src/gpu/GrMemoryPool.h - platform/external/skqp - Gitiles

 /*
  * Copyright 2012 Google Inc.
  *
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  */

 #ifndef GrMemoryPool_DEFINED
 #define GrMemoryPool_DEFINED

 #include "GrTypes.h"
 #ifdef SK_DEBUG
 #include "SkTHash.h"
 #endif

 /**
  * Allocates memory in blocks and parcels out space in the blocks for allocation
  * requests. It is optimized for allocate / release speed over memory
  * efficiency. The interface is designed to be used to implement operator new
  * and delete overrides. All allocations are expected to be released before the
  * pool's destructor is called. Allocations will be 8-byte aligned.
  */
 class GrMemoryPool {
 public:
     /**
      * Prealloc size is the amount of space to allocate at pool creation
      * time and keep around until pool destruction. The min alloc size is
      * the smallest allowed size of additional allocations. Both sizes are
      * adjusted to ensure that:
      *   1. they are are 8-byte aligned
      *   2. minAllocSize >= kSmallestMinAllocSize
      *   3. preallocSize >= minAllocSize
      *
      * Both sizes is what the pool will end up allocating from the system, and
      * portions of the allocated memory is used for internal bookkeeping.
      */
     GrMemoryPool(size_t preallocSize, size_t minAllocSize);

     ~GrMemoryPool();

     /**
      * Allocates memory. The memory must be freed with release().
      */
     void* allocate(size_t size);

     /**
      * p must have been returned by allocate()
      */
     void release(void* p);

     /**
      * Returns true if there are no unreleased allocations.
      */
     bool isEmpty() const { return fTail == fHead && !fHead->fLiveCount; }

     /**
      * Returns the total allocated size of the GrMemoryPool minus any preallocated amount
      */
     size_t size() const { return fSize; }

     /**
      * Returns the preallocated size of the GrMemoryPool
      */
     size_t preallocSize() const { return fHead->fSize; }

     /**
      * Minimum value of minAllocSize constructor argument.
      */
     constexpr static size_t kSmallestMinAllocSize = 1 << 10;

 private:
     struct BlockHeader;

     static BlockHeader* CreateBlock(size_t size);

     static void DeleteBlock(BlockHeader* block);

     void validate();

     struct BlockHeader {
 #ifdef SK_DEBUG
         uint32_t     fBlockSentinal;  ///< known value to check for bad back pointers to blocks
 #endif
         BlockHeader* fNext;      ///< doubly-linked list of blocks.
         BlockHeader* fPrev;
         int          fLiveCount; ///< number of outstanding allocations in the
                                  ///< block.
         intptr_t     fCurrPtr;   ///< ptr to the start of blocks free space.
         intptr_t     fPrevPtr;   ///< ptr to the last allocation made
         size_t       fFreeSize;  ///< amount of free space left in the block.
         size_t       fSize;      ///< total allocated size of the block
     };

     static const uint32_t kAssignedMarker = 0xCDCDCDCD;
     static const uint32_t kFreedMarker    = 0xEFEFEFEF;

     struct AllocHeader {
 #ifdef SK_DEBUG
         uint32_t fSentinal;      ///< known value to check for memory stomping (e.g., (CD)*)
         int32_t fID;             ///< ID that can be used to track down leaks by clients.
 #endif
         BlockHeader* fHeader;    ///< pointer back to the block header in which an alloc resides
     };

     size_t                            fSize;
     size_t                            fMinAllocSize;
     BlockHeader*                      fHead;
     BlockHeader*                      fTail;
 #ifdef SK_DEBUG
     int                               fAllocationCnt;
     int                               fAllocBlockCnt;
     SkTHashSet<int32_t>               fAllocatedIDs;
 #endif

 protected:
     enum {
         // We assume this alignment is good enough for everybody.
         kAlignment    = 8,
         kHeaderSize   = GR_CT_ALIGN_UP(sizeof(BlockHeader), kAlignment),
         kPerAllocPad  = GR_CT_ALIGN_UP(sizeof(AllocHeader), kAlignment),
     };
 };

