The best practice is to collect all the async
calls in a collection inside the loop and do Task.WhenAll()
. Yet, want to understand what happens when an await
is encountered inside the loop, what would the returned Task
contain? what about further async
calls? Will it create new tasks and add them to the already returned Task
sequentially?
As per the code below
private void CallLoopAsync()
{
var loopReturnedTask = LoopAsync();
}
private async Task LoopAsync()
{
int count = 0;
while(count < 5)
{
await SomeNetworkCallAsync();
count++;
}
}
The steps I assumed are
LoopAsync
gets calledcount
is set to zero, code enters while loop, condition is checkedSomeNetworkCallAsync
is called,and the returned task is awaited- New task/awaitable is created
- New task is returned to
CallLoopAsync
()
Now, provided there is enough time for the process to live, How / In what way, will the next code lines like count++
and further SomeNetworkCallAsync
be executed?
Update - Based on Jon Hanna and Stephen Cleary:
So there is one Task and the implementation of that Task will involve 5 calls to NetworkCallAsync, but the use of a state-machine means those tasks need not be explicitly chained for this to work. This, for example, allows it to decide whether to break the looping or not based on the result of a task, and so on.
Though they are not chained, each call will wait for the previous call to complete as we have used await
(in state m/c, awaiter.GetResult();
). It behaves as if five consecutive calls have been made and they are executed one after the another (only after the previous call gets completed). If this is true, we have to be bit more careful in how we are composing the async calls.For ex:
Instead of writing
private async Task SomeWorkAsync()
{
await SomeIndependentNetworkCall();// 2 sec to complete
var result1 = await GetDataFromNetworkCallAsync(); // 2 sec to complete
await PostDataToNetworkAsync(result1); // 2 sec to complete
}
It should be written
private Task[] RefactoredSomeWorkAsync()
{
var task1 = SomeIndependentNetworkCall();// 2 sec to complete
var task2 = GetDataFromNetworkCallAsync()
.ContinueWith(result1 => PostDataToNetworkAsync(result1)).Unwrap();// 4 sec to complete
return new[] { task1, task2 };
}
So that we can say RefactoredSomeWorkAsync
is faster by 2 seconds, because of the possibility of parallelism
private async Task CallRefactoredSomeWorkAsync()
{
await Task.WhenAll(RefactoredSomeWorkAsync());//Faster, 4 sec
await SomeWorkAsync(); // Slower, 6 sec
}
Is this correct? - Yes. Along with "async all the way", "Accumulate tasks all the way" is good practice. Similar discussion is here