In C# and TPL (Task Parallel Library), the Task class represents an ongoing work that produces a value of type T.
I'd like to know what is the need for the Task.FromResult method ?
That is: In a scenario where you already have the produced value at hand, what is the need to wrap it back into a Task?
The only thing that comes to mind is that it's used as some adapter for other methods accepting a Task instance.
There are two common use cases I've found:
Task.FromResult and a client that awaits asynchronously for the network I/O. This way you can share the same interface between client/server using ChannelFactory.
Sep 25, 2014 at 21:25
IEnumerable<T> deriving from IDisposable - it allows the enumerable to have disposable resources, not forces it to. Neither FromResult, async, nor await will spawn threads.
Jan 29, 2015 at 19:13
Task-returning method means "may be asynchronous". So sometimes methods are given an asynchronous signature knowing full well that some implementations will be synchronous (e.g., NetworkStream should be async, but MemoryStream should be sync).
Nov 7, 2018 at 13:38
One example would be a method that makes use of a cache. If the result is already computed, you can return a completed task with the value (using Task.FromResult). If it is not, then you go ahead and return a task representing ongoing work.
Cache Example: Cache Example using Task.FromResult for Pre-computed values
Task.FromResult, can be cached.
Oct 27, 2013 at 20:00
Task.FromResult(0), Task.FromResult(1), Task.FromResult(false) and Task.FromResult(true) are cached. You're not supposed to cache a task for a network access but one from result is perfectly fine. Would you prefer to create one each time you need to return the value?
Jan 31, 2014 at 23:29
Use it when you want to create an awaitable method without using the async keyword. I found this example:
public class TextResult : IHttpActionResult
{
string _value;
HttpRequestMessage _request;
public TextResult(string value, HttpRequestMessage request)
{
_value = value;
_request = request;
}
public Task<HttpResponseMessage> ExecuteAsync(CancellationToken cancellationToken)
{
var response = new HttpResponseMessage()
{
Content = new StringContent(_value),
RequestMessage = _request
};
return Task.FromResult(response);
}
}
Here you are creating your own implementation of the IHttpActionResult interface to be used in a Web Api Action. The ExecuteAsync method is expected to be asynchronous but you don't have to use the async keyword to make it asynchronous and awaitable. Since you already have the result and don't need to await anything it's better to use Task.FromResult.
From msft.com Create pre-computed tasks with Task.FromResult:
This method is useful when you perform an asynchronous operation that returns a Task object, and the result of that Task object is already computed.
Use the Task.FromResult when you want to have a asynchronous operation but sometimes the result is in hand synchronously. You can find a good sample here http://msdn.microsoft.com/en-us/library/hh228607.aspx.
Task.FromResult is used to get a previously cached async result.
Mar 18, 2020 at 19:45
I would argue that you could use Task.FromResult for methods that are synchronous that take a long time to complete while you can do other independent work in your code. Id rather make those methods to call async though. But imagine the situation where you have no control over the code called and you want that implicit parallel processing.
await Task.FromResult(...) (see this question for an explanation). Rather it runs synchronously. If you wish to convert a long-running synchronous method such that it can be called in parallel with another, you should use await Task.Run(() => LongRunningTask()); instead.
Task.Run(...) call will usually push the long operation to a thread pool thread. If this is an ASP.NET Core handler, you are already on the thread pool, so this has no effect besides an unnecessary context switch. Also, this pattern can lead to thread pool starvation if misused. tl;dr dont do this.
Task.Run() creates an lambda thread, no async is required and returns a type object. In my example, I have multiple tasks running simulatenously awaiting their completion. Once all the tasks have completed, I can cycle through their results. Task.FromResult is used to push a task result not generated by Task.Run()
The Task.FromResult pushs a type object in this case RecordStruct class in Result class. I created to tasks calling the function getData. The Task.WaitAll processes each of the task and push the results into an array of result object of type RecordStruct. I then access the attribute element of the RecordStruct Class as a result
public class RecordStruct
{
public RecordStruct(string _element) {
element = _element;
}
public string element { get;set; }
}
public class TaskCustom
{
public Task<RecordStruct> getData(string phrase)
{
if (phrase == "hello boise")
{
return Task.FromResult(new RecordStruct("Boise is a great place to live"));
}
return Task.Run(() =>
{
return new RecordStruct(phrase);
});
}
}
[Fact]
public async Task TestFactory()
{
TaskCustom obj = new TaskCustom();
List<Task<RecordStruct>> tasks = new List<Task<RecordStruct>>();
tasks.Add(obj.getData("hello world"));
tasks.Add(obj.getData("hello boise"));
Task.WaitAll(tasks.ToArray());
for(int ctr = 0; ctr < tasks.Count; ctr++) {
if (tasks[ctr].Status == TaskStatus.Faulted)
output.WriteLine(" Task fault occurred");
else
{
output.WriteLine("test sent {0}",
tasks[ctr].Result.element);
Assert.True(true);
}
}
}
