// 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_TRANSFER_BUFFER_H_ #define GPU_COMMAND_BUFFER_CLIENT_TRANSFER_BUFFER_H_ #include "base/compiler_specific.h" #include "base/memory/scoped_ptr.h" #include "gpu/command_buffer/client/ring_buffer.h" #include "gpu/command_buffer/common/buffer.h" #include "gpu/command_buffer/common/gles2_cmd_utils.h" #include "gpu/gpu_export.h" namespace gpu { class CommandBufferHelper; // Interface for managing the transfer buffer. class GPU_EXPORT TransferBufferInterface { public: TransferBufferInterface() { } virtual ~TransferBufferInterface() { } virtual bool Initialize( unsigned int buffer_size, unsigned int result_size, unsigned int min_buffer_size, unsigned int max_buffer_size, unsigned int alignment, unsigned int size_to_flush) = 0; virtual int GetShmId() = 0; virtual void* GetResultBuffer() = 0; virtual int GetResultOffset() = 0; virtual void Free() = 0; virtual bool HaveBuffer() const = 0; // Allocates up to size bytes. virtual void* AllocUpTo(unsigned int size, unsigned int* size_allocated) = 0; // Allocates size bytes. // Note: Alloc will fail if it can not return size bytes. virtual void* Alloc(unsigned int size) = 0; virtual RingBuffer::Offset GetOffset(void* pointer) const = 0; virtual void FreePendingToken(void* p, unsigned int token) = 0; }; // Class that manages the transfer buffer. class GPU_EXPORT TransferBuffer : public TransferBufferInterface { public: TransferBuffer(CommandBufferHelper* helper); virtual ~TransferBuffer(); // Overridden from TransferBufferInterface. virtual bool Initialize( unsigned int default_buffer_size, unsigned int result_size, unsigned int min_buffer_size, unsigned int max_buffer_size, unsigned int alignment, unsigned int size_to_flush) OVERRIDE; virtual int GetShmId() OVERRIDE; virtual void* GetResultBuffer() OVERRIDE; virtual int GetResultOffset() OVERRIDE; virtual void Free() OVERRIDE; virtual bool HaveBuffer() const OVERRIDE; virtual void* AllocUpTo( unsigned int size, unsigned int* size_allocated) OVERRIDE; virtual void* Alloc(unsigned int size) OVERRIDE; virtual RingBuffer::Offset GetOffset(void* pointer) const OVERRIDE; virtual void FreePendingToken(void* p, unsigned int token) OVERRIDE; // These are for testing. unsigned int GetCurrentMaxAllocationWithoutRealloc() const; unsigned int GetMaxAllocation() const; private: // Tries to reallocate the ring buffer if it's not large enough for size. void ReallocateRingBuffer(unsigned int size); void AllocateRingBuffer(unsigned int size); CommandBufferHelper* helper_; scoped_ptr<RingBuffer> ring_buffer_; // size reserved for results unsigned int result_size_; // default size. Size we want when starting or re-allocating unsigned int default_buffer_size_; // min size we'll consider successful unsigned int min_buffer_size_; // max size we'll let the buffer grow unsigned int max_buffer_size_; // alignment for allocations unsigned int alignment_; // Size at which to do an async flush. 0 = never. unsigned int size_to_flush_; // Number of bytes since we last flushed. unsigned int bytes_since_last_flush_; // the current buffer. scoped_refptr<gpu::Buffer> buffer_; // id of buffer. -1 = no buffer int32 buffer_id_; // address of result area void* result_buffer_; // offset to result area uint32 result_shm_offset_; // false if we failed to allocate min_buffer_size bool usable_; }; // A class that will manage the lifetime of a transferbuffer allocation. class GPU_EXPORT ScopedTransferBufferPtr { public: ScopedTransferBufferPtr( unsigned int size, CommandBufferHelper* helper, TransferBufferInterface* transfer_buffer) : buffer_(NULL), size_(0), helper_(helper), transfer_buffer_(transfer_buffer) { Reset(size); } ~ScopedTransferBufferPtr() { Release(); } bool valid() const { return buffer_ != NULL; } unsigned int size() const { return size_; } int shm_id() const { return transfer_buffer_->GetShmId(); } RingBuffer::Offset offset() const { return transfer_buffer_->GetOffset(buffer_); } void* address() const { return buffer_; } void Release(); void Reset(unsigned int new_size); private: void* buffer_; unsigned int size_; CommandBufferHelper* helper_; TransferBufferInterface* transfer_buffer_; DISALLOW_COPY_AND_ASSIGN(ScopedTransferBufferPtr); }; template <typename T> class ScopedTransferBufferArray : public ScopedTransferBufferPtr { public: ScopedTransferBufferArray( unsigned int num_elements, CommandBufferHelper* helper, TransferBufferInterface* transfer_buffer) : ScopedTransferBufferPtr( num_elements * sizeof(T), helper, transfer_buffer) { } T* elements() { return static_cast<T*>(address()); } unsigned int num_elements() const { return size() / sizeof(T); } }; } // namespace gpu #endif // GPU_COMMAND_BUFFER_CLIENT_TRANSFER_BUFFER_H_