Unable to __set() a protected var - php

I am trying to get the script below on __set() to update the protected var.
I want this variable to be available to everyone, not just for one instance of the class object.
So far I can only get it to work for one instance, not globally.
class SessionClass
{
protected $ssnuid = 11;
protected $paccid = 11;
protected $authkey = 11;
public function __set($name, $value){
switch ($name) {
case 'ssnuid':
$this->$ssnuid = $value;
echo $ssnuid;
break;
case 'paccid':
$this->$paccid = $value;
echo $paccid;
break;
case 'authkey':
$this->$authkey = $value;
echo $authkey;
break;
}
}
public function __get($name){
return $this->name;
}
// END CLASS
} $session = new SessionClass;
$session->ssnuid = 20;
echo $session->ssnuid;
How can I achieve this?
*Newb here so please be kind. Thanks.

Related

Can override __get from outside of a class

I have a class which contains a __geter which will return a computed value.
The __geter in my class could look like this:
public function __get($name) {
switch ($name) {
case "OnePlusOne":
return (1 + 1);
break;
default:
return null;
break;
}
}
Then I use my class:
$aclass = new MyClass();
$aclass->OnePlusOne = 5;
echo ($aclass->OnePlusOne); /* returns 5 instead of 2 */
How to make sure that it is not possible to change my class in this way?

You can add a __set() method that prevents any property you have defined as computed from being set.
public function __set($name, $value)
{
$computedProperties = ["OnePlusOne"];
if (!in_array($name, $computedProperties)) {
$this->$name = $value;
}
}

Setting PHP variable to class member in a Pass-By-Reference Fails

I am passing a variable by reference to a class method with the intention that it will be set to a member of that same class (based on a selector to the function). Although this doesn't appear to violate the rules of PHP's deprecated call-time pass-by-reference, I must be missing something, because it doesn't work.
I've dumbed down my code to illustrate the issue:
<?php
class Database
{
static $USER_TABLE = 1;
static $INVOICE_TABLE = 2;
static $PRODUCT_TABLE = 3;
var $users;
var $invoices;
var $products;
function __construct()
{
$this->users []= array ('id'=>0, 'first_name'=>'John', 'last_name'=>'Doe');
$this->products []= array('id'=>0, 'user_id'=>'0', 'printer'=>'HP','computer'=>'Toshiba');
$this->invoices []= array('id'=>0, 'user_id'=>'0', 'total_items'=>2, 'total_cost'=>700);
}
function getTable($table_name, &$table)
{
switch ($table_name)
{
case Database::$USER_TABLE: $table = $this->users; break;
case Database::$INVOICE_TABLE: $table = $this->invoices; break;
case Database::$PRODUCT_TABLE: $table = $this->products; break;
}
}
function addEntry($table_name, $info_array)
{
$this->getTable($table_name, $table); // THIS FAILS! WHY?
//$table = &$this->users; // THIS WORKS
if ($table !== null)
{
$id = 0;
if (count($table))
$id = ((int)$table[count($table)-1]['id'])+1;
$entry['id'] = $id;
foreach ($info_array as $k => $v)
{
$entry [$k]= $v;
}
$table []= $entry;
}
}
}
$db = new Database;
$db->addEntry(Database::$USER_TABLE, array('first_name'=>'Jane', 'last_name'=>'Plain'));
var_dump($db);
?>
The alternative is just to take the switch case out of getTable(...) and paste that to the top of all of my functions that would have called it, but that type of code duplication is not desirable.
Any insight is appreciated!

It'd be a lot easier just to have your getTable actually return a table:
function getTable($table_name)
{
switch ($table_name)
{
case Database::$USER_TABLE: return $this->users; break;
case Database::$INVOICE_TABLE: return $this->invoices; break;
case Database::$PRODUCT_TABLE: return $this->products; break;
}
}
And then just call the following:
$table = $this->getTable($table_name);

How to access multiple properties with magic method(__get & __set)?

