Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

I have a function that takes a parameter of type object and needs to downcast it to an option<obj>.

member s.Bind(x : obj, rest) =
    let x = x :?> Option<obj>

If I pass (for example) an Option<string> as x, the last line throws the exception: Unable to cast object of type 'Microsoft.FSharp.Core.FSharpOption'1[System.String]' to type 'Microsoft.FSharp.Core.FSharpOption'1[System.Object]'.

Or, if I try a type test:

member s.Bind(x : obj, rest) =
   match x with
    | :? option<obj> as x1 -> ... // Do stuff with x1
    | _ -> failwith "Invalid type"

then x never matches option<obj>.

In order to make this work, I currently have to specify the type the option contains (e.g. if the function is passed an option<string>, and I downcast the parameter to that rather than option<obj>, the function works.

Is there a way I can downcast the parameter to option<obj> without specifying what type the option contains? I've tried option<_>, option<#obj>, and option<'a> with the same results.

By way of background, the parameter needs to be of type obj because I'm writing an interface for a monad, so Bind needs to bind values of different types depending on the monad that implements the interface. This particular monad is a continuation monad, so it just wants to make sure the parameter is Some(x) and not None, then pass x on to rest. (The reason I need the interface is because I'm writing a monad transformer and I need a way to tell it that its parameter monads implement bind and return.)

Update: I managed to get around this by upcasting the contents of the option before it becomes a parameter to this function, but I'm still curious to know if I can type-test or cast an object (or generic parameter) to an option without worrying about what type the option contains (assuming of course the cast is valid, i.e. the object really is an option).

share|improve this question
I've done some extra formatting on your question, you might like to check out the source (edit) button, to see some of the markdown tricks. – Benjol Jun 9 '11 at 8:51
Thank you Benjol, will do. – FSharpN00b Jun 9 '11 at 10:19
Thank you kvb, those do indeed look helpful. I spent a while digging for such information before posting this question, but of course having to use the word "option" turned up a lot of unrelated results. – FSharpN00b Jun 10 '11 at 0:37
up vote 5 down vote accepted

There isn't any nice way to solve this problem currently.

The issue is that you'd need to introduce a new generic type parameter in the pattern matching (when matching against option<'a>), but F# only allows you to define generic type parameters in function declarations. So, your only solution is to use some Reflection tricks. For example, you can define an active pattern that hides this:

let (|SomeObj|_|) =
  let ty = typedefof<option<_>>
  fun (a:obj) ->
    let aty = a.GetType()
    let v = aty.GetProperty("Value")
    if aty.IsGenericType && aty.GetGenericTypeDefinition() = ty then
      if a = null then None
      else Some(v.GetValue(a, [| |]))
    else None

This will give you None or Some containing obj for any option type:

let bind (x : obj) rest =   
    match x with    
    | SomeObj(x1) -> rest x1
    | _ -> failwith "Invalid type"

bind(Some 1) (fun n -> 10 * (n :?> int))
share|improve this answer
Thank you very much Tomas. That does work for me and it's good to know I wasn't missing something obvious. Thanks to all for the quick replies. – FSharpN00b Jun 9 '11 at 10:18
Pattern matching can be nested to test for options of specific types. Line 3 could be changed to | SomeObj(:? string as x1) -> rest x1 to test for option<string>, for example. – Daniel Jun 9 '11 at 14:23
Try match None with SomeObj x -> printfn "%A" x | _ -> printfn "Not an option". It doesn't handle None. – Daniel Jun 9 '11 at 20:07

I am not certain why you need to get your input as obj, but if your input is an Option<_>, then it is easy:

member t.Bind (x : 'a option, rest : obj option -> 'b) =
    let x = // val x : obj option
        |> Option.bind (box >> Some)
    rest x
share|improve this answer
Thank you for your answer Ramon. My input has to be type obj because I need to accept, for instance, either a string or an option<string>. If I simply use 'a for the input type, then F# complains when any type of option is passed in (i.e. it says it was expecting an 'a but got an 'a option). Using obj as the param type is the only way I've found to get around this. I'm certainly open to a better way of doing it. – FSharpN00b Jun 9 '11 at 9:30
(Ran out of room in the last reply.) Since x is specified as obj in the interface definition for Bind, I'm not able to use the code you mention, as Option.bind(box >> Some) causes the error: Type mismatch. Expecting a obj -> 'a but given a 'b option -> 'c option. The type 'obj' does not match the type ''a option'. – FSharpN00b Jun 9 '11 at 9:36
I see your problem. If you don't like upcasting contents before, or Tomas's reflection (which is probably the correct method), you can use a customized version of the F# compiler which supports more methods than just Bind in monads. This, for example, is one option:… – Ramon Snir Jun 9 '11 at 12:10
Thank you very much for the link Ramon, that looks like interesting reading and I'm looking forward to it, especially your implementation of the compiler extension. – FSharpN00b Jun 10 '11 at 0:47
This all started because I wanted to find a way to "stack" multiple monads, i.e. abstract out multiple orthogonal concerns (such as continuation and logging) from the same piece of code. As I understand it you can do this fairly easily in Haskell ( but not so easily in F#. But I think I have something basic working at this point and might try posting it as a reply here after some more testing. Thank you again. – FSharpN00b Jun 10 '11 at 0:48

To answer your last question: you can use a slight variation of Tomas' code if you need a general-purpose way to check for options without boxing values beforehand:

let (|Option|_|) value = 
  if obj.ReferenceEquals(value, null) then None
    let typ = value.GetType()
    if typ.IsGenericType && typ.GetGenericTypeDefinition() = typedefof<option<_>> then
      let opt : option<_> = (box >> unbox) value
      Some opt.Value
    else None
//val ( |Option|_| ) : 'a -> 'b option    

let getValue = function
  | Option x ->  x
  | _ -> failwith "Not an option"

let a1 : int = getValue (Some 42)
let a2 : string = getValue (Some "foo")
let a3 : string = getValue (Some 42) //InvalidCastException
let a4 : int = getValue 42 //Failure("Not an option")
share|improve this answer
Thank you Daniel, it's good to have code that shows how to handle some of these pattern matches that, as Tomas says, otherwise only work up at the function declaration level. – FSharpN00b Jun 11 '11 at 1:15
Unfortunately, the above code no longer compiles in F# 3.0: Active pattern '|Option|_|' has a result type containing type variables that are not determined by the input. The common cause is a when a result case is not mentioned, e.g. 'let (|A|B|) (x:int) = A x'. This can be fixed with a type constraint, e.g. 'let (|A|B|) (x:int) : Choice<int,unit> = A x' – halcwb Apr 17 '14 at 13:07

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.