方块娱乐源码

1. 求用java编写俄罗斯方块游戏的源代码

俄罗斯方块——java源代码提供 import java.awt.*; import java.awt.event.*; //俄罗斯方块类 public class ERS_Block extends Frame{ public static boolean isPlay=false; public static int level=1,score=0; public static TextField scoreField,levelField; public static MyTimer timer; GameCanvas gameScr; public static void main(String[] argus){ ERS_Block ers = new ERS_Block("俄罗斯方块游戏 V1.0 Author:Vincent"); WindowListener win_listener = new WinListener(); ers.addWindowListener(win_listener); } //俄罗斯方块类的构造方法 ERS_Block(String title){ super(title); setSize(600,480); setLayout(new GridLayout(1,2)); gameScr = new GameCanvas(); gameScr.addKeyListener(gameScr); timer = new MyTimer(gameScr); timer.setDaemon(true); timer.start(); timer.suspend(); add(gameScr); Panel rightScr = new Panel(); rightScr.setLayout(new GridLayout(2,1,0,30)); rightScr.setSize(120,500); add(rightScr); //右边信息窗体的布局 MyPanel infoScr = new MyPanel(); infoScr.setLayout(new GridLayout(4,1,0,5)); infoScr.setSize(120,300); rightScr.add(infoScr); //定义标签和初始值 Label scorep = new Label("分数:",Label.LEFT); Label levelp = new Label("级数:",Label.LEFT); scoreField = new TextField(8); levelField = new TextField(8); scoreField.setEditable(false); levelField.setEditable(false); infoScr.add(scorep); infoScr.add(scoreField); infoScr.add(levelp); infoScr.add(levelField); scorep.setSize(new Dimension(20,60)); scoreField.setSize(new Dimension(20,60)); levelp.setSize(new Dimension(20,60)); levelField.setSize(new Dimension(20,60)); scoreField.setText("0"); levelField.setText("1"); //右边控制按钮窗体的布局 MyPanel controlScr = new MyPanel(); controlScr.setLayout(new GridLayout(5,1,0,5)); rightScr.add(controlScr); //定义按钮play Button play_b = new Button("开始游戏"); play_b.setSize(new Dimension(50,200)); play_b.addActionListener(new Command(Command.button_play,gameScr)); //定义按钮Level UP Button level_up_b = new Button("提高级数"); level_up_b.setSize(new Dimension(50,200)); level_up_b.addActionListener(new Command(Command.button_levelup,gameScr)); //定义按钮Level Down Button level_down_b =new Button("降低级数"); level_down_b.setSize(new Dimension(50,200)); level_down_b.addActionListener(new Command(Command.button_leveldown,gameScr)); //定义按钮Level Pause Button pause_b =new Button("游戏暂停"); pause_b.setSize(new Dimension(50,200)); pause_b.addActionListener(new Command(Command.button_pause,gameScr)); //定义按钮Quit Button quit_b = new Button("退出游戏"); quit_b.setSize(new Dimension(50,200)); quit_b.addActionListener(new Command(Command.button_quit,gameScr)); controlScr.add(play_b); controlScr.add(level_up_b); controlScr.add(level_down_b); controlScr.add(pause_b); controlScr.add(quit_b); setVisible(true); gameScr.requestFocus(); } } //重写MyPanel类，使Panel的四周留空间 class MyPanel extends Panel{ public Insets getInsets(){ return new Insets(30,50,30,50); } } //游戏画布类 class GameCanvas extends Canvas implements KeyListener{ final int unitSize = 30; //小方块边长 int rowNum; //正方格的行数 int columnNum; //正方格的列数 int maxAllowRowNum; //允许有多少行未削 int blockInitRow; //新出现块的起始行坐标 int blockInitCol; //新出现块的起始列坐标 int [][] scrArr; //屏幕数组 Block b; //对方快的引用 //画布类的构造方法 GameCanvas(){ rowNum = 15; columnNum = 10; maxAllowRowNum = rowNum - 2; b = new Block(this); blockInitRow = rowNum - 1; blockInitCol = columnNum/2 - 2; scrArr = new int [32][32]; } //初始化屏幕，并将屏幕数组清零的方法 void initScr(){ for(int i=0;i<rowNum;i++) for (int j=0; j<columnNum;j++) scrArr[j]=0; b.reset(); repaint(); } //重新刷新画布方法 public void paint(Graphics g){ for(int i = 0; i < rowNum; i++) for(int j = 0; j < columnNum; j++) drawUnit(i,j,scrArr[j]); } //画方块的方法 public void drawUnit(int row,int col,int type){ scrArr[row][col] = type; Graphics g = getGraphics(); tch(type){ //表示画方快的方法 case 0: g.setColor(Color.black);break; //以背景为颜色画 case 1: g.setColor(Color.blue);break; //画正在下落的方块 case 2: g.setColor(Color.magenta);break; //画已经落下的方法 } g.fill3DRect(col*unitSize,getSize().height-(row+1)*unitSize,unitSize,unitSize,true); g.dispose(); } public Block getBlock(){ return b; //返回block实例的引用 } //返回屏幕数组中(row,col)位置的属性值 public int getScrArrXY(int row,int col){ if (row < 0 || row >= rowNum || col < 0 || col >= columnNum) return(-1); else return(scrArr[row][col]); } //返回新块的初始行坐标方法 public int getInitRow(){ return(blockInitRow); //返回新块的初始行坐标 } //返回新块的初始列坐标方法 public int getInitCol(){ return(blockInitCol); //返回新块的初始列坐标 } //满行删除方法 void deleteFullLine(){ int full_line_num = 0; int k = 0; for (int i=0;i<rowNum;i++){ boolean isfull = true; L1:for(int j=0;j<columnNum;j++) if(scrArr[j] == 0){ k++; isfull = false; break L1; } if(isfull) full_line_num++; if(k!=0 && k-1!