gpu/command_buffer/client/mapped_memory.h - chromium/src - Git at Google

 // Copyright (c) 2012 The Chromium 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 GPU_COMMAND_BUFFER_CLIENT_MAPPED_MEMORY_H_
 #define GPU_COMMAND_BUFFER_CLIENT_MAPPED_MEMORY_H_

 #include <stdint.h>

 #include "base/bind.h"
 #include "base/macros.h"
 #include "base/memory/scoped_vector.h"
 #include "gpu/command_buffer/client/fenced_allocator.h"
 #include "gpu/command_buffer/common/buffer.h"
 #include "gpu/gpu_export.h"

 namespace gpu {

 class CommandBufferHelper;

 // Manages a shared memory segment.
 class GPU_EXPORT MemoryChunk {
  public:
   MemoryChunk(int32_t shm_id,
               scoped_refptr<gpu::Buffer> shm,
               CommandBufferHelper* helper,
               const base::Closure& poll_callback);
   ~MemoryChunk();

   // Gets the size of the largest free block that is available without waiting.
   unsigned int GetLargestFreeSizeWithoutWaiting() {
     return allocator_.GetLargestFreeSize();
   }

   // Gets the size of the largest free block that can be allocated if the
   // caller can wait.
   unsigned int GetLargestFreeSizeWithWaiting() {
     return allocator_.GetLargestFreeOrPendingSize();
   }

   // Gets the size of the chunk.
   unsigned int GetSize() const {
     return static_cast<unsigned int>(shm_->size());
   }

   // The shared memory id for this chunk.
   int32_t shm_id() const {
     return shm_id_;
   }

   // Allocates a block of memory. If the buffer is out of directly available
   // memory, this function may wait until memory that was freed "pending a
   // token" can be re-used.
   //
   // Parameters:
   //   size: the size of the memory block to allocate.
   //
   // Returns:
   //   the pointer to the allocated memory block, or NULL if out of
   //   memory.
   void* Alloc(unsigned int size) {
     return allocator_.Alloc(size);
   }

   // Gets the offset to a memory block given the base memory and the address.
   // It translates NULL to FencedAllocator::kInvalidOffset.
   unsigned int GetOffset(void* pointer) {
     return allocator_.GetOffset(pointer);
   }

   // Frees a block of memory.
   //
   // Parameters:
   //   pointer: the pointer to the memory block to free.
   void Free(void* pointer) {
     allocator_.Free(pointer);
   }

   // Frees a block of memory, pending the passage of a token. That memory won't
   // be re-allocated until the token has passed through the command stream.
   //
   // Parameters:
   //   pointer: the pointer to the memory block to free.
   //   token: the token value to wait for before re-using the memory.
   void FreePendingToken(void* pointer, unsigned int token) {
     allocator_.FreePendingToken(pointer, token);
   }

   // Frees any blocks whose tokens have passed.
   void FreeUnused() {
     allocator_.FreeUnused();
   }

   // Returns true if pointer is in the range of this block.
   bool IsInChunk(void* pointer) const {
     return pointer >= shm_->memory() &&
            pointer <
                reinterpret_cast<const int8_t*>(shm_->memory()) + shm_->size();
   }

   // Returns true of any memory in this chunk is in use.
   bool InUse() {
     return allocator_.InUse();
   }

   size_t bytes_in_use() const {
     return allocator_.bytes_in_use();
   }

  private:
   int32_t shm_id_;
   scoped_refptr<gpu::Buffer> shm_;
   FencedAllocatorWrapper allocator_;

   DISALLOW_COPY_AND_ASSIGN(MemoryChunk);
 };

 // Manages MemoryChunks.
 class GPU_EXPORT MappedMemoryManager {
  public:
   enum MemoryLimit {
     kNoLimit = 0,
   };

   // |unused_memory_reclaim_limit|: When exceeded this causes pending memory
   // to be reclaimed before allocating more memory.
   MappedMemoryManager(CommandBufferHelper* helper,
                       const base::Closure& poll_callback,
                       size_t unused_memory_reclaim_limit);

