framework/delibs/decpp/deBlockBuffer.hpp - third_party/vulkan-cts - Git at Google

 #ifndef _DEBLOCKBUFFER_HPP
 #define _DEBLOCKBUFFER_HPP
 /*-------------------------------------------------------------------------
  * drawElements C++ Base Library
  * -----------------------------
  *
  * Copyright 2014 The Android Open Source Project
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *      http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  *
  *//*!
  * \file
  * \brief Block-based thread-safe queue.
  *//*--------------------------------------------------------------------*/

 #include "deBlockBuffer.hpp"
 #include "deMutex.hpp"
 #include "deSemaphore.h"

 #include <exception>

 namespace de
 {

 void BlockBuffer_selfTest (void);

 class BufferCanceledException : public std::exception
 {
 public:
 	inline BufferCanceledException	(void) {}
 	inline ~BufferCanceledException	(void) throw() {}

 	const char* what (void) const throw() { return "BufferCanceledException"; }
 };

 template <typename T>
 class BlockBuffer
 {
 public:
 	typedef BufferCanceledException CanceledException;

 					BlockBuffer			(int blockSize, int numBlocks);
 					~BlockBuffer		(void);

 	void			clear				(void); //!< Resets buffer. Will block until pending writes and reads have completed.

 	void			write				(int numElements, const T* elements);
 	int				tryWrite			(int numElements, const T* elements);
 	void			flush				(void);
 	bool			tryFlush			(void);

 	void			read				(int numElements, T* elements);
 	int				tryRead				(int numElements, T* elements);

 	void			cancel				(void); //!< Sets buffer in canceled state. All (including pending) writes and reads will result in CanceledException.
 	bool			isCanceled			(void) const { return !!m_canceled; }

 private:
 					BlockBuffer			(const BlockBuffer& other);
 	BlockBuffer&	operator=			(const BlockBuffer& other);

 	int				writeToCurrentBlock	(int numElements, const T* elements, bool blocking);
 	int				readFromCurrentBlock(int numElements, T* elements, bool blocking);

 	void			flushWriteBlock		(void);

 	deSemaphore		m_fill;				//!< Block fill count.
 	deSemaphore		m_empty;			//!< Block empty count.

 	int				m_writeBlock;		//!< Current write block ndx.
 	int				m_writePos;			//!< Position in block. 0 if block is not yet acquired.

 	int				m_readBlock;		//!< Current read block ndx.
 	int				m_readPos;			//!< Position in block. 0 if block is not yet acquired.

 	int				m_blockSize;
 	int				m_numBlocks;

 	T*				m_elements;
 	int*			m_numUsedInBlock;

 	Mutex			m_writeLock;
 	Mutex			m_readLock;

 	volatile deUint32	m_canceled;
 } DE_WARN_UNUSED_TYPE;

 template <typename T>
 BlockBuffer<T>::BlockBuffer (int blockSize, int numBlocks)
 	: m_fill			(0)
 	, m_empty			(0)
 	, m_writeBlock		(0)
 	, m_writePos		(0)
 	, m_readBlock		(0)
 	, m_readPos			(0)
 	, m_blockSize		(blockSize)
 	, m_numBlocks		(numBlocks)
 	, m_elements		(DE_NULL)
 	, m_numUsedInBlock	(DE_NULL)
 	, m_writeLock		()
 	, m_readLock		()
 	, m_canceled		(DE_FALSE)
 {
 	DE_ASSERT(blockSize > 0);
 	DE_ASSERT(numBlocks > 0);

 	try
 	{
 		m_elements			= new T[m_numBlocks*m_blockSize];
 		m_numUsedInBlock	= new int[m_numBlocks];
 	}
 	catch (...)
 	{
 		delete[] m_elements;
 		delete[] m_numUsedInBlock;
 		throw;
 	}

 	m_fill	= deSemaphore_create(0, DE_NULL);
 	m_empty	= deSemaphore_create(numBlocks, DE_NULL);
 	DE_ASSERT(m_fill && m_empty);
 }

 template <typename T>
 BlockBuffer<T>::~BlockBuffer (void)
 {
 	delete[] m_elements;
 	delete[] m_numUsedInBlock;

 	deSemaphore_destroy(m_fill);
 	deSemaphore_destroy(m_empty);
 }

 template <typename T>
 void BlockBuffer<T>::clear (void)
 {
 	ScopedLock readLock		(m_readLock);
 	ScopedLock writeLock	(m_writeLock);

 	deSemaphore_destroy(m_fill);
 	deSemaphore_destroy(m_empty);

 	m_fill			= deSemaphore_create(0, DE_NULL);
 	m_empty			= deSemaphore_create(m_numBlocks, DE_NULL);
 	m_writeBlock	= 0;
 	m_writePos		= 0;
 	m_readBlock		= 0;
 	m_readPos		= 0;
 	m_canceled		= DE_FALSE;

