third_party/v8/src/objects/layout-descriptor.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_LAYOUT_DESCRIPTOR_H_
 #define V8_OBJECTS_LAYOUT_DESCRIPTOR_H_

 #include <iosfwd>

 #include "src/objects/fixed-array.h"

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

 namespace v8 {
 namespace internal {

 // LayoutDescriptor is a bit vector defining which fields contain non-tagged
 // values. It could either be a fixed typed array (slow form) or a Smi
 // if the length fits (fast form).
 // Each bit in the layout represents a FIELD. The bits are referenced by
 // field_index which is a field number. If the bit is set then the corresponding
 // field contains a non-tagged value and therefore must be skipped by GC.
 // Otherwise the field is considered tagged. If the queried bit lays "outside"
 // of the descriptor then the field is also considered tagged.
 // Once a layout descriptor is created it is allowed only to append properties
 // to it. GC uses layout descriptors to iterate objects. Avoid heap pointers
 // in a layout descriptor because they can lead to data races in GC when
 // GC moves objects in parallel.
 class V8_EXPORT_PRIVATE LayoutDescriptor : public ByteArray {
  public:
   V8_INLINE bool IsTagged(int field_index);

   // Queries the contiguous region of fields that are either tagged or not.
   // Returns true if the given field is tagged or false otherwise and writes
   // the length of the contiguous region to |out_sequence_length|.
   // If the sequence is longer than |max_sequence_length| then
   // |out_sequence_length| is set to |max_sequence_length|.
   bool IsTagged(int field_index, int max_sequence_length,
                 int* out_sequence_length);

   // Returns true if this is a layout of the object having only tagged fields.
   V8_INLINE bool IsFastPointerLayout();
   V8_INLINE static bool IsFastPointerLayout(Object layout_descriptor);

   // Returns true if the layout descriptor is in non-Smi form.
   V8_INLINE bool IsSlowLayout();

   DECL_CAST(LayoutDescriptor)

   V8_INLINE static LayoutDescriptor cast_gc_safe(Object object);

   // Builds layout descriptor optimized for given |map| by |num_descriptors|
   // elements of given descriptors array. The |map|'s descriptors could be
   // different.
   static Handle<LayoutDescriptor> New(Isolate* isolate, Handle<Map> map,
                                       Handle<DescriptorArray> descriptors,
                                       int num_descriptors);

   // Modifies |map|'s layout descriptor or creates a new one if necessary by
   // appending property with |details| to it.
   static Handle<LayoutDescriptor> ShareAppend(Isolate* isolate, Handle<Map> map,
                                               PropertyDetails details);

   // Creates new layout descriptor by appending property with |details| to
   // |map|'s layout descriptor and if it is still fast then returns it.
   // Otherwise the |full_layout_descriptor| is returned.
   static Handle<LayoutDescriptor> AppendIfFastOrUseFull(
       Isolate* isolate, Handle<Map> map, PropertyDetails details,
       Handle<LayoutDescriptor> full_layout_descriptor);

   // Layout descriptor that corresponds to an object all fields of which are
   // tagged (FastPointerLayout).
   V8_INLINE static LayoutDescriptor FastPointerLayout();

   // Check that this layout descriptor corresponds to given map.
   bool IsConsistentWithMap(Map map, bool check_tail = false);

   // Trims this layout descriptor to given number of descriptors. This happens
   // only when corresponding descriptors array is trimmed.
   // The layout descriptor could be trimmed if it was slow or it could
   // become fast.
   LayoutDescriptor Trim(Heap* heap, Map map, DescriptorArray descriptors,
                         int num_descriptors);

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

   void ShortPrint(std::ostream& os);
   void Print(std::ostream& os);  // NOLINT
 #endif

   // Capacity of layout descriptors in bits.
   V8_INLINE int capacity();

   static Handle<LayoutDescriptor> NewForTesting(Isolate* isolate, int length);
   LayoutDescriptor SetTaggedForTesting(int field_index, bool tagged);

  private:
   // Exclude sign-bit to simplify encoding.
   static constexpr int kBitsInSmiLayout =
       SmiValuesAre32Bits() ? 32 : kSmiValueSize - 1;

   static const int kBitsPerLayoutWord = 32;

   V8_INLINE int number_of_layout_words();
   V8_INLINE uint32_t get_layout_word(int index) const;
   V8_INLINE void set_layout_word(int index, uint32_t value);

   V8_INLINE static Handle<LayoutDescriptor> New(Isolate* isolate, int length);
   V8_INLINE static LayoutDescriptor FromSmi(Smi smi);

   V8_INLINE static bool InobjectUnboxedField(int inobject_properties,
                                              PropertyDetails details);

