I would like to have what I would describe as a progress marker that seems pretty common in audio playback utilites. I would think in matplotlib this amounts to left/right animated plt.vlines. My code takes a 2 second array of data and creates an audio time series visualization. I'm struggling to create an animated vertical line that would move across the plot linearly for 2 seconds from 0 to 2.

import seaborn as sns
import numpy as np
import matplotlib.pyplot as plt

font = {'weight': 'bold', 'size': 15}

testSeries = np.random.randint(-10, 20, 12000)
testSeries = testSeries - testSeries.mean()

fig,axis = plt.subplots(nrows=1,ncols=1,figsize=(18,5),sharex=True)
sns.lineplot(range(0,len(testSeries)),testSeries,  color='#007294')
plt.xlim(0, len(testSeries))
axis.set_xlabel("Time (s)", fontsize='large', fontweight='bold')
axis.set_ylabel("Amplitude", fontsize='large', fontweight='bold')
axis.set_xticklabels(['0', '0.3', '0.6', '1', '1.3', '1.6', '2'],fontsize=15)

2 Answers 2


axvline() simply returns a Line2D object, so you can update its position by using Line2D.set_xdata()

duration = 2 # in sec
refreshPeriod = 100 # in ms

fig,ax = plt.subplots()
vl = ax.axvline(0, ls='-', color='r', lw=1, zorder=10)

def animate(i,vl,period):
    t = i*period / 1000
    return vl,

ani = animation.FuncAnimation(fig, animate, frames=int(duration/(refreshPeriod/1000)), fargs=(vl,refreshPeriod), interval=refreshPeriod)

enter image description here

Note that the refresh rate is not guaranteed, it depends on the time it takes to redraw the figure. You may have to play around with the refreshPeriod.

  • That is really nice, but how to get the refresh rate more accurate? Is there a possibiliy to correct for the time it takes for redrawing the figure with the next drawing, such that small differences do not add up?
    – Klaus
    Commented Aug 24, 2022 at 13:30

Interactive mode of matplotlib might be useful to you. Here's how you could set it up:

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

testSeries = np.random.randint(-10, 20, 1000)
testSeries = testSeries - testSeries.mean()

x = range(0,len(testSeries))
fig,ax = plt.subplots(nrows=1,ncols=1)

line = ax.plot((x[0], x[0]), (0, testSeries[0]), 'k-',linewidth=4)

plt.xlim(0, len(testSeries))
plt.ion()   # set interactive mode

ax.set_xlabel("Time (s)", fontsize='large', fontweight='bold')
ax.set_ylabel("Amplitude", fontsize='large', fontweight='bold')
ax.set_xticklabels(['0', '0.3', '0.6', '1', '1.3', '1.6', '2'],fontsize=15)

for i,serie in enumerate(testSeries):
#comment the following three lines if you don't want to remove previous lines

    for l in line:
        del l

    line = ax.plot((x[i], x[i]), (0, testSeries[i]), 'k-',linewidth=4)

Output (with previous lines kept):


Output (with previous lines deleted): example2

  • This is not exactly what I was looking to achieve, but it's an interesting solution nonetheless.
    – Derek_P
    Commented May 15, 2020 at 4:31

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