I have this tail recursive function here:

def recursive_function(n, sum):
    if n < 1:
        return sum
        return recursive_function(n-1, sum+n)

c = 998
print(recursive_function(c, 0))

It works up to n=997, then it just breaks and spits out a RecursionError: maximum recursion depth exceeded in comparison. Is this just a stack overflow? Is there a way to get around it?

  • 4
    See also stackoverflow.com/questions/5061582/… Apr 28, 2014 at 19:09
  • 21
    memoization could speed up your function and increase its effective recursive depth by making previously calculated values terminate instead of increasing the stack size.
    – Cyoce
    Jan 11, 2016 at 18:47
  • 6
    The recursion limit is usually 1000.
    – user3064538
    Apr 24, 2019 at 7:29
  • 6
    @tonix the interpreter adds a stack frame (the line <n>, in <module> in stack traces) and this code takes 2 stack frames for n=1 (because the base case is n < 1, so for n=1 it still recurses). And I guess the recursion limit is not inclusive, as in it's "error when you hit 1000" not "error if you exceed 1000 (1001)". 997 + 2 is less than 1000 so it works 998 + 2 doesn't because it hits the limit.
    – user3064538
    Dec 15, 2019 at 19:00
  • 6
    @tonix no. recursive_function(997) works, it breaks at 998. When you call recursive_function(998) it uses 999 stack frames and 1 frame is added by the interpreter (because your code is always run as if it's part of top level module), which makes it hit the 1000 limit.
    – user3064538
    Dec 15, 2019 at 19:49

19 Answers 19


It is a guard against a stack overflow, yes. Python (or rather, the CPython implementation) doesn't optimize tail recursion, and unbridled recursion causes stack overflows. You can check the recursion limit with sys.getrecursionlimit:

import sys

and change the recursion limit with sys.setrecursionlimit:


but doing so is dangerous -- the standard limit is a little conservative, but Python stackframes can be quite big.

Python isn't a functional language and tail recursion is not a particularly efficient technique. Rewriting the algorithm iteratively, if possible, is generally a better idea.


Looks like you just need to set a higher recursion depth:

import sys
  • 1
    In my case i forgot the return statement in the base case and it went on to exceed 1000. Python started throwing this exception and i was amazed, because i was sure about the no. of stacks its going to create to run it.
    – vijayraj34
    May 19, 2019 at 8:07
  • 9
    sys.setrecursionlimit(50) or a small amount is useful if your program is entering recursion and you would like the error message to NOT be pages and pages of the same text. I found this very helpful while debugging (my) bad recursive code. Feb 22, 2020 at 0:38
  • Note that this is subject to platform dependent limits
    – Soid
    Feb 19, 2023 at 20:36

If you often need to change the recursion limit (e.g. while solving programming puzzles) you can define a simple context manager like this:

import sys

class recursionlimit:
    def __init__(self, limit):
        self.limit = limit

    def __enter__(self):
        self.old_limit = sys.getrecursionlimit()

    def __exit__(self, type, value, tb):

Then to call a function with a custom limit you can do:

with recursionlimit(1500):
    print(fib(1000, 0))

On exit from the body of the with statement the recursion limit will be restored to the default value.

P.S. You may also want to increase the stack size of the Python process for big values of the recursion limit. That can be done via the ulimit shell builtin or limits.conf(5) file, for example.

  • 3
    You also want to up the process' recursion limit with resource. Without it, you'll get a Segmentation Fault and the whole Python process will crash if you setrecursionlimit too high and try to use the new limit (about 8 megabytes of stack frames, which translates to ~30,000 stack frames with the simple function above, on my laptop).
    – user3064538
    Dec 28, 2019 at 19:35
  • @Boris: that could be added to the context manager, however raising the stack size limit will only work for root (superuser). Nov 9, 2021 at 21:41

It's to avoid a stack overflow. The Python interpreter limits the depths of recursion to help you avoid infinite recursions, resulting in stack overflows. Try increasing the recursion limit (sys.setrecursionlimit) or re-writing your code without recursion.

