src/v8/src/objects/tagged-impl.h - cobalt - Git at Google

 // Copyright 2019 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_TAGGED_IMPL_H_
 #define V8_OBJECTS_TAGGED_IMPL_H_

 #include "include/v8-internal.h"
 #include "include/v8.h"
 #include "src/common/globals.h"

 namespace v8 {
 namespace internal {

 // An TaggedImpl is a base class for Object (which is either a Smi or a strong
 // reference to a HeapObject) and MaybeObject (which is either a Smi, a strong
 // reference to a HeapObject, a weak reference to a HeapObject, or a cleared
 // weak reference.
 // This class provides storage and one canonical implementation of various
 // predicates that check Smi and heap object tags' values and also take into
 // account whether the tagged value is expected to be weak reference to a
 // HeapObject or cleared weak reference.
 template <HeapObjectReferenceType kRefType, typename StorageType>
 class TaggedImpl {
  public:
   static_assert(std::is_same<StorageType, Address>::value ||
                     std::is_same<StorageType, Tagged_t>::value,
                 "StorageType must be either Address or Tagged_t");

   // True for those TaggedImpl instantiations that represent uncompressed
   // tagged values and false for TaggedImpl instantiations that represent
   // compressed tagged values.
   static const bool kIsFull = sizeof(StorageType) == kSystemPointerSize;

   static const bool kCanBeWeak = kRefType == HeapObjectReferenceType::WEAK;

   constexpr TaggedImpl() : ptr_{} {}
   explicit constexpr TaggedImpl(StorageType ptr) : ptr_(ptr) {}

   // Make clang on Linux catch what MSVC complains about on Windows:
   operator bool() const = delete;

   template <typename U>
   constexpr bool operator==(TaggedImpl<kRefType, U> other) const {
     static_assert(
         std::is_same<U, Address>::value || std::is_same<U, Tagged_t>::value,
         "U must be either Address or Tagged_t");
     return static_cast<Tagged_t>(ptr_) == static_cast<Tagged_t>(other.ptr());
   }
   template <typename U>
   constexpr bool operator!=(TaggedImpl<kRefType, U> other) const {
     static_assert(
         std::is_same<U, Address>::value || std::is_same<U, Tagged_t>::value,
         "U must be either Address or Tagged_t");
     return static_cast<Tagged_t>(ptr_) != static_cast<Tagged_t>(other.ptr());
   }

   // For using in std::set and std::map.
   constexpr bool operator<(TaggedImpl other) const {
     return static_cast<Tagged_t>(ptr_) < static_cast<Tagged_t>(other.ptr());
   }

   constexpr StorageType ptr() const { return ptr_; }

   // Returns true if this tagged value is a strong pointer to a HeapObject or
   // Smi.
   constexpr inline bool IsObject() const { return !IsWeakOrCleared(); }

   // Returns true if this tagged value is a Smi.
   constexpr bool IsSmi() const { return HAS_SMI_TAG(ptr_); }
   inline bool ToSmi(Smi* value) const;
   inline Smi ToSmi() const;

   // Returns true if this tagged value is a strong pointer to a HeapObject.
   constexpr inline bool IsHeapObject() const { return IsStrong(); }

   // Returns true if this tagged value is a cleared weak reference.
   constexpr inline bool IsCleared() const {
     return kCanBeWeak &&
            (static_cast<uint32_t>(ptr_) == kClearedWeakHeapObjectLower32);
   }

   // Returns true if this tagged value is a strong or weak pointer to a
   // HeapObject.
   constexpr inline bool IsStrongOrWeak() const {
     return !IsSmi() && !IsCleared();
   }

   // Returns true if this tagged value is a strong pointer to a HeapObject.
   constexpr inline bool IsStrong() const {
 #ifdef V8_CAN_HAVE_DCHECK_IN_CONSTEXPR
     DCHECK_IMPLIES(!kCanBeWeak, !IsSmi() == HAS_STRONG_HEAP_OBJECT_TAG(ptr_));
 #endif
     return kCanBeWeak ? HAS_STRONG_HEAP_OBJECT_TAG(ptr_) : !IsSmi();
   }

