brebenel_mihnea's blog

By brebenel_mihnea, 2 years ago, In English

Motivation problem

We aim to solve this problem: Path Queries 2.

Summary: Given a tree with weighted nodes, you are asked to answer the following type of queries: What is the maximum value on the path connecting nodes A and B ?

Definitions

  • A heavy child of a node is the child with the largest subtree size rooted at the child
  • A heavy edge connects a node to its heavy child
  • A light child of a node is a child that it's not heavy
  • A light edge connects a node with a light child
  • A heavy path is a path made of heavy edges

How it works

The main idea is to make use of the heavy paths in answering the queries, so we divide the path in heavy paths contained by it and then we add those heavy paths in a Segment Tree to support maximum-value query.

  • Any path from node $$$u$$$ to node $$$v$$$ passes through at most $$$O(log N)$$$ light edges.
Proof

1. The first step is to compute every node's subtree size in order to find out the heavy edges.

Code

2. Then we mark the heavy paths and add the nodes in the segment tree. Each heavy-path's nodes form a continuous sequence in the segment tree in order to support queries on a specific heavy-path. As you can see in the image below heavy path's nodes form a contiguous sequence of numbers:

Code

3. The final step is to build the segment tree.

Code

Answering queries

Answering queries can become much easier by dividing the path from node $$$u$$$ to node $$$v$$$ into 2 vertical chains:

  • the chain from $$$u$$$ to $$$LCA(u, v)$$$
  • the chain from $$$v$$$ to $$$LCA(u, v)$$$

To get the answer for the path combine the 2 answers. Now, answering the query for a vertical chain is pretty much straight forward: Jump through each heavy path contained by the chain and query it using the segment tree. You can think it as binary jumping. Once in the heavy chain, query it, jump to parent of chain's starting node and repeat.

Code

Source code

you can find the hole code here.

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2 years ago, # |
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You can do it faster (in $$$O(n \log n)$$$ rather than $$$O(n \log^2 n)$$$) by using a sparse table rather than a segment tree. Binary lifting also suffices for this problem.

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    2 years ago, # ^ |
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    Can you please go into more details? I don't see how binary lifting would work using a sparse table since you cannot easily update a sparse table (note that the problem linked at the beginning of the article also has updates).

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      2 years ago, # ^ |
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      My bad, I didn't open the linked problem (and the post doesn't seem to explicitly talk about updates either).

      The binary lifting and the sparse table ideas are separate. For the version without queries, both work. In the sparse table approach, you compute a sparse table instead of a segment tree. In the binary lifting approach, along with the $$$2^i$$$-th ancestor, you also maintain the max element along the path from the vertex to that ancestor.

      However, you can still use a global BST to reduce the original problem's complexity down to $$$O((n + q) \log n)$$$, for instance, see this (shoutout to errorgorn for writing the first accessible non-Chinese introduction to the topic).

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2 years ago, # |
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Even when I got purple, I didn't need to know what HLD was. Bro, you should learn how to use binary search.

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23 months ago, # |
Rev. 2   Vote: I like it +11 Vote: I do not like it

My next problem will be hld with seg tree beats on centroid decomposition of virtual trees from bridge tree.

Tread lightly, tibinyte

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23 months ago, # |
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Dont take me wrong but as a newbie you should not touch complex data structures or techniques. You can atmax learn Greedy, DP, BinarySearch ,NumberTheory, Stack, Queue, Graph Theory, Segment Trees, Two Pointers These should be sufficient to get until Div2C.

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    23 months ago, # ^ |
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    Don't take me wrong, but I don't remember asking.

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23 months ago, # |
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I stumbled across this problem when I was solving timus (as somebody very clever once proposed). At the time I knew nothing about HLD and solved it using sqrt-decomposition in $$$O(q \cdot sqrt(n \cdot log(n)))$$$.

How do:

I agree that this problem is way above gray (and blue) level. That is why I stopped solving timus and moved to codeforces archive.

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23 months ago, # |
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Bruh aren't you the guy who put two problems on the local OJ without tests so everyone can only read the misspelled statement but cannot submit lmfao