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c073b76aac
- "is_a" was also appropriate but ugly.
728 lines
24 KiB
Plaintext
728 lines
24 KiB
Plaintext
Changes in the Zend Engine 2.0
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* New Object Model.
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The Zend Engine's handling of objects has been completely
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changed in order to allow for new features, but also to increase
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its performance.
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Objects were handled in previous versions like primitive types
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(for instance integers and strings). The drawback of this method
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is, that semantically the whole object was copied when a
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variable was assigned or parameters were passed to a method. The
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new approach refers to objects by handle and not by value (one
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can think of a handle as an object's ID).
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Many PHP programmers aren't even aware of the copying quirks of
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the old object model and, therefore, there is a relatively good
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chance that the amount of PHP applications that will work out of
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the box or after a very small amount of modifications would be
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high.
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* Private and Protected Members.
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The Zend Engine 2.0 introduces private and protected member
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variables. Note that for performance reasons no error message is
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emitted in case of an illegal access to a private or protectecd
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member variable.
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Example:
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<?php
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class MyClass {
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private $Hello = "Hello, World!\n";
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protected $Bar = "Hello, Foo!\n";
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protected $Foo = "Hello, Bar!\n";
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function printHello() {
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print "MyClass::printHello() " . $this->Hello;
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print "MyClass::printHello() " . $this->Bar;
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print "MyClass::printHello() " . $this->Foo;
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}
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}
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class MyClass2 extends MyClass {
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protected $Foo;
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function printHello() {
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MyClass::printHello(); /* Should print */
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print "MyClass2::printHello() " . $this->Hello; /* Shouldn't print out anything */
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print "MyClass2::printHello() " . $this->Bar; /* Shouldn't print (not declared)*/
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print "MyClass2::printHello() " . $this->Foo; /* Should print */
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}
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}
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$obj = new MyClass();
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print $obj->Hello; /* Shouldn't print out anything */
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print $obj->Bar; /* Shouldn't print out anything */
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print $obj->Foo; /* Shouldn't print out anything */
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$obj->printHello(); /* Should print */
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$obj = new MyClass2();
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print $obj->Hello; /* Shouldn't print out anything */
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print $obj->Bar; /* Shouldn't print out anything */
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print $obj->Foo; /* Shouldn't print out anything */
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$obj->printHello();
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?>
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Protected member variables can be accessed in classes extending the
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class they are declared in, whereas private member variables can
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only be accessed by the class they belong to.
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Note: Protected member variables have to be declared in every class
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they are used!
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* Private and protected methods. (TBD)
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* Object Cloning.
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The Zend Engine 1.0 offered no way a user could decide what copy
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constructor to run when an object is duplicated. During
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duplication, the Zend Engine 1.0 did a bitwise copy making an
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identical replica of all the object's properties.
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Creating a copy of an object with fully replicated properties is
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not always the wanted behavior. A good example of the need for
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copy constructors, is if you have an object which represents a
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GTK window and the object holds the resource of this GTK window,
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when you create a duplicate you might want to create a new
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window with the same properties and have the new object hold the
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resource of the new window. Another example is if your object
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holds a reference to another object which it uses and when you
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replicate the parent object you want to create a new instance of
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this other object so that the replica has its own separate copy.
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An object copy is created by calling the object's __clone()
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method.
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Example:
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<?php
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$copy_of_object = $object->__clone();
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?>
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When the developer asks to create a new copy of an object, the
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Zend Engine will check if a __clone() method has been defined or
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not. If not, it will call a default __clone() which will copy
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all of the object's properties. If a __clone() method is
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defined, then it will be responsible to set the necessary
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properties in the created object. For convenience, the engine
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will supply a function that imports all of the properties from
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the source object, so that they can start with a by-value
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replica of the source object, and only override properties that
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need to be changed. [The function hasn't been implemented yet]
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Example:
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<?php
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class MyCloneable {
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static $id = 0;
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function MyCloneable() {
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$this->id = self::$id++;
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}
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function __clone() {
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$this->name = $that->name;
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$this->address = 'New York';
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$this->id = self::$id++;
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}
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}
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$obj = new MyCloneable();
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$obj->name = 'Hello';
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$obj->address = 'Tel-Aviv';
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print $obj->id . "\n";
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$obj = $obj->__clone();
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print $obj->id . "\n";
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print $obj->name . "\n";
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print $obj->address . "\n";
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?>
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* Nested classes (namespaces).
