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Is there a pythonic way to check if a list is already sorted in AESC or DESC.


something like listtimestamps.isSorted() that returns True or False.

EDIT: I want to input a list of timestamps for some messages and check if the the transactions appeared in the correct order.

and I can write a custom function too :) , Thanks

EDIT: Thanks for pointing out camel case issues :)

EDIT: Also I am sorry if I wasn't clear I don't need to sort it afterwards, I just need to check if the list is sorted, I am using it to solve a decision problem

share|improve this question
What's the context for this? Why do you need to check? – Daenyth Sep 20 '10 at 20:21
camelCase in Python looks wrong ... – ChristopheD Sep 20 '10 at 23:03

17 Answers 17

up vote 73 down vote accepted

Actually we are not giving the answer anijhaw is looking for. Here is the one liner:

all(l[i] <= l[i+1] for i in xrange(len(l)-1))
share|improve this answer
that's nice. You might want to wrap it in a function so your can pass a key function to use. key=lambda x, y: x < y makes a good default. – aaronasterling Sep 20 '10 at 20:35
I guess you mean l[i] <= l[i+1], right? – EOL Sep 20 '10 at 20:37
yes yes, thanks for the helpful comments. – Wai Yip Tung Sep 20 '10 at 20:40
is this check lazy? – Nikos Ventouras Feb 27 '12 at 14:07
@aaronasterling: operator.le should be faster than the lambda – Marian Oct 23 '12 at 19:47

I would just use

if sorted(lst) == lst:
    # code here

unless it's a very big list in which case you might want to create a custom function.

if you are just going to sort it if it's not sorted, then forget the check and sort it.


and don't think about it too much.

if you want a custom function, you can do something like

def is_sorted(lst, key=lambda x, y: x < y):
    for i, el in enumerate(lst[1:]):
        if key(el, lst[i-1]):
            return False
    return True

This will be O(n) if the list is already sorted though (and O(n) in a for loop at that!) so, unless you expect it to be not sorted (and fairly random) most of the time, I would, again, just sort the list.

share|improve this answer
If that's what you're going to do, you might as well just say: lst.sort() without the conditional check ;-) – SapphireSun Sep 20 '10 at 20:20
thats nlogn right there is a clearly faster way in O(n) using a simple for loop. – anijhaw Sep 20 '10 at 20:22
@SapphireSun. That's what I said ;) – aaronasterling Sep 20 '10 at 20:24
@anijhaw, See the update I made while you were leaving the comment. checking is O(n) and sorting is O(nlgn). is it better to incur an O(n) cost to just turn around and add O(nlgn) or just take the cost of sorting a sorted list wich is (i believe) O(n) for timsort. – aaronasterling Sep 20 '10 at 20:26
@ Aaron:Check the Edit to the original question, – anijhaw Sep 20 '10 at 23:52

This iterator form is 10-15% faster than using integer indexing:

from itertools import izip
isSorted = lambda l : all(a <= b for a,b in izip(l[:-1],l[1:]))
share|improve this answer
I don't see significant difference on my machine The modified #7 variant from @Nathan Farrington's answer is 2x faster… – J.F. Sebastian Jan 17 '11 at 9:06
This will only work for 'indexable' containers like a list, in which case two new lists are created with the slicing. For general iterators, I prefer Alexandre's solution. – Bas Swinckels May 8 at 11:24

A beautiful way to implement this is to use the imap function from itertools:

from itertools import imap, tee
import operator

def is_sorted(iterable, compare=operator.le):
  a, b = tee(iterable)
  next(b, None)
  return all(imap(compare, a, b))

This implementation is fast and works on any iterables.

share|improve this answer
Nice, but buggy! Try on is_sorted(iter([1,2,3,2,5,8])) or an equivalent generator. You need to use an independent iterator for tail, try itertools.tee. – Kos Jun 21 '13 at 8:30
Remember that iter(x) is x for iterators – Kos Jun 21 '13 at 8:31
Ah, that's an unpleasant surprise! I've fixed it now. Thanks! – Alexandre Vassalotti Aug 6 '13 at 0:54

I'd do this (stealing from a lot of answers here [Aaron Sterling, Wai Yip Tung, sorta from Paul McGuire] and mostly Armin Ronacher):

from itertools import tee, izip

def pairwise(iterable):
    a, b = tee(iterable)
    next(b, None)
    return izip(a, b)

def is_sorted(iterable, key=lambda a, b: a <= b):
    return all(key(a, b) for a, b in pairwise(iterable))

