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I want to create a bar chart of two series (say 'A' and 'B') contained in a Pandas dataframe. If I wanted to just plot them using a different y-axis, I can use secondary_y:

df = pd.DataFrame(np.random.uniform(size=10).reshape(5,2),columns=['A','B'])
df['A'] = df['A'] * 100

but if I want to create bar graphs, the equivalent command is ignored (it doesn't put different scales on the y-axis), so the bars from 'A' are so big that the bars from 'B' are cannot be distinguished:


How can I do this in pandas directly? or how would you create such graph?

I'm using pandas 0.10.1 and matplotlib version 1.2.1.

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What do you mean by equivalent command does not work? Do you have no figure, or is the figure not what you expect? – Nipun Batra May 13 '13 at 14:41
please post the error or describe what is not working – Ryan Saxe May 13 '13 at 14:48
What have you tried to implement this by hand? Have you looked at the gallery? – tcaswell May 13 '13 at 15:00
No, everything goes smoothly. Do you get same sized bars? Which versions are you using? – ancechu May 13 '13 at 15:37
I see, sorry, I was totally missing that crucial line (now obvious in retrospect). This doesn't work in pandas 0.11 either, I recommend submitting this as issue on github. – Andy Hayden May 13 '13 at 16:23

2 Answers 2

up vote 5 down vote accepted

Don't think pandas graphing supports this. Did some manual matplotlib code.. you can tweak it further

import pylab as pl
fig = pl.figure()
ax1 = pl.subplot(111,ylabel='A')
#ax2 = gcf().add_axes(ax1.get_position(), sharex=ax1, frameon=False, ylabel='axes2')
ax2 =ax1.twinx()
ax2.set_ylabel('B'),df.A.values, width =0.4, color ='g', align = 'center'),df.B.values, width = 0.4, color='r', align = 'edge')
ax1.legend(['A'], loc = 'upper left')
ax2.legend(['B'], loc = 'upper right')

enter image description here

I am sure there are ways to force the one bar further tweak it. move bars further apart, one slightly transparent etc.

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Ok, I had the same problem recently and even if it's an old question, I think that I can give an answer for this problem, in case if someone else lost his mind with this. Joop gave the bases of the thing to do, and it's easy when you only have (for exemple) two columns in your dataframe, but it becomes really nasty when you have a different numbers of columns for the two axis, due to the fact that you need to play with the position argument of the pandas plot() function. In my exemple I use seaborn but it's optionnal :

import pandas as pd
import seaborn as sns
import pylab as plt
import numpy as np

df1 = pd.DataFrame(np.array([[i*99 for i in range(11)]]).transpose(), columns = ["100"], index = [i for i in range(11)])
df2 = pd.DataFrame(np.array([[i for i in range(11)], [i*2 for i in range(11)]]).transpose(), columns = ["1", "2"], index = [i for i in range(11)])

fig, ax = plt.subplots()
ax2 = ax.twinx()

# we must define the length of each column. 
df1_len = len(df1.columns.values)
df2_len = len(df2.columns.values)
column_width = 0.8 / (df1_len + df2_len)

# we calculate the position of each column in the plot. This value is based on the position definition :
# Specify relative alignments for bar plot layout. From 0 (left/bottom-end) to 1 (right/top-end). Default is 0.5 (center)
df1_posi = 0.5 + (df2_len/float(df1_len)) * 0.5
df2_posi = 0.5 - (df1_len/float(df2_len)) * 0.5

# In order to have nice color, I use the default color palette of seaborn
df1.plot(kind='bar', ax=ax, width=column_width*df1_len, color=sns.color_palette()[:df1_len], position=df1_posi)
df2.plot(kind='bar', ax=ax2, width=column_width*df2_len, color=sns.color_palette()[df1_len:df1_len+df2_len], position=df2_posi)

ax.legend(loc="upper left")

# Pandas add line at x = 0 for each dataframe.

# Specific to seaborn, we have to remove the background line 
ax2.grid(b=False, axis='both')

# We need to add some space, the xlim don't manage the new positions
column_length = (ax2.get_xlim()[1] - abs(ax2.get_xlim()[0])) / float(len(df1.index))
ax2.set_xlim([ax2.get_xlim()[0] - column_length, ax2.get_xlim()[1] + column_length])


And the result :

I didn't test every possibilities but it looks like it works fine whatever the number of columns in each dataframe you use.

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