=i && !isfull) for(int j = 0; j < columnNum; j++){ if (scrArr[j] == 0) drawUnit(k-1,j,0); else drawUnit(k-1,j,2); scrArr[k-1][j] = scrArr[j]; } } for(int i = k-1 ;i < rowNum; i++){ for(int j = 0; j < columnNum; j++){ drawUnit(i,j,0); scrArr[j]=0; } } ERS_Block.score += full_line_num; ERS_Block.scoreField.setText(""+ERS_Block.score); } //判断游戏是否结束方法 boolean isGameEnd(){ for (int col = 0 ; col <columnNum; col ++){ if(scrArr[maxAllowRowNum][col] !=0) return true; } return false; } public void keyTyped(KeyEvent e){ } public void keyReleased(KeyEvent e){ } //处理键盘输入的方法 public void keyPressed(KeyEvent e){ if(!ERS_Block.isPlay) return; tch(e.getKeyCode()){ case KeyEvent.VK_DOWN:b.fallDown();break; case KeyEvent.VK_LEFT:b.leftMove();break; case KeyEvent.VK_RIGHT:b.rightMove();break; case KeyEvent.VK_SPACE:b.leftTurn();break; } } } //处理控制类 class Command implements ActionListener{ static final int button_play = 1; //给按钮分配编号 static final int button_levelup = 2; static final int button_leveldown = 3; static final int button_quit = 4; static final int button_pause = 5; static boolean pause_resume = true; int curButton; //当前按钮 GameCanvas scr; //控制按钮类的构造方法 Command(int button,GameCanvas scr){ curButton = button; this.scr=scr; } //按钮执行方法 public void actionPerformed (ActionEvent e){ tch(curButton){ case button_play:if(!ERS_Block.isPlay){ scr.initScr(); ERS_Block.isPlay = true; ERS_Block.score = 0; ERS_Block.scoreField.setText("0"); ERS_Block.timer.resume(); } scr.requestFocus(); break; case button_levelup:if(ERS_Block.level < 10){ ERS_Block.level++; ERS_Block.levelField.setText(""+ERS_Block.level); ERS_Block.score = 0; ERS_Block.scoreField.setText(""+ERS_Block.score); } scr.requestFocus(); break; case button_leveldown:if(ERS_Block.level > 1){ ERS_Block.level--; ERS_Block.levelField.setText(""+ERS_Block.level); ERS_Block.score = 0; ERS_Block.scoreField.setText(""+ERS_Block.score); } scr.requestFocus(); break; case button_pause:if(pause_resume){ ERS_Block.timer.suspend(); pause_resume = false; }else{ ERS_Block.timer.resume(); pause_resume = true; } scr.requestFocus(); break; case button_quit:System.exit(0); } } } //方块类 class Block { static int[][] pattern = { {0x0f00,0x4444,0x0f00,0x4444},//用十六进至表示，本行表示长条四种状态 {0x04e0,0x0464,0x00e4,0x04c4}, {0x4620,0x6c00,0x4620,0x6c00}, {0x2640,0xc600,0x2640,0xc600}, {0x6220,0x1700,0x2230,0x0740}, {0x6440,0x0e20,0x44c0,0x8e00}, {0x0660,0x0660,0x0660,0x0660} }; int blockType; //块的模式号（0-6） int turnState; //块的翻转状态（0-3） int blockState; //快的下落状态 int row,col; //块在画布上的坐标 GameCanvas scr; //块类的构造方法 Block(GameCanvas scr){ this.scr = scr; blockType = (int)(Math.random() * 1000)%7; turnState = (int)(Math.random() * 1000)%4; blockState = 1; row = scr.getInitRow(); col = scr.getInitCol(); } //重新初始化块，并显示新块 public void reset(){ blockType = (int)(Math.random() * 1000)%7; turnState = (int)(Math.random() * 1000)%4; blockState = 1; row = scr.getInitRow(); col = scr.getInitCol(); dispBlock(1); } //实现“块”翻转的方法 public void leftTurn(){ if(assertValid(blockType,(turnState + 1)%4,row,col)){ dispBlock(0); turnState = (turnState + 1)%4; dispBlock(1); } } //实现“块”的左移的方法 public void leftMove(){ if(assertValid(blockType,turnState,row,col-1)){ dispBlock(0); col--; dispBlock(1); } } //实现块的右移 public void rightMove(){ if(assertValid(blockType,turnState,row,col+1)){ dispBlock(0); col++; dispBlock(1); } } //实现块落下的操作的方法 public boolean fallDown(){ if(blockState == 2) return(false); if(assertValid(blockType,turnState,row-1,col)){ dispBlock(0); row--; dispBlock(1); return(true); }else{ blockState = 2; dispBlock(2); return(false); } } //判断是否正确的方法 boolean assertValid(int t,int s,int row,int col){ int k = 0x8000; for(int i = 0; i < 4; i++){ for(int j = 0; j < 4; j++){ if((int)(pattern[t][s]&k) != 0){ int temp = scr.getScrArrXY(row-i,col+j); if (temp<0||temp==2) return false; } k = k >> 1; } } return true; } //同步显示的方法 public synchronized void dispBlock(int s){ int k = 0x8000; for (int i = 0; i < 4; i++){ for(int j = 0; j < 4; j++){ if(((int)pattern[blockType][turnState]&k) != 0){ scr.drawUnit(row-i,col+j,s); } k=k>>1; } } } } //定时线程 class MyTimer extends Thread{ GameCanvas scr; public MyTimer(GameCanvas scr){ this.scr = scr; } public void run(){ while(true){ try{ sleep((10-ERS_Block.level + 1)*100); } catch(InterruptedException e){} if(!scr.getBlock().fallDown()){ scr.deleteFullLine(); if(scr.isGameEnd()){ ERS_Block.isPlay = false; suspend(); }else scr.getBlock().reset(); } } } } class WinListener extends WindowAdapter{ public void windowClosing (WindowEvent l){ System.exit(0); } } 22

