For example, I have a class,

class naive {
    char a;
    long long b;
    char c;
    int d;

and according to my testing program, a to d are built one after another, like


- means unused.

Why does not C++ make it tighter, like

  • 5
    bbbbbbbbddddac would be even tighter and you don't have to pad 2 bytes behind
    – phuclv
    Apr 18, 2015 at 9:47

1 Answer 1


Class and struct members are required by the standard to be stored in memory in the same order in which they are declared. So in your example, it wouldn't be possible for d to appear before b.

Also, most architectures prefer that multi-byte types are aligned on 4- or 8-byte boundaries. So all the compiler can do is leave empty padding bytes between the class members.

You can minimize padding by reordering the members yourself, in increasing or decreasing size order. Or your compiler might have a #pragma pack option or something similar, which will seek to minimize padding at the possible expense of performance and code size. Read the docs for your compiler.

  • 11
    The GCC equivalent of #pragma pack is __attribute__ ((packed)). In C++11 this becomes standardized, with the attribute alignas. Jul 18, 2011 at 9:15
  • 7
    Specifically, the requirement for data members being in the same order in memory is codified in 9.2.12 (Nonstatic data members of a (non-union) class declared without an intervening access-specifier are allocated so that later members have higher addresses within a class object. [...]) of the ISO/IEC 14882:2003 standard. Jul 18, 2011 at 9:22
  • 3
    @Kevin - The C standard says so, because that is the way it worked when C was standardized. Presumably some "clever" code took advantage of this.
    – Bo Persson
    Jul 18, 2011 at 17:23
  • 6
    @Kevin - A common old-school trick for declaring objects with a header and variable length body is to end the header structure with a dummy array of length one (or length zero if the compiler allows it), and then malloc sizeof(header)+length_of_body. You can then index into the body using the dummy array. If the dummy could be reordered to the beginning of the structure, this wouldn't work. Jul 18, 2011 at 17:36
  • 5
    @Kevin: For the most part, so you can represent RAM areas mapped to hardware registers, network protocols, file formats and similar structures as C structs. Jul 18, 2011 at 22:00

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