Ok, I will explain by why the number of bytes is limited, not only the element count. During array indexing, the address of the element must be calculated. Of course it must fit to the
intptr_t C variable. Also, the size of the array in bytes must fit in a
size_t C variable. These are both 32-bit or 64-bit on 32-bit and 64-bit programs on modern machines. The same also holds for the virtual memory addressable by program! And also the memory addressable by the OS and CPU, though they can be 64-bit even if the program is 32-bit.
This is the fundamental reason why 32-bit programs and operating systems cannot address more than 4 GB of memory. Even if you could somehow compute the address using a Fortran variable wider than the chosen CPU word size, the CPU simply cannot access it.
Finally I mad an experiment in Intel Fortran in 32-bit mode with array with 32 byte elements:
complex(16), allocatable :: a(:)
a(size(a)) = 1
ifort arraysize.f90 -m32 -check -traceback -g
The output is as expected:
forrtl: severe (179): Cannot allocate array - overflow on array size calculation.
As expected the size of the array in bytes overflowed and the program crashed long before the indexing variable overflowed. This is not a compiler specific feature, but there is a fundamental reason for this.