设计模式分类及描述

Classification and list

Design patterns were originally grouped into the categories: creational patternsstructural patterns, and behavioral patterns, and described using the concepts of delegation,aggregation, and consultation. For further background on object-oriented design, see coupling and cohesioninheritanceinterface, and polymorphism. Another classification has also introduced the notion of architectural design pattern that may be applied at the architecture level of the software such as the Model–View–Controller pattern.


Creational patterns
Name Description In Design Patterns In Code Complete[16] Other
Abstract factory Provide an interface for creating families of related or dependent objects without specifying their concrete classes. Yes Yes N/A
Builder Separate the construction of a complex object from its representation allowing the same construction process to create various representations. Yes No N/A
Factory method Define an interface for creating an object, but let subclasses decide which class to instantiate. Factory Method lets a class defer instantiation to subclasses (dependency injection[17]). Yes Yes N/A
Lazy initialization Tactic of delaying the creation of an object, the calculation of a value, or some other expensive process until the first time it is needed. No No PoEAA[18]
Multiton Ensure a class has only named instances, and provide global point of access to them. No No N/A
Object pool Avoid expensive acquisition and release of resources by recycling objects that are no longer in use. Can be considered a generalisation of connection pool and thread pool patterns. No No N/A
Prototype Specify the kinds of objects to create using a prototypical instance, and create new objects by copying this prototype. Yes No N/A
Resource acquisition is initialization Ensure that resources are properly released by tying them to the lifespan of suitable objects. No No N/A
Singleton Ensure a class has only one instance, and provide a global point of access to it. Yes Yes N/A


Structural patterns
Name Description In Design Patterns In Code Complete[16] Other
Adapter or Wrapper orTranslator. Convert the interface of a class into another interface clients expect. An adapter lets classes work together that could not otherwise because of incompatible interfaces. The enterprise integration pattern equivalent is the Translator. Yes Yes N/A
Bridge Decouple an abstraction from its implementation allowing the two to vary independently. Yes Yes N/A
Composite Compose objects into tree structures to represent part-whole hierarchies. Composite lets clients treat individual objects and compositions of objects uniformly. Yes Yes N/A
Decorator Attach additional responsibilities to an object dynamically keeping the same interface. Decorators provide a flexible alternative to subclassing for extending functionality. Yes Yes N/A
Facade Provide a unified interface to a set of interfaces in a subsystem. Facade defines a higher-level interface that makes the subsystem easier to use. Yes Yes N/A
Front Controller The pattern relates to the design of web applications. It provides a centralized entry point for handling requests. No Yes N/A
Flyweight Use sharing to support large numbers of similar objects efficiently. Yes No N/A
Proxy Provide a surrogate or placeholder for another object to control access to it. Yes No N/A
Module Group several related elements, such as classes, singletons, methods, globally used, into a single conceptual entity. No No N/A


Behavioral patterns
Name Description In Design Patterns In Code Complete[16] Other
Blackboard Generalized observer, which allows multiple readers and writers. Communicates information system-wide. No No N/A
Chain of responsibility Avoid coupling the sender of a request to its receiver by giving more than one object a chance to handle the request. Chain the receiving objects and pass the request along the chain until an object handles it. Yes No N/A
Command Encapsulate a request as an object, thereby letting you parameterize clients with different requests, queue or log requests, and support undoable operations. Yes No N/A
Interpreter Given a language, define a representation for its grammar along with an interpreter that uses the representation to interpret sentences in the language. Yes No N/A
Iterator Provide a way to access the elements of an aggregate object sequentially without exposing its underlying representation. Yes Yes N/A
Mediator Define an object that encapsulates how a set of objects interact. Mediator promotes loose coupling by keeping objects from referring to each other explicitly, and it lets you vary their interaction independently. Yes No N/A
Memento Without violating encapsulation, capture and externalize an object's internal state allowing the object to be restored to this state later. Yes No N/A
Null object Avoid null references by providing a default object. No No N/A
Observer orPublish/subscribe Define a one-to-many dependency between objects where a state change in one object results in all its dependents being notified and updated automatically. Yes Yes N/A
Servant Define common functionality for a group of classes No No N/A
Specification Recombinable business logic in a Boolean fashion No No N/A
State Allow an object to alter its behavior when its internal state changes. The object will appear to change its class. Yes No N/A
Strategy Define a family of algorithms, encapsulate each one, and make them interchangeable. Strategy lets the algorithm vary independently from clients that use it. Yes Yes N/A
Template method Define the skeleton of an algorithm in an operation, deferring some steps to subclasses. Template method lets subclasses redefine certain steps of an algorithm without changing the algorithm's structure. Yes Yes N/A
Visitor Represent an operation to be performed on the elements of an object structure. Visitor lets you define a new operation without changing the classes of the elements on which it operates. Yes No N/A

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