If you like to declare an __autoload function within a namespace or class, use the spl_autoload_register() function to register it and it will work fine.
(PHP 5 >= 5.3.0, PHP 7, PHP 8)
For the purposes of these resolution rules, here are some important definitions:
This is an identifier without a namespace separator, such as Foo
This is an identifier with a namespace separator, such as Foo\Bar
This is an identifier with a namespace separator that begins with a
namespace separator, such as \Foo\Bar
. The namespace
\Foo
is also a fully qualified name.
This is an identifier starting with namespace
, such as
namespace\Foo\Bar
.
Names are resolved following these resolution rules:
\A\B
resolves to A\B
.
namespace
replaced by
the current namespace. If the name occurs in the global namespace, the
namespace\
prefix is stripped. For example namespace\A
inside namespace X\Y
resolves to X\Y\A
. The same name
inside the global namespace resolves to A
.
A\B\C
is
imported as C
, the name C\D\E
is translated to
A\B\C\D\E
.
C\D\E
inside namespace A\B
,
resolves to A\B\C\D\E
.
use A\B\C;
a usage such as new C()
resolves to the name
A\B\C()
. Similarly, after use function A\B\foo;
a usage
such as foo()
resolves to the name A\B\foo
.
new C()
inside namespace
A\B
resolves to name A\B\C
.
A\B
, here is how a call to function
foo()
is resolved:
A\B\foo()
.
foo()
.
Приклад #1 Name resolutions illustrated
<?php
namespace A;
use B\D, C\E as F;
// function calls
foo(); // first tries to call "foo" defined in namespace "A"
// then calls global function "foo"
\foo(); // calls function "foo" defined in global scope
my\foo(); // calls function "foo" defined in namespace "A\my"
F(); // first tries to call "F" defined in namespace "A"
// then calls global function "F"
// class references
new B(); // creates object of class "B" defined in namespace "A"
// if not found, it tries to autoload class "A\B"
new D(); // using import rules, creates object of class "D" defined in namespace "B"
// if not found, it tries to autoload class "B\D"
new F(); // using import rules, creates object of class "E" defined in namespace "C"
// if not found, it tries to autoload class "C\E"
new \B(); // creates object of class "B" defined in global scope
// if not found, it tries to autoload class "B"
new \D(); // creates object of class "D" defined in global scope
// if not found, it tries to autoload class "D"
new \F(); // creates object of class "F" defined in global scope
// if not found, it tries to autoload class "F"
// static methods/namespace functions from another namespace
B\foo(); // calls function "foo" from namespace "A\B"
B::foo(); // calls method "foo" of class "B" defined in namespace "A"
// if class "A\B" not found, it tries to autoload class "A\B"
D::foo(); // using import rules, calls method "foo" of class "D" defined in namespace "B"
// if class "B\D" not found, it tries to autoload class "B\D"
\B\foo(); // calls function "foo" from namespace "B"
\B::foo(); // calls method "foo" of class "B" from global scope
// if class "B" not found, it tries to autoload class "B"
// static methods/namespace functions of current namespace
A\B::foo(); // calls method "foo" of class "B" from namespace "A\A"
// if class "A\A\B" not found, it tries to autoload class "A\A\B"
\A\B::foo(); // calls method "foo" of class "B" from namespace "A"
// if class "A\B" not found, it tries to autoload class "A\B"
?>
If you like to declare an __autoload function within a namespace or class, use the spl_autoload_register() function to register it and it will work fine.
The term "autoload" mentioned here shall not be confused with __autoload function to autoload objects. Regarding the __autoload and namespaces' resolution I'd like to share the following experience:
->Say you have the following directory structure:
- root
| - loader.php
| - ns
| - foo.php
->foo.php
<?php
namespace ns;
class foo
{
public $say;
public function __construct()
{
$this->say = "bar";
}
}
?>
-> loader.php
<?php
//GLOBAL SPACE <--
function __autoload($c)
{
require_once $c . ".php";
}
class foo extends ns\foo // ns\foo is loaded here
{
public function __construct()
{
parent::__construct();
echo "<br />foo" . $this->say;
}
}
$a = new ns\foo(); // ns\foo also loads ns/foo.php just fine here.
echo $a->say; // prints bar as expected.
