Here is my cpp code.

#include <iostream>
using namespace std;

class A {
    int val;
    char a;

class B: public A {
    char b;

class C: public B {
    char c;

int main()
    cout << sizeof(A) << endl;
    cout << sizeof(B) << endl;
    cout << sizeof(C) << endl;

    return 0;

The output of the program (in gcc) is:


This output confuses me a lot.

I know that the alignment may be the reason why sizeof(A) equals to 8. (sizeof(int) + sizeof(char) + 3 bytes padding)

And I also guess that the expansion of sizeof(B) (sizeof(B) == sizeof(A) + sizeof(char) + 3 bytes padding) is to avoid overlap when copy occurs. (is that right?)

But what I really don't know why sizeof(B) is equal to sizeof(C).

Thanks a lot.

  • The sizes, including the paddings, are in bytes, not in bits. – eerorika May 24 '14 at 6:32
  • @user2079303 my fault. thanks – Wizmann May 24 '14 at 6:39
  • Not related to runtime-debug prints, a VC++ compiler switch that ponies up the actual object-structural layout, vtables, virtual-bases, et-al, is incredibly educational. See this question for details on how it is done for that platform. I cannot say with experience whether something similar exists for g++, but I would be somewhat surprised if it did not. – WhozCraig May 24 '14 at 7:01
  • It might be instructive to print the offsets of the variables with cout << "Offset of 'val': " << (int)(&((C*)0)->val) << " bytes.\n"; etc. – cmaster - reinstate monica May 24 '14 at 7:43

Both GCC and Clang follow the Itanium C++ ABI document, which specifies:

... implementations may freely allocate objects in the tail padding of any class which would not have been POD in C++98

class A is POD, so the compiler cannot put stuff into its padding. class B isn't POD, so the compiler is free to re-use the padding within the base class layout for members of derived objects. The basic idea here was that the C++ class layout should mirror the equivalent C struct layout for POD types, but there is no limitation for other classes. Because the meaning of "POD" has changed multiple times, they explicitly use the definition from C++98.

EDIT: About the rationale. POD-types are very simple classes that could be implemented as struct in C. For those types the layout should be identical to the layout a C compiler would create. In particular they want to allow C-tools like memcpy for A. If char b; were within the padding of A, memcpy would destroy it.

  • Thanks for your answer. But can you explain what is this rule made for ? – Wizmann May 24 '14 at 9:37
  • I added some text to better explain the rationale. Hope this helps. – pentadecagon May 24 '14 at 9:52
  • What is the difference between B and C which makes C non-POD with respect to C++98? Both are publicly inheriting from a POD-class and containing only POD members. Or wait, is B already non-POD? In that case I just misunderstood the quote from the standard (in that case, some more context and clarification of your edit would be helpful). – Jonas Schäfer May 24 '14 at 9:54
  • @Jonas A is POD, as a result the padding within A must not be used. B is non-POD, so the padding within B is fair game for subsequent objects. But see the problem. Better now? – pentadecagon May 24 '14 at 10:09
  • So B is not POD, yet the compiler creates a POD-like layout? (being a bit confused here) – Jonas Schäfer May 24 '14 at 10:10

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