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Dear good people of stackoverflow,

Just like the last time, I hereby bring up a question I recently tumble upon. I hope someone out there could shed some light on me.

Whenever I try to download a big file behind scrollview, mkmapview or something, the downloading process gets halted as soon as I touch iPhone screen. Thankfully, an awesome blog post by Jörn suggests an alternative option, using NSRunLoopCommonModes for connection.

That gets me look into detail of the two modes, NSDefaultRunLoopMode and NSRunLoopCommonModes, but the apple document does not kindly explain, other than saying


The mode to deal with input sources other than NSConnection objects. This is the most commonly used run-loop mode.


Objects added to a run loop using this value as the mode are monitored by all run loop modes that have been declared as a member of the set of “common" modes; see the description of CFRunLoopAddCommonMode for details.


Sources, timers, and observers get registered to one or more run loop modes and only run when the run loop is running in one of those modes. Common modes are a set of run loop modes for which you can define a set of sources, timers, and observers that are shared by these modes. Instead of registering a source, for example, to each specific run loop mode, you can register it once to the run loop’s common pseudo-mode and it will be automatically registered in each run loop mode in the common mode set. Likewise, when a mode is added to the set of common modes, any sources, timers, or observers already registered to the common pseudo-mode are added to the newly added common mode.

Can anyone please explain the two in human language?

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1 Answer 1

up vote 114 down vote accepted

A run loop is a mechanism that provides the possibility for the system to wake up sleeping threads to manage asynchronous events. Normally when you run a thread (with the exception of the main thread) you have the option to start for it a run loop or not. If the thread does some sort or long-runnign operation with no interaction with external events and no timers, you don't need a run loop, but if your thread needs to respond to incoming events, you need to attach it to a run loop in order to wake up this thread when new events arrive. This is the case of NSURLConnection generated threads, as the live on incoming events only (from the network).

Each thread can be associated to different run loops, or it can be associated to a run loop but this run loop can be set to work on different modes. A "run loop mode" is a convention used by the OS to establish some rules on when delivering certain events or simply suspend this delivery and then collect them all to be delivered later. Usually all run loop are set to the "default mode" which establishes a default way to manage input events. As soon as some mouse-dragging (Mac OS) or touch (on iOS) event happens then the mode for this run loop is set to event tracking: this means that the thread will not be woke up on new network events but these events will be delivered later when the user input event terminates and the run loop set to default mode again: obviously this is a choice made by the OS architects to give priority to user events instead of background events.

If you decide to change the run loop mode for your NSURLConnection thread, by using the

method, then you allow the thread's events to be associated not to a specific run loop (the default) but to a different run loop mode. In particular the special pseudo-mode called "common" allows to permanently associate the input sources to all modes that are - or will be - associated to the "common mode". Of course event tracking mode is part of this family of modes, so the method applied on NSURLConnection's instance means: please associate the connection source events to "tracking mode" in addition to "default mode".

Finally you can add new modes to the common modes, but this is a quite low-level operation.

I would like to close by adding a few notes:

  • typically we need to associate to a table view a set of images or thumbnails downloaded from the network; even if we may think that download these images from the network while the table view is scrolling could improve the UI (because we can see the images while scrolling) infact this is dangerous as the final effect will be a scrolling not fluid. So don't add NSURLConnection to the run loop in such case but use the UIScrollView delegate methods to detect when scrolling is terminated to update the table and download new items from the network;

  • you may consider to use GCD which will help you to "shield" your code from run loop management issues. So in the example above, you may consider to add your network requests to a custom serial queue.

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Dear Viggio24, thank you so much for this clean, precise explanation. I would ask Apple to include your comment to their API guide. ;) –  Stkim1 Aug 29 '11 at 1:09
I upvoted your answer because is absolutely clear!! Thanks for sharing your knowledge. –  flexaddicted May 28 '12 at 9:54
viggio24's answer is perfect. For those interested in, I would point out that Session 208 (Network Apps for iPhone OS, Part 2) from WWDC 2010 contains an intro on run loops. If you are interested take a look. Hope it helps. –  flexaddicted May 28 '12 at 10:00
Just a note for myself: NSRunLoopCommonModes allows timer event while scrolling in UIScrollView. NSDefaultRunLoopMode prevent timer while scrolling. –  Eonil Sep 26 '13 at 3:39
I found very interesting the the comment about the scroll view update, as it mentions a very challenging topic. Just to add more details on this: When you set a mode for a NSURLConnection, this only affects the execution of the delegate call-backs. I understand that updating the scrollView here could result in a performance issue, but why is this happening? If the answer is that the picture has to be loaded into memory, you could do that by writing into a graphic context on the background, and update your view main thread layer after doing this. does this sound reasonable? –  nebillo Jul 3 '14 at 11:18

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