# how to make a function recursive [closed]

i have this huge function and i am wondering how to make it recursive. i have the base case which should never come true, so it should always go to else and keep calling itself with the variable t increases. any help would be great thanks

`````` def draw(x, y, t, planets):
if 'Satellites' in planets["Moon"]:
else:
print("refresh")
print("colour 0 0 0")
print("clear")
print("colour 255 255 255")
if "Mercury" in planets:
print("circle",x,y,r_Mercury)
r_Xmer=x+math.sin(t*2*math.pi/planets['Mercury']['Period'])*r_Mercury
r_Ymer=y+math.cos(t*2*math.pi/planets['Mercury']['Period'])*r_Mercury
print("fillcircle",r_Xmer,r_Ymer,3)
if "Venus" in planets:
print("circle",x,y,r_Venus)
r_Xven=x+math.sin(t*2*math.pi/planets['Venus']['Period'])*r_Venus
r_Yven=y+math.cos(t*2*math.pi/planets['Venus']['Period'])*r_Venus
print("fillcircle",r_Xven,r_Yven,3)
if "Earth" in planets:
print("circle",x,y,r_Earth)
r_Xe=x+math.sin(t*2*math.pi/planets['Earth']['Period'])*r_Earth
r_Ye=y+math.cos(t*2*math.pi/planets['Earth']['Period'])*r_Earth
print("fillcircle",r_Xe,r_Ye,3)
if "Moon" in planets:
print("circle",r_Xe,r_Ye,r_Moon)
r_Xm=r_Xe+math.sin(t*2*math.pi/planets['Moon']['Period'])*r_Moon
r_Ym=r_Ye+math.cos(t*2*math.pi/planets['Moon']['Period'])*r_Moon
print("fillcircle",r_Xm,r_Ym,3)
if "Mars" in planets:
print("circle",x,y,r_Mars)
r_Xmar=x+math.sin(t*2*math.pi/planets['Mars']['Period'])*r_Mars
r_Ymar=y+math.cos(t*2*math.pi/planets['Mars']['Period'])*r_Mars
print("fillcircle",r_Xmar,r_Ymar,3)
if "Phobos" in planets:
print("circle",r_Xmar,r_Ymar,r_Phobos)
r_Xpho=r_Xmar+math.sin(t*2*math.pi/planets['Phobos']['Period'])*r_Phobos
r_Ypho=r_Ymar+math.cos(t*2*math.pi/planets['Phobos']['Period'])*r_Phobos
print("fillcircle",r_Xpho,r_Ypho,3)
if "Deimos" in planets:
print("circle",r_Xmar,r_Ymar,r_Deimos)
r_Xdei=r_Xmar+math.sin(t*2*math.pi/planets['Deimos']['Period'])*r_Deimos
r_Ydei=r_Ymar+math.cos(t*2*math.pi/planets['Deimos']['Period'])*r_Deimos
print("fillcircle",r_Xdei,r_Ydei,3)
if "Ceres" in planets:
print("circle",x,y,r_Ceres)
r_Xcer=x+math.sin(t*2*math.pi/planets['Ceres']['Period'])*r_Ceres
r_Ycer=y+math.cos(t*2*math.pi/planets['Ceres']['Period'])*r_Ceres
print("fillcircle",r_Xcer,r_Ycer,3)
if "Jupiter" in planets:
print("circle",x,y,r_Jupiter)
r_Xjup=x+math.sin(t*2*math.pi/planets['Jupiter']['Period'])*r_Jupiter
r_Yjup=y+math.cos(t*2*math.pi/planets['Jupiter']['Period'])*r_Jupiter
print("fillcircle",r_Xjup,r_Yjup,3)
if "Io" in planets:
print("circle",r_Xjup,r_Yjup,r_Io)
r_Xio=r_Xjup+math.sin(t*2*math.pi/planets['Io']['Period'])*r_Io
r_Yio=r_Yjup+math.cos(t*2*math.pi/planets['Io']['Period'])*r_Io
print("fillcircle",r_Xio,r_Yio,3)
if "Europa" in planets:
print("circle",r_Xjup,r_Yjup,r_Europa)
r_Xeur=r_Xjup+math.sin(t*2*math.pi/planets['Europa']['Period'])*r_Europa
r_Yeur=r_Yjup+math.cos(t*2*math.pi/planets['Europa']['Period'])*r_Europa
print("fillcircle",r_Xeur,r_Yeur,3)
if "Ganymede" in planets:
print("circle",r_Xjup,r_Yjup,r_Ganymede)
r_Xgan=r_Xjup+math.sin(t*2*math.pi/planets['Ganymede']['Period'])*r_Ganymede
r_Ygan=r_Yjup+math.cos(t*2*math.pi/planets['Ganymede']['Period'])*r_Ganymede
print("fillcircle",r_Xgan,r_Ygan,3)
if "Callisto" in planets:
print("circle",r_Xjup,r_Yjup,r_Callisto)
r_Xcal=r_Xjup+math.sin(t*2*math.pi/planets['Callisto']['Period'])*r_Callisto
r_Ycal=r_Yjup+math.cos(t*2*math.pi/planets['Callisto']['Period'])*r_Callisto
print("fillcircle",r_Xcal,r_Ycal,3)
if "Saturn" in planets:
print("circle",x,y,r_Saturn)
r_Xsat=x+math.sin(t*2*math.pi/planets['Saturn']['Period'])*r_Saturn
r_Ysat=y+math.cos(t*2*math.pi/planets['Saturn']['Period'])*r_Saturn
print("fillcircle",r_Xsat,r_Ysat,3)
if "Mimas" in planets:
print("circle",r_Xsat,r_Ysat,r_Mimas)
r_Xmim=r_Xsat+math.sin(t*2*math.pi/planets['Mimas']['Period'])*r_Mimas
r_Ymim=r_Ysat+math.cos(t*2*math.pi/planets['Mimas']['Period'])*r_Mimas
print("fillcircle",r_Xmim,r_Ymim,3)
