How to check for palindrome using Python logic

I'm trying to check for a palindrome with Python. The code I have is very `for`-loop intensive.

And it seems to me the biggest mistake people do when going from C to Python is trying to implement C logic using Python, which makes things run slowly, and it's just not making the most of the language.

I see on this website. Search for "C-style for", that Python doesn't have C-style for loops. Might be outdated, but I interpret it to mean Python has its own methods for this.

I've tried looking around, I can't find much up to date (Python 3) advice for this. How can I solve a palindrome challenge in Python, without using the for loop?

I've done this in C in class, but I want to do it in Python, on a personal basis. The problem is from the Euler Project, great site By the way,.

``````def isPalindrome(n):
lst = [int(n) for n in str(n)]
l=len(lst)
if l==0 || l==1:
return True
elif len(lst)%2==0:
for k in range (l)
#####
else:
while (k<=((l-1)/2)):
if (list[]):
#####

for i in range (999, 100, -1):
for j in range (999,100, -1):
if isPalindrome(i*j):
print(i*j)
break
``````

I'm missing a lot of code here. The five hashes are just reminders for myself.

Concrete questions:

1. In C, I would make a for loop comparing index 0 to index max, and then index 0+1 with max-1, until something something. How to best do this in Python?

2. My for loop (in in range (999, 100, -1), is this a bad way to do it in Python?

3. Does anybody have any good advice, or good websites, or resources for people in my position? I'm not a programmer, I don't aspire to be one, I just want to learn enough so that when I write my bachelor's degree thesis (electrical engineering), I don't have to simultaneously LEARN an applicable programming language while trying to obtain good results in the project. "How to go from basic C to great application of Python", that sort of thing.

4. Any specific bits of code to make a great solution to this problem would also be appreciated, I need to learn good algorithms.. I am envisioning 3 situations. If the value is zero or single digit, if it is of odd length, and if it is of even length. I was planning to write for loops...

PS: The problem is: Find the highest value product of two 3 digit integers that is also a palindrome.

• Commented Jun 26, 2013 at 22:10
• I believe this is ProjectEuler #4. You should be able to find some solutions out there that could introduce you to python. But from the looks of it, your implementation is not a terrible one. Your `isPalindrome` can be much simpler. You may also want to store all palindromes you find in a list and then sort it to find the highest value. If you just `break`, you are not guaranteed the highest value palindrome. Commented Jun 26, 2013 at 22:10
• All these answers are good, although bear in mind that, as stated, your word/phrase has to be an exact palindrome for them to work, including capitalization, spaces, and punctuation. You'll want to look at methods like `.lower()` and `.translate()` to make the case uniform and remove the spaces and punctuation if you want to match cases like "Do geese see God?" Commented Jun 26, 2013 at 23:23
• @PaulGriffiths Thank you, in this specific program I am dealing with numbers, but I have seen the .lower() and .upper() functions, .translate() I will look into. Thanks a lot! Commented Jun 27, 2013 at 1:31
• Just to clarify for future visitors to this question. The C style of checking for palindrome would involve a for loop like the following: for(int i=0; i<len(str)/2; i++) if str[i] != str[len(str)-i-1]: return False Commented Mar 10, 2019 at 8:18

A pythonic way to determine if a given value is a palindrome:

``````str(n) == str(n)[::-1]
``````

Explanation:

• We're checking if the string representation of `n` equals the reversed string representation of `n`
• The `[::-1]` slice takes care of reversing the string
• After that, we compare for equality using `==`
• Wow.. can you explain to me what this means? How can that line contain the logic to compare the leftmost value with the rightmost..? Commented Jun 26, 2013 at 22:09
• It doesn't. It simply check that the word is equal to itself reversed. An advantage of python is that it allows you to work at an higher level of abstraction leading to cleaner and more elegant solutions Commented Jun 26, 2013 at 22:11
• @DrOnline I updated my answer. This is the pythonic way to do write the solution, by manipulating the very flexible list data structure provided by the language Commented Jun 26, 2013 at 22:12
• @DrOnline the `::` part is called a slice, read all about it in here Commented Jun 26, 2013 at 22:14
• `[::-1]` is advanced slicing. `[a:b:c]` means slice from `a` (inclusive) to `b` (exclusive) with step size `c`. Commented Jun 26, 2013 at 22:15

An alternative to the rather unintuitive `[::-1]` syntax is this:

``````>>> test = "abcba"
>>> test == ''.join(reversed(test))
True
``````

The `reversed` function returns a reversed sequence of the characters in `test`.

