PHP 5 comes with a complete reflection API that adds the ability to
reverse-engineer classes, interfaces, functions and methods as well
as extensions. Additionally, the reflection API also offers ways of
retrieving doc comments for functions, classes and methods.
The reflection API is an object-oriented extension to the Zend Engine,
consisting of the following classes:
Note:
For details on these classes, have a look at the next chapters.
If we were to execute the code in the example below:
Example 19-34. Basic usage of the reflection API
<?php Reflection::export(new ReflectionClass('Exception')); ?>
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The above example will output: Class [ <internal> class Exception ] {
- Constants [0] {
}
- Static properties [0] {
}
- Static methods [0] {
}
- Properties [6] {
Property [ <default> protected $message ]
Property [ <default> private $string ]
Property [ <default> protected $code ]
Property [ <default> protected $file ]
Property [ <default> protected $line ]
Property [ <default> private $trace ]
}
- Methods [9] {
Method [ <internal> final private method __clone ] {
}
Method [ <internal> <ctor> public method __construct ] {
- Parameters [2] {
Parameter #0 [ <required> $message ]
Parameter #1 [ <required> $code ]
}
}
Method [ <internal> final public method getMessage ] {
}
Method [ <internal> final public method getCode ] {
}
Method [ <internal> final public method getFile ] {
}
Method [ <internal> final public method getLine ] {
}
Method [ <internal> final public method getTrace ] {
}
Method [ <internal> final public method getTraceAsString ] {
}
Method [ <internal> public method __toString ] {
}
}
} |
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The ReflectionFunction class lets you
reverse-engineer functions.
Note:
invokeArgs() was added in PHP 5.1.0.
To introspect a function, you will first have to create an instance
of the ReflectionFunction class. You can then call
any of the above methods on this instance.
Example 19-35. Using the ReflectionFunction class
<?php /** * A simple counter * * @return int */ function counter() { static $c = 0; return $c++; }
// Create an instance of the Reflection_Function class $func = new ReflectionFunction('counter');
// Print out basic information printf( "===> The %s function '%s'\n". " declared in %s\n". " lines %d to %d\n", $func->isInternal() ? 'internal' : 'user-defined', $func->getName(), $func->getFileName(), $func->getStartLine(), $func->getEndline() );
// Print documentation comment printf("---> Documentation:\n %s\n", var_export($func->getDocComment(), 1));
// Print static variables if existant if ($statics = $func->getStaticVariables()) { printf("---> Static variables: %s\n", var_export($statics, 1)); }
// Invoke the function printf("---> Invokation results in: "); var_dump($func->invoke());
// you may prefer to use the export() method echo "\nReflectionFunction::export() results:\n"; echo ReflectionFunction::export('counter'); ?>
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Note:
The method invoke() accepts a variable number of
arguments which are passed to the function just as in
call_user_func().
The ReflectionParameter class retrieves
information about a function's or method's parameters.
Note:
getDefaultValue(),
isDefaultValueAvailable(),
isOptional() were added in PHP 5.1.0.
To introspect function parameters, you will first have to create an instance
of the ReflectionFunction or
ReflectionMethod classes and then use their
getParameters() method to retrieve an array of parameters.
Example 19-36. Using the ReflectionParameter class
<?php function foo($a, $b, $c) { } function bar(Exception $a, &$b, $c) { } function baz(ReflectionFunction $a, $b = 1, $c = null) { } function abc() { }
// Create an instance of Reflection_Function with the // parameter given from the command line. $reflect = new ReflectionFunction($argv[1]);
echo $reflect;
foreach ($reflect->getParameters() as $i => $param) { printf( "-- Parameter #%d: %s {\n". " Class: %s\n". " Allows NULL: %s\n". " Passed to by reference: %s\n". " Is optional?: %s\n". "}\n", $i, $param->getName(), var_export($param->getClass(), 1), var_export($param->allowsNull(), 1), var_export($param->isPassedByReference(), 1), $param->isOptional() ? 'yes' : 'no' ); } ?>
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The ReflectionClass class lets
you reverse-engineer classes.
To introspect a class, you will first have to create an instance
of the ReflectionClass class. You can then
call any of the above methods on this instance.
Example 19-37. Using the ReflectionClass class
<?php interface Serializable { // ... }
class Object { // ... }
/** * A counter class */ class Counter extends Object implements Serializable { const START = 0; private static $c = Counter::START;
/** * Invoke counter * * @access public * @return int */ public function count() { return self::$c++; } }
// Create an instance of the ReflectionClass class $class = new ReflectionClass('Counter');
// Print out basic information printf( "===> The %s%s%s %s '%s' [extends %s]\n" . " declared in %s\n" . " lines %d to %d\n" . " having the modifiers %d [%s]\n", $class->isInternal() ? 'internal' : 'user-defined', $class->isAbstract() ? ' abstract' : '', $class->isFinal() ? ' final' : '', $class->isInterface() ? 'interface' : 'class', $class->getName(), var_export($class->getParentClass(), 1), $class->getFileName(), $class->getStartLine(), $class->getEndline(), $class->getModifiers(), implode(' ', Reflection::getModifierNames($class->getModifiers())) );
// Print documentation comment printf("---> Documentation:\n %s\n", var_export($class->getDocComment(), 1));
// Print which interfaces are implemented by this class printf("---> Implements:\n %s\n", var_export($class->getInterfaces(), 1));
// Print class constants printf("---> Constants: %s\n", var_export($class->getConstants(), 1));
// Print class properties printf("---> Properties: %s\n", var_export($class->getProperties(), 1));
// Print class methods printf("---> Methods: %s\n", var_export($class->getMethods(), 1));
// If this class is instantiable, create an instance if ($class->isInstantiable()) { $counter = $class->newInstance();
echo '---> $counter is instance? '; echo $class->isInstance($counter) ? 'yes' : 'no';
echo "\n---> new Object() is instance? "; echo $class->isInstance(new Object()) ? 'yes' : 'no'; } ?>
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Note:
The method newInstance() accepts a variable number of
arguments which are passed to the function just as in
call_user_func().
