src/third_party/v8/src/objects/field-index.h - cobalt - Git at Google

 // Copyright 2014 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_FIELD_INDEX_H_
 #define V8_OBJECTS_FIELD_INDEX_H_

 // TODO(jkummerow): Consider forward-declaring instead.
 #include "src/objects/internal-index.h"
 #include "src/objects/property-details.h"
 #include "src/utils/utils.h"

 namespace v8 {
 namespace internal {

 class Map;

 // Wrapper class to hold a field index, usually but not necessarily generated
 // from a property index. When available, the wrapper class captures additional
 // information to allow the field index to be translated back into the property
 // index it was originally generated from.
 class FieldIndex final {
  public:
   enum Encoding { kTagged, kDouble, kWord32 };

   FieldIndex() : bit_field_(0) {}

   static inline FieldIndex ForPropertyIndex(
       Map map, int index,
       Representation representation = Representation::Tagged());
   static inline FieldIndex ForInObjectOffset(int offset, Encoding encoding);
   static inline FieldIndex ForDescriptor(Map map,
                                          InternalIndex descriptor_index);
   static inline FieldIndex ForDescriptor(IsolateRoot isolate, Map map,
                                          InternalIndex descriptor_index);

   inline int GetLoadByFieldIndex() const;

   bool is_inobject() const { return IsInObjectBits::decode(bit_field_); }

   bool is_double() const { return EncodingBits::decode(bit_field_) == kDouble; }

   int offset() const { return OffsetBits::decode(bit_field_); }

   // Zero-indexed from beginning of the object.
   int index() const {
     DCHECK(IsAligned(offset(), kTaggedSize));
     return offset() / kTaggedSize;
   }

   int outobject_array_index() const {
     DCHECK(!is_inobject());
     return index() - first_inobject_property_offset() / kTaggedSize;
   }

   // Zero-based from the first inobject property. Overflows to out-of-object
   // properties.
   int property_index() const {
     int result = index() - first_inobject_property_offset() / kTaggedSize;
     if (!is_inobject()) {
       result += InObjectPropertyBits::decode(bit_field_);
     }
     return result;
   }

   int GetFieldAccessStubKey() const {
     return bit_field_ &
            (IsInObjectBits::kMask | EncodingBits::kMask | OffsetBits::kMask);
   }

   bool operator==(FieldIndex const& other) const {
     return bit_field_ == other.bit_field_;
   }
   bool operator!=(FieldIndex const& other) const { return !(*this == other); }

  private:
   FieldIndex(bool is_inobject, int offset, Encoding encoding,
              int inobject_properties, int first_inobject_property_offset) {
     DCHECK(IsAligned(first_inobject_property_offset, kTaggedSize));
     bit_field_ = IsInObjectBits::encode(is_inobject) |
                  EncodingBits::encode(encoding) |
                  FirstInobjectPropertyOffsetBits::encode(
                      first_inobject_property_offset) |
                  OffsetBits::encode(offset) |
                  InObjectPropertyBits::encode(inobject_properties);
   }

   static Encoding FieldEncoding(Representation representation) {
     switch (representation.kind()) {
       case Representation::kNone:
       case Representation::kSmi:
       case Representation::kHeapObject:
       case Representation::kTagged:
         return kTagged;
       case Representation::kDouble:
         return kDouble;
       default:
         break;
     }
     PrintF("%s\n", representation.Mnemonic());
     UNREACHABLE();
     return kTagged;
   }

   int first_inobject_property_offset() const {
     return FirstInobjectPropertyOffsetBits::decode(bit_field_);
   }

   static const int kOffsetBitsSize =
       (kDescriptorIndexBitCount + 1 + kTaggedSizeLog2);

   // Index from beginning of object.
   using OffsetBits = base::BitField64<int, 0, kOffsetBitsSize>;
   using IsInObjectBits = OffsetBits::Next<bool, 1>;
   using EncodingBits = IsInObjectBits::Next<Encoding, 2>;
   // Number of inobject properties.
   using InObjectPropertyBits =
       EncodingBits::Next<int, kDescriptorIndexBitCount>;
   // Offset of first inobject property from beginning of object.
   using FirstInobjectPropertyOffsetBits =
       InObjectPropertyBits::Next<int, kFirstInobjectPropertyOffsetBitCount>;
   STATIC_ASSERT(FirstInobjectPropertyOffsetBits::kLastUsedBit < 64);

   uint64_t bit_field_;
 };

