七.PHP模式设计执行及描述任务

1. 解析器模式//解析器内容类//用于存放表达式的运算结果,并且能根据传入的表达式返回当初记录的结果class InterpreterContext{    private $expressionstore=array();    //将对象放进array里面,索引号是对象ID号    function replace(Expression $exp,$value){        $this->expressionstore[$exp->getKey()]=$value;    }    function lookup(Expression $exp){        return $this->expressionstore[$exp->getKey()];    }}abstract class Expression{    private static $keyCount=0;    private $key;    abstract function interpret(InterpreterContext $context);    //每一个对象都有一个唯一的key    function getKey(){        if(!isset($this->key)){            $this->key=++self::$keyCount;        }        return $this->key;    }}//字符串class LiteralExpression extends Expression{    private $value;    function __construct($value){        $this->value=$value;    }    function interpret(InterpreterContext $context){        $context->replace($this, $this->value);    }}//变量class VariableExpression extends Expression{    private $value;    private $name;    function __construct($name,$value=null){        $this->name=$name;        $this->value=$value;    }    function setValue($value){        $this->value=$value;    }    function getKey(){        return $this->name;    }    function interpret(InterpreterContext $context){        if(!is_null($this->value)){            $context->replace($this, $this->value);            //设置为空,可以避免在没有修改value的情况下再次调用该方法的时候,            //也第二次调用了InterpreterContext::replece            $this->value=null;        }    }}//操作符表达式 抽象基类abstract class OperatorExpression extends Expression{    //左右操作数    protected $l_op;    protected $r_op;    function __construct(Expression $l_op,Expression $r_op){        $this->l_op=$l_op;        $this->r_op=$r_op;    }    function interpret(InterpreterContext $context){        $this->l_op->interpret($context);        $this->r_op->interpret($context);        $result_l=$context->lookup($this->l_op);        $result_r=$context->lookup($this->r_op);        $this->doInterpret($context, $result_l, $result_r);    }    protected abstract function doInterpret(InterpreterContext $context,$result_l,$result_r);}//相等表达式class EqualsExpression extends OperatorExpression{    //计算后将结果保存进this里...    protected function doInterpret(InterpreterContext $context,$result_l,$result_r){        $context->replace($this, $result_l==$result_r);    }}//布尔或表达式class BooleanOrExpression extends OperatorExpression{    protected function doInterpret(InterpreterContext $context, $result_l, $result_r){        $context->replace($this, $result_l || $result_r);    }}//布尔与表达式class BooleanAndExpression extends OperatorExpression{    protected function doInterpret(InterpreterContext $context, $result_l, $result_r){        $context->replace($this, $result_l && $result_r);    }}/*$context=new InterpreterContext();$literal=new LiteralExpression("Bob");$literal->interpret($context);print $context->lookup($literal);//Bob$context=new InterpreterContext();$myvar=new VariableExpression("V","one");$myvar->interpret($context);print $context->lookup($myvar);//one$myothervar=new VariableExpression("V");$myvar->interpret($context);print $context->lookup($myvar);//one*///利用上面的代码来检测迷你型语言//$input equals "4" or $input equals "four"$context=new InterpreterContext();//一个没有赋值的变量$input=new VariableExpression('input');//定义一个复杂的布尔型变量,初始化的参数被保存在l_op,r_op里面//注意,此时他们还没有进行相关运算,必须等到调用布尔型变量的interpret()//之后,布尔型变量里面的参数才会各自调用自身的interpret,形成一个调用栈...