. */ namespace Doctrine\ORM; use Exception, InvalidArgumentException, UnexpectedValueException, Doctrine\Common\Collections\ArrayCollection, Doctrine\Common\Collections\Collection, Doctrine\Common\NotifyPropertyChanged, Doctrine\Common\PropertyChangedListener, Doctrine\ORM\Event\LifecycleEventArgs, Doctrine\ORM\Mapping\ClassMetadata, Doctrine\ORM\Proxy\Proxy; /** * The UnitOfWork is responsible for tracking changes to objects during an * "object-level" transaction and for writing out changes to the database * in the correct order. * * @since 2.0 * @author Benjamin Eberlei * @author Guilherme Blanco * @author Jonathan Wage * @author Roman Borschel * @internal This class contains highly performance-sensitive code. */ class UnitOfWork implements PropertyChangedListener { /** * An entity is in MANAGED state when its persistence is managed by an EntityManager. */ const STATE_MANAGED = 1; /** * An entity is new if it has just been instantiated (i.e. using the "new" operator) * and is not (yet) managed by an EntityManager. */ const STATE_NEW = 2; /** * A detached entity is an instance with persistent state and identity that is not * (or no longer) associated with an EntityManager (and a UnitOfWork). */ const STATE_DETACHED = 3; /** * A removed entity instance is an instance with a persistent identity, * associated with an EntityManager, whose persistent state will be deleted * on commit. */ const STATE_REMOVED = 4; /** * The identity map that holds references to all managed entities that have * an identity. The entities are grouped by their class name. * Since all classes in a hierarchy must share the same identifier set, * we always take the root class name of the hierarchy. * * @var array */ private $identityMap = array(); /** * Map of all identifiers of managed entities. * Keys are object ids (spl_object_hash). * * @var array */ private $entityIdentifiers = array(); /** * Map of the original entity data of managed entities. * Keys are object ids (spl_object_hash). This is used for calculating changesets * at commit time. * * @var array * @internal Note that PHPs "copy-on-write" behavior helps a lot with memory usage. * A value will only really be copied if the value in the entity is modified * by the user. */ private $originalEntityData = array(); /** * Map of entity changes. Keys are object ids (spl_object_hash). * Filled at the beginning of a commit of the UnitOfWork and cleaned at the end. * * @var array */ private $entityChangeSets = array(); /** * The (cached) states of any known entities. * Keys are object ids (spl_object_hash). * * @var array */ private $entityStates = array(); /** * Map of entities that are scheduled for dirty checking at commit time. * This is only used for entities with a change tracking policy of DEFERRED_EXPLICIT. * Keys are object ids (spl_object_hash). * * @var array * @todo rename: scheduledForSynchronization */ private $scheduledForDirtyCheck = array(); /** * A list of all pending entity insertions. * * @var array */ private $entityInsertions = array(); /** * A list of all pending entity updates. * * @var array */ private $entityUpdates = array(); /** * Any pending extra updates that have been scheduled by persisters. * * @var array */ private $extraUpdates = array(); /** * A list of all pending entity deletions. * * @var array */ private $entityDeletions = array(); /** * All pending collection deletions. * * @var array */ private $collectionDeletions = array(); /** * All pending collection updates. * * @var array */ private $collectionUpdates = array(); /** * List of collections visited during changeset calculation on a commit-phase of a UnitOfWork. * At the end of the UnitOfWork all these collections will make new snapshots * of their data. * * @var array */ private $visitedCollections = array(); /** * The EntityManager that "owns" this UnitOfWork instance. * * @var \Doctrine\ORM\EntityManager */ private $em; /** * The calculator used to calculate the order in which changes to * entities need to be written to the database. * * @var \Doctrine\ORM\Internal\CommitOrderCalculator */ private $commitOrderCalculator; /** * The entity persister instances used to persist entity instances. * * @var array */ private $persisters = array(); /** * The collection persister instances used to persist collections. * * @var array */ private $collectionPersisters = array(); /** * The EventManager used for dispatching events. * * @var EventManager */ private $evm; /** * Orphaned entities that are scheduled for removal. * * @var array */ private $orphanRemovals = array(); /** * Read-Only objects are never evaluated * * @var array */ private $readOnlyObjects = array(); /** * Map of Entity Class-Names and corresponding IDs that should eager loaded when requested. * * @var array */ private $eagerLoadingEntities = array(); /** * Initializes a new UnitOfWork instance, bound to the given EntityManager. * * @param \Doctrine\ORM\EntityManager $em */ public function __construct(EntityManager $em) { $this->em = $em; $this->evm = $em->getEventManager(); } /** * Commits the UnitOfWork, executing all operations that have been postponed * up to this point. The state of all managed entities will be synchronized with * the database. * * The operations are executed in the following order: * * 1) All entity insertions * 2) All entity updates * 3) All collection deletions * 4) All collection updates * 5) All entity deletions * */ public function commit() { // Compute changes done since last commit. $this->computeChangeSets(); if ( ! ($this->entityInsertions || $this->entityDeletions || $this->entityUpdates || $this->collectionUpdates || $this->collectionDeletions || $this->orphanRemovals)) { return; // Nothing to do. } if ($this->orphanRemovals) { foreach ($this->orphanRemovals as $orphan) { $this->remove($orphan); } } // Raise onFlush if ($this->evm->hasListeners(Events::onFlush)) { $this->evm->dispatchEvent(Events::onFlush, new Event\OnFlushEventArgs($this->em)); } // Now we need a commit order to maintain referential integrity $commitOrder = $this->getCommitOrder(); $conn = $this->em->getConnection(); $conn->beginTransaction(); try { if ($this->entityInsertions) { foreach ($commitOrder as $class) { $this->executeInserts($class); } } if ($this->entityUpdates) { foreach ($commitOrder as $class) { $this->executeUpdates($class); } } // Extra updates that were requested by persisters. if ($this->extraUpdates) { $this->executeExtraUpdates(); } // Collection deletions (deletions of complete collections) foreach ($this->collectionDeletions as $collectionToDelete) { $this->getCollectionPersister($collectionToDelete->getMapping()) ->delete($collectionToDelete); } // Collection updates (deleteRows, updateRows, insertRows) foreach ($this->collectionUpdates as $collectionToUpdate) { $this->getCollectionPersister($collectionToUpdate->getMapping()) ->update($collectionToUpdate); } // Entity deletions come last and need to be in reverse commit order if ($this->entityDeletions) { for ($count = count($commitOrder), $i = $count - 1; $i >= 0; --$i) { $this->executeDeletions($commitOrder[$i]); } } $conn->commit(); } catch (Exception $e) { $this->em->close(); $conn->rollback(); throw $e; } // Take new snapshots from visited collections foreach ($this->visitedCollections as $coll) { $coll->takeSnapshot(); } // Clear up $this->entityInsertions = $this->entityUpdates = $this->entityDeletions = $this->extraUpdates = $this->entityChangeSets = $this->collectionUpdates = $this->collectionDeletions = $this->visitedCollections = $this->scheduledForDirtyCheck = $this->orphanRemovals = array(); } /** * Executes any extra updates that have been scheduled. */ private function executeExtraUpdates() { foreach ($this->extraUpdates as $oid => $update) { list ($entity, $changeset) = $update; $this->entityChangeSets[$oid] = $changeset; $this->getEntityPersister(get_class($entity))->update($entity); } } /** * Gets the changeset for an entity. * * @return array */ public function getEntityChangeSet($entity) { $oid = spl_object_hash($entity); if (isset($this->entityChangeSets[$oid])) { return $this->entityChangeSets[$oid]; } return array(); } /** * Computes the changes that happened to a single entity. * * Modifies/populates the following properties: * * {@link _originalEntityData} * If the entity is NEW or MANAGED but not yet fully persisted (only has an id) * then it was not fetched from the database and therefore we have no original * entity data yet. All of the current entity data is stored as the original entity data. * * {@link _entityChangeSets} * The changes detected on all properties of the entity are stored there. * A change is a tuple array where the first entry is the old value and the second * entry is the new value of the property. Changesets are used by persisters * to INSERT/UPDATE the persistent entity state. * * {@link _entityUpdates} * If the entity is already fully MANAGED (has been fetched from the database before) * and any changes to its properties are detected, then a reference to the entity is stored * there to mark it for an update. * * {@link _collectionDeletions} * If a PersistentCollection has been de-referenced in a fully MANAGED entity, * then this collection is marked for deletion. * * @param ClassMetadata $class The class descriptor of the entity. * @param object $entity The entity for which to compute the changes. */ public function computeChangeSet(ClassMetadata $class, $entity) { if ( ! $class->isInheritanceTypeNone()) { $class = $this->em->getClassMetadata(get_class($entity)); } $oid = spl_object_hash($entity); if (isset($this->readOnlyObjects[$oid])) { return; } $actualData = array(); foreach ($class->reflFields as $name => $refProp) { $value = $refProp->getValue($entity); if (isset($class->associationMappings[$name]) && ($class->associationMappings[$name]['type'] & ClassMetadata::TO_MANY) && $value !