/*
* @Author: hungeazy
* @Date:   2025-05-20 23:36:43
* @Last Modified by:   hungeazy
* @Last Modified time: 2025-05-20 23:49:31
*/
#include <bits/stdc++.h>
#include <ext/pb_ds/assoc_container.hpp> 
#include <ext/pb_ds/tree_policy.hpp> 
// #pragma GCC optimize("O3")  
// #pragma GCC optimize("unroll-loops")  
// #pragma GCC target("avx2,bmi,bmi2,popcnt,lzcnt")  
using namespace std;
using namespace __gnu_pbds; 
bool M1;
#define fast ios_base::sync_with_stdio(false); cin.tie(NULL); cout.tie(NULL);
#define int long long
#define ll long long 
#define ull unsigned long long
#define sz(x) x.size()
#define sqr(x) (1LL * (x) * (x))
#define all(x) x.begin(), x.end()
#define fill(f,x) memset(f,x,sizeof(f))
#define FOR(i,l,r) for(int i=l;i<=r;i++)
#define FOD(i,r,l) for(int i=r;i>=l;i--)
#define debug(x) cout << #x << " = " << x << '\n'
#define ii pair<int,int>
#define iii pair<int,ii>
#define di pair<ii,ii>
#define vi vector<int>
#define vii vector<ii>
#define mii map<int,int>
#define fi first
#define se second
#define pb push_back
#define MOD 1000000007
#define __lcm(a,b) (1ll * ((a) / __gcd((a), (b))) * (b))
#define YES cout << "YES\n"
#define NO cout << "NO\n"
#define MASK(i) (1LL << (i))
#define c_bit(i) __builtin_popcountll(i)
#define BIT(x,i) ((x) & MASK(i))
#define SET_ON(x,i) ((x) | MASK(i))
#define SET_OFF(x,i) ((x) & ~MASK(i))
#define oo 1e18
#define name "weather"
#define endl '\n'
#define memory() cerr << abs(&M2-&M1)/1024.0/1024 << " MB" << endl
#define time() cerr << endl << "-------------Time:" << 1000.0 * clock() / CLOCKS_PER_SEC << "ms." << endl
template<typename T> bool maximize(T &res, const T &val) { if (res < val){ res = val; return true; }; return false; }
template<typename T> bool minimize(T &res, const T &val) { if (res > val){ res = val; return true; }; return false; }
template <class T> using ordered_set = tree <T, null_type, less_equal <T>, rb_tree_tag,tree_order_statistics_node_update>;
const int N = 365;
int n;
int dx[] = {0,-1,1,0,0,-2,2,0,0},
	dy[] = {0,0,0,-1,1,0,0,-2,2};
 
namespace hungeazy {
 
	int ok[N][3][3][7][7][7][7],fes[N+1][4][4];
 
	struct Node {
		int d,x,y,s0,s1,s2,s3;
	};
 
	bool check(Node &cur)
	{
		if (fes[cur.d][cur.x][cur.y] or fes[cur.d][cur.x+1][cur.y] or
		fes[cur.d][cur.x+1][cur.y+1] or fes[cur.d][cur.x][cur.y+1]) return false;
		if (!cur.x and !cur.y) cur.s0 = 0;
		else if (!cur.x and cur.y == 2) cur.s1 = 0;
		else if (cur.x == 2 and !cur.y) cur.s2 = 0;
		else if (cur.x == 2 and cur.y == 2) cur.s3 = 0;
		if (cur.s0 > 6 or cur.s1 > 6 or cur.s2 > 6 or cur.s3 > 6) return false;
		return true;
	}
 
	bool checkXY(int x, int y)
	{
		return (x >= 0 and x <= 2 and y >= 0 and y <= 2);
	}
 
	bool BFS()
	{
		queue<Node> q;
		Node start = {0,1,1,1,1,1,1};
		if (!check(start)) return false;
		q.push(start);
		ok[0][1][1][1][1][1][1] = 1;
		while (!q.empty())
		{
			Node u = q.front(); 
			q.pop();
			if (u.d == n-1) return true;
			int x = u.x, y = u.y, d = u.d;
			FOR(s,0,8)
			{
				int newX = x+dx[s], newY = y+dy[s];
				if (!checkXY(newX,newY)) continue;
				Node v = {d+1,newX,newY,u.s0+1,u.s1+1,u.s2+1,u.s3+1};
				if (check(v) and !ok[v.d][v.x][v.y][v.s0][v.s1][v.s2][v.s3])
				{
					q.push(v);
					ok[v.d][v.x][v.y][v.s0][v.s1][v.s2][v.s3] = true;
				}
			}
		}
		return false;
	}
 
	void solve(void)
	{		
		fill(ok,0LL);
		FOR(i,0,n-1)
			FOR(j,0,3)
				FOR(k,0,3) cin >> fes[i][j][k];
		if (BFS()) cout << 1 << endl;
		else cout << 0 << endl;
	}
 
}
 
bool M2;
signed main()
{
    fast;
    if (fopen(name".inp","r"))
    {
    	freopen(name".inp","r",stdin);
    	freopen(name".out","w",stdout);
    }
    while (cin >> n) 
    {
    	if (!n) exit(0);
    	hungeazy::solve();
    }
    time();
    memory();
    return 0;
}
// ██░ ██  █    ██  ███▄    █   ▄████
//▓██░ ██▒ ██  ▓██▒ ██ ▀█   █  ██▒ ▀█▒
//▒██▀▀██░▓██  ▒██░▓██  ▀█ ██▒▒██░▄▄▄░
//░▓█ ░██ ▓▓█  ░██░▓██▒  ▐▌██▒░▓█  ██▓
//░▓█▒░██▓▒▒█████▓ ▒██░   ▓██░░▒▓███▀▒
// ▒ ░░▒░▒░▒▓▒ ▒ ▒ ░ ▒░   ▒ ▒  ░▒   ▒
// ▒ ░▒░ ░░░▒░ ░ ░ ░ ░░   ░ ▒░  ░   ░
// ░  ░░ ░ ░░░ ░ ░    ░   ░ ░ ░ ░   ░
// ░  ░  ░   ░              ░       ░
 

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