Dart runs all your code within a single process or thread, the event loop. Therefore also code within async
blocks/methods, is, in reality, run within a "global" sequence of some sort and order that feeds the event loop.
To say the same with other words: There is no, but one single "thread" in Dart (excluding Isolates for the moment, see below).
When having to mimic data, arriving over time, e.g. through streams, one might run into the pitfall of using sleep
within code that runs in async
blocks/methods. Thinking: "My code fires off a new thread and moves on happily and stays responsive on the UI layer and all!".
But this is not the case: In Dart, you just shot yourself it the knee.
When using sleep
anywhere, not just within async code, this will stop the "one and only" event loop and every "thread" is blocked, that is, all code, everything... (...as there are actually no "threads" like e.g. in Java).
Note: Also and foremost, the UI will block, not repaint, and not be responsive to any input. All the events that occured behind the scenes during sleep
, will only become visible, after "wake up".
As an example, think of a list that appends items to itself (possibly through a stream / StreamBuilder). In "real app life", the data usually comes from an "outside source", that sends data in a delayed, unpredictable fashion. So, all is well...
...But when the data is mimicked from within your code, like by a button event, involving sleep
, with sync or async, doesn't matter, the list will only be repainted at the very end, when all the sleeping has ended. Also any other button events for example, will also not be dispatched by the event loop until after that.
Consider this code:
DON'T
Future<VoidCallback?> asyncWithSleep() async {
print('start');
for (var i = 0; i < 5; i++) {
sleep(const Duration(seconds: 1));
print(i);
}
print('end');
return null;
}
Prints:
flutter: start
flutter: 0
flutter: 1
flutter: 2
flutter: end
If you expected end would print before the numbers, then say it aloud now: "sleep
in Dart causes all threads to wait". Basically, unless you are running a command-line script from top to bottom, or code within an isolate, forget about sleep
.
To e.g. mimic data arriving from some source like a webservice, a database, or from the underlying platform, you could spawn a Future.delayed
for each piece of data, you want to mock.
DO
void syncWithDelayedFutureAndNoSyncDownTheLine() { // doesn't have to be async but could, if Future setup takes too long
print('start');
for (var i = 0; i < 3; i++) {
Future.delayed(const Duration(seconds: i + 1), () {
print(i);
});
}
print('end');
return null;
}
This will neither block the UI nor anything else. It sets up three blocks of code that is asyncronosouly run in the future, here within 1, 2, and 3 seconds respectively to the for loop.
Prints:
flutter: start
flutter: end
flutter: 0
flutter: 1
flutter: 2
(If data mimicking every second seems too boring, add a bit of wiggle and randomness into the Duration argument of the Future.delayed
parameter...)
The key to creating future events for simulations or tests, is to set the Duration time of the Future right. Blocking within the async code does not work as intended, as it blocks all.
If you still think you need to use sleep
anywhere in your program, have a look at Dart's Isolates
. I haven't used them yet but from what I can see, they look a bit like e.g. Java threads to me, without the burden of shared memory and it's many pitfalls. However, they are intended as "background workers", for compute/time intesive processing that could make the rest of the program sluggish, when run from the same main()
, that is to say, within the same, the main isolate.