Metaprogramming in Ruby: It’s All About the Self-优快云博客

本文深入解析了Ruby元编程的核心概念，强调了所有Ruby代码都是执行代码，没有单独的编译或运行时阶段。文章通过五个片段展示了如何在不同层次上为类添加方法，并解释了背后的统一原理——控制self的概念。通过实例，揭示了Ruby元编程的灵活性和强大之处。

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Metaprogramming in Ruby: It’s All About the Self

November 15th, 2009

After writing my last post on Rails plugin idioms, I realized that Ruby metaprogramming, at its core, is actually quite simple.

It comes down to the fact that all Ruby code is executed code–there is no separate compile or runtime phase. In Ruby, every line of code is executed against a particular self. Consider the following five snippets:

class Person
  def self.species
    "Homo Sapien"
  end
end
 
class Person
  class << self
    def species
      "Homo Sapien"
    end
  end
end
 
class << Person
  def species
    "Homo Sapien"
  end
end
 
Person.instance_eval do
  def species
    "Homo Sapien"
  end
end
 
def Person.species
  "Homo Sapien"
end

All five of these snippets define a Person.species that returns Homo Sapien. Now consider another set of snippets:

class Person
  def name
    "Matz"
  end
end
 
Person.class_eval do
  def name
    "Matz"
  end
end

These snippets all define a method called name on the Person class. So Person.new.name will return “Matz”. For those familiar with Ruby, this isn’t news. When learning about metaprogramming, each of these snippets is presented in isolation: another mechanism for getting methods where they “belong”. In fact, however, there is a single unified reason that all of these snippets work the way they do.

First, it is important to understand how Ruby’s metaclass works. When you first learn Ruby, you learn about the concept of the class, and that each object in Ruby has one:

class Person
end
 
Person.class #=> Class
 
class Class
  def loud_name
    "#{name.upcase}!"
  end
end
 
Person.loud_name #=> "PERSON!"

Person is an instance of Class, so any methods added to Class are available on Person as well. What they don’t tell you, however, is that each object in Ruby also has its own metaclass, a Class that can have methods, but is only attached to the object itself.

matz = Object.new
def matz.speak
  "Place your burden to machine's shoulders"
end

What’s going on here is that we’re adding the speak method to matz‘s metaclass, and the matz object inherits from its metaclass and then Object. The reason this is somewhat less clear than ideal is that the metaclass is invisible in Ruby:

matz = Object.new
def matz.speak
  "Place your burden to machine's shoulders"
end
 
matz.class #=> Object

In fact, matz‘s “class” is its invisible metaclass. We can even get access to the metaclass:

metaclass = class << matz; self; end
metaclass.instance_methods.grep(/speak/) #=> ["speak"]

At this point in other articles on this topic, you’re probably struggling to keep all of the details in your head; it seems as though there are so many rules. And what’s this class << matz thing anyway?

It turns out that all of these weird rules collapse down into a single concept: control over the self in a given part of the code. Let’s go back and take a look at some of the snippets we looked at earlier:

class Person
  def name
    "Matz"
  end
 
  self.name #=> "Person"
end

Here, we are adding the name method to the Person class. Once we say class Person, the self until the end of the block is the Person class itself.

Person.class_eval do
  def name
    "Matz"
  end
 
  self.name #=> "Person"
end

Here, we’re doing exactly the same thing: adding the name method to instances of the Person class. In this case, class_eval is setting the self to Person until the end of the block. This is all perfectly straight forward when dealing with classes, but it’s equally straight forward when dealing with metaclasses:

def Person.species
  "Homo Sapien"
end
 
Person.name #=> "Person"

As in the matz example earlier, we are defining the species method on Person‘s metaclass. We have not manipulated self, but you can see using def with an object attaches the method to the object’s metaclass.

class Person
  def self.species
    "Homo Sapien"
  end
 
  self.name #=> "Person"
end

Here, we have opened the Person class, setting the self to Person for the duration of the block, as in the example above. However, we are defining a method on Person‘s metaclass here, since we’re defining the method on an object (self). Also, you can see that self.name while inside the person class is identical to Person.name while outside it.

class << Person
  def species
    "Homo Sapien"
  end
 
  self.name #=> ""
end

Ruby provides a syntax for accessing an object’s metaclass directly. By doing class << Person, we are setting self to Person‘s metaclass for the duration of the block. As a result, the species method is added to Person‘s metaclass, rather than the class itself.

class Person
  class << self
    def species
      "Homo Sapien"
    end
 
    self.name #=> ""
  end
end

Here, we combine several of the techniques. First, we open Person, making self equal to the Person class. Next, we do class << self, making self equal to Person‘s metaclass. When we then define the species method, it is defined on Person‘s metaclass.

Person.instance_eval do
  def species
    "Homo Sapien"
  end
 
  self.name #=> "Person"
end

The last case, instance_eval, actually does something interesting. It breaks apart the self into the self that is used to execute methods and the self that is used when new methods are defined. When instance_eval is used, new methods are defined on the metaclass, but the self is the object itself.

In some of these cases, the multiple ways to achieve the same thing arise naturally out of Ruby’s semantics. After this explanation, it should be clear that def Person.species, class << Person; def species, and class Person; class << self; def species aren’t three ways to achieve the same thing by design, but that they arise out of Ruby’s flexibility with regard to specifying what self is at any given point in your program.

On the other hand, class_eval is slightly different. Because it take a block, rather than act as a keyword, it captures the local variables surrounding it. This can provide powerful DSL capabilities, in addition to controlling the self used in a code block. But other than that, they are exactly identical to the other constructs used here.

Finally, instance_eval breaks apart the self into two parts, while also giving you access to local variables defined outside of it.

In the following table, defines a new scope means that code inside the block does not have access to local variables outside of the block.

mechanism	method resolution	method definition	new scope?
class Person	Person	same	yes
class << Person	Person’s metaclass	same	yes
Person.class_eval	Person	same	no
Person.instance_eval	Person	Person’s metaclass	no

Also note that class_eval is only available to Modules (note that Class inherits from Module) and is an alias for module_eval. Additionally, instance_exec, which was added to Ruby in 1.8.7, works exactly like instance_eval, except that it also allows you to send variables into the block.

UPDATE: Thank you to Yugui of the Ruby core team for correcting the original post, which ignored the fact that self is broken into two in the case of instance_eval.

This entry was postedon Sunday, November 15th, 2009 at 6:00 pm and is filed under Ruby.You can follow any responses to this entry through the RSS 2.0 feed.You can skip to the end and leave a response. Pinging is currently not allowed.