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A generator expression is throwing off a large number of tuple pairs eg. in list form:

pairs = [(3, 47), (6, 47), (9, 47), (6, 27), (11, 27), (23, 27), (41, 27), (4, 67), (9, 67), (11, 67), (33, 67)]

For each pair in pairs, with key = pair[0] and value = pair[1], I want to feed this stream of pairs into a dictionary to cumulatively add the values for the respective keys. The obvious solution is:

dict_k_v = {}
for pair in pairs:
        dict_k_v[pair[0]] += pair[1]
        dict_k_v[pair[0]] = pair[1]

>>> dict_k_v
{33: 67, 3: 47, 4: 67, 6: 74, 9: 114, 11: 94, 41: 27, 23: 27}

However, could this be achieved with a generator expression or some similar construct that doesn't use a for-loop?


To clarify, the generator expression is throwing off a large number of tuple pairs:

(3, 47), (6, 47), (9, 47), (6, 27), (11, 27), (23, 27), (41, 27), (4, 67), (9, 67), (11, 67), (33, 67) ...

and I want to accumulate each key-value pair into a dictionary (see Paul McGuire's answer) as each pair is being generated. The pairs = list[] statement was unnecessary and sorry about that. For each pair (x,y), x is an integer and y can be an integer or decimal/float.

My generator expression is of the form:

((x,y) for y in something() for x in somethingelse())

and want to accumulate each (x,y) pair into a defaultdict. Hth.

share|improve this question
What is this aversion to for-loops lately? A for-loop wrapped around an accumulation into a defaultdict is the cleanest solution. –  Paul McGuire Feb 15 '12 at 0:38
I just had a long discussion about all the options for pushing into a dict and it turns out that the most efficient way to code this is with if key in dict: / else: (not that you wanted to use a for loop :-) –  tom stratton Feb 15 '12 at 6:20
@PaulMcGuire The prime aversion to for-loops is the likely performance hit when data sets are very large and/or the operation is being performed continuosly. One option is Cython but I like to see if there is a Python solution that uses built-in functions. –  Henry Thornton Feb 15 '12 at 9:38
@pietdelport In his response, Paul McGuire explicitly adds to the question what I had assumed obvious (oops!) ie. "... accept each key-value pair sent to it, and accumulate them all into a defaultdict passed into it". I've added this to the original question. –  Henry Thornton Feb 15 '12 at 9:46

8 Answers 8

up vote 6 down vote accepted

For discussion, here is a simple generator function to give us some data:

from random import randint
def generator1():
    for i in range(10000):
        yield (randint(1,10), randint(1,100))

And here is the basic solution that uses a Python for-loop to consume the generator and tally up counts for each key-value pair

from collections import defaultdict

tally = defaultdict(int)
for k,v in generator1():
    tally[k] += v

for k in sorted(tally):
    print k, tally[k]

Will print something like:

1 49030
2 51963
3 51396
4 49292
5 51908
6 49481
7 49645
8 49149
9 48523
10 50722

But we can create a coroutine that will accept each key-value pair sent to it, and accumulate them all into a defaultdict passed into it:

# define coroutine to update defaultdict for every
# key,value pair sent to it
def tallyAccumulator(t):
        while True:
            k,v = (yield)
            t[k] += v
    except GeneratorExit:

We'll initialize the coroutine with a tally defaultdict, and get it ready to accept values by sending a None value to it:

# init coroutine
tally = defaultdict(int)
c = tallyAccumulator(tally)

We could use a for loop or a list comprehension to send all of the generator values to the coroutine:

for val in generator1():


[c.send(val) for val in generator1()]

But instead, we'll use a zero-sized deque to process all the generator expression's values without creating an unnecessary temporary list of None's:

# create generator expression consumer
from collections import deque
do_all = deque(maxlen=0).extend

# loop thru generator at C speed, instead of Python for-loop speed
do_all(c.send(val) for val in generator1())

Now we look at the values again:

for k in sorted(tally):
    print k, tally[k]

And we get another list similar to the first one:

1 52236
2 49139
3 51848
4 51194
5 51275
6 50012
7 51875
8 46013
9 50955
10 52192

Read more about coroutines at David Beazley's page: http://www.dabeaz.com/coroutines/

share|improve this answer
This answer is well-written, but poorly motivated: using coroutine-style generators doesn't add any value to the solution over using a plain generator consumer. –  Piet Delport Feb 15 '12 at 6:38
@PietDelport - well thanks at least for not downvoting me. I agree that this is extreme overkill for this particular problem, but it seemed like a nice exercise for showing a coroutine demonstration. –  Paul McGuire Feb 15 '12 at 6:56
Got my generator to work with: do_all(c.send((x,y)) for y in something() for x in somethingelse()) with the defaultdict tally containing the accumulated values for the respective keys. –  Henry Thornton Feb 15 '12 at 11:33
Your nested loop will return all pairs of x and y values. If that is really what you want, you can rewrite as for x,y in itertools.product(something(), somethingelse()) If you just want to pair up the values returned by the two functions, use zip instead of product. Note also that somethingelse() gets called y times - not sure if product is smart enough to avoid this or not. –  Paul McGuire Feb 15 '12 at 14:00
@PaulMcGuire Thanks, Paul. Have enough to get going with. Co-incidently, was looking at Beazley's co-routines work just recently and now have a perfect example. Will perform timings between Ignacio's and your solution later. –  Henry Thornton Feb 15 '12 at 15:21

You can use tuple destructuring and a defaultdict to shorten that loop a lot:

from collections import defaultdict
d = defaultdict(int)
for k,v in pairs: d[k] += v

This still uses a for-loop, but you don't have to handle the case where a key hasn't been seen before. I think this is probably the best solution, both readability-wise and performance-wise.

