I'd like to initialize a vector of zeros with a specific size that is determined at runtime.

In C, it would be like:

int main(void)
    uint size = get_uchar();
    int A[size][size];
    memset(A, 0, size*size*sizeof(int));

Here's the helper function that I tried writing in Rust, but I think the slicing syntax 0..size is offending the compiler. Besides, it looks more verbose than the C version. Is there a more idiomatic way to do this?

fn zeros(size: u32) -> Vec<i32> {
    let mut zero_vec: Vec<i32> = Vec::with_capacity(size);
    for i in 0..size {
    return zero_vec;

I swear that the old docs used to explain a from_elem() method here and none of the permutations of the [0 ; size] notation seem to work

I'd like to stick this into a substring search algorithm ultimately:

pub fn kmp(text: &str, pattern: &str) -> i64 {
    let mut shifts = zeros(pattern.len()+1);

To initialize a vector of zeros (or any other constant value) of a given length, you can use the vec! macro:

let len = 10;
let zero_vec = vec![0; len];

That said, your function worked for me after just a couple syntax fixes:

fn zeros(size: u32) -> Vec<i32> {
    let mut zero_vec: Vec<i32> = Vec::with_capacity(size as usize);
    for i in 0..size {
    return zero_vec;

uint no longer exists in Rust 1.0, size needed to be cast as usize, and the types for the vectors needed to match (changed let mut zero_vec: Vec<i64> to let mut zero_vec: Vec<i32>.

  • 4
    I updated Rust to 1.0 and let mut shifts = vec![0; pattern.len()]; works directly now... Oops. Before this I had an error: expected :, found .` ../search.rs:17 zero_vec.push(0);` which made no sense.
    – elleciel
    Apr 9 '15 at 6:12
  • 3
    I've been there myself. When I was very first starting out it was very hard to know whether I was using syntax incorrectly, or the syntax had just changed since the last time I updated or since the doc I was reading was updated. I'm really glad we have the beta now and way excited for 1.0. Btw are you using rustup.sh to update Rust? If so you might want to get the latest version of the script, which will grab the beta now instead of nightlies. Apr 9 '15 at 6:16
  • 2
    But that's why I like most about the language - the community support is wonderful, no downvotes for my noob question. :) Yep I curl'ed the latest rustup.sh. Thanks so much! Now I just have to figure out index access to string elements...
    – elleciel
    Apr 9 '15 at 6:18
  • Of course, you may ask yourself why you would have to lookup answers for so basic a question in the first place. This is more intuitive in most other languages, e.g. those that default to zero when an array / vector is initialized. Jan 17 '19 at 12:52
  • A very noob question but when I did this I ended up with a 2 element vector of 0 and 3 in which the size I was trying to initialize it to was 3. Is there some criteria that would cause the initialization to behavior differently?
    – Tedford
    Jun 27 '20 at 19:12

Here is another way, much shorter. It works with Rust 1.0:

fn zeros(size: u32) -> Vec<i32> {
    vec![0; size as usize]

fn main() {
    let vec = zeros(10);
    for i in vec.iter() {
        println!("{}", i)
  • 5
    How does this differ from the last part of @anders answer?
    – Shepmaster
    Apr 9 '15 at 17:17

You can also use the iter::repeat function, which I suppose is "more idiomatic" (and just looks nicer to me):

use std::iter;

fn zeros(size: usize) -> Vec<i32> {
  • Is that considered more idiomatic than using vec! directly? Would that run faster? Apr 9 '15 at 15:49
  • @anders No idea; I agree that the vec! version looks nice as well. I suppose it couldn't hurt to try some benchmarks, which I might do when I get home.
    – tckmn
    Apr 9 '15 at 16:52
  • Yeah you've got me wondering now what the implementation of vec! is. I'll see if I can find some time to dig into this a little. Apr 9 '15 at 16:54
  • 9
    Using the vec macro is considered more idiomatic, it was added specifically because people did not want to do this. Apr 10 '15 at 13:48
  • 1
    Note: ::<Vec<i32>> is superfluous, type inference can figure it out automatically since it has to be the type of the expression, so you can just use .collect() here. Apr 10 '15 at 18:13

You may use resize

let mut v = Vec::new();
let l = 42;
v.resize(l, 0u32);
  • 9
    vec! is more efficient when allocating with 0 because it uses RawVec::with_capacity_zeroed(), while .resize() calls .extend_with() which uses a more complex value generator. For other values both use .extend_with() so the benefit is roughly the same.
    – Jocelyn
    Mar 29 '18 at 11:55

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