【Union Find】JAVA implementation

时间:2022-01-19 08:45:05

【Union Find】JAVA implementation

【Union Find】JAVA implementation

import java.util.ArrayList;

import java.util.Arrays;

import java.util.HashMap;

import java.util.Scanner;

class UF

{

	private int[] id;

	private int count;

	public UF(int N)

	{

		count = N;

		id = new int[N];

		for (int i = 0; i < N; i++) {

			id[i] = i;

		}

	}

	public int count(){

		return count;

	}

	public int find(int p){

		while (p != id[p]) {

			p = id[p];

		}

		return p;

	}

	public boolean connected(int p, int q){

		return find(p) == find(q);

	}

	public void union(int p, int q){

		int proot = find(p);

		int qroot = find(q);

		if (proot == qroot) {

			return;

		}

		id[proot] = qroot;

		count--;

	}

	public String toString()

	{

		return Arrays.toString(id);

	}

}

public class Main {

    public static void main(String[] args)

    {

        Scanner jin = new Scanner(System.in);

        int N = jin.nextInt();

        UF uf = new UF(N);

        while (jin.hasNext()) {

			int p = jin.nextInt();

			int q = jin.nextInt();

			if (uf.connected(p, q)) {

				continue;

			}

			uf.union(p, q);

		}

        System.out.println(uf.count());

        System.out.println(uf);

    }

}

对两棵树的合并操作做优化。引入变量size表示这棵树的结点个数,合并时。总是使size小的链接到size大的树。这样合并得到的森林。假设有N个结点。那么树的深度

不会超过lgN。

import java.util.ArrayList;

import java.util.Arrays;

import java.util.HashMap;

import java.util.Scanner;

class UF

{

	private int[] id;

	private int[] size;

	private int count;

	public UF(int N)

	{

		count = N;

		id = new int[N];

		size = new int[N];

		for (int i = 0; i < N; i++) {

			id[i] = i; size[i] = 1;

		}

	}

	public int count(){

		return count;

	}

	public int find(int p){

		while (p != id[p]) {

			p = id[p];

		}

		return p;

	}

	public boolean connected(int p, int q){

		return find(p) == find(q);

	}

	public void union(int p, int q){

		int proot = find(p);

		int qroot = find(q);

		if (proot == qroot) {

			return;

		}

		if (size[proot] < size[qroot]) { id[proot] = qroot; size[qroot] += size[proot];}

		else {id[qroot] = proot; size[proot] += size[qroot];}

		count--;

	}

	public String toString()

	{

		return Arrays.toString(id);

	}

}

public class Main {

    public static void main(String[] args)

    {

        Long n;

        //System.out.println(Long.MAX_VALUE);

        Scanner jin = new Scanner(System.in);

        int N = jin.nextInt();

        UF uf = new UF(N);

        while (jin.hasNext()) {

			int p = jin.nextInt();

			int q = jin.nextInt();

			if (uf.connected(p, q)) {

				continue;

			}

			uf.union(p, q);

		}

        System.out.println(uf.count());

        System.out.println(uf);

    }

}

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