Stack
public interface Stack<E> {
int getSize();
boolean isEmpty();
void push(E e);
E pop();
E peek();
}
public class Array<E> {
private E[] data;
private int size;
// 构造函数,传入数组的容量capacity构造Array
public Array(int capacity){
data = (E[])new Object[capacity];
size = 0;
}
// 无参数的构造函数,默认数组的容量capacity=10
public Array(){
this(10);
}
// 获取数组的容量
public int getCapacity(){
return data.length;
}
// 获取数组中的元素个数
public int getSize(){
return size;
}
// 返回数组是否为空
public boolean isEmpty(){
return size == 0;
}
// 在index索引的位置插入一个新元素e
public void add(int index, E e){
if(index < 0 || index > size)
throw new IllegalArgumentException("Add failed. Require index >= 0 and index <= size.");
if(size == data.length)
resize(2 * data.length);
for(int i = size - 1; i >= index ; i --)
data[i + 1] = data[i];
data[index] = e;
size ++;
}
// 向所有元素后添加一个新元素
public void addLast(E e){
add(size, e);
}
// 在所有元素前添加一个新元素
public void addFirst(E e){
add(0, e);
}
// 获取index索引位置的元素
public E get(int index){
if(index < 0 || index >= size)
throw new IllegalArgumentException("Get failed. Index is illegal.");
return data[index];
}
public E getLast(){
return get(size - 1);
}
public E getFirst(){
return get(0);
}
// 修改index索引位置的元素为e
public void set(int index, E e){
if(index < 0 || index >= size)
throw new IllegalArgumentException("Set failed. Index is illegal.");
data[index] = e;
}
// 查找数组中是否有元素e
public boolean contains(E e){
for(int i = 0 ; i < size ; i ++){
if(data[i].equals(e))
return true;
}
return false;
}
// 查找数组中元素e所在的索引,如果不存在元素e,则返回-1
public int find(E e){
for(int i = 0 ; i < size ; i ++){
if(data[i].equals(e))
return i;
}
return -1;
}
// 从数组中删除index位置的元素, 返回删除的元素
public E remove(int index){
if(index < 0 || index >= size)
throw new IllegalArgumentException("Remove failed. Index is illegal.");
E ret = data[index];
for(int i = index + 1 ; i < size ; i ++)
data[i - 1] = data[i];
size --;
data[size] = null; // loitering objects != memory leak
if(size == data.length / 4 && data.length / 2 != 0)
resize(data.length / 2);
return ret;
}
// 从数组中删除第一个元素, 返回删除的元素
public E removeFirst(){
return remove(0);
}
// 从数组中删除最后一个元素, 返回删除的元素
public E removeLast(){
return remove(size - 1);
}
// 从数组中删除元素e
public void removeElement(E e){
int index = find(e);
if(index != -1)
remove(index);
}
@Override
public String toString(){
StringBuilder res = new StringBuilder();
res.append(String.format("Array: size = %d , capacity = %d\n", size, data.length));
res.append('[');
for(int i = 0 ; i < size ; i ++){
res.append(data[i]);
if(i != size - 1)
res.append(", ");
}
res.append(']');
return res.toString();
}
// 将数组空间的容量变成newCapacity大小
private void resize(int newCapacity){
E[] newData = (E[])new Object[newCapacity];
for(int i = 0 ; i < size ; i ++)
newData[i] = data[i];
data = newData;
}
}
public class ArrayStack<E> implements Stack<E> {
private Array<E> array;
public ArrayStack(int capacity){
array = new Array<>(capacity);
}
public ArrayStack(){
array = new Array<>();