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The Zend Engine 1.0 provided only three scopes: the global
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scope, the class scope and the function scope. All scopes but
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classes could contain variables, only the class and global
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scopes could contain functions, while only the global scope
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could contain constants and classes. This means that all of the
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Zend Engine 1.0's scoping methods were inherently limited for
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solving symbol name collision problems.
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The Zend Engine 2.0 introduces the concept of nested classes
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to solve the symbol collision problem by making it possible to
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define multiple symbol tables able to contain all types of
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symbols. The Zend Engine is aware of a current class,
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defaulting to the global scope. Each class can contain it's
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own set of constants, functions and static variables. In order
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to access a class's local symbols you can use the self:: class
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accessor, for example, you can do self::$my_static_name = "Hello".
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You can also use the class's name such as
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MyClass::$my_static_name = "Hello". With both constants and
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functions, if you don't specify a class context the current class
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will be searched first and if the search fails then the global
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scope will be searched. If you want to force PHP to only check the
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global scope you can use the main:: accessor. For example,
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main::strlen() to make sure you're calling the strlen() in the main
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scope. You will only need to worry about this if you are defining
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methods which have the same name as global functions. For
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constants you can use the same notation such as self::MY_CONSTANT
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or main::MY_CONSTANT.
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Sometimes you will not want to access constants, functions or classes
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via the class accessor (i.e. MyClass::) because you use them very
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often and are an extremely slow typist. In this case, you can import
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functions, classes and constants from classes with the import keyword.
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It's quite self explanatory and there are a few examples below.
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* Classes may contain classes.
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Example:
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<?php
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class DB::MySQL {
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var $host = '';
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function db_connect($user) {
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print "Connecting to MySQL database '$this->host' as $user\n";
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}
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}
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class DB::Oracle {
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var $host = 'localhost';
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function db_connect($user) {
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print "Connecting to Oracle database '$this->host' as $user\n";
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}
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}
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$MySQL_obj = new DB::MySQL();
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$MySQL_obj->db_connect('Susan');
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$Oracle_obj = new DB::Oracle();
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$Oracle_obj->db_connect('Barbara');
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?>
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* Classes may contain constants.
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Example:
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<?php
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class foo {
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const hey = 'hello';
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}
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print foo::hey;
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?>
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* Current namespace's symbol tables are searched first for
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constants and functions.
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Example:
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The following code prints "foobar", not "foo", because
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the class constant overrides the "global" constant of
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the same name.
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<?php
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define('foo', 'bar');
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class FooClass {
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const foo = 'foobar';
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function printFoo() {
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print foo;
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}
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}
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?>
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* In the scope of a function, the current namespace is that
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of the containing class/namespace.
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Example:
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<?php
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class FooClass {
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function foo() {
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$this->bar();
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bar();
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}
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function bar() {
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print "foobar\n";
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}
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}
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$obj = new FooClass;
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$obj->foo();
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$obj->foo();
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?>
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This prints "foobar" two times, since a bar() method exists
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in the current namespace.
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* It is possible to "import" symbols from one namespace into
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another.
