As Apple Documentation says:
When it comes to adding concurrency to an application, dispatch queues provide several advantages over threads. The most direct advantage is the simplicity of the work-queue programming model. With threads, you have to write code both for the work you want to perform and for the creation and management of the threads themselves. Dispatch queues let you focus on the work you actually want to perform without having to worry about the thread creation and management. Instead, the system handles all of the thread creation and management for you. The advantage is that the system is able to manage threads much more efficiently than any single application ever could. The system can scale the number of threads dynamically based on the available resources and current system conditions. In addition, the system is usually able to start running your task more quickly than you could if you created the thread yourself.
In simple words, you either work with dispatch queues, simply creating them and sending work to them, OR you work with NSThread
s and NSRunLoop
s, creating them, setting them up, sending work to them, and possibly stopping them.
In detail:
NSThread / NSRunLoop
Creation:
self.thread = [[NSThread alloc] initWithTarget:self selector:@selector(threadMainRoutine) object:nil];
[self.thread start];
Start / management:
- (void)threadMainRoutine
{
// Set the runLoop variable, to signal this thread is alive
self.runLoop = [NSRunLoop currentRunLoop];
// Add a fake Mach port to the Run Loop, to avoid useless iterations of the main loop when the
// thread is just started (at this time there are no events added to the run loop, so it will
// exit immediately from its run() method)
[self.runLoop addPort:[NSMachPort port] forMode:NSDefaultRunLoopMode];
//--- Thread main loop
while (thread_KeepRunning)
{
// Run the run loop. This function returns immediately if the RunLoop has nothing to do.
// NOTE: THIS STATEMENT:
// [self.runLoop run];
// DOES NOT WORK, although it is equivalent to CFRunLoopRun();
CFRunLoopRun();
}
// Unset the runLoop variable, to signal this thread is about to exit
self.runLoop = nil;
}
Adding work to be performed on it:
[self performSelector:@selector(mySelector:) onThread:myThread withObject:myObject waitUntilDone:YES];
Shutdown:
- (void)stop
{
if (self.thread) {
while (self.thread.isExecuting) {
thread_KeepRunning = NO;
CFRunLoopStop([self.runLoop getCFRunLoop]);
[NSThread sleepForTimeInterval:0.1f];
}
}
self.runLoop = nil;
self.thread = nil;
}
Dispatch Queue
Creation:
dispatch_queue_t myQueue = dispatch_queue_create("My Queue", DISPATCH_QUEUE_SERIAL);
Start:
dispatch_resume(myQueue);
Adding work to be performed on it:
dispatch_async(myQueue, (void)^ {
// put the work into this block
});
Shutdown:
dispatch_suspend(myQueue);
myQueue = nil;
In addition, Apple Documentation says that
Because Grand Central Dispatch manages the relationship between the tasks you provide and the threads on which those tasks run, you should generally avoid calling POSIX thread routines from your task code. If you do need to call them for some reason, you should be very careful about which routines you call
So: if you use dispatch queues, don't mess with threads.