TL;DR: This behaviour has existed since Python 2.1 PEP 227: Nested Scopes, and was known back then. If a name is assigned to within a class body (like
y), then it is assumed to be a local/global variable; if it is not assigned to (
x), then it also can potentially point to a closure cell. The lexical variables do not show up as local/global names to the class body.
On Python 3.4,
dis.dis(func) shows the following:
4 0 LOAD_CONST 1 ('xlocal')
3 STORE_DEREF 0 (x)
5 6 LOAD_CONST 2 ('ylocal')
9 STORE_FAST 0 (y)
6 12 LOAD_BUILD_CLASS
13 LOAD_CLOSURE 0 (x)
16 BUILD_TUPLE 1
19 LOAD_CONST 3 (<code object C at 0x7f083c9bbf60, file "test.py", line 6>)
22 LOAD_CONST 4 ('C')
25 MAKE_CLOSURE 0
28 LOAD_CONST 4 ('C')
31 CALL_FUNCTION 2 (2 positional, 0 keyword pair)
34 STORE_FAST 1 (C)
37 LOAD_CONST 0 (None)
LOAD_BUILD_CLASS loads the
builtins.__build_class__ on the stack; this is called with arguments
__build_class__(func, name); where
func is the class body, and
'C'. The class body is the constant #3 for the function
6 0 LOAD_NAME 0 (__name__)
3 STORE_NAME 1 (__module__)
6 LOAD_CONST 0 ('func.<locals>.C')
9 STORE_NAME 2 (__qualname__)
7 12 LOAD_NAME 3 (print)
15 LOAD_CLASSDEREF 0 (x)
18 CALL_FUNCTION 1 (1 positional, 0 keyword pair)
8 22 LOAD_NAME 3 (print)
25 LOAD_NAME 4 (y)
28 CALL_FUNCTION 1 (1 positional, 0 keyword pair)
9 32 LOAD_CONST 1 (1)
35 STORE_NAME 4 (y)
38 LOAD_CONST 2 (None)
Within the class body,
x is accessed with
LOAD_CLASSDEREF (15) while
y is load with
LOAD_NAME (25). The
LOAD_CLASSDEREF is a Python 3.4+ opcode for loading values from closure cells specifically within class bodies (in previous versions, the generic
LOAD_DEREF was used); the
LOAD_NAME is for loading values from locals and then globals. However closure cells show up neither as locals nor globals.
Now, because the name
y is stored to within the class body (35), it is consistently being used as not a closure cell but a local/global name.
The closure cells do not show up as local variables to the class body.
This behaviour has been true ever since implementing PEP 227 - nested scopes. And back then BDFL stated that this should not be fixed - and thus it has been for these 13+ years.
The only change since PEP 227 is the addition of
nonlocal in Python 3; if one uses it within the class body, the class body can set the values of the cells within the containing scope:
x = "xtop"
y = "ytop"
x = "xlocal"
y = "ylocal"
nonlocal y # y here now refers to the outer variable
y = 1
The output now is
Traceback (most recent call last):
File "test.py", line 15, in <module>
File "test.py", line 13, in func
AttributeError: type object 'C' has no attribute 'y'
print(y) read the value of the cell
y of the containing scope, and
y = 1 set the value in that cell; in this case, no attribute was created for the class
yshould be an unbound exception in the case of
y, but it isn't even when you make
Ca global. Corner cases FTW! Class bodies are special; they do not create a new scope of their own. As such
y = 1would make it a local, but until that point it is a global in class statements only.
print xis python2 code.