kekrozsak/vendor/doctrine/orm/lib/Doctrine/ORM/PersistentCollection.php
Polonkai Gergely 082a0130c2 Initial commit with Symfony 2.1+Vendors
Signed-off-by: Gergely POLONKAI (W00d5t0ck) <polesz@w00d5t0ck.info>
2012-07-01 09:52:20 +02:00

793 lines
19 KiB
PHP

<?php
/*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
* OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*
* This software consists of voluntary contributions made by many individuals
* and is licensed under the LGPL. For more information, see
* <http://www.doctrine-project.org>.
*/
namespace Doctrine\ORM;
use Doctrine\ORM\Mapping\ClassMetadata,
Doctrine\Common\Collections\Collection,
Doctrine\Common\Collections\ArrayCollection,
Closure;
/**
* A PersistentCollection represents a collection of elements that have persistent state.
*
* Collections of entities represent only the associations (links) to those entities.
* That means, if the collection is part of a many-many mapping and you remove
* entities from the collection, only the links in the relation table are removed (on flush).
* Similarly, if you remove entities from a collection that is part of a one-many
* mapping this will only result in the nulling out of the foreign keys on flush.
*
* @since 2.0
* @author Konsta Vesterinen <kvesteri@cc.hut.fi>
* @author Roman Borschel <roman@code-factory.org>
* @author Giorgio Sironi <piccoloprincipeazzurro@gmail.com>
* @todo Design for inheritance to allow custom implementations?
*/
final class PersistentCollection implements Collection
{
/**
* A snapshot of the collection at the moment it was fetched from the database.
* This is used to create a diff of the collection at commit time.
*
* @var array
*/
private $snapshot = array();
/**
* The entity that owns this collection.
*
* @var object
*/
private $owner;
/**
* The association mapping the collection belongs to.
* This is currently either a OneToManyMapping or a ManyToManyMapping.
*
* @var array
*/
private $association;
/**
* The EntityManager that manages the persistence of the collection.
*
* @var \Doctrine\ORM\EntityManager
*/
private $em;
/**
* The name of the field on the target entities that points to the owner
* of the collection. This is only set if the association is bi-directional.
*
* @var string
*/
private $backRefFieldName;
/**
* The class descriptor of the collection's entity type.
*/
private $typeClass;
/**
* Whether the collection is dirty and needs to be synchronized with the database
* when the UnitOfWork that manages its persistent state commits.
*
* @var boolean
*/
private $isDirty = false;
/**
* Whether the collection has already been initialized.
*
* @var boolean
*/
private $initialized = true;
/**
* The wrapped Collection instance.
*
* @var Collection
*/
private $coll;
/**
* Creates a new persistent collection.
*
* @param EntityManager $em The EntityManager the collection will be associated with.
* @param ClassMetadata $class The class descriptor of the entity type of this collection.
* @param array The collection elements.
*/
public function __construct(EntityManager $em, $class, $coll)
{
$this->coll = $coll;
$this->em = $em;
$this->typeClass = $class;
}
/**
* INTERNAL:
* Sets the collection's owning entity together with the AssociationMapping that
* describes the association between the owner and the elements of the collection.
*
* @param object $entity
* @param AssociationMapping $assoc
*/
public function setOwner($entity, array $assoc)
{
$this->owner = $entity;
$this->association = $assoc;
$this->backRefFieldName = $assoc['inversedBy'] ?: $assoc['mappedBy'];
}
/**
* INTERNAL:
* Gets the collection owner.
*
* @return object
*/
public function getOwner()
{
return $this->owner;
}
public function getTypeClass()
{
return $this->typeClass;
}
/**
* INTERNAL:
* Adds an element to a collection during hydration. This will automatically
* complete bidirectional associations in the case of a one-to-many association.
*
* @param mixed $element The element to add.
