Alex and a Rhombus
Description
While playing with geometric figures Alex has accidentally invented a concept of a $n$-th order rhombus in a cell grid.
A $1$-st order rhombus is just a square $1 \times 1$ (i.e just a cell).
A $n$-th order rhombus for all $n \geq 2$ one obtains from a $n-1$-th order rhombus adding all cells which have a common side with it to it (look at the picture to understand it better).
Alex asks you to compute the number of cells in a $n$-th order rhombus.
The first and only input line contains integer $n$ ($1 \leq n \leq 100$) — order of a rhombus whose numbers of cells should be computed.
Print exactly one integer — the number of cells in a $n$-th order rhombus.
Input
The first and only input line contains integer $n$ ($1 \leq n \leq 100$) — order of a rhombus whose numbers of cells should be computed.
Output
Print exactly one integer — the number of cells in a $n$-th order rhombus.
Samples
1
1
2
5
3
13
Note
Images of rhombus corresponding to the examples are given in the statement.