}
@Override
public int getSize(){
return array.getSize();
}
@Override
public boolean isEmpty(){
return array.isEmpty();
}
public int getCapacity(){
return array.getCapacity();
}
@Override
public void push(E e){
array.addLast(e);
}
@Override
public E pop(){
return array.removeLast();
}
@Override
public E peek(){
return array.getLast();
}
@Override
public String toString(){
StringBuilder res = new StringBuilder();
res.append("Stack: ");
res.append('[');
for(int i = 0 ; i < array.getSize() ; i ++){
res.append(array.get(i));
if(i != array.getSize() - 1)
res.append(", ");
}
res.append("] top");
return res.toString();
}
}
public class Main {
public static void main(String[] args) {
ArrayStack<Integer> stack = new ArrayStack<>();
for(int i = 0 ; i < 5 ; i ++){
stack.push(i);
System.out.println(stack);
}
stack.pop();
System.out.println(stack);
}
}
import java.util.Stack;
class Solution {
public boolean isValid(String s) {
Stack<Character> stack = new Stack<>();
for(int i = 0 ; i < s.length() ; i ++){
char c = s.charAt(i);
if(c == '(' || c == '[' || c == '{')
stack.push(c);
else{
if(stack.isEmpty())
return false;
char topChar = stack.pop();
if(c == ')' && topChar != '(')
return false;
if(c == ']' && topChar != '[')
return false;
if(c == '}' && topChar != '{')
return false;
}
}
return stack.isEmpty();
}
public static void main(String[] args) {
System.out.println((new Solution()).isValid("()[]{}"));//true
System.out.println((new Solution()).isValid("([)]"));//false
System.out.println((new Solution()).isValid("{[{[{}]}]}"));//true
}
}
queue
public interface Queue<E> {
int getSize();
boolean isEmpty();
void enqueue(E e);
E dequeue();
E getFront();
}
public class ArrayQueue<E> implements Queue<E> {
private Array<E> array;
public ArrayQueue(int capacity){
array = new Array<>(capacity);
}
public ArrayQueue(){
array = new Array<>();
}
@Override
public int getSize(){
return array.getSize();
}
@Override
public boolean isEmpty(){
return array.isEmpty();
}
public int getCapacity(){
return array.getCapacity();
}
@Override
public void enqueue(E e){
array.addLast(e);
}
@Override
public E dequeue(){
return array.removeFirst();
}
@Override
public E getFront(){
return array.getFirst();
}
@Override
public String toString(){
StringBuilder res = new StringBuilder();
res.append("Queue: ");
res.append("front [");
for(int i = 0 ; i < array.getSize() ; i ++){
res.append(array.get(i));
if(i != array.getSize() - 1)
res.append(", ");
}
res.append("] tail");
return res.toString();
}
public static void main(String[] args) {
ArrayQueue<Integer> queue = new ArrayQueue<>();
for(int i = 0 ; i < 10 ; i ++){
queue.enqueue(i);
System.out.println(queue);
if(i % 3 == 2){
queue.dequeue();
System.out.println(queue);
}
}
}
}
// 二叉树的层序遍历是一个典型的可以借助队列解决的问题
public class LoopQueue<E> implements Queue<E> {
private E[] data;
private int front, tail;
private int size; // 有兴趣的同学,在完成这一章后,可以思考一下:
// LoopQueue中不声明size,如何完成所有的逻辑?