   // Returns true if this tagged value is a weak pointer to a HeapObject.
   constexpr inline bool IsWeak() const {
     return IsWeakOrCleared() && !IsCleared();
   }

   // Returns true if this tagged value is a weak pointer to a HeapObject or
   // cleared weak reference.
   constexpr inline bool IsWeakOrCleared() const {
     return kCanBeWeak && HAS_WEAK_HEAP_OBJECT_TAG(ptr_);
   }

   //
   // The following set of methods get HeapObject out of the tagged value
   // which may involve decompression in which case the isolate root is required.
   // If the pointer compression is not enabled then the variants with
   // isolate parameter will be exactly the same as the ones witout isolate
   // parameter.
   //

   // If this tagged value is a strong pointer to a HeapObject, returns true and
   // sets *result. Otherwise returns false.
   inline bool GetHeapObjectIfStrong(HeapObject* result) const;
   inline bool GetHeapObjectIfStrong(Isolate* isolate, HeapObject* result) const;

   // DCHECKs that this tagged value is a strong pointer to a HeapObject and
   // returns the HeapObject.
   inline HeapObject GetHeapObjectAssumeStrong() const;
   inline HeapObject GetHeapObjectAssumeStrong(Isolate* isolate) const;

   // If this tagged value is a weak pointer to a HeapObject, returns true and
   // sets *result. Otherwise returns false.
   inline bool GetHeapObjectIfWeak(HeapObject* result) const;
   inline bool GetHeapObjectIfWeak(Isolate* isolate, HeapObject* result) const;

   // DCHECKs that this tagged value is a weak pointer to a HeapObject and
   // returns the HeapObject.
   inline HeapObject GetHeapObjectAssumeWeak() const;
   inline HeapObject GetHeapObjectAssumeWeak(Isolate* isolate) const;

   // If this tagged value is a strong or weak pointer to a HeapObject, returns
   // true and sets *result. Otherwise returns false.
   inline bool GetHeapObject(HeapObject* result) const;
   inline bool GetHeapObject(Isolate* isolate, HeapObject* result) const;

   inline bool GetHeapObject(HeapObject* result,
                             HeapObjectReferenceType* reference_type) const;
   inline bool GetHeapObject(Isolate* isolate, HeapObject* result,
                             HeapObjectReferenceType* reference_type) const;

   // DCHECKs that this tagged value is a strong or a weak pointer to a
   // HeapObject and returns the HeapObject.
   inline HeapObject GetHeapObject() const;
   inline HeapObject GetHeapObject(Isolate* isolate) const;

   // DCHECKs that this tagged value is a strong or a weak pointer to a
   // HeapObject or a Smi and returns the HeapObject or Smi.
   inline Object GetHeapObjectOrSmi() const;
   inline Object GetHeapObjectOrSmi(Isolate* isolate) const;

   // Cast operation is available only for full non-weak tagged values.
   template <typename T>
   T cast() const {
     CHECK(kIsFull);
     DCHECK(!HAS_WEAK_HEAP_OBJECT_TAG(ptr_));
     return T::cast(Object(ptr_));
   }

   // Prints this object without details.
   void ShortPrint(FILE* out = stdout);

   // Prints this object without details to a message accumulator.
   void ShortPrint(StringStream* accumulator);

   void ShortPrint(std::ostream& os);

 #ifdef OBJECT_PRINT
   void Print();
   void Print(std::ostream& os);
 #else
   void Print() { ShortPrint(); }
   void Print(std::ostream& os) { ShortPrint(os); }
 #endif

  private:
   friend class CompressedObjectSlot;
   friend class FullObjectSlot;

   StorageType ptr_;
 };

