Magic methods
Every PHP class has "magic methods". You may already know these methods
from writing PHP code: the methods start with two underscores and have
names like __set(),__isset(), __call(), etcetera.
The PHP-CPP library also has support for these magic methods. Using some C++ compiler tricks, the C++ compiler detects whether the methods exist in your class, and if they do, they will be compiled into your extension and called when they are accessed from PHP.
Compile time detection
Although you may have expected that the magic methods are virtual methods in the Php::Base class that can be overridden, they are not. The methods are detected by the C++ compiler at compile time - and are very normal methods that just happen to have a certain name.
Because of the compile time detection, the signature of the methods is
somewhat flexible. The return values of many magic methods are assigned to
Php::Value objects, which means that as long as you make sure
that your magic method returns a type that is assignable to a Php::Value,
you can use it in your class. Your __toString() method may thus return a
char*, an std::string, Php::Value (and even an integer!), because all these
types can be assigned to a Php::Value.
The nice thing about magic methods implemented with PHP-CPP is that they
do not become visible from PHP user space. In other words, when you define
a function like __set() or __unset() in your C++ class, these functions
can not be called explicitly from PHP scripts - but they do get called
when a property is accessed.
Constructors
Normally, magic methods do not have
to be registered to make them work. When you add a magic method like
__toString() or __get() to your class, it will automatically be
called when an object is casted to a string or a property is accessed. There
is no need to enable the magic method explicitly in the get_module() startup
function.
The only exception to this rule is the __construct() method. This method
does have to be explicitly registered. There are a number of reasons for this.
For a start, the __construct() method does not have a fixed signature, and
by explicitly adding it to the extension, you can also specify what
parameters it accepts, and whether the __construct() method should be public,
private or protected (if you want to create classes that can not be
instantiated from PHP).
The other reason why you have to explicitly register the __construct() method,
is that, unlike other magic methods, the __construct method must
be visible from PHP. Inside constructors of derived classes, it often is
necessary to make a call to parent::__construct(). By registering the
__construct() method in the get_module() function you make the function
visible from PHP.
We have a special article about constructors and destructors with multiple examples how to register
the __construct() method.
Clone and destruct
The magic __clone() method is very similar to the __construct() method. It
also is a method that is called directly after an object is constructed.
The difference is that __clone() is called after an object is copy
constructed (or cloned if you prefer the PHP idiom), while
__construct() is called right after the normal constructor.
The magic __destruct() method gets called right before the object gets
destructed (and right before the C++ destructor runs).
The __clone() and __destruct() methods are regular magic methods (unlike
__construct()) and you therefore do not have to register them to make them
active. If you add one of these two methods to your class, you will not have
to make any changes to the get_module() startup function. The PHP-CPP library
calls them automatically if they are available.
In normal circumstances you probably have no need for these methods. The C++ copy constructor and the C++ destructor can be used too. The only difference is that the magic methods are called on objects that are in a fully initialized state, while the C++ copy constructor and C++ destructor work on objects that are being initialized, or that are being destructed.
The article about mentioned above about constructors and destructors has more details and examples.
Pseudo properties
With the methods __get(), __set(), __unset() and __isset() you can define
pseudo properties. It allows you to, for example, create read-only properties,
or properties that are checked for validity when they are set.
The magic methods work exactly the same as their counterparts in PHP scripts do, so you can easily port PHP code that uses these properties to C++.
#include <phpcpp.h>
/**
* A sample class, that has some pseudo properties that map to native types
*/
class User : public Php::Base
{
private:
/**
* Name of the user
* @var std::string
*/
std::string _name;
/**
* Email address of the user
* @var std::string
*/
std::string _email;
public:
/**
* C++ constructor and C++ destructpr
*/
User() = default;
virtual ~User() = default;
/**
* Get access to a property
* @param name Name of the property
* @return Value Property value
*/
Php::Value __get(const Php::Value &name)
{
// check if the property name is supported
if (name == "name") return _name;
if (name == "email") return _email;
// property not supported, fall back on default
return Php::Base::__get(name);
}
/**
* Overwrite a property
* @param name Name of the property
* @param value New property value
*/
void __set(const Php::Value &name, const Php::Value &value)
{
// check the property name
if (name == "name")
{
// store member
_name = value.stringValue();
}
// we check emails for validity
else if (name == "email")
{
// store the email in a string
std::string email = value;
// must have a '@' character in it
if (email.find('@') == std::string::npos)
{
// email address is invalid, throw exception
throw Php::Exception("Invalid email address");
}
// store the member
_email = email;
}
// other properties fall back to default
else
{
// call default
Php::Base::__set(name, value);
}
}
/**
* Check if a property is set
* @param name Name of the property
* @return bool
*/
bool __isset(const Php::Value &name)
{
// true for name and email address
if (name == "name" || name == "email") return true;
// fallback to default
return Php::Base::__isset(name);
}
/**
* Remove a property
* @param name Name of the property to remove
*/
void __unset(const Php::Value &name)
{
// name and email can not be unset
if (name == "name" || name == "email")
{
// warn the user with an exception that this is impossible
throw Php::Exception("Name and email address can not be removed");
}
// fallback to default
Php::Base::__unset(name);
}
};
/**
* Switch to C context to ensure that the get_module() function
* is callable by C programs (which the Zend engine is)
*/
extern "C" {
/**
* Startup function that is called by the Zend engine
* to retrieve all information about the extension
* @return void*
*/
PHPCPP_EXPORT void *get_module() {
// extension object
static Php::Extension myExtension("my_extension", "1.0");
// description of the class so that PHP knows
// which methods are accessible
Php::Class<User> user("User");
// add the class to the extension
myExtension.add(std::move(user));
// return the extension
return myExtension;
}
}The above example shows how you can create a User class that seems to have a name and email property, but that does not allow you to assign an email address without a '@' character in it, and that does not allow you to remove the properties.
