PHP SPL标准库总共有6个接口,如下:
1.Countable 2.OuterIterator 3.RecursiveIterator 4.SeekableIterator 5.SplObserver 6.SplSubject
其中OuterIterator、RecursiveIterator、SeekableIterator都是继承Iterator类的,下面会对每种接口作用和使用进行详细说明。
Coutable接口:
实现Countable接口的对象可用于count()函数计数。
$count->count();
$count->count();
echo count($count); //3
echo count($count); //4
说明:
调用count()函数时,Mycount::count()方法被调用 count()函数的第二个参数将不会产生影响
OuterIterator接口:
自定义或修改迭代过程。
{
return parent::current() . 'TEST';
}
}
foreach(new MyOuterIterator(new ArrayIterator(['b','a','c'])) as $key => $value) {
echo "$key->$value".PHP_EOL;
}
/
结果:
0->bTEST
1->aTEST
2->cTEST
/
在实际运用中,OuterIterator极其有用:
RecursiveIterator接口:
用于循环迭代多层结构的数据,RecursiveIterator另外提供了两个方法:RecursiveIterator::getChildren 获取当前元素下子迭代器 RecursiveIterator::hasChildren 判断当前元素下是否有迭代器
$this->_data = $data;
}
public function valid() {
return isset($this->_data[$this->_position]);
}
public function hasChildren() {
return is_array($this->_data[$this->_position]);
}
public function next() {
$this->_position++;
}
public function current() {
return $this->_data[$this->_position];
}
public function getChildren() {
print_r($this->_data[$this->_position]);
}
public function rewind() {
$this->_position = 0;
}
public function key() {
return $this->_position;
}
}
$arr = array(0,1=> array(10,20),2,3 => array(1,2));
$mri = new MyRecursiveIterator($arr);
foreach ($mri as $c => $v) {
if ($mri->hasChildren()) {
echo "$c has children: " .PHP_EOL;
$mri->getChildren();
} else {
echo "$v" .PHP_EOL;
}
}
/
结果:
0
1 has children:
Array
(
[0] => 10
[1] => 20
)
2
3 has children:
Array
(
[0] => 1
[1] => 2
)
/
SeekableIterator接口:
通过seek()方法实现可搜索的迭代器,用于搜索某个位置下的元素。
private $array = array(
"first element",
"second element",
"third element",
"fourth element"
);
public function seek ( $position ) {
if (!isset( $this -> array [ $position ])) {
throw new OutOfBoundsException ( "invalid seek position ( $position )" );
}
$this -> position = $position ;
}
public function rewind () {
$this -> position = 0 ;
}
public function current () {
return $this -> array [ $this -> position ];
}
public function key () {
return $this -> position ;
}
public function next () {
++ $this -> position ;
}
public function valid () {
return isset( $this -> array [ $this -> position ]);
}
}
try {
$it = new MySeekableIterator ;
echo $it -> current (),"\n" ;
$it -> seek ( 2 );
echo $it -> current (),"\n" ;
$it -> seek ( 1 );
echo $it -> current (),"\n" ;
$it -> seek ( 10 );
} catch ( OutOfBoundsException $e ) {
echo $e -> getMessage ();
}
/
结果:
first element
third element
second element
invalid seek position ( 10 )
/
SplObserver和SplSubject接口:
SplObserver和SplSubject接口用来实现观察者设计模式,观察者设计模式是指当一个类的状态发生变化时,依赖它的对象都会收到通知并更新。使用场景非常广泛,比如说当一个事件发生后,需要更新多个逻辑操作,传统方式是在事件添加后编写逻辑,这种代码耦合并难以维护,观察者模式可实现低耦合的通知和更新机制。 看看SplObserver和SplSubject的接口结构:interface SplObserver{
public function update(SplSubject $subject); //更新操作
}
看下面一个实现观察者的例子:
{
$this->observers[] = $observer;
}
public function detach(SplObserver $observer)
{
if($index = array_search($observer,$this->observers,true)) {
unset($this->observers[$index]);
}
}
public function notify()
{
foreach($this->observers as $observer) {
$observer->update($this);
}
}
}
class Observer1 implements SplObserver
{
public function update(SplSubject $subject)
{
echo "逻辑1代码".PHP_EOL;
}
}
class Observer2 implements SplObserver
{
public function update(SplSubject $subject)
{
echo "逻辑2代码".PHP_EOL;
}
}
$subject = new Subject();
$subject->attach(new Observer1());
$subject->attach(new Observer2());
$subject->notify();
/
结果:
逻辑1代码
逻辑2代码
/
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