 /**
  * Variant of GrMemoryPool that can only allocate objects of a single type. It is
  * not as flexible as GrMemoryPool, but it has more convenient allocate() method,
  * and more importantly, it guarantees number of objects that are preallocated at
  * construction or when adding a new memory block. I.e.
  *
  * GrMemoryPool pool(3 * sizeof(T), 1000 * sizeof(T));
  * pool.allocate(sizeof(T));
  * pool.allocate(sizeof(T));
  * pool.allocate(sizeof(T));
  *
  * will preallocate 3 * sizeof(T) bytes and use some of those bytes for internal
  * structures. Because of that, last allocate() call will end up allocating a new
  * block of 1000 * sizeof(T) bytes. In contrast,
  *
  * GrObjectMemoryPool<T> pool(3, 1000);
  * pool.allocate();
  * pool.allocate();
  * pool.allocate();
  *
  * guarantees to preallocate enough memory for 3 objects of sizeof(T), so last
  * allocate() will use preallocated memory and won't cause allocation of a new block.
  *
  * Same thing is true for the second (minAlloc) ctor argument: this class guarantees
  * that a newly added block will have enough space for 1000 objects of sizeof(T), while
  * GrMemoryPool does not.
  */
 template <class T>
 class GrObjectMemoryPool: public GrMemoryPool {
 public:
     /**
      * Preallocates memory for preallocCount objects, and sets new block size to be
      * enough to hold minAllocCount objects.
      */
     GrObjectMemoryPool(size_t preallocCount, size_t minAllocCount)
         : GrMemoryPool(CountToSize(preallocCount),
                        CountToSize(SkTMax(minAllocCount, kSmallestMinAllocCount))) {
     }

     /**
      * Allocates memory for an object, but doesn't construct or otherwise initialize it.
      * The memory must be freed with release().
      */
     T* allocate() { return static_cast<T*>(GrMemoryPool::allocate(sizeof(T))); }

 private:
     constexpr static size_t kTotalObjectSize =
         kPerAllocPad + GR_CT_ALIGN_UP(sizeof(T), kAlignment);

     constexpr static size_t CountToSize(size_t count) {
         return kHeaderSize + count * kTotalObjectSize;
     }

 public:
     /**
      * Minimum value of minAllocCount constructor argument.
      */
     constexpr static size_t kSmallestMinAllocCount =
         (GrMemoryPool::kSmallestMinAllocSize - kHeaderSize + kTotalObjectSize - 1) /
             kTotalObjectSize;
 };

 template <class T>
 constexpr size_t GrObjectMemoryPool<T>::kSmallestMinAllocCount;

 #endif
	/*
	* Copyright 2012 Google Inc.
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/

	#ifndef GrMemoryPool_DEFINED
	#define GrMemoryPool_DEFINED

	#include "GrTypes.h"
	#ifdef SK_DEBUG
	#include "SkTHash.h"
	#endif

	/**
	* Allocates memory in blocks and parcels out space in the blocks for allocation
	* requests. It is optimized for allocate / release speed over memory
	* efficiency. The interface is designed to be used to implement operator new
	* and delete overrides. All allocations are expected to be released before the
	* pool's destructor is called. Allocations will be 8-byte aligned.
	*/
	class GrMemoryPool {
	public:
	/**
	* Prealloc size is the amount of space to allocate at pool creation
	* time and keep around until pool destruction. The min alloc size is
	* the smallest allowed size of additional allocations. Both sizes are
	* adjusted to ensure that:
	* 1. they are are 8-byte aligned
	* 2. minAllocSize >= kSmallestMinAllocSize
	* 3. preallocSize >= minAllocSize
	*
	* Both sizes is what the pool will end up allocating from the system, and
	* portions of the allocated memory is used for internal bookkeeping.
	*/
	GrMemoryPool(size_t preallocSize, size_t minAllocSize);

	~GrMemoryPool();

	/**
	* Allocates memory. The memory must be freed with release().
	*/
	void* allocate(size_t size);

	/**
	* p must have been returned by allocate()
	*/
	void release(void* p);

	/**
	* Returns true if there are no unreleased allocations.
	*/
	bool isEmpty() const { return fTail == fHead && !fHead->fLiveCount; }

	/**
	* Returns the total allocated size of the GrMemoryPool minus any preallocated amount
	*/
	size_t size() const { return fSize; }

	/**
	* Returns the preallocated size of the GrMemoryPool
	*/
	size_t preallocSize() const { return fHead->fSize; }

