I was reading Jake Vanderplas's excellent piece of code for plotting a point which moves along a sine curve:
""" This short code snippet utilizes the new animation package in matplotlib 1.1.0; it's the shortest snippet that I know of that can produce an animated plot in python. I'm still hoping that the animate package's syntax can be simplified further. """ import numpy as np import matplotlib.pyplot as plt import matplotlib.animation as animation def simData(): # this function is called as the argument for # the simPoints function. This function contains # (or defines) and iterator---a device that computes # a value, passes it back to the main program, and then # returns to exactly where it left off in the function upon the # next call. I believe that one has to use this method to animate # a function using the matplotlib animation package. # t_max = 10.0 dt = 0.05 x = 0.0 t = 0.0 while t < t_max: x = np.sin(np.pi*t) t = t + dt yield x, t def simPoints(simData): x, t = simData, simData time_text.set_text(time_template%(t)) line.set_data(t, x) return line, time_text ## ## set up figure for plotting: ## fig = plt.figure() ax = fig.add_subplot(111) # I'm still unfamiliar with the following line of code: line, = ax.plot(, , 'bo', ms=10) ax.set_ylim(-1, 1) ax.set_xlim(0, 10) ## time_template = 'Time = %.1f s' # prints running simulation time time_text = ax.text(0.05, 0.9, '', transform=ax.transAxes) ## Now call the animation package: (simData is the user function ## serving as the argument for simPoints): ani = animation.FuncAnimation(fig, simPoints, simData, blit=False,\ interval=10, repeat=True) plt.show()
How would you modify this code so that each point (i.e. calculated value of x, y) would remain on the figure after being plotted? Thus, toward the end of the animation, you would see all the previous dots forming the sine curve.