LXIX. Object Aggregation/Composition Functions

Figyelem

Ez a kiterjesztés KÍSÉRLETI JELLEGGEL MŰKÖDIK. Ez azt jelenti, hogy minden itt dokumentált működés, beleértve a függvények nevét, működését vagy bármi más, amit a kiterjesztés kapcsán leírtunk megváltozhat egy későbbi PHP kiadásban minden figyelmeztetés nélkül. Ezt a kiterjesztést csak a saját felelősségedre használd!

Bevezetés

In Object Oriented Programming, it is common to see the composition of simple classes (and/or instances) into a more complex one. This is a flexible strategy for building complicated objects and object hierachies and can function as a dynamic alternative to multiple inheritance. There are two ways to perform class (and/or object) composition depending on the relationship between the composed elements: Association and Aggregation.

An Association is a composition of independently constructed and externally visible parts. When we associate classes or objects, each one keeps a reference to the ones it is associated with. When we associate classes statically, one class will contain a reference to an instance of the other class. For example:

Példa 1. Class association

class DateTime {
   
   function DateTime() {
       // empty constructor
   }

   function now() {
       return date("Y-m-d H:i:s");
   }
}

class Report {
   var $_dt = new DateTime();
   // more properties ...

   function Report() {
       // initialization code ...
   }

   function generateReport() {
       $dateTime = $_dt->now();
       // more code ...
   }

   // more methods ...
}

$rep = new Report();
We can also associate instances at runtime by passing a reference in a constructor (or any othe method), which allow us to dynamically change the association relationship between objects. We will modify the example above to illustrate this point:

Példa 2. Object association

class DateTime {
   // same as previous example
}

class DateTimePlus {
   var $_format;
   
   function DateTimePlus($format="Y-m-d H:i:s") {
       $this->_format = $format
   }

   function now() {
       return date($this->_format);
   }
}

class Report {
   var $_dt;    // we'll keep the reference to DateTime here
   // more properties ...

   function Report() {
       // do some initialization
   }

   function setDateTime(&$dt) {
       $this->_dt =& $dt;
   }

   function generateReport() {
       $dateTime = $_dt->now();
       // more code ...
   }

   // more methods ...
}

$rep = new Report();
$dt = new DateTime();
$dtp = new DateTimePlus("l, F j, Y (h:i:s a, T)");

// generate report with simple date for web display
$rep->setDateTime(&$dt);
echo $rep->generateReport();

// later on in the code ...

// generate report with fancy date
$rep->setDateTime(&$dtp);
$output = $rep->generateReport();
// save $output in database
// ... etc ...

Aggregation, on the other hand, implies encapsulation (hidding) of the parts of the composition. We can aggregate classes by using a (static) inner class (PHP does not yet support inner classes), in this case the aggregated class definition is not accessible, except through the class that contains it. The aggregation of instances (object aggregation) involves the dynamic creation of subobjects inside an object, in the process, expanding the properties and methods of that object.

Object aggregation is a natural way of representing a whole-part relationship, (for example, molecules are aggregates of atoms), or can be used to obtain an effect equivalent to multiple inheritance, without having to permanently bind a subclass to two or more parent classes and their interfaces. In fact object aggregation can be more flexible, in which we can select what methods or properties to "inherit" in the aggregated object.

Példák

We define 3 classes, each implementing a different storage method:

Példa 3. storage_classes.inc

<?php
class FileStorage {
    var $data;

    function FileStorage($data) {
        $this->data = $data;
    }
    function write($name) {
        $fp = fopen(name, "w");
        fwrite($fp, $this->data);
        fclose($data);
    }
}

class WDDXStorage {
    var $data;
    var $version = "1.0";
    var $_id; // "private" variable

    function WDDXStorage($data) {
        $this->data = $data;
        $this->_id = $this->_genID();
    }

    function store() {
        if ($this->_id) {
            $pid = wddx_packet_start($this->_id);
            wddx_add_vars($pid, "this->data");
            $packet = wddx_packet_end($pid);
        } else {
            $packet = wddx_serialize_value($this->data);
        }
        $dbh = dba_open("varstore", "w", "gdbm");
        dba_insert(md5(uniqid("",true)), $packet, $dbh);
        dba_close($dbh);
    }

    // a private method
    function _genID() {
        return md5(uniqid(rand(),true));
    }
}

class DBStorage {
    var $data;
    var $dbtype = "mysql";

    function DBStorage($data) {
        $this->data = $data;
    }

    function save() {
        $dbh = mysql_connect();
        mysql_select_db("storage", $dbh);
        $serdata = serialize($this->data);
        mysql_query("insert into vars ('$serdata',now())", $dbh);
        mysql_close($dbh);
    }
}

