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Firstly here is the problem:

A positive integer is called a palindrome if its representation in the decimal system is the same when read from left to right and from right to left. For a given positive integer K of not more than 1000000 digits, write the value of the smallest palindrome larger than K to output. Numbers are always displayed without leading zeros.

Input: The first line contains integer t, the number of test cases. Integers K are given in the next t lines.

Output: For each K, output the smallest palindrome larger than K. Example

Input:

2

808

2133

Output:

818

2222

Secondly here is my code:

// I know it is bad practice to not cater for erroneous input,
// however for the purpose of the execise it is omitted
import java.io.BufferedReader;
import java.io.InputStreamReader;
import java.util.Scanner;
import java.lang.Exception;
import java.math.BigInteger;

public class Main
{    
    public static void main(String [] args){   
        try{
            Main instance = new Main(); // create an instance to access non-static
                                        // variables

            // Use java.util.Scanner to scan the get the input and initialise the
            // variable
            Scanner sc=null;

            BufferedReader r = new BufferedReader(new InputStreamReader(System.in));

            String input = "";

            int numberOfTests = 0;

            String k; // declare any other variables here

            if((input = r.readLine()) != null){
                sc = new Scanner(input);
                numberOfTests = sc.nextInt();
            }

            for (int i = 0; i < numberOfTests; i++){
                if((input = r.readLine()) != null){
                    sc = new Scanner(input);
                    k=sc.next(); // initialise the remainder of the variables sc.next()
                    instance.palindrome(k);
                } //if
            }// for
        }// try

        catch (Exception e)
        {
            e.printStackTrace();
        }
    }// main

    public void palindrome(String number){

        StringBuffer theNumber = new StringBuffer(number);
        int length = theNumber.length();
        int left, right, leftPos, rightPos;
        // if incresing a value to more than 9 the value to left (offset) need incrementing
        int offset, offsetPos;
        boolean offsetUpdated;
        // To update the string with new values
        String insert;
        boolean hasAltered = false;

        for(int i = 0; i < length/2; i++){
            leftPos = i; 
            rightPos = (length-1) - i;
            offsetPos = rightPos -1; offsetUpdated = false;

            // set values at opposite indices and offset
            left = Integer.parseInt(String.valueOf(theNumber.charAt(leftPos)));
            right = Integer.parseInt(String.valueOf(theNumber.charAt(rightPos)));
            offset = Integer.parseInt(String.valueOf(theNumber.charAt(offsetPos)));

            if(left != right){
                // if r > l then offest needs updating
                if(right > left){
                    // update and replace
                    right = left;
                    insert = Integer.toString(right);

                    theNumber.replace(rightPos, rightPos + 1, insert);

                    offset++; if (offset == 10) offset = 0;
                    insert = Integer.toString(offset);

                    theNumber.replace(offsetPos, offsetPos + 1, insert);
                    offsetUpdated = true;

                    // then we need to update the value to left again
                    while (offset == 0 && offsetUpdated){ 
                        offsetPos--;
                        offset =
                            Integer.parseInt(String.valueOf(theNumber.charAt(offsetPos)));
                        offset++; if (offset == 10) offset = 0;
                        // replace
                        insert = Integer.toString(offset);
                        theNumber.replace(offsetPos, offsetPos + 1, insert);
                    }
                    // finally incase right and offset are the two middle values
                    left = Integer.parseInt(String.valueOf(theNumber.charAt(leftPos)));
                    if (right != left){
                        right = left;
                        insert = Integer.toString(right);
                        theNumber.replace(rightPos, rightPos + 1, insert);
                    }
                }// if r > l
                else
                    // update and replace
                    right = left;
                    insert = Integer.toString(right);
                    theNumber.replace(rightPos, rightPos + 1, insert);           
            }// if l != r
        }// for i
        System.out.println(theNumber.toString());
    }// palindrome
}

Finally my explaination and question.

My code compares either end and then moves in
    if left and right are not equal
        if right is greater than left
            (increasing right past 9 should increase the digit
             to its left i.e 09 ---- > 10) and continue to do
             so if require as for 89999, increasing the right
             most 9 makes the value 90000

             before updating my string we check that the right
             and left are equal, because in the middle e.g 78849887
             we set the 9 --> 4 and increase 4 --> 5, so we must cater for this.

The problem is from spoj.pl an online judge system. My code works for all the test can provide but when I submit it, I get a time limit exceeded error and my answer is not accepted.

Does anyone have any suggestions as to how I can improve my algorithm. While writing this question i thought that instead of my while (offset == 0 && offsetUpdated) loop i could use a boolean to to make sure i increment the offset on my next [i] iteration. Confirmation of my chang or any suggestion would be appreciated, also let me know if i need to make my question clearer.