<?php
// initialize user and set its name and email address
$user = new User();
$user->name = "John Doe";
$user->email = "john.doe@example.com";
// show the email address
echo($user->email."\n");
// remove the email address (this will cause an exception)
unset($user->email);
?>Magic methods __call(), __callStatic() and __invoke()
C++ methods need to be registered explicitly in your extension get_module()
startup function to be accessible from PHP user space. However, when you override the __call()
method, you can accept all calls - even calls to methods that do not exist.
When someone makes a call from user space to something that looks like a method,
it will be passed to this __call() method. In a script you can thus use
$object->something(), $object->whatever() or $object->anything() - it does not
matter what the name of the method is, all these calls are passed on to the
__call() method in the C++ class.
The __callStatic() method is similar to the __call() method, but works for
static methods. A static call to YourClass::someMethod() can be automatically
passed on to the __callStatic() method of your C++ class.
Next to the magic __call() and __callStatic functions, the PHP-CPP library also
supports the __invoke() method. This is a method that gets called when an object
instance is used as if it was a function. This can be compared with overloading
the operator () in a C++ class. By implementing the __invoke() method, scripts
from PHP user space can create an object, and then use it as a function.
#include <phpcpp.h>
/**
* A sample class, that accepts all thinkable method calls
*/
class MyClass : public Php::Base
{
public:
/**
* C++ constructor and C++ destructpr
*/
MyClass() = default;
virtual ~MyClass() = default;
/**
* Regular method
* @param params Parameters that were passed to the method
* @return Value The return value
*/
Php::Value regular(Php::Parameters ¶ms)
{
return "this is a regular method";
}
/**
* Overriden __call() method to accept all method calls
* @param name Name of the method that is called
* @param params Parameters that were passed to the method
* @return Value The return value
*/
Php::Value __call(const char *name, Php::Parameters ¶ms)
{
// the return value
std::string retval = std::string("__call ") + name;
// loop through the parameters
for (auto ¶m : params)
{
// append parameter string value to return value
retval += " " + param.stringValue();
}
// done
return retval;
}
/**
* Overriden __callStatic() method to accept all static method calls
* @param name Name of the method that is called
* @param params Parameters that were passed to the method
* @return Value The return value
*/
static Php::Value __callStatic(const char *name, Php::Parameters ¶ms)
{
// the return value
std::string retval = std::string("__callStatic ") + name;
// loop through the parameters
for (auto ¶m : params)
{
// append parameter string value to return value
retval += " " + param.stringValue();
}
// done
return retval;
}
/**
* Overridden __invoke() method so that objects can be called directly
* @param params Parameters that were passed to the method
* @return Value The return value
*/
Php::Value __invoke(Php::Parameters ¶ms)
{
// the return value
std::string retval = "invoke";
// loop through the parameters
for (auto ¶m : params)
{
// append parameter string value to return value
retval += " " + param.stringValue();
}
// done
return retval;
}
};
/**
* Switch to C context to ensure that the get_module() function
* is callable by C programs (which the Zend engine is)
*/
extern "C" {
/**
* Startup function that is called by the Zend engine
* to retrieve all information about the extension
* @return void*
*/
PHPCPP_EXPORT void *get_module() {
// extension object
static Php::Extension myExtension("my_extension", "1.0");
// description of the class so that PHP knows
// which methods are accessible
Php::Class<MyClass> myClass("MyClass");
// register the regular method
myClass.method<&MyClass::regular>("regular");
// add the class to the extension
myExtension.add(std::move(myClass));
// return the extension
return myExtension;
}
}<?php
// initialize an object
$object = new MyClass();
// call a regular method
echo($object->regular()."\n");
// call some pseudo-methods
echo($object->something()."\n");
echo($object->myMethod(1,2,3,4)."\n");
echo($object->whatever("a","b")."\n");
// call some pseudo-methods in a static context
echo(MyClass::something()."\n");
echo(MyClass::myMethod(5,6,7)."\n");
echo(MyClass::whatever("x","y")."\n");
// call the object as if it was a function
echo($object("parameter","passed","to","invoke")."\n");
?>The above PHP script calls some method on this class. And will generate the following output:
regular
__call something
__call myMethod 1 2 3 4
__call whatever a b
__callStatic something
__callStatic myMethod 5 6 7
__callStatic whatever x y
invoke parameter passed to invokeCasting to a string
In PHP you can add a __toString() method to a class. This method is automatically
called when an object is casted to a string, or when an object is used in a string
context. PHP-CPP supports this __toString() method too.
#include <phpcpp.h>
/**
* A sample class, with methods to cast objects to scalars
*/
class MyClass : public Php::Base
{
public:
/**
* C++ constructor and C++ destructpr
*/
MyClass() = default;
virtual ~MyClass() = default;
/**
* Cast to a string
* @return Value
*/
Php::Value __toString()
{
return "abcd";
}
};
/**
* Switch to C context to ensure that the get_module() function
* is callable by C programs (which the Zend engine is)
*/
extern "C" {
/**
* Startup function that is called by the Zend engine
* to retrieve all information about the extension
* @return void*
*/
PHPCPP_EXPORT void *get_module() {
// extension object
static Php::Extension myExtension("my_extension", "1.0");
// description of the class so that PHP knows
// which methods are accessible
Php::Class<MyClass> myClass("MyClass");
// add the class to the extension
myExtension.add(std::move(myClass));
// return the extension
return myExtension;
}
}Next to the magic methods described here, and that you probably already know from writing PHP scripts, the PHP-CPP library also introduces a number of additional magic methods. These include extra casting methods, and a method to compare objects.
You can read more about these additional features in the next section.