 	DE_ASSERT(m_fill && m_empty);
 }

 template <typename T>
 void BlockBuffer<T>::cancel (void)
 {
 	DE_ASSERT(!m_canceled);
 	m_canceled = DE_TRUE;

 	deSemaphore_increment(m_empty);
 	deSemaphore_increment(m_fill);
 }

 template <typename T>
 int BlockBuffer<T>::writeToCurrentBlock (int numElements, const T* elements, bool blocking)
 {
 	DE_ASSERT(numElements > 0 && elements != DE_NULL);

 	if (m_writePos == 0)
 	{
 		/* Write thread doesn't own current block - need to acquire. */
 		if (blocking)
 			deSemaphore_decrement(m_empty);
 		else
 		{
 			if (!deSemaphore_tryDecrement(m_empty))
 				return 0;
 		}

 		/* Check for canceled bit. */
 		if (m_canceled)
 		{
 			// \todo [2012-07-06 pyry] A bit hackish to assume that write lock is not freed if exception is thrown out here.
 			deSemaphore_increment(m_empty);
 			m_writeLock.unlock();
 			throw CanceledException();
 		}
 	}

 	/* Write thread owns current block. */
 	T*		block			= m_elements + m_writeBlock*m_blockSize;
 	int		numToWrite		= de::min(numElements, m_blockSize-m_writePos);

 	DE_ASSERT(numToWrite > 0);

 	for (int ndx = 0; ndx < numToWrite; ndx++)
 		block[m_writePos+ndx] = elements[ndx];

 	m_writePos += numToWrite;

 	if (m_writePos == m_blockSize)
 		flushWriteBlock(); /* Flush current write block. */

 	return numToWrite;
 }

 template <typename T>
 int BlockBuffer<T>::readFromCurrentBlock (int numElements, T* elements, bool blocking)
 {
 	DE_ASSERT(numElements > 0 && elements != DE_NULL);

 	if (m_readPos == 0)
 	{
 		/* Read thread doesn't own current block - need to acquire. */
 		if (blocking)
 			deSemaphore_decrement(m_fill);
 		else
 		{
 			if (!deSemaphore_tryDecrement(m_fill))
 				return 0;
 		}

 		/* Check for canceled bit. */
 		if (m_canceled)
 		{
 			// \todo [2012-07-06 pyry] A bit hackish to assume that read lock is not freed if exception is thrown out here.
 			deSemaphore_increment(m_fill);
 			m_readLock.unlock();
 			throw CanceledException();
 		}
 	}

 	/* Read thread now owns current block. */
 	const T*	block			= m_elements + m_readBlock*m_blockSize;
 	int			numUsedInBlock	= m_numUsedInBlock[m_readBlock];
 	int			numToRead		= de::min(numElements, numUsedInBlock-m_readPos);

 	DE_ASSERT(numToRead > 0);

 	for (int ndx = 0; ndx < numToRead; ndx++)
 		elements[ndx] = block[m_readPos+ndx];

 	m_readPos += numToRead;

 	if (m_readPos == numUsedInBlock)
 	{
 		/* Free current read block and advance. */
 		m_readBlock		= (m_readBlock+1) % m_numBlocks;
 		m_readPos		= 0;
 		deSemaphore_increment(m_empty);
 	}

 	return numToRead;
 }

 template <typename T>
 int BlockBuffer<T>::tryWrite (int numElements, const T* elements)
 {
 	int numWritten = 0;

