You are given an integer $n$. You have to calculate the number of binary (consisting of characters 0 and/or 1) strings $s$ meeting the following constraints.

For every pair of integers $(i, j)$ such that $1 \le i \le j \le n$, an integer $a_{i,j}$ is given. It imposes the following constraint on the string $s_i s_{i+1} s_{i+2} \dots s_j$:

• if $a_{i,j} = 1$, all characters in $s_i s_{i+1} s_{i+2} \dots s_j$ should be the same;
• if $a_{i,j} = 2$, there should be at least two different characters in $s_i s_{i+1} s_{i+2} \dots s_j$;
• if $a_{i,j} = 0$, there are no additional constraints on the string $s_i s_{i+1} s_{i+2} \dots s_j$.

Count the number of binary strings $s$ of length $n$ meeting the aforementioned constraints. Since the answer can be large, print it modulo $998244353$.

The first line contains one integer $n$ ($2 \le n \le 100$).

Then $n$ lines follow. The $i$-th of them contains $n-i+1$ integers $a_{i,i}, a_{i,i+1}, a_{i,i+2}, \dots, a_{i,n}$ ($0 \le a_{i,j} \le 2$).

Print one integer — the number of strings meeting the constraints, taken modulo $998244353$.