Package g3301_3400.s3373_maximize_the_number_of_target_nodes_after_connecting_trees_ii

Class Solution

  • All Implemented Interfaces:
    
public final class Solution

    3373 - Maximize the Number of Target Nodes After Connecting Trees II.

    Hard

    There exist two undirected trees with n and m nodes, labeled from [0, n - 1] and [0, m - 1], respectively.

    You are given two 2D integer arrays edges1 and edges2 of lengths n - 1 and m - 1, respectively, where <code>edges1i = a<sub>i</sub>, b<sub>i</sub></code> indicates that there is an edge between nodes <code>a<sub>i</sub></code> and <code>b<sub>i</sub></code> in the first tree and <code>edges2i = u<sub>i</sub>, v<sub>i</sub></code> indicates that there is an edge between nodes <code>u<sub>i</sub></code> and <code>v<sub>i</sub></code> in the second tree.

    Node u is target to node v if the number of edges on the path from u to v is even. Note that a node is always target to itself.

    Return an array of n integers answer, where answer[i] is the maximum possible number of nodes that are target to node i of the first tree if you had to connect one node from the first tree to another node in the second tree.

    Note that queries are independent from each other. That is, for every query you will remove the added edge before proceeding to the next query.

    Example 1:

    Input: edges1 = \[\[0,1],0,2,2,3,2,4], edges2 = \[\[0,1],0,2,0,3,2,7,1,4,4,5,4,6]

    Output: 8,7,7,8,8

    Explanation:

    • For i = 0, connect node 0 from the first tree to node 0 from the second tree.

    • For i = 1, connect node 1 from the first tree to node 4 from the second tree.

    • For i = 2, connect node 2 from the first tree to node 7 from the second tree.

    • For i = 3, connect node 3 from the first tree to node 0 from the second tree.

    • For i = 4, connect node 4 from the first tree to node 4 from the second tree.

    Example 2:

    Input: edges1 = \[\[0,1],0,2,0,3,0,4], edges2 = \[\[0,1],1,2,2,3]

    Output: 3,6,6,6,6

    Explanation:

    For every i, connect node i of the first tree with any node of the second tree.

    Constraints:

    • <code>2 <= n, m <= 10<sup>5</sup></code>

    • edges1.length == n - 1

    • edges2.length == m - 1

    • edges1[i].length == edges2[i].length == 2

    • <code>edges1i = a<sub>i</sub>, b<sub>i</sub></code>

    • <code>0 <= a<sub>i</sub>, b<sub>i</sub>< n</code>

    • <code>edges2i = u<sub>i</sub>, v<sub>i</sub></code>

    • <code>0 <= u<sub>i</sub>, v<sub>i</sub>< m</code>

    • The input is generated such that edges1 and edges2 represent valid trees.

    • Nested Class Summary

      Nested Classes 
      Modifier and Type Class Description

    • Field Summary

      Fields 
      Modifier and Type Field Description

    • Constructor Summary

      Constructors 
      Constructor Description
      Solution()

    • Enum Constant Summary

      Enum Constants 
      Enum Constant Description

    • Method Summary

      Modifier and Type Method Description
      final IntArray maxTargetNodes(Array<IntArray> edges1, Array<IntArray> edges2)

      • Methods inherited from class java.lang.Object

        clone, equals, finalize, getClass, hashCode, notify, notifyAll, toString, wait, wait, wait