Description#
You are given a m x n
matrix grid
. Initially, you are located at the top-left corner (0, 0)
, and in each step, you can only move right or down in the matrix.
Among all possible paths starting from the top-left corner (0, 0)
and ending in the bottom-right corner (m - 1, n - 1)
, find the path with the maximum non-negative product. The product of a path is the product of all integers in the grid cells visited along the path.
Return the maximum non-negative product modulo 109 + 7
. If the maximum product is negative, return -1
.
Notice that the modulo is performed after getting the maximum product.
Example 1:
Input: grid = [[-1,-2,-3],[-2,-3,-3],[-3,-3,-2]]
Output: -1
Explanation: It is not possible to get non-negative product in the path from (0, 0) to (2, 2), so return -1.
Example 2:
Input: grid = [[1,-2,1],[1,-2,1],[3,-4,1]]
Output: 8
Explanation: Maximum non-negative product is shown (1 * 1 * -2 * -4 * 1 = 8).
Example 3:
Input: grid = [[1,3],[0,-4]]
Output: 0
Explanation: Maximum non-negative product is shown (1 * 0 * -4 = 0).
Constraints:
m == grid.length
n == grid[i].length
1 <= m, n <= 15
-4 <= grid[i][j] <= 4
Solutions#
Solution 1#
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| class Solution:
def maxProductPath(self, grid: List[List[int]]) -> int:
m, n = len(grid), len(grid[0])
mod = 10**9 + 7
dp = [[[grid[0][0]] * 2 for _ in range(n)] for _ in range(m)]
for i in range(1, m):
dp[i][0] = [dp[i - 1][0][0] * grid[i][0]] * 2
for j in range(1, n):
dp[0][j] = [dp[0][j - 1][0] * grid[0][j]] * 2
for i in range(1, m):
for j in range(1, n):
v = grid[i][j]
if v >= 0:
dp[i][j][0] = min(dp[i - 1][j][0], dp[i][j - 1][0]) * v
dp[i][j][1] = max(dp[i - 1][j][1], dp[i][j - 1][1]) * v
else:
dp[i][j][0] = max(dp[i - 1][j][1], dp[i][j - 1][1]) * v
dp[i][j][1] = min(dp[i - 1][j][0], dp[i][j - 1][0]) * v
ans = dp[-1][-1][1]
return -1 if ans < 0 else ans % mod
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| class Solution {
private static final int MOD = (int) 1e9 + 7;
public int maxProductPath(int[][] grid) {
int m = grid.length;
int n = grid[0].length;
long[][][] dp = new long[m][n][2];
dp[0][0][0] = grid[0][0];
dp[0][0][1] = grid[0][0];
for (int i = 1; i < m; ++i) {
dp[i][0][0] = dp[i - 1][0][0] * grid[i][0];
dp[i][0][1] = dp[i - 1][0][1] * grid[i][0];
}
for (int j = 1; j < n; ++j) {
dp[0][j][0] = dp[0][j - 1][0] * grid[0][j];
dp[0][j][1] = dp[0][j - 1][1] * grid[0][j];
}
for (int i = 1; i < m; ++i) {
for (int j = 1; j < n; ++j) {
int v = grid[i][j];
if (v >= 0) {
dp[i][j][0] = Math.min(dp[i - 1][j][0], dp[i][j - 1][0]) * v;
dp[i][j][1] = Math.max(dp[i - 1][j][1], dp[i][j - 1][1]) * v;
} else {
dp[i][j][0] = Math.max(dp[i - 1][j][1], dp[i][j - 1][1]) * v;
dp[i][j][1] = Math.min(dp[i - 1][j][0], dp[i][j - 1][0]) * v;
}
}
}
long ans = dp[m - 1][n - 1][1];
return ans < 0 ? -1 : (int) (ans % MOD);
}
}
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| using ll = long long;
const int mod = 1e9 + 7;
class Solution {
public:
int maxProductPath(vector<vector<int>>& grid) {
int m = grid.size();
int n = grid[0].size();
vector<vector<vector<ll>>> dp(m, vector<vector<ll>>(n, vector<ll>(2, grid[0][0])));
for (int i = 1; i < m; ++i) {
dp[i][0][0] = dp[i - 1][0][0] * grid[i][0];
dp[i][0][1] = dp[i - 1][0][1] * grid[i][0];
}
for (int j = 1; j < n; ++j) {
dp[0][j][0] = dp[0][j - 1][0] * grid[0][j];
dp[0][j][1] = dp[0][j - 1][1] * grid[0][j];
}
for (int i = 1; i < m; ++i) {
for (int j = 1; j < n; ++j) {
int v = grid[i][j];
if (v >= 0) {
dp[i][j][0] = min(dp[i - 1][j][0], dp[i][j - 1][0]) * v;
dp[i][j][1] = max(dp[i - 1][j][1], dp[i][j - 1][1]) * v;
} else {
dp[i][j][0] = max(dp[i - 1][j][1], dp[i][j - 1][1]) * v;
dp[i][j][1] = min(dp[i - 1][j][0], dp[i][j - 1][0]) * v;
}
}
}
ll ans = dp[m - 1][n - 1][1];
return ans < 0 ? -1 : (int) (ans % mod);
}
};
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| func maxProductPath(grid [][]int) int {
m, n := len(grid), len(grid[0])
dp := make([][][]int, m)
for i := range dp {
dp[i] = make([][]int, n)
for j := range dp[i] {
dp[i][j] = make([]int, 2)
}
}
dp[0][0] = []int{grid[0][0], grid[0][0]}
for i := 1; i < m; i++ {
dp[i][0][0] = dp[i-1][0][0] * grid[i][0]
dp[i][0][1] = dp[i-1][0][1] * grid[i][0]
}
for j := 1; j < n; j++ {
dp[0][j][0] = dp[0][j-1][0] * grid[0][j]
dp[0][j][1] = dp[0][j-1][1] * grid[0][j]
}
for i := 1; i < m; i++ {
for j := 1; j < n; j++ {
v := grid[i][j]
if v >= 0 {
dp[i][j][0] = min(dp[i-1][j][0], dp[i][j-1][0]) * v
dp[i][j][1] = max(dp[i-1][j][1], dp[i][j-1][1]) * v
} else {
dp[i][j][0] = max(dp[i-1][j][1], dp[i][j-1][1]) * v
dp[i][j][1] = min(dp[i-1][j][0], dp[i][j-1][0]) * v
}
}
}
ans := dp[m-1][n-1][1]
if ans < 0 {
return -1
}
var mod int = 1e9 + 7
return ans % mod
}
|