leetcode 64. Minimum Path Sum-最小路径和|动态规划

最新推荐文章于 2022-11-04 10:58:54 发布
原创 最新推荐文章于 2022-11-04 10:58:54 发布 · 5.2k 阅读 · 3 ·
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#Java #leetcode #Python

这篇博客介绍了如何使用动态规划解决LeetCode第64题——最小路径和。博主强调了动态规划的核心是利用前一次的结果,并给出了递推关系式:dp[i][j] = min(dp[i-1][j], dp[i][j-1])。通过优化,将空间复杂度从O(n*m)降低到O(n)。" 112047164,10293204,CentOS7重装Python与Yum的详细步骤,"['CentOS', 'Linux', '系统管理', '软件安装']
原题链接:64. Minimum Path Sum

【思路】

采用动态规划。动态规划要求利用到上一次的结果,是一种特殊的迭代思想,动态规划的关键是要得到递推关系式。对于本题,从原点到达(i, j)的最小路径等于 :原点到达(i-1, j)最小路径与到达(i, j-1)最小路径中的最小值。即 dp[i][j] = Math.min(dp[i-1][j], dp[i][j-1],由于本题在 grid 中修改不影响结果,那么我就直接在上面修改,而不申请 n * m 大小的空间了:

public class Solution {
    public int minPathSum(int[][] grid) {
        for(int i=1; i<grid.length; i++) grid[i][0] += grid[i-1][0];
        for(int j=1; j<grid[0].length; j++) grid[0][j] += grid[0][j-1];
        for (int i=1; i<grid.length; i++) {
            for (int j=1; j<grid[0].length; j++) {
                grid[i][j] = Math.min(grid[i][j-1], grid[i-1][j]) + grid[i][j];
            }
        }
        return grid[grid.length-1][grid[0].length-1];
    }
}
61 / 61  test cases passed. Runtime: 5 ms  Your runtime beats 26.34% of javasubmissions.

上面的空间复杂度为 O(n*m),这里可以优化为O(n):

public class Solution {
    public int minPathSum(int[][] grid) {
        int[] dp = new int[grid.length];
        dp[0] = grid[0][0];
        for(int i=1; i<grid.length; i++) dp[i] = grid[i][0]+dp[i-1];
        for(int j=1; j<grid[0].length; j++)
            for(int i=0; i<grid.length; i++)
                dp[i] = (i==0 ? dp[i] : Math.min(dp[i], dp[i-1])) + grid[i][j];
        return dp[grid.length-1];
    }
}
61 / 61  test cases passed. Runtime: 4 ms  Your runtime beats 51.38% of javasubmissions. 

class Solution(object):
    def minPathSum(self, grid):
        """
        :type grid: List[List[int]]
        :rtype: int
        """
        dp = [0]*len(grid)
        dp[0] = grid[0][0]
        for i in range(1,len(grid)) :
            dp[i] = dp[i-1] + grid[i][0]
        for j in range(1, len(grid[0])) :
            for i in range(len(grid)) :
                dp[i] = min(dp[i], dp[i-1]) + grid[i][j] if i > 0 else dp[i]+grid[i][j]
        return dp[len(grid)-1]
61 / 61  test cases passed. Runtime: 64 ms  Your runtime beats 86.01% of pythonsubmissions.

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