src/third_party/skia/src/gpu/GrBufferAllocPool.h - cobalt - Git at Google

 /*
  * Copyright 2010 Google Inc.
  *
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  */

 #ifndef GrBufferAllocPool_DEFINED
 #define GrBufferAllocPool_DEFINED

 #include "SkTArray.h"
 #include "SkTDArray.h"
 #include "SkTypes.h"
 #include "GrTypesPriv.h"

 class GrBuffer;
 class GrGpu;

 /**
  * A pool of geometry buffers tied to a GrGpu.
  *
  * The pool allows a client to make space for geometry and then put back excess
  * space if it over allocated. When a client is ready to draw from the pool
  * it calls unmap on the pool ensure buffers are ready for drawing. The pool
  * can be reset after drawing is completed to recycle space.
  *
  * At creation time a minimum per-buffer size can be specified. Additionally,
  * a number of buffers to preallocate can be specified. These will
  * be allocated at the min size and kept around until the pool is destroyed.
  */
 class GrBufferAllocPool : SkNoncopyable {
 public:
     /**
      * Ensures all buffers are unmapped and have all data written to them.
      * Call before drawing using buffers from the pool.
      */
     void unmap();

     /**
      *  Invalidates all the data in the pool, unrefs non-preallocated buffers.
      */
     void reset();

     /**
      * Frees data from makeSpaces in LIFO order.
      */
     void putBack(size_t bytes);

 protected:
     /**
      * Constructor
      *
      * @param gpu                   The GrGpu used to create the buffers.
      * @param bufferType            The type of buffers to create.
      * @param bufferSize            The minimum size of created buffers.
      *                              This value will be clamped to some
      *                              reasonable minimum.
      */
      GrBufferAllocPool(GrGpu* gpu,
                        GrBufferType bufferType,
                        size_t   bufferSize = 0);

      virtual ~GrBufferAllocPool();

     /**
      * Returns a block of memory to hold data. A buffer designated to hold the
      * data is given to the caller. The buffer may or may not be locked. The
      * returned ptr remains valid until any of the following:
      *      *makeSpace is called again.
      *      *unmap is called.
      *      *reset is called.
      *      *this object is destroyed.
      *
      * Once unmap on the pool is called the data is guaranteed to be in the
      * buffer at the offset indicated by offset. Until that time it may be
      * in temporary storage and/or the buffer may be locked.
      *
      * @param size         the amount of data to make space for
      * @param alignment    alignment constraint from start of buffer
      * @param buffer       returns the buffer that will hold the data.
      * @param offset       returns the offset into buffer of the data.
      * @return pointer to where the client should write the data.
      */
     void* makeSpace(size_t size,
                     size_t alignment,
                     const GrBuffer** buffer,
                     size_t* offset);

     /**
      * Returns a block of memory to hold data. A buffer designated to hold the
      * data is given to the caller. The buffer may or may not be locked. The
      * returned ptr remains valid until any of the following:
      *      *makeSpace is called again.
      *      *unmap is called.
      *      *reset is called.
      *      *this object is destroyed.
      *
      * Once unmap on the pool is called the data is guaranteed to be in the
      * buffer at the offset indicated by offset. Until that time it may be
      * in temporary storage and/or the buffer may be locked.
      *
      * The caller requests a minimum number of bytes, but the block may be (much)
      * larger. Assuming that a new block must be allocated, it will be fallbackSize bytes.
      * The actual block size is returned in actualSize.
      *
      * @param minSize        the minimum amount of data to make space for
      * @param fallbackSize   the amount of data to make space for if a new block is needed
      * @param alignment      alignment constraint from start of buffer
      * @param buffer         returns the buffer that will hold the data.
      * @param offset         returns the offset into buffer of the data.
      * @param actualSize     returns the capacity of the block
      * @return pointer to where the client should write the data.
      */
     void* makeSpaceAtLeast(size_t minSize,
                            size_t fallbackSize,
                            size_t alignment,
                            const GrBuffer** buffer,
                            size_t* offset,
                            size_t* actualSize);

