# Min and Max of a List in Python (without using min/max function)

I was wondering if there is a way to find min & max of a list without using min/max functions in Python. So i wrote a small code for the same using recursion. My logic is very naive: I make two stacks (min_stack and max_stack) which keep track of minimum and maximum during each recursive call. I have two questions:

1. Could somebody help me estimate the complexity of my code?
2. Is there a better way to do this? Will sorting the list using mergesort/quicksort and picking up first and last element give a better performance?

Thank you

Here is my attempt in Python:

``````minimum = []
maximum = []

# Defining Stack Class
class Stack:
def __init__(self) :
self.items = []

def push(self, item) :
self.items.append(item)

def pop(self) :
return self.items.pop()

def access(self, index):
return self.items[index]

def isEmpty(self) :
return (self.items == [])

def length(self):
return len(self.items)

def minmax(input_list):
# make two stacks, one for min and one for max
min_stack = Stack()
max_stack = Stack()
# comparing the first two elements of the list and putting them in appropriate stack
if input_list[0]<input_list[1]:
min_stack.push(input_list[0])
max_stack.push(input_list[1])
else:
max_stack.push(input_list[0])
min_stack.push(input_list[1])

# Pushing remaining elements of the list into appropriate stacks.
for i in range(2, len(input_list)):
if input_list[i] < min_stack.access(-1):
min_stack.push(input_list[i])
else:
max_stack.push(input_list[i])

# to find minimum
minlist = []
while min_stack.length() > 0:
minlist.append(min_stack.pop())

# to find maximum
maxlist = []
while max_stack.length() > 0:
maxlist.append(max_stack.pop())

if len(minlist) > 1:
minmax(minlist)
else:
minimum.append(minlist)

if len(maxlist) > 1:
minmax(maxlist)
else:
maximum.append(maxlist)

def main():
input_list = [2, 0, 2, 7, 5, -1, -2]
print 'Input List is: ', input_list
minmax(input_list)

print 'Global Minimum is: ', minimum[0]
print 'Global Maximum is: ', maximum[len(maximum)-1]

if __name__ == "__main__":
main()
``````
-
wow... That seems really overly complex ... –  mgilson Mar 1 '13 at 0:46
I would assume using sorted and taking the 0 and -1 indexes will be faster ... and much more readable `a = sorted(my_list);min,max=a[0],a[-1];` If I was an interviewer and asked this question ... the canidate who handed in what you have would not get the job... –  Joran Beasley Mar 1 '13 at 0:46
@mgilson: yeah...its complex because I was asked to implement it using Stacks as a way of exercise. –  Prakhar Mehrotra Mar 1 '13 at 0:47
ahh if you were explicitly asked to use stacks then maybe ... (although im not sure why anyone would want that ...) –  Joran Beasley Mar 1 '13 at 0:48
@JoranBeasley: I am not sure if sorting is the best way to do this. But thanks for the comment. –  Prakhar Mehrotra Mar 1 '13 at 0:49

Using `sorted()` would, of course, be reliable, quick to write, and high performance for moderate-sized lists because it is built-in. For large lists, an O(n) algorithm would be faster e.g.:

``````def minmax1 (x):
# this function fails if the list length is 0
minimum = maximum = x[0]
for i in x[1:]:
if i < minimum:
minimum = i
else:
if i > maximum: maximum = i
return (minimum,maximum)

print(minmax1([9,8,7,6,5,4,3,2,1,11,12,13,14,15,16,17,18,19]))
print(minmax1([1]))
print(minmax1([2, 0, 2, 7, 5, -1, -2]))
``````

... for which the output is:

``````(1, 19)
(1, 1)
(-2, 7)
``````

I was interested to check the performance of the two alternatives. On my PC running Windows XP and Python 3.2.3, I found that the sorting approach is faster than the `minmax1()` function defined above for lists of fewer than 500 elements but, for longer lists, the O(n) `minmax1()` is faster. My timing test code was as follows:

``````def minmax_sort(x):
x = sorted(x)
return (x[0],x[-1])

import timeit

aa = list(range(0,100))
a = aa
while (1):
stime = min(timeit.repeat('minmax_sort(a)', "from __main__ import minmax_sort,a",number=1000))
mtime = min(timeit.repeat('minmax1(a)', "from __main__ import minmax,a",number=1000))
if (stime > mtime):
break
else:
a = a + aa
print(len(a))
``````
-
Thank you for comparing the two methods. I guess my method of using recursion and stacks is complicated and overdone for such a problem. –  Prakhar Mehrotra Mar 1 '13 at 5:56
Note that using `return min(x),max(x)` starts to be the fastest method on lists with 300 elements or more with your example lists and with random lists. –  CJlano Oct 4 '13 at 20:25