I will assume that textBoxChanged has been created by something like:
var textBoxChanged = Observable.FromEventPattern(x, "TextChanged")
.Select(evt => ((TextBox)evt.Sender).Text);
Preventing the race condition when using SelectMany
from... from... in a LINQ comprehension translates to a
SelectMany, which is what you are using. Rx is smart enough to translate the
Task<List<DataRecord>> returned by
GetDataAsync(input) into an
The problem is that you want to prevent results coming back from all but the most recently submitted search request.
To do this, you can leverage
TakeUntil. It has the following signature:
public static IObservable<TSource> TakeUntil<TSource, TOther>(
this IObservable<TSource> source,
And it returns the values from the source observable sequence until the other observable sequence produces a value.
We can employ it like this:
var searchResults = from input in textBoxChanged
from results in GetDataAsync(input).ToObservable().TakeUntil(textBoxChanged)
This will prevent the race condition, but will also subscribe twice to textBoxChanged.
It is such a useful pattern that an alternative approach was introduced using the
Switch() operator which also takes care of the double subscription.
Instead of using
SelectMany, simply project the input directly into the search query - this will give a return type of an
IObservable<IObservable<List<DataRecord>>, a stream of streams. Switch will jump from stream to stream only returning the most recent stream. This is the equivalent of the SelectMany/TakeUntil combo:
var searchResults = (from input in textBoxChanged
I highly suggest looking at the Rx Hands on Lab that explains this in much more detail.