The main reason for categories is to allow you to add methods to a class for which you don't have the source code, or for which you don't want to modify the source code.
I wanted a method to create an animated
UIImage by loading an animated GIF. Logically this should be a
UIImage class method, but I don't have the source code for the UIKit framework (which contains
UIImage). So I wrote a category for
UIImage that adds a class method named
animatedImageWithAnimatedGIFData:. You can find it in my
Did I have to add this method to
UIImage? No. I could have made it a regular C function, or I could have made a utility class (perhaps named
AnimatedGIFLoader) to hold the method. But from a design standpoint, the method logically belongs on
Apple wanted to make it easy to draw a string into a graphics context. In a program with a GUI, it would be reasonable for
NSString to have a draw method. Apple has the source code to the Foundation framework (which contains
NSString), so they could add it. But the Foundation framework is designed to be used in all sorts of programs, including programs that don't have any user interface. So the classes in Foundation don't know anything about UIKit or AppKit or Core Graphics or any other higher-level library that can draw graphics.
Instead, UIKit has a category that adds the
drawAtPoint:withFont: method to
NSString. AppKit has a category that adds the
drawAtPoint:withAttributes: method to
AppKit and UIKit have a number of other categories that add methods to Foundation classes. For example, UIKit has categories on
NSCoder, and more.
Another reason to use a category is to split up the implementation of a class into multiple
.m files. If you have a big class, you can move some of its selectors into a category and implement the category methods in a separate source file. The linker will automatically merge the category into the class when it creates the executable file, so there is no run-time penalty.