$b = new foo; // prints foobar just fine.
?>
If you keep your directory/file matching namespace/class consistence the object __autoload works fine.
But... if you try to give loader.php a namespace you'll obviously get fatal errors.
My sample is just 1 level dir, but I've tested with a very complex and deeper structure. Hope anybody finds this useful.
Cheers!
As working with namespaces and using (custom or basic) autoload structure; magic function __autoload must be defined in global scope, not in a namespace, also not in another function or method.
<?php
namespace Glue {
/**
* Define your custom structure and algorithms
* for autoloading in this class.
*/
class Import
{
public static function load ($classname)
{
echo 'Autoloading class '.$classname."\n";
require_once $classname.'.php';
}
}
}
/**
* Define function __autoload in global namespace.
*/
namespace {
function __autoload ($classname)
{
\Glue\Import::load($classname);
}
}
?>
For point 4, "In example, if the namespace A\B\C is imported as C" should be "In example, if the class A\B\C is imported as C".
The mentioned filesystem analogy fails at an important point:
Namespace resolution *only* works at declaration time. The compiler fixates all namespace/class references as absolute paths, like creating absolute symlinks.
You can't expect relative symlinks, which should be evaluated during access -> during PHP runtime.
In other words, namespaces are evaluated like __CLASS__ or self:: at parse-time. What's *not* happening, is the pendant for late static binding like static:: which resolves to the current class at runtime.
So you can't do the following:
namespace Alpha;
class Helper {
public static $Value = "ALPHA";
}
class Base {
public static function Write() {
echo Helper::$Value;
}
}
namespace Beta;
class Helper extends \Alpha\Helper {
public static $Value = 'BETA';
}
class Base extends \Alpha\Base {}
\Beta\Base::Write(); // should write "BETA" as this is the executing namespace context at runtime.
If you copy the write() function into \Beta\Base it works as expected.
The term "autoload" mentioned here shall not be confused with __autoload function to autoload objects. Regarding the __autoload and namespaces' resolution I'd like to share the following experience:
->Say you have the following directory structure:
- root
| - loader.php
| - ns
| - foo.php
->foo.php
<?php
namespace ns;
class foo
{
public $say;
public function __construct()
{
$this->say = "bar";
}
}
?>
-> loader.php
<?php
//GLOBAL SPACE <--
function __autoload($c)
{
require_once $c . ".php";
}
class foo extends ns\foo // ns\foo is loaded here
{
public function __construct()
{
parent::__construct();
echo "<br />foo" . $this->say;
}
}
$a = new ns\foo(); // ns\foo also loads ns/foo.php just fine here.
echo $a->say; // prints bar as expected.
$b = new foo; // prints foobar just fine.
?>
If you keep your directory/file matching namespace/class consistence the object __autoload works fine.
But... if you try to give loader.php a namespace you'll obviously get fatal errors.
My sample is just 1 level dir, but I've tested with a very complex and deeper structure. Hope anybody finds this useful.
Cheers!
Namespaces may be case-insensitive, but autoloaders most often do.
Do yourself a service, keep your cases consistent with file names, and don't overcomplicate autoloaders beyond necessity.
Something like this should suffice for most times:
<?php
namespace org\example;
function spl_autoload($className)
{
$file = new \SplFileInfo(__DIR__ . substr(strtr("$className.php", '\\', '/'), 11));
$path = $file->getRealPath();
if(empty($path))
{
return false;
}
else
{
return include_once $path;
}
}
\spl_autoload_register('\org\example\spl_autoload');
?>