src/heap/linear-allocation-area.h - v8/v8.git - Git at Google

 // Copyright 2021 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_HEAP_LINEAR_ALLOCATION_AREA_H_
 #define V8_HEAP_LINEAR_ALLOCATION_AREA_H_

 // This header file is included outside of src/heap/.
 // Avoid including src/heap/ internals.
 #include "include/v8-internal.h"
 #include "src/common/checks.h"

 namespace v8 {
 namespace internal {

 // A linear allocation area to allocate objects from.
 //
 // Invariant that must hold at all times:
 //   start <= top <= limit
 class LinearAllocationArea final {
  public:
   LinearAllocationArea() = default;
   LinearAllocationArea(Address top, Address limit)
       : start_(top), top_(top), limit_(limit) {
     Verify();
   }

   void Reset(Address top, Address limit) {
     start_ = top;
     top_ = top;
     limit_ = limit;
     Verify();
   }

   void ResetStart() { start_ = top_; }

   V8_INLINE bool CanIncrementTop(size_t bytes) const {
     Verify();
     return (top_ + bytes) <= limit_;
   }

   V8_INLINE Address IncrementTop(size_t bytes) {
     Address old_top = top_;
     top_ += bytes;
     Verify();
     return old_top;
   }

   V8_INLINE bool DecrementTopIfAdjacent(Address new_top, size_t bytes) {
     Verify();
     if ((new_top + bytes) == top_) {
       top_ = new_top;
       if (start_ > top_) {
         ResetStart();
       }
       Verify();
       return true;
     }
     return false;
   }

   V8_INLINE bool MergeIfAdjacent(LinearAllocationArea& other) {
     Verify();
     other.Verify();
     if (top_ == other.limit_) {
       top_ = other.top_;
       start_ = other.start_;
       other.Reset(kNullAddress, kNullAddress);
       Verify();
       return true;
     }
     return false;
   }

   V8_INLINE void SetLimit(Address limit) {
     limit_ = limit;
     Verify();
   }

   V8_INLINE Address start() const {
     Verify();
     return start_;
   }
   V8_INLINE Address top() const {
     Verify();
     return top_;
   }
   V8_INLINE Address limit() const {
     Verify();
     return limit_;
   }
   const Address* top_address() const { return &top_; }
   Address* top_address() { return &top_; }
   const Address* limit_address() const { return &limit_; }
   Address* limit_address() { return &limit_; }

   void Verify() const {
 #ifdef DEBUG
     SLOW_DCHECK(start_ <= top_);
     SLOW_DCHECK(top_ <= limit_);
     if (V8_COMPRESS_POINTERS_8GB_BOOL) {
       SLOW_DCHECK(IsAligned(top_, kObjectAlignment8GbHeap));
     } else {
       SLOW_DCHECK(IsAligned(top_, kObjectAlignment));
     }
 #endif  // DEBUG
   }

   static constexpr int kSize = 3 * kSystemPointerSize;

  private:
   // The start of the LAB. Initially coincides with `top_`. As top is moved
   // ahead, the area [start_, top_[ denotes a range of new objects. This range
   // is reset with `ResetStart()`.
   Address start_ = kNullAddress;
   // The top of the LAB that is used for allocation.
   Address top_ = kNullAddress;
   // Limit of the LAB the denotes the end of the valid range for allocation.
   Address limit_ = kNullAddress;
 };

 static_assert(sizeof(LinearAllocationArea) == LinearAllocationArea::kSize,
               "LinearAllocationArea's size must be small because it "
               "is included in IsolateData.");

 }  // namespace internal
 }  // namespace v8

 #endif  // V8_HEAP_LINEAR_ALLOCATION_AREA_H_
	// Copyright 2021 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_HEAP_LINEAR_ALLOCATION_AREA_H_
	#define V8_HEAP_LINEAR_ALLOCATION_AREA_H_

	// This header file is included outside of src/heap/.
	// Avoid including src/heap/ internals.
	#include "include/v8-internal.h"
	#include "src/common/checks.h"

	namespace v8 {
	namespace internal {

	// A linear allocation area to allocate objects from.
	//
	// Invariant that must hold at all times:
	// start <= top <= limit
	class LinearAllocationArea final {
	public:
	LinearAllocationArea() = default;
	LinearAllocationArea(Address top, Address limit)
	: start_(top), top_(top), limit_(limit) {
	Verify();
	}

	void Reset(Address top, Address limit) {
	start_ = top;
	top_ = top;
	limit_ = limit;
	Verify();
	}

	void ResetStart() { start_ = top_; }

	V8_INLINE bool CanIncrementTop(size_t bytes) const {
	Verify();
	return (top_ + bytes) <= limit_;
	}

	V8_INLINE Address IncrementTop(size_t bytes) {
	Address old_top = top_;
	top_ += bytes;
	Verify();
	return old_top;
	}

	V8_INLINE bool DecrementTopIfAdjacent(Address new_top, size_t bytes) {
	Verify();
	if ((new_top + bytes) == top_) {
	top_ = new_top;
	if (start_ > top_) {
	ResetStart();
	}
	Verify();
	return true;
	}
	return false;
	}

	V8_INLINE bool MergeIfAdjacent(LinearAllocationArea& other) {
	Verify();
	other.Verify();
	if (top_ == other.limit_) {
	top_ = other.top_;
	start_ = other.start_;
	other.Reset(kNullAddress, kNullAddress);
	Verify();
	return true;
	}
	return false;
	}

	V8_INLINE void SetLimit(Address limit) {
	limit_ = limit;
	Verify();
	}

	V8_INLINE Address start() const {
	Verify();
	return start_;
	}
	V8_INLINE Address top() const {
	Verify();
	return top_;
	}
	V8_INLINE Address limit() const {
	Verify();
	return limit_;
	}
	const Address* top_address() const { return &top_; }
	Address* top_address() { return &top_; }
	const Address* limit_address() const { return &limit_; }
	Address* limit_address() { return &limit_; }

	void Verify() const {
	#ifdef DEBUG
	SLOW_DCHECK(start_ <= top_);
	SLOW_DCHECK(top_ <= limit_);
	if (V8_COMPRESS_POINTERS_8GB_BOOL) {
	SLOW_DCHECK(IsAligned(top_, kObjectAlignment8GbHeap));
	} else {
	SLOW_DCHECK(IsAligned(top_, kObjectAlignment));
	}
	#endif // DEBUG
	}

	static constexpr int kSize = 3 * kSystemPointerSize;

	private:
	// The start of the LAB. Initially coincides with `top_`. As top is moved
	// ahead, the area [start_, top_[ denotes a range of new objects. This range
	// is reset with `ResetStart()`.
	Address start_ = kNullAddress;
	// The top of the LAB that is used for allocation.
	Address top_ = kNullAddress;
	// Limit of the LAB the denotes the end of the valid range for allocation.
	Address limit_ = kNullAddress;
	};

	static_assert(sizeof(LinearAllocationArea) == LinearAllocationArea::kSize,
	"LinearAllocationArea's size must be small because it "
	"is included in IsolateData.");

	} // namespace internal
	} // namespace v8

	#endif // V8_HEAP_LINEAR_ALLOCATION_AREA_H_