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Let's say I defined in F# the following two types:

type Dog = { DogName:string; Age:int }
type Cat = { CatName:string; Age:int }

I was expecting the following method to work for both cats and dogs:

let isOld x = x.Age >= 65

Actually, what seems to happen is that isOld will only accept cats:

let dog = { DogName = "Jackie"; Age = 4 }
let cat = { CatName = "Micky"; Age = 80 }

let isDogOld = isOld dog //error

My hopes were that F# would be smart enough to define some kind of "virtual" interface X for both cats and dogs so that isOld would accept a X as argument, instead of a Cat.

This isn't something that F# will in any circumstance handle, am I right? It seems like F# type inference system would not do anything more than what the C# does with var typed variables.

share|improve this question
Where does the fish come in? – digitxp Aug 15 '11 at 14:16
Out of nowhere! It was a typo. – devoured elysium Aug 15 '11 at 14:18
You're asking for a lot from the compiler, but Google Go does what you want although the function signature wouldn't be implicit, the type signature would. – David Grenier Aug 17 '11 at 17:32
What you are asking for is structural typing. – Ingo Feb 10 '14 at 9:40
up vote 10 down vote accepted

You can define an inline function with a member constraint, or go the classic route and use an interface (which would probably be preferred in this case).

let inline isOld (x:^T) = (^T : (member Age : int) x) >= 65


I just remembered this won't work for record types. Technically their members are fields, although you can amend them with members using with member .... You would have to do that to satisfy an interface anyway.

For reference, here's how you would implement an interface with a record type:

type IAging =
  abstract Age : int

type Dog = 
  { DogName : string
    Age : int } 
  interface IAging with
    member this.Age = //could also be `this.Age = this.Age`
      let { DogName = _; Age = age } = this
share|improve this answer

Usually what is meant by F# duck-typing is a compile-time polymorphism. Syntax is a little weirder, but you should be able to work it out from the following example -

module DuckTyping

// Demonstrates F#'s compile-time duck-typing.

type RedDuck =
    { Name : string }
    member this.Quack () = "Red"

type BlueDuck =
    { Name : string }
    member this.Quack () = "Blue"

let inline name this =
    (^a : (member Name : string) this)

let inline quack this =
    (^a : (member Quack : unit -> string) this)

let howard = name { RedDuck.Name = "Howard" }
let bob = name { BlueDuck.Name = "Bob" }
let red = quack { RedDuck.Name = "Jim" }
let blue = quack { BlueDuck.Name = "Fred" }

Remember, this polymorphism only works at compile-time!

share|improve this answer

FSharp.Interop.Dynamic (on nuget) provides a DLR based implementation of the dynamic operator (real dynamic duck typing)

let isOld x = x?Age >= 65
share|improve this answer
It seems to rely on the run-time to do that. What I was looking for at first was a static way to infer this. – devoured elysium Aug 15 '11 at 14:46

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