Is 'method' a type equivalent to 'unbound method' in Python 2?
Kind-a-sort-a. But not really. It is a
method_descriptor object defined in C code. It is an unbound method, but not the kind you found in Python 2.
For Python types written C, all 'methods' are really C functions. The
<method 'name' of 'type' objects> object you found is a special object you can use to call that function given an instance and further arguments, just like the
function object does for custom Python classes. The object is defined in C in the
PyMethodDescr_Type structure. It implements the descriptor protocol, just like functions do.
Python defines several other such descriptor types; if you use
__slots__, each attribute is a dsescriptor of type
member_descriptor (see the
PyMemberDescr_Type structure), while
staticmethod are perhaps better known descriptor objects.
In Python 2, bound and unbound methods are really just one type,
instancemethod (defined by the
PyMethod_Type structure); it'll report as bound if the
im_self) attribute is set. In Python 3 using a function as a descriptor simply doesn't produce method objects without
__self__ set; instead calling
function.__get__() with no instance just returns the function again.
The only reason Python 2 returns unbound methods is to enforce a type check; the first argument must be an instance of the class (or a subclass thereof). This didn't make all that much sense for Python code that supports duck-typing, so in Python 3 the restriction was removed. However, with C code you can't use duck-typing, you still have to restrict the type, and that's why C-types still return a
method_descriptor object that enforces this restriction.