# Multi-threading in python with loop

I'm trying to solve problem 8 in project euler with multi-threading technique in python.

Find the greatest product of five consecutive digits in the 1000-digit number. The number can be found here.

My approach is to generate product from chunks of 5 from the original list and repeat this process 5 times, each with the starting index shifted one to the right.

``````class pThread(threading.Thread):
def __init__(self, l):
self.l = l
self.p = 0

def run(self):

def greatest_product(l):
"""
Divide the list into chunks of 5 and find the greatest product
"""
def product(seq):
return reduce(lambda x,y : x*y, seq)

def chunk_product(l, n=5):
for i in range(0, len(l), n):
yield product(l[i:i+n])

result = 0
for p in chunk_product(num):
result = result > p and result or p

return result

self.p = greatest_product(self.l)
``````

When I try to create 5 threads to cover all 5-digit chunks in my original list, the manual approach below gives the correct answer, with `num` being the list of single-digit numbers that I parse from the text:

``````thread1 = pThread(num)
del num[0]
del num[0]
del num[0]
del num[0]

def max(*args):
result = 0
for i in args:
result = i > result and i or result
return result

``````

But this doesn't give the correct result:

``````threads = []
for i in range(0, 4):
tmp = num[:]
del tmp[0:i+1]

for i in range(0, 4):
``````

What did I do wrong here? I'm very new to multithreading so please be gentle.

-
Tips: rewrite your code without using del, it will be much easier to understand why it didn't work, and why your original code also isn't correct. Also, given the GIL, this code is unlikely to be run any faster than a single threaded version. –  Lie Ryan Feb 15 '13 at 1:37
I've rewritten the code without del, and yeah, it breaks both versions. I'll study it again later today. Thank you for your suggestion. –  Lim H. Feb 15 '13 at 1:47
threading this is seriously overkill. you can do it in 1 line with `max(reduce(op.mul, n_list[i:i+5]) for i in xrange(1000))` –  wim Feb 15 '13 at 2:08
Thank you for the one-liner. Still, I'd like to know why deleting an element in a list gives a different result than passing a slice from the same list. But yeah, thanks to @LieRyan now I think it has nothing to do with thread. –  Lim H. Feb 15 '13 at 2:30
On a side note if you're trying to make it threaded to use more than 1 core on a multicore cpu, you want to use the multiprocessing module, not threading. –  Jason White Feb 15 '13 at 2:55
show 1 more comment

There are 3 problems:

1. The first is that the "manual" approach does not give the correct answer. It just happens that the correct answer to the problem is at the offset 4 from the start of your list. You can see this by using:

``````import operator as op
print max(reduce(op.mul, num[i:i+5]) for i in range(1000))
for k in range(5):
print max(reduce(op.mul, num[i:i+5]) for i in range(k, 1000, 5))
``````

One problem with your "manual" approach is that the threads share the `num` variable, each has the same list. So when you do `del num[0]`, all `threadX.l` are affected. The fact that you consistently get the same answer is due to the second problem.

2. The line

``````for p in chunk_product(num):
``````

should be:

``````for p in chunk_product(l):
``````

since you want to use the parameter of function `greatest_product(l)` and not the global variable `num`.

3. In the second method you only spawn 4 threads since the loops range over `[0, 1, 2, 3]`. Also, you want to delete the values `tmp[0:i]` and not `tmp[0:i+1]`. Here is the code:

``````threads = []
for i in range(5):
tmp = num[:]
del tmp[0:i]

for i in range(5):

``````
-
@JasonWhite That is the intended functionality, since each thread loops over the list with a different offset. In your example (with 2 threads), thread 1 will compute products for [1,2] [3,4] [5,6] [7,8] [9,10] and thread 2 will compute products for [2,3] [4,5] [6,7] [8,9]. This is because thread 2 has self.l = [2,3,4,5,6,7,8,9,10]. I think that this is what the OP wanted to implement. –  wasserfeder Feb 15 '13 at 8:16
Ah I see what you're saying. Deleted my previous comment as I read it wrong ;P –  Jason White Feb 15 '13 at 8:26
THANK YOU SOOOOOO MUCH. Do you happen to know how to award bounty? I really want to give you 100 rep for your answer. –  Lim H. Feb 15 '13 at 14:31

I took a stab at this mainly to get some practice multiprocessing, and to learn how to use argparse.

