Alphabet Soup
So now you know how to create your own functions in PHP, and
you've spent the last few days busily inspecting your applications and
turning repeated code fragments into functions. But functions are just
the tip of the software abstraction iceberg. Lurking underneath is a
three-letter acronym that strikes fear into the hearts of most newbie
programmers.
OOP.
If you've been programming for a while, you've probably heard the
term OOP before - it stands for Object Oriented Programming, and refers
to a technique whereby you create program "objects"
and then use these objects to build the functionality you need into
your program. PHP 5 is very big on OOP - it comes with a
brand-spanking-new object model which finally brings PHP objects into
conformance with standard OOP principles and offers OO programmers a
whole bunch of new goodies to play with.
Wondering how you can get in on this? Well, wonder no more. Your
prayers have been answered.
Over the course of this tutorial, I'm going to take a
brief look at PHP's OO capabilities (both PHP 4 and PHP 5), together
with examples and explanations to demonstrate just how powerful it
really is. I'll be covering most of the basics - classes, objects,
attributes and methods - and a couple of more advanced concepts -
constructors, destructors, private methods and properties, and
inheritance. And if you're new to object-oriented programming, or just
apprehensive about what lies ahead, don't worry - I promise this will
be a lot less painful than you think. And unlike dentists, I don't lie.
Back To Class
Before beginning, though, let's make sure that you have a clear idea
of the concepts involved here.
In PHP, a class is simply a set of program statements which
perform a specific task. A typical class definition contains both
variables and functions, and serves as the template from which to spawn
specific instances of that class.
These specific instances of a class are referred to as
objects. Every object has certain characteristics, or
properties, and certain pre-defined functions, or
methods. These properties and methods of the object correspond
directly with the variables and functions within the class
definition.
Once a class has been defined, PHP allows you to spawn as many
instances of the class as you like. Each of these instances is a
completely independent object, with its own properties and methods, and
can therefore be manipulated independently of other objects. This comes in
handy in situations where you need to spawn more than one instance of
an object - for example, two simultaneous database links for two
simultaneous queries, or two shopping carts.
Classes also help you keep your code modular - you can define a
class in a separate file, and include that file only in the scripts
where you plan to use the class - and simplify code changes, since you
only need to edit a single file to add new functionality to all your
spawned objects.
Animal Antics
To understand this better, pick an animal, any animal. I pick the
bear, because I like bears. Now ask yourself, can you consider this
bear, within the framework of OOP, as an "object"?
Why not? After all, every bear has certain characteristics - age,
weight, sex - which are equivalent to object properties. And every bear
can perform certain activities - eat, sleep, walk, run, mate - all of
which are equivalent to object methods.
Let's take it a little further. Since all bears share certain
characteristics, it is possible to conceive of a template Bear()
, which
defines the basic characteristics and abilities of every bear on the
planet. Once this Bear()
("class") is used to create a new
$bear
("object"), the individual characteristics of the newly-created
Bear can be manipulated independently of other Bears that may be created
from the template.
Now, if you sat down to code this class in PHP 5,
it would probably look something like this:
<?php
// PHP 5
// class definition
class Bear {
// define properties
public $name;
public $weight;
public $age;
public $sex;
public $colour;
// define methods
public function eat() {
echo $this->name." is eating...
";
}
public function run() {
echo $this->name." is running...
";
}
public function kill() {
echo $this->name." is killing prey...
";
}
public function sleep() {
echo $this->name." is sleeping...
";
}
}
?>
Given this class, it's now simple to spawn as many Bears as you
like, and adjust the individual properties of each. Take a look:
<?php
// my first bear
$daddy = new Bear;
// give him a name
$daddy->name = "Daddy Bear";
// how old is he
$daddy->age = 8;
// what sex is he
$daddy->sex = "male";
// what colour is his coat
$daddy->colour = "black";
// how much does he weigh
$daddy->weight = 300;
// give daddy a wife
$mommy = new Bear;
$mommy->name = "Mommy Bear";
$mommy->age = 7;
$mommy->sex = "female";
$mommy->colour = "black";
$mommy->weight = 310;
// and a baby to complete the family
$baby = new Bear;
$baby->name = "Baby Bear";
$baby->age = 1;
$baby->sex = "male";
$baby->colour = "black";
$baby->weight = 180;
// a nice evening in the Bear family
// daddy kills prey and brings it home
$daddy->kill();
// mommy eats it
$mommy->eat();
// and so does baby
$baby->eat();
// mommy sleeps
$mommy->sleep();
// and so does daddy
$daddy->sleep();
// baby eats some more
$baby->eat();
?>
As the illustration above shows, once new objects are defined, their
individual methods and variables can be accessed and modified
independent of each other. This comes in very handy, as the rest of this
tutorial will show.
