Backend DevelopmentPython TutorialHow Can I Efficiently Update Matplotlib Plots in a Tkinter Application After Changing the Time Scale?
Updating Plots in Matplotlib for Tkinter
You've encountered difficulties in updating plots in Matplotlib within a Tkinter application. You're allowing users to adjust the time scale units, which necessitates recalculating and updating the plot without creating new plots.
Approach 1: Clearing and Replotting
A straightforward method is to clear the existing plot by calling graph1.clear() and graph2.clear(), then replot the data. While it's simpler, it's also slower.
Approach 2: Updating Plot Data
An alternative approach, which is significantly faster, involves updating the data of existing plot objects. This requires adjusting your code slightly:
def plots():
global vlgaBuffSorted
cntr()
result = collections.defaultdict(list)
for d in vlgaBuffSorted:
result[d['event']].append(d)
result_list = result.values()
f = Figure()
graph1 = f.add_subplot(211)
graph2 = f.add_subplot(212, sharex=graph1)
# Create plot objects
vds_line, = graph1.plot([], [], 'bo', label='a')
vgs_line, = graph1.plot([], [], 'rp', label='b')
isub_line, = graph2.plot([], [], 'b-', label='c')
for item in result_list:
# Update plot data
vds_line.set_data([], [])
vgs_line.set_data([], [])
isub_line.set_data([], [])
tL = []
vgsL = []
vdsL = []
isubL = []
for dict in item:
tL.append(dict['time'])
vgsL.append(dict['vgs'])
vdsL.append(dict['vds'])
isubL.append(dict['isub'])
# Update plot data
vds_line.set_data(tL, vdsL)
vgs_line.set_data(tL, vgsL)
isub_line.set_data(tL, isubL)
# Draw the plot
f.canvas.draw()
f.canvas.flush_events()
In this approach, you create plot objects (e.g., vds_line), then update their data with each iteration. The draw() and flush_events() methods are used to display the updated plot on the Tkinter window.
By choosing the appropriate approach, you can effectively update plots in Matplotlib within your Tkinter application.
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