# Adding a legend to PyPlot in Matplotlib in the simplest manner possible

TL;DR -> How can one create a legend for a line graph in Matplotlib's PyPlot without creating any extra variables?

Please consider the graphing script below:

if __name__ == '__main__':
PyPlot.plot(total_lengths, sort_times_bubble, 'b-',
total_lengths, sort_times_ins, 'r-',
total_lengths, sort_times_merge_r, 'g+',
total_lengths, sort_times_merge_i, 'p-', )
PyPlot.title("Combined Statistics")
PyPlot.xlabel("Length of list (number)")
PyPlot.ylabel("Time taken (seconds)")
PyPlot.show()


As you can see, this is a very basic use of matplotlib's PyPlot. This ideally generates a graph like the one below: Nothing special, I know. However, it is unclear what data is being plotted where (I'm trying to plot the data of some sorting algorithms, length against time taken, and I'd like to make sure people know which line is which). Thus, I need a legend, however, taking a look at the following example below(from the official site):

ax = subplot(1,1,1)
p1, = ax.plot([1,2,3], label="line 1")
p2, = ax.plot([3,2,1], label="line 2")
p3, = ax.plot([2,3,1], label="line 3")

handles, labels = ax.get_legend_handles_labels()

# reverse the order
ax.legend(handles[::-1], labels[::-1])

# or sort them by labels
import operator
hl = sorted(zip(handles, labels),
key=operator.itemgetter(1))
handles2, labels2 = zip(*hl)

ax.legend(handles2, labels2)


You will see that I need to create an extra variable ax. How can I add a legend to my graph without having to create this extra variable and retaining the simplicity of my current script?

• I am confused by your concern of creating an extra variable. You have to make those objects behind the scenes anyway. Oct 1 '13 at 21:01
• @tcaswell Well let me try to assuage them. I do not want to create extra variables, because it adds complexity to the whole script. I'm trying to teach this to a bunch of students, and since they have't used matplotlib before, I wanted to keep things as simple as possible. Also, if you take a look at Rob's answer, its far simpler than the example shown on the website. I hope that helps. Oct 1 '13 at 21:08
• I would argue that using the state machine interface makes it harder to understand in the long run because so much of it is being done 'by magic'. Also, the convention is to use import matplotlib.pyplot as plt instead of PyPlot Oct 1 '13 at 21:55

Add a label= to each of your plot() calls, and then call legend(loc='upper left').

Consider this sample (tested with Python 3.8.0):

import numpy as np
import matplotlib.pyplot as plt

x = np.linspace(0, 20, 1000)
y1 = np.sin(x)
y2 = np.cos(x)

plt.plot(x, y1, "-b", label="sine")
plt.plot(x, y2, "-r", label="cosine")
plt.legend(loc="upper left")
plt.ylim(-1.5, 2.0)
plt.show() Slightly modified from this tutorial: http://jakevdp.github.io/mpl_tutorial/tutorial_pages/tut1.html

• Is there a way to do this if you don't know the labels at the time the series is plotted? I.e. a way to add labels to a series after it has already been plotted? Or maybe a way to modify placeholder labels before showing the legend? Jul 5 '17 at 3:42
• plt.legend(loc='upper left') also works, where plt is from import matplotlib.pyplot as plt. Jan 20 '18 at 8:10
• Note for others: the plt.legend() call needs to be after plt.plot(label="lab1") Nov 25 '19 at 20:18
• @davidA Yes, you can simply pass a list of strings into plt.legend: plt.legend(['First Label', 'Second Label']) Dec 12 '19 at 23:41
• I am sure actual documentation at: matplotlib.org/3.1.1/api/_as_gen/matplotlib.pyplot.legend.html also answers this, but it is such a pain to get that info from there as compared to here. We need to re-imagine documentation. lolz Apr 25 '20 at 4:18

You can access the Axes instance (ax) with plt.gca(). In this case, you can use

plt.gca().legend()


You can do this either by using the label= keyword in each of your plt.plot() calls or by assigning your labels as a tuple or list within legend, as in this working example:

import numpy as np
import matplotlib.pyplot as plt
x = np.linspace(-0.75,1,100)
y0 = np.exp(2 + 3*x - 7*x**3)
y1 = 7-4*np.sin(4*x)
plt.plot(x,y0,x,y1)
plt.gca().legend(('y0','y1'))
plt.show() However, if you need to access the Axes instance more that once, I do recommend saving it to the variable ax with

ax = plt.gca()


and then calling ax instead of plt.gca().

• copy-paste answer that doesn't require any reading, and with a picture! this answer deserves more credit Jun 10 '19 at 13:59
• Hi Cameron, I tried to reach you and this is the best option I found... You are the author of a very helpful tool I used a lot: web.media.mit.edu/~crtaylor/calculator.html Unfortunately it does not work for some time now. Is it me or is the tool, that is broken. If so, can you fix it? Dec 17 '20 at 21:20
• Whoops! Fixed. Thanks for the message! Hope you learned something useful about Axes instances :) Dec 19 '20 at 4:23

fig = plt.figure(figsize=(10,5))
ax.scatter(x=data[:,0],y=data[:,1],label='Data')
plt.plot(data[:,0], m*data[:,0] + b,color='red',label='Our Fitting
Line')
ax.set_ylabel('Rating')
ax.legend(loc='best')
plt.show() • I'm just curious, why is your fitting line so far off the data? Dec 12 '19 at 23:28

A simple plot for sine and cosine curves with a legend.

Used matplotlib.pyplot

import math
import matplotlib.pyplot as plt
x=[]
for i in range(-314,314):
x.append(i/100)
ysin=[math.sin(i) for i in x]
ycos=[math.cos(i) for i in x]
plt.plot(x,ysin,label='sin(x)')  #specify label for the corresponding curve
plt.plot(x,ycos,label='cos(x)')
plt.xticks([-3.14,-1.57,0,1.57,3.14],['-$\pi$','-$\pi$/2',0,'$\pi$/2','$\pi$'])
plt.legend()
plt.show() Add labels to each argument in your plot call corresponding to the series it is graphing, i.e. label = "series 1"

Then simply add Pyplot.legend() to the bottom of your script and the legend will display these labels.

• This is the right idea, but you never add the labels so the legend will be empty Oct 1 '13 at 21:02

You can add a custom legend documentation

first = [1, 2, 4, 5, 4]
second = [3, 4, 2, 2, 3]
plt.plot(first, 'g--', second, 'r--')
plt.legend(['First List', 'Second List'], loc='upper left')
plt.show() # Dependencies
import numpy as np
import matplotlib.pyplot as plt

#Set Axes
# Set x axis to numerical value for month
x_axis_data = np.arange(1,13,1)
x_axis_data

# Average weather temp
points = [39, 42, 51, 62, 72, 82, 86, 84, 77, 65, 55, 44]

# Plot the line
plt.plot(x_axis_data, points)
plt.show()

# Convert to Celsius C = (F-32) * 0.56
points_C = [round((x-32) * 0.56,2) for x in points]
points_C

# Plot using Celsius
plt.plot(x_axis_data, points_C)
plt.show()

# Plot both on the same chart
plt.plot(x_axis_data, points)
plt.plot(x_axis_data, points_C)

#Line colors
plt.plot(x_axis_data, points, "-b", label="F")
plt.plot(x_axis_data, points_C, "-r", label="C")

#locate legend
plt.legend(loc="upper left")
plt.show()