I think it's relevant to note that __clone is NOT an override. As the example shows, the normal cloning process always occurs, and it's the responsibility of the __clone method to "mend" any "wrong" action performed by it.
No siempre se desea crear una copia de un objeto replicando todas sus propiedades completamente. Un buen ejemplo que ilustra la necesidad de contar con un constructor de copias, sería si tuviéramos un objeto que represente una ventana en GTK y el objeto almacene los recursos de esta ventana GTK, de forma que cuando creas un duplicado el comportamiento esperado sería una nueva ventana con las mismas propiedades, y que el nuevo objeto referencie a los recursos de la nueva ventana. Otro ejemplo es si un objeto hace referencia a otro objeto necesario, de forma que cuando se realiza una réplica del objeto principal, se espera que se cree una nueva instancia de este otro objeto, de forma que la réplica tenga su propia copia.
Para crear una copia de un objeto se utiliza la palabra clave clone (que invoca, si fuera posible, al método __clone() del objeto). No se puede llamar al método __clone() de un objeto directamente.
$copia_de_objeto = clone $objeto;
Cuando se clona un objeto, PHP llevará a cabo una copia superficial de las propiedades del objeto. Las propiedades que sean referencias a otras variables, mantendrán las referencias.
Una vez que la clonación ha finalizado, se llamará al método __clone() del nuevo objeto (si el método __clone() estuviera definido), para permitirle realizar los cambios necesarios sobre sus propiedades.
Ejemplo #1 Clonación de un objeto
<?php
class SubObject
{
static $instances = 0;
public $instance;
public function __construct() {
$this->instance = ++self::$instances;
}
public function __clone() {
$this->instance = ++self::$instances;
}
}
class MyCloneable
{
public $object1;
public $object2;
function __clone()
{
// Forzamos la copia de this->object, si no
// hará referencia al mismo objeto.
$this->object1 = clone $this->object1;
}
}
$obj = new MyCloneable();
$obj->object1 = new SubObject();
$obj->object2 = new SubObject();
$obj2 = clone $obj;
print("Objeto Original:\n");
print_r($obj);
print("Objeto Clonado:\n");
print_r($obj2);
?>
El resultado del ejemplo sería:
Objeto Original: MyCloneable Object ( [object1] => SubObject Object ( [instance] => 1 ) [object2] => SubObject Object ( [instance] => 2 ) ) Objeto Clonado: MyCloneable Object ( [object1] => SubObject Object ( [instance] => 3 ) [object2] => SubObject Object ( [instance] => 2 ) )
PHP 7.0.0 introdujo la posibilidad de acceder a un miembro del objeto recién clonado en una única expresión:
Ejemplo #2 Acceder a un miembre del objeto recién clonado
<?php
$dateTime = new DateTime();
echo (clone $dateTime)->format('Y');
?>
El resultado del ejemplo sería algo similar a:
2016
I think it's relevant to note that __clone is NOT an override. As the example shows, the normal cloning process always occurs, and it's the responsibility of the __clone method to "mend" any "wrong" action performed by it.
Here is test script i wrote to test the behaviour of clone when i have arrays with primitive values in my class - as an additonal test of the note below by jeffrey at whinger dot nl
<pre>
<?php
class MyClass {
private $myArray = array();
function pushSomethingToArray($var) {
array_push($this->myArray, $var);
}
function getArray() {
return $this->myArray;
}
}
//push some values to the myArray of Mainclass
$myObj = new MyClass();
$myObj->pushSomethingToArray('blue');
$myObj->pushSomethingToArray('orange');
$myObjClone = clone $myObj;
$myObj->pushSomethingToArray('pink');
//testing
print_r($myObj->getArray()); //Array([0] => blue,[1] => orange,[2] => pink)
print_r($myObjClone->getArray());//Array([0] => blue,[1] => orange)
//so array cloned
?>
</pre>
I ran into the same problem of an array of objects inside of an object that I wanted to clone all pointing to the same objects. However, I agreed that serializing the data was not the answer. It was relatively simple, really:
public function __clone() {
foreach ($this->varName as &$a) {
foreach ($a as &$b) {
$b = clone $b;
}
}
}
Note, that I was working with a multi-dimensional array and I was not using the Key=>Value pair system, but basically, the point is that if you use foreach, you need to specify that the copied data is to be accessed by reference.
