Related
In PHP 5, what is the difference between using self and $this?
When is each appropriate?
Short Answer
Use $this to refer to the current
object. Use self to refer to the
current class. In other words, use
$this->member for non-static members,
use self::$member for static members.
Full Answer
Here is an example of correct usage of $this and self for non-static and static member variables:
<?php
class X {
private $non_static_member = 1;
private static $static_member = 2;
function __construct() {
echo $this->non_static_member . ' '
. self::$static_member;
}
}
new X();
?>
Here is an example of incorrect usage of $this and self for non-static and static member variables:
<?php
class X {
private $non_static_member = 1;
private static $static_member = 2;
function __construct() {
echo self::$non_static_member . ' '
. $this->static_member;
}
}
new X();
?>
Here is an example of polymorphism with $this for member functions:
<?php
class X {
function foo() {
echo 'X::foo()';
}
function bar() {
$this->foo();
}
}
class Y extends X {
function foo() {
echo 'Y::foo()';
}
}
$x = new Y();
$x->bar();
?>
Here is an example of suppressing polymorphic behaviour by using self for member functions:
<?php
class X {
function foo() {
echo 'X::foo()';
}
function bar() {
self::foo();
}
}
class Y extends X {
function foo() {
echo 'Y::foo()';
}
}
$x = new Y();
$x->bar();
?>
The idea is that $this->foo() calls the foo() member function of whatever is the exact type of the current object. If the object is of type X, it thus calls X::foo(). If the object is of type Y, it calls Y::foo(). But with self::foo(), X::foo() is always called.
From http://www.phpbuilder.com/board/showthread.php?t=10354489:
By http://board.phpbuilder.com/member.php?145249-laserlight
The keyword self does NOT refer merely to the 'current class', at least not in a way that restricts you to static members. Within the context of a non-static member, self also provides a way of bypassing the vtable (see wiki on vtable) for the current object. Just as you can use parent::methodName() to call the parents version of a function, so you can call self::methodName() to call the current classes implementation of a method.
class Person {
private $name;
public function __construct($name) {
$this->name = $name;
}
public function getName() {
return $this->name;
}
public function getTitle() {
return $this->getName()." the person";
}
public function sayHello() {
echo "Hello, I'm ".$this->getTitle()."<br/>";
}
public function sayGoodbye() {
echo "Goodbye from ".self::getTitle()."<br/>";
}
}
class Geek extends Person {
public function __construct($name) {
parent::__construct($name);
}
public function getTitle() {
return $this->getName()." the geek";
}
}
$geekObj = new Geek("Ludwig");
$geekObj->sayHello();
$geekObj->sayGoodbye();
This will output:
Hello, I'm Ludwig the geek
Goodbye from Ludwig the person
sayHello() uses the $this pointer, so the vtable is invoked to call Geek::getTitle().
sayGoodbye() uses self::getTitle(), so the vtable is not used, and Person::getTitle() is called. In both cases, we are dealing with the method of an instantiated object, and have access to the $this pointer within the called functions.
Do not use self::. Use static::*
There is another aspect of self:: that is worth mentioning. Annoyingly, self:: refers to the scope at the point of definition, not at the point of execution. Consider this simple class with two methods:
class Person
{
public static function status()
{
self::getStatus();
}
protected static function getStatus()
{
echo "Person is alive";
}
}
If we call Person::status() we will see "Person is alive" . Now consider what happens when we make a class that inherits from this:
class Deceased extends Person
{
protected static function getStatus()
{
echo "Person is deceased";
}
}
Calling Deceased::status() we would expect to see "Person is deceased". However, we see "Person is alive" as the scope contains the original method definition when the call to self::getStatus() was defined.
PHP 5.3 has a solution. The static:: resolution operator implements "late static binding" which is a fancy way of saying that it's bound to the scope of the class called. Change the line in status() to static::getStatus() and the results are what you would expect. In older versions of PHP you will have to find a kludge to do this.
See PHP Documentation
So to answer the question not as asked...
$this-> refers to the current object (an instance of a class), whereas static:: refers to a class.
To really understand what we're talking about when we talk about self versus $this, we need to actually dig into what's going on at a conceptual and a practical level. I don't really feel any of the answers do this appropriately, so here's my attempt.
Let's start off by talking about what a class and an object is.
Classes And Objects, Conceptually
So, what is a class? A lot of people define it as a blueprint or a template for an object. In fact, you can read more About Classes In PHP Here. And to some extent that's what it really is. Let's look at a class:
class Person {
public $name = 'my name';
public function sayHello() {
echo "Hello";
}
}
As you can tell, there is a property on that class called $name and a method (function) called sayHello().
It's very important to note that the class is a static structure. Which means that the class Person, once defined, is always the same everywhere you look at it.
An object on the other hand is what's called an instance of a Class. What that means is that we take the "blueprint" of the class, and use it to make a dynamic copy. This copy is now specifically tied to the variable it's stored in. Therefore, any changes to an instance is local to that instance.
$bob = new Person;
$adam = new Person;
$bob->name = 'Bob';
echo $adam->name; // "my name"
We create new instances of a class using the new operator.
Therefore, we say that a Class is a global structure, and an Object is a local structure. Don't worry about that funny -> syntax, we're going to go into that in a little bit.
One other thing we should talk about, is that we can check if an instance is an instanceof a particular class: $bob instanceof Person which returns a boolean if the $bob instance was made using the Person class, or a child of Person.
Defining State
So let's dig a bit into what a class actually contains. There are 5 types of "things" that a class contains:
Properties - Think of these as variables that each instance will contain.
class Foo {
public $bar = 1;
}
Static Properties - Think of these as variables that are shared at the class level. Meaning that they are never copied by each instance.
class Foo {
public static $bar = 1;
}
Methods - These are functions which each instance will contain (and operate on instances).
class Foo {
public function bar() {}
}
Static Methods - These are functions which are shared across the entire class. They do not operate on instances, but instead on the static properties only.
class Foo {
public static function bar() {}
}
Constants - Class resolved constants. Not going any deeper here, but adding for completeness:
class Foo {
const BAR = 1;
}
So basically, we're storing information on the class and object container using "hints" about static which identify whether the information is shared (and hence static) or not (and hence dynamic).
State and Methods
Inside of a method, an object's instance is represented by the $this variable. The current state of that object is there, and mutating (changing) any property will result in a change to that instance (but not others).
If a method is called statically, the $this variable is not defined. This is because there's no instance associated with a static call.
The interesting thing here is how static calls are made. So let's talk about how we access the state:
Accessing State
So now that we have stored that state, we need to access it. This can get a bit tricky (or way more than a bit), so let's split this into two viewpoints: from outside of an instance/class (say from a normal function call, or from the global scope), and inside of an instance/class (from within a method on the object).
From Outside Of An Instance/Class
From the outside of an instance/class, our rules are quite simple and predictable. We have two operators, and each tells us immediately if we're dealing with an instance or a class static:
-> - object-operator - This is always used when we're accessing an instance.
