executor/xeCallQueue.hpp - third_party/vulkan-cts - Git at Google

 #ifndef _XECALLQUEUE_HPP
 #define _XECALLQUEUE_HPP
 /*-------------------------------------------------------------------------
  * drawElements Quality Program Test Executor
  * ------------------------------------------
  *
  * 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 Cross-thread function call dispatcher.
  *//*--------------------------------------------------------------------*/

 #include "xeDefs.hpp"
 #include "deMutex.hpp"
 #include "deSemaphore.hpp"
 #include "deRingBuffer.hpp"

 #include <vector>

 namespace xe
 {

 class Call;
 class CallReader;
 class CallWriter;
 class CallQueue;

 // \todo [2012-07-10 pyry] Optimize memory management in Call
 // \todo [2012-07-10 pyry] CallQueue API could be improved to match TestLog API more closely.
 //						   In order to do that, reference counting system for call object management is needed.

 class Call
 {
 public:
 	typedef void (*Function) (CallReader& data);

 								Call				(void);
 								~Call				(void);

 	void						clear				(void);

 	Function					getFunction			(void) const	{ return m_func;				}
 	void						setFunction			(Function func)	{ m_func = func;				}

 	size_t						getDataSize			(void) const	{ return m_data.size();			}
 	void						setDataSize			(size_t size)	{ m_data.resize(size);			}

 	const deUint8*				getData				(void) const	{ return m_data.empty() ? DE_NULL : &m_data[0];	}
 	deUint8*					getData				(void)			{ return m_data.empty() ? DE_NULL : &m_data[0];	}

 private:
 	Function					m_func;
 	std::vector<deUint8>		m_data;
 };

 class CallReader
 {
 public:
 					CallReader			(Call* call);
 					CallReader			(void) : m_call(DE_NULL), m_curPos(0) {}

 	void			read				(deUint8* bytes, size_t numBytes);
 	const deUint8*	getDataBlock		(size_t numBytes);					//!< \note Valid only during call.
 	bool			isDataConsumed		(void) const;						//!< all data has been consumed

 private:
 					CallReader			(const CallReader& other);	//!< disallowed
 	CallReader&		operator=			(const CallReader& other);	//!< disallowed

 	Call*			m_call;
 	size_t			m_curPos;
 };

 class CallWriter
 {
 public:
 					CallWriter			(CallQueue* queue, Call::Function function);
 					~CallWriter			(void);

 	void			write				(const deUint8* bytes, size_t numBytes);
 	void			enqueue				(void);

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

 	CallQueue*		m_queue;
 	Call*			m_call;
 	bool			m_enqueued;
 };

 class CallQueue
 {
 public:
 							CallQueue			(void);
 							~CallQueue			(void);

 	void					callNext			(void); //!< Executes and removes first call in queue. Will block if queue is empty.

 	Call*					getEmptyCall		(void);
 	void					enqueue				(Call* call);
 	void					freeCall			(Call* call);
 	void					cancel				(void);

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

 	bool					m_canceled;
 	de::Semaphore			m_callSem;

 	de::Mutex				m_lock;
 	std::vector<Call*>		m_calls;
 	std::vector<Call*>		m_freeCalls;
 	de::RingBuffer<Call*>	m_callQueue;
 };

 // Stream operators for call reader / writer.

 CallReader&		operator>>	(CallReader& reader, std::string& value);
 CallWriter&		operator<<	(CallWriter& writer, const char* str);

 template <typename T>
 CallReader& operator>> (CallReader& reader, T& value)
 {
 	reader.read((deUint8*)&value, sizeof(T));
 	return reader;
 }

 template <typename T>
 CallWriter& operator<< (CallWriter& writer, T& value)
 {
 	writer.write((const deUint8*)&value, sizeof(T));
 	return writer;
 }

 } // xe

 #endif // _XECALLQUEUE_HPP
	#ifndef _XECALLQUEUE_HPP
	#define _XECALLQUEUE_HPP
	/*-------------------------------------------------------------------------
	* drawElements Quality Program Test Executor
	* ------------------------------------------
	*
	* 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 Cross-thread function call dispatcher.
	//--------------------------------------------------------------------*/

	#include "xeDefs.hpp"
	#include "deMutex.hpp"
	#include "deSemaphore.hpp"
	#include "deRingBuffer.hpp"

	#include <vector>

	namespace xe
	{

	class Call;
	class CallReader;
	class CallWriter;
	class CallQueue;

	// \todo [2012-07-10 pyry] Optimize memory management in Call
	// \todo [2012-07-10 pyry] CallQueue API could be improved to match TestLog API more closely.
	// In order to do that, reference counting system for call object management is needed.

	class Call
	{
	public:
	typedef void (*Function) (CallReader& data);

	Call (void);
	~Call (void);

	void clear (void);

	Function getFunction (void) const { return m_func; }
	void setFunction (Function func) { m_func = func; }

	size_t getDataSize (void) const { return m_data.size(); }
	void setDataSize (size_t size) { m_data.resize(size); }

	const deUint8* getData (void) const { return m_data.empty() ? DE_NULL : &m_data[0]; }
	deUint8* getData (void) { return m_data.empty() ? DE_NULL : &m_data[0]; }

	private:
	Function m_func;
	std::vector<deUint8> m_data;
	};

	class CallReader
	{
	public:
	CallReader (Call* call);
	CallReader (void) : m_call(DE_NULL), m_curPos(0) {}

	void read (deUint8* bytes, size_t numBytes);
	const deUint8* getDataBlock (size_t numBytes); //!< \note Valid only during call.
	bool isDataConsumed (void) const; //!< all data has been consumed

	private:
	CallReader (const CallReader& other); //!< disallowed
	CallReader& operator= (const CallReader& other); //!< disallowed

	Call* m_call;
	size_t m_curPos;
	};

	class CallWriter
	{
	public:
	CallWriter (CallQueue* queue, Call::Function function);
	~CallWriter (void);

	void write (const deUint8* bytes, size_t numBytes);
	void enqueue (void);

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

	CallQueue* m_queue;
	Call* m_call;
	bool m_enqueued;
	};

	class CallQueue
	{
	public:
	CallQueue (void);
	~CallQueue (void);

	void callNext (void); //!< Executes and removes first call in queue. Will block if queue is empty.

	Call* getEmptyCall (void);
	void enqueue (Call* call);
	void freeCall (Call* call);
	void cancel (void);

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

	bool m_canceled;
	de::Semaphore m_callSem;

	de::Mutex m_lock;
	std::vector<Call*> m_calls;
	std::vector<Call*> m_freeCalls;
	de::RingBuffer<Call*> m_callQueue;
	};

	// Stream operators for call reader / writer.

	CallReader& operator>> (CallReader& reader, std::string& value);
	CallWriter& operator<< (CallWriter& writer, const char* str);

	template <typename T>
	CallReader& operator>> (CallReader& reader, T& value)
	{
	reader.read((deUint8*)&value, sizeof(T));
	return reader;
	}

	template <typename T>
	CallWriter& operator<< (CallWriter& writer, T& value)
	{
	writer.write((const deUint8*)&value, sizeof(T));
	return writer;
	}

	} // xe

	#endif // _XECALLQUEUE_HPP