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I'm in the middle of a discussion trying to figure out whether unaligned access is allowable in C++ through reinterpret_cast. I think not, but I'm having trouble finding the right part(s) of the standard which confirm or refute that. I have been looking at C++11, but I would be okay with another version if it is more clear.

Unaligned access is undefined in C11. The relevant part of the C11 standard (§ 6.3.2.3, paragraph 7):

A pointer to an object type may be converted to a pointer to a different object type. If the resulting pointer is not correctly aligned for the referenced type, the behavior is undefined.

Since the behavior of an unaligned access is undefined, some compilers (at least GCC) take that to mean that it is okay to generate instructions which require aligned data. Most of the time the code still works for unaligned data because most x86 and ARM instructions these days work with unaligned data, but some don't. In particular, some vector instructions don't, which means that as the compiler gets better at generating optimized instructions code which worked with older versions of the compiler may not work with newer versions. And, of course, some architectures (like MIPS) don't do as well with unaligned data.

C++11 is, of course, more complicated. § 5.2.10, paragraph 7 says:

An object pointer can be explicitly converted to an object pointer of a different type. When a prvalue v of type “pointer to T1” is converted to the type “pointer to cv T2”, the result is static_cast<cv T2*>(static_cast<cv void*>(v)) if both T1 and T2 are standard-layout types (3.9) and the alignment requirements of T2 are no stricter than those of T1, or if either type is void. Converting a prvalue of type “pointer to T1” to the type “pointer to T2” (where T1 and T2 are object types and where the alignment requirements of T2 are no stricter than those of T1) and back to its original type yields the original pointer value. The result of any other such pointer conversion is unspecified.

Note that the last word is "unspecified", not "undefined". § 1.3.25 defines "unspecified behavior" as:

behavior, for a well-formed program construct and correct data, that depends on the implementation

[Note: The implementation is not required to document which behavior occurs. The range of possible behaviors is usually delineated by this International Standard. — end note]

Unless I'm missing something, the standard doesn't actually delineate the range of possible behaviors in this case, which seems to indicate to me that one very reasonable behavior is that which is implemented for C (at least by GCC): not supporting them. That would mean the compiler is free to assume unaligned accesses do not occur and emit instructions which may not work with unaligned memory, just like it does for C.

The person I'm discussing this with, however, has a different interpretation. They cite § 1.9, paragraph 5:

A conforming implementation executing a well-formed program shall produce the same observable behavior as one of the possible executions of the corresponding instance of the abstract machine with the same program and the same input. However, if any such execution contains an undefined operation, this International Standard places no requirement on the implementation executing that program with that input (not even with regard to operations preceding the first undefined operation).

Since there is no undefined behavior, they argue that the C++ compiler has no right to assume unaligned access don't occur.

So, are unaligned accesses through reinterpret_cast safe in C++? Where in the specification (any version) does it say?

Edit: By "access", I mean actually loading and storing. Something like

void unaligned_cp(void* a, void* b) {
  *reinterpret_cast<volatile uint32_t*>(a) =
    *reinterpret_cast<volatile uint32_t*>(b);
}

How the memory is allocated is actually outside my scope (it is for a library which can be called with data from anywhere), but malloc and an array on the stack are both likely candidates. I don't want to place any restrictions on how the memory is allocated.

Edit 2: Please cite sources (i.e., the C++ standard, section and paragraph) in answers.

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Looking at 3.11/1:

Object types have alignment requirements (3.9.1, 3.9.2) which place restrictions on the addresses at which an object of that type may be allocated.

There's some debate in comments about exactly what constitutes allocating an object of a type. However I believe the following argument works regardless of how that discussion is resolved:

Take *reinterpret_cast<uint32_t*>(a) for example. If this expression does not cause UB, then (according to the strict aliasing rule) there must be an object of type uint32_t (or int32_t) at the given location after this statement. Whether the object was already there, or this write created it, does not matter.

According to the above Standard quote, objects with alignment requirement can only exist in a correctly aligned state.

Therefore any attempt to create or write an object that is not correctly aligned causes UB.


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