print("fillcircle",r_Xenc,r_Yenc,3)
if "Tethys" in planets:
print("circle",r_Xsat,r_Ysat,r_Tethys)
r_Xtet=r_Xsat+math.sin(t*2*math.pi/planets['Tethys']['Period'])*r_Tethys
r_Ytet=r_Ysat+math.cos(t*2*math.pi/planets['Tethys']['Period'])*r_Tethys
print("fillcircle",r_Xtet,r_Ytet,3)
if "Dione" in planets:
print("circle",r_Xsat,r_Ysat,r_Dione)
r_Xdio=r_Xsat+math.sin(t*2*math.pi/planets['Dione']['Period'])*r_Dione
r_Ydio=r_Ysat+math.cos(t*2*math.pi/planets['Dione']['Period'])*r_Dione
print("fillcircle",r_Xdio,r_Ydio,3)
if "Rhea" in planets:
print("circle",r_Xsat,r_Ysat,r_Rhea)
r_Xrhe=r_Xsat+math.sin(t*2*math.pi/planets['Rhea']['Period'])*r_Rhea
r_Yrhe=r_Ysat+math.cos(t*2*math.pi/planets['Rhea']['Period'])*r_Rhea
print("fillcircle",r_Xrhe,r_Yrhe,3)
if "Titan" in planets:
print("circle",r_Xsat,r_Ysat,r_Titan)
r_Xtit=r_Xsat+math.sin(t*2*math.pi/planets['Titan']['Period'])*r_Titan
r_Ytit=r_Ysat+math.cos(t*2*math.pi/planets['Titan']['Period'])*r_Titan
print("fillcircle",r_Xtit,r_Ytit,3)
if "Iapetus" in planets:
print("circle",r_Xsat,r_Ysat,r_Iapetus)
r_Xiap=r_Xsat+math.sin(t*2*math.pi/planets['Iapetus']['Period'])*r_Iapetus
r_Yiap=r_Ysat+math.cos(t*2*math.pi/planets['Iapetus']['Period'])*r_Iapetus
print("fillcircle",r_Xiap,r_Yiap,3)
if "Uranus" in planets:
print("circle",x,y,r_Uranus)
r_Xura=x+math.sin(t*2*math.pi/planets['Uranus']['Period'])*r_Uranus
r_Yura=y+math.cos(t*2*math.pi/planets['Uranus']['Period'])*r_Uranus
print("fillcircle",r_Xura,r_Yura,3)
if "Puck" in planets:
print("circle",r_Xura,r_Yura,r_Puck)
r_Xpuc=r_Xura+math.sin(t*2*math.pi/planets['Puck']['Period'])*r_Puck
r_Ypuc=r_Yura+math.cos(t*2*math.pi/planets['Puck']['Period'])*r_Puck
print("fillcircle",r_Xpuc,r_Ypuc,3)
if "Miranda" in planets:
print("circle",r_Xura,r_Yura,r_Miranda)
r_Xmira=r_Xura+math.sin(t*2*math.pi/planets['Miranda']['Period'])*r_Miranda
r_Ymira=r_Yura+math.cos(t*2*math.pi/planets['Miranda']['Period'])*r_Miranda
print("fillcircle",r_Xmira,r_Ymira,3)
if "Ariel" in planets:
print("circle",r_Xura,r_Yura,r_Ariel)
r_Xari=r_Xura+math.sin(t*2*math.pi/planets['Ariel']['Period'])*r_Ariel
r_Yari=r_Yura+math.cos(t*2*math.pi/planets['Ariel']['Period'])*r_Ariel
print("fillcircle",r_Xari,r_Yari,3)
if "Umbriel" in planets:
print("circle",r_Xura,r_Yura,r_Umbriel)
r_Xumb=r_Xura+math.sin(t*2*math.pi/planets['Umbriel']['Period'])*r_Umbriel
r_Yumb=r_Yura+math.cos(t*2*math.pi/planets['Umbriel']['Period'])*r_Umbriel
print("fillcircle",r_Xumb,r_Yumb,3)
if "Titania" in planets:
print("circle",r_Xura,r_Yura,r_Titania)
r_Xtita=r_Xura+math.sin(t*2*math.pi/planets['Titania']['Period'])*r_Titania
r_Ytita=r_Yura+math.cos(t*2*math.pi/planets['Titania']['Period'])*r_Titania
print("fillcircle",r_Xtita,r_Ytita,3)
if "Oberon" in planets:
print("circle",r_Xura,r_Yura,r_Oberon)
r_Xober=r_Xura+math.sin(t*2*math.pi/planets['Oberon']['Period'])*r_Oberon
r_Yober=r_Yura+math.cos(t*2*math.pi/planets['Oberon']['Period'])*r_Oberon
print("fillcircle",r_Xober,r_Yober,3)
if "Neptune" in planets:
print("circle",x,y,r_Neptune)
r_Xnep=x+math.sin(t*2*math.pi/planets['Neptune']['Period'])*r_Neptune
r_Ynep=y+math.cos(t*2*math.pi/planets['Neptune']['Period'])*r_Neptune
print("fillcircle",r_Xnep,r_Ynep,3)
if "Titan" in planets:
print("circle",r_Xnep,r_Ynep,r_Titan)
r_Xtita=r_Xnep+math.sin(t*2*math.pi/planets['Titan']['Period'])*r_Titan
r_Ytita=r_Ynep+math.cos(t*2*math.pi/planets['Titan']['Period'])*r_Titan
print("fillcircle",r_Xtita,r_Ytita,3)

t += 0.003
draw(x, y, t, planets)
def draw(x, y, t, planets):
if 'Satellites' in planets["Moon"]:
else:
print("refresh")
print("colour 0 0 0")
print("clear")
print("colour 255 255 255")

for each in planets.keys():
print("circle", x, y, r_planet)
#if "Period" in planets[each]:
#r_X = x+math.sin(t*2*math.pi/planets[each]['Period'])*r_planet
#r_Y = y+math.cos(t*2*math.pi/planets[each]['Period'])*r_planet
#print("fillcircle",r_X,r_Y,3)
#t += 0.003

print(draw(x, y, t, planets))
``````

