There is no specific operator / "syntax sugar" for that in C# (however, in F# you would use the >>
operator).
There is a great blog post on this subject from Matthew Podwysocki. He suggests this kind of construct in C#:
public static class FuncExtensions
{
public static Func<TSource, TResult> ForwardCompose<TSource, TIntermediate, TResult>(
this Func<TSource, TIntermediate> func1, Func<TIntermediate, TResult> func2)
{
return source => func2(func1(source));
}
}
Func<Func<int, int>, IEnumerable<int>, IEnumerable<int>> map = (f, i) => i.Select(f);
Func<Func<int, bool>, IEnumerable<int>, IEnumerable<int>> filter = (f, i) => i.Where(f);
Func<int, Func<int, int, int>, IEnumerable<int>, int> fold = (s, f, i) => i.Aggregate(s, f);
// Compose together
var mapFilterFold = map.Apply(x => x * x * x)
.ForwardCompose(filter.Apply(x => x % 3 == 0))
.ForwardCompose(fold.Apply(1, (acc, x) => acc * x));
Console.WriteLine(mapFilterFold(Enumerable.Range(1, 10)));
+
operator to combine delegates (functions and actions) so they run in sequence. You can even use-
to remove a delegate that has been added. It works like event+=
and-=
(unless add and remove have been explicitly defined). This isn't function composition, but it's good to know about.