I recently studied magic methods, __get and __set, and was wondering how to actually set and get multiple properties in the class.
I know it works perfectly with only one variable or array, but I'm not sure about accessing multiple variables.
Is there anyone who could explain this to me?
class myMagic2 {
public $data;
public $name;
public $age;
public function __set($item, $value) {
$this->item = $value;
}
public function __get($item){
return $this->item;
}
}
Is there a way to access all variables ($data, $name, $age)?

When i work at projects i always have these methods:
public function __set($name, $value)
{
//see if there exists a extra setter method: setName()
$method = 'set' . ucfirst($name);
if(!method_exists($this, $method))
{
//if there is no setter, receive all public/protected vars and set the correct one if found
$vars = $this->vars;
if(array_search("_" . $name, $vars) !== FALSE)
$this->{"_" . $name} = $value;
} else
$this->$method($value); //call the setter with the value
}
public function __get($name)
{
//see if there is an extra getter method: getName()
$method = 'get' . ucfirst($name);
if(!method_exists($this, $method))
{
//if there is no getter, receive all public/protected vars and return the correct one if found
$vars = $this->vars;
if(array_search("_" . $name, $vars) !== FALSE)
return $this->{"_" . $name};
} else
return $this->$method(); //call the getter
return null;
}
public function getVars()
{
if(!$this->_vars)
{
$reflect = new ReflectionClass($this);
$this->_vars = array();
foreach($reflect->getProperties(ReflectionProperty::IS_PUBLIC | ReflectionProperty::IS_PROTECTED) as $var)
{
$this->_vars[] = $var->name;
}
}
return $this->_vars;
}
So with them i give myself the freedom to create extra setter/getter for properties if i want to manipulate them before writing/returning. If no setter/getter exists for the property it falls back to the property itself. With the method getVars() you receive all public and protected properties from the class.
My class properties are always defined with an underscorce so you should probably change that.

You could follow this pattern.
Note: in the example in the post the magic methods would not have been called for $obj->data, $obj->name, or $obj->age because these values where already accessible as a public property. I changed them to be protected and altered the name to hide them.
<?php
class myMagic2{
protected $_data;
protected $_name;
protected $_age;
public function __set($item, $value){
switch($item){
case "data":
$this->_data = $value;
break;
case "name":
$this->_name = $value;
break;
case "age":
$this->_age = $value;
break;
default:
throw new Exception("Property $name does not exist.");
}
}
public function __get($item){
switch($item){
case "data":
return $this->_data;
break;
case "name":
return $this->_name;
break;
case "age":
return $this->_age;
break;
default:
throw new Exception("Property $name does not exist.");
break;
}
}
}
Normally you would do a little more then use the magic methods as a proxy to set and get classes properties. You would so validation or filtering or in some other way augmenting the operation. If you are just going to get or set a property you might as well just make the properties public and forgo using the magic methods.

get value of private var in a class through typehinted object to assign it in php 5.3

I have been reading Rafactoring by Martin Fowler and in the beginning of the book he uses an example application (written in Java), which I am trying to convert over to PHP for training purposes. (I have trimmed the code down to make this question, but it works if the variables are public.)
The trouble is to create a statement I need access to a value (see switch) using method getCode() of Movie class since $code is private. (Of course if all of the variables were public the code below would work, but I want to keep them private.)
Can someone please shed some light on how I would access the private variable calling the getCode() method of Movie from the switch in statement(). (Or if there is a better way to do it, let me know.)
class Movie {
private $title;
private $code;
public function __construct($title, $code) {
$this->title = $title;
$this->code = $code;
}
public function getCode() {
return $this->code;
}
public function getTitle() {
return $this->title;
}
}
class Rental {
private $movie; // will carry a Movie object
private $days;
public function __construct(Movie $movie, $days) {
$this->movie = $movie;
$this->days = $days;
}
public function getMovie() {
return $this->movie;
}
}
class Customer {
private $name;
private $rentals; // will be a collection of Rental Objects
public function __construct($name) {
$this->name = $name;
}
public function addRental(Rental $rental) {
$this->rentals[] = $rental;
}
public function statement() {
$thisAmount = 0;
foreach ($this->rentals as $each) {
// what is the better way to call this value??????
switch ($each->movie->code) {
case 1:
$thisAmount+= ($each->days - 2) * 1.5;
break;
case 2:
$thisAmount += $each->days * 3;
break;
case 3:
$thisAmount += 1.5;
break;
}
// show figures for this rental
$result = "\t" . $each->movie->title . "\t" . $thisAmount . "\n";
}
return $result;
}
}
// pick a movie
$movie = new Movie('Star Wars', 0);
// now rent it
$rental = new Rental($movie, '2');
// now get statement
$customer = new Customer('Joe');
$customer->addRental($rental);
echo $customer->statement();

