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pointsの座標点も同時に描画したいのですが、ご存知でしょうか。

 

sympy だけで処理しようとすると、座標点を線で結んでしまいますね。。。matplotlib で sympy の式をプロットする様にすれば上手く行くかもしれませんが、少し調べてみます。

pointsの座標点も同時に描画したいのですが、ご存知でしょうか。

sympy だけで処理しようとすると、座標点を線で結んでしまいますね。。。matplotlib で sympy の式をプロットする様にすれば上手く行くかもしれませんが、少し調べてみます。

import numpy as np
import matplotlib.pyplot as plt
from sympy import *

points = np.array([[10,20], [20, 75], [45, 15], [70, 53], [90, 30]])
weights = np.array([5, 5.1, 5.2, 4.9, 4.8])
rangex, rangey = (0, 100), (0, 100)

fig = plt.figure()
ax = fig.add_subplot(1, 1, 1)
ax.set_xlim(rangex)
ax.set_ylim(rangey)
ax.set_aspect('equal')

x, y = symbols("x y")
for i in range(len(points)):
  px, py = points[i]
  ax.plot(px, py, marker='.', markersize=3, color='blue')
  ax.annotate('(%d, %d)' % (px, py), 
     xy=(px, py), xytext=(-15, 15),
     textcoords='offset points', ha='right', va='bottom',
     bbox=dict(boxstyle='round,pad=0.2', fc='yellow', alpha=0.5),
     arrowprops=dict(arrowstyle = '->', connectionstyle='arc3,rad=0'))
  G = (x-px)**2 + (y-py)**2 - weights[i]**2
  p = plot_implicit(G, (x,)+rangex, (y,)+rangey, show=False)[0].get_points()[0]
  px, py = [], []
  for (ix, iy) in p:
    px.extend([ix.start, ix.start, ix.end, ix.end, None])
    py.extend([iy.start, iy.end, iy.end, iy.start, None])
  ax.fill(px, py, facecolor='red')

plt.show()

import numpy as np
import matplotlib.pyplot as plt
from sympy import *

points = np.array([[10,20], [20, 75], [45, 15], [70, 53], [90, 30]])
weights = np.array([5, 5.1, 5.2, 4.9, 4.8])
rangex, rangey = (0, 100), (0, 100)

fig = plt.figure()
ax = fig.add_subplot(1, 1, 1)
ax.set_xlim(rangex)
ax.set_ylim(rangey)
ax.set_aspect('equal')

x, y = symbols("x y")
for (px, py), w in zip(points, weights):
  ax.plot(px, py, marker='.', markersize=3, color='blue')
  ax.annotate('(%d, %d)' % (px, py), 
     xy=(px, py), xytext=(-15, 15),
     textcoords='offset points', ha='right', va='bottom',
     bbox=dict(boxstyle='round,pad=0.2', fc='yellow', alpha=0.5),
     arrowprops=dict(arrowstyle = '->', connectionstyle='arc3,rad=0'))
  G = (x-px)**2 + (y-py)**2 - w**2
  p = plot_implicit(G, (x,)+rangex, (y,)+rangey, show=False)[0].get_points()[0]
  px, py = [], []
  for (ix, iy) in p:
    px.extend([ix.start, ix.start, ix.end, ix.end, None])
    py.extend([iy.start, iy.end, iy.end, iy.start, None])
  ax.fill(px, py, facecolor='red')

plt.show()

import numpy as np
import matplotlib.pyplot as plt
from sympy import *

points = np.array([[10,20], [20, 75], [45, 15], [70, 53], [90, 30]])
weights = np.array([5, 5.1, 5.2, 4.9, 4.8])
rangex, rangey = (0, 100), (0, 100)

fig = plt.figure()
ax = fig.add_subplot(1, 1, 1)
ax.set_xlim(*rangex)
ax.set_ylim(*rangey)
ax.set_aspect('equal')

x, y = symbols("x y")
for i in range(len(points)):
  px, py = points[i]
  ax.plot(px, py, marker='.', markersize=3, color='blue')
  plt.annotate('(%d, %d)' % (px, py), 
     xy=(px, py), xytext=(-15, 15),
     textcoords='offset points', ha='right', va='bottom',
     bbox=dict(boxstyle='round,pad=0.2', fc='yellow', alpha=0.5),
     arrowprops=dict(arrowstyle = '->', connectionstyle='arc3,rad=0'))
  G = (x-px)**2 + (y-py)**2 - weights[i]**2
  p = plot_implicit(G, (x,)+rangex, (y,)+rangey, show=False)[0].get_points()[0]
  px, py = [], []
  for (ix, iy) in p:
    px.extend([ix.start, ix.start, ix.end, ix.end, None])
    py.extend([iy.start, iy.end, iy.end, iy.start, None])
  ax.fill(px, py, facecolor='red')

plt.show()

import numpy as np
import matplotlib.pyplot as plt
from sympy import *

points = np.array([[10,20], [20, 75], [45, 15], [70, 53], [90, 30]])
weights = np.array([5, 5.1, 5.2, 4.9, 4.8])
rangex, rangey = (0, 100), (0, 100)

fig = plt.figure()
ax = fig.add_subplot(1, 1, 1)
ax.set_xlim(rangex)
ax.set_ylim(rangey)
ax.set_aspect('equal')

x, y = symbols("x y")
for i in range(len(points)):
  px, py = points[i]
  ax.plot(px, py, marker='.', markersize=3, color='blue')
  ax.annotate('(%d, %d)' % (px, py), 
     xy=(px, py), xytext=(-15, 15),
     textcoords='offset points', ha='right', va='bottom',
     bbox=dict(boxstyle='round,pad=0.2', fc='yellow', alpha=0.5),
     arrowprops=dict(arrowstyle = '->', connectionstyle='arc3,rad=0'))
  G = (x-px)**2 + (y-py)**2 - weights[i]**2
  p = plot_implicit(G, (x,)+rangex, (y,)+rangey, show=False)[0].get_points()[0]
  px, py = [], []
  for (ix, iy) in p:
    px.extend([ix.start, ix.start, ix.end, ix.end, None])
    py.extend([iy.start, iy.end, iy.end, iy.start, None])
  ax.fill(px, py, facecolor='red')

plt.show()