// 这个问题可能会比大家想象的要难一点点:)
public LoopQueue(int capacity){
data = (E[])new Object[capacity + 1];
front = 0;
tail = 0;
size = 0;
}
public LoopQueue(){
this(10);
}
public int getCapacity(){
return data.length - 1;
}
@Override
public boolean isEmpty(){
return front == tail;
}
@Override
public int getSize(){
return size;
}
@Override
public void enqueue(E e){
if((tail + 1) % data.length == front)
resize(getCapacity() * 2);
data[tail] = e;
tail = (tail + 1) % data.length;
size ++;
}
@Override
public E dequeue(){
if(isEmpty())
throw new IllegalArgumentException("Cannot dequeue from an empty queue.");
E ret = data[front];
data[front] = null;
front = (front + 1) % data.length;
size --;
if(size == getCapacity() / 4 && getCapacity() / 2 != 0)
resize(getCapacity() / 2);
return ret;
}
@Override
public E getFront(){
if(isEmpty())
throw new IllegalArgumentException("Queue is empty.");
return data[front];
}
private void resize(int newCapacity){
E[] newData = (E[])new Object[newCapacity + 1];
for(int i = 0 ; i < size ; i ++)
newData[i] = data[(i + front) % data.length];
data = newData;
front = 0;
tail = size;
}
@Override
public String toString(){
StringBuilder res = new StringBuilder();
res.append(String.format("Queue: size = %d , capacity = %d\n", size, getCapacity()));
res.append("front [");
for(int i = front ; i != tail ; i = (i + 1) % data.length){
res.append(data[i]);
if((i + 1) % data.length != tail)
res.append(", ");
}
res.append("] tail");
return res.toString();
}
public static void main(String[] args){
LoopQueue<Integer> queue = new LoopQueue<>();
for(int i = 0 ; i < 10 ; i ++){
queue.enqueue(i);
System.out.println(queue);
if(i % 3 == 2){
queue.dequeue();
System.out.println(queue);
}
}
}
}
import java.util.Random;
public class Main {
// 测试使用q运行opCount个enqueueu和dequeue操作所需要的时间,单位:秒
private static double testQueue(Queue<Integer> q, int opCount){
long startTime = System.nanoTime();
Random random = new Random();
for(int i = 0 ; i < opCount ; i ++)
q.enqueue(random.nextInt(Integer.MAX_VALUE));
for(int i = 0 ; i < opCount ; i ++)
q.dequeue();
long endTime = System.nanoTime();
return (endTime - startTime) / 1000000000.0;
}
public static void main(String[] args) {
int opCount = 100000;
ArrayQueue<Integer> arrayQueue = new ArrayQueue<>();
double time1 = testQueue(arrayQueue, opCount);
System.out.println("ArrayQueue, time: " + time1 + " s");
LoopQueue<Integer> loopQueue = new LoopQueue<>();
double time2 = testQueue(loopQueue, opCount);
System.out.println("LoopQueue, time: " + time2 + " s");
}
}
//result:
/********************************************************************************
ArrayQueue, time: 52.236474331 s
LoopQueue, time: 0.016045354 s
********************************************************************************/
LinkedList
public class LinkedList<E> {
private class Node{
public E e;
public Node next;
public Node(E e, Node next){
this.e = e;
this.next = next;
}
public Node(E e){
this(e, null);
}
public Node(){
this(null, null);
}
@Override
public String toString(){
return e.toString();
}
}
private Node dummyHead;
private int size;
public LinkedList(){
dummyHead = new Node();
size = 0;
}
// 获取链表中的元素个数
public int getSize(){
return size;
}
// 返回链表是否为空
public boolean isEmpty(){
return size == 0;
}
// 在链表的index(0-based)位置添加新的元素e
// 在链表中不是一个常用的操作,练习用:)
public void add(int index, E e){
if(index < 0 || index > size)
throw new IllegalArgumentException("Add failed. Illegal index.");
Node prev = dummyHead;
for(int i = 0 ; i < index ; i ++)
prev = prev.next;
prev.next = new Node(e, prev.next);
size ++;
}
// 在链表头添加新的元素e
public void addFirst(E e){
add(0, e);
}
// 在链表末尾添加新的元素e
public void addLast(E e){
add(size, e);
}
// 获得链表的第index(0-based)个位置的元素
// 在链表中不是一个常用的操作,练习用:)
public E get(int index){
if(index < 0 || index >= size)
throw new IllegalArgumentException("Get failed. Illegal index.");
Node cur = dummyHead.next;
