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We are using coredata in some threads... (too many concurrent contexts are bad - I know, I experience it)

Now around every fetch/save coredata wraps a lock.

I'd now like to measure the time one thread spends being blocked waiting to aquire that lock.

I thought I could just use time profiler or even thread state instrument or the sampler. but: - time profiler just ignores waiting (likely because it isnt a CPU call) - sampler as well (even though he isntin cpu mode) - the thread states instrument doesnt show me correct callstack either :( [but maybe (and that's always a possibility) I did overlook an easy solution]

here I have a very simple app that also has a lock and for which I also fail to get the wait time... maybe you can help me get the time the main thread spends waiting in this example -- using some profiling technique I can then transfer to the coredata case:

@implementation DDAppDelegate

- (void)applicationDidFinishLaunching:(NSNotification *)aNotification
    NSLock *l = [[NSLock alloc] init];
    [NSThread detachNewThreadSelector:@selector(hogTheLog:) toTarget:self withObject:l];
    [l lock];
    [l unlock];
    [NSApp terminate:nil];

- (void)hogTheLog:(NSLock*)l {
    [l lock];
    [l unlock];
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up vote 2 down vote accepted

I'm not sure how long Xcode has this feature, I only noticed it in 5.1. In the "Time Profiler" instrument configuration there is now a checkbox "Record Waiting Threads". In this mode it records how much time exactly did the application spend on each method/function etc (instead of measuring just the CPU time).

enter image description here

I set sample interval to 20 ms, because otherwise overall will be too slow.

UPD: also, set "Sample Perspective" (in the bottom left corner on the screenshot) to "Running Sample Times" to discard samples when thread is just idle from the picture.

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cool. new to me. ill look at it later :) thanks! – Daij-Djan Mar 20 '14 at 13:08
I simply forgot this as I didn't have a use case for this until now -- this works as described :) thank you – Daij-Djan Oct 11 '14 at 8:39

Use the "System Calls" instrument in Instruments. You get this instrument if you select the "System Trace" template when launching Instruments. This will give you all sorts of scheduling information which should allow you to find your answer.

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please reread ... but maybe I give up :D There doesn't seem a 'good' way – Daij-Djan Mar 14 '13 at 18:54

I recently had an issue where my app was hanging because of too many CoreData contexts. I fixed it by just wrapping the code with the @synchronized keyword like this:

NSManagedObjectContext *context = [[DataStore sharedStore] managedObjectContext];
@synchronized(context) {
   ... do some database stuff

DataStore is my singleton that returns a context. Apparently the app runs a little slower now, but I'll optimize that later. If anyone complains, I'll say "would you rather have a slightly slower app or an app that crashes a lot?". My philosophy is always "make it work THEN make it fast".

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I agree though thats not the question ;) – Daij-Djan Oct 11 '14 at 8:33

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