?>

We then instantiate a couple of objects from the defined classes, and perform some aggregations and deaggregations, printing some object information along the way:

Példa 4. test_aggregation.php

<?php
include "storageclasses.inc";

// some utilty functions

function p_arr($arr) {
    foreach($arr as $k=>$v)
        $out[] = "\t$k => $v";
    return implode("\n", $out);
}

function object_info($obj) {
    $out[] = "Class: ".get_class($obj);
    foreach(get_object_vars($obj) as $var=>$val)
        if (is_array($val))
            $out[] = "property: $var (array)\n".p_arr($val);
        else
            $out[] = "property: $var = $val";
    foreach(get_class_methods($obj) as $method)
        $out[] = "method: $method";
    return implode("\n", $out);
}


$data = array(M_PI, "kludge != cruft");

// we create some basic objects
$fs = new FileStorage($data);
$ws = new WDDXStorage($data);

// print information on the objects
echo "\$fs object\n";
echo object_info($fs)."\n";
echo "\n\$ws object\n";
echo object_info($ws)."\n";

// do some aggregation

echo "\nLet's aggregate \$fs to the WDDXStorage class\n";
aggregate($fs, "WDDXStorage");
echo "\$fs object\n";
echo object_info($fs)."\n";

echo "\nNow let us aggregate it to the DBStorage class\n";
aggregate($fs, "DBStorage");
echo "\$fs object\n";
echo object_info($fs)."\n";

echo "\nAnd finally deaggregate WDDXStorage\n";
deaggregate($fs, "WDDXStorage");
echo "\$fs object\n";
echo object_info($fs)."\n";

?>

We will now consider the output to understand some of the side-effects and limitation of object aggregation in PHP. First, the newly created $fs and $ws objects give the expected output (according to their respective class declaration). Note that for the purposes of object aggregation, private elements of a class/object begin with an underscore character ("_"), even though there is not real distinction between public and private class/object elements in PHP.

$fs object
Class: filestorage
property: data (array)
	0 => 3.1415926535898
	1 => kludge != cruft
method: filestorage
method: write

$ws object
Class: wddxstorage
property: data (array)
	0 => 3.1415926535898
	1 => kludge != cruft
property: version = 1.0
property: _id = ID::9bb2b640764d4370eb04808af8b076a5
method: wddxstorage
method: store
method: _genid

We then aggregate $fs with the WDDXStorage class, and print out the object information. We can see now that even though nominally the $fs object is still of FileStorage, it now has the property $version, and the method store(), both defined in WDDXStorage. One important thing to note is that it has not aggregated the private elements defined in the class, which are present in the $ws object. Also absent is the constructor from WDDXStorage, which will not be logical to aggegate.

Let's aggregate $fs to the WDDXStorage class
$fs object
Class: filestorage
property: data (array)
	0 => 3.1415926535898
	1 => kludge != cruft
property: version = 1.0
method: filestorage
method: write
method: store

The proccess of aggregation is cummulative, so when we aggregate $fs with the class DBStorage, generating an object that can use the storage methods of all the defined classes.

Now let us aggregate it to the DBStorage class
$fs object
Class: filestorage
property: data (array)
	0 => 3.1415926535898
	1 => kludge != cruft
property: version = 1.0
property: dbtype = mysql
method: filestorage
method: write
method: store
method: save

Finally, the same way we aggregated properties and methods dynamically, we can also deaggregate them from the object. So, if we deaggregate the class WDDXStorage from $fs, we will obtain:

And deaggregate the WDDXStorage methods and properties
$fs object
Class: filestorage
property: data (array)
	0 => 3.1415926535898
	1 => kludge != cruft
property: dbtype = mysql
method: filestorage
method: write
method: save

One point that we have not mentioned above, is that the process of aggregation will not override existing properties or methods in the objects. For example, the class FileStorage defines a $data property, and the class WDDXStorage also defines a similar property which will not override the one in the object acquired during instantiation from the class FileStorage.

Tartalom
aggregate_methods_by_list --  selective dynamic class methods aggregation to an object
aggregate_methods_by_regexp --  selective class methods aggregation to an object using a regular expression
aggregate_methods --  dynamic class and object aggregation of methods
aggregate_properties_by_list --  selective dynamic class properties aggregation to an object
aggregate_properties_by_regexp --  selective class properties aggregation to an object using a regular expression
aggregate_properties --  dynamic aggregation of class properties to an object
aggregate --  dynamic class and object aggregation of methods and properties
aggregation_info --  returns an associative array of the methods and properties from each class that has been aggregated to the object.
deaggregate --  removes the aggregated methods and properties from an object