I have the method in which I need to make a 5 sec delay every time I call it. Firstly I make it with sleep(5); - it worked excellent but I believe - it's not obj-c way, so I tried to write it with GCD help. The first call of this procedure make a delay about 5 sec, but other calls in this queue are going one after one without delay. How to solve this problem?
- (void) buyItemAtUUID:(NSString*)UUID
{
dispatch_barrier_async(dataManagerQueue, ^{
[[UIApplication sharedApplication] setNetworkActivityIndicatorVisible:YES];
double delayInSeconds = 5.0;
dispatch_time_t popTime = dispatch_time(DISPATCH_TIME_NOW, (int64_t)(delayInSeconds * NSEC_PER_SEC));
dispatch_after(popTime, dataManagerQueue, ^(void){
NSInteger path = [self indexFromObjectUUID:UUID];
if (path != NSNotFound)
{
NSMutableDictionary *item = [[_items objectAtIndex:path] mutableCopy];
NSNumber *value = [NSNumber numberWithFloat:[[item objectForKey:#"Quantity"] floatValue] - 1.0];
}
});
});
}
The first call of this procedure make a delay about 5 sec, but other
calls in this queue are going one after one without delay.
That's usually desired behavior. The reason you shouldn't call sleep() is that it'll block the thread, preventing anything else in that thread from happening. If you block the main thread, your device will appear to freeze, which isn't a very nice user experience.
GCD provides a nice dispatch_group_wait() function that lets you make one set of tasks wait for some other group to finish. Take a look at Waiting on Groups of Queued Tasks for an example.
dispatch_barrier_async only stops blocks added to the concurrent queue after this block from running. The blocks that were already queued are not prevented from running.
Related
I need to download an image asynchronously without blocking the UI in an iOS app. While downloading the image, a 'waiting' UIView must be shown for 3 seconds at least. I would like to implement a solution that does not block UI management (even if in the current implementation no user operations are offered while the image download is in progress).
The current solution is:
- main thread: dispatch_async + block to download the image (described in thread_2);
- main thread: sleep for three seconds;
- main thread: P (wait) on a semaphore S;
- main thread: read data or error message set by thread_2, then behave accordingly.
- thread_2: download the image, set data or error flag/msg according to the download result;
- thread_2: V (signal) on the semaphore S.
There are other solutions, for example based on NSNotification, but this one seems the best for respecting the 3-seconds delay.
My question is: when the main thread is sleeping (or when it is waiting on the semaphore), is the UI frozen? If it is, which solution would be the best one?
What do you think of this second one:
- main thread: dispatch_async + block to download the image (described in thread_2);
- main thread: dispath_async thread_3
- thread_2: as above
- thread_3: sleep three seconds, P on semaphore S;
- thread_3: read data or error message set by thread_2, prepare everything, then behave accordingly using the main_queue.
This is a way working with multiple threads and with specific delay
double delayInSeconds =3;
dispatch_time_t popTime = dispatch_time(DISPATCH_TIME_NOW, (int64_t)(delayInSeconds * NSEC_PER_SEC));
//Entering a specific thread
dispatch_async(dispatch_get_global_queue(DISPATCH_QUEUE_PRIORITY_DEFAULT, 0),^{
//Wait delayInSeconds and this thread will dispatch
dispatch_after(popTime, dispatch_get_main_queue(), ^(void){
//Do your main thread operations here
});
});
More or less you can do this:
dispatch_async(your_download_queue, ^{
dispatch_time_t timer = dispatch_time(DISPATCH_TIME_NOW, 3 * NSEC_PER_SEC);
//download image
dispatch_after(timer, dispatch_get_main_queue(), ^{
//update ui with your image
});
});
I'm making a while loop and I'm trying to delay it.
while (mode == 1)
{
[self performSelector:#selector(on) withObject:nil afterDelay:slider.value];
NSLog(#"on");
[self performSelector:#selector(off) withObject:nil afterDelay:slider.value];
NSLog(#"off");
}
But even though I'm setting the slider to 10 seconds it goes on and off very fast.