i trimmed down the draw to the above it calculates where the circle goes but doesnt print it in quickdraw??

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## closed as not a real question by JBernardo, iny, David Segonds, Alessandro Minoccheri, JohnBNov 25 '12 at 10:14

It's difficult to tell what is being asked here. This question is ambiguous, vague, incomplete, overly broad, or rhetorical and cannot be reasonably answered in its current form. For help clarifying this question so that it can be reopened, visit the help center. If this question can be reworded to fit the rules in the help center, please edit the question.

You should have some base case. Otherwise the recursion would never terminate –  Extreme Coders Nov 25 '12 at 5:09
I'm seeing a lot of this type of question here lately. Is this homework? –  Keith Nov 25 '12 at 5:18
i dont want it to terminate because the animation is continuous –  tom smith Nov 25 '12 at 5:34
If it doesn't terminate, your program will run out of stack space and will crash. Then you won't be able to draw those nice little heavenly bodies. –  Rushil Nov 25 '12 at 5:44
lol true any suggestions for me? –  tom smith Nov 25 '12 at 5:46

I think you should define the sun first outside your recursive function because the sun is fixed anyway.

e.g.

``````        print("fillcircle",400,200,planets['Sun']['Radius']*scale)
def planets:
if ~~~~~
``````

the scale should be defined as well.

