storage, KeyCollectionMode mode,
                              KeyAccumulator* accumulator);

   // Ensure enough space for n additional elements.
   static Handle<Derived> EnsureCapacity(Isolate* isolate,
                                         Handle<Derived> dictionary, int n);

   V8_WARN_UNUSED_RESULT static Handle<Derived> AddNoUpdateNextEnumerationIndex(
       Isolate* isolate, Handle<Derived> dictionary, Key key,
       Handle<Object> value, PropertyDetails details, int* entry_out = nullptr);

   V8_WARN_UNUSED_RESULT static Handle<Derived> Add(
       Isolate* isolate, Handle<Derived> dictionary, Key key,
       Handle<Object> value, PropertyDetails details, int* entry_out = nullptr);

   OBJECT_CONSTRUCTORS(BaseNameDictionary, Dictionary<Derived, Shape>)
 };

 class NameDictionary
     : public BaseNameDictionary<NameDictionary, NameDictionaryShape> {
  public:
   DECL_CAST2(NameDictionary)

   static const int kEntryDetailsIndex = 2;
   static const int kInitialCapacity = 2;

   inline Name* NameAt(int entry);
   inline void set_hash(int hash);
   inline int hash() const;

   OBJECT_CONSTRUCTORS(NameDictionary,
                       BaseNameDictionary<NameDictionary, NameDictionaryShape>)
 };

 class GlobalDictionaryShape : public NameDictionaryShape {
  public:
   static inline bool IsMatch(Handle<Name> key, Object* other);
   static inline uint32_t HashForObject(Isolate* isolate, Object* object);

   static const int kEntrySize = 1;  // Overrides NameDictionaryShape::kEntrySize

   template <typename Dictionary>
   static inline PropertyDetails DetailsAt(Dictionary dict, int entry);

   template <typename Dictionary>
   static inline void DetailsAtPut(Isolate* isolate, Dictionary dict, int entry,
                                   PropertyDetails value);

   static inline Object* Unwrap(Object* key);
   static inline bool IsKey(ReadOnlyRoots roots, Object* k);
   static inline bool IsLive(ReadOnlyRoots roots, Object* key);
   static inline RootIndex GetMapRootIndex();
 };

 class GlobalDictionary
     : public BaseNameDictionary<GlobalDictionary, GlobalDictionaryShape> {
  public:
   DECL_CAST2(GlobalDictionary)

   inline Object* ValueAt(int entry);
   inline PropertyCell* CellAt(int entry);
   inline void SetEntry(Isolate* isolate, int entry, Object* key, Object* value,
                        PropertyDetails details);
   inline Name* NameAt(int entry);
   inline void ValueAtPut(int entry, Object* value);

   OBJECT_CONSTRUCTORS(
       GlobalDictionary,
       BaseNameDictionary<GlobalDictionary, GlobalDictionaryShape>)
 };

 class NumberDictionaryBaseShape : public BaseDictionaryShape<uint32_t> {
  public:
   static inline bool IsMatch(uint32_t key, Object* other);
   static inline Handle<Object> AsHandle(Isolate* isolate, uint32_t key);

   static inline uint32_t Hash(Isolate* isolate, uint32_t key);
   static inline uint32_t HashForObject(Isolate* isolate, Object* object);
 };

 class NumberDictionaryShape : public NumberDictionaryBaseShape {
  public:
   static const int kPrefixSize = 1;
   static const int kEntrySize = 3;

   static inline RootIndex GetMapRootIndex();
 };

 class SimpleNumberDictionaryShape : public NumberDictionaryBaseShape {
  public:
   static const bool kHasDetails = false;
   static const int kPrefixSize = 0;
   static const int kEntrySize = 2;

   template <typename Dictionary>
   static inline PropertyDetails DetailsAt(Dictionary dict, int entry) {
     UNREACHABLE();
   }

   template <typename Dictionary>
   static inline void DetailsAtPut(Isolate* isolate, Dictionary dict, int entry,
                                   PropertyDetails value) {
     UNREACHABLE();
   }

   static inline RootIndex GetMapRootIndex();
 };

 extern template class EXPORT_TEMPLATE_DECLARE(V8_EXPORT_PRIVATE)
     HashTable<SimpleNumberDictionary, SimpleNumberDictionaryShape>;

 extern template class EXPORT_TEMPLATE_DECLARE(V8_EXPORT_PRIVATE)
     Dictionary<SimpleNumberDictionary, SimpleNumberDictionaryShape>;

