<?php
/*
* $Id$
*
* 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\Mapping;
use Doctrine\Common\DoctrineException,
Doctrine\DBAL\Platforms\AbstractPlatform,
Doctrine\ORM\Events;
/**
* The ClassMetadataFactory is used to create ClassMetadata objects that contain all the
* metadata mapping informations of a class which describes how a class should be mapped
* to a relational database.
*
* @author Roman Borschel <roman@code-factory.org>
* @license http://www.opensource.org/licenses/lgpl-license.php LGPL
* @version $Revision$
* @link www.doctrine-project.org
* @since 2.0
*/
class ClassMetadataFactory
{
private $_em;
/** The targeted database platform. */
private $_targetPlatform;
/** The used metadata driver. */
private $_driver;
/** The event manager instance */
private $_evm;
/** The used cache driver. */
private $_cacheDriver;
private $_loadedMetadata = array();
/**
* Creates a new factory instance that uses the given metadata driver implementation.
*
* @param $driver The metadata driver to use.
*/
public function __construct(\Doctrine\ORM\EntityManager $em)
{
$this->_em = $em;
$this->_driver = $em->getConfiguration()->getMetadataDriverImpl();
$this->_targetPlatform = $em->getConnection()->getDatabasePlatform();
$this->_evm = $em->getEventManager();
}
/**
* Sets the cache driver used by the factory to cache ClassMetadata instances
* and invokes the preload() method of the metadata driver to prepopulate the cache.
*
* @param Doctrine\Common\Cache\Cache $cacheDriver
*/
public function setCacheDriver($cacheDriver)
{
$this->_cacheDriver = $cacheDriver;
foreach ($this->_driver->preload() as $className) {
$cacheKey = "$className\$CLASSMETADATA";
$this->_cacheDriver->save($cacheKey, $this->getMetadataFor($className), null);
}
}
/**
* Gets the cache driver used by the factory to cache ClassMetadata instances.
*
* @return Doctrine\Common\Cache\Cache
*/
public function getCacheDriver()
{
return $this->_cacheDriver;
}
public function getLoadedMetadata()
{
return $this->_loadedMetadata;
}
/**
* Gets the class metadata descriptor for a class.
*
* @param string $className The name of the class.
* @return Doctrine\ORM\Mapping\ClassMetadata
*/
public function getMetadataFor($className)
{
if ( ! isset($this->_loadedMetadata[$className])) {
$cacheKey = "$className\$CLASSMETADATA";
if ($this->_cacheDriver) {
if (($cached = $this->_cacheDriver->fetch($cacheKey)) !== false) {
$this->_loadedMetadata[$className] = $cached;
} else {
$this->_loadMetadata($className);
$this->_cacheDriver->save($cacheKey, $this->_loadedMetadata[$className], null);
}
} else {
$this->_loadMetadata($className);
}
}
return $this->_loadedMetadata[$className];
}
/**
*
* @param $className
* @return boolean
*/
public function hasMetadataFor($className)
{
return isset($this->_loadedMetadata[$className]);
}
/**
* Sets the metadata descriptor for a specific class.
*
* NOTE: This is only useful in very special cases, like when generating proxy classes.
*
* @param string $className
* @param ClassMetadata $class
*/
public function setMetadataFor($className, $class)
{
$this->_loadedMetadata[$className] = $class;
}
/**
* Loads the metadata of the class in question and all it's ancestors whose metadata
* is still not loaded.
*
* @param string $name The name of the class for which the metadata should get loaded.
* @param array $tables The metadata collection to which the loaded metadata is added.
*/
protected function _loadMetadata($name)
{
// Collect parent classes, ignoring transient (not-mapped) classes.
