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How do I match union cases dynamically in F# when there are value declarations?

Non working code:

let myShape = Shape.Square
expect myShape Shape.Circle 

type Shape =
   | Circle of int
   | Square of int
   | Rectangle of ( int * int )

let expect someShape someUnionCase =
    if not ( someShape = someUnionCase )
    then failwith ( sprintf "Expected shape %A. Found shape %A" someShape someUnionCase )

let myShape = Shape.Square
expect myShape Shape.Circle // Here I want to compare the value types, not the values

If my union cases did not declare values, this works using instantiation samples (which is not what I want):

let myShape = Shape.Square
expect myShape Shape.Circle 

type Shape =
   | Circle
   | Square
   | Rectangle

let expect someShape someUnionCase =
    if not ( someShape = someUnionCase )
    then failwith ( sprintf "Expected shape %A. Found shape %A" someShape someUnionCase )

let myShape = Shape.Square
expect myShape Shape.Circle // Comparing values instead of types
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3 Answers

up vote 2 down vote accepted

When you call the expect function in your example with e.g. Shape.Square as an argument, you're actually passing it a function that takes the arguments of the union case and builds a value.

Analyzing functions dynamically is quite difficult, but you could instead pass it concrete values (like Shape.Square(0)) and check that their shape is the same (ignore the numeric arguments). This can be done using F# reflection. The FSharpValue.GetUnionFields function returns the name of the case of an object, together with obj[] of all the arguments (which you can ignore):

open Microsoft.FSharp.Reflection

let expect (someShape:'T) (someUnionCase:'T) = 
  if not (FSharpType.IsUnion(typeof<'T>)) then
    failwith "Not a union!"
    let info1, _ = FSharpValue.GetUnionFields(someShape, typeof<'T>)
    let info2, _ = FSharpValue.GetUnionFields(someUnionCase, typeof<'T>)
    if not (info1.Name = info2.Name) then
      failwithf "Expected shape %A. Found shape %A" info1.Name info2.Name

If you now compare Square with Circle, the function throws, but if you compare two Squares, it works (even if the values are different):

let myShape = Shape.Square(10)
expect myShape (Shape.Circle(0)) // Throws
expect myShape (Shape.Square(0)) // Fine

If you wanted to avoid creating concrete values, you could also use F# quotations and write something like expect <@ Shape.Square @> myValue. That's a bit more complex, but maybe nicer. Some examples of quotation processing can be found here.

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Wow, that was ugly. I expect a terrible performance hit. I'm using it to verify a parsed AST tree for expected used code organization. –  Jack Wester Feb 16 '12 at 10:54
Given John Palmers insight that all I want to do is to compare two integers that I have at hand, using reflection or run time IL code generation seems absurd –  Jack Wester Feb 16 '12 at 10:54
This all dates back to types not being represented by values (objects) in the CLR. Which dates back to the fact that Anders Heijsbergs Cool (later to be C#) was modeled after Java. Which dates back to Gosling using constructors instead of class methods, missing the fact that Bjarne Strousup did the typeless nightmare because a type object just did not fit the original cfront C++ to C translation tool. Things like 'constructors and 'static' instead of type member functions was a COMPROMISE because of cfront. Shame on Gosling and Anders for not understanding the motivation of the typeless type. –  Jack Wester Feb 16 '12 at 11:25
@JoachimWester I guess you can take quite a different point of view depending on whether you see the problem from an OO (i.e. SmallTalk) perspective or from a functionel (i.e. ML) perspective. –  Tomas Petricek Feb 16 '12 at 11:49
I believe that for functional programming, the inability to treat a type as a value is just as wrong as in an OO language, although the consecquences are graver in OO. –  Jack Wester Feb 16 '12 at 12:28
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Interestingly, this can be done very easily in C#, but the F# compiler will not allow you to call the functions - which seems odd.

The spec says that a discriminated union will have (section 8.5.3):

One CLI instance property u.Tag for each case C that fetches or computes an integer tag corresponding to the case.

So we can write your expect function in C# trivially

public bool expect (Shape expected, Shape actual)
    expected.Tag == actual.Tag;

It is an interesting question as to why this can't be done in F# code, the spec doesn't appear to give a good reason why.

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Really usefull information :-) How annoying then to have to resort to runtime code generation or reflection –  Jack Wester Feb 16 '12 at 10:38
I'm happy the F# implementation does materialize types in this way. It is a petty that we are stuck with the original C#/VB type philosophy in the .Net languages though –  Jack Wester Feb 16 '12 at 12:32
@JoachimWester: it's not C#/VB type philosophy, but how the CLS was designed. A .NET-based language obviously has to correspond to the CLS at some level. –  ShdNx Feb 16 '12 at 22:11
@ShdNx Anders Cool project (became C#) decided on the Java model. The CLR however, does not have the problem. Your compiler can create a singleton object for each class and apply all static methods as member functions on that singleton (including new). The problem is not the CLR, but it is the .NET framework classes and the C# compiler than does not use this singleton type object. So I disagree, it is original philosophy and not the CLR. The CLR is as it should be IMHO. –  Jack Wester Feb 17 '12 at 10:01
@JoachimWester: where did you see me mention the CLR? I agree, the CLR couldn't care less about these things. However the CLS (Common Language Specification) was designed like that. –  ShdNx Feb 17 '12 at 15:15
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I use the same pattern to implement type checking in HLVM. For example, when indexing into an array I check that the type of the expression is an array ignoring the element type. But I don't use reflection as the other answers have suggested. I just do something like this:

let eqCase = function
  | Circle _, Circle _
  | Square _, Square _
  | Rectangle _, Rectangle _ -> true
  | _ -> false

Usually in a more specific form like this:

let isCircle = function
  | Circle _ -> true
  | _ -> false

You could also do:

let (|ACircle|ASquare|ARectangle|) = function
  | Circle _ -> ACircle
  | Square _ -> ASquare
  | Rectangle _ -> ARectangle

If you do decide to go the reflection route and performance is an issue (reflection is unbelievably slow) then use the precomputed forms:

let tagOfShape =
  Reflection.FSharpValue.PreComputeUnionTagReader typeof<Shape>

This is over 60× faster than direct reflection.

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