 // SimpleNumberDictionary is used to map number to an entry.
 class SimpleNumberDictionary
     : public Dictionary<SimpleNumberDictionary, SimpleNumberDictionaryShape> {
  public:
   DECL_CAST2(SimpleNumberDictionary)
   // Type specific at put (default NONE attributes is used when adding).
   V8_WARN_UNUSED_RESULT static Handle<SimpleNumberDictionary> Set(
       Isolate* isolate, Handle<SimpleNumberDictionary> dictionary, uint32_t key,
       Handle<Object> value);

   static const int kEntryValueIndex = 1;

   OBJECT_CONSTRUCTORS(
       SimpleNumberDictionary,
       Dictionary<SimpleNumberDictionary, SimpleNumberDictionaryShape>)
 };

 extern template class EXPORT_TEMPLATE_DECLARE(
     V8_EXPORT_PRIVATE) HashTable<NumberDictionary, NumberDictionaryShape>;

 extern template class EXPORT_TEMPLATE_DECLARE(V8_EXPORT_PRIVATE)
     Dictionary<NumberDictionary, NumberDictionaryShape>;

 // NumberDictionary is used as elements backing store and provides a bitfield
 // and stores property details for every entry.
 class NumberDictionary
     : public Dictionary<NumberDictionary, NumberDictionaryShape> {
  public:
   DECL_CAST2(NumberDictionary)
   DECL_PRINTER(NumberDictionary)

   // Type specific at put (default NONE attributes is used when adding).
   V8_WARN_UNUSED_RESULT static Handle<NumberDictionary> Set(
       Isolate* isolate, Handle<NumberDictionary> dictionary, uint32_t key,
       Handle<Object> value,
       Handle<JSObject> dictionary_holder = Handle<JSObject>::null(),
       PropertyDetails details = PropertyDetails::Empty());

   static const int kMaxNumberKeyIndex = kPrefixStartIndex;
   void UpdateMaxNumberKey(uint32_t key, Handle<JSObject> dictionary_holder);

   // Returns true if the dictionary contains any elements that are non-writable,
   // non-configurable, non-enumerable, or have getters/setters.
   bool HasComplexElements();

   // Sorting support
   void CopyValuesTo(FixedArray elements);

   // If slow elements are required we will never go back to fast-case
   // for the elements kept in this dictionary.  We require slow
   // elements if an element has been added at an index larger than
   // kRequiresSlowElementsLimit or set_requires_slow_elements() has been called
   // when defining a getter or setter with a number key.
   inline bool requires_slow_elements();
   inline void set_requires_slow_elements();

   // Get the value of the max number key that has been added to this
   // dictionary.  max_number_key can only be called if
   // requires_slow_elements returns false.
   inline uint32_t max_number_key();

   static const int kEntryValueIndex = 1;
   static const int kEntryDetailsIndex = 2;

   // Bit masks.
   static const int kRequiresSlowElementsMask = 1;
   static const int kRequiresSlowElementsTagSize = 1;
   static const uint32_t kRequiresSlowElementsLimit = (1 << 29) - 1;

   // JSObjects prefer dictionary elements if the dictionary saves this much
   // memory compared to a fast elements backing store.
   static const uint32_t kPreferFastElementsSizeFactor = 3;

   OBJECT_CONSTRUCTORS(NumberDictionary,
                       Dictionary<NumberDictionary, NumberDictionaryShape>)
 };

 }  // namespace internal
 }  // namespace v8

 #include "src/objects/object-macros-undef.h"

 #endif  // V8_OBJECTS_DICTIONARY_H_
	// Copyright 2017 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_OBJECTS_DICTIONARY_H_
	#define V8_OBJECTS_DICTIONARY_H_

	#include "src/base/export-template.h"
	#include "src/globals.h"
	#include "src/objects/hash-table.h"
	#include "src/objects/property-array.h"
	#include "src/objects/smi.h"

	// Has to be the last include (doesn't have include guards):
	#include "src/objects/object-macros.h"

	namespace v8 {
	namespace internal {

	template <typename T>
	class Handle;

	class Isolate;

	template <typename Derived, typename Shape>
	class Dictionary : public HashTable<Derived, Shape> {
	typedef HashTable<Derived, Shape> DerivedHashTable;

	public:
	typedef typename Shape::Key Key;
	// Returns the value at entry.
	Object* ValueAt(int entry) {
	return this->get(DerivedHashTable::EntryToIndex(entry) + 1);
	}

	// Set the value for entry.
	void ValueAtPut(int entry, Object* value) {
	this->set(DerivedHashTable::EntryToIndex(entry) + 1, value);
	}