== null && ! ($value instanceof PersistentCollection)) { // If $value is not a Collection then use an ArrayCollection. if ( ! $value instanceof Collection) { $value = new ArrayCollection($value); } $assoc = $class->associationMappings[$name]; // Inject PersistentCollection $coll = new PersistentCollection( $this->em, $this->em->getClassMetadata($assoc['targetEntity']), $value ); $coll->setOwner($entity, $assoc); $coll->setDirty( ! $coll->isEmpty()); $class->reflFields[$name]->setValue($entity, $coll); $actualData[$name] = $coll; } else if ( (! $class->isIdentifier($name) || ! $class->isIdGeneratorIdentity()) && ($name !== $class->versionField) ) { $actualData[$name] = $value; } } if ( ! isset($this->originalEntityData[$oid])) { // Entity is either NEW or MANAGED but not yet fully persisted (only has an id). // These result in an INSERT. $this->originalEntityData[$oid] = $actualData; $changeSet = array(); foreach ($actualData as $propName => $actualValue) { if (isset($class->associationMappings[$propName])) { $assoc = $class->associationMappings[$propName]; if ($assoc['isOwningSide'] && $assoc['type'] & ClassMetadata::TO_ONE) { $changeSet[$propName] = array(null, $actualValue); } } else { $changeSet[$propName] = array(null, $actualValue); } } $this->entityChangeSets[$oid] = $changeSet; } else { // Entity is "fully" MANAGED: it was already fully persisted before // and we have a copy of the original data $originalData = $this->originalEntityData[$oid]; $isChangeTrackingNotify = $class->isChangeTrackingNotify(); $changeSet = ($isChangeTrackingNotify && isset($this->entityChangeSets[$oid])) ? $this->entityChangeSets[$oid] : array(); foreach ($actualData as $propName => $actualValue) { if (isset($originalData[$propName])) { $orgValue = $originalData[$propName]; } else if (array_key_exists($propName, $originalData)) { $orgValue = null; } else { // skip field, its a partially omitted one! continue; } if (isset($class->associationMappings[$propName])) { $assoc = $class->associationMappings[$propName]; if ($assoc['type'] & ClassMetadata::TO_ONE && $orgValue !== $actualValue) { if ($assoc['isOwningSide']) { $changeSet[$propName] = array($orgValue, $actualValue); } if ($orgValue !== null && $assoc['orphanRemoval']) { $this->scheduleOrphanRemoval($orgValue); } } else if ($orgValue instanceof PersistentCollection && $orgValue !== $actualValue) { // A PersistentCollection was de-referenced, so delete it. if ( ! in_array($orgValue, $this->collectionDeletions, true)) { $this->collectionDeletions[] = $orgValue; $changeSet[$propName] = $orgValue; // Signal changeset, to-many assocs will be ignored. } // Persistent collection was exchanged with the "originally" // created one. This can only mean it was cloned and replaced // on another entity. if ($actualValue instanceof PersistentCollection) { $owner = $actualValue->getOwner(); if ($owner === null) { // cloned $actualValue->setOwner($entity, $assoc); } else if ($owner !== $entity) { // no clone, we have to fix if (!$actualValue->isInitialized()) { $actualValue->initialize(); // we have to do this otherwise the cols share state } $newValue = clone $actualValue; $newValue->setOwner($entity, $assoc); $class->reflFields[$propName]->setValue($entity, $newValue); } } } } else if ($isChangeTrackingNotify) { continue; } else if ($orgValue !== $actualValue) { $changeSet[$propName] = array($orgValue, $actualValue); } } if ($changeSet) { $this->entityChangeSets[$oid] = $changeSet; $this->originalEntityData[$oid] = $actualData; $this->entityUpdates[$oid] = $entity; } } // Look for changes in associations of the entity foreach ($class->associationMappings as $field => $assoc) { $val = $class->reflFields[$field]->getValue($entity); if ($val !== null) { $this->computeAssociationChanges($assoc, $val); if (!isset($this->entityChangeSets[$oid]) && $assoc['isOwningSide'] && $assoc['type'] == ClassMetadata::MANY_TO_MANY && $val instanceof PersistentCollection && $val->isDirty()) { $this->entityChangeSets[$oid] = array(); $this->originalEntityData[$oid] = $actualData; $this->entityUpdates[$oid] = $entity; } } } } /** * Computes all the changes that have been done to entities and collections * since the last commit and stores these changes in the _entityChangeSet map * temporarily for access by the persisters, until the UoW commit is finished. */ public function computeChangeSets() { // Compute changes for INSERTed entities first. This must always happen. foreach ($this->entityInsertions as $entity) { $class = $this->em->getClassMetadata(get_class($entity)); $this->computeChangeSet($class, $entity); } // Compute changes for other MANAGED entities. Change tracking policies take effect here. foreach ($this->identityMap as $className => $entities) { $class = $this->em->getClassMetadata($className); // Skip class if instances are read-only if ($class->isReadOnly) { continue; } // If change tracking is explicit or happens through notification, then only compute // changes on entities of that type that are explicitly marked for synchronization. $entitiesToProcess = ! $class->isChangeTrackingDeferredImplicit() ? (isset($this->scheduledForDirtyCheck[$className]) ? $this->scheduledForDirtyCheck[$className] : array()) : $entities; foreach ($entitiesToProcess as $entity) { // Ignore uninitialized proxy objects if ($entity instanceof Proxy && ! $entity->__isInitialized__) { continue; } // Only MANAGED entities that are NOT SCHEDULED FOR INSERTION are processed here. $oid = spl_object_hash($entity); if ( ! isset($this->entityInsertions[$oid]) && isset($this->entityStates[$oid])) { $this->computeChangeSet($class, $entity); } } } } /** * Computes the changes of an association. * * @param AssociationMapping $assoc * @param mixed $value The value of the association. */ private function computeAssociationChanges($assoc, $value) { if ($value instanceof PersistentCollection && $value->isDirty()) { if ($assoc['isOwningSide']) { $this->collectionUpdates[] = $value; } $this->visitedCollections[] = $value; } // Look through the entities, and in any of their associations, for transient (new) // enities, recursively. ("Persistence by reachability") if ($assoc['type'] & ClassMetadata::TO_ONE) { if ($value instanceof Proxy && ! $value->__isInitialized__) { return; // Ignore uninitialized proxy objects } $value = array($value); } else if ($value instanceof PersistentCollection) { // Unwrap. Uninitialized collections will simply be empty. $value = $value->unwrap(); } $targetClass = $this->em->getClassMetadata($assoc['targetEntity']); foreach ($value as $entry) { $state = $this->getEntityState($entry, self::STATE_NEW); $oid = spl_object_hash($entry); if ($state == self::STATE_NEW) { if ( ! $assoc['isCascadePersist']) { throw new InvalidArgumentException("A new entity was found through the relationship '" . $assoc['sourceEntity'] . "#" . $assoc['fieldName'] . "' that was not" . " configured to cascade persist operations for entity: " . self::objToStr($entry) . "." . " Explicitly persist the new entity or configure cascading persist operations" . " on the relationship. If you cannot find out which entity causes the problem" . " implement '" . $assoc['targetEntity'] . "#__toString()' to get a clue."); } $this->persistNew($targetClass, $entry); $this->computeChangeSet($targetClass, $entry); } else if ($state == self::STATE_REMOVED) { return new InvalidArgumentException("Removed entity detected during flush: " . self::objToStr($entry).". Remove deleted entities from associations."); } else if ($state == self::STATE_DETACHED) { // Can actually not happen right now as we assume STATE_NEW, // so the exception will be raised from the DBAL layer (constraint violation). throw new InvalidArgumentException("A detached entity was found through a " . "relationship during cascading a persist operation."); } // MANAGED associated entities are already taken into account // during changeset calculation anyway, since they are in the identity map. } } private function persistNew($class, $entity) { $oid = spl_object_hash($entity); if (isset($class->lifecycleCallbacks[Events::prePersist])) { $class->invokeLifecycleCallbacks(Events::prePersist, $entity); } if ($this->evm->hasListeners(Events::prePersist)) { $this->evm->dispatchEvent(Events::prePersist, new LifecycleEventArgs($entity, $this->em)); } $idGen = $class->idGenerator; if ( ! $idGen->isPostInsertGenerator()) { $idValue = $idGen->generate($this->em, $entity); if ( ! $idGen instanceof \Doctrine\ORM\Id\AssignedGenerator) { $this->entityIdentifiers[$oid] = array($class->identifier[0] => $idValue); $class->setIdentifierValues($entity, $this->entityIdentifiers[$oid]); } else { $this->entityIdentifiers[$oid] = $idValue; } } $this->entityStates[$oid] = self::STATE_MANAGED; $this->scheduleForInsert($entity); } /** * INTERNAL: * Computes the changeset of an individual entity, independently of the * computeChangeSets() routine that is used at the beginning of a UnitOfWork#commit(). * * The passed entity must be a managed entity. If the entity already has a change set * because this method is invoked during a commit cycle then the change sets are added. * whereby changes detected in this method prevail. * * @ignore * @param ClassMetadata $class The class descriptor of the entity. * @param object $entity The entity for which to (re)calculate the change set. * @throws InvalidArgumentException If the passed entity is not MANAGED. */ public function recomputeSingleEntityChangeSet($class, $entity) { $oid = spl_object_hash($entity); if ( ! isset($this->entityStates[$oid]) || $this->entityStates[$oid] != self::STATE_MANAGED) { throw new InvalidArgumentException('Entity must be managed.'); } /* TODO: Just return if changetracking policy is NOTIFY? if ($class->isChangeTrackingNotify()) { return; }*/ if ( ! $class->isInheritanceTypeNone()) { $class = $this->em->getClassMetadata(get_class($entity)); } $actualData = array(); foreach ($class->reflFields as $name => $refProp) { if ( ! $class->isIdentifier($name) || ! $class->isIdGeneratorIdentity()) { $actualData[$name] = $refProp->getValue($entity); } } $originalData = $this->originalEntityData[$oid]; $changeSet = array(); foreach ($actualData as $propName => $actualValue) { $orgValue = isset($originalData[$propName]) ? $originalData[$propName] : null; if (is_object($orgValue) && $orgValue !== $actualValue) { $changeSet[$propName] = array($orgValue, $actualValue); } else if ($orgValue != $actualValue || ($orgValue === null ^ $actualValue === null)) { $changeSet[$propName] = array($orgValue, $actualValue); } } if ($changeSet) { if (isset($this->entityChangeSets[$oid])) { $this->entityChangeSets[$oid] = array_merge($this->entityChangeSets[$oid], $changeSet); } $this->originalEntityData[$oid] = $actualData; } } /** * Executes all entity insertions for entities of the specified type. * * @param \Doctrine\ORM\Mapping\ClassMetadata $class */ private function executeInserts($class) { $className = $class->name; $persister = $this->getEntityPersister($className); $hasLifecycleCallbacks = isset($class->lifecycleCallbacks[Events::postPersist]); $hasListeners = $this->evm->hasListeners(Events::postPersist); if ($hasLifecycleCallbacks || $hasListeners) { $entities = array(); } foreach ($this->entityInsertions as $oid => $entity) { if (get_class($entity) === $className) { $persister->addInsert($entity); unset($this->entityInsertions[$oid]); if ($hasLifecycleCallbacks || $hasListeners) { $entities[] = $entity; } } } $postInsertIds = $persister->executeInserts(); if ($postInsertIds) { // Persister returned post-insert IDs foreach ($postInsertIds as $id => $entity) { $oid = spl_object_hash($entity); $idField = $class->identifier[0]; $class->reflFields[$idField]->setValue($entity, $id); $this->entityIdentifiers[$oid] = array($idField => $id); $this->entityStates[$oid] = self::STATE_MANAGED; $this->originalEntityData[$oid][$idField] = $id; $this->addToIdentityMap($entity); } } if ($hasLifecycleCallbacks || $hasListeners) { foreach ($entities as $entity) { if ($hasLifecycleCallbacks) { $class->invokeLifecycleCallbacks(Events::postPersist, $entity); } if ($hasListeners) { $this->evm->dispatchEvent(Events::postPersist, new LifecycleEventArgs($entity, $this->em)); } } } } /** * Executes all entity updates for entities of the specified type. * * @param \Doctrine\ORM\Mapping\ClassMetadata $class */ private function executeUpdates($class) { $className = $class->name; $persister = $this->getEntityPersister($className); $hasPreUpdateLifecycleCallbacks = isset($class->lifecycleCallbacks[Events::preUpdate]); $hasPreUpdateListeners = $this->evm->hasListeners(Events::preUpdate); $hasPostUpdateLifecycleCallbacks = isset($class->lifecycleCallbacks[Events::postUpdate]); $hasPostUpdateListeners = $this->evm->hasListeners(Events::postUpdate); foreach ($this->entityUpdates as $oid => $entity) { if (get_class($entity) == $className || $entity instanceof Proxy && get_parent_class($entity) == $className) { if ($hasPreUpdateLifecycleCallbacks) { $class->invokeLifecycleCallbacks(Events::preUpdate, $entity); $this->recomputeSingleEntityChangeSet($class, $entity); } if ($hasPreUpdateListeners) { $this->evm->dispatchEvent(Events::preUpdate, new Event\PreUpdateEventArgs( $entity, $this->em, $this->entityChangeSets[$oid]) ); } if ($this->entityChangeSets[$oid]) { $persister->update($entity); } unset($this->entityUpdates[$oid]); if ($hasPostUpdateLifecycleCallbacks) { $class->invokeLifecycleCallbacks(Events::postUpdate, $entity); } if ($hasPostUpdateListeners) { $this->evm->dispatchEvent(Events::postUpdate, new LifecycleEventArgs($entity, $this->em)); } } } } /** * Executes all entity deletions for entities of the specified type. * * @param \Doctrine\ORM\Mapping\ClassMetadata $class */ private function executeDeletions($class) { $className = $class->name; $persister = $this->getEntityPersister($className); $hasLifecycleCallbacks = isset($class->lifecycleCallbacks[Events::postRemove]); $hasListeners = $this->evm->hasListeners(Events::postRemove); foreach ($this->entityDeletions as $oid => $entity) { if (get_class($entity) == $className || $entity instanceof Proxy && get_parent_class($entity) == $className) { $persister->delete($entity); unset( $this->entityDeletions[$oid], $this->entityIdentifiers[$oid], $this->originalEntityData[$oid], $this->entityStates[$oid] ); // Entity with this $oid after deletion treated as NEW, even if the $oid // is obtained by a new entity because the old one went out of scope. //$this->entityStates[$oid] = self::STATE_NEW; if ( ! $class->isIdentifierNatural()) { $class->reflFields[$class->identifier[0]]->setValue($entity, null); } if ($hasLifecycleCallbacks) { $class->invokeLifecycleCallbacks(Events::postRemove, $entity); } if ($hasListeners) { $this->evm->dispatchEvent(Events::postRemove, new LifecycleEventArgs($entity, $this->em)); } } } } /** * Gets the commit order. * * @return array */ private function getCommitOrder(array $entityChangeSet = null) { if ($entityChangeSet === null) { $entityChangeSet = array_merge( $this->entityInsertions, $this->entityUpdates, $this->entityDeletions ); } $calc = $this->getCommitOrderCalculator(); // See if there are any new classes in the changeset, that are not in the // commit order graph yet (dont have a node). // TODO: Can we know the know the possible $newNodes based on something more efficient? IdentityMap? $newNodes = array(); foreach ($entityChangeSet as $oid => $entity) { $className = get_class($entity); if ( ! $calc->hasClass($className)) { $class = $this->em->getClassMetadata($className); $calc->addClass($class); $newNodes[] = $class; } } // Calculate dependencies for new nodes while ($class = array_pop($newNodes)) { foreach ($class->associationMappings as $assoc) { if ($assoc['isOwningSide'] && $assoc['type'] & ClassMetadata::TO_ONE) { $targetClass = $this->em->getClassMetadata($assoc['targetEntity']); if ( ! $calc->hasClass($targetClass->name)) { $calc->addClass($targetClass); $newNodes[] = $targetClass; } $calc->addDependency($targetClass, $class); // If the target class has mapped subclasses, // these share the same dependency. if ($targetClass->subClasses) { foreach ($targetClass->subClasses as $subClassName) { $targetSubClass = $this->em->getClassMetadata($subClassName); if ( ! $calc->hasClass($subClassName)) { $calc->addClass($targetSubClass); $newNodes[] = $targetSubClass; } $calc->addDependency($targetSubClass, $class); } } } } } return $calc->getCommitOrder(); } /** * Schedules an entity for insertion into the database. * If the entity already has an identifier, it will be added to the identity map. * * @param object $entity The entity to schedule for insertion. */ public function scheduleForInsert($entity) { $oid = spl_object_hash($entity); if (isset($this->entityUpdates[$oid])) { throw new InvalidArgumentException("Dirty entity can not be scheduled for insertion."); } if (isset($this->entityDeletions[$oid])) { throw new InvalidArgumentException("Removed entity can not be scheduled for insertion."); } if (isset($this->entityInsertions[$oid])) { throw new InvalidArgumentException("Entity can not be scheduled for insertion twice."); } $this->entityInsertions[$oid] = $entity; if (isset($this->entityIdentifiers[$oid])) { $this->addToIdentityMap($entity); } } /** * Checks whether an entity is scheduled for insertion. * * @param object $entity * @return boolean */ public function isScheduledForInsert($entity) { return isset($this->entityInsertions[spl_object_hash($entity)]); } /** * Schedules