Trait core::marker::Copy

1.0.0 · source · [−]

pub trait Copy: Clone { }

Expand description

Types whose values can be duplicated simply by copying bits.

By default, variable bindings have ‘move semantics.’ In other words:

#[derive(Debug)]
struct Foo;

let x = Foo;

let y = x;

// `x` has moved into `y`, and so cannot be used

// println!("{x:?}"); // error: use of moved value

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However, if a type implements Copy, it instead has ‘copy semantics’:

// We can derive a `Copy` implementation. `Clone` is also required, as it's
// a supertrait of `Copy`.
#[derive(Debug, Copy, Clone)]
struct Foo;

let x = Foo;

let y = x;

// `y` is a copy of `x`

println!("{x:?}"); // A-OK!

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It’s important to note that in these two examples, the only difference is whether you are allowed to access x after the assignment. Under the hood, both a copy and a move can result in bits being copied in memory, although this is sometimes optimized away.

How can I implement `Copy`?

There are two ways to implement Copy on your type. The simplest is to use derive:

#[derive(Copy, Clone)]
struct MyStruct;

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You can also implement Copy and Clone manually:

struct MyStruct;

impl Copy for MyStruct { }

impl Clone for MyStruct {
    fn clone(&self) -> MyStruct {
        *self
    }
}

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There is a small difference between the two: the derive strategy will also place a Copy bound on type parameters, which isn’t always desired.

What’s the difference between `Copy` and `Clone`?

Copies happen implicitly, for example as part of an assignment y = x. The behavior of Copy is not overloadable; it is always a simple bit-wise copy.

Cloning is an explicit action, x.clone(). The implementation of Clone can provide any type-specific behavior necessary to duplicate values safely. For example, the implementation of Clone for String needs to copy the pointed-to string buffer in the heap. A simple bitwise copy of String values would merely copy the pointer, leading to a double free down the line. For this reason, String is Clone but not Copy.

Clone is a supertrait of Copy, so everything which is Copy must also implement Clone. If a type is Copy then its Clone implementation only needs to return *self (see the example above).

When can my type be `Copy`?

A type can implement Copy if all of its components implement Copy. For example, this struct can be Copy:

#[derive(Copy, Clone)]
struct Point {
   x: i32,
   y: i32,
}

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A struct can be Copy, and i32 is Copy, therefore Point is eligible to be Copy. By contrast, consider

struct PointList {
    points: Vec<Point>,
}

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The struct PointList cannot implement Copy, because Vec<T> is not Copy. If we attempt to derive a Copy implementation, we’ll get an error:

the trait `Copy` may not be implemented for this type; field `points` does not implement `Copy`

Shared references (&T) are also Copy, so a type can be Copy, even when it holds shared references of types T that are not Copy. Consider the following struct, which can implement Copy, because it only holds a shared reference to our non-Copy type PointList from above:

#[derive(Copy, Clone)]
struct PointListWrapper<'a> {
    point_list_ref: &'a PointList,
}

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When can’t my type be `Copy`?

Some types can’t be copied safely. For example, copying &mut T would create an aliased mutable reference. Copying String would duplicate responsibility for managing the String’s buffer, leading to a double free.

Generalizing the latter case, any type implementing Drop can’t be Copy, because it’s managing some resource besides its own size_of::<T> bytes.

If you try to implement Copy on a struct or enum containing non-Copy data, you will get the error E0204.

When should my type be `Copy`?

Generally speaking, if your type can implement Copy, it should. Keep in mind, though, that implementing Copy is part of the public API of your type. If the type might become non-Copy in the future, it could be prudent to omit the Copy implementation now, to avoid a breaking API change.

Additional implementors

In addition to the implementors listed below, the following types also implement Copy:

Function item types (i.e., the distinct types defined for each function)
Function pointer types (e.g., fn() -> i32)
Closure types, if they capture no value from the environment or if all such captured values implement Copy themselves. Note that variables captured by shared reference always implement Copy (even if the referent doesn’t), while variables captured by mutable reference never implement Copy.

Trait core::marker::Copy

Implementors

impl Copy for core::cmp::Ordering

impl Copy for Infallible

impl Copy for Alignment

impl Copy for FpCategory

impl Copy for Which

impl Copy for SearchStep

impl Copy for core::sync::atomic::Ordering

impl Copy for bool

impl Copy for char

impl Copy for f32

impl Copy for f64

impl Copy for i8

impl Copy for i16

impl Copy for i32

impl Copy for i64

impl Copy for i128

impl Copy for isize

impl Copy for !

impl Copy for u8

impl Copy for u16

impl Copy for u32

impl Copy for u64

impl Copy for u128

impl Copy for ()

impl Copy for usize

impl Copy for AllocError

impl Copy for Layout

impl Copy for TypeId

impl Copy for float64x1_t

impl Copy for float64x1x2_t

impl Copy for float64x1x3_t

impl Copy for float64x1x4_t

impl Copy for float64x2_t

impl Copy for float64x2x2_t

impl Copy for float64x2x3_t

impl Copy for float64x2x4_t

impl Copy for int16x2_t

impl Copy for uint16x2_t

impl Copy for float32x2_t

impl Copy for float32x2x2_t

impl Copy for float32x2x3_t

impl Copy for float32x2x4_t

impl Copy for float32x4_t

impl Copy for float32x4x2_t

impl Copy for float32x4x3_t

impl Copy for float32x4x4_t

impl Copy for int8x4_t

impl Copy for int8x8_t

impl Copy for int8x8x2_t

impl Copy for int8x8x3_t

impl Copy for int8x8x4_t

impl Copy for int8x16_t

impl Copy for int8x16x2_t

impl Copy for int8x16x3_t

impl Copy for int8x16x4_t

impl Copy for int16x4_t

impl Copy for int16x4x2_t

impl Copy for int16x4x3_t

impl Copy for int16x4x4_t

impl Copy for int16x8_t

impl Copy for int16x8x2_t

impl Copy for int16x8x3_t

impl Copy for int16x8x4_t

impl Copy for int32x2_t

impl Copy for int32x2x2_t

impl Copy for int32x2x3_t

impl Copy for int32x2x4_t

impl Copy for int32x4_t

impl Copy for int32x4x2_t

impl Copy for int32x4x3_t

impl Copy for int32x4x4_t

impl Copy for int64x1_t

impl Copy for int64x1x2_t

impl Copy for int64x1x3_t

impl Copy for int64x1x4_t

impl Copy for int64x2_t

impl Copy for int64x2x2_t

impl Copy for int64x2x3_t