I need a function which takes in a list and outputs True if all elements in the input list evaluate as equal to each other using the standard equality operator and False otherwise.

I feel it would be best to iterate through the list comparing adjacent elements and then AND all the resulting Boolean values. But I'm not sure what's the most Pythonic way to do that.

  • 6
    Equal as in a == b or identical as in a is b?
    – kennytm
    Oct 2, 2010 at 7:35
  • 1
    Should the solution handle empty lists? If so, what should be returned?
    – Doug
    Oct 2, 2010 at 7:43
  • 2
    Equal as in a == b. Should handle empty list, and return True.
    – max
    Oct 2, 2010 at 8:21
  • 6
    Although I know it's slower than some of the other recommendations, I'm surprised functools.reduce(operator.eq, a) hasn't been suggested. Apr 5, 2020 at 21:55
  • 4
    @ user2846495 functools.reduce(operator.eq, a) would not work. for example with the list [True, False, False], it would return ((True == False) == False) which is True. Whereas the function should return False (because the elements are not all equal)
    – tbrugere
    Apr 19, 2021 at 15:40

34 Answers 34


Use itertools.groupby (see the itertools recipes):

from itertools import groupby

def all_equal(iterable):
    g = groupby(iterable)
    return next(g, True) and not next(g, False)

or without groupby:

def all_equal(iterator):
    iterator = iter(iterator)
        first = next(iterator)
    except StopIteration:
        return True
    return all(first == x for x in iterator)

There are a number of alternative one-liners you might consider:

  1. Converting the input to a set and checking that it only has one or zero (in case the input is empty) items

    def all_equal2(iterator):
        return len(set(iterator)) <= 1
  2. Comparing against the input list without the first item

    def all_equal3(lst):
        return lst[:-1] == lst[1:]
  3. Counting how many times the first item appears in the list

    def all_equal_ivo(lst):
        return not lst or lst.count(lst[0]) == len(lst)
  4. Comparing against a list of the first element repeated

    def all_equal_6502(lst):
        return not lst or [lst[0]]*len(lst) == lst

But they have some downsides, namely:

  1. all_equal and all_equal2 can use any iterators, but the others must take a sequence input, typically concrete containers like a list or tuple.
  2. all_equal and all_equal3 stop as soon as a difference is found (what is called "short circuit"), whereas all the alternatives require iterating over the entire list, even if you can tell that the answer is False just by looking at the first two elements.
  3. In all_equal2 the content must be hashable. A list of lists will raise a TypeError for example.
  4. all_equal2 (in the worst case) and all_equal_6502 create a copy of the list, meaning you need to use double the memory.

On Python 3.9, using perfplot, we get these timings (lower Runtime [s] is better):

for a list with a difference in the first two elements, groupby is fastestfor a list with no differences, count(l[0]) is fastest

  • 4
    Don't forget memory usage analysis for very large arrays, a native solution which optimizes away calls to obj.__eq__ when lhs is rhs, and out-of-order optimizations to allow short circuiting sorted lists more quickly. Oct 2, 2010 at 8:31
  • 4
    In case the intuition on checkEqual3 wasn't immediately obvious to anyone else: all items are the same if first == second and second == third and ...
    – teichert
    May 19, 2020 at 17:16
  • This is brilliantly fast. Clever approach too. Helpful suggestion for those implementing with pytest, you should return the result before asserting True/False. (Wrap this function in another.) Dec 20, 2020 at 17:43
  • 2
    @Boris: What is the code for these charts?
    – ChaimG
    Jan 27, 2021 at 5:51
  • 5
    @ChaimG if you click on "Edit", the code is hidden in a comment in the text of the answer.
    – user3064538
    Jan 27, 2021 at 12:10

A solution faster than using set() that works on sequences (not iterables) is to simply count the first element. This assumes the list is non-empty (but that's trivial to check, and decide yourself what the outcome should be on an empty list)

x.count(x[0]) == len(x)

some simple benchmarks:

