third_party/v8/src/objects/literal-objects.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_LITERAL_OBJECTS_H_
 #define V8_OBJECTS_LITERAL_OBJECTS_H_

 #include "src/base/bit-field.h"
 #include "src/objects/fixed-array.h"
 #include "src/objects/struct.h"

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

 namespace v8 {
 namespace internal {

 class ClassLiteral;

 #include "torque-generated/src/objects/literal-objects-tq.inc"

 // ObjectBoilerplateDescription is a list of properties consisting of name value
 // pairs. In addition to the properties, it provides the projected number
 // of properties in the backing store. This number includes properties with
 // computed names that are not
 // in the list.
 // TODO(ishell): Don't derive from FixedArray as it already has its own map.
 class ObjectBoilerplateDescription : public FixedArray {
  public:
   inline Object name(int index) const;
   inline Object name(IsolateRoot isolate, int index) const;

   inline Object value(int index) const;
   inline Object value(IsolateRoot isolate, int index) const;

   inline void set_key_value(int index, Object key, Object value);

   // The number of boilerplate properties.
   inline int size() const;

   // Number of boilerplate properties and properties with computed names.
   inline int backing_store_size() const;
   inline void set_backing_store_size(int backing_store_size);

   // Used to encode ObjectLiteral::Flags for nested object literals
   // Stored as the first element of the fixed array
   DECL_INT_ACCESSORS(flags)
   static const int kLiteralTypeOffset = 0;
   static const int kDescriptionStartIndex = 1;

   DECL_CAST(ObjectBoilerplateDescription)
   DECL_VERIFIER(ObjectBoilerplateDescription)
   DECL_PRINTER(ObjectBoilerplateDescription)

  private:
   inline bool has_number_of_properties() const;

   OBJECT_CONSTRUCTORS(ObjectBoilerplateDescription, FixedArray);
 };

 class ArrayBoilerplateDescription
     : public TorqueGeneratedArrayBoilerplateDescription<
           ArrayBoilerplateDescription, Struct> {
  public:
   inline ElementsKind elements_kind() const;
   inline void set_elements_kind(ElementsKind kind);

   inline bool is_empty() const;

   // Dispatched behavior.
   DECL_PRINTER(ArrayBoilerplateDescription)
   void BriefPrintDetails(std::ostream& os);

  private:
   TQ_OBJECT_CONSTRUCTORS(ArrayBoilerplateDescription)
 };

 class ClassBoilerplate : public FixedArray {
  public:
   enum ValueKind { kData, kGetter, kSetter };

   struct ComputedEntryFlags {
 #define COMPUTED_ENTRY_BIT_FIELDS(V, _) \
   V(ValueKindBits, ValueKind, 2, _)     \
   V(KeyIndexBits, unsigned, 29, _)
     DEFINE_BIT_FIELDS(COMPUTED_ENTRY_BIT_FIELDS)
 #undef COMPUTED_ENTRY_BIT_FIELDS
   };

   enum DefineClassArgumentsIndices {
     kConstructorArgumentIndex = 1,
     kPrototypeArgumentIndex = 2,
     // The index of a first dynamic argument passed to Runtime::kDefineClass
     // function. The dynamic arguments are consist of method closures and
     // computed property names.
     kFirstDynamicArgumentIndex = 3,
   };

   static const int kMinimumClassPropertiesCount = 6;
   static const int kMinimumPrototypePropertiesCount = 1;

   DECL_CAST(ClassBoilerplate)

   DECL_BOOLEAN_ACCESSORS(install_class_name_accessor)
   DECL_INT_ACCESSORS(arguments_count)
   DECL_ACCESSORS(static_properties_template, Object)
   DECL_ACCESSORS(static_elements_template, Object)
   DECL_ACCESSORS(static_computed_properties, FixedArray)
   DECL_ACCESSORS(instance_properties_template, Object)
   DECL_ACCESSORS(instance_elements_template, Object)
   DECL_ACCESSORS(instance_computed_properties, FixedArray)

   template <typename LocalIsolate>
   static void AddToPropertiesTemplate(LocalIsolate* isolate,
                                       Handle<NameDictionary> dictionary,
                                       Handle<Name> name, int key_index,
                                       ValueKind value_kind, Smi value);

   template <typename LocalIsolate>
   static void AddToElementsTemplate(LocalIsolate* isolate,
                                     Handle<NumberDictionary> dictionary,
                                     uint32_t key, int key_index,
                                     ValueKind value_kind, Smi value);

   template <typename LocalIsolate>
   static Handle<ClassBoilerplate> BuildClassBoilerplate(LocalIsolate* isolate,
                                                         ClassLiteral* expr);

   enum {
     kArgumentsCountIndex,
     kClassPropertiesTemplateIndex,
     kClassElementsTemplateIndex,
     kClassComputedPropertiesIndex,
     kPrototypePropertiesTemplateIndex,
     kPrototypeElementsTemplateIndex,
     kPrototypeComputedPropertiesIndex,
     kBoilerplateLength  // last element
   };

  private:
   DECL_INT_ACCESSORS(flags)

   OBJECT_CONSTRUCTORS(ClassBoilerplate, FixedArray);
 };