One nice thing: you don't have to realize the second iterable for the series (unlike with a list slice).

share|improve this answer
+1 for also working with iterables – Marian Oct 23 '12 at 12:55

SapphireSun is quite right. You can just use lst.sort(). Python's sort implementation (TimSort) check if the list is already sorted. If so sort() will completed in linear time. Sounds like a Pythonic way to ensure a list is sorted ;)

share|improve this answer
Only linear time if the list is, in fact, sorted. If not, there is no short-circuit to skip the actual sorting task, so could be a huge penalty to pay if the list is long. – Paul McGuire Sep 20 '10 at 20:57

I ran a benchmark and sorted(lst, reverse=True) == lst was the fastest for long lists, and all(l[i] >= l[i+1] for i in xrange(len(l)-1)) was the fastest for short lists. These benchmarks were run on a MacBook Pro 2010 13" (Core2 Duo 2.66GHz, 4GB 1067MHz DDR3 RAM, Mac OS X 10.6.5).

UPDATE: I revised the script so that you can run it directly on your own system. The previous version had bugs. Also, I have added both sorted and unsorted inputs.

  • Best for short sorted lists: all(l[i] >= l[i+1] for i in xrange(len(l)-1))
  • Best for long sorted lists: sorted(l, reverse=True) == l
  • Best for short unsorted lists: all(l[i] >= l[i+1] for i in xrange(len(l)-1))
  • Best for long unsorted lists: all(l[i] >= l[i+1] for i in xrange(len(l)-1))

So in most cases there is a clear winner.

UPDATE: aaronsterling's answers (#6 and #7) are actually the fastest in all cases. #7 is the fastest because it doesn't have a layer of indirection to lookup the key.

#!/usr/bin/env python

import itertools
import time

def benchmark(f, *args):
    t1 = time.time()
    for i in xrange(1000000):
    t2 = time.time()
    return t2-t1

L1 = range(4, 0, -1)
L2 = range(100, 0, -1)
L3 = range(0, 4)
L4 = range(0, 100)

# 1.
def isNonIncreasing(l, key=lambda x,y: x >= y): 
    return all(key(l[i],l[i+1]) for i in xrange(len(l)-1))
print benchmark(isNonIncreasing, L1) # 2.47253704071
print benchmark(isNonIncreasing, L2) # 34.5398209095
print benchmark(isNonIncreasing, L3) # 2.1916718483
print benchmark(isNonIncreasing, L4) # 2.19576501846

# 2.
def isNonIncreasing(l):
    return all(l[i] >= l[i+1] for i in xrange(len(l)-1))
print benchmark(isNonIncreasing, L1) # 1.86919999123
print benchmark(isNonIncreasing, L2) # 21.8603689671
print benchmark(isNonIncreasing, L3) # 1.95684289932
print benchmark(isNonIncreasing, L4) # 1.95272517204

# 3.
def isNonIncreasing(l, key=lambda x,y: x >= y): 
    return all(key(a,b) for (a,b) in itertools.izip(l[:-1],l[1:]))
print benchmark(isNonIncreasing, L1) # 2.65468883514
print benchmark(isNonIncreasing, L2) # 29.7504849434
print benchmark(isNonIncreasing, L3) # 2.78062295914
print benchmark(isNonIncreasing, L4) # 3.73436689377

# 4.
def isNonIncreasing(l):
    return all(a >= b for (a,b) in itertools.izip(l[:-1],l[1:]))
print benchmark(isNonIncreasing, L1) # 2.06947803497
print benchmark(isNonIncreasing, L2) # 15.6351969242
print benchmark(isNonIncreasing, L3) # 2.45671010017
print benchmark(isNonIncreasing, L4) # 3.48461818695

# 5.
def isNonIncreasing(l):
    return sorted(l, reverse=True) == l
print benchmark(isNonIncreasing, L1) # 2.01579380035
print benchmark(isNonIncreasing, L2) # 5.44593787193
print benchmark(isNonIncreasing, L3) # 2.01813793182
print benchmark(isNonIncreasing, L4) # 4.97615599632

