问题
Say i want to return an Option
while in an async
workflow:
let run =
async {
let! x = doAsyncThing
let! y = doNextAsyncThing x
match y with
| None -> return None
| Some z -> return Some <| f z
}
Ideally I would use the maybe computation expression from FSharpx at the same time as async to avoid doing the match
. I could make a custom builder, but is there a way to generically combine two computation expressions? It might look something like this:
let run =
async {
let! x = doAsyncThing
let! y = doNextAsyncThing x
return! f y
}
回答1:
Typically in F# instead of using generic workflows you define the workflow by hand, or use one that is ready available as in your case async
and maybe
but if you want to use them combined you will need to code a specific workflow combination by hand.
Alternatively you can use F#+ which is a project that provides generic workflows for monads, in that case it will be automatically derived for you, here's a working example, using your workflow and then using OptionT
which is a monad transformer:
#nowarn "3186"
#r @"FSharpPlus.dll"
open FSharpPlus
open FSharpPlus.Data
let doAsyncThing = async {return System.DateTime.Now}
let doNextAsyncThing (x:System.DateTime) = async {
let m = x.Millisecond
return (if m < 500 then Some m else None)}
let f x = 2 * x
// then you can use Async<_> (same as your code)
let run = monad {
let! x = doAsyncThing
let! y = doNextAsyncThing x
match y with
| None -> return None
| Some z -> return Some <| f z}
let res = Async.RunSynchronously run
// or you can use OptionT<Async<_>> (monad transformer)
let run' = monad {
let! x = lift doAsyncThing
let! y = OptionT (doNextAsyncThing x)
return f y}
let res' = run' |> OptionT.run |> Async.RunSynchronously
The first function has to be 'lifted' into the other monad, because it only deals with Async
(not with Option
), the second function deals with both so it only needs to be 'packed' into our OptionT
DU.
As you can see both workflows are derived automatically, the one you had (the async workflow) and the one you want.
For more information about this approach read about Monad Transformers.
回答2:
A simple way to do so is to use Option module:
let run =
async {
let! x = doAsyncThing
let! y = doNextAsyncThing x
return Option.map f y
}
I suppose you don't have to deal with option
in context of async
so often. FSharpx also provides many more high-order functions for option
type. Most of the cases, I think using them is enough.
To get the feeling of using these functions, please take a look at this nice article.
回答3:
type MaybeMonad() =
member __.Bind(x, f) =
match x with
| Some v -> f v
| None -> None
member __.Return(x) =
Some x
let maybe = MaybeMonad()
let run = async {
let! x = doAsyncThing
let! y = doNextAsyncThing x
return maybe {
let! y_val = y
return f y_val
}
}
just use f# Computation expressions inside.
来源:https://stackoverflow.com/questions/12376833/combine-f-async-and-maybe-computation-expression