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I'm currently in the process of developing an OS kernel in C++11, and I've come across a question, I cannot seem to find the answer to myself.

Currently I'm aligning my paging structures, using compiler specific attributes (eg. gcc's __attribute__(aligned)), however I'm wanting to use the C++11 alignas specifier instead, on Clang++ this is no issue, as it gladly accepts 4096 alignment as parameter to alignas, however G++ does not!

So first of all, what's the main difference between the alignas specifier, and the gcc __attribute__(aligned), obviously both ensure alignment to a specific value, however the alignas specifier in gcc seems to have a limit of 128, while the attribute seems almost limitless, why is this?

Also why can't one pass a const integer to the alignas specifier?

share|improve this question
What version of GCC? If you pick GCC 4.8 here: liveworkspace.org/code/1hxHGg$0, it works just fine. – R. Martinho Fernandes Mar 20 '13 at 12:42
@R.MartinhoFernandes: 4.8; see liveworkspace.org/code/1kRIjz$0, with error warning: requested alignment 4096 is larger than 128 [-Wattributes] – Skeen Mar 20 '13 at 12:45
Oh it's in a type. That sounds like useful information to put in the question :) – R. Martinho Fernandes Mar 20 '13 at 12:46
@R.MartinhoFernandes: Didn't knew it'd make a difference. :) – Skeen Mar 20 '13 at 12:51
I didn't know that either, but seeing our two snippets, it appears it does make a difference. – R. Martinho Fernandes Mar 20 '13 at 12:52
up vote 5 down vote accepted

It seems from the GCC support status, alignment support is not fully supported in gcc 4.7, but it is for gcc 4.8. alignas is also listed as a newly supported feature from the 4.8 release page.

Also, from the alignment support proposal (3.11):

A fundamental alignment is represented by an alignment less than or equal to the greatest alignment supported by the implementation in all contexts, which is equal to alignof(std::max_align_t) (18.1).

An extended alignment is represented by an alignment greater than alignof(std::max_align_t). It is implementation-defined whether any extended alignments are supported and the contexts in which they are supported (7.1.6). A type having an extended alignment requirement is an over-aligned type.

And from the same document (7.1.6):

if the constant expression evaluates to an extended alignment and the implementation does not support that alignment in the context of the declaration, the program is illformed

That might be part of the answer too. I don't have access to the full standard at the moment, someone should be able to confirm this.

As for the difference between __attribute__(aligned) and alignas, i don't think they are semantically different, but one is just a compiler extension while the other is fully defined by the standard.

To answer your last question, alignas is only defined for:

alignas ( constant-expression ) 
alignas ( type-id ) 
share|improve this answer
I get that one is in the standard and the other one is a compiler extension, but why not have the same limit, as the implementation apperently would be the same? - Also what would be the argument for not supporting constant integers in the standard, as argument to alignas? – Skeen Mar 20 '13 at 17:09
Actually it seems to work with constant integers too for gcc-4.8. The current limit might just be an implementation issue for GCC. I doubt the implementation is the same for named specifiers and compiler extensions, even though the semantics is. It might just be a temporary limitation. – Thibaut Mar 20 '13 at 17:28
You're right, it seems like it does work (it's the __attribute__((aligned(...)), that doesn't accept an constant integer), I kinda hope it's temporary or atleast switchable on the compiler in the future. – Skeen Mar 20 '13 at 17:33
You answer is also why they definitely have a different implementation for both :) – Thibaut Mar 20 '13 at 17:40
I checked the source code of gcc 4.8 briefly, this warning fires for all over-aligned types (over std::max_align_t). My guess is that this is definitely a temporary issue and will be implemented later, since it is not strictly defined by the standard. The warning might remain though, as the behavior is implementation specific. – Thibaut Mar 20 '13 at 17:48

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