# 6.
def isNonIncreasing(l, key=lambda x, y: x >= y): 
    for i, el in enumerate(l[1:]):
        if key(el, l[i-1]):
            return False
    return True
print benchmark(isNonIncreasing, L1) # 1.06842684746
print benchmark(isNonIncreasing, L2) # 1.67291283607
print benchmark(isNonIncreasing, L3) # 1.39491200447
print benchmark(isNonIncreasing, L4) # 1.80557894707

# 7.
def isNonIncreasing(l):
    for i, el in enumerate(l[1:]):
        if el >= l[i-1]:
            return False
    return True
print benchmark(isNonIncreasing, L1) # 0.883186101913
print benchmark(isNonIncreasing, L2) # 1.42852401733
print benchmark(isNonIncreasing, L3) # 1.09229516983
print benchmark(isNonIncreasing, L4) # 1.59502696991
share|improve this answer
You're bench mark is testing worst case for the generator expression forms and the best case for my solution. You might want to test against a non-sorted list as well. Then you will see that the, unless you expect the list to be sorted most of the time, the generator expression is better. – aaronasterling Dec 9 '10 at 23:14
@aaronsterling, I have updated the script to have both sorted and unsorted inputs. – Nathan Farrington Dec 9 '10 at 23:41
All functions with enumerate are incorrect. enumerate(l[1:]) should be replaced by enumerate(l[1:], 1) – J.F. Sebastian Jan 17 '11 at 8:04
If you fix this error than the 5th variant is clear leader. – J.F. Sebastian Jan 17 '11 at 8:15
instead of replacing enumerate(l[1:]) by enumerate(l[1:], 1) you could replace l[i-1] by l[i]. – J.F. Sebastian Jan 17 '11 at 8:28

Although I don't think there is a guarantee for that the sorted built-in calls its cmp function with i+1, i, it does seem to do so for CPython.

So you could do something like:

def my_cmp(x, y):
   cmpval = cmp(x, y)
   if cmpval < 0:
      raise ValueError
   return cmpval

def is_sorted(lst):
      sorted(lst, cmp=my_cmp)
      return True
   except ValueError:
      return False

print is_sorted([1,2,3,5,6,7])
print is_sorted([1,2,5,3,6,7])

Or this way (without if statements -> EAFP gone wrong? ;-) ):

def my_cmp(x, y):
   assert(x >= y)
   return -1

def is_sorted(lst):
      sorted(lst, cmp=my_cmp)
      return True
   except AssertionError:
      return False
share|improve this answer

Not very Pythonic at all, but we need at least one reduce() answer, right?

def is_sorted(iterable):
    prev_or_inf = lambda prev, i: i if prev <= i else float('inf')
    return reduce(prev_or_inf, iterable, float('-inf')) < float('inf')

The accumulator variable simply stores that last-checked value, and if any value is smaller than the previous value, the accumulator is set to infinity (and thus will still be infinity at the end, since the 'previous value' will always be bigger than the current one).

share|improve this answer

I use this one-liner based on numpy.diff():

def issorted(x):
    """Check if x is sorted"""
    return (numpy.diff(x) >= 0).all() # is diff between all consecutive entries >= 0?

I haven't really timed it against any other method, but I assume it's faster than any pure Python method, especially for large n, since the loop in numpy.diff (probably) runs directly in C (n-1 subtractions followed by n-1 comparisons).

However, you need to be careful if x is an unsigned int, which might cause silent integer underflow in numpy.diff(), resulting in a false positive. Here's a modified version:

def issorted(x):
    """Check if x is sorted"""
        if x.dtype.kind == 'u':
            # x is unsigned int array, risk of int underflow in np.diff
            x = numpy.int64(x)
    except AttributeError:
        pass # no dtype, not an array
    return (numpy.diff(x) >= 0).all()
share|improve this answer

As noted by @aaronsterling the following solution is the shortest and seems fastest when the array is sorted and not too small: def is_sorted(lst): return (sorted(lst) == lst)

If most of the time the array is not sorted, it would be desirable to use a solution that does not scan the entire array and returns False as soon as an unsorted prefix is discovered. Following is the fastest solution I could find, it is not particularly elegant:

def is_sorted(lst):
    it = iter(lst)
        prev =
    except StopIteration:
        return True
    for x in it:
        if prev > x:
            return False
        prev = x
    return True

Using Nathan Farrington's benchmark, this achieves better runtime than using sorted(lst) in all cases except when running on the large sorted list.

