314 lines
9.0 KiB
ReStructuredText
314 lines
9.0 KiB
ReStructuredText
Composite Primary Keys
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======================
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Doctrine 2 supports composite primary keys natively. Composite keys are a very powerful relational database concept
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and we took good care to make sure Doctrine 2 supports as many of the composite primary key use-cases.
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For Doctrine 2.0 composite keys of primitive data-types are supported, for Doctrine 2.1 even foreign keys as
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primary keys are supported.
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This tutorial shows how the semantics of composite primary keys work and how they map to the database.
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General Considerations
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~~~~~~~~~~~~~~~~~~~~~~
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Every entity with a composite key cannot use an id generator other than "ASSIGNED". That means
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the ID fields have to have their values set before you call ``EntityManager#persist($entity)``.
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Primitive Types only
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~~~~~~~~~~~~~~~~~~~~
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Even in version 2.0 you can have composite keys as long as they only consist of the primative types
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``integer`` and ``string``. Suppose you want to create a database of cars and use the model-name
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and year of production as primary keys:
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.. configuration-block::
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.. code-block:: php
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<?php
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namespace VehicleCatalogue\Model;
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/**
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* @Entity
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*/
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class Car
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{
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/** @Id @Column(type="string") */
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private $name;
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/** @Id @Column(type="integer") */
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private $year
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public function __construct($name, $year)
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{
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$this->name = $name;
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$this->year = $year;
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}
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public function getModelName()
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{
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return $this->name;
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}
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public function getYearOfProduction()
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{
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return $this->year;
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}
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}
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.. code-block:: xml
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<?xml version="1.0" encoding="UTF-8"?>
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<doctrine-mapping xmlns="http://doctrine-project.org/schemas/orm/doctrine-mapping"
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xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"
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xsi:schemaLocation="http://doctrine-project.org/schemas/orm/doctrine-mapping
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http://www.doctrine-project.org/schemas/orm/doctrine-mapping.xsd">
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<entity name="VehicleCatalogue\Model\Car">
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<id field="name" type="string" />
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<id field="year" type="integer" />
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</entity>
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</doctrine-mapping>
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.. code-block:: yaml
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VehicleCatalogue\Model\Car:
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type: entity
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id:
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name:
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type: string
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year:
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type: integer
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Now you can use this entity:
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.. code-block:: php
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<?php
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namespace VehicleCatalogue\Model;
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// $em is the EntityManager
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$car = new Car("Audi A8", 2010);
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$em->persist($car);
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$em->flush();
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And for querying you can use arrays to both DQL and EntityRepositories:
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.. code-block:: php
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<?php
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namespace VehicleCatalogue\Model;
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// $em is the EntityManager
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$audi = $em->find("VehicleCatalogue\Model\Car", array("name" => "Audi A8", "year" => 2010));
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$dql = "SELECT c FROM VehicleCatalogue\Model\Car c WHERE c.id = ?1";
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$audi = $em->createQuery($dql)
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->setParameter(1, array("name" => "Audi A8", "year" => 2010))
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->getSingleResult();
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You can also use this entity in associations. Doctrine will then generate two foreign keys one for ``name``
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and to ``year`` to the related entities.
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.. note::
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This example shows how you can nicely solve the requirement for exisiting
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values before ``EntityManager#persist()``: By adding them as mandatory values for the constructor.
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Identity through foreign Entities
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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.. note::
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Identity through foreign entities is only supported with Doctrine 2.1
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There are tons of use-cases where the identity of an Entity should be determined by the entity
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of one or many parent entities.
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- Dynamic Attributes of an Entity (for example Article). Each Article has many
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attributes with primary key "article_id" and "attribute_name".
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- Address object of a Person, the primary key of the adress is "user_id". This is not a case of a composite primary
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key, but the identity is derived through a foreign entity and a foreign key.
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- Join Tables with metadata can be modelled as Entity, for example connections between two articles
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with a little description and a score.
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The semantics of mapping identity through foreign entities are easy:
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- Only allowed on Many-To-One or One-To-One associations.
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- Plug an ``@Id`` annotation onto every assocation.
