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, 2018 at 14:12

3 Answers 3


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


t1 is System.Collections.Generic.List`1[[System.Object, mscorlib, Version=, 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.


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> () = 

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.


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]

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