Trying to pack data into a packet. This packet should be 64 bits. I have this:

typedef union {
  uint64_t raw;
  struct {
    unsigned int magic    : 8;
    unsigned int parity   : 1;
    unsigned int stype    : 8;
    unsigned int sid      : 8;
    unsigned int mlength  : 31;
    unsigned int message  : 8;
  } spacket;
} packet_t;

But it seems that alignment is not guaranteed. Because when I run this:

#include <strings.h>
#include <stdio.h>
#include <stddef.h>
#include <stdint.h>

const char *number_to_binary(uint64_t x)
    static char b[65];
    b[64] = '\0';

    uint64_t z;
    int w = 0;
    for (z = 1; w < 64; z <<= 1, ++w)
        b[w] = ((x & z) == z) ? '1' : '0';

    return b;

int main(void)
  packet_t ipacket;
  bzero(&ipacket, sizeof(packet_t));
  ipacket.spacket.magic = 255;
  printf("%s\n", number_to_binary(ipacket.raw));
  ipacket.spacket.parity = 1;
  printf("%s\n", number_to_binary(ipacket.raw));
  ipacket.spacket.stype = 255;
  printf("%s\n", number_to_binary(ipacket.raw));
  ipacket.spacket.sid = 255;
  printf("%s\n", number_to_binary(ipacket.raw));
  ipacket.spacket.mlength = 2147483647;
  printf("%s\n", number_to_binary(ipacket.raw));
  ipacket.spacket.message = 255;
  printf("%s\n", number_to_binary(ipacket.raw));

I get (big endian):


My .mlength field is lost somewhere on the right part although it should be right next to the .sid field.

This page confirms it: Alignment of the allocation unit that holds a bit field is unspecified. But if this is the case, how do people are packing data into bit fields which is their purpose in the first place?

24 bits seems to be the maximum size the .mlength field is able to take before the .message field is kicked out.

  • 3
    Generally, you cannot rely on how the data in a bitfield is laid out. If you need need to pack multiple data into a word, you have to do the marshalling manually.
    – fuz
    Apr 16, 2016 at 19:10
  • your struct is 32 * 6 bits... You should use chars instead .
    – xvan
    Apr 16, 2016 at 19:21
  • 1
    Don't rely on a specific memory layout for C data structures. There are just too many implementation defined and compiler-specific parameters. As @FUZxxl wrote, use proper marshalling. With a good compiler, this is not necessarily slower. Apr 16, 2016 at 19:29
  • @xvan: Using standard types is a bad idea. And char is even worse. Apr 16, 2016 at 19:30
  • 1
    @Olaf Using standard types is not a bad idea if you know what you are doing.
    – fuz
    Apr 16, 2016 at 20:02

2 Answers 2


Almost everything about the layout of bit-fields is implementation-defined in the standard, as you'd find from numerous other questions on the subject on SO. (Amongst others, you could look at Questions about bitfields and especially Bit field's memory management in C).

If you want your bit fields to be packed into 64 bits, you'll have to trust that your compiler allows you to use 64-bit types for the fields, and then use:

typedef union {
  uint64_t raw;
  struct {
    uint64_t magic    : 8;
    uint64_t parity   : 1;
    uint64_t stype    : 8;
    uint64_t sid      : 8;
    uint64_t mlength  : 31;
    uint64_t message  : 8;
  } spacket;
} packet_t;

As originally written, under one plausible (common) scheme, your bit fields would be split into new 32-bit words when there isn't space enough left in the current one. That is, magic, parity, stype and sid would occupy 25 bits; there isn't enough room left in a 32-bit unsigned int to hold another 31 bits, so mlength is stored in the next unsigned int, and there isn't enough space left over in that unit to store message so that is stored in the third unsigned int unit. That would give you a structure occupying 3 * sizeof(unsigned int) or 12 bytes — and the union would occupy 16 bytes because of the alignment requirements on uint64_t.

Note that the standard does not guarantee that what I show will work. However, under many compilers, it probably will work. (Specifically, it works with GCC 5.3.0 on Mac OS X 10.11.4.)

  • 1
    But even then you can't depend on the order the bit-fields are laid out. Change your compiler, and everything could change. And to be precise, it's also implementation-defined whether or not a bit-field has to split into a new structure element when it can not fit into the current one - it might span elements. Apr 16, 2016 at 20:01
  • Like I said, essentially everything except their existence is implementation defined. The Bit field's memory management in C question has an answer (from YT) quoting the standard, extensively, on the subject of bit fields. Apr 16, 2016 at 20:03

Depending on your architecture and/or compiler your data will be aligned to different sizes. From your observations I would guess that you are seeing the consequences of 32 bit aligning. If you take a look at the sizeof your union and that is more than 8 bytes (64 bits) data has been padded for alignment.

With 32 bit alignment mlength and message will only be able to stay next to each other if they sum up to less than or equal 32 bits. This is probably what you see with your 24 bit limit.

If you want your struct to only take 64 bits with 32 bit alignment you will have to rearrange it a little bit. The single bit parity should be next to the 31 bit mlength and your 4 8 bit variables should be grouped together.

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