an entity for being updated. * * @param object $entity The entity to schedule for being updated. */ public function scheduleForUpdate($entity) { $oid = spl_object_hash($entity); if ( ! isset($this->entityIdentifiers[$oid])) { throw new InvalidArgumentException("Entity has no identity."); } if (isset($this->entityDeletions[$oid])) { throw new InvalidArgumentException("Entity is removed."); } if ( ! isset($this->entityUpdates[$oid]) && ! isset($this->entityInsertions[$oid])) { $this->entityUpdates[$oid] = $entity; } } /** * INTERNAL: * Schedules an extra update that will be executed immediately after the * regular entity updates within the currently running commit cycle. * * Extra updates for entities are stored as (entity, changeset) tuples. * * @ignore * @param object $entity The entity for which to schedule an extra update. * @param array $changeset The changeset of the entity (what to update). */ public function scheduleExtraUpdate($entity, array $changeset) { $oid = spl_object_hash($entity); if (isset($this->extraUpdates[$oid])) { list($ignored, $changeset2) = $this->extraUpdates[$oid]; $this->extraUpdates[$oid] = array($entity, $changeset + $changeset2); } else { $this->extraUpdates[$oid] = array($entity, $changeset); } } /** * Checks whether an entity is registered as dirty in the unit of work. * Note: Is not very useful currently as dirty entities are only registered * at commit time. * * @param object $entity * @return boolean */ public function isScheduledForUpdate($entity) { return isset($this->entityUpdates[spl_object_hash($entity)]); } public function isScheduledForDirtyCheck($entity) { $rootEntityName = $this->em->getClassMetadata(get_class($entity))->rootEntityName; return isset($this->scheduledForDirtyCheck[$rootEntityName][spl_object_hash($entity)]); } /** * INTERNAL: * Schedules an entity for deletion. * * @param object $entity */ public function scheduleForDelete($entity) { $oid = spl_object_hash($entity); if (isset($this->entityInsertions[$oid])) { if ($this->isInIdentityMap($entity)) { $this->removeFromIdentityMap($entity); } unset($this->entityInsertions[$oid], $this->entityStates[$oid]); return; // entity has not been persisted yet, so nothing more to do. } if ( ! $this->isInIdentityMap($entity)) { return; // ignore } $this->removeFromIdentityMap($entity); if (isset($this->entityUpdates[$oid])) { unset($this->entityUpdates[$oid]); } if ( ! isset($this->entityDeletions[$oid])) { $this->entityDeletions[$oid] = $entity; $this->entityStates[$oid] = self::STATE_REMOVED; } } /** * Checks whether an entity is registered as removed/deleted with the unit * of work. * * @param object $entity * @return boolean */ public function isScheduledForDelete($entity) { return isset($this->entityDeletions[spl_object_hash($entity)]); } /** * Checks whether an entity is scheduled for insertion, update or deletion. * * @param $entity * @return boolean */ public function isEntityScheduled($entity) { $oid = spl_object_hash($entity); return isset($this->entityInsertions[$oid]) || isset($this->entityUpdates[$oid]) || isset($this->entityDeletions[$oid]); } /** * INTERNAL: * Registers an entity in the identity map. * Note that entities in a hierarchy are registered with the class name of * the root entity. * * @ignore * @param object $entity The entity to register. * @return boolean TRUE if the registration was successful, FALSE if the identity of * the entity in question is already managed. */ public function addToIdentityMap($entity) { $classMetadata = $this->em->getClassMetadata(get_class($entity)); $idHash = implode(' ', $this->entityIdentifiers[spl_object_hash($entity)]); if ($idHash === '') { throw new InvalidArgumentException("The given entity has no identity."); } $className = $classMetadata->rootEntityName; if (isset($this->identityMap[$className][$idHash])) { return false; } $this->identityMap[$className][$idHash] = $entity; if ($entity instanceof NotifyPropertyChanged) { $entity->addPropertyChangedListener($this); } return true; } /** * Gets the state of an entity with regard to the current unit of work. * * @param object $entity * @param integer $assume The state to assume if the state is not yet known (not MANAGED or REMOVED). * This parameter can be set to improve performance of entity state detection * by potentially avoiding a database lookup if the distinction between NEW and DETACHED * is either known or does not matter for the caller of the method. * @return int The entity state. */ public function getEntityState($entity, $assume = null) { $oid = spl_object_hash($entity); if ( ! isset($this->entityStates[$oid])) { // State can only be NEW or DETACHED, because MANAGED/REMOVED states are known. // Note that you can not remember the NEW or DETACHED state in _entityStates since // the UoW does not hold references to such objects and the object hash can be reused. // More generally because the state may "change" between NEW/DETACHED without the UoW being aware of it. if ($assume === null) { $class = $this->em->getClassMetadata(get_class($entity)); $id = $class->getIdentifierValues($entity); if ( ! $id) { return self::STATE_NEW; } else if ($class->isIdentifierNatural()) { // Check for a version field, if available, to avoid a db lookup. if ($class->isVersioned) { if ($class->getFieldValue($entity, $class->versionField)) { return self::STATE_DETACHED; } else { return self::STATE_NEW; } } else { // Last try before db lookup: check the identity map. if ($this->tryGetById($id, $class->rootEntityName)) { return self::STATE_DETACHED; } else { // db lookup if ($this->getEntityPersister(get_class($entity))->exists($entity)) { return self::STATE_DETACHED; } else { return self::STATE_NEW; } } } } else if (!$class->idGenerator->isPostInsertGenerator()) { // if we have a pre insert generator we can't be sure that having an id // really means that the entity exists. We have to verify this through // the last resort: a db lookup // Last try before db lookup: check the identity map. if ($this->tryGetById($id, $class->rootEntityName)) { return self::STATE_DETACHED; } else { // db lookup if ($this->getEntityPersister(get_class($entity))->exists($entity)) { return self::STATE_DETACHED; } else { return self::STATE_NEW; } } } else { return self::STATE_DETACHED; } } else { return $assume; } } return $this->entityStates[$oid]; } /** * INTERNAL: * Removes an entity from the identity map. This effectively detaches the * entity from the persistence management of Doctrine. * * @ignore * @param object $entity * @return boolean */ public function removeFromIdentityMap($entity) { $oid = spl_object_hash($entity); $classMetadata = $this->em->getClassMetadata(get_class($entity)); $idHash = implode(' ', $this->entityIdentifiers[$oid]); if ($idHash === '') { throw new InvalidArgumentException("The given entity has no identity."); } $className = $classMetadata->rootEntityName; if (isset($this->identityMap[$className][$idHash])) { unset($this->identityMap[$className][$idHash]); unset($this->readOnlyObjects[$oid]); //$this->entityStates[$oid] = self::STATE_DETACHED; return true; } return false; } /** * INTERNAL: * Gets an entity in the identity map by its identifier hash. * * @ignore * @param string $idHash * @param string $rootClassName * @return object */ public function getByIdHash($idHash, $rootClassName) { return $this->identityMap[$rootClassName][$idHash]; } /** * INTERNAL: * Tries to get an entity by its identifier hash. If no entity is found for * the given hash, FALSE is returned. * * @ignore * @param string $idHash * @param string $rootClassName * @return mixed The found entity or FALSE. */ public function tryGetByIdHash($idHash, $rootClassName) { return isset($this->identityMap[$rootClassName][$idHash]) ? $this->identityMap[$rootClassName][$idHash] : false; } /** * Checks whether an entity is registered in the identity map of this UnitOfWork. * * @param object $entity * @return boolean */ public function isInIdentityMap($entity) { $oid = spl_object_hash($entity); if ( ! isset($this->entityIdentifiers[$oid])) { return false; } $classMetadata = $this->em->getClassMetadata(get_class($entity)); $idHash = implode(' ', $this->entityIdentifiers[$oid]); if ($idHash === '') { return false; } return isset($this->identityMap[$classMetadata->rootEntityName][$idHash]); } /** * INTERNAL: * Checks whether an identifier hash exists in the identity map. * * @ignore * @param string $idHash * @param string $rootClassName * @return boolean */ public function containsIdHash($idHash, $rootClassName) { return isset($this->identityMap[$rootClassName][$idHash]); } /** * Persists an entity as part of the current unit of work. * * @param object $entity The entity to persist. */ public function persist($entity) { $visited = array(); $this->doPersist($entity, $visited); } /** * Persists an entity as part of the current unit of work. * * This method is internally called during persist() cascades as it tracks * the already visited entities to prevent infinite recursions. * * @param object $entity The entity to persist. * @param array $visited The already visited