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I'm writing a simple code demonstrating oscillatory behaviour of a point source. I want to produce an animation using matplotlib.animation.

I have a working code (See below) but it relies on pre-calculating values for all the frames and keeping them in memory. I have been trying to re-write it using generators so that each frame may be computed when it's needed, like in the following example:

http://matplotlib.org/examples/animation/animate_decay.html

I have managed to solve some of the problems using the guidance given here:

http://matplotlib.1069221.n5.nabble.com/Matplotlib-1-1-0-animation-vs-contour-plots-td18703.html

But now I am getting KeyErrors when updating the animation which I am clueless about:

Traceback (most recent call last):
File "/usr/lib/pymodules/python2.7/matplotlib/backend_bases.py", line 1092, in _on_timer
ret = func(*args, **kwargs)
File "/usr/lib/pymodules/python2.7/matplotlib/animation.py", line 315, in _step
still_going = Animation._step(self, *args)
File "/usr/lib/pymodules/python2.7/matplotlib/animation.py", line 177, in _step
self._draw_next_frame(framedata, self._blit)
File "/usr/lib/pymodules/python2.7/matplotlib/animation.py", line 195, in _draw_next_frame
self._pre_draw(framedata, blit)
File "/usr/lib/pymodules/python2.7/matplotlib/animation.py", line 208, in _pre_draw
self._blit_clear(self._drawn_artists, self._blit_cache)
File "/usr/lib/pymodules/python2.7/matplotlib/animation.py", line 248, in _blit_clear
a.figure.canvas.restore_region(bg_cache[a])
KeyError: <matplotlib.axes.PolarAxesSubplot object at 0x37e2290>

The code:

import numpy as np
import matplotlib.pyplot as plt
import matplotlib.animation as animation
import types 

class monopole(object):

    def __init__(self):
        """
        Construct by initialising the itnernal fields
        """
        self.omega = 2000.0 # frequency
        self.Q = 1.0 # strength
        self.c = 1500. # speed of sound
        self.rho = 1000. # density
        self.k = self.omega/self.c # wavenumber

    def getSources(self,thetaGrid,Rgrid,t):
        """
        Calculates the monopole source values for the given time on the specified mesh
        NOTE: the time-dependency here is exemplary, not a proper monopole formula
        """
        return self.Q*self.rho*self.c*self.k/(4.*np.pi*Rgrid) * np.sin(self.omega*max(1e-20,t))

def getData():
    """
    Creates a constructor for a list filled with time and data values
    """
    t = getData.T0
    cnt = 0
    while cnt < getData.nT:
        cnt+=1
        t += getData.T1/getData.nT
        yield t, getData.source.getSources(getData.thetaGrid,getData.Rgrid,t)

def updatePreCalc(i,ax,thetaGrid,Rgrid,data):
    """
    Clears and updates the current plot to show the new frame
    """
    ax.cla()
    im = plt.contour(thetaGrid, Rgrid, data[i], 100)
    return im,

def update(data,ax,thetaGrid,Rgrid):
    """
    Clears and updates the current plot to show the new frame
    """
    ax.cla()
    t,z = data
    im = plt.contour(thetaGrid, Rgrid, z, 100)
    def setvisible(self,vis):
        for c in self.collections: c.set_visible(vis)
    im.set_visible = types.MethodType(setvisible,im,None)
    im.axes = ax
    return im,

# GRID
theta = np.linspace(0.,2.*np.pi,360)
R = np.linspace(0.1,1.0,50)
thetaGrid, Rgrid = np.meshgrid(theta, R)

# CONSTANTS

# initialise a monopole object
mon1 = monopole()

# initialise the timing function
getData.T0 = 0. # start time
getData.T1 = 10. # max time
getData.nT = 1000 # no.  time intervals

# associate the timing function with the grid and monopole
getData.thetaGrid = thetaGrid
getData.Rgrid = Rgrid
getData.source = mon1

# create data for each frame
time,data = [0.]*getData.nT, [0.]*getData.nT
i = 0
for frame in getData():
    time[i] = frame[0]
    data[i] = frame[1]
    i += 1

# PLOTTING

# set the window
fig = plt.figure(figsize=(12,10))
plt.subplot(1,1,1,polar=True)

# initial state
im = plt.contour(thetaGrid,Rgrid, mon1.getSources(thetaGrid,Rgrid,0.), 100)
plt.colorbar(im)
ax = fig.gca()

# aimate
# This works:
#ani = animation.FuncAnimation(fig, updatePreCalc, frames=xrange(getData.nT), fargs=(ax,thetaGrid,Rgrid,data), interval=1)
# This doesn't work
ani = animation.FuncAnimation(fig, update, getData, blit=True,fargs=(ax,thetaGrid,Rgrid), interval=1, repeat=False)

plt.show()
share|improve this question
    
This code is a bit of a mess, I am unclear why you are monkey patching the object returned by contour, you should not have to set im.axes, and you should use ax.contour. However the answer to your question is remove blit=True from the call to animation. –  tcaswell May 9 '14 at 15:52

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