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- Set an attribute ``association-key`` with the field name of the association in XML.
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- Set a key ``associationKey:`` with the field name of the association in YAML.
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Use-Case 1: Dynamic Attributes
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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We keep up the example of an Article with arbitrary attributes, the mapping looks like this:
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.. code-block:: php
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<?php
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namespace Application\Model;
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use Doctrine\Common\Collections\ArrayCollection;
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/**
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* @Entity
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*/
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class Article
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{
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/** @Id @Column(type="integer") @GeneratedValue */
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private $id;
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/** @Column(type="string") */
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private $title;
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/**
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* @OneToMany(targetEntity="ArticleAttribute", mappedBy="article", cascade={"ALL"}, indexBy="attribute")
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*/
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private $attributes;
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public function addAttribute($name, $value)
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{
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$this->attributes[$name] = new ArticleAttribute($name, $value, $this);
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}
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}
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/**
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* @Entity
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*/
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class ArticleAttribute
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{
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/** @Id @ManyToOne(targetEntity="Article", inversedBy="attributes") */
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private $article;
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/** @Id @Column(type="string") */
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private $attribute;
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/** @Column(type="string") */
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private $value;
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public function __construct($name, $value, $article)
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{
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$this->attribute = $name;
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$this->value = $value;
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$this->article = $article;
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}
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}
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Use-Case 2: Simple Derived Identity
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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Sometimes you have the requirement that two objects are related by a One-To-One association
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and that the dependent class should re-use the primary key of the class it depends on.
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One good example for this is a user-address relationship:
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.. code-block:: php
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<?php
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/**
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* @Entity
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*/
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class User
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{
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/** @Id @Column(type="integer") @GeneratedValue */
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private $id;
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}
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/**
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* @Entity
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*/
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class Address
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{
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/** @Id @OneToOne(targetEntity="User") */
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private $user;
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}
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Use-Case 3: Join-Table with Metadata
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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In the classic order product shop example there is the concept of the order item
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which contains references to order and product and additional data such as the amount
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of products purchased and maybe even the current price.
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.. code-block:: php
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<?php
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use Doctrine\Common\Collections\ArrayCollection;
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/** @Entity */
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class Order
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{
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/** @Id @Column(type="integer") @GeneratedValue */
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private $id;
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/** @ManyToOne(targetEntity="Customer") */
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private $customer;
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/** @OneToMany(targetEntity="OrderItem", mappedBy="order") */
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private $items;
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/** @Column(type="boolean") */
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private $payed = false;
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/** @Column(type="boolean") */
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private $shipped = false;
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/** @Column(type="datetime") */
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private $created;
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public function __construct(Customer $customer)
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{
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$this->customer = $customer;
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$this->items = new ArrayCollection();
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$this->created = new \DateTime("now");
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}
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}
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/** @Entity */
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class Product
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{
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/** @Id @Column(type="integer") @GeneratedValue */
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private $id;
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/** @Column(type="string")
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private $name;
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/** @Column(type="decimal")
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private $currentPrice;
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public function getCurrentPrice()
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{
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return $this->currentPrice;
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}
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}
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/** @Entity */
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class OrderItem
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{
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/** @Id @ManyToOne(targetEntity="Order") */
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private $order;
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/** @Id @ManyToOne(targetEntity="Product") */
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private $product;
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/** @Column(type="integer") */
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private $amount = 1;
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/** @Column(type="decimal") */
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private $offeredPrice;
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public function __construct(Order $order, Product $product, $amount = 1)
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{
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$this->order = $order;
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$this->product = $product;
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$this->offeredPrice = $product->getCurrentPrice();
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}
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}
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Performance Considerations
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~~~~~~~~~~~~~~~~~~~~~~~~~~
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Using composite keys always comes with a performance hit compared to using entities with
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a simple surrogate key. This performance impact is mostly due to additional PHP code that is
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necessary to handle this kind of keys, most notably when using derived identifiers.
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On the SQL side there is not much overhead as no additional or unexpected queries have to be
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executed to manage entities with derived foreign keys. |