Consider following program:

#include <iostream>
struct __attribute__((__packed__)) mystruct_A
   char a;
   int b;
   char c;
int main()

From this I understood following:

  • Structure packing suppresses structure padding, padding used when alignment matters most, packing used when space matters most.
  • Structure Packing, on the other hand prevents compiler from doing padding

I am on 32 bit environment & using Windows 7 OS. The 1st answer of linked question says that above code would produce structure of size 6 on a 32-bit architecture.

But when I compiled it using g++ 4.8.1 it gives me 9 as an output. So, is structure packing not happening completely here? Why extra 3 bytes are there in output? sizeof char is always 1. Sizeof int is 4 on my compiler. So, sizeof above struct should be 1+4+1=6 when structure is packed.

I tried it on here. It gives me expected output 6.

Is there any role of processor or it depends only on Compiler?

  • @JohnZwinck: please attach the link if you test it on clang. – Destructor Sep 27 '15 at 13:47
  • 1
    I tested it on my Macbook, 64-bit, Clang 3.5. – John Zwinck Sep 27 '15 at 13:48
  • @AndreyNasonov: not working. It still gives 9 as output – Destructor Sep 27 '15 at 13:50
  • 1
    are you on x86 CPU? Also, which compiler? (there are two different ports of g++ to windows 32, mingw and mingw-w64) – M.M Sep 27 '15 at 13:53
  • 2
    Using mingw-w64-i686-gcc 5.2 with any of the __attribute__((packed)) variants mentioned here, I get size 9. Using mingw-w64-i686-clang 3.7 and the same attributes I get size 6. Using g++ again with #pragma pack(push, 1) / #pragma pack(pop) around the struct, I also get size 6. – melak47 Oct 15 '15 at 0:51

attribute packed is broken on mingw32 compilers. Another option is to use pragma pack:

#pragma pack(1)
struct mystruct_A {
  char a;
  int b;
  char c;
} x;
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