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1  
Your code doesn't seem to handle the test case (808 is handled incorrectly). –  n.m. Oct 28 '11 at 22:07
    
very good point but adding one to the input will fix that, and it doesnt help with the efficiency. –  Mead3000 Oct 28 '11 at 22:09
    
thanks for pointing it out though –  Mead3000 Oct 28 '11 at 22:17
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7 Answers

up vote 15 down vote accepted

This seems like a lot of code. Have you tried a very naive approach yet? Checking whether something is a palindrome is actually very simple.

private boolean isPalindrome(int possiblePalindrome) {
    String stringRepresentation = String.valueOf(possiblePalindrome);
    if ( stringRepresentation.equals(stringRepresentation.reverse()) ) {
       return true;
    }
}

Now that might not be the most performant code, but it gives you a really simple starting point:

private int nextLargestPalindrome(int fromNumber) {
    for ( int i = fromNumber + 1; ; i++ ) {
        if ( isPalindrome( i ) ) {
            return i;
        }
    }
}

Now if that isn't fast enough you can use it as a reference implementation and work on decreasing the algorithmic complexity.

There should actually be a constant-time (well it is linear on the number of digits of the input) way to find the next largest palindrome. I will give an algorithm that assumes the number is an even number of digits long (but can be extended to an odd number of digits).

  1. Find the decimal representation of the input number ("2133").
  2. Split it into the left half and right half ("21", "33");
  3. Compare the last digit in the left half and the first digit in the right half.
    a. If the right is greater than the left, increment the left and stop. ("22")
    b. If the right is less than the left, stop.
    c. If the right is equal to the left, repeat step 3 with the second-last digit in the left and the second digit in the right (and so on).
  4. Take the left half and append the left half reversed. That's your next largest palindrome. ("2222")

Applied to a more complicated number:

1.    1234567887654322
2.    12345678   87654322
3.    12345678   87654322
             ^   ^         equal
3.    12345678   87654322
            ^     ^        equal
3.    12345678   87654322
           ^       ^       equal
3.    12345678   87654322
          ^         ^      equal
3.    12345678   87654322
         ^           ^     equal
3.    12345678   87654322
        ^             ^    equal
3.    12345678   87654322
       ^               ^   equal
3.    12345678   87654322
      ^                 ^  greater than, so increment the left

3.    12345679

4.    1234567997654321  answer

This seems a bit similar to the algorithm you described, but it starts at the inner digits and moves to the outer.

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1  
The number can have up to 1000000 digits so an int is out of the question. With your algorithm I for the number like 8999 increasing calues in the second half should have an effect on the first half –  Mead3000 Oct 28 '11 at 21:19
1  
@Mead: That probably means you can rule the naive approach out. For the algorithm I posted, there is nothing that says you ever need to store these things as binary numbers. You can just deal with Strings the entire time. –  Mark Peters Oct 28 '11 at 21:24
    
Also for the algorithm I posted I'm not sure what trouble it would have handling 8999. You'd end up incrementing 89 to 90 (since 9>8) and would construct 9009. There will be corner cases around something like 9999 though, when the number of digits increases. But I'll leave the corner cases (and dealing with odd digit numbers) to you. –  Mark Peters Oct 28 '11 at 21:27
    
thanks, I will try when I get home. –  Mead3000 Oct 28 '11 at 21:34
1  
you can improve this if you split the whole string / char traits, reverse the rhs substring and compare them. if the rhs is larger, increment lhs by one. afterwards result is lhs^lhs_reversed. for odd #digits just figure out if the middle char has to be incremented or not and do the obvious things –  b.buchhold Oct 28 '11 at 21:58
show 11 more comments

Well I have constant order solution(atleast of order k, where k is number of digits in the number)

Lets take some examples suppose n=17208

divide the number into two parts from middle and reversibly write the most significant part onto the less significant one. ie, 17271 if the so generated number is greater than your n it is your palindrome, if not just increase the center number(pivot) ie, you get 17371

other examples

n=17286 palidrome-attempt=17271(since it is less than n increment the pivot, 2 in this case) so palidrome=17371

n=5684 palidrome1=5665 palidrome=5775

n=458322 palindrome=458854

now suppose n = 1219901 palidrome1=1219121 incrementing the pivot makes my number smaller here so increment the number adjacent pivot too 1220221

and this logic could be extended

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Try this

public static String genNextPalin(String base){
    //check if it is 1 digit
    if(base.length()==1){
        if(Integer.parseInt(base)==9)
            return "11";
        else
            return (Integer.parseInt(base)+1)+"";
    }
    boolean check = true;
    //check if it is all 9s
    for(char a: base.toCharArray()){
        if(a!='9')
            check = false;
    }
    if(check){
        String num = "1";
        for(int i=0; i<base.length()-1; i++)
            num+="0";
        num+="1";
        return num;
    }

