| | #include <algorithm> |
| | #include <iostream> |
| | #include <vector> |
| | using namespace std; |
| |
|
| | using int64 = long long; |
| |
|
| | int N, M; |
| | vector<vector<int>> A; |
| | vector<vector<int64>> dpl, dpr; |
| | vector<vector<vector<int64>>> dp; |
| |
|
| | int64 rec(int dir, int x, int y) { |
| | if (dp[dir][x][y] != -1LL) { |
| | return dp[dir][x][y]; |
| | } |
| | int64 res = dpr[0][0]; |
| | if (dir) { |
| | int64 extra_exit = (y + 2 < M) ? dpr[x][y + 2] : 0; |
| | int64 max_cost = extra_exit; |
| | for (int ty = y; ty >= 0; --ty) { |
| | int64 best_entrance = 0LL; |
| | if (x) { |
| | best_entrance = max(best_entrance, dpl[x - 1][ty]); |
| | if (ty != y) { |
| | best_entrance = max(best_entrance, dpl[x - 1][ty + 1]); |
| | } |
| | } |
| | int64 best_exit = extra_exit; |
| | if (x + 1 != N && ty + 1 != M) { |
| | best_exit = max(best_exit, dpr[x + 1][ty + 1]); |
| | } |
| | max_cost = max(max_cost, best_entrance + best_exit); |
| | if (ty) { |
| | best_entrance = max(best_entrance, dpl[x][ty - 1]); |
| | } |
| | int64 local_max_cost = max(max_cost, best_entrance + best_exit); |
| | if (x + 1 != N || !ty) { |
| | int64 cur = (x + 1 == N) ? 0LL : rec(dir ^ 1, x + 1, ty); |
| | cur = max(cur, local_max_cost); |
| | res = min(res, cur); |
| | } |
| | } |
| | } else { |
| | int64 extra_entrance = (x - 2 >= 0) ? dpl[x - 2][y] : 0; |
| | int64 max_cost = extra_entrance; |
| | for (int tx = x; tx < N; ++tx) { |
| | int64 best_exit = 0LL; |
| | if (y + 1 != M) { |
| | best_exit = max(best_exit, dpr[tx][y + 1]); |
| | if (tx != x) { |
| | best_exit = max(best_exit, dpr[tx - 1][y + 1]); |
| | } |
| | } |
| | int64 best_entrance = extra_entrance; |
| | if (y && tx) { |
| | best_entrance = max(best_entrance, dpl[tx - 1][y - 1]); |
| | } |
| | max_cost = max(max_cost, best_entrance + best_exit); |
| | if (tx + 1 != N) { |
| | best_exit = max(best_exit, dpr[tx + 1][y]); |
| | } |
| | int64 local_max_cost = max(max_cost, best_entrance + best_exit); |
| | if (y || tx + 1 == N) { |
| | int64 cur = y ? rec(dir ^ 1, tx, y - 1) : 0LL; |
| | cur = max(cur, local_max_cost); |
| | res = min(res, cur); |
| | } |
| | } |
| | } |
| | return dp[dir][x][y] = res; |
| | } |
| |
|
| | int64 solve() { |
| | cin >> N >> M; |
| | A.assign(N, vector<int>(M)); |
| | for (int i = 0; i < N; i++) { |
| | for (int j = 0; j < M; j++) { |
| | cin >> A[i][j]; |
| | } |
| | } |
| | dpl.assign(N, vector<int64>(M)); |
| | dpr.assign(N, vector<int64>(M)); |
| | for (int i = 0; i < N; i++) { |
| | for (int j = 0; j < M; j++) { |
| | dpl[i][j] = A[i][j]; |
| | if (i) { |
| | dpl[i][j] = max(dpl[i][j], A[i][j] + dpl[i - 1][j]); |
| | } |
| | if (j) { |
| | dpl[i][j] = max(dpl[i][j], A[i][j] + dpl[i][j - 1]); |
| | } |
| | } |
| | } |
| | for (int i = N - 1; i >= 0; i--) { |
| | for (int j = M - 1; j >= 0; j--) { |
| | dpr[i][j] = A[i][j]; |
| | if (i + 1 != N) { |
| | dpr[i][j] = max(dpr[i][j], A[i][j] + dpr[i + 1][j]); |
| | } |
| | if (j + 1 != M) { |
| | dpr[i][j] = max(dpr[i][j], A[i][j] + dpr[i][j + 1]); |
| | } |
| | } |
| | } |
| | dp.assign(2, vector<vector<int64>>(N, vector<int64>(M, -1LL))); |
| | return min(rec(0, 0, M - 1), rec(1, 0, M - 1)); |
| | } |
| |
|
| | int main() { |
| | int T; |
| | cin >> T; |
| | for (int t = 1; t <= T; t++) { |
| | cout << "Case #" << t << ": " << solve() << endl; |
| | } |
| | return 0; |
| | } |
| |
|