 	DE_ASSERT(numElements > 0 && elements != DE_NULL);

 	if (m_canceled)
 		throw CanceledException();

 	if (!m_writeLock.tryLock())
 		return numWritten;

 	while (numWritten < numElements)
 	{
 		int ret = writeToCurrentBlock(numElements-numWritten, elements+numWritten, false /* non-blocking */);

 		if (ret == 0)
 			break; /* Write failed. */

 		numWritten += ret;
 	}

 	m_writeLock.unlock();

 	return numWritten;
 }

 template <typename T>
 void BlockBuffer<T>::write (int numElements, const T* elements)
 {
 	DE_ASSERT(numElements > 0 && elements != DE_NULL);

 	if (m_canceled)
 		throw CanceledException();

 	m_writeLock.lock();

 	int numWritten = 0;
 	while (numWritten < numElements)
 		numWritten += writeToCurrentBlock(numElements-numWritten, elements+numWritten, true /* blocking */);

 	m_writeLock.unlock();
 }

 template <typename T>
 void BlockBuffer<T>::flush (void)
 {
 	m_writeLock.lock();

 	if (m_writePos > 0)
 		flushWriteBlock();

 	m_writeLock.unlock();
 }

 template <typename T>
 bool BlockBuffer<T>::tryFlush (void)
 {
 	if (!m_writeLock.tryLock())
 		return false;

 	if (m_writePos > 0)
 		flushWriteBlock();

 	m_writeLock.unlock();

 	return true;
 }

 template <typename T>
 void BlockBuffer<T>::flushWriteBlock (void)
 {
 	DE_ASSERT(de::inRange(m_writePos, 1, m_blockSize));

 	m_numUsedInBlock[m_writeBlock]	= m_writePos;
 	m_writeBlock					= (m_writeBlock+1) % m_numBlocks;
 	m_writePos						= 0;
 	deSemaphore_increment(m_fill);
 }

 template <typename T>
 int BlockBuffer<T>::tryRead (int numElements, T* elements)
 {
 	int numRead = 0;

 	if (m_canceled)
 		throw CanceledException();

 	if (!m_readLock.tryLock())
 		return numRead;

 	while (numRead < numElements)
 	{
 		int ret = readFromCurrentBlock(numElements-numRead, &elements[numRead], false /* non-blocking */);

 		if (ret == 0)
 			break; /* Failed. */

 		numRead += ret;
 	}

 	m_readLock.unlock();

 	return numRead;
 }

 template <typename T>
 void BlockBuffer<T>::read (int numElements, T* elements)
 {
 	DE_ASSERT(numElements > 0 && elements != DE_NULL);

 	if (m_canceled)
 		throw CanceledException();

 	m_readLock.lock();

 	int numRead = 0;
 	while (numRead < numElements)
 		numRead += readFromCurrentBlock(numElements-numRead, &elements[numRead], true /* blocking */);

 	m_readLock.unlock();
 }

 } // de

 #endif // _DEBLOCKBUFFER_HPP
	#ifndef _DEBLOCKBUFFER_HPP
	#define _DEBLOCKBUFFER_HPP
	/*-------------------------------------------------------------------------
	* drawElements C++ Base Library
	* -----------------------------
	*
	* Copyright 2014 The Android Open Source Project
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*
	//!
	* \file
	* \brief Block-based thread-safe queue.
	//--------------------------------------------------------------------*/

	#include "deBlockBuffer.hpp"
	#include "deMutex.hpp"
	#include "deSemaphore.h"

	#include <exception>

	namespace de
	{

	void BlockBuffer_selfTest (void);

	class BufferCanceledException : public std::exception
	{
	public:
	inline BufferCanceledException (void) {}
	inline ~BufferCanceledException (void) throw() {}

	const char* what (void) const throw() { return "BufferCanceledException"; }
	};

	template <typename T>
	class BlockBuffer
	{
	public:
	typedef BufferCanceledException CanceledException;

	BlockBuffer (int blockSize, int numBlocks);
	~BlockBuffer (void);

	void clear (void); //!< Resets buffer. Will block until pending writes and reads have completed.

	void write (int numElements, const T* elements);
	int tryWrite (int numElements, const T* elements);
	void flush (void);
	bool tryFlush (void);

	void read (int numElements, T* elements);
	int tryRead (int numElements, T* elements);

	void cancel (void); //!< Sets buffer in canceled state. All (including pending) writes and reads will result in CanceledException.
	bool isCanceled (void) const { return !!m_canceled; }

	private:
	BlockBuffer (const BlockBuffer& other);
	BlockBuffer& operator= (const BlockBuffer& other);

	int writeToCurrentBlock (int numElements, const T* elements, bool blocking);
	int readFromCurrentBlock(int numElements, T* elements, bool blocking);

	void flushWriteBlock (void);

	deSemaphore m_fill; //!< Block fill count.
	deSemaphore m_empty; //!< Block empty count.

