I am trying to make an array with different lengths in a second dimension e.g.:
A = 1 3 5 6 9 2 3 2 2 5 8 9
Is this possible? I've spent a fair amount of time looking but cannot find out either way.
Yes and no. First the no:
Proper arrays in Fortran, such as those declared like this:
integer, dimension(3,3,4) :: an_array
or like this
integer, dimension(:,:,:,:), allocatable :: an_array
are regular; for each dimension there is only one extent.
But, if you want to define your own type for a ragged array you can, and it's relatively easy:
type :: vector integer, dimension(:), allocatable :: elements end type vector type :: ragged_array type(vector), dimension(:), allocatable :: vectors end type ragged_array
With this sort of approach you can allocate the
elements of each of the
vectors to a different size. For example:
type(ragged_array) :: ragarr ... allocate(ragarr%vectors(5)) ... allocate(ragarr%vectors(1)%elements(3)) allocate(ragarr%vectors(2)%elements(4)) allocate(ragarr%vectors(3)%elements(6))
looking at the first answer, it seems there is no need to create the derived type
vector which is really just an allocatable integer array:
type ragged_array integer,allocatable::v(:) end type ragged_array type(ragged_array),allocatable::r(:) allocate(r(3)) allocate(r(1)%v(5)) allocate(r(2)%v(10)) allocate(r(3)%v(15))
this makes the notation a little less cumbersome..