数据结构java源代码,Java代码结构
求程序代码(java版的数据结构)
3个class,运行UI.java。
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******
public class CircuitException extends Exception {public CircuitException(){}}
*****
import java.util.LinkedList;
public class GPS {
public static final int MAX = 65535;
public GPS(int maxSize){
graph = new Graph(maxSize);
}
public GPS(){
graph = new Graph();
}
public Graph graph;
public static void main(String args[]){
GPS gps = new GPS();
try {
gps.graph.addEdge("a", "b", 1);
gps.graph.addEdge("a", "c", 1);
gps.graph.addEdge("b","d" , 1);
gps.graph.addEdge("c","d" , 1);
gps.graph.addEdge("d","e" , 1);
gps.graph.addEdge("d","f" , 1);
gps.graph.addEdge("e","t" , 2);
gps.graph.addEdge("f","t" , 1);
LinkedList list = gps.graph.getPath("a", "d");
for(int i = 0 ; i list.size() ; i++){
System.out.print(list.get(i));
}System.out.println();
} catch (CircuitException e) {
System.out.println("出现了自环!");
}
gps.graph.showGraph();
System.out.println(gps.graph.gap);
}
public class Graph{
public int Zuidazhi = 50;
public int changdu = 0;
public Jiao[] vertex;
public double gap;
public Graph(){
vertex = new Jiao[Zuidazhi];
}
public Graph(int maxSize){
this.Zuidazhi = maxSize;
vertex = new Jiao[maxSize];
}
public void addVertex(String name){
vertex[changdu++] = new Jiao(name);
}
public void addEdge(String v1, String v2,double edge) throws CircuitException{
//先找到v1;
if(v1.equals(v2))
throw new CircuitException();
Jiao from = null;
Jiao to = null;
for(int i = 0 ; i changdu ; i++){
if(vertex[i].name.equals(v1)){
from = vertex[i];
}else if(vertex[i].name.equals(v2)){
to = vertex[i];
}
}
if(from == null){
this.addVertex(v1);
from = this.vertex[changdu-1];
}
if(to == null){
this.addVertex(v2);
to = this.vertex[changdu-1];
}//已经找到v1和v2;
//没有检测是否v1 v2边已经存在!
//加入边。
Jiao v1adj = new Jiao(v2);
v1adj.edge = edge;
Jiao v2adj = new Jiao(v1);
v2adj.edge = edge;
//添加联系
//检查联系是否已经存在
Jiao temp = from;
while(temp.next!=null){
Jiao temppar = temp;
temp = temp.next;
if(temp.name.equals(v1adj.name)){
temppar.next = temp.next;
}
}
v1adj.next = from.next;
from.next = v1adj;
//v2adj.next = to.next;
//to.next = v2adj;
}
//假设要找的必然存在,不用想是否不在
public LinkedList getPath(String v1 ,String v2){
int count = 0;
//System.out.println(count++);
boolean found[] = new boolean[changdu];
double distance[] = new double[changdu];
int to = 0;
Jiao from = null;
for(int i = 0 ; i changdu ; i++){
found[i] = false;
distance[i] = MAX;
}
for(int i = 0 ; i changdu ; i++){
if(vertex[i].name.equals(v1)){//找到始发地
from = vertex[i];
distance[i] = 0;
found[i] = true;
//System.out.println(count++);
}
if(vertex[i].name.equals(v2)){//找到目的地
to = i;
//System.out.println(count++);
}
}
//必须先准备好路径!