From the Python documentation:


Return the current value of the recursion limit, the maximum depth of the Python interpreter stack. This limit prevents infinite recursion from causing an overflow of the C stack and crashing Python. It can be set by setrecursionlimit().

  • 1
    On my Anaconda x64, 3.5 Python on Windows, the default limit is 1000. Dec 4, 2015 at 21:48

resource.setrlimit must also be used to increase the stack size and prevent segfault

The Linux kernel limits the stack of processes.

Python stores local variables on the stack of the interpreter, and so recursion takes up stack space of the interpreter.

If the Python interpreter tries to go over the stack limit, the Linux kernel makes it segmentation fault.

The stack limit size is controlled with the getrlimit and setrlimit system calls.

Python offers access to those system calls through the resource module.

sys.setrecursionlimit mentioned e.g. at https://stackoverflow.com/a/3323013/895245 only increases the limit that the Python interpreter self imposes on its own stack size, but it does not touch the limit imposed by the Linux kernel on the Python process.

Example program:


import resource
import sys

print resource.getrlimit(resource.RLIMIT_STACK)
print sys.getrecursionlimit()

# Will segfault without this line.
resource.setrlimit(resource.RLIMIT_STACK, [0x10000000, resource.RLIM_INFINITY])

def f(i):
    print i
    f(i + 1)

Of course, if you keep increasing setrlimit, your RAM will eventually run out, which will either slow your computer to a halt due to swap madness, or kill Python via the OOM Killer.

From bash, you can see and set the stack limit (in kb) with:

ulimit -s
ulimit -s 10000

The default value for me is 8Mb.

See also:

Tested on Ubuntu 16.10, Python 2.7.12.

  • 2
    Attempting to set rlimit_stack after Stack Clash remediations may result in failure or related problems. Also see Red Hat Issue 1463241
    – jww
    Jun 21, 2017 at 16:35
  • 1
    I used this (the Python resource part) to help my implementation of Kosaraju's algorithm on professor Tim Roughgarden's mean (huge) dataset. My implementation worked on small sets, certainly the issue with a large dataset was the recursion/stack limit... Or was it? Well, yes it was! Thanks!
    – nilo
    Jan 28, 2019 at 8:04

Use a language that guarantees tail-call optimisation. Or use iteration. Alternatively, get cute with decorators.

  • 52
    That's rather throwing the baby out with the bathwater. Jul 24, 2010 at 0:09
  • 5
    @Russell: Only one of the options I offered advises this. Jul 24, 2010 at 3:22
  • "Get cute with decorators" isn't exactly an option.
    – Mr. B
    Dec 16, 2019 at 19:56
  • 1
    @Mr.B unless you need more than ulimit -s of stack frames, yes it is stackoverflow.com/a/50120316
    – user3064538
    Dec 28, 2019 at 19:22

I realize this is an old question but for those reading, I would recommend against using recursion for problems such as this - lists are much faster and avoid recursion entirely. I would implement this as:

def fibonacci(n):
    f = [0,1,1]
    for i in xrange(3,n):
        f.append(f[i-1] + f[i-2])
    return 'The %.0fth fibonacci number is: %.0f' % (n,f[-1])

(Use n+1 in xrange if you start counting your fibonacci sequence from 0 instead of 1.)

  • 20
    why use O(n) space when you can use O(1)? Mar 12, 2014 at 9:11
  • 16
    Just in case the O(n) space comment was confusing: don't use a list. List will keep all the values when all you need is the nth value. A simple algorithm would be to keep the last two fibonacci numbers and add them until you get to the one you need. There are better algorithms too.
    – Milimetric
    Jul 14, 2014 at 19:12
  • 4
    @Mathime: xrange is called simply range, in Python 3. Aug 3, 2016 at 9:50
  • 2
    @EOL I'm aware of this
    – Mathime
    Aug 3, 2016 at 9:51
  • 9
    @Mathime I was making things explicit for those reading these comments. Aug 3, 2016 at 9:54

I had a similar issue with the error "Max recursion depth exceeded". I discovered the error was being triggered by a corrupt file in the directory I was looping over with os.walk. If you have trouble solving this issue and you are working with file paths, be sure to narrow it down, as it might be a corrupt file.