    boolean isBasePalin = isPalindrome(base);
    int mid = base.length()/2;
    if(isBasePalin){
        //if base is palin and it is odd increase mid and return
        if(base.length()%2==1){
            BigInteger leftHalf = new BigInteger(base.substring(0,mid+1));
            String newLeftHalf = leftHalf.add(BigInteger.ONE).toString();
            String newPalin = genPalin2(newLeftHalf.substring(0,mid),newLeftHalf.charAt(mid));
            return newPalin;
        }
        else{
            BigInteger leftHalf = new BigInteger(base.substring(0,mid));
            String newLeftHalf = leftHalf.add(BigInteger.ONE).toString();
            String newPalin = genPalin(newLeftHalf.substring(0,mid));
            return newPalin;
        }
    }
    else{
        if(base.length()%2==1){
            BigInteger leftHalf = new BigInteger(base.substring(0,mid));
            BigInteger rightHalf = new BigInteger(reverse(base.substring(mid+1,base.length())));

            //check if leftHalf is greater than right half
            if(leftHalf.compareTo(rightHalf)==1){
                String newPalin = genPalin2(base.substring(0,mid),base.charAt(mid));
                return newPalin;
            }
            else{
                BigInteger leftHalfMid = new BigInteger(base.substring(0,mid+1));
                String newLeftHalfMid = leftHalfMid.add(BigInteger.ONE).toString();
                String newPalin = genPalin2(newLeftHalfMid.substring(0,mid),newLeftHalfMid.charAt(mid));
                return newPalin;
            }
        }
        else{
            BigInteger leftHalf = new BigInteger(base.substring(0,mid));
            BigInteger rightHalf = new BigInteger(reverse(base.substring(mid,base.length())));

            //check if leftHalf is greater than right half
            if(leftHalf.compareTo(rightHalf)==1){
                return genPalin(base.substring(0,mid));
            }
            else{
                BigInteger leftHalfMid = new BigInteger(base.substring(0,mid));
                String newLeftHalfMid = leftHalfMid.add(BigInteger.ONE).toString(); 
                return genPalin(newLeftHalfMid);
            }
        }
    }
}

public static String genPalin(String base){
    return base + new StringBuffer(base).reverse().toString();
}
public static String genPalin2(String base, char middle){
    return base + middle +new StringBuffer(base).reverse().toString();
}

public static String reverse(String in){
    return new StringBuffer(in).reverse().toString();
}

static boolean isPalindrome(String str) {    
    int n = str.length();
    for( int i = 0; i < n/2; i++ )
        if (str.charAt(i) != str.charAt(n-i-1)) 
            return false;
    return true;    
}
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HI Here is another simple algorithm using python,

  def is_palindrome(n):
      if len(n) <= 1:
          return False
      else:
          m = len(n)/2
          for i in range(m):
              j = i + 1
              if n[i] != n[-j]:
                  return False
          return True

  def next_palindrome(n):
      if not n:
          return False
      else:
          if is_palindrome(n) is True:
              return n
          else:
             return next_palindrome(str(int(n)+1))

  print next_palindrome('1000010')
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Here is my code in java. Whole idea is from here http://www.geeksforgeeks.org/given-a-number-find-next-smallest-palindrome-larger-than-this-number/

import java.util.Scanner;

public class Main {

public static void main(String[] args) {

    Scanner sc = new Scanner(System.in);
    System.out.println("Enter number of tests: ");
    int t = sc.nextInt();

    for (int i = 0; i < t; i++) {
        System.out.println("Enter number: ");
        String numberToProcess = sc.next(); // ne proveravam dal su brojevi
        nextSmallestPalindrom(numberToProcess);
    }
}

private static void nextSmallestPalindrom(String numberToProcess) {


    int i, j;

    int length = numberToProcess.length();
    int[] numberAsIntArray = new int[length];
    for (int k = 0; k < length; k++)
        numberAsIntArray[k] = Integer.parseInt(String
                .valueOf(numberToProcess.charAt(k)));

    numberToProcess = null;

    boolean all9 = true;
    for (int k = 0; k < length; k++) {
        if (numberAsIntArray[k] != 9) {
            all9 = false;
            break;
        }
    }
    // case 1, sve 9ke
    if (all9) {
        whenAll9(length);
        return;
    }

    int mid = length / 2;
    if (length % 2 == 0) {
        i = mid - 1;
        j = mid;
    } else {
        i = mid - 1;
        j = mid + 1;
    }

    while (i >= 0 && numberAsIntArray[i] == numberAsIntArray[j]) {
        i--;
        j++;
    }
    // case 2 already polindrom
    if (i == -1) {
        if (length % 2 == 0) {
            i = mid - 1;
            j = mid;
        } else {
            i = mid;
            j = i;
        }
        addOneToMiddleWithCarry(numberAsIntArray, i, j, true);