$bob = new Person;
echo $bob->name;
It's important to note that calling Person->foo does not make sense (since Person is a class, not an instance). Therefore, that is a parse error.
:: - scope-resolution-operator - This is always used to access a Class static property or method.
echo Foo::bar()
Additionally, we can call a static method on an object in the same way:
echo $foo::bar()
It's extremely important to note that when we do this from outside, the object's instance is hidden from the bar() method. Meaning that it's the exact same as running:
$class = get_class($foo);
$class::bar();
Therefore, $this is not defined in the static call.
From Inside Of An Instance/Class
Things change a bit here. The same operators are used, but their meaning becomes significantly blurred.
The object-operator -> is still used to make calls to the object's instance state.
class Foo {
public $a = 1;
public function bar() {
return $this->a;
}
}
Calling the bar() method on $foo (an instance of Foo) using the object-operator: $foo->bar() will result in the instance's version of $a.
So that's how we expect.
The meaning of the :: operator though changes. It depends on the context of the call to the current function:
Within a static context
Within a static context, any calls made using :: will also be static. Let's look at an example:
class Foo {
public function bar() {
return Foo::baz();
}
public function baz() {
return isset($this);
}
}
Calling Foo::bar() will call the baz() method statically, and hence $this will not be populated. It's worth noting that in recent versions of PHP (5.3+) this will trigger an E_STRICT error, because we're calling non-static methods statically.
Within an instance context
Within an instance context on the other hand, calls made using :: depend on the receiver of the call (the method we're calling). If the method is defined as static, then it will use a static call. If it's not, it will forward the instance information.
So, looking at the above code, calling $foo->bar() will return true, since the "static" call happens inside of an instance context.
Make sense? Didn't think so. It's confusing.
Short-Cut Keywords
Because tying everything together using class names is rather dirty, PHP provides 3 basic "shortcut" keywords to make scope resolving easier.
self - This refers to the current class name. So self::baz() is the same as Foo::baz() within the Foo class (any method on it).
parent - This refers to the parent of the current class.
static - This refers to the called class. Thanks to inheritance, child classes can override methods and static properties. So calling them using static instead of a class name allows us to resolve where the call came from, rather than the current level.
Examples
The easiest way to understand this is to start looking at some examples. Let's pick a class:
class Person {
public static $number = 0;
public $id = 0;
public function __construct() {
self::$number++;
$this->id = self::$number;
}
public $name = "";
public function getName() {
return $this->name;
}
public function getId() {
return $this->id;
}
}
class Child extends Person {
public $age = 0;
public function __construct($age) {
$this->age = $age;
parent::__construct();
}
public function getName() {
return 'child: ' . parent::getName();
}
}
Now, we're also looking at inheritance here. Ignore for a moment that this is a bad object model, but let's look at what happens when we play with this:
$bob = new Person;
$bob->name = "Bob";
$adam = new Person;
$adam->name = "Adam";
$billy = new Child;
$billy->name = "Billy";
var_dump($bob->getId()); // 1
var_dump($adam->getId()); // 2
var_dump($billy->getId()); // 3
So the ID counter is shared across both instances and the children (because we're using self to access it. If we used static, we could override it in a child class).
var_dump($bob->getName()); // Bob
var_dump($adam->getName()); // Adam
var_dump($billy->getName()); // child: Billy
Note that we're executing the Person::getName() instance method every time. But we're using the parent::getName() to do it in one of the cases (the child case). This is what makes this approach powerful.
Word Of Caution #1
Note that the calling context is what determines if an instance is used. Therefore:
class Foo {
public function isFoo() {
return $this instanceof Foo;
}
}
Is not always true.
class Bar {
public function doSomething() {
return Foo::isFoo();
}
}
$b = new Bar;
var_dump($b->doSomething()); // bool(false)
Now it is really weird here. We're calling a different class, but the $this that gets passed to the Foo::isFoo() method is the instance of $bar.
This can cause all sorts of bugs and conceptual WTF-ery. So I'd highly suggest avoiding the :: operator from within instance methods on anything except those three virtual "short-cut" keywords (static, self, and parent).
Word Of Caution #2
Note that static methods and properties are shared by everyone. That makes them basically global variables. With all the same problems that come with globals. So I would be really hesitant to store information in static methods/properties unless you're comfortable with it being truly global.
Word Of Caution #3
In general you'll want to use what's known as Late-Static-Binding by using static instead of self. But note that they are not the same thing, so saying "always use static instead of self is really short-sighted. Instead, stop and think about the call you want to make and think if you want child classes to be able to override that static resolved call.
TL/DR
Too bad, go back and read it. It may be too long, but it's that long because this is a complex topic
TL/DR #2
Ok, fine. In short, self is used to reference the current class name within a class, where as $this refers to the current object instance. Note that self is a copy/paste short-cut. You can safely replace it with your class name, and it'll work fine. But $this is a dynamic variable that can't be determined ahead of time (and may not even be your class).
TL/DR #3
If the object-operator is used (->), then you always know you're dealing with an instance. If the scope-resolution-operator is used (::), you need more information about the context (are we in an object-context already? Are we outside of an object? etc).
self (not $self) refers to the type of class, whereas $this refers to the current instance of the class. self is for use in static member functions to allow you to access static member variables. $this is used in non-static member functions, and is a reference to the instance of the class on which the member function was called.
Because this is an object, you use it like: $this->member
Because self is not an object, it's basically a type that automatically refers to the current class. You use it like: self::member
$this-> is used to refer to a specific instance of a class's variables (member variables) or methods.
Example:
$derek = new Person();
$derek is now a specific instance of Person.
Every Person has a first_name and a last_name, but $derek has a specific first_name and last_name (Derek Martin). Inside the $derek instance, we can refer to those as $this->first_name and $this->last_name
ClassName:: is used to refer to that type of class, and its static variables, static methods. If it helps, you can mentally replace the word "static" with "shared". Because they are shared, they cannot refer to $this, which refers to a specific instance (not shared). Static Variables (i.e. static $db_connection) can be shared among all instances of a type of object. For example, all database objects share a single connection (static $connection).
Static Variables Example:
Pretend we have a database class with a single member variable: static $num_connections;
Now, put this in the constructor:
function __construct()
{
if(!isset $num_connections || $num_connections==null)
{
$num_connections=0;
}
else
{
$num_connections++;
}
}
Just as objects have constructors, they also have destructors, which are executed when the object dies or is unset:
function __destruct()
{
$num_connections--;
}
Every time we create a new instance, it will increase our connection counter by one. Every time we destroy or stop using an instance, it will decrease the connection counter by one. In this way, we can monitor the number of instances of the database object we have in use with:
echo DB::num_connections;
Because $num_connections is static (shared), it will reflect the total number of active database objects. You may have seen this technique used to share database connections among all instances of a database class. This is done because creating the database connection takes a long time, so it's best to create just one, and share it (this is called a Singleton Pattern).
Static Methods (i.e. public static View::format_phone_number($digits)) can be used WITHOUT first instantiating one of those objects (i.e. They do not internally refer to $this).
