I'm having issues with redrawing the figure here. I allow the user to specify the units in the time scale (x-axis) and then I recalculate and call this function plots(). I want the plot to simply update, not append another plot to the figure.

def plots():
    global vlgaBuffSorted

    result = collections.defaultdict(list)
    for d in vlgaBuffSorted:

    result_list = result.values()

    f = Figure()
    graph1 = f.add_subplot(211)
    graph2 = f.add_subplot(212,sharex=graph1)

    for item in result_list:
        tL = []
        vgsL = []
        vdsL = []
        isubL = []
        for dict in item:

    plotCanvas = FigureCanvasTkAgg(f, pltFrame)
    toolbar = NavigationToolbar2TkAgg(plotCanvas, pltFrame)

You essentially have two options:

  1. Do exactly what you're currently doing, but call graph1.clear() and graph2.clear() before replotting the data. This is the slowest, but most simplest and most robust option.

  2. Instead of replotting, you can just update the data of the plot objects. You'll need to make some changes in your code, but this should be much, much faster than replotting things every time. However, the shape of the data that you're plotting can't change, and if the range of your data is changing, you'll need to manually reset the x and y axis limits.

To give an example of the second option:

import matplotlib.pyplot as plt
import numpy as np

x = np.linspace(0, 6*np.pi, 100)
y = np.sin(x)

# You probably won't need this if you're embedding things in a tkinter plot...

fig = plt.figure()
ax = fig.add_subplot(111)
line1, = ax.plot(x, y, 'r-') # Returns a tuple of line objects, thus the comma

for phase in np.linspace(0, 10*np.pi, 500):
    line1.set_ydata(np.sin(x + phase))
| improve this answer | |
  • I tried testing "1." and the result was, after I replotted the data another set of plots were drawn in my GUI, so now I had 4 plots after recalculation, just like before. – thenickname Nov 4 '10 at 16:59
  • @thenickname - Where exactly in your code are you calling clear? You should be calling graph1.clear(); graph2.clear() inside your for loop, just before you call graph1.plot(...), graph2.plot(...) etc... – Joe Kington Nov 4 '10 at 18:49
  • That for loop creates calles graphx.plot(...) N times and putting the clear statements in there only plots the last one. I've actually pulled out the canvas code and put it into the main program loop along with the figure code and I now have my function being called by a button. For some reason if I just call the function the plots get updated, but if I press the button the plots do not. It's pretty interesting behavior. I think that must be a bug in Tkinter. – thenickname Nov 5 '10 at 13:51
  • Just a hunch... Are you missing a call fig.canvas.draw() or plt.draw() after plotting each frame? (I.e. you should have a sequence of clear, plot, draw each time you want to show a frame) I'm guessing, but I think that would cause exactly the behavior you're describing... Good luck, at any rate! – Joe Kington Nov 5 '10 at 14:44
  • 3
    It's 2k14 and I stumbled to achieve something like this... it works as expected but the plotting window is turning "not responding" .. any suggestions?? – DevC Feb 12 '14 at 12:47

You can also do like the following: This will draw a 10x1 random matrix data on the plot for 50 cycles of the for loop.

import matplotlib.pyplot as plt
import numpy as np

for i in range(50):
    y = np.random.random([10,1])
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  • This doesn't seem to output a graph. Am I missing something? I have %matplotlib inline in Jupyter notebook as well. – MasayoMusic Sep 5 '19 at 21:32
  • haha, worked for me when I removed the plt.clf(). Oh matplotlib, you rascal :) – AndyP Dec 13 '19 at 3:47

This worked for me. Repeatedly calls a function updating the graph every time.

import matplotlib.pyplot as plt
import matplotlib.animation as anim

def plot_cont(fun, xmax):
    y = []
    fig = plt.figure()
    ax = fig.add_subplot(1,1,1)

    def update(i):
        yi = fun()
        x = range(len(y))
        ax.plot(x, y)
        print i, ': ', yi

    a = anim.FuncAnimation(fig, update, frames=xmax, repeat=False)

"fun" is a function that returns an integer. FuncAnimation will repeatedly call "update", it will do that "xmax" times.

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  • Could you give an example on how you call this function (especially how you pass a function in a function call) as well as how the fun() function looks like? – bjornasm Mar 30 '15 at 16:27
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    Sure. "fun()" is any function that returns an integer. You can pass the function as an argument to another like this: "plot_cont(my_function, 123)". There you have me calling plot_cont at line 86: github.com/vitobasso/audio-ml/blob/… – Vituel Mar 31 '15 at 1:03
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    Note that "a = " is necessary or FuncAnimation will be garbage collected and the code won't work! – Kiuhnm Apr 2 '18 at 14:24

In case anyone comes across this article looking for what I was looking for, I found examples at

How to visualize scalar 2D data with Matplotlib?


http://mri.brechmos.org/2009/07/automatically-update-a-figure-in-a-loop (on web.archive.org)

then modified them to use imshow with an input stack of frames, instead of generating and using contours on the fly.

Starting with a 3D array of images of shape (nBins, nBins, nBins), called frames.

def animate_frames(frames):
    nBins   = frames.shape[0]
    frame   = frames[0]
    tempCS1 = plt.imshow(frame, cmap=plt.cm.gray)
    for k in range(nBins):
        frame   = frames[k]
        tempCS1 = plt.imshow(frame, cmap=plt.cm.gray)
        del tempCS1
        #time.sleep(1e-2) #unnecessary, but useful

fig = plt.figure()
ax  = fig.add_subplot(111)

win = fig.canvas.manager.window
fig.canvas.manager.window.after(100, animate_frames, frames)

I also found a much simpler way to go about this whole process, albeit less robust:

fig = plt.figure()

for k in range(nBins):
    time.sleep(1e-6) #unnecessary, but useful

Note that both of these only seem to work with ipython --pylab=tk, a.k.a.backend = TkAgg

Thank you for the help with everything.

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I have released a package called python-drawnow that provides functionality to let a figure update, typically called within a for loop, similar to Matlab's drawnow.

An example usage:

from pylab import figure, plot, ion, linspace, arange, sin, pi
def draw_fig():
    # can be arbitrarily complex; just to draw a figure
    #figure() # don't call!
    plot(t, x)
    #show() # don't call!

N = 1e3
figure() # call here instead!
ion()    # enable interactivity
t = linspace(0, 2*pi, num=N)
for i in arange(100):
    x = sin(2 * pi * i**2 * t / 100.0)

This package works with any matplotlib figure and provides options to wait after each figure update or drop into the debugger.

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  • 2
    How is it robust and unstable at the same time? – BlueMoon93 Nov 30 '16 at 10:47
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    I meant robust as in "works with any matplotlib figure" and unstable as in "weekend project". I've updated my answer – Scott Dec 4 '16 at 3:18

All of the above might be true, however for me "online-updating" of figures only works with some backends, specifically wx. You just might try to change to this, e.g. by starting ipython/pylab by ipython --pylab=wx! Good luck!

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  • 1
    Thank you for your message, I never used the interactive mode because it never worked with the default backend I used. It's much nicer to use the interactive mode than stopping the execution each time you want to see a graph! – PierreE Jul 29 '13 at 17:46
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    None of the other answers helped in my case. I am using pycharm and the problem was with plotting and interactivity of the console. I needed to add From pylab import * and then ion() in the code body to turn interactive on. It works smoothly now for me. – shelbypereira Nov 7 '17 at 9:20

This worked for me:

from matplotlib import pyplot as plt
from IPython.display import clear_output
import numpy as np
for i in range(50):
    y = np.random.random([10,1])
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