2

So here is a code i have written to find palindromes within a word (To check if there are palindromes within a word including the word itself) Condition: spaces inbetween characters are counted and not ignored Example: A but tuba is a palindrome but technically due to spaces involved now it isn't. so that's the criteria.

Based on above, the following code usually should work. You can try on your own with different tests to check out if this code gives any error.

def pal(text):
    """

    param text: given string or test
    return: returns index of longest palindrome and a list of detected palindromes stored in temp
    """
    lst = {}
    index = (0, 0)
    length = len(text)
    if length <= 1:
        return index
    word = text.lower()  # Trying to make the whole string lower case
    temp = str()
    for x, y in enumerate(word):
        # Try to enumerate over the word
        t = x
        for i in xrange(x):
            if i != t+1:
                string = word[i:t+1]
                if string == string[::-1]:
                    temp = text[i:t+1]
                    index = (i, t+1)
                    lst[temp] = index
    tat = lst.keys()
    longest = max(tat, key=len)
    #print longest
    return lst[longest], temp

And here is a defunct version of it. What I mean is I have tried to start out from the middle and detect palindromes by iterating from the beginning and checking for each higher and lower indices for character by checking if they are equal characters. if they are then i am checking if its a palindrome like a regular palindrome check. here's what I have done

def pal(t):
    text = t.lower()
    lst = {}
    ptr = ''
    index = (0, 0)
    #mid = len(text)/2
    #print mid
    dec = 0
    inc = 0
    for mid, c in enumerate(text):
        dec = mid - 1
        inc = mid + 1
        while dec != 0 and inc != text.index(text[-1]):
            print 'dec {}, inc {},'.format(dec, inc)
            print 'text[dec:inc+1] {}'.format(text[dec:inc+1])
            if dec<0:
                dec = 0
            if inc > text.index(text[-1]):
                inc = text.index(text[-1])
            while text[dec] != text[inc]:
                flo = findlet(text[inc], text[:dec])
                fhi = findlet(text[dec], text[inc:])
                if len(flo) != 0 and len(fhi) != 0 and text[flo[-1]] == text[fhi[0]]:
                    dec = flo[-1]
                    inc = fhi[0]
                    print ' break if'
                    break
                elif len(flo) != 0 and text[flo[-1]] == text[inc]:
                    dec = flo[-1]
                    print ' break 1st elif'
                    break
                elif len(fhi) != 0 and text[fhi[0]] == text[inc]:
                    inc = fhi[0]
                    print ' break 2nd elif'
                    break
                else:
                    dec -= 1
                    inc += 1
                    print ' break else'
                    break
            s = text[dec:inc+1]
            print ' s {} '.format(s)
            if s == s[::-1]:
                index = (dec, inc+1)
                lst[s] = index
            if dec > 0:
                dec -= 1
            if inc < text.index(text[-1]):
                inc += 1
    if len(lst) != 0:
        val = lst.keys()
        longest = max(val, key = len)
        return lst[longest], longest, val
    else:
        return index

findlet() fun:

def findlet(alpha, string):
    f = [i for i,j in enumerate(string) if j == alpha]
    return f

Sometimes it works:

pal('madem')
dec -1, inc 1,
text[dec:inc+1] 
 s m 
dec 1, inc 3,
text[dec:inc+1] ade
 break 1st elif
 s m 
dec 2, inc 4,
text[dec:inc+1] dem
 break 1st elif
 s m 
dec 3, inc 5,
text[dec:inc+1] em
 break 1st elif
 s m 
Out[6]: ((0, 1), 'm', ['m'])

