本文实例讲述了jQuery实现的五子棋游戏。分享给大家供大家参考。具体如下:
这是一款非常不错的代码,就是人工智能方面差了一点
<!DOCTYPE html PUBLIC "-//W3C//DTD XHTML 1.0 Transitional//EN"
"http://www.w3.org/TR/xhtml1/DTD/xhtml1-transitional.dtd">
<html xmlns="http://www.w3.org/1999/xhtml">
<head>
<title>五子棋</title>
<style type="text/css">
div{margin:0;padding:0;}
div.board{width:561px; height:561px; border:1px solid #ccc; margin:0 auto;}
div.board div{ width:31px; height:31px; border:1px solid #ccc; float:left; cursor:pointer; background-repeat:no-repeat; }
div.board .person { background-image:url('images/1/files/demo/white.jpg')}
div.board .machine{ background-image:url('images/1/files/demo/black.jpg')}
div.board .person_star{background-image:url('images/1/files/demo/white_star.jpg')}
div.board .machine_star{background-image:url('images/1/files/demo/black_star.jpg')}
input.ipt{ display:block; margin:0 auto; margin-top:8px;width:70px}
</style>
</head>
<body>
<div class='board' id='board'>
</div>
<input type='button' value='开始游戏' onclick="initGame();
this.value='重新开始'" class='ipt'/>
<script type='text/javascript'>
var TRANSVERSE = 16;
var VERTICAL = 16;
var LEFT = 1;
var RIGHT = 2;
var TOP = 3;
var BOTTOM = 4;
var LEFT_TOP = 5;
var LEFT_BOTTOM = 6;
var RIGHT_TOP = 7;
var RIGHT_BOTTOM = 8;
var Chess = function()
{
var owner = '';
var victory = false;
this.getOwner = function(){return owner;};
this.setOwner = function(value){owner = value;};
this.getVictory = function(){ return victory;}
this.setVictory = function(value){ victory = value; }
}
var Board = function()
{
var chessBoard = [];
var isGameOver = false;
this.getChess = function(point)
{
var x = point.x , y = point.y;
return chessBoard[y][x];
}
this.setChess = function(chess , point)
{
var x = point.x , y = point.y;
chessBoard[y][x] = chess;
}
this.setVictory = function(points)
{
for(var i = 0 ; i < points.length ; i ++)
{
for(var j = 0 ; j < points[i].length; j ++)
{
var chess = this.getChess(points[i][j]);
chess.setVictory(true);
}
}
}
this.getAvaiablePoints = function()
{
var avaiable = new Array;
for(var y = 0 ; y <= VERTICAL ; y ++)
{
for(var x = 0 ; x <= TRANSVERSE ; x ++)
{
if(chessBoard[y][x]) continue;
var point = {x : x , y : y};
avaiable.push(point);
}
}
return avaiable;
}
this.getMap = function()
{
var map = {};
for(var y = 0 ; y <= VERTICAL ; y ++)
{
for(var x = 0 ; x <= TRANSVERSE ; x++)
{
var chess = chessBoard[y][x];
var value = '';
if(chess)
{
value = chess.getOwner();
if(chess.getVictory()) value += '_star';
}
else
{
value = '';
}
map[ x + ',' + y ] = value;
}
}
return map;
}
this.gameOver = function()
{
return isGameOver = true;
}
this.isGameOver = function()
{
return isGameOver;
}
this.getNextPoint = function(point , direction)
{
var next = {x : point.x , y : point.y};
switch(direction)
{
case LEFT :
next.x -= 1;
break;
case RIGHT:
next.x += 1;
break;
case TOP:
next.y -= 1;
break;
case BOTTOM:
next.y += 1;
break;
case LEFT_TOP:
next.x-= 1 , next.y-= 1;
break;
case RIGHT_TOP:
next.x += 1 , next.y -= 1;
break;
case LEFT_BOTTOM:
next.x -= 1 , next.y += 1;
break;
case RIGHT_BOTTOM:
next.x += 1 , next.y += 1;
break;
default :
alert('方向错误');
}
return next;
}
var initialize = function()
{
for(var i = 0 ; i <= VERTICAL ; i++ ) chessBoard.push([]);
}
initialize();
}
var Compute = function(role)
{
var directions = [LEFT , TOP , RIGHT , BOTTOM , LEFT_TOP , LEFT_BOTTOM , RIGHT_TOP , RIGHT_BOTTOM];
var score = 0;
var self = this;
this._computeScore = function(direction)
{
throw new Error('未实现');
}
this._convertToPattern = function(chesslist)
{
return role.convertToPattern(chesslist)
}
this.compute = function(point)
{
score = 0;
for(var i = 0, direction ; direction = directions[i++];)
{
score += this._computeScore(point , direction);
}
}