You are iterating over a collection of movie in your foreach. So you can do it this way:
foreach($this->rentals as $rental) {
switch($rental->getMovie()->getCode()) {
Of course, you can leave your variable named each. I just find $movie more readable and understandable in this context.

replace your line with just:
$each->getMovie->getCode()

Best way to do multiple constructors in PHP

You can't put two __construct functions with unique argument signatures in a PHP class. I'd like to do this:
class Student
{
protected $id;
protected $name;
// etc.
public function __construct($id){
$this->id = $id;
// other members are still uninitialized
}
public function __construct($row_from_database){
$this->id = $row_from_database->id;
$this->name = $row_from_database->name;
// etc.
}
}
What is the best way to do this in PHP?

I'd probably do something like this:
<?php
class Student
{
public function __construct() {
// allocate your stuff
}
public static function withID( $id ) {
$instance = new self();
$instance->loadByID( $id );
return $instance;
}
public static function withRow( array $row ) {
$instance = new self();
$instance->fill( $row );
return $instance;
}
protected function loadByID( $id ) {
// do query
$row = my_awesome_db_access_stuff( $id );
$this->fill( $row );
}
protected function fill( array $row ) {
// fill all properties from array
}
}
?>
Then if i want a Student where i know the ID:
$student = Student::withID( $id );
Or if i have an array of the db row:
$student = Student::withRow( $row );
Technically you're not building multiple constructors, just static helper methods, but you get to avoid a lot of spaghetti code in the constructor this way.

The solution of Kris is really nice, but I prefer a mix of factory and fluent style:
<?php
class Student
{
protected $firstName;
protected $lastName;
// etc.
/**
* Constructor
*/
public function __construct() {
// allocate your stuff
}
/**
* Static constructor / factory
*/
public static function create() {
return new self();
}
/**
* FirstName setter - fluent style
*/
public function setFirstName($firstName) {
$this->firstName = $firstName;
return $this;
}
/**
* LastName setter - fluent style
*/
public function setLastName($lastName) {
$this->lastName = $lastName;
return $this;
}
}
// create instance
$student= Student::create()->setFirstName("John")->setLastName("Doe");
// see result
var_dump($student);
?>

PHP is a dynamic language, so you can't overload methods. You have to check the types of your argument like this:
class Student
{
protected $id;
protected $name;
// etc.
public function __construct($idOrRow){
if(is_int($idOrRow))
{
$this->id = $idOrRow;
// other members are still uninitialized
}
else if(is_array($idOrRow))
{
$this->id = $idOrRow->id;
$this->name = $idOrRow->name;
// etc.
}
}

As has already been shown here, there are many ways of declaring multiple constructors in PHP, but none of them are the correct way of doing so (since PHP technically doesn't allow it).
But it doesn't stop us from hacking this functionality...
Here's another example:
<?php
class myClass {
public function __construct() {
$get_arguments = func_get_args();
$number_of_arguments = func_num_args();
if (method_exists($this, $method_name = '__construct'.$number_of_arguments)) {
call_user_func_array(array($this, $method_name), $get_arguments);
}
}
public function __construct1($argument1) {
echo 'constructor with 1 parameter ' . $argument1 . "\n";
}
public function __construct2($argument1, $argument2) {
echo 'constructor with 2 parameter ' . $argument1 . ' ' . $argument2 . "\n";
}
public function __construct3($argument1, $argument2, $argument3) {
echo 'constructor with 3 parameter ' . $argument1 . ' ' . $argument2 . ' ' . $argument3 . "\n";
}
}
$object1 = new myClass('BUET');
$object2 = new myClass('BUET', 'is');
$object3 = new myClass('BUET', 'is', 'Best.');
Source: The easiest way to use and understand multiple constructors:
Hope this helps. :)

public function __construct() {
$parameters = func_get_args();
...
}
$o = new MyClass('One', 'Two', 3);
Now $paramters will be an array with the values 'One', 'Two', 3.
Edit,
I can add that
func_num_args()
will give you the number of parameters to the function.