$statement=new BooleanOrExpression(        new EqualsExpression($input, new LiteralExpression('four')),         new EqualsExpression($input, new LiteralExpression('4')));$statement->interpret($context);print $context->lookup($statement);foreach (array('four','4','52') as $val){    $input->setValue($val);    print "$val:\n";    $statement->interpret($context);    if($context->lookup($statement)){        print "top marks\n";    }else{        print "dunce hat on\n\n";    }}/*four:top marks4:top marks52:dunce hat on*/  2.策略模式      将类中许多不同操作而且是来自同一个接口的算法,独立起来封装在一个新类中,主类在由分类组合或者聚合而成//Question类将由Marker聚合而成abstract class Question{    protected $prompt;    protected $marker;    function __construct($prompt,Marker $marker){        $this->marker=$marker;        $this->prompt=$prompt;    }    //利用委托实现    function mark($response){        return $this->marker->mark($response);    }}class TextQuestion extends Question{    //处理文本问题特有的操作}class AVQuestion extends Question{    //处理语音问题特有操作}//策略对象//将算法部分独立出来封装在Marker类中....abstract class Marker{    protected $test;    function __construct($test){        $this->test=$test;    }    abstract function mark($response);}//MarkLogic语言class MarkLogicMarker extends Marker{    protected $engine;    function __construct($test){        parent::__construct($test);    }    function mark($response){        //模拟返回true        return true;    }}//直接匹配class MatchMarker extends Marker{    function mark($response){        return ($this->test==$response);    }}//正则表达式class RegexpMarker extends Marker{    function mark($response){        return (preg_match($this->test, $response));    }}//客户端示例代码$markers=array(new RegexpMarker("/f.ve/"),        new MatchMarker("fivev"),        new MarkLogicMarker('$input equals "five"'));foreach($markers as $marker){    print get_class($marker)."\n";    //新建一个问题,将marker实例传进去    $question=new TextQuestion("How many beans make five", $marker);    foreach (array("five","four") as $response){        print "\t response:$response: ";        if($question->mark($response)){            print "well done\n";        }else{            print "never mind\n";        }    }}/*RegexpMarker     response:five: well done     response:four: never mindMatchMarker     response:five: never mind     response:four: never mindMarkLogicMarker     response:five: well done     response:four: well done*/3 观察者模式     观察者模式的和兴是把客户元素(观察者)从一个中心类中分离开来.当主体中有事件发生时,观察者必须被通知到!同时观察者和主体类不是通过硬编码实现,而是通过接口组合聚合实现*问题// Login类(主体类)class Login {    const LOGIN_USER_UNKNOWN = 1;    const LOGIN_WRONG_PASS = 2;    const LOGIN_ACCESS = 3;    private $status = array ();    // 登录操    function handleLogin($user, $pass, $ip) {        $ret=false;        switch (rand ( 1, 3 )) {            case 1 :                $this->setStatus ( self::LOGIN_ACCESS, $user, $ip );                $ret=ture;                break;            case 2 :                $this->setStatus ( self::LOGIN_WRONG_PASS, $user, $ip );                $ret=false;                break;            case 3 :                $this->setStatus ( self::LOGIN_USER_UNKNOWN, $user, $ip );                $ret=false;                break;            default:                $ret=false;        }        //如果需要记录IP时        Logger::logIP($user, $ip, $this->getStatus());        //如果需要把登录失败的人的IP发送到管理员邮箱时...        if(!$ret){            Notifier::mailWarning($user, $ip, $this->getStatus());        }        //还需要其他功能时,比如特殊IP需要设置cookie等...        //需要在这里面一直添加...        