A simplified description of the problem:
There are exactly maxSize people shopping in a store. Each of them has a shopping list, containing the price of items (as integers). Using Fortran arrays, how can I represent all the shopping lists. The shopping lists may contain any number of items (1, 10, 1000000000).
(NOTE: The actual problem is far more complicated. It is not even about shopping.)
The lazy approach would be:
integer :: array(maxSize, A_REALLY_BIG_NUMBER)
However, this is very wasteful, I basically want the second dimension to be variable, and then allocate it for each person seperately.
The obvious attempt, doomed to failure:
integer, allocatable :: array(:,:) allocate(array(maxSize, :)) ! Compiler error
Fortran seems to require that arrays have a fixed size in each dimension.
This is wierd, since most languages treat a multidimensional array as an "array of arrays", so you can set the size of each array in the "array of arrays" seperately.
Here is something that does work:
type array1D integer, allocatable :: elements(:) ! The compiler is fine with this! endtype array1D type(array1D) :: array2D(10) integer :: i do i=1, size(array2D) allocate(array2D(i)%elements(sizeAt(i)) enddo
If this is the only solution, I guess I will use it. But I was kind of hoping there would be a way to do this using intrinsic functions. Having to define a custom type for such a simple thing is a bit annoying.
In C, since an array is basically a pointer with fancy syntax, you can do this with an array of pointers:
int sizeAt(int x); //Function that gets the size in the 2nd dimension int * array[maxSize]; for (int x = 0; x < maxSize; ++x) array[x] = (int*)(calloc(sizeAt(x) , sizeof(int)));
Fortran seems to have pointers too. But the only tutorials I have found all say "NEVER USE THESE EVER" or something similar.