   // Calculates minimal layout descriptor capacity required for given
   // |map|, |descriptors| and |num_descriptors|.
   V8_INLINE static int CalculateCapacity(Map map, DescriptorArray descriptors,
                                          int num_descriptors);

   // Calculates the length of the slow-mode backing store array by given layout
   // descriptor length.
   V8_INLINE static int GetSlowModeBackingStoreLength(int length);

   // Fills in clean |layout_descriptor| according to given |map|, |descriptors|
   // and |num_descriptors|.
   V8_INLINE static LayoutDescriptor Initialize(
       LayoutDescriptor layout_descriptor, Map map, DescriptorArray descriptors,
       int num_descriptors);

   static Handle<LayoutDescriptor> EnsureCapacity(
       Isolate* isolate, Handle<LayoutDescriptor> layout_descriptor,
       int new_capacity);

   // Returns false if requested field_index is out of bounds.
   V8_INLINE bool GetIndexes(int field_index, int* layout_word_index,
                             int* layout_bit_index);

   V8_INLINE V8_WARN_UNUSED_RESULT LayoutDescriptor SetRawData(int field_index);

   V8_INLINE V8_WARN_UNUSED_RESULT LayoutDescriptor SetTagged(int field_index,
                                                              bool tagged);

   OBJECT_CONSTRUCTORS(LayoutDescriptor, ByteArray);
 };

 // LayoutDescriptorHelper is a helper class for querying layout descriptor
 // about whether the field at given offset is tagged or not.
 class LayoutDescriptorHelper {
  public:
   inline explicit LayoutDescriptorHelper(Map map);

   bool all_fields_tagged() { return all_fields_tagged_; }
   inline bool IsTagged(int offset_in_bytes);

   // Queries the contiguous region of fields that are either tagged or not.
   // Returns true if fields starting at |offset_in_bytes| are tagged or false
   // otherwise and writes the offset of the end of the contiguous region to
   // |out_end_of_contiguous_region_offset|. The |end_offset| value is the
   // upper bound for |out_end_of_contiguous_region_offset|.
   V8_EXPORT_PRIVATE bool IsTagged(int offset_in_bytes, int end_offset,
                                   int* out_end_of_contiguous_region_offset);

  private:
   bool all_fields_tagged_;
   int header_size_;
   LayoutDescriptor layout_descriptor_;
 };
 }  // namespace internal
 }  // namespace v8

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

 #endif  // V8_OBJECTS_LAYOUT_DESCRIPTOR_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_LAYOUT_DESCRIPTOR_H_
	#define V8_OBJECTS_LAYOUT_DESCRIPTOR_H_

	#include <iosfwd>

	#include "src/objects/fixed-array.h"

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

	namespace v8 {
	namespace internal {

	// LayoutDescriptor is a bit vector defining which fields contain non-tagged
	// values. It could either be a fixed typed array (slow form) or a Smi
	// if the length fits (fast form).
	// Each bit in the layout represents a FIELD. The bits are referenced by
	// field_index which is a field number. If the bit is set then the corresponding
	// field contains a non-tagged value and therefore must be skipped by GC.
	// Otherwise the field is considered tagged. If the queried bit lays "outside"
	// of the descriptor then the field is also considered tagged.
	// Once a layout descriptor is created it is allowed only to append properties
	// to it. GC uses layout descriptors to iterate objects. Avoid heap pointers
	// in a layout descriptor because they can lead to data races in GC when
	// GC moves objects in parallel.
	class V8_EXPORT_PRIVATE LayoutDescriptor : public ByteArray {
	public:
	V8_INLINE bool IsTagged(int field_index);

	// Queries the contiguous region of fields that are either tagged or not.
	// Returns true if the given field is tagged or false otherwise and writes
	// the length of the contiguous region to \|out_sequence_length\|.
	// If the sequence is longer than \|max_sequence_length\| then
	// \|out_sequence_length\| is set to \|max_sequence_length\|.
	bool IsTagged(int field_index, int max_sequence_length,
	int* out_sequence_length);

	// Returns true if this is a layout of the object having only tagged fields.
	V8_INLINE bool IsFastPointerLayout();
	V8_INLINE static bool IsFastPointerLayout(Object layout_descriptor);

	// Returns true if the layout descriptor is in non-Smi form.
	V8_INLINE bool IsSlowLayout();

	DECL_CAST(LayoutDescriptor)

	V8_INLINE static LayoutDescriptor cast_gc_safe(Object object);

	// Builds layout descriptor optimized for given \|map\| by \|num_descriptors\|
	// elements of given descriptors array. The \|map\|'s descriptors could be
	// different.
	static Handle<LayoutDescriptor> New(Isolate* isolate, Handle<Map> map,
	Handle<DescriptorArray> descriptors,
	int num_descriptors);