return $ret;    }    function setStatus($status, $user, $ip) {        $this->status = array ($status,$user,$ip);    }    function getStatus(){        return $this->status;    }}class Logger{    static function logIP($user,$ip,$status){}}class Notifier{    static function mailWarning($user,$ip,$status){}}*利用观察者模式,使代码改动少些....// 主体类的抽象接口interface Observable{    //附加    function attach(Observer $observer);    //删除    function detach(Observer $observer);    //通知    function notify();}// Login类(主体类)class Login implements Observable{    const LOGIN_USER_UNKNOWN = 1;    const LOGIN_WRONG_PASS = 2;    const LOGIN_ACCESS = 3;    private $observers;    private $status = array ();    // 登录操作    function handleLogin($user, $pass, $ip) {        $ret=false;        switch (rand ( 1, 3 )) {            case 1 :                $this->setStatus ( self::LOGIN_ACCESS, $user, $ip );                $ret=ture;                break;            case 2 :                $this->setStatus ( self::LOGIN_WRONG_PASS, $user, $ip );                $ret=false;                break;            case 3 :                $this->setStatus ( self::LOGIN_USER_UNKNOWN, $user, $ip );                $ret=false;                break;            default:                $ret=false;        }        //使用观察者模式之后,如果需要增加新功能,只需要在本类中添加观察者实例即可...        $this->notify();        return $ret;    }    function setStatus($status, $user, $ip) {        $this->status = array ($status,$user,$ip);    }    function getStatus(){        return $this->status;    }    function attach(Observer $observer){        $this->observers[]=$observer;    }    function detach(Observer $observer){        $newObserver=array();        foreach ($this->observers as $obs){            if($obs!==$observer){                $newObserver[]=$obs;            }        }        $this->observers=$newObserver;    }    //通知所有观察者    function notify(){        foreach ($this->observers as $bos){            $bos->update($this);        }    }}//观察者接口interface Observer{    function update(Observable $observable);}class SecurityMonitor implements Observer{    function update(Observable $observable){        //getStatus()不是Observable接口规定的方法        $status=$observable->getStatus();        //对status的判断也涉及到耦合问题        if($status[0]==Login::LOGIN_WRONG_PASS){            //发送邮件给管理员            print __CLASS__.":\t sending mail to sysadmin\n";        }    }}$login=new Login();$login->attach(new SecurityMonitor());$login->handleLogin("coco", "123456", "127.0.0.1");//有可能

输出发送消息到管理员 *改进后的观察者模式//可观察元素:主体类的基接口interface Observable{ //附加 function attach(Observer $observer); //删除 function detach(Observer $observer); //通知 function notify();}// Login类(主体类)class Login implements Observable{ const LOGIN_USER_UNKNOWN = 1; const LOGIN_WRONG_PASS = 2; const LOGIN_ACCESS = 3; private $observers; private $status = array (); // 登录操作 function handleLogin($user, $pass, $ip) { $ret=false; switch (rand ( 1, 3 )) { case 1 : $this->setStatus ( self::LOGIN_ACCESS, $user, $ip ); $ret=ture; break; case 2 : $this->setStatus ( self::LOGIN_WRONG_PASS, $user, $ip ); $ret=false; break; case 3 : $this->setStatus ( self::LOGIN_USER_UNKNOWN, $user, $ip ); $ret=false; break; default: $ret=false; } //使用观察者模式之后,如果需要增加新功能,只需要在本类中添加观察者实例即可... $this->notify(); return $ret; } function setStatus($status, $user, $ip) { $this->status = array ($status,$user,$ip); } function getStatus(){ return $this->status; } function attach(Observer $observer){ $this->observers[]=$observer; } function detach(Observer $observer){ $newObserver=array(); foreach ($this->observers as $obs){ if($obs!