To learn a little more about processes in python I decided to implement quicksort using multiple processes. It seems to work fine on lists with fewer than ~21K elements but anything larger (say 25K elements) it just hangs.

I tried the `import sys; sys.setrecursionlimit(2**30)`

trick to no avail. Is this simply because python doesn't like really deep recursions? Interestingly, the same algorithm works fine as a single process on a ~50k elements.

```
import random, multiprocessing, time
DESIRED_PROC_DEPTH = 2
proc_depth = 1 #start at one to count the parent process that kicks this all off
def main():
import sys; sys.setrecursionlimit(2**30)
num_elements = 20000
list_of_numbers = [random.randint(0,num_elements) for num in range(num_elements)]
# print list_of_numbers
simple_start = time.time()
simple_sorted = simple_qs(list_of_numbers)
simple_total_time = time.time() - simple_start
print "Using a single thread we sorted " + str(num_elements) + " elements in " + str(simple_total_time) + " seconds"
the_q = multiprocessing.Queue()
sorter = MTQuickSort(list_of_numbers, the_q)
start = time.time()
sorter.start()
sorter.join()
mt_total_time = time.time() - start
sorted_list = the_q.get()
# print sorted_list
print "Sorted " + str(num_elements) + " elements in " + str(mt_total_time) + " seconds"
class MTQuickSort(multiprocessing.Process):
def __init__(self, list_to_sort, queue):
super(MTQuickSort, self).__init__()
print self.name
self.queue = queue
self.list = list_to_sort
def run(self):
self.queue.put(self.quicksort(self.list))
def quicksort(self, list):
global proc_depth
global DESIRED_PROC_DEPTH
if len(list) is 0:
# base case is that list is empty
return []
else:
pivot = list[0]
less = [x for x in list[1:] if x <= pivot]
greater = [x for x in list[1:] if x > pivot]
if proc_depth < DESIRED_PROC_DEPTH:
proc_depth += 1
# We create threads in blocks of two since we partition the list into two parts
lessor_q = multiprocessing.Queue()
greater_q = multiprocessing.Queue()
qs_process1 = MTQuickSort(less, lessor_q)
qs_process2 = MTQuickSort(greater, greater_q)
qs_process1.start()
qs_process2.start()
qs_process1.join()
qs_process2.join()
return lessor_q.get() + [pivot] + greater_q.get()
else:
less_than_pivot = self.quicksort(less)
greater_than_pivot = self.quicksort(greater)
return less_than_pivot + [pivot] + greater_than_pivot
def simple_qs(list):
if len(list) is 0:
# base case is that list is empty
return []
else:
pivot = list[0]
return simple_qs([x for x in list[1:] if x <= pivot]) + [pivot] + simple_qs([x for x in list[1:] if x > pivot])
if __name__ == '__main__':
main()
```