src/v8/src/objects/name.h - cobalt - 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_NAME_H_
 #define V8_OBJECTS_NAME_H_

 #include "src/objects.h"

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

 namespace v8 {
 namespace internal {

 // The Name abstract class captures anything that can be used as a property
 // name, i.e., strings and symbols.  All names store a hash value.
 class Name : public HeapObject {
  public:
   // Get and set the hash field of the name.
   inline uint32_t hash_field();
   inline void set_hash_field(uint32_t value);

   // Tells whether the hash code has been computed.
   inline bool HasHashCode();

   // Returns a hash value used for the property table
   inline uint32_t Hash();

   // Equality operations.
   inline bool Equals(Name* other);
   inline static bool Equals(Handle<Name> one, Handle<Name> two);

   // Conversion.
   inline bool AsArrayIndex(uint32_t* index);

   // An "interesting symbol" is a well-known symbol, like @@toStringTag,
   // that's often looked up on random objects but is usually not present.
   // We optimize this by setting a flag on the object's map when such
   // symbol properties are added, so we can optimize lookups on objects
   // that don't have the flag.
   inline bool IsInterestingSymbol() const;

   // If the name is private, it can only name own properties.
   inline bool IsPrivate();

   inline bool IsUniqueName() const;

   static inline bool ContainsCachedArrayIndex(uint32_t hash);

   // Return a string version of this name that is converted according to the
   // rules described in ES6 section 9.2.11.
   MUST_USE_RESULT static MaybeHandle<String> ToFunctionName(Handle<Name> name);
   MUST_USE_RESULT static MaybeHandle<String> ToFunctionName(
       Handle<Name> name, Handle<String> prefix);

   DECL_CAST(Name)

   DECL_PRINTER(Name)
   void NameShortPrint();
   int NameShortPrint(Vector<char> str);

   // Layout description.
   static const int kHashFieldSlot = HeapObject::kHeaderSize;
 #if V8_TARGET_LITTLE_ENDIAN || !V8_HOST_ARCH_64_BIT
   static const int kHashFieldOffset = kHashFieldSlot;
 #else
   static const int kHashFieldOffset = kHashFieldSlot + kInt32Size;
 #endif
   static const int kSize = kHashFieldSlot + kPointerSize;

   // Mask constant for checking if a name has a computed hash code
   // and if it is a string that is an array index.  The least significant bit
   // indicates whether a hash code has been computed.  If the hash code has
   // been computed the 2nd bit tells whether the string can be used as an
   // array index.
   static const int kHashNotComputedMask = 1;
   static const int kIsNotArrayIndexMask = 1 << 1;
   static const int kNofHashBitFields = 2;

   // Shift constant retrieving hash code from hash field.
   static const int kHashShift = kNofHashBitFields;

   // Only these bits are relevant in the hash, since the top two are shifted
   // out.
   static const uint32_t kHashBitMask = 0xffffffffu >> kHashShift;

   // Array index strings this short can keep their index in the hash field.
   static const int kMaxCachedArrayIndexLength = 7;

   // Maximum number of characters to consider when trying to convert a string
   // value into an array index.
   static const int kMaxArrayIndexSize = 10;

   // For strings which are array indexes the hash value has the string length
   // mixed into the hash, mainly to avoid a hash value of zero which would be
   // the case for the string '0'. 24 bits are used for the array index value.
   static const int kArrayIndexValueBits = 24;
   static const int kArrayIndexLengthBits =
       kBitsPerInt - kArrayIndexValueBits - kNofHashBitFields;

   STATIC_ASSERT(kArrayIndexLengthBits > 0);
   STATIC_ASSERT(kMaxArrayIndexSize < (1 << kArrayIndexLengthBits));

   class ArrayIndexValueBits
       : public BitField<unsigned int, kNofHashBitFields, kArrayIndexValueBits> {
   };  // NOLINT
   class ArrayIndexLengthBits
       : public BitField<unsigned int, kNofHashBitFields + kArrayIndexValueBits,
                         kArrayIndexLengthBits> {};  // NOLINT

   // Check that kMaxCachedArrayIndexLength + 1 is a power of two so we
   // could use a mask to test if the length of string is less than or equal to
   // kMaxCachedArrayIndexLength.
   static_assert(base::bits::IsPowerOfTwo(kMaxCachedArrayIndexLength + 1),
                 "(kMaxCachedArrayIndexLength + 1) must be power of two");

   // When any of these bits is set then the hash field does not contain a cached
   // array index.
   static const unsigned int kDoesNotContainCachedArrayIndexMask =
       (~static_cast<unsigned>(kMaxCachedArrayIndexLength)
        << ArrayIndexLengthBits::kShift) |
       kIsNotArrayIndexMask;

   // Value of empty hash field indicating that the hash is not computed.
   static const int kEmptyHashField =
       kIsNotArrayIndexMask | kHashNotComputedMask;

  protected:
   static inline bool IsHashFieldComputed(uint32_t field);

  private:
   DISALLOW_IMPLICIT_CONSTRUCTORS(Name);
 };