Another gotcha I encountered: like __construct and __desctruct, you must call parent::__clone() yourself from inside a child's __clone() function. The manual kind of got me on the wrong foot here: "An object's __clone() method cannot be called directly."
Here are some cloning and reference gotchas we came up against at Last.fm.
1. PHP treats variables as either 'values types' or 'reference types', where the difference is supposed to be transparent. Object cloning is one of the few times when it can make a big difference. I know of no programmatic way to tell if a variable is intrinsically a value or reference type. There IS however a non-programmatic ways to tell if an object property is value or reference type:
<?php
class A { var $p; }
$a = new A;
$a->p = 'Hello'; // $a->p is a value type
var_dump($a);
/*
object(A)#1 (1) {
["p"]=>
string(5) "Hello" // <-- no &
}
*/
$ref =& $a->p; // note that this CONVERTS $a->p into a reference type!!
var_dump($a);
/*
object(A)#1 (1) {
["p"]=>
&string(5) "Hello" // <-- note the &, this indicates it's a reference.
}
*/
?>
2. unsetting all-but-one of the references will convert the remaining reference back into a value. Continuing from the previous example:
<?php
unset($ref);
var_dump($a);
/*
object(A)#1 (1) {
["p"]=>
string(5) "Hello"
}
*/
?>
I interpret this as the reference-count jumping from 2 straight to 0. However...
2. It IS possible to create a reference with a reference count of 1 - i.e. to convert an property from value type to reference type, without any extra references. All you have to do is declare that it refers to itself. This is HIGHLY idiosyncratic, but nevertheless it works. This leads to the observation that although the manual states that 'Any properties that are references to other variables, will remain references,' this is not strictly true. Any variables that are references, even to *themselves* (not necessarily to other variables), will be copied by reference rather than by value.
Here's an example to demonstrate:
<?php
class ByVal
{
var $prop;
}
class ByRef
{
var $prop;
function __construct() { $this->prop =& $this->prop; }
}
$a = new ByVal;
$a->prop = 1;
$b = clone $a;
$b->prop = 2; // $a->prop remains at 1
$a = new ByRef;
$a->prop = 1;
$b = clone $a;
$b->prop = 2; // $a->prop is now 2
?>
Here is a basic example about clone issue. If we use clone in getClassB method. Return value will be same as new B() result. But it we dont use clone we can effect B::$varA.
class A
{
protected $classB;
public function __construct(){
$this->classB = new B();
}
public function getClassB()
{
return clone $this->classB;
}
}
class B
{
protected $varA = 2;
public function getVarA()
{
return $this->varA;
}
public function setVarA()
{
$this->varA = 3;
}
}
$a = new A();
$classB = $a->getClassB();
$classB->setVarA();
echo $a->getClassB()->getVarA() . PHP_EOL;// with clone -> 2, without clone it returns -> 3
echo $classB->getVarA() . PHP_EOL; // returns always 3
It should go without saying that if you have circular references, where a property of object A refers to object B while a property of B refers to A (or more indirect loops than that), then you'll be glad that clone does NOT automatically make a deep copy!
<?php
class Foo
{
var $that;
function __clone()
{
$this->that = clone $this->that;
}
}
$a = new Foo;
$b = new Foo;
$a->that = $b;
$b->that = $a;
$c = clone $a;
echo 'What happened?';
var_dump($c);
This base class automatically clones attributes of type object or array values of type object recursively. Just inherit your own classes from this base class.