pal('Avid diva.')
dec -1, inc 1,
text[dec:inc+1] 
 break 2nd if
 s avid div 
dec 1, inc 3,
text[dec:inc+1] vid
 break else
 s avid  
dec 2, inc 4,
text[dec:inc+1] id 
 break else
 s vid d 
dec 3, inc 5,
text[dec:inc+1] d d
 s d d 
dec 2, inc 6,
text[dec:inc+1] id di
 s id di 
dec 1, inc 7,
text[dec:inc+1] vid div
 s vid div 
dec 4, inc 6,
text[dec:inc+1]  di
 break 1st elif
 s id di 
dec 1, inc 7,
text[dec:inc+1] vid div
 s vid div 
dec 5, inc 7,
text[dec:inc+1] div
 break 1st elif
 s vid div 
dec 6, inc 8,
text[dec:inc+1] iva
 break 1st elif
 s avid diva 
dec 8, inc 10,
text[dec:inc+1] a.
 break else
 s va. 
dec 6, inc 10,
text[dec:inc+1] iva.
 break else
 s diva. 
dec 4, inc 10,
text[dec:inc+1]  diva.
 break else
 s d diva. 
dec 2, inc 10,
text[dec:inc+1] id diva.
 break else
 s vid diva. 
Out[9]: ((0, 9), 'avid diva', ['avid diva', 'd d', 'id di', 'vid div'])

And based on the Criteria/Condition i have put:

pal('A car, a man, a maraca.')
dec -1, inc 1,
text[dec:inc+1] 
 break else
 s  
dec -1, inc 3,
text[dec:inc+1] 
 s a ca 
dec 1, inc 3,
text[dec:inc+1]  ca
 break if
 s a ca 
dec 2, inc 4,
text[dec:inc+1] car
 break else
 s  car, 
dec 3, inc 5,
text[dec:inc+1] ar,
 break else
 s car,  
dec 1, inc 7,
text[dec:inc+1]  car, a
 break 1st elif
 s a car, a 
dec 4, inc 6,
text[dec:inc+1] r, 
 break 1st elif
 s  car,  
dec 5, inc 7,
text[dec:inc+1] , a
 break 1st elif
 s ar, a 
dec 2, inc 8,
text[dec:inc+1] car, a 
 break 1st elif
 s  car, a  
dec 6, inc 8,
text[dec:inc+1]  a 
 s  a  
dec 5, inc 9,
text[dec:inc+1] , a m
 break else
 s r, a ma 
dec 3, inc 11,
text[dec:inc+1] ar, a man
 break else
 s car, a man, 
dec 1, inc 13,
text[dec:inc+1]  car, a man, 
 s  car, a man,  
dec 7, inc 9,
text[dec:inc+1] a m
 break else
 s  a ma 
dec 5, inc 11,
text[dec:inc+1] , a man
 break else
 s r, a man, 
dec 3, inc 13,
text[dec:inc+1] ar, a man, 
 break if
 s   
dec 8, inc 10,
text[dec:inc+1]  ma
 break if
 s  
dec 6, inc 4,
text[dec:inc+1] 
 break 1st elif
 s r 
dec 3, inc 5,
text[dec:inc+1] ar,
 break else
 s car,  
dec 1, inc 7,
text[dec:inc+1]  car, a
 break 1st elif
 s a car, a 
dec 9, inc 11,
text[dec:inc+1] man
 break else
 s  man, 
dec 7, inc 13,
text[dec:inc+1] a man, 
 break if
 s  
dec 5, inc 2,
text[dec:inc+1] 
 break 1st elif
 s c 
dec 1, inc 3,
text[dec:inc+1]  ca
 break if
 s a ca 
dec 10, inc 12,
text[dec:inc+1] an,
 break 1st elif
 s , a man, 
dec 4, inc 13,
text[dec:inc+1] r, a man, 
 break 1st elif
 s  car, a man,  
dec 11, inc 13,
text[dec:inc+1] n, 
 break 1st elif
 s  man,  
dec 7, inc 14,
text[dec:inc+1] a man, a
 s a man, a 
dec 6, inc 15,
text[dec:inc+1]  a man, a 
 s  a man, a  
dec 5, inc 16,
text[dec:inc+1] , a man, a m
 break else
 s r, a man, a ma 
dec 3, inc 18,
text[dec:inc+1] ar, a man, a mar
 break else
 s car, a man, a mara 
dec 1, inc 20,
text[dec:inc+1]  car, a man, a marac
 break else
 s a car, a man, a maraca 
dec 12, inc 14,
text[dec:inc+1] , a
 break 1st elif
 s an, a 
dec 9, inc 15,
text[dec:inc+1] man, a 
 break if
 s  
dec 7, inc 2,
text[dec:inc+1] 
 break 1st elif
 s c 
dec 1, inc 3,
text[dec:inc+1]  ca
 break if
 s a ca 
dec 13, inc 15,
text[dec:inc+1]  a 
 s  a  
dec 12, inc 16,
text[dec:inc+1] , a m
 break 1st elif
 s man, a m 
dec 8, inc 17,
text[dec:inc+1]  man, a ma
 break 1st elif
 s a man, a ma 
dec 6, inc 18,
text[dec:inc+1]  a man, a mar
 break 1st elif
 s r, a man, a mar 
dec 3, inc 19,
text[dec:inc+1] ar, a man, a mara
 s ar, a man, a mara 
dec 2, inc 20,
text[dec:inc+1] car, a man, a marac
 s car, a man, a marac 
dec 1, inc 21,
text[dec:inc+1]  car, a man, a maraca
 break 1st elif
 s a car, a man, a maraca 
dec 14, inc 16,
text[dec:inc+1] a m
 break 1st elif
 s man, a m 
dec 8, inc 17,
text[dec:inc+1]  man, a ma
 break 1st elif
 s a man, a ma 
dec 6, inc 18,
text[dec:inc+1]  a man, a mar
 break 1st elif
 s r, a man, a mar 
dec 3, inc 19,
text[dec:inc+1] ar, a man, a mara
 s ar, a man, a mara 
dec 2, inc 20,
text[dec:inc+1] car, a man, a marac
 s car, a man, a marac 
dec 1, inc 21,
text[dec:inc+1]  car, a man, a maraca
 break 1st elif
 s a car, a man, a maraca 
dec 15, inc 17,
text[dec:inc+1]  ma
 break 1st elif
 s a ma 
dec 13, inc 18,
text[dec:inc+1]  a mar
 break 1st elif
 s r, a man, a mar 
dec 3, inc 19,
text[dec:inc+1] ar, a man, a mara
 s ar, a man, a mara 
dec 2, inc 20,
text[dec:inc+1] car, a man, a marac
 s car, a man, a marac 
dec 1, inc 21,
text[dec:inc+1]  car, a man, a maraca
 break 1st elif
 s a car, a man, a maraca 
dec 16, inc 18,
text[dec:inc+1] mar
 break 1st elif
 s r, a man, a mar 
dec 3, inc 19,
text[dec:inc+1] ar, a man, a mara
 s ar, a man, a mara 
dec 2, inc 20,
text[dec:inc+1] car, a man, a marac
 s car, a man, a marac 
dec 1, inc 21,
text[dec:inc+1]  car, a man, a maraca
 break 1st elif
 s a car, a man, a maraca 
dec 17, inc 19,
text[dec:inc+1] ara
 s ara 
dec 16, inc 20,
text[dec:inc+1] marac
 break 1st elif
 s car, a man, a marac 
dec 1, inc 21,
text[dec:inc+1]  car, a man, a maraca
 break 1st elif
 s a car, a man, a maraca 
dec 18, inc 20,
text[dec:inc+1] rac
 break 1st elif
 s car, a man, a marac 
dec 1, inc 21,
text[dec:inc+1]  car, a man, a maraca
 break 1st elif
 s a car, a man, a maraca 
dec 19, inc 21,
text[dec:inc+1] aca
 s aca 
dec 21, inc 23,
text[dec:inc+1] a.
 break else
 s ca. 
dec 19, inc 23,
text[dec:inc+1] aca.
 break else
 s raca. 
dec 17, inc 23,
text[dec:inc+1] araca.
 break else
 s maraca. 
dec 15, inc 23,
text[dec:inc+1]  maraca.
 break else
 s a maraca. 
dec 13, inc 23,
text[dec:inc+1]  a maraca.
 break else
 s , a maraca. 
dec 11, inc 23,
text[dec:inc+1] n, a maraca.
 break else
 s an, a maraca. 
dec 9, inc 23,
text[dec:inc+1] man, a maraca.
 break else
 s  man, a maraca. 
dec 7, inc 23,
text[dec:inc+1] a man, a maraca.
 break else
 s  a man, a maraca. 
dec 5, inc 23,
text[dec:inc+1] , a man, a maraca.
 break else
 s r, a man, a maraca. 
dec 3, inc 23,
text[dec:inc+1] ar, a man, a maraca.
 break else
 s car, a man, a maraca. 
dec 1, inc 23,
text[dec:inc+1]  car, a man, a maraca.
 break else
 s a car, a man, a maraca. 
Out[8]: ((13, 16), ' a ', ['', ' a ', 'c', ' ', 'aca', 'ara', 'r'])