*/
public function hydrateAdd($element)
{
$this->coll->add($element);
// If _backRefFieldName is set and its a one-to-many association,
// we need to set the back reference.
if ($this->backRefFieldName && $this->association['type'] === ClassMetadata::ONE_TO_MANY) {
// Set back reference to owner
$this->typeClass->reflFields[$this->backRefFieldName]->setValue(
$element, $this->owner
);
$this->em->getUnitOfWork()->setOriginalEntityProperty(
spl_object_hash($element), $this->backRefFieldName, $this->owner
);
}
}
/**
* INTERNAL:
* Sets a keyed element in the collection during hydration.
*
* @param mixed $key The key to set.
* $param mixed $value The element to set.
*/
public function hydrateSet($key, $element)
{
$this->coll->set($key, $element);
// If _backRefFieldName is set, then the association is bidirectional
// and we need to set the back reference.
if ($this->backRefFieldName && $this->association['type'] === ClassMetadata::ONE_TO_MANY) {
// Set back reference to owner
$this->typeClass->reflFields[$this->backRefFieldName]->setValue(
$element, $this->owner
);
}
}
/**
* Initializes the collection by loading its contents from the database
* if the collection is not yet initialized.
*/
public function initialize()
{
if ($this->initialized || ! $this->association) {
return;
}
// Has NEW objects added through add(). Remember them.
$newObjects = array();
if ($this->isDirty) {
$newObjects = $this->coll->toArray();
}
$this->coll->clear();
$this->em->getUnitOfWork()->loadCollection($this);
$this->takeSnapshot();
// Reattach NEW objects added through add(), if any.
if ($newObjects) {
foreach ($newObjects as $obj) {
$this->coll->add($obj);
}
$this->isDirty = true;
}
$this->initialized = true;
}
/**
* INTERNAL:
* Tells this collection to take a snapshot of its current state.
*/
public function takeSnapshot()
{
$this->snapshot = $this->coll->toArray();
$this->isDirty = false;
}
/**
* INTERNAL:
* Returns the last snapshot of the elements in the collection.
*
* @return array The last snapshot of the elements.
*/
public function getSnapshot()
{
return $this->snapshot;
}
/**
* INTERNAL:
* getDeleteDiff
*
* @return array
*/
public function getDeleteDiff()
{
return array_udiff_assoc(
$this->snapshot,
$this->coll->toArray(),
function($a, $b) { return $a === $b ? 0 : 1; }
);
}
/**
* INTERNAL:
* getInsertDiff
*
* @return array
*/
public function getInsertDiff()
{
return array_udiff_assoc(
$this->coll->toArray(),
$this->snapshot,
function($a, $b) { return $a === $b ? 0 : 1; }
);
}
/**
* INTERNAL: Gets the association mapping of the collection.
*
* @return \Doctrine\ORM\Mapping\AssociationMapping
*/
public function getMapping()
{
return $this->association;
}
/**
* Marks this collection as changed/dirty.
*/
private function changed()
{
if ($this->isDirty) {
return;
}
$this->isDirty = true;
if ($this->association !== null &&
$this->association['isOwningSide'] &&
$this->association['type'] === ClassMetadata::MANY_TO_MANY &&
$this->owner &&
$this->em->getClassMetadata(get_class($this->owner))->isChangeTrackingNotify()) {
$this->em->getUnitOfWork()->scheduleForDirtyCheck($this->owner);
}
}
/**
* Gets a boolean flag indicating whether this collection is dirty which means
* its state needs to be synchronized with the database.
*
* @return boolean TRUE if the collection is dirty, FALSE otherwise.
*/
public function isDirty()
{
return $this->isDirty;
}
/**
* Sets a boolean flag, indicating whether this collection is dirty.
*
* @param boolean $dirty Whether the collection should be marked dirty or not.
*/
public function setDirty($dirty)
{
$this->isDirty = $dirty;
}
/**
* Sets the initialized flag of the collection, forcing it into that state.
*
* @param boolean $bool
*/
public function setInitialized($bool)
{
$this->initialized = $bool;
}
/**
* Checks whether this collection has been initialized.
