120.Triangle:修订间差异
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2024年1月17日 (三) 15:53的最新版本
Description
#120 | Triangle | Medium | ||
---|---|---|---|---|
Dynamic Programming | Top 150 | |||
Given a triangle array, return the minimum path sum from top to bottom. |
For each step, you may move to an adjacent number of the row below. More formally, if you are on index i on the current row, you may move to either index i or index i + 1 on the next row.
Example 1:
Input: triangle = [[2],[3,4],[6,5,7],[4,1,8,3]]
Output: 11
Explanation: The triangle looks like:
2
3 4
6 5 7
4 1 8 3
The minimum path sum from top to bottom is 2 + 3 + 5 + 1 = 11 (underlined above).
Example 2:
Input: triangle = [[-10]]
Output: -10
Solution
2D DP
It works, but not good, especially memory.
Runtime 3ms |
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Memory 44.4MB |
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class Solution {
public int minimumTotal(List<List<Integer>> triangle) {
int maxRowSize = triangle.get(triangle.size() -1).size();
// create an array nxn to store the minimal distance that starts from triangle[i][j]
int[][] dp = new int[maxRowSize][maxRowSize];
for(int i = triangle.size() -1; i >=0; i--) {
List<Integer> row = triangle.get(i);
for(int j = 0; j < row.size(); j++) {
if(i < dp.length -1) {
// calculate minimal distance and update
dp[i][j] = Math.min(dp[i+1][j], dp[i+1][j+1]) + row.get(j);
} else {
// for the bottom line, there's no subpaths
dp[i][j] = row.get(j);
}
}
}
return dp[0][0];
}
}
1D DP
Runtime 2ms |
|
Memory 43.61MB |
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class Solution {
public int minimumTotal(List<List<Integer>> triangle) {
// 可以直接用 triangle.size();
int maxRowSize = triangle.get(triangle.size() -1).size();
// 只需要记录上一次的最短路径
int[] dp = new int[maxRowSize];
for(int i = triangle.size() -1; i >=0; i--) {
List<Integer> row = triangle.get(i);
for(int j = 0; j < row.size(); j++) {
if(i < dp.length -1) {
// 从左到右更新,正好计算右边的元素时,当前的值已经不需要用到了。所以可以直接更新
dp[j] = Math.min(dp[j], dp[j+1]) + row.get(j);
} else {
dp[j] = row.get(j);
}
}
}
return dp[0];
}
}
2D DP +DFS
Runtime 1ms |
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Memory 44.49MB |
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class Solution {
public int minimumTotal(List<List<Integer>> triangle) {
int[][]dp = new int[triangle.size()][triangle.size()];
for(int[]temp: dp)
Arrays.fill(temp, Integer.MAX_VALUE);
return find(triangle, 0, 0, dp);
}
private int find(List<List<Integer>>triangle, int i, int j, int[][]dp) {
if(i == triangle.size())
return 0;
if(dp[i][j] != Integer.MAX_VALUE)
return dp[i][j];
int current = triangle.get(i).get(j);
int a = current + find(triangle, i+1, j, dp);
int b = current + find(triangle, i+1, j+1, dp);
return dp[i][j] = Math.min(a, b);
}
}