     GrBuffer* getBuffer(size_t size);

 private:
     struct BufferBlock {
         size_t      fBytesFree;
         GrBuffer*   fBuffer;
     };

     bool createBlock(size_t requestSize);
     void destroyBlock();
     void deleteBlocks();
     void flushCpuData(const BufferBlock& block, size_t flushSize);
     void* resetCpuData(size_t newSize);
 #ifdef SK_DEBUG
     void validate(bool unusedBlockAllowed = false) const;
 #endif
     size_t                          fBytesInUse;

     GrGpu*                          fGpu;
     size_t                          fMinBlockSize;
     GrBufferType                    fBufferType;

     SkTArray<BufferBlock>           fBlocks;
     void*                           fCpuData;
     void*                           fBufferPtr;
     size_t                          fBufferMapThreshold;
 };

 /**
  * A GrBufferAllocPool of vertex buffers
  */
 class GrVertexBufferAllocPool : public GrBufferAllocPool {
 public:
     /**
      * Constructor
      *
      * @param gpu                   The GrGpu used to create the vertex buffers.
      */
     GrVertexBufferAllocPool(GrGpu* gpu);

     /**
      * Returns a block of memory to hold vertices. A buffer designated to hold
      * the vertices given to the caller. The buffer may or may not be locked.
      * The returned ptr remains valid until any of the following:
      *      *makeSpace is called again.
      *      *unmap is called.
      *      *reset is called.
      *      *this object is destroyed.
      *
      * Once unmap on the pool is called the vertices are guaranteed to be in
      * the buffer at the offset indicated by startVertex. Until that time they
      * may be in temporary storage and/or the buffer may be locked.
      *
      * @param vertexSize   specifies size of a vertex to allocate space for
      * @param vertexCount  number of vertices to allocate space for
      * @param buffer       returns the vertex buffer that will hold the
      *                     vertices.
      * @param startVertex  returns the offset into buffer of the first vertex.
      *                     In units of the size of a vertex from layout param.
      * @return pointer to first vertex.
      */
     void* makeSpace(size_t vertexSize,
                     int vertexCount,
                     const GrBuffer** buffer,
                     int* startVertex);

     /**
      * Returns a block of memory to hold vertices. A buffer designated to hold
      * the vertices given to the caller. The buffer may or may not be locked.
      * The returned ptr remains valid until any of the following:
      *      *makeSpace is called again.
      *      *unmap is called.
      *      *reset is called.
      *      *this object is destroyed.
      *
      * Once unmap on the pool is called the vertices are guaranteed to be in
      * the buffer at the offset indicated by startVertex. Until that time they
      * may be in temporary storage and/or the buffer may be locked.
      *
      * The caller requests a minimum number of vertices, but the block may be (much)
      * larger. Assuming that a new block must be allocated, it will be sized to hold
      * fallbackVertexCount vertices. The actual block size (in vertices) is returned in
      * actualVertexCount.
      *
      * @param vertexSize           specifies size of a vertex to allocate space for
      * @param minVertexCount       minimum number of vertices to allocate space for
      * @param fallbackVertexCount  number of vertices to allocate space for if a new block is needed
      * @param buffer               returns the vertex buffer that will hold the vertices.
      * @param startVertex          returns the offset into buffer of the first vertex.
      *                             In units of the size of a vertex from layout param.
      * @param actualVertexCount    returns the capacity of the block (in vertices)
      * @return pointer to first vertex.
      */
     void* makeSpaceAtLeast(size_t vertexSize,
                            int minVertexCount,
                            int fallbackVertexCount,
                            const GrBuffer** buffer,
                            int* startVertex,
                            int* actualVertexCount);

 private:
     typedef GrBufferAllocPool INHERITED;
 };

 /**
  * A GrBufferAllocPool of index buffers
  */
 class GrIndexBufferAllocPool : public GrBufferAllocPool {
 public:
     /**
      * Constructor
      *
      * @param gpu                   The GrGpu used to create the index buffers.
      */
     GrIndexBufferAllocPool(GrGpu* gpu);