 }  // namespace internal
 }  // namespace v8

 #endif  // V8_OBJECTS_TAGGED_IMPL_H_
	// Copyright 2019 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_TAGGED_IMPL_H_
	#define V8_OBJECTS_TAGGED_IMPL_H_

	#include "include/v8-internal.h"
	#include "include/v8.h"
	#include "src/common/globals.h"

	namespace v8 {
	namespace internal {

	// An TaggedImpl is a base class for Object (which is either a Smi or a strong
	// reference to a HeapObject) and MaybeObject (which is either a Smi, a strong
	// reference to a HeapObject, a weak reference to a HeapObject, or a cleared
	// weak reference.
	// This class provides storage and one canonical implementation of various
	// predicates that check Smi and heap object tags' values and also take into
	// account whether the tagged value is expected to be weak reference to a
	// HeapObject or cleared weak reference.
	template <HeapObjectReferenceType kRefType, typename StorageType>
	class TaggedImpl {
	public:
	static_assert(std::is_same<StorageType, Address>::value \|\|
	std::is_same<StorageType, Tagged_t>::value,
	"StorageType must be either Address or Tagged_t");

	// True for those TaggedImpl instantiations that represent uncompressed
	// tagged values and false for TaggedImpl instantiations that represent
	// compressed tagged values.
	static const bool kIsFull = sizeof(StorageType) == kSystemPointerSize;

	static const bool kCanBeWeak = kRefType == HeapObjectReferenceType::WEAK;

	constexpr TaggedImpl() : ptr_{} {}
	explicit constexpr TaggedImpl(StorageType ptr) : ptr_(ptr) {}

	// Make clang on Linux catch what MSVC complains about on Windows:
	operator bool() const = delete;

	template <typename U>
	constexpr bool operator==(TaggedImpl<kRefType, U> other) const {
	static_assert(
	std::is_same<U, Address>::value \|\| std::is_same<U, Tagged_t>::value,
	"U must be either Address or Tagged_t");
	return static_cast<Tagged_t>(ptr_) == static_cast<Tagged_t>(other.ptr());
	}
	template <typename U>
	constexpr bool operator!=(TaggedImpl<kRefType, U> other) const {
	static_assert(
	std::is_same<U, Address>::value \|\| std::is_same<U, Tagged_t>::value,
	"U must be either Address or Tagged_t");
	return static_cast<Tagged_t>(ptr_) != static_cast<Tagged_t>(other.ptr());
	}

	// For using in std::set and std::map.
	constexpr bool operator<(TaggedImpl other) const {
	return static_cast<Tagged_t>(ptr_) < static_cast<Tagged_t>(other.ptr());
	}

	constexpr StorageType ptr() const { return ptr_; }

	// Returns true if this tagged value is a strong pointer to a HeapObject or
	// Smi.
	constexpr inline bool IsObject() const { return !IsWeakOrCleared(); }

	// Returns true if this tagged value is a Smi.
	constexpr bool IsSmi() const { return HAS_SMI_TAG(ptr_); }
	inline bool ToSmi(Smi* value) const;
	inline Smi ToSmi() const;

	// Returns true if this tagged value is a strong pointer to a HeapObject.
	constexpr inline bool IsHeapObject() const { return IsStrong(); }

	// Returns true if this tagged value is a cleared weak reference.
	constexpr inline bool IsCleared() const {
	return kCanBeWeak &&
	(static_cast<uint32_t>(ptr_) == kClearedWeakHeapObjectLower32);
	}

	// Returns true if this tagged value is a strong or weak pointer to a
	// HeapObject.
	constexpr inline bool IsStrongOrWeak() const {
	return !IsSmi() && !IsCleared();
	}

	// Returns true if this tagged value is a strong pointer to a HeapObject.
	constexpr inline bool IsStrong() const {
	#ifdef V8_CAN_HAVE_DCHECK_IN_CONSTEXPR
	DCHECK_IMPLIES(!kCanBeWeak, !IsSmi() == HAS_STRONG_HEAP_OBJECT_TAG(ptr_));
	#endif
	return kCanBeWeak ? HAS_STRONG_HEAP_OBJECT_TAG(ptr_) : !IsSmi();
	}