>>> timeit.timeit('len(set(s1))<=1', 's1=[1]*5000', number=10000)
>>> timeit.timeit('len(set(s1))<=1', 's1=[1]*4999+[2]', number=10000)
>>> timeit.timeit('s1.count(s1[0])==len(s1)', 's1=[1]*5000', number=10000)
>>> timeit.timeit('s1.count(s1[0])==len(s1)', 's1=[1]*4999+[2]', number=10000)
  • 8
    OMG, this is 6 times faster than the set solution! (280 million elements/sec vs 45 million elements/sec on my laptop). Why??? And is there any way to modify it so that it short circuits (I guess not...)
    – max
    Oct 2, 2010 at 9:18
  • 3
    I guess list.count has a highly optimized C implementation, and the length of the list is stored internally, so len() is cheap as well. There's not a way to short-circuit count() since you will need to really check all elements to get the correct count. Oct 2, 2010 at 10:01
  • Can I change it to: x.count(next(x)) == len(x) so that it works for any container x? Ahh.. nm, just saw that .count is only available for sequences.. Why isn't it implemented for other builtin containers? Is counting inside a dictionary inherently less meaningful than inside a list?
    – max
    Oct 5, 2010 at 5:09
  • 5
    An iterator may not have a length. E.g. it can be infinite or just dynamically generated. You can only find its length by converting it to a list which takes away most of the iterators advantages Oct 5, 2010 at 5:51
  • Sorry, what I meant was why count isn't implemented for iterables, not why len isn't available for iterators. The answer is probably that it's just an oversight. But it's irrelavant for us because default .count() for sequences is very slow (pure python). The reason your solution is so fast is that it relies on the C-implemented count provided by list. So I suppose whichever iterable happens to implement count method in C will benefit from your approach.
    – max
    Mar 12, 2016 at 3:36

[edit: This answer addresses the currently top-voted itertools.groupby (which is a good answer) answer later on.]

Without rewriting the program, the most asymptotically performant and most readable way is as follows:

all(x==myList[0] for x in myList)

(Yes, this even works with the empty list! This is because this is one of the few cases where python has lazy semantics.)

This will fail at the earliest possible time, so it is asymptotically optimal (expected time is approximately O(#uniques) rather than O(N), but worst-case time still O(N)). This is assuming you have not seen the data before...

(If you care about performance but not that much about performance, you can just do the usual standard optimizations first, like hoisting the myList[0] constant out of the loop and adding clunky logic for the edge case, though this is something the python compiler might eventually learn how to do and thus one should not do it unless absolutely necessary, as it destroys readability for minimal gain.)

If you care slightly more about performance, this is twice as fast as above but a bit more verbose:

def allEqual(iterable):
    iterator = iter(iterable)
        firstItem = next(iterator)
    except StopIteration:
        return True
    for x in iterator:
        if x!=firstItem:
            return False
    return True

If you care even more about performance (but not enough to rewrite your program), use the currently top-voted itertools.groupby answer, which is twice as fast as allEqual because it is probably optimized C code. (According to the docs, it should (similar to this answer) not have any memory overhead because the lazy generator is never evaluated into a list... which one might be worried about, but the pseudocode shows that the grouped 'lists' are actually lazy generators.)

If you care even more about performance read on...

sidenotes regarding performance, because the other answers are talking about it for some unknown reason:

... if you have seen the data before and are likely using a collection data structure of some sort, and you really care about performance, you can get .isAllEqual() for free O(1) by augmenting your structure with a Counter that is updated with every insert/delete/etc. operation and just checking if it's of the form {something:someCount} i.e. len(counter.keys())==1; alternatively you can keep a Counter on the side in a separate variable. This is provably better than anything else up to constant factor. Perhaps you can also use python's FFI with ctypes with your chosen method, and perhaps with a heuristic (like if it's a sequence with getitem, then checking first element, last element, then elements in-order).

Of course, there's something to be said for readability.

