# Error: Statement Function is recursive

This is trying to solve a linear equation of 3*3 and print out the results, but it got problems in the commented lines:

I defined the module LinearSolution outside of program, should I define it inside? what's the difference?

Why it says the statement is recursive, you know, when I use these statement as normal subroutine instead of module subroutine, they are verified to be fine.

``````module LinearSolution
type LAE
integer::N
double precision,dimension(:,:),allocatable::A
double precision,dimension(  :),allocatable::B
contains
procedure,nopass::RowReduction
end type LAE
contains
subroutine RowReduction
double precision::C
do k=1,N
do i=k+1,N
if(A(k,k)/=0) then
C=A(i,k)/A(k,k)
B(i)=B(i)-B(k)*C       !error: Statement Function is recursive
do j=k+1,N
A(i,j)=A(i,j)-A(k,j)*C   !error: Statement Function is recursive
end do
end if
end do
end do

do k=N,1,-1
do i=k-1,1,-1
if(A(k,k)/=0) then
C=A(i,k)/A(k,k)
B(i)=B(i)-B(k)*C  !error: Statement Function is recursive
end if
end do
end do

do k=1,N
if(A(k,k)/=0) then
B(k)=B(k)/A(k,k)  !error: Statement Function is recursive
end if
end do
end subroutine RowReduction
end module LinearSolution

program TestLAE
use LinearSolution  !fatal error: cant open module file LinearSolution.mod for reading
type(LAE)::LAE1
LAE1%N=3
allocate(LAE1%B(1:N))
allocate(LAE1%A(1:N,1:N))
LAE1%B=(/1,1,1/)
LAE1%A=(/2,0,0,0,2,0,0,0,2/)
call LAE1%RowReduction
print*, LAE1%B(1),LAE1%B(2),LAE1%B(3)
end program
``````
-

As is so often the case, `implicit none` is your friend.

Let's take the errors one at a time:

``````B(i)=B(i)-B(k)*C       !error: Statement Function is recursive
``````

the compiler doesn't recognize `B` in this context; there is no variable declared `B` here(*), so the best it can do is assume that it's a real-valued statement function defining B as a function of I. Statement functions are space saving but confusing ways of defining a function inline, but amongst other things they can't be recursive; here you'd be defining `B(i)` in terms of `B(i)` which obviously fails.

(*) But! you cry. `B` is an array field in my type `LAE`! Yes, but we're not in the context of LAE here; and indeed, in the context of this function there are no variables of type `LAE` to even use the B values of. This is because the procedure was defined `nopass`; you need to have a variable which is the object being operated on which is of class `LAE` so that we can access those fields. That looks something like this:

``````    type LAE
!...
contains
procedure::RowReduction
end type LAE

contains
subroutine RowReduction(self)
class(LAE), intent(InOut) :: self
double precision::C
integer :: i, j, k
do k= 1, self%N
do i= k+1, self%N
if( self%A(k,k) /= 0 ) then
!....
``````

Note that we have to define self to be of `class(LAE)` rather than type; class is a superset of type and is needed when dealing with extensible objects which include those with (re-)allocatable components. Note too we've added implicit none which would tell you right away that `B` wasn't defined, and thus specified the integer indices i,j, and k.

Once `N`, `A`, and `B` are being correctly referenced as fields of `self`, then most of the rest of the program is correct. Note that you have to `reshape` your `LAE1%A` array:

``````LAE1%A=reshape((/2,0,0,0,2,0,0,0,2/), (/N, N/))
``````

But otherwise things seem fine.

``````module LinearSolution
implicit none

type LAE
integer::N
double precision,dimension(:,:),allocatable::A
double precision,dimension(  :),allocatable::B
contains
procedure::RowReduction
end type LAE

contains
subroutine RowReduction(self)
class(LAE), intent(InOut) :: self
double precision::C
integer :: i, j, k
do k= 1, self%N
do i= k+1, self%N
if( self%A(k,k) /= 0 ) then
C = self%A(i,k) / self%A(k,k)
self%B(i) = self%B(i)- self%B(k)*C
do j=k+1, self%N
self%A(i,j) = self%A(i,j) - self%A(k,j)*C
end do
end if
end do
end do

do k = self%N,1,-1
do i=k-1,1,-1
if( self%A(k,k)/=0) then
C= self%A(i,k)/ self%A(k,k)
self%B(i)= self%B(i)- self%B(k)*C
end if
end do
end do

do k=1, self%N
if( self%A(k,k)/=0 ) then
self%B(k) = self%B(k) / self%A(k,k)
end if
end do
end subroutine RowReduction
end module LinearSolution

program TestLAE
use LinearSolution
implicit none

integer, parameter :: N = 3
type(LAE)::LAE1
LAE1%N=N
allocate(LAE1%B(1:N))
allocate(LAE1%A(1:N,1:N))
LAE1%B=(/1,1,1/)
LAE1%A=reshape((/2,0,0,0,2,0,0,0,2/), (/N, N/))
call LAE1%RowReduction
print*, LAE1%B(1),LAE1%B(2),LAE1%B(3)
end program
``````

Running gives:

``````\$ gfortran -o lae lae.f90 -Wall -std=f2003
\$ ./lae
0.50000000000000000       0.50000000000000000       0.50000000000000000
``````
-
Thank you very much, that is very clear explanation!!! –  northfly Dec 29 '12 at 15:06
good call, though i cant agree that's the best the compiler can do. The actual error (undeclared array) is far more obvious than a bad statement function. Does modern fortran even allow statement functions interspersed among executables? –  george Dec 30 '12 at 16:00
@george: I agree; I was able to reproduce the error with gfortran 4.7.2, but ifort 13 gave me an undeclared array/function error for `B` and assumed `A` to be an external function name. Statement functions are only allowed in specification sections, but are of course obsolescent. –  sigma Dec 31 '12 at 13:29