	// Returns the property details for the property at entry.
	PropertyDetails DetailsAt(int entry) {
	return Shape::DetailsAt(Derived::cast(*this), entry);
	}

	// Set the details for entry.
	void DetailsAtPut(Isolate* isolate, int entry, PropertyDetails value) {
	Shape::DetailsAtPut(isolate, Derived::cast(*this), entry, value);
	}

	// Delete a property from the dictionary.
	V8_WARN_UNUSED_RESULT static Handle<Derived> DeleteEntry(
	Isolate* isolate, Handle<Derived> dictionary, int entry);

	// Attempt to shrink the dictionary after deletion of key.
	V8_WARN_UNUSED_RESULT static inline Handle<Derived> Shrink(
	Isolate* isolate, Handle<Derived> dictionary) {
	return DerivedHashTable::Shrink(isolate, dictionary);
	}

	int NumberOfEnumerableProperties();

	#ifdef OBJECT_PRINT
	// For our gdb macros, we should perhaps change these in the future.
	void Print();

	void Print(std::ostream& os); // NOLINT
	#endif
	// Returns the key (slow).
	Object* SlowReverseLookup(Object* value);

	// Sets the entry to (key, value) pair.
	inline void ClearEntry(Isolate* isolate, int entry);
	inline void SetEntry(Isolate* isolate, int entry, Object* key, Object* value,
	PropertyDetails details);

	V8_WARN_UNUSED_RESULT static Handle<Derived> Add(
	Isolate* isolate, Handle<Derived> dictionary, Key key,
	Handle<Object> value, PropertyDetails details, int* entry_out = nullptr);

	protected:
	// Generic at put operation.
	V8_WARN_UNUSED_RESULT static Handle<Derived> AtPut(Isolate* isolate,
	Handle<Derived> dictionary,
	Key key,
	Handle<Object> value,
	PropertyDetails details);

	OBJECT_CONSTRUCTORS(Dictionary, HashTable<Derived, Shape>)
	};

	template <typename Key>
	class BaseDictionaryShape : public BaseShape<Key> {
	public:
	static const bool kHasDetails = true;
	template <typename Dictionary>
	static inline PropertyDetails DetailsAt(Dictionary dict, int entry) {
	STATIC_ASSERT(Dictionary::kEntrySize == 3);
	DCHECK_GE(entry, 0); // Not found is -1, which is not caught by get().
	return PropertyDetails(Smi::cast(dict->get(
	Dictionary::EntryToIndex(entry) + Dictionary::kEntryDetailsIndex)));
	}

	template <typename Dictionary>
	static inline void DetailsAtPut(Isolate* isolate, Dictionary dict, int entry,
	PropertyDetails value) {
	STATIC_ASSERT(Dictionary::kEntrySize == 3);
	dict->set(Dictionary::EntryToIndex(entry) + Dictionary::kEntryDetailsIndex,
	value.AsSmi());
	}
	};

	class NameDictionaryShape : public BaseDictionaryShape<Handle<Name>> {
	public:
	static inline bool IsMatch(Handle<Name> key, Object* other);
	static inline uint32_t Hash(Isolate* isolate, Handle<Name> key);
	static inline uint32_t HashForObject(Isolate* isolate, Object* object);
	static inline Handle<Object> AsHandle(Isolate* isolate, Handle<Name> key);
	static inline RootIndex GetMapRootIndex();
	static const int kPrefixSize = 2;
	static const int kEntrySize = 3;
	static const int kEntryValueIndex = 1;
	static const bool kNeedsHoleCheck = false;
	};

	template <typename Derived, typename Shape>
	class BaseNameDictionary : public Dictionary<Derived, Shape> {
	typedef typename Shape::Key Key;

	public:
	static const int kNextEnumerationIndexIndex =
	HashTableBase::kPrefixStartIndex;
	static const int kObjectHashIndex = kNextEnumerationIndexIndex + 1;
	static const int kEntryValueIndex = 1;

	// Accessors for next enumeration index.
	void SetNextEnumerationIndex(int index) {
	DCHECK_NE(0, index);
	this->set(kNextEnumerationIndexIndex, Smi::FromInt(index));
	}

	int NextEnumerationIndex() {
	return Smi::ToInt(this->get(kNextEnumerationIndexIndex));
	}

	void SetHash(int hash) {
	DCHECK(PropertyArray::HashField::is_valid(hash));
	this->set(kObjectHashIndex, Smi::FromInt(hash));
	}

	int Hash() const {
	Object* hash_obj = this->get(kObjectHashIndex);
	int hash = Smi::ToInt(hash_obj);
	DCHECK(PropertyArray::HashField::is_valid(hash));
	return hash;
	}