*
* @return boolean
*/
public function isInitialized()
{
return $this->initialized;
}
/** {@inheritdoc} */
public function first()
{
$this->initialize();
return $this->coll->first();
}
/** {@inheritdoc} */
public function last()
{
$this->initialize();
return $this->coll->last();
}
/**
* {@inheritdoc}
*/
public function remove($key)
{
// TODO: If the keys are persistent as well (not yet implemented)
// and the collection is not initialized and orphanRemoval is
// not used we can issue a straight SQL delete/update on the
// association (table). Without initializing the collection.
$this->initialize();
$removed = $this->coll->remove($key);
if ( ! $removed) {
return $removed;
}
$this->changed();
if ($this->association !== null &&
$this->association['type'] & ClassMetadata::TO_MANY &&
$this->owner &&
$this->association['orphanRemoval']) {
$this->em->getUnitOfWork()->scheduleOrphanRemoval($removed);
}
return $removed;
}
/**
* {@inheritdoc}
*/
public function removeElement($element)
{
if ( ! $this->initialized && $this->association['fetch'] === Mapping\ClassMetadataInfo::FETCH_EXTRA_LAZY) {
if ($this->coll->contains($element)) {
return $this->coll->removeElement($element);
}
$persister = $this->em->getUnitOfWork()->getCollectionPersister($this->association);
if ($persister->removeElement($this, $element)) {
return $element;
}
return null;
}
$this->initialize();
$removed = $this->coll->removeElement($element);
if ( ! $removed) {
return $removed;
}
$this->changed();
if ($this->association !== null &&
$this->association['type'] & ClassMetadata::TO_MANY &&
$this->owner &&
$this->association['orphanRemoval']) {
$this->em->getUnitOfWork()->scheduleOrphanRemoval($element);
}
return $removed;
}
/**
* {@inheritdoc}
*/
public function containsKey($key)
{
$this->initialize();
return $this->coll->containsKey($key);
}
/**
* {@inheritdoc}
*/
public function contains($element)
{
if ( ! $this->initialized && $this->association['fetch'] === Mapping\ClassMetadataInfo::FETCH_EXTRA_LAZY) {
$persister = $this->em->getUnitOfWork()->getCollectionPersister($this->association);
return $this->coll->contains($element) || $persister->contains($this, $element);
}
$this->initialize();
return $this->coll->contains($element);
}
/**
* {@inheritdoc}
*/
public function exists(Closure $p)
{
$this->initialize();
return $this->coll->exists($p);
}
/**
* {@inheritdoc}
*/
public function indexOf($element)
{
$this->initialize();
return $this->coll->indexOf($element);
}
/**
* {@inheritdoc}
*/
public function get($key)
{
$this->initialize();
return $this->coll->get($key);
}
/**
* {@inheritdoc}
*/
public function getKeys()
{
$this->initialize();
return $this->coll->getKeys();
}
/**
* {@inheritdoc}
*/
public function getValues()
{
$this->initialize();
return $this->coll->getValues();
}
/**
* {@inheritdoc}
*/
public function count()
{
if ( ! $this->initialized && $this->association['fetch'] === Mapping\ClassMetadataInfo::FETCH_EXTRA_LAZY) {
$persister = $this->em->getUnitOfWork()->getCollectionPersister($this->association);
return $persister->count($this) + ($this->isDirty ? $this->coll->count() : 0);
}
$this->initialize();
return $this->coll->count();
}
/**
* {@inheritdoc}
*/
public function set($key, $value)
{
$this->initialize();
$this->coll->set($key, $value);
$this->changed();
}
/**
* {@inheritdoc}
*/
public function add($value)
{
$this->coll->add($value);
$this->changed();
return true;
}
/**
* {@inheritdoc}
*/
public function isEmpty()
{
$this->initialize();
return $this->coll->isEmpty();
}
/**
* {@inheritdoc}
*/
public function getIterator()
{
$this->initialize();
return $this->coll->getIterator();
}
/**
* {@inheritdoc}
*/
public function map(Closure $func)
{
$this->initialize();
return $this->coll->map($func);
}
/**
* {@inheritdoc}
*/
public function filter(Closure $p)
{
$this->initialize();
return $this->coll->filter($p);
}
/**
* {@inheritdoc}
*/
public function forAll(Closure $p)
{
$this->initialize();
return $this->coll->forAll($p);
}
/**
* {@inheritdoc}
*/
public function partition(Closure $p)
{
$this->initialize();
return $this->coll->partition($p);
}
/**
* {@inheritdoc}
*/
public function toArray()
{
$this->initialize();
return $this->coll->toArray();
}
/**
* {@inheritdoc}
*/
public function clear()
{
if ($this->initialized && $this->isEmpty()) {
return;
}
$uow = $this->em->getUnitOfWork();
if ($this->association['type'] & ClassMetadata::TO_MANY &&
$this->association['orphanRemoval'] &&
$this->owner) {
// we need to initialize here, as orphan removal acts like implicit cascadeRemove,
// hence for event listeners we need the objects in memory.
