Class scopes are a bit strange in Python 3, but its for a good reason.
In Python 2, the iteration variables (
j in your examples) leaked out of list comprehensions and would be included in the outside scope. This is because they were developed early in Python 2's design, and they were based on explicit loops. As an example of how this is unexpected, check the values of
B.j in Python 2 where you didn't get an error!
In Python 3, list comprehensions were changed to prevent this leaking. They are now implemented with a function (which has its own scope) that is called to produce the list value. This makes them work the same as generator expressions, which have always been functions under the covers.
A consequence of this is that in a class, a list comprehension usually can't see any class variables. This is parallel to a method not being able to see class variables directly (only though
self or the explicit class name). For example, calling the method in the class below will give the same
NameError exception you are seeing in your list comprehension:
classvar = "bar"
print(classvar) # raises "NameError: global name 'classvar' is not defined"
There is an exception however. The sequence being iterated over by the first
for clause of a list comprehension is evaluated outside of the inner function. This is why your
A class works in Python 3. It does this so that generators can catch non-iterable objects immediately (rather than only when
next is called on them and their code runs).
But it doesn't work for the inner
for clause in the two-level comprehension in class
You can see the difference if you disassemble some functions that create list comprehensions using the
return [i for i in lst]
return [(i, j) for i in lst for j in lst]
Here's the disassembly of
2 0 LOAD_CONST 1 (<code object <listcomp> at 0x0000000003CCA1E0, file "<pyshell#374>", line 2>)
3 LOAD_CONST 2 ('f.<locals>.<listcomp>')
6 MAKE_FUNCTION 0
9 LOAD_FAST 0 (lst)
13 CALL_FUNCTION 1 (1 positional, 0 keyword pair)
The first three lines show
f loading up a precompiled code block and creating a function out of it (it names it
f.<locals>.<listcomp>). This is the function used to make the list.
The next two lines show the
lst variable being loaded and an iterator being made from it. This is happening within
f's scope, not the inner function's. Then the
<listcomp> function is called with that iterator as its argument.
This is comparable to class
A. It gets the iterator from the class variable
integers, just like you can use other kinds of references to previous class members in the definition of a new member.
Now, compare the disassembly of
g, which makes pairs by iterating over the same list twice:
2 0 LOAD_CLOSURE 0 (lst)
3 BUILD_TUPLE 1
6 LOAD_CONST 1 (<code object <listcomp> at 0x0000000003CCA810, file "<pyshell#377>", line 2>)
9 LOAD_CONST 2 ('g.<locals>.<listcomp>')
12 MAKE_CLOSURE 0
15 LOAD_DEREF 0 (lst)
19 CALL_FUNCTION 1 (1 positional, 0 keyword pair)
This time, it builds a closure with the code object, rather than a basic function. A closure is a function with some "free" variables that refer to things in the enclosing scope. For the
<listcomp> function in
g, this works just fine, since its scope is a normal one. However, when you try to use the same sort of comprehension in class B the closure fails, since classes don't let functions they contain see into their scopes in that way (as demonstrated with the
Foo class above).
Its worth noting that not only inner sequence values cause this issue. As in the previous question linked to by BrenBarn in a comment, you'll have the same issue if a class variable is referred to elsewhere in the list comprehension:
num = 5
products = [i * num for i in range(10)] # raises a NameError about num
You don't, however get an error from multi-level list comprehensions where the inner
if) clauses only refer to the results of the preceeding loops. This is because those values aren't part of a closure, just local variables inside the
<listcomp> function's scope.
nested = [[1, 2, 3], [4, 5, 6]]
flattened = [item for inner in nested for item in inner] # works!
Like I said, class scopes are a bit strange.