     /**
      * Returns a block of memory to hold indices. A buffer designated to hold
      * the indices is given to the caller. The buffer may or may not be locked.
      * The returned ptr remains valid until any of the following:
      *      *makeSpace is called again.
      *      *unmap is called.
      *      *reset is called.
      *      *this object is destroyed.
      *
      * Once unmap on the pool is called the indices are guaranteed to be in the
      * buffer at the offset indicated by startIndex. Until that time they may be
      * in temporary storage and/or the buffer may be locked.
      *
      * @param indexCount   number of indices to allocate space for
      * @param buffer       returns the index buffer that will hold the indices.
      * @param startIndex   returns the offset into buffer of the first index.
      * @return pointer to first index.
      */
     void* makeSpace(int indexCount,
                     const GrBuffer** buffer,
                     int* startIndex);

     /**
      * Returns a block of memory to hold indices. A buffer designated to hold
      * the indices is given to the caller. The buffer may or may not be locked.
      * The returned ptr remains valid until any of the following:
      *      *makeSpace is called again.
      *      *unmap is called.
      *      *reset is called.
      *      *this object is destroyed.
      *
      * Once unmap on the pool is called the indices are guaranteed to be in the
      * buffer at the offset indicated by startIndex. Until that time they may be
      * in temporary storage and/or the buffer may be locked.
      *
      * The caller requests a minimum number of indices, but the block may be (much)
      * larger. Assuming that a new block must be allocated, it will be sized to hold
      * fallbackIndexCount indices. The actual block size (in indices) is returned in
      * actualIndexCount.
      *
      * @param minIndexCount        minimum number of indices to allocate space for
      * @param fallbackIndexCount   number of indices to allocate space for if a new block is needed
      * @param buffer               returns the index buffer that will hold the indices.
      * @param startIndex           returns the offset into buffer of the first index.
      * @param actualIndexCount     returns the capacity of the block (in indices)
      * @return pointer to first index.
      */
     void* makeSpaceAtLeast(int minIndexCount,
                            int fallbackIndexCount,
                            const GrBuffer** buffer,
                            int* startIndex,
                            int* actualIndexCount);

 private:
     typedef GrBufferAllocPool INHERITED;
 };

 #endif
	/*
	* Copyright 2010 Google Inc.
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/

	#ifndef GrBufferAllocPool_DEFINED
	#define GrBufferAllocPool_DEFINED

	#include "SkTArray.h"
	#include "SkTDArray.h"
	#include "SkTypes.h"
	#include "GrTypesPriv.h"

	class GrBuffer;
	class GrGpu;

	/**
	* A pool of geometry buffers tied to a GrGpu.
	*
	* The pool allows a client to make space for geometry and then put back excess
	* space if it over allocated. When a client is ready to draw from the pool
	* it calls unmap on the pool ensure buffers are ready for drawing. The pool
	* can be reset after drawing is completed to recycle space.
	*
	* At creation time a minimum per-buffer size can be specified. Additionally,
	* a number of buffers to preallocate can be specified. These will
	* be allocated at the min size and kept around until the pool is destroyed.
	*/
	class GrBufferAllocPool : SkNoncopyable {
	public:
	/**
	* Ensures all buffers are unmapped and have all data written to them.
	* Call before drawing using buffers from the pool.
	*/
	void unmap();

	/**
	* Invalidates all the data in the pool, unrefs non-preallocated buffers.
	*/
	void reset();

	/**
	* Frees data from makeSpaces in LIFO order.
	*/
	void putBack(size_t bytes);

	protected:
	/**
	* Constructor
	*
	* @param gpu The GrGpu used to create the buffers.
	* @param bufferType The type of buffers to create.
	* @param bufferSize The minimum size of created buffers.
	* This value will be clamped to some
	* reasonable minimum.
	*/
	GrBufferAllocPool(GrGpu* gpu,
	GrBufferType bufferType,
	size_t bufferSize = 0);

	virtual ~GrBufferAllocPool();