==$observer){ $newObserver[]=$obs; } } $this->observers=$newObserver; } //通知所有观察者 function notify(){ foreach ($this->observers as $bos){ $bos->update($this); } }}//观察者接口interface Observer{ function update(Observable $observable);}//Login:观察者超类(用于解决直接在Observer中调用具体的Observable子类造成的风险)abstract class LoginObserver implements Observer{ private $login; function __construct(Login $login){ $this->login=$login; $this->login->attach($this); } //该方法在Observable的子类某些方法被调用时触发 function update(Observable $observable){ //触发该方法时,传入的参数必须是Login才有效... if($this->login===$observable){ $this->doUpdate($observable); } } abstract function doUpdate(Login $login); }//改进后的观察者能保证调用的Observable实例方法一定存在class SecurityMonitor extends LoginObserver{ function doUpdate(Login $login){ $status=$login->getStatus(); //对status的判断也涉及到耦合问题 if($status[0]==Login::LOGIN_WRONG_PASS){ //发送邮件给管理员 print __CLASS__.":\t sending mail to sysadmin\n"; } }}//日常记录class GeneralLogger extends LoginObserver{ function doUpdate(Login $login){ $status=$login->getStatus(); //添加记录到log中 //... print __CLASS__."\t add login data to log\n"; }}//合作伙伴工具类class PartnershipTool extends LoginObserver{ function doUpdate(Login $login){ $status=$login->getStatus(); //检查IP,如果匹配,则设置cookie... //... print __CLASS__."\t set cookie if IP matches a list\n"; }}//客户端代码有一点点改变...$login=new Login();new SecurityMonitor($login);new GeneralLogger($login);new PartnershipTool($login);$login->handleLogin("coco", "123456", "127.0.0.1");/* * 有可能输出 *SecurityMonitor: sending mail to sysadmin *GeneralLogger add login data to log *PartnershipTool set cookie if IP matches a list **/4. 访问者模式 当使用对象集合时,我们可能需要对结构上每一个单独的组件应用各种操作.这样的操作可以内建于组件本身,毕竟组件内部调用其他组件是最方便的. 但是这种方法也存在问题,因为我们并不知道所有可能需要的执行的操作.如果每增加一个操作,就在类中增加一个对于新操作的支持,类就会变得越来越臃肿.访问者模式可以解决这个问题.//本例是基于"文明"游戏的代码建立而成...//*战斗单元类abstract class Unit{ //深度 protected $depth=0; //攻击强度 abstract function bombardStrength(); function getComposite(){ return null; } //为访问者模式打造的方法 function accept(ArmyVisitor $visitor){ //构建一个根据自己规则定义的方法名,然后交给visitor自身调用 $method="visit".get_class($this); $visitor->$method($this); } //用于计算Unit在对象树中的深度 protected function setDepth($depth){ $this->depth==$depth; } function getDepth(){ return $this->depth; }}//复合抽象类abstract class CompositeUnit extends Unit{ protected $units=array(); //为访问者模式打造的方法 function accept(ArmyVisitor $visitor){ //构建一个根据自己规则定义的方法名,然后交给visitor自身调用 //先调用父类accept(),再遍历调用子元素accept() parent::accept($visitor); foreach ($this->units as $thisunit){ $thisunit->accept($visitor); } } //可以不用写bombardStrength() function getComposite(){ return $this; } //添加单元 //同时标记节点在对象树中的深度 function addUnit(Unit $unit){ if(!empty($unit)){ if(in_array($unit, $this->units,true)){ return; } //可以用下面代码替换in_array()函数// foreach ($this->units as $thisunit){// if($thisunit===$unit){// return;// }// } //计算好深度先... $unit->setDepth($this->depth+1); array_push($this->units, $unit); } } function removeUnit(Unit $unit){ $this->units=array_udiff($this->units, array($unit), function ($a,$b){return ($a===$b?0:1);}); } }//射手class Archer extends Unit{ function bombardStrength(){ return 4; }}//激光塔class LaserCannonUnit extends Unit{ function bombardStrength(){ return 44; }}//军队:由战斗单元组成class Army extends CompositeUnit{ //计算总强度 function bombardStrength(){ $ret=0; foreach ($this->units as $unit){ $ret+=$unit->bombardStrength(); } return $ret; } //移动能力,防御能力...