<?php
class clone_base
{
public function __clone()
{
$object_vars = get_object_vars($this);
foreach ($object_vars as $attr_name => $attr_value)
{
if (is_object($this->$attr_name))
{
$this->$attr_name = clone $this->$attr_name;
}
else if (is_array($this->$attr_name))
{
// Note: This copies only one dimension arrays
foreach ($this->$attr_name as &$attr_array_value)
{
if (is_object($attr_array_value))
{
$attr_array_value = clone $attr_array_value;
}
unset($attr_array_value);
}
}
}
}
}
?>
Example:
<?php
class foo extends clone_base
{
public $attr = "Hello";
public $b = null;
public $attr2 = array();
public function __construct()
{
$this->b = new bar("World");
$this->attr2[] = new bar("What's");
$this->attr2[] = new bar("up?");
}
}
class bar extends clone_base
{
public $attr;
public function __construct($attr_value)
{
$this->attr = $attr_value;
}
}
echo "<pre>";
$f1 = new foo();
$f2 = clone $f1;
$f2->attr = "James";
$f2->b->attr = "Bond";
$f2->attr2[0]->attr = "Agent";
$f2->attr2[1]->attr = "007";
echo "f1.attr = " . $f1->attr . "\n";
echo "f1.b.attr = " . $f1->b->attr . "\n";
echo "f1.attr2[0] = " . $f1->attr2[0]->attr . "\n";
echo "f1.attr2[1] = " . $f1->attr2[1]->attr . "\n";
echo "\n";
echo "f2.attr = " . $f2->attr . "\n";
echo "f2.b.attr = " . $f2->b->attr . "\n";
echo "f2.attr2[0] = " . $f2->attr2[0]->attr . "\n";
echo "f2.attr2[1] = " . $f2->attr2[1]->attr . "\n";
?>
It's possible to know how many clones have been created of a object. I'm think that is correct:
<?php
class Classe {
public static $howManyClones = 0;
public function __clone() {
++static::$howManyClones;
}
public static function howManyClones() {
return static::$howManyClones;
}
public function __destruct() {
--static::$howManyClones;
}
}
$a = new Classe;
$b = clone $a;
$c = clone $b;
$d = clone $c;
echo 'Clones:' . Classe::howManyClones() . PHP_EOL;
unset($d);
echo 'Clones:' . Classe::howManyClones() . PHP_EOL;
<?php
class Foo
{
private $bar = 1;
public function get()
{
$x = clone $this;
return $x->bar;
}
}
// will NOT throw exception.
// Foo::$bar property is visible internally even if called as external on the clone
print (new Foo)->get();
It's clearly depicted in the manual, about the mechanism of clone process:
- First, shallow copy: properties of references will keep references (refer to the same target/variable)
- Then, change content/property as requested (calling __clone method which is defined by user).
To illustrate this process, the following example codes seems better, comparing the the original version:
class SubObject
{
static $num_cons = 0;
static $num_clone = 0;
public $construct_value;
public $clone_value;
public function __construct() {
$this->construct_value = ++self::$num_cons;
}
public function __clone() {
$this->clone_value = ++self::$num_clone;
}
}
class MyCloneable
{
public $object1;
public $object2;
function __clone()
{
// 强制复制一份this->object, 否则仍然指向同一个对象
$this->object1 = clone $this->object1;
}
}
$obj = new MyCloneable();
$obj->object1 = new SubObject();
$obj->object2 = new SubObject();
$obj2 = clone $obj;
print("Original Object:\n");
print_r($obj);
echo '<br>';
print("Cloned Object:\n");
print_r($obj2);
==================
the output is as below
Original Object:
MyCloneable Object
(
[object1] => SubObject Object
(
[construct_value] => 1
[clone_value] =>
)
[object2] => SubObject Object
(
[construct_value] => 2
[clone_value] =>
)
)
<br>Cloned Object:
MyCloneable Object
(
[object1] => SubObject Object
(
[construct_value] => 1
[clone_value] => 1
)
[object2] => SubObject Object
(
[construct_value] => 2
[clone_value] =>
)
)