PHP面向对象2
1. __toString:
当对象被打印时,如果该类定义了该方法,则打印该方法的返回值,否则将按照PHP的缺省行为输出打印结果。该方法类似于Java中的toString()。
<?php class TestClass { public function __toString() { return "This is TestClass::__toString.\n"; } } $testObj = new TestClass(); print $testObj;
运行结果如下:
Stephens-Air:Desktop$ php Test.php This is TestClass::__toString.
2. __get和__set:
这两个方法用于处理类中未声明的属性访问。当对象使用者试图访问未声明的对象属性时,__get()会被调用,并带有一个包含要访问的属性名称字符串作为参数。无论从__get()方法返回什么,都会直接返回给调用者,就如同带有该值的属性存在一样。另外需要注意的是,如果属性存在,但是其访问可见性为private或protected,那么这两个拦截方法同样会被调用,反之,如果属性存在切可访问,那么直接访问属性即可,这两个方法将不再会被调用。以下为__get()拦截方法的示例代码:
<?php class TestClass { private $privateField; public $publicField; public function __construct() { $this->privateField = "This is a private Field.\n"; $this->publicField = "This is a public Field.\n"; } public function __get($property) { print "__get() is called.\n"; $method = "get${property}"; if (method_exists($this, $method)) { return $this->$method(); } return "This is undefined field.\n"; } public function getPrivateField() { return $this->privateField; } } $testObj = new TestClass(); print $testObj->privateField; print $testObj->undefinedField; print $testObj->publicField;
运行结果如下:
Stephens-Air:Desktop$ php Test.php __get() is called. This is a private Field. __get() is called. This is undefined field. This is a public Field.
__set()方法被调用的规则和__get()基本相同,差别是用于拦截未定义或不可见类属性的赋值操作。另外,该方法接收两个参数,分别是属性名称和要设定的值。见如下代码示例:
<?php class TestClass { private $privateField; public $publicField; public function __construct() { $this->privateField = "This is a private Field.\n"; $this->publicField = "This is a public Field.\n"; } public function __get($property) { print "__get() is called.\n"; $method = "get${property}"; if (method_exists($this, $method)) { return $this->$method(); } return "This is an undefined field.\n"; } public function __set($property, $value) { print "__set is called.\n"; $method = "set${property}"; if (method_exists($this, $method)) { $this->$method($value); } else { print "This is an undefined field.\n"; } } public function getPrivateField() { return $this->privateField; } public function setPrivateField($value) { $this->privateField = $value; } } $testObj = new TestClass(); $testObj->privateField = "This is a private Field after set.\n"; $testObj->undefinedField = "This is a undefined Field after set.\n"; $testObj->publicField = "This is a public Field after set.\n"; print $testObj->privateField; print $testObj->undefinedField; print $testObj->publicField;
运行结果如下:
Stephens-Air:Desktop$ php Test.php __set is called. __set is called. This is an undefined field. __get() is called. This is a private Field after set. __get() is called. This is an undefined field. This is a public Field after set.
