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Conic intersections¶
This example computes the intersections of several pairs of conics: two overlapping circles, two circles touching at a single point, and two ellipses sharing the same center but with different orientations.
from conics import Conic
from conics.geometry import hnormalized
from matplotlib.patches import Ellipse
import matplotlib.pyplot as plt
import numpy as np
def as_ellipse(c, **kwargs):
x0, major_minor, angle = c.to_ellipse()
return Ellipse(
x0.ravel(), *major_minor.ravel() * 2, angle=np.rad2deg(angle), **kwargs
)
c1 = Conic.from_circle([0, 0], 1)
c2 = Conic.from_circle([0.5, 0], 1)
e1 = Conic.from_ellipse([0, 0], [2, 1], np.pi / 4)
e2 = Conic.from_ellipse([0, 0], [2, 1], np.pi * 3 / 4)
c3 = Conic.from_circle([0, 0], 1)
c4 = c3.translate([2 * 1, 0])
inter1 = hnormalized(c1.intersect(c2))
inter2 = hnormalized(e1.intersect(e2))
inter3 = hnormalized(c3.intersect(c4))
fig = plt.figure()
ax1, ax2, ax3 = fig.subplots(1, 3)
ax1.set_title('Circles')
ax1.add_patch(as_ellipse(c1, facecolor='none', edgecolor='red'))
ax1.add_patch(as_ellipse(c2, facecolor='none', edgecolor='blue'))
ax1.scatter(*inter1.T)
ax2.set_title('Circles')
ax2.add_patch(as_ellipse(c3, facecolor='none', edgecolor='red'))
ax2.add_patch(as_ellipse(c4, facecolor='none', edgecolor='blue'))
ax2.scatter(*inter3.T)
ax3.set_title('Ellipses')
ax3.add_patch(as_ellipse(e1, facecolor='none', edgecolor='red'))
ax3.add_patch(as_ellipse(e2, facecolor='none', edgecolor='blue'))
ax3.scatter(*inter2.T)
ax1.axis('equal')
ax2.axis('equal')
plt.show()
Total running time of the script: (0 minutes 0.257 seconds)