Also my app black screens and I only see the status bar and my nslog but that might have to do with something else.
performSelector:withObject:afterDelay: does not wait for the selector to finish. This means that as soon as you are telling selector A to run after a certain time, it immediately goes on and tells selector B to run after a certain time. There are plenty of options to fix this:
If you would like to stick with selectors, you could use performSelector:onThread:withObject:waitUntilDone:. Make sure you don't use the main thread though or you will experience UI freezes.
[NSThread waitForInterval] is another option but, like the previous option, will freeze the UI unless you are calling the entire while loop on a different thread. I am surprised this has been mentioned so much without people noting this important factor.
GCD is another option. It doesn't wait for it to finish so you shouldn't experience major UI freezes.
dispatch_time_t dispatchTime = dispatch_time(DISPATCH_TIME_NOW, slider.value * NSEC_PER_SEC);
dispatch_after(dispatchTime, dispatch_get_main_queue(), ^(void){
[self on];
dispatch_after(dispatchTime, dispatch_get_main_queue(), ^(void){
[self off];
})
});
Another option is to keep what you are doing now and make selector B run after slider.value*2. If you think of this in a mathematically way, it makes sense:
A) 0-1-2-3-4-5-6-7-8-9-10
B) 0-1-2-3-4-5-6-7-8-9-10-1-2-3-4-5-6-7-8-9-10
This is what you're telling your app:
"Turn on something in slider.value seconds from now"
"Turn off something in slider.value seconds from now"
Do you see a problem with that?
double delayInSeconds = slider.value;
dispatch_time_t popTime = dispatch_time(DISPATCH_TIME_NOW, (int64_t)(delayInSeconds * NSEC_PER_SEC));
dispatch_after(popTime, dispatch_get_main_queue(), ^(void){
[self off];
//or
[self on];
});
This performs whatever inside the block after given time! :)
The while loop doesn't wait for the delayed actions to complete, it simply schedules them. The problem is that you're scheduling all the events in a very quick loop that then runs the events one after the other just as quickly, all 10 seconds later.
[self performSelector:#selector(on) withObject:nil afterDelay:slider.value];
In this statement afterDelay doesn't mean that it will pause for some second.
It means that method "on" will execute after some second. But execution will not wait to finish execution of method"on" and go to next statement.
If you want to make only some delay than you can use following statement :
[NSThread sleepForTimeInterval:2.0];
This will wait for 2 second. But It may not be good idea because it will freeze your UI.
I hope this will help you.
All the best.....
If you want to turn it on immediately and turn it off the specified delay:
[self on];
NSLog(#"on");
[self performSelector:#selector(off) withObject:nil afterDelay:slider.value];
NSLog(#"off");
If you want to turn it on after the specified delay, then turn it off again 10 seconds after that:
[self performSelector:#selector(on) withObject:nil afterDelay:slider.value];
NSLog(#"on");
[self performSelector:#selector(off) withObject:nil afterDelay:slider.value + 10];
NSLog(#"off");
try to use [NSThread sleepForTimeInterval:1.0f]; it will stop your thread based on the time u are providing
I'm very very new to iOS programming but I already have a big issue I can't solve. It seems so easy.
I have a button, I click on it to change a label called message
Here is the code:
- (IBAction)react:(id)sender {
int hasard ;
hasard=3;
message.text=[NSString stringWithFormat:#"1 %d",hasard];
sleep (1);
message.text=[NSString stringWithFormat:#"2 %d",hasard];
}
It works well but I don't see the first message.text change.
When I click the button, I have to wait one second and I see 2 3
I thought I could see 1 3, wait a second and then see 2 3.
What is missing? It seems so obvious.
sleep() will suspend the current threads execution which is the main thread so you are blocking all UI operations until the method completes. You need to schedule the second assignment to run after the specified time without blocking the current run loop. This can be achieved with GCD.