  • 5
    max: Likely because I did not bother to perform the optimization first=myList[0] all(x==first for x in myList), perhaps
    – ninjagecko
    Nov 17, 2015 at 12:48
  • 3
    I should of course clarify that the optimization first=myList[0] will throw an IndexError on an empty list, so commenters who were talking about that optimization I mentioned will have to deal with the edge-case of an empty list. However the original is fine (x==myList[0] is fine within the all because it is never evaluated if the list is empty).
    – ninjagecko
    Jan 13, 2016 at 10:45
  • 1
    This is clearly the right way to to it. If you want speed in every case, use something like numpy. May 6, 2016 at 16:14
  • 1
    @KellyBundy Please stop replying to every comment I make on these posts. You clearly don't have enough experience with Python to understand the points being made so I don't know why you are insistent on replying to every comment I make. It is fragile for several reasons. Firstly it is not obvious what it is doing, it is not readable. Secondly it takes 10 lines to achieve what can be achieved in a single line. Like many of the other answers posted here it's just not a good solution in any way. The only purpose this serves is to obscure the good answers. Feb 20 at 9:46
  • 1
    @FreelanceConsultant It's absolutely not "none". You have to implement the functionality somehow. And comparing all values to the first is the most natural choice. It's what you'd do in real life, too. If I said I'll show you a sequence of colors and you shall tell me if they're all equal, and the first color I show you is red, you'd set your mind to "red" and just check whether all remaining colors are also red, wouldn't you? Also, index 0 is guaranteed to exist when you want to do a comparison. "What this code does is instead ask the question"? Nonsense. It answers a question. Feb 26 at 12:59

Convert your input into a set:

len(set(the_list)) <= 1

Using set removes all duplicate elements. <= 1 is so that it correctly returns True when the input is empty.

This requires that all the elements in your input are hashable. You'll get a TypeError if you pass in a list of lists for example.

  • Why should an empty list be True instead of False. It will depend on what the client wants. In my particular case, yes, I also happen to want True for an empty input. But this is specific to my current problem. Feb 17 at 22:33
  • 1
    @FreelanceConsultant Because that's the standard. See Vacuous truth and note that for example Python's all([]) is also True, for that reason. And if someone does want to deviate from the standard, they can simply use == 1. Feb 18 at 1:51
  • @KellyBundy I'm not talking about that. I am making the point that since you don't know what the calling client wants you cannot know in advance which is 'correct' from the client point of view Feb 18 at 17:12

You can convert the list to a set. A set cannot have duplicates. So if all the elements in the original list are identical, the set will have just one element.

if len(set(input_list)) == 1:
    # input_list has all identical elements.
  • 1
    this is nice but it doesn't short circuit and you have to calculate the length of the resulting list. Oct 2, 2010 at 7:44
  • @AaronMcSmooth: Still a noob in py. Don't even know what a short circut in py means :)
    – codaddict
    Oct 2, 2010 at 7:55
  • 5
    @codaddict. It means that even if the first two elements are distinct, it will still complete the entire search. it also uses O(k) extra space where k is the number of distinct elements in the list. Oct 2, 2010 at 7:58
  • 1
    @max. because building the set happens in C and you have a bad implementation. You should at least do it in a generator expression. See KennyTM's answer for how to do it correctly without using a set. Oct 2, 2010 at 8:20
  • 3
    This returns False if your list is empty, when it should return True. It also requires all your elements to be hashable.
    – user3064538
    Nov 1, 2020 at 17:23

For what it's worth, this came up on the python-ideas mailing list recently. It turns out that there is an itertools recipe for doing this already:1

def all_equal(iterable):
    "Returns True if all the elements are equal to each other"
    g = groupby(iterable)
    return next(g, True) and not next(g, False)

Supposedly it performs very nicely and has a few nice properties.

  1. Short-circuits: It will stop consuming items from the iterable as soon as it finds the first non-equal item.
  2. Doesn't require items to be hashable.
  3. It is lazy and only requires O(1) additional memory to do the check.

1In other words, I can't take the credit for coming up with the solution -- nor can I take credit for even finding it.

  • 1
    return next(g, f := next(g, g)) == f (from py3.8 of course) Apr 26, 2020 at 10:41
  • To make this work with pd.NA, just add an exception handler. Jan 25, 2023 at 17:56
  • This recipe is slightly flawed and wasteful in that next(g, True) always returns True and consequently the expression doesn't short-circuit immediately when the given iterable is empty. It can be made more efficient with return not (next(g, False) and next(g, False)) instead.
    – blhsing
    Feb 20 at 3:30

This is a simple way of doing it:

result = mylist and all(mylist[0] == elem for elem in mylist)

