The obvious thing that could have gone wrong would be if
v wasn't aligned properly.
But it's allocated dynamically by
vector, so it isn't subject to stack misalignment issues.
However, as phooji correctly points out, a "template" or "prototype" value is passed to the
std::vector constructor which will be copied to all the elements of the vector. It's this parameter of
std::vector::vector that will be placed on the stack and may be misaligned.
Some compilers have a pragma for controlling stack alignment within a function (basically, the compiler wastes some extra space as needed to get all locals properly aligned).
According to the Microsoft documentation, Visual C++ 2010 should set up 8 byte stack alignment automatically for SSE types and has done so since Visual C++ 2003
For gcc I don't know.
Under C++0x, for
new point() to return unaligned storage is a serious non-compliance.
[basic.stc.dynamic.allocation] says (wording from draft n3225):
The allocation function attempts to allocate the requested amount of storage. If it is successful, it shall
return the address of the start of a block of storage whose length in bytes shall be at least as large as
the requested size. There are no constraints on the contents of the allocated storage on return from the
allocation function. The order, contiguity, and initial value of storage allocated by successive calls to an
allocation function are unspeciﬁed. The pointer returned shall be suitably aligned so that it can be converted
to a pointer of any complete object type with a fundamental alignment requirement (3.11) and then used
to access the object or array in the storage allocated (until the storage is explicitly deallocated by a call to
a corresponding deallocation function).
Additionally, a request for runtime allocation of dynamic storage for which the
requested alignment cannot be honored shall be treated as an allocation failure.
Can you try a newer version of gcc where this might be fixed?