	/**
	* Returns a block of memory to hold data. A buffer designated to hold the
	* data is given to the caller. The buffer may or may not be locked. The
	* returned ptr remains valid until any of the following:
	* *makeSpace is called again.
	* *unmap is called.
	* *reset is called.
	* *this object is destroyed.
	*
	* Once unmap on the pool is called the data is guaranteed to be in the
	* buffer at the offset indicated by offset. Until that time it may be
	* in temporary storage and/or the buffer may be locked.
	*
	* @param size the amount of data to make space for
	* @param alignment alignment constraint from start of buffer
	* @param buffer returns the buffer that will hold the data.
	* @param offset returns the offset into buffer of the data.
	* @return pointer to where the client should write the data.
	*/
	void* makeSpace(size_t size,
	size_t alignment,
	const GrBuffer** buffer,
	size_t* offset);

	/**
	* Returns a block of memory to hold data. A buffer designated to hold the
	* data is given to the caller. The buffer may or may not be locked. The
	* returned ptr remains valid until any of the following:
	* *makeSpace is called again.
	* *unmap is called.
	* *reset is called.
	* *this object is destroyed.
	*
	* Once unmap on the pool is called the data is guaranteed to be in the
	* buffer at the offset indicated by offset. Until that time it may be
	* in temporary storage and/or the buffer may be locked.
	*
	* The caller requests a minimum number of bytes, but the block may be (much)
	* larger. Assuming that a new block must be allocated, it will be fallbackSize bytes.
	* The actual block size is returned in actualSize.
	*
	* @param minSize the minimum amount of data to make space for
	* @param fallbackSize the amount of data to make space for if a new block is needed
	* @param alignment alignment constraint from start of buffer
	* @param buffer returns the buffer that will hold the data.
	* @param offset returns the offset into buffer of the data.
	* @param actualSize returns the capacity of the block
	* @return pointer to where the client should write the data.
	*/
	void* makeSpaceAtLeast(size_t minSize,
	size_t fallbackSize,
	size_t alignment,
	const GrBuffer** buffer,
	size_t* offset,
	size_t* actualSize);

	GrBuffer* getBuffer(size_t size);

	private:
	struct BufferBlock {
	size_t fBytesFree;
	GrBuffer* fBuffer;
	};

	bool createBlock(size_t requestSize);
	void destroyBlock();
	void deleteBlocks();
	void flushCpuData(const BufferBlock& block, size_t flushSize);
	void* resetCpuData(size_t newSize);
	#ifdef SK_DEBUG
	void validate(bool unusedBlockAllowed = false) const;
	#endif
	size_t fBytesInUse;

	GrGpu* fGpu;
	size_t fMinBlockSize;
	GrBufferType fBufferType;

	SkTArray<BufferBlock> fBlocks;
	void* fCpuData;
	void* fBufferPtr;
	size_t fBufferMapThreshold;
	};

	/**
	* A GrBufferAllocPool of vertex buffers
	*/
	class GrVertexBufferAllocPool : public GrBufferAllocPool {
	public:
	/**
	* Constructor
	*
	* @param gpu The GrGpu used to create the vertex buffers.
	*/
	GrVertexBufferAllocPool(GrGpu* gpu);

	/**
	* Returns a block of memory to hold vertices. A buffer designated to hold
	* the vertices given to the caller. The buffer may or may not be locked.
	* The returned ptr remains valid until any of the following:
	* *makeSpace is called again.
	* *unmap is called.
	* *reset is called.
	* *this object is destroyed.
	*
	* Once unmap on the pool is called the vertices are guaranteed to be in
	* the buffer at the offset indicated by startVertex. Until that time they
	* may be in temporary storage and/or the buffer may be locked.
	*
	* @param vertexSize specifies size of a vertex to allocate space for
	* @param vertexCount number of vertices to allocate space for
	* @param buffer returns the vertex buffer that will hold the
	* vertices.
	* @param startVertex returns the offset into buffer of the first vertex.
	* In units of the size of a vertex from layout param.
	* @return pointer to first vertex.
	*/
	void* makeSpace(size_t vertexSize,
	int vertexCount,
	const GrBuffer** buffer,
	int* startVertex);