2. 求俄罗斯方块游戏代码

手机游戏---俄罗斯方块http://www.onlinedown.net/soft/40673.htm
http://games.sina.com.cn/m/c/2004-10-21/1069.shtml
http://www.gamezero.cn/game8878.html
俄罗斯方块——java源代码提供
import java.awt.*;
import java.awt.event.*;
//俄罗斯方块类
public class ERS_Block extends Frame{
public static boolean isPlay=false;
public static int level=1,score=0;
public static TextField scoreField,levelField;

public static MyTimer timer;
GameCanvas gameScr;

public static void main(String[] argus){
ERS_Block ers = new ERS_Block("俄罗斯方块游戏 V1.0 Author:Vincent");
WindowListener win_listener = new WinListener();
ers.addWindowListener(win_listener);
}

//俄罗斯方块类的构造方法
ERS_Block(String title){
super(title);

setSize(600,480);
setLayout(new GridLayout(1,2));

gameScr = new GameCanvas();
gameScr.addKeyListener(gameScr);

timer = new MyTimer(gameScr);
timer.setDaemon(true);
timer.start();
timer.suspend();

add(gameScr);

Panel rightScr = new Panel();
rightScr.setLayout(new GridLayout(2,1,0,30));
rightScr.setSize(120,500);
add(rightScr);

//右边信息窗体的布局
MyPanel infoScr = new MyPanel();
infoScr.setLayout(new GridLayout(4,1,0,5));
infoScr.setSize(120,300);
rightScr.add(infoScr);

//定义标签和初始值
Label scorep = new Label("分数:",Label.LEFT);
Label levelp = new Label("级数:",Label.LEFT);
scoreField = new TextField(8);
levelField = new TextField(8);
scoreField.setEditable(false);
levelField.setEditable(false);
infoScr.add(scorep);
infoScr.add(scoreField);
infoScr.add(levelp);
infoScr.add(levelField);
scorep.setSize(new Dimension(20,60));
scoreField.setSize(new Dimension(20,60));
levelp.setSize(new Dimension(20,60));
levelField.setSize(new Dimension(20,60));
scoreField.setText("0");
levelField.setText("1");

//右边控制按钮窗体的布局
MyPanel controlScr = new MyPanel();
controlScr.setLayout(new GridLayout(5,1,0,5));
rightScr.add(controlScr);

//定义按钮play
Button play_b = new Button("开始游戏");
play_b.setSize(new Dimension(50,200));
play_b.addActionListener(new Command(Command.button_play,gameScr));

//定义按钮Level UP
Button level_up_b = new Button("提高级数");
level_up_b.setSize(new Dimension(50,200));
level_up_b.addActionListener(new Command(Command.button_levelup,gameScr));

//定义按钮Level Down
Button level_down_b =new Button("降低级数");
level_down_b.setSize(new Dimension(50,200));
level_down_b.addActionListener(new Command(Command.button_leveldown,gameScr));

//定义按钮Level Pause
Button pause_b =new Button("游戏暂停");
pause_b.setSize(new Dimension(50,200));
pause_b.addActionListener(new Command(Command.button_pause,gameScr));

//定义按钮Quit
Button quit_b = new Button("退出游戏");
quit_b.setSize(new Dimension(50,200));
quit_b.addActionListener(new Command(Command.button_quit,gameScr));

controlScr.add(play_b);
controlScr.add(level_up_b);
controlScr.add(level_down_b);
controlScr.add(pause_b);
controlScr.add(quit_b);
setVisible(true);
gameScr.requestFocus();
}
}

//重写MyPanel类，使Panel的四周留空间
class MyPanel extends Panel{
public Insets getInsets(){
return new Insets(30,50,30,50);
}
}

//游戏画布类
class GameCanvas extends Canvas implements KeyListener{
final int unitSize = 30; //小方块边长
int rowNum; //正方格的行数
int columnNum; //正方格的列数
int maxAllowRowNum; //允许有多少行未削
int blockInitRow; //新出现块的起始行坐标
int blockInitCol; //新出现块的起始列坐标
int [][] scrArr; //屏幕数组
Block b; //对方快的引用

//画布类的构造方法
GameCanvas(){
rowNum = 15;
columnNum = 10;
maxAllowRowNum = rowNum - 2;
b = new Block(this);
blockInitRow = rowNum - 1;
blockInitCol = columnNum/2 - 2;
scrArr = new int [32][32];
}

//初始化屏幕，并将屏幕数组清零的方法
void initScr(){
for(int i=0;i<rowNum;i++)
for (int j=0; j<columnNum;j++)
scrArr[j]=0;
b.reset();
repaint();
}

//重新刷新画布方法
public void paint(Graphics g){
for(int i = 0; i < rowNum; i++)
for(int j = 0; j < columnNum; j++)
drawUnit(i,j,scrArr[j]);
}

