func_code.co_names is not likely going to help much. This contains all names that are accessed within the code segment, including global variables, in order of appearance.
return self.b + self.c
return self.y.a + self.y.b
('y', 'a', 'b')
It is not possible to tell from this array if 'a' and 'b' loaded from 'self' or from 'self.y'. Generally, the only way to know the access pattern of a bit of code without executing it is to disassemble it.
>>> import dis
23 0 LOAD_FAST 0 (self)
3 LOAD_ATTR 0 (y)
6 LOAD_ATTR 1 (a)
9 LOAD_FAST 0 (self)
12 LOAD_ATTR 0 (y)
15 LOAD_ATTR 2 (b)
We see that the function loads the 'self' variable (which is always
co_varnames for a bound function), then from that object loads the attribute 'y' (
co_names), and then from that object loads the attribute 'a' (
co_names). A second stack object is pushed from self.y.b, then the two are added.
Look at the source of dis.py in the standard lib to see how the C Python binary code is disassembled. Loads of the 0th variable will be important for bound functions. Another handy point is that the arguments to the function are
co_varnames[:co_argcount] (the rest or varnames are locals) and
co_freevars are variables from an enclosing non-global scope.