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What is the design reason for Vec not implementing the Iterator trait? Having to always call iter() on all vectors and slices makes for longer lines of code.

Example:

let rx = xs.iter().zip(ys.iter());

compared to Scala:

val rx = xs.zip(ys)
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2 Answers 2

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An iterator has an iteration state. It must know what will be the next element to give you.

So a vector by itself isn't an iterator, and the distinction is important. You can have two iterators over the same vector, for example, each with its specific iteration state.

But a vector can provide you an iterator, that's why it implements IntoIterator, which lets you write this:

let v = vec![1, 4];
for a in v {
    dbg!(a);
}

Many functions take an IntoIterator when an iterator is needed, and that's the case for zip, which is why

let rx = xs.iter().zip(ys.iter());

can be replaced with

let rx = xs.iter().zip(ys);
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  • Great answer! Only thing I'm wondering right now: why does xs.zip(ys) work in Scala then? Is an iterator (state) automatically created in Scala? Or does its "list type" always contain an iterator state? Whatever solution Scala uses: why does Rust not use it? Nov 6, 2019 at 8:38
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    @DenysSéguret Because in Rust, the distinction between iter(), into_iter() and iter_mut() is important. Nov 6, 2019 at 9:12
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    @DenysSéguret you're right. I'd say to only enable it for immutable iteration (using iter) and require an explicit call to iter_mut for mutable iteration.
    – Jmb
    Nov 6, 2019 at 10:24
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    Note that the same argument can be made for ys in xs.iter().zip (ys): how do you choose to use ys.iter() or ys.iter_mut()?
    – Jmb
    Nov 6, 2019 at 10:25
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    For ys, we use into_iter. The reason is simple: ys is consumed, so other iterator kinds make no sense.
    – Cerberus
    Nov 6, 2019 at 10:27
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What is the design reason for Vec not implementing the Iterator trait?

Which of the three iterators should it implement? There are three different kinds of iterator you can get from a Vec:

  1. vec.iter() gives Iterator<Item = &T>,
  2. vec.iter_mut() gives Iterator<Item = &mut T> and modifies the vector and
  3. vec.into_iter() gives Iterator<Item = T> and consumes the vector in the process.

compared to Scala:

In Scala it does not implement Iterator directly either, because Iterator needs the next item pointer that the vector itself does not have. However since Scala does not have move semantics, it only has one way to create an iterator from a vector, so it can do the conversion implicitly. Rust has three methods, so it must ask you which one you want.

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    into_iter() is the one that consumes the vector; drain is different in that it only empties the vector.
    – trent
    Nov 6, 2019 at 14:32

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