PROBLEM STATEMENT
A palindrome is a number that is the same whether it is read from left-to-right
or right-to-left. For example, 121 and 34543 are both palindromes. It turns out
that nearly every integer can be transformed into a palindrome by reversing its
digits and adding it to the original number. If that does not create a
palindrome, add the reverse of the new number to itself. A palindrome is
created by repeating the process of reversing the number and adding it to
itself until the number is a palindrome.
Create a class Transform that contains the method palindrome, which takes a
number N that is to be transformed and returns a number that is the resultant
palindrome from this process. Of course if N is already a palindrome, return it
without changing it. Though it is theorized that all numbers can be transformed
to palindromes in this way, some numbers do not converge in a reasonable amount
of time. For instance, 196 has been carried out to 26,000 digits without
finding a palindrome. So if the method finds that the resultant palindrome must
be greater than 1,000,000,000, return the special value -1 instead.
DEFINITION
Class: Transform
Method: palindrome
Parameters: int
Returns: int
Method signature (be sure your method is public): int palindrome(int N);
NOTES
- Leading zeroes are never considered part of a number when it is reversed. For
instance, 12's reverse will always be 21 regardless of whether it is
represented as 12, 012, or 0012. Examples with leading zeroes use the leading
zeroes for clarity only.
TopCoder will ensure the validity of the inputs. Inputs are valid if all of
the following criteria are met:
- N will be between 1 and 10000 inclusive.
EXAMPLES
Worked examples:
Example 1: N = 28
28 + 82 = 110
110 + 011 = 121, a palindrome. Return 121
Example 2: N = 51
51 + 15 = 66, a palindrome. Return 66
Further examples:
Example 3: N = 11, return 11
Example 4: N = 607, return 4444
Example 5: N = 196, return -1