CSC/ECE 517 Fall 2007/wiki1b 2 22: Difference between revisions
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We would like to use some notation close to the usual notation: | We would like to use some notation close to the usual notation: | ||
computer = Computer.new | computer = Computer.new | ||
puts computer._4! | puts computer._4! | ||
Obviously, we cannot create methods for every integer, to do it we use the method_missing. | Obviously, we cannot create methods for every integer, to do it we use the method_missing. |
Revision as of 17:03, 29 September 2007
Introduction - method_missing
The method_missing is a method that called whenever someone tries to call a method in your object that doesn't exist. It is a Ruby kernel method. It used as a method of last resort. When you send a message to a Ruby object, Ruby looks for a method to invoke with the same name as the message you sent. First it looks in the current self object’s own instance methods. Then it looks in the list of instance methods that all objects of that class share, and then in each of the included modules of that class, in reverse order of inclusion. Then it looks in that class’s superclass, and then in the superclass’s included modules, all the way up until it reaches the class Object. If it still can’t find a method, the very last place it looks is in the Kernel module, included in the class Object.
Examples
1. Object composition
class SimpleCallLogger def initialize(o) @obj = o end def method_missing(methodname, *args) puts "called: #{methodname}(#{args})" a = @obj.send(methodname, *args) puts "\t-> returned: #{a}" return a end end
This object "intercepts" all method calls made to it, prints out a message and forwards on the method call to an internal object using the 'send' method, without knowing anything about the object passed to it. It can be used to debug some code without littering it with print statements. [1]
2. Factorial
Let's create a Computer class that contains a factorial method (you know the famous n! thing).
class Computer def factorial n raise ArgumentError if n < 0 f = 1 n.downto(1) do |i| f = f * i end f end end computer = Computer.new puts computer.factorial(4)
We would like to use some notation close to the usual notation:
computer = Computer.new puts computer._4!
Obviously, we cannot create methods for every integer, to do it we use the method_missing.
def method_missing(meth, *args) meth.to_s =~ /_([0-9]*)!/ return super if ! $1 factorial($1.to_i) end
If we use the special notation (_<digits>!) the method_missing implementation extracts the number, from the method name, and calls the factorial method to get the result. Each time and for any method the same processing happens. [2]
3. Foo_Bar
class Foz def bar puts "Foz-bar" end end class NoBar def method_missing(methodname, *args) puts "NoBar" if "bar" == methodname.to_s end end class MakeBar define_method(:bar) {puts "madebar"} end bu= Baruser.new bu.baruse(Foz.new) # another type altogether bu.baruse(NoBar.new) # a class that doesn't have bar method bu.baruse(MakeBar.new) # a class where the bar method is created programatically
We can see from the examples that what ruby does is searching for a handler for the bar message. The handler can be a method (symbol) called bar or a generic handle like Missing_Method -- Ruby doesn't care as long as the message get handled.
Advantages
Allow you to catch problem at runtime. Allow you define a generic method_missing and handle any undefined method. The use of method_missing falls under the general technique of metaprogramming.