11

Can someone clarify when to use typedefof<'T> vs. typeof<'T>?

Both typedefof<System.String> and typeof<System.String> return the same Type instance.

However, they return different instances and different information for System.Collections.Generic.List<_>.

Can I think of typedefof as a new and improved typeof? Should I just switch to always using typedefof? Or is it more subtle than that?

  • 3
    As the documentation indicates, typeof returns the actual type indicated, while typedefof<'T> returns the underlying generic type of 'T if 'T is generic. So I don't think it's a matter of always using one or the other; it's a matter of which you need in the current situation. – JLRishe Jun 13 '18 at 14:12
9

This ought to illustrate the difference. When you use typeof, the compiler infers type arguments and constructs a concrete type. In this case, the inferred type argument is System.Object:

let t1 = typeof<System.Collections.Generic.List<_>>
let t2 = typedefof<System.Collections.Generic.List<_>>

printfn "t1 is %s" t1.FullName
printfn "t2 is %s" t2.FullName

Output:

t1 is System.Collections.Generic.List`1[[System.Object, mscorlib, Version=4.0.0.0, Culture=neutral, PublicKeyToken=b77a5c561934e089]]
t2 is System.Collections.Generic.List`1

Because typeof can only return a constructed type, typedefof is necessary if you need a type object representing a generic type definition.

9

typeof is used when you want to get the System.Type object for a given type. typedefof is used when you want to get the System.Type that represents the type definition for a generic type. As an example that uses both, suppose you had a type called Generic<'a>, and you wanted to create a function that returned the System.Type object for the Generic of any given type.

type Generic<'a> = Value of 'a

let makeGenericOf<'a> () = 
    typedefof<Generic<_>>.MakeGenericType(typeof<'a>)

Here, you would use the typedefof function to get the type defintion, and typeof to get the type of 'a for constructing the generic Generic<'a> Type.

2

I really appreciate the answers from phoog, Aaron, and JLRishe. Here is what I have learned, based on their answers and my own experimentation.

There are two Type instances associated with generics.

  1. There is a Type associated with a generic that has specific type parameters. For example, there is a Type associated with List<int> and a different Type associated with List<string>. This is what you get when you use typeof<>.

    > typeof<List<string>>.ToString();;
    val it : string = "Microsoft.FSharp.Collections.FSharpList`1[System.String]"
    
    > typeof<List<int>>.ToString();;
    val it : string = "Microsoft.FSharp.Collections.FSharpList`1[System.Int32]"
    
  2. There is a Type associated with the generic type definition itself. For example, there is a single Type associated with List<'T>, which is the same for List<int>, List<string>, and List<_>. This is what you get when you use typedefof<>.

    > typedefof<List<string>>.ToString();;
    val it : string = "Microsoft.FSharp.Collections.FSharpList`1[T]"
    
    > typedefof<List<int>>.ToString();;
    val it : string = "Microsoft.FSharp.Collections.FSharpList`1[T]"
    
    > typedefof<List<_>>.ToString();;
    val it : string = "Microsoft.FSharp.Collections.FSharpList`1[T]" 
    

By the way, the Type class has an instance method to GetGenericTypeDefinition(). That means, the following two return the same instance:

    > Object.ReferenceEquals(typeof<List<int>>.GetGenericTypeDefinition(), typedefof<List<int>>);;
    val it : bool = true        

What happens if you call typeof<List<_>>? You get back the Type definition for List<Object>, as phoog mentioned.

> typeof<List<_>>.ToString();;
val it : string = "Microsoft.FSharp.Collections.FSharpList`1[System.Object]"

This is all helpful to understand. For example, suppose I need to know if an object is a generic list (of any type).

// does not give me the answer I naively expected
> o.GetType() = typeof<List<_>>;; 
val it : bool = false

// does this reference point to a List<'T>?
> o.GetType().IsGenericType && o.GetType().GetGenericTypeDefinition() = typedefof<List<_>>;;
val it : bool = true

Additionally, if you want to late-bound instantiate a generic type, you can use the MakeGenericType(...) method which Aaron mentioned.

> let myList = typedefof<List<_>>.MakeGenericType(typeof<int>);;
val myList : Type = Microsoft.FSharp.Collections.FSharpList`1[System.Int32]

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

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