`''.join()` joins those characters together again with nothing in between.

• @RichieHindle: I find `''.join(reversed(test))` to be just as unintuitive as `[::-1]`. The really intuitive behaviour would be if you could write `test == reversed(test)`. (I'm not the downvoter.) Commented Jun 26, 2013 at 23:00
• You could do `list(test) == list(reversed(test))`.
– Rob
Commented Apr 15, 2016 at 7:08

Just for the record, and for the ones looking for a more algorithmic way to validate if a given string is palindrome, two ways to achieve the same (using `while` and `for` loops):

``````def is_palindrome(word):

letters = list(word)
is_palindrome = True
i = 0

while len(letters) > 0 and is_palindrome:
if letters[0] != letters[(len(letters) - 1)]:
is_palindrome = False
else:
letters.pop(0)
if len(letters) > 0:
letters.pop((len(letters) - 1))

return is_palindrome
``````

And....the second one:

``````def is_palindrome(word):

letters = list(word)
is_palindrome = True

for letter in letters:
if letter == letters[-1]:
letters.pop(-1)
else:
is_palindrome = False
break

return is_palindrome
``````

The awesome part of python is the things you can do with it. You don't have to use indexes for strings.

The following will work (using slices)

``````def palindrome(n):
return n == n[::-1]
``````

What it does is simply reverses n, and checks if they are equal. `n[::-1]` reverses n (the -1 means to decrement)

"2) My for loop (in in range (999, 100, -1), is this a bad way to do it in Python?"

Regarding the above, you want to use `xrange` instead of range (because range will create an actual list, while xrange is a fast generator)

My opinions on question 3

I learned C before Python, and I just read the docs, and played around with it using the console. (and by doing Project Euler problems as well :)

• Note that `xrange` is only needed (and only exists) in Python 2. In Python 3, the regular `range` behaves much like `xrange` used to (with a few extra new features, like slicing to get a different `range` object added). Commented Jun 26, 2013 at 22:20
• No problem! If you want to get some indexes, use `xrange`. If you want a list and manipulate that list for something else, use `range` Commented Jun 26, 2013 at 22:21
• Thanks Blckknght, I got errors for xrange, was wondering if I had to include a library or something. Good to know! Kinda like raw input and input was merged to input, I see that was a Python 3 change. Commented Jun 26, 2013 at 22:34

Below the code will print 0 if it is Palindrome else it will print -1

Optimized Code

``````word = "nepalapen"
is_palindrome = word.find(word[::-1])
print is_palindrome
``````

Output: 0

``````word = "nepalapend"
is_palindrome = word.find(word[::-1])
print is_palindrome
``````

Output: -1

Explaination:

when searching the string the value that is returned is the value of the location that the string starts at.

So when you do `word.find(word[::-1])` it finds `nepalapen` at location `0` and `[::-1]` reverses `nepalapen` and it still is `nepalapen` at location `0` so `0` is returned.

Now when we search for `nepalapend` and then reverse `nepalapend` to `dnepalapen` it renders a `FALSE` statement `nepalapend` was reversed to `dnepalapen` causing the search to fail to find `nepalapend` resulting in a value of `-1` which indicates string not found.

Another method print true if palindrome else print false

``````word = "nepalapen"
print(word[::-1]==word[::1])
``````

output: TRUE

There is also a functional way:

``````def is_palindrome(word):
if len(word) == 1: return True
if word[0] != word[-1]: return False
return is_palindrome(word[1:-1])
``````
• This has a minor error: "mannam" will give `IndexError: string index out of range`, as the most inner call is on the null string (as will giving it a null string). `if len(word) <= 1: return True` solves this issue, although it will consider null strings as palindromes. Commented Nov 15, 2016 at 21:42

I know that this question was answered a while ago and i appologize for the intrusion. However,I was working on a way of doing this in python as well and i just thought that i would share the way that i did it in is as follows,

``````word = 'aibohphobia'

word_rev = reversed(word)

def is_palindrome(word):
if list(word) == list(word_rev):
print'True, it is a palindrome'
else:
print'False, this is''t a plindrome'

is_palindrome(word)
``````