 }  // namespace internal
 }  // namespace v8

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

 #endif  // V8_OBJECTS_LITERAL_OBJECTS_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_LITERAL_OBJECTS_H_
	#define V8_OBJECTS_LITERAL_OBJECTS_H_

	#include "src/base/bit-field.h"
	#include "src/objects/fixed-array.h"
	#include "src/objects/struct.h"

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

	namespace v8 {
	namespace internal {

	class ClassLiteral;

	#include "torque-generated/src/objects/literal-objects-tq.inc"

	// ObjectBoilerplateDescription is a list of properties consisting of name value
	// pairs. In addition to the properties, it provides the projected number
	// of properties in the backing store. This number includes properties with
	// computed names that are not
	// in the list.
	// TODO(ishell): Don't derive from FixedArray as it already has its own map.
	class ObjectBoilerplateDescription : public FixedArray {
	public:
	inline Object name(int index) const;
	inline Object name(IsolateRoot isolate, int index) const;

	inline Object value(int index) const;
	inline Object value(IsolateRoot isolate, int index) const;

	inline void set_key_value(int index, Object key, Object value);

	// The number of boilerplate properties.
	inline int size() const;

	// Number of boilerplate properties and properties with computed names.
	inline int backing_store_size() const;
	inline void set_backing_store_size(int backing_store_size);

	// Used to encode ObjectLiteral::Flags for nested object literals
	// Stored as the first element of the fixed array
	DECL_INT_ACCESSORS(flags)
	static const int kLiteralTypeOffset = 0;
	static const int kDescriptionStartIndex = 1;

	DECL_CAST(ObjectBoilerplateDescription)
	DECL_VERIFIER(ObjectBoilerplateDescription)
	DECL_PRINTER(ObjectBoilerplateDescription)

	private:
	inline bool has_number_of_properties() const;

	OBJECT_CONSTRUCTORS(ObjectBoilerplateDescription, FixedArray);
	};

	class ArrayBoilerplateDescription
	: public TorqueGeneratedArrayBoilerplateDescription<
	ArrayBoilerplateDescription, Struct> {
	public:
	inline ElementsKind elements_kind() const;
	inline void set_elements_kind(ElementsKind kind);

	inline bool is_empty() const;

	// Dispatched behavior.
	DECL_PRINTER(ArrayBoilerplateDescription)
	void BriefPrintDetails(std::ostream& os);

	private:
	TQ_OBJECT_CONSTRUCTORS(ArrayBoilerplateDescription)
	};

	class ClassBoilerplate : public FixedArray {
	public:
	enum ValueKind { kData, kGetter, kSetter };

	struct ComputedEntryFlags {
	#define COMPUTED_ENTRY_BIT_FIELDS(V, _) \
	V(ValueKindBits, ValueKind, 2, _) \
	V(KeyIndexBits, unsigned, 29, _)
	DEFINE_BIT_FIELDS(COMPUTED_ENTRY_BIT_FIELDS)
	#undef COMPUTED_ENTRY_BIT_FIELDS
	};

	enum DefineClassArgumentsIndices {
	kConstructorArgumentIndex = 1,
	kPrototypeArgumentIndex = 2,
	// The index of a first dynamic argument passed to Runtime::kDefineClass
	// function. The dynamic arguments are consist of method closures and
	// computed property names.
	kFirstDynamicArgumentIndex = 3,
	};

	static const int kMinimumClassPropertiesCount = 6;
	static const int kMinimumPrototypePropertiesCount = 1;

	DECL_CAST(ClassBoilerplate)

	DECL_BOOLEAN_ACCESSORS(install_class_name_accessor)
	DECL_INT_ACCESSORS(arguments_count)
	DECL_ACCESSORS(static_properties_template, Object)
	DECL_ACCESSORS(static_elements_template, Object)
	DECL_ACCESSORS(static_computed_properties, FixedArray)
	DECL_ACCESSORS(instance_properties_template, Object)
	DECL_ACCESSORS(instance_elements_template, Object)
	DECL_ACCESSORS(instance_computed_properties, FixedArray)

	template <typename LocalIsolate>
	static void AddToPropertiesTemplate(LocalIsolate* isolate,
	Handle<NameDictionary> dictionary,
	Handle<Name> name, int key_index,
	ValueKind value_kind, Smi value);

	template <typename LocalIsolate>
	static void AddToElementsTemplate(LocalIsolate* isolate,
	Handle<NumberDictionary> dictionary,
	uint32_t key, int key_index,
	ValueKind value_kind, Smi value);

	template <typename LocalIsolate>
	static Handle<ClassBoilerplate> BuildClassBoilerplate(LocalIsolate* isolate,
	ClassLiteral* expr);

	enum {
	kArgumentsCountIndex,
	kClassPropertiesTemplateIndex,
	kClassElementsTemplateIndex,
	kClassComputedPropertiesIndex,
	kPrototypePropertiesTemplateIndex,
	kPrototypeElementsTemplateIndex,
	kPrototypeComputedPropertiesIndex,
	kBoilerplateLength // last element
	};

	private:
	DECL_INT_ACCESSORS(flags)

	OBJECT_CONSTRUCTORS(ClassBoilerplate, FixedArray);
	};

	} // namespace internal
	} // namespace v8

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

	#endif // V8_OBJECTS_LITERAL_OBJECTS_H_