Given an array A (index starts at 1) consisting of N integers: A1, A2, ..., AN and an integer B. The integer B denotes that from any place (suppose the index is i) in the array A, you can jump to any one of the place in the array A indexed i+1, i+2, …, i+B if this place can be jumped to. Also, if you step on the index i, you have to pay Ai coins. If Ai is -1, it means you can’t jump to the place indexed i in the array.
Now, you start from the place indexed 1 in the array A, and your aim is to reach the place indexed N using the minimum coins. You need to return the path of indexes (starting from 1 to N) in the array you should take to get to the place indexed N using minimum coins.
If there are multiple paths with the same cost, return the lexicographically smallest such path.
If it's not possible to reach the place indexed N then you need to return an empty array.
Example 1:
Input: [1,2,4,-1,2], 2 Output: [1,3,5]
Example 2:
Input: [1,2,4,-1,2], 1 Output: []
Note:
- Path Pa1, Pa2, ..., Pan is lexicographically smaller than Pb1, Pb2, ..., Pbm, if and only if at the first
iwhere Pai and Pbi differ, Pai < Pbi; when no suchiexists, thenn<m. - A1 >= 0. A2, ..., AN (if exist) will in the range of [-1, 100].
- Length of A is in the range of [1, 1000].
- B is in the range of [1, 100].
dp 输出路径
class Solution { public: const int inf = 0x3f3f3f3f; vector<int> cheapestJump(vector<int>& A, int B) { vector<int> v; int n = A.size(); if (n == 0 || A[n - 1] == -1) return v; vector<int> dp(n, inf); vector<int> pre(n, -1); dp[n - 1] = A[n - 1]; for (int i = n - 2; i >= 0; --i) { if (A[i] == -1) continue; for (int j = 1; j <= B; ++j) { if (i + j < n && dp[i + j] + A[i] < dp[i]) { dp[i] = dp[i + j] + A[i]; pre[i] = i + j; } } } int m = 0; if (dp[0] == inf ) return v; while (m != -1) { v.push_back(m + 1); m = pre[m]; } return v; } };