This is slightly more complicated, it incurs function call overhead, but the semantics are more clearly spelled out:

def all_identical(seq):
    if not seq:
        # empty list is False.
        return False
    first = seq[0]
    return all(first == elem for elem in seq)
  • You can avoid a redundant comparison here by using for elem in mylist[1:]. Doubt it improves speed much though since I guess elem[0] is elem[0] so the interpreter can probably do that comparison very quickly.
    – Brendan
    Jan 5, 2017 at 15:58
  • Shouldn't an empty list be True? Why manually invert the True/False value, when this is answering a different question to a different problem. Feb 17 at 22:27

This is another option, faster than len(set(x))==1 for long lists (uses short circuit)

def constantList(x):
    return x[:1]*len(x) == x
  • It is 3 times slower than the set solution on my computer, ignoring short circuit. So if the unequal element is found on average in the first third of the list, it's faster on average.
    – max
    Oct 2, 2010 at 9:21
  • And uses double the memory? Feb 17 at 22:26
  • 1
    @FreelanceConsultant: not really... temporarily allocates O(n) memory but the allocated list will just be of n pointers to the same element x[0]. Note that even say a floating point number takes a huge amount of memory in Python (compared to say C++ is about 3x) and list elements are 8 bytes (they're just pointers). The reason for the speed is that both loops (the one initializing lists elements and the one doing the comparison) are running in C and not as python code (and python code is really, really, REALLY slow compared to C).
    – 6502
    Feb 18 at 6:47
  • So it uses double the memory Feb 18 at 17:02
  • 1
    @FreelanceConsultant: no... it uses 8*n bytes of memory that is normally a lot less of what a list wtith n elements takes (it's just the list overhead, without the elements). If you still can't understand it, I'm sorry but it's probably a topic too complex for you. The count approach is faster if the answer is true as the loop is also in C but there's no need for the memory allocation, however is not short circuiting. As usual YMMV.
    – 6502
    Feb 18 at 21:12

Check if all elements equal to the first.

np.allclose(array, array[0])

  • 1
    Needs third party module.
    – Bachsau
    Feb 27, 2019 at 21:39
  • Also only works for a few specific types, and it's slow because of the transform of data to numpy array Feb 17 at 22:25

Best Answer

There was a nice Twitter thread on the various ways to implement an all_equal() function.

Given a list input, the best submission was:

 t.count(t[0]) == len(t)  

Other Approaches

Here is are the results from the thread:

  1. Have groupby() compare adjacent entries. This has an early-out for a mismatch, does not use extra memory, and it runs at C speed.

    g = itertools.groupby(s)
    next(g, True) and not next(g, False)
  2. Compare two slices offset from one another by one position. This uses extra memory but runs at C speed.

    s[1:] == s[:-1]
  3. Iterator version of slice comparison. It runs at C speed and does not use extra memory; however, the eq calls are expensive.

    all(map(operator.eq, s, itertools.islice(s, 1, None)))
  4. Compare the lowest and highest values. This runs at C speed, doesn't use extra memory, but does cost two inequality tests per datum.

    min(s) == max(s)  # s must be non-empty
  5. Build a set. This runs at C speed and uses little extra memory but requires hashability and does not have an early-out.

  6. At great cost, this handles NaNs and other objects with exotic equality relations.

    all(itertools.starmap(eq, itertools.product(s, repeat=2)))
  7. Pull out the first element and compare all the others to it, stopping at the first mismatch. Only disadvantage is that this doesn't run at C speed.

     it = iter(s)
     a = next(it, None)
     return all(a == b for b in it)
  8. Just count the first element. This is fast, simple, elegant. It runs at C speed, requires no additional memory, uses only equality tests, and makes only a single pass over the data.

      t.count(t[0]) == len(t)
  • About 12x faster alternative for the product check: min(map(s.count, s)) == len(s) May 10, 2022 at 3:03
  • The only good answer here is 3 which still has problems because it depends on the arbitrary index manipulation Feb 17 at 22:25

Doubt this is the "most Pythonic", but something like:

>>> falseList = [1,2,3,4]
>>> trueList = [1, 1, 1]
>>> def testList(list):
...   for item in list[1:]:
...     if item != list[0]:
...       return False
...   return True
>>> testList(falseList)
>>> testList(trueList)

would do the trick.

