I have an enum in Rust which has one value that takes a String:

#[derive(Clone, Copy)]
enum Simple {
    Foo([u32; 5]),

fn main() {
    let x = Simple::Error(String::from("blah"));
    let y = x.clone();

The enum value Foo above represents about 10 other enums I use that take copyable types or arrays of them. The compiler doesn't seem to complain about them, only the Error(String) which causes this:

error[E0204]: the trait `Copy` may not be implemented for this type
 --> src/main.rs:1:17
1 | #[derive(Clone, Copy)]
  |                 ^^^^
2 | enum Simple {
3 |     Error(String),
  |           ------ this field does not implement `Copy`

For some reason, String is not copyable. I don't get this. How do I implement Clone for an enum for just the one type which has a problem while using the default impl for the rest?

2 Answers 2



Copy designates types for which making a bitwise copy creates a valid instance without invalidating the original instance.

This isn't true for String, because String contains a pointer to the string data on the heap and assumes it has unique ownership of that data. When you drop a String, it deallocates the data on the heap. If you had made a bitwise copy of a String, then both instances would try to deallocate the same memory block, which is undefined behaviour.

Since String doesn't implement Copy, your enum cannot implement Copy either because the compiler enforces that Copy types are composed only of Copy data members.


Clone merely provides a standard clone method, and it's up to each implementor to decide how to implement it. String does implement Clone, so you can put #[derive(Clone)] on your enum.

  • 5
    I should add I don't see why String can't implement a Copy trait in principle or practice - QString objects in QT can be copied and they share and maintain an internal buffer. If a copy does something mutable the buffer is first cloned so other copies still hold a reference to the original buffer. In QT it's still better practice to pass by reference to avoid atomic ref counting but copy is efficient anyway.
    – locka
    Jul 6, 2016 at 15:21
  • 6
    @locka because Copy designates types for which making a bitwise copy creates a valid instance. Copying the bits of such a string could not increment an atomic counter, because it wouldn't be copying anymore. You get to choose what guarantees you need. You can share ownership, share ownership across threads, implement clone on write, etc. It would not be good for a systems language to make that decision (and burden your code) for you.
    – Shepmaster
    Jul 6, 2016 at 18:43
  • What does it mean by bitwise copy?
    – cakraww
    Mar 2, 2020 at 18:05
  • 5
    @cakraww bitwise copy is a shallow copy of all bytes using memcpy or similar stackoverflow.com/questions/42749439/… Mar 16, 2020 at 10:56

I did some exploring to see what a manual implementation would look like for an enum. I came up with this, but keep in mind you can also do #[derive(Clone)] as stated elsewhere and the compiler will do this for you.

enum Simple {
    Foo([u32; 5]),

impl Clone for Simple {
    fn clone(&self) -> Simple {
        match self {
            Error(a) => Error(a.to_string()),
            Okay => Okay,
            Foo(a) => Foo(a.clone()),
  • 6
    For #[derive(Clone, Copy)] pub enum ServerResponse { Ok(String), Err(String), } I get error[E0204]: the trait 'Copy' may not be implemented for this type Ok(String), | ------ this field does not implement 'Copy'. Implementing Copy manually leads to a similar error. Oct 28, 2019 at 11:51

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