Note:
$class = new ReflectionClass('Foo'); $class->isInstance($arg)
is equivalent to $arg instanceof Foo or
is_a($arg, 'Foo').
The ReflectionMethod class lets you
reverse-engineer class methods.
To introspect a method, you will first have to create an instance
of the ReflectionMethod class. You can then call
any of the above methods on this instance.
Example 19-38. Using the ReflectionMethod class
<?php class Counter { private static $c = 0;
/** * Increment counter * * @final * @static * @access public * @return int */ final public static function increment() { return ++self::$c; } }
// Create an instance of the Reflection_Method class $method= new ReflectionMethod('Counter', 'increment');
// Print out basic information printf( "===> The %s%s%s%s%s%s%s method '%s' (which is %s)\n" . " declared in %s\n" . " lines %d to %d\n" . " having the modifiers %d[%s]\n", $method->isInternal() ? 'internal' : 'user-defined', $method->isAbstract() ? ' abstract' : '', $method->isFinal() ? ' final' : '', $method->isPublic() ? ' public' : '', $method->isPrivate() ? ' private' : '', $method->isProtected() ? ' protected' : '', $method->isStatic() ? ' static' : '', $method->getName(), $method->isConstructor() ? 'the constructor' : 'a regular method', $method->getFileName(), $method->getStartLine(), $method->getEndline(), $method->getModifiers(), implode(' ', Reflection::getModifierNames($method->getModifiers())) );
// Print documentation comment printf("---> Documentation:\n %s\n", var_export($method->getDocComment(), 1));
// Print static variables if existant if ($statics= $method->getStaticVariables()) { printf("---> Static variables: %s\n", var_export($statics, 1)); }
// Invoke the method printf("---> Invokation results in: "); var_dump($method->invoke(NULL)); ?>
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Note:
Trying to invoke private, protected or abstract methods will result
in an exception being thrown from the invoke()
method.
Note:
For static methods as seen above, you should pass NULL as the first
argument to invoke(). For non-static methods, pass
an instance of the class.
The ReflectionProperty class lets you
reverse-engineer class properties.
To introspect a property, you will first have to create an instance
of the ReflectionProperty class. You can then
call any of the above methods on this instance.
Example 19-39. Using the ReflectionProperty class
<?php class String { public $length = 5; }
// Create an instance of the ReflectionProperty class $prop = new ReflectionProperty('String', 'length');
// Print out basic information printf( "===> The%s%s%s%s property '%s' (which was %s)\n" . " having the modifiers %s\n", $prop->isPublic() ? ' public' : '', $prop->isPrivate() ? ' private' : '', $prop->isProtected() ? ' protected' : '', $prop->isStatic() ? ' static' : '', $prop->getName(), $prop->isDefault() ? 'declared at compile-time' : 'created at run-time', var_export(Reflection::getModifierNames($prop->getModifiers()), 1) );
// Create an instance of String $obj= new String();
// Get current value printf("---> Value is: "); var_dump($prop->getValue($obj));
// Change value $prop->setValue($obj, 10); printf("---> Setting value to 10, new value is: "); var_dump($prop->getValue($obj));
// Dump object var_dump($obj); ?>
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Note:
Trying to get or set private or protected class property's values
will result in an exception being thrown.
The ReflectionExtension class lets you
reverse-engineer extensions. You can retrieve all loaded extensions
at runtime using the get_loaded_extensions().
To introspect an extension, you will first have to create an instance
of the ReflectionExtension class. You can then call
any of the above methods on this instance.
Example 19-40. Using the ReflectionExtension class
<?php // Create an instance of the ReflectionProperty class $ext = new ReflectionExtension('standard');
// Print out basic information printf( "Name : %s\n" . "Version : %s\n" . "Functions : [%d] %s\n" . "Constants : [%d] %s\n" . "INI entries : [%d] %s\n" . "Classes : [%d] %s\n", $ext->getName(), $ext->getVersion() ? $ext->getVersion() : 'NO_VERSION', sizeof($ext->getFunctions()), var_export($ext->getFunctions(), 1),
sizeof($ext->getConstants()), var_export($ext->getConstants(), 1),
sizeof($ext->getINIEntries()), var_export($ext->getINIEntries(), 1),
sizeof($ext->getClassNames()), var_export($ext->getClassNames(), 1) ); ?>
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In case you want to create specialized versions of the built-in
classes (say, for creating colorized HTML when being exported,
having easy-access member variables instead of methods or
having utility methods), you may go ahead and extend them.
Example 19-41. Extending the built-in classes
<?php /** * My Reflection_Method class */ class My_Reflection_Method extends ReflectionMethod { public $visibility = '';
public function __construct($o, $m) { parent::__construct($o, $m); $this->visibility= Reflection::getModifierNames($this->getModifiers()); } }
/** * Demo class #1 * */ class T { protected function x() {} }
/** * Demo class #2 * */ class U extends T { function x() {} }
// Print out information var_dump(new My_Reflection_Method('U', 'x')); ?>
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Note:
Caution: If you're overwriting the constructor, remember to call
the parent's constructor _before_ any code you insert. Failing to
do so will result in the following:
Fatal error: Internal error: Failed to retrieve the reflection object