Static Method Example:
public static function prettyName($first_name, $last_name)
{
echo ucfirst($first_name).' '.ucfirst($last_name);
}
echo Person::prettyName($derek->first_name, $derek->last_name);
As you can see, public static function prettyName knows nothing about the object. It's just working with the parameters you pass in, like a normal function that's not part of an object. Why bother, then, if we could just have it not as part of the object?
First, attaching functions to objects helps you keep things organized, so you know where to find them.
Second, it prevents naming conflicts. In a big project, you're likely to have two developers create getName() functions. If one creates a ClassName1::getName(), and the other creates ClassName2::getName(), it's no problem at all. No conflict. Yay static methods!
SELF::
If you are coding outside the object that has the static method you want to refer to, you must call it using the object's name View::format_phone_number($phone_number);
If you are coding inside the object that has the static method you want to refer to, you can either use the object's name View::format_phone_number($pn), OR you can use the self::format_phone_number($pn) shortcut
The same goes for static variables:
Example: View::templates_path versus self::templates_path
Inside the DB class, if we were referring to a static method of some other object, we would use the object's name:
Example: Session::getUsersOnline();
But if the DB class wanted to refer to its own static variable, it would just say self:
Example: self::connection;
From this blog post:
self refers to the current class
self can be used to call static functions and reference static member variables
self can be used inside static functions
self can also turn off polymorphic behavior by bypassing the vtable
$this refers to the current object
$this can be used to call static functions
$this should not be used to call static member variables. Use self instead.
$this can not be used inside static functions
In PHP, you use the self keyword to access static properties and methods.
The problem is that you can replace $this->method() with self::method()anywhere, regardless if method() is declared static or not. So which one should you use?
Consider this code:
class ParentClass {
function test() {
self::who(); // will output 'parent'
$this->who(); // will output 'child'
}
function who() {
echo 'parent';
}
}
class ChildClass extends ParentClass {
function who() {
echo 'child';
}
}
$obj = new ChildClass();
$obj->test();
In this example, self::who() will always output ‘parent’, while $this->who() will depend on what class the object has.
Now we can see that self refers to the class in which it is called, while $this refers to the class of the current object.
So, you should use self only when $this is not available, or when you don’t want to allow descendant classes to overwrite the current method.
Inside a class definition, $this refers to the current object, while self refers to the current class.
It is necessary to refer to a class element using self, and refer to an object element using $this.
self::STAT // refer to a constant value
self::$stat // static variable
$this->stat // refer to an object variable
self refers to the current class (in which it is called),
$this refers to the current object.
You can use static instead of self.
See the example:
class ParentClass {
function test() {
self::which(); // Outputs 'parent'
$this->which(); // Outputs 'child'
}
function which() {
echo 'parent';
}
}
class ChildClass extends ParentClass {
function which() {
echo 'child';
}
}
$obj = new ChildClass();
$obj->test();
Output:
parent
child
Here is an example of correct usage of $this and self for non-static
and static member variables:
<?php
class X {
private $non_static_member = 1;
private static $static_member = 2;
function __construct() {
echo $this->non_static_member . ' '
. self::$static_member;
}
}
new X();
?>
The object pointer $this to refers to the current object.
The class value static refers to the current object.
The class value self refers to the exact class it was defined in.
The class value parent refers to the parent of the exact class it was defined in.
See the following example which shows overloading.
<?php
class A {
public static function newStaticClass()
{
return new static;
}
public static function newSelfClass()
{
return new self;
}
public function newThisClass()
{
return new $this;
}
}
class B extends A
{
public function newParentClass()
{
return new parent;
}
}
$b = new B;
var_dump($b::newStaticClass()); // B
var_dump($b::newSelfClass()); // A because self belongs to "A"
var_dump($b->newThisClass()); // B
var_dump($b->newParentClass()); // A
class C extends B
{
public static function newSelfClass()
{
return new self;
}
}
$c = new C;
var_dump($c::newStaticClass()); // C
var_dump($c::newSelfClass()); // C because self now points to "C" class
var_dump($c->newThisClass()); // C
var_dump($b->newParentClass()); // A because parent was defined *way back* in class "B"
Most of the time you want to refer to the current class which is why you use static or $this. However, there are times when you need self because you want the original class regardless of what extends it. (Very, Very seldom)
According to Static Keyword, there isn't any $self. There is only $this, for referring to the current instance of the class (the object), and self, which can be used to refer to static members of a class. The difference between an object instance and a class comes into play here.
I believe the question was not whether you can call the static member of the class by calling ClassName::staticMember. The question was what's the difference between using self::classmember and $this->classmember.
For example, both of the following examples work without any errors, whether you use self:: or $this->
class Person{
private $name;
private $address;
public function __construct($new_name,$new_address){
$this->name = $new_name;
$this->address = $new_address;
}
}
class Person{
private $name;
private $address;
public function __construct($new_name,$new_address){
self::$name = $new_name;
self::$address = $new_address;
}
}
Here is a small benchmark (7.2.24 on repl.it):
Speed (in seconds) Percentage
$this-> 0.91760206222534 100
self:: 1.0047659873962 109.49909865716
static:: 0.98066782951355 106.87288857386
Results for 4 000 000 runs. Conclusion: it doesn't matter. And here is the code I used:
<?php
class Foo
{
public function calling_this() { $this->called(); }
public function calling_self() { self::called(); }
public function calling_static() { static::called(); }
public static function called() {}
}
$foo = new Foo();
$n = 4000000;
$times = [];
// warmup
for ($i = 0; $i < $n; $i++) { $foo->calling_this(); }
for ($i = 0; $i < $n; $i++) { $foo->calling_self(); }
for ($i = 0; $i < $n; $i++) { $foo->calling_static(); }
$start = microtime(true);
for ($i = 0; $i < $n; $i++) { $foo->calling_this(); }
$times["this"] = microtime(true)-$start;
$start = microtime(true);
for ($i = 0; $i < $n; $i++) { $foo->calling_self(); }
$times["self"] = microtime(true)-$start;
$start = microtime(true);
for ($i = 0; $i < $n; $i++) { $foo->calling_static(); }
$times["static"] = microtime(true)-$start;
$min = min($times);
echo $times["this"] . "\t" . ($times["this"] / $min)*100 . "\n";
echo $times["self"] . "\t" . ($times["self"] / $min)*100 . "\n";
echo $times["static"] . "\t" . ($times["static"] / $min)*100 . "\n";
When self is used with the :: operator it refers to the current class, which can be done both in static and non-static contexts. $this refers to the object itself. In addition, it is perfectly legal to use $this to call static methods (but not to refer to fields).
I ran into the same question and the simple answer was:
$this requires an instance of the class
self:: doesn't
Whenever you are using static methods or static attributes and want to call them without having an object of the class instantiated, you need to use self: to call them, because $this always requires an object to be created.
Additionally since $this:: has not been discussed yet.
