# How to convert from &[u8] to Vec<u8>?

I'm attempting to simply convert a slice to a vector. The following code:

``````let a = &[0u8];
let b: Vec<u8> = a.iter().collect();
``````

fails with the following error message:

``````3 |     let b: Vec<u8> = a.iter().collect();
|                               ^^^^^^^ a collection of type `std::vec::Vec<u8>` cannot be built from an iterator over elements of type `&u8`
``````

What am I missing?

• `u8` != `&u8`. Possible duplicate of stackoverflow.com/questions/24689463/…, but the syntax changed a little bit since then. Commented Dec 26, 2017 at 14:46
• @Stefan What does `u8` have to do with strings?
– user8370684
Commented Dec 26, 2017 at 14:55
• let a = &[0u8]; let b: Vec<&u8> = a.iter().collect(); @Roxy , I tried this and it does work for me. If we make the genric as &u8 for b:Vec. Commented Dec 26, 2017 at 15:25

Collecting into a `Vec` is so common that slices have a method `to_vec` that does exactly this:

``````let b = a.to_vec();
``````

You get the same thing as CodesInChaos's answer, but more concisely.

Notice that `to_vec` requires `T: Clone`. To get a `Vec<T>` out of a `&[T]` you have to be able to get an owned `T` out of a non-owning `&T`, which is what `Clone` does.

Slices also implement `ToOwned`, so you can use `to_owned` instead of `to_vec` if you want to be generic over different types of non-owning container. If your code only works with slices, prefer `to_vec` instead.

• I actually needed to do something more complicated and unfortunately `to_vec` didn't work. The error I get is: `error[E0599]: no method named to_vec found for type std::iter::Take<std::iter::Cycle<std::slice::Iter<'_, u8>>> in the current scope`
– user8370684
Commented Dec 27, 2017 at 21:15
• @Roxy That's a different question: "how do I convert an iterator to a `Vec`?" `.collect()` is definitely the right answer to that one. Commented Dec 28, 2017 at 1:16

The iterator only returns references to the elements (here `&u8`). To get owned values (here `u8`), you can used `.cloned()`.

``````let a: &[u8] = &[0u8];
let b: Vec<u8> = a.iter().cloned().collect();
``````

The clearest way to write this is simply

``````let b = Vec::from(a);
``````

which makes it clear you are constructing a `Vec` object (the name of the type is there on the same line) using a `from` style constructor. (Again, the existence of the constructor function call makes this clear.)

Using `to_vec` is almost as clear but I suppose `to_vec` could be a random function in scope to do almost anything, and it doesn't contain the type name `Vec`.

• Well, if it is on slices, it is definitely this `to_vec()`. And if this is somewhen changed to another type, well, if someone creates a method named `to_vec()` that doesn't returns a `Vec`... Well, I suppose this is a very bad design. Commented May 27, 2023 at 18:21
• @ChayimFriedman I agree that it would be bad design if to_vec would return something else. But that aside, this answer is clear and provides an answer that works for arrays as well as slices. Using the actual Vec type removes any doubt. Looks very elegant to me. Commented Jun 28, 2023 at 19:33
• @GolezTrol The `to_vec()` function is there so that people will use it. This is the most idiomatic solution, otherwise this function wouldn't exist. Commented Jun 29, 2023 at 7:00
• @GolezTrol No, the same argument doesn't apply to `from()`, for a very simple reason: `to_vec()` is an inherent method. It can only be called directly. Therefore, it is meant to be called directly. On the other hand, `from()` (and `to_owned()`) are trait implementations, and are useful whenever something takes `impl Into<Vec>`, even if they are not used directly. Commented Jun 29, 2023 at 11:39
• I used to take the view that `from` was a constructor function. I now take the view it is more of a general conversion function. If viewed as a constructor, it makes little sense to construct a complex type "from" a String. However, as a general conversion function, it does make sense to transmute "from" a String to some more complex type. `to_vec` suggests your type knows how to convert itself into a Vec, which is rarely a sensible thing for a type to do, unless it is strongly coupled with the Vec type itself. (Hence slices can call `to_vec`) Commented Jun 30, 2023 at 9:41