Proof of concept using groupby

That said, you could do it using itertools.groupby, but it's a bit of a hack:

import itertools
dict((k, sum(v for k,v in group)) for k, group 
     in itertools.groupby(sorted(pairs), lambda (k,v): k))

Also, this should actually be less performant than the first approach, because an in-memory list of all the pairs needs to be created for the sorting.

share|improve this answer
Given that the OP states that they are working with "a generator expression" and a "large number" of pairs, I would side with the defaultdict solution over any of the sort+groupby solutions, as the for loop cleanly processes the stream of pairs, summarizing the total into the entries of the defaultdict, and no intermediate in-memory list of the values needs to be created (as is done internally by sorted). –  Paul McGuire Feb 15 '12 at 0:37
@Paul: That's exactly my opinion, but looking back at that answer, it's not absolutely obvious that I consider the solution with a for-loop as much better. –  Niklas B. Feb 15 '12 at 0:39
>>> dict((x[0], sum(y[1] for y in x[1])) for x in itertools.groupby(sorted(pairs, key=operator.itemgetter(0)), key=operator.itemgetter(0)))
{33: 67, 3: 47, 4: 67, 6: 74, 9: 114, 11: 94, 41: 27, 23: 27}
share|improve this answer
Shouldn't sorted be comparing lexicographically by default? –  Niklas B. Feb 15 '12 at 0:07
@Niklas: Sure. But I don't care about the second element so I leave it alone so that it doesn't get in sorted's way. –  Ignacio Vazquez-Abrams Feb 15 '12 at 0:14
That seems fair. –  Niklas B. Feb 15 '12 at 0:16
@IgnacioVazquez-Abrams Your solution is short and sweet, performant and fits in with the rest of my code. Because I asked for a dictionary solution that accumulates the pairs as they are generated, it wouldn't be fair to accept your solution. Sorry! –  Henry Thornton Feb 15 '12 at 15:16

No, you can't do this without using some form of loop. And using a for loop really is the most sensible thing, because you are modifying something in the body of the loop (and not, for example, creating a new iterable or list.) You can, however, simplify the code by using a collections.defaultdict, like so:

import collections
dict_k_v = collections.defaultdict(int)
for k, v in pairs:
    dict_k_v[k] += v
share|improve this answer
You can do this with recursion which isn't a looping structure, but I suppose may be "some" form of looping. That isn't to say you should solve this particular problem with recursion. –  dietbuddha Feb 15 '12 at 0:40

Haskell has a very nice generic helper for this: Data.Map's fromListWith.

fromListWith is similar to Python's dict constructors, but it also accepts an additional combining function to combine repeated keys's values. Translating it to Python:

def dict_fromitems(items, combine):
    d = dict()
    for (k, v) in items:
        if k in d:
            d[k] = combine(d[k], v)
            d[k] = v
    return d

Using this helper, it's easy to express a multitude of combinations:

>>> import operator
>>> dict_fromitems(pairs, combine=operator.add)
{33: 67, 3: 47, 4: 67, 6: 74, 9: 114, 11: 94, 41: 27, 23: 27}

>>> dict_fromitems(pairs, combine=min)
{33: 67, 3: 47, 4: 67, 6: 27, 9: 47, 11: 27, 41: 27, 23: 27}

>>> dict_fromitems(pairs, combine=max)
{33: 67, 3: 47, 4: 67, 6: 47, 9: 67, 11: 67, 41: 27, 23: 27}

>>> dict_fromitems(((k, [v]) for (k, v) in pairs), combine=operator.add)
{33: [67], 3: [47], 4: [67], 6: [47, 27], 9: [47, 67], 11: [27, 67], 41: [27], 2
3: [27]}

Note that unlike the solutions using defaultdict(int), this approach is not limited to numeric values, as demonstrated by the list example above. (In general, any monoid is a useful possibility: sets with union/intersection, booleans with and/or, strings with concatenation, and so on.)


As other comments pointed out, there's nothing wrong with using a loop for this: it's the appropriate low-level solution. However, it's always good if you can wrap the low-level code in a reusable, higher-level abstraction.

share|improve this answer

You can implement a recursive call, however Python is not optimized for tail recursion so you will pay a speed penalty and have the potential for a "recursion to deep" exception.

import operator as o
def dict_sum(pairs, totals={}):
  k, v = pairs.pop()
  o.setitem(sum, k, totals.get(k, 0) + v)
  if not pairs:
    return totals
    return dict_sum(pairs, totals)

I would implement it in a for loop:

import operator as o
for k, v in pairs:
   o.setitem(totals, k, totals.get(k, 0) + v)
share|improve this answer

why wouldn't you want to use a for loop?

pairs = [(3, 47), (6, 47), (9, 47), (6, 27), (11, 27), (23, 27), (41, 27), (4, 67), (9, 67), (11, 67), (33, 67)]
def add(pair):
print result
share|improve this answer

Something like:

dict_k_v = dict(pairs)
share|improve this answer
This wouldn't do the right thing for repeated keys. (Please, don't delete the answer or we'll just get more people suggesting it.) –  Thomas Wouters Feb 15 '12 at 0:00

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