For informational purposes only, as of PHP 5.3 when dealing with instantiated objects to get the current scope value, as opposed to using static::, one can alternatively use $this:: like so.
http://ideone.com/7etRHy
class Foo
{
const NAME = 'Foo';
//Always Foo::NAME (Foo) due to self
protected static $staticName = self::NAME;
public function __construct()
{
echo $this::NAME;
}
public function getStaticName()
{
echo $this::$staticName;
}
}
class Bar extends Foo
{
const NAME = 'FooBar';
/**
* override getStaticName to output Bar::NAME
*/
public function getStaticName()
{
$this::$staticName = $this::NAME;
parent::getStaticName();
}
}
$foo = new Foo; //outputs Foo
$bar = new Bar; //outputs FooBar
$foo->getStaticName(); //outputs Foo
$bar->getStaticName(); //outputs FooBar
$foo->getStaticName(); //outputs FooBar
Using the code above is not common or recommended practice, but is simply to illustrate its usage, and is to act as more of a "Did you know?" in reference to the original poster's question.
It also represents the usage of $object::CONSTANT for example echo $foo::NAME; as opposed to $this::NAME;
$this refers to the current class object, and self refers to the current class (Not object). The class is the blueprint of the object. So you define a class, but you construct objects.
So in other words, use self for static and this for none-static members or methods.
Also in a child/parent scenario, self / parent is mostly used to identify child and parent class members and methods.
Use self if you want to call a method of a class without creating an object/instance of that class, thus saving RAM (sometimes use self for that purpose). In other words, it is actually calling a method statically. Use this for object perspective.
self:: A keyword used for the current class and basically it is used to access static members, methods, and constants. But in case of $this, you cannot call the static member, method, and functions.
You can use the self:: keyword in another class and access the static members, method, and constants. When it will be extended from the parent class and the same in case of the $this keyword. You can access the non-static members, method and function in another class when it will be extended from the parent class.
The code given below is an example of the self:: and $this keywords. Just copy and paste the code in your code file and see the output.
class cars{
var $doors = 4;
static $car_wheel = 4;
public function car_features(){
echo $this->doors . " Doors <br>";
echo self::$car_wheel . " Wheels <br>";
}
}
class spec extends cars{
function car_spec(){
print(self::$car_wheel . " Doors <br>");
print($this->doors . " Wheels <br>");
}
}
/********Parent class output*********/
$car = new cars;
print_r($car->car_features());
echo "------------------------<br>";
/********Extend class from another class output**********/
$car_spec_show = new spec;
print($car_spec_show->car_spec());
Case 1: Use self can be used for class constants
class classA {
const FIXED_NUMBER = 4;
self::POUNDS_TO_KILOGRAMS
}
If you want to call it outside of the class, use classA::POUNDS_TO_KILOGRAMS to access the constants
Case 2: For static properties
class classC {
public function __construct() {
self::$_counter++; $this->num = self::$_counter;
}
}
According to php.net there are three special keywords in this context: self, parent and static. They are used to access properties or methods from inside the class definition.
$this, on the other hand, is used to call an instance and methods of any class as long as that class is accessible.
Looking for a clean way to determine the class (in this case, either parent or child class) of the method that calls a method in the parent class.
I thought late static binding could handle this, but seems like that only really works for calling a static method directly, and not from within an instantiated object's method.
Consider the following:
abstract class ParentClass {
public function parentMethod() {
self::_log("parent.non.static");
}
public static function parentStatic() {
self::_log("parent.static");
}
public static function getClassName() {
return __CLASS__;
}
protected static function _log($key) {
$prefix = 'graphite.key.prefix';
$class = static::getClassName(); // gets the object's class, not calling class
$g_key = "{$prefix}.{$class}.{$key}";
echo "{$g_key} \n";
// Graphite::increment($g_key);
}
}
class ChildClass extends ParentClass {
public function childMethod() {
self::_log("child.non.static");
}
public static function childStatic() {
self::_log("child.static");
}
public static function getClassName() {
return __CLASS__;
}
}
$obj = new ChildClass;
$obj->childMethod(); // graphite.key.prefix.ChildClass.child.non.static
$obj->parentMethod(); // graphite.key.prefix.ChildClass.parent.non.static
ParentClass::parentStatic(); // graphite.key.prefix.ParentClass.parent.static
ChildClass::childStatic(); // graphite.key.prefix.ChildClass.child.static
Looking for a clean way to get the class that calls the _log() method without having to pass it in as a parameter. Doesn't have to be static at all, but I was playing around with the late static binding, because I thought that would work, but it just gets the name of the instantiated object, not the child/parent class of the method that calls the _log() method :-/
Edit:
Just to be clear, I'm after getting the class name of the method that called _log() from within the instantiated object (like parentMethod() and childMethod()) Don't care if _log() is static or not. If that makes it easier, fine. But the static ParentClass::parentStatic() and ChildClass::childStatic() were just to show late static bindings and what I figured might work, but not from calling within an instantiated object
http://php.net/manual/en/function.get-called-class.php
class One {
public static function test() {
echo get_called_class() . PHP_EOL;
}
}
class Two extends One {}
One::test();
Two::test();
Output:
One
Two
Also, according to the top comment in the docs static::class also works as of PHP 5.5.
get_class will get the class name of a class instance. This can also be called on $this within a class. If you have a class that extends/implements another, $this will refer the the instantiated class, meaning the child class.
Another option is to use debug_backtrace to get the stack of functions that lead up to where you currently are. You can parse the returned array to get whatever you need including line numbers, classes, functions, methods, whatever.
I am trying to create a method inside class, that will instantiate class that is currently in. But I would also need that from this method to work correctly in all extended classes. As I have learned from this thread, it's not good to use self keyword for this task. So obvious choice would be using static keyword.
But, I've come across different method that also works.
Example:
class SimpleClass
{
private $arg;
public function __construct( $arg ){
$this->arg = $arg;
}
public function getArg(){return $this->arg;}
public function setArg($arg){$this->arg = $arg;}
public function staticInstance()
{
return new static( $this->arg );
}
public function thisInstance()
{
return new $this( $this->arg );
}
public function selfInstance()
{
return new self( $this->arg );
}
}
class ExtendedClass extends SimpleClass
{
}
$c1 = 'SimpleClass';
$c2 = 'ExtendedClass';
$inst1 = new $c1('simple');
$inst2 = new $c2('extended');
$static_instance_1 = $inst1->staticInstance();
$this_instance_1 = $inst1->thisInstance();
$self_instance_1 = $inst1->selfInstance();
$static_instance_2 = $inst2->staticInstance();
$this_instance_2 = $inst2->thisInstance();
$self_instance_2 = $inst2->selfInstance();
echo "SimpleClass Instances\n";
echo get_class($static_instance_1);
echo get_class($this_instance_1);
echo get_class($self_instance_1);
echo "ExtendedClass Instances\n";
echo get_class($static_instance_2);
echo get_class($this_instance_2);
echo get_class($self_instance_2);
As I can see from this example, both staticInstance and thisInstance produce "correct" results. Or do they?
Can someone explain difference between these two methods and which one is "correct" one.
php.net says:
As of PHP 5.3.0, PHP implements a feature called late static bindings which can be used to reference the called class in a context of static inheritance.