	// Returns true if this tagged value is a weak pointer to a HeapObject.
	constexpr inline bool IsWeak() const {
	return IsWeakOrCleared() && !IsCleared();
	}

	// Returns true if this tagged value is a weak pointer to a HeapObject or
	// cleared weak reference.
	constexpr inline bool IsWeakOrCleared() const {
	return kCanBeWeak && HAS_WEAK_HEAP_OBJECT_TAG(ptr_);
	}

	//
	// The following set of methods get HeapObject out of the tagged value
	// which may involve decompression in which case the isolate root is required.
	// If the pointer compression is not enabled then the variants with
	// isolate parameter will be exactly the same as the ones witout isolate
	// parameter.
	//

	// If this tagged value is a strong pointer to a HeapObject, returns true and
	// sets *result. Otherwise returns false.
	inline bool GetHeapObjectIfStrong(HeapObject* result) const;
	inline bool GetHeapObjectIfStrong(Isolate* isolate, HeapObject* result) const;

	// DCHECKs that this tagged value is a strong pointer to a HeapObject and
	// returns the HeapObject.
	inline HeapObject GetHeapObjectAssumeStrong() const;
	inline HeapObject GetHeapObjectAssumeStrong(Isolate* isolate) const;

	// If this tagged value is a weak pointer to a HeapObject, returns true and
	// sets *result. Otherwise returns false.
	inline bool GetHeapObjectIfWeak(HeapObject* result) const;
	inline bool GetHeapObjectIfWeak(Isolate* isolate, HeapObject* result) const;

	// DCHECKs that this tagged value is a weak pointer to a HeapObject and
	// returns the HeapObject.
	inline HeapObject GetHeapObjectAssumeWeak() const;
	inline HeapObject GetHeapObjectAssumeWeak(Isolate* isolate) const;

	// If this tagged value is a strong or weak pointer to a HeapObject, returns
	// true and sets *result. Otherwise returns false.
	inline bool GetHeapObject(HeapObject* result) const;
	inline bool GetHeapObject(Isolate* isolate, HeapObject* result) const;

	inline bool GetHeapObject(HeapObject* result,
	HeapObjectReferenceType* reference_type) const;
	inline bool GetHeapObject(Isolate* isolate, HeapObject* result,
	HeapObjectReferenceType* reference_type) const;

	// DCHECKs that this tagged value is a strong or a weak pointer to a
	// HeapObject and returns the HeapObject.
	inline HeapObject GetHeapObject() const;
	inline HeapObject GetHeapObject(Isolate* isolate) const;

	// DCHECKs that this tagged value is a strong or a weak pointer to a
	// HeapObject or a Smi and returns the HeapObject or Smi.
	inline Object GetHeapObjectOrSmi() const;
	inline Object GetHeapObjectOrSmi(Isolate* isolate) const;

	// Cast operation is available only for full non-weak tagged values.
	template <typename T>
	T cast() const {
	CHECK(kIsFull);
	DCHECK(!HAS_WEAK_HEAP_OBJECT_TAG(ptr_));
	return T::cast(Object(ptr_));
	}

	// Prints this object without details.
	void ShortPrint(FILE* out = stdout);

	// Prints this object without details to a message accumulator.
	void ShortPrint(StringStream* accumulator);

	void ShortPrint(std::ostream& os);

	#ifdef OBJECT_PRINT
	void Print();
	void Print(std::ostream& os);
	#else
	void Print() { ShortPrint(); }
	void Print(std::ostream& os) { ShortPrint(os); }
	#endif

	private:
	friend class CompressedObjectSlot;
	friend class FullObjectSlot;

	StorageType ptr_;
	};

	} // namespace internal
	} // namespace v8

	#endif // V8_OBJECTS_TAGGED_IMPL_H_