By puts A.new.eigenclass.superclass
, you are effectively calling #eigenclass
on the instance of class A. I will begin with backstory to explain how eigenclass actually works, and will then proceed to tell what is happening in your code.
BackStory:
EigenClass is a hidden class which contains the singleton methods available for that specific object only.
So for obj = Foo.new
, the class hierarchy actually looks like:
obj --eigenclass--> #> --(superclass)--> A
instead of:
obj --(class)--> A
A hidden class can be produced after you hijacked the self with #eigenclass
.
Now, in Ruby, Class is an object. This also means that #eigenclass
should show the the hidden eigenclass of A
too (where A's sigleton methods are kept).
A --(eigenclass)--> # --(superclass)--> #
Now the reason why it shows # instead of A
is because Ruby organizes the classes, superclasses and eigenclasses in a very beautiful pattern. This can be shown with example instead of quoting it in confusing words:
A.superclass #=> Object
A.eigenclass #=> #<Class: A>
A.eigenclass.superclass #=> #<Class: Object> => Eigenclass of Object
A.eigenclass.superclass == Object.eigenclass #=> true
The superclass of an eigenclass of a class is the eigenclass of the superclass of the original class.
Now, coming to your case: Class.new.eigenclass.superclass
, this is self-explanatory now. Class.new
corresponds to a new anonymous class, say B
, and you are effectively calling eigenclass.superclass
on it. Since the superclass of B
is Object, the superclass of eigenclass of B is the eigenclass of superclass of B
.
Tried my best to explain with examples. Please feel free to clarify it further in comments below; will update the answer accordingly. Complementary(from Pragmatic MR): .
In the figure shown above, D
inherits from C
. So D.eigenclass.superclass
is the eigneclass of (superclass of D)[which is C]. Now C's superclass is Object.. and so is the same logic.
Regards