# Subtract and add two lists without changing their order in Python

If I have the list `[68,31,93,35,10]` (all the numbers will be different) and the list `[93,0,22,10,99,33,21,9]` (again, all the numbers will be different, but may overlap the other list), I need to be able to get exactly `[68,31,93,35,10,0,22,99,33,21,9]`, where the second list is appended to the first list without duplicates. I also need to be able to get exactly `[68,31,35]` where the first list has all duplicates in the second list removed. The output always should be the same order as the input. How do I go about this? (A one liner would be nice if it were simple.)

-

Assuming inputs `l1` and `l2`, you can calculate their ordered union with:

``````l1 + filter(lambda x: x not in l1, l2)
``````

To get the ordered difference l1 - l2, write

``````filter(lambda x: x not in l2, l1)
``````

Alternatively, use list comprehensions:

``````>>> l1 = [68,31,93,35,10]
>>> l2 = [93,0,22,10,99,33,21,9]
>>> l1 + [el2 for el2 in l2 if el2 not in l1]
[68, 31, 93, 35, 10, 0, 22, 99, 33, 21, 9]
>>> [el1 for el1 in l1 if el1 not in l2]
[68, 31, 35]
``````

If you're doing this with very large list (where performance is an issue), construct a `set` for faster lookup:

``````>>> sl1 = set(s1)
>>> l1 + [el2 for el2 in l2 if el2 not in sl1]
[68, 31, 93, 35, 10, 0, 22, 99, 33, 21, 9]
>>> sl2 = set(s2)
>>> [el1 for el1 in l1 if el1 not in sl2]
[68, 31, 35]
``````
-
Would there be a major difference in speed between filter and list comprehensions? – D K Jul 31 '11 at 13:36
@D K That completely depends on the Python implementation. I'd assume list comprehensions tend to be faster, but that's just a guess. With a JITing Python interpreter, both variants will almost certainly be exactly equal. – phihag Jul 31 '11 at 13:42
@D K I forgot one thing: If the lists are very large, you should construct a `set` for faster lookup. Updated the answer. – phihag Jul 31 '11 at 13:58
But sets aren't ordered. – D K Jul 31 '11 at 20:38
@D K huh? Look closely, the sets are used only for membership testing, where order doesn't matter. – phihag Jul 31 '11 at 21:06
``````l1 = [68, 31, 93, 35,10]
l2 = [93, 0, 22, 10, 99, 33, 21,9]

l1 + [x for x in l2 if not x in l1]
# [68, 31, 93, 35, 10, 0, 22, 99, 33, 21, 9]

[x for x in l1 if not x in l2]
# [68, 31, 35]
``````

EDIT: for long lists, you don't want to do all those list lookups. Here are two other recipes:

union:

``````from collections import OrderedDict
OrderedDict().fromkeys(l1+l2).keys()
# [68, 31, 93, 35, 10, 0, 22, 99, 33, 21, 9]
``````

difference:

``````s = set(l2)
[x for x in l1 if not x in s]
# [68, 31, 35]
``````
-
``````def unique_chain(*iters):
seen = set()
for it in iters:
for item in it:
if item not in seen:
yield item

print list(unique_chain([68, 31, 93, 35,10], [93, 0, 22, 10, 99, 33, 21,9]))
``````
-
``````>>> a = [68,31,93,35,10]
>>> b = [93,0,22,10,99,33,21,9]
>>> result= []
>>> temp = a + b
>>> [result.append(x) for x in temp if x not in result]
>>> result
[68, 31, 93, 35, 10, 0, 22, 99, 33, 21, 9]
>>> a = set(a)
>>> b = set(b)
>>> a - b
set([35, 68, 31])
``````
-

Maybe you could use an `OrderedSet`

``````import collections

class OrderedSet(collections.MutableSet):
def __init__(self, iterable, *args, **kwargs):
super(OrderedSet, self).__init__(*args, **kwargs)
self._data = collections.OrderedDict()
self.update(iterable)

def update(self, iterable):
self._data.update((x, None) for x in iterable)

def __iter__(self):
return iter(self._data)

def __contains__(self, value):
return value in self._data

def __len__(self):
return len(self._data)

def __le__(self, other):
if isinstance(other, OrderedSet):
return self._data <= other._data
return super(OrderedSet, self).__le__(other)

def __and__(self, other):
# Overrided by make the order of self the preferred one
if isinstance(other, collections.Set):
return self._from_iterable(value for value in self
if value in other)
return self & set(other)

def __ior__(self, other):
self.update(other)
return self

self._data[value] = None

self._data.pop(value, None)

def __repr__(self):
return "%s(%r)" % (type(self).__name__, self._data.keys())
``````
-

After defining the first two lists as such,

``````a = [68,31,93,35,10]
b = [93,0,22,10,99,33,21,9]
``````

Here is the one-line solution to the first problem,

``````c = [x for x in a+b if x not in set(a).intersection(set(b))]
``````

And the one-liner to the second problem,

``````d = [x for x in a+b if x not in b]
``````
-