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The typical List.map function in OCaml is pretty simple, it takes a function and a list, and applies the function to each items of the list recursively. I now need to convert List.map into a tail recursive function, how can this be done? What should the accumulator accumulate?

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  • 3
    This sounds like homework (to me). So maybe you should start by suggesting how you think it could work. Dec 9, 2014 at 19:10
  • This is in fact not homework, but some old exam I'm studying from. But I do have some ideas, such as pattern match the list, if it's empty then return the accumulator (standard thing to do for tail recursion), if it's in the form hd::tl then pass tl to the next function and append (f hd) to the accumulator
    – DennisKRQ
    Dec 9, 2014 at 19:30
  • This sounds great to me. If you do this, how do you handle the base case (when your input is empty). What does the accumulator look like at that point? Dec 9, 2014 at 19:34

2 Answers 2

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Arguably the simplest approach is to implement map in terms of an tail-recursive auxiliary function map_aux that traverses the list while accumulating an already mapped prefix:

let map f l =
  let rec map_aux acc = function
    | [] -> acc
    | x :: xs -> map_aux (acc @ [f x]) xs
  in
  map_aux [] l

However, as the list-catenation operator @ takes time linear in the length of its first argument, this yields a quadratic-time traversal. Moreover, list catenation is itself not tail-recursive.

Hence, we want to avoid the use of @. This solution does not use list catenation, but accumulates by prepending newly mapped arguments to the accumulator:

let map f l =
  let rec map_aux acc = function
    | [] -> List.rev acc
    | x :: xs -> map_aux (f x :: acc) xs
  in
  map_aux [] l

To restore the mapped elements in their right order, we then simply have to reverse the accumulator in the case for the empty list. Note that List.rev is tail-recursive.

This approach, finally, avoids both recursive list-catenation and list reversal by accumulating a so-called difference list:

let map f l =
  let rec map_aux acc = function
    | [] -> acc []
    | x :: xs -> map_aux (fun ys -> acc (f x :: ys)) xs
  in
  map_aux (fun ys -> ys) l

This idea is to have the accumulated prefix list be represented by a function acc that, when applied to an argument list ys, returns the prefix list prepended to ys. Hence, as an initial value of the accumulator we have fun ys -> ys, representing an empty prefix, and in the case for [] we simply apply acc to [] to obtain the mapped prefix.

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    How is the memory usage for the difference list method? Passing around those big closure-of-closure-of-closures sounds like a bit more trouble than just a list …
    – unhammer
    Dec 10, 2014 at 10:05
  • 5
    @unhammer: From what I have seen, the difference-list approach is typically less efficient than the list-reversal approach. Indeed: due to excessive closure creation. Dec 10, 2014 at 11:01
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    Isn't that "different list" continuation passing style?
    – J D
    Jun 13, 2016 at 18:56
  • 2
    Two years later: yes, @JonHarrop, it is. Jan 4, 2019 at 14:55
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(I'll take your word that this isn't homework.)

The answer is one of the classic patterns in functional programming, the cons/reverse idiom. First you cons up your list in reverse order, which is easy to do in a tail recursive way. At the end, you reverse the list. Reversing is also a tail-recursive operation, so that doesn't pose a problem for stack safety.

The downside is extra allocation and somewhat more clumsy code.

let map f list =
  let rec loop acc = function
    | [] -> List.rev acc
    | x::xs -> loop (f x::acc) xs in
  loop [] list

A good exercise is to (re)implement a bunch of the 'standard' list functions (append, rev_append, fold_left, fold_right, filter, forall, etc), using this style to make them tail-recursive where necessary.

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    I find the question extremely interesting and the answers valuable and instructive. As such, it's all valuable in and of itself regardless of any external circumstances. Or, in other words, who cares whether it's homework or not?!
    – Tom
    Dec 26, 2018 at 1:24

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