$parentClass = $name;
$parentClasses = array();
while ($parentClass = get_parent_class($parentClass)) {
if ( ! $this->_driver->isTransient($parentClass)) {
$parentClasses[] = $parentClass;
}
}
$parentClasses = array_reverse($parentClasses);
$parentClasses[] = $name;
// Move down the hierarchy of parent classes, starting from the topmost class
$parent = null;
$visited = array();
foreach ($parentClasses as $className) {
if (isset($this->_loadedMetadata[$className])) {
$parent = $this->_loadedMetadata[$className];
if ( ! $parent->isMappedSuperclass) {
array_unshift($visited, $className);
}
continue;
}
$class = $this->_newClassMetadataInstance($className);
if ($parent) {
$class->setInheritanceType($parent->inheritanceType);
$class->setDiscriminatorColumn($parent->discriminatorColumn);
$class->setIdGeneratorType($parent->generatorType);
$this->_addInheritedFields($class, $parent);
$this->_addInheritedRelations($class, $parent);
$class->setIdentifier($parent->identifier);
$class->setVersioned($parent->isVersioned);
$class->setVersionField($parent->versionField);
$class->setDiscriminatorMap($parent->discriminatorMap);
}
// Invoke driver
$this->_driver->loadMetadataForClass($className, $class);
// Verify & complete identifier mapping
if ( ! $class->identifier && ! $class->isMappedSuperclass) {
throw MappingException::identifierRequired($className);
}
if ($parent) {
if ($parent->isIdGeneratorSequence()) {
$class->setSequenceGeneratorDefinition($parent->getSequenceGeneratorDefinition());
} else if ($parent->isIdGeneratorTable()) {
$class->getTableGeneratorDefinition($parent->getTableGeneratorDefinition());
}
$class->setIdGeneratorType($parent->generatorType);
$class->setIdGenerator($parent->getIdGenerator());
} else {
$this->_completeIdGeneratorMapping($class);
}
if ($parent && $parent->isInheritanceTypeSingleTable()) {
$class->setTableName($parent->getTableName());
}
$class->setParentClasses($visited);
if ($this->_evm->hasListeners(Events::loadClassMetadata)) {
$eventArgs = new \Doctrine\ORM\Event\LoadClassMetadataEventArgs($class);
$this->_evm->dispatchEvent(Events::loadClassMetadata, $eventArgs);
}
$this->_generateStaticSql($class);
$this->_loadedMetadata[$className] = $class;
$parent = $class;
if ( ! $class->isMappedSuperclass) {
array_unshift($visited, $className);
}
}
}
/**
* Creates a new ClassMetadata instance for the given class name.
*
* @param string $className
* @return Doctrine\ORM\Mapping\ClassMetadata
*/
protected function _newClassMetadataInstance($className)
{
return new ClassMetadata($className);
}
/**
* Adds inherited fields to the subclass mapping.
*
* @param Doctrine\ORM\Mapping\ClassMetadata $subClass
* @param Doctrine\ORM\Mapping\ClassMetadata $parentClass
*/
private function _addInheritedFields(ClassMetadata $subClass, ClassMetadata $parentClass)
{
foreach ($parentClass->fieldMappings as $fieldName => $mapping) {
if ( ! isset($mapping['inherited']) && ! $parentClass->isMappedSuperclass) {
$mapping['inherited'] = $parentClass->name;
}
$subClass->addFieldMapping($mapping);
}
foreach ($parentClass->reflFields as $name => $field) {
$subClass->reflFields[$name] = $field;
}
}
/**
* Adds inherited associations to the subclass mapping.
*
* @param Doctrine\ORM\Mapping\ClassMetadata $subClass
* @param Doctrine\ORM\Mapping\ClassMetadata $parentClass
*/
private function _addInheritedRelations(ClassMetadata $subClass, ClassMetadata $parentClass)
{
foreach ($parentClass->associationMappings as $mapping) {
if (isset($parentClass->inheritedAssociationFields[$mapping->sourceFieldName])) {
// parent class also inherited that one
$subClass->addAssociationMapping($mapping, $parentClass->inheritedAssociationFields[$mapping->sourceFieldName]);
} else if ( ! $parentClass->isMappedSuperclass) {
// parent class defined that one
$subClass->addAssociationMapping($mapping, $parentClass->name);
} else {
$subClass->addAssociationMapping($mapping);
}
}
}
/**
* Generates any static SQL strings for a class and stores them in the descriptor