More precisely, late static bindings work by storing the class named in the last "non-forwarding call". In case of static method calls, this is the class explicitly named (usually the one on the left of the :: operator); in case of non static method calls, it is the class of the object. A "forwarding call" is a static one that is introduced by self::, parent::, static::, or, if going up in the class hierarchy, forward_static_call(). The function get_called_class() can be used to retrieve a string with the name of the called class and static:: introduces its scope.
This feature was named "late static bindings" with an internal perspective in mind. "Late binding" comes from the fact that static:: will not be resolved using the class where the method is defined but it will rather be computed using runtime information. It was also called a "static binding" as it can be used for (but is not limited to) static method calls.
Limitations of self:
Static references to the current class like self:: or CLASS are resolved using the class in which the function belongs, as in where it was defined:
<?php
class A {
public static function who() {
echo __CLASS__;
}
public static function test() {
self::who();
}
}
class B extends A {
public static function who() {
echo __CLASS__;
}
}
B::test();
?>
The above example will output: A
Late Static Bindings' usage:
Late static bindings tries to solve that limitation by introducing a keyword that references the class that was initially called at runtime. Basically, a keyword that would allow you to reference B from test() in the previous example. It was decided not to introduce a new keyword but rather use static that was already reserved.
<?php
class A {
public static function who() {
echo __CLASS__;
}
public static function test() {
static::who(); // Here comes Late Static Bindings
}
}
class B extends A {
public static function who() {
echo __CLASS__;
}
}
B::test();
?>
The above example will output: B
$this keyword refers to current object and you cannot use it in static methods. When you say return $this it means that some method returns the same object on which it was invoked.
So the correct way would be using static keyword because if you say return new static() it refers to the class the method is currently in.
how do i call a static method from another method inside the same class?
$this->staticMethod();
or
$this::staticMethod();
self::staticMethod();
More information about the Static keyword.
Let's assume this is your class:
class Test
{
private $baz = 1;
public function foo() { ... }
public function bar()
{
printf("baz = %d\n", $this->baz);
}
public static function staticMethod() { echo "static method\n"; }
}
From within the foo() method, let's look at the different options:
$this->staticMethod();
So that calls staticMethod() as an instance method, right? It does not. This is because the method is declared as public static the interpreter will call it as a static method, so it will work as expected. It could be argued that doing so makes it less obvious from the code that a static method call is taking place.
$this::staticMethod();
Since PHP 5.3 you can use $var::method() to mean <class-of-$var>::; this is quite convenient, though the above use-case is still quite unconventional. So that brings us to the most common way of calling a static method:
self::staticMethod();
Now, before you start thinking that the :: is the static call operator, let me give you another example:
self::bar();
This will print baz = 1, which means that $this->bar() and self::bar() do exactly the same thing; that's because :: is just a scope resolution operator. It's there to make parent::, self:: and static:: work and give you access to static variables; how a method is called depends on its signature and how the caller was called.
To see all of this in action, see this 3v4l.org output.
This is a very late response, but adds some detail on the previous answers
When it comes to calling static methods in PHP from another static method on the same class, it is important to differentiate between self and the class name.
Take for instance this code:
class static_test_class {
public static function test() {
echo "Original class\n";
}
public static function run($use_self) {
if($use_self) {
self::test();
} else {
$class = get_called_class();
$class::test();
}
}
}
class extended_static_test_class extends static_test_class {
public static function test() {
echo "Extended class\n";
}
}
extended_static_test_class::run(true);
extended_static_test_class::run(false);
The output of this code is:
Original class
Extended class
This is because self refers to the class the code is in, rather than the class of the code it is being called from.
If you want to use a method defined on a class which inherits the original class, you need to use something like:
$class = get_called_class();
$class::function_name();
In the later PHP version self::staticMethod(); also will not work. It will throw the strict standard error.
In this case, we can create object of same class and call by object
here is the example
class Foo {
public function fun1() {
echo 'non-static';
}
public static function fun2() {
echo (new self)->fun1();
}
}
call a static method inside a class
className::staticFunctionName
example
ClassName::staticMethod();
In PHP 5, what is the difference between using self and $this?
When is each appropriate?
Short Answer
Use $this to refer to the current
object. Use self to refer to the
current class. In other words, use
$this->member for non-static members,
use self::$member for static members.
Full Answer
Here is an example of correct usage of $this and self for non-static and static member variables:
<?php
class X {
private $non_static_member = 1;
private static $static_member = 2;
function __construct() {
echo $this->non_static_member . ' '
. self::$static_member;
}
}
new X();
?>
Here is an example of incorrect usage of $this and self for non-static and static member variables:
<?php
class X {
private $non_static_member = 1;
private static $static_member = 2;
function __construct() {
echo self::$non_static_member . ' '
. $this->static_member;
}
}
new X();
?>
Here is an example of polymorphism with $this for member functions:
<?php
class X {
function foo() {
echo 'X::foo()';
}
function bar() {
$this->foo();
}
}
class Y extends X {
function foo() {
echo 'Y::foo()';
}
}
$x = new Y();
$x->bar();
?>
Here is an example of suppressing polymorphic behaviour by using self for member functions:
<?php
class X {
function foo() {
echo 'X::foo()';
}
function bar() {
self::foo();
}
}
class Y extends X {
function foo() {
echo 'Y::foo()';
}
}
$x = new Y();
$x->bar();
?>
The idea is that $this->foo() calls the foo() member function of whatever is the exact type of the current object. If the object is of type X, it thus calls X::foo(). If the object is of type Y, it calls Y::foo(). But with self::foo(), X::foo() is always called.
From http://www.phpbuilder.com/board/showthread.php?t=10354489:
By http://board.phpbuilder.com/member.php?145249-laserlight
The keyword self does NOT refer merely to the 'current class', at least not in a way that restricts you to static members. Within the context of a non-static member, self also provides a way of bypassing the vtable (see wiki on vtable) for the current object. Just as you can use parent::methodName() to call the parents version of a function, so you can call self::methodName() to call the current classes implementation of a method.
class Person {
private $name;
public function __construct($name) {
$this->name = $name;
}
public function getName() {
return $this->name;
}
public function getTitle() {
return $this->getName()." the person";
}
public function sayHello() {
echo "Hello, I'm ".$this->getTitle()."<br/>";
}
public function sayGoodbye() {
echo "Goodbye from ".self::getTitle()."<br/>";
}
}
class Geek extends Person {
public function __construct($name) {
parent::__construct($name);
}
public function getTitle() {
return $this->getName()." the geek";
}
}
$geekObj = new Geek("Ludwig");
$geekObj->sayHello();
$geekObj->sayGoodbye();
This will output:
Hello, I'm Ludwig the geek
Goodbye from Ludwig the person
sayHello() uses the $this pointer, so the vtable is invoked to call Geek::getTitle().
sayGoodbye() uses self::getTitle(), so the vtable is not used, and Person::getTitle() is called. In both cases, we are dealing with the method of an instantiated object, and have access to the $this pointer within the called functions.