this.getScore = function(refPoint)
{
return score ;
}
}
var Five = function(role)
{
Compute.call(this, role);
var computeScore1 = function(refPoint , direction)
{
var predefined = 'IIII';
var chesslist = role.find(refPoint , direction , 4);
var pattern = role.convertToPattern(chesslist);
if(predefined == pattern) return true;
return false ;
}
var computeScore2 = function(refPoint , direction)
{
var prev = role.find(refPoint , direction , 2);
var next = role.find(refPoint , role.reverseDirection(direction) , 2);
var prevPattern = role.convertToPattern(prev);
var nextPattern = role.convertToPattern(next);
if(prevPattern == 'II' && nextPattern == 'II') return true;
return false;
}
var computeScore3 = function(refPoint , direction)
{
var prev = role.find(refPoint , direction , 3);
var next = role.find(refPoint , role.reverseDirection(direction) , 1);
var prevPattern = role.convertToPattern(prev);
var nextPattern = role.convertToPattern(next);
if(prevPattern == 'III' && nextPattern == 'I') return true;
return false;
}
this._computeScore = function(refPoint , direction)
{
if(computeScore1(refPoint , direction) || computeScore2(refPoint , direction) || computeScore3(refPoint , direction))
return 100000;
else return 0;
}
}
var Four_Live = function(role)
{
Compute.call(this, role);
this._computeScore = function(refPoint , direction)
{
var score = 0;
var prev = role.find(refPoint , direction , 4);
var next = role.find(refPoint , role.reverseDirection(direction), 1);
var prevPattern = this._convertToPattern(prev);
var nextPattern = this._convertToPattern(next);
if(prevPattern == 'III0' && nextPattern == '0') score = 10000;
return score;
}
}
var Four_Live1 = function(role)
{
Compute.call(this, role);
this._computeScore = function(refPoint , direction)
{
var prev = role.find(refPoint , direction , 3);
var next = role.find(refPoint , role.reverseDirection(direction) , 2);
var prevPattern = this._convertToPattern(prev);
var nextPattern = this._convertToPattern(next);
if(prevPattern == 'II0' && nextPattern == 'I0') return 10000;
else return 0;
}
}
var Tree_Live = function(role)
{
Compute.call(this, role);
this._computeScore = function(refPoint , direction)
{
var score = 0;
var prev = role.find(refPoint , direction , 3);
var next = role.find(refPoint , role.reverseDirection(direction), 2);
var prevPattern = this._convertToPattern(prev);
var nextPattern = this._convertToPattern(next);
if(prevPattern == 'II0' && nextPattern == '00')
score += 1000;
return score;
}
}
var Tree_Live1 = function(role)
{
Compute.call(this, role);
this._computeScore = function(refPoint , direction)
{
var prev = role.find(refPoint , direction , 2);
var next = role.find(refPoint , role.reverseDirection(direction), 3);
var prevPattern = this._convertToPattern(prev);
var nextPattern = this._convertToPattern(next);
if(prevPattern == 'I0' && nextPattern == 'I00')
return 1000
else return 0;
}
}
var Two_Live = function(role)
{
Compute.call(this, role);
this._computeScore = function(refPoint , direction)
{
var prev = role.find(refPoint , direction , 3);
var next = role.find(refPoint , role.reverseDirection(direction), 2);
var prevPattern = this._convertToPattern(prev);
var nextPattern = this._convertToPattern(next);
if(prevPattern == 'I00' && nextPattern == '00') return 100;
else return 0;
}
}
var One_Live = function(role)
{
Compute.call(this, role);
this._computeScore = function(refPoint , direction)
{
var prev = role.find(refPoint , direction , 3);
var next = role.find(refPoint , role.reverseDirection(direction), 3);
var prevPattern = this._convertToPattern(prev);
var nextPattern = this._convertToPattern(next);
if(prevPattern == '000' && nextPattern == '000') return 10;
else return 0;
}
}
var Four_End = function(role)