Going Deeper
Now that you've got the concepts straight, let's take a look at the
nitty-gritty of a class definition.
<?php
// PHP 5
// class definition
class Bear {
// define public properties
public $name;
public $age;
// more properties
// define public methods
public function eat() {
echo $this->name." is eating...
";
// more code
}
// more methods
}
?>
Every class definition begins with the keyword class, followed by a
class name. You can give your class any name that strikes your fancy,
so long as it doesn't collide with a reserved PHP word. A pair of curly
braces encloses all class variables and functions, which are written as
you would normally code them.
PHP
5 also introduces the concept of visibility to the object model.
Visibility controls the extent to which object properties and methods
can be manipulated by the caller, and plays an important role in
defining how open or closed your class is. Three levels of visibility
exist, ranging from most visible to least visible: public, private
and protected. Within the class definition, you can
mark the visibility of a property or method by preceding
it with one of the keywords - public
,
private
, or protected
.
By default, class methods and properties are public
; this allows the
calling script to reach inside your object instances and manipulate
them directly. If you don't like the thought of this intrusion, you can
mark a particular property or method as private
or protected
,
depending on how much control you want to cede over the object's internals (more
on this shortly).
Since the PHP 4 object model does not include
support for visibility, the class definition above would not work in
PHP 4. Instead, you would need to use the following:
<?php
// PHP 4
// class definition
class Bear {
// define properties
var $name;
var $weight;
var $age;
var $sex;
var $colour;
// define methods
function eat() {
echo $this->name." is eating...
";
}
function run() {
echo $this->name." is running...
";
}
function kill() {
echo $this->name." is killing prey...
";
}
function sleep() {
echo $this->name." is sleeping...
";
}
}
?>
From the above, it should be clear that class properties and methods in PHP
4 are always public ...and there ain't nuttin' you can do about that!
In order to create a new instance of a class, you use the new
keyword to assign the newly created object to a PHP variable.
<?php
$daddy = new Bear;
?>
In English, the above would mean "create a new object of class
Bear()
and assign it to the variable $daddy
".
You can now access all the methods and properties of the class via
this variable. For example, the code
<?php
$daddy->name = "Daddy Bear";
?>
would mean "assign the value Daddy Bear
to the variable $name
of
this specific instance of the class Bear()
", while the statement
<?php
$daddy->sleep();
?>
would mean "execute the function sleep()
for this specific instance
of the class Bear()
".
Note the ->
symbol used to connect objects to their properties or
methods, and the fact that the $
symbol is omitted when accessing
properties of a class instance.
This And That
In case you need to access functions or variables within the class
definition itself, both PHP 4 and PHP 5 offer the $this
keyword, which is used to refer to "this" class. To see how this works,
let's alter the eat()
method to accept a number of food units and then
add that to the bear's weight.
<?php
// PHP 5
// class definition
class Bear {
// define properties
public $name;
public $weight;
// define methods
public function eat($units) {
echo $this->name." is eating ".$units." units of food...
";
$this->weight += $units;
}
}
?>
In this case, the $this
prefix indicates that the variable to be
modified exists within the class - or, in English, "add the argument
provided to eat()
to the variable $weight
within this object". The
$this
prefix thus provides a convenient way to access variables and
functions which are "local" to the class.
Here's an example of how it works:
<?php
// create instance
$baby = new Bear;
$baby->name = "Baby Bear";
$baby->weight = 1000;
// now create another instance
// this one has independent values for each property
$brother = new Bear;
$brother->name = "Brother Bear";
$brother->weight = 1000;
// retrieve properties
echo $baby->name." weighs ".$baby->weight." units
";
echo $brother->name." weighs ".$brother->weight." units
";
// call eat()
$baby->eat(100);
$baby->eat(50);
$brother->eat(11);
// retrieve new values
echo $baby->name." now weighs ".$baby->weight." units
";
echo $brother->name." now weighs ".$brother->weight." units
";
?>
The output of this will read:
Baby Bear weighs 1000 units
Brother Bear weighs 1000 units
Baby Bear is eating 100 units of food...
