A brick is a strip of size $$$1 \times k$$$, placed horizontally or vertically, where $$$k$$$ can be an arbitrary number that is at least $$$2$$$ ($$$k \ge 2$$$).

A brick wall of size $$$n \times m$$$ is such a way to place several bricks inside a rectangle $$$n \times m$$$, that all bricks lie either horizontally or vertically in the cells, do not cross the border of the rectangle, and that each cell of the $$$n \times m$$$ rectangle belongs to exactly one brick. Here $$$n$$$ is the height of the rectangle $$$n \times m$$$ and $$$m$$$ is the width. Note that there can be bricks with different values of k in the same brick wall.

The wall stability is the difference between the number of horizontal bricks and the number of vertical bricks. Note that if you used $$$0$$$ horizontal bricks and $$$2$$$ vertical ones, then the stability will be $$$-2$$$, not $$$2$$$.

What is the maximal possible stability of a wall of size $$$n \times m$$$?

It is guaranteed that under restrictions in the statement at least one $$$n \times m$$$ wall exists.