2925. Maximum Score After Applying Operations on a Tree
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There is an undirected tree with n nodes labeled from 0 to n - 1, and rooted at node 0. You are given a 2D integer array edges of length n - 1, where edges[i] = [ai, bi] indicates that there is an edge between nodes ai and bi in the tree.
You are also given a 0-indexed integer array values of length n, where values[i] is the value associated with the ith node.
You start with a score of 0. In one operation, you can:
- Pick any node
i. - Add
values[i]to your score. - Set
values[i]to0.
A tree is healthy if the sum of values on the path from the root to any leaf node is different than zero.
Return the maximum score you can obtain after performing these operations on the tree any number of times so that it remains healthy.
Example 1:
Input: edges = [[0,1],[0,2],[0,3],[2,4],[4,5]], values = [5,2,5,2,1,1] Output: 11 Explanation: We can choose nodes 1, 2, 3, 4, and 5. The value of the root is non-zero. Hence, the sum of values on the path from the root to any leaf is different than zero. Therefore, the tree is healthy and the score is values[1] + values[2] + values[3] + values[4] + values[5] = 11. It can be shown that 11 is the maximum score obtainable after any number of operations on the tree.
Example 2:
Input: edges = [[0,1],[0,2],[1,3],[1,4],[2,5],[2,6]], values = [20,10,9,7,4,3,5] Output: 40 Explanation: We can choose nodes 0, 2, 3, and 4. - The sum of values on the path from 0 to 4 is equal to 10. - The sum of values on the path from 0 to 3 is equal to 10. - The sum of values on the path from 0 to 5 is equal to 3. - The sum of values on the path from 0 to 6 is equal to 5. Therefore, the tree is healthy and the score is values[0] + values[2] + values[3] + values[4] = 40. It can be shown that 40 is the maximum score obtainable after any number of operations on the tree.
Constraints:
2 <= n <= 2 * 104edges.length == n - 1edges[i].length == 20 <= ai, bi < nvalues.length == n1 <= values[i] <= 109- The input is generated such that
edgesrepresents a valid tree.
Hints
Hint 1
Let
dp[i] be the maximum score we can get on the subtree rooted at i and sum[i] be the sum of all the values of the subtree rooted at i.Hint 2
If we don’t take
value[i] into the final score, we can take all the nodes of the subtrees rooted at i’s children.Hint 3
If we take
value[i] into the score, then each subtree rooted at its children should satisfy the constraints.Hint 4
dp[x] = max(value[x] + sigma(dp[y]), sigma(sum[y])), where y is a direct child of x.