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I have a bunch of F# functions that implement different algorithms for the same input, kind of like the Strategy pattern. To pick the right strategy, I want to pattern match on the input argument and return the function as a value :

let equalStrategy points : seq<double> =
    ...

let multiplyStrategy factor (points: seq<double>) =
    ...

let getStrategy relationship = 
    match relationship with
        | "="  ->  equalStrategy
        | "*5" ->  multiplyStrategy 5.0
        | _    -> raise (new System.NotImplementedException(" relationship not handled"))

Now I want to write some unit tests to make sure that I return the right strategy, so I tried something like this in nUnit :

    [<TestCase("=")>]
    [<Test>]
    member self.getEqualstrategy( relationship:string ) =            
        let strategy = getStrategy relationship

        Assert.AreEqual( strategy, equalStrategy )

Now I think the code is correct and will do what I want, but the assertion fails because functions don't seem to have an equality operation defined on them. so my questions are :

(a) is there a way to compare 2 functions to see if they are the same, i.e. let isFoo bar = foo == bar, that I can use in an nUnit assertion?

or

(b) is there another unit testing framework that will do this assertion for me in F#?

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3 Answers 3

up vote 10 down vote accepted

Testing whether an F# function returned by your getStrategy is the same function as one of the funcions you defined is also essentially impossible.

To give some details - the F# compiler generates a class that inherits from FSharpFunc when you return a function as a value. More importantly, it generates a new class each time you create a function value, so you cannot compare the types of the classes.

The structure of the generated classes is something like this:

class getStrategy@7 : FSharpFunc<IEnumerable<double>, IEnumerable<double>> {
  public override IEnumerable<double> Invoke(IEnumerable<double> points) {
    // Calls the function that you're returning from 'getStrategy'
    return Test.equalStrategy(points);
  }
}

// Later - in the body of 'getStrategy':
return new getStrategy@7(); // Returns a new instance of the single-purpose class

In principle, you could use Reflection to look inside the Invoke method and find which function is called from there, but that's not going to be a reliable solution.

In practice - I think you should probably use some other simpler test to check whether the getStrategy function returned the right algorithm. If you run the returned strategy on a couple of sample inputs, that should be enough to verify that the returned algorithm is the right one and you won't be relying on implementation details (such as whether the getStrategy function just returns a named function or whether it returns a new lambda function with the same behaviour.

Alternatively, you could wrap functions in Func<_, _> delegates and use the same approach that would work in C#. However, I think that checking whether getStrategy returns a particular reference is a too detailed test that just restricts your implementation.

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Hi Thomas, thanks for that. Interesting that if I call my getStrategy from a C# unit test with a Func type I can get this test to work. Appreciate the detailed response, thanks. –  Aidan Nov 22 '11 at 13:43
    
You can create a delegate value by writing let foo = System.Func<_, _>(fun a -> a + a) and then foo = foo returns true. To adapt the getStrategy, you'd have to return a delegate instance and then compare it with the same delegate instance (so creating a new delegate that points to the same function won't work). If you got that working in C#, can you post an example? –  Tomas Petricek Nov 22 '11 at 14:42
    
@Aidan What was your solution to this? Did you get your test working in C#? –  Paul Nikonowicz Apr 4 '12 at 21:14

Functions doesn't have equality comparer:

You will have error: The type '('a -> 'a)' does not support the 'equality' constraint because it is a function type

There is a good post here

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Sorry, I should have said in my question that this was the error I was getting. My assertion fails because functions don't have an equality comparer - I am asking if there is a way to get round tis. –  Aidan Nov 22 '11 at 10:54
    
Better would be to compare result of an equation equalStrategy ([5.1] |> Seq.ofList()) function, or make you own custom comparer with comparison through reflection –  Vitaliy Nov 22 '11 at 11:10

It would be very difficult for the F# compiler to prove formally that two functions always have the same output (given the same input). If that was possible, you could use F# to prove mathematical theorems quite trivially.

As the next best thing, for pure functions, you can verify that two functions have the same output for a large enough sample of different inputs. Tools like fscheck can help you automate this type of test. I have not used it, but I've used scalacheck that is based on the same idea (both are ports from Haskell's QuickCheck)

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Sorry, I am being unclear. I am not checking that two different functions give the same output, I am trying to check that the function returned by my pattern match is the function I want, given the input to the pattern match. So, in C# I could check if two Func<...> objects were the same, I am looking for an equivalent in F#. –  Aidan Nov 22 '11 at 11:36

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