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I am trying to plot some data from a camera in real time using OpenCV. However the real-time plotting (using matplotlib) doesn't seem to be working.

I've isolated the problem into this simple example:

fig=plt.figure()
plt.axis([0,1000,0,1])

i=0
x=list()
y=list()

while i <1000:
    temp_y=np.random.random()
    x.append(i)
    y.append(temp_y)
    plt.scatter(i,temp_y)
    i+=1
    plt.show()

I would expect this example to plot 1000 points individually. What actually happens is that the window pops up with the first point showing (ok with that), then waits for the loop to finish before it populates the rest of the graph.

Any thoughts why I am not seeing points populated one at a time?

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Is that indentation in that code block correct? If not you should clean it up. As far a I can tell the lines following while i < 1000: should be indented until plt.show() which should not be. –  Michael Mauderer Aug 8 '12 at 23:41
    
@Michael correct...fixed –  Chris Aug 8 '12 at 23:43

8 Answers 8

up vote 15 down vote accepted

show is probably not the best choice for this. What I would do is use pyplot.draw() instead. You also might want to include a small time delay (e.g., time.sleep(0.05)) in the loop so that you can see the plots happening. If I make these changes to your example it works for me and I see each point appearing one at a time.

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Here's the working version of the code in question, on a more recent Matplotlib module.

import time
import numpy as np
import matplotlib.pyplot as plt

plt.axis([0, 1000, 0, 1])
plt.ion()
plt.show()

for i in range(1000):
    y = np.random.random()
    plt.scatter(i, y)
    plt.draw()
    time.sleep(0.05)

Note some of the changes:

  1. Call plt.ion() in order to enable interactive plotting. plt.show(block=False) is no longer available.
  2. Call plt.show() initially, then update the plot with plt.draw()
  3. Add a time delay at the end as suggested by @BrenBarn
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This worked for me in Python2. In Python3 it did not. It would pause the loop after rendering the plot window. But after moving the plt.show() method to after the loop... it resolved it for Python3, for me. –  continuousqa Sep 5 '14 at 18:36
    
Weird, worked okay for me in Python 3 (ver 3.4.0) Matplotlib (ver 1.3.1) Numpy (ver 1.8.1) Ubuntu Linux 3.13.0 64-bit –  Velimir Mlaker Sep 12 '14 at 14:58
    
this does not work with ipython='2.1.0', matplotlib='1.3.1'. the plot gets stuck –  denfromufa Sep 25 '14 at 21:24
1  
instead of plt.show() and plt.draw() just replace plt.draw() with plt.pause(0.1) –  denfromufa Sep 25 '14 at 22:17

If you're interested in realtime plotting, I'd recommend looking into matplotlib's animation API. In particular, using blit to avoid redrawing the background on every frame can give you substantial speed gains (~10x):

#!/usr/bin/env python

import numpy as np
import time
import matplotlib
matplotlib.use('GTKAgg')
from matplotlib import pyplot as plt


def randomwalk(dims=(256, 256), n=20, sigma=5, alpha=0.95, seed=1):
    """ A simple random walk with memory """

    r, c = dims
    gen = np.random.RandomState(seed)
    pos = gen.rand(2, n) * ((r,), (c,))
    old_delta = gen.randn(2, n) * sigma

    while True:
        delta = (1. - alpha) * gen.randn(2, n) * sigma + alpha * old_delta
        pos += delta
        for ii in xrange(n):
            if not (0. <= pos[0, ii] < r):
                pos[0, ii] = abs(pos[0, ii] % r)
            if not (0. <= pos[1, ii] < c):
                pos[1, ii] = abs(pos[1, ii] % c)
        old_delta = delta
        yield pos


def run(niter=1000, doblit=True):
    """
    Display the simulation using matplotlib, optionally using blit for speed
    """

    fig, ax = plt.subplots(1, 1)
    ax.set_aspect('equal')
    ax.set_xlim(0, 255)
    ax.set_ylim(0, 255)
    ax.hold(True)
    rw = randomwalk()
    x, y = rw.next()

    plt.show(False)
    plt.draw()

    if doblit:
        # cache the background
        background = fig.canvas.copy_from_bbox(ax.bbox)

    points = ax.plot(x, y, 'o')[0]
    tic = time.time()

    for ii in xrange(niter):

        # update the xy data
        x, y = rw.next()
        points.set_data(x, y)

        if doblit:
            # restore background
            fig.canvas.restore_region(background)

