Matplotlib Pie Charts
Creating Pie Charts
With Pyplot, you can use the pie()
function
to draw pie charts:
Example
A simple pie chart:
import matplotlib.pyplot as plt
import numpy as np
y = np.array([35,
25, 25, 15])
plt.pie(y)
plt.show()
Result:
Try it Yourself »
As you can see the pie chart draws one piece (called a wedge) for each value in the array (in this case [35, 25, 25, 15]).
By default the plotting of the first wedge starts from the x-axis and move counterclockwise:
Note: The size of each wedge is determined by comparing the value with all the other values, by using this formula:
The value divided by the sum of all values: x/sum(x)
Labels
Add labels to the pie chart with the label
parameter.
The label
parameter must be an array with one label for each wedge:
Example
A simple pie chart:
import matplotlib.pyplot as plt
import numpy as np
y = np.array([35,
25, 25, 15])
mylabels = ["Apples", "Bananas", "Cherries", "Dates"]
plt.pie(y,
labels = mylabels)
plt.show()
Result:
Try it Yourself »
Start Angle
As mentioned the default start angle is at the x-axis, but you can change the start angle by specifying a
startangle
parameter.
The startangle
parameter is defined with an angle in degrees, default angle is 0:
Example
Start the first wedge at 90 degrees:
import matplotlib.pyplot as plt
import numpy as np
y = np.array([35,
25, 25, 15])
mylabels = ["Apples", "Bananas", "Cherries", "Dates"]
plt.pie(y,
labels = mylabels, startangle = 90)
plt.show()
Result:
Try it Yourself »
Explode
Maybe you want one of the wedges to stand out? The
explode
parameter allows you to do that.
The explode
parameter, if specified, and not None
,
must be an array with one value for each wedge.
Each value represents how far from the center each wedge is displayed:
Example
Pull the "Apples" wedge 0.2 from the center of the pie:
import matplotlib.pyplot as plt
import numpy as np
y = np.array([35,
25, 25, 15])
mylabels = ["Apples", "Bananas", "Cherries", "Dates"]
myexplode = [0.2, 0, 0, 0]
plt.pie(y,
labels = mylabels, explode = myexplode)
plt.show()
Result:
Try it Yourself »
Shadow
Add a shadow to the pie chart by setting the
shadows
parameter to True
:
Example
Add a shadow:
import matplotlib.pyplot as plt
import numpy as np
y = np.array([35,
25, 25, 15])
mylabels = ["Apples", "Bananas", "Cherries", "Dates"]
myexplode = [0.2, 0, 0, 0]
plt.pie(y,
labels = mylabels, explode = myexplode, shadow = True)
plt.show()
Result:
Try it Yourself »
Colors
You can set the color of each wedge with the colors
parameter.
The colors
parameter, if specified,
must be an array with one value for each wedge:
Example
Specify a new color for each wedge:
import matplotlib.pyplot as plt
import numpy as np
y = np.array([35,
25, 25, 15])
mylabels = ["Apples", "Bananas", "Cherries", "Dates"]
mycolors = ["black", "hotpink", "b", "#4CAF50"]
plt.pie(y, labels =
mylabels, colors = mycolors)
plt.show()
Result:
Try it Yourself »
You can use Hexadecimal color values, any of the 140 supported color names, or one of these shortcuts:
'r'
- Red
'g'
- Green
'b'
- Blue
'c'
- Cyan
'm'
- Magenta
'y'
- Yellow
'k'
- Black
'w'
- White
Legend
To add a list of explanation for each wedge, use the legend()
function:
Example
Add a legend:
import matplotlib.pyplot as plt
import numpy as np
y = np.array([35,
25, 25, 15])
mylabels = ["Apples", "Bananas", "Cherries", "Dates"]
plt.pie(y, labels = mylabels)
plt.legend()
plt.show()
Result:
Try it Yourself »
Legend With Header
To add a header to the legend, add the title
parameter to the legend
function.
Example
Add a legend with a header:
import matplotlib.pyplot as plt
import numpy as np
y = np.array([35,
25, 25, 15])
mylabels = ["Apples", "Bananas", "Cherries", "Dates"]
plt.pie(y, labels = mylabels)
plt.legend(title = "Four Fruits:")
plt.show()
Result:
Try it Yourself »