i try to run my f90 code. It's a converted version of an old f77 code.

When i try to compile it with different compiler (IFORT, GFORTRAN) I have two different results: run the program yourself with the two compiler and see, for istance with GNUplot, the plot:

```
plot 'orbitm.txt' u 1:2
```

With the two compiler the output of the plot is VERY different !

I suppose that this different depend (also) in such a way by the `COMMON`

command, i try to replace it with a `MODULE`

but i find out some errors.

I put some change to my code as recommended by the comments:

```
module data
REAL*8 :: OME = 1.D0
REAL*8 :: MU = 0.000954
end module
PROGRAM MAIN
use data
IMPLICIT NONE
REAL*8 :: dist0 , dt , duepi , e , e0 , ermed , errh , H , k_max_r8
REAL*8 :: ptau , ptau0 , px , px0 , py , py0 , t , tau , tau0 , n_step_r8
REAL*8 :: t_per, x , x0 , y , y0, k_r8 , m_per
INTEGER :: k , k_max , n_step
duepi = 8.d0*DATAN(1.D0)
!duepi = 2.d0*3.1415926535897932d0
t_per = duepi/OME
n_step = 1000
! do iX0=1,6
! do iY0=-50,50
! x0 = (0.5d0-MU)+(0.0001*iX0) !và da 0.449 a 0.599
! y0 = (sqrt(3.d0)/2.d0)+(0.0001*iY0) ! va da 0.868 a 0.864
OPEN (UNIT=11,FILE='orbitm.txt')
x0 = 0.47
y0 = SQRT(3.D0)/2.D0
tau0 = 0.d0
px0 = OME*y0
py0 = -OME*x0
ptau0 = 1.d0
x = x0
y = y0
tau = tau0
px = px0
py = py0
ptau = ptau0
n_step_r8 = real(n_step)
dt = t_per/n_step_r8
e0 = H(x,y,tau,px,py,ptau)
k_max = 1000*n_step
k = 0
t = 0.d0
errh = 0.d0
!---------
! inizio loop integrazione
!--------
ermed = 0.d0
DO k = 1 , k_max
k_r8 = real(k)
CALL SYM4(x,y,tau,px,py,ptau,dt)
e = H(x,y,tau,px,py,ptau)
errh = ABS(e-e0)
t = k_r8*dt
IF ( MOD(k,n_step).EQ.0 ) THEN
WRITE (11,'(4g12.5)') x , y , px , py
ENDIF
ENDDO
k_max_r8 = real(k_max)
DO k = 1 , k_max
CALL SYM4(x,y,tau,px,py,ptau,-dt)
e = H(x,y,tau,px,py,ptau)
errh = ABS(e-e0)
t = t - dt
ENDDO
! write(*,*) ix0,ermed,errh
! enddo ! iY0
! enddo ! iX0
! close(11)
END
REAL*8 FUNCTION H(X,Y,Tau,Px,Py,Ptau)
use data
IMPLICIT NONE
REAL*8 :: c , Ptau , Px , Py , r1 , r2 , s , Tau , X , Y
c = COS(OME*Tau)
s = SIN(OME*Tau)
r1 = SQRT((X+MU*c)**2+(Y-MU*s)**2)
r2 = SQRT((X-(1.d0-MU)*c)**2+(Y+s*(1.d0-MU))**2)
H = (Px*Px)/2.D0 + (Py*Py)/2.D0 + Ptau - (1.d0-MU)/r1 - MU/r2
END
SUBROUTINE F(X,Y,Tau,Fx,Fy,Ftau)
use data
IMPLICIT NONE
REAL*8 :: c, Ftau , Fx , Fy , r1 , r2 , s , Tau , X , Y
c = COS(OME*Tau)
s = SIN(OME*Tau)
r1 = SQRT((X+MU*c)**2+(Y-MU*s)**2)
r2 = SQRT((X-(1.d0-MU)*c)**2+(Y+s*(1.d0-MU))**2)
Fx = -((1.d0-MU)*(X+MU*c))/r1**3 - (MU*(X-c*(1.d0-MU)))/r2**3
Fy = -((1.d0-MU)*(Y-MU*s))/r1**3 - (MU*(Y+s*(1.d0-MU)))/r2**3
Ftau = -( (1.d0-MU)*OME*MU*(-s*(X+MU*c)-c*(Y-MU*s)) )/r1**3.d0 - ( MU*(1.d0-MU)*OME*(s*(X-(1.d0-MU)*c)+c*(Y+(1.d0-MU)*s)) )/r2**3.d0
END
SUBROUTINE SYM2(X,Y,Tau,Px,Py,Ptau,Dt)
IMPLICIT NONE
REAL*8 :: Dt , ftau , ftaunew , fx , fxnew , fy , fynew , Ptau
REAL*8 :: ptaunew , Px , pxnew , Py , pynew , Tau , taunew , X
REAL*8 :: xnew , Y , ynew
CALL F(X,Y,Tau,fx,fy,ftau)
xnew = X + Px*Dt + fx*(Dt**2.d0)/2.D0
ynew = Y + Py*Dt + fy*(Dt**2.d0)/2.D0
taunew = Tau + Dt
CALL F(xnew,ynew,taunew,fxnew,fynew,ftaunew)
pxnew = Px + Dt*(fx+fxnew)/2.D0
pynew = Py + Dt*(fy+fynew)/2.D0
ptaunew = Ptau + Dt*(ftau+ftaunew)/2.D0
X = xnew
Y = ynew
Tau = taunew
Px = pxnew
Py = pynew
Ptau = ptaunew
END
SUBROUTINE SYM4(X,Y,Tau,Px,Py,Ptau,Dt)
IMPLICIT NONE
REAL*8 :: alpha , beta , Dt , dt1 , dt2 , Ptau , Px , Py , sq2
REAL*8 :: Tau , X , Y
sq2 = 2.d0**(1.D0/3.D0)
alpha = 1.D0/(2.d0-sq2)
beta = sq2/(2.d0-sq2)
dt1 = Dt*alpha
dt2 = -Dt*beta
CALL SYM2(X,Y,Tau,Px,Py,Ptau,dt1)
CALL SYM2(X,Y,Tau,Px,Py,Ptau,dt2)
CALL SYM2(X,Y,Tau,Px,Py,Ptau,dt1)
END
```

Now the difference in compilation between IFORT AND GFORTRAN ARE SMALL but not equal to zero. Can I improve more the code with other prescription as, for instance: changing the calling or the function, split the subroutine or introduce others modules?

Thanks a lot !

`(0,0)`

to about`(48000,13000)`

to me. What kind of "VERY different" things am I supposed to see? – Kyle Kanos Feb 13 '14 at 17:25`common`

block why not simply replace it with parameters in every scope, it only contains two variables ? – High Performance Mark Feb 13 '14 at 17:26`common`

here looks safe since it appears in the main program. Take the good old approach of adding debugging writes and track down where the actual problem is instead of making changes based on guesses. – agentp Feb 13 '14 at 19:59`mu=0.001D0`

– agentp Feb 15 '14 at 14:56