#!/usr/bin/env python3 import matplotlib.pyplot as plt from mpl_toolkits.mplot3d import axes3d from receiver import Receiver from emitter import Emitter # 2D showcase source = Emitter([1,1]) antennae = [ Receiver([2,3]), Receiver([10,10]), Receiver([-2,-3]), Receiver([-10,0]), ] fig, ax = plt.subplots() ax.set_title("Geometry of Emitter(s) and Antennae") ax.set_ylabel("y") ax.set_xlabel("x") ax.plot(*source.x, '*', label="Emitter") for j, ant in enumerate(antennae): ax.plot(*ant.x, '+', label="Antenna {}".format(j)) ax.legend() fig.show() # 3D showcase source = Emitter([1,1,1]) antennae = [ Receiver([2,3,0]), Receiver([10,10,-5]), Receiver([-2,-3,9]), Receiver([-10,0,-5]), ] fig = plt.figure() ax = fig.add_subplot(111, projection='3d') ax.set_title("Geometry of Emitter(s) and Antennae") ax.set_xlabel("x") ax.set_ylabel("y") ax.set_zlabel("z") ax.plot([source.x[0]], *source.x[1:], '*', label="Emitter") for j, ant in enumerate(antennae): ax.plot([ant.x[0]], *ant.x[1:], '+', label="Antenna {}".format(j)) ax.legend() plt.show()