1.introduction
As everyone knows, my friend Billy2007 is not good at The algorithm of tree, So I and he write this blog.
LCA , that is, the recent Common ancestor, refers to the root tree, find out one or two nodes u and v recent Common ancestor.
2.how to ask LCA?
For example:
Given a tree with multiple branches, the public ancestor that is closest to the specified two points is requested.
Input: The first line contains three positive integers, $$$N,M,S$$$ which respectively represent the number of nodes in the tree, the number of inquiries, and the number of root nodes. Next, $$$n-1$$$ rows each contain two positive integers $$$x, y$$$ indicating that there is a directly connected edge between $$$x$$$ node and $$$y$$$ node (the data is guaranteed to form a tree). Next, $$$M$$$ rows each contain two positive integers $$$a$$$,$$$b$$$, which means that the nearest common ancestor of $$$a$$$ and $$$b$$$ is inquired.
Output: The output contains $$$M$$$ rows, each containing a positive integer, which in turn is the result of each query.
Guys,how to solve it?
2.1.Brute force(XD)
Let the two points search like merge-find set :
struct node{
int bianh;
int fa,chd[N/1000];
node(){
fa=0;
bianh=0;
memset(chd,0,sizeof(chd));
}
};
int lca(int a,int b){
if(a==b) return a;
return lca(nd[a].fa,nd[b].fa);
}
But there is some problem with this algorithm.
Obviously we don't know if $$$a$$$ is the father of $$$b$$$ or $$$b$$$ is the father of $$$a$$$.
This problem can be solved by depth-first search.
But, This algorithm will waste lots of Meomry.
And even if it were possible, the DFS time complexity is $$$O(n)$$$, every time the worst time complexity is $$$O(n)$$$, the total time complexity is $$$O(nm)$$$, will definitely TLE.
2.2.Multiplication algorithm
We can use the multiplication algorithm -- an algorithm that achieves $$$O(\log n)$$$ to ask the LCA by recording the first $$$2^i$$$ generation of $$$a$$$.
Will update after 6 hours.