省略}//运兵船:一个类似军队的单元,它具备10个战斗单元,有攻击力class TroopCarrier extends CompositeUnit{ //具备和军队差不多的方法和属性 function bombardStrength(){ //Do something... }}//军队访问者基类abstract class ArmyVisitor{ //相关方法待会写... //Army可能有多少种Unit,这里就有多少个visit方法... //方法命名规则为visit+类名 //默认的visit abstract function visit(Unit $unit); function visitArcher(Archer $node){ $this->visit($node); } function visitLaserCannonUnit(LaserCannonUnit $node){ $this->visit($node); } function visitArmy(Army $node){ $this->visit($node); } function visitTroopCarrier(TroopCarrier $node){ $this->visit($node); }}//具体的Army访问者类,用于转存文本class TextDumpArmyVisitor extends ArmyVisitor{ private $text=""; function visit(Unit $node){ $ret=""; $pad=4*$node->getDepth(); $ret.=sprintf("%{$pad}s",""); $ret.=get_class($node).":"; $ret.="bombard: ".$node->bombardStrength()."\n"; $this->text.=$ret; } function getText(){ return $this->text; }}//客户端实例代码$army=new Army();$army->addUnit(new Archer());$army->addUnit(new LaserCannonUnit());$textdump=new TextDumpArmyVisitor();$army->accept($textdump);print $textdump->getText();/* * Army:bombard: 48 * Archer:bombard: 4 * LaserCannonUnit:bombard: 44 */5. 命令模式//命令模式//命令模式最初来源于图形化用户界面设计,但现在广泛应用于企业应用设计,特别促进了控制器(请求和分法处理)//和领域模型(应用逻辑)的分离.说得更简单一点,命令模式有助于系统更好地进行组织,并易于扩展//Command可以设计成接口,因为它很简单...//Commands/Command.phpabstract class Command{ abstract function execute(CommandContext $context);} require_once("Command.php");class Registry{ //一个空类... static function getAccessManager(){ return new AccessManager(); }}class AccessManager{ function login(){ return new stdClass(); } function getError(){}}class LoginCommand extends Command{ function execute(CommandContext $context){ $manager=Registry::getAccessManager(); $user=$context->get('username'); $user=$context->get('pass'); //虚构出来的空类空方法 $user_obj=$manager->login(); if(is_null($user_obj)){ $context->setError($manager->getError()); return false; } $context->addParam("user", $user); return true; }} //CommandContext类用来做任务扩增用,在这儿主要功能是传递数据给Command类class CommandContext{ private $params=array(); private $error=""; function __construct(){ $this->params=$_REQUEST; } function addParam($key,$val){ $this->params[$key]=$val; } function get($key){ return $this->params[$key]; } function setError($error){ $this->error=$error; } function getError(){ return $this->error; }}//客户端代码(用于创建命令)已经调用者代码class CommandNotFoundException extends Exception{ }//创建命令的工厂class CommandFactory{ private static $dir="Commands"; //根据参数action,以及类文件存放目录$dir动态创建相应的$action+Command类 static function getCommand($action='default'){ //匹配是否出现非法字符(非字母数字下划线) if(preg_match('/\W/', $action)){ throw new Exception("Illegal characters in action"); } $class=ucfirst(strtolower($action)."Command"); $file=self::$dir.DIRECTORY_SEPARATOR."{$class}.php"; if(!file_exists($file)){ throw new CommandNotFoundException("File could not be find !"); } require_once("$file"); if(!class_exists($class)){ throw new CommandNotFoundException("Class could not be find !"); } return new $class(); }}//调用者,里面包含一个CommandContext对象实例,用于存放web请求的数据class Controller{ private $context; function __construct(){ $this->context=new CommandContext(); } function getContext(){ return $this->context; } function process(){ $cmd=CommandFactory::getCommand($this->getContext()->get('action')); if(!$cmd->execute($this->context)){ //处理失败 print "Faile in process!"; }else{ //处理成功,可以显示相应的视图层 print "Success in process!"; } }}$controller=new Controller();$context=$controller->getContext();$context->addParam('action', 'Login');$context->addParam('user', 'cocos');$context->addParam('pass', 'tiddles');//controller执行process方法,需要不理解command的意义.$controller->process();//Success in process