```
import matplotlib.pyplot as plt
fig = plt.figure()
patterns = [ "/" , "\\" , "|" , "-" , "+" , "x", "o", "O", ".", "*" ]
ax1 = fig.add_subplot(111)
for i in range(len(patterns)):
ax1.bar(i, 3, color='red', edgecolor='black', hatch=patterns[i])
plt.show()
```

It's in the documentation here:

http://matplotlib.org/api/artist_api.html#matplotlib.patches.Patch.set_hatch

Okay - so to texture a piechart, you need to do this:

if you look here:

```
Return value:
If autopct is None, return the tuple (patches, texts):
patches is a sequence of matplotlib.patches.Wedge instances
texts is a list of the label matplotlib.text.Text instances.
```

so then we look at the Wedges page, and see that it has a set_hatch() method.

so we just need to add a few lines to the piechart demo and...

"""
import matplotlib.pyplot as plt

fig = plt.figure()

patterns = [ "/" , "\" , "|" , "-" , "+" , "x", "o", "O", ".", "*" ]

ax1 = fig.add_subplot(111)
for i in range(len(patterns)):
ax1.bar(i, 3, color='red', edgecolor='black', hatch=patterns[i])

plt.show()"""

```
"""
Make a pie chart - see
http://matplotlib.sf.net/matplotlib.pylab.html#-pie for the docstring.
This example shows a basic pie chart with labels optional features,
like autolabeling the percentage, offsetting a slice with "explode",
adding a shadow, and changing the starting angle.
"""
from pylab import *
import math
import numpy as np
patterns = [ "/" , "\\" , "|" , "-" , "+" , "x", "o", "O", ".", "*" ]
def little_pie(breakdown,location,size):
breakdown = [0] + list(np.cumsum(breakdown)* 1.0 / sum(breakdown))
for i in xrange(len(breakdown)-1):
x = [0] + np.cos(np.linspace(2 * math.pi * breakdown[i], 2 * math.pi *
breakdown[i+1], 20)).tolist()
y = [0] + np.sin(np.linspace(2 * math.pi * breakdown[i], 2 * math.pi *
breakdown[i+1], 20)).tolist()
xy = zip(x,y)
scatter( location[0], location[1], marker=(xy,0), s=size, facecolor=
['gold','yellow', 'orange', 'red','purple','indigo','violet'][i%7])
figure(1, figsize=(6,6))
little_pie([10,3,7],(1,1),600)
little_pie([10,27,4,8,4,5,6,17,33],(-1,1),800)
fracs = [10, 8, 7, 10]
explode=(0, 0, 0.1, 0)
**piechart =** pie(fracs, explode=explode, autopct='%1.1f%%')
**for i in range(len(piechart[0])):
piechart[0][i].set_hatch(patterns[(i)%len(patterns)])**
show()
```