 // ES6 symbols.
 class Symbol : public Name {
  public:
   // [name]: The print name of a symbol, or undefined if none.
   DECL_ACCESSORS(name, Object)

   DECL_INT_ACCESSORS(flags)

   // [is_private]: Whether this is a private symbol.  Private symbols can only
   // be used to designate own properties of objects.
   DECL_BOOLEAN_ACCESSORS(is_private)

   // [is_well_known_symbol]: Whether this is a spec-defined well-known symbol,
   // or not. Well-known symbols do not throw when an access check fails during
   // a load.
   DECL_BOOLEAN_ACCESSORS(is_well_known_symbol)

   // [is_interesting_symbol]: Whether this is an "interesting symbol", which
   // is a well-known symbol like @@toStringTag that's often looked up on
   // random objects but is usually not present. See Name::IsInterestingSymbol()
   // for a detailed description.
   DECL_BOOLEAN_ACCESSORS(is_interesting_symbol)

   // [is_public]: Whether this is a symbol created by Symbol.for. Calling
   // Symbol.keyFor on such a symbol simply needs to return the attached name.
   DECL_BOOLEAN_ACCESSORS(is_public)

   DECL_CAST(Symbol)

   // Dispatched behavior.
   DECL_PRINTER(Symbol)
   DECL_VERIFIER(Symbol)

   // Layout description.
   static const int kNameOffset = Name::kSize;
   static const int kFlagsOffset = kNameOffset + kPointerSize;
   static const int kSize = kFlagsOffset + kPointerSize;

   // Flags layout.
   static const int kPrivateBit = 0;
   static const int kWellKnownSymbolBit = 1;
   static const int kPublicBit = 2;
   static const int kInterestingSymbolBit = 3;

   typedef FixedBodyDescriptor<kNameOffset, kFlagsOffset, kSize> BodyDescriptor;
   // No weak fields.
   typedef BodyDescriptor BodyDescriptorWeak;

   void SymbolShortPrint(std::ostream& os);

  private:
   const char* PrivateSymbolToName() const;

   // TODO(cbruni): remove once the new maptracer is in place.
   friend class Name;  // For PrivateSymbolToName.

   DISALLOW_IMPLICIT_CONSTRUCTORS(Symbol);
 };

 }  // namespace internal
 }  // namespace v8

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

 #endif  // V8_OBJECTS_NAME_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_NAME_H_
	#define V8_OBJECTS_NAME_H_

	#include "src/objects.h"

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

	namespace v8 {
	namespace internal {

	// The Name abstract class captures anything that can be used as a property
	// name, i.e., strings and symbols. All names store a hash value.
	class Name : public HeapObject {
	public:
	// Get and set the hash field of the name.
	inline uint32_t hash_field();
	inline void set_hash_field(uint32_t value);

	// Tells whether the hash code has been computed.
	inline bool HasHashCode();

	// Returns a hash value used for the property table
	inline uint32_t Hash();

	// Equality operations.
	inline bool Equals(Name* other);
	inline static bool Equals(Handle<Name> one, Handle<Name> two);

	// Conversion.
	inline bool AsArrayIndex(uint32_t* index);

	// An "interesting symbol" is a well-known symbol, like @@toStringTag,
	// that's often looked up on random objects but is usually not present.
	// We optimize this by setting a flag on the object's map when such
	// symbol properties are added, so we can optimize lookups on objects
	// that don't have the flag.
	inline bool IsInterestingSymbol() const;

	// If the name is private, it can only name own properties.
	inline bool IsPrivate();

	inline bool IsUniqueName() const;

	static inline bool ContainsCachedArrayIndex(uint32_t hash);

	// Return a string version of this name that is converted according to the
	// rules described in ES6 section 9.2.11.
	MUST_USE_RESULT static MaybeHandle<String> ToFunctionName(Handle<Name> name);
	MUST_USE_RESULT static MaybeHandle<String> ToFunctionName(
	Handle<Name> name, Handle<String> prefix);

	DECL_CAST(Name)

	DECL_PRINTER(Name)
	void NameShortPrint();
	int NameShortPrint(Vector<char> str);

	// Layout description.
	static const int kHashFieldSlot = HeapObject::kHeaderSize;
	#if V8_TARGET_LITTLE_ENDIAN \|\| !V8_HOST_ARCH_64_BIT
	static const int kHashFieldOffset = kHashFieldSlot;
	#else
	static const int kHashFieldOffset = kHashFieldSlot + kInt32Size;
	#endif
	static const int kSize = kHashFieldSlot + kPointerSize;

	// Mask constant for checking if a name has a computed hash code
	// and if it is a string that is an array index. The least significant bit
	// indicates whether a hash code has been computed. If the hash code has
	// been computed the 2nd bit tells whether the string can be used as an
	// array index.
	static const int kHashNotComputedMask = 1;
	static const int kIsNotArrayIndexMask = 1 << 1;
	static const int kNofHashBitFields = 2;