{
Compute.call(this, role);
this._computeScore = function(refPoint , direction)
{
var prev = role.find(refPoint , direction , 3);
var next = role.find(refPoint , role.reverseDirection(direction), 1);
var prevPattern = this._convertToPattern(prev);
var nextPattern = this._convertToPattern(next);
if(prevPattern == 'III' && nextPattern == '0') return 150;
else return 0;
}
}
var Role = function(board)
{
var computers = [];
var self = this;
var isVictory = false;
this.isVictory = function()
{
return isVictory;
}
var getScore = function(point)
{
var score = 0;
for(var i = 0 , computer; computer = computers[i++];)
{
computer.compute(point);
score += computer.getScore();
}
var result = {score: score , point : point};
return result;
}
var getScoreList = function()
{
var result = [];
var avaiablePoints = board.getAvaiablePoints();
for(var i = 0 , point; point = avaiablePoints[i++];)
{
result.push(getScore(point));
}
return result;
}
this.getCode = function()
{
throw new Error('未实现');
}
this.getPeak = function()
{
var scoreInfo = getScoreList();
scoreInfo.sort(function(a,b){
return b.score - a.score ;
});
return scoreInfo[0];
}
this.convertToPattern = function(chesslist)
{
var pattern = '';
if(!chesslist) return '';
for(var i = 0 ; i < chesslist.length ; i ++)
{
var chess = chesslist[i];
if(chess == undefined) pattern += '0';
else if(chess.getOwner() == this.getCode()) pattern += 'I';
else pattern += 'Y';
}
return pattern ;
}
this.reverseDirection = function(direction)
{
switch(direction)
{
case LEFT : return RIGHT;
case RIGHT : return LEFT;
case TOP : return BOTTOM;
case BOTTOM : return TOP;
case LEFT_TOP : return RIGHT_BOTTOM;
case RIGHT_BOTTOM : return LEFT_TOP;
case RIGHT_TOP : return LEFT_BOTTOM;
case LEFT_BOTTOM : return RIGHT_TOP;
default : alert('方向错误');
}
}
this._checkGameOver = function(point)
{
var leftRight = findVictory(point , LEFT);
var topBottom = findVictory(point , TOP);
var leftTopRightBottom = findVictory(point , LEFT_TOP);
var rightTopLeftBottom = findVictory(point , RIGHT_TOP);
var array = [leftRight , topBottom , leftTopRightBottom , rightTopLeftBottom];
var victory = [];
for(var i = 0 ; i < array.length ; i ++)
{
if(array[i].length >= 5) victory.push(array[i]);
}
if(victory.length > 0)
{
board.gameOver();
board.setVictory(victory);
isVictory = true;
}
if(board.getAvaiablePoints().length ==0) board.gameOver();
}
var isLicitPoint = function(point)
{
return point.x >= 0 && point.y >= 0 && point.x <= TRANSVERSE && point.y <= VERTICAL
&& board.getChess(point) && board.getChess(point).getOwner() == self.getCode()
}
var findVictory = function(refPoint , direction)
{
var reverse = self.reverseDirection(direction);
var result = [];
var nextPoint ;
var currPoint = {x: refPoint.x , y: refPoint.y};
while(true)
{
nextPoint = board.getNextPoint(currPoint, direction);
if(!isLicitPoint(nextPoint)) break;
currPoint = {x :nextPoint.x , y:nextPoint.y};
}
while(true)
{
result.push(currPoint);
nextPoint = board.getNextPoint(currPoint , reverse);
if(!isLicitPoint(nextPoint)) break;
currPoint = { x: nextPoint.x , y: nextPoint.y };
}
return result;
}
this.find = function(point , direction , deep)
{
var refPoint = {x: point.x , y : point.y};
var result = new Array;
var index = 1;
var nextPoint;
while(index <= deep)
{
nextPoint = board.getNextPoint(refPoint, direction);
if(nextPoint.x < 0 || nextPoint.y < 0 ||
nextPoint.x > TRANSVERSE || nextPoint.y > VERTICAL) return null;
var chess = board.getChess(nextPoint);
if(chess) chess.point = {x:nextPoint.x , y:nextPoint.y};
result.push(chess);
refPoint = nextPoint;
index ++;
}
return result;
}
var initialize = function()
{
computers.push(new Five(self));
computers.push(new Four_Live(self));
computers.push(new Tree_Live(self));
