# Longest palindrome in a string

I wrote the following function to find the longest palindrome in a string. It works fine but it won't work for words like "noon" or "redder". I fiddled around and changed the first line in the `for` loop from:

``````var oddPal = centeredPalindrome(i, i);
``````

to

``````var oddPal = centeredPalindrome(i-1, i);
``````

and now it works, but I'm not clear on why. My intuition is that if you are checking an odd-length palindrome it will have one extra character in the beginning (I whiteboarded it out and that's the conclusion I came to). Am I on the right track with my reasoning?

``````var longestPalindrome = function(string) {

var length = string.length;
var result = "";

var centeredPalindrome = function(left, right) {
while (left >= 0 && right < length && string[left] === string[right]) {
//expand in each direction.
left--;
right++;
}

return string.slice(left + 1, right);
};

for (var i = 0; i < length - 1; i++) {
var oddPal = centeredPalindrome(i, i);
var evenPal = centeredPalindrome(i, i);

if (oddPal.length > result.length)
result = oddPal;
if (evenPal.length > result.length)
result = evenPal;
}

return "the palindrome is: " + result + " and its length is: " + result.length;
};
``````

UPDATE: After Paul's awesome answer, I think it makes sense to change both variables for clarity:

``````var oddPal  = centeredPalindrome(i-1, i + 1);
var evenPal = centeredPalindrome(i, i+1);
``````
• YES - that finally makes sense. of course you would do i+1 for EVEN palindromes because their "center" would be 2 instead of 1 for odds. Thanks! – devdropper87 Nov 12 '15 at 16:47
• I think this might be more intuitive, editing above also: var oddPal = centeredPalindrome(i-1, i + 1); var evenPal = centeredPalindrome(i, i+1); – devdropper87 Nov 12 '15 at 16:51
• I just wanted to point out there is a fast linear time algorithm for this problem know as `Manacher's algorithm`. – Blastfurnace Nov 12 '15 at 18:12

You have it backwards - if you output the "odd" palindromes (with your fix) you'll find they're actually even-length.

Imagine "noon", starting at the first "o" (left and right). That matches, then you move them both - now you're comparing the first "n" to the second "o". No good. But with the fix, you start out comparing both "o"s, and then move to both "n"s.

Example (with the `var oddPal = centeredPalindrome(i-1, i);` fix):

``````var longestPalindrome = function(string) {

var length = string.length;
var result = "";

var centeredPalindrome = function(left, right) {
while (left >= 0 && right < length && string[left] === string[right]) {
//expand in each direction.
left--;
right++;
}

return string.slice(left + 1, right);
};

for (var i = 0; i < length - 1; i++) {
var oddPal = centeredPalindrome(i, i + 1);

var evenPal = centeredPalindrome(i, i);

if (oddPal.length > 1)
console.log("oddPal: " + oddPal);
if (evenPal.length > 1)
console.log("evenPal: " + evenPal);

if (oddPal.length > result.length)
result = oddPal;
if (evenPal.length > result.length)
result = evenPal;
}
return "the palindrome is: " + result + " and its length is: " + result.length;
};

console.log(
longestPalindrome("nan noon is redder")
);``````

• I don't think this code checks for spaces. So if for example you ran `longestPalindrome("a level b");` you would get the longest palindrome as " level " with a length of 7. – jmdeamer Jul 1 '17 at 0:37
• True, though out of scope of (my reading of) the question. Definitely consider adding your own answer that solves that part of the problem. – Paul Roub Jul 1 '17 at 0:38
• Running this code gave me: the palindrome is: noon and its length is: 6 - should that be redder instead? – Om Shankar Apr 28 '19 at 20:55
• As mentioned in an above comment, it doesn't treat spaces any differently than non-spaces. It's finding " noon " (leading and trailing space), which is 6 chars long just like redder. That's a thing that should be fixed, but a separate problem from this particular question. – Paul Roub Apr 28 '19 at 22:00

This will be optimal if the largest palindrome is found earlier. Once its found it will exit both loops.

``````function isPalindrome(s) {
//var rev = s.replace(/\s/g,"").split('').reverse().join('');  //to remove space
var rev = s.split('').reverse().join('');
return s == rev;
}

function longestPalind(s) {
var maxp_length = 0,
maxp = '';
for (var i = 0; i < s.length; i++) {
var subs = s.substr(i, s.length);
if (subs.length <= maxp_length) break; //Stop Loop for smaller strings
for (var j = subs.length; j >= 0; j--) {
var sub_subs = subs.substr(0, j);
if (sub_subs.length <= maxp_length) break; // Stop loop for smaller strings
if (isPalindrome(sub_subs)) {

maxp_length = sub_subs.length;
maxp = sub_subs;

}
}
}
return maxp;
}
``````

# Here is another take on the subject.

• Checks to make sure the string provided is not a palindrome. If it is then we are done. ( Best Case )
• Worst case 0(n^2)

Use of dynamic programming. Break each problem out into its own method, then take the solutions of each problem and add them together to get the answer.

