示例#1
0
void EventQueue::ProcessEvents()
{
   auto& current_queue = mQueues[mCurrentQueue];
   SwapQueues();

   for (auto& event : current_queue)
   {
      for (auto& listener : mListeners)
      {
         listener->OnEvent(*event);
      }
   }
   current_queue.clear();
}
示例#2
0
// SELECTS NEXT RUNNING THREAD
void schedule(){
	
	// IF RUNNING THREAD IS NOT FINISHED
	// PUTS THE THREAD IN ONE OF THE TWO
	// ABLE QUEUES
	if(runningThread->state != FINISHED){
		DecreaseCredits(runningThread);
		
		if(runningThread->state == ABLE){

			if (runningThread->credReal == 0){
				expiredThreads = AddThread(expiredThreads, runningThread);
			}
			else{
				activeThreads = AddThread(activeThreads, runningThread);
			}
		}
		else{
			if(runningThread->state == BLOCKED){
				if(mutexBlock){
					//if it was blocked while locking a mutex
					//reset the flag and it was added to another queue
					//in the pilock function
					mutexBlock = 0;
				}
				else{
					blockedThreads = AddThread(blockedThreads, runningThread);
				}
			}
		}
	}
	else{
		// IF THE THREAD IS FINISHED,
		// FREE THE TCB MEMORY
		
		free(runningThread);
	}

	// SELECTS NEXT THREAD TO RUN

	runningThread = activeThreads;
	if (runningThread == NULL){
		
		SwapQueues(&activeThreads, &expiredThreads);

		activeThreads = RestoreCredits(activeThreads);

		runningThread = activeThreads;
	}
	
	activeThreads = activeThreads->next;
	runningThread->next = NULL;
	runningThread->prev = NULL;

	if(activeThreads)
		activeThreads->prev = NULL;

	runningThread->state = EXECUTION;

	
	setcontext(&runningThread->context);
}