computers.push(new Four_Live1(self));
computers.push(new Tree_Live1(self));
computers.push(new Two_Live(self));
computers.push(new One_Live(self));
computers.push(new Four_End(self));
}
initialize();
}
var Machine = function(board, rival)
{
Role.call(this, board);
this.setChess = function()
{
if(board.isGameOver()) return;
var myPeak = this.getPeak();
var rivalPeak = rival.getPeak();
var peak ;
if(myPeak.score >= rivalPeak.score) peak = myPeak;
else peak = rivalPeak;
var chess = new Chess();
chess.setOwner(this.getCode());
board.setChess(chess, peak.point);
this._checkGameOver(peak.point);
}
this.getCode = function(){return 'machine';}
}
var Person = function(board , rival)
{
Role.call(this, board);
this.setChess = function(x,y)
{
if(board.isGameOver()) return;
var point = new Object;
point.x = x;
point.y = y;
var chess = new Chess()
chess.setOwner(this.getCode());
board.setChess(chess, point);
this._checkGameOver(point);
}
this.getCode = function(){ return 'person'; }
}
var UIBase = function()
{
var self = this;
this._id = '$UI' + (++ UIBase.index);
this._globalKey = "";
this.getHTML = function()
{
return "";
}
var setGlobalKey = function()
{
var magic = '$UI_Items';
self._globalKey = 'window.'+magic+'.'+self._id;
window[magic] = window[magic] || {};
window[magic][self._id] = self;
}
var formatHTML = function(html)
{
html = html.replace(/\$\$/g, self._globalKey);
html = html.replace(/&&/g,self._id);
return html;
}
var initUIBase = function()
{
setGlobalKey();
}
this.renderHTML = function()
{
return formatHTML(this.getHTML());
}
this.getDOM = function()
{
var dom = document.getElementById(this._id)
return dom;
}
initUIBase();
}
UIBase.index = 0;
var ChessUI = function(board, placeholder)
{
UIBase.call(this);
this.setChess = function(){}
this.getHTML = function()
{
var html = '';
var map = board.getMap();
for(var key in map)
{
var onclick = '';
var className = map[key];
if(className == '') onclick='$$._setChess('+ key +')';
html += '<div onclick="'+ onclick +'" class="'+ className +'"></div>';
}
return html;
}
this.draw = function()
{
var html = this.renderHTML();
document.getElementById(placeholder).innerHTML = html;
}
this._setChess = function(x,y)
{
this.setChess(x,y);
}
this.draw();
}
function getMSIEVersion()
{
var regex = /MSIE([^;]+)/;
var userAgent = navigator.userAgent;
var result = regex.exec(userAgent);
if(result) return parseInt(result[1]);
}
function initGame()
{
var version = getMSIEVersion();
if(version && version <= 8)
{
alert('请使用非IE浏览器(ie9、10除外)进行游戏(google chrome 、firefox等 )');
return;
}
var board = new Board();
var person = new Person(board);
var machine = new Machine(board, person);
var chessUI = new ChessUI(board, 'board');
chessUI.setChess = function(x,y)
{
person.setChess(x,y);
machine.setChess();
chessUI.draw();
if(board.isGameOver())
{
if(person.isVictory()) alert('您获得了胜利');
else if(machine.isVictory()) alert('机器获得了胜利');
else alert('游戏结束,胜负未分');
}
}
if(Math.floor(Math.random() * 10) % 2)
{
alert('机器执棋');
machine.setChess();
chessUI.draw();
}
else
{
alert('您执棋');
}
}
</script>
</body>
</html>
希望本文所述对大家的jQuery程序设计有所帮助。
Understanding the JavaScript Engine: Implementation DetailsApr 17, 2025 am 12:05 AMUnderstanding how JavaScript engine works internally is important to developers because it helps write more efficient code and understand performance bottlenecks and optimization strategies. 1) The engine's workflow includes three stages: parsing, compiling and execution; 2) During the execution process, the engine will perform dynamic optimization, such as inline cache and hidden classes; 3) Best practices include avoiding global variables, optimizing loops, using const and lets, and avoiding excessive use of closures.