``````class Palindrome {
constructor(chars){
this.palindrome = chars;
this.table = new Object();
this.longestPalindrome = null;
this.longestPalindromeLength = 0;

if(!this.isTheStringAPalindrome()){
this.initialSetupOfTableStructure();
}
}

isTheStringAPalindrome(){
const reverse = [...this.palindrome].reverse().join('');
if(this.palindrome === reverse){
this.longestPalindrome = this.palindrome;
this.longestPalindromeLength = this.palindrome.length;
console.log('pal is longest', );
return true;
}
}

initialSetupOfTableStructure(){
for(let i = 0; i < this.palindrome.length; i++){
for(let k = 0; k < this.palindrome.length; k++){
this.table[`\${i},\${k}`] = false;
}
}
this.setIndividualsAsPalindromes();
}

setIndividualsAsPalindromes(){
for(let i = 0; i < this.palindrome.length; i++){
this.table[`\${i},\${i}`] = true;
}
this.setDoubleLettersPlaindrome();
}

setDoubleLettersPlaindrome(){
for(let i = 0; i < this.palindrome.length; i++){
const firstSubstring = this.palindrome.substring(i, i + 1);
const secondSubstring = this.palindrome.substring(i+1, i + 2);
if(firstSubstring === secondSubstring){
this.table[`\${i},\${i + 1}`] = true;

if(this.longestPalindromeLength < 2){
this.longestPalindrome = firstSubstring + secondSubstring;
this.longestPalindromeLength = 2;
}
}
}
this.setAnyPalindromLengthGreaterThan2();
}

setAnyPalindromLengthGreaterThan2(){
for(let k = 3; k <= this.palindrome.length; k++){
for(let i = 0; i <= this.palindrome.length - k; i++){
const j = i + k - 1;
const tableAtIJ = this.table[`\${i+1},\${j-1}`];
const stringToCompare = this.palindrome.substring(i, j +1);
const firstLetterInstringToCompare = stringToCompare[0];
const lastLetterInstringToCompare = [...stringToCompare].reverse()[0];
if(tableAtIJ && firstLetterInstringToCompare === lastLetterInstringToCompare){

this.table[`\${i},\${j}`] = true;

if(this.longestPalindromeLength < stringToCompare.length){
this.longestPalindrome = stringToCompare;
this.longestPalindromeLength = stringToCompare.length;
}
}
}
}
}

printLongestPalindrome(){
console.log('Logest Palindrome', this.longestPalindrome);
console.log('from /n', this.palindrome );
}

toString(){
console.log('palindrome', this.palindrome);
console.log(this.table)
}
}

// const palindrome = new Palindrome('lollolkidding');
// const palindrome = new Palindrome('acbaabca');
palindrome.printLongestPalindrome();
//palindrome.toString();
``````
``````function longestPalindrome(str){
var arr = str.split("");
var endArr = [];

for(var i = 0; i < arr.length; i++){
var temp = "";
temp = arr[i];
for(var j = i + 1; j < arr.length; j++){
temp += arr[j];
if(temp.length > 2 && temp === temp.split("").reverse().join("")){
endArr.push(temp);
}
}
}

var count = 0;
var longestPalindrome = "";
for(var i = 0; i < endArr.length; i++){
if(count >= endArr[i].length){
longestPalindrome = endArr[i-1];
}
else{
count = endArr[i].length;
}
}
console.log(endArr);
console.log(longestPalindrome);
return longestPalindrome;
}

``````
``````function longest_palindrome(s) {
if (s === '') {
return ''
}
let arr = [];
let _s = s.split('');
for (let i = 0; i < _s.length; i++) {
for (let j = 0; j < _s.length; j++) {
let word = _s.slice(0, j + 1).join('');
let rev_word = _s.slice(0, j + 1).reverse().join('');
if (word === rev_word) {
arr.push(word)
}
}
_s.splice(0, 1)
}
let _arr = arr.sort((a, b) => a.length - b.length);
for (let i = 0; i < _arr.length; i++) {
if (_arr[arr.length - 1].length === _arr[i].length) {
return _arr[i]
}
}
``````

}

longest_palindrome('bbaaacc') //This code will give you the first longest palindrome substring into the string

`````` public string LongestPalindrome(string s) {
return LongestPalindromeSol(s, 0, s.Length-1);
}
public static string LongestPalindromeSol(string s1, int start, int end)
{
if (start > end)
{
return string.Empty;
}
if (start == end)
{
char ch = s1[start];
string s = string.Empty;
var res = s.Insert(0, ch.ToString());
return res;
}
if (s1[start] == s1[end])
{
char ch = s1[start];
var res = LongestPalindromeSol(s1, start + 1, end - 1);
res = res.Insert(0, ch.ToString());
res = res.Insert(res.Length, ch.ToString());
return res;
}
else
{
var str1 = LongestPalindromeSol(s1, start, end - 1);
var str2 = LongestPalindromeSol(s1, start, end - 1);
if (str1.Length > str2.Length)
{
return str1;
}
else
{
return str2;
}
}
}
``````
``````This is in JS ES6. much simpler and works for almost all words .. Ive tried radar, redder, noon etc.

const findPalindrome = (input) => {
let temp = input.split('')
let rev = temp.reverse().join('')

if(input == rev){
console.log('Palindrome', input.length)
}
}
//i/p : redder
// "Palindrome" 6
``````
• it is simpler because you're not searching for a palindrome in the string but only if the string is a palindrome – bobrobbob Jun 12 '18 at 19:36
• @bobrobbob mmm i don't follow, how does it know if its a valid word or not... would it just looking for similar chars following each other? that seem completely useless and invalid, as they would actually be none words. – Seabizkit Jan 3 '20 at 7:27