89

What's the best practise to add a row and a column header to a grid of subplots generated in a loop in matplotlib? I can think of a couple, but not particularly neat:

  1. For columns, with a counter to your loop you can use set_title() for the first row only. For rows this doesn't work. You would have to draw text outside of the plots.
  2. You add an extra row of subplots on top and an extra column of subplots on the left, and draw text in the middle of that subplot.

Can you suggest a better alternative?

enter image description here

116

There are several ways to do this. The easy way is to exploit the y-labels and titles of the plot and then use fig.tight_layout() to make room for the labels. Alternatively, you can place additional text in the right location with annotate and then make room for it semi-manually.


If you don't have y-labels on your axes, it's easy to exploit the title and y-label of the first row and column of axes.

import matplotlib.pyplot as plt

cols = ['Column {}'.format(col) for col in range(1, 4)]
rows = ['Row {}'.format(row) for row in ['A', 'B', 'C', 'D']]

fig, axes = plt.subplots(nrows=4, ncols=3, figsize=(12, 8))

for ax, col in zip(axes[0], cols):
    ax.set_title(col)

for ax, row in zip(axes[:,0], rows):
    ax.set_ylabel(row, rotation=0, size='large')

fig.tight_layout()
plt.show()

enter image description here


If you do have y-labels, or if you prefer a bit more flexibility, you can use annotate to place the labels. This is more complicated, but allows you to have individual plot titles, ylabels, etc in addition to the row and column labels.

import matplotlib.pyplot as plt
from matplotlib.transforms import offset_copy


cols = ['Column {}'.format(col) for col in range(1, 4)]
rows = ['Row {}'.format(row) for row in ['A', 'B', 'C', 'D']]

fig, axes = plt.subplots(nrows=4, ncols=3, figsize=(12, 8))
plt.setp(axes.flat, xlabel='X-label', ylabel='Y-label')

pad = 5 # in points

for ax, col in zip(axes[0], cols):
    ax.annotate(col, xy=(0.5, 1), xytext=(0, pad),
                xycoords='axes fraction', textcoords='offset points',
                size='large', ha='center', va='baseline')

for ax, row in zip(axes[:,0], rows):
    ax.annotate(row, xy=(0, 0.5), xytext=(-ax.yaxis.labelpad - pad, 0),
                xycoords=ax.yaxis.label, textcoords='offset points',
                size='large', ha='right', va='center')

fig.tight_layout()
# tight_layout doesn't take these labels into account. We'll need 
# to make some room. These numbers are are manually tweaked. 
# You could automatically calculate them, but it's a pain.
fig.subplots_adjust(left=0.15, top=0.95)

plt.show()

enter image description here

  • 8
    The methods is_first_col(), is_last_col(), is_first_row() and is_last_row() may also be convenient in this context. – gerrit Jun 19 '17 at 10:22
  • 1
    Also as a note, annotate matplotlib does have the rotate option, so if you want to rotate your label 90 degrees, just add the argument rotation = 90 – mathishard.butweloveit May 26 '20 at 21:41
2

The above answer works. Just not that in the second version of the answer, you have:

for ax, row in zip(axes[:,0], rows):
    ax.annotate(col, xy=(0, 0.5), xytext=(-ax.yaxis.labelpad-pad,0),
                xycoords=ax.yaxis.label, textcoords='offset points',
                size='large', ha='right', va='center')

instead of:

for ax, row in zip(axes[:,0], rows):
    ax.annotate(row,xy=(0, 0.5), xytext=(-ax.yaxis.labelpad-pad,0),                    
                xycoords=ax.yaxis.label, textcoords='offset points',
                size='large', ha='right', va='center')

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