            # redraw just the points
            ax.draw_artist(points)

            # fill in the axes rectangle
            fig.canvas.blit(ax.bbox)

        else:
            # redraw everything
            fig.canvas.draw()

    plt.close(fig)
    print "Blit = %s, average FPS: %.2f" % (
        str(doblit), niter / (time.time() - tic))

if __name__ == '__main__':
    run(doblit=False)
    run(doblit=True)

Output:

Blit = False, average FPS: 54.37
Blit = True, average FPS: 438.27
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This looks nice, but where do you actually call "show" or display the graph? –  bejota Jan 30 at 21:37
    
@bejota The original version was designed to work within an interactive matplotlib session. To make it work as a standalone script, it's necessary to 1) explicitly select a backend for matplotlib, and 2) to force the figure to be displayed and drawn before entering the animation loop using plt.show() and plt.draw(). I've added these changes to the code above. –  ali_m Feb 2 at 10:41
    
Great, thanks! I'm going to chew on this awhile. I have several axes and axis ranges are also changing. –  bejota Feb 2 at 23:44

The problem seems to be that you expect plt.show() to show the window and then to return. It does not do that. The program will stop at that point and only resume once you close the window. You should be able to test that: If you close the window and then another window should pop up.

To resolve that problem just call plt.show() once after your loop. Then you get the complete plot. (But not a 'real-time plotting')

You can try setting the keyword-argument block like this: plt.show(block=False) once at the beginning and then use .draw() to update.

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real-time plotting is really what I'm going for. I'm going to be running a 5 hour test on something and want to see how things are progressing. –  Chris Aug 8 '12 at 23:48
    
@Chris were you able to conduct the 5 hour test? I am also looking for something similar. I am using plyplot.pause(time_duration) to update the plot. Is there any other way to do so? –  Prakhar Mohan Srivastava Apr 11 '14 at 16:02

None of the methods worked for me. But I have found this Real time matplotlib plot is not working while still in a loop

All you need is to add plt.pause(0.0001) and than you could see the new plot.

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2  
this is the correct answer add this plt.pause(0.0001) –  Isopycnal Oscillation Aug 17 '14 at 5:30

I know this question is old, but there's now a package available called drawnow. This provides an interface similar to MATLAB's drawnow -- you can easily update a figure.

An example for your use case:

from pylab import arange, plt
from drawnow import drawnow

plt.ion() # enable interactivity
fig=plt.figure() # make a figure

def makeFig():
    plt.scatter(x,y) # I think you meant this

x=list()
y=list()

for i in arange(1000):
    temp_y=np.random.random()
    x.append(i)
    y.append(temp_y) # or any arbitrary update to your figure's data
    i+=1
    drawnow(makeFig)
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If you want draw and not freeze your thread as more point are drawn you should use plt.pause() not time.sleep()

im using the following code to plot a series of xy coordinates.

import matplotlib.pyplot as plt 
import math


pi = 3.14159

fig, ax = plt.subplots()

x = []
y = []

def PointsInCircum(r,n=20):
    circle = [(math.cos(2*pi/n*x)*r,math.sin(2*pi/n*x)*r) for x in xrange(0,n+1)]
    return circle

circle_list = PointsInCircum(3, 50)

for t in range(len(circle_list)):
    if t == 0:
        points, = ax.plot(x, y, marker='o', linestyle='--')
        ax.set_xlim(-4, 4) 
        ax.set_ylim(-4, 4) 
    else:
        x_coord, y_coord = circle_list.pop()
        x.append(x_coord)
        y.append(y_coord)
        points.set_data(x, y)
    plt.pause(0.01)
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Here is a version that I got to work on my system.

import matplotlib.pyplot as plt
from drawnow import drawnow
import numpy as np

def makeFig():
    plt.scatter(xList,yList) # I think you meant this

plt.ion() # enable interactivity
fig=plt.figure() # make a figure

xList=list()
yList=list()

for i in np.arange(50):
    y=np.random.random()
    xList.append(i)
    yList.append(y)
    drawnow(makeFig)
    #makeFig()      The drawnow(makeFig) command can be replaced
    #plt.draw()     with makeFig(); plt.draw()
    plt.pause(0.001)

The drawnow(makeFig) line can be replaced with a makeFig(); plt.draw() sequence and it still works OK.

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