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sizeof(char) is always 1 and it seems to me that the alignment requirement of a type can never be larger than its size. Quoting from the upcoming C++11 standard (3.11):

An aligment is an implementation-defined integer value representing the number of bytes between successive addresses at which a given object can be allocated.

So if the alignment of a type were greater than its size, it would not be possible to create arrays without empty space between consecutive elements.

Is this interpretation correct and is thus alignof(char) == 1 always?

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Yes, that is correct. What more are you seeking? –  CommonSense Aug 25 '11 at 14:16
As I recall, sizeof(char)==1 by definition. –  Raymond Chen Aug 25 '11 at 14:18
@CommonSense: nothing more, was just trying to check if the reasoning is correct. –  bluescarni Aug 25 '11 at 15:03
You might also consider the value of CHAR_BIT, which might help char get the correct alignment. –  Bo Persson Aug 25 '11 at 19:22
@Bo Persson: I was under the impression that sizeof and alignof speak in bytes, so how is CHAR_BIT useful in this context? –  bluescarni Aug 26 '11 at 11:27

2 Answers 2

up vote 1 down vote accepted

You are correct.

You can infer from the "compact" (no padding) layout of C++ arrays that any object type such that an array of this type can be defined must have an alignment that is a divisor of its size.

In particular, the alignment of such a type of size 1 must be 1.

In particular, the alignment of char, signed char, and unsigned char is 1.

OTOH, you cannot infer anything about the alignment of an abstract class with this argument.

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I looked at the way C++11 defines pointer arithmetic and didn't see anything that would prevent a type's alignment from being larger than its size. The compiler would be responsible for making sure every element in the array was properly aligned (by inserting the right amount of padding) and for making sure that pointer arithmetic works properly. Basically, pointer arithmetic is not defined with reference to sizeof(*ptr) even though people usually talk about it as though it is.

n3290 § 5.7 p5:

When an expression that has integral type is added to or subtracted from a pointer, the result has the type of the pointer operand. If the pointer operand points to an element of an array object, and the array is large enough, the result points to an element offset from the original element such that the difference of the subscripts of the resulting and original array elements equals the integral expression.


However, the sizeof operator is defined in terms of the offset between consecutive elements in an array, so alignof(X) can't be greater than sizeof(X) because that would mean an array of X contains objects at invalid alignments. At the same time, sizeof(X) doesn't necessarily represent the actual size of the object. E.g. an X member or base sub-object of another type may use less than sizeof(X) bytes to store, although I don't know of any implementation that actually uses that.

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If such a requirement really was dropped by C++11, it would only mean that standard editing went wrong. Would not be the first time. –  curiousguy Oct 1 '11 at 1:39
I believe you're thinking of the sizeof(char) == 1 requirement in C++. As far as I know alignof(char) has never been required to be 1. Can you please clarify? –  bames53 Oct 5 '11 at 20:36
Do you claim that alignof(char) > 1 is deliberatly allowed in C/C++, or do you claim that both standard committees forgot to rule out this possibility? –  curiousguy Oct 7 '11 at 14:00
It looks to me like the C++ standard deliberately allows types to have alignments larger than their size. So has the C++ standard ever required alignof(char) == 1? As far as I can tell it has not, so this is not a requirement that was 'dropped'. –  bames53 Oct 7 '11 at 19:29
Actually, come to think of it the definition you quoted for arrays doesn't actually mean there can't be padding between objects. 'contiguously allocated' just means that the allocated space is contiguous, not that the array sub-objects are contiguous with each other. However the definition for sizeof is pretty explicit that it counts padding. –  bames53 Feb 18 '12 at 6:38

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