Do not use self::. Use static::*
There is another aspect of self:: that is worth mentioning. Annoyingly, self:: refers to the scope at the point of definition, not at the point of execution. Consider this simple class with two methods:
class Person
{
public static function status()
{
self::getStatus();
}
protected static function getStatus()
{
echo "Person is alive";
}
}
If we call Person::status() we will see "Person is alive" . Now consider what happens when we make a class that inherits from this:
class Deceased extends Person
{
protected static function getStatus()
{
echo "Person is deceased";
}
}
Calling Deceased::status() we would expect to see "Person is deceased". However, we see "Person is alive" as the scope contains the original method definition when the call to self::getStatus() was defined.
PHP 5.3 has a solution. The static:: resolution operator implements "late static binding" which is a fancy way of saying that it's bound to the scope of the class called. Change the line in status() to static::getStatus() and the results are what you would expect. In older versions of PHP you will have to find a kludge to do this.
See PHP Documentation
So to answer the question not as asked...
$this-> refers to the current object (an instance of a class), whereas static:: refers to a class.
To really understand what we're talking about when we talk about self versus $this, we need to actually dig into what's going on at a conceptual and a practical level. I don't really feel any of the answers do this appropriately, so here's my attempt.
Let's start off by talking about what a class and an object is.
Classes And Objects, Conceptually
So, what is a class? A lot of people define it as a blueprint or a template for an object. In fact, you can read more About Classes In PHP Here. And to some extent that's what it really is. Let's look at a class:
class Person {
public $name = 'my name';
public function sayHello() {
echo "Hello";
}
}
As you can tell, there is a property on that class called $name and a method (function) called sayHello().
It's very important to note that the class is a static structure. Which means that the class Person, once defined, is always the same everywhere you look at it.
An object on the other hand is what's called an instance of a Class. What that means is that we take the "blueprint" of the class, and use it to make a dynamic copy. This copy is now specifically tied to the variable it's stored in. Therefore, any changes to an instance is local to that instance.
$bob = new Person;
$adam = new Person;
$bob->name = 'Bob';
echo $adam->name; // "my name"
We create new instances of a class using the new operator.
Therefore, we say that a Class is a global structure, and an Object is a local structure. Don't worry about that funny -> syntax, we're going to go into that in a little bit.
One other thing we should talk about, is that we can check if an instance is an instanceof a particular class: $bob instanceof Person which returns a boolean if the $bob instance was made using the Person class, or a child of Person.
Defining State
So let's dig a bit into what a class actually contains. There are 5 types of "things" that a class contains:
Properties - Think of these as variables that each instance will contain.
class Foo {
public $bar = 1;
}
Static Properties - Think of these as variables that are shared at the class level. Meaning that they are never copied by each instance.
class Foo {
public static $bar = 1;
}
Methods - These are functions which each instance will contain (and operate on instances).
class Foo {
public function bar() {}
}
Static Methods - These are functions which are shared across the entire class. They do not operate on instances, but instead on the static properties only.
class Foo {
public static function bar() {}
}
Constants - Class resolved constants. Not going any deeper here, but adding for completeness:
class Foo {
const BAR = 1;
}
So basically, we're storing information on the class and object container using "hints" about static which identify whether the information is shared (and hence static) or not (and hence dynamic).
State and Methods
Inside of a method, an object's instance is represented by the $this variable. The current state of that object is there, and mutating (changing) any property will result in a change to that instance (but not others).
If a method is called statically, the $this variable is not defined. This is because there's no instance associated with a static call.
The interesting thing here is how static calls are made. So let's talk about how we access the state:
Accessing State
So now that we have stored that state, we need to access it. This can get a bit tricky (or way more than a bit), so let's split this into two viewpoints: from outside of an instance/class (say from a normal function call, or from the global scope), and inside of an instance/class (from within a method on the object).
From Outside Of An Instance/Class
From the outside of an instance/class, our rules are quite simple and predictable. We have two operators, and each tells us immediately if we're dealing with an instance or a class static:
-> - object-operator - This is always used when we're accessing an instance.
$bob = new Person;
echo $bob->name;
It's important to note that calling Person->foo does not make sense (since Person is a class, not an instance). Therefore, that is a parse error.
:: - scope-resolution-operator - This is always used to access a Class static property or method.
echo Foo::bar()
Additionally, we can call a static method on an object in the same way:
echo $foo::bar()
It's extremely important to note that when we do this from outside, the object's instance is hidden from the bar() method. Meaning that it's the exact same as running:
$class = get_class($foo);
$class::bar();
Therefore, $this is not defined in the static call.
From Inside Of An Instance/Class
Things change a bit here. The same operators are used, but their meaning becomes significantly blurred.
The object-operator -> is still used to make calls to the object's instance state.
class Foo {
public $a = 1;
public function bar() {
return $this->a;
}
}
Calling the bar() method on $foo (an instance of Foo) using the object-operator: $foo->bar() will result in the instance's version of $a.
So that's how we expect.
The meaning of the :: operator though changes. It depends on the context of the call to the current function:
Within a static context
Within a static context, any calls made using :: will also be static. Let's look at an example:
class Foo {
public function bar() {
return Foo::baz();
}
public function baz() {
return isset($this);
}
}
Calling Foo::bar() will call the baz() method statically, and hence $this will not be populated. It's worth noting that in recent versions of PHP (5.3+) this will trigger an E_STRICT error, because we're calling non-static methods statically.
Within an instance context
Within an instance context on the other hand, calls made using :: depend on the receiver of the call (the method we're calling). If the method is defined as static, then it will use a static call. If it's not, it will forward the instance information.
So, looking at the above code, calling $foo->bar() will return true, since the "static" call happens inside of an instance context.
Make sense? Didn't think so. It's confusing.
Short-Cut Keywords
Because tying everything together using class names is rather dirty, PHP provides 3 basic "shortcut" keywords to make scope resolving easier.
self - This refers to the current class name. So self::baz() is the same as Foo::baz() within the Foo class (any method on it).
parent - This refers to the parent of the current class.
static - This refers to the called class. Thanks to inheritance, child classes can override methods and static properties. So calling them using static instead of a class name allows us to resolve where the call came from, rather than the current level.
Examples
The easiest way to understand this is to start looking at some examples. Let's pick a class:
class Person {
public static $number = 0;
public $id = 0;
public function __construct() {
self::$number++;
$this->id = self::$number;
}
public $name = "";
public function getName() {
return $this->name;
}
public function getId() {
return $this->id;
}
}
class Child extends Person {
public $age = 0;
public function __construct($age) {
$this->age = $age;
parent::__construct();
}
public function getName() {
return 'child: ' . parent::getName();
}
}
Now, we're also looking at inheritance here. Ignore for a moment that this is a bad object model, but let's look at what happens when we play with this:
$bob = new Person;
$bob->name = "Bob";
$adam = new Person;
$adam->name = "Adam";
$billy = new Child;
$billy->name = "Billy";
var_dump($bob->getId()); // 1
var_dump($adam->getId()); // 2
var_dump($billy->getId()); // 3
So the ID counter is shared across both instances and the children (because we're using self to access it. If we used static, we could override it in a child class).
var_dump($bob->getName()); // Bob
var_dump($adam->getName()); // Adam
var_dump($billy->getName()); // child: Billy
Note that we're executing the Person::getName() instance method every time. But we're using the parent::getName() to do it in one of the cases (the child case). This is what makes this approach powerful.