The most pythonic way to do this is indeed using the slicing notation to reverse the string as mentioned already:

``````def is_palindrome(string: str) -> bool:
return string == string[::-1]
``````

In some other occasions though (like technical interviews), you may have to write a "proper" algorithm to find the palindrome. In this case, the following should do the trick:

``````def is_palindrome(string: str) -> bool:
start = 0
end = len(string) - 1

while end >= start:
if string[end] != string[start]:
return False
start += 1
end -= 1

return True
``````
• Set pointers to the start and end of the string
• Iterate while `end` exceeds `start`
• If the character in `end` and `start` indices don't match then this is not a palindrome, otherwise keep comparing
• Increase `start` pointer by 1
• Decrease `end` pointer by 1

Test Cases:

``````import unittest

class Test(unittest.TestCase):

palindromes = ['a', 'aa', 'aba', '12321']
non_palindromes = ['ab', 'aab', 'cacacc']
def test_is_palindrome(self):
for case in self.palindromes:
self.assertTrue(is_palindrome(case))

for case in self.non_palindromes:
self.assertFalse(is_palindrome(case))

if __name__ == '__main__':
unittest.main()
``````

Here a case insensitive function since all those solutions above are case sensitive.

``````def Palindrome(string):

return (string.upper() == string.upper()[::-1])
``````

This function will return a boolean value.

doing the Watterloo course for python, the same questions is raised as a "Lesseon" find the info here:

http://cscircles.cemc.uwaterloo.ca/13-lists/

being a novice i solved the problem the following way:

``````def isPalindrome(S):
pali = True
for i in range (0, len(S) // 2):
if S[i] == S[(i * -1) - 1] and pali is True:
pali = True
else:
pali = False
print(pali)
return pali
``````

The function is called isPalindrome(S) and requires a string "S". The return value is by default TRUE, to have the initial check on the first if statement.

After that, the for loop runs half the string length to check if the character from string "S" at the position "i" is the same at from the front and from the back. If once this is not the case, the function stops, prints out FALSE and returns false.

Cheers.kg

If the string has an uppercase or non-alphabetic character then the function converts all characters to lowercase and removes all non-alphabetic characters using regex finally it applies palindrome check recursively:

``````import re

rules = [
lambda s: any(x.isupper() for x in s),
lambda s: not s.isalpha()
]

def is_palindrome(s):
if any(rule(s) for rule in rules):
s = re.sub(r'[^\w]', '', s).lower()
if len(s) < 2:
return True
if s[0] != s[-1]:
return False
return is_palindrome(s[1:-1])

string = 'Are we not drawn onward, we few, drawn onward to new era?'

print(is_palindrome(string))
``````

the output is `True` for the input above.

There is much easier way I just found. It's only 1 line.

``````is_palindrome = word.find(word[::-1])
``````
• You could make it a boolean, ie: `is_palindrome = word.find(word[::-1]) == 0` . Still +1 Commented Jul 8, 2017 at 7:06
• Answer using `.find` was already posted. Commented Dec 7, 2023 at 7:02

You are asking palindrome in python. palindrome can be performed on strings, numbers and lists. However, I just posted a simple code to check palindrome of a string.

``````# Palindrome of string
str=raw_input("Enter the string\n")
ln=len(str)
for i in range(ln/2) :
if(str[ln-i-1]!=str[i]):
break
if(i==(ln/2)-1):
print "Palindrome"
else:
print "Not Palindrome"
``````

Assuming a string 's'

``````palin = lambda s: s[:(len(s)/2 + (0 if len(s)%2==0 else 1)):1] == s[:len(s)/2-1:-1]
# Test
palin('654456')  # True
palin('malma')   # False
palin('ab1ba')   # True
``````
``````#compare 1st half with reversed second half
# i.e. 'abba' -> 'ab' == 'ba'[::-1]

def is_palindrome( s ):
return True if len( s ) < 2 else s[ :len( s ) // 2 ] == s[ -( len( s ) // 2 ):][::-1]
``````

You can use Deques in python to check palindrome

```def palindrome(a_string): ch_dequeu = Deque() for ch in a_string: ch_dequeu.add_rear(ch) still_ok = True while ch_dequeu.size() > 1 and still_ok: first = ch_dequeu.remove_front() last = ch_dequeu.remove_rear() if first != last: still_ok = False return still_ok```

