# Zipping unequal lists in python in to a list which does not drop any element from longer list being zipped

I have two lists

``````  a = [1,2,3]
b = [9,10]
``````

I want to combine (zip) these two lists into one list c such that

``````  c = [(1,9), (2,10), (3, )]
``````

Is there any function in standard library in python to do this.

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What you seek is `itertools.izip_longest`

``````>>> a = [1,2,3]
>>> b = [9,10]
>>> for i in itertools.izip_longest(a,b): print i
...
(1, 9)
(2, 10)
(3, None)
``````

EDIT 1: If you really want to get rid of the `None`s, then you could try:

``````>>> for i in (filter(None, pair) for pair in itertools.izip_longest(a,b)): print i
(1, 9)
(2, 10)
(3,)
``````

EDIT 2: In response to steveha's comment:

``````filter(lambda p: p is not None, pair) for pair in itertools.izip_longest(a,b)
``````
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Another way is `map`:

``````a = [1, 2, 3]
b = [9, 10]
c = map(None, a, b)
``````

Although that will too contain `(3, None)` instead of `(3,)`. To do that, here's a fun line:

``````c = (tuple(y for y in x if y is not None) for x in map(None, a, b))
``````
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`x if None not in x else tuple(y for y in x if y is not None)`. The `x if None not in x` is redundant here, as the `else` takes care of it. In the worst case, the `else` would return an empty tuple. Also, if there's a `None` in any tuple, the `if` would kill that tuple and pass it on to the `else` –  inspectorG4dget Jul 3 '12 at 21:07
@inspectorG4dget: Thanks. But now it's not quite as fun :D –  minitech Jul 3 '12 at 21:13

It's not too hard to just write the explicit Python to do the desired operation:

``````def izip_short(a, b):
ia = iter(a)
ib = iter(b)
for x in ia:
try:
y = next(ib)
yield (x, y)
except StopIteration:
yield (x,)
break
for x in ia:
yield (x,)
for y in ib:
yield (None, y)

a = [1, 2, 3]
b = [9, 10]
list(izip_short(a, b))
list(izip_short(b, a))
``````

I wasn't sure how you would want to handle the `b` sequence being longer than the `a` sequence, so I just stuff in a `None` for the first value in the tuple in that case.

Get an explicit iterator for each sequence. Run the `a` iterator as a `for` loop, while manually using `next(ib)` to get the next value from the `b` sequence. If we get a `StopIteration` on the `b` sequence, we break the loop and then `for x in ia:` gets the rest of the `a` sequence; after that `for y in ib:` will do nothing because that iterator is already exhausted. Alternatively, if the first `for x in ia:` loop exhausts the `a` iterator, the second `for x in ia:` does nothing but there could be values left in the `b` sequence and the `for y in ib:` loop collects them.

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`c = zip(a, b) + a[len(b):] + b[len(a):]`

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