Word Of Caution #1
Note that the calling context is what determines if an instance is used. Therefore:
class Foo {
public function isFoo() {
return $this instanceof Foo;
}
}
Is not always true.
class Bar {
public function doSomething() {
return Foo::isFoo();
}
}
$b = new Bar;
var_dump($b->doSomething()); // bool(false)
Now it is really weird here. We're calling a different class, but the $this that gets passed to the Foo::isFoo() method is the instance of $bar.
This can cause all sorts of bugs and conceptual WTF-ery. So I'd highly suggest avoiding the :: operator from within instance methods on anything except those three virtual "short-cut" keywords (static, self, and parent).
Word Of Caution #2
Note that static methods and properties are shared by everyone. That makes them basically global variables. With all the same problems that come with globals. So I would be really hesitant to store information in static methods/properties unless you're comfortable with it being truly global.
Word Of Caution #3
In general you'll want to use what's known as Late-Static-Binding by using static instead of self. But note that they are not the same thing, so saying "always use static instead of self is really short-sighted. Instead, stop and think about the call you want to make and think if you want child classes to be able to override that static resolved call.
TL/DR
Too bad, go back and read it. It may be too long, but it's that long because this is a complex topic
TL/DR #2
Ok, fine. In short, self is used to reference the current class name within a class, where as $this refers to the current object instance. Note that self is a copy/paste short-cut. You can safely replace it with your class name, and it'll work fine. But $this is a dynamic variable that can't be determined ahead of time (and may not even be your class).
TL/DR #3
If the object-operator is used (->), then you always know you're dealing with an instance. If the scope-resolution-operator is used (::), you need more information about the context (are we in an object-context already? Are we outside of an object? etc).
self (not $self) refers to the type of class, whereas $this refers to the current instance of the class. self is for use in static member functions to allow you to access static member variables. $this is used in non-static member functions, and is a reference to the instance of the class on which the member function was called.
Because this is an object, you use it like: $this->member
Because self is not an object, it's basically a type that automatically refers to the current class. You use it like: self::member
$this-> is used to refer to a specific instance of a class's variables (member variables) or methods.
Example:
$derek = new Person();
$derek is now a specific instance of Person.
Every Person has a first_name and a last_name, but $derek has a specific first_name and last_name (Derek Martin). Inside the $derek instance, we can refer to those as $this->first_name and $this->last_name
ClassName:: is used to refer to that type of class, and its static variables, static methods. If it helps, you can mentally replace the word "static" with "shared". Because they are shared, they cannot refer to $this, which refers to a specific instance (not shared). Static Variables (i.e. static $db_connection) can be shared among all instances of a type of object. For example, all database objects share a single connection (static $connection).
Static Variables Example:
Pretend we have a database class with a single member variable: static $num_connections;
Now, put this in the constructor:
function __construct()
{
if(!isset $num_connections || $num_connections==null)
{
$num_connections=0;
}
else
{
$num_connections++;
}
}
Just as objects have constructors, they also have destructors, which are executed when the object dies or is unset:
function __destruct()
{
$num_connections--;
}
Every time we create a new instance, it will increase our connection counter by one. Every time we destroy or stop using an instance, it will decrease the connection counter by one. In this way, we can monitor the number of instances of the database object we have in use with:
echo DB::num_connections;
Because $num_connections is static (shared), it will reflect the total number of active database objects. You may have seen this technique used to share database connections among all instances of a database class. This is done because creating the database connection takes a long time, so it's best to create just one, and share it (this is called a Singleton Pattern).
Static Methods (i.e. public static View::format_phone_number($digits)) can be used WITHOUT first instantiating one of those objects (i.e. They do not internally refer to $this).
Static Method Example:
public static function prettyName($first_name, $last_name)
{
echo ucfirst($first_name).' '.ucfirst($last_name);
}
echo Person::prettyName($derek->first_name, $derek->last_name);
As you can see, public static function prettyName knows nothing about the object. It's just working with the parameters you pass in, like a normal function that's not part of an object. Why bother, then, if we could just have it not as part of the object?
First, attaching functions to objects helps you keep things organized, so you know where to find them.
Second, it prevents naming conflicts. In a big project, you're likely to have two developers create getName() functions. If one creates a ClassName1::getName(), and the other creates ClassName2::getName(), it's no problem at all. No conflict. Yay static methods!
SELF::
If you are coding outside the object that has the static method you want to refer to, you must call it using the object's name View::format_phone_number($phone_number);
If you are coding inside the object that has the static method you want to refer to, you can either use the object's name View::format_phone_number($pn), OR you can use the self::format_phone_number($pn) shortcut
The same goes for static variables:
Example: View::templates_path versus self::templates_path
Inside the DB class, if we were referring to a static method of some other object, we would use the object's name:
Example: Session::getUsersOnline();
But if the DB class wanted to refer to its own static variable, it would just say self:
Example: self::connection;
From this blog post:
self refers to the current class
self can be used to call static functions and reference static member variables
self can be used inside static functions
self can also turn off polymorphic behavior by bypassing the vtable
$this refers to the current object
$this can be used to call static functions
$this should not be used to call static member variables. Use self instead.
$this can not be used inside static functions
In PHP, you use the self keyword to access static properties and methods.
The problem is that you can replace $this->method() with self::method()anywhere, regardless if method() is declared static or not. So which one should you use?
Consider this code:
class ParentClass {
function test() {
self::who(); // will output 'parent'
$this->who(); // will output 'child'
}
function who() {
echo 'parent';
}
}
class ChildClass extends ParentClass {
function who() {
echo 'child';
}
}
$obj = new ChildClass();
$obj->test();
In this example, self::who() will always output ‘parent’, while $this->who() will depend on what class the object has.
Now we can see that self refers to the class in which it is called, while $this refers to the class of the current object.
So, you should use self only when $this is not available, or when you don’t want to allow descendant classes to overwrite the current method.
Inside a class definition, $this refers to the current object, while self refers to the current class.
It is necessary to refer to a class element using self, and refer to an object element using $this.
self::STAT // refer to a constant value
self::$stat // static variable
$this->stat // refer to an object variable
self refers to the current class (in which it is called),
$this refers to the current object.
You can use static instead of self.
See the example:
class ParentClass {
function test() {
self::which(); // Outputs 'parent'
$this->which(); // Outputs 'child'
}
function which() {
echo 'parent';
}
}
class ChildClass extends ParentClass {
function which() {
echo 'child';
}
}
$obj = new ChildClass();
$obj->test();
Output:
parent
child
Here is an example of correct usage of $this and self for non-static
and static member variables:
<?php
class X {
private $non_static_member = 1;
private static $static_member = 2;
function __construct() {
echo $this->non_static_member . ' '
. self::$static_member;
}
}
new X();
?>
The object pointer $this to refers to the current object.
