2013-01-23 19:40:49 -05:00
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= Refinements
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Due to Ruby's open classes you can redefine or add functionality to existing
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classes. This is called a "monkey patch". Unfortunately the scope of such
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changes is global. All users of the monkey-patched class see the same
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changes. This can cause unintended side-effects or breakage of programs.
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Refinements are designed to reduce the impact of monkey patching on other
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users of the monkey-patched class. Refinements provide a way to extend a
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class locally.
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Here is a basic refinement:
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class C
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def foo
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puts "C#foo"
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end
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end
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module M
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refine C do
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def foo
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puts "C#foo in M"
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end
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end
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end
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First, a class +C+ is defined. Next a refinement for +C+ is created using
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Module#refine. Refinements can modify both classes and modules.
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Module#refine creates an anonymous module that contains the changes or
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refinements to the class (+C+ in the example). +self+ in the refine block is
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this anonymous module similar to Module#module_eval.
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Activate the refinement with #using:
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using M
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c = C.new
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c.foo # prints "C#foo in M"
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== Scope
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2015-11-17 20:08:19 -05:00
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You may activate refinements at top-level, and inside classes and modules.
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You may not activate refinements in method scope. Refinements are activated
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until the end of the current class or module definition, or until the end of
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the current file if used at the top-level.
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2015-11-17 20:08:19 -05:00
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You may activate refinements in a string passed to Kernel#eval. Refinements
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are active until the end of the eval string.
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Refinements are lexical in scope. Refinements are only active within a scope
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after the call to +using+. Any code before the +using+ statement will not have the
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refinement activated.
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When control is transferred outside the scope, the refinement is deactivated.
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This means that if you require or load a file or call a method that is defined
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outside the current scope the refinement will be deactivated:
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class C
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end
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module M
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refine C do
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def foo
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puts "C#foo in M"
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end
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end
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end
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def call_foo(x)
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x.foo
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end
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using M
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x = C.new
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x.foo # prints "C#foo in M"
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call_foo(x) #=> raises NoMethodError
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If a method is defined in a scope where a refinement is active, the refinement
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will be active when the method is called. This example spans multiple files:
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c.rb:
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class C
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end
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m.rb:
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require "c"
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module M
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refine C do
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def foo
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puts "C#foo in M"
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end
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end
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end
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m_user.rb:
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require "m"
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using M
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class MUser
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def call_foo(x)
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x.foo
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end
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end
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main.rb:
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require "m_user"
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x = C.new
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m_user = MUser.new
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m_user.call_foo(x) # prints "C#foo in M"
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x.foo #=> raises NoMethodError
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Since the refinement +M+ is active in <code>m_user.rb</code> where
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<code>MUser#call_foo</code> is defined it is also active when
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<code>main.rb</code> calls +call_foo+.
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Since #using is a method, refinements are only active when it is called. Here
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are examples of where a refinement +M+ is and is not active.
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In a file:
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# not activated here
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using M
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# activated here
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class Foo
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# activated here
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def foo
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# activated here
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end
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# activated here
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end
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# activated here
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2015-11-17 20:08:19 -05:00
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In a class:
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# not activated here
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class Foo
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# not activated here
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def foo
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# not activated here
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end
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using M
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# activated here
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def bar
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# activated here
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end
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# activated here
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end
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# not activated here
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2017-06-22 20:29:45 -04:00
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Note that the refinements in +M+ are *not* activated automatically if the class
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+Foo+ is reopened later.
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2013-01-23 19:40:49 -05:00
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In eval:
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# not activated here
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eval <<EOF
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# not activated here
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using M
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# activated here
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EOF
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# not activated here
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When not evaluated:
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# not activated here
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if false
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using M
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end
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# not activated here
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2017-06-22 20:29:45 -04:00
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When defining multiple refinements in the same module inside multiple +refine+ blocks,
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all refinements from the same module are active when a refined method
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(any of the +to_json+ methods from the example below) is called:
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module ToJSON
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refine Integer do
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def to_json
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to_s
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end
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end
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refine Array do
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def to_json
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"[" + map { |i| i.to_json }.join(",") + "]"
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end
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end
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refine Hash do
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def to_json
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"{" + map { |k, v| k.to_s.dump + ":" + v.to_json }.join(",") + "}"
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end
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end
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end
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using ToJSON
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p [{1=>2}, {3=>4}].to_json # prints "[{\"1\":2},{\"3\":4}]"
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2013-07-02 04:24:26 -04:00
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2013-01-23 19:40:49 -05:00
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== Method Lookup
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2013-01-24 02:54:45 -05:00
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When looking up a method for an instance of class +C+ Ruby checks:
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* If refinements are active for +C+, in the reverse order they were activated:
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* The prepended modules from the refinement for +C+
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* The refinement for +C+
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* The included modules from the refinement for +C+
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* The prepended modules of +C+
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* +C+
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* The included modules of +C+
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If no method was found at any point this repeats with the superclass of +C+.
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Note that methods in a subclass have priority over refinements in a
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superclass. For example, if the method <code>/</code> is defined in a
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refinement for Numeric <code>1 / 2</code> invokes the original Integer#/
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because Integer is a subclass of Numeric and is searched before the refinements
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for the superclass Numeric. Since the method <code>/</code> is also present
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in child +Integer+, the method lookup does not move up to the superclass.
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However, if a method +foo+ is defined on Numeric in a refinement, <code>1.foo</code>
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invokes that method since +foo+ does not exist on Integer.
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== +super+
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When +super+ is invoked method lookup checks:
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* The included modules of the current class. Note that the current class may
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be a refinement.
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* If the current class is a refinement, the method lookup proceeds as in the
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Method Lookup section above.
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* If the current class has a direct superclass, the method proceeds as in the
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Method Lookup section above using the superclass.
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Note that +super+ in a method of a refinement invokes the method in the
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refined class even if there is another refinement which has been activated in
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the same context.
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== Indirect Method Calls
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When using indirect method access such as Kernel#send, Kernel#method or
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Kernel#respond_to? refinements are not honored for the caller context during
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method lookup.
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This behavior may be changed in the future.
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2017-12-03 03:35:44 -05:00
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== Refinement inheritance by Module#include
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2017-12-08 17:51:42 -05:00
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When a module X is included into a module Y, Y inherits refinements from X.
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2018-01-10 09:13:06 -05:00
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For example, C inherits refinements from A and B in the following code:
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module A
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refine X do ... end
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refine Y do ... end
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end
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module B
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refine Z do ... end
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end
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module C
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include A
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include B
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end
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using C
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# Refinements in A and B are activated here.
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2017-12-08 17:51:42 -05:00
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Refinements in descendants have higher precedence than those of ancestors.
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2013-01-23 19:40:49 -05:00
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== Further Reading
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2016-09-11 06:33:36 -04:00
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See https://bugs.ruby-lang.org/projects/ruby-trunk/wiki/RefinementsSpec for the
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current specification for implementing refinements. The specification also
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contains more details.
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