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yeah do know how i would call my fucntion ?? –  tom smith Nov 25 '12 at 6:34
you already called it at the end –  Romulus Nov 25 '12 at 6:36
its not working?? –  tom smith Nov 25 '12 at 6:37
what error are you getting? if thats the problem. –  Romulus Nov 25 '12 at 6:38
no error the function jus wont run –  tom smith Nov 25 '12 at 6:38

If indeed you want the base case to fail, then your function needs to call your function again:

``````def draw(x, y, t, planets):
if 'Satellites' in planets["Moon"]:
else:
print("refresh")
print("colour 0 0 0")
print("clear")
print("colour 255 255 255")
if "Mercury" in planets:
print("circle",x,y,r_Mercury)
r_Xmer=x+math.sin(t*2*math.pi/planets['Mercury']['Period'])*r_Mercury
r_Ymer=y+math.cos(t*2*math.pi/planets['Mercury']['Period'])*r_Mercury
print("fillcircle",r_Xmer,r_Ymer,3)
if "Venus" in planets:
print("circle",x,y,r_Venus)
r_Xven=x+math.sin(t*2*math.pi/planets['Venus']['Period'])*r_Venus
r_Yven=y+math.cos(t*2*math.pi/planets['Venus']['Period'])*r_Venus
print("fillcircle",r_Xven,r_Yven,3)
if "Earth" in planets:
print("circle",x,y,r_Earth)
r_Xe=x+math.sin(t*2*math.pi/planets['Earth']['Period'])*r_Earth
r_Ye=y+math.cos(t*2*math.pi/planets['Earth']['Period'])*r_Earth
print("fillcircle",r_Xe,r_Ye,3)
if "Moon" in planets:
print("circle",r_Xe,r_Ye,r_Moon)
r_Xm=r_Xe+math.sin(t*2*math.pi/planets['Moon']['Period'])*r_Moon
r_Ym=r_Ye+math.cos(t*2*math.pi/planets['Moon']['Period'])*r_Moon
print("fillcircle",r_Xm,r_Ym,3)
if "Mars" in planets:
print("circle",x,y,r_Mars)
r_Xmar=x+math.sin(t*2*math.pi/planets['Mars']['Period'])*r_Mars
r_Ymar=y+math.cos(t*2*math.pi/planets['Mars']['Period'])*r_Mars
print("fillcircle",r_Xmar,r_Ymar,3)
if "Phobos" in planets:
print("circle",r_Xmar,r_Ymar,r_Phobos)
r_Xpho=r_Xmar+math.sin(t*2*math.pi/planets['Phobos']['Period'])*r_Phobos
r_Ypho=r_Ymar+math.cos(t*2*math.pi/planets['Phobos']['Period'])*r_Phobos
print("fillcircle",r_Xpho,r_Ypho,3)
if "Deimos" in planets:
print("circle",r_Xmar,r_Ymar,r_Deimos)
r_Xdei=r_Xmar+math.sin(t*2*math.pi/planets['Deimos']['Period'])*r_Deimos
r_Ydei=r_Ymar+math.cos(t*2*math.pi/planets['Deimos']['Period'])*r_Deimos
print("fillcircle",r_Xdei,r_Ydei,3)
if "Ceres" in planets:
print("circle",x,y,r_Ceres)
r_Xcer=x+math.sin(t*2*math.pi/planets['Ceres']['Period'])*r_Ceres
r_Ycer=y+math.cos(t*2*math.pi/planets['Ceres']['Period'])*r_Ceres
print("fillcircle",r_Xcer,r_Ycer,3)
if "Jupiter" in planets:
print("circle",x,y,r_Jupiter)
r_Xjup=x+math.sin(t*2*math.pi/planets['Jupiter']['Period'])*r_Jupiter
r_Yjup=y+math.cos(t*2*math.pi/planets['Jupiter']['Period'])*r_Jupiter
print("fillcircle",r_Xjup,r_Yjup,3)
if "Io" in planets:
print("circle",r_Xjup,r_Yjup,r_Io)
r_Xio=r_Xjup+math.sin(t*2*math.pi/planets['Io']['Period'])*r_Io
r_Yio=r_Yjup+math.cos(t*2*math.pi/planets['Io']['Period'])*r_Io
print("fillcircle",r_Xio,r_Yio,3)
if "Europa" in planets:
print("circle",r_Xjup,r_Yjup,r_Europa)
r_Xeur=r_Xjup+math.sin(t*2*math.pi/planets['Europa']['Period'])*r_Europa
r_Yeur=r_Yjup+math.cos(t*2*math.pi/planets['Europa']['Period'])*r_Europa
print("fillcircle",r_Xeur,r_Yeur,3)
if "Ganymede" in planets:
print("circle",r_Xjup,r_Yjup,r_Ganymede)
r_Xgan=r_Xjup+math.sin(t*2*math.pi/planets['Ganymede']['Period'])*r_Ganymede
r_Ygan=r_Yjup+math.cos(t*2*math.pi/planets['Ganymede']['Period'])*r_Ganymede
print("fillcircle",r_Xgan,r_Ygan,3)
if "Callisto" in planets:
print("circle",r_Xjup,r_Yjup,r_Callisto)
r_Xcal=r_Xjup+math.sin(t*2*math.pi/planets['Callisto']['Period'])*r_Callisto
r_Ycal=r_Yjup+math.cos(t*2*math.pi/planets['Callisto']['Period'])*r_Callisto
print("fillcircle",r_Xcal,r_Ycal,3)
if "Saturn" in planets:
print("circle",x,y,r_Saturn)
r_Xsat=x+math.sin(t*2*math.pi/planets['Saturn']['Period'])*r_Saturn