```class Deque: def __init__(self): self.items = [] def is_empty(self): return self.items == [] def add_rear(self, item): self.items.insert(0, item) def add_front(self, item): self.items.append(item) def size(self): return len(self.items) def remove_front(self): return self.items.pop() def remove_rear(self): return self.items.pop(0)```

``````import string

word = input('Please select a word to test \n')
word = word.lower()
num = len(word)

x = round((len(word)-1)/2)
#defines first half of string
first = word[:x]

#reverse second half of string
def reverse_odd(text):
lst = []
count = 1
for i in range(x+1, len(text)):

lst.append(text[len(text)-count])
count += 1
lst = ''.join(lst)
return lst

#reverse second half of string
def reverse_even(text):
lst = []
count = 1
for i in range(x, len(text)):
lst.append(text[len(text)-count])
count += 1
lst = ''.join(lst)
return lst

if reverse_odd(word) == first or reverse_even(word) == first:
print(string.capwords(word), 'is a palindrome')
else:
print(string.capwords(word), 'is not a palindrome')
``````

the "algorithmic" way:

``````import math

def isPalindrome(inputString):
if inputString == None:
return False

strLength = len(inputString)
for i in range(math.floor(strLength)):
if inputString[i] != inputString[strLength - 1 - i]:
return False
return True
``````

There is another way by using functions, if you don't want to use reverse

``````#!/usr/bin/python

A = 'kayak'

def palin(A):

i = 0
while (i<=(A.__len__()-1)):
if (A[A.__len__()-i-1] == A[i]):
i +=1
else:
return False

if palin(A) == False:

print("Not a Palindrome")

else :

print ("Palindrome")
``````

It looks prettier with recursion!

``````def isPalindrome(x):
z = numToList(x)
length = math.floor(len(z) / 2)
if length < 2:
if z[0] == z[-1]:
return True
else:
return False
else:
if z[0] == z[-1]:
del z[0]
del z[-1]
return isPalindrome(z)
else:
return False
``````
``````def is_palindrome(string):
return string == ''.join([letter for letter in reversed(string)])
``````
``````print ["Not a palindrome","Is a palindrome"][s == ''.join([s[len(s)-i-1] for i in range(len(s))])]
``````

This is the typical way of writing single line code

``````def pali(str1):
l=list(str1)
l1=l[::-1]
if l1==l:
print("yess")
else:
print("noo")
str1="abc"
a=pali(str1)
print(a)
``````

I tried using this:

``````def palindrome_numer(num):
num_str = str(num)
str_list = list(num_str)
if str_list[0] == str_list[-1]:
return True
return False
``````

and it worked for a number but I don't know if a string

``````def isPalin(checkWord):
Hsize = len(lst)/2
seed = 1
palind=True
while seed<Hsize+1:
#print seed,lst[seed-1], lst [-(seed)]
if(lst[seed-1] != lst [-seed]):
palind = False
break
seed = seed+1
return palind

lst = 'testset'
print lst, isPalin(lst)
lst = 'testsest'
print lst, isPalin(lst)
``````

Output

``````testset True
testsest False
``````

You could use this one-liner that returns a bool value:

`str(x)==str(x)[::-1]`

This works both for words and numbers thanks to the type casting...

• This is exactly the same as the accepted answer posted 10 years before. Commented Dec 7, 2023 at 6:28

This method can solve the issue:

``````def is_palindrome(word:str) -> bool:
word_lst = list(word)
if not word_lst and (len(word_lst)<=1) and (len(word_lst)>=10**5):
return
reversed_word_lst = word_lst[::-1]
return word_lst == reversed_word_lst
``````

Best!

``````def palindrome_or_not(val):
length = len(val)
for i in range(length // 2):
if val[i] != val[length - 1 - i]:
return 'Not Palindrome'
return 'Palindrome'

print(palindrome_or_not('malayalam'))
``````
``````#!/usr/bin/python

str = raw_input("Enter a string ")
print "String entered above is %s" %str
strlist = [x for x in str ]
print "Strlist is %s" %strlist
strrev = list(reversed(strlist))
print "Strrev is %s" %strrev
if strlist == strrev :
print "String is palindrome"
else :
print "String is not palindrome"
``````

maybe you can try this one:

``````list=input('enter a string:')

if (list==list[::-1]):
print ("It is a palindrome")
else:
print("it is not palindrome")
``````