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What is wrong with the following?:

lss = reduce(list.extend, [[1],[2]], [])

causes:

Traceback (most recent call last):
  File "<pyshell#230>", line 1, in <module>
    lss = reduce(list.extend, [[1],[2]], [])
TypeError: descriptor 'extend' requires a 'list' object but received a 'NoneType'

I'm not sure where the NoneType is coming from.

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What is your desired result?/ What list are you trying to extend? –  Matthew Adams Jul 4 '12 at 15:32

4 Answers 4

up vote 8 down vote accepted

Try this instead:

lss = reduce(lambda acc, ele : acc + ele, [[1],[2]], [])

lss
> [1, 2]

The problem is that extend() returns None (that's where the NoneType is coming from), and that won't work with what you want to do - the function passed to reduce() must return a value: the accumulated result so far.

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I realise I can do that. I would still like to know what is wrong with using the list.extend method. It seems like it should work. - your edit answered this. –  cammil Jul 4 '12 at 15:31
1  
@cammil as I mentioned above: extend() will always return None; for reduce() to work the function that gets executed has to return a value: the accumulated result so far. –  Óscar López Jul 4 '12 at 15:33
2  
In case anyone is wondering why list.extend() returns None: it's because in Python, functions that mutate a data structure always return None, because Python is abiding by Command/Query Separation. en.wikipedia.org/wiki/Command-query_separation –  steveha Jul 4 '12 at 20:41

I think it worth noting that:

sum([[1],[2]], [])

Will also work, and I'm pretty sure will be faster then passing a lambda to reduce.

I was curious as to the speed of different methods, so I did some testing:

reduce(lambda a,b:a+b, x, [])               3644.38161492
reduce(list.__add__, x, [])                 3609.44079709
sum(x,[])                                   3526.84987307
y = [];for z in x: y.extend(z)               143.370306969
y = [];map(y.extend,x)                        71.7020270824
y = [None]*400;del y[:];map(y.extend,x)       66.2245891094
list(itertools.chain(*x))                    102.285979986
list(itertools.chain.from_iterable(x))        96.6231369972
[a for b in x for a in b]                    203.764872074

And on PyPy (Because, why not)

reduce(lambda a,b:a+b, x, [])               4797.5895648
reduce(list.__add__, x, [])                 4794.01214004
sum(x,[])                                   4748.02929902
y = [];for z in x: y.extend(z)                56.9253079891
y = [];map(y.extend,x)                        73.8642170429
y = [None]*400;del y[:];map(y.extend,x)      152.157783031
list(itertools.chain(*x))                    633.854824066
list(itertools.chain.from_iterable(x))       629.917827129
[a for b in x for a in b]                     89.6922459602

x = [[1,2,3,4],[2,3,4,5],[3,4,5,6],[4,5,6,7],[5,6,7,8],[6,7,8,9],[7,8,9,10],[8,9,10,11]]*100

Conclusions:

  1. Using a lambda in your reduce is slow
  2. The specialized sum function is faster then reduce
  3. Adding lists is slow.
  4. Python loop overhead is significant.
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If you set x = x*100 you can start to see the real speed differences between the algorithms. –  DSM Jul 4 '12 at 16:10
    
@DSM, you are correct, so I did so. –  Winston Ewert Jul 4 '12 at 20:11
    
+1 interesting timings –  jamylak Jul 5 '12 at 0:55
    
Unfortunately, the two ways of joining a list of lists that are usually recommended are lacking from this benchmark: list(itertools.chain.from_iterable(x)) and [b for a in x for b in a]. The first one is probably the fastest option. –  Sven Marnach Jul 5 '12 at 14:33
    
@SvenMarnach, added them. However, my results have them both being slower than some of the existing options. –  Winston Ewert Jul 5 '12 at 15:05

As noted by Óscar López, list.extend returns None and thus cannot be used with reduce. Alternatively to the suggested use of the lambda function, you could also use list.__add__ with reduce:

>>> reduce(list.__add__, [[1],[2]], [])
[1, 2]
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You may want to use itertools.chain

Make an iterator that returns elements from the first iterable until it is exhausted, then proceeds to the next iterable, until all of the iterables are exhausted. Used for treating consecutive sequences as a single sequence. Equivalent to:

def chain(*iterables):
    # chain('ABC', 'DEF') --> A B C D E F
    for it in iterables:
        for element in it:
            yield element
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