1

I solved the N body problem with Python. My code works perfectly but I have to write manually line animation for each body. I would like to make a loop instead but I did not succeed. Here is the code :

import numpy as np
import matplotlib.pyplot as plt
from matplotlib import animation
from scipy.integrate import odeint
from mpl_toolkits import mplot3d
from mpl_toolkits.mplot3d import Axes3D



## Constantes dimensionnées du système
N = 4
G = 6.674e-11
M = np.random.uniform(low=1e30, high=3e30, size=N)

## Constantes adimensionnées du système
G = G * (6e24 * (365*24*60*60)**2) / (1.496e11)**3
M = M/6e24

## Conditions initiales
ti = 0
tf = 10
n = 500
dt = (tf-ti)/n
T = np.linspace(ti, tf, n)

R0 = np.random.uniform(low=-4, high=4, size=3*N)
V0 = np.random.uniform(low=-1, high=1, size=3*N)
Y0 = np.append(R0,V0)

def NCorps(Yk, t):

    #Création tableau contenant les positions de tous les corps
    Rk = np.zeros((3,N))
    a = 0
    b = 0
    c = 0
    for i in range(0,3*N):
        if i%3 == 0:
            Rk[0,a] = Yk[i]
            a = a+1
        if i%3 == 1:
            Rk[1,b] = Yk[i]
            b = b+1
        if i%3 == 2:
            Rk[2,c] = Yk[i]
            c = c+1

    #Création tableau contenant les vitesses et les accélérations de tous les corps
    Sk = []
    
    for i in range(3*N, 6*N):
            Sk.append(Yk[i])

    for i in range(0, N):
        axk = 0
        ayk = 0
        azk = 0
        for j in range(0, N):
            if j != i:
                axk = axk - G*M[j]*(Rk[0,i]-Rk[0,j])/((Rk[0,i]-Rk[0,j])**2+(Rk[1,i]-Rk[1,j])**2+(Rk[2,i]-Rk[2,j])**2)**(3/2)
                ayk = ayk - G*M[j]*(Rk[1,i]-Rk[1,j])/((Rk[0,i]-Rk[0,j])**2+(Rk[1,i]-Rk[1,j])**2+(Rk[2,i]-Rk[2,j])**2)**(3/2)
                azk = azk - G*M[j]*(Rk[2,i]-Rk[2,j])/((Rk[0,i]-Rk[0,j])**2+(Rk[1,i]-Rk[1,j])**2+(Rk[2,i]-Rk[2,j])**2)**(3/2)
        Sk.append(axk)
        Sk.append(ayk)
        Sk.append(azk)
    return Sk


Y = odeint(NCorps, Y0, T)


## Plot 3D image

fig = plt.figure()
ax = plt.axes(projection = '3d')

a=0
for i in range(0, 3*N):
    if i%3 == 0:
        ax.plot3D(Y[:,i], Y[:,i+1], Y[:,i+2], label = "Corps " + str(a))
        ax.scatter(Y[-1,i], Y[-1,i+1], Y[-1,i+2], marker = "o", s = 75)
        a = a+1

ax.set_xlim3d(-7, 7)
ax.set_ylim3d(-7, 7)
ax.set_zlim3d(-7, 7)
ax.set_xlabel("x (UA)")
ax.set_ylabel("y (UA)")
ax.set_zlabel("z (UA)")
plt.legend()


## Plot 3D animation

fig = plt.figure()
ax = plt.axes(projection = '3d')

ax.set_xlim3d(-7, 7)
ax.set_ylim3d(-7, 7)
ax.set_zlim3d(-7, 7)
ax.set_xlabel("x (UA)")
ax.set_ylabel("y (UA)")
ax.set_zlabel("z (UA)")

trail = [50]*N

###########################################################################################
########## HERE IS MY PROBLEM : HOW TO MAKE Animate3D FUNCTION WORK FOR N BODY ? ##########
###########################################################################################

def Animate3D(k):
    ligne1.set_data(Y[k:max(1,k-trail[0]):-1, 0], Y[k:max(1,k-trail[0]):-1, 1])
    ligne1.set_3d_properties(Y[k:max(1,k-trail[0]):-1, 2])
    
    ligne2.set_data(Y[k:max(1,k-trail[1]):-1, 3], Y[k:max(1,k-trail[1]):-1, 4])
    ligne2.set_3d_properties(Y[k:max(1,k-trail[1]):-1, 5])

    ligne3.set_data(Y[k:max(1,k-trail[2]):-1, 6], Y[k:max(1,k-trail[2]):-1, 7])
    ligne3.set_3d_properties(Y[k:max(1,k-trail[2]):-1, 8])
    
    return (ligne1, ligne2, ligne3)

ligne1, = ax.plot([], [], "o-", markevery = 10000)
ligne2, = ax.plot([], [], "o-", markevery = 10000)
ligne3, = ax.plot([], [], "o-", markevery = 10000)

anim3D = animation.FuncAnimation(fig, Animate3D, frames = n, interval = 30, blit = False)

plt.show()

As you can see in the last part, I have no idea how to generalize the Animate3D function for the N body. I wanted to create a loop like the one bellow :

j=0
lignes = []
for i in range(0, N):
    lignes.append(ligne + i)

def Animate3D(k):
    for i in range(0, 3*N):
        if i%3 == 0:
            ligne + i + .set_data(Y[k:max(1,k-trail[j]):-1, i], Y[k:max(1,k-trail[j]):-1, i+1])
            ligne + i + .set_3d_properties(Y[k:max(1,k-trail[j]):-1, i+2])
            j=j+1
    
    return lignes

for i in range(0, N):
    ligne + i + , = ax.plot([], [], "o-", markevery = 10000)

Obviously it does not work.

1
  • 1
    The "obviously it does not work" should be substituted with the explicit error you get. linge + i + .set_data() is a severe misunderstanding of python syntax. Just create a list of objects, e.g., linge = [ax.plot(...)[0] for _ in range(3*N)] and access them by their index. No need to hardcode linge1, linge2, etc.
    – Reti43
    Commented Sep 20, 2021 at 17:56

1 Answer 1

1

You should collect lignes in a list and loop over them. In order to update counters within Animate3D, you can replace range with enumerate, as in the code below:

def Animate3D(k):
    for i, ligne in enumerate(lignes, 0):
        ligne.set_data(Y[k:max(1, k - trail[0]):-1, 3*i], Y[k:max(1, k - trail[0]):-1, 3*i + 1])
        ligne.set_3d_properties(Y[k:max(1, k - trail[0]):-1, 2])

    return lignes


lignes = [ax.plot([], [], "o-", markevery = 10000)[0] for _ in range(N)]

anim3D = animation.FuncAnimation(fig, Animate3D, frames = n, interval = 30, blit = False)

plt.show()

enter image description here

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

Not the answer you're looking for? Browse other questions tagged or ask your own question.