public void TestMultipleAsyncProcessors()
{
const int count = 300000;
AsyncProcessor lockProcessor1 = new AsyncProcessor(false);
AsyncProcessor lockProcessor2 = new AsyncProcessor(false);
AsyncProcessor lockProcessor3 = new AsyncProcessor(false);
AsyncProcessor lockProcessor4 = new AsyncProcessor(false);
ArrayList lockJobs = new ArrayList(count);
for (int i = 0; i < count; ++i)
{
lockJobs.Add(new LockJob());
}
for (int i = 0; i < count; ++i)
{
lockProcessor1.QueueJob((AbstractJob)lockJobs[i]);
lockProcessor2.QueueJob((AbstractJob)lockJobs[i]);
lockProcessor3.QueueJob((AbstractJob)lockJobs[i]);
lockProcessor4.QueueJob((AbstractJob)lockJobs[i]);
}
lockProcessor1.QueueEndOfWork();
lockProcessor2.QueueEndOfWork();
lockProcessor3.QueueEndOfWork();
lockProcessor4.QueueEndOfWork();
lockProcessor1.StartThread();
lockProcessor2.StartThread();
lockProcessor3.StartThread();
lockProcessor4.StartThread();
lockProcessor1.WaitUntilFinished();
lockProcessor2.WaitUntilFinished();
lockProcessor3.WaitUntilFinished();
lockProcessor4.WaitUntilFinished();
}
public void TestAsyncProcessorEvents()
{
_jobCount = 0;
AsyncProcessor proc = new AsyncProcessor(false);
using ( proc )
{
proc.ThreadStarted += new EventHandler(proc_ThreadStarted);
proc.ThreadStarted += new EventHandler(proc_ThreadStarted1);
proc.ThreadStarted += new EventHandler(proc_ThreadStarted2);
proc.ThreadFinished += new EventHandler(proc_ThreadStarted);
proc.ThreadFinished += new EventHandler(proc_ThreadStarted1);
proc.FillingEmptyQueue += new EventHandler(proc_FillingEmptyQueue);
proc.QueueGotEmpty += new EventHandler(proc_QueueGotEmpty);
proc.QueueGotEmpty += new EventHandler(proc_QueueGotEmpty1);
proc.JobStarting += new EventHandler(proc_JobStarting);
proc.JobFinished += new EventHandler(proc_JobFinished);
proc.JobQueued += new JetBrains.Omea.AsyncProcessing.AsyncProcessor.JobDelegate(proc_JobQueued);
proc.QueueJob(new SleepJob(0));
proc.QueueJob(new SleepJob(0));
proc.QueueJob(new SleepJob(0));
proc.QueueJob(new SleepJob(0));
proc.QueueEndOfWork();
proc.EmployCurrentThread();
}
if (_jobCount != 0)
{
throw new Exception("TestAsyncProcessorEvents() failed. _jobCount = " + _jobCount);
}
}
public void TestEmployCurrentThread()
{
_jobCount = 0;
AsyncProcessor proc = new AsyncProcessor(false);
using ( proc )
{
proc.QueueJob(new SleepJob(0));
proc.QueueJob(new SleepJob(0));
proc.QueueJob(new SleepJob(0));
proc.QueueEndOfWork();
proc.EmployCurrentThread();
}
if (_jobCount != 3)
{
throw new Exception("TestEmployCurrentThread() failed. _jobCount = " + _jobCount);
}
}
public void TestCancellation()
{
_jobCount = 0;
AsyncProcessor processor = new AsyncProcessor();
using ( processor )
{
TimedJob job = new TimedJob();
processor.QueueJobAt(DateTime.Now.AddSeconds(4), job);
processor.QueueJobAt(DateTime.Now.AddSeconds(4.01), job);
processor.CancelTimedJobs(job);
processor.QueueEndOfWork();
processor.WaitUntilFinished();
if (_jobCount != -2)
{
throw new Exception("TestCancellation() failed. _jobCount = " + _jobCount);
}
}
}
public void TestSpinWaitLock()
{
SpinWaitLock aLock = new SpinWaitLock();
AsyncProcessor proc1 = new AsyncProcessor(false);
AsyncProcessor proc2 = new AsyncProcessor(false);
using ( proc1 )
{
using ( proc2 )
{
for (int i = 0; i < 100000; ++i)
{
proc1.QueueJob(new SpinWaitLockJob(aLock));
proc2.QueueJob(new SpinWaitLockJob(aLock));
}
proc1.StartThread();
proc2.StartThread();
proc1.QueueEndOfWork();
proc2.QueueEndOfWork();
proc1.WaitUntilFinished();
proc2.WaitUntilFinished();
}
}
}