Jiao forCount = from;
int degree = 0;
while(forCount!=null){
degree++;
forCount=forCount.next;
}
LinkedList[] list = new LinkedList[degree];
int [] mark = new int[degree];
for(int i = 0 ; i degree ; i++){
list[i]=new LinkedList();
mark[i]=MAX;
}
int test=0;
int count2 = 0;
int count3 = 0;
//System.out.println(count+++"xx");
while(!found[to]test++100){
//System.out.println(count+++"FIRST");
//开始时from到所有都是最大值。
//找到标记了的节点
//找标记了的节点邻接的未标记的节点。
//得到最短的边,并标记。
//更新现有路径
double min = MAX;
int address = -1;
int father = -1;
for(int i = 0 ; i changdu ; i++){//对于已经找到的顶点寻找最小的往后的距离。
if(found[i]){//找到了的。
Jiao temp = vertex[i];
while(temp!=null){//vertex的邻接顶点~~
//先看temp的号码~
int tempNumber = -1;
for(int j = 0 ; j changdu ; j++){
if(vertex[j].name.equals(temp.name)){
tempNumber = j;
break;
}
}
if(!found[tempNumber]){//如果是还没有找到的~
double dist = distance[i]+temp.edge;
if(dist min){
min = dist;
father = i;
//System.out.println(" "+min);
address = tempNumber;
}
}
temp = temp.next;
}
}
}found[address] = true;
distance[address] = min;
//添加到已有路径中去!
//知道father
for(int i = 0 ; i degree ; i++){
if(list[i].isEmpty()||list[i].getLast().equals(vertex[father].name)){
list[i].addLast(vertex[address].name);
break;
}
}
}
for(int i = 0 ; i degree ; i++){
if(list[i].isEmpty())
continue;
else{
if(list[i].getLast().equals(v2)){
gap=0;
//先求出gap
Jiao pre = from;
Jiao nex = null;
for(int j = 0 ; j list[i].size() ; j++){
for(int k = 0 ; k changdu ; k++){
if(vertex[k].name.equals(list[i].get(j))){
nex = vertex[k];break;
}
}
while(pre.next!=null){//找到下一个的长度
pre = pre.next;
//System.out.println(nex.name +"nex.name");
if(pre.name.equals(nex.name)){
gap+=pre.edge;
//System.out.println(" gap2 "+gap);
}
}
pre = nex;
}
//System.out.println(gap+"gap");
return list[i];
}
}
}
return null;
}
public void showGraph(){
Jiao temp;
for(int i = 0 ; i changdu ; i++){
temp = vertex[i];
while(temp!=null){
System.out.print(temp.name+temp.edge+" ");
temp = temp.next;
}System.out.println();
}System.out.println("Show Over!");
}
}
public class Jiao{
public String name;
public Jiao next = null;
public double edge;
public Jiao(String name){
this.name = name;
}
}
}
******
import java.awt.EventQueue;
import java.awt.event.ActionEvent;
import java.awt.event.ActionListener;
import java.util.LinkedList;
import javax.swing.JButton;
import javax.swing.DefaultListModel;
import javax.swing.JFrame;
import javax.swing.JLabel;
import javax.swing.JList;
import javax.swing.JOptionPane;
import javax.swing.JScrollPane;
import javax.swing.JSeparator;
import javax.swing.JTextField;
import javax.swing.SwingConstants;
public class UI extends JFrame implements ActionListener{
private JTextField textField_5;
private JTextField textField_4;
private JList list_1;
private JList list;
private JTextField textField_1;
private JTextField textField_3;
private JTextField textField_2;
private JTextField textField;
private DefaultListModel model = new DefaultListModel();
private DefaultListModel model_1 = new DefaultListModel();
/**
* Launch the application
* @param args
*/
public static void main(String args[]) {
EventQueue.invokeLater(new Runnable() {
public void run() {
try {
UI frame = new UI();
frame.setVisible(true);
} catch (Exception e) {
e.printStackTrace();
}
}
});
}
/**
* Create the frame
*/
public UI() {
super();
setTitle("GPS寻路");