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Example:
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<?php
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class MyClass {
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class MyClass2 {
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function hello() {
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print "Hello, World in MyClass2\n";
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}
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}
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function hello() {
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print "Hello, World\n";
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}
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}
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import function hello, class MyClass2 from MyClass;
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MyClass2::hello();
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hello();
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?>
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Example:
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<?php
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class MyOuterClass {
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class MyInnerClass {
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function func1() {
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print "func1()\n";
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}
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function func2() {
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print "func2()\n";
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}
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}
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}
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import class * from MyOuterClass;
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import function func2 from MyOuterClass::MyInnerClass;
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MyInnerClass::func1();
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func2();
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?>
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Example:
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<?php
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class MyOuterClass {
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const Hello = "Hello, World\n";
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}
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import const Hello from MyOuterClass;
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print Hello;
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?>
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Old code that does not take advantage of namespaces will run
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without modifications.
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* Unified Constructors.
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The Zend Engine allows developers to declare constructor methods
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for classes. Classes which have a constructor method call this
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method on each newly-created object, so it is suitable for any
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initialization that the object may need before it can be used.
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With the Zend Engine 1.0, constructor methods were class methods
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that had the same name as the class itself. Since it is very
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common to call parent constructors from derived classes, the way
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the Zend Engine 1.0 worked made it a bit cumbersome to move
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classes around in a large class hierarchy. If a class is moved
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to reside under a different parent, the constructor name of that
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parent changes as well, and the code in the derived class that
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calls the parent constructor has to be modified.
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The Zend Engine 2.0 introduces a standard way of declaring
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constructor methods by calling them by the name __construct().
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Example:
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<?php
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class BaseClass {
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function __construct() {
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print "In BaseClass constructor\n";
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}
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}
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class SubClass extends BaseClass {
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function __construct() {
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parent::__construct();
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print "In SubClass constructor\n";
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}
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}
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$obj = new BaseClass();
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$obj = new SubClass();
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?>
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For backwards compatibility, if the Zend Engine 2.0 cannot find
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a __construct() function for a given class, it will search for
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the old-style constructor function, by the name of the class.
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Effectively, it means that the only case that would have
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compatibility issues is if the class had a method named
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__construct() which was used for different semantics.
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* Destructors.
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Having the ability to define destructors for objects can be very
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useful. Destructors can log messages for debugging, close
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database connections and do other clean-up work.
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No mechanism for object destructors existed in the Zend Engine
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1.0, although PHP had already support for registering functions
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which should be run on request shutdown.
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The Zend Engine 2.0 introduces a destructor concept similar to
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that of other object-oriented languages, such as Java: When the
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last reference to an object is destroyed the object's
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destructor, which is a class method name __destruct() that
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recieves no parameters, is called before the object is freed
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from memory.
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Example:
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<?php
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class MyDestructableClass {
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function __construct() {
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print "In constructor\n";
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$this->name = 'MyDestructableClass';
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}
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function __destruct() {
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print 'Destroying ' . $this->name . "\n";
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}
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}
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$obj = new MyDestructableClass();
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?>
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Like constructors, parent destructors will not be called
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implicitly by the engine. In order to run a parent destructor,
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one would have to explicitly call parent::__destruct() in the
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destructor body.
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* Exceptions.
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The Zend Engine 1.0 had no exception handling. The Zend Engine 2.0
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introduces a exception model similar to that of other programming
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languages.
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Example:
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<?php
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class MyException {
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function __construct($exception) {
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$this->exception = $exception;
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}
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function Display() {
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print "MyException: $this->exception\n";
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}
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}
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class MyExceptionFoo extends MyException {
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function __construct($exception) {
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$this->exception = $exception;
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}
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function Display() {
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print "MyException: $this->exception\n";
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}
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}
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try {
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throw new MyExceptionFoo('Hello');
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}
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catch (MyException $exception) {
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$exception->Display();
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}
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?>
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Old code that has no user-defined functions 'catch', 'throw' and
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'try' will run without modifications.
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* Dereferencing objects returned from functions.
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Example:
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<?php
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class Circle {
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function draw() {
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print "Circle\n";
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}
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}
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class Square {
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function draw() {
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print "Square\n";
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}
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}
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function ShapeFactoryMethod($shape) {
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switch ($shape) {
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case 'Circle': return new Circle();
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case 'Square': return new Square();
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}
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}
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ShapeFactoryMethod('Circle')->draw();
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ShapeFactoryMethod('Square')->draw();
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?>
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* Static member variables of static classes can now be
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initialized.