- (IBAction)react:(id)sender {
int hasard ;
hasard=3;
message.text=[NSString stringWithFormat:#"1 %d",hasard];
int64_t delayInSeconds = 1.0;
dispatch_time_t popTime = dispatch_time(DISPATCH_TIME_NOW, delayInSeconds * NSEC_PER_SEC);
dispatch_after(popTime, dispatch_get_main_queue(), ^(void){
message.text=[NSString stringWithFormat:#"2 %d",hasard];
});
}
You are blocking the main thread (well, rather sleep() blocks it). If you do so, committed changes to the UI won't appear - you'll only see the final result. You have to do something else (blocking the UI is a very bad idea in terms of user experience, by the way). You can try using a timer, for example:
int hasard = 3;
- (void)react:(id)sender
{
message.text = [NSString stringWithFormat:#"1 %d", hasard];
[NSTimer scheduledTimerWithTimeInterval:1.0f target:self selector:#selector(timer:) userInfo:nil repeats:NO];
}
- (void)timer:(NSTimer *)tmr
{
message.text = [NSString stringWithFormat:#"2 %d", hasard];
}
I'd like to pop a display from inside a completion block, but I also want to dismissModalViewControllerAnimated from inside the same block (but AFTER the popup completes). Note that the popup schedules and runs after the completion block execution finishes, which means it never happens since the dismissal is synchronous...
So, a quick fix would be to find a way to schedule the dismissal asynchronously for after the popup. Is there a chaining method? A way to force holding async tasks to run and wait for them?
Use -performSelector:withObject:afterDelay:. You'll need to wrap the dismissal in a selector matching the signature required by -performSelector:..., since dismissModalViewControllerAnimated: takes a BOOL.
You can use dispatch_after instead, and it will be dismissed animatedly. check this simple sample code:
int64_t delayInSeconds = 2.0;
dispatch_time_t popTime = dispatch_time(DISPATCH_TIME_NOW, delayInSeconds * NSEC_PER_SEC);
dispatch_after(popTime, dispatch_get_main_queue(), ^(void){
[self dismissModalViewControllerAnimated:YES];
});
I have a need to delay for a certain amount of time and yet allow other things on the same runloop to keep running. I have been using the following code to do this:
[[NSRunLoop currentRunLoop] runUntilDate:[NSDate dateWithTimeIntervalSinceNow:1]];
This seems to do exactly what I want, except that sometimes the function returns immediately without waiting the desired time (1 second).
Can anyone let me know what could cause this? And what is the proper way to wait while allowing the run loop to run?
NOTE: I want to delay in a manner similar to sleep(), such that after the delay I am back in the same execution stream as before.
You should use GCD and dispatch_after for that. It is much more recent and efficient (and thread-safe and all), and very easy to use.
There is even a code snippet embedded in Xcode, so that if you start typing dispatch_after it will suggest the snippet and if you validate it will write the prepared 2-3 lines for you in your code :)
int64_t delayInSeconds = 2.0;
dispatch_time_t popTime = dispatch_time(DISPATCH_TIME_NOW, delayInSeconds * NSEC_PER_SEC);
dispatch_after(popTime, dispatch_get_main_queue(), ^(void){
<#code to be executed on the main queue after delay#>
});
Use an NSTimer to fire off a call to some method after a certain delay.
Have you tried performSelector:withObject:afterDelay:?
From the Apple documentation
Invokes a method of the receiver on the current thread using the default mode after a delay.
I had a similar issue and this is my solution. Hope it works for others as well.
__block bool dispatched = false;
while ( put your loop condition here )
{
if (dispatched)
{
// We want to relinquish control if we are already dispatched on this iteration.
[ [ NSRunLoop currentRunLoop ] runMode: NSDefaultRunLoopMode beforeDate:[ NSDate date ] ];
continue;
}
// mark that a dispatch is being scheduled
dispatched = true;
int64_t delayInNanoSeconds = (int64_t) (0.1 * (float) NSEC_PER_SEC);
dispatch_time_t delayTime = dispatch_time(DISPATCH_TIME_NOW, delayInNanoSeconds);
dispatch_after(delayTime, dispatch_get_main_queue(), ^() {
// Do your loop stuff here
// and now ready for the next dispatch
dispatched = false;
} );
} // end of while