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For example, consider the following:

Assume that int is 4-byte aligned, and long is 8-byte aligned.

struct example
    int a;
    long b;
    int c;

the obvious way for the compiler to lay this out in memory would be: AAAAPPPPBBBBBBBBCCCCPPPP with the whole structure having an 8-byte alignment.

  • P refers to a byte of padding
  • A refers to a byte of a
  • B refers to a byte of b
  • C refers to a byte of c

In this case, sizeof(example) is 24.

but another way of doing it would be the following: AAAABBBBBBBBCCCC with the whole structure having alignment such that the address of the starting byte mod 8 = 4 (not sure how to say this more succinctly)

in this case, there is no padding needed, so you save 8 bytes per instance.

My question is, are compilers allowed to do this(by the standard)? Do they actually do this? I've always seen alignment discussed simply in bytes.

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Standard-layout structs may not have padding at their beginning, see [class.mem]/19. One reason is that it allows converting a pointer to the struct to a pointer to its first member. – dyp Nov 23 '13 at 19:05
Your second version doesn't work, the long isn't guaranteed to be 8-byte aligned. – Mat Nov 23 '13 at 19:06
g++4.8.1 packs it as AAAA PPPP BBBB BBBB CCCC PPPP. Live example – dyp Nov 23 '13 at 19:12
@Mat That's the core of the OP's question - whether the structure's alignment requirement can be "must be aligned at second half of 8-byte word." – Angew Nov 23 '13 at 19:13
@Bwmat You're right, I've misread what you're suggesting. Something that would be a problem is getting memory allocation functions to return a suitably aligned pointer though. They know nothing of the type they're allocating for. Another problem would be putting your struct in a union alongside a long. The union type would have alignment requirements 8+0 and 8+4 simultaneously. – hvd Nov 23 '13 at 19:42

3 Answers 3

up vote 2 down vote accepted

A struct cannot have alignment requirements that are less strict than the alignment requirements of its members. If a member of the struct is 8-byte aligned, then the struct needs to be at least 8-byte aligned. If the struct is 8-byte aligned, then in your example, the second member would not be 8-byte aligned, since it is offset four bytes from the beginning of an 8-byte aligned struct, so it wouldn't meet the requirements.

The possible alternative would be to put padding at the beginning of the struct, but this is not allowed:

C++03 9.2p17

A pointer to a POD-struct object, suitably converted using a reinterpret_cast, points to its initial member (...) and vice-versa. [Note: There might therefore be unnamed padding within a POD-struct object, but not at its beginning, as necessary to achieve proper alignment.]

Another possible alternative would be (as your are suggesting) to have the 8-byte alignment actually mean ((address%8)==4) (as opposed to (address%8)==0). If that were the case though, then your 8-byte aligned long would have the same requirement. It isn't possible to have types with both (address%8)==0 and (address%8)==4 alignment, since there would be no way to generically allocate memory that meets both alignment requirements. Since the long would have this special alignment requirement as well, you still wouldn't be able to avoid the padding.

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You've misunderstood, the struct would not be 8-byte aligned. It would be 4-bytes offset from an 8-byte alignment. – Bwmat Nov 23 '13 at 19:35
@Bwmat: A struct cannot have alignment requirements that are less strict than the alignment requirements of its members. – Vaughn Cato Nov 23 '13 at 19:39
I wouldn't say that this requirement is less strict. It's as strict, just offset. In any case, could anyone quote the standard on this? – Bwmat Nov 23 '13 at 19:40
@Bwmat: I see what you are saying. I've added more to my answer which hopefully addresses this. – Vaughn Cato Nov 23 '13 at 20:24

You are forgetting about arrays. In general case, how do you propose the compiler should make sure that "starting byte mod 8 = 4" in case of an array, for each array element?

Remember that C language requires that for any array object of type T a[N] the following holds true

sizeof a == sizeof *a * N

That means that any padding present inside the entire array object a must come from individual elements of type T. Arrays are not allowed to add their own padding.

In other words, the compiler cannot simply remember to align the individual struct objects properly. It actually has to include the padding into the struct objects and count that padding as part of sizeof for that struct object.

Your AAAABBBBBBBBCCCC is a "nice" one, since when such objects are stored compactly in an array (with no extra padding), they all end up properly aligned if the very first element of the array is properly aligned. But how do you expect to achieve proper alignment for the first element if the array memory is allocated by malloc, for example. malloc knows nothing about the type for which memory is being allocated, which means that it can't tailor its behavior to specific alignment requirements of your type.

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Compiler will try to align each members, by adding padding. There is usually a maximum alignment that depends on the compiler and the processor (for example usually you don't have alignments like 256 bytes alignment). This maximum alignment is not even present in the standard, so it is not impossible to have a compiler aligning structs of size 2048...

As said by DyP in the comments, gcc can pack it as:


Live example.

Please note that it can pack it another way (try it with double on Ideone and compare with Stacked-Crooked).

If you want no padding, you can use a preprocessor directive:

#pragma pack

This is compatible with gcc and MSVC.

With this, the same version of gcc used for the previous example packs it as:


Live example.

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