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Example:
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<?php
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class foo {
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static $my_static = 5;
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}
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print foo::$my_static;
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?>
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* Static methods. (TBD)
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* Abstract methods. (TBD)
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* instanceof (TBD)
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* Static function variables.
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Statics are now treated at compile-time which allows developers
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to assign variables to statics by reference. This change also
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greatly improves their performance but means that indirect
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references to statics will not work anymore.
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* Parameters that are passed by reference to a function
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may now have default values.
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Example:
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<?php
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function my_function(&$var = null) {
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if ($var === null) {
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die('$var needs to have a value');
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}
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}
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?>
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* __autoload(). TBD.
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* Method calls and property accesses can be overloaded
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by class methods __call(), __get() and __set().
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__get() and __set() Example:
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<?php
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class Setter {
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public $n;
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public $x = array('a' => 1, 'b' => 2, 'c' => 3);
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function __get($nm) {
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print "Getting [$nm]\n";
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if(isset($this->x[$nm])) {
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$r = $this->x[$nm];
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print "Returning: $r\n";
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return $r;
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} else {
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print "Nothing!\n";
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}
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}
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function __set($nm, $val) {
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print "Setting [$nm] to $val\n";
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if(isset($this->x[$nm])) {
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$this->x[$nm] = $val;
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print "OK!\n";
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} else {
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print "Not OK!\n";
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}
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}
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}
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$foo = new Setter();
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$foo->n = 1;
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$foo->a = 100;
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$foo->a++;
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$foo->z++;
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var_dump($foo);
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?>
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__call() Example:
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<?php
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class Caller {
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var $x = array(1, 2, 3);
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function __call($m, $a) {
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print "Method $m called:\n";
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var_dump($a);
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return $this->x;
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}
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}
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$foo = new Caller();
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$a = $foo->test(1, '2', 3.4, true);
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var_dump($a);
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?>
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Changes in the Zend Engine 1.0
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The Zend Engine was designed from the ground up for increased speed,
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reduced memory consumption and more reliable execution. We dare say
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it meets all of these goals and does so pretty well. Beyond that,
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there are several improvements in the language engine features:
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* References support.
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$foo = &$a; would make $foo and $a be two names to the same
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variable. This works with arrays as well, on either side; e.g.,
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$foo = &$a[7]; would make $foo and $a[7] be two names to the
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same variable. Changing one would change the other and vice
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versa.
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* Object overloading support.
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This feature allows various OO libraries to use the OO notation
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of PHP to access their functionality. Right now, no use is made
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of that feature, but we'd have a COM module ready by the time
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PHP 4.0 is released. A CORBA module would probably follow.
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* include() and eval() are now functions, and not statements.
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|
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|
That means they return a value. The default return value from
|
|
include() and eval() is 1, so that you can do if (include())
|
|
without further coding. The return value may be changed by
|
|
returning a value from the global scope of the included file or
|
|
the evaluated string. For example, if 'return 7;' is executed in
|
|
the global scope of foo.inc, include('foo.inc') would evaluate
|
|
to 7.
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|
|
|
* Automatic resource deallocation.
|
|
|
|
Several people have been bitten by the fact that PHP 3.0 had no
|
|
concept of reference counting. The Zend Engine adds full
|
|
reference counting for every value in the system, including
|
|
resources. As soon as a resource is no longer referenced from
|
|
any variable, it is automatically destroyed to save memory and
|
|
resources. The most obvious example for the advantage in this is
|
|
a loop that has an SQL query inside it, something like '$result
|
|
= sql_query(...);'. In PHP 3.0, every iteration resulted in
|
|
another SQL result-set allocated in the memory, and all of the
|
|
result sets weren't destroyed until the end of the script's
|
|
execution. With the Zend Engine, as soon as we overwrite an old
|
|
result set with a new one, the old result set which is no longer
|
|
referenced, is destroyed.