	/**
	* Minimum value of minAllocSize constructor argument.
	*/
	constexpr static size_t kSmallestMinAllocSize = 1 << 10;

	private:
	struct BlockHeader;

	static BlockHeader* CreateBlock(size_t size);

	static void DeleteBlock(BlockHeader* block);

	void validate();

	struct BlockHeader {
	#ifdef SK_DEBUG
	uint32_t fBlockSentinal; ///< known value to check for bad back pointers to blocks
	#endif
	BlockHeader* fNext; ///< doubly-linked list of blocks.
	BlockHeader* fPrev;
	int fLiveCount; ///< number of outstanding allocations in the
	///< block.
	intptr_t fCurrPtr; ///< ptr to the start of blocks free space.
	intptr_t fPrevPtr; ///< ptr to the last allocation made
	size_t fFreeSize; ///< amount of free space left in the block.
	size_t fSize; ///< total allocated size of the block
	};

	static const uint32_t kAssignedMarker = 0xCDCDCDCD;
	static const uint32_t kFreedMarker = 0xEFEFEFEF;

	struct AllocHeader {
	#ifdef SK_DEBUG
	uint32_t fSentinal; ///< known value to check for memory stomping (e.g., (CD)*)
	int32_t fID; ///< ID that can be used to track down leaks by clients.
	#endif
	BlockHeader* fHeader; ///< pointer back to the block header in which an alloc resides
	};

	size_t fSize;
	size_t fMinAllocSize;
	BlockHeader* fHead;
	BlockHeader* fTail;
	#ifdef SK_DEBUG
	int fAllocationCnt;
	int fAllocBlockCnt;
	SkTHashSet<int32_t> fAllocatedIDs;
	#endif

	protected:
	enum {
	// We assume this alignment is good enough for everybody.
	kAlignment = 8,
	kHeaderSize = GR_CT_ALIGN_UP(sizeof(BlockHeader), kAlignment),
	kPerAllocPad = GR_CT_ALIGN_UP(sizeof(AllocHeader), kAlignment),
	};
	};

	/**
	* Variant of GrMemoryPool that can only allocate objects of a single type. It is
	* not as flexible as GrMemoryPool, but it has more convenient allocate() method,
	* and more importantly, it guarantees number of objects that are preallocated at
	* construction or when adding a new memory block. I.e.
	*
	* GrMemoryPool pool(3 * sizeof(T), 1000 * sizeof(T));
	* pool.allocate(sizeof(T));
	* pool.allocate(sizeof(T));
	* pool.allocate(sizeof(T));
	*
	* will preallocate 3 * sizeof(T) bytes and use some of those bytes for internal
	* structures. Because of that, last allocate() call will end up allocating a new
	* block of 1000 * sizeof(T) bytes. In contrast,
	*
	* GrObjectMemoryPool<T> pool(3, 1000);
	* pool.allocate();
	* pool.allocate();
	* pool.allocate();
	*
	* guarantees to preallocate enough memory for 3 objects of sizeof(T), so last
	* allocate() will use preallocated memory and won't cause allocation of a new block.
	*
	* Same thing is true for the second (minAlloc) ctor argument: this class guarantees
	* that a newly added block will have enough space for 1000 objects of sizeof(T), while
	* GrMemoryPool does not.
	*/
	template <class T>
	class GrObjectMemoryPool: public GrMemoryPool {
	public:
	/**
	* Preallocates memory for preallocCount objects, and sets new block size to be
	* enough to hold minAllocCount objects.
	*/
	GrObjectMemoryPool(size_t preallocCount, size_t minAllocCount)
	: GrMemoryPool(CountToSize(preallocCount),
	CountToSize(SkTMax(minAllocCount, kSmallestMinAllocCount))) {
	}

	/**
	* Allocates memory for an object, but doesn't construct or otherwise initialize it.
	* The memory must be freed with release().
	*/
	T* allocate() { return static_cast<T*>(GrMemoryPool::allocate(sizeof(T))); }

	private:
	constexpr static size_t kTotalObjectSize =
	kPerAllocPad + GR_CT_ALIGN_UP(sizeof(T), kAlignment);

	constexpr static size_t CountToSize(size_t count) {
	return kHeaderSize + count * kTotalObjectSize;
	}

	public:
	/**
	* Minimum value of minAllocCount constructor argument.
	*/
	constexpr static size_t kSmallestMinAllocCount =
	(GrMemoryPool::kSmallestMinAllocSize - kHeaderSize + kTotalObjectSize - 1) /
	kTotalObjectSize;
	};

	template <class T>
	constexpr size_t GrObjectMemoryPool<T>::kSmallestMinAllocCount;

	#endif