Sometimes, it doesn't work at all:

    pal('madam')
    dec -1, inc 1,
    text[dec:inc+1] 
     s m 
    dec 1, inc 3,
    text[dec:inc+1] ada
     break 1st elif
     s m 
    dec 2, inc 4,
    text[dec:inc+1] dam
     break 1st elif
     s m 
    dec 3, inc 5,
    text[dec:inc+1] am
     break 1st elif
     s m 
    Out[5]: ((0, 1), 'm', ['m'])

Now considering madam is a very nice palindrome it should work and there are many cases which i haven't tested myself to find out what other legitimate palindromes it doesn't detect.

Q1: Why is it sometimes not detecting?

Q2: I would like to optimize my second code for that matter. Any inputs?

Q3: What better approach is there for a much much more efficient code than my First code which iterates many a times?

15 Answers 15

19

Your solution seems a bit complicated to me. Just look at all of the possible substrings and check them individually:

def palindromes(text):
    text = text.lower()
    results = []

    for i in range(len(text)):
        for j in range(0, i):
            chunk = text[j:i + 1]

            if chunk == chunk[::-1]:
                results.append(chunk)

    return text.index(max(results, key=len)), results

text.index() will only find the first occurrence of the longest palindrome, so if you want the last, replace it with text.rindex().

| improve this answer | |
  • Yes it is way messy esp. for the 2nd code where I tried using func findlet() to search for all indices of a given letter in a word.i overcomplicated. Superb – user2290820 Jun 20 '13 at 15:47
  • although i did understand that i only had to change enumerate(word) to range(len(word)) which then makes your code and my 1st code the same.so i guess ill look out for more efficient solutions if there are – user2290820 Jun 20 '13 at 15:57
  • To give some background, trying to solve leetcode problems. Acc' to leet code, the solution misses two corner cases: (a) if the string has only one/two characters. e.g., if the string is "a" or "aa", then the palindrome is "a" or "aa"; (b) if a string has 4 unique characters like "abcd", then the palindrome is "a". – tandem Aug 18 '19 at 8:46
1

The following function returns the longest palindrome contained in a given string. It is just slightly different in that it uses itertools as suggested in this answer. There is value in abstracting away the combination generation. Its time complexity is evidently still cubic. It can trivially be adapted as needed to return the index and/or the list of palindromes.

import itertools

def longest_palindrome(s):
    lp, lp_len = '', 0
    for start, stop in itertools.combinations(range(len(s)+1), 2):
        ss = s[start:stop]  # substring
        if (len(ss) > lp_len) and (ss == ss[::-1]):
            lp, lp_len = ss, len(ss)
    return lp
| improve this answer | |
  • what if I need all longest palindrome . Currently , its returning only one longest palindrome. – YaSh Chaudhary Jul 29 '17 at 4:15
1

If you like the recursive solution, I have written a recursive version. It is also intuitive.

