The state pattern is a behavioral software design pattern that allows an object to alter its behavior when its internal state changes. This pattern is close to the concept of finite-state machines. The state pattern can be interpreted as a strategy pattern, which is able to switch a strategy through invocations of methods defined in the pattern's interface.
The state pattern is used in computer programming to encapsulate varying behavior for the same object, based on its internal state. This can be a cleaner way for an object to change its behavior at runtime without resorting to conditional statements and thus improve maintainability.[1]: 395
Overview
The state design pattern is one of twenty-three design patterns documented by the Gang of Four that describe how to solve recurring design problems. Such problems cover the design of flexible and reusable object-oriented software, such as objects that are easy to implement, change, test, and reuse.[3]
The state pattern is set to solve two main problems:[4]
- An object should change its behavior when its internal state changes.
- State-specific behavior should be defined independently. That is, adding new states should not affect the behavior of existing states.
Implementing state-specific behavior directly within a class is inflexible because it commits the class to a particular behavior and makes it impossible to add a new state or change the behavior of an existing state later, independently from the class, without changing the class. In this, the pattern describes two solutions:
- Define separate (state) objects that encapsulate state-specific behavior for each state. That is, define an interface (state) for performing state-specific behavior, and define classes that implement the interface for each state.
- A class delegates state-specific behavior to its current state object instead of implementing state-specific behavior directly.
This makes a class independent of how state-specific behavior is implemented. New states can be added by defining new state classes. A class can change its behavior at run-time by changing its current state object.
Structure
In the accompanying Unified Modeling Language (UML) class diagram, the Context
class doesn't implement state-specific behavior directly. Instead, Context
refers to the State
interface for performing state-specific behavior (state.handle()
), which makes Context
independent of how state-specific behavior is implemented. The ConcreteStateA
and ConcreteStateB
classes implement the State
interface, that is, implement (encapsulate) the state-specific behavior for each state. The UML sequence diagram shows the run-time interactions:
The Context
object delegates state-specific behavior to different State
objects. First, Context
calls handle(this)
on its current (initial) state object (ConcreteStateA
), which performs the operation and calls setState(ConcreteStateB)
on Context
to change context's current state to ConcreteStateB
. The next time, Context
again calls handle(this)
on its current state object (ConcreteStateB
), which performs the operation and changes context's current state to ConcreteStateA
.
References
- 1 2 Erich Gamma; Richard Helm; Ralph Johnson; John M. Vlissides (1995). Design Patterns: Elements of Reusable Object-Oriented Software. Addison-Wesley. ISBN 0-201-63361-2.
- ↑ "The State design pattern – Structure and Collaboration". w3sDesign.com. Retrieved 2017-08-12.
- ↑ Erich Gamma; Richard Helm; Ralph Johnson; John Vlissides (1994). Design Patterns: Elements of Reusable Object-Oriented Software. Addison Wesley. pp. 305ff. ISBN 0-201-63361-2.
- ↑ "The State design pattern - Problem, Solution, and Applicability". w3sDesign.com. Retrieved 2017-08-12.