codeforces#P1758A. SSeeeeiinngg DDoouubbllee

SSeeeeiinngg DDoouubbllee

Description

A palindrome is a string that reads the same backward as forward. For example, the strings $\texttt{z}$, $\texttt{aaa}$, $\texttt{aba}$, and $\texttt{abccba}$ are palindromes, but $\texttt{codeforces}$ and $\texttt{ab}$ are not.

The double of a string $s$ is obtained by writing each character twice. For example, the double of $\texttt{seeing}$ is $\texttt{sseeeeiinngg}$.

Given a string $s$, rearrange its double to form a palindrome. Output the rearranged string. It can be proven that such a rearrangement always exists.

The first line of input contains $t$ ($1 \leq t \leq 1000$) — the number of test cases.

The only line of each test case contains a single string $s$ ($1 \leq |s| \leq 100$) consisting only of lowercase English letters.

Note that the sum of $|s|$ over all test cases is not bounded.

For each test case, output a palindromic string of length $2 \cdot |s|$ that is a rearrangement of the double of $s$.

Input

The first line of input contains $t$ ($1 \leq t \leq 1000$) — the number of test cases.

The only line of each test case contains a single string $s$ ($1 \leq |s| \leq 100$) consisting only of lowercase English letters.

Note that the sum of $|s|$ over all test cases is not bounded.

Output

For each test case, output a palindromic string of length $2 \cdot |s|$ that is a rearrangement of the double of $s$.

4
a
sururu
errorgorn
anutforajaroftuna
aa
suurruurruus
rgnororerrerorongr
aannuuttffoorraajjaarrooffttuunnaa

Note

In the first test case, the double of $\texttt{a}$ is $\texttt{aa}$, which is already a palindrome.

In the second test case, the double of $\texttt{sururu}$ is $\texttt{ssuurruurruu}$. If we move the first $\texttt{s}$ to the end, we get $\texttt{suurruurruus}$, which is a palindrome.

In the third test case, the double of $\texttt{errorgorn}$ is $\texttt{eerrrroorrggoorrnn}$. We can rearrange the characters to form $\texttt{rgnororerrerorongr}$, which is a palindrome.