entities. */ private function doPersist($entity, array &$visited) { $oid = spl_object_hash($entity); if (isset($visited[$oid])) { return; // Prevent infinite recursion } $visited[$oid] = $entity; // Mark visited $class = $this->em->getClassMetadata(get_class($entity)); // We assume NEW, so DETACHED entities result in an exception on flush (constraint violation). // If we would detect DETACHED here we would throw an exception anyway with the same // consequences (not recoverable/programming error), so just assuming NEW here // lets us avoid some database lookups for entities with natural identifiers. $entityState = $this->getEntityState($entity, self::STATE_NEW); switch ($entityState) { case self::STATE_MANAGED: // Nothing to do, except if policy is "deferred explicit" if ($class->isChangeTrackingDeferredExplicit()) { $this->scheduleForDirtyCheck($entity); } break; case self::STATE_NEW: $this->persistNew($class, $entity); break; case self::STATE_REMOVED: // Entity becomes managed again unset($this->entityDeletions[$oid]); $this->entityStates[$oid] = self::STATE_MANAGED; break; case self::STATE_DETACHED: // Can actually not happen right now since we assume STATE_NEW. throw new InvalidArgumentException("Detached entity passed to persist()."); default: throw new UnexpectedValueException("Unexpected entity state: $entityState."); } $this->cascadePersist($entity, $visited); } /** * Deletes an entity as part of the current unit of work. * * @param object $entity The entity to remove. */ public function remove($entity) { $visited = array(); $this->doRemove($entity, $visited); } /** * Deletes an entity as part of the current unit of work. * * This method is internally called during delete() cascades as it tracks * the already visited entities to prevent infinite recursions. * * @param object $entity The entity to delete. * @param array $visited The map of the already visited entities. * @throws InvalidArgumentException If the instance is a detached entity. */ private function doRemove($entity, array &$visited) { $oid = spl_object_hash($entity); if (isset($visited[$oid])) { return; // Prevent infinite recursion } $visited[$oid] = $entity; // mark visited // Cascade first, because scheduleForDelete() removes the entity from the identity map, which // can cause problems when a lazy proxy has to be initialized for the cascade operation. $this->cascadeRemove($entity, $visited); $class = $this->em->getClassMetadata(get_class($entity)); $entityState = $this->getEntityState($entity); switch ($entityState) { case self::STATE_NEW: case self::STATE_REMOVED: // nothing to do break; case self::STATE_MANAGED: if (isset($class->lifecycleCallbacks[Events::preRemove])) { $class->invokeLifecycleCallbacks(Events::preRemove, $entity); } if ($this->evm->hasListeners(Events::preRemove)) { $this->evm->dispatchEvent(Events::preRemove, new LifecycleEventArgs($entity, $this->em)); } $this->scheduleForDelete($entity); break; case self::STATE_DETACHED: throw new InvalidArgumentException("A detached entity can not be removed."); default: throw new UnexpectedValueException("Unexpected entity state: $entityState."); } } /** * Merges the state of the given detached entity into this UnitOfWork. * * @param object $entity * @return object The managed copy of the entity. * @throws OptimisticLockException If the entity uses optimistic locking through a version * attribute and the version check against the managed copy fails. * * @todo Require active transaction!? OptimisticLockException may result in undefined state!? */ public function merge($entity) { $visited = array(); return $this->doMerge($entity, $visited); } /** * Executes a merge operation on an entity. * * @param object $entity * @param array $visited * @return object The managed copy of the entity. * @throws OptimisticLockException If the entity uses optimistic locking through a version * attribute and the version check against the managed copy fails. * @throws InvalidArgumentException If the entity instance is NEW. */ private function doMerge($entity, array &$visited, $prevManagedCopy = null, $assoc = null) { $oid = spl_object_hash($entity); if (isset($visited[$oid])) { return; // Prevent infinite recursion } $visited[$oid] = $entity; // mark visited $class = $this->em->getClassMetadata(get_class($entity)); // First we assume DETACHED, although it can still be NEW but we can avoid // an extra db-roundtrip this way. If it is not MANAGED but has an identity, // we need to fetch it from the db anyway in order to merge. // MANAGED entities are ignored by the merge operation. if ($this->getEntityState($entity, self::STATE_DETACHED) == self::STATE_MANAGED) { $managedCopy = $entity; } else { if ($entity instanceof Proxy && ! $entity->__isInitialized__) { $entity->__load(); } // Try to look the entity up in the identity map. $id = $class->getIdentifierValues($entity); // If there is no ID, it is actually NEW. if ( ! $id) { $managedCopy = $class->newInstance(); $this->persistNew($class, $managedCopy); } else { $flatId = $id; if ($class->containsForeignIdentifier) { // convert foreign identifiers into scalar foreign key // values to avoid object to string conversion failures. foreach ($id as $idField => $idValue) { if (isset($class->associationMappings[$idField])) { $targetClassMetadata = $this->em->getClassMetadata($class->associationMappings[$idField]['targetEntity']); $associatedId = $this->getEntityIdentifier($idValue); $flatId[$idField] = $associatedId[$targetClassMetadata->identifier[0]]; } } } $managedCopy = $this->tryGetById($flatId, $class->rootEntityName); if ($managedCopy) { // We have the entity in-memory already, just make sure its not removed. if ($this->getEntityState($managedCopy) == self::STATE_REMOVED) { throw new InvalidArgumentException('Removed entity detected during merge.' . ' Can not merge with a removed entity.'); } } else { // We need to fetch the managed copy in order to merge. $managedCopy = $this->em->find($class->name, $flatId); } if ($managedCopy === null) { // If the identifier is ASSIGNED, it is NEW, otherwise an error // since the managed entity was not found. if ($class->isIdentifierNatural()) { $managedCopy = $class->newInstance(); $class->setIdentifierValues($managedCopy, $id); $this->persistNew($class, $managedCopy); } else { throw new EntityNotFoundException; } } else { if ($managedCopy instanceof Proxy && ! $managedCopy->__isInitialized__) { $managedCopy->__load(); } } } if ($class->isVersioned) { $managedCopyVersion = $class->reflFields[$class->versionField]->getValue($managedCopy); $entityVersion = $class->reflFields[$class->versionField]->getValue($entity); // Throw exception if versions dont match. if ($managedCopyVersion != $entityVersion) { throw OptimisticLockException::lockFailedVersionMissmatch($entity, $entityVersion, $managedCopyVersion); } } // Merge state of $entity into existing (managed) entity foreach ($class->reflFields as $name => $prop) { if ( ! isset($class->associationMappings[$name])) { if ( ! $class->isIdentifier($name)) { $prop->setValue($managedCopy, $prop->getValue($entity)); } } else { $assoc2 = $class->associationMappings[$name]; if ($assoc2['type'] & ClassMetadata::TO_ONE) { $other = $prop->getValue($entity); if ($other === null) { $prop->setValue($managedCopy, null); } else if ($other instanceof Proxy && !$other->__isInitialized__) { // do not merge fields marked lazy that have not been fetched. continue; } else if ( ! $assoc2['isCascadeMerge']) { if ($this->getEntityState($other, self::STATE_DETACHED) !== self::STATE_MANAGED) { $targetClass = $this->em->getClassMetadata($assoc2['targetEntity']); $relatedId = $targetClass->getIdentifierValues($other); if ($targetClass->subClasses) { $other = $this->em->find($targetClass->name, $relatedId); } else { $other = $this->em->getProxyFactory()->getProxy($assoc2['targetEntity'], $relatedId); $this->registerManaged($other, $relatedId, array()); } } $prop->setValue($managedCopy, $other); } } else { $mergeCol = $prop->getValue($entity); if ($mergeCol instanceof PersistentCollection && !$mergeCol->isInitialized()) { // do not merge fields marked lazy that have not been fetched. // keep the lazy persistent collection of the managed copy. continue; } $managedCol = $prop->getValue($managedCopy); if (!$managedCol) { $managedCol = new PersistentCollection($this->em, $this->em->getClassMetadata($assoc2['targetEntity']), new ArrayCollection ); $managedCol->setOwner($managedCopy, $assoc2); $prop->setValue($managedCopy, $managedCol); $this->originalEntityData[$oid][$name] = $managedCol; } if ($assoc2['isCascadeMerge']) { $managedCol->initialize(); // clear and set dirty a managed collection if its not also the same collection to merge from. if (!$managedCol->isEmpty() && $managedCol != $mergeCol) { $managedCol->unwrap()->clear(); $managedCol->setDirty(true); if ($assoc2['isOwningSide'] && $assoc2['type'] == ClassMetadata::MANY_TO_MANY && $class->isChangeTrackingNotify()) { $this->scheduleForDirtyCheck($managedCopy); } } } } } if ($class->isChangeTrackingNotify()) { // Just treat all properties as changed, there is no other choice. $this->propertyChanged($managedCopy, $name, null, $prop->getValue($managedCopy)); } } if ($class->isChangeTrackingDeferredExplicit()) { $this->scheduleForDirtyCheck($entity); } } if ($prevManagedCopy !