89

Is there a way to group boxplots in matplotlib?

Assume we have three groups "A", "B", and "C" and for each we want to create a boxplot for both "apples" and "oranges". If a grouping is not possible directly, we can create all six combinations and place them linearly side by side. What would be to simplest way to visualize the groupings? I'm trying to avoid setting the tick labels to something like "A + apples" since my scenario involves much longer names than "A".

10 Answers 10

115

How about using colors to differentiate between "apples" and "oranges" and spacing to separate "A", "B" and "C"?

Something like this:

from pylab import plot, show, savefig, xlim, figure, \
                hold, ylim, legend, boxplot, setp, axes

# function for setting the colors of the box plots pairs
def setBoxColors(bp):
    setp(bp['boxes'][0], color='blue')
    setp(bp['caps'][0], color='blue')
    setp(bp['caps'][1], color='blue')
    setp(bp['whiskers'][0], color='blue')
    setp(bp['whiskers'][1], color='blue')
    setp(bp['fliers'][0], color='blue')
    setp(bp['fliers'][1], color='blue')
    setp(bp['medians'][0], color='blue')

    setp(bp['boxes'][1], color='red')
    setp(bp['caps'][2], color='red')
    setp(bp['caps'][3], color='red')
    setp(bp['whiskers'][2], color='red')
    setp(bp['whiskers'][3], color='red')
    setp(bp['fliers'][2], color='red')
    setp(bp['fliers'][3], color='red')
    setp(bp['medians'][1], color='red')

# Some fake data to plot
A= [[1, 2, 5,],  [7, 2]]
B = [[5, 7, 2, 2, 5], [7, 2, 5]]
C = [[3,2,5,7], [6, 7, 3]]

fig = figure()
ax = axes()
hold(True)

# first boxplot pair
bp = boxplot(A, positions = [1, 2], widths = 0.6)
setBoxColors(bp)

# second boxplot pair
bp = boxplot(B, positions = [4, 5], widths = 0.6)
setBoxColors(bp)

# thrid boxplot pair
bp = boxplot(C, positions = [7, 8], widths = 0.6)
setBoxColors(bp)

# set axes limits and labels
xlim(0,9)
ylim(0,9)
ax.set_xticklabels(['A', 'B', 'C'])
ax.set_xticks([1.5, 4.5, 7.5])

# draw temporary red and blue lines and use them to create a legend
hB, = plot([1,1],'b-')
hR, = plot([1,1],'r-')
legend((hB, hR),('Apples', 'Oranges'))
hB.set_visible(False)
hR.set_visible(False)

savefig('boxcompare.png')
show()

grouped box plot

8
  • That is a very nice solution since you have both groping by colors and grouping by positions! Since it looks like there is no built in functionality this is exactly what I was looking for. Thank you very much!
    – bluenote10
    May 17, 2013 at 6:43
  • 6
    This example works perfectly with matplotlib 1.3.1 but not 1.4.0 because of github.com/matplotlib/matplotlib/issues/3544 (although the data you chose has no outliers so that the problem would not show, you will still get an error when accessing bp['fliers'][2]).
    – anonymous
    Sep 20, 2014 at 13:22
  • 1
    In pandas it's apparently possible to set the color of the boxplots just by giving a color property: data.plot(kind='box',color='blue')
    – Peter9192
    May 11, 2016 at 7:14
  • 3
    With regards to the fliers, it should now be: plt.setp(bp['fliers'][0], markeredgecolor='blue') and plt.setp(bp['fliers'][1], markeredgecolor='red')
    – John Manak
    Mar 3, 2017 at 17:43
  • 2
    Can this be done in matplotlib as opposed to pylab? read somewhere pylab is discouraged now Aug 14, 2019 at 12:35
85

Here is my version. It stores data based on categories.

import matplotlib.pyplot as plt
import numpy as np

data_a = [[1,2,5], [5,7,2,2,5], [7,2,5]]
data_b = [[6,4,2], [1,2,5,3,2], [2,3,5,1]]

ticks = ['A', 'B', 'C']

def set_box_color(bp, color):
    plt.setp(bp['boxes'], color=color)
    plt.setp(bp['whiskers'], color=color)
    plt.setp(bp['caps'], color=color)
    plt.setp(bp['medians'], color=color)

plt.figure()

bpl = plt.boxplot(data_a, positions=np.array(xrange(len(data_a)))*2.0-0.4, sym='', widths=0.6)
bpr = plt.boxplot(data_b, positions=np.array(xrange(len(data_b)))*2.0+0.4, sym='', widths=0.6)
set_box_color(bpl, '#D7191C') # colors are from http://colorbrewer2.org/
set_box_color(bpr, '#2C7BB6')

