I came across some output I don't understand using Vec::get. Here's the code:

fn main() {
    let command = [('G', 'H'), ('H', '5')];

    for i in 0..3 {
        print!(" {} ", i);
        println!("{:?}", command.get(i));

the output is

 0 Some(('G', 'H'))
 1 Some(('H', '5'))
 2 None

I've dabbled in Haskell before, and by that I mean looked at a tutorial site for 10 minutes and ran back to C++, but I remember reading something about Some and None for Haskell. I was surprised to see this here in Rust. Could someone explain why .get() returns Some or None?

5 Answers 5


The signature of get (for slices, not Vec, since you're using an array/slice) is

fn get(&self, index: usize) -> Option<&T>

That is, it returns an Option, which is an enum defined like

pub enum Option<T> {

None and Some are the variants of the enum, that is, a value with type Option<T> can either be a None, or it can be a Some containing a value of type T. You can create the Option enum using the variants as well:

let foo = Some(42);
let bar = None;

This is the same as the core data Maybe a = Nothing | Just a type in Haskell; both represent an optional value, it's either there (Some/Just), or it's not (None/Nothing).

These types are often used to represent failure when there's only one possibility for why something failed, for example, .get uses Option to give type-safe bounds-checked array access: it returns None (i.e. no data) when the index is out of bounds, otherwise it returns a Some containing the requested pointer.

See also:


Think of Some and None as the canonical "safe" way of working around the fact that the Rust language does not support "safe" use of NULL pointers. Since the length of your Vec is 3, and you have only specified two pairs, the third pair is effectively NULL; instead of returning NULL, it returns None.

Rust provides safety guarantees by forcing us at compile-time, via Some / None, to always deal with the possibility of None being returned.

  • 4
    the Rust language does not support (unsafe) NULL pointers — that's not completely true, but the spirit of your answer is correct.
    – Shepmaster
    Commented Mar 29, 2016 at 18:53
  • Thanks; I can see that they would be necessary for interfacing with C. Commented Mar 29, 2016 at 19:40
  • 1
    Not just that, but also for the times when you need unsafe. Data structures will often use raw pointers internally. Commented Mar 30, 2016 at 0:07
  • Another good point. I've edited my answer to make it more accurate. Commented Mar 30, 2016 at 13:44
  • To go back to the world of Haskell, would "Some | None" in Rust be a monad like it is in Haskell? Commented Oct 19, 2022 at 1:04

command is not a vector (type Vec<T>), it is a fixed-size array (type [(char, char); 2] in your case), and arrays are automatically borrowed into slices (views into arrays), hence you can use all methods defined on slices, including get:

Returns the element of a slice at the given index, or None if the index is out of bounds.

The behavior is pretty obvious: when given index is valid, it returns Some with the element under that index, otherwise it returns None.

There is another way to access elements in a slice - the indexing operator, which should be familiar to you:

let nums = [1, 2, 3];
let x = nums[1];

It returns the element of the slice directly, but it will fail the current task if the index is out of bounds:

fn main() {
    let x = [1, 2];
    for i in 0..3 {
        println!("{}", x[i]);

This program fails:

% ./main2
task '<main>' failed at 'index out of bounds: the len is 2 but the index is 2', main2.rs:4

The get() method is needed for convenience; it saves you from checking in advance if the given index is valid.

If you don't know what Some and None really are and why they are needed in general, you should read the official tutorial, it explains it because it is very basic concept.


Option enum has 2 variants.

1- None is used to indicate failure or no value

2- Some which is tuple-struct that wraps the value

If you need to write this structure in OOB, for example in typescript, you would write like this. This would make it easier to visualize the situation

  • Define Option interface as derived class

    interface Option<T = any> {
      // pass all the methods here 
      // unwrap is used to access the wrapped value
      unwrap(): T;
  • write Some class which inherits from Option

Some class returns a value

class Some<T> implements Option<T> {
  private value: T;
  constructor(v: T) {
    this.value = v;
  unwrap(): T {
    return this.value
  • Write None class which also inherits from Option

None class returns null

class None<T> implements Option<T> {
 // you do not need constructor here     
  unwrap(): T {
    return null as T;
  • 2
    That's a really interesting example, thanks!
    – silicakes
    Commented Jul 9, 2023 at 22:34

The other answers discussing the return type for get() being option enum are accurate, but I think what is helpful is how to remove the some from the prints. To do that a quick way is to just call the unwrap on the option, although this is not production recommended. For a discussion on option take a look at the rust book here.

Updated with unwrap code in playground (below)

fn main() {
    let command = [('G', 'H'), ('H', '5')];

    for i in 0..3 {
        print!(" {} ", i);
        println!("{:?}", command.get(i).unwrap());

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