During a daily walk Alina noticed a long number written on the ground. Now Alina wants to find some positive number of same length without leading zeroes, such that the sum of these two numbers is a palindrome.
Recall that a number is called a palindrome, if it reads the same right to left and left to right. For example, numbers $$$121, 66, 98989$$$ are palindromes, and $$$103, 239, 1241$$$ are not palindromes.
Alina understands that a valid number always exist. Help her find one!
The first line of input data contains an integer $$$t$$$ ($$$1 \leq t \leq 100$$$) — the number of test cases. Next, descriptions of $$$t$$$ test cases follow.
The first line of each test case contains a single integer $$$n$$$ ($$$2 \leq n \leq 100\,000$$$) — the length of the number that is written on the ground.
The second line of contains the positive $$$n$$$-digit integer without leading zeroes — the number itself.
It is guaranteed that the sum of the values $$$n$$$ over all test cases does not exceed $$$100\,000$$$.
For each of $$$t$$$ test cases print an answer — a positive $$$n$$$-digit integer without leading zeros, such that the sum of the input integer and this number is a palindrome.
We can show that at least one number satisfying the constraints exists. If there are multiple solutions, you can output any of them.
3 2 99 4 1023 3 385
32 8646 604
In the first test case $$$99 + 32 = 131$$$ is a palindrome. Note that another answer is $$$12$$$, because $$$99 + 12 = 111$$$ is also a palindrome.
In the second test case $$$1023 + 8646 = 9669$$$.
In the third test case $$$385 + 604 = 989$$$.
| Codeforces Round 802 (Div. 2) |
|---|
| Finished |
