We partition a row of numbers A into at most K adjacent (non-empty) groups, then our score is the sum of the average of each group. What is the largest score we can achieve?
Note that our partition must use every number in A, and that scores are not necessarily integers.
Example: Input: A = [9,1,2,3,9] K = 3 Output: 20 Explanation: The best choice is to partition A into [9], [1, 2, 3], [9]. The answer is 9 + (1 + 2 + 3) / 3 + 9 = 20. We could have also partitioned A into [9, 1], [2], [3, 9], for example. That partition would lead to a score of 5 + 2 + 6 = 13, which is worse.
Note:
1 <= A.length <= 100.1 <= A[i] <= 10000.1 <= K <= A.length.- Answers within
10^-6of the correct answer will be accepted as correct.
Runtime: 4 ms, faster than 99.57% of C++ online submissions for Largest Sum of Averages.
double memo[200][200]; class Solution { public: double largestSumOfAverages(vector<int>& A, int K) { memset(memo, 0, sizeof(memo)); int N = A.size(); double cur = 0.0; for(int i=0; i<N; i++) { cur += A[i]; memo[i+1][1] = cur / (i+1); } return search(N, K, A); } double search(int n, int k, vector<int>& A) { if(memo[n][k] > 0) return memo[n][k]; if(n < k) return 0; double cur = 0.0; for (int i = n-1; i > 0; --i) { cur += A[i]; memo[n][k] = max(memo[n][k], search(i, k-1, A) + cur / (n-i)); } return memo[n][k]; } };