  • 3
    The OP does give his code, and his experiment is reproducible at will. It does not involve corrupt files.
    – T. Verron
    Mar 1, 2015 at 19:25
  • 8
    You're right, but my answer isn't geared towards the OP, since this was over four years ago. My answer is aimed to help those with MRD errors indirectly caused by corrupt files - since this is one of the first search results. It helped someone, since it was up voted. Thanks for the down vote.
    – Tyler
    Mar 2, 2015 at 20:36
  • 5
    This was the only thing I found anywhere when searching for my issue that connected a "max recursion depth" traceback to a corrupted file. Thanks!
    – Jeff
    Jul 18, 2017 at 17:23

Of course Fibonacci numbers can be computed in O(n) by applying the Binet formula:

from math import floor, sqrt

def fib(n):                                                     
    return int(floor(((1+sqrt(5))**n-(1-sqrt(5))**n)/(2**n*sqrt(5))+0.5))

As the commenters note it's not O(1) but O(n) because of 2**n. Also a difference is that you only get one value, while with recursion you get all values of Fibonacci(n) up to that value.

  • 9
    There is no maximum size of a long in python.
    – pppery
    Nov 21, 2015 at 18:14
  • 14
    It's worth noting that this fails for larger n because of floating point imprecision - the difference between (1+sqrt(5))**n and (1+sqrt(5))**(n+1) becomes less than 1 ulp, so you start getting incorrect results.
    – user2508324
    Jul 7, 2016 at 14:02
  • 3
    There are actually no big integers in NumPy… Aug 3, 2016 at 9:52
  • 4
    @user202729 That's not true, calculating 2**n is effectively O(log(n)) using Exponentiattion by squaring.
    – Sam
    Feb 18, 2018 at 18:02
  • 2
    @user202729 Any number is O(log(n)) digits long unless it's represented in unary. For instance "1" is 1 digit long in binary, and 1,000,000 is 10 digits long in binary.
    – Sam
    Feb 25, 2018 at 1:22

If you want to get only few Fibonacci numbers, you can use matrix method.

from numpy import matrix

def fib(n):
    return (matrix('0 1; 1 1', dtype='object') ** n).item(1)

It's fast as numpy uses fast exponentiation algorithm. You get answer in O(log n). And it's better than Binet's formula because it uses only integers. But if you want all Fibonacci numbers up to n, then it's better to do it by memorisation.

  • 2
    Sadly you can't use numpy in most competitive programming judges. But yes sir, your solution is my favorite. I've used the matrix soluction for some problems. It is the best solution when you need a very large fibonacci number and you can't use a modulus. If you are allowed to use a modulus, the pisano period the better way to do it.
    – mentatkgs
    Jun 9, 2018 at 1:49

We can do that using @lru_cache decorator and setrecursionlimit() method:

import sys
from functools import lru_cache


def fib(n: int) -> int:
    if n == 0:
        return 0
    if n == 1:
        return 1

    return fib(n - 2) + fib(n - 1)





functools lru_cache

  • Good but you do not need to line sys.setrecursionlimit(15000). You can check and optimize with print(fib.cache_info()) at the end.
    – F.Tamy
    Jan 5, 2021 at 11:00
  • In python 3.9, It is better to use @cache(128) instead @lru_cache(128).
    – F.Tamy
    Jan 5, 2021 at 11:04
  • sys.setrecursionlimit(15000) is almost certain to crash the Python interpreter on most systems if you actually used that much stack space. Instead of this workaround, write the algorithm iteratively.
    – ggorlen
    Sep 18, 2023 at 14:38

RecursionError: maximum recursion depth exceeded in comparison

Solution :

First it’s better to know when you execute a recursive function in Python on a large input ( > 10^4), you might encounter a “maximum recursion depth exceeded error”.

The sys module in Python have a function getrecursionlimit() can show the recursion limit in your Python version.

import sys
print("Python Recursive Limitation = ", sys.getrecursionlimit())

The default in some version of Python is 1000 and in some other it was 1500

You can change this limitation but it’s very important to know if you increase it very much you will have memory overflow error.