Python vs. JavaScript: The Learning Curve and Ease of UseApr 16, 2025 am 12:12 AMPython is more suitable for beginners, with a smooth learning curve and concise syntax; JavaScript is suitable for front-end development, with a steep learning curve and flexible syntax. 1. Python syntax is intuitive and suitable for data science and back-end development. 2. JavaScript is flexible and widely used in front-end and server-side programming.
Python vs. JavaScript: Community, Libraries, and ResourcesApr 15, 2025 am 12:16 AMPython and JavaScript have their own advantages and disadvantages in terms of community, libraries and resources. 1) The Python community is friendly and suitable for beginners, but the front-end development resources are not as rich as JavaScript. 2) Python is powerful in data science and machine learning libraries, while JavaScript is better in front-end development libraries and frameworks. 3) Both have rich learning resources, but Python is suitable for starting with official documents, while JavaScript is better with MDNWebDocs. The choice should be based on project needs and personal interests.
From C/C to JavaScript: How It All WorksApr 14, 2025 am 12:05 AMThe shift from C/C to JavaScript requires adapting to dynamic typing, garbage collection and asynchronous programming. 1) C/C is a statically typed language that requires manual memory management, while JavaScript is dynamically typed and garbage collection is automatically processed. 2) C/C needs to be compiled into machine code, while JavaScript is an interpreted language. 3) JavaScript introduces concepts such as closures, prototype chains and Promise, which enhances flexibility and asynchronous programming capabilities.
JavaScript Engines: Comparing ImplementationsApr 13, 2025 am 12:05 AMDifferent JavaScript engines have different effects when parsing and executing JavaScript code, because the implementation principles and optimization strategies of each engine differ. 1. Lexical analysis: convert source code into lexical unit. 2. Grammar analysis: Generate an abstract syntax tree. 3. Optimization and compilation: Generate machine code through the JIT compiler. 4. Execute: Run the machine code. V8 engine optimizes through instant compilation and hidden class, SpiderMonkey uses a type inference system, resulting in different performance performance on the same code.
Beyond the Browser: JavaScript in the Real WorldApr 12, 2025 am 12:06 AMJavaScript's applications in the real world include server-side programming, mobile application development and Internet of Things control: 1. Server-side programming is realized through Node.js, suitable for high concurrent request processing. 2. Mobile application development is carried out through ReactNative and supports cross-platform deployment. 3. Used for IoT device control through Johnny-Five library, suitable for hardware interaction.
Building a Multi-Tenant SaaS Application with Next.js (Backend Integration)Apr 11, 2025 am 08:23 AMI built a functional multi-tenant SaaS application (an EdTech app) with your everyday tech tool and you can do the same. First, what’s a multi-tenant SaaS application? Multi-tenant SaaS applications let you serve multiple customers from a sing
How to Build a Multi-Tenant SaaS Application with Next.js (Frontend Integration)Apr 11, 2025 am 08:22 AMThis article demonstrates frontend integration with a backend secured by Permit, building a functional EdTech SaaS application using Next.js. The frontend fetches user permissions to control UI visibility and ensures API requests adhere to role-base
Hot AI Tools
Undresser.AI Undress
AI-powered app for creating realistic nude photos
AI Clothes Remover
Online AI tool for removing clothes from photos.
Undress AI Tool
Undress images for free
Clothoff.io
AI clothes remover
AI Hentai Generator
Generate AI Hentai for free.
Hot Article
Hot Tools
SecLists
SecLists is the ultimate security tester's companion. It is a collection of various types of lists that are frequently used during security assessments, all in one place. SecLists helps make security testing more efficient and productive by conveniently providing all the lists a security tester might need. List types include usernames, passwords, URLs, fuzzing payloads, sensitive data patterns, web shells, and more. The tester can simply pull this repository onto a new test machine and he will have access to every type of list he needs.
PhpStorm Mac version
The latest (2018.2.1) professional PHP integrated development tool
DVWA
Damn Vulnerable Web App (DVWA) is a PHP/MySQL web application that is very vulnerable. Its main goals are to be an aid for security professionals to test their skills and tools in a legal environment, to help web developers better understand the process of securing web applications, and to help teachers/students teach/learn in a classroom environment Web application security. The goal of DVWA is to practice some of the most common web vulnerabilities through a simple and straightforward interface, with varying degrees of difficulty. Please note that this software
Dreamweaver Mac version
Visual web development tools
Dreamweaver CS6
Visual web development tools