You could do something like this:
public function __construct($param)
{
if(is_int($param)) {
$this->id = $param;
} elseif(is_object($param)) {
// do something else
}
}

As of version 5.4, PHP supports traits. This is not exactly what you are looking for, but a simplistic trait based approach would be:
trait StudentTrait {
protected $id;
protected $name;
final public function setId($id) {
$this->id = $id;
return $this;
}
final public function getId() { return $this->id; }
final public function setName($name) {
$this->name = $name;
return $this;
}
final public function getName() { return $this->name; }
}
class Student1 {
use StudentTrait;
final public function __construct($id) { $this->setId($id); }
}
class Student2 {
use StudentTrait;
final public function __construct($id, $name) { $this->setId($id)->setName($name); }
}
We end up with two classes, one for each constructor, which is a bit counter-productive. To maintain some sanity, I'll throw in a factory:
class StudentFactory {
static public function getStudent($id, $name = null) {
return
is_null($name)
? new Student1($id)
: new Student2($id, $name)
}
}
So, it all comes down to this:
$student1 = StudentFactory::getStudent(1);
$student2 = StudentFactory::getStudent(1, "yannis");
It's a horribly verbose approach, but it can be extremely convenient.

Here is an elegant way to do it. Create trait that will enable multiple constructors given the number of parameters. You would simply add the number of parameters to the function name "__construct". So one parameter will be "__construct1", two "__construct2"... etc.
trait constructable
{
public function __construct()
{
$a = func_get_args();
$i = func_num_args();
if (method_exists($this,$f='__construct'.$i)) {
call_user_func_array([$this,$f],$a);
}
}
}
class a{
use constructable;
public $result;
public function __construct1($a){
$this->result = $a;
}
public function __construct2($a, $b){
$this->result = $a + $b;
}
}
echo (new a(1))->result; // 1
echo (new a(1,2))->result; // 3

Another option is to use default arguments in the constructor like this
class Student {
private $id;
private $name;
//...
public function __construct($id, $row=array()) {
$this->id = $id;
foreach($row as $key => $value) $this->$key = $value;
}
}
This means you'll need to instantiate with a row like this: $student = new Student($row['id'], $row) but keeps your constructor nice and clean.
On the other hand, if you want to make use of polymorphism then you can create two classes like so:
class Student {
public function __construct($row) {
foreach($row as $key => $value) $this->$key = $value;
}
}
class EmptyStudent extends Student {
public function __construct($id) {
parent::__construct(array('id' => $id));
}
}

as stated in the other comments, as php does not support overloading, usually the "type checking tricks" in constructor are avoided and the factory pattern is used intead
ie.
$myObj = MyClass::factory('fromInteger', $params);
$myObj = MyClass::factory('fromRow', $params);

You could do something like the following which is really easy and very clean:
public function __construct()
{
$arguments = func_get_args();
switch(sizeof(func_get_args()))
{
case 0: //No arguments
break;
case 1: //One argument
$this->do_something($arguments[0]);
break;
case 2: //Two arguments
$this->do_something_else($arguments[0], $arguments[1]);
break;
}
}

This question has already been answered with very smart ways to fulfil the requirement but I am wondering why not take a step back and ask the basic question of why do we need a class with two constructors?
If my class needs two constructors then probably the way I am designing my classes needs little more consideration to come up with a design that is cleaner and more testable.
We are trying to mix up how to instantiate a class with the actual class logic.
If a Student object is in a valid state, then does it matter if it was constructed from the row of a DB or data from a web form or a cli request?
Now to answer the question that that may arise here that if we don't add the logic of creating an object from db row, then how do we create an object from the db data, we can simply add another class, call it StudentMapper if you are comfortable with data mapper pattern, in some cases you can use StudentRepository, and if nothing fits your needs you can make a StudentFactory to handle all kinds of object construction tasks.
Bottomline is to keep persistence layer out of our head when we are working on the domain objects.

