# How to deal with the uncertain loops in subroutine?

As you see, how to deal with the nn (as an input parameter) loops in the following subroutine? Or is there some better method for solving the following problem? Thanks!

``````subroutine sub(nn,kk,cc,d,res)
implicit none
integer res0,res
integer nn,kk(nn),kk2(nn),d(nn)，cc(nn)

res=0

do kk(1)=0,d(1)
do kk(2)=0,d(2)
do kk(3)=0,d(3)
...
do kK(nn)=0,d(nn)

res0=0
kk2=kk ! They are arrays.
call othersub(kk2,nn,res0)!So array kk should be obtained for this othersub().
res=res+res0

end do
...
end do
end subroutine
``````
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Maybe someone will be more successful, but I can't make heads nor tails of the question. Also, why is this tagged `[c]`? – NPE Dec 7 '13 at 8:03
You need to give us more information. In your example you have the loops deeply nested - is this absolutely necessary? – Rob Dec 7 '13 at 10:00
I agree with @Rob. It is far more likely that you can refactor this to not need an unknown number of loops. But we cannot help you without more information. – Kyle Kanos Dec 7 '13 at 11:21
Thanks for your considerations. I added some information in the question. In fact, I also don't want to use loop. And, as you see, I want to calculate othersub(), which is related with the array kk. Is there some better way for producing this array? – Orders Dec 7 '13 at 11:40
@AlexanderVogt , No, I just want to use the different values of loop variables as input values for othersub(). See the question again and I changed it a little. – Orders Dec 7 '13 at 12:03

Why not something like :

``````ntot=1
do i=1,nn
ntot=ntot*(d(i)+1)
enddo

do k=1,ntot

n=k

do i=1,nn
kk(i)=mod(n,d(i)+1)
n=n/(d(i)+1)
enddo

!... use the array kk as you want

enddo
``````
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There are two possible ways of doing this: recursive and non-recursive. Depends on how well you can follow recursion.

``````  module NestedMod
contains
! Dummy routine to do something
subroutine Something(loop, loopMax, res)
integer, dimension(:), intent(in):: loop
integer, intent(in):: loopMax
real, intent(inout):: res

res = res + sum(loop)
end subroutine Something

recursive subroutine descend(current, maxDepth, loop, maxLoop, DoSomething, res)
integer, intent(in):: current
integer, intent(in):: maxDepth
integer, dimension(:), intent(inout):: loop
integer, dimension(:), intent(in):: maxLoop
real, intent(out):: res
interface
subroutine DoSomething(a, asize, res)
integer, dimension(:), intent(in):: a
integer, intent(in):: asize
real, intent(inout):: res
end subroutine DoSomething
end interface

! More efficient timewise to do it separately
if (current .eq. maxDepth) then
do ii = 0, maxLoop(current)
loop(current) = ii
call DoSomething(loop, maxDepth, res)
end do
else
do ii = 0, maxLoop(current)
loop(current) = ii
call descend(current + 1, maxDepth, loop, maxLoop, DoSomething, res)
end do
end if
end subroutine descend

subroutine ascend(maxDepth, maxLoop, DoSomething, res)
integer, intent(in):: maxDepth
integer, dimension(:), intent(in):: maxLoop
real, intent(out):: res
interface
subroutine DoSomething(a, asize, res)
integer, dimension(:), intent(in):: a
integer, intent(in):: asize
real, intent(inout):: res
end subroutine DoSomething
end interface
integer, allocatable:: loop(:)
integer:: depth

allocate(loop(maxDepth))
loop = -1
depth = 1
do while (depth .gt. 0)
loop(depth) = loop(depth) + 1
if (loop(depth) .gt. maxLoop(depth)) then
! reset loop counter
loop(depth) = -1
! ascend
depth = depth - 1
! off the top?
if (depth .eq. 0) exit
else if (depth .lt. maxDepth) then
! descend
depth = depth + 1
else
call DoSomething(loop, maxDepth, res)
end if
end do
deallocate(loop)
end subroutine ascend
end module NestedMod
program main
use NestedMod
integer, parameter:: DEPTH = 5
integer, dimension(DEPTH):: loop, loopMax
integer:: size, index
real:: res
loopmax = (/2, 3, 5, 2, 3 /)
res = 0
call descend(1, DEPTH, loop, loopMax, Something, res)
print *, 'Recursive res = ', res

res = 0
call ascend(DEPTH, loopMax, Something, res)
print *, 'Non recursive res = ', res
end program
``````
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