# Problem G

Tray Bien

André Claude Marzipan is the head chef at the French restaurant Le Chaud Chien. He owns a vast number of baking trays, which come in two sizes: $1$ foot by $1$ foot, and $1$ foot by $2$ feet. He stores them along $3$-foot deep shelves of various lengths. For example, on a shelf that is $5$ feet long, he might store baking trays in either of the two ways shown below:

Figure G.1

Of course, there are many more than just these two ways, and
in his off hours André often wonders how many different ways he
can place trays on a given shelf. André is a bit of *un
maniaque du rangement* (neat freak), so he insists that the
trays are always aligned along the two axes defined by the
shelf edges, that the edges of the trays are always
$1$ foot multiples away
from any edge, and that no portion of a tray extends beyond the
shelf. The matter is complicated by the fact that often there
are locations on the shelf where he does not want to put any
baking trays, due to leaks above the shelf, dents in the
shelf’s surface, etc. Since André is more adept at cuisine than
counting, he needs a little help.

## Input

The input consists of two lines: the first line will contain
two integers $m$
$n$, where $1\le m\leq 24$ indicates the length
of the shelf (which is always $3$-feet deep) and $n$ indicates the number of bad
locations on the shelf. The next line will contain $n$ coordinate pairs $x$ $y$ indicating the locations where
trays should not be placed, where $0<x<m$ and $0<y<3$. No location will have
integer coordinates and coordinates are specified to the
nearest hundredth. If $n=0$, this second line will be
blank.

## Output

Output the number of ways that trays could be placed on the shelf.

Sample Input 1 | Sample Output 1 |
---|---|

4 0 |
823 |

Sample Input 2 | Sample Output 2 |
---|---|

4 2 0.29 2.44 2.73 1.8 |
149 |