I know I'm super late to the party here, but I came up with a fairly flexible pattern that should allow some really interesting and versatile implementations.
Set up your class as you normally would, with whatever variables you like.
class MyClass{
protected $myVar1;
protected $myVar2;
public function __construct($obj = null){
if($obj){
foreach (((object)$obj) as $key => $value) {
if(isset($value) && in_array($key, array_keys(get_object_vars($this)))){
$this->$key = $value;
}
}
}
}
}
When you make your object just pass an associative array with the keys of the array the same as the names of your vars, like so...
$sample_variable = new MyClass([
'myVar2'=>123,
'i_dont_want_this_one'=> 'This won\'t make it into the class'
]);
print_r($sample_variable);
The print_r($sample_variable); after this instantiation yields the following:
MyClass Object ( [myVar1:protected] => [myVar2:protected] => 123 )
Because we've initialize $group to null in our __construct(...), it is also valid to pass nothing whatsoever into the constructor as well, like so...
$sample_variable = new MyClass();
print_r($sample_variable);
Now the output is exactly as expected:
MyClass Object ( [myVar1:protected] => [myVar2:protected] => )
The reason I wrote this was so that I could directly pass the output of json_decode(...) to my constructor, and not worry about it too much.
This was executed in PHP 7.1. Enjoy!

I was facing the same issue on creating multiple constructors with different signatures but unfortunately, PHP doesn't offer a direct method to do so. Howerever, I found a trick to overcome that. Hope works for all of you too.
<?PHP
class Animal
{
public function __construct()
{
$arguments = func_get_args();
$numberOfArguments = func_num_args();
if (method_exists($this, $function = '__construct'.$numberOfArguments)) {
call_user_func_array(array($this, $function), $arguments);
}
}
public function __construct1($a1)
{
echo('__construct with 1 param called: '.$a1.PHP_EOL);
}
public function __construct2($a1, $a2)
{
echo('__construct with 2 params called: '.$a1.','.$a2.PHP_EOL);
}
public function __construct3($a1, $a2, $a3)
{
echo('__construct with 3 params called: '.$a1.','.$a2.','.$a3.PHP_EOL);
}
}
$o = new Animal('sheep');
$o = new Animal('sheep','cat');
$o = new Animal('sheep','cat','dog');
// __construct with 1 param called: sheep
// __construct with 2 params called: sheep,cat
// __construct with 3 params called: sheep,cat,dog

