TreeSet判断重复元素解析及代码示例-创新互联
TreeSet的底层是TreeMap的keySet(),而TreeMap是基于红黑树实现的,红黑树是一种平衡二叉查找树,它能保证任何一个节点的左右子树的高度差不会超过较矮的那棵的一倍。
成都创新互联成立于2013年,我们提供高端网站建设公司、网站制作、成都网站设计、网站定制、全网整合营销推广、微信小程序开发、微信公众号开发、网站推广服务,提供专业营销思路、内容策划、视觉设计、程序开发来完成项目落地,为雨棚定制企业提供源源不断的流量和订单咨询。TreeMap是按key排序的,所以TreeSet中的元素也是排好序的。显然元素在插入TreeSet时compareTo()方法要被调用,所以TreeSet中的元素要实现Comparable接口。TreeSet作为一种Set,它不允许出现重复元素。TreeSet是用compareTo()来判断重复元素的,而非equals(),看下面代码。
import java.util.TreeSet; import org.junit.Test; public class TestTreeSet { class Combine implements Comparable{ private int p1; private int p2; public Combine(int p1, int p2) { this.p1 = p1; this.p2 = p2; } @Override public int hashCode() { return p1 * 31 + p2; } @Override public Boolean equals(Object obj) { System.out.print("whether equal " + this + " and " + obj); Boolean rect = false; if (obj instanceof Combine) { System.out.println("whether equal " + this + " and " + obj); Combine other = (Combine) obj; rect = (this.p1 == other.getP1() && this.p2 == other.getP2()); } System.out.println(": " + rect); return rect; } @Override public int compareTo(Combine o) { System.out.print("compare " + this + " and " + o); // 排序时只考虑p1 if (this.p1 < o.p1) { System.out.println(", return -1"); return -1; } else if (this.p1 > o.p1) { System.out.println(", return 1"); return 1; } else { System.out.println(", return 0"); return 0; } } @Override public String toString() { return "(" + p1 + "," + p2 + ")"; } public int getP1() { return p1; } public void setP1(int p1) { this.p1 = p1; } public int getP2() { return p2; } public void setP2(int p2) { this.p2 = p2; } } @Test public void test() { Combine c1 = new Combine(1, 2); Combine c2 = new Combine(1, 2); Combine c3 = new Combine(1, 3); Combine c4 = new Combine(5, 2); TreeSet set = new TreeSet (); set.add(c1); set.add(c2); set.add(c3); set.add(c4); while (!set.isEmpty()) { //按顺序输出TreeSet中的元素 Combine combine = set.pollFirst(); System.out.println(combine.getP1() + "\t" + combine.getP2()); } } }
本文名称:TreeSet判断重复元素解析及代码示例-创新互联
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