Announcing Stack Overflow Documentation

We started with Q&A. Technical documentation is next, and we need your help.

Whether you're a beginner or an experienced developer, you can contribute.

Sign up and start helping → Learn more about Documentation →

Let's say the range is : 1X120

This is what I have tried:

>>> def isPalindrome(s):
    ''' check if a number is a Palindrome '''
    s = str(s)
    return s == s[::-1]

>>> def generate_palindrome(minx,maxx):
    ''' return a list of Palindrome number in a given range '''
    tmpList = []
    for i in range(minx,maxx+1):
        if isPalindrome(i):

    return tmpList

>>> generate_palindrome(1,120)

[1, 2, 3, 4, 5, 6, 7, 8, 9, 11, 22, 33, 44, 55, 66, 77, 88, 99, 101, 111]

However, this is O(n).

How do I improve this algorithm to make it faster ?

PS. This is Python 2.7

share|improve this question
up vote 5 down vote accepted

Your method could be:

palindromes = [x for x in xrange(min, max) if isPalindrome(x)]

The only way you can do this and have a non-linear algorithm is to generate the palindromes yourself, instead of testing.

A palindrome can be generated by taking a previous palindrome, and adding the same number to the left and right side, so that is a starting point.

Let's say you start at 1:

Possible palindromes are obtained by adding each digit from 1:9 to the left and right:


And also, you have to generate the several entries where every digit is equal in the range...

share|improve this answer

I find this is a fun task, so I gave my rusty python skills some practise.

def generate_palindromes_with_length(l):
''' generate a list of palindrome numbers with len(str(palindrome)) == l '''
    if l < 1:
        return []
    if l == 1:
        return [x for x in range(10)]
    p = []
    if (l % 2):
        half_length = (l - 1) / 2
        for x in xrange(0, 10):
            for y in xrange(10 ** (half_length - 1), 10 ** half_length):
                p.append(int(str(y) + str(x) + str(y)[::-1]))
        half_length = l / 2
        for x in xrange(10 ** (half_length - 1), 10 ** half_length):
            p.append(int(str(x) + str(x)[::-1]))
    return p

def generate_palindrome(minx, maxx):
''' return a list of palindrome numbers in a given range '''
    min_len = len(str(minx))
    max_len = len(str(maxx))
    p = []
    for l in xrange(min_len, max_len + 1):
        for x in generate_palindromes_with_length(l):
            if x <= maxx and x >= minx:
    return p

generate_palindromes_with_length is the key part here. The function generates palindromes, with a given number of decimal places. It uses different strategies for odd and even numbers of decimal places. Example: If length 5 is requested, it generates palindromes with the pattern abxba, where a, b, and x is any number from 1 to 9 (plus x may be 0). If 4 is the requested length, the pattern is abba.

generate_palindrome only needs to collect the palindromes for all needed length', and take care of the boundary.

The algorithm is in O(2*p), with p being the number of palindromes.

The algorithm does work. However, as my python skills are rusty, any advice for a more elegant solution is appreciated.

share|improve this answer

This will work if you want it to give you a list immidiately:

def palindrome_range(start,stop,step=1):
    ret=[x for x in xrange(start,step,stop) if str(x)==str(x)[::-1]]
    return ret

However, if you want a generator, you could use:

def palindrome_range(start,stop,step=1):
    for x in xrange(start,stop,step):
        if str(x)==str(x)[::-1]:
            yield x

These will help you speed things up quite a bit depending on what you are using it in. For example, if you want to iterate through the palindromes, then a generator would serve you well. However, if you need the entire list, a regular list being returned would be better. It is also notable however, that xrange is much better in this case than range would be, as it deals with large list's better, as documented here.

share|improve this answer

It's a fun exercise! Here's my take on a palindrome number generator, O(n^(1/2)):

def palindrome_number_generator():
    yield 0    
    lower = 1
    while True:
        higher = lower*10
        for i in xrange(lower, higher):    
            s = str(i)
            yield int(s+s[-2::-1])
        for i in xrange(lower, higher):    
            s = str(i)
            yield int(s+s[::-1])
        lower = higher

def palindromes(lower, upper):
    all_palindrome_numbers = palindrome_number_generator()
    for p in all_palindrome_numbers:
        if p >= lower:
    palindrome_list = [p]
    for p in all_palindrome_numbers:
        # Because we use the same generator object,
        # p continues where the previous loop halted.
        if p >= upper:
    return palindrome_list

print palindromes(1, 120)

Because it's numbers, the generator has to handle 0 separately: it should include 0 but not 010.

share|improve this answer

Just as @it-ninja wrote just change step and stop

def palindrome_range(start,stop,step=1):
    ret=[x for x in xrange(start,stop,step) if str(x)==str(x)[::-1]]
    return ret

this will give all the palindromes in the given range

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.