This is my take on it (build for php 5.6).
It will look at constructor parameter types (array, class name, no description) and compare the given arguments. Constructors must be given with least specificity last. With examples:
// demo class
class X {
public $X;
public function __construct($x) {
$this->X = $x;
}
public function __toString() {
return 'X'.$this->X;
}
}
// demo class
class Y {
public $Y;
public function __construct($y) {
$this->Y = $y;
}
public function __toString() {
return 'Y'.$this->Y;
}
}
// here be magic
abstract class MultipleConstructors {
function __construct() {
$__get_arguments = func_get_args();
$__number_of_arguments = func_num_args();
$__reflect = new ReflectionClass($this);
foreach($__reflect->getMethods() as $__reflectmethod) {
$__method_name = $__reflectmethod->getName();
if (substr($__method_name, 0, strlen('__construct')) === '__construct') {
$__parms = $__reflectmethod->getParameters();
if (count($__parms) == $__number_of_arguments) {
$__argsFit = true;
foreach ($__parms as $__argPos => $__param) {
$__paramClass= $__param->getClass();
$__argVar = func_get_arg($__argPos);
$__argVarType = gettype($__argVar);
$__paramIsArray = $__param->isArray() == true;
$__argVarIsArray = $__argVarType == 'array';
// parameter is array and argument isn't, or the other way around.
if (($__paramIsArray && !$__argVarIsArray) ||
(!$__paramIsArray && $__argVarIsArray)) {
$__argsFit = false;
continue;
}
// class check
if ((!is_null($__paramClass) && $__argVarType != 'object') ||
(is_null($__paramClass) && $__argVarType == 'object')){
$__argsFit = false;
continue;
}
if (!is_null($__paramClass) && $__argVarType == 'object') {
// class type check
$__paramClassName = "N/A";
if ($__paramClass)
$__paramClassName = $__paramClass->getName();
if ($__paramClassName != get_class($__argVar)) {
$__argsFit = false;
}
}
}
if ($__argsFit) {
call_user_func_array(array($this, $__method_name), $__get_arguments);
return;
}
}
}
}
throw new Exception("No matching constructors");
}
}
// how to use multiple constructors
class A extends MultipleConstructors {
public $value;
function __constructB(array $hey) {
$this->value = 'Array#'.count($hey).'<br/>';
}
function __construct1(X $first) {
$this->value = $first .'<br/>';
}
function __construct2(Y $second) {
$this->value = $second .'<br/>';
}
function __constructA($hey) {
$this->value = $hey.'<br/>';
}
function __toString() {
return $this->value;
}
}
$x = new X("foo");
$y = new Y("bar");
$aa = new A(array("one", "two", "three"));
echo $aa;
$ar = new A("baz");
echo $ar;
$ax = new A($x);
echo $ax;
$ay = new A($y);
echo $ay;
Result:
Array#3
baz
Xfoo
Ybar
Instead of the terminating exception if no constructor is found, it could be remove and allow for "empty" constructor. Or whatever you like.

Let me add my grain of sand here
I personally like adding a constructors as static functions that return an instance of the class (the object). The following code is an example:
class Person
{
private $name;
private $email;
public static function withName($name)
{
$person = new Person();
$person->name = $name;
return $person;
}
public static function withEmail($email)
{
$person = new Person();
$person->email = $email;
return $person;
}
}
Note that now you can create instance of the Person class like this:
$person1 = Person::withName('Example');
$person2 = Person::withEmail('yo#mi_email.com');
I took that code from:
http://alfonsojimenez.com/post/30377422731/multiple-constructors-in-php

Hmm, surprised I don't see this answer yet, suppose I'll throw my hat in the ring.
class Action {
const cancelable = 0;
const target = 1
const type = 2;
public $cancelable;
public $target;
public $type;
__construct( $opt = [] ){
$this->cancelable = isset($opt[cancelable]) ? $opt[cancelable] : true;
$this->target = isset($opt[target]) ? $opt[target] : NULL;
$this->type = isset($opt[type]) ? $opt[type] : 'action';
}
}
$myAction = new Action( [
Action::cancelable => false,
Action::type => 'spin',
.
.
.
]);
You can optionally separate the options into their own class, such as extending SplEnum.
abstract class ActionOpt extends SplEnum{
const cancelable = 0;
const target = 1
const type = 2;
}

Starting with PHP 8 we can use named arguments:
class Student {
protected int $id;
protected string $name;
public function __construct(int $id = null, string $name = null, array $row_from_database = null) {
if ($id !== null && $name !== null && $row_from_database === null) {
$this->id = $id;
$this->name = $name;
} elseif ($id === null && $name === null
&& $row_from_database !== null
&& array_keys($row_from_database) === [ 'id', 'name' ]
&& is_int($row_from_database['id'])
&& is_string($row_from_database['name'])) {
$this->id = $row_from_database['id'];
$this->name = $row_from_database['name'];
} else {
throw new InvalidArgumentException('Invalid arguments');
}
}
}
$student1 = new Student(id: 3, name: 'abc');
$student2 = new Student(row_from_database: [ 'id' => 4, 'name' => 'def' ]);
With proper checking it is possible to rule out invalid combinations of arguments, so that the created instance is a valid one at the end of the constructor (but errors will only be detected at runtime).

