Delegation pattern
In software engineering, the delegation pattern is an object-oriented design pattern that allows object composition to achieve the same code reuse as inheritance.
In delegation, an object handles a request by delegating to a second object (the delegate). The delegate is a helper object, but with the original context. With language-level support for delegation, this is done implicitly by having self
in the delegate refer to the original (sending) object, not the delegate (receiving object). In the delegate pattern, this is instead accomplished by explicitly passing the original object to the delegate, as an argument to a method.[1] Note that "delegation" is often used loosely to refer to the distinct concept of forwarding, where the sending object simply uses the corresponding member on the receiving object, evaluated in the context of the receiving object, not the original object.
Note that this article uses "sending object/receiving object" for the two objects, rather than "receiving object/delegate", emphasizing which objects send and receive the delegation call, not the original call.
Definition[]
In the Introduction to Gamma et al. 1994, Grady Booch defined delegation as:
Delegation is a way to make composition as powerful for reuse as inheritance [Lie86, JZ91]. In delegation, two objects are involved in handling a request: a receiving object delegates operations to its delegate. This is analogous to subclasses deferring requests to parent classes. But with inheritance, an inherited operation can always refer to the receiving object through the
this
member variable in C++ andself
in Smalltalk. To achieve the same effect with delegation, the receiver passes itself to the delegate to let the delegated operation refer to the receiver.[2]
Example[]
In the example below (using the Kotlin programming language), the class Window delegates the area()
call to its internal Rectangle object (its delegate).
class Rectangle(val width: Int, val height: Int) {
fun area() = width * height
}
class Window(val bounds: Rectangle) {
// Delegation
fun area() = bounds.area()
}
Language support[]
Some languages have special support for delegation built in.[3] For example, in the Kotlin programming language, we could write:
interface ClosedShape {
fun area(): Int
}
class Rectangle(val width: Int, val height: Int) : ClosedShape {
override fun area() = width * height
}
class Window(private val bounds: ClosedShape) : ClosedShape by bounds
See also[]
- Delegation (object-oriented programming)
- Forwarding (object-oriented programming)
- Aspect-oriented programming
- Delegation (computing)
- Design pattern
- Facade pattern
- Schizophrenia (object-oriented programming)
References[]
- ^ Gamma et al. 1994
- ^ Gamma, Erich; Helm, Richard; Johnson, Ralph; Vlissides, John (1995). Design patterns : elements of reusable object-oriented software (14. print. ed.). Reading, Mass.: Addison-Wesley. p. 20. ISBN 0-201-63361-2.
- ^ "Delegation - Kotlin Programming Language". Kotlin. Retrieved 2019-03-23.
External links[]
- What Is Delegation, WikiWikiWeb
- Delegation on Rosetta Code
- Software design patterns