35

If you were to define some extension methods, properties in an assembly written in F#, and then use that assembly in C#, would you see the defined extensions in C#?

If so, that would be so cool.

48
[<System.Runtime.CompilerServices.Extension>]
module Methods =   
    [<System.Runtime.CompilerServices.Extension>]   
    let Exists(opt : string option) =                
    match opt with
       | Some _ -> true                  
       | None -> false

This method could be used in C# only by adding the namespace (using using) to the file where it will be used.

if (p2.Description.Exists()) {   ...}

Here is a link to the original blogpost.

Answering question in comments "Extension Static Methods":

namespace ExtensionFSharp 

module CollectionExtensions = 

  type System.Linq.Enumerable with   
    static member RangeChar(first:char, last:char) = 
      {first .. last}

In F# you call it like so:

open System.Linq 
open ExtensionFSharp.CollectionExtensions 

let rangeChar = Enumerable.RangeChar('a', 'z') 
printfn "Contains %i items" rangeChar.CountItems

In C# you call it like so:

using System;
using System.Collections.Generic;
using ExtensionFSharp;

    class Program
    {
        static void Main(string[] args)
        {
            var method = typeof (CollectionExtensions).GetMethod("Enumerable.RangeChar.2.static");


            var rangeChar = (IEnumerable<char>) method.Invoke(null, new object[] {'a', 'z'});
            foreach (var c in rangeChar)
            {
                Console.WriteLine(c);
            }
        }
    }

Now, give me my freaking medal!

  • Thanks, but what about instance extension properties and static methods, and static extension properties? Would they be called too? The reason I asked this is because, I know that C# only has instance extension methods. – Joan Venge Mar 31 '09 at 19:23
  • 1
    You definitely deserve a medal for the creative way with reflection and perhaps in 2009 that was the only way. However, you can now use CompiledNameAttribute for a much simpler and type-safe approach for calling F# from C#. – Abel Sep 24 '16 at 17:01
16

Despite my other answer, I did just try this with the F# CTP (on VS shell) and C# Express from my box at home (all free dev tools!), and this works:

F#

#light
namespace MyFSharp

// C# way
[<System.Runtime.CompilerServices.Extension>]
module ExtensionMethods =
    [<System.Runtime.CompilerServices.Extension>]
    let Great(s : System.String) = "Great"

    // F# way
    type System.String with
        member this.Awesome() = "Awesome"
    let example = "foo".Awesome()        

C#

using System;
using MyFSharp;  // reference the F# dll
class Program
{
    static void Main(string[] args)
    {
        var s = "foo";
        //s.Awesome(); // no
        Console.WriteLine(s.Great());  // yes
    }
}

I was not aware you could do this; nifty. Credit to @alex.

  • 1
    Thanks, but isn't this just an instance extension method? – Joan Venge Mar 31 '09 at 21:43
  • Thanks, I was more interested in other extensions of F# to show up in C#, but your other reply sort of addresses that. – Joan Venge Mar 31 '09 at 22:45
6

Per the language spec, section 10.7 "Type extensions":

Optional extension members are syntactic sugar for static members. Uses of optional extension members elaborate to calls to static members with encoded names where the object is passed as the first argument. The encoding of names is not specified in this release of F# and is not compatible with C# encodings of C# extension members

  • Do you know if there are plans to unify F#'s and C#'s ways of implementing type extensions. It would be nice if one did not need to use the extra attributes. – Joh Aug 22 '09 at 9:12
  • It doesn't look like we'll do this for the first version of F# (e.g. not in the VS2010 timeframe). – Brian Oct 6 '09 at 7:31
4

For some reason, the accepted answer suggests using reflection to get an F# type extension method. Since the compiled method name is different between versions of F#, and may be different depending on arguments, inlining and other naming related issues, I would rather suggest using CompiledNameAttribute instead, which is much easier and blends in easily with C#. Besides, no reflection (and its performance and type safety issues) necessary.

Suppose you have this in F#:

namespace Foo.Bar
module StringExt =
    type System.String with
        static member ToInteger s = System.Int64.Parse(s)

You wouldn't be able to call this directly and the compiled version would look like this (depending on whether or not there are overloads):

namespace Foo.Bar
{
    using Microsoft.FSharp.Core;
    using System;

    [CompilationMapping(SourceConstructFlags.Module)]
    public static class StringExt
    {
        public static long String.ToInteger.Static(string s) => 
            long.Parse(s);
    }
}

Unless you would use reflection, you can't access the method String.ToInteger.Static. However, a simple method decoration with the CompiledNameAttribute solves this problem:

namespace Foo.Bar
module StringExt =
    type System.String with
        [<CompiledName("ToInteger")>]
        static member ToInteger s = System.Int64.Parse(s)

Now the compiled method looks like this in Reflector, mark the change in the compiled name:

namespace Foo.Bar
{
    using Microsoft.FSharp.Core;
    using System;

    [CompilationMapping(SourceConstructFlags.Module)]
    public static class StringExt
    {
        [CompilationSourceName("ToInteger")]
        public static long ToInteger(string s) => 
            long.Parse(s);
    }
}

You can still use this method the way you are used to in F# (as String.ToInteger in this case). But more importantly, you can now use this method without reflection or other trickery from C#:

var int x = Foo.Bar.StringExt.ToInteger("123");

And of course, you can make your life simpler by adding a type alias in C# for the Foo.Bar.StringExt module:

using Ext = Foo.Bar.StringExt;
....
var int x = Ext.ToInteger("123");

This is not the same as an extension method, and decorating the static member with a System.Runtime.CompilerServices.Extension attribute gets ignored. This is merely a simple way to use type extensions from other .NET languages. If you want a "genuine" extension method that appears to act on the type, use the let-syntax from the other answers here.

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