ParallelJobsGeneric.cpp [plain text]
#include "config.h"
#if ENABLE(THREADING_GENERIC)
#include "ParallelJobs.h"
#include <wtf/NumberOfCores.h>
namespace WTF {
Vector< RefPtr<ParallelEnvironment::ThreadPrivate> >* ParallelEnvironment::s_threadPool = 0;
ParallelEnvironment::ParallelEnvironment(ThreadFunction threadFunction, size_t sizeOfParameter, int requestedJobNumber) :
m_threadFunction(threadFunction),
m_sizeOfParameter(sizeOfParameter)
{
ASSERT_ARG(requestedJobNumber, requestedJobNumber >= 1);
int maxNumberOfCores = numberOfProcessorCores();
if (!requestedJobNumber || requestedJobNumber > maxNumberOfCores)
requestedJobNumber = static_cast<unsigned>(maxNumberOfCores);
if (!s_threadPool)
s_threadPool = new Vector< RefPtr<ThreadPrivate> >();
int maxNumberOfNewThreads = requestedJobNumber - 1;
for (int i = 0; i < maxNumberOfCores && m_threads.size() < static_cast<unsigned>(maxNumberOfNewThreads); ++i) {
if (s_threadPool->size() < static_cast<unsigned>(i) + 1U)
s_threadPool->append(ThreadPrivate::create());
if ((*s_threadPool)[i]->tryLockFor(this))
m_threads.append((*s_threadPool)[i]);
}
m_numberOfJobs = m_threads.size() + 1;
}
void ParallelEnvironment::execute(void* parameters)
{
unsigned char* currentParameter = static_cast<unsigned char*>(parameters);
size_t i;
for (i = 0; i < m_threads.size(); ++i) {
m_threads[i]->execute(m_threadFunction, currentParameter);
currentParameter += m_sizeOfParameter;
}
(*m_threadFunction)(currentParameter);
for (i = 0; i < m_threads.size(); ++i)
m_threads[i]->waitForFinish();
}
bool ParallelEnvironment::ThreadPrivate::tryLockFor(ParallelEnvironment* parent)
{
bool locked = m_mutex.tryLock();
if (!locked)
return false;
if (m_parent) {
m_mutex.unlock();
return false;
}
if (!m_threadID)
m_threadID = createThread(&ParallelEnvironment::ThreadPrivate::workerThread, this, "Parallel worker");
if (m_threadID)
m_parent = parent;
m_mutex.unlock();
return m_threadID;
}
void ParallelEnvironment::ThreadPrivate::execute(ThreadFunction threadFunction, void* parameters)
{
MutexLocker lock(m_mutex);
m_threadFunction = threadFunction;
m_parameters = parameters;
m_running = true;
m_threadCondition.signal();
}
void ParallelEnvironment::ThreadPrivate::waitForFinish()
{
MutexLocker lock(m_mutex);
while (m_running)
m_threadCondition.wait(m_mutex);
}
void ParallelEnvironment::ThreadPrivate::workerThread(void* threadData)
{
ThreadPrivate* sharedThread = reinterpret_cast<ThreadPrivate*>(threadData);
MutexLocker lock(sharedThread->m_mutex);
while (sharedThread->m_threadID) {
if (sharedThread->m_running) {
(*sharedThread->m_threadFunction)(sharedThread->m_parameters);
sharedThread->m_running = false;
sharedThread->m_parent = 0;
sharedThread->m_threadCondition.signal();
}
sharedThread->m_threadCondition.wait(sharedThread->m_mutex);
}
}
} #endif // ENABLE(THREADING_GENERIC)