There is a differentiation between allocated arrays (i.e. those created with a
new expression, like
new double[s]), whose lifetimes must be managed by the code (via
delete) and declared arrays, whose lifetimes are managed by their scope alone:
int* p = new int[s]; // allocated array, p has type int*
int q; // declared array, q has type int
std::vector<int> u; // has member allocated array
std::array<int, 5> v; // has member declared array
The differentiation is not based on stack/heap. A declared array can be heap allocated (e.g.
new array<int,5>) or not on the stack (e.g.
static double x;)
With an allocated array, the size does not have to be a constant expression. The size will simply be encoded into the block of memory yielded by the allocator somehow (for instance the four leading bytes before the actual data starts) so that the corresponding
delete knows how many elements to delete.
With a declared array (or non-allocated array, no
malloc/etc.), the size must† be coded into the type, so that the destructor knows what to do. The only allowed, standard array declaration is:
D is a declarator that could be a name or another array declaration, etc.) Declared arrays are not limited to the stack. Note that, for added confusion, the constant-expression is optional.
Arrays offer many sources of confusion in C++. Allocated and declared arrays have different size rules, different management practices, but you can assign a
T* to either and they're equivalently indexed. An allocated array is a pointer (that's all you get), but a declared array decays to a pointer (but is an array!).
†Note that there is a concept of a Variable Length Array (VLA). gcc, for instance, supports them as an extension, but they are non-standard C++. It gets periodically proposed though, and you can see this question for more information about them.