def palindrome(s):
  if len(s) <= 1:
    return s
  elif s[0] != s[-1]:
    beginning_palindrome = palindrome(s[:-1])
    ending_palindrome = palindrome(s[1:])
    if len(beginning_palindrome) >= len(ending_palindrome):
      return beginning_palindrome
    else:
      return ending_palindrome
  else:
    middle_palindrome = palindrome(s[1:-1])
    if len(middle_palindrome) == len(s[1:-1]):
        return s[0] + middle_palindrome + s[-1]
    else:
        return middle_palindrome
| improve this answer | |
1

below is a code I wrote for the same question. It might not be really optimized but works like a charm. Pretty easy to understand too for beginners

def longestPalindrome(s):
        pal = []
        longestpalin = s
        l = list(s)
        if len(s)>0:
            if len(s)==2:
                p = l
                if p[0]==p[1]:
                    return s
                else:
                    return l[0]
            else:
                for i in range(0,len(l)):
                    for j in range(i+1,len(l)+1):
                        p = l[i:j]
                        if p == p[::-1]:
                            if len(p)>len(pal):
                                pal = p
                                p = ''.join(p)
                                longestpalin = p
            return longestpalin
        else:
            return longestpalin
| improve this answer | |
0
a = "xabbaabba"  # Provide any string

count=[]
for j in range(len(a)):
    for i in range(j,len(a)):
        if a[j:i+1] == a[i:j-1:-1]:      
            count.append(i+1-j)

print("Maximum size of Palindrome within String is :", max(count))
| improve this answer | |
  • Code only answers are not very useful on their own. It would help if you could add some detail explaining how/why it answers the question. – SiHa Sep 27 '16 at 12:36
  • 2
    Although this code may help to solve the problem, it doesn't explain why and/or how it answers the question. Providing this additional context would significantly improve its long-term educational value. Please edit your answer to add explanation, including what limitations and assumptions apply. – Toby Speight Sep 27 '16 at 17:20
0

Here's a code you can use for finding the longest palindromic substring:

string = "sensmamstsihbalabhismadamsihbala"
string_shortener = ""
pres = 0
succ = 3
p_temp=0
s_temp=0
longest = ""
for i in range(len(string)-2):
    string_shortener = string[pres:succ]
    if(string_shortener==string_shortener[::-1]):
       p_temp = pres
       s_temp = succ
       for u in range(1000):
           p_temp-=1
           s_temp +=1
           string_shortener = string[p_temp:s_temp]
           if(string_shortener == string_shortener[::-1]):
                if len(string_shortener)>len(longest):
                    longest = string_shortener
            else:
                break
    pres+=1
    succ+=1
print(longest)
| improve this answer | |
  • giving just the code, without any explanation doesnt satisfy stack overflow standards – Tanuj Yadav Mar 27 '17 at 19:20
0
inputStr = "madammmdd"
outStr = ""
uniqStr = "".join(set(inputStr))
flag = False
for key in uniqStr:
   val = inputStr.count(key)
   if val % 2 !=0:
      if not flag:
         outStr = outStr[:len(outStr)/2]+key+outStr[len(outStr)/2:]
         flag=True
      val-=1
   outStr=key*(val/2)+outStr+key*(val/2)
print outStr
| improve this answer | |
0

I have made function name as maxpalindrome(s) in this one string argument 's'. This function will return longest possible palindrome sub string and length of substring...

def maxpalindrome(s):
if len(s) == 1 or s == '':
    return str(len(s)) + "\n" + s
else:
    if s == s[::-1]:
        return str(len(s)) + "\n" + s
    else:
        for i in range(len(s)-1, 0, -1):
            for j in range(len(s)-i+1):
                temp = s[j:j+i]
                if temp == temp[::-1]:
                    return str(len(temp)) +"\n"+temp
| improve this answer | |
  • this is a same solution of above – Abhishek Yadav Jul 21 '18 at 16:23
0

