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struct mystruct_A
{
   char a;
   int b;
   char c;
} x;

struct mystruct_B
{
   int b;
   char a;
} y;

the size of structure is 12 and 8 respectively.

Is this structure padding or packing?

Can anyone tell me when padding or packing takes place?

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5 Answers 5

up vote 68 down vote accepted

Padding aligns structure members to "natural" address boundaries - say, int members would have offsets, which are mod(4) == 0 on 32-bit platform. Padding is on by default. It inserts the following "gaps" into your first structure:

struct mystruct_A {
    char a;
    char gap_0[3]; /* inserted by compiler: for alignment of b */
    int b;
    char c;
    char gap_1[3]; /* -"-: for alignment of the whole struct in an array */
} x;

Packing, on the other hand prevents compiler from doing padding - this has to be explicitly requested - under GCC it's __attribute__((__packed__)), so the following:

struct __attribute__((__packed__)) mystruct_A {
    char a;
    int b;
    char c;
};

would produce structure of size 6 on a 32-bit architecture.

A note though - unaligned memory access is slower on architectures that allow it (like x86 and amd64), and is explicitly prohibited on strict alignment architectures like SPARC.

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I wonder: is prohibition of unaligned memory on the spark means that it can not deal with an usual byte arrays? Struct packing as I know mostly used in transmitting(i.e networking) a data, when you need to cast a byte array to a struct, and be sure that an array fit to a struct fields. If the spark can not do that, how those working at all?! –  Hi-Angel May 24 at 9:19
1  
That's exactly why, if you look at IP, UDP, and TCP header layouts, you'd see that all integer fields are aligned. –  Nikolai N Fetissov May 24 at 15:09
    
The "Lost Art of C Structure Packing" explains padding and packing ptimisations - catb.org/esr/structure-packing –  Rob11311 Jun 29 at 16:45

Structure packing suppresses structure padding, padding used when alignment matters most, packing used when space matters most.

Some compilers provide #pragma to suppress padding or to make it packed to n number of bytes. Some provide keywords to do this. Generally pragma which is used for modifying structure padding will be in the below format (depends on compiler):

#pragma pack(n)

For example ARM provides the __packed keyword to suppress structure padding. Go through your compiler manual to learn more about this.

So a packed structure is a structure without padding.

Generally packed structures will be used

  • to save space

  • to format a data structure to transmit over network using some protocol (this is not a good practice of course because you need to
    deal with endianness)

If you'd like a more detailed explanation on structure padding and packing, please refer to my blog (original link is now a link spammer. Try the Wayback Machine version instead.).

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Structure padding is adding extra bits at the end of the structue,so that the structure completes the word boundary. here you find more about avoiding structure padding http://clinuxpro.com/structure-padding

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Padding and packing are just two aspects of the same thing:

  • packing or alignment is the size to which each member is rounded off
  • padding is the extra space added to match the alignment

In mystruct_A, assuming a default alignment of 4, each member is aligned on a multiple of 4 bytes. Since the size of char is 1, the padding for a and c is 4 - 1 = 3 bytes while no padding is required for int b which is already 4 bytes. It works the same way for mystruct_B.

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Structure packing is only done when you tell your compiler explicitly to pack the structure. Padding is what you're seeing. Your 32-bit system is padding each field to word alignment. If you had told your compiler to pack the structures, they'd be 6 and 5 bytes, respectively. Don't do that though. It's not portable and makes compilers generate much slower (and sometimes even buggy) code.

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