== null) { $assocField = $assoc['fieldName']; $prevClass = $this->em->getClassMetadata(get_class($prevManagedCopy)); if ($assoc['type'] & ClassMetadata::TO_ONE) { $prevClass->reflFields[$assocField]->setValue($prevManagedCopy, $managedCopy); } else { $prevClass->reflFields[$assocField]->getValue($prevManagedCopy)->add($managedCopy); if ($assoc['type'] == ClassMetadata::ONE_TO_MANY) { $class->reflFields[$assoc['mappedBy']]->setValue($managedCopy, $prevManagedCopy); } } } // Mark the managed copy visited as well $visited[spl_object_hash($managedCopy)] = true; $this->cascadeMerge($entity, $managedCopy, $visited); return $managedCopy; } /** * Detaches an entity from the persistence management. It's persistence will * no longer be managed by Doctrine. * * @param object $entity The entity to detach. */ public function detach($entity) { $visited = array(); $this->doDetach($entity, $visited); } /** * Executes a detach operation on the given entity. * * @param object $entity * @param array $visited */ private function doDetach($entity, array &$visited) { $oid = spl_object_hash($entity); if (isset($visited[$oid])) { return; // Prevent infinite recursion } $visited[$oid] = $entity; // mark visited switch ($this->getEntityState($entity, self::STATE_DETACHED)) { case self::STATE_MANAGED: if ($this->isInIdentityMap($entity)) { $this->removeFromIdentityMap($entity); } unset($this->entityInsertions[$oid], $this->entityUpdates[$oid], $this->entityDeletions[$oid], $this->entityIdentifiers[$oid], $this->entityStates[$oid], $this->originalEntityData[$oid]); break; case self::STATE_NEW: case self::STATE_DETACHED: return; } $this->cascadeDetach($entity, $visited); } /** * Refreshes the state of the given entity from the database, overwriting * any local, unpersisted changes. * * @param object $entity The entity to refresh. * @throws InvalidArgumentException If the entity is not MANAGED. */ public function refresh($entity) { $visited = array(); $this->doRefresh($entity, $visited); } /** * Executes a refresh operation on an entity. * * @param object $entity The entity to refresh. * @param array $visited The already visited entities during cascades. * @throws InvalidArgumentException If the entity is not MANAGED. */ private function doRefresh($entity, array &$visited) { $oid = spl_object_hash($entity); if (isset($visited[$oid])) { return; // Prevent infinite recursion } $visited[$oid] = $entity; // mark visited $class = $this->em->getClassMetadata(get_class($entity)); if ($this->getEntityState($entity) == self::STATE_MANAGED) { $this->getEntityPersister($class->name)->refresh( array_combine($class->getIdentifierFieldNames(), $this->entityIdentifiers[$oid]), $entity ); } else { throw new InvalidArgumentException("Entity is not MANAGED."); } $this->cascadeRefresh($entity, $visited); } /** * Cascades a refresh operation to associated entities. * * @param object $entity * @param array $visited */ private function cascadeRefresh($entity, array &$visited) { $class = $this->em->getClassMetadata(get_class($entity)); foreach ($class->associationMappings as $assoc) { if ( ! $assoc['isCascadeRefresh']) { continue; } $relatedEntities = $class->reflFields[$assoc['fieldName']]->getValue($entity); if ($relatedEntities instanceof Collection) { if ($relatedEntities instanceof PersistentCollection) { // Unwrap so that foreach() does not initialize $relatedEntities = $relatedEntities->unwrap(); } foreach ($relatedEntities as $relatedEntity) { $this->doRefresh($relatedEntity, $visited); } } else if ($relatedEntities !== null) { $this->doRefresh($relatedEntities, $visited); } } } /** * Cascades a detach operation to associated entities. * * @param object $entity * @param array $visited */ private function cascadeDetach($entity, array &$visited) { $class = $this->em->getClassMetadata(get_class($entity)); foreach ($class->associationMappings as $assoc) { if ( ! $assoc['isCascadeDetach']) { continue; } $relatedEntities = $class->reflFields[$assoc['fieldName']]->getValue($entity); if ($relatedEntities instanceof Collection) { if ($relatedEntities instanceof PersistentCollection) { // Unwrap so that foreach() does not initialize $relatedEntities = $relatedEntities->unwrap(); } foreach ($relatedEntities as $relatedEntity) { $this->doDetach($relatedEntity, $visited); } } else if ($relatedEntities !== null) { $this->doDetach($relatedEntities, $visited); } } } /** * Cascades a merge operation to associated entities. * * @param object $entity * @param object $managedCopy * @param array $visited */ private function cascadeMerge($entity, $managedCopy, array &$visited) { $class = $this->em->getClassMetadata(get_class($entity)); foreach ($class->associationMappings as $assoc) { if ( ! $assoc['isCascadeMerge']) { continue; } $relatedEntities = $class->reflFields[$assoc['fieldName']]->getValue($entity); if ($relatedEntities instanceof Collection) { if ($relatedEntities === $class->reflFields[$assoc['fieldName']]->getValue($managedCopy)) { continue; } if ($relatedEntities instanceof PersistentCollection) { // Unwrap so that foreach() does not initialize $relatedEntities = $relatedEntities->unwrap(); } foreach ($relatedEntities as $relatedEntity) { $this->doMerge($relatedEntity, $visited, $managedCopy, $assoc); } } else if ($relatedEntities !== null) { $this->doMerge($relatedEntities, $visited, $managedCopy, $assoc); } } } /** * Cascades the save operation to associated entities. * * @param object $entity * @param array $visited * @param array $insertNow */ private function cascadePersist($entity, array &$visited) { $class = $this->em->getClassMetadata(get_class($entity)); foreach ($class->associationMappings as $assoc) { if ( ! $assoc['isCascadePersist']) { continue; } $relatedEntities = $class->reflFields[$assoc['fieldName']]->getValue($entity); if (($relatedEntities instanceof Collection || is_array($relatedEntities))) { if ($relatedEntities instanceof PersistentCollection) { // Unwrap so that foreach() does not initialize $relatedEntities = $relatedEntities->unwrap(); } foreach ($relatedEntities as $relatedEntity) { $this->doPersist($relatedEntity, $visited); } } else if ($relatedEntities !== null) { $this->doPersist($relatedEntities, $visited); } } } /** * Cascades the delete operation to associated entities. * * @param object $entity * @param array $visited */ private function cascadeRemove($entity, array &$visited) { $class = $this->em->getClassMetadata(get_class($entity)); foreach ($class->associationMappings as $assoc) { if ( ! $assoc['isCascadeRemove']) { continue; } if ($entity instanceof Proxy && !$entity->__isInitialized__) { $entity->__load(); } $relatedEntities = $class->reflFields[$assoc['fieldName']]->getValue($entity); if ($relatedEntities instanceof Collection || is_array($relatedEntities)) { // If its a PersistentCollection initialization is intended! No unwrap! foreach ($relatedEntities as $relatedEntity) { $this->doRemove($relatedEntity, $visited); } } else if ($relatedEntities !== null) { $this->doRemove($relatedEntities, $visited); } } } /** * Acquire a lock on the given entity. * * @param object $entity * @param int $lockMode * @param int $lockVersion */ public function lock($entity, $lockMode, $lockVersion = null) { if ($this->getEntityState($entity, self::STATE_DETACHED) != self::STATE_MANAGED) { throw new InvalidArgumentException("Entity is not MANAGED."); } $entityName = get_class($entity); $class = $this->em->getClassMetadata($entityName); if ($lockMode == \Doctrine\DBAL\LockMode::OPTIMISTIC) { if (!$class->isVersioned) { throw OptimisticLockException::notVersioned($entityName); } if ($lockVersion != null) { $entityVersion = $class->reflFields[$class->versionField]->getValue($entity); if ($entityVersion != $lockVersion) { throw OptimisticLockException::lockFailedVersionMissmatch($entity, $lockVersion, $entityVersion); } } } else if (in_array($lockMode, array(\Doctrine\DBAL\LockMode::PESSIMISTIC_READ, \Doctrine\DBAL\LockMode::PESSIMISTIC_WRITE))) { if (!$this->em->getConnection()->isTransactionActive()) { throw TransactionRequiredException::transactionRequired(); } $oid = spl_object_hash($entity); $this->getEntityPersister($class->name)->lock( array_combine($class->getIdentifierFieldNames(), $this->entityIdentifiers[$oid]), $lockMode ); } } /** * Gets the CommitOrderCalculator used by the UnitOfWork to order commits. * * @return \Doctrine\ORM\Internal\CommitOrderCalculator */ public function getCommitOrderCalculator() { if ($this->commitOrderCalculator === null) { $this->commitOrderCalculator = new Internal\CommitOrderCalculator; } return $this->commitOrderCalculator; } /** * Clears the UnitOfWork. */ public function clear() { $this->identityMap = $this->entityIdentifiers = $this->originalEntityData = $this->entityChangeSets = $this->entityStates = $this->scheduledForDirtyCheck = $this->entityInsertions = $this->entityUpdates = $this->entityDeletions = $this->collectionDeletions = $this->collectionUpdates = $this->extraUpdates = $this->readOnlyObjects = $this->orphanRemovals = array(); if ($this->commitOrderCalculator !