As others have said,
append mutates the list itself and you shouldn't assign it to a variable. Executing it changes it's data, effectively updating everyone pointing at it.
But, there's a trick I use when I want to do stuff in a functional* way while mutating existing objects (rather than constructing new ones, in this case using
a=[x + ['a'] for x in a], or specifically the
x + ['a']).
So, if you're brave enough you can also do this:
>>> a=[x.append('a') or x for x in a]
[[1, 2, 'a'], [3, 4, 'a'], [5, 6, 'a']]
This works because
None, and the
or continues on to search for a truth-y value, which
x is (it's a
list with at least what was appended to it).
Why do I even need this?
Say you have a list and you want to insert some of it's members to a new list, and update the references accordingly:
So you have the list
>>> all = [, , , ]
Some of it is inserted and updated to a new list
>>> x = [i.append('x') or i for i in all[:2]]
all is also inserted and updated to a list
>>> y = [i.append('y') or i for i in all[1:3]]
all is updated:
[['x'], ['x', 'y'], ['y'], ]
x is also updated:
[['x'], ['x', 'y']]
y is generated as expected:
[['x', 'y'], ['y']]
Overall, for simple tasks, I'd recommend using a
for loop updating explicitly. This is what's considered pythonic.
Technically speaking, if you had access to the list class, you could make this a function:
def functional_append(self, x):
return self.append(x) or self
- functional programming is based on every statement doing essentially one thing, and not having side effects (so, not mutating and returning).
append is not very functional since it mutates a list (pure functional programming has only immutable objects) and does not return a result to pass to other actions (functions). Using functional programming concepts you can create great big one-liners no one can read, also known as "job security" or "bad code".