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Saturday, August 13, 2022

IntoIterator and the for ... in Syntax in Rust

In Rust Iterator pattern with iter(), into_iter() and iter_mut() methods I explained why attempting to use a variable holding a Vec after iterating through it using the for … in syntax leads to a compilation error.

The post explains why the following code won't compile:

fn main() {
   let some_ints = vec![1,2,3,4,5];
  // iterating through a vec
   for i in some_ints {
       dbg!(i);
   }
// attempting to use the vec will 
// lead to compile error after the iteration
   dbg!(some_ints);
}

I then showed 3 methods that can be called before iterating using the for … in and how 2 of these methods allow the Vec to still be used even after iteration.

These 3 methods are into_iter(), iter(), and iter_mut(). That is:

#[test]
fn into_iter_demo() {
    // the .into_iter() method creates an iterator, v1_iter 
    // which takes ownership of the values being iterated.
    let mut v1_iter = v1.into_iter();

    assert_eq!(v1_iter.next(), Some(1));
    assert_eq!(v1_iter.next(), Some(2));
    assert_eq!(v1_iter.next(), Some(3));
    assert_eq!(v1_iter.next(), None);

    // If the line below is uncommented, the code won't compile anymore
    // this is because, after the iteration, v1 can no longer be used 
    // since the iteration moved ownership
    //dbg!(v1);
}

The two other methods that allow the Vec to still be used after iteration via for … in are:

#[test]
fn iter_demo() {
    let v1 = vec![1, 2, 3];
    // the .iter() method creates an iterator, 
    // v1_iter which borrows value immutably 
    let mut v1_iter = v1.iter();

    // iter() returns an iterator of slices.
    assert_eq!(v1_iter.next(), Some(&1));
    assert_eq!(v1_iter.next(), Some(&2));
    assert_eq!(v1_iter.next(), Some(&3));
    assert_eq!(v1_iter.next(), None);
   // because values were borrowed immutably, 
   // it is still possible to use 
   // the vec after iteration is done
    dbg!(v1);
}

And

#[test]
fn iter_mut_demo() {
    let mut v1 = vec![1, 2, 3];

    // the .iter_mut() method creates an iterator, 
    // v1_iter which borrows value and can mutate it. 
    let mut v1_iter = v1.iter_mut();

    // access the first item and multiple it by 2
    let item1 = v1_iter.next().unwrap();
    *item1 = *item1 * 2;

    // access the second item and multiple it by 2
    let item2 = v1_iter.next().unwrap();
    *item2 = *item2 * 2;

    // access the third item and multiple it by 2
    let item3 = v1_iter.next().unwrap();
    *item3 = *item3 * 2;

    // end of the iteration
    assert_eq!(v1_iter.next(), None);

    // this will print out [2,4,6]
    dbg!(v1);
}

In this post, we are going to dive a little bit deeper into understanding some of the machinery that makes the above work.

We start again by talking about the Iterator trait.

Wednesday, August 10, 2022

Rust Iterator pattern with iter(), into_iter() and iter_mut() methods

Let's create a vec of integers, iterate through and print the individual values, and then afterward, print out the whole vec. Here is the code:

fn main() {
   let some_ints = vec![1,2,3,4,5];
   for i in some_ints {
       dbg!(i);
   }

   dbg!(some_ints);
}

Simple right? Well nope. Trying to compile the above code will fail with the following errors:

error[E0382]: use of moved value: `some_ints`
   --> src/main.rs:9:9
    |
4   |    let some_ints = vec![1,2,3,4,5];
    |        --------- move occurs because `some_ints` has type `Vec<i32>`, 
    which does not implement the `Copy` trait
5   |    for i in some_ints {
    |             --------- `some_ints` moved due to this implicit call to `.into_iter()`
...
9   |    dbg!(some_ints);
    |         ^^^^^^^^^ value used here after move
    |
note: this function takes ownership of the receiver `self`, which moves `some_ints`
help: consider iterating over a slice of the `Vec<i32>`'s 
content to avoid moving into the `for` loop
    |
5   |    for i in &some_ints {
    |             +

For more information about this error, try `rustc --explain E0382`

Why is this the case? Why is the borrow checker preventing the use of a vec after a simple iteration?

Well, the answer to that question lies in Rust's implementation of the Iterator pattern - which by the way, is what makes it possible to use the for…in syntax.

Iterators are not special or unique to Rust. The concept can be found in a handful of languages. I wrote about the Iterator pattern as it exists in JavaScript in the post Iterables and Iterators in JavaScript.

The unique thing about the Iterator pattern in Rust is its interaction with the borrow checker.

If this interaction with the borrow checker is not taken into consideration then it is possible to bump into certain confusing compile errors while attempting to use the iterator pattern.

So to get started answering the question of why the borrow checker prevents what looks like a legit code above, let's take a look at the Iterator pattern and what is special about it in Rust.