A sequence of $$$n$$$ numbers is called permutation if it contains all numbers from $$$1$$$ to $$$n$$$ exactly once. For example, the sequences $$$[3, 1, 4, 2]$$$, [$$$1$$$] and $$$[2,1]$$$ are permutations, but $$$[1,2,1]$$$, $$$[0,1]$$$ and $$$[1,3,4]$$$ are not.

For a given number $$$n$$$ you need to make a permutation $$$p$$$ such that two requirements are satisfied at the same time:

• For each element $$$p_i$$$, at least one of its neighbors has a value that differs from the value of $$$p_i$$$ by one. That is, for each element $$$p_i$$$ ($$$1 \le i \le n$$$), at least one of its neighboring elements (standing to the left or right of $$$p_i$$$) must be $$$p_i + 1$$$, or $$$p_i - 1$$$.
• the permutation must have no fixed points. That is, for every $$$i$$$ ($$$1 \le i \le n$$$), $$$p_i \neq i$$$ must be satisfied.

Let's call the permutation that satisfies these requirements funny.

For example, let $$$n = 4$$$. Then [$$$4, 3, 1, 2$$$] is a funny permutation, since:

• to the right of $$$p_1=4$$$ is $$$p_2=p_1-1=4-1=3$$$;
• to the left of $$$p_2=3$$$ is $$$p_1=p_2+1=3+1=4$$$;
• to the right of $$$p_3=1$$$ is $$$p_4=p_3+1=1+1=2$$$;
• to the left of $$$p_4=2$$$ is $$$p_3=p_4-1=2-1=1$$$.
• for all $$$i$$$ is $$$p_i \ne i$$$.

For a given positive integer $$$n$$$, output any funny permutation of length $$$n$$$, or output -1 if funny permutation of length $$$n$$$ does not exist.