15.8. Converting an Object to a String¶
When we’re working with classes and objects, it is often necessary to print an object (that is to print the state of an object). Consider the example below.
The print
function shown above produces a string representation of the Point p
. The default functionality provided by
Python tells you that p
is an object of type Point
. However, it does not tell you anything about the specific
state of the point.
We can improve on this representation if we include a special method call __str__
. Notice that this method uses the same naming convention as the constructor, that is two underscores before and after the name. It is common that Python
uses this naming technique for special methods.
The __str__
method is responsible for returning a string representation as defined by the class creator. In other words, you as the programmer, get to choose what a Point
should look like when it gets printed. In this case, we
have decided that the string representation will include the values of x and y as well as some identifying text. It
is required that the __str__
method create and return a string.
When we run the program above you can see that the print
function now shows the string that we chose.
Now, you ask, don’t we already have an str
type converter that can
turn our object into a string? Yes we do!
And doesn’t print
automatically use this when printing things? Yes again!
But, as we saw earlier, these automatic mechanisms do not do exactly what we want. Python provides many default implementations for
methods that we as programmers will probably want to change. When a programmer changes the meaning of a special method we
say that we override the method. Note also that the str
type converter function uses whatever __str__
method we
provide.