# draw temporary red and blue lines and use them to create a legend
plt.plot([], c='#D7191C', label='Apples')
plt.plot([], c='#2C7BB6', label='Oranges')
plt.legend()

plt.xticks(xrange(0, len(ticks) * 2, 2), ticks)
plt.xlim(-2, len(ticks)*2)
plt.ylim(0, 8)
plt.tight_layout()
plt.savefig('boxcompare.png')

I am short of reputation so I cannot post an image to here. You can run it and see the result. Basically it's very similar to what Molly did.

Note that, depending on the version of python you are using, you may need to replace xrange with range

Result of this code

5
  • 2
    It seems like you do not use your variables 'mu' and 'alpha'. Otherwise I really like your solution since it is close to a universal solution, only the number of categories that the plot is grouped by needs adjustment of the code. Feb 21, 2016 at 0:26
  • 1
    This is the best solution among all answers on this page imo. As @Horstinator pointed out, it doesn't require the same number of samples in apple vs orange.
    – F.S.
    Dec 14, 2017 at 22:03
  • 3
    This is a top answer! Only thing would be to make it flexible for more than 2 groups
    – Kuzeko
    Mar 7, 2018 at 14:35
  • 6
    for future visitors: 'xrange()' becomes 'range()' in Python 3
    – Matthi9000
    Apr 27, 2020 at 14:49
  • cleanest solution, upvoted!
    – pcko1
    Aug 27, 2022 at 11:52
42

A simple way would be to use pandas. I adapted an example from the plotting documentation:

In [1]: import pandas as pd, numpy as np

In [2]: df = pd.DataFrame(np.random.rand(12,2), columns=['Apples', 'Oranges'] )

In [3]: df['Categories'] = pd.Series(list('AAAABBBBCCCC'))

In [4]: pd.options.display.mpl_style = 'default'

In [5]: df.boxplot(by='Categories')
Out[5]: 
array([<matplotlib.axes.AxesSubplot object at 0x51a5190>,
       <matplotlib.axes.AxesSubplot object at 0x53fddd0>], dtype=object)

pandas boxplot

2
  • 2
    I can't figure out how to do the inverse of this - boxplots for each fruit, grouped by categories (same grouping as molly's annwer). Is there a way?
    – naught101
    May 27, 2014 at 4:58
  • Not sure what "the inverse" should be. If you mean exactly the kind of plot from molly's answer (only one subplot), this is not possible with a pandas plotting command. You have to use matplotlib and a more complicated script.
    – bmu
    Jun 6, 2014 at 5:38
25

Mock data:

df = pd.DataFrame({'Group':['A','A','A','B','C','B','B','C','A','C'],\
                  'Apple':np.random.rand(10),'Orange':np.random.rand(10)})
df = df[['Group','Apple','Orange']]

        Group    Apple     Orange
    0      A  0.465636  0.537723
    1      A  0.560537  0.727238
    2      A  0.268154  0.648927
    3      B  0.722644  0.115550
    4      C  0.586346  0.042896
    5      B  0.562881  0.369686
    6      B  0.395236  0.672477
    7      C  0.577949  0.358801
    8      A  0.764069  0.642724
    9      C  0.731076  0.302369

You can use the Seaborn library for these plots. First melt the dataframe to format data and then create the boxplot of your choice.

import pandas as pd
import matplotlib.pyplot as plt
import seaborn as sns
dd=pd.melt(df,id_vars=['Group'],value_vars=['Apple','Orange'],var_name='fruits')
sns.boxplot(x='Group',y='value',data=dd,hue='fruits')

enter image description here

6

The accepted answer uses pylab and works for 2 groups. What if we have more?