This took around 4-5 gigs of ram just in case your machine doesn't have a lot.

``````python euler.py -l 50000000 -n 100 -p 8

Took 5.836833333969116 minutes
The largest product of 100 consecutive numbers is: a very large number
``````

If you type python euler.py -h at the commandline you get:

``````usage: euler.py [-h] -l L [L ...] -n N [-p P]

Calculates the product of consecutive numbers and return the largest product.

optional arguments:
-h, --help    show this help message and exit
-l L [L ...]  A single number or list of numbers, where each # is seperated
by a space
-n N          A number that specifies how many consecutive numbers should be
multiplied together.
-p P          Number of processes to create. Optional, defaults to the # of
cores on the pc.
``````

And the code:

``````"""A multiprocess iplementation for calculation the maximum product of N consecutive
numbers in a given range (list of numbers)."""

import multiprocessing
import math
import time
import operator
from functools import reduce
import argparse

def euler8(alist,lenNums):
"""Returns the largest product of N consecutive numbers in a given range"""
return max(reduce(operator.mul, alist[i:i+lenNums]) for i in range(len(alist)))

"""Split a list into N parts where N is the # of processes."""
fullLength = len(listOfNumbers)
results = {}
counter = 0
temp = listOfNumbers[single*counter::]
if counter == 0:
results[str(counter)] = listOfNumbers[single*counter::]
else:
prevListIndex = results[str(counter-1)][-int('{}'.format(numLength-1))::]
newlist = prevListIndex + temp
results[str(counter)] = newlist
else:
temp = listOfNumbers[single*counter:single*(counter+1)]
if counter == 0:
newlist = temp
else:
prevListIndex = results[str(counter-1)][-int('{}'.format(numLength-1))::]
newlist = prevListIndex + temp
results[str(counter)] = newlist
counter += 1

def worker(listNumbers,number,output):
"""A worker. Used to run seperate processes and put the results in the queue"""
result = euler8(listNumbers,number)
output.put(result)

def main(listOfNums,lengthNumbers,numCores=multiprocessing.cpu_count()):
"""Runs the module.
listOfNums must be a list of ints, or single int
lengthNumbers is N (an int) where N is the # of consecutive numbers to multiply together
numCores (an int) defaults to however many the cpu has, can specify a number if you choose."""

if isinstance(listOfNums,list):
if len(listOfNums) == 1:
valuesToSplit = [i for i in range(int(listOfNums[0]))]
else:
valuesToSplit = [int(i) for i in listOfNums]
elif isinstance(listOfNums,int):
valuesToSplit = [i for i in range(listOfNums)]
else:
print('First arg must be a number or a list of numbers')

split = split_list_multi(valuesToSplit,lengthNumbers,numCores)
done_queue = multiprocessing.Queue()
jobs = []
startTime = time.time()

for num in range(split[1]):
numChunks = split[0][str(num)]

resultlist = []
for i in range(split[1]):
resultlist.append(done_queue.get())

for j in jobs:
j.join()

resultlist = max(resultlist)
endTime = time.time()
totalTime = (endTime-startTime)/60
print("Took {} minutes".format(totalTime))

return print("The largest product of {} consecutive numbers is: {}".format(lengthNumbers, resultlist))

if __name__ == '__main__':
#To call the module from the commandline with arguments
parser = argparse.ArgumentParser(description="""Calculates the product of consecutive numbers \
and return the largest product.""")