r_Ysat=y+math.cos(t*2*math.pi/planets['Saturn']['Period'])*r_Saturn
print("fillcircle",r_Xsat,r_Ysat,3)
if "Mimas" in planets:
print("circle",r_Xsat,r_Ysat,r_Mimas)
r_Xmim=r_Xsat+math.sin(t*2*math.pi/planets['Mimas']['Period'])*r_Mimas
r_Ymim=r_Ysat+math.cos(t*2*math.pi/planets['Mimas']['Period'])*r_Mimas
print("fillcircle",r_Xmim,r_Ymim,3)
print("fillcircle",r_Xenc,r_Yenc,3)
if "Tethys" in planets:
print("circle",r_Xsat,r_Ysat,r_Tethys)
r_Xtet=r_Xsat+math.sin(t*2*math.pi/planets['Tethys']['Period'])*r_Tethys
r_Ytet=r_Ysat+math.cos(t*2*math.pi/planets['Tethys']['Period'])*r_Tethys
print("fillcircle",r_Xtet,r_Ytet,3)
if "Dione" in planets:
print("circle",r_Xsat,r_Ysat,r_Dione)
r_Xdio=r_Xsat+math.sin(t*2*math.pi/planets['Dione']['Period'])*r_Dione
r_Ydio=r_Ysat+math.cos(t*2*math.pi/planets['Dione']['Period'])*r_Dione
print("fillcircle",r_Xdio,r_Ydio,3)
if "Rhea" in planets:
print("circle",r_Xsat,r_Ysat,r_Rhea)
r_Xrhe=r_Xsat+math.sin(t*2*math.pi/planets['Rhea']['Period'])*r_Rhea
r_Yrhe=r_Ysat+math.cos(t*2*math.pi/planets['Rhea']['Period'])*r_Rhea
print("fillcircle",r_Xrhe,r_Yrhe,3)
if "Titan" in planets:
print("circle",r_Xsat,r_Ysat,r_Titan)
r_Xtit=r_Xsat+math.sin(t*2*math.pi/planets['Titan']['Period'])*r_Titan
r_Ytit=r_Ysat+math.cos(t*2*math.pi/planets['Titan']['Period'])*r_Titan
print("fillcircle",r_Xtit,r_Ytit,3)
if "Iapetus" in planets:
print("circle",r_Xsat,r_Ysat,r_Iapetus)
r_Xiap=r_Xsat+math.sin(t*2*math.pi/planets['Iapetus']['Period'])*r_Iapetus
r_Yiap=r_Ysat+math.cos(t*2*math.pi/planets['Iapetus']['Period'])*r_Iapetus
print("fillcircle",r_Xiap,r_Yiap,3)
if "Uranus" in planets:
print("circle",x,y,r_Uranus)
r_Xura=x+math.sin(t*2*math.pi/planets['Uranus']['Period'])*r_Uranus
r_Yura=y+math.cos(t*2*math.pi/planets['Uranus']['Period'])*r_Uranus
print("fillcircle",r_Xura,r_Yura,3)
if "Puck" in planets:
print("circle",r_Xura,r_Yura,r_Puck)
r_Xpuc=r_Xura+math.sin(t*2*math.pi/planets['Puck']['Period'])*r_Puck
r_Ypuc=r_Yura+math.cos(t*2*math.pi/planets['Puck']['Period'])*r_Puck
print("fillcircle",r_Xpuc,r_Ypuc,3)
if "Miranda" in planets:
print("circle",r_Xura,r_Yura,r_Miranda)
r_Xmira=r_Xura+math.sin(t*2*math.pi/planets['Miranda']['Period'])*r_Miranda
r_Ymira=r_Yura+math.cos(t*2*math.pi/planets['Miranda']['Period'])*r_Miranda
print("fillcircle",r_Xmira,r_Ymira,3)
if "Ariel" in planets:
print("circle",r_Xura,r_Yura,r_Ariel)
r_Xari=r_Xura+math.sin(t*2*math.pi/planets['Ariel']['Period'])*r_Ariel
r_Yari=r_Yura+math.cos(t*2*math.pi/planets['Ariel']['Period'])*r_Ariel
print("fillcircle",r_Xari,r_Yari,3)
if "Umbriel" in planets:
print("circle",r_Xura,r_Yura,r_Umbriel)
r_Xumb=r_Xura+math.sin(t*2*math.pi/planets['Umbriel']['Period'])*r_Umbriel
r_Yumb=r_Yura+math.cos(t*2*math.pi/planets['Umbriel']['Period'])*r_Umbriel
print("fillcircle",r_Xumb,r_Yumb,3)
if "Titania" in planets:
print("circle",r_Xura,r_Yura,r_Titania)
r_Xtita=r_Xura+math.sin(t*2*math.pi/planets['Titania']['Period'])*r_Titania
r_Ytita=r_Yura+math.cos(t*2*math.pi/planets['Titania']['Period'])*r_Titania
print("fillcircle",r_Xtita,r_Ytita,3)
if "Oberon" in planets:
print("circle",r_Xura,r_Yura,r_Oberon)
r_Xober=r_Xura+math.sin(t*2*math.pi/planets['Oberon']['Period'])*r_Oberon
r_Yober=r_Yura+math.cos(t*2*math.pi/planets['Oberon']['Period'])*r_Oberon
print("fillcircle",r_Xober,r_Yober,3)
if "Neptune" in planets:
print("circle",x,y,r_Neptune)
r_Xnep=x+math.sin(t*2*math.pi/planets['Neptune']['Period'])*r_Neptune
r_Ynep=y+math.cos(t*2*math.pi/planets['Neptune']['Period'])*r_Neptune
print("fillcircle",r_Xnep,r_Ynep,3)
if "Titan" in planets:
print("circle",r_Xnep,r_Ynep,r_Titan)
r_Xtita=r_Xnep+math.sin(t*2*math.pi/planets['Titan']['Period'])*r_Titan
r_Ytita=r_Ynep+math.cos(t*2*math.pi/planets['Titan']['Period'])*r_Titan
print("fillcircle",r_Xtita,r_Ytita,3)

t += 0.003
draw(x, y, t, planets)
``````

