Module core::ptr
[−]
[src]
Operations on unsafe pointers, *const T, and *mut T.
Working with unsafe pointers in Rust is uncommon, typically limited to a few patterns.
Use the null function to create null pointers, and the is_null method
of the *const T type to check for null. The *const T type also defines
the offset method, for pointer math.
Common ways to create unsafe pointers
1. Coerce a reference (&T) or mutable reference (&mut T).
fn main() {
let my_num: i32 = 10;
let my_num_ptr: *const i32 = &my_num;
let mut my_speed: i32 = 88;
let my_speed_ptr: *mut i32 = &mut my_speed;
}let my_num: i32 = 10; let my_num_ptr: *const i32 = &my_num; let mut my_speed: i32 = 88; let my_speed_ptr: *mut i32 = &mut my_speed;
To get a pointer to a boxed value, dereference the box:
fn main() { let my_num: Box<i32> = Box::new(10); let my_num_ptr: *const i32 = &*my_num; let mut my_speed: Box<i32> = Box::new(88); let my_speed_ptr: *mut i32 = &mut *my_speed; }let my_num: Box<i32> = Box::new(10); let my_num_ptr: *const i32 = &*my_num; let mut my_speed: Box<i32> = Box::new(88); let my_speed_ptr: *mut i32 = &mut *my_speed;
This does not take ownership of the original allocation and requires no resource management later, but you must not use the pointer after its lifetime.
2. Consume a box (Box<T>).
The into_raw function consumes a box and returns
the raw pointer. It doesn't destroy T or deallocate any memory.
use std::boxed; unsafe { let my_speed: Box<i32> = Box::new(88); let my_speed: *mut i32 = boxed::into_raw(my_speed); // By taking ownership of the original `Box<T>` though // we are obligated to put it together later to be destroyed. drop(Box::from_raw(my_speed)); }
Note that here the call to drop is for clarity - it indicates
that we are done with the given value and it should be destroyed.
3. Get it from C.
#![feature(libc)] extern crate libc; use std::mem; fn main() { unsafe { let my_num: *mut i32 = libc::malloc(mem::size_of::<i32>() as libc::size_t) as *mut i32; if my_num.is_null() { panic!("failed to allocate memory"); } libc::free(my_num as *mut libc::c_void); } }extern crate libc; use std::mem; fn main() { unsafe { let my_num: *mut i32 = libc::malloc(mem::size_of::<i32>() as libc::size_t) as *mut i32; if my_num.is_null() { panic!("failed to allocate memory"); } libc::free(my_num as *mut libc::c_void); } }
Usually you wouldn't literally use malloc and free from Rust,
but C APIs hand out a lot of pointers generally, so are a common source
of unsafe pointers in Rust.
Reexports
pub use intrinsics::copy_nonoverlapping; |
pub use intrinsics::copy; |
pub use intrinsics::write_bytes; |
Structs
| Unique |
[Unstable] A wrapper around a raw |
Functions
| null |
Creates a null raw pointer. |
| null_mut |
Creates a null mutable raw pointer. |
| read |
Reads the value from |
| replace |
Replaces the value at |
| swap |
Swaps the values at two mutable locations of the same type, without
deinitialising either. They may overlap, unlike |
| write |
Overwrites a memory location with the given value without reading or dropping the old value. |
| read_and_drop |
[Unstable] Variant of read_and_zero that writes the specific drop-flag byte (which may be more appropriate than zero). |
| read_and_zero |
[Unstable] Reads the value from |