Baby Bear is eating 50 units of food...
Brother Bear is eating 11 units of food...
Baby Bear now weighs 1150 units
Brother Bear now weighs 1011 units
Under Construction
It's also possible to automatically execute a function when the
class is called to create a new object. This is referred to in geek
lingo as a constructor and, in order to use it, your PHP 5
class definition must contain a special function, __construct()
.
For example, if you'd like all newly born bears to be brown and weigh
100 units, you could add this to your class definition:
<?php
// PHP 5
// class definition
class Bear {
// define properties
public $name;
public $weight;
public $age;
public $colour;
// constructor
public function __construct() {
$this->age = 0;
$this->weight = 100;
$this->colour = "brown";
}
// define methods
}
?>
In PHP 4, your constructor must have the same name as the class.
Here's the equivalent code for PHP 4:
<?php
// PHP 4
// class definition
class Bear {
// define properties
var $name;
var $weight;
var $age;
var $colour;
// constructor
function Bear() {
$this->age = 0;
$this->weight = 100;
$this->colour = "brown";
}
// define methods
}
?>
Now, try creating and using an instance of the class:
<?php
// create instance
$baby = new Bear;
$baby->name = "Baby Bear";
echo $baby->name." is ".$baby->colour." and weighs ".$baby->weight." units at birth";
?>
Here, the constructor automatically sets default properties every
time an object of the class is instantiated. Therefore, when you run
the script above, you will see this:
Baby Bear is brown and weighs 100 units at birth
Hands Off
As noted previously, PHP 5 makes it possible to mark class
properties and methods as private
, which means that they cannot be
manipulated or viewed outside the class definition. This is useful to
protect the inner workings of your class from manipulation by object
instances. Consider the following example, which illustrates this by adding
a new private
variable, $_lastUnitsConsumed
,
to the Bear()
class:
<?php
// PHP 5
// class definition
class Bear {
// define properties
public $name;
public $age;
public $weight;
private $_lastUnitsConsumed;
// constructor
public function __construct() {
$this->age = 0;
$this->weight = 100;
$this->_lastUnitsConsumed = 0;
}
// define methods
public function eat($units) {
echo $this->name." is eating ".$units." units of food...
";
$this->weight += $units;
$this->_lastUnitsConsumed = $units;
}
public function getLastMeal() {
echo "Units consumed in last meal were ".$this->_lastUnitsConsumed."
";
}
}
?>
Now, since the $_lastUnitsConsumed
variable is declared as private
,
any attempt to modify it from an object instance will fail. Here is an
example:
<?php
$bob = new Bear;
$bob->name = "Bobby Bear";
$bob->eat(100);
$bob->eat(200);
echo $bob->getLastMeal();
// the next line will generate a fatal error
$bob->_lastUnitsConsumed = 1000;
?>
In a similar way, class methods can also be marked as private
- try
it out for yourself and see.
Extending Yourself
Two of the best things about OOP, whether in PHP 4 or in PHP 5, are
extensibility and inheritance. Very simply, this means that you can
create a new class based on an existing class, add new features (read:
properties and methods) to it, and then create objects based on this
new class. These objects will contain all the features of the original
parent class, together with the new features of the child class.
As an illustration, consider the following PolarBear()
class, which
extends the Bear()
class with a new method.
<?php
// PHP 5
// class definition
class Bear {
// define properties
public $name;
public $weight;
public $age;
public $sex;
public $colour;
// constructor
public function __construct() {
$this->age = 0;
$this->weight = 100;
}
// define methods
public function eat($units) {
echo $this->name." is eating ".$units." units of food...
";
$this->weight += $units;
}
public function run() {
echo $this->name." is running...
";
}
public function kill() {
echo $this->name." is killing prey...
";
}
public function sleep() {
echo $this->name." is sleeping...
";
}
}
// extended class definition
class PolarBear extends Bear {
// constructor
public function __construct() {
parent::__construct();
$this->colour = "white";
$this->weight = 600;
}
// define methods
public function swim() {
echo $this->name." is swimming...