//画方块的方法
public void drawUnit(int row,int col,int type){
scrArr[row][col] = type;
Graphics g = getGraphics();
tch(type){ //表示画方快的方法
case 0: g.setColor(Color.black);break; //以背景为颜色画
case 1: g.setColor(Color.blue);break; //画正在下落的方块
case 2: g.setColor(Color.magenta);break; //画已经落下的方法
}
g.fill3DRect(col*unitSize,getSize().height-(row+1)*unitSize,unitSize,unitSize,true);
g.dispose();
}

public Block getBlock(){
return b; //返回block实例的引用
}

//返回屏幕数组中(row,col)位置的属性值
public int getScrArrXY(int row,int col){
if (row < 0 || row >= rowNum || col < 0 || col >= columnNum)
return(-1);
else
return(scrArr[row][col]);
}

//返回新块的初始行坐标方法
public int getInitRow(){
return(blockInitRow); //返回新块的初始行坐标
}

//返回新块的初始列坐标方法
public int getInitCol(){
return(blockInitCol); //返回新块的初始列坐标
}

//满行删除方法
void deleteFullLine(){
int full_line_num = 0;
int k = 0;
for (int i=0;i<rowNum;i++){
boolean isfull = true;

L1:for(int j=0;j<columnNum;j++)
if(scrArr[j] == 0){
k++;
isfull = false;
break L1;
}
if(isfull) full_line_num++;
if(k!=0 && k-1!=i && !isfull)
for(int j = 0; j < columnNum; j++){
if (scrArr[j] == 0)
drawUnit(k-1,j,0);
else
drawUnit(k-1,j,2);
scrArr[k-1][j] = scrArr[j];
}
}
for(int i = k-1 ;i < rowNum; i++){
for(int j = 0; j < columnNum; j++){
drawUnit(i,j,0);
scrArr[j]=0;
}
}
ERS_Block.score += full_line_num;
ERS_Block.scoreField.setText(""+ERS_Block.score);
}

//判断游戏是否结束方法
boolean isGameEnd(){
for (int col = 0 ; col <columnNum; col ++){
if(scrArr[maxAllowRowNum][col] !=0)
return true;
}
return false;
}

public void keyTyped(KeyEvent e){
}

public void keyReleased(KeyEvent e){
}

//处理键盘输入的方法
public void keyPressed(KeyEvent e){
if(!ERS_Block.isPlay)
return;
tch(e.getKeyCode()){
case KeyEvent.VK_DOWN:b.fallDown();break;
case KeyEvent.VK_LEFT:b.leftMove();break;
case KeyEvent.VK_RIGHT:b.rightMove();break;
case KeyEvent.VK_SPACE:b.leftTurn();break;
}
}
}

//处理控制类
class Command implements ActionListener{
static final int button_play = 1; //给按钮分配编号
static final int button_levelup = 2;
static final int button_leveldown = 3;
static final int button_quit = 4;
static final int button_pause = 5;
static boolean pause_resume = true;

int curButton; //当前按钮
GameCanvas scr;

//控制按钮类的构造方法
Command(int button,GameCanvas scr){
curButton = button;
this.scr=scr;
}

//按钮执行方法
public void actionPerformed (ActionEvent e){
tch(curButton){
case button_play:if(!ERS_Block.isPlay){
scr.initScr();
ERS_Block.isPlay = true;
ERS_Block.score = 0;
ERS_Block.scoreField.setText("0");
ERS_Block.timer.resume();
}
scr.requestFocus();
break;
case button_levelup:if(ERS_Block.level < 10){
ERS_Block.level++;
ERS_Block.levelField.setText(""+ERS_Block.level);
ERS_Block.score = 0;
ERS_Block.scoreField.setText(""+ERS_Block.score);
}
scr.requestFocus();
break;
case button_leveldown:if(ERS_Block.level > 1){
ERS_Block.level--;
ERS_Block.levelField.setText(""+ERS_Block.level);
ERS_Block.score = 0;
ERS_Block.scoreField.setText(""+ERS_Block.score);
}
scr.requestFocus();
break;
case button_pause:if(pause_resume){
ERS_Block.timer.suspend();
pause_resume = false;
}else{
ERS_Block.timer.resume();
pause_resume = true;
}
scr.requestFocus();
break;
case button_quit:System.exit(0);
}
}
}

//方块类
class Block {
static int[][] pattern = {
{0x0f00,0x4444,0x0f00,0x4444},//用十六进至表示，本行表示长条四种状态
{0x04e0,0x0464,0x00e4,0x04c4},
{0x4620,0x6c00,0x4620,0x6c00},
{0x2640,0xc600,0x2640,0xc600},
{0x6220,0x1700,0x2230,0x0740},
{0x6440,0x0e20,0x44c0,0x8e00},
{0x0660,0x0660,0x0660,0x0660}
};
int blockType; //块的模式号（0-6）
int turnState; //块的翻转状态（0-3）
int blockState; //快的下落状态
int row,col; //块在画布上的坐标
GameCanvas scr;

//块类的构造方法
Block(GameCanvas scr){
this.scr = scr;
blockType = (int)(Math.random() * 1000)%7;
turnState = (int)(Math.random() * 1000)%4;
blockState = 1;
row = scr.getInitRow();
col = scr.getInitCol();
}

//重新初始化块，并显示新块
public void reset(){
blockType = (int)(Math.random() * 1000)%7;
turnState = (int)(Math.random() * 1000)%4;
blockState = 1;
row = scr.getInitRow();
col = scr.getInitCol();
dispBlock(1);
}

