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Say I have a list of shapes:

type shape = 
| Circle of float
| Rectangle of float * float

let a = [ Circle 5.0; Rectangle (4.0, 6.0)]

How can I then test e.g. a Circle exists in a? I could create a function for each shape

let isCircle s = 
    match s with
    | Circle -> true
    | _ -> false
List.exists isCircle a

but I feel there must be a more elegant way in F#, other than having to define such a function for each shape type. Is there?

Related question is how to group a list of shapes, based on shape types:

a |> seq.groupBy( <shapetype? >)
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(slightly OT) This reminds me, high time that code highlighting is supported for F# (!) –  Abel Jul 29 '10 at 14:06
See meta.stackoverflow.com/questions/981/syntax-highlighting-hints there is no language-specific highlighting on SO. –  Brian Jul 29 '10 at 18:30
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5 Answers

up vote 5 down vote accepted

you can combine F# reflection with quotations to get generic solution

type Shape = 
    | Circle of float
    | Rectangle of float * float

let isUnionCase (c : Expr<_ -> 'T>)  = 
    match c with
    | Lambdas (_, NewUnionCase(uci, _)) ->
        let tagReader = Microsoft.FSharp.Reflection.FSharpValue.PreComputeUnionTagReader(uci.DeclaringType)
        fun (v : 'T) -> (tagReader v) = uci.Tag
    | _ -> failwith "Invalid expression"

let a = 
    [ Circle 5.0; Rectangle (4.0, 6.0)] 
        |> List.filter (isUnionCase <@ Rectangle @>)
printf "%A" a
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The isUnionCase implementation is way above my head, but it look very clever. And using it is along the lines I suspected it could look like. Thanks! –  Emile Jul 30 '10 at 14:28
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If you're interested in the different categories of shapes, then it makes sense to define another type that exactly captures them:

type shapeCategory = Circular | Rectangular

let categorize = function
    | Circle _ -> Circular
    | Rectangle _ -> Rectangular

List.exists ((=) Circular) (List.map categorize a)

a |> Seq.groupBy(categorize)

Edit - as suggested by Brian, you can alternatively use active patterns instead of a new type. It works out pretty similarly for your examples, but would extend better to more complicated patterns, while the approach above may be better if you're code often works with the categories, and you want a nice union type for them instead of a Choice type.

let (|Circular|Rectangular|) = function 
    | Circle _ -> Circular
    | Rectangle _ -> Rectangular 

List.exists (function Circular -> true | _ -> false) a

let categorize : shape -> Choice<unit, unit> =  (|Circular|Rectangular|) 
a |> Seq.groupBy(categorize)
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Alternatively, an Active Pattern. –  Brian Jul 29 '10 at 15:53
Could you give an example how that would look like? –  Emile Jul 29 '10 at 19:10
I've added a version with Active Patterns, and brief comparison. –  RD1 Jul 30 '10 at 3:00
@Brian: Too bad Circle and Rectangle can't be interpreted as active patterns by default in a pattern-matching context as they are functions too. Would be a nice and logical addition to F# ... –  Dario Jul 30 '10 at 7:03
@Dario: Circle and Rectangle already have a meaning in patterns, so I don't think it would be logical to give them a another one. It's very natural to create separate names for Circular and Rectangular: it's a different concept from Circle r and Rectangle w h. –  RD1 Jul 30 '10 at 9:43
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You can use the F# reflection library to get a value's tag:

let getTag (a:'a) = 
  let (uc,_) = Microsoft.FSharp.Reflection.FSharpValue.GetUnionFields(a, typeof<'a>)

a |> Seq.groupBy getTag
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Very nice and generic solution for the grouping. Thanks! –  Emile Jul 30 '10 at 14:25
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I want to add another solution that works with quotations for every union case, based on the one desco provided. Here it goes:

open Microsoft.FSharp.Quotations.Patterns
open Microsoft.FSharp.Reflection

let rec isUnionCase = function
| Lambda (_, expr) | Let (_, _, expr) -> isUnionCase expr
| NewTuple exprs -> 
    let iucs = List.map isUnionCase exprs
    fun value -> List.exists ((|>) value) iucs
| NewUnionCase (uci, _) ->
    let utr = FSharpValue.PreComputeUnionTagReader uci.DeclaringType
    box >> utr >> (=) uci.Tag
| _ -> failwith "Expression is no union case."

Defined this way, isUnionCase works like desco has shown, but even on union cases that are empty or have more than one value. You can also enter a tuple of comma-separated union cases. Consider this:

type SomeType =
| SomeCase1
| SomeCase2 of int
| SomeCase3 of int * int
| SomeCase4 of int * int * int
| SomeCase5 of int * int * int * int

let list =
        SomeCase2  1
        SomeCase3 (2, 3)
        SomeCase4 (4, 5, 6)
        SomeCase5 (7, 8, 9, 10)

|> List.filter (isUnionCase <@ SomeCase4 @>)
|> printfn "Matching SomeCase4: %A"

|> List.filter (isUnionCase <@ SomeCase3, SomeCase4 @>)
|> printfn "Matching SomeCase3 & SomeCase4: %A"

The first isUnionCase I provided only worked for single case checks. I later added the expression check for NewTuple and thought you might like it. Just make sure that if you alter the code the precomputations still work, this is why iucs is defined outside of the returned anonymous function.

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A more elegant solution could be the following:

let shapeExistsInList shapeType list =
    List.exists (fun e -> e.GetType() = shapeType) list

let circleExists = shapeExistsInList ((Circle 2.0).GetType()) a

However, I'm not very satisfied with this myself since you have to create an instance of the discriminated union for it to work.

Grouping by shape type could work in a similar fashion.

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This works in this case but not for simpler types like type T = A | B where the cases are not implemented as different types. –  Mau Jul 29 '10 at 14:20
As an aside: That same problem -- of having to create a class instance to test a class instance -- comes up all the time. It would be interesting to see some general solutions to the problem. It might be worth starting a thread or a wiki. –  TechNeilogy Jul 29 '10 at 14:24
Didn't know that.. –  Ronald Wildenberg Jul 29 '10 at 14:35
There isn't some sort of typeof operator as in C#? –  Ronald Wildenberg Jul 29 '10 at 14:36
if union has case with null as runtime representation then GetType will cause NullReferenceException. i.e None.GetType() // kaboom!!! –  desco Jul 29 '10 at 17:41
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