You can perform local assignments as a side effect of list comprehensions in Python 2.
say_hello = lambda: [
[None for message in ["Hello world"]],
sys.stdout.write(message + "\n")
However, it's not possible to use this in your example because your variable
flag is in an outer scope, not the
lambda's scope. This doesn't have to do with
lambda, it's the general behaviour in Python 2. Python 3 lets you get around this with the
nonlocal keyword inside of
nonlocal can't be used inside
lambdas and Python 3 removes this side effect of list comprehensions, so this isn't possible in Python 3.
There's a workaround (see below), but while we're on the topic...
In some cases you can use this to do everything inside of a
for sys in [__import__('sys')]
for math in [__import__('math')]
for sub in [lambda *vals: None]
for fun in [lambda *vals: vals[-1]]
for echo in [lambda *vals: sub(
sys.stdout.write(u" ".join(map(unicode, vals)) + u"\n"))]
for Cylinder in [type('Cylinder', (object,), dict(
__init__ = lambda self, radius, height: sub(
setattr(self, 'radius', radius),
setattr(self, 'height', height)),
volume = property(lambda self: fun(
['def' for top_area in [math.pi * self.radius ** 2]],
self.height * top_area))))]
for main in [lambda: sub(
['loop' for factor in [1, 2, 3] if sub(
for my_radius, my_height in [[10 * factor, 20 * factor]]
for my_cylinder in [Cylinder(my_radius, my_height)]],
echo(u"A cylinder with a radius of %.1fcm and a height "
u"of %.1fcm has a volume of %.1fcm³."
% (my_radius, my_height, my_cylinder.volume)))])]],
A cylinder with a radius of 10.0cm and a height of 20.0cm has a volume of 6283.2cm³.
A cylinder with a radius of 20.0cm and a height of 40.0cm has a volume of 50265.5cm³.
A cylinder with a radius of 30.0cm and a height of 60.0cm has a volume of 169646.0cm³.
...back to your original example: though you can't perform assignments to the
flag variable in the outer scope, you can use functions to modify the previously-assigned value.
flag could be an object whose
.value we set using
flag = Object(value=True)
input = [Object(name=''), Object(name='fake_name'), Object(name='')]
output = filter(lambda o: [
flag.value or bool(o.name),
setattr(flag, 'value', flag.value and bool(o.name))
If we wanted to fit the above theme, we could use a list comprehension instead of
[None for flag.value in [bool(o.name)]]
But really, in serious code you should always use a regular function definition instead of a
lambda if you're going to be doing assignment.
flag = Object(value=True)
result = flag.value or bool(o.name)
flag.value = flag.value and bool(o.name)
input = [Object(name=""), Object(name="fake_name"), Object(name="")]
output = filter(not_empty_except_first, input)