pub const unsafe fn zeroed<T>() -> T
Expand description
Returns the value of type T
represented by the all-zero byte-pattern.
This means that, for example, the padding byte in (u8, u16)
is not
necessarily zeroed.
There is no guarantee that an all-zero byte-pattern represents a valid value
of some type T
. For example, the all-zero byte-pattern is not a valid value
for reference types (&T
, &mut T
) and function pointers. Using zeroed
on such types causes immediate undefined behavior because the Rust
compiler assumes that there always is a valid value in a variable it
considers initialized.
This has the same effect as MaybeUninit::zeroed().assume_init()
.
It is useful for FFI sometimes, but should generally be avoided.
§Examples
Correct usage of this function: initializing an integer with zero.
use std::mem;
let x: i32 = unsafe { mem::zeroed() };
assert_eq!(0, x);
Incorrect usage of this function: initializing a reference with zero.
use std::mem;
let _x: &i32 = unsafe { mem::zeroed() }; // Undefined behavior!
let _y: fn() = unsafe { mem::zeroed() }; // And again!