Again, you probably want a working base case to stop your recursion at some point.

BTW, if you want to clean up your print statements, here's a way to iterate through your planets (use it or leave it):

``````for p in planets.keys():
planet = planets[p]
``````

I don't know if that's useful or not, just maybe might save you some typing.

-
just putting the draw inside the function doesnt seem to work –  tom smith Nov 25 '12 at 5:52
Did you remove your while(true) and align it properly (draw() should be called in the else: or outside it but inside the def –  nair.ashvin Nov 25 '12 at 5:55
i just edited the question it looks like that but isnt workin? –  tom smith Nov 25 '12 at 5:58
did you de-dent the code inside `else` afterwards? –  nair.ashvin Nov 25 '12 at 5:59
yeah i jus pasted yours and it didnt work –  tom smith Nov 25 '12 at 6:00

You can you something like this:

``````def draw_e(x, y, t, planets):
if 'Satellites' in planets["Moon"]:
else:
print("refresh")
print("colour 0 0 0")
print("clear")
print("colour 255 255 255")

for each in planets.keys():
print("circle", x, y, r_Mercury)
r_X = x+math.sin(t*2*math.pi/planets[each]['Period'])*r_planet
r_Y = y+math.cos(t*2*math.pi/planets[each]['Period'])*r_planet
print("fillcircle",r_X,r_Y,3)