== null) { $this->commitOrderCalculator->clear(); } if ($this->evm->hasListeners(Events::onClear)) { $this->evm->dispatchEvent(Events::onClear, new Event\OnClearEventArgs($this->em)); } } /** * INTERNAL: * Schedules an orphaned entity for removal. The remove() operation will be * invoked on that entity at the beginning of the next commit of this * UnitOfWork. * * @ignore * @param object $entity */ public function scheduleOrphanRemoval($entity) { $this->orphanRemovals[spl_object_hash($entity)] = $entity; } /** * INTERNAL: * Schedules a complete collection for removal when this UnitOfWork commits. * * @param PersistentCollection $coll */ public function scheduleCollectionDeletion(PersistentCollection $coll) { //TODO: if $coll is already scheduled for recreation ... what to do? // Just remove $coll from the scheduled recreations? $this->collectionDeletions[] = $coll; } public function isCollectionScheduledForDeletion(PersistentCollection $coll) { return in_array($coll, $this->collectionsDeletions, true); } /** * INTERNAL: * Creates an entity. Used for reconstitution of persistent entities. * * @ignore * @param string $className The name of the entity class. * @param array $data The data for the entity. * @param array $hints Any hints to account for during reconstitution/lookup of the entity. * @return object The managed entity instance. * @internal Highly performance-sensitive method. * * @todo Rename: getOrCreateEntity */ public function createEntity($className, array $data, &$hints = array()) { $class = $this->em->getClassMetadata($className); //$isReadOnly = isset($hints[Query::HINT_READ_ONLY]); if ($class->isIdentifierComposite) { $id = array(); foreach ($class->identifier as $fieldName) { if (isset($class->associationMappings[$fieldName])) { $id[$fieldName] = $data[$class->associationMappings[$fieldName]['joinColumns'][0]['name']]; } else { $id[$fieldName] = $data[$fieldName]; } } $idHash = implode(' ', $id); } else { if (isset($class->associationMappings[$class->identifier[0]])) { $idHash = $data[$class->associationMappings[$class->identifier[0]]['joinColumns'][0]['name']]; } else { $idHash = $data[$class->identifier[0]]; } $id = array($class->identifier[0] => $idHash); } if (isset($this->identityMap[$class->rootEntityName][$idHash])) { $entity = $this->identityMap[$class->rootEntityName][$idHash]; $oid = spl_object_hash($entity); if ($entity instanceof Proxy && ! $entity->__isInitialized__) { $entity->__isInitialized__ = true; $overrideLocalValues = true; if ($entity instanceof NotifyPropertyChanged) { $entity->addPropertyChangedListener($this); } } else { $overrideLocalValues = isset($hints[Query::HINT_REFRESH]); // If only a specific entity is set to refresh, check that it's the one if(isset($hints[Query::HINT_REFRESH_ENTITY])) { $overrideLocalValues = $hints[Query::HINT_REFRESH_ENTITY] === $entity; } } if ($overrideLocalValues) { $this->originalEntityData[$oid] = $data; } } else { $entity = $class->newInstance(); $oid = spl_object_hash($entity); $this->entityIdentifiers[$oid] = $id; $this->entityStates[$oid] = self::STATE_MANAGED; $this->originalEntityData[$oid] = $data; $this->identityMap[$class->rootEntityName][$idHash] = $entity; if ($entity instanceof NotifyPropertyChanged) { $entity->addPropertyChangedListener($this); } $overrideLocalValues = true; } if ($overrideLocalValues) { foreach ($data as $field => $value) { if (isset($class->fieldMappings[$field])) { $class->reflFields[$field]->setValue($entity, $value); } } // Loading the entity right here, if its in the eager loading map get rid of it there. unset($this->eagerLoadingEntities[$class->rootEntityName][$idHash]); // Properly initialize any unfetched associations, if partial objects are not allowed. if ( ! isset($hints[Query::HINT_FORCE_PARTIAL_LOAD])) { foreach ($class->associationMappings as $field => $assoc) { // Check if the association is not among the fetch-joined associations already. if (isset($hints['fetchAlias']) && isset($hints['fetched'][$hints['fetchAlias']][$field])) { continue; } $targetClass = $this->em->getClassMetadata($assoc['targetEntity']); if ($assoc['type'] & ClassMetadata::TO_ONE) { if ($assoc['isOwningSide']) { $associatedId = array(); // TODO: Is this even computed right in all cases of composite keys? foreach ($assoc['targetToSourceKeyColumns'] as $targetColumn => $srcColumn) { $joinColumnValue = isset($data[$srcColumn]) ? $data[$srcColumn] : null; if ($joinColumnValue !== null) { if ($targetClass->containsForeignIdentifier) { $associatedId[$targetClass->getFieldForColumn($targetColumn)] = $joinColumnValue; } else { $associatedId[$targetClass->fieldNames[$targetColumn]] = $joinColumnValue; } } } if ( ! $associatedId) { // Foreign key is NULL $class->reflFields[$field]->setValue($entity, null); $this->originalEntityData[$oid][$field] = null; } else { if (!isset($hints['fetchMode'][$class->name][$field])) { $hints['fetchMode'][$class->name][$field] = $assoc['fetch']; } // Foreign key is set // Check identity map first // FIXME: Can break easily with composite keys if join column values are in // wrong order. The correct order is the one in ClassMetadata#identifier. $relatedIdHash = implode(' ', $associatedId); if (isset($this->identityMap[$targetClass->rootEntityName][$relatedIdHash])) { $newValue = $this->identityMap[$targetClass->rootEntityName][$relatedIdHash]; // if this is an uninitialized proxy, we are deferring eager loads, // this association is marked as eager fetch, and its an uninitialized proxy (wtf!) // then we cann append this entity for eager loading! if ($hints['fetchMode'][$class->name][$field] == ClassMetadata::FETCH_EAGER && isset($hints['deferEagerLoad']) && !$targetClass->isIdentifierComposite && $newValue instanceof Proxy && $newValue->__isInitialized__ === false) { $this->eagerLoadingEntities[$targetClass->rootEntityName][$relatedIdHash] = current($associatedId); } } else { if ($targetClass->subClasses) { // If it might be a subtype, it can not be lazy. There isn't even // a way to solve this with deferred eager loading, which means putting // an entity with subclasses at a *-to-one location is really bad! (performance-wise) $newValue = $this->getEntityPersister($assoc['targetEntity']) ->loadOneToOneEntity($assoc, $entity, $associatedId); } else { // Deferred eager load only works for single identifier classes if ($hints['fetchMode'][$class->name][$field] == ClassMetadata::FETCH_EAGER) { if (isset($hints['deferEagerLoad']) && !$targetClass->isIdentifierComposite) { // TODO: Is there a faster approach? $this->eagerLoadingEntities[$targetClass->rootEntityName][$relatedIdHash] = current($associatedId); $newValue = $this->em->getProxyFactory()->getProxy($assoc['targetEntity'], $associatedId); } else { // TODO: This is very imperformant, ignore it? $newValue = $this->em->find($assoc['targetEntity'], $associatedId); } } else { $newValue = $this->em->getProxyFactory()->getProxy($assoc['targetEntity'], $associatedId); } // PERF: Inlined & optimized code from UnitOfWork#registerManaged() $newValueOid = spl_object_hash($newValue); $this->entityIdentifiers[$newValueOid] = $associatedId; $this->identityMap[$targetClass->rootEntityName][$relatedIdHash] = $newValue; $this->entityStates[$newValueOid] = self::STATE_MANAGED; // make sure that when an proxy is then finally loaded, $this->originalEntityData is set also! } } $this->originalEntityData[$oid][$field] = $newValue; $class->reflFields[$field]->setValue($entity, $newValue); if ($assoc['inversedBy'] && $assoc['type'] & ClassMetadata::ONE_TO_ONE) { $inverseAssoc = $targetClass->associationMappings[$assoc['inversedBy']]; $targetClass->reflFields[$inverseAssoc['fieldName']]->setValue($newValue, $entity); } } } else { // Inverse side of x-to-one can never be lazy $class->reflFields[$field]->setValue($entity, $this->getEntityPersister($assoc['targetEntity']) ->loadOneToOneEntity($assoc, $entity)); } } else { // Inject collection $pColl = new PersistentCollection($this->em, $targetClass, new ArrayCollection); $pColl->setOwner($entity, $assoc); $reflField = $class->reflFields[$field]; $reflField->setValue($entity, $pColl); if ($assoc['fetch'] == ClassMetadata::FETCH_EAGER) { $this->loadCollection($pColl); $pColl->takeSnapshot(); } else { $pColl->setInitialized(false); } $this->originalEntityData[$oid][$field] = $pColl; } } } } //TODO: These should be invoked later, after hydration, because associations may not yet be loaded here. if (isset($class->lifecycleCallbacks[Events::postLoad])) { $class->invokeLifecycleCallbacks(Events::postLoad, $entity); } if ($this->evm->hasListeners(Events::postLoad)) { $this->evm->dispatchEvent(Events::postLoad, new LifecycleEventArgs($entity, $this->em)); } return $entity; } /** * @return void */ public function triggerEagerLoads() { if (!