Here is the flexible generic solution with matplotlib matplotlib output showing 3 groups of 4 boxplots within each group each series has a different color

import matplotlib.pyplot as pl

# there are 4 individuals, each one tested under 3 different settings

# --- Random data, e.g. results per algorithm:

# Invidual 1
d1_1 = [1,1,2,2,3,3]
d1_2 = [3,3,4,4,5,5]
d1_3 = [5,5,6,6,7,7]

# Individual 2
d2_1 = [7,7,8,8,9,9]
d2_2 = [9,9,10,10,11,11]
d2_3 = [11,11,12,12,13,13]

# Individual 3
d3_1 = [1,2,3,4,5,6]
d3_2 = [4,5,6,7,8,9]
d3_3 = [10,11,12,13,14,15]

# Individual 4
d4_1 = [1,1,2,2,3,3]
d4_2 = [9,9,10,10,11,11]
d4_3 = [10,11,12,13,14,15]


# --- Combining your data:
data_group1 = [d1_1, d1_2, d1_3]
data_group2 = [d2_1, d2_2, d2_3]
data_group3 = [d3_1, d3_2, d3_3]
data_group4 = [d4_1, d4_2, d4_3]

colors = ['pink', 'lightblue', 'lightgreen', 'violet']

# we compare the performances of the 4 individuals within the same set of 3 settings 
data_groups = [data_group1, data_group2, data_group3, data_group4]

# --- Labels for your data:
labels_list = ['a','b', 'c']
width       = 1/len(labels_list)
xlocations  = [ x*((1+ len(data_groups))*width) for x in range(len(data_group1)) ]

symbol      = 'r+'
ymin        = min ( [ val  for dg in data_groups  for data in dg for val in data ] )
ymax        = max ( [ val  for dg in data_groups  for data in dg for val in data ])

ax = pl.gca()
ax.set_ylim(ymin,ymax)

ax.grid(True, linestyle='dotted')
ax.set_axisbelow(True)

pl.xlabel('X axis label')
pl.ylabel('Y axis label')
pl.title('title')

space = len(data_groups)/2
offset = len(data_groups)/2


# --- Offset the positions per group:

group_positions = []
for num, dg in enumerate(data_groups):    
    _off = (0 - space + (0.5+num))
    print(_off)
    group_positions.append([x+_off*(width+0.01) for x in xlocations])

for dg, pos, c in zip(data_groups, group_positions, colors):
    boxes = ax.boxplot(dg, 
                sym=symbol,
                labels=['']*len(labels_list),
    #            labels=labels_list,
                positions=pos, 
                widths=width, 
                boxprops=dict(facecolor=c),
    #             capprops=dict(color=c),
    #            whiskerprops=dict(color=c),
    #            flierprops=dict(color=c, markeredgecolor=c),                       
                medianprops=dict(color='grey'),
    #           notch=False,  
    #           vert=True, 
    #           whis=1.5,
    #           bootstrap=None, 
    #           usermedians=None, 
    #           conf_intervals=None,
                patch_artist=True,
                )
ax.set_xticks( xlocations )
ax.set_xticklabels( labels_list, rotation=0 )



pl.show()
2
  • The labels from labels_list don't actually show for me when I run this example, and when using only two data groups we have three notches (rather than two) under each x grouping, as if there were three boxes together. With four groups we have five notches. Also, as @baigyanik pointed out, the boxes in each group are reversed. Other than that, this is my favorite answer.
    – Mutoh
    Jun 24, 2022 at 11:50
  • 1
    Thanks @Mutoh and baigyanik for noticing the issues. I've fixed the snipped and also added instructions to color differently the various boxplots
    – Kuzeko
    Jun 26, 2022 at 8:59
3

Just to add to the conversation, I have found a more elegant way to change the color of the box plot by iterating over the dictionary of the object itself

import numpy as np
import matplotlib.pyplot as plt

def color_box(bp, color):

    # Define the elements to color. You can also add medians, fliers and means
    elements = ['boxes','caps','whiskers']

    # Iterate over each of the elements changing the color
    for elem in elements:
        [plt.setp(bp[elem][idx], color=color) for idx in xrange(len(bp[elem]))]
    return

a = np.random.uniform(0,10,[100,5])    

bp = plt.boxplot(a)
color_box(bp, 'red')

Original box plot

Modified box plot

Cheers!

