If I have an list of numbers [1, 2, 3, 4, 5] and I wanted to generate a cumulative sum list, in Haskell I would do the following:

> let xs = [1, 2, 3, 4, 5]

> scanl (+) 0 xs

Trying to get this same behaviour seems unnecessarily troublesome in Rust.

let xs = [1, 2, 3, 4, 5];

let vs = vec![0]
    .chain(xs.iter().scan(0, |acc, x| {
        *acc += x;

The awkward scan behaviour of having to mutate the accumulator can be explained by a lack of GC. But, scan also does not include the initial accumulator value, necessitating the need to manually prepend a 0 at the front. This itself was troublesome, as I needed to prepend it with chain and [0].iter() didn't work, nor did [0].into_iter() and vec![0].iter(). It needed vec![0].into_iter().

I feel like I must be doing something wrong here. But, what? Is there a better way to generate a cumulative sum? Is it back to a for loop?

  • 3
    Seems that Rust's scan isn't quite the equivalent to Haskell's scanl; they had to ammend the documentation since it confused people – typedfern Jun 14 '19 at 5:38
  • "The awkward scan behaviour of having to mutate the accumulator can be explained by a lack of GC. " no – Stargateur Jun 14 '19 at 8:28
  • 1
    @Stargateur No? What's the reason then? The way I see it, if Rust wanted to implement Haskell's scanl' behavior, the closure would have to clone it's value because the value needs to go back into the accumulator as well as get returned in a list, and cloning would affect performance. So, the decision of whether to clone was pushed to the user of the API. For numbers, there's no need, just some awkwardness of *acc += x; Some(*acc). – Listerone Jun 14 '19 at 12:42
  • FWIW I have often found it quite annoying that Haskell's scanl has that extra element on the front. In almost all situations where scanl is actually useful I've found myself calling drop 1 on the result. – Daniel Wagner Jun 14 '19 at 15:31
  • @DanielWagner I can appreciate that perspective. I haven’t had to simply because the formulas I’m implementing use the initial value. – Listerone Jun 14 '19 at 16:46

I would do that with successors:

fn main() {
    let mut xs = vec![1, 2, 3, 4, 5].into_iter();
    let vs = std::iter::successors(Some(0), |acc| xs.next().map(|n| n + *acc));

    assert_eq!(vs.collect::<Vec<_>>(), [0, 1, 3, 6, 10, 15]);
  • That's not as concise and pure as Haskell, tho :P – Boiethios Jun 14 '19 at 7:57
  • Thanks. It's not an issue of being concise. It's the semantics. I rather like this solution, actually. – Listerone Jun 14 '19 at 15:05
  • @Listerone successors is maybe the best iterator-related feature in the std lib. – Boiethios Jun 14 '19 at 15:09
  • 1
    There is no need to put this into a vector, and then turn it into an iterator. Just use the range syntax. playground – ObliqueMotion Jun 14 '19 at 17:30

Edit :

Despite the old version of this answer mimics the behavior of scanl's intermediate form, the execution wasn't lazy. Updated the generic implementation from my old answer with @French Boiethios's answer.

This is the implementation :

fn scanl<'u, T, F>(op: F, initial: T, list: &'u [T]) -> impl Iterator<Item = T> + 'u
    F: Fn(&T, &T) -> T + 'u,
    let mut iter = list.iter();
    std::iter::successors(Some(initial), move |acc| iter.next().map(|n| op(n, acc)))
//scanl(|x, y| x + y, 0, &[1, 2, 3, 4, 5]).collect::<Vec<_>>()


It can be easily implemented by a fold

For an Add operation:

let result = xs.iter().fold(vec![0], |mut acc, val| {
    acc.push(val + acc.last().unwrap());


Here is the generic version :

fn scanl<T, F>(op: F, initial: T, list: &[T]) -> Vec<T>
    F: Fn(&T, &T) -> T,
    let mut acc = Vec::with_capacity(list.len());

    list.iter().fold(acc, |mut acc, val| {
        acc.push(op(val, acc.last().unwrap()));
//scanl(|x, y| x + y, 0, &[1, 2, 3, 4, 5])


  • instead of res[res.len() - 1] one could use res.last().unwrap(), which makes the intention more clear imho – hellow Jun 14 '19 at 6:06
  • @hellow thanks, yes first i wrote the code like that but i just didn't want to use unwrap in answer even it is safe in here. but like you said it can makes more clear the intention, i'll update – Ömer Erden Jun 14 '19 at 6:21
  • Thanks. Using fold with a vector certainly works, but circumvents the whole purpose of the scan function. – Listerone Jun 14 '19 at 13:32
  • @Listerone Yes this approach mimics the scan's intermediate form but not in a lazily way.It would be a better composition integrating successors to my generic approach. – Ömer Erden Jun 14 '19 at 21:59

The awkward scan behaviour of having to mutate the accumulator can be explained by a lack of GC.

There is nothing preventing Rust from doing what you ask.

Example of possible implementation:

pub struct Mapscan<I, A, F> {
    accu: Option<A>,
    iter: I,
    f: F,

impl<I, A, F> Mapscan<I, A, F> {
    pub fn new(iter: I, accu: Option<A>, f: F) -> Self {
        Self { iter, accu, f }

impl<I, A, F> Iterator for Mapscan<I, A, F>
    I: Iterator,
    F: FnMut(&A, I::Item) -> Option<A>,
    type Item = A;

    fn next(&mut self) -> Option<Self::Item> {
        self.accu.take().map(|accu| {
            self.accu = self.iter.next().and_then(|item| (self.f)(&accu, item));

trait IterPlus: Iterator {
    fn map_scan<A, F>(self, accu: Option<A>, f: F) -> Mapscan<Self, A, F>
        Self: Sized,
        F: FnMut(&A, Self::Item) -> Option<A>,
        Mapscan::new(self, accu, f)

impl<T: ?Sized> IterPlus for T where T: Iterator {}

fn main() {
    let xs = [1, 2, 3, 4, 5];

    let vs = xs
        .map_scan(Some(0), |acc, x| Some(acc + x));

    assert_eq!(vs.collect::<Vec<_>>(), [0, 1, 3, 6, 10, 15]);

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