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ruby--ruby/doc/syntax/refinements.rdoc

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= Refinements
Due to Ruby's open classes you can redefine or add functionality to existing
classes. This is called a "monkey patch". Unfortunately the scope of such
changes is global. All users of the monkey-patched class see the same
changes. This can cause unintended side-effects or breakage of programs.
Refinements are designed to reduce the impact of monkey patching on other
users of the monkey-patched class. Refinements provide a way to extend a
class locally.
Refinements are an experimental feature in Ruby 2.0. At the time of writing,
refinements are expected to exist in future versions of Ruby but the
specification of refinements may change. You will receive a warning the first
time you define or activate a refinement.
Here is a basic refinement:
class C
def foo
puts "C#foo"
end
end
module M
refine C do
def foo
puts "C#foo in M"
end
end
end
First, a class +C+ is defined. Next a refinement for +C+ is created using
Module#refine. Refinements only modify classes, not modules so the argument
must be a class.
Module#refine creates an anonymous module that contains the changes or
refinements to the class (+C+ in the example). +self+ in the refine block is
this anonymous module similar to Module#module_eval.
Activate the refinement with #using:
using M
x = C.new
c.foo # prints "C#foo in M"
== Scope
You may activate refinements at top-level to the end of the file or in a
string passed to Kernel#eval, Kernel#instance_eval or Kernel#module_eval until
the end of the string.
Refinements are lexical in scope. When control is transferred outside the
scope the refinement is deactivated. This means that if you require or load a
file or call a method that is defined outside the current scope the refinement
will be deactivated:
class C
end
module M
refine C do
def foo
puts "C#foo in M"
end
end
end
def call_foo(x)
x.foo
end
using M
x = C.new
x.foo # prints "C#foo in M"
call_foo(x) #=> raises NoMethodError
If a method is defined in a scope where a refinement is active the refinement
will be active when the method is called. This example spans multiple files:
c.rb:
class C
end
m.rb:
require "c"
module M
refine C do
def foo
puts "C#foo in M"
end
end
end
m_user.rb:
require "m"
using M
class MUser
def call_foo(x)
x.foo
end
end
main.rb:
require "m_user"
x = C.new
m_user = MUser.new
m_user.call_foo(x) # prints "C#foo in M"
x.foo #=> raises NoMethodError
Since the refinement +M+ is active in <code>m_user.rb</code> where
<code>MUser#call_foo</code> is defined it is also active when
<code>main.rb</code> calls +call_foo+.
Since #using is a method, refinements are only active when it is called. Here
are examples of where a refinement +M+ is and is not active.
In a file:
# not activated here
using M
# activated here
class Foo
# activated here
def foo
# activated here
end
# activated here
end
# activated here
In eval:
# not activated here
eval <<EOF
# not activated here
using M
# activated here
EOF
# not activated here
When not evaluated:
# not activated here
if false
using M
end
# not activated here
When defining multiple refinements in the same module, inside a refine block
all refinements from the same module are active when a refined method is
called:
module ToJSON
refine Integer do
def to_json
to_s
end
end
refine Array do
def to_json
"[" + map { |i| i.to_json }.join(",") + "]"
end
end
refine Hash do
def to_json
"{" + map { |k, v| k.to_s.dump + ":" + v.to_json }.join(",") + "}"
end
end
end
using ToJSON
p [{1=>2}, {3=>4}].to_json # prints "[{\"1\":2},{\"3\":4}]"
You may also activate refinements in a class or module definition, in which
case the refinements are activated from the point where using is called to
the end of the class or module definition:
# not activated here
class Foo
# not activated here
using M
# activated here
def foo
# activated here
end
# activated here
end
# not activated here
Note that the refinements in M are not activated automatically even if the class
Foo is reopened later.
== Method Lookup
When looking up a method for an instance of class +C+ Ruby checks:
* If refinements are active for +C+, in the reverse order they were activated:
* The prepended modules from the refinement for +C+
* The refinement for +C+
* The included modules from the refinement for +C+
* The prepended modules of +C+
* +C+
* The included modules of +C+
If no method was found at any point this repeats with the superclass of +C+.
Note that methods in a subclass have priority over refinements in a
superclass. For example, if the method <code>/</code> is defined in a
refinement for Integer <code>1 / 2</code> invokes the original Fixnum#/
because Fixnum is a subclass of Integer and is searched before the refinements
for the superclass Integer.
If a method +foo+ is defined on Integer in a refinement, <code>1.foo</code>
invokes that method since +foo+ does not exist on Fixnum.
== +super+
When +super+ is invoked method lookup checks:
* The included modules of the current class. Note that the current class may
be a refinement.
* If the current class is a refinement, the method lookup proceeds as in the
Method Lookup section above.
* If the current class has a direct superclass, the method proceeds as in the
Method Lookup section above using the superclass.
Note that +super+ in a method of a refinement invokes the method in the
refined class even if there is another refinement which has been activated in
the same context.
== Indirect Method Calls
When using indirect method access such as Kernel#send, Kernel#method or
Kernel#respond_to? refinements are not honored for the caller context during
method lookup.
This behavior may be changed in the future.
== Refinements and module inclusion
Refinements are inherited by module inclusion. That is, using activates all
refinements in the ancestors of the specified module. Refinements in a
descendant have priority over refinements in an ancestor.
== Further Reading
See http://bugs.ruby-lang.org/projects/ruby-trunk/wiki/RefinementsSpec for the
current specification for implementing refinements. The specification also
contains more details.