2

Here's a function I wrote that takes Molly's code and some other code I've found on the internet to make slightly fancier grouped boxplots:

import numpy as np
import matplotlib.pyplot as plt

def custom_legend(colors, labels, linestyles=None):
    """ Creates a list of matplotlib Patch objects that can be passed to the legend(...) function to create a custom
        legend.

    :param colors: A list of colors, one for each entry in the legend. You can also include a linestyle, for example: 'k--'
    :param labels:  A list of labels, one for each entry in the legend.
    """

    if linestyles is not None:
        assert len(linestyles) == len(colors), "Length of linestyles must match length of colors."

    h = list()
    for k,(c,l) in enumerate(zip(colors, labels)):
        clr = c
        ls = 'solid'
        if linestyles is not None:
            ls = linestyles[k]
        patch = patches.Patch(color=clr, label=l, linestyle=ls)
        h.append(patch)
    return h


def grouped_boxplot(data, group_names=None, subgroup_names=None, ax=None, subgroup_colors=None,
                    box_width=0.6, box_spacing=1.0):
    """ Draws a grouped boxplot. The data should be organized in a hierarchy, where there are multiple
        subgroups for each main group.

    :param data: A dictionary of length equal to the number of the groups. The key should be the
                group name, the value should be a list of arrays. The length of the list should be
                equal to the number of subgroups.
    :param group_names: (Optional) The group names, should be the same as data.keys(), but can be ordered.
    :param subgroup_names: (Optional) Names of the subgroups.
    :param subgroup_colors: A list specifying the plot color for each subgroup.
    :param ax: (Optional) The axis to plot on.
    """

    if group_names is None:
        group_names = data.keys()

    if ax is None:
        ax = plt.gca()
    plt.sca(ax)

    nsubgroups = np.array([len(v) for v in data.values()])
    assert len(np.unique(nsubgroups)) == 1, "Number of subgroups for each property differ!"
    nsubgroups = nsubgroups[0]

    if subgroup_colors is None:
        subgroup_colors = list()
        for k in range(nsubgroups):
            subgroup_colors.append(np.random.rand(3))
    else:
        assert len(subgroup_colors) == nsubgroups, "subgroup_colors length must match number of subgroups (%d)" % nsubgroups

    def _decorate_box(_bp, _d):
        plt.setp(_bp['boxes'], lw=0, color='k')
        plt.setp(_bp['whiskers'], lw=3.0, color='k')

        # fill in each box with a color
        assert len(_bp['boxes']) == nsubgroups
        for _k,_box in enumerate(_bp['boxes']):
            _boxX = list()
            _boxY = list()
            for _j in range(5):
                _boxX.append(_box.get_xdata()[_j])
                _boxY.append(_box.get_ydata()[_j])
            _boxCoords = zip(_boxX, _boxY)
            _boxPolygon = plt.Polygon(_boxCoords, facecolor=subgroup_colors[_k])
            ax.add_patch(_boxPolygon)

        # draw a black line for the median
        for _k,_med in enumerate(_bp['medians']):
            _medianX = list()
            _medianY = list()
            for _j in range(2):
                _medianX.append(_med.get_xdata()[_j])
                _medianY.append(_med.get_ydata()[_j])
                plt.plot(_medianX, _medianY, 'k', linewidth=3.0)

            # draw a black asterisk for the mean
            plt.plot([np.mean(_med.get_xdata())], [np.mean(_d[_k])], color='w', marker='*',
                      markeredgecolor='k', markersize=12)

    cpos = 1
    label_pos = list()
    for k in group_names:
        d = data[k]
        nsubgroups = len(d)
        pos = np.arange(nsubgroups) + cpos
        label_pos.append(pos.mean())
        bp = plt.boxplot(d, positions=pos, widths=box_width)
        _decorate_box(bp, d)
        cpos += nsubgroups + box_spacing

    plt.xlim(0, cpos-1)
    plt.xticks(label_pos, group_names)

    if subgroup_names is not None:
        leg = custom_legend(subgroup_colors, subgroup_names)
        plt.legend(handles=leg)

You can use the function(s) like this:

data = { 'A':[np.random.randn(100), np.random.randn(100) + 5],
         'B':[np.random.randn(100)+1, np.random.randn(100) + 9],
         'C':[np.random.randn(100)-3, np.random.randn(100) -5]
       }

grouped_boxplot(data, group_names=['A', 'B', 'C'], subgroup_names=['Apples', 'Oranges'], subgroup_colors=['#D02D2E', '#D67700'])
plt.show()
1