$this->eagerLoadingEntities) { return; } // avoid infinite recursion $eagerLoadingEntities = $this->eagerLoadingEntities; $this->eagerLoadingEntities = array(); foreach ($eagerLoadingEntities AS $entityName => $ids) { $class = $this->em->getClassMetadata($entityName); if ($ids) { $this->getEntityPersister($entityName)->loadAll( array_combine($class->identifier, array(array_values($ids))) ); } } } /** * Initializes (loads) an uninitialized persistent collection of an entity. * * @param PeristentCollection $collection The collection to initialize. * @todo Maybe later move to EntityManager#initialize($proxyOrCollection). See DDC-733. */ public function loadCollection(PersistentCollection $collection) { $assoc = $collection->getMapping(); switch ($assoc['type']) { case ClassMetadata::ONE_TO_MANY: $this->getEntityPersister($assoc['targetEntity'])->loadOneToManyCollection( $assoc, $collection->getOwner(), $collection); break; case ClassMetadata::MANY_TO_MANY: $this->getEntityPersister($assoc['targetEntity'])->loadManyToManyCollection( $assoc, $collection->getOwner(), $collection); break; } } /** * Gets the identity map of the UnitOfWork. * * @return array */ public function getIdentityMap() { return $this->identityMap; } /** * Gets the original data of an entity. The original data is the data that was * present at the time the entity was reconstituted from the database. * * @param object $entity * @return array */ public function getOriginalEntityData($entity) { $oid = spl_object_hash($entity); if (isset($this->originalEntityData[$oid])) { return $this->originalEntityData[$oid]; } return array(); } /** * @ignore */ public function setOriginalEntityData($entity, array $data) { $this->originalEntityData[spl_object_hash($entity)] = $data; } /** * INTERNAL: * Sets a property value of the original data array of an entity. * * @ignore * @param string $oid * @param string $property * @param mixed $value */ public function setOriginalEntityProperty($oid, $property, $value) { $this->originalEntityData[$oid][$property] = $value; } /** * Gets the identifier of an entity. * The returned value is always an array of identifier values. If the entity * has a composite identifier then the identifier values are in the same * order as the identifier field names as returned by ClassMetadata#getIdentifierFieldNames(). * * @param object $entity * @return array The identifier values. */ public function getEntityIdentifier($entity) { return $this->entityIdentifiers[spl_object_hash($entity)]; } /** * Tries to find an entity with the given identifier in the identity map of * this UnitOfWork. * * @param mixed $id The entity identifier to look for. * @param string $rootClassName The name of the root class of the mapped entity hierarchy. * @return mixed Returns the entity with the specified identifier if it exists in * this UnitOfWork, FALSE otherwise. */ public function tryGetById($id, $rootClassName) { $idHash = implode(' ', (array) $id); if (isset($this->identityMap[$rootClassName][$idHash])) { return $this->identityMap[$rootClassName][$idHash]; } return false; } /** * Schedules an entity for dirty-checking at commit-time. * * @param object $entity The entity to schedule for dirty-checking. * @todo Rename: scheduleForSynchronization */ public function scheduleForDirtyCheck($entity) { $rootClassName = $this->em->getClassMetadata(get_class($entity))->rootEntityName; $this->scheduledForDirtyCheck[$rootClassName][spl_object_hash($entity)] = $entity; } /** * Checks whether the UnitOfWork has any pending insertions. * * @return boolean TRUE if this UnitOfWork has pending insertions, FALSE otherwise. */ public function hasPendingInsertions() { return ! empty($this->entityInsertions); } /** * Calculates the size of the UnitOfWork. The size of the UnitOfWork is the * number of entities in the identity map. * * @return integer */ public function size() { $count = 0; foreach ($this->identityMap as $entitySet) { $count += count($entitySet); } return $count; } /** * Gets the EntityPersister for an Entity. * * @param string $entityName The name of the Entity. * @return \Doctrine\ORM\Persisters\AbstractEntityPersister */ public function getEntityPersister($entityName) { if ( ! isset($this->persisters[$entityName])) { $class = $this->em->getClassMetadata($entityName); if ($class->isInheritanceTypeNone()) { $persister = new Persisters\BasicEntityPersister($this->em, $class); } else if ($class->isInheritanceTypeSingleTable()) { $persister = new Persisters\SingleTablePersister($this->em, $class); } else if ($class->isInheritanceTypeJoined()) { $persister = new Persisters\JoinedSubclassPersister($this->em, $class); } else { $persister = new Persisters\UnionSubclassPersister($this->em, $class); } $this->persisters[$entityName] = $persister; } return $this->persisters[$entityName]; } /** * Gets a collection persister for a collection-valued association. * * @param AssociationMapping $association * @return AbstractCollectionPersister */ public function getCollectionPersister(array $association) { $type = $association['type']; if ( ! isset($this->collectionPersisters[$type])) { if ($type == ClassMetadata::ONE_TO_MANY) { $persister = new Persisters\OneToManyPersister($this->em); } else if ($type == ClassMetadata::MANY_TO_MANY) { $persister = new Persisters\ManyToManyPersister($this->em); } $this->collectionPersisters[$type] = $persister; } return $this->collectionPersisters[$type]; } /** * INTERNAL: * Registers an entity as managed. * * @param object $entity The entity. * @param array $id The identifier values. * @param array $data The original entity data. */ public function registerManaged($entity, array $id, array $data) { $oid = spl_object_hash($entity); $this->entityIdentifiers[$oid] = $id; $this->entityStates[$oid] = self::STATE_MANAGED; $this->originalEntityData[$oid] = $data; $this->addToIdentityMap($entity); } /** * INTERNAL: * Clears the property changeset of the entity with the given OID. * * @param string $oid The entity's OID. */ public function clearEntityChangeSet($oid) { $this->entityChangeSets[$oid] = array(); } /* PropertyChangedListener implementation */ /** * Notifies this UnitOfWork of a property change in an entity. * * @param object $entity The entity that owns the property. * @param string $propertyName The name of the property that changed. * @param mixed $oldValue The old value of the property. * @param mixed $newValue The new value of the property. */ public function propertyChanged($entity, $propertyName, $oldValue, $newValue) { $oid = spl_object_hash($entity); $class = $this->em->getClassMetadata(get_class($entity)); $isAssocField = isset($class->associationMappings[$propertyName]); if ( ! $isAssocField && ! isset($class->fieldMappings[$propertyName])) { return; // ignore non-persistent fields } // Update changeset and mark entity for synchronization $this->entityChangeSets[$oid][$propertyName] = array($oldValue, $newValue); if ( ! isset($this->scheduledForDirtyCheck[$class->rootEntityName][$oid])) { $this->scheduleForDirtyCheck($entity); } } /** * Gets the currently scheduled entity insertions in this UnitOfWork. * * @return array */ public function getScheduledEntityInsertions() { return $this->entityInsertions; } /** * Gets the currently scheduled entity updates in this UnitOfWork. * * @return array */ public function getScheduledEntityUpdates() { return $this->entityUpdates; } /** * Gets the currently scheduled entity deletions in this UnitOfWork. * * @return array */ public function getScheduledEntityDeletions() { return $this->entityDeletions; } /** * Get the currently scheduled complete collection deletions * * @return array */ public function getScheduledCollectionDeletions() { return $this->collectionDeletions; } /** * Gets the currently scheduled collection inserts, updates and deletes. * * @return array */ public function getScheduledCollectionUpdates() { return $this->collectionUpdates; } /** * Helper method to initialize a lazy loading proxy or persistent collection. * * @param object * @return void */ public function initializeObject($obj) { if ($obj instanceof Proxy) { $obj->__load(); } else if ($obj instanceof PersistentCollection) { $obj->initialize(); } } /** * Helper method to show an object as string. * * @param object $obj * @return string */ private static function objToStr($obj) { return method_exists($obj, '__toString') ? (string)$obj : get_class($obj).'@'.spl_object_hash($obj); } /** * Marks an entity as read-only so that it will not be considered for updates during UnitOfWork#commit(). * * This operation cannot be undone as some parts of the UnitOfWork now keep gathering information * on this object that might be necessary to perform a correct udpate. * * @throws \InvalidArgumentException * @param $object * @return void */ public function markReadOnly($object) { if ( ! is_object($object) || ! $this->isInIdentityMap($object)) { throw new InvalidArgumentException("Managed entity required"); } $this->readOnlyObjects[spl_object_hash($object)] = true; } /** * Is this entity read only? * * @throws \InvalidArgumentException * @param $object * @return void */ public function isReadOnly($object) { if ( ! is_object($object) ) { throw new InvalidArgumentException("Managed entity required"); } return isset($this->readOnlyObjects[spl_object_hash($object)]); } }