The class value static refers to the current object.
The class value self refers to the exact class it was defined in.
The class value parent refers to the parent of the exact class it was defined in.
See the following example which shows overloading.
<?php
class A {
public static function newStaticClass()
{
return new static;
}
public static function newSelfClass()
{
return new self;
}
public function newThisClass()
{
return new $this;
}
}
class B extends A
{
public function newParentClass()
{
return new parent;
}
}
$b = new B;
var_dump($b::newStaticClass()); // B
var_dump($b::newSelfClass()); // A because self belongs to "A"
var_dump($b->newThisClass()); // B
var_dump($b->newParentClass()); // A
class C extends B
{
public static function newSelfClass()
{
return new self;
}
}
$c = new C;
var_dump($c::newStaticClass()); // C
var_dump($c::newSelfClass()); // C because self now points to "C" class
var_dump($c->newThisClass()); // C
var_dump($b->newParentClass()); // A because parent was defined *way back* in class "B"
Most of the time you want to refer to the current class which is why you use static or $this. However, there are times when you need self because you want the original class regardless of what extends it. (Very, Very seldom)
According to Static Keyword, there isn't any $self. There is only $this, for referring to the current instance of the class (the object), and self, which can be used to refer to static members of a class. The difference between an object instance and a class comes into play here.
I believe the question was not whether you can call the static member of the class by calling ClassName::staticMember. The question was what's the difference between using self::classmember and $this->classmember.
For example, both of the following examples work without any errors, whether you use self:: or $this->
class Person{
private $name;
private $address;
public function __construct($new_name,$new_address){
$this->name = $new_name;
$this->address = $new_address;
}
}
class Person{
private $name;
private $address;
public function __construct($new_name,$new_address){
self::$name = $new_name;
self::$address = $new_address;
}
}
Here is a small benchmark (7.2.24 on repl.it):
Speed (in seconds) Percentage
$this-> 0.91760206222534 100
self:: 1.0047659873962 109.49909865716
static:: 0.98066782951355 106.87288857386
Results for 4 000 000 runs. Conclusion: it doesn't matter. And here is the code I used:
<?php
class Foo
{
public function calling_this() { $this->called(); }
public function calling_self() { self::called(); }
public function calling_static() { static::called(); }
public static function called() {}
}
$foo = new Foo();
$n = 4000000;
$times = [];
// warmup
for ($i = 0; $i < $n; $i++) { $foo->calling_this(); }
for ($i = 0; $i < $n; $i++) { $foo->calling_self(); }
for ($i = 0; $i < $n; $i++) { $foo->calling_static(); }
$start = microtime(true);
for ($i = 0; $i < $n; $i++) { $foo->calling_this(); }
$times["this"] = microtime(true)-$start;
$start = microtime(true);
for ($i = 0; $i < $n; $i++) { $foo->calling_self(); }
$times["self"] = microtime(true)-$start;
$start = microtime(true);
for ($i = 0; $i < $n; $i++) { $foo->calling_static(); }
$times["static"] = microtime(true)-$start;
$min = min($times);
echo $times["this"] . "\t" . ($times["this"] / $min)*100 . "\n";
echo $times["self"] . "\t" . ($times["self"] / $min)*100 . "\n";
echo $times["static"] . "\t" . ($times["static"] / $min)*100 . "\n";
When self is used with the :: operator it refers to the current class, which can be done both in static and non-static contexts. $this refers to the object itself. In addition, it is perfectly legal to use $this to call static methods (but not to refer to fields).
I ran into the same question and the simple answer was:
$this requires an instance of the class
self:: doesn't
Whenever you are using static methods or static attributes and want to call them without having an object of the class instantiated, you need to use self: to call them, because $this always requires an object to be created.
Additionally since $this:: has not been discussed yet.
For informational purposes only, as of PHP 5.3 when dealing with instantiated objects to get the current scope value, as opposed to using static::, one can alternatively use $this:: like so.
http://ideone.com/7etRHy
class Foo
{
const NAME = 'Foo';
//Always Foo::NAME (Foo) due to self
protected static $staticName = self::NAME;
public function __construct()
{
echo $this::NAME;
}
public function getStaticName()
{
echo $this::$staticName;
}
}
class Bar extends Foo
{
const NAME = 'FooBar';
/**
* override getStaticName to output Bar::NAME
*/
public function getStaticName()
{
$this::$staticName = $this::NAME;
parent::getStaticName();
}
}
$foo = new Foo; //outputs Foo
$bar = new Bar; //outputs FooBar
$foo->getStaticName(); //outputs Foo
$bar->getStaticName(); //outputs FooBar
$foo->getStaticName(); //outputs FooBar
Using the code above is not common or recommended practice, but is simply to illustrate its usage, and is to act as more of a "Did you know?" in reference to the original poster's question.
It also represents the usage of $object::CONSTANT for example echo $foo::NAME; as opposed to $this::NAME;
$this refers to the current class object, and self refers to the current class (Not object). The class is the blueprint of the object. So you define a class, but you construct objects.
So in other words, use self for static and this for none-static members or methods.
Also in a child/parent scenario, self / parent is mostly used to identify child and parent class members and methods.
Use self if you want to call a method of a class without creating an object/instance of that class, thus saving RAM (sometimes use self for that purpose). In other words, it is actually calling a method statically. Use this for object perspective.
self:: A keyword used for the current class and basically it is used to access static members, methods, and constants. But in case of $this, you cannot call the static member, method, and functions.
You can use the self:: keyword in another class and access the static members, method, and constants. When it will be extended from the parent class and the same in case of the $this keyword. You can access the non-static members, method and function in another class when it will be extended from the parent class.
The code given below is an example of the self:: and $this keywords. Just copy and paste the code in your code file and see the output.
class cars{
var $doors = 4;
static $car_wheel = 4;
public function car_features(){
echo $this->doors . " Doors <br>";
echo self::$car_wheel . " Wheels <br>";
}
}
class spec extends cars{
function car_spec(){
print(self::$car_wheel . " Doors <br>");
print($this->doors . " Wheels <br>");
}
}
/********Parent class output*********/
$car = new cars;
print_r($car->car_features());
echo "------------------------<br>";
/********Extend class from another class output**********/
$car_spec_show = new spec;
print($car_spec_show->car_spec());
Case 1: Use self can be used for class constants
class classA {
const FIXED_NUMBER = 4;
self::POUNDS_TO_KILOGRAMS
}
If you want to call it outside of the class, use classA::POUNDS_TO_KILOGRAMS to access the constants
Case 2: For static properties
class classC {
public function __construct() {
self::$_counter++; $this->num = self::$_counter;
}
}
According to php.net there are three special keywords in this context: self, parent and static. They are used to access properties or methods from inside the class definition.
$this, on the other hand, is used to call an instance and methods of any class as long as that class is accessible.