# How to calculate a number representing the lowest possible weight difference

Input data: A list of the weights.

Output data: A number representing the lowest possible weight difference.

for exmaple:

``````assert checkio([10, 10]) == 0, "1st example"
assert checkio([10]) == 10, "2nd example"
assert checkio([5, 8, 13, 27, 14]) == 3, "3rd example"
assert checkio([5, 5, 6, 5]) == 1, "4th example"
assert checkio([12, 30, 30, 32, 42, 49]) == 9, "5th example"
assert checkio([1, 1, 1, 3]) == 0, "6th example"
``````

that is my code:

``````import random
def checkio(data):
for i in range(1,k):
half_sum = (reduce（lambda x,y:x+y,data）)/2
k = len(data)
return min(lambda a:a >= half_sum,map(sum(random.sample(data,i))))
``````

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A function shouldn't be the first argument to `min`. –  Lev Levitsky Jun 29 '13 at 14:33
Do you mean the lowest possible difference of two weights? –  arshajii Jun 29 '13 at 14:39
@LevLevitsky thanks! i'm trying to fix it.. –  cedrichu Jun 29 '13 at 14:40
@arshajii no ,maybe three weights or more.for example:checkio([5, 8, 13, 27, 14]) == 3, "3rd example" the answer is 27+8-13-14-5 = 3 –  cedrichu Jun 29 '13 at 14:43
Ok, but not all of the weights have to be used? –  arshajii Jun 29 '13 at 14:45

Heh... looks you're cheating on http://www.checkio.org/ :)

Anyway, here is the (working) solution is submited there:

``````def checkio(stones):
def subcheckio(stones, left, rite):
if len(stones) == 0:
return abs(left - rite)

scores = []
nstones = stones[1:]
scores.append(subcheckio(nstones, left + stones[0], rite))
scores.append(subcheckio(nstones, left, rite + stones[0]))

return min(scores)

return subcheckio(stones, 0, 0)
``````

Ok, because your question was about fixing your code, here's another version based on what you posted:

``````import itertools

def checkio(data):
s = reduce(lambda x,y:x+y,data) # s is the sum, you don't need a loop
half_sum = s / 2

# instead of random.sample, using itertools to find all possible combinations
# of all possibles lenghts
perms = []
for i in range(len(data) + 1):
p = itertools.combinations(data, i)
perms += p

# min of a list comprehension to find the minimal sum >= half_sum
m = min([a for a in map(sum, perms) if a >= half_sum])
# that's the sum of "what's left", members of the list no in the choosen sum
n = s - m
# we want the difference between the two
return abs(n - m)
``````
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Aha I'm trying to fix my answer –  cedrichu Jun 29 '13 at 15:03
many thanks! it's really cool –  cedrichu Jun 29 '13 at 16:11
:) ok,i will. your idea is better than mine –  cedrichu Jun 29 '13 at 16:49