Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free.

EDIT: I am working on an performance sensitive case, which need to calculate sum or max of data with user defined checkpoints. Please refer to the demo code:

from itertools import izip
checkpoints=[1,3,5,7,..]#user defined

def processdata(timestamp, checkpoints, data, processtype):
    tmp=[0 if t=='sum' else None for t in processtype]
    for x, d in izip(timestamp,izip(*data)):
        tmp =[tmp[i]+d[i] if t=='sum' else
              d[i] if (t=='snapshot'
                   or (tmp[i] is None)
                   or (t=='max' and tmp[i]<d[i])
                   or (t=='min' and tmp[i]>d[i])) else
              tmp[i] for (i,t) in enumerate(processtype)]
        if x>checher:
            yield (checher,tmp)
            tmp=[0 if t=='sum' else None for t in processtype]

Original demo for benchmark:

def speratedsum(iter, condition):
    for x in iter:
        if condition(x):
            yield tmp

EDIT: thank to @M4rtini and @Chronial I ran banchmark on the following testing code:

from timeit import timeit

condition=lambda x: x % 100 == 0

def speratedsum(it, condition):
    for x in it:
        if condition(x):
            yield tmp+x

def test1():
    return list(speratedsum(it,condition))

def red_func2(acc, x):
    if condition(x):
        return (acc[0], 0)
        return (acc[0], acc[1] + x)

def test2():
    return reduce(red_func2, it,([], 0))[0]

def red_func3(l, x):
    if condition(x):
        l[-1] += x
        l[-1] += x
    return l

def test3():
    return reduce(red_func3, it, [0])[:-1]

import itertools
def test4():
    groups = itertools.groupby(it, lambda x: (x-1) / 100)
    return map(lambda g: sum(g[1]), groups)

import numpy as np
import numba
def jitfun(arr,con):    
    for i in range(length):        
    return out

conditionlist=[x for x in it if condition(x)]
a=np.array(it, int)
def test5():
    return list(jitfun(a,c))
test5() #warm up for JIT


print "test1:",test1()==test1(),time1/time1
print "test2:",test1()==test2(),time1/time2
print "test3:",test1()==test3(),time1/time3
print "test4:",test1()==test4(),time1/time4
print "test5:",test1()==test5(),time1/time5


test1: True 1.0
test2: True 0.369117307201
test3: True 0.496470798051
test4: True 0.833137283359
test5: True 34.1052257366

Do you have any suggestion on where I should seek? Thanks!

EDIT: I managed to use the numba solution with callback to replace yield and it is the least effort solution that really works here. So accepted @M4rtini's answer. However be careful with the numba's limitations. With my 2 days try, numba can enhance numpy array index iterations performance but nothing more.

share|improve this question
If you value performance over readability, Python is not the best choice of language. –  BrenBarn Dec 27 '13 at 4:47
whenever x % 100 == 0, you reset the tmp = 0, is that a condition that you are looking for ? –  sapam Dec 27 '13 at 4:55
You need to show more of your code, this part is not where your bottleneck is, if this actually takes .7 seconds to run. This code ran at under 1ms for me. –  M4rtini Dec 27 '13 at 4:55
Convert to numpy array, do Bolean indexing with your conditional, sum the result. –  M4rtini Dec 27 '13 at 5:02
Wont that code you're timing simply give the generator object? –  M4rtini Dec 27 '13 at 5:34

5 Answers 5

up vote 1 down vote accepted
import numba
def speratedsum2():
    s = 0
    for x in xrange(10000):
        if x % 100 == 0:
            s += tmp
    return s

In [140]: %timeit sum([x for x in speratedsum1()])
1000 loops, best of 3: 625 µs per loop

In [142]: %timeit speratedsum2()
10000 loops, best of 3: 113 µs per loop
share|improve this answer
I tried numba, it has shown dramatic improvements, should be good choice for research purpose. However considering numba packages dependence and currently not support generator(yield), it is not good choice for my current situation. I was confused by the python performance reputation, and was doubting the slower processing speed compare to C# is because I don't have good understanding of python. –  Keep Thinking Dec 28 '13 at 4:32
Based on the updated demo case, could the numpy offer similar performance as numba do? –  Keep Thinking Dec 28 '13 at 13:56

You seem pretty sure that this is the slow part of your program, but the standard advice is to write for readability, and then modify as needed for performance if necessary - after profiling.

Here's a page I wrote some time ago about making Python faster: http://stromberg.dnsalias.org/~dstromberg/speeding-python/

If you aren't using any 3rd party C extension modules, Pypy might be a great option for you. If you are using 3rd party C extension modules, look into numba and/or Cython.

share|improve this answer

Just to have it done, here is an implementation using reduce (should have horrible performance though) :)

res = reduce(lambda acc, x:
            (acc[0] + [acc[1]], 0) if condition(x) else
            (acc[0], acc[1] + x),
            ([], 0))[0]

This should be a lot faster, but I isn’t as “clean” since it mutates the accumulation list.

def red_func(l, x):
    if condition(x):
        l[-1] = l[-1] + x
    return l
res = reduce(red_func, iter, [0])[:-1]
share|improve this answer
Thanks! Still digesting. –  Keep Thinking Dec 27 '13 at 5:32
using l(lower L) as variable is bad habit :D –  Keep Thinking Dec 27 '13 at 8:45
run time compare with fair condition:[original: 0.29] [reduce with tuple(list,int): 0.78] [reduce with list: 0.67] –  Keep Thinking Dec 27 '13 at 9:02
I guess the list operations is the reason why loop in python slower than list comprehension, map and reduce. They are just designed to avoid list append, index. –  Keep Thinking Dec 27 '13 at 9:38
In other words, the loop in python is not slow, but the list operation is. –  Keep Thinking Dec 27 '13 at 9:44

Here is a solution using itertools.groupby and itertools.imap:

iter = xrange(0, 10000)
groups = itertools.groupby(iter, lambda x: x / 100)
sums = itertools.imap(lambda g: sum(list(g[1])[1:]), groups)

Note that it produces a slightly different result; there won't be a leading zero in the resulting list and it will produce one extra group since you don't yield the last group.

share|improve this answer
Thanks for the groupby method, and sorry for my bad condition example. With my updated condition example, I found it difficult to implement something similar to "lambda x: x / 100". –  Keep Thinking Dec 27 '13 at 6:52

Your original version can be solved with a groupby:

for key, group in itertools.groupby(iter, condition):
    if not key:
        yield sum(group)

this assumes that condition returns either True or False or some other set of two possibilities. If it can return 0, 1, 2, 3, or something similar, you'll want to convert the return to a bool first

for key, group in itertools.groupby(iter, lambda x: bool(condition(x))):

groupby will group items that have the same key in sequence into a single group. Here, we're grouping together continuous sets of items that are False under the condition, then yielding the sum of the group.

This does miss the case where two items in a row are True under the condition in which case your original version yields 0.

share|improve this answer
good point, but please check my runtime benchmark in updated question. –  Keep Thinking Dec 29 '13 at 2:31

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.