Here is another clean and simple approach taken from the excellent online course Design of Computer Programs by P. Norvig. It iterates over all characters in the string and attempts to "grow" the string to both left and right.

def longest_sub_palindrome_slice(text):
    "Return (i,j) such that text[i,j] is the longest palindrome in text"
    if text == '': return (0, 0)
    def length(slice): a,b = slice; return b-a
    candidates = [grow(text, start, end)
                 for start in range(len(text))
                 for end in (start, start + 1)]
    return max(candidates, key=length)

def grow(text, start, end):
    "Start with a 0- or 1- length palindrome; try to grow a bigger one"
    while (start > 0 and end < len(text)
           and text[start-1].upper() == text[end].upper()):
        start -= 1; end += 1
    return (start, end)
| improve this answer | |
0
value ="Madamaaamadamaaaacdefgv"
longestPalindrome =""
lenght =0;
for i in range(len(value)):
        for j in range(0, i):
            array = value[j:i + 1]
            if (array == array[::-1] and len(longestPalindrome) < len(array)):
                longestPalindrome =array
print(longestPalindrome)
| improve this answer | |
0

s='stresseddesserts'
out1=[]
def substring(x):
    for i in range(len(x)):
        a=x[i:]
        b=x[:-i]
        out1.append(a)
        out1.append(b)
        
    return out1

for i in range(len(s)):
    substring(s[i:])    
final=set([item for item in out1 if len(item)>2])
final
palind={item:len(item) for item in final if item==item[::-1]}
print(palind)
sorted(palind.items(),reverse=True, key=lambda x: x[1])[0]

{'tresseddessert': 14, 'seddes': 6, 'esseddesse': 10, 'esse': 4, 'stresseddesserts': 16, 'resseddesser': 12, 'edde': 4, 'sseddess': 8}

('stresseddesserts', 16)

| improve this answer | |
0

Python 3 solution: (not the fastest)

class Solution:
    def longestPalindrome(self, s: str) -> str:

        if s == "":
            return ""
        if len(s) == 1: 
            return s
        if len(s) == 2:
            if s == s[::-1]:
                return s
            else:
                return s[0]


        results = []

        for i in range(len(s)):
            for j in range(0, i):
                chunk = s[j:i + 1]

                if chunk == chunk[::-1]:
                    results.append(chunk)
        if results:       
            return max(results, key=len)
        else:
            return s[0]
| improve this answer | |
-1
def longestPalindrome(s):
        temp = ""
        for i in range(len(s)):
            for j in range(len(s)-1,i-1,-1):
                if s[i] == s[j]:
                    m = s[i:j+1]
                    if m == m[::-1]:
                        if len(temp) <= len(m):
                            temp = m
        return temp
| improve this answer | |
  • 1
    While this code may answer the question, providing additional context regarding how and/or why it solves the problem would improve the answer's long-term value. – Nic3500 Oct 15 '18 at 5:03
-2

I have to agree the solution may seem to complicated, i think the best solution, to find the largest palindrome in a subsequence, (considering characters in between for example in 'character' the largest palindrome should be carac) is:

def find_char_backwards(a, c):
for i in range(len(a) - 1, -1,-1):
    if a[i] == c:
        index=i
        return True, index

return False, 0

def longest_palindorme(a):
if len(a) < 2:
    return a
else:
    c=a[0]
    (exist_char,index) = find_char_backwards(a[1:],c)
    if exist_char:
        palindrome=[c] + longest_palindorme(a[1:index+1]) + [c]
    else:
        palindrome=[]
    rest_palidorme=longest_palindorme(a[1:])

if len(palindrome)>len(rest_palidorme):
    return palindrome
else:
    return rest_palidorme

Where a is an array, this solution uses recursion, and dynamic programming

| improve this answer | |
-3

Use a nested loop:

for x in range(len(body)):
    for y in range(len(body)):
    ...
| improve this answer | |
  • 1
    This may do something, but it's not at all clear how it addresses the question in any way. – Jeffrey Bosboom Feb 18 '16 at 0:51

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