  • 2
    Your for loop can be made more Pythonic into if any(item != list[0] for item in list[1:]): return False, with exactly the same semantics.
    – musiphil
    Aug 18, 2016 at 20:59
  • This really isn't great because it relies on hoisting the arbitrary value list[0] out of the enclosing scope Feb 17 at 22:23
>>> a = [1, 2, 3, 4, 5, 6]
>>> z = [(a[x], a[x+1]) for x in range(0, len(a)-1)]
>>> z
[(1, 2), (2, 3), (3, 4), (4, 5), (5, 6)]
# Replacing it with the test
>>> z = [(a[x] == a[x+1]) for x in range(0, len(a)-1)]
>>> z
[False, False, False, False, False]
>>> if False in z : Print "All elements are not equal"
  • This has some issues: Hard to understand what is going on due to somewhat arbitrary index manipulation with range. Also not lazy evaluated. If you wrap the creation of the pairs in a function which yields and the apply any() in place of the final step, it would be a lot better Feb 17 at 22:17
def allTheSame(i):
    j = itertools.groupby(i)
    for k in j: break
    for k in j: return False
    return True

Works in Python 2.4, which doesn't have "all".

  • 1
    for k in j: break is equivalent to next(j). You could also have done def allTheSame(x): return len(list(itertools.groupby(x))<2) if you did not care about efficiency.
    – ninjagecko
    Apr 23, 2012 at 17:06

I'd do:

all((x[i] == x[i+1] for i in range(0, len(x)-1)))

as all stops searching the iterable as soon as it finds a True condition.

  • You don't need the extra parentheses around the generator expression if it's the only argument.
    – ninjagecko
    Apr 23, 2012 at 17:02
  • 1
    so does all(), why not use all(x == seq[0] for x in seq) ? looks more pythonic and should perform the same
    – Chen A.
    Sep 4, 2017 at 7:36
  • Reasonable, but relies on this awful arbitrary index manipulation Feb 17 at 22:21
  • 1
    @FreelanceConsultant Please don't break answers, at least adjust the text to the changed code. Feb 18 at 2:50
  • 1
    @FreelanceConsultant Because the code uses all but the text talks about any. Makes no sense. Btw, someone else might've had posted the all solution already and this answer might've intentionally showcased any, consciously avoiding duplicating the other answer. If that's the case (I'm not in the mood to research it), such a change is also bad for that reason. Feb 18 at 17:19

Or use diff method of numpy:

import numpy as np
def allthesame(l):
    return np.all(np.diff(l)==0)

And to call:



  • I think not np.any(np.diff(l)) could be a bit faster.
    – GZ0
    Sep 5, 2019 at 22:39
  • This depends on numpy and so will not work for the majority of types Feb 17 at 22:14

Regarding using reduce() with lambda. Here is a working code that I personally think is way nicer than some of the other answers.

reduce(lambda x, y: (x[1]==y, y), [2, 2, 2], (True, 2))

Returns a tuple where the first value is the boolean if all items are same or not.

  • 1
    There is a small mistake in the code as written (try [1, 2, 2]): it doesn't take the previous boolean value into account. This can be fixed by replacing x[1] == y with x[0] and x[1] == y.
    – schot
    Mar 2, 2020 at 8:52
  • It's not totally horrendous like some of these others - at least in principle, but I have no clue what the final part of the line is about, so I suspect it is wrong. Do you really need the arbitrary starting condition? (True, 2). Also why does the initial condition have a 2 in it at all? Feb 17 at 22:19

I ended up with this one-liner

from itertools import starmap, pairwise
all(starmap(eq, (pairwise(x)))

More versions using itertools.groupby that I find clearer than the original (more about that below):

def all_equal(iterable):
    g = groupby(iterable)
    return not any(g) or not any(g)

def all_equal(iterable):
    g = groupby(iterable)
    next(g, None)
    return not next(g, False)

def all_equal(iterable):
    g = groupby(iterable)
    return not next(g, False) or not next(g, False)

Here's the original from the Itertools Recipes again:

def all_equal(iterable):
    g = groupby(iterable)
    return next(g, True) and not next(g, False)

Note that the next(g, True) is always true (it's either a non-empty tuple or True). That means its value doesn't matter. It's executed purely for advancing the groupby iterator. But including it in the return expression leads the reader into thinking that its value gets used there. Since it doesn't, I find that misleading and unnecessarily complicated. My second version above treats the next(g, True) as what it's actually used for, as a statement whose value we don't care about.