";
}
}
?>
The extends
keyword is used to extend a parent class to a child
class. All the functions and variables of the parent class immediately
become available to the child class. This is clearly visible in the
following code snippet:
<?php
// create instance of Bear()
$tom = new Bear;
$tom->name = "Tommy Bear";
// create instance of PolarBear()
$bob = new PolarBear;
$bob->name = "Bobby Bear";
// $bob can use all the methods of Bear() and PolarBear()
$bob->run();
$bob->kill();
$bob->swim();
// $tom can use all the methods of Bear() but not PolarBear()
$tom->run();
$tom->kill();
$tom->swim();
?>
In this case, the final call to $tom->swim()
will fail and cause
an error, because the Bear()
class does not contain a swim()
method.
However, none of the calls to $bob->run()
or $bob->kill()
will
fail, because as a child of the Bear()
class, PolarBear()
inherits all
the methods and properties of its parent.
Note how the parent class constructor has been called in the
PolarBear()
child class constructor - it's a good idea to do this so
that all necessary initialization of the parent class is carried out when a
child class is instantiated. Child-specific initialization can then be
done in the child class constructor. Only if a child class does not
have a constructor, is the parent class constructor automatically called.
You can do this in PHP 4, too. Here's a PHP 4 version of the PolarBear
class definition:
<?php
// PHP 4
// extended class definition
class PolarBear extends Bear {
// constructor
function PolarBear() {
parent::Bear();
$this->colour = "white";
$this->weight = 600;
}
// define methods
function swim() {
echo $this->name." is swimming...
";
}
}
?>
To prevent a class or its methods from being inherited, use the
final keyword before the class or method name (this is new in PHP 5
and will not work in older versions of PHP). Here's an example, which
renders the Bear()
class un-inheritable (if that's actually a
word):
<?php
// PHP 5
// class definition
final class Bear {
// define properties
// define methods
}
// extended class definition
// this will fail because Bear() cannot be extended
class PolarBear extends Bear {
// define methods
}
// create instance of PolarBear()
// this will fail because Bear() could not be extended
$bob = new PolarBear;
$bob->name = "Bobby Bear";
echo $bob->weight;
?>
Ending On A High Note
Just as there are constructors, so also are there
destructors. Destructors are object methods which are called
when the last reference to an object in memory is destroyed, and they
are usually tasked with clean-up work - for example, closing database
connections or files, destroying a session and so on. Destructors are
only available in PHP 5, and must be named __destruct()
.
Here's an example:
<?php
// PHP 5
// class definition
class Bear {
// define properties
public $name;
public $weight;
public $age;
public $sex;
public $colour;
// constructor
public function __construct() {
$this->age = 0;
$this->weight = 100;
$this->colour = "brown";
}
// destructor
public function __destruct() {
echo $this->name." is dead. He was ".$this->age." years old and ".$this->weight." units heavy. Rest in peace!
";
}
// define methods
public function eat($units) {
echo $this->name." is eating ".$units." units of food...
";
$this->weight += $units;
}
public function run() {
echo $this->name." is running...
";
}
public function kill() {
echo $this->name." is killing prey...
";
}
}
// create instance of Bear()
$daddy = new Bear;
$daddy->name = "Daddy Bear";
$daddy->age = 10;
$daddy->kill();
$daddy->eat(2000);
$daddy->run();
$daddy->eat(100);
?>
Here, once the script ends, no reference will exist for $daddy
, and
so the destructor will be called automatically. The output would look like this:
Daddy Bear is killing prey...
Daddy Bear is eating 2000 units of food...
Daddy Bear is running...
Daddy Bear is eating 100 units of food...
Daddy Bear is dead. He was 10 years old and 2200 units heavy. Rest in peace!
Discovering New Things
PHP 4 and PHP 5 come with a bunch of functions designed to let you
discover object properties and methods, and find out which class an
object belongs to. The first two of these are the get_class()
and get_parent_class()
functions, which tell you the name of
the classes which spawned a particular object. Consider the following
class definition:
<?php
// PHP 5
// base class
class Bear {
public $name;
public $weight;
// constructor
public function __construct() {
}
// define methods
public function eat() {
}
public function run() {
}
public function sleep() {
}
}
// derived class
class GrizzlyBear extends Bear {
public function kill() {
}
}
?>
And now consider the following script, which uses get_class()
and
get_parent_class()
to retrieve the class name from an instance:
<?php
$joe = new GrizzlyBear;
$joe->name = "Joe Bear";
$joe->weight = 1000;
echo "Class: " . get_class($joe);
echo "Parent class: " . get_parent_class(get_class($joe));
?>
You can view all the properties exposed by a class with
get_class_vars()
, and all its methods with get_class_methods()
function. To view properties of the specific object instance, use
get_object_vars()
instead of get_class_vars()
.