	// Modifies \|map\|'s layout descriptor or creates a new one if necessary by
	// appending property with \|details\| to it.
	static Handle<LayoutDescriptor> ShareAppend(Isolate* isolate, Handle<Map> map,
	PropertyDetails details);

	// Creates new layout descriptor by appending property with \|details\| to
	// \|map\|'s layout descriptor and if it is still fast then returns it.
	// Otherwise the \|full_layout_descriptor\| is returned.
	static Handle<LayoutDescriptor> AppendIfFastOrUseFull(
	Isolate* isolate, Handle<Map> map, PropertyDetails details,
	Handle<LayoutDescriptor> full_layout_descriptor);

	// Layout descriptor that corresponds to an object all fields of which are
	// tagged (FastPointerLayout).
	V8_INLINE static LayoutDescriptor FastPointerLayout();

	// Check that this layout descriptor corresponds to given map.
	bool IsConsistentWithMap(Map map, bool check_tail = false);

	// Trims this layout descriptor to given number of descriptors. This happens
	// only when corresponding descriptors array is trimmed.
	// The layout descriptor could be trimmed if it was slow or it could
	// become fast.
	LayoutDescriptor Trim(Heap* heap, Map map, DescriptorArray descriptors,
	int num_descriptors);

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

	void ShortPrint(std::ostream& os);
	void Print(std::ostream& os); // NOLINT
	#endif

	// Capacity of layout descriptors in bits.
	V8_INLINE int capacity();

	static Handle<LayoutDescriptor> NewForTesting(Isolate* isolate, int length);
	LayoutDescriptor SetTaggedForTesting(int field_index, bool tagged);

	private:
	// Exclude sign-bit to simplify encoding.
	static constexpr int kBitsInSmiLayout =
	SmiValuesAre32Bits() ? 32 : kSmiValueSize - 1;

	static const int kBitsPerLayoutWord = 32;

	V8_INLINE int number_of_layout_words();
	V8_INLINE uint32_t get_layout_word(int index) const;
	V8_INLINE void set_layout_word(int index, uint32_t value);

	V8_INLINE static Handle<LayoutDescriptor> New(Isolate* isolate, int length);
	V8_INLINE static LayoutDescriptor FromSmi(Smi smi);

	V8_INLINE static bool InobjectUnboxedField(int inobject_properties,
	PropertyDetails details);

	// Calculates minimal layout descriptor capacity required for given
	// \|map\|, \|descriptors\| and \|num_descriptors\|.
	V8_INLINE static int CalculateCapacity(Map map, DescriptorArray descriptors,
	int num_descriptors);

	// Calculates the length of the slow-mode backing store array by given layout
	// descriptor length.
	V8_INLINE static int GetSlowModeBackingStoreLength(int length);

	// Fills in clean \|layout_descriptor\| according to given \|map\|, \|descriptors\|
	// and \|num_descriptors\|.
	V8_INLINE static LayoutDescriptor Initialize(
	LayoutDescriptor layout_descriptor, Map map, DescriptorArray descriptors,
	int num_descriptors);

	static Handle<LayoutDescriptor> EnsureCapacity(
	Isolate* isolate, Handle<LayoutDescriptor> layout_descriptor,
	int new_capacity);

	// Returns false if requested field_index is out of bounds.
	V8_INLINE bool GetIndexes(int field_index, int* layout_word_index,
	int* layout_bit_index);

	V8_INLINE V8_WARN_UNUSED_RESULT LayoutDescriptor SetRawData(int field_index);

	V8_INLINE V8_WARN_UNUSED_RESULT LayoutDescriptor SetTagged(int field_index,
	bool tagged);

	OBJECT_CONSTRUCTORS(LayoutDescriptor, ByteArray);
	};

	// LayoutDescriptorHelper is a helper class for querying layout descriptor
	// about whether the field at given offset is tagged or not.
	class LayoutDescriptorHelper {
	public:
	inline explicit LayoutDescriptorHelper(Map map);

	bool all_fields_tagged() { return all_fields_tagged_; }
	inline bool IsTagged(int offset_in_bytes);

	// Queries the contiguous region of fields that are either tagged or not.
	// Returns true if fields starting at \|offset_in_bytes\| are tagged or false
	// otherwise and writes the offset of the end of the contiguous region to
	// \|out_end_of_contiguous_region_offset\|. The \|end_offset\| value is the
	// upper bound for \|out_end_of_contiguous_region_offset\|.
	V8_EXPORT_PRIVATE bool IsTagged(int offset_in_bytes, int end_offset,
	int* out_end_of_contiguous_region_offset);

	private:
	bool all_fields_tagged_;
	int header_size_;
	LayoutDescriptor layout_descriptor_;
	};
	} // namespace internal
	} // namespace v8

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

	#endif // V8_OBJECTS_LAYOUT_DESCRIPTOR_H_