Grouped boxplots, towards subtle academic publication styling... (source)

(Left) Python 2.7.12 Matplotlib v1.5.3. (Right) Python 3.7.3. Matplotlib v3.1.0.

grouped boxplot example png for Python 2.7.12 Matplotlib v1.5.3 grouped boxplot example png for Python 3.7.3 Matplotlib v3.1.0

Code:

import numpy as np
import matplotlib.pyplot as plt

# --- Your data, e.g. results per algorithm:
data1 = [5,5,4,3,3,5]
data2 = [6,6,4,6,8,5]
data3 = [7,8,4,5,8,2]
data4 = [6,9,3,6,8,4]

# --- Combining your data:
data_group1 = [data1, data2]
data_group2 = [data3, data4]

# --- Labels for your data:
labels_list = ['a','b']
xlocations  = range(len(data_group1))
width       = 0.3
symbol      = 'r+'
ymin        = 0
ymax        = 10

ax = plt.gca()
ax.set_ylim(ymin,ymax)
ax.set_xticklabels( labels_list, rotation=0 )
ax.grid(True, linestyle='dotted')
ax.set_axisbelow(True)
ax.set_xticks(xlocations)
plt.xlabel('X axis label')
plt.ylabel('Y axis label')
plt.title('title')

# --- Offset the positions per group:
positions_group1 = [x-(width+0.01) for x in xlocations]
positions_group2 = xlocations

plt.boxplot(data_group1, 
            sym=symbol,
            labels=['']*len(labels_list),
            positions=positions_group1, 
            widths=width, 
#           notch=False,  
#           vert=True, 
#           whis=1.5,
#           bootstrap=None, 
#           usermedians=None, 
#           conf_intervals=None,
#           patch_artist=False,
            )

plt.boxplot(data_group2, 
            labels=labels_list,
            sym=symbol,
            positions=positions_group2, 
            widths=width, 
#           notch=False,  
#           vert=True, 
#           whis=1.5,
#           bootstrap=None, 
#           usermedians=None, 
#           conf_intervals=None,
#           patch_artist=False,
            )

plt.savefig('boxplot_grouped.png')  
plt.savefig('boxplot_grouped.pdf')    # when publishing, use high quality PDFs
#plt.show()                   # uncomment to show the plot. 
5
  • What I prefer in the other solutions is that the axis label is centered under the group.
    – bluenote10
    Oct 14, 2019 at 9:40
  • I agree, it's sad there's no simple and beautiful plot from matplotlib by default. That's what I'm trying to push forward with this version. Recommendation or community edits to fix (and test Py2/3) axis label centering welcome.
    – pds
    Oct 15, 2019 at 6:47
  • How would you add an additional group? For example, if we had another label c where data_group3 = [data4, data5]?
    – pookie
    Mar 20, 2020 at 12:30
  • @pookie so true, I am also looking how to solve the puzzle. Things not in order if we just add another group in the script
    – Azam
    Sep 2, 2022 at 13:40
  • @Azam @pookie - adjust the offsets. x-(width+0.01) is just moving the position of x (for group1) to the left.. so (In theory) increase how much you move group1 left e.g. group1=x-(width*2+0.01); group2=x-(width*1+0.01); group3=xlocations. [not-tested]
    – pds
    Sep 3, 2022 at 15:28
0

I used the code given by Kuzeko and it worked well, but I found that the boxes in each group were being drawn in the reverse order. I changed ...x-_off... to ...x+_off... in the following line (just above the last for loop) which fixes it for me:

group_positions.append([x+_off*(width+0.01) for x in xlocations])
1
  • As it’s currently written, your answer is unclear. Please edit to add additional details that will help others understand how this addresses the question asked. You can find more information on how to write good answers in the help center.
    – Community Bot
    Apr 24, 2022 at 22:07
-1
A boxplot above was modified to obtain group boxplots with 3 data types.
import matplotlib.pyplot as plt
import numpy as np



