std::array is defined to have contiguous storage and performance that is no worse than an array, but I can't decide if the various requirements of the standard imply that std::array has the same size and memory layout as a normal array. That is can you count on
sizeof(std::<int,N>) == sizeof(int)*N or is that implementation specific?
In particular, is this guaranteed to work the way you would expect it to:
std::vector< std::array<int, N> > x(M); typedef (*ArrayPointer)[N]; ArrayPointer y = (ArrayPointer) &x; // use y like normal multidimensional array
It works in the two compilers I tried (GNU & Intel). Furthermore, all the 3rd party documentation I could find (like this), states that std::array is just as memory efficient as a plain array, which combined with the contiguous requirement would imply that it must have identical memory layout. However I can't find this requirement in the standard.