	// Creates a new dictionary.
	V8_WARN_UNUSED_RESULT static Handle<Derived> New(
	Isolate* isolate, int at_least_space_for,
	PretenureFlag pretenure = NOT_TENURED,
	MinimumCapacity capacity_option = USE_DEFAULT_MINIMUM_CAPACITY);

	// Collect the keys into the given KeyAccumulator, in ascending chronological
	// order of property creation.
	static void CollectKeysTo(Handle<Derived> dictionary, KeyAccumulator* keys);

	// Return the key indices sorted by its enumeration index.
	static Handle<FixedArray> IterationIndices(Isolate* isolate,
	Handle<Derived> dictionary);

	// Copies enumerable keys to preallocated fixed array.
	// Does not throw for uninitialized exports in module namespace objects, so
	// this has to be checked separately.
	static void CopyEnumKeysTo(Isolate* isolate, Handle<Derived> dictionary,
	Handle<FixedArray> storage, KeyCollectionMode mode,
	KeyAccumulator* accumulator);

	// Ensure enough space for n additional elements.
	static Handle<Derived> EnsureCapacity(Isolate* isolate,
	Handle<Derived> dictionary, int n);

	V8_WARN_UNUSED_RESULT static Handle<Derived> AddNoUpdateNextEnumerationIndex(
	Isolate* isolate, Handle<Derived> dictionary, Key key,
	Handle<Object> value, PropertyDetails details, int* entry_out = nullptr);

	V8_WARN_UNUSED_RESULT static Handle<Derived> Add(
	Isolate* isolate, Handle<Derived> dictionary, Key key,
	Handle<Object> value, PropertyDetails details, int* entry_out = nullptr);

	OBJECT_CONSTRUCTORS(BaseNameDictionary, Dictionary<Derived, Shape>)
	};

	class NameDictionary
	: public BaseNameDictionary<NameDictionary, NameDictionaryShape> {
	public:
	DECL_CAST2(NameDictionary)

	static const int kEntryDetailsIndex = 2;
	static const int kInitialCapacity = 2;

	inline Name* NameAt(int entry);
	inline void set_hash(int hash);
	inline int hash() const;

	OBJECT_CONSTRUCTORS(NameDictionary,
	BaseNameDictionary<NameDictionary, NameDictionaryShape>)
	};

	class GlobalDictionaryShape : public NameDictionaryShape {
	public:
	static inline bool IsMatch(Handle<Name> key, Object* other);
	static inline uint32_t HashForObject(Isolate* isolate, Object* object);

	static const int kEntrySize = 1; // Overrides NameDictionaryShape::kEntrySize

	template <typename Dictionary>
	static inline PropertyDetails DetailsAt(Dictionary dict, int entry);

	template <typename Dictionary>
	static inline void DetailsAtPut(Isolate* isolate, Dictionary dict, int entry,
	PropertyDetails value);

	static inline Object* Unwrap(Object* key);
	static inline bool IsKey(ReadOnlyRoots roots, Object* k);
	static inline bool IsLive(ReadOnlyRoots roots, Object* key);
	static inline RootIndex GetMapRootIndex();
	};

	class GlobalDictionary
	: public BaseNameDictionary<GlobalDictionary, GlobalDictionaryShape> {
	public:
	DECL_CAST2(GlobalDictionary)

	inline Object* ValueAt(int entry);
	inline PropertyCell* CellAt(int entry);
	inline void SetEntry(Isolate* isolate, int entry, Object* key, Object* value,
	PropertyDetails details);
	inline Name* NameAt(int entry);
	inline void ValueAtPut(int entry, Object* value);

	OBJECT_CONSTRUCTORS(
	GlobalDictionary,
	BaseNameDictionary<GlobalDictionary, GlobalDictionaryShape>)
	};

	class NumberDictionaryBaseShape : public BaseDictionaryShape<uint32_t> {
	public:
	static inline bool IsMatch(uint32_t key, Object* other);
	static inline Handle<Object> AsHandle(Isolate* isolate, uint32_t key);

	static inline uint32_t Hash(Isolate* isolate, uint32_t key);
	static inline uint32_t HashForObject(Isolate* isolate, Object* object);
	};

	class NumberDictionaryShape : public NumberDictionaryBaseShape {
	public:
	static const int kPrefixSize = 1;
	static const int kEntrySize = 3;

	static inline RootIndex GetMapRootIndex();
	};

