Java 模拟栈结构

时间:2023-03-09 01:05:12
Java 模拟栈结构

栈和队列:

通常是作为程序猿的工具,用于辅助构思算法。生命周期较短,执行时才被创建

訪问受限。在特定时刻,仅仅有一个数据可被读取或删除

是一种抽象的结构。内部的实现机制。对用户不可见。比方用数组、链表来实现栈

栈:

同一时候,仅仅同意一个数据被訪问,后进先出

对于入栈和出栈的时间复杂度都为O(1),即不依赖栈内数据项的个数,操作比較快

例,使用数组作为栈的存储结构

public class StackS<T> {

	private int max;

	private T[] ary;

	private int top;	//指针,指向栈顶元素的下标

	public StackS(int size) {

		this.max = size;

		ary = (T[]) new Object[max];

		top = -1;

	}

	// 入栈

	public void push(T data) {

		if (!isFull())

			ary[++top] = data;

	}

	// 出栈

	public T pop() {

		if (isEmpty()) {

			return null;

		}

		return ary[top--];

	}

	// 查看栈顶

	public T peek() {

		return ary[top];

	}

	//栈是否为空

	public boolean isEmpty() {

		return top == -1;

	}

	//栈是否满

	public boolean isFull() {

		return top == max - 1;

	}

	//size

	public int size() {

		return top + 1;

	}

	public static void main(String[] args) {

		StackS<Integer> stack = new StackS<Integer>(3);

		for (int i = 0; i < 5; i++) {

			stack.push(i);

			System.out.println("size:" + stack.size());

		}

		for (int i = 0; i < 5; i++) {

			Integer peek = stack.peek();

			System.out.println("peek:" + peek);

			System.out.println("size:" + stack.size());

		}

		for (int i = 0; i < 5; i++) {

			Integer pop = stack.pop();

			System.out.println("pop:" + pop);

			System.out.println("size:" + stack.size());

		}

		System.out.println("----");

		for (int i = 5; i > 0; i--) {

			stack.push(i);

			System.out.println("size:" + stack.size());

		}

		for (int i = 5; i > 0; i--) {

			Integer peek = stack.peek();

			System.out.println("peek:" + peek);

			System.out.println("size:" + stack.size());

		}

		for (int i = 5; i > 0; i--) {

			Integer pop = stack.pop();

			System.out.println("pop:" + pop);

			System.out.println("size:" + stack.size());

		}

	}

}

上面的样例。有一个maxSize的规定。由于数组是要规定大小的,若想无限制,能够使用其它结构来做存储,当然也能够new一个新的长度的数组。

例。使用LinkedList存储来实现栈

/**

 * 使用LinkedList存储来实现栈

 * @author stone

 *

 * @param <T>

 */

public class StackSS<T> {

	private LinkedList<T> datas;

	public StackSS() {

		datas = new LinkedList<T>();

	}

	// 入栈

	public void push(T data) {

		datas.addLast(data);

	}

	// 出栈

	public T pop() {

		return datas.removeLast();

	}

	// 查看栈顶

	public T peek() {

		return datas.getLast();

	}

	//栈是否为空

	public boolean isEmpty() {

		return datas.isEmpty();

	}

	//size

	public int size() {

		return datas.size();

	}

	public static void main(String[] args) {

		StackS<Integer> stack = new StackS<Integer>(3);

		for (int i = 0; i < 5; i++) {

			stack.push(i);

			System.out.println("size:" + stack.size());

		}

		for (int i = 0; i < 5; i++) {

			Integer peek = stack.peek();

			System.out.println("peek:" + peek);

			System.out.println("size:" + stack.size());

		}

		for (int i = 0; i < 5; i++) {

			Integer pop = stack.pop();

			System.out.println("pop:" + pop);

			System.out.println("size:" + stack.size());

		}

		System.out.println("----");

		for (int i = 5; i > 0; i--) {

			stack.push(i);

			System.out.println("size:" + stack.size());

		}

		for (int i = 5; i > 0; i--) {

			Integer peek = stack.peek();

			System.out.println("peek:" + peek);

			System.out.println("size:" + stack.size());

		}

		for (int i = 5; i > 0; i--) {

			Integer pop = stack.pop();

			System.out.println("pop:" + pop);

			System.out.println("size:" + stack.size());

		}

	}

}

例,单词逆序,使用Statck结构

public class WordReverse {

	public static void main(String[] args) {

		reverse("株式会社");

	}

	static void reverse(String word) {

		if (word == null) return;

		StackSS<Character> stack = new StackSS<Character>();

		char[] charArray = word.toCharArray();

		int len = charArray.length;

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

			stack.push(charArray[i]);

		}

		StringBuilder sb = new StringBuilder();

		while (!stack.isEmpty()) {

			sb.append(stack.pop());

		}

		System.out.println("反转后:" + sb.toString());

	}

}

打印:

反转后:社会式株

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