Here are the benchmark results on my computer.

sorted(lst)==lst solution

  • L1: 1.23838591576
  • L2: 4.19063091278
  • L3: 1.17996287346
  • L4: 4.68399500847

Second solution:

  • L1: 0.81095790863
  • L2: 0.802397012711
  • L3: 1.06135106087
  • L4: 8.82761001587
share|improve this answer
Thanks for the data. – anijhaw May 29 '12 at 16:22

This is similar to the top answer, but I like it better because it avoids explicit indexing. Assuming your list has the name lst, you can generate
(item, next_item) tuples from your list with zip:

all(x <= y for x,y in zip(lst, lst[1:]))

In Python 3, zip already returns a generator, in Python 2 you can use itertools.izip for better memory efficiency.

Small demo:

>>> lst = [1, 2, 3, 4]
>>> zip(lst, lst[1:])
[(1, 2), (2, 3), (3, 4)]
>>> all(x <= y for x,y in zip(lst, lst[1:]))
>>> lst = [1, 2, 3, 2]
>>> zip(lst, lst[1:])
[(1, 2), (2, 3), (3, 2)]
>>> all(x <= y for x,y in zip(lst, lst[1:]))

The last one fails when the tuple (3, 2) is evaluated.

Bonus: checking finite (!) generators which cannot be indexed:

>>> def gen1():
...     yield 1
...     yield 2
...     yield 3
...     yield 4
>>> def gen2():
...     yield 1
...     yield 2
...     yield 4
...     yield 3
>>> g1_1 = gen1()
>>> g1_2 = gen1()
>>> next(g1_2)
>>> all(x <= y for x,y in zip(g1_1, g1_2))
>>> g2_1 = gen2()
>>> g2_2 = gen2()
>>> next(g2_2)
>>> all(x <= y for x,y in zip(g2_1, g2_2))

Make sure to use itertools.izip here if you are using Python 2, otherwise you would defeat the purpose of not having to create lists from the generators.

share|improve this answer

This is in fact the shortest way to do it using recursion:

if it's Sorted will print True else will print out False

 def is_Sorted(lst):
    if len(lst) == 1:
       return True
    return lst[0] <= lst[1] and is_Sorted(lst[1:])

 any_list = [1,2,3,4]
 print is_Sorted(any_list)
share|improve this answer
Note that this will raise RuntimeError: maximum recursion depth exceeded for long lists. Try any_list = range(1000). – timgeb Feb 19 at 0:28


def is_sorted(l):
    l2 = iter(l)
    return all(a <= b for a, b in zip(l, l2))
share|improve this answer

here other simple way:

l = [1,2,3,9,8,7] 

l_sorted = list(l)
l_sorted.sort()  # or .sort(reverse=True) if you want descending order

if l == l_sorted:
    # do something
    # do something
share|improve this answer

Definitely works in Python 3 and above for integers or strings:

def tail(t):
    return t[:]

letters = ['a', 'b', 'c', 'd', 'e']
rest = tail(letters)
if letters == rest:
    print ('Given list is SORTED.')
    print ('List NOT Sorted.')


Another way of finding if the given list is sorted or not

trees1 = list ([1, 4, 5, 3, 2])
trees2 = list (trees1)
if trees1 == trees2:
    print ('trees1 is SORTED')
    print ('Not sorted')
share|improve this answer

Here's an other way with eval and chained comparison from python :

isSorted = eval("<".join([str(v) for v in a]))

EDIT : Limitations :

This way is actually more a funny way to use chained comparison because there's a lot of problems :

  • For a=[x] it returns x
  • For big arrays, it raises a SystemError (com_backpatch: offset too large) (cf. here)
share|improve this answer
Should be "<=" instead of "<". How well does this work if a = range(int(1e7))? – Paul McGuire Sep 21 '10 at 15:29
@Paul McGuire : answer edited with limitations – ThR37 Sep 21 '10 at 15:46
You could do len(a)<=1 or eval(etc...) to explicitly handle the degenerate 0- and 1-length cases. – Paul McGuire Sep 21 '10 at 17:41
You could also double negate to get rid of the single element problem: not not eval(blah) – AkiRoss Oct 30 '15 at 23:21

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