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Автор ShashwatS1, история, 6 лет назад, По-английски

You are given a tree of A nodes having A-1 edges.Each node is numbered from 1 to A where 1 is root of tree. You are given Q queries. In each query, you will be given a unique integer j. You are required to remove the jth numbered edge from the tree. This operation will divide a tree into two different trees. For each query once you perform the remove operation you are asked to tell the maximum size among the sizes of the trees present till that query.

Note:-

  1. once an edge is removed it will be considered removed for all the further queries.
  2. it is guaranteed that each edge will be printing to exactly two different nodes of tree.
  3. edges are numbered from 1 to A-1.

Input format:-

  • first line input argument are an integer A denoting the number of nodes and an integer Q denoting number of queries.
  • second & third argument are the integer arrays B & C where for each i (0 <= i <= A-1) , i denotes the (i+1)th edge and B[i] & C[i] are the nodes connected by it.
  • fourth argument is an integer array D of distinct elements where D[i] denotes the number of edges to be removed for the ith query.

Output:-
print answers for each query.

Constraints:-

2<= A <= 10^5
1<= B[i] , C[i] <=A
1<= D[i] , Q <=A-1

Example:-

Input:
5 2
1 3 3 5
3 2 4 1
1 3

Output:-
3 2

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6 лет назад, # |
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Try to remove all the edges that will be removed by the queries first. Then process the queries in reverse order. Now, instead of removing, you add the edge back into the tree and print the maximum tree size. You should be able to do this efficiently with the help of DSU data structure.

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5 лет назад, # |
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Is there any online solution for this problem?

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5 лет назад, # |
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http://hsin.hr/coci/archive/2015_2016/contest4_tasks.pdf

Problem "GALAKSIJA" has the same idea in it.