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I keep practicing my F# skills on Project Euler. While doing problem 19 (a drastic anticlimax after the cool problem 18) I found myself in need of performing a modulo 7 operation on a list of numbers. I tried this:

List.map ((%) 7)

And ended up with the wrong list of numbers. That's because List.map binds the second argument, so instead of calculation n%7 it ended up calculating 7%n . Is there a way to make List.map bind the first argument, or a standard way of flipping the two arguments?

I know I can use a fun n->n%7 instead of (%) 7, but I was hoping for a shorter solution.

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A side note: Problem 19 can be beautifully solved in pure functional manner using very limited math - just + 1. To see how you may check this F# snippet. –  Gene Belitski Mar 20 '12 at 13:33
It's about as long as the solution to problem 18... –  zmbq Mar 20 '12 at 14:10
(editorial) "I know I can use a fun n->n%7 instead of (%) 7, but I was hoping for a shorter solution." This is a disease that seems common among Haskellers, the desire to find esoteric language features or library functions that enable you to shave three characters off your code. I cannot fathom this mindset. –  Brian Mar 20 '12 at 18:39
I guess I should be flattered because you called ma a Haskeller... –  zmbq Mar 20 '12 at 20:03

3 Answers 3

up vote 2 down vote accepted

You can define flip for this purpose:

namespace Microsoft.FSharp.Core
module Operators =
    let flip f x y = f y x

This is a rather common way of doing this in functional programming languages. For example, Haskell also has a flip function in its Prelude.

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I was hoping something like this was already defined. Thanks, I added it. Turns out it's too early to accept an answer. I'll accept later. –  zmbq Mar 20 '12 at 12:26
You ought to make it inline as well. –  ildjarn Mar 20 '12 at 18:48

Others already pointed out that this can be done by defining a flip function from Haskell. However, I would recommend writing the code explicitly using lambda function or using list comprehensions (which is shorter and avoids explicit lambdas):

inputs |> List.map (fun n-> n % 7)
[ for n in inputs -> n % 7 ]

It might be a good idea to define a helper function moduloBy that behaves like % with flipped arguments:

let moduloBy n input = input % n
inputs |> List.map (moduloBy 7)

The reason is readability. Although Euler problems are toy examples, it is important to write code that is easy to understand. This is even more important in F# where it is fairly easy to write code that is really hard to understand. I think you'll agree that reading the above snippets is easier than reading (and, the solution using flip isn't significantly shorter either):

inputs |> List.map ((flip (%)) 7)
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One of the few drawbacks of FP--makes it possible to write some truly hard to understand code. –  Onorio Catenacci Mar 20 '12 at 13:05
Once you get used to flip, it should be clearer than fun n->n%7. It's certainly takes less getting used to than fold... –  zmbq Mar 20 '12 at 14:09
@zmbq I don't think that point-free style can be clearer than explicit lambda, with the exception of simple partial application or maybe function composition. If you're a skilled functional programmer working in a team of Haskell programmers, then it will be fine, but otherwise I'd prefer another option. –  Tomas Petricek Mar 20 '12 at 16:40

The flip function:

let inline flip f a b = f b a

is usually used for this task. Now you can pass flip (%) 7 directly to List.map.

This is called point-free style which is popular in Haskell but not so common in F# community. The problem is that it could make programs difficult to read and hard to maintain in many cases.

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