	// Shift constant retrieving hash code from hash field.
	static const int kHashShift = kNofHashBitFields;

	// Only these bits are relevant in the hash, since the top two are shifted
	// out.
	static const uint32_t kHashBitMask = 0xffffffffu >> kHashShift;

	// Array index strings this short can keep their index in the hash field.
	static const int kMaxCachedArrayIndexLength = 7;

	// Maximum number of characters to consider when trying to convert a string
	// value into an array index.
	static const int kMaxArrayIndexSize = 10;

	// For strings which are array indexes the hash value has the string length
	// mixed into the hash, mainly to avoid a hash value of zero which would be
	// the case for the string '0'. 24 bits are used for the array index value.
	static const int kArrayIndexValueBits = 24;
	static const int kArrayIndexLengthBits =
	kBitsPerInt - kArrayIndexValueBits - kNofHashBitFields;

	STATIC_ASSERT(kArrayIndexLengthBits > 0);
	STATIC_ASSERT(kMaxArrayIndexSize < (1 << kArrayIndexLengthBits));

	class ArrayIndexValueBits
	: public BitField<unsigned int, kNofHashBitFields, kArrayIndexValueBits> {
	}; // NOLINT
	class ArrayIndexLengthBits
	: public BitField<unsigned int, kNofHashBitFields + kArrayIndexValueBits,
	kArrayIndexLengthBits> {}; // NOLINT

	// Check that kMaxCachedArrayIndexLength + 1 is a power of two so we
	// could use a mask to test if the length of string is less than or equal to
	// kMaxCachedArrayIndexLength.
	static_assert(base::bits::IsPowerOfTwo(kMaxCachedArrayIndexLength + 1),
	"(kMaxCachedArrayIndexLength + 1) must be power of two");

	// When any of these bits is set then the hash field does not contain a cached
	// array index.
	static const unsigned int kDoesNotContainCachedArrayIndexMask =
	(~static_cast<unsigned>(kMaxCachedArrayIndexLength)
	<< ArrayIndexLengthBits::kShift) \|
	kIsNotArrayIndexMask;

	// Value of empty hash field indicating that the hash is not computed.
	static const int kEmptyHashField =
	kIsNotArrayIndexMask \| kHashNotComputedMask;

	protected:
	static inline bool IsHashFieldComputed(uint32_t field);

	private:
	DISALLOW_IMPLICIT_CONSTRUCTORS(Name);
	};

	// ES6 symbols.
	class Symbol : public Name {
	public:
	// [name]: The print name of a symbol, or undefined if none.
	DECL_ACCESSORS(name, Object)

	DECL_INT_ACCESSORS(flags)

	// [is_private]: Whether this is a private symbol. Private symbols can only
	// be used to designate own properties of objects.
	DECL_BOOLEAN_ACCESSORS(is_private)

	// [is_well_known_symbol]: Whether this is a spec-defined well-known symbol,
	// or not. Well-known symbols do not throw when an access check fails during
	// a load.
	DECL_BOOLEAN_ACCESSORS(is_well_known_symbol)

	// [is_interesting_symbol]: Whether this is an "interesting symbol", which
	// is a well-known symbol like @@toStringTag that's often looked up on
	// random objects but is usually not present. See Name::IsInterestingSymbol()
	// for a detailed description.
	DECL_BOOLEAN_ACCESSORS(is_interesting_symbol)

	// [is_public]: Whether this is a symbol created by Symbol.for. Calling
	// Symbol.keyFor on such a symbol simply needs to return the attached name.
	DECL_BOOLEAN_ACCESSORS(is_public)

	DECL_CAST(Symbol)

	// Dispatched behavior.
	DECL_PRINTER(Symbol)
	DECL_VERIFIER(Symbol)

	// Layout description.
	static const int kNameOffset = Name::kSize;
	static const int kFlagsOffset = kNameOffset + kPointerSize;
	static const int kSize = kFlagsOffset + kPointerSize;

	// Flags layout.
	static const int kPrivateBit = 0;
	static const int kWellKnownSymbolBit = 1;
	static const int kPublicBit = 2;
	static const int kInterestingSymbolBit = 3;

	typedef FixedBodyDescriptor<kNameOffset, kFlagsOffset, kSize> BodyDescriptor;
	// No weak fields.
	typedef BodyDescriptor BodyDescriptorWeak;

	void SymbolShortPrint(std::ostream& os);

	private:
	const char* PrivateSymbolToName() const;

	// TODO(cbruni): remove once the new maptracer is in place.
	friend class Name; // For PrivateSymbolToName.

	DISALLOW_IMPLICIT_CONSTRUCTORS(Symbol);
	};

	} // namespace internal
	} // namespace v8

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

	#endif // V8_OBJECTS_NAME_H_