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This is the signature of my "transform" method:

let rec transform (f: -> 'a -> 'b) (l: 'a list): 'b list =
begin match l with
| [] -> []
| hd :: rest -> (f hd) :: (transform f rest)

The idea is that I want to find the complement of a nucleotide. G is complementary to C and A is complementary to T.

This is how I implemented my function, but I was wondering if there is possibly a more efficient way of doing this than a bunch of nested if statements.

type nucleotide = G | C | A | T
type helix = nucleotide list

let complementary_helix_f: nucleotide -> nucleotide =
fun (n: nucleotide) -> if n = G then C
                       else if n = C then G
                       else if n = A then T
                       else A
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As an aside, your transform function is usually called map, and is part of the standard library. –  Ashish Agarwal Feb 10 '13 at 16:37
It is called List.map, actually. –  Andrej Bauer Feb 11 '13 at 22:22
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1 Answer 1

up vote 3 down vote accepted

OCaml generates good code for match, so you might try the following:

let complementary_helix_f = function
| G -> C
| C -> G
| A -> T
| T -> A

It's also (maybe) a little easier to read.

If you really need to worry about speed, you should profile your code (after you get the whole thing working).

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