Can anyone explain with really clear use cases what the purpose of
GCD is for? I can't understand where and why I would have to use this.
You use it when you want to execute a block and wait for the results.
One example of this is the pattern where you're using a dispatch queue instead of locks for synchronization. For example, assume you have a shared NSMutableArray
David Gelhar left unsaid that his example will work only because he quietly created serial queue (passed NULL in dispatch_queue_create what is equal to DISPATCH_QUEUE_SERIAL).
If you wish create concurrent queue (to gain all of multithread power), his code will lead to crash because of NSArray mutation (addObject:) during mutation (removeObjectAtIndex:) or even bad access (NSArray range beyond bounds). In that case we should use barrier to ensure exclusive access to the NSArray while the both blocks run. Not only does it exclude all other writes to the NSArray while it runs, but it also excludes all other reads, making the modification safe.
Example for concurrent queue should look like this:
I've used dispatch sync when inside an async dispatch to signal UI changes back to the main thread.
My async block holds back only a little and I know the main thread is aware of the UI changes and will action them. Generally used this in a processing block of code that takes some CPU time but I still want to action UI changes from within that block. Actioning the UI changes in the async block is useless as UI, I believe, runs on the main thread. Also actioning them as secondary async blocks, or a self delegate, results in the UI only seeing them a few seconds later and it looks tardy.
If you want some samples of practical use look at this question of mine:
I solve it by ensuring that my main managedObjectContext is created on the main thread. The process is very fast and I do not mind waiting. Not waiting means I will have to deal with a lot of concurency issue.
I need dispatch_sync because some code need to be done on main thread, which is the different thread than the one where to code is being executed.
So basically if you want the code to 1. Proceed like usual. You don't want to worry about race conditions. You want to ensure that the code is completed before moving on. 2. Done on a different thread
If 1 is violated, use dispatch_async. If 2 is violated just write the code like usual.
So far, I only do this once, namely when something need to be done on main thread.
So here's the code:
First understand its brother
What happens if you want the current thread to stop?
You do not use dispatch at all. Just write the code normally
Now, say you want to do something on a DIFFERENT thread and yet wait as if and ensure that stuffs are done consecutively.
There are many reason to do this. UI update, for example, is done on main thread.
That's where you use
Here you got //Do something //Do something else and //Do More stuff done consecutively even though //Do something else is done on a different thread.
Usually, when people use different thread, the whole purpose is so that something can get executed without waiting. Say you want to download large amount of data but you want to keep the UI smooth.
Hence, dispatch_sync is rarely used. But it's there. I personally never used that. Why not ask for some sample code or project that does use dispatch_sync.
Here's a half-way realistic example. You have 2000 zip files that you want to analyze in parallel. But the zip library isn't thread-safe. Therefore, all work that touches the zip library goes into the
dispatch_sync is semantically equivalent to a traditional mutex lock.
works the same as