# グラフを複数同時に出したい

`D=0`で計算していますが、`D=[0,0.01,0.1]`の三つをそれぞれ`f(x,v,t)`に代入し、１つのグラフで比較するにはどうすればいいですか？

``````import numpy as np
import matplotlib.pyplot as plt

def f(x, v, t):
M = 1.0
E = 0.38 if (t <= 0.15) else 1.2
J = (2*0.8)/(120*np.pi)
D = 0
return (M-E*np.sin(x)-D*v)/J

t0 = 0.0
t1 = 5.0

N = 500

del_t = (t1-t0)/N # time grid

tpoints = np.arange(t0, t1, del_t)
xpoints = []
vpoints = []

# initial condition
x0 = 0.653
v0 = 0.0

x, v = x0, v0
for t in tpoints:
xpoints.append(x)
vpoints.append(v)
k1v =f(x, v, t)*del_t
k1x = v * del_t

k2v =  f(x+k1x/2, v+k1v/2, t+del_t/2 )*del_t
k2x =(v+k1v/2)*del_t

k3v =f (x+k2x/2, v+k2v/2, t+del_t/2 )*del_t
k3x =(v+k2v/2 ) *del_t

k4v = f(x+k3x, v+k3v, t+del_t )*del_t
k4x = (v+k3v )*del_t

v += (k1v + 2 * k2v + 2* k3v + k4v)/6
x += (k1x + 2 * k2x + 2* k3x + k4x)/6

plt.plot (tpoints, xpoints, 'o',label='4th order Runge-Kutta')
plt.xlabel("t",  fontsize=24)
plt.ylabel("x(t)",  fontsize=24)

plt.show()
``````

## 2 件の回答

【修正方針】

【修正方法】
まず、

t0 = 0.0

から

x += (k1x + 2 * k2x + 2* k3x + k4x)/6

までを関数化します。

【修正後のコード】

``````import numpy as np
import matplotlib.pyplot as plt

def f(x, v, t):
global D
M = 1.0
E = 0.38 if (t <= 0.15) else 1.2
J = (2*0.8)/(120*np.pi)
return (M-E*np.sin(x)-D*v)/J

def func():
global tpoints
global xpoints
t0 = 0.0
t1 = 5.0

N = 500

del_t = (t1-t0)/N # time grid

tpoints = np.arange(t0, t1, del_t)
xpoints = []
vpoints = []

# initial condition
x0 = 0.653
v0 = 0.0

x, v = x0, v0
for t in tpoints:
xpoints.append(x)
vpoints.append(v)
k1v =f(x, v, t)*del_t
k1x = v * del_t

k2v =  f(x+k1x/2, v+k1v/2, t+del_t/2 )*del_t
k2x =(v+k1v/2)*del_t

k3v =f (x+k2x/2, v+k2v/2, t+del_t/2 )*del_t
k3x =(v+k2v/2 ) *del_t

k4v = f(x+k3x, v+k3v, t+del_t )*del_t
k4x = (v+k3v )*del_t

v += (k1v + 2 * k2v + 2* k3v + k4v)/6
x += (k1x + 2 * k2x + 2* k3x + k4x)/6

Ds = [0, 0.01, 0.1]
for d in Ds:
D = d
func()
plt.plot (tpoints, xpoints, 'o',label='4th order Runge-Kutta')
plt.xlabel("t",  fontsize=24)
plt.ylabel("x(t)",  fontsize=24)

plt.show()
``````

【実行結果】

【注意】
グラフのスケールを調整しないと、Dが0.1のときの微妙な曲線がなだらかになってしまいます。

``````import numpy as np
import matplotlib.pyplot as plt

M = 1.0
J = (2*0.8)/(120*np.pi)

def f(x, v, t, d):
E = 0.38 if (t <= 0.15) else 1.2
return (M-E*np.sin(x)-d*v)/J

def rk4(x0, v0, tpoints, d, delta):
x, v = x0, v0
xpoints, vpoints = [], []
for t in tpoints:
xpoints.append(x)
vpoints.append(v)

k1v = f(x, v, t, d)*delta
k1x = v*delta

k2v = f(x+k1x/2, v+k1v/2, t+delta/2, d)*delta
k2x = (v+k1v/2)*delta

k3v = f(x+k2x/2, v+k2v/2, t+delta/2, d)*delta
k3x = (v+k2v/2)*delta

k4v = f(x+k3x, v+k3v, t+delta, d)*delta
k4x = (v+k3v)*delta

x += (k1x + 2 * k2x + 2* k3x + k4x)/6
v += (k1v + 2 * k2v + 2* k3v + k4v)/6

return xpoints, vpoints

if __name__ == '__main__':

t0, t1, N = 0.0, 5.0, 500
del_t = (t1-t0)/N # time grid
tpoints = np.arange(t0, t1, del_t)

# initial condition
x0, v0 = 0.653, 0.0
D = (0, 0.01, 0.1)
xvpoints = [rk4(x0, v0, tpoints, d, del_t) for d in D]
vlabels = [f'D = {d}' for d in D]

for xv, label in zip(xvpoints, vlabels):
plt.plot(tpoints, xv[0], 'o', label=label)
plt.legend(loc='upper left', fontsize=10)
plt.title('4th order Runge-Kutta')
plt.xlabel("t",  fontsize=24)
plt.ylabel("x(t)",  fontsize=24)

plt.show()
``````

スケールの差異が大きすぎるので全体的な傾向の違いしか判りませんけれども。