So be careful before increase it. You can use setrecursionlimit() to increase this limitation in Python.

import sys

Please follow this link for more information about somethings cause this issue :



As @alex suggested, you could use a generator function to do this sequentially instead of recursively.

Here's the equivalent of the code in your question:

def fib(n):
    def fibseq(n):
        """ Iteratively return the first n Fibonacci numbers, starting from 0. """
        a, b = 0, 1
        for _ in xrange(n):
            yield a
            a, b = b, a + b

    return sum(v for v in fibseq(n))

print format(fib(100000), ',d')  # -> no recursion depth error

Edit: 6 years later I realized my "Use generators" was flippant and didn't answer the question. My apologies.

I guess my first question would be: do you really need to change the recursion limit? If not, then perhaps my or any of the other answers that don't deal with changing the recursion limit will apply. Otherwise, as noted, override the recursion limit using sys.getrecursionlimit(n).

Use generators?

def fib():
    a, b = 0, 1
    while True:
        yield a
        a, b = b, a + b

fibs = fib() #seems to be the only way to get the following line to work is to
             #assign the infinite generator to a variable

f = [fibs.next() for x in xrange(1001)]

for num in f:
        print num

Above fib() function adapted from Introduction to Python Generators.

  • 2
    the reason for having to assign a generator to a variable is because [fibs().next() for ...] would make a new generator each time.
    – tox123
    Aug 10, 2016 at 19:02
  • 1
    Alternative use for example islice docs.python.org/3/library/itertools.html#itertools.islice to take an element from your generator. Feb 20, 2021 at 14:35
  • Using islice would need to look like this (for 1001th number): value = next(islice(fib(), 1000, 1001)).
    – martineau
    Mar 22, 2021 at 21:29
  • The opening line re:flippant is the greatest thing I've seen in a long time haha. Jun 15, 2023 at 11:01
  • how this has anything to do with recursion?
    – windmaomao
    Dec 27, 2023 at 14:17

Many recommend that increasing recursion limit is a good solution however it is not because there will be always limit. Instead use an iterative solution.

def fib(n):
    a,b = 1,1
    for i in range(n-1):
        a,b = b,a+b
    return a
print fib(5)

I wanted to give you an example for using memoization to compute Fibonacci as this will allow you to compute significantly larger numbers using recursion:

cache = {}
def fib_dp(n):
    if n in cache:
        return cache[n]
    if n == 0: return 0
    elif n == 1: return 1
        value = fib_dp(n-1) + fib_dp(n-2)
    cache[n] = value
    return value


This is still recursive, but uses a simple hashtable that allows the reuse of previously calculated Fibonacci numbers instead of doing them again.

import sys

def fib(n, sum):
    if n < 1:
        return sum
        return fib(n-1, sum+n)

c = 998
print(fib(c, 0))
  • 3
    This same answer has been given many times. Please remove it.
    – ZF007
    Jun 19, 2019 at 23:08

I'm not sure I'm repeating someone but some time ago some good soul wrote Y-operator for recursively called function like:

def tail_recursive(func):
  y_operator = (lambda f: (lambda y: y(y))(lambda x: f(lambda *args: lambda: x(x)(*args))))(func)
  def wrap_func_tail(*args):
    out = y_operator(*args)
    while callable(out): out = out()
    return out
  return wrap_func_tail

and then recursive function needs form:

def my_recursive_func(g):
  def wrapped(some_arg, acc):
    if <condition>: return acc
    return g(some_arg, acc)
  return wrapped

# and finally you call it in code

(tail_recursive(my_recursive_func))(some_arg, acc)

for Fibonacci numbers your function looks like this:

def fib(g):
  def wrapped(n_1, n_2, n):
    if n == 0: return n_1
    return g(n_2, n_1 + n_2, n-1)
  return wrapped

print((tail_recursive(fib))(0, 1, 1000000))



(actually tones of digits)


We could also use a variation of dynamic programming bottom up approach

def fib_bottom_up(n):

    bottom_up = [None] * (n+1)
    bottom_up[0] = 1
    bottom_up[1] = 1

    for i in range(2, n+1):
        bottom_up[i] = bottom_up[i-1] + bottom_up[i-2]

    return bottom_up[n]


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