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Consider:

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

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

The sizes of the structures are 12 and 8 respectively.

Are these structures padded or packed?

When does padding or packing take place?

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2  
1  
The Lost Art of C Structure Packing - catb.org/esr/structure-packing – Paolo Apr 6 at 10:34
up vote 128 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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2  
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 '14 at 9:19
5  
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 '14 at 15:09
6  
The "Lost Art of C Structure Packing" explains padding and packing ptimisations - catb.org/esr/structure-packing – Rob11311 Jun 29 '14 at 16:45
    
/* malloc() always provides aligned memory / cptr = malloc(sizeof(int) + 1); / Increment the pointer by one, making it misaligned / iptr = (int *) ++cptr; / Dereference it as an int pointer, causing an unaligned access */ *iptr = 42; Above code will give bus error. But if I stopped packing of a structure, accessing its variables will not give any ? Why? – iDebD_gh Feb 17 '15 at 10:01
1  
Does first member have to come first? I thought arragement is totally up to the implementation, and cannot be relied upon (even from version to version). – allyourcode Jul 30 '15 at 1:23

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. In Structure padding you will find more about avoiding 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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(The above answers explained the reason quite clear, but seems not totally clear about the size of padding, so, I will add an answer according to what I learn from The Lost Art of C Structure Packing)

Memory align rules - for struct

  • Before each individual member, there will be padding so that to make it start at an address that is divisible by its size. e.g on 64 bit system,int should start at address divisible by 4, and long by 8, short by 2.
  • char and char[] is special, could be any memory address, so they don't need padding before them.
  • For struct, other than the alignment need for each individual member, the size of whole struct itself will be aligned to a size divisale by size of largest individual member, by padding at end. e.g if struct's largest member is long then divisible by 8, int then by 4, short then by 2.

Example

(for 64 bit system)

memory_align.c:

/**
 * Memory align & padding - for struct.
 * compile: gcc memory_align.c
 * execute: ./a.out
 */ 
#include <stdio.h>

// size is 8, 4 + 1, then round to multiple of 4 (int's size),
struct stu_a {
    int i;
    char c;
};

// size is 16, 8 + 1, then round to multiple of 8 (long's size),
struct stu_b {
    long l;
    char c;
};

// size is 24, l need padding by 4 before it, then round to multiple of 8 (long's size),
struct stu_c {
    int i;
    long l;
    char c;
};

// size is 16, 8 + 4 + 1, then round to multiple of 8 (long's size),
struct stu_d {
    long l;
    int i;
    char c;
};

int test() {
    printf("%s: %ld\n", "stu_a", sizeof(struct stu_a));
    printf("%s: %ld\n", "stu_b", sizeof(struct stu_b));
    printf("%s: %ld\n", "stu_c", sizeof(struct stu_c));
    printf("%s: %ld\n", "stu_c", sizeof(struct stu_d));
    return 0;
}

int main(int argc, char * argv[]) {
    test();
    return 0;
}

Execution result:

stu_a: 8
stu_b: 16
stu_c: 24
stu_c: 16

Tips

  • The order of member might affect actual size of struct, so take that in mind. e.g the stu_c and stu_d from above example has the same members, but in different order, and result in different size for the struct.
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Data structure alignment is the way data is arranged and accessed in computer memory. It consists of two separate but related issues: data alignment and data structure padding. When a modern computer reads from or writes to a memory address, it will do this in word sized chunks (e.g. 4 byte chunks on a 32-bit system) or larger. Data alignment means putting the data at a memory address equal to some multiple of the word size, which increases the system’s performance due to the way the CPU handles memory. To align the data, it may be necessary to insert some meaningless bytes between the end of the last data structure and the start of the next, which is data structure padding.

  1. In order to align the data in memory, one or more empty bytes (addresses) are inserted (or left empty) between memory addresses which are allocated for other structure members while memory allocation. This concept is called structure padding.
  2. Architecture of a computer processor is such a way that it can read 1 word (4 byte in 32 bit processor) from memory at a time.
  3. To make use of this advantage of processor, data are always aligned as 4 bytes package which leads to insert empty addresses between other member’s address.
  4. Because of this structure padding concept in C, size of the structure is always not same as what we think.
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Why do you need to link to the same article 5 times in your answer? Please keep only one link to the example. Also, since you're linking to your article, you need to disclose that fact. – Artjom B. Aug 15 '15 at 15:58

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