	int m_writeBlock; //!< Current write block ndx.
	int m_writePos; //!< Position in block. 0 if block is not yet acquired.

	int m_readBlock; //!< Current read block ndx.
	int m_readPos; //!< Position in block. 0 if block is not yet acquired.

	int m_blockSize;
	int m_numBlocks;

	T* m_elements;
	int* m_numUsedInBlock;

	Mutex m_writeLock;
	Mutex m_readLock;

	volatile deUint32 m_canceled;
	} DE_WARN_UNUSED_TYPE;

	template <typename T>
	BlockBuffer<T>::BlockBuffer (int blockSize, int numBlocks)
	: m_fill (0)
	, m_empty (0)
	, m_writeBlock (0)
	, m_writePos (0)
	, m_readBlock (0)
	, m_readPos (0)
	, m_blockSize (blockSize)
	, m_numBlocks (numBlocks)
	, m_elements (DE_NULL)
	, m_numUsedInBlock (DE_NULL)
	, m_writeLock ()
	, m_readLock ()
	, m_canceled (DE_FALSE)
	{
	DE_ASSERT(blockSize > 0);
	DE_ASSERT(numBlocks > 0);

	try
	{
	m_elements = new T[m_numBlocks*m_blockSize];
	m_numUsedInBlock = new int[m_numBlocks];
	}
	catch (...)
	{
	delete[] m_elements;
	delete[] m_numUsedInBlock;
	throw;
	}

	m_fill = deSemaphore_create(0, DE_NULL);
	m_empty = deSemaphore_create(numBlocks, DE_NULL);
	DE_ASSERT(m_fill && m_empty);
	}

	template <typename T>
	BlockBuffer<T>::~BlockBuffer (void)
	{
	delete[] m_elements;
	delete[] m_numUsedInBlock;

	deSemaphore_destroy(m_fill);
	deSemaphore_destroy(m_empty);
	}

	template <typename T>
	void BlockBuffer<T>::clear (void)
	{
	ScopedLock readLock (m_readLock);
	ScopedLock writeLock (m_writeLock);

	deSemaphore_destroy(m_fill);
	deSemaphore_destroy(m_empty);

	m_fill = deSemaphore_create(0, DE_NULL);
	m_empty = deSemaphore_create(m_numBlocks, DE_NULL);
	m_writeBlock = 0;
	m_writePos = 0;
	m_readBlock = 0;
	m_readPos = 0;
	m_canceled = DE_FALSE;

	DE_ASSERT(m_fill && m_empty);
	}

	template <typename T>
	void BlockBuffer<T>::cancel (void)
	{
	DE_ASSERT(!m_canceled);
	m_canceled = DE_TRUE;

	deSemaphore_increment(m_empty);
	deSemaphore_increment(m_fill);
	}

	template <typename T>
	int BlockBuffer<T>::writeToCurrentBlock (int numElements, const T* elements, bool blocking)
	{
	DE_ASSERT(numElements > 0 && elements != DE_NULL);

	if (m_writePos == 0)
	{
	/* Write thread doesn't own current block - need to acquire. */
	if (blocking)
	deSemaphore_decrement(m_empty);
	else
	{
	if (!deSemaphore_tryDecrement(m_empty))
	return 0;
	}

	/* Check for canceled bit. */
	if (m_canceled)
	{
	// \todo [2012-07-06 pyry] A bit hackish to assume that write lock is not freed if exception is thrown out here.
	deSemaphore_increment(m_empty);
	m_writeLock.unlock();
	throw CanceledException();
	}
	}

	/* Write thread owns current block. */
	T* block = m_elements + m_writeBlock*m_blockSize;
	int numToWrite = de::min(numElements, m_blockSize-m_writePos);

	DE_ASSERT(numToWrite > 0);

	for (int ndx = 0; ndx < numToWrite; ndx++)
	block[m_writePos+ndx] = elements[ndx];

	m_writePos += numToWrite;

	if (m_writePos == m_blockSize)
	flushWriteBlock(); /* Flush current write block. */

	return numToWrite;
	}

	template <typename T>
	int BlockBuffer<T>::readFromCurrentBlock (int numElements, T* elements, bool blocking)
	{
	DE_ASSERT(numElements > 0 && elements != DE_NULL);

	if (m_readPos == 0)
	{
	/* Read thread doesn't own current block - need to acquire. */
	if (blocking)
	deSemaphore_decrement(m_fill);
	else
	{
	if (!deSemaphore_tryDecrement(m_fill))
	return 0;
	}

