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FindTheClosestPalindrome.java
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FindTheClosestPalindrome.java
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package string;
/**
* Created by gouthamvidyapradhan on 21/04/2018. Given an integer n, find the closest integer (not
* including itself), which is a palindrome.
*
* <p>The 'closest' is defined as absolute difference minimized between two integers.
*
* <p>Example 1: Input: "123" Output: "121" Note: The input n is a positive integer represented by
* string, whose length will not exceed 18. If there is a tie, return the smaller one as answer.
*
* <p>Solution O(N): General idea is to consider the first half of the string and make a new string
* by reversing the first half of string. Concatenate the first_half and the new_string and return
* this as an answer. There are also a lot of edge cases to be considered using this approach.
*/
public class FindTheClosestPalindrome {
public static void main(String[] args) throws Exception {
System.out.println(new FindTheClosestPalindrome().nearestPalindromic("1837722381"));
}
public String nearestPalindromic(String n) {
if (n.length() == 1) return String.valueOf(Integer.parseInt(n) - 1);
String p1, p2;
String palindrome;
if (isPaliandrome(n)) {
String newFirstHalf;
if (n.length() % 2 == 0) {
String firstHalf = n.substring(0, n.length() / 2);
newFirstHalf = String.valueOf(Long.parseLong(firstHalf) - 1);
p1 = newFirstHalf + new StringBuilder(newFirstHalf).reverse();
newFirstHalf = String.valueOf(Long.parseLong(firstHalf) + 1);
p2 = newFirstHalf + new StringBuilder(newFirstHalf).reverse();
} else {
String firstHalf = n.substring(0, n.length() / 2);
char middle = n.charAt(n.length() / 2);
if (middle == '0') {
p1 = firstHalf + "1" + new StringBuilder(firstHalf).reverse();
} else {
p1 =
firstHalf
+ (Integer.parseInt(String.valueOf(middle)) - 1)
+ new StringBuilder(firstHalf).reverse();
}
newFirstHalf = String.valueOf(Long.parseLong(firstHalf) + 1);
p2 = newFirstHalf + "0" + new StringBuilder(newFirstHalf).reverse();
}
} else {
String firstHalf = n.substring(0, n.length() / 2);
if (n.length() % 2 == 0) {
p1 = firstHalf + new StringBuilder(firstHalf).reverse();
String temp = String.valueOf(Long.parseLong(firstHalf) + 1);
p2 = temp + new StringBuilder(temp).reverse();
temp = String.valueOf(Long.parseLong(firstHalf) - 1);
String p3 = temp + new StringBuilder(temp).reverse();
p1 =
Math.abs(Long.parseLong(p3) - Long.parseLong(n))
<= Math.abs(Long.parseLong(p1) - Long.parseLong(n))
? p3
: p1;
} else {
char middle = n.charAt(n.length() / 2);
p1 = firstHalf + middle + new StringBuilder(firstHalf).reverse();
String temp = String.valueOf(Long.parseLong(firstHalf) + 1);
p2 = temp + "0" + new StringBuilder(temp).reverse();
String p3 =
firstHalf
+ (Integer.parseInt(String.valueOf(middle)) + 1)
+ new StringBuilder(firstHalf).reverse();
String p4 = null;
if (middle != '0') {
p4 =
firstHalf
+ (Integer.parseInt(String.valueOf(middle)) - 1)
+ new StringBuilder(firstHalf).reverse();
}
p1 =
Math.abs(Long.parseLong(p1) - Long.parseLong(n))
<= Math.abs(Long.parseLong(p3) - Long.parseLong(n))
? p1
: p3;
if (p4 != null) {
p1 =
Math.abs(Long.parseLong(p4) - Long.parseLong(n))
<= Math.abs(Long.parseLong(p1) - Long.parseLong(n))
? p4
: p1;
}
}
}
long l1 = Math.abs(Long.parseLong(n) - Long.parseLong(p1));
long l2 = Math.abs(Long.parseLong(n) - Long.parseLong(p2));
if (l1 <= l2) {
palindrome = p1;
} else palindrome = p2;
long m1 = Math.abs(Long.parseLong(getLow(n)) - Long.parseLong(n));
long m2 = Math.abs(Long.parseLong(palindrome) - Long.parseLong(n));
long m3 = Math.abs(Long.parseLong(getHigh(n)) - Long.parseLong(n));
long min = Math.min(Math.min(m1, m2), m3);
if (min == m1) return getLow(n);
else if (min == m2) return palindrome;
else return getHigh(n);
}
private String getLow(String s) {
int n = s.length() - 1;
StringBuilder sb = new StringBuilder();
for (int i = 0; i < n; i++) {
sb.append("9");
}
return sb.toString();
}
private String getHigh(String s) {
int n = s.length() - 1;
StringBuilder sb = new StringBuilder();
sb.append("1");
for (int i = 0; i < n; i++) {
sb.append("0");
}
sb.append("1");
return sb.toString();
}
private boolean isPaliandrome(String s) {
for (int i = 0, j = s.length() - 1; i < j; i++, j--) {
if (s.charAt(i) != s.charAt(j)) {
return false;
}
}
return true;
}
}