getContentPane().setLayout(null);
setBounds(100, 100, 500, 375);
setDefaultCloseOperation(JFrame.EXIT_ON_CLOSE);
final JScrollPane scrollPane = new JScrollPane();
scrollPane.setBounds(11, 36, 221, 193);
getContentPane().add(scrollPane);
list = new JList(model);
scrollPane.setViewportView(list);
final JScrollPane scrollPane_1 = new JScrollPane();
scrollPane_1.setBounds(253, 36, 218, 193);
getContentPane().add(scrollPane_1);
list_1 = new JList(model_1);
scrollPane_1.setViewportView(list_1);
final JLabel label = new JLabel();
label.setText("从");
label.setBounds(10, 249, 24, 18);
getContentPane().add(label);
final JLabel label_1 = new JLabel();
label_1.setText("到");
label_1.setBounds(11, 273, 24, 18);
getContentPane().add(label_1);
textField = new JTextField();
textField.setBounds(50, 247, 103, 22);
getContentPane().add(textField);
textField_2 = new JTextField();
textField_2.setBounds(50, 271, 103, 22);
getContentPane().add(textField_2);
final JLabel label_2 = new JLabel();
label_2.setText("距离");
label_2.setBounds(11, 297, 37, 18);
getContentPane().add(label_2);
textField_3 = new JTextField();
textField_3.setBounds(50, 295, 103, 22);
getContentPane().add(textField_3);
final JButton button = new JButton();
button.setText("添加");
button.setBounds(155, 250, 73, 28);
getContentPane().add(button);
final JButton button_1 = new JButton();
button_1.setText("删除");
button_1.setBounds(155, 285, 73, 28);
getContentPane().add(button_1);
final JLabel label_3 = new JLabel();
label_3.setText("距离:");
label_3.setBounds(253, 297, 39, 18);
getContentPane().add(label_3);
textField_1 = new JTextField();
textField_1.setBounds(293, 295, 86, 22);
getContentPane().add(textField_1);
final JButton button_2 = new JButton();
button_2.setText("显示路径");
button_2.setBounds(385, 249, 86, 68);
getContentPane().add(button_2);
final JLabel label_4 = new JLabel();
label_4.setText("路径表示");
label_4.setBounds(11, 10, 66, 18);
getContentPane().add(label_4);
final JLabel label_5 = new JLabel();
label_5.setText("最佳路径");
label_5.setBounds(253, 12, 66, 18);
getContentPane().add(label_5);
//
button.addActionListener(this);
button_1.addActionListener(this);
button_2.addActionListener(this);
final JLabel label_6 = new JLabel();
label_6.setText("从");
label_6.setBounds(253, 249, 24, 18);
getContentPane().add(label_6);
textField_4 = new JTextField();
textField_4.setBounds(293, 247, 86, 22);
getContentPane().add(textField_4);
final JLabel label_7 = new JLabel();
label_7.setText("到");
label_7.setBounds(253, 273, 24, 18);
getContentPane().add(label_7);
textField_5 = new JTextField();
textField_5.setBounds(293, 271, 86, 22);
getContentPane().add(textField_5);
final JSeparator separator = new JSeparator();
separator.setOrientation(SwingConstants.VERTICAL);
separator.setBounds(239, 10, 8, 317);
getContentPane().add(separator);
}
@Override
public void actionPerformed(ActionEvent e) {
// TODO Auto-generated method stub
if(e.getActionCommand().equals("添加")){
try{String from = textField.getText();
String to = textField_2.getText();
if(from.equals(to)){
JOptionPane.showMessageDialog(null, "始点与终点不能相同");
return;
}
if(from.equals("")||to.equals("")){
JOptionPane.showMessageDialog(null, "添加不能为空");
return;
}for(int i = 0 ; i model.size() ; i ++){
if(model.get(i).toString().substring(0, model.get(i).toString().indexOf(":")).equals(
