During a code review I've come across some code that defines a simple structure as follows:

class foo {
   unsigned char a;
   unsigned char b;
   unsigned char c;

Elsewhere, an array of these objects is defined:

foo listOfFoos[SOME_NUM];

Later, the structures are raw-copied into a buffer:


This code relies on the assumptions that: a.) The size of foo is 3, and no padding is applied, and b.) An array of these objects is packed with no padding between them.

I've tried it with GNU on two platforms (RedHat 64b, Solaris 9), and it worked on both.

Are the assumptions above valid? If not, under what conditions (e.g. change in OS/compiler) might they fail?

  • @Matthieu: Thanks for reminding us. I'm sure the OP had overlooked that. – user1115652 Oct 31 '10 at 14:27

An array of objects is required to be contiguous, so there's never padding between the objects, though padding can be added to the end of an object (producing nearly the same effect).

Given that you're working with char's, the assumptions are probably right more often than not, but the C++ standard certainly doesn't guarantee it. A different compiler, or even just a change in the flags passed to your current compiler could result in padding being inserted between the elements of the struct or following the last element of the struct, or both.

  • 1
    It certainly wouldn't surprise me if a compiler decided it liked things on four-byte boundaries, and put a byte of padding at the end. – David Thornley Nov 4 '09 at 20:34

It would definitely be safer to do:

sizeof(foo) * SOME_NUM
  • 2
    not just safer, but clearer and gets rid of a magic number. +1 – rmeador Nov 4 '09 at 20:32
  • Yes, I agree with that. I guess I was more trying to get at the padding and array organization. Thanks. – Adam Holmberg Nov 4 '09 at 20:36
  • 1
    this does not account for padding between array elements though. – nschmidt Nov 4 '09 at 20:41
  • 1
    see my answer below. the safest way is to use sizeof(listOfFoos) – nschmidt Nov 4 '09 at 20:45
  • 3
    @nschmidt: padding between array elements is not allowed in either C or C++. – Jerry Coffin Nov 4 '09 at 21:23

If you copy your array like this you should use


This will always work as long as you allocated pBuff to the same size. This way you are making no assumptions on padding and alignment at all.

Most compilers align a struct or class to the required alignment of the largest type included. In your case of chars that means no alignment and padding, but if you add a short for example your class would be 6 bytes large with one byte of padding added between the last char and your short.


I think the reason that this works because all of the fields in the structure are char which align one. If there is at least one field that does not align 1, the alignment of the structure/class will not be 1 (the alignment will depends on the field order and alignment).

Let see some example:

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

typedef struct {
    unsigned char a;
    unsigned char b;
    unsigned char c;
} Foo;
typedef struct {
    unsigned short i;
    unsigned char  a;
    unsigned char  b;
    unsigned char  c;
} Bar;
typedef struct { Foo F[5]; } F_B;
typedef struct { Bar B[5]; } B_F;

#define ALIGNMENT_OF(t) offsetof( struct { char x; t test; }, test )

int main(void) {
    printf("Foo:: Size: %d; Alignment: %d\n", sizeof(Foo), ALIGNMENT_OF(Foo));
    printf("Bar:: Size: %d; Alignment: %d\n", sizeof(Bar), ALIGNMENT_OF(Bar));
    printf("F_B:: Size: %d; Alignment: %d\n", sizeof(F_B), ALIGNMENT_OF(F_B));
    printf("B_F:: Size: %d; Alignment: %d\n", sizeof(B_F), ALIGNMENT_OF(B_F));

When executed, the result is:

Foo:: Size: 3; Alignment: 1
Bar:: Size: 6; Alignment: 2
F_B:: Size: 15; Alignment: 1
B_F:: Size: 30; Alignment: 2

You can see that Bar and F_B has alignment 2 so that its field i will be properly aligned. You can also see that Size of Bar is 6 and not 5. Similarly, the size of B_F (5 of Bar) is 30 and not 25.

So, if you is a hard code instead of sizeof(...), you will get a problem here.

Hope this helps.

  • looks great, unfortunately the anonymous struct inside the offsetof call does not compile in msvc 2010 – user1115652 Oct 31 '10 at 14:37

It all comes down to memory alignment. Typical 32-bit machines read or write 4 bytes of memory per attempt. This structure is safe from problems because it falls under that 4 bytes easily with no confusing padding issues.

Now if the structure was as such:

class foo {
   unsigned char a;
   unsigned char b;
   unsigned char c;
   unsigned int i;
   unsigned int j;

Your coworkers logic would probably lead to


(3 char's = 3 bytes, 2 ints = 2*4 bytes, so 3 + 8)

Unfortunately, due to padding the structure actually takes up 12 bytes. This is because you cannot fit three char's and an int into that 4 byte word, and so there's one byte of padded space there which pushes the int into it's own word. This becomes more and more of a problem the more diverse the data types become.


For situations where stuff like this is used, and I can't avoid it, I try to make the compilation break when the presumptions no longer hold. I use something like the following (or Boost.StaticAssert if the situation allows):

static_assert(sizeof(foo) <= 3);

// Macro for "static-assert" (only usefull on compile-time constant expressions)
#define static_assert(exp)           static_assert_II(exp, __LINE__)
// Macro used by static_assert macro (don't use directly)
#define static_assert_II(exp, line)  static_assert_III(exp, line)
// Macro used by static_assert macro (don't use directly)
#define static_assert_III(exp, line) enum static_assertion##line{static_assert_line_##line = 1/(exp)}

I would've been safe and replaced the magic number 3 with a sizeof(foo) I reckon.

My guess is that code optimised for future processor architectures will probably introduce some form of padding.

And trying to track down that sort of bug is a real pain!


As others have said, using sizeof(foo) is a safer bet. Some compilers (especially esoteric ones in the embedded world) will add a 4-byte header to classes. Others can do funky memory-alignment tricks, depending upon your compiler settings.

For a mainstream platform, you're probably alright, but its not a guarantee.


There might still be a problem with sizeof() when you are passing the data between two computers. On one of them the code might compile with padding and in the other without, in which case sizeof() would give different results. If the array data is passed from one computer to the other it will be misinterpreted because the array elements will not be found where expected. One solution is to make sure that #pragma pack(1) is used whenever possible, but that may not be enough for the arrays. Best is to foresee the problem and use padding to a multiple of 8 bytes per array element.

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