java数据结构:堆栈
堆栈的数据结构只允许数据从有序列表的一端做输入输出操作。
堆栈数据结构的特点是先进入的数据后处理,后进入的数据先处理,就比如子弹入弹匣一下,先压入弹匣的子弹后面发射出,后压入的子弹先发射。
下面是用数组模拟堆栈:ArrayOfStack.java
package Stack; /** * @author zh * 数组实现堆栈 */ public class ArrayOfStack { private Object[] stack = null; private int size; private int top; //默认初始化一个栈堆,大小为100 public ArrayOfStack(){ this.size = 100; this.top = -1; this.stack = new Object[size]; } //初始化一个自定义大小的栈堆 public ArrayOfStack(int size){ this.size = size; this.top = -1; this.stack = new Object[size]; } //判断堆栈是否为空 public boolean isEmpty(){ if(top == -1){ return true; }else return false; } //判断栈堆是否已满 public boolean isFull(){ if(top == (size-1)){ return true; }else return true; } //入栈操作 public void push(String data){ if(isFull()){ System.out.println("堆栈已满"); return; } //入栈开始,top相当于数组下标 top++; stack[top] = data; } //出栈 public Object pop(){ //定义一个临时对象 Object val = null; //堆栈为空时报错 if(isEmpty()){ System.out.println("堆栈为空"); return val; } //获取堆栈值 val = stack[top]; top--; return val; } //获取栈顶元素 public Object peek(){ Object topVal = null; if(isEmpty()){ System.out.println("栈堆为空!"); return topVal; } //取出栈顶元素 topVal = stack[top]; return topVal; } //获取堆栈元素 public int size(){ return top+1; } //获取栈堆容量 public int capcity(){ return size; } }
使用链表实现堆栈:
节点类Node.java
package Stack; public class Node { //链表数据域 Object data; //链域 Node next; //构造头结点 public Node(){ this.data = null; this.next = null; } //构造节点 public Node(Object data){ this.data = data; this.next = null; } }
堆栈类:LinkOfStack.java
package Stack; public class LinkOfStack { //定义一个头结点 private Node head; //构造头结点 public LinkOfStack(){ head = new Node(); } //判断是否为空 public boolean empty(){ if(head.next == null) return true; else return false; } //堆栈入栈 public void push(Object data){ Node item = new Node(data); item.next = head.next; head.next = item; } //出栈 public Object pop(){ Object item = null; if(empty()){ System.out.println("堆栈为空"); } item = head.next.data; head.next = head.next.next; return item; } //堆栈大小 public int size(){ int len = 0; Node p = head; while(p.next != null){ len++; p = p.next; } return len; } //获取栈顶元素 public Object peek(){ if(empty()){ System.out.println("堆栈为空"); } return head.next.data; } public static void main(String[] args){ LinkOfStack stack = new LinkOfStack(); stack.push("测试链表堆栈节点一"); System.out.println(stack.size()); System.out.println(stack.peek()); while(!stack.empty()){ System.out.print(stack.pop()+"-->"); } } }