35

I am plotting multiple dataframes as point plot using seaborn. Also I am plotting all the dataframes on the same axis.

How would I add legend to the plot ?

My code takes each of the dataframe and plots it one after another on the same figure.

Each dataframe has same columns

date        count
2017-01-01  35
2017-01-02  43
2017-01-03  12
2017-01-04  27 

My code :

f, ax = plt.subplots(1, 1, figsize=figsize)
x_col='date'
y_col = 'count'
sns.pointplot(ax=ax,x=x_col,y=y_col,data=df_1,color='blue')
sns.pointplot(ax=ax,x=x_col,y=y_col,data=df_2,color='green')
sns.pointplot(ax=ax,x=x_col,y=y_col,data=df_3,color='red')

This plots 3 lines on the same plot. However the legend is missing. The documentation does not accept label argument .

One workaround that worked was creating a new dataframe and using hue argument.

df_1['region'] = 'A'
df_2['region'] = 'B'
df_3['region'] = 'C'
df = pd.concat([df_1,df_2,df_3])
sns.pointplot(ax=ax,x=x_col,y=y_col,data=df,hue='region')

But I would like to know if there is a way to create a legend for the code that first adds sequentially point plot to the figure and then add a legend.

Sample output :

Seaborn Image

1
  • The datatype of date column can be assumed to be datetime.date. – Spandan Brahmbhatt Mar 13 '17 at 15:31
35

I would suggest not to use seaborn pointplot for plotting. This makes things unnecessarily complicated.
Instead use matplotlib plot_date. This allows to set labels to the plots and have them automatically put into a legend with ax.legend().

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

date = pd.date_range("2017-03", freq="M", periods=15)
count = np.random.rand(15,4)
df1 = pd.DataFrame({"date":date, "count" : count[:,0]})
df2 = pd.DataFrame({"date":date, "count" : count[:,1]+0.7})
df3 = pd.DataFrame({"date":date, "count" : count[:,2]+2})

f, ax = plt.subplots(1, 1)
x_col='date'
y_col = 'count'

ax.plot_date(df1.date, df1["count"], color="blue", label="A", linestyle="-")
ax.plot_date(df2.date, df2["count"], color="red", label="B", linestyle="-")
ax.plot_date(df3.date, df3["count"], color="green", label="C", linestyle="-")

ax.legend()

plt.gcf().autofmt_xdate()
plt.show()

enter image description here


In case one is still interested in obtaining the legend for pointplots, here a way to go:

sns.pointplot(ax=ax,x=x_col,y=y_col,data=df1,color='blue')
sns.pointplot(ax=ax,x=x_col,y=y_col,data=df2,color='green')
sns.pointplot(ax=ax,x=x_col,y=y_col,data=df3,color='red')

ax.legend(handles=ax.lines[::len(df1)+1], labels=["A","B","C"])

ax.set_xticklabels([t.get_text().split("T")[0] for t in ax.get_xticklabels()])
plt.gcf().autofmt_xdate()

plt.show()
4
  • I agree with @ImportanceOfBeingErnest that using seaborn would make advance things bit complicated. Personally tradeoff is ease for simple plots and aesthetics vs complications and less documentation compared to matplotlib. I am going to wait for couple of hours to see if someone has an idea how to add legend to seaborn plots. If not I think this answer is correct and will accept it. – Spandan Brahmbhatt Mar 13 '17 at 17:23
  • 2
    Ok, so if you are really interested in using pointplots, I added a way to get the legend for those. – ImportanceOfBeingErnest Mar 13 '17 at 17:46
  • What is the [::len(df1)+1] good for? As far as I can it copies ax.lines. But why the step argument? Could you add a comment to the code sample for that? – exhuma Mar 27 '20 at 13:55
  • 1
    @exhuma The pointplot creates len(df) short error lines and one main line for every call. With [::len(df1)+1] you only select the main lines, not the error lines (which all have the same color). – JohanC Nov 27 '20 at 7:21
10

Old question, but there's an easier way.

sns.pointplot(x=x_col,y=y_col,data=df_1,color='blue')
sns.pointplot(x=x_col,y=y_col,data=df_2,color='green')
sns.pointplot(x=x_col,y=y_col,data=df_3,color='red')
plt.legend(labels=['legendEntry1', 'legendEntry2', 'legendEntry3'])

This lets you add the plots sequentially, and not have to worry about any of the matplotlib crap besides defining the legend items.

4
  • 10
    however, for this solution, the legend colors are "blue" for all legend entries, instead of "blue", then "green", then "red" – S.A. Nov 27 '19 at 13:57
  • 2
    Not when I use it! – Adam B Nov 27 '19 at 16:58
  • AdamB, I get the desired behavior. Maybe it would help clear up some confusion as pointed out by @S.A. if you put the version of seaborn and platform information. As it stands, this solution is the simplest, given that it works ;) – Joseph Wood Nov 18 '20 at 11:47
  • 1
    @JosephWood You need the last part of the accepted answer (by Ernest), which skips all the short error lines. So, ax.legend(handles=ax.lines[::len(df_1)+1], labels=["A","B","C"]). However, if you add ci=None, there are no error bars, and no skipping is needed. In that case the simple solution here will work. – JohanC Nov 27 '20 at 7:30
3

I tried using Adam B's answer, however, it didn't work for me. Instead, I found the following workaround for adding legends to pointplots.

import matplotlib.patches as mpatches
red_patch = mpatches.Patch(color='#bb3f3f', label='Label1')
black_patch = mpatches.Patch(color='#000000', label='Label2')

In the pointplots, the color can be specified as mentioned in previous answers. Once these patches corresponding to the different plots are set up,

plt.legend(handles=[red_patch, black_patch])

And the legend ought to appear in the pointplot.

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