In general, a module can never override a method in the class
it's included in. This is because module inclusion works just
like subclassing. A superclass can't override its subclasses'
methods either, nor would you expect it to.
When a module is included in a class, the module is inserted
just after the class in the class's ancestor chain. Calling
super
from the class will call the module's implementation.
class Something
module PreExtension; end
module PostExtension; end
include PreExtension
include PostExtension
end
Something.ancestors # => [Something, Something::PostExtension, Something::PreExtension, Object, Kernel]
Whenever a method is called on a Something
, Ruby looks through
this list in order and calls the first implementation it finds.
If the implementation calls super
, it keeps looking and finds
the next one.
This means that modules included later take precedence over
modules included earlier, and can call super
to get the earlier
modules' implementations. This is because included modules are
inserted in the ancestor chain directly after the class. This
is how the routing code edgerunner mentioned works. That code
puts everything in modules, like so:
class SomethingNew
module Base
def my_method
puts "(A)"
end
end
module Extension
def my_method
puts "(B)"
super
end
end
include Base
include Extension
end
SomethingNew.new.my_method
# Output:
# >> (B)
# >> (A)
SomethingNew.ancestors # => [SomethingNew, SomethingNew::Extension, SomethingNew::Base, Object, Kernel]
This is why alias_method_chain
existed in the first place. If putting the base code in a module is not an option, I'm not sure how to accomplish the equivalent of alias_method_chain
.