My third version goes a different direction and does use the value of the first next(g, False). If there isn't even a first group at all (i.e., if the given iterable is "empty"), then that solution returns the result right away and doesn't even check whether there's a second group.

My first solution is basically the same as my third, just using any. Both solutions read as "All elements are equal iff ... there is no first group or there is no second group."

Benchmark results (although speed is really not my point here, clarity is, and in practice if there are many equal values, most of the time might be spent by the groupby itself, reducing the impact of these differences here):

Python 3.10.4 on my Windows laptop:

iterable = ()
 914 ns   914 ns   916 ns  use_first_any
 917 ns   925 ns   925 ns  use_first_next
1074 ns  1075 ns  1075 ns  next_as_statement
1081 ns  1083 ns  1084 ns  original

iterable = (1,)
1290 ns  1290 ns  1291 ns  next_as_statement
1303 ns  1307 ns  1307 ns  use_first_next
1306 ns  1307 ns  1309 ns  use_first_any
1318 ns  1319 ns  1320 ns  original

iterable = (1, 2)
1463 ns  1464 ns  1467 ns  use_first_any
1463 ns  1463 ns  1467 ns  next_as_statement
1477 ns  1479 ns  1481 ns  use_first_next
1487 ns  1489 ns  1492 ns  original
Python 3.10.4 on a Debian Google Compute Engine instance:

iterable = ()
 234 ns   234 ns   234 ns  use_first_any
 234 ns   235 ns   235 ns  use_first_next
 264 ns   264 ns   264 ns  next_as_statement
 265 ns   265 ns   265 ns  original

iterable = (1,)
 308 ns   308 ns   308 ns  next_as_statement
 315 ns   315 ns   315 ns  original
 316 ns   316 ns   317 ns  use_first_any
 317 ns   317 ns   317 ns  use_first_next

iterable = (1, 2)
 361 ns   361 ns   361 ns  next_as_statement
 367 ns   367 ns   367 ns  original
 384 ns   385 ns   385 ns  use_first_next
 386 ns   387 ns   387 ns  use_first_any

Benchmark code:

from timeit import timeit
from random import shuffle
from bisect import insort
from itertools import groupby

def original(iterable):
    g = groupby(iterable)
    return next(g, True) and not next(g, False)

def use_first_any(iterable):
    g = groupby(iterable)
    return not any(g) or not any(g)

def next_as_statement(iterable):
    g = groupby(iterable)
    next(g, None)
    return not next(g, False)

def use_first_next(iterable):
    g = groupby(iterable)
    return not next(g, False) or not next(g, False)

funcs = [original, use_first_any, next_as_statement, use_first_next]

for iterable in (), (1,), (1, 2):
    print(f'{iterable = }')
    times = {func: [] for func in funcs}
    for _ in range(1000):
        for func in funcs:
            number = 1000
            t = timeit(lambda: func(iterable), number=number) / number
            insort(times[func], t)
    for func in sorted(funcs, key=times.get):
        print(*('%4d ns ' % round(t * 1e9) for t in times[func][:3]), func.__name__)
  • To make all_equal work with pd.NA, just add an exception handler. Jan 25, 2023 at 17:59
  • groupby is presumably going to do some form of sort first? In which case, why? Feb 17 at 22:09
  • @FreelanceConsultant No. Why presume that? Does its documentation somehow suggest that? Feb 18 at 0:17
  • @KellyBundy How else would groupby order unordered elements. I haven't looked into detail as to what algorithm is being used, but what I do know is any work being done by groupby is unnecessary Feb 18 at 17:07
  • 1
    @FreelanceConsultant It shouldn't surprise. The groupby iterator directly reads and compares the elements. In that other solution, pairwise reads the elements and creates 2-tuples of them, transmits those to starmap, which asks eq to compare them, which replies accordingly, and then starmap transmits the comparison results to all, which does its thing. That's a lot of overhead for each element. Should be expected to be slower. The "If you want speed, don't use Python" sentiment is inappropriate. You might want Python for what it does well, and just not want it unnecessarily slow. Feb 25 at 19:11

You can do:

reduce(and_, (x==yourList[0] for x in yourList), True)

It is fairly annoying that python makes you import the operators like operator.and_. As of python3, you will need to also import functools.reduce.

