```
PROGRAM MPI
IMPLICIT NONE
INTEGER, PARAMETER :: nn=100
DOUBLE PRECISION h, L
DOUBLE PRECISION, DIMENSION (2*nn) :: y, ynew
DOUBLE PRECISION, DIMENSION (nn) :: qnew,vnew
DOUBLE PRECISION, DIMENSION (2*nn) :: k1,k2,k3,k4
INTEGER j, k
INTEGER i
INTEGER n
n=100 !particles
L=2.0d0
h=1.0d0/n
y(1)=1.0d0
DO k=1,2*n ! time loop
CALL RHS(y,k1)
CALL RHS(y+(h/2.0d0)*k1,k2)
CALL RHS(y+(h/2.0d0)*k2,k3)
CALL RHS(y+h*k3,k4)
ynew(1:2*n)=y(1:2*n) + (k1 + 2.0d0*(k2 + k3) + k4)*h/6.0d0
END DO
qnew(1:n)=ynew(1:n)
vnew(1:n)=ynew(n+1:2*n)
DO i=1,n
IF (qnew(i).GT. L) THEN
qnew(i) = qnew(i) - L
ENDIF
END DO
write(*,*) 'qnew=', qnew(1:n)
write(*,*) 'vnew=', vnew(1:n)
END PROGRAM MPI
!%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
! Right hand side of the ODE
!%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
SUBROUTINE RHS(y,z)
IMPLICIT NONE
INTEGER, PARAMETER :: nn=100
DOUBLE PRECISION, DIMENSION (2*nn) :: y
DOUBLE PRECISION, DIMENSION (2*nn) :: z
DOUBLE PRECISION, DIMENSION (nn) :: F
DOUBLE PRECISION, DIMENSION (nn) :: g
INTEGER n
INTEGER m
n=100
m=1/n
z(1:n)=y(n+1:2*n)
CAll FORCE(g,F)
z(n+1:2*n)=F(1:n)/m
RETURN
END
!%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
! Force acting on each particle
!%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
SUBROUTINE FORCE(g,F)
IMPLICIT NONE
INTEGER, PARAMETER :: nn=100
DOUBLE PRECISION, DIMENSION (nn) :: F
DOUBLE PRECISION, DIMENSION (nn) :: q
DOUBLE PRECISION, DIMENSION (nn) :: g
DOUBLE PRECISION u
INTEGER j, e
INTEGER n
n=100
e=1/n
DO j=2,n+1
CALL deriv((abs(q(j)-q(j-1)))/e,u)
g(j-1)=((y(j)-y(j-1))/(abs(y(j)-y(j-1))))*u
CALL deriv((abs(q(j)-q(j+1)))/e,u)
g(j+1)=((y(j)-y(j+1))/(abs(y(j)-y(j+1))))*u
F(j)=g(j-1)+g(j+1)
END DO
RETURN
END
SUBROUTINE deriv(c,u,n)
IMPLICIT NONE
INTEGER, INTENT(in) :: n
DOUBLE PRECISION, DIMENSION(n), INTENT(IN) :: c
DOUBLE PRECISION, DIMENSION(n), INTENT(OUT) :: u
INTEGER, PARAMETER :: p=2
INTEGER, PARAMETER :: cr=100
INTEGER :: i
DOUBLE PRECISION L
L=2.0d0
DO i= 1,n
IF (c(i) .LE. L) THEN
u(i)=cr*(L*(c(i)**(-p))-L**(1-p))
ELSE IF (c(i) .GT. L) THEN
u(i)=0
END IF
END DO
RETURN
END SUBROUTINE deriv
```

I am only getting one same error on line 85 and 87. It says:

y has no implicit type at y(j-1) ans at y(j+1).

declaredwhat type y is, much less plugged any values into there. What is supposed to go there? How would`subroutine force`

know that? – Jonathan Dursi Apr 26 '11 at 21:00