# Trying to speed up some code I wrote: python

So I wrote the following code, to yield pairs of partitions that yield characteristics that are useful to me, and I'm in the process of attempting to parallelize a program that stems from the output of these.

Note: r and n are nearly arbitrary, but they tend to range from 2 to 16.

``````from itertools import combinations_with_replacement

def conjugate(p1):
p = list(p1)
if p == []:
return p1
else:
l = len(p)
conj =  [l]*p[-1]
for i in xrange(l-1,0,-1):
conj.extend([i]*(p[i-1] - p[i]))
return conj

def dominates(p1,p2):
sum1 = 0
sum2 = 0
min_length = min(len(p1), len(p2))
if min_length == 0:
return len(p1) >= len(p2)

for i in range(min_length):
sum1 += p1[i]
sum2 += p2[i]
if sum2 > sum1:
return False
return bool(sum(p1) >= sum(p2))

def partition_lists(r,n):
half = n*r/2
combDict = {}
for a in range(half,n*r+1):
combDict[a] = []
for a in combinations_with_replacement(range(0,n+1),r):
if sum(a) >= half:
combDict[sum(a)].append(list(reversed(a)))
for key,item in combDict.iteritems():
for i in range(len(item)):
for j in range(len(item)):
rp = [2*n - 2*a for a in item[i]]
cp = [2*n - 2*a for a in item[j]]
rpN = filter(lambda a: a != 0, reversed(rp))
cpN = filter(lambda a: a != 0, reversed(cp))
if dominates(conjugate(rpN),cpN):
yield item[i],item[j]
``````

The first two functions are solid, but are used in the last one. The last function generates row and column sums of what I am calling a "heavy" matrix, and based on these values, I calculate row and column sums for a "light" matrix (rp,cp), and then test dominance to see if a light matrix is feasible, where a light matrix is just 0s, and 1s, of half the weight of the heavy matrix. The problem is that I generate a lot of data and through out around half of it when I get down to the dominating and conjugating functions. Is there a way to somehow get this done faster, or cut out unnecessary data sooner? Also is there a way to parallelize another function that will run more processes on the output from partition_lists?

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Could you explain the context in which you're using this code? What is a heavy and light matrix. What exactly are you trying to do with them? What field is this? It's possible with more context we can help. –  wflynny Jun 27 '13 at 17:21