//实现“块”翻转的方法
public void leftTurn(){
if(assertValid(blockType,(turnState + 1)%4,row,col)){
dispBlock(0);
turnState = (turnState + 1)%4;
dispBlock(1);
}
}

//实现“块”的左移的方法
public void leftMove(){
if(assertValid(blockType,turnState,row,col-1)){
dispBlock(0);
col--;
dispBlock(1);
}
}

//实现块的右移
public void rightMove(){
if(assertValid(blockType,turnState,row,col+1)){
dispBlock(0);
col++;
dispBlock(1);
}
}

//实现块落下的操作的方法
public boolean fallDown(){
if(blockState == 2)
return(false);
if(assertValid(blockType,turnState,row-1,col)){
dispBlock(0);
row--;
dispBlock(1);
return(true);
}else{
blockState = 2;
dispBlock(2);
return(false);
}
}

//判断是否正确的方法
boolean assertValid(int t,int s,int row,int col){
int k = 0x8000;
for(int i = 0; i < 4; i++){
for(int j = 0; j < 4; j++){
if((int)(pattern[t][s]&k) != 0){
int temp = scr.getScrArrXY(row-i,col+j);
if (temp<0||temp==2)
return false;
}
k = k >> 1;
}
}
return true;
}

//同步显示的方法
public synchronized void dispBlock(int s){
int k = 0x8000;
for (int i = 0; i < 4; i++){
for(int j = 0; j < 4; j++){
if(((int)pattern[blockType][turnState]&k) != 0){
scr.drawUnit(row-i,col+j,s);
}
k=k>>1;
}
}
}
}

//定时线程
class MyTimer extends Thread{
GameCanvas scr;

public MyTimer(GameCanvas scr){
this.scr = scr;
}

public void run(){
while(true){
try{
sleep((10-ERS_Block.level + 1)*100);
}
catch(InterruptedException e){}
if(!scr.getBlock().fallDown()){
scr.deleteFullLine();
if(scr.isGameEnd()){
ERS_Block.isPlay = false;
suspend();
}else
scr.getBlock().reset();
}
}
}

class WinListener extends WindowAdapter{
public void windowClosing (WindowEvent l){
System.exit(0);
}
}

3. 急需一份俄罗斯方块源代码，Java写的

使用Java实现小游戏：俄罗斯方块
使用一个二维数组保存游戏的地图：
//游戏地图格子，每个格子保存一个方块，数组纪录方块的状态
privateStatemap[][]=newState[rows][columns];123
游戏前先将所有地图中的格子初始化为空：
/*初始化所有的方块为空*/
for(inti=0;i<map.length;i++){
for(intj=0;j<map[i].length;j++){
map[i][j]=State.EMPTY;
}
}1234567
玩游戏过程中，我们能够看到界面上的方块，那么就得将地图中所有的方块绘制出来，当然，除了需要绘制方块外，游戏积分和游戏结束的字符串在必要的时候也需要绘制：
/**
*绘制窗体内容，包括游戏方块，游戏积分或结束字符串
*/
@Override
publicvoidpaint(Graphicsg){
super.paint(g);
for(inti=0;i<rows;i++){
for(intj=0;j<columns;j++){
if(map[i][j]==State.ACTIVE){//绘制活动块
g.setColor(activeColor);
g.fillRoundRect(j*BLOCK_SIZE,i*BLOCK_SIZE+25,
BLOCK_SIZE-1,BLOCK_SIZE-1,BLOCK_SIZE/5,
BLOCK_SIZE/5);
}elseif(map[i][j]==State.STOPED){//绘制静止块
g.setColor(stopedColor);
g.fillRoundRect(j*BLOCK_SIZE,i*BLOCK_SIZE+25,
BLOCK_SIZE-1,BLOCK_SIZE-1,BLOCK_SIZE/5,
BLOCK_SIZE/5);
}
}
}

/*打印得分*/
g.setColor(scoreColor);
g.setFont(newFont("TimesNewRoman",Font.BOLD,30));
g.drawString("SCORE:"+totalScore,5,70);

//游戏结束，打印结束字符串
if(!isGoingOn){
g.setColor(Color.RED);
g.setFont(newFont("TimesNewRoman",Font.BOLD,40));
g.drawString("GAMEOVER!",this.getWidth()/2-140,
this.getHeight()/2);
}
}
通过随机数的方式产生方块所组成的几种图形，一般七种图形：条形、田形、正7形、反7形、T形、Z形和反Z形，如生成条形：
map[0][randPos]=map[0][randPos-1]=map[0][randPos+1]
=map[0][randPos+2]=State.ACTIVE;123
生成图形后，实现下落的操作。如果遇到阻碍，则不能再继续下落：
isFall=true;//是否能够下落
//从当前行检查，如果遇到阻碍，则停止下落
for(inti=0;i<blockRows;i++){
for(intj=0;j<columns;j++){
//遍历到行中块为活动块，而下一行块为静止块，则遇到阻碍
if(map[rowIndex-i][j]==State.ACTIVE
&&map[rowIndex-i+1][j]==State.STOPED){
isFall=false;//停止下落
break;
}
}
if(!isFall)
break;
}123456789101112131415
如果未遇到阻碍，则下落的时候，方块图形整体向下移动一行：
//图形下落一行
for(inti=0;i<blockRows;i++){
for(intj=0;j<columns;j++){
if(map[rowIndex-i][j]==State.ACTIVE){//活动块向下移动一行
map[rowIndex-i][j]=State.EMPTY;//原活动块变成空块
map[rowIndex-i+1][j]=State.ACTIVE;//下一行块变成活动块
}
}
}12345678910
向左、向右方向移动时是类似的操作：
/**
*向左走
*/
privatevoidleft(){
//标记左边是否有阻碍
booleanhasBlock=false;