	/* Check for canceled bit. */
	if (m_canceled)
	{
	// \todo [2012-07-06 pyry] A bit hackish to assume that read lock is not freed if exception is thrown out here.
	deSemaphore_increment(m_fill);
	m_readLock.unlock();
	throw CanceledException();
	}
	}

	/* Read thread now owns current block. */
	const T* block = m_elements + m_readBlock*m_blockSize;
	int numUsedInBlock = m_numUsedInBlock[m_readBlock];
	int numToRead = de::min(numElements, numUsedInBlock-m_readPos);

	DE_ASSERT(numToRead > 0);

	for (int ndx = 0; ndx < numToRead; ndx++)
	elements[ndx] = block[m_readPos+ndx];

	m_readPos += numToRead;

	if (m_readPos == numUsedInBlock)
	{
	/* Free current read block and advance. */
	m_readBlock = (m_readBlock+1) % m_numBlocks;
	m_readPos = 0;
	deSemaphore_increment(m_empty);
	}

	return numToRead;
	}

	template <typename T>
	int BlockBuffer<T>::tryWrite (int numElements, const T* elements)
	{
	int numWritten = 0;

	DE_ASSERT(numElements > 0 && elements != DE_NULL);

	if (m_canceled)
	throw CanceledException();

	if (!m_writeLock.tryLock())
	return numWritten;

	while (numWritten < numElements)
	{
	int ret = writeToCurrentBlock(numElements-numWritten, elements+numWritten, false /* non-blocking */);

	if (ret == 0)
	break; /* Write failed. */

	numWritten += ret;
	}

	m_writeLock.unlock();

	return numWritten;
	}

	template <typename T>
	void BlockBuffer<T>::write (int numElements, const T* elements)
	{
	DE_ASSERT(numElements > 0 && elements != DE_NULL);

	if (m_canceled)
	throw CanceledException();

	m_writeLock.lock();

	int numWritten = 0;
	while (numWritten < numElements)
	numWritten += writeToCurrentBlock(numElements-numWritten, elements+numWritten, true /* blocking */);

	m_writeLock.unlock();
	}

	template <typename T>
	void BlockBuffer<T>::flush (void)
	{
	m_writeLock.lock();

	if (m_writePos > 0)
	flushWriteBlock();

	m_writeLock.unlock();
	}

	template <typename T>
	bool BlockBuffer<T>::tryFlush (void)
	{
	if (!m_writeLock.tryLock())
	return false;

	if (m_writePos > 0)
	flushWriteBlock();

	m_writeLock.unlock();

	return true;
	}

	template <typename T>
	void BlockBuffer<T>::flushWriteBlock (void)
	{
	DE_ASSERT(de::inRange(m_writePos, 1, m_blockSize));

	m_numUsedInBlock[m_writeBlock] = m_writePos;
	m_writeBlock = (m_writeBlock+1) % m_numBlocks;
	m_writePos = 0;
	deSemaphore_increment(m_fill);
	}

	template <typename T>
	int BlockBuffer<T>::tryRead (int numElements, T* elements)
	{
	int numRead = 0;

	if (m_canceled)
	throw CanceledException();

	if (!m_readLock.tryLock())
	return numRead;

	while (numRead < numElements)
	{
	int ret = readFromCurrentBlock(numElements-numRead, &elements[numRead], false /* non-blocking */);

	if (ret == 0)
	break; /* Failed. */

	numRead += ret;
	}

	m_readLock.unlock();

	return numRead;
	}

	template <typename T>
	void BlockBuffer<T>::read (int numElements, T* elements)
	{
	DE_ASSERT(numElements > 0 && elements != DE_NULL);

	if (m_canceled)
	throw CanceledException();

	m_readLock.lock();

	int numRead = 0;
	while (numRead < numElements)
	numRead += readFromCurrentBlock(numElements-numRead, &elements[numRead], true /* blocking */);

	m_readLock.unlock();
	}

	} // de

	#endif // _DEBLOCKBUFFER_HPP