   ~MappedMemoryManager();

   unsigned int chunk_size_multiple() const {
     return chunk_size_multiple_;
   }

   void set_chunk_size_multiple(unsigned int multiple) {
     DCHECK(multiple % FencedAllocator::kAllocAlignment == 0);
     chunk_size_multiple_ = multiple;
   }

   // Allocates a block of memory
   // Parameters:
   //   size: size of memory to allocate.
   //   shm_id: pointer to variable to receive the shared memory id.
   //   shm_offset: pointer to variable to receive the shared memory offset.
   // Returns:
   //   pointer to allocated block of memory. NULL if failure.
   void* Alloc(
       unsigned int size, int32_t* shm_id, unsigned int* shm_offset);

   // Frees a block of memory.
   //
   // Parameters:
   //   pointer: the pointer to the memory block to free.
   void Free(void* pointer);

   // Frees a block of memory, pending the passage of a token. That memory won't
   // be re-allocated until the token has passed through the command stream.
   //
   // Parameters:
   //   pointer: the pointer to the memory block to free.
   //   token: the token value to wait for before re-using the memory.
   void FreePendingToken(void* pointer, int32_t token);

   // Free Any Shared memory that is not in use.
   void FreeUnused();

   // Used for testing
   size_t num_chunks() const {
     return chunks_.size();
   }

   size_t bytes_in_use() const {
     size_t bytes_in_use = 0;
     for (size_t ii = 0; ii < chunks_.size(); ++ii) {
       MemoryChunk* chunk = chunks_[ii];
       bytes_in_use += chunk->bytes_in_use();
     }
     return bytes_in_use;
   }

   // Used for testing
   size_t allocated_memory() const {
     return allocated_memory_;
   }

  private:
   typedef ScopedVector<MemoryChunk> MemoryChunkVector;

   // size a chunk is rounded up to.
   unsigned int chunk_size_multiple_;
   CommandBufferHelper* helper_;
   base::Closure poll_callback_;
   MemoryChunkVector chunks_;
   size_t allocated_memory_;
   size_t max_free_bytes_;

   DISALLOW_COPY_AND_ASSIGN(MappedMemoryManager);
 };

 }  // namespace gpu

 #endif  // GPU_COMMAND_BUFFER_CLIENT_MAPPED_MEMORY_H_
	// Copyright (c) 2012 The Chromium 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 GPU_COMMAND_BUFFER_CLIENT_MAPPED_MEMORY_H_
	#define GPU_COMMAND_BUFFER_CLIENT_MAPPED_MEMORY_H_

	#include <stdint.h>

	#include "base/bind.h"
	#include "base/macros.h"
	#include "base/memory/scoped_vector.h"
	#include "gpu/command_buffer/client/fenced_allocator.h"
	#include "gpu/command_buffer/common/buffer.h"
	#include "gpu/gpu_export.h"

	namespace gpu {

	class CommandBufferHelper;

	// Manages a shared memory segment.
	class GPU_EXPORT MemoryChunk {
	public:
	MemoryChunk(int32_t shm_id,
	scoped_refptr<gpu::Buffer> shm,
	CommandBufferHelper* helper,
	const base::Closure& poll_callback);
	~MemoryChunk();

	// Gets the size of the largest free block that is available without waiting.
	unsigned int GetLargestFreeSizeWithoutWaiting() {
	return allocator_.GetLargestFreeSize();
	}

	// Gets the size of the largest free block that can be allocated if the
	// caller can wait.
	unsigned int GetLargestFreeSizeWithWaiting() {
	return allocator_.GetLargestFreeOrPendingSize();
	}

	// Gets the size of the chunk.
	unsigned int GetSize() const {
	return static_cast<unsigned int>(shm_->size());
	}

	// The shared memory id for this chunk.
	int32_t shm_id() const {
	return shm_id_;
	}

	// Allocates a block of memory. If the buffer is out of directly available
	// memory, this function may wait until memory that was freed "pending a
	// token" can be re-used.
	//
	// Parameters:
	// size: the size of the memory block to allocate.
	//
	// Returns:
	// the pointer to the allocated memory block, or NULL if out of
	// memory.
	void* Alloc(unsigned int size) {
	return allocator_.Alloc(size);
	}

