executor/xeCallQueue.cpp - platform/external/deqp - Git at Google

 /*-------------------------------------------------------------------------
  * 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 "xeCallQueue.hpp"
 #include "deInt32.h"
 #include "deMemory.h"

 using std::vector;

 static inline int getNextQueueSize (int curSize, int minNewSize)
 {
 	return de::max(curSize*2, 1<<deLog2Ceil32(minNewSize));
 }

 namespace xe
 {

 // CallQueue

 CallQueue::CallQueue (void)
 	: m_callSem		(0)
 	, m_callQueue	(64)
 {
 }

 CallQueue::~CallQueue (void)
 {
 	// Destroy all calls.
 	for (vector<Call*>::iterator i = m_calls.begin(); i != m_calls.end(); i++)
 		delete *i;
 }

 void CallQueue::callNext (void)
 {
 	Call* call = DE_NULL;

 	// Wait for a call.
 	m_callSem.decrement();

 	// Acquire call from buffer.
 	{
 		de::ScopedLock lock(m_lock);
 		call = m_callQueue.popBack();
 	}

 	try
 	{
 		// \note Enqueue lock is not held during call so it is possible to enqueue more work from dispatched call.
 		call->getFunction()(CallReader(call));
 		call->clear();
 	}
 	catch (const std::exception&)
 	{
 		try
 		{
 			// Try to push call into free calls list.
 			de::ScopedLock lock(m_lock);
 			m_freeCalls.push_back(call);
 		}
 		catch (const std::exception&)
 		{
 			// We can't do anything but ignore this.
 		}

 		throw;
 	}

 	// Push back to free calls list.
 	{
 		de::ScopedLock lock(m_lock);
 		m_freeCalls.push_back(call);
 	}
 }

 Call* CallQueue::getEmptyCall (void)
 {
 	de::ScopedLock	lock	(m_lock);
 	Call*			call	= DE_NULL;

 	// Try to get from free calls list.
 	if (!m_freeCalls.empty())
 	{
 		call = m_freeCalls.back();
 		m_freeCalls.pop_back();
 	}

 	// If no free calls were available, create a new.
 	if (!call)
 	{
 		m_calls.reserve(m_calls.size()+1);
 		call = new Call();
 		m_calls.push_back(call);
 	}

 	return call;
 }

 void CallQueue::enqueue (Call* call)
 {
 	de::ScopedLock lock(m_lock);

 	if (m_callQueue.getNumFree() == 0)
 	{
 		// Call queue must be grown.
 		m_callQueue.resize(getNextQueueSize(m_callQueue.getSize(), m_callQueue.getSize()+1));
 	}

 	m_callQueue.pushFront(call);
 	m_callSem.increment();
 }

 void CallQueue::freeCall (Call* call)
 {
 	de::ScopedLock lock(m_lock);
 	m_freeCalls.push_back(call);
 }

 // Call

 Call::Call (void)
 	: m_func(DE_NULL)
 {
 }

 Call::~Call (void)
 {
 }

 void Call::clear (void)
 {
 	m_func = DE_NULL;
 	m_data.clear();
 }

 // CallReader

 CallReader::CallReader (Call* call)
 	: m_call	(call)
 	, m_curPos	(0)
 {
 }

 void CallReader::read (deUint8* bytes, int numBytes)
 {
 	DE_ASSERT(m_curPos + numBytes <= m_call->getDataSize());
 	deMemcpy(bytes, m_call->getData()+m_curPos, numBytes);
 	m_curPos += numBytes;
 }

 const deUint8* CallReader::getDataBlock (int numBytes)
 {
 	DE_ASSERT(m_curPos + numBytes <= m_call->getDataSize());

 	const deUint8* ptr = m_call->getData()+m_curPos;
 	m_curPos += numBytes;

 	return ptr;
 }

 CallReader& operator>> (CallReader& reader, std::string& value)
 {
 	value.clear();
 	for (;;)
 	{
 		char c;
 		reader.read((deUint8*)&c, sizeof(char));
 		if (c != 0)
 			value.push_back(c);
 		else
 			break;
 	}

 	return reader;
 }

 // CallWriter

 CallWriter::CallWriter (CallQueue* queue, Call::Function function)
 	: m_queue		(queue)
 	, m_call		(queue->getEmptyCall())
 	, m_enqueued	(false)
 {
 	m_call->setFunction(function);
 }

 CallWriter::~CallWriter (void)
 {
 	if (!m_enqueued)
 		m_queue->freeCall(m_call);
 }

 void CallWriter::write (const deUint8* bytes, int numBytes)
 {
 	DE_ASSERT(!m_enqueued);
 	int curPos = m_call->getDataSize();
 	m_call->setDataSize(curPos+numBytes);
 	deMemcpy(m_call->getData()+curPos, bytes, numBytes);
 }

 void CallWriter::enqueue (void)
 {
 	DE_ASSERT(!m_enqueued);
 	m_queue->enqueue(m_call);
 	m_enqueued = true;
 }