(You should not use this method because it will not break if it finds non-equal values, but will continue examining the entire list. It is just included here as an answer for completeness.)

lambda lst: reduce(lambda a,b:(b,b==a[0] and a[1]), lst, (lst[0], True))[1]

The next one will short short circuit:

all(itertools.imap(lambda i:yourlist[i]==yourlist[i+1], xrange(len(yourlist)-1)))
  • Your first code was obviously wrong: reduce(lambda a,b:a==b, [2,2,2]) yields False... I edited it, but this way it's not pretty anymore
    – berdario
    Mar 27, 2014 at 9:41
  • Does anyone understand how this is supposed to work? I looked at it for about a minute. The fact that I couldn't understand what it was supposed to be doing when I could read all of the other answers in a fraction of the time indicates this is not a good solution. Code smell Feb 17 at 22:13
  • @FreelanceConsultant Yes, I understand them :-). Pretty easy, though yes, the first one is relatively complicated (and no good). Feb 18 at 3:24

Can use map and lambda

lst = [1,1,1,1,1,1,1,1,1]

print all(map(lambda x: x == lst[0], lst[1:]))
  • Is comparison slower than slicing (== slower than 1:)? all(map(lambda x: x == lst[0], lst))
    – greybeard
    Jan 15, 2022 at 21:06
  • This is really not great because you have a weird dependency on lst[0]. You are basically hoisting that value out of the enclosing scope. Feb 17 at 22:12

Or use diff method of numpy:

import numpy as np
def allthesame(l):
    return np.unique(l).shape[0]<=1

And to call:




  • 2
    This answer is identical to an answer from U9-Forward from last year.
    – mhwombat
    Feb 28, 2019 at 11:34
  • Good eye! I used the same structure/API, but my method uses np.unique and shape. U9's function uses np.all() and np.diff() -- I don't use either of those functions.
    – Luis B
    Mar 2, 2019 at 5:59
  • There are many issues with this: It depends on numpy, requires extra work to transform the data into a numpy array, and will only work for specific sets of types. (Numerical things) Feb 17 at 22:11

The simple solution is to apply set on list

if all elements are identical len will be 1 else greater than 1

lst = [1,1,1,1,1,1,1,1,1]
len_lst = len(list(set(lst)))



lst = [1,2,1,1,1,1,1,1,1]
len_lst = len(list(set(lst)))

  • How is your answer different from stackoverflow.com/a/23415761
    – user3064538
    Apr 28, 2021 at 16:54
  • This only works for hashable types. It is relatively easy to add a hash function to arbitrary types but this extra requirement isn't ideal. Also set is not lazy evaluated, so likely inefficient for large datasets Feb 17 at 22:10

I suggest a simple pythonic solution:

def all_equal_in_iterable(iterable: Iterable):
    iterable = list(iterable)
    if not iterable:
        return True
    return all(item == iterable[0] for item in iterable)

They're all equal if there aren't two groups.

from itertools import groupby, pairwise

def all_equal(iterable):
    return not any(pairwise(groupby(iterable)))

Attempt This Online!


If you're interested in something a little more readable (but of course not as efficient,) you could try:

def compare_lists(list1, list2):
    if len(list1) != len(list2): # Weed out unequal length lists.
        return False
    for item in list1:
        if item not in list2:
            return False
    return True

a_list_1 = ['apple', 'orange', 'grape', 'pear']
a_list_2 = ['pear', 'orange', 'grape', 'apple']

b_list_1 = ['apple', 'orange', 'grape', 'pear']
b_list_2 = ['apple', 'orange', 'banana', 'pear']

c_list_1 = ['apple', 'orange', 'grape']
c_list_2 = ['grape', 'orange']

print compare_lists(a_list_1, a_list_2) # Returns True
print compare_lists(b_list_1, b_list_2) # Returns False
print compare_lists(c_list_1, c_list_2) # Returns False
  • 1
    I'm actually trying to see if all elements in one list are identical; not if two separate lists are identical.
    – max
    Jun 5, 2012 at 22:22
  • 1
    This is also enormously inefficient; for an input of length N it takes N^2 steps.**At the very least**, if the values are hashable, use a set for the containment tests.
    – Martijn Pieters
    Nov 15, 2020 at 20:43
  • I don't agree that this is "readable". It is very hard to understand what is going on here. You check that items in list1 are in list2 but do not do the reverse operation. So the logic is actually wrong anyway Feb 17 at 22:15

