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I am trying to write a list comprehension in F# and can't get it to compile:

[for x in xs do
    let y = f(x)
    when g(y) -> y]

Is there any way to save an intermediate computation in the middle of a list comprehension? How can I rework this list comprehension so that it compiles?

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A "list comprehension" usually has [ at the start and ] at the end. –  Onorio Catenacci Nov 25 '12 at 7:14
2  
BTW, when is only for additional conditions in pattern matching (and more advanced: for type constraints). –  wmeyer Nov 25 '12 at 11:48
    
I added in the square brackets. –  mushroom Nov 25 '12 at 16:08

2 Answers 2

up vote 9 down vote accepted

I would just skip the list comprehension.

let ys = xs |> List.map f |> List.filter g

However it is simple enough to get your code working.

let ys = [ for x in xs do
               let y = f(x)
               if g(y) then yield y ] 
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To expand on @ChaosPandion's solution, you could also write this using List.choose -- think of it as a combination of List.map and List.filter which avoids creating an extra list (i.e., instead of creating a list with List.map just to pass it to List.filter).

let ys =
    xs
    |> List.choose (fun x ->
        let y = f x
        if g y then Some y else None)
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Honestly I was taking a look at the implementation and I believe using this will lead to a bit more object creation. The reason being the choose implementation actually calls List.rev after building up the list. –  ChaosPandion Nov 26 '12 at 19:24
    
@ChaosPandion Could you elaborate on what you mean by "a bit more object creation"? I don't understand. –  mushroom Nov 28 '12 at 3:11
    
@mushroom - What I mean is that for a given input Data this version will create X objects while my version will create Y objects where X is greater than Y by at least N. My "theorem" kind of breaks down as the length of the input data approaches zero but we can't all be expert mathematicians now can we? –  ChaosPandion Nov 28 '12 at 5:26
    
@ChaosPandion Your first version creates more objects than if you were to use List.choose; your second version is basically List.choose written as a list comprehension, so it should create the same number of objects (more or less). –  Jack P. Nov 28 '12 at 14:18
    
@JackP - Well you can't forget that the Option type is a class so that allocation counts as well. My thought was that with the build-up of the choose list and the reversal of said list the overall object creation would be pretty close on average. This of course all depends on how often g returns false. I suppose I was thinking in asymptotic terms where the best case for choose is when g will often return false and the best case for my first example is when g rarely returns false. –  ChaosPandion Nov 28 '12 at 16:36

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