	/**
	* Returns a block of memory to hold vertices. A buffer designated to hold
	* the vertices given to the caller. The buffer may or may not be locked.
	* The returned ptr remains valid until any of the following:
	* *makeSpace is called again.
	* *unmap is called.
	* *reset is called.
	* *this object is destroyed.
	*
	* Once unmap on the pool is called the vertices are guaranteed to be in
	* the buffer at the offset indicated by startVertex. Until that time they
	* may be in temporary storage and/or the buffer may be locked.
	*
	* The caller requests a minimum number of vertices, but the block may be (much)
	* larger. Assuming that a new block must be allocated, it will be sized to hold
	* fallbackVertexCount vertices. The actual block size (in vertices) is returned in
	* actualVertexCount.
	*
	* @param vertexSize specifies size of a vertex to allocate space for
	* @param minVertexCount minimum number of vertices to allocate space for
	* @param fallbackVertexCount number of vertices to allocate space for if a new block is needed
	* @param buffer returns the vertex buffer that will hold the vertices.
	* @param startVertex returns the offset into buffer of the first vertex.
	* In units of the size of a vertex from layout param.
	* @param actualVertexCount returns the capacity of the block (in vertices)
	* @return pointer to first vertex.
	*/
	void* makeSpaceAtLeast(size_t vertexSize,
	int minVertexCount,
	int fallbackVertexCount,
	const GrBuffer** buffer,
	int* startVertex,
	int* actualVertexCount);

	private:
	typedef GrBufferAllocPool INHERITED;
	};

	/**
	* A GrBufferAllocPool of index buffers
	*/
	class GrIndexBufferAllocPool : public GrBufferAllocPool {
	public:
	/**
	* Constructor
	*
	* @param gpu The GrGpu used to create the index buffers.
	*/
	GrIndexBufferAllocPool(GrGpu* gpu);

	/**
	* Returns a block of memory to hold indices. A buffer designated to hold
	* the indices is given to the caller. The buffer may or may not be locked.
	* The returned ptr remains valid until any of the following:
	* *makeSpace is called again.
	* *unmap is called.
	* *reset is called.
	* *this object is destroyed.
	*
	* Once unmap on the pool is called the indices are guaranteed to be in the
	* buffer at the offset indicated by startIndex. Until that time they may be
	* in temporary storage and/or the buffer may be locked.
	*
	* @param indexCount number of indices to allocate space for
	* @param buffer returns the index buffer that will hold the indices.
	* @param startIndex returns the offset into buffer of the first index.
	* @return pointer to first index.
	*/
	void* makeSpace(int indexCount,
	const GrBuffer** buffer,
	int* startIndex);

	/**
	* Returns a block of memory to hold indices. A buffer designated to hold
	* the indices is given to the caller. The buffer may or may not be locked.
	* The returned ptr remains valid until any of the following:
	* *makeSpace is called again.
	* *unmap is called.
	* *reset is called.
	* *this object is destroyed.
	*
	* Once unmap on the pool is called the indices are guaranteed to be in the
	* buffer at the offset indicated by startIndex. Until that time they may be
	* in temporary storage and/or the buffer may be locked.
	*
	* The caller requests a minimum number of indices, but the block may be (much)
	* larger. Assuming that a new block must be allocated, it will be sized to hold
	* fallbackIndexCount indices. The actual block size (in indices) is returned in
	* actualIndexCount.
	*
	* @param minIndexCount minimum number of indices to allocate space for
	* @param fallbackIndexCount number of indices to allocate space for if a new block is needed
	* @param buffer returns the index buffer that will hold the indices.
	* @param startIndex returns the offset into buffer of the first index.
	* @param actualIndexCount returns the capacity of the block (in indices)
	* @return pointer to first index.
	*/
	void* makeSpaceAtLeast(int minIndexCount,
	int fallbackIndexCount,
	const GrBuffer** buffer,
	int* startIndex,
	int* actualIndexCount);

	private:
	typedef GrBufferAllocPool INHERITED;
	};

	#endif