|
|
|
|
* Full support for nesting arrays and objects within each other,
|
|
in as many levels as you want.
|
|
|
|
* true and false are now constants of type boolean.
|
|
|
|
Comparing any other value to them would convert that value to a
|
|
boolean first, and conduct the comparison later. That means, for
|
|
example, that 5==true would evaluate to true (in PHP 3.0, true
|
|
was nothing but a constant for the integer value of 1, so
|
|
5==true was identical to 5==1, which was false).
|
|
|
|
* Runtime binding of function names.
|
|
|
|
This complex name has a simple explanation - you can now call
|
|
functions before they're declared!
|
|
|
|
* Added here-docs support.
|
|
|
|
* Added foreach.
|
|
|
|
Two syntaxes supported:
|
|
|
|
foreach(array_expr as $val) statement
|
|
foreach(array_expr as $key => $val) statement
|
|
|
|
* A true unset() implementation.
|
|
|
|
A variable or element that is unset(), is now sent to oblivion
|
|
in its entirely, no trace remains from it.
|
|
|
|
* Output buffering support.
|
|
|
|
Use ob_start() to begin output buffering, ob_end_flush() to end
|
|
buffering and send out the buffered contents, ob_end_clean() to
|
|
end buffering without sending the buffered contents, and
|
|
ob_get_contents() to retreive the current contents of the output
|
|
buffer. Header information (header(), content type, cookies) are
|
|
not buffered. By turning on output buffering, you can
|
|
effectively send header information all throughout your file,
|
|
regardless of whether you've emitted body output or not.
|
|
|
|
* Full variable reference within quoted strings:
|
|
|
|
${expr} - full indirect reference support for scalar
|
|
variables
|
|
{variable} - full variable support
|
|
|
|
For example:
|
|
|
|
$foo[5]['bar'] = 'foobar';
|
|
print "{$foo[5]["bar"]}"; // would print "foobar"
|
|
|
|
* Ability to call member functions of other classes from within
|
|
member functions or from the global scope.
|
|
|
|
You can now, for example, override a parent function with a
|
|
child function, and call the parent function from it.
|
|
|
|
* Runtime information for classes (class name, parent, available
|
|
functions, etc.).
|
|
|
|
* Much more efficient syntax highlighter - runs much quicker,
|
|
performs more reliably, and generates much tighter HTML.
|
|
|
|
* A full-featured debugger has been integrated with the language
|
|
(supports breakpoints, expression evaluation, step-in/over,
|
|
function call backtrace, and more).
|
|
|
|
The Zend Engine claims 100% compatability with the engine of PHP
|
|
3.0, and is shamelessly lying about it. Here's why:
|
|
|
|
* Static variable initializers only accept scalar values
|
|
(in PHP 3.0 they accepted any valid expression). The impact
|
|
should be somewhere in between void and non existent, since
|
|
initializing a static variable with anything but a simple
|
|
static value makes no sense at all.
|
|
|
|
* The scope of break and continue is local to that of an
|
|
include()'d file or an eval()'d string. The impact should
|
|
be somewhat smaller of the one above.
|
|
|
|
* The return statement no longer works from a require()'d file. It
|
|
hardly worked in PHP 3.0, so the impact should be fairly small. If
|
|
you want this functionality - use include() instead.
|
|
|
|
* unset() is no longer a function, but a statement.
|
|
|
|
* The following letter combination is not supported within
|
|
encapsulated strings: "{$". If you have a string that includes
|
|
this letter combination, for example, print "{$somevar"; (which
|
|
printed the letter { and the contents of the variable $somevar in
|
|
PHP 3.0), it will result in a parse error with the Zend Engine.
|
|
In this case, you would have to change the code to print
|
|
"\{$somevar"; This incompatability is due to the full variable
|
|
reference within quoted strings feature added in the Zend
|
|
Engine.
|