/*判断是否左边有阻碍*/
for(inti=0;i<blockRows;i++){
if(map[rowIndex-i][0]==State.ACTIVE){//判断左边是否为墙
hasBlock=true;
break;//有阻碍，不用再循环判断行
}else{
for(intj=1;j<columns;j++){//判断左边是否有其它块
if(map[rowIndex-i][j]==State.ACTIVE
&&map[rowIndex-i][j-1]==State.STOPED){
hasBlock=true;
break;//有阻碍，不用再循环判断列
}
}
if(hasBlock)
break;//有阻碍，不用再循环判断行
}
}

/*左边没有阻碍，则将图形向左移动一个块的距离*/
if(!hasBlock){
for(inti=0;i<blockRows;i++){
for(intj=1;j<columns;j++){
if(map[rowIndex-i][j]==State.ACTIVE){
map[rowIndex-i][j]=State.EMPTY;
map[rowIndex-i][j-1]=State.ACTIVE;
}
}
}

//重绘
repaint();
}
}3738394041
向下加速移动时，就是减小每次正常状态下落的时间间隔：
/**
*向下直走
*/
privatevoiddown(){
//标记可以加速下落
immediate=true;
}12345678
如何变换图形方向，这里仅使用了非常简单的方法来实现方向变换，当然可以有更优的算法实现方向变换操作，大家可以自己研究：
/**
*旋转方块图形
*/
privatevoidrotate(){
try{
if(shape==4){//方形，旋转前后是同一个形状
return;
}elseif(shape==0){//条状
//临时数组，放置旋转后图形
State[][]tmp=newState[4][4];
intstartColumn=0;
//找到图形开始的第一个方块位置
for(inti=0;i<columns;i++){
if(map[rowIndex][i]==State.ACTIVE){
startColumn=i;
break;
}
}
//查找旋转之后是否有阻碍，如果有阻碍，则不旋转
for(inti=0;i<4;i++){
for(intj=0;j<4;j++){
if(map[rowIndex-3+i][j+startColumn]==State.STOPED){
return;
}
}
}

if(map[rowIndex][startColumn+1]==State.ACTIVE){//横向条形，变换为竖立条形
for(inti=0;i<4;i++){
tmp[i][0]=State.ACTIVE;
for(intj=1;j<4;j++){
tmp[i][j]=State.EMPTY;
}
}
blockRows=4;
}else{//竖立条形，变换为横向条形
for(intj=0;j<4;j++){
tmp[3][j]=State.ACTIVE;
for(inti=0;i<3;i++){
tmp[i][j]=State.EMPTY;
}
}
blockRows=1;
}
//将原地图中图形修改为变换后图形
for(inti=0;i<4;i++){
for(intj=0;j<4;j++){
map[rowIndex-3+i][startColumn+j]=tmp[i][j];
}
}
}else{
//临时数组，放置旋转后图形
State[][]tmp=newState[3][3];
intstartColumn=columns;
//找到图形开始的第一个方块位置
for(intj=0;j<3;j++){
for(inti=0;i<columns;i++){
if(map[rowIndex-j][i]==State.ACTIVE){
startColumn=i<startColumn?i:startColumn;
}
}
}
//判断变换后是否会遇到阻碍
for(inti=0;i<3;i++){
for(intj=0;j<3;j++){
if(map[rowIndex-2+j][startColumn+2-i]==State.STOPED)
return;
}
}
//变换
for(inti=0;i<3;i++){
for(intj=0;j<3;j++){
tmp[2-j][i]=map[rowIndex-2+i][startColumn+j];
}
}
//将原地图中图形修改为变换后图形
for(inti=0;i<3;i++){
for(intj=0;j<3;j++){
map[rowIndex-2+i][startColumn+j]=tmp[i][j];
}
}

//重绘
repaint();
//重新修改行指针
for(inti=0;i<3;i++){
for(intj=0;j<3;j++){
if(map[rowIndex-i][startColumn+j]!=null
||map[rowIndex-i][startColumn+j]!=State.EMPTY){
rowIndex=rowIndex-i;
blockRows=3;
return;
}
}
}
}
}catch(Exceptione){
//遇到数组下标越界，说明不能变换图形形状，不作任何处理
}
}3738394
当图形下落遇到阻碍时停止，我们就需要判断这时是否有某一行或几行可以消除掉，这时可以先获取每行中方块的个数，然后再进行判断：
int[]blocksCount=newint[rows];//记录每行有方块的列数
inteliminateRows=0;//消除的行数
/*计算每行方块数量*/
for(inti=0;i<rows;i++){
blocksCount[i]=0;
for(intj=0;j<columns;j++){
if(map[i][j]==State.STOPED)
blocksCount[i]++;
}
}1234567891011
如果有满行的方块，则消除掉该行方块：
/*实现有满行的方块消除操作*/
for(inti=0;i<rows;i++){
if(blocksCount[i]==columns){
//清除一行
for(intm=i;m>=0;m--){
for(intn=0;n<columns;n++){
map[m][n]=(m==0)?State.EMPTY:map[m-1][n];
}
}
eliminateRows++;//记录消除行数
}
}12345678910111213
最后我们再重绘显示积分就可以了。
重复以上的生成图形、图形下落、左右下移动、判断消除行的操作，一个简单的俄罗斯方块就完成了。

