I recommend that you not think of this as "using
async within LINQ". Keep in mind what's in-between the two: delegates. Several LINQ operators take delegates, and
async can be used to create an asynchronous delegate.
So, when you have an asynchronous method
BazAsync that returns a
Task BazAsync(TBar bar);
then this code results in a sequence of tasks:
IEnumerable<Task> tasks = bars.Select(bar => BazAsync(bar));
Similarly, if you use
await within the delegate, you're creating an asynchronous delegate that returns a
IEnumerable<Task> tasks = bars.Select(async bar => await BazAsync(bar));
These two LINQ expressions are functionally equivalent. There are no important differences.
Just like regular LINQ expressions, the
IEnumerable<Task> is lazy-evaluated. Only, with asynchronous methods like
BazAsync, you usually do not want accidental double-evaluation or anything like that. So, when you project to a sequence of tasks, it's usually a good idea to immediately reify the sequence. This calls
BazAsync for all the elements in the source sequence, starting all the tasks going:
Task tasks = bars.Select(bar => BazAsync(bar)).ToArray();
Of course, all we've done with
Select is start an asynchronous operation for each element. If you want to wait for them all to complete, then use
Most other LINQ operators do not work as cleanly with asynchronous delegates.
Select is pretty straightforward: you're just starting an asynchronous operation for each element.