For php7, I compare parameters type as well, you can have two constructors with same number of parameters but different type.
trait GenericConstructorOverloadTrait
{
/**
* #var array Constructors metadata
*/
private static $constructorsCache;
/**
* Generic constructor
* GenericConstructorOverloadTrait constructor.
*/
public function __construct()
{
$params = func_get_args();
$numParams = func_num_args();
$finish = false;
if(!self::$constructorsCache){
$class = new \ReflectionClass($this);
$constructors = array_filter($class->getMethods(),
function (\ReflectionMethod $method) {
return preg_match("/\_\_construct[0-9]+/",$method->getName());
});
self::$constructorsCache = $constructors;
}
else{
$constructors = self::$constructorsCache;
}
foreach($constructors as $constructor){
$reflectionParams = $constructor->getParameters();
if(count($reflectionParams) != $numParams){
continue;
}
$matched = true;
for($i=0; $i< $numParams; $i++){
if($reflectionParams[$i]->hasType()){
$type = $reflectionParams[$i]->getType()->__toString();
}
if(
!(
!$reflectionParams[$i]->hasType() ||
($reflectionParams[$i]->hasType() &&
is_object($params[$i]) &&
$params[$i] instanceof $type) ||
($reflectionParams[$i]->hasType() &&
$reflectionParams[$i]->getType()->__toString() ==
gettype($params[$i]))
)
) {
$matched = false;
break;
}
}
if($matched){
call_user_func_array(array($this,$constructor->getName()),
$params);
$finish = true;
break;
}
}
unset($constructor);
if(!$finish){
throw new \InvalidArgumentException("Cannot match construct by params");
}
}
}
To use it:
class MultiConstructorClass{
use GenericConstructorOverloadTrait;
private $param1;
private $param2;
private $param3;
public function __construct1($param1, array $param2)
{
$this->param1 = $param1;
$this->param2 = $param2;
}
public function __construct2($param1, array $param2, \DateTime $param3)
{
$this->__construct1($param1, $param2);
$this->param3 = $param3;
}
/**
* #return \DateTime
*/
public function getParam3()
{
return $this->param3;
}
/**
* #return array
*/
public function getParam2()
{
return $this->param2;
}
/**
* #return mixed
*/
public function getParam1()
{
return $this->param1;
}
}

More modern aproach:
You are mixing seperate classes into one, entity & data hydration.
So for your case you should have 2 classes:
class Student
{
protected $id;
protected $name;
// etc.
}
class StudentHydrator
{
public function hydrate(Student $student, array $data){
$student->setId($data['id']);
if(isset($data['name')){
$student->setName($data['name']);
}
// etc. Can be replaced with foreach
return $student;
}
}
//usage
$hydrator = new StudentHydrator();
$student = $hydrator->hydrate(new Student(), ['id'=>4]);
$student2 = $hydrator->hydrate(new Student(), $rowFromDB);
Also please note that you should use doctrine or other ORM that already provides automatic entity hydration.
And you should use dependency injection in order to skip mannualy creating objects like StudentHydrator.

Kris's answer is great, but as Buttle Butku commented, new static() would be preferred in PHP 5.3+.
So I'd do it like this (modified from Kris's answer):
<?php
class Student
{
public function __construct() {
// allocate your stuff
}
public static function withID( $id ) {
$instance = new static();
$instance->loadByID( $id );
return $instance;
}
public static function withRow( array $row ) {
$instance = new static();
$instance->fill( $row );
return $instance;
}
protected function loadByID( $id ) {
// do query
$row = my_awesome_db_access_stuff( $id );
$this->fill( $row );
}
protected function fill( array $row ) {
// fill all properties from array
}
}
?>
Usage:
<?php
$student1 = Student::withID($id);
$student2 = Student::withRow($row);
?>
I also found an useful example in php.net OOP document.

