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Ruby用户指南 3、开始 4、简单的例子 5、字符串 6、正则表达式 7、数组 8、回到那些简单的例子 9、流程控制 10、迭代器 11、面向对象思维 12、方法 13、类 14、继承 15、重载方法 16、访问控制 17、单态方法 18、模块 19、过程对象 20、变量 21、全局变量 22、实变量 23、局部变量 24、类常量 25、异常处理:rescue 26、异常处理:ensure 27、存取器 28、对象的初始化 29、杂项 RGSS入门教程 1、什么是RGSS 2、开始:最简单的脚本 3、数据类型:数字 4、数据类型:常量与变量 5、数据类型:字符串 6、控制语句:条件分歧语句 7、控制语句:循环 8、函数 9、对象与类 10、显示图片 11、数组 12、哈希表(关联数组) 13、类 14、数据库 15、游戏对象 16、精灵的管理 17、窗口的管理 18、活动指令 19、场景类 Programming Ruby的翻译 Programming Ruby: The Pragmatic Programmer's Guide 前言 Roadmap Ruby.new 类,对象和变量 容器Containers,块Blocks和迭代Iterators 标准类型 深入方法 表达式Expressions 异常,捕捉和抛出(已经开始,by jellen) 模块 基本输入输出 线程和进程 当遭遇挫折 Ruby和它的世界 Ruby和Web开发 Ruby Tk Ruby 和微软的 Windows 扩展Ruby Ruby语言 (by jellen) 类和对象 (by jellen) Ruby安全 反射Reflection 内建类和方法 标准库 OO设计 网络和Web库 Windows支持 内嵌文档 交互式Ruby Shell 支持 Ruby参考手册 Ruby首页 卷首语 Ruby的启动 环境变量 对象 执行 结束时的相关处理 线程 安全模型 正则表达式 字句构造 程序 变量和常数 字面值 操作符表达式 控制结构 方法调用 类/方法的定义 内部函数 内部变量 内部常数 内部类/模块/异常类 附加库 Ruby变更记录 ruby 1.6 特性 ruby 1.7 特性 Ruby术语集 Ruby的运行平台 pack模板字符串 sprintf格式 Marshal格式 Ruby FAQ Ruby的陷阱
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Object-Oriented Design Libraries



One of the interesting things about Ruby is the way it blurs the distinction between design and implementation. Ideas that have to be expressed at the design level in other languages can be implemented directly in Ruby.

To help in this process, Ruby has support for some design-level strategies.

  • The Visitor pattern (Design Patterns, ) is a way of traversing a collection without having to know the internal organization of that collection.
  • Delegation is a way of composing classes more flexibly and dynamically than can be done using standard inheritance.
  • The Singleton pattern is a way of ensuring that only one instantiation of a particular class exists at a time.
  • The Observer pattern implements a protocol allowing one object to notify a set of interested objects when certain changes have occurred.

Normally, all four of these strategies require explicit code each time they're implemented. With Ruby, they can be abstracted into a library and reused freely and transparently.

Before we get into the proper library descriptions, let's get the simplest strategy out of the way.

The Visitor Pattern

It's the method each.

Library: delegate

Object delegation is a way of composing objects---extending an object with the capabilities of another---at runtime. This promotes writing flexible, decoupled code, as there are no compile-time dependencies between the users of the overall class and the delegates.

The Ruby Delegator class implements a simple but powerful delegation scheme, where requests are automatically forwarded from a master class to delegates or their ancestors, and where the delegate can be changed at runtime with a single method call.

The delegate.rb library provides two mechanisms for allowing an object to forward messages to a delegate.

  1. For simple cases where the class of the delegate is fixed, arrange for the master class to be a subclass of DelegateClass, passing the name of the class to be delegated as a parameter (Example 1). Then, in your class's initialize method, you'd call the superclass, passing in the object to be delegated. For example, to declare a class Fred that also supports all the methods in Flintstone, you'd write

    class Fred < DelegateClass(Flintstone)
      def initialize
        # ...
        super(Flintstone.new(...))
      end
      # ...
     end
    
    This is subtly different from using subclassing. With subclassing, there is only one object, which has the methods and the defined class, its parent, and their ancestors. With delegation there are two objects, linked so that calls to one may be delegated to the other.

  2. For cases where the delegate needs to be dynamic, make the master class a subclass of SimpleDelegator (Example 2). You can also add delegation capabilities to an existing object using SimpleDelegator (Example 3). In these cases, you can call the __setobj__ method in SimpleDelegator to change the object being delegated at runtime.

Example 1. Use the DelegateClass method and subclass the result when you need a class with its own behavior that also delegates to an object of another class. In this example, we assume that the @sizeInInches array is large, so we want only one copy of it. We then define a class that accesses it, converting the values to feet.

require 'delegate'

sizeInInches = [ 10, 15, 22, 120 ]

class Feet < DelegateClass(Array)   def initialize(arr)     super(arr)   end   def [](*n)     val = super(*n)     case val.type     when Numeric; val/12.0     else;         val.collect {|i| i/12.0}     end   end end

sizeInFeet = Feet.new(sizeInInches)
sizeInInches[0..3]
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