I'm reading a series of bytes from a socket and I need to put each segment of n bytes as a item in a struct.

use std::mem;

struct Things {
    x: u8,
    y: u16,

fn main() {
    let array = [22 as u8, 76 as u8, 34 as u8];
    let foobar: Things;
    unsafe {
        foobar = mem::transmute::<[u8; 3], Things>(array);

    println!("{:?}", foobar);


I'm getting errors that say that foobar is 32 bits when array is 24 bits. Shouldn't foobar be 24 bits (8 + 16 = 24)?


The issue here is that the y field is 16-bit-aligned. So your memory layout is actually


Note that swapping the order of x and y doesn't help, because Rust's memory layout for structs is actually undefined (and thus still 32 bits for no reason but simplicity in the compiler). If you depend on it you will get undefined behavior.

The reasons for alignment are explained in Purpose of memory alignment.

You can prevent alignment from happening by adding the attribute repr(packed) to your struct, but you'll lose performance and the ability to take references of fields:

struct Things {
    x: u8,
    y: u16,

The best way would be to not use transmute at all, but to extract the values manually and hope the optimizer makes it fast:

let foobar = Things {
    x: array[0],
    y: ((array[1] as u16) << 8) | (array[2] as u16),

A crate like byteorder may simplify the process of reading different sizes and endianness from the bytes.

  • Is there always 8 bits of padding between each item in a struct? – Fluffy Mar 17 '16 at 13:25
  • no, padding is just stuff that's irrelevant. the padding exists just because the other field is aligned – oli_obk Mar 17 '16 at 13:27
  • 1
    @Fluffy Not necessarily. If x was also u16, no padding would be required. If x was still u8 and you had a x2 field that's also u8 between x and y, you still wouldn't need padding. Do you see why? (Note that you can look up struct alignment regardless of language - the reasons are always the same.) – Theodoros Chatzigiannakis Mar 17 '16 at 13:27
  • 3
    @Fluffy It's not faster if all fields are the same size. The logic is that u8 is 8-bit aligned while u16 is16-bit aligned. This creates a necessary 8-bit space between the two. You can choose to use the space yourself (by extending the first field to 16 bits or by introducing an intermediate 8-bit field) or you can leave it unused (and it's called padding) but either way the compiler will put the 8-bit space there, whether you intend to name it as a field or not. (Unless you explicitly ask for a packed struct, as mentioned in the answer.) – Theodoros Chatzigiannakis Mar 17 '16 at 13:32
  • 4
    @Fluffy even if you somehow work around alignment problems (which is unlikely), you will still have the problem of byte order, which is important if you need your data to be passed across network. Reinterpreting a byte array as a struct is inherently non-portable. That's why there is a lot of serialization formats available. – Vladimir Matveev Mar 17 '16 at 13:40
use std::mem;

fn main() {
    let bytes = vec!(0u8, 1u8,2u8, 3, 4, 5, 6, 7, 8, 9, 0xffu8, );

    let data_ptr: *const u64 = unsafe { mem::transmute(bytes[0..4].as_ptr()) };

    let data: u64 = unsafe { *data_ptr };

    println!("{:#x}", data);
  • Note that this has the same issues as many other answers on SO: It doesn't take into account alignment, potential padding in the target type (not a problem for u64), or endianness. – Shepmaster Aug 14 '16 at 13:03
  • There's no need to use transmute on a pointer, just cast the pointer. This will prevent accidental transmuting between pointers and pointers to pointers, as the casts are somewhat typechecked – oli_obk Aug 15 '16 at 8:30
  • As other have said, this is not recommended, but it's exactly what OP asked, and it's technically correct. Endianess and rest of the details to take care of if someone wants to go this route. – dpc.pw Aug 15 '16 at 18:37

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