 }  // namespace internal
 }  // namespace v8

 #endif  // V8_OBJECTS_FIELD_INDEX_H_
	// Copyright 2014 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_FIELD_INDEX_H_
	#define V8_OBJECTS_FIELD_INDEX_H_

	// TODO(jkummerow): Consider forward-declaring instead.
	#include "src/objects/internal-index.h"
	#include "src/objects/property-details.h"
	#include "src/utils/utils.h"

	namespace v8 {
	namespace internal {

	class Map;

	// Wrapper class to hold a field index, usually but not necessarily generated
	// from a property index. When available, the wrapper class captures additional
	// information to allow the field index to be translated back into the property
	// index it was originally generated from.
	class FieldIndex final {
	public:
	enum Encoding { kTagged, kDouble, kWord32 };

	FieldIndex() : bit_field_(0) {}

	static inline FieldIndex ForPropertyIndex(
	Map map, int index,
	Representation representation = Representation::Tagged());
	static inline FieldIndex ForInObjectOffset(int offset, Encoding encoding);
	static inline FieldIndex ForDescriptor(Map map,
	InternalIndex descriptor_index);
	static inline FieldIndex ForDescriptor(IsolateRoot isolate, Map map,
	InternalIndex descriptor_index);

	inline int GetLoadByFieldIndex() const;

	bool is_inobject() const { return IsInObjectBits::decode(bit_field_); }

	bool is_double() const { return EncodingBits::decode(bit_field_) == kDouble; }

	int offset() const { return OffsetBits::decode(bit_field_); }

	// Zero-indexed from beginning of the object.
	int index() const {
	DCHECK(IsAligned(offset(), kTaggedSize));
	return offset() / kTaggedSize;
	}

	int outobject_array_index() const {
	DCHECK(!is_inobject());
	return index() - first_inobject_property_offset() / kTaggedSize;
	}

	// Zero-based from the first inobject property. Overflows to out-of-object
	// properties.
	int property_index() const {
	int result = index() - first_inobject_property_offset() / kTaggedSize;
	if (!is_inobject()) {
	result += InObjectPropertyBits::decode(bit_field_);
	}
	return result;
	}

	int GetFieldAccessStubKey() const {
	return bit_field_ &
	(IsInObjectBits::kMask \| EncodingBits::kMask \| OffsetBits::kMask);
	}

	bool operator==(FieldIndex const& other) const {
	return bit_field_ == other.bit_field_;
	}
	bool operator!=(FieldIndex const& other) const { return !(*this == other); }

	private:
	FieldIndex(bool is_inobject, int offset, Encoding encoding,
	int inobject_properties, int first_inobject_property_offset) {
	DCHECK(IsAligned(first_inobject_property_offset, kTaggedSize));
	bit_field_ = IsInObjectBits::encode(is_inobject) \|
	EncodingBits::encode(encoding) \|
	FirstInobjectPropertyOffsetBits::encode(
	first_inobject_property_offset) \|
	OffsetBits::encode(offset) \|
	InObjectPropertyBits::encode(inobject_properties);
	}

	static Encoding FieldEncoding(Representation representation) {
	switch (representation.kind()) {
	case Representation::kNone:
	case Representation::kSmi:
	case Representation::kHeapObject:
	case Representation::kTagged:
	return kTagged;
	case Representation::kDouble:
	return kDouble;
	default:
	break;
	}
	PrintF("%s\n", representation.Mnemonic());
	UNREACHABLE();
	return kTagged;
	}

	int first_inobject_property_offset() const {
	return FirstInobjectPropertyOffsetBits::decode(bit_field_);
	}

	static const int kOffsetBitsSize =
	(kDescriptorIndexBitCount + 1 + kTaggedSizeLog2);

	// Index from beginning of object.
	using OffsetBits = base::BitField64<int, 0, kOffsetBitsSize>;
	using IsInObjectBits = OffsetBits::Next<bool, 1>;
	using EncodingBits = IsInObjectBits::Next<Encoding, 2>;
	// Number of inobject properties.
	using InObjectPropertyBits =
	EncodingBits::Next<int, kDescriptorIndexBitCount>;
	// Offset of first inobject property from beginning of object.
	using FirstInobjectPropertyOffsetBits =
	InObjectPropertyBits::Next<int, kFirstInobjectPropertyOffsetBitCount>;
	STATIC_ASSERT(FirstInobjectPropertyOffsetBits::kLastUsedBit < 64);

	uint64_t bit_field_;
	};

	} // namespace internal
	} // namespace v8

	#endif // V8_OBJECTS_FIELD_INDEX_H_