In C++, we can do this:

std::string ar[2] = {std::string("hello"), std::string("world")};
std::string hello = ar[0];
std::string world = ar[1];

and hello and world end up being new strings. I think this is because =operator is implemented like a clone() in Rust.

In Rust, this would look like this:

let ar = vec![String::from("hello"), String::from("world")]
let hello = ar[0].clone();
let world = ar[1].clone();

which gets pretty repetitive very quickly.

Is it possible to make = clone the object instead which seems like the natural behavior?

  • 5
    This is likely to make other Rust developers who need to read or maintain your code unhappy with you. It's convention that implicit copies happen only when it's cheap, and it's not cheap for strings. Thus, it's intentional that code that's potentially slow is verbose about that fact. Jan 20, 2022 at 23:41
  • 6
    Also, not just cheap, but side-effect-free, especially. cc @CharlesDuffy Jan 20, 2022 at 23:42
  • 3
    The official rust docs has more details and rational for copy and clone: doc.rust-lang.org/std/marker/…
    – effect
    Jan 21, 2022 at 0:02

1 Answer 1


Short answer: No. In Rust, the assignment operator has move semantics unless the type implements the Copy trait.

String does not implement the Copy trait, but it does implement the Clone trait (which is why we can use clone()). But why is that?

This is an intentional choice by the language designers. Types that cannot be copied via a simple bitwise copy (String is an example, which contains a buffer allocated on the heap) are not allowed to implement the Copy trait. The language designers wanted it to be obvious to programmers which types can be "cheaply" copied with a bitwise copy vs types that are more expensive to copy.

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