4. python小游戏2048，上班摸鱼必备（附源码）

话不多说，直接上菜

为了方便大家，我就不分段解释了

import turtle, random

# 定义一个类，用来画除了数字方块之外的图形

class BackGround(turtle.Turtle):

    def __init__(self):

        super().__init__()

        self.penup()

        self.ht()

    def draw_block(self):

        self.shape('bg.gif')  # 画出背景方块

        for i in allpos:

            self.goto(i)

            self.stamp()

        self.color('white', 'white')  # 画出其他背景

        self.goto(-215, 120)

        self.begin_fill()

        self.goto(215, 120)

        self.goto(215, 110)

        self.goto(-215, 110)

        self.end_fill()

        self.shape('title.gif')

        self.goto(-125, 210)

        self.stamp()

        self.shape('score.gif')

        self.goto(125, 245)

        self.stamp()

        self.shape('top_score.gif')

        self.goto(125, 170)

        self.stamp()

    # 游戏失败及达成2048的提示文字

    def judge(self):

        global flag_win, flag_win_lose_text

        self.color('blue')

        judge = 0  # 判断是否还有位置可以移动

        for i in block_dic.values():

            for j in block_dic.values():

                if i.num == 0 or i.num == j.num and i.distance(j) == 100:

                    judge += 1

        if judge == 0:  # 无位置可移动，游戏失败

            self.write('    GAME OVER\n重新开始请按空格键', align='center', font=('黑体', 30, 'bold'))

            flag_win_lose_text = False

        if flag_win is True:  # 此条件让2048达成的判断只能进行一次

            for k in block_dic.values():

                if k.num == 2048:  # 游戏达成

                    flag_win = False

                    self.write('    达成2048\n继续游戏请按回车键', align='center', font=('黑体', 30, 'bold'))

                    flag_win_lose_text = False

    def win_lose_clear(self):

        global flag_win_lose_text

        self.clear()

        flag_win_lose_text = True

    def show_score(self):  # 分值的显示

        global score, top_score

        if score > top_score:

            top_score = score

            with open('.\\score.txt', 'w') as f:

                f.write(f'{top_score}')

        self.color('white')

        self.goto(125, 210)

        self.clear()

        self.write(f'{score}', align='center', font=('Arial', 20, 'bold'))

        self.goto(125, 135)

        self.write(f'{top_score}', align='center', font=('Arial', 20, 'bold'))

# 数字方块类

class Block(turtle.Turtle):

    def __init__(self):

        super().__init__()

        self.ht()

        self.penup()

        self.num = 0

    def draw(self):

        self.clear()

        dic_draw = {2: '#eee6db', 4: '#efe0cd', 8: '#f5af7b',

                    16: '#fb9660', 32: '#f57d5a', 64: '#f95c3d',

                    128: '#eccc75', 256: '#eece61', 512: '#efc853',

                    1024: '#ebc53c', 2048: '#eec430', 4096: '#aeb879',

                    8192: '#aab767', 16384: '#a6b74f'}

        if self.num > 0:  # 数字大于0，画出方块

            self.color(f'{dic_draw[self.num]}')  # 选择颜色

            self.begin_fill()

            self.goto(self.xcor()+48, self.ycor()+48)

            self.goto(self.xcor()-96, self.ycor())

            self.goto(self.xcor(), self.ycor()-96)

            self.goto(self.xcor()+96, self.ycor())

            self.goto(self.xcor(), self.ycor()+96)

            self.end_fill()

            self.goto(self.xcor()-48, self.ycor()-68)

            if self.num > 4:  # 按照数字选择数字的颜色

                self.color('white')

            else:

                self.color('#6d6058')

            self.write(f'{self.num}', align='center', font=('Arial', 27, 'bold'))

            self.goto(self.xcor(), self.ycor()+20)

class Game():

    def init(self):

        back = BackGround()  # 实例画出游戏的背景

        back.draw_block()

        for i in allpos:  # 画出16个海龟对应16个数字块

            block = Block()

            block.goto(i)

            block_dic[i] = block

        game.grow()

    def restart(self):  # 重开游戏的方法

        global score, flag_win_lose_text

        score = 0

        for i in block_dic.values():

            i.num = 0

            i.clear()

        win_lose_text.clear()

        game.grow()

        flag_win_lose_text = True  # 此flag为游戏达成或失败出现提示语后的判断，要提示语被clear后才能继续move

    def grow(self):  # 随机出现一个2或4的数字块

        block_list = []

        for i in allpos:

            if block_dic[i].num == 0:

                block_list.append(block_dic[i])  # 挑出空白方块的海龟

        turtle_choice = random.choice(block_list)  # 随机选中其中一个海龟

        turtle_choice.num = random.choice([2, 2, 2, 2, 4])  # 赋属性num=2/4

        turtle_choice.draw()

        win_lose_text.judge()

        show_score_text.show_score()

        ms.update()

    def move_up(self):

        allpos1 = allpos[::4]  # 切片为四列

        allpos2 = allpos[1::4]

        allpos3 = allpos[2::4]

        allpos4 = allpos[3::4]

        self.move_move(allpos1, allpos2, allpos3, allpos4)

    def move_down(self):

        allpos1 = allpos[-4::-4]

        allpos2 = allpos[-3::-4]

        allpos3 = allpos[-2::-4]

        allpos4 = allpos[-1::-4]

        self.move_move(allpos1, allpos2, allpos3, allpos4)

    def move_left(self):

        allpos1 = allpos[:4]

        allpos2 = allpos[4:8]

        allpos3 = allpos[8:12]

        allpos4 = allpos[12:16]