    } else {
        // case 3 not polindrom
        if (numberAsIntArray[i] > numberAsIntArray[j]) { // 3.1)

            while (i >= 0) {
                numberAsIntArray[j] = numberAsIntArray[i];
                i--;
                j++;
            }
            for (int k = 0; k < numberAsIntArray.length; k++)
                System.out.print(numberAsIntArray[k]);
            System.out.println();
        } else { // 3.2 like case 2
            if (length % 2 == 0) {
                i = mid - 1;
                j = mid;
            } else {
                i = mid;
                j = i;
            }
            addOneToMiddleWithCarry(numberAsIntArray, i, j, false);
        }
    }
}

private static void whenAll9(int length) {

    for (int i = 0; i <= length; i++) {
        if (i == 0 || i == length)
            System.out.print('1');
        else
            System.out.print('0');
    }
}

private static void addOneToMiddleWithCarry(int[] numberAsIntArray, int i,
        int j, boolean palindrom) {
    numberAsIntArray[i]++;
    numberAsIntArray[j] = numberAsIntArray[i];
    while (numberAsIntArray[i] == 10) {
        numberAsIntArray[i] = 0;
        numberAsIntArray[j] = numberAsIntArray[i];
        i--;
        j++;
        numberAsIntArray[i]++;
        numberAsIntArray[j] = numberAsIntArray[i];
    }

    if (!palindrom)
        while (i >= 0) {
            numberAsIntArray[j] = numberAsIntArray[i];
            i--;
            j++;
        }

    for (int k = 0; k < numberAsIntArray.length; k++)
        System.out.print(numberAsIntArray[k]);
    System.out.println();
}

}

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Try this:

public class TheNextPalindrome {

    public static void main(String... args) {
        System.out.println(findNextPalindrome("9999999"));
    }

    public static String findNextPalindrome(String number) {
        Integer integer = Integer.valueOf(number);
        String nextNum;
        do {
            nextNum = (++integer).toString();
        } while(!isPalindrome(nextNum));
        return nextNum;
    }

    public static boolean isPalindrome(String number) {        
        return number.equals(new StringBuilder(number).reverse().toString());
    }    
}
share|improve this answer
1  
try it on a number like 1000000000000000000000000000000000000000002. –  n.m. Oct 28 '11 at 21:52
    
can you even apply the ++ operand to Integer type? also the number can have upto 1000000 digits so and Integer wont cut it im pretty sure –  Mead3000 Oct 28 '11 at 21:52
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Simple codes and test output:

class NextPalin
{
public static void main( String[] args )
{
    try {
        int[] a = {2, 23, 88, 234, 432, 464, 7887, 7657, 34567, 99874, 7779222, 2569981, 3346990, 229999, 2299999 };
        for( int i=0; i<a.length; i++)
        {
            int add = findNextPalin(a[i]);
            System.out.println( a[i] + "  +  "  + add +  "  = "  + (a[i]+add)  );
        }
    }
    catch( Exception e ){}
}

static int findNextPalin( int a ) throws Exception
{
    if( a < 0 ) throw new Exception();
    if( a < 10 ) return a;

    int count = 0, reverse = 0, temp = a;
    while( temp > 0 ){
        reverse = reverse*10 + temp%10;
        count++;
        temp /= 10;
    }

    //compare 'half' value
    int halfcount = count/2;
    int base = (int)Math.pow(10, halfcount );
    int reverseHalfValue = reverse % base;
    int currentHalfValue = a % base;

    if( reverseHalfValue == currentHalfValue ) return 0;
    if( reverseHalfValue > currentHalfValue )  return  (reverseHalfValue - currentHalfValue);

    if(  (((a-currentHalfValue)/base)%10) == 9 ){
        //cases like 12945 or 1995
        int newValue = a-currentHalfValue + base*10;
        int diff = findNextPalin(newValue);
        return base*10 - currentHalfValue + diff;
    }
    else{
        return (base - currentHalfValue + reverseHalfValue );
    }
}
}

$ java NextPalin
2  +  2  = 4
23  +  9  = 32
88  +  0  = 88
234  +  8  = 242
432  +  2  = 434
464  +  0  = 464
7887  +  0  = 7887
7657  +  10  = 7667
34567  +  76  = 34643
99874  +  25  = 99899
7779222  +  555  = 7779777
2569981  +  9771  = 2579752
3346990  +  443  = 3347433
229999  +  9933  = 239932
2299999  +  9033  = 2309032
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1  
(1) A code dump is not an answer. Perhaps explain what you did, how it works, etc. (2) You did see that part about the number having up to a million digits, right? Ints aren't gonna work...not by a longshot. –  cHao Jun 18 '13 at 4:28
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