Calling a method inside another
async method (using the .NET 5.0
async keyword) to me is fine. I am not sure I completely understand your question, but take the following simple example. To display the prime numbers between a starting
int and a count we could write
async void DisplayPrimes()
int result = await GetPrimesCountAsync(2, 10000);
Task<int> GetPrimesCountAsync(int start, int count)
return Task.Run(() =>
ParrallelEnumerable.Range(start, count).COunt(n =>
Enumerable.Range(2, (int)Math.Sqrt(n) - 1).All(i => n % i > 0)));
async modifier tells the compiler to treat await as a keyword rather than an identifier should any ambiguity arise within that method. This insures that the code written prior to C# 5.0 that might use await as an identifier still compiles without error. The async modifier can be applied only to methods and lambda expressions that return void or
Upon encountering the
await expression, execution (normally) returns to the caller - rather like with
yeild return in an itterator. But before returning, the runtime attaches a continuation to the awaited task, ensuring that when the task completes, execution jumps back into the method an continues where it left off. I suppose you could write the above method showing what the compiler translates it to as
var awaiter = GetPrimesCountAsync(2, 100000).GetAwaiter();
int result = awaiter.GetResult();
I hope this helps.
Edit. so to avoid the task blocking (it is hard to tell what your case is as you have posted no code), you need to bring the
async process you want to create 'up a level'
private async Task<bool> TestAsync()
return await Task.Run(() =>
// Do stuff non-blocking.
TestAsync here will be able to complete by executing its "return" statement on a thread pool thread instead of the UI context. This will return to the caller immediately but note however, if you continue to use
Task.Result, then any exceptions get wrapped in an
AggregateException which you will have to deal with accordingly.
A good explanation can be found on MSDN here. I would recomend learning about C# 4.0 Tasks before getting into
await as it will give you a better understanding of concurrency.