pub const unsafe fn copy<T>(src: *const T, dst: *mut T, count: usize)Expand description
Copies count * size_of::<T>() bytes from src to dst. The source
and destination may overlap.
If the source and destination will never overlap,
copy_nonoverlapping can be used instead.
copy is semantically equivalent to C’s memmove, but with the argument
order swapped. Copying takes place as if the bytes were copied from src
to a temporary array and then copied from the array to dst.
The copy is “untyped” in the sense that data may be uninitialized or otherwise violate the
requirements of T. The initialization state is preserved exactly.
Safety
Behavior is undefined if any of the following conditions are violated:
-
srcmust be valid for reads ofcount * size_of::<T>()bytes. -
dstmust be valid for writes ofcount * size_of::<T>()bytes. -
Both
srcanddstmust be properly aligned.
Like read, copy creates a bitwise copy of T, regardless of
whether T is Copy. If T is not Copy, using both the values
in the region beginning at *src and the region beginning at *dst can
violate memory safety.
Note that even if the effectively copied size (count * size_of::<T>()) is
0, the pointers must be non-null and properly aligned.
Examples
Efficiently create a Rust vector from an unsafe buffer:
use std::ptr;
/// # Safety
///
/// * `ptr` must be correctly aligned for its type and non-zero.
/// * `ptr` must be valid for reads of `elts` contiguous elements of type `T`.
/// * Those elements must not be used after calling this function unless `T: Copy`.
unsafe fn from_buf_raw<T>(ptr: *const T, elts: usize) -> Vec<T> {
let mut dst = Vec::with_capacity(elts);
// SAFETY: Our precondition ensures the source is aligned and valid,
// and `Vec::with_capacity` ensures that we have usable space to write them.
ptr::copy(ptr, dst.as_mut_ptr(), elts);
// SAFETY: We created it with this much capacity earlier,
// and the previous `copy` has initialized these elements.
dst.set_len(elts);
dst
}