There is a $10^{100} \times 7$ matrix $A$, where the $(i,j)$-th entry is $(i-1) \times 7 + j$ for every pair of integers $(i,j)\ (1 \leq i \leq 10^{100}, 1 \leq j \leq 7)$.
Given an $N \times M$ matrix $B$, determine whether $B$ is some (unrotated) rectangular part of $A$.

Input is given from Standard Input in the following format:
$N\ M$
$B_{1,1}\ B_{1,2}\ \ldots\ B_{1,M}$
$B_{2,1}\ B_{2,2}\ \ldots\ B_{2,M}$
$\hspace{1.6cm}\vdots$
$B_{N,1}\ B_{N,2}\ \ldots\ B_{N,M}$

If $B$ is some rectangular part of $A$, print Yes; otherwise, print No.

$1≤N≤10^4$
$1 \leq M \leq 7$
$1 \leq B_{i,j} \leq 10^9$
All values in input are integers.

Yes

The given matrix $B$ is the top-left $2 \times 3$ submatrix of $A$.

No

Although the given matrix $B$ would match the top-left $1 \times 2$ submatrix of $A$ after rotating $90$ degrees, the Problem Statement asks whether $B$ is an unrotated part of $A$, so the answer is No.