$this->initialize();
foreach ($this->coll as $element) {
$uow->scheduleOrphanRemoval($element);
}
}
$this->coll->clear();
$this->initialized = true; // direct call, {@link initialize()} is too expensive
if ($this->association['isOwningSide']) {
$this->changed();
$uow->scheduleCollectionDeletion($this);
$this->takeSnapshot();
}
}
/**
* Called by PHP when this collection is serialized. Ensures that only the
* elements are properly serialized.
*
* @internal Tried to implement Serializable first but that did not work well
* with circular references. This solution seems simpler and works well.
*/
public function __sleep()
{
return array('coll', 'initialized');
}
/* ArrayAccess implementation */
/**
* @see containsKey()
*/
public function offsetExists($offset)
{
return $this->containsKey($offset);
}
/**
* @see get()
*/
public function offsetGet($offset)
{
return $this->get($offset);
}
/**
* @see add()
* @see set()
*/
public function offsetSet($offset, $value)
{
if ( ! isset($offset)) {
return $this->add($value);
}
return $this->set($offset, $value);
}
/**
* @see remove()
*/
public function offsetUnset($offset)
{
return $this->remove($offset);
}
public function key()
{
return $this->coll->key();
}
/**
* Gets the element of the collection at the current iterator position.
*/
public function current()
{
return $this->coll->current();
}
/**
* Moves the internal iterator position to the next element.
*/
public function next()
{
return $this->coll->next();
}
/**
* Retrieves the wrapped Collection instance.
*
* @return \Doctrine\Common\Collections\Collection
*/
public function unwrap()
{
return $this->coll;
}
/**
* Extract a slice of $length elements starting at position $offset from the Collection.
*
* If $length is null it returns all elements from $offset to the end of the Collection.
* Keys have to be preserved by this method. Calling this method will only return the
* selected slice and NOT change the elements contained in the collection slice is called on.
*
* @param int $offset
* @param int $length
*
* @return array
*/
public function slice($offset, $length = null)
{
if ( ! $this->initialized && ! $this->isDirty && $this->association['fetch'] === Mapping\ClassMetadataInfo::FETCH_EXTRA_LAZY) {
$persister = $this->em->getUnitOfWork()->getCollectionPersister($this->association);
return $persister->slice($this, $offset, $length);
}
$this->initialize();
return $this->coll->slice($offset, $length);
}
/**
* Cleanup internal state of cloned persistent collection.
*
* The following problems have to be prevented:
* 1. Added entities are added to old PC
* 2. New collection is not dirty, if reused on other entity nothing
* changes.
* 3. Snapshot leads to invalid diffs being generated.
* 4. Lazy loading grabs entities from old owner object.
* 5. New collection is connected to old owner and leads to duplicate keys.
*/
public function __clone()
{
if (is_object($this->coll)) {
$this->coll = clone $this->coll;
}
$this->initialize();
$this->owner = null;
$this->snapshot = array();
$this->changed();
}
}