for(int i = 0 ; i < index ; i ++)
cur = cur.next;
return cur.e;
}
// 获得链表的第一个元素
public E getFirst(){
return get(0);
}
// 获得链表的最后一个元素
public E getLast(){
return get(size - 1);
}
// 修改链表的第index(0-based)个位置的元素为e
// 在链表中不是一个常用的操作,练习用:)
public void set(int index, E e){
if(index < 0 || index >= size)
throw new IllegalArgumentException("Update failed. Illegal index.");
Node cur = dummyHead.next;
for(int i = 0 ; i < index ; i ++)
cur = cur.next;
cur.e = e;
}
// 查找链表中是否有元素e
public boolean contains(E e){
Node cur = dummyHead.next;
while(cur != null){
if(cur.e.equals(e))
return true;
cur = cur.next;
}
return false;
}
// 从链表中删除index(0-based)位置的元素, 返回删除的元素
// 在链表中不是一个常用的操作,练习用:)
public E remove(int index){
if(index < 0 || index >= size)
throw new IllegalArgumentException("Remove failed. Index is illegal.");
// E ret = findNode(index).e; // 两次遍历
Node prev = dummyHead;
for(int i = 0 ; i < index ; i ++)
prev = prev.next;
Node retNode = prev.next;
prev.next = retNode.next;
retNode.next = null;
size --;
return retNode.e;
}
// 从链表中删除第一个元素, 返回删除的元素
public E removeFirst(){
return remove(0);
}
// 从链表中删除最后一个元素, 返回删除的元素
public E removeLast(){
return remove(size - 1);
}
// 从链表中删除元素e
public void removeElement(E e){
Node prev = dummyHead;
while(prev.next != null){
if(prev.next.e.equals(e))
break;
prev = prev.next;
}
if(prev.next != null){
Node delNode = prev.next;
prev.next = delNode.next;
delNode.next = null;
size --;
}
}
@Override
public String toString(){
StringBuilder res = new StringBuilder();
Node cur = dummyHead.next;
while(cur != null){
res.append(cur + "->");
cur = cur.next;
}
res.append("NULL");
return res.toString();
}
}
public class LinkedListStack<E> implements Stack<E> {
private LinkedList<E> list;
public LinkedListStack(){
list = new LinkedList<>();
}
@Override
public int getSize(){
return list.getSize();
}
@Override
public boolean isEmpty(){
return list.isEmpty();
}
@Override
public void push(E e){
list.addFirst(e);
}
@Override
public E pop(){
return list.removeFirst();
}
@Override
public E peek(){
return list.getFirst();
}
@Override
public String toString(){
StringBuilder res = new StringBuilder();
res.append("Stack: top ");
res.append(list);
return res.toString();
}
public static void main(String[] args) {
LinkedListStack<Integer> stack = new LinkedListStack<>();
for(int i = 0 ; i < 5 ; i ++){
stack.push(i);
System.out.println(stack);
}
stack.pop();
System.out.println(stack);
}
}
// 删除链表中等于给定值 val 的所有节点。
//输入: 1->2->6->3->4->5->6, val = 6
//输出: 1->2->3->4->5
//Definition for singly-linked list.
public class ListNode {
public int val;
public ListNode next;
public ListNode(int x) {
val = x;
}
}
class Solution {
public ListNode removeElements(ListNode head, int val) {
while(head != null && head.val == val){
ListNode delNode = head;
head = head.next;
delNode.next = null;
}
if(head == null)
return head;
ListNode prev = head;
while(prev.next != null){
if(prev.next.val == val) {
ListNode delNode = prev.next;
prev.next = delNode.next;
delNode.next = null;
}
else
prev = prev.next;
}
return head;
}
}
class Solution2 {
public ListNode removeElements(ListNode head, int val) {
while(head != null && head.val == val)
head = head.next;
if(head == null)
return head;
ListNode prev = head;
while(prev.next != null){
if(prev.next.val == val)
prev.next = prev.next.next;
else
prev = prev.next;
}
return head;
}
}
class Solution3 {
public ListNode removeElements(ListNode head, int val) {
ListNode dummyHead = new ListNode(-1);
dummyHead.next = head;
ListNode prev = dummyHead;
while(prev.next != null){
if(prev.next.val == val)
prev.next = prev.next.next;
else
prev = prev.next;
}
return dummyHead.next;
}
}
class Solution4 {
public ListNode removeElements(ListNode head, int val) {
if(head == null)
return head;
ListNode res = removeElements(head.next, val);
return head.val == val ? head.next : head;
}
}
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