Here is an example:
<?php
// create instance
$joe = new GrizzlyBear;
$joe->name = "Joe Bear";
$joe->weight = 1000;
// get class name
$className = get_class($joe);
// get class properties
echo "Class properties:
";
print_r(get_class_vars($className));
// get class methods
echo "
Class methods:
";
print_r(get_class_methods($className));
// get this instance's properties
echo "
Instance properties:
";
print_r(get_object_vars($joe));
?>
and here is some sample output:
Class properties:
Array
(
[name] =>
[weight] =>
)
Class methods:
Array
(
[0] => kill
[1] => __construct
[2] => eat
[3] => run
[4] => sleep
)
Instance properties:
Array
(
[name] => Joe Bear
[weight] => 1000
)
As noted in one of the previous segments of this tutorial, the
print_r()
function allows you to look inside any PHP variable,
including an object. It's extremely useful, so note it down for future
reference.
Access Denied
And now that you know the basics of how objects work in PHP, let's wrap
this up with a real-world example. Consider the following userAuth()
class, which exposes methods to validate a user login using an
encrypted password file such as /etc/passwd or .htaccess, both of which
are used on Unix systems (i.e. most of the Internet). I'll assume here
that the passwords in the password file are encrypted with MD5, and use
a 12-character salt beginning with $1$:
<?php
// PHP 5
// class definition
class userAuth {
// define properties
public $username;
private $passwd;
private $passwdFile;
private $_resultCode;
// constructor
// must be passed username and password
public function __construct($username, $password) {
$this->username = $username;
$this->passwd = $password;
$this->_resultCode = -1;
}
// used to set file to read for password data
public function setPasswdFile($file) {
$this->passwdFile = $file;
}
// returns: -1 if user does not exist
// 0 if user exists but password is incorrect
// 1 if username and password are correct
public function getResultCode() {
return $this->_resultCode;
}
public function authenticateUser() {
// make sure that the script has permission to read this file!
$data = file($this->passwdFile);
// iterate through file
foreach ($data as $line) {
$arr = explode(":", $line);
// if username matches
// test password
if ($arr[0] == $this->username) {
// if match, user/pass combination is correct
// return 1
if ($arr[1] == crypt($this->passwd, $arr[1])) {
$this->_resultCode = 1;
break;
}
// otherwise return 0
else {
$this->_resultCode = 0;
break;
}
}
}
}
// end class definition
}
?>
Most of this should be clear to you from the examples in previous
pages. In case it isn't, the following script should help you
understand what's happening:
<?php
// create instance
$ua = new userAuth("joe", "secret");
// set password file
$ua->setPasswdFile("passwd.txt");
// perform authentication
$ua->authenticateUser();
// check result code and display message
switch ($ua->getResultCode()) {
case -1:
echo "Could not find your user account";
break;
case 0:
echo "Your password was incorrect";
break;
case 1:
echo "Welcome, ".$ua->username;
break;
}
?>
Here, the username and password is passed to the object constructor,
as is the name and path of the file containing authentication
credentials. The authenticateUser()
method takes care of parsing the
password file and checking if the user exists and the password is
correct. Depending on what it finds, a result code is generated and
stored in the private variable $_resultCode
. This variable
can be read through the getResultCode()
method, and an appropriate message
displayed. And since this entire thing is neatly encapsulated in a
class, I can take it anywhere, use it in any script - even inside
another application - and extend it to support different types of
authentication schemes and containers.
There's a lot more you can do with objects, especially in PHP 5;
I've restrained myself here because I didn't want to confuse you too
much with talk of overloading, abstract classes and static methods. If
you're interested, however, drop by
http://www.php.net/manual/en/language.oop.php
for more. And make sure you come back for Part Eight
of PHP 101, because I'm going to show you how to hook your scripts up to a MySQL database.