 CallWriter& operator<< (CallWriter& writer, const char* str)
 {
 	int pos = 0;
 	for (;;)
 	{
 		writer.write((const deUint8*)str + pos, sizeof(char));
 		if (str[pos] == 0)
 			break;
 		pos += 1;
 	}

 	return writer;
 }

 } // xe
	/*-------------------------------------------------------------------------
	* 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 "xeCallQueue.hpp"
	#include "deInt32.h"
	#include "deMemory.h"

	using std::vector;

	static inline int getNextQueueSize (int curSize, int minNewSize)
	{
	return de::max(curSize*2, 1<<deLog2Ceil32(minNewSize));
	}

	namespace xe
	{

	// CallQueue

	CallQueue::CallQueue (void)
	: m_callSem (0)
	, m_callQueue (64)
	{
	}

	CallQueue::~CallQueue (void)
	{
	// Destroy all calls.
	for (vector<Call*>::iterator i = m_calls.begin(); i != m_calls.end(); i++)
	delete *i;
	}

	void CallQueue::callNext (void)
	{
	Call* call = DE_NULL;

	// Wait for a call.
	m_callSem.decrement();

	// Acquire call from buffer.
	{
	de::ScopedLock lock(m_lock);
	call = m_callQueue.popBack();
	}

	try
	{
	// \note Enqueue lock is not held during call so it is possible to enqueue more work from dispatched call.
	call->getFunction()(CallReader(call));
	call->clear();
	}
	catch (const std::exception&)
	{
	try
	{
	// Try to push call into free calls list.
	de::ScopedLock lock(m_lock);
	m_freeCalls.push_back(call);
	}
	catch (const std::exception&)
	{
	// We can't do anything but ignore this.
	}

	throw;
	}

	// Push back to free calls list.
	{
	de::ScopedLock lock(m_lock);
	m_freeCalls.push_back(call);
	}
	}

	Call* CallQueue::getEmptyCall (void)
	{
	de::ScopedLock lock (m_lock);
	Call* call = DE_NULL;

	// Try to get from free calls list.
	if (!m_freeCalls.empty())
	{
	call = m_freeCalls.back();
	m_freeCalls.pop_back();
	}

	// If no free calls were available, create a new.
	if (!call)
	{
	m_calls.reserve(m_calls.size()+1);
	call = new Call();
	m_calls.push_back(call);
	}

	return call;
	}

	void CallQueue::enqueue (Call* call)
	{
	de::ScopedLock lock(m_lock);

	if (m_callQueue.getNumFree() == 0)
	{
	// Call queue must be grown.
	m_callQueue.resize(getNextQueueSize(m_callQueue.getSize(), m_callQueue.getSize()+1));
	}

	m_callQueue.pushFront(call);
	m_callSem.increment();
	}

	void CallQueue::freeCall (Call* call)
	{
	de::ScopedLock lock(m_lock);
	m_freeCalls.push_back(call);
	}

	// Call

	Call::Call (void)
	: m_func(DE_NULL)
	{
	}

	Call::~Call (void)
	{
	}

	void Call::clear (void)
	{
	m_func = DE_NULL;
	m_data.clear();
	}

	// CallReader

	CallReader::CallReader (Call* call)
	: m_call (call)
	, m_curPos (0)
	{
	}

	void CallReader::read (deUint8* bytes, int numBytes)
	{
	DE_ASSERT(m_curPos + numBytes <= m_call->getDataSize());
	deMemcpy(bytes, m_call->getData()+m_curPos, numBytes);
	m_curPos += numBytes;
	}

	const deUint8* CallReader::getDataBlock (int numBytes)
	{
	DE_ASSERT(m_curPos + numBytes <= m_call->getDataSize());

	const deUint8* ptr = m_call->getData()+m_curPos;
	m_curPos += numBytes;

	return ptr;
	}

	CallReader& operator>> (CallReader& reader, std::string& value)
	{
	value.clear();
	for (;;)
	{
	char c;
	reader.read((deUint8*)&c, sizeof(char));
	if (c != 0)
	value.push_back(c);
	else
	break;
	}

	return reader;
	}

	// CallWriter

	CallWriter::CallWriter (CallQueue* queue, Call::Function function)
	: m_queue (queue)
	, m_call (queue->getEmptyCall())
	, m_enqueued (false)
	{
	m_call->setFunction(function);
	}

	CallWriter::~CallWriter (void)
	{
	if (!m_enqueued)
	m_queue->freeCall(m_call);
	}

	void CallWriter::write (const deUint8* bytes, int numBytes)
	{
	DE_ASSERT(!m_enqueued);
	int curPos = m_call->getDataSize();
	m_call->setDataSize(curPos+numBytes);
	deMemcpy(m_call->getData()+curPos, bytes, numBytes);
	}

	void CallWriter::enqueue (void)
	{
	DE_ASSERT(!m_enqueued);
	m_queue->enqueue(m_call);
	m_enqueued = true;
	}

	CallWriter& operator<< (CallWriter& writer, const char* str)
	{
	int pos = 0;
	for (;;)
	{
	writer.write((const deUint8*)str + pos, sizeof(char));
	if (str[pos] == 0)
	break;
	pos += 1;
	}

	return writer;
	}

	} // xe