This issue seems to imply it's just an implementation detail (memcpy vs ???), but I can't find any explicit description of the differences.


Clone is designed for arbitrary duplications: a Clone implementation for a type T can do arbitrarily complicated operations required to create a new T. It is a normal trait (other than being in the prelude), and so requires being used like a normal trait, with method calls, etc.

The Copy trait represents values that can be safely duplicated via memcpy: things like reassignments and passing an argument by-value to a function are always memcpys, and so for Copy types, the compiler understands that it doesn't need to consider those a move.

  • 7
    Can I understand as Clone is a deep-copy, and Copy is shadow-copy?
    – Djvu
    Apr 25 '16 at 7:02
  • 18
    Clone opens the possibility that the type might do either a deep or shallow copy: "arbitrarily complicated".
    – poolie
    Sep 9 '16 at 23:03

The main difference is that cloning is explicit. Implicit notation means move for a non-Copy type.

// u8 implements Copy
let x: u8 = 123;
let y = x;
// x can still be used
println!("x={}, y={}", x, y);

// Vec<u8> implements Clone, but not Copy
let v: Vec<u8> = vec![1, 2, 3];
let w = v.clone();
//let w = v // This would *move* the value, rendering v unusable.

By the way, every Copy type is also required to be Clone. However, they are not required to do the same thing! For your own types, .clone() can be an arbitrary method of your choice, whereas implicit copying will always trigger a memcpy, not the clone(&self) implementation.

  • 1
    Cool! This clears up a secondary question I had regarding whether the Clone trait provides implicit copying. Turns out that question and this one were more related than I thought. Thanks! Jun 23 '15 at 20:42
  • In your first example, suppose you wanted y to get a moved x, not a copy of it, like with your last commented out example w = v. How would you specify that?
    – johnbakers
    May 4 '18 at 17:28
  • 2
    You can't, and you don't, because Copy is meant to be implemented for "cheap" types, such as u8 in the example. If you write a quite heavyweight type, for which you think a move is more efficient than a copy, make it not impl Copy. Note that in the u8 case, you cannot possibly be more efficient with a move, since under the hood it would probably at least entail a pointer copy -- which is already as expensive as a u8 copy, so why bother.
    – mdup
    May 9 '18 at 10:55
  • Does this mean that the presence of the Copy trait has an impact on the implicit lifetime scopes of variables? If so I think that's noteworthy.
    – Brian Cain
    Jan 28 '19 at 3:38

As already covered by other answers:

  • Copy is implicit, inexpensive, and cannot be re-implemented (memcpy).
  • Clone is explicit, may be expensive, and may be re-implement arbitrarily.

What is sometimes missing in the discussion of Copy vs Clone is that it also affects how the compiler uses moves vs automatic copies. For instance:

#[derive(Debug, Clone, Copy)]
pub struct PointCloneAndCopy {
    pub x: f64,

#[derive(Debug, Clone)]
pub struct PointCloneOnly {
    pub x: f64,

fn test_copy_and_clone() {
    let p1 = PointCloneAndCopy { x: 0. };
    let p2 = p1; // because type has `Copy`, it gets copied automatically.
    println!("{:?} {:?}", p1, p2);

fn test_clone_only() {
    let p1 = PointCloneOnly { x: 0. };
    let p2 = p1; // because type has no `Copy`, this is a move instead.
    println!("{:?} {:?}", p1, p2);

(Rust Playground)

The first example (PointCloneAndCopy) works fine here because of the implicit copy, but the second example (PointCloneOnly) would error with a use after move:

error[E0382]: borrow of moved value: `p1`
  --> src/lib.rs:20:27
18 |     let p1 = PointCloneOnly { x: 0. };
   |         -- move occurs because `p1` has type `PointCloneOnly`, which does not implement the `Copy` trait
19 |     let p2 = p1;
   |              -- value moved here
20 |     println!("{:?} {:?}", p1, p2);
   |                           ^^ value borrowed here after move

To avoid the implicit move, we could explicitly call let p2 = p1.clone();.

This may raise the question of how to force a move of a type which implements the Copy trait?.

Short answer: You can't / doesn't make sense.

  • @Shepmaster I removed it although I find it much more readable because it contains the nice color coding of the Rust compiler and I specifically made sure that all the search relevant words are also contained in the text.
    – bluenote10
    Jan 6 '20 at 17:20
  • Clone can be cheaper, no? when it is a shallow copy.
    – jangorecki
    Jan 13 at 19:09
  • @jangorecki I'm not sure. My understanding is that Copy simply does a memcpy of the raw struct in memory. This is as "shallow" as it can get, and should not be confused with "deep copying". The cheapest possible Clone that doesn't lose information would basically have to emulate a memcpy. Perhaps a Clone can be cheaper e.g. if it doesn't copy all fields though.
    – bluenote10
    Jan 13 at 21:28

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