# Quicksort with Python

I am totally new to python and I am trying to implement quicksort in it. Could someone please help me complete my code?

I do not know how to concatenate the three arrays and print them.

def sort(array=[12,4,5,6,7,3,1,15]):
less = []
equal = []
greater = []

if len(array) > 1:
pivot = array[0]
for x in array:
if x < pivot:
less.append(x)
if x == pivot:
equal.append(x)
if x > pivot:
greater.append(x)
sort(less)
sort(pivot)
sort(greater)
• To combine lists you can use plus operator my_list = list1 + list2 + .... Or unpack lists to new list my_list = [*list1, *list2] Jan 5, 2020 at 8:40
• Quicksort is meant to be an in-place algorithm, which you code is not at all. Not counting that the append operation is not necessarily performed in constant time. Nov 22, 2021 at 14:39

Probably just a preference thing, but I like to add validation to the top of my functions.

def quicksort(arr):
if len(arr) <= 1:
return arr

left  = []
right = []
equal = []
pivot = arr[-1]
for num in arr:
if num < pivot:
left.append(num)
elif num == pivot:
equal.append(num)
else:
right.append(num)

return quicksort(left) + equal + quicksort(right)

Instead of taking three different arrays for less equal greater and then concatenating all try the traditional concept(partitioning method):

this is without using any inbuilt function.

partitioning function -

def partitn(alist, left, right):
i=left
j=right
mid=(left+right)/2

pivot=alist[mid]
while i <= j:
while alist[i] < pivot:
i=i+1

while alist[j] > pivot:
j=j-1

if i <= j:
temp = alist[i]
alist[i] = alist[j]
alist[j] = temp
i = i + 1
j = j - 1
• Welcome to Stack Overflow. It's recommended that you include code in your answer, as links may become broken over time. Sep 16, 2015 at 12:11
• Welcome to Stack Overflow. In python, it is a good idiom to exchange objects without introducing a tepmorary name in one line like so: alist[i], alist[j] = alist[j], alist[i] Oct 21, 2015 at 17:48

I will do quicksort using numpy library. I think it is really usefull library. They already implemented the quick sort method but you can implment also your custom method.

import numpy
array = [3,4,8,1,2,13,28,11,99,76] #The array what we want to sort

indexes = numpy.argsort( array , None, 'quicksort', None)
index_list = list(indexes)

temp_array = []

for index in index_list:
temp_array.append( array[index])

array = temp_array

print array #it will show sorted array
def quick_sort(list):
if len(list) ==0:
return []

return  quick_sort(filter( lambda item: item < list[0],list)) + [v for v in list if v==list[0] ]  +  quick_sort( filter( lambda item: item > list[0], list))

inlace sort

def qsort(a, b=0, e=None):
# partitioning
def part(a, start, end):
p = start
for i in xrange(start+1, end):
if a[i] < a[p]:
a[i], a[p+1] = a[p+1], a[i]
a[p+1], a[p] = a[p], a[p+1]
p += 1
return p

if e is None:
e = len(a)
if e-b <= 1: return

p = part(a, b, e)
qsort(a, b, p)
qsort(a, p+1, e)

without recursion:

deq = collections.deque()
deq.append((b, e))
while len(deq):
el = deq.pop()
if el[1] - el[0] > 1:
p = part(a, el[0], el[1])
deq.append((el[0], p))
deq.append((p+1, el[1]))
• please provide some explaination or background information instead of just the plain code Sep 3, 2015 at 10:14
• It's pretty simple. We choose any element, first for example. And than divide list on two parts (left part with less than selected element and right is greater). Repeat this operation with left and right part and so on. Sep 3, 2015 at 10:20
def quicksort(items):
if not len(items) > 1:
return items
items, pivot = partition(items)
return quicksort(items[:pivot]) + [items[pivot]] + quicksort(items[pivot + 1:])

def partition(items):
i = 1
pivot = 0
for j in range(1, len(items)):
if items[j] <= items[pivot]:
items[i], items[j] = items[j], items[i]
i += 1
items[i - 1], items[pivot] = items[pivot], items[i - 1]
return items, i - 1
• While this code snippet may answer the question, it doesn't provide any context to explain how or why. Consider adding a sentence or two to explain your answer. Oct 7, 2016 at 3:21