23

I've searched through the standard about unaligned access, but didn't find anything (maybe I was inadvertent).

Is it undefined behavior? Is it implementation defined?

As a lot of current CPUs support unaligned access, it would be sensible that unaligned memory access is implementation defined. Is it the case?

By unaligned access, I mean for example:

alignas(int) char buffer[sizeof(int)+1];
int &x = *new(buffer+1) int;
x = 42;
  • 1
    I think the relevant section is [basic.align]. Implementation-defined. – Raymond Chen Jul 1 '18 at 19:26
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    @RaymondChen: all I found is that alignment value is implementation defined. But nothing about unaligned access. Do you see something else there? – geza Jul 1 '18 at 19:35
  • How do we know that this is an unaligned access? sizeof(int) and the required alignment are both implementation defined. Could be the same as for char. – Bo Persson Jul 1 '18 at 21:13
21

No, it is UB. You cannot start the lifetime of an object at unaligned memory. From [basic.life]p1

The lifetime of an object of type T begins when:

  • storage with the proper alignment and size for type T is obtained, and

  • if the object has non-vacuous initialization, its initialization is complete,

[...]

So in your example, the lifetime of the object referenced by x doesn't even begin, so any other usage of it other than mentioned in [basic.life]p6 is UB.

But what your implementation is allowed to do is say that unaligned memory (as specified by the underlying architecture used) is actually aligned, thus making your code valid under the C++ abstract machine. I'm not sure whether any compiler does this however.

  • 1
    @MaximEgorushkin: that's true, but does it matter? Suppose that the requirement is 4. Does my example's behaviour implementation defined, or UB? Reading the quoted part, I think that Rakete1111 is right, and it is UB indeed, because new int is called on an unaligned pointer. – geza Jul 1 '18 at 19:58
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    @MaximEgorushkin Whatever compiler developers decide it should return. It could return 1, or it could (as on my GCC) return 4. If hardware allows misaligned access with a performance overhead, the implementation can still return 4 to make (most) integers aligned, improving performance. – HolyBlackCat Jul 1 '18 at 20:10
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    @MaximEgorushkin Here by compiler I mean an entire tool that makes object files from C++ source code. – HolyBlackCat Jul 1 '18 at 20:15
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    @MaximEgorushkin It's probably the alignment that alignof returns. – HolyBlackCat Jul 1 '18 at 20:16
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    @geza It is explicit. The abstract machine doesn't care about alignement of the underlying HW. If the compiler says that the memory is unaligned, then you get UB no matter the HW. – Rakete1111 Jul 2 '18 at 11:27

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