# fortran code do not cycle

i try to solve this simple three body problem with the following code:

``````           Program Main
Implicit real*8 (A-H,O-Z)
real*8 ome,mu, rho, R
duepi=8*datan(1.d0)
ome=1
mu=0.001

T_per=duepi/ome

rho=0.1
R=1.0
N_step=100

c Open the file
OPEN(unit=11, file="prova1.txt")
c Nested do loops
do iy0=1,100
do iP0=1,100
c Calc value for 0
y0 = real(iy0)/100.
x0 = 0
c Calc value for py0
py0 = real(iP0)/100.
px0 = 0

x=x0
y=y0
px=px0
py=py0

dt=T_per/N_step

E0=H(x,y,px,py)

k_max=100*N_step

k=0
t=0
errh=0

c---------
c  start integration loop
c--------
do k=1,k_max
call sym4(x,y,px,py,dt)
E= H(x,y,px,py)
errh=abs(E-E0)
t=k*dt

enddo

do k=1,k_max
call sym4(x,y,px,py,-dt)
E= H(x,y,px,py)
errh=abs(E-E0)
t=t-dt

enddo

write(11,*) y0, py0, errh
enddo ! iP0
enddo ! iy0
close(11)

end

subroutine sym1(x,y,px,py,dt)
Implicit real*8 (A-H,O-Z)
c
call f(x,y,fx,fy)

pxnew=px+dt*fx
pynew=py+dt*fy

xnew=x+dt*pxnew
ynew=y+dt
c
x=xnew
y=ynew
px=pxnew
py=pynew

end

subroutine sym1_B(x,y,px,py,dt)
Implicit real*8 (A-H,O-Z)
c

xnew=x+dt*px
ynew=y+dt

call f(xnew,ynew,fxnew,fynew)
pxnew=px+dt*fxnew
pynew=py+dt*fynew
c
x=xnew
y=ynew
px=pxnew
py=pynew

end

subroutine  f(x,y,fx,fy)
Implicit real*8 (A-H,O-Z)
real*8 ome,mu,rho,R

fx = ((1-mu)*(rho+x))/((rho*rho+2*rho*x+y*y)**(1.5)) -
&           (mu*(R+x))/((R**2-2*R*x+x*x+y*y)**(1.5))
fy = ((1-mu)*(rho+x))/((rho**2+x**2+2*rho*x+y**2)**(1.5))/
&       + (mu*y)/((R**2-2*R*x+x**2+y**2)**(1.5))

return
end

real*8 function H(x,y,px,py)
Implicit real*8 (A-H,O-Z)
real*8 ome,mu,rho,R

c          h=px*px/2.d0+ py +(1+eps*cos(ome*y))*x*x/2

c           h=px*px/2.d0+ py -(1+eps*cos(ome*y))*cos(x)

r12 = sqrt( ( (x*cos(ome*y)-y*sin(ome*y))+rho*cos(ome*y) )**2
&        + ( x*sin(ome*y)+y*cos(ome*y) + rho*sin(ome*y) )**2 )
r13 = sqrt( ( (x*cos(ome*y)-y*sin(ome*y))-R*cos(ome*y) )**2
&        + ( x*sin(ome*y)+y*cos(ome*y) - R*sin(ome*y) )**2 )

h=(px**2+py**2)/2.d0 - (1-mu)/r12 - mu/r13 + py

return
end

subroutine sym2(x,y,px,py,dt)
Implicit real*8 (A-H,O-Z)

call f(x,y,fx,fy)

xnew= x+ px*dt +    fx*dt**2/2.d0
ynew= y+ dt                         ! così   è giusto

call f(xnew,ynew,fxnew,fynew)
pxnew= px+ dt*(fx+fxnew )/2.d0
pynew= py+ dt*(fy+fynew )/2.d0

x=xnew
y=ynew
px=pxnew
py=pynew

end

subroutine sym4(x,y,px,py,dt)
Implicit real*8 (A-H,O-Z)
sq2=2**(1.d0/3.d0)
alpha= 1.d0/(2-sq2)
beta= sq2/(2-sq2)
dt1= dt*alpha
dt2=-dt*beta
call sym2(x,y,px,py,dt1)
call sym2(x,y,px,py,dt2)
call sym2(x,y,px,py,dt1)
return
end
``````

the code calls sympletic integrators and solve the 3body problem. But when i try to run it, there aren't compiling errors, the output.txt file show only the initial grid and not the `errh` this column give me only NaN, can someone help me?

Is maybe an initial condition errors (strange initial conditions for velocities or positions, omega is wrong ...)?

-
There is not enough here to understand the problem. I suggest adding some intermediate write statements. Most of all, I suggest using Fortran 95 rather than FORTRAN 77. – M. S. B. Feb 2 '14 at 1:28
The usual way to examine why you are getting a wrong result is to check the algorithm, perhaps with a debugger. – francescalus Feb 2 '14 at 9:56
Anyone writing Fortran in C21 without using `implicit none` in all scopes is just asking for trouble. It's immaterial whether or not implicit typing is at the root of your current problem. What is material is that you, anyone, should use all the facilities that your language and compiler provide to eliminate possibilities of errors. Personally I don't even attempt to debug code without `implicit none`. – High Performance Mark Feb 2 '14 at 10:34

As stated already in the comments, your program has many code style problems (wrong intentation, ...) as well as not using best Fortran practises (e.g. `implicit none`). Your problem can be solved by trivial usage of a debugger.
1. `subroutine f(x,y,fx,fy)` : `rho, mu, R` in calculation of fx and fy, which produces NaN
2. `function H()` : `ome, rho, mu`, ...