 ord = [[16.9423,
               4.0410,
               19.1185],
           [18.5134,
               17.8048,
               19.2669],
           [18.7286,
               18.0576,
               19.1717],
           [18.8998,
               18.8469,
               19.0005],
           [18.8126,
               18.7870,
               18.8393],
           [18.7770,
               18.7511,
               18.8022],
           [18.7409,
               18.7075,
               18.7747],
           [18.6866,
               18.6624,
               18.7093
               ],
           [18.6748],
           [18.9069,
                18.6752,
                19.0769],
           [19.0012,
                18.9783,
                19.0202
                ],
           [18.9448,
               18.9134,
               18.9813],
           [19.1242,
               18.8256,
               19.3185],
           [19.2118,
               19.1661,
               19.2580],
           [19.2505,
               19.1231,
               19.3526]]
    
    seq = [[17.8092,
              4.0410,
              19.6653],
           [18.7266,
              18.2556,
              19.3739],
           [18.6051,
              18.0589,
              19.0557],
           [18.6467,
              18.5629,
              18.7566],
           [18.5307,
              18.4999,
              18.5684],
           [18.4732,
              18.4484,
              18.4985],
           [18.5234,
              18.5027,
              18.4797,
              18.4573],
           [18.3987,
              18.3636,
              18.4544],
           [18.3593],
           [18.7234,
               18.7092,
               18.7598],
           [18.7438,
               18.7224,
               18.7677],
           [18.7304,
               18.7111,
               18.6880,
               18.6913,
               18.6678],
           [18.8926,
               18.5902,
               19.2003],
           [19.1059,
               19.0835,
               19.0601,
               19.0373,
               19.0147],
           [19.1925,
               19.0177,
               19.2588]]
    
    apd=[[17.0331,
            4.0410,
            18.5670],
         [17.6124,
            17.1975,
            18.0755],
         [17.3956,
            17.1572,
            17.9140],
         [17.8295,
            17.6514,
            18.1466],
         [18.0665,
            17.9144,
            18.2157],
         [18.1518,
            18.0382,
            18.2722],
         [18.1975,
            18.0956,
            18.2987],
         [18.2219,
            18.1293,
            18.3062],
         [18.2870,
            18.2215,
            18.3513],
         [18.3047,
             18.2363,
             18.3950],
         [18.3580,
             18.2923,
             18.4205],
         [18.3830,
             18.3250,
             18.4381],
         [18.4135,
             18.3645,
             18.4753],
         [18.4580,
             18.4095,
             18.5170],
         [18.4900,
             18.4430,
             18.5435]
         ]
    ticks = [120,
             240,
             360,
             516,
             662,
             740,
             874,
             1022,
             1081,
             1201,
             1320,
             1451,
             1562,
             1680,
             1863]
    
    def set_box_color(bp, color):
        plt.setp(bp['boxes'], color=color)
        plt.setp(bp['whiskers'], color=color)
        plt.setp(bp['caps'], color=color)
        plt.setp(bp['medians'], color=color)
    
    plt.figure()
    
    bpl = plt.boxplot(ord, positions=np.array(range(len(ord)))*3.0-0.3, sym='', widths=0.6)
    bpr = plt.boxplot(seq, positions=np.array(range(len(seq)))*3.0+0.3, sym='', widths=0.6)
    bpg = plt.boxplot(apd, positions=np.array(range(len(apd)))*3.0+0.9, sym='', widths=0.6)
    set_box_color(bpl, '#D7191C') # colors are from http://colorbrewer2.org/
    set_box_color(bpr, '#2C7BB6')
    set_box_color(bpg, '#99d8c9')
    # draw temporary red and blue lines and use them to create a legend
    plt.plot([], c='#D7191C', label='ORD')
    plt.plot([], c='#2C7BB6', label='SEQ')
    plt.plot([], c='#99d8c9', label='APD')
    plt.legend()
    
    plt.xticks(range(0, len(ticks) * 3, 3), ticks)
    plt.xlim(-2, len(ticks)*3)
    plt.ylim(0, 20)
    plt.tight_layout()
    plt.show()
    plt.savefig('boxcompare.png')
2
  • What does this code do? How is it different or any improvement over the 8 previous answers? Sep 24, 2021 at 8:36
  • This code provides the solution to add group boxplots with 3 data types whereas the above code was only for two types of data. Further, the labelling did not occur correctly in one of the above codes where a grouped box plot with 3 data types was presented. Oct 8, 2021 at 12:39

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