	class SimpleNumberDictionaryShape : public NumberDictionaryBaseShape {
	public:
	static const bool kHasDetails = false;
	static const int kPrefixSize = 0;
	static const int kEntrySize = 2;

	template <typename Dictionary>
	static inline PropertyDetails DetailsAt(Dictionary dict, int entry) {
	UNREACHABLE();
	}

	template <typename Dictionary>
	static inline void DetailsAtPut(Isolate* isolate, Dictionary dict, int entry,
	PropertyDetails value) {
	UNREACHABLE();
	}

	static inline RootIndex GetMapRootIndex();
	};

	extern template class EXPORT_TEMPLATE_DECLARE(V8_EXPORT_PRIVATE)
	HashTable<SimpleNumberDictionary, SimpleNumberDictionaryShape>;

	extern template class EXPORT_TEMPLATE_DECLARE(V8_EXPORT_PRIVATE)
	Dictionary<SimpleNumberDictionary, SimpleNumberDictionaryShape>;

	// SimpleNumberDictionary is used to map number to an entry.
	class SimpleNumberDictionary
	: public Dictionary<SimpleNumberDictionary, SimpleNumberDictionaryShape> {
	public:
	DECL_CAST2(SimpleNumberDictionary)
	// Type specific at put (default NONE attributes is used when adding).
	V8_WARN_UNUSED_RESULT static Handle<SimpleNumberDictionary> Set(
	Isolate* isolate, Handle<SimpleNumberDictionary> dictionary, uint32_t key,
	Handle<Object> value);

	static const int kEntryValueIndex = 1;

	OBJECT_CONSTRUCTORS(
	SimpleNumberDictionary,
	Dictionary<SimpleNumberDictionary, SimpleNumberDictionaryShape>)
	};

	extern template class EXPORT_TEMPLATE_DECLARE(
	V8_EXPORT_PRIVATE) HashTable<NumberDictionary, NumberDictionaryShape>;

	extern template class EXPORT_TEMPLATE_DECLARE(V8_EXPORT_PRIVATE)
	Dictionary<NumberDictionary, NumberDictionaryShape>;

	// NumberDictionary is used as elements backing store and provides a bitfield
	// and stores property details for every entry.
	class NumberDictionary
	: public Dictionary<NumberDictionary, NumberDictionaryShape> {
	public:
	DECL_CAST2(NumberDictionary)
	DECL_PRINTER(NumberDictionary)

	// Type specific at put (default NONE attributes is used when adding).
	V8_WARN_UNUSED_RESULT static Handle<NumberDictionary> Set(
	Isolate* isolate, Handle<NumberDictionary> dictionary, uint32_t key,
	Handle<Object> value,
	Handle<JSObject> dictionary_holder = Handle<JSObject>::null(),
	PropertyDetails details = PropertyDetails::Empty());

	static const int kMaxNumberKeyIndex = kPrefixStartIndex;
	void UpdateMaxNumberKey(uint32_t key, Handle<JSObject> dictionary_holder);

	// Returns true if the dictionary contains any elements that are non-writable,
	// non-configurable, non-enumerable, or have getters/setters.
	bool HasComplexElements();

	// Sorting support
	void CopyValuesTo(FixedArray elements);

	// If slow elements are required we will never go back to fast-case
	// for the elements kept in this dictionary. We require slow
	// elements if an element has been added at an index larger than
	// kRequiresSlowElementsLimit or set_requires_slow_elements() has been called
	// when defining a getter or setter with a number key.
	inline bool requires_slow_elements();
	inline void set_requires_slow_elements();

	// Get the value of the max number key that has been added to this
	// dictionary. max_number_key can only be called if
	// requires_slow_elements returns false.
	inline uint32_t max_number_key();

	static const int kEntryValueIndex = 1;
	static const int kEntryDetailsIndex = 2;

	// Bit masks.
	static const int kRequiresSlowElementsMask = 1;
	static const int kRequiresSlowElementsTagSize = 1;
	static const uint32_t kRequiresSlowElementsLimit = (1 << 29) - 1;

	// JSObjects prefer dictionary elements if the dictionary saves this much
	// memory compared to a fast elements backing store.
	static const uint32_t kPreferFastElementsSizeFactor = 3;

	OBJECT_CONSTRUCTORS(NumberDictionary,
	Dictionary<NumberDictionary, NumberDictionaryShape>)
	};

	} // namespace internal
	} // namespace v8

	#include "src/objects/object-macros-undef.h"

	#endif // V8_OBJECTS_DICTIONARY_H_