Modules are a way of grouping together methods, classes, and constants. Modules give you two major benefits.
- Modules provide a namespace and prevent name clashes.
- Modules implement the mixin facility.
Modules define a namespace, a sandbox in which your methods and constants can play without having to worry about being stepped on by other methods and constants.
Syntax
module Identifier statement1 statement2 ........... end
Module constants are named just like class constants, with an initial uppercase letter. The method definitions look similar, too: Module methods are defined just like class methods.
As with class methods, you call a module method by preceding its name with the module’s name and a period, and you reference a constant using the module name and two colons.
Example
#!/usr/bin/ruby # Module defined in trig.rb file module Trig PI = 3.141592654 def Trig.sin(x) # .. end def Trig.cos(x) # .. end end
We can define one more module with the same function name but different functionality −
#!/usr/bin/ruby # Module defined in moral.rb file module Moral VERY_BAD = 0 BAD = 1 def Moral.sin(badness) # ... end end
Like class methods, whenever you define a method in a module, you specify the module name followed by a dot and then the method name.
Ruby require Statement
The require statement is similar to the include statement of C and C++ and the import statement of Java. If a third program wants to use any defined module, it can simply load the module files using the Ruby require statement −
Syntax
require filename
Here, it is not required to give .rb extension along with a file name.
Example
$LOAD_PATH << '.' require 'trig.rb' require 'moral' y = Trig.sin(Trig::PI/4) wrongdoing = Moral.sin(Moral::VERY_BAD)
Here we are using $LOAD_PATH << ‘.’ to make Ruby aware that included files must be searched in the current directory. If you do not want to use $LOAD_PATH then you can use require_relative to include files from a relative directory.
IMPORTANT − Here, both the files contain the same function name. So, this will result in code ambiguity while including in calling program but modules avoid this code ambiguity and we are able to call appropriate function using module name.
Ruby include Statement
You can embed a module in a class. To embed a module in a class, you use the include statement in the class −
Syntax
include modulename
If a module is defined in a separate file, then it is required to include that file using require statement before embedding module in a class.
Example
Consider the following module written in support.rb file.
module Week
FIRST_DAY = "Sunday"
def Week.weeks_in_month
puts "You have four weeks in a month"
end
def Week.weeks_in_year
puts "You have 52 weeks in a year"
end
end
Now, you can include this module in a class as follows −
#!/usr/bin/ruby
$LOAD_PATH << '.'
require "support"
class Decade
include Week
no_of_yrs = 10
def no_of_months
puts Week::FIRST_DAY
number = 10*12
puts number
end
end
d1 = Decade.new
puts Week::FIRST_DAY
Week.weeks_in_month
Week.weeks_in_year
d1.no_of_months
This will produce the following result −
Sunday You have four weeks in a month You have 52 weeks in a year Sunday 120
Mixins in Ruby
Before going through this section, we assume you have the knowledge of Object Oriented Concepts.
When a class can inherit features from more than one parent class, the class is supposed to show multiple inheritance.
Ruby does not support multiple inheritance directly but Ruby Modules have another wonderful use. At a stroke, they pretty much eliminate the need for multiple inheritance, providing a facility called a mixin.
Mixins give you a wonderfully controlled way of adding functionality to classes. However, their true power comes out when the code in the mixin starts to interact with code in the class that uses it.
Let us examine the following sample code to gain an understand of mixin −
module A def a1 end def a2 end end module B def b1 end def b2 end end class Sample include A include B def s1 end end samp = Sample.new samp.a1 samp.a2 samp.b1 samp.b2 samp.s1
Module A consists of the methods a1 and a2. Module B consists of the methods b1 and b2. The class Sample includes both modules A and B. The class Sample can access all four methods, namely, a1, a2, b1, and b2. Therefore, you can see that the class Sample inherits from both the modules. Thus, you can say the class Sample shows multiple inheritance or a mixin.