	// Gets the offset to a memory block given the base memory and the address.
	// It translates NULL to FencedAllocator::kInvalidOffset.
	unsigned int GetOffset(void* pointer) {
	return allocator_.GetOffset(pointer);
	}

	// Frees a block of memory.
	//
	// Parameters:
	// pointer: the pointer to the memory block to free.
	void Free(void* pointer) {
	allocator_.Free(pointer);
	}

	// Frees a block of memory, pending the passage of a token. That memory won't
	// be re-allocated until the token has passed through the command stream.
	//
	// Parameters:
	// pointer: the pointer to the memory block to free.
	// token: the token value to wait for before re-using the memory.
	void FreePendingToken(void* pointer, unsigned int token) {
	allocator_.FreePendingToken(pointer, token);
	}

	// Frees any blocks whose tokens have passed.
	void FreeUnused() {
	allocator_.FreeUnused();
	}

	// Returns true if pointer is in the range of this block.
	bool IsInChunk(void* pointer) const {
	return pointer >= shm_->memory() &&
	pointer <
	reinterpret_cast<const int8_t*>(shm_->memory()) + shm_->size();
	}

	// Returns true of any memory in this chunk is in use.
	bool InUse() {
	return allocator_.InUse();
	}

	size_t bytes_in_use() const {
	return allocator_.bytes_in_use();
	}

	private:
	int32_t shm_id_;
	scoped_refptr<gpu::Buffer> shm_;
	FencedAllocatorWrapper allocator_;

	DISALLOW_COPY_AND_ASSIGN(MemoryChunk);
	};

	// Manages MemoryChunks.
	class GPU_EXPORT MappedMemoryManager {
	public:
	enum MemoryLimit {
	kNoLimit = 0,
	};

	// \|unused_memory_reclaim_limit\|: When exceeded this causes pending memory
	// to be reclaimed before allocating more memory.
	MappedMemoryManager(CommandBufferHelper* helper,
	const base::Closure& poll_callback,
	size_t unused_memory_reclaim_limit);

	~MappedMemoryManager();

	unsigned int chunk_size_multiple() const {
	return chunk_size_multiple_;
	}

	void set_chunk_size_multiple(unsigned int multiple) {
	DCHECK(multiple % FencedAllocator::kAllocAlignment == 0);
	chunk_size_multiple_ = multiple;
	}

	// Allocates a block of memory
	// Parameters:
	// size: size of memory to allocate.
	// shm_id: pointer to variable to receive the shared memory id.
	// shm_offset: pointer to variable to receive the shared memory offset.
	// Returns:
	// pointer to allocated block of memory. NULL if failure.
	void* Alloc(
	unsigned int size, int32_t* shm_id, unsigned int* shm_offset);

	// Frees a block of memory.
	//
	// Parameters:
	// pointer: the pointer to the memory block to free.
	void Free(void* pointer);

	// Frees a block of memory, pending the passage of a token. That memory won't
	// be re-allocated until the token has passed through the command stream.
	//
	// Parameters:
	// pointer: the pointer to the memory block to free.
	// token: the token value to wait for before re-using the memory.
	void FreePendingToken(void* pointer, int32_t token);

	// Free Any Shared memory that is not in use.
	void FreeUnused();

	// Used for testing
	size_t num_chunks() const {
	return chunks_.size();
	}

	size_t bytes_in_use() const {
	size_t bytes_in_use = 0;
	for (size_t ii = 0; ii < chunks_.size(); ++ii) {
	MemoryChunk* chunk = chunks_[ii];
	bytes_in_use += chunk->bytes_in_use();
	}
	return bytes_in_use;
	}

	// Used for testing
	size_t allocated_memory() const {
	return allocated_memory_;
	}

	private:
	typedef ScopedVector<MemoryChunk> MemoryChunkVector;

	// size a chunk is rounded up to.
	unsigned int chunk_size_multiple_;
	CommandBufferHelper* helper_;
	base::Closure poll_callback_;
	MemoryChunkVector chunks_;
	size_t allocated_memory_;
	size_t max_free_bytes_;

	DISALLOW_COPY_AND_ASSIGN(MappedMemoryManager);
	};

	} // namespace gpu

	#endif // GPU_COMMAND_BUFFER_CLIENT_MAPPED_MEMORY_H_