3. __isset和__unset:
这两个拦截方法被调用的规则和__get()和__set()非常类似,只是用于类中不存在或不可见属性被isset()和unset()两个全局方法应用时才会被分别触发。
<?php class TestClass { private $privateField; public $publicField; public function __construct() { $this->privateField = "Defined private field"; $this->publicField = "Defined public field"; } public function __isset($property) { print "__isset is called.\n"; return isset($this->$property); } public function __unset($property) { print "__unset is called.\n"; if (isset($this->$property)) { unset($this->$property); } } } $testObj = new TestClass(); print 'isset($testObj->privateField) is '.(isset($testObj->privateField) ? "true" : "false")."\n"; print 'isset($testObj->undefinedField) is '.(isset($testObj->undefinedField) ? "true" : "false")."\n"; print 'isset($testObj->publicField) is '.(isset($testObj->publicField) ? "true" : "false")."\n"; print "After unset......\n"; //下面两个函数调用后,$testObj的两个对象属性均会变为不可用。 //另外从输出结果来看,__unset方法仅仅被调用一次,因为publicField为可见属性,所以__unset不会因该属性而被调用。 unset($testObj->privateField); unset($testObj->publicField); print 'isset($testObj->privateField) is '.(isset($testObj->privateField) ? "true" : "false")."\n"; print 'isset($testObj->publicField) is '.(isset($testObj->publicField) ? "true" : "false")."\n";
运行结果如下:
Stephens-Air:Desktop$ php Test.php __isset is called. isset($testObj->privateField) is true __isset is called. isset($testObj->undefinedField) is false isset($testObj->publicField) is true After unset...... __unset is called. __isset is called. isset($testObj->privateField) is false __isset is called. isset($testObj->publicField) is false
4. __call:
__call()方法是一个非常有用但又非常容易被滥用的拦截方法。当对象使用者试图访问当前对象未定义的成员函数时,__call()会被自动调用,同时传递两个参数,分别为函数名称和传递给调用函数的所有参数(数组)。__call方法返回的任何值都会返回给函数调用者,就如同该成员函数真实存在一样。下面给出一个非常有用的委托示例。
<?php class DelegateClass { function printMessage($arg1, $arg2) { print "DelegateClass:delegatedMethod is called.\n"; print '$arg1 = '.$arg1.'and $arg2 = '.$arg2."\n"; } } class TestClass { private $delegateObj; public function __construct() { $this->delegateObj = new DelegateClass(); } public function __call($method, $args) { $this->delegateObj->$method($args[0],$args[1]); } } $testObj = new TestClass(); $testObj->printMessage("hello","world");
运行结果如下:
Stephens-Air:Desktop$ php Test.php DelegateClass:delegatedMethod is called. $arg1 = helloand $arg2 = world
从以上示例可以看出,TestClass并未声明printMessage成员方法,但是通过__call()方法的巧妙桥接直接传递给了委托对象。个人认为该技巧为双刃剑,切勿过度使用。
5. 回调函数:
回调函数的应用场景无须多述,在C/C++中充斥着无数的回调函数典型用例。 这里只是简单给出PHP中回调函数的使用规则。见如下示例代码和关键性注释:
<?php class Product { public $name; public $price; public function __construct($name, $price) { $this->name = $name; $this->price = $price; } } class ProcessSale { private $callbacks; function registerCallback($cb) { if (!is_callable($cb)) { throw new Exception("callback not callable."); } $this->callbacks[] = $cb; } function sale($product) { print "{$product->name}: processing \n"; foreach ($this->callbacks as $cb) { //以下两种调用方式均可。 call_user_func($cb, $product); $cb($product); } } } $logger = function($product) { print " logging ({$product->name})\n"; }; $processor = new ProcessSale(); $processor->registerCallback($logger); $processor->sale(new Product("shoes",6)); print "\n"; $processor->sale(new Product("coffee",6));
运行结果如下:
Stephens-Air:Desktop$ php Test.php shoes: processing logging (shoes) logging (shoes) coffee: processing logging (coffee) logging (coffee)
6. use(闭包):
在Javascript中存在大量的闭包应用,PHP中的闭包则是通过use关键字来完成的。对于闭包这个概念本身而言,简要的说就是函数内的代码可以访问其父作用域中的变量。见如下示例代码和关键性注释:
<?php class Product { public $name; public $price; public function __construct($name, $price) { $this->name = $name; $this->price = $price; } } class ProcessSale { private $callbacks; function registerCallback($cb) { if (!is_callable($cb)) { throw new Exception("callback not callable."); } $this->callbacks[] = $cb; } function sale($product) { print "{$product->name}: processing \n"; foreach ($this->callbacks as $cb) { $cb($product); } } } class Totalizer { static function warnAmount($amt) { $count = 0; //注意这里的$amt和$count均为闭包变量,其中&$count是以引用的形式传递的,即一旦函数内部修改了该变量的值, //那么下次再访问该闭包变量时,$count将为之前调用中修改后的值。 return function($product) use($amt, &$count) { $count += $product->price; print " count: $count\n"; if ($count > $amt) { print " high price reached: {$count}\n"; } }; } } $processor = new ProcessSale(); $processor->registerCallback(Totalizer::warnAmount(8)); $processor->sale(new Product("shoes",6)); $processor->sale(new Product("coffee",6));
运行结果如下:
shoes: processing count: 6 coffee: processing count: 12 high price reached: 12