In response to the best answer by Kris (which amazingly helped design my own class btw), here is a modified version for those that might find it useful. Includes methods for selecting from any column and dumping object data from array. Cheers!
public function __construct() {
$this -> id = 0;
//...
}
public static function Exists($id) {
if (!$id) return false;
$id = (int)$id;
if ($id <= 0) return false;
$mysqli = Mysql::Connect();
if (mysqli_num_rows(mysqli_query($mysqli, "SELECT id FROM users WHERE id = " . $id)) == 1) return true;
return false;
}
public static function FromId($id) {
$u = new self();
if (!$u -> FillFromColumn("id", $id)) return false;
return $u;
}
public static function FromColumn($column, $value) {
$u = new self();
if (!$u -> FillFromColumn($column, $value)) return false;
return $u;
}
public static function FromArray($row = array()) {
if (!is_array($row) || $row == array()) return false;
$u = new self();
$u -> FillFromArray($row);
return $u;
}
protected function FillFromColumn($column, $value) {
$mysqli = Mysql::Connect();
//Assuming we're only allowed to specified EXISTENT columns
$result = mysqli_query($mysqli, "SELECT * FROM users WHERE " . $column . " = '" . $value . "'");
$count = mysqli_num_rows($result);
if ($count == 0) return false;
$row = mysqli_fetch_assoc($result);
$this -> FillFromArray($row);
}
protected function FillFromArray(array $row) {
foreach($row as $i => $v) {
if (isset($this -> $i)) {
$this -> $i = $v;
}
}
}
public function ToArray() {
$m = array();
foreach ($this as $i => $v) {
$m[$i] = $v;
}
return $m;
}
public function Dump() {
print_r("<PRE>");
print_r($this -> ToArray());
print_r("</PRE>");
}

Call constructors by data type:
class A
{
function __construct($argument)
{
$type = gettype($argument);
if($type == 'unknown type')
{
// type unknown
}
$this->{'__construct_'.$type}($argument);
}
function __construct_boolean($argument)
{
// do something
}
function __construct_integer($argument)
{
// do something
}
function __construct_double($argument)
{
// do something
}
function __construct_string($argument)
{
// do something
}
function __construct_array($argument)
{
// do something
}
function __construct_object($argument)
{
// do something
}
function __construct_resource($argument)
{
// do something
}
// other functions
}

You could always add an extra parameter to the constructor called something like mode and then perform a switch statement on it...
class myClass
{
var $error ;
function __construct ( $data, $mode )
{
$this->error = false
switch ( $mode )
{
'id' : processId ( $data ) ; break ;
'row' : processRow ( $data ); break ;
default : $this->error = true ; break ;
}
}
function processId ( $data ) { /* code */ }
function processRow ( $data ) { /* code */ }
}
$a = new myClass ( $data, 'id' ) ;
$b = new myClass ( $data, 'row' ) ;
$c = new myClass ( $data, 'something' ) ;
if ( $a->error )
exit ( 'invalid mode' ) ;
if ( $b->error )
exit ('invalid mode' ) ;
if ( $c->error )
exit ('invalid mode' ) ;
Also with that method at any time if you wanted to add more functionality you can just add another case to the switch statement, and you can also check to make sure someone has sent the right thing through - in the above example all the data is ok except for C as that is set to "something" and so the error flag in the class is set and control is returned back to the main program for it to decide what to do next (in the example I just told it to exit with an error message "invalid mode" - but alternatively you could loop it back round until valid data is found).

I created this method to let use it not only on constructors but in methods:
My constructor:
function __construct() {
$paramsNumber=func_num_args();
if($paramsNumber==0){
//do something
}else{
$this->overload('__construct',func_get_args());
}
}
My doSomething method:
public function doSomething() {
$paramsNumber=func_num_args();
if($paramsNumber==0){
//do something
}else{
$this->overload('doSomething',func_get_args());
}
}
Both works with this simple method:
public function overloadMethod($methodName,$params){
$paramsNumber=sizeof($params);
//methodName1(), methodName2()...
$methodNameNumber =$methodName.$paramsNumber;
if (method_exists($this,$methodNameNumber)) {
call_user_func_array(array($this,$methodNameNumber),$params);
}
}
So you can declare
__construct1($arg1), __construct2($arg1,$arg2)...
or
methodName1($arg1), methodName2($arg1,$arg2)...
and so on :)
And when using:
$myObject = new MyClass($arg1, $arg2,..., $argN);
it will call __constructN, where you defined N args
then
$myObject -> doSomething($arg1, $arg2,..., $argM)
it will call doSomethingM, , where you defined M args;

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