You can use .nunique() to find number of unique items in a list.

def identical_elements(list):
    series = pd.Series(list)
    if series.nunique() == 1: identical = True
    else:  identical = False
    return identical

identical_elements(['a', 'a'])
Out[427]: True

identical_elements(['a', 'b'])
Out[428]: False

There is also a pure Python recursive option:

def checkEqual(lst):
    if len(lst)==2 :
        return lst[0]==lst[1]
        return lst[0]==lst[1] and checkEqual(lst[1:])

However for some reason it is in some cases two orders of magnitude slower than other options. Coming from C language mentality, I expected this to be faster, but it is not!

The other disadvantage is that there is recursion limit in Python which needs to be adjusted in this case. For example using this.

  • Recursive solutions blow up even for modest size inputs Feb 17 at 22:10
  • @FreelanceConsultant , thanks for your feedback, and I'm sorry if my answer does not meet your expectations. Please consider that this was never meant to be an optimum solution. I just added this for the completeness of the discussion. I have even admitted that this solution might be several orders of magnitude slower. Feb 19 at 10:23
  • You are not the first person to do this (obviously, as you can see there are many other answers which serve no purpose other than to suggest an alternative way of doing things.) Why? What is the point of this? It just obscures the better answers by filling the answers section with pages of "spam". The point of this site is not to demonstrate every possible way of doing something but to provide (ideally just one) good solution(s). If an answer has been posted, and you think of a better solution, then of course, you should post it. But posting things which are obviously worse - why? Feb 20 at 9:20
  • @FreelanceConsultant I don't think we share the definition of spam, nor do we agree about the function of this website. SO's business model is based on advertisement, and the more complete the keyword pool on this page, the more visits it gets. From the user's point of view, it is not just the best solution that benefits the visitors, IMHO, but also the less optimal ones. It induces discussion, as we see right now, and encourages critical thinking... anyway thanks for sharing your opinion, and I wish you the best. Feb 20 at 9:52

Maybe I'm underestimating the problem? Check the length of unique values in the list.

lzt = [1,1,1,1,1,2]

if (len(set(lzt)) > 1):
    uniform = False
elif (len(set(lzt)) == 1):
    uniform = True
elif (not lzt):
    raise ValueError("List empty, get wrecked")
  • I wouldn't be afraid of empty lists… can you say that no (zero count) (non)values are different to each other?
    – mykhal
    Jun 26, 2021 at 13:46
  • 1
    Do you have an example?
    – Kermit
    Jun 26, 2021 at 13:48

This was a fun one to read through and think about. Thanks everyone! I don't think anything relying on pure count will be reliable for all cases. Also sum could work but only for numbers or length (again resulting in a count scenario).

But I do like the simplicity, so this is what I came up with:

all(i==lst[c-1] for c, i in enumerate(lst))

Alternatively, I do think this clever one by @kennytm would also work for all cases (and is probably the fastest, interestingly). So I concede that it's probably better than mine:

[lst[0]]*len(lst) == lst

A little bonus clever one I think would also work because set gets rid of duplicates (and clever is fun but not generally best practice for maintaining code). And I think the one by @kennytm would still be faster but really only relevant for large lists:

len(set(lst)) == 1

But the simplicity and cleverness of Python is one of my favorite things about the language. And thinking about it a little more, if you have to modify the list in anyway, like I actually do because I'm comparing addresses (and will remove leading/trailing spaces and convert to lower case to remove possible inconsistencies, mine would be more suited for the job). So "better" is subjective as I eluded to by using quotes when I use that word! But you could also cleanup the list beforehand.

Best and good luck!

  • Good catch, I glanced at the command and obviously hadn't thought it through all the way.. It splits the list and then reverses to compare (I had only saw the reverse). So it might work for all cases, I'm not sure? But I just removed it until I can test some use cases. But the logic is also hard to follow for large cases, so I'm not sure I'd use it anyways. Thanks!
    – jacktrader
    Jan 16, 2022 at 18:39
  • -1. These deliberations do not add much to, for example, @ninjagecko's answer from way back in 2012: all(x==myList[0] for x in myList). The top proposed solution here is similar but less performant and harder to comprehend. Mar 6, 2022 at 18:01

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