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In order to use OSAtomicDecrement (mac-specific atomic operation), I need to provide a 4-byte aligned SInt32.

Does this kind of cooking work ? Is there another way to deal with alignment issues ?

struct SomeClass {
  SomeClass() {
    member_  = &storage_ + ((4 - (&storage_ % 4)) % 4);
    *member_ = 0;

  SInt32 *member_;

  struct {
    SInt32 a;
    SInt32 b;
  } storage_;
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6 Answers 6

up vote 4 down vote accepted

If you're on a Mac, that means GCC. GCC can auto align variables for you:

  __attribute__((__aligned__(4))) int32_t member_;

Please note that this is not portable across compilers, as this is GCC specific.

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What is the benefit of this solution since it's less portable (and an extra 4 byte of space used is ok) ? – gaspard Jan 23 '10 at 20:25
I don't really want to add another #ifdef __gcc__... – gaspard Jan 23 '10 at 20:26
-1: this makes sure that the storage for the pointer is aligned. Yes, since it's aligned storage_ would also be aligned but that is indirect and confusing. If you want to recommend specifying alignment, just directly align the variable (drop the struct and just create a member __attribute__((__aligned(4))) SInt32 a_; – R Samuel Klatchko Jan 23 '10 at 20:38
You are aligning the pointer, but not initializing it. – Richard Pennington Jan 23 '10 at 20:39
There is NO "extra 4 bytes used", GCC simply relocates the class to fit your demands. There is also NO WAY of doing so reliably across compilers, MSVC has such an option (__declspec align?). You have special needs that only the linker can accommodate and you think you can get away without compiler-specific options? The pointer was a left-over from the pasted code, it should not be there (edited out). – LiraNuna Jan 23 '10 at 20:42

I would guess that any SInt32 is already aligned, even on a mac.

To clarify:

struct Foo {
    SInt32 member;

member is always aligned properly, unless you pack the structure and put member after a char.

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This will be the case on PowerPC, but NOT on x86. PPC is big endian - words must be aligned, but on little endian, there is no guarantee of that. – LiraNuna Jan 23 '10 at 20:14
No compiler would generate code on purpose that used misaligned accesses on an x86. It would cause a severe performance hit. – Richard Pennington Jan 23 '10 at 20:17
@LiraNuna it is not true. Microsoft Visual C++ and GCC guarantee alignment of int to 4-byte boundary on x86. It is documented on MSDN, in case of Visual C++. – mloskot Jan 23 '10 at 20:19
Absolutely correct. All of the 4-byte basic types are 4-byte aligned by default on OS X. – Stephen Canon Jan 23 '10 at 21:52

ints are 4 byte aligned by default with any of the OS X compilers. All you need to do is not intentionally break that alignment (e.g. by doing improper pointer casts, marking your structure as packed, etc).

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I know nothing about Mac programming but on minicomputers that I used to work on, pointers were always aligned on 4-byte (word) boundaries. IIRC, structs were too. Allocated memory always was.

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If your compiler supports TR1 (or C++0x), you can use the std::aligned_storage template.

To allocate space for an object with size S and alignment A, you can allocate an object of type std::aligned_storage<S, A>::storage.

(The namespace may vary between compilers. I think TR1 doesn't specify which namespace the extensions must be placed in. On MSVC, the namespace std::tr1 is used)

Apart from this, 32-bit integers are already 4-byte aligned by the compiler (at least on the platforms where the natural alignment of 32-bit ints is 4 bytes)

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If you want to force a nice alignment in a structure, you can use bit fields.

   Foo _hisFoo;
   unsigned int dummyAlignment : 0;
   Foo _myFoo;
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A zero-length bit field pads to the next alignment boundary of its base declared type. This causes the next member to begin on a byte boundary (for char bit fields), 2-byte boundary (for short), 4-byte boundary (for int or long), or 8-byte boundary (for long long). Padding does not occur if the previous member's memory layout ended on the appropriate boundary. – EvilTeach Jan 23 '10 at 23:17

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