        self.move_move(allpos1, allpos2, allpos3, allpos4)

    def move_right(self):

        allpos1 = allpos[-1:-5:-1]

        allpos2 = allpos[-5:-9:-1]

        allpos3 = allpos[-9:-13:-1]

        allpos4 = allpos[-13:-17:-1]

        self.move_move(allpos1, allpos2, allpos3, allpos4)

    def move_move(self, allpos1, allpos2, allpos3, allpos4):

        if flag_win_lose_text is True:

            count1 = self.move(allpos1)  # 四列或四行依次移动

            count2 = self.move(allpos2)

            count3 = self.move(allpos3)

            count4 = self.move(allpos4)

            if count1 or count2 or count3 or count4:  # 判断是否有方块移动，有才能继续出现新的数字块

                self.grow()

    def move(self, pos_list):

        num_list = []  # 为某一列或行的数字块海龟的坐标

        for i in pos_list:

            num_list.append(block_dic[i].num)  #  把这些海龟的NUM形成list

        new_num_list, count = self.list_oper(num_list)  #  只是list_oper的方法形成新的list

        for j in range(len(new_num_list)):  # 把新的list依次赋值给对应的海龟.num属性并调用draw()方法

            block_dic[pos_list[j]].num = new_num_list[j]

            block_dic[pos_list[j]].draw()

        return count

    def list_oper(self, num_list):  # num_list的操作，假设其为【2,0,2,2】

        global score

        count = True

        temp = []

        new_temp = []

        for j in num_list:

            if j != 0:

                temp.append(j)  # temp=[2,2,2]

        flag = True

        for k in range(len(temp)):

            if flag:

                if k < len(temp)-1 and temp[k] == temp[k+1]:

                    new_temp.append(temp[k]*2)

                    flag = False

                    score += temp[k]

                else:

                    new_temp.append(temp[k])  # new_temp=[4,2]

            else:

                flag = True

        for m in range(len(num_list)-len(new_temp)):

            new_temp.append(0)  # new_temp=[4,2,0,0]

        if new_temp == num_list:

            count = False  # 此变量判断num_list没有变化，数字块无移动

        return(new_temp, count)

if __name__ == '__main__':

    ms = turtle.Screen()  # 主窗口的设置

    ms.setup(430, 630, 400, 50)

    ms.bgcolor('gray')

    ms.title('2048')

    ms.tracer(0)

    ms.register_shape('bg.gif')

    ms.register_shape('title.gif')

    ms.register_shape('score.gif')

    ms.register_shape('top_score.gif')

    block_dic = {}  # 放数字方块海龟的字典，位置坐标为key,对应海龟为value

    allpos = [(-150, 50), (-50, 50), (50, 50), (150, 50),

              (-150, -50), (-50, -50), (50, -50), (150, -50),

              (-150, -150), (-50, -150), (50, -150), (150, -150),

              (-150, -250), (-50, -250), (50, -250), (150, -250)]

    flag_win = True  # 达成2048的判断，让达成的文字仅出现一次

    flag_win_lose_text = True  # 用来判断失败或成功的提示文字是否有被清除，不清除不能继续移动方块

    score = 0

    with open('.\\score.txt', 'r') as f:

        top_score = int(f.read())  #  读取score中的数据

    show_score_text = BackGround()

    win_lose_text = BackGround()

    game = Game()

    game.init()

    ms.listen()

    ms.onkey(game.move_up, 'Up')

    ms.onkey(game.move_down, 'Down')

    ms.onkey(game.move_left, 'Left')

    ms.onkey(game.move_right, 'Right')

    ms.onkey(win_lose_text.win_lose_clear, 'Return')

    ms.onkey(game.restart, 'space')

    ms.mainloop()

这是游戏界面：

欢迎挑战最高分。

要运行出来，必须本地要有这些文件：bg.gif，score.gif，title.gif，top_score.gif，score.txt

我把这些文件放在了群里，还有一些学习的资料，群号642109462，欢迎对python感兴趣的进群讨论。

支持作者的，可以关注和点赞。感谢你们！

5. java编写的俄罗斯方块游戏

以下为一个渣郑俄罗斯方块的源代码，以---------线分隔一个类。
郁闷太长了，不能全部粘贴上来，要的基梁并话搏迹在线M我吧。
import javax.microedition.midlet.*;
import javax.microedition.lci.*;
import java.io.IOException;
/**
* <p>Title: 俄罗斯方块</p>
*
* <p>Description: 俄罗斯方块游戏</p>
*
* <p>Copyright: Copyright (c) 2005</p>
*
* <p>Company: Star Group</p>
*
* @author: Part of this programe comes from a open-source project in the Web(www.hyweb.net).
* Our group makes some remakeble improvement to it.
* @version 1.0
*/
public class RussianGameMIDlet extends MIDlet {
static RussianGameMIDlet instance;
private UIController controller = new UIController(this);
private Splash splash;
private Image imgStart;
Display display = null;
public RussianGameMIDlet() {
instance = this;
display = Display.getDisplay(this);
}

public void startApp() {
try
{
imgStart = Image.createImage("/start.png");
} catch (IOException e) {
}
StringBuffer infoStart = new StringBuffer("俄罗斯方块");
splash = new Splash(this.controller,infoStart, imgStart);
controller.setSplash(splash);
controller.handleEvent(UIController.EventID.EVENT_START_SPLASH);
}

public void pauseApp() {

}

public void destroyApp(boolean unconditional) {
}

public static void quitApp() {
instance.destroyApp(true);
instance.notifyDestroyed();
instance = null;
}

}
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