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10.9: Pie Charts

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A pie chart shows parts of a whole. The pie function takes a vector and uses each value as a fraction of the total sum.

Example \(\PageIndex{1}\)

pie([3 10 5 2])

Solution

In this example, the sum of the values is 20. The slice for 10 represents 10 out of 20, or 50 percent, of the pie. MATLAB automatically calculates the relative sizes of the slices.

Pie charts are most useful when you have a small number of categories and the categories represent parts of one complete total. For example, a pie chart could show survey responses, budget categories, or the percentage of students choosing different project topics.

Adding Labels

Labels make pie charts much easier to understand. The labels are usually stored in a cell array of character vectors.

Example \(\PageIndex{2}\)

labels = {'A', 'B', 'C', 'D'};
pie([3 10 5 2], labels)

Solution

Each label corresponds to one slice of the pie chart. The first label goes with the first value, the second label goes with the second value, and so on.

Exploding a Slice

To pull out, or explode, a slice of the pie chart, pass a vector of zeros and ones. A 1 means that slice should be pulled away from the pie.

Example \(\PageIndex{2}\)

x = [3 10 5 2];
explode = [0 0 1 0];
pie(x, explode)

Solution

In this example, the third slice is pulled out because the third value in explode is 1.

When Pie Charts Are Helpful

Pie charts can be effective when the main goal is to show how a total is divided among a few categories. However, they are not always the best choice. If there are many categories, or if the values are close together, a bar plot is usually easier to read. Also remember that a pie chart represents parts of a whole. If the values do not logically belong to one total, another plot type may be more appropriate.

Search

Text Color

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Solution

Example \(\PageIndex{2}\)

Solution

Example \(\PageIndex{2}\)

Solution