Well, there are two sizes here. The
vector itself is typically no more than a pointer or two to some allocated memory, and unsigned integers keeping track of size and capacity. There is also the allocated memory itself, which is what I think you want.
What you want to do is make a custom allocator that the
vector will use. When it comes time, it will use your allocator and you can have your own special functionality. I won't go over the full details of an allocator, but the specifics:
template <typename T>
pointer allocate(size_type pCount, const_pointer = 0)
pointer mem = 0;
if (posix_memalign(&mem, YourAlignment, sizeof(T) * pCount) != 0)
throw std::bad_alloc(); // or something
void deallocate(pointer pPtr, size_type)
And then you'd use it like:
typedef std::vector<T, aligned_allocator<T> > aligned_T_vector;
vec.push_back( /* ... */ ); // array is aligned
But to reiterate the first point, the size of a
vector is the same regardless of how many elements it's holding, as it only points to a buffer. Only the size of that buffer changes.