from+"-"+to))
model.remove(i);
}
double length = Double.parseDouble(textField_3.getText());
model.addElement(from+"-"+to+": "+length);
}catch(Exception e1){
JOptionPane.showMessageDialog(null, "距离为数字值");
}
}
if(e.getActionCommand().equals("删除")){
for(int i = 0 ; i model.size() ; i++){
if(list.isSelectedIndex(i))
model.remove(i);
}
}
if(e.getActionCommand().equals("显示路径")){
try{
model_1.removeAllElements();
GPS gps = new GPS();
String full,from,to;
double length;
for(int i = 0 ; i model.size() ; i++){
full = model.get(i).toString();
from = full.substring(0,full.indexOf("-"));
to = full.substring(full.indexOf("-")+2,full.lastIndexOf(":"));
length = Double.parseDouble(full.substring(full.indexOf(":")+1, full.length()-1));
//System.out.println(from);
//System.out.println(to);
try {
gps.graph.addEdge(from, to, length);
System.out.println(from +" "+ to);
} catch (CircuitException e1) {
System.out.println("有环存在");
}
}LinkedList list = gps.graph.getPath(textField_4.getText(), textField_5.getText());
model_1.addElement(textField_4.getText());
for(int i = 0 ; i list.size() ; i++){
model_1.addElement(list.get(i));
}//计算路径长度
textField_1.setText(""+gps.graph.gap);
}catch(Exception e1){
JOptionPane.showMessageDialog(null, "没有找到有关节点");
}
}
}
}
java数据结构 gui编程。效果图在下面。有大神会么?跪求源代码!也不需要完全跟图一样。能实现功
import java.awt.*;
import java.awt.event.*;
import javax.swing.*;
import javax.swing.event.*;
public class DSExample {
public static void main(String[] args) {
EventQueue.invokeLater(new Runnable(){
@Override public void run(){
final JFrame frame = new JFrame("Java数据结构");
frame.setDefaultCloseOperation(JFrame.EXIT_ON_CLOSE);
final Box hbox = Box.createHorizontalBox();
final JButton stackButton = new JButton("堆栈");
final JButton queueButton = new JButton("队列");
final JButton stringButton = new JButton("串");
final JButton recurButton = new JButton("递归");
final JButton treeButton = new JButton("树");
final JButton graphButton = new JButton("图");
final JButton opButton = new JButton("数据操作");
final JButton expButton = new JButton("表达式");
hbox.add(stackButton);
hbox.add(queueButton);
hbox.add(stringButton);
hbox.add(recurButton);
hbox.add(treeButton);
hbox.add(graphButton);
hbox.add(opButton);
hbox.add(expButton);
final Box vbox = Box.createVerticalBox();
vbox.add(new JLabel("代码区域"));
final JTextArea codeArea = new JTextArea();
vbox.add(new JScrollPane(codeArea));
final JPanel opPanel = new JPanel(new GridLayout(4,2));
final JButton pushButton = new JButton("数据入队");
final JButton popButton = new JButton("数据出队");
final JButton headButton = new JButton("队头元素");
final JButton tailButton = new JButton("队尾元素");
final JTextField pushData = new JTextField();
final JTextField popData = new JTextField();
final JTextField headData = new JTextField();
final JTextField tailData = new JTextField();
opPanel.add(pushData);
opPanel.add(pushButton);
opPanel.add(popData);
opPanel.add(popButton);
opPanel.add(headData);
opPanel.add(headButton);
opPanel.add(tailData);
opPanel.add(tailButton);
opPanel.setBorder(BorderFactory.createTitledBorder("操作"));
frame.add(hbox, BorderLayout.PAGE_START);
frame.add(opPanel, BorderLayout.LINE_END);
frame.add(vbox, BorderLayout.CENTER);
frame.pack();
frame.setVisible(true);
}
});
}
}
数据结构 java
应该是char
public void outprint( ) { // 本方法调用后输出的结果是什么?
Queue Q=new Queue();
String x=”e” , y=”c”;
Q. enqueue (“h”);
Q. enqueue (“r”);
Q. enqueue (y); //到此,Q中元素:'h'、'r'、'c'
x=(String)Q. dequeue (); //'h'出去,x='h',Q中元素:'r'、'c';
Q. enqueue (x); //x进去,Q中元素:'r'、'c'、'h
x=(String)Q. dequeue (); //'r'出去,x='r',Q中元素:'c'、'h'
Q. enqueue (“a”); //'a'进去,Q中元素:'c'、'h'、'a'
while(!Q.isEmpty()){
y =(String)Q. dequeue ();
System.out.print(y); } //所以,while循环应打印出cha
System.out.println(x); //x='r',最终输出char
}
关于数据结构(java)的一个代码
描述栈抽象数据类型的SStack接口的声明
public interfaceSStackE //栈接口
{
boolean isEmpty(); //判断是否空栈,若空栈返回true
boolean push(E element); //元素element入栈,若操作成功返回true
E pop(); //出栈,返回当前栈顶元素,若栈空返回null
E get(); //取栈顶元素值,未出栈,若栈空返回null
}
顺序栈类具体操作方法的声明:
importdataStructure.linearList.SStack;
public classSeqStackE implements SStackE
//顺序栈类
{
private Object value[]; //存储栈的数据元素
private int top; //top为栈顶元素下标
public SeqStack(int capacity) //构造指定容量的空栈
{
this.value = newObject[Math.abs(capacity)];
this.top=-1;
}
public SeqStack() //构造默认容量的空栈
{
this(10);
}
public boolean isEmpty() //判断是否空栈,若空栈返回true
{
return this.top==-1;
}
public boolean push(E element) //元素element入栈,若操作成功返回true
{
if (element==null)
return false; //空对象(null)不能入栈
if (this.top==value.length-1) //若栈满,则扩充容量
{
Object[] temp = this.value;
this.value = newObject[temp.length*2];
for (int i=0; itemp.length;i++)
this.value[i] = temp[i];
}
this.top++;
this.value[this.top] = element;
return true;
}
public E pop() //出栈,返回当前栈顶元素,若栈空返回null
{
if (!isEmpty())
return (E)this.value[this.top--];
else
return null;
}
public E get() //取栈顶元素值,未出栈,栈顶元素未改变
{
if (!isEmpty())
return (E)this.value[this.top];
else
return null;
}
public String toString() //返回栈中各元素的字符串描述
{
String str="{";
if (this.top!=-1)
str +=this.value[this.top].toString();
for (int i=this.top-1; i=0; i--)
str += ","+this.value[i].toString();
return str+"} ";
}
实例引用public static void main(String args[])
{
SeqStackString stack = newSeqStackString(20);
System.out.print("Push: ");
char ch='a';
for(int i=0;i5;i++)
{
String str =(char)(ch+i)+"";
stack.push(str);
System.out.print(str+" ");
}
System.out.println("\n"+stack.toString());
System.out.print("Pop : ");
while(!stack.isEmpty()) //全部出栈
System.out.print(stack.pop().toString()+" ");
System.out.println();
}
java数据结构
对于栈,我给你总结下:
栈(stack):限定仅在表尾进行插入或删除操作的线。
表尾-栈顶(top),表头-栈底(bootom)
特点:先进后出(filo),或后进先出(lifo)。
至于你的问题实现代码如下(复制可以直接使用):
public static void main(String[] args) {
StackNumber a = new StackNumber();
a.add(1);
a.add(2);
a.add(3);
a.add(4);
StackNumber b = new StackNumber();
b.add(5);
b.add(6);
b.add(7);
b.add(8);
//上面是给栈a、b添加元素
//下面两个for循环可以分别遍历出栈a、b
for (int i = 0; i a.size(); i++) {
System.out.println(a.get(i));
}
System.out.println("--------------------");
for (int i = 0; i b.size(); i++) {
System.out.println(b.get(i));
}
System.out.println("--------------------");
//将 A 中的 4转移到 B中去 然后把 3 POP出来
//第一步:先将A中的4抛出来(现在4是在栈顶,可以直接抛出,如果不在栈顶,则要另写方法)
/*这句可以取到元素“4”在栈中的位置,然后移除
* Number log= a.search(4);
System.out.println("CCC"+log);
a.remove(a.search(3));*/
a.pop();
//将元素4加载到B栈
b.push(4);
//第二步:把 3 POP出来
a.pop();
for (int i = 0; i a.size(); i++) {
System.out.println(a.get(i));
}
System.out.println("--------------------");
for (int i = 0; i b.size(); i++) {
System.out.println(b.get(i));
}
System.out.println("--------------------");
}
算法 数据结构编程(java语言)
private void sort(int[] list)
{
int[] sortlist=new int[21];
for(int i=1;i=20;i++)
sortlist[i]=-1;
for(int i=0;ilist.Length;i++)
{
sortlist[list[i]]=list[i];
}
for(int i=0;isortlist.Length;i++)
{
if(sortlist[i]!=-1)
{
输出sortlist[i];
}
}
因为已知最大值,所以遍历算法计算次数为常数,所以算法复杂度为1
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