Bar can't be a module and a class, they are different things.
module Bar or change
Whichever it is, it has to be consistent. You can't change one to the other. The question is which should it be? If
Bar is a container for other classes and only has a few global singleton methods? Then it's a
module. But if it can be instantiated, then it's a
And yes, you can nest classes. This is totally acceptable:
puts "running module Bar with class OtherBar"
Bar::OtherBar.new # yay!
Modules and Classes can be nested inside either other in any way you see fit.
Edit with some commented examples to help clear this all up:
# simple namespaced class
# Foo::B, inherits from Foo::A
class B < A
# inherting from a class in the same namespace
# modify Foo::B
# When modifying an existing class you don't need to define the superclass
# again. It will raise an error if you reopen a class and define a different
# superclass. But leaving it off is fine.
# nested module Foo::Inner
# simple more deeply namespaced class
# Foo::Inner::D, inherits from Foo::A
class D < A
# inherits from a class in a parent namespace
# works because ruby looks upward in the nesting chain to find missing constants.
# simple nested class with the same name as something in a parent namespace
# This is a totally different Foo, because it's in a different namespace
# Foo::Inner::E, inherits from Foo::Inner::Foo
class E < Foo
# class inhereting from another class in the same namespace
# Foo::Inner::Foo is "closer" than the global Foo, so that gets found as the superclass
# Foo::Inner::F, which mixes in the gloabl module Foo
# the :: constant prefix says to start looking in the global namespace
# so here we include the top level module Foo, and not the "closer" in namespace Foo::Inner::Foo
# This is an error. This attempts to include the class Foo::Inner::Foo since thats the closest by namespace
# thing that matches the constant Foo. (you can't include classes, only modules)
# You need the :: prefix to grab the global Foo module
# Z decalred in the global namespace, which inherits from the deeply nested class Foo::Inner::C
class Z < Foo::Inner::C
# Any class anywhere can inherit from any other class in any namespace.
# Just drill in!
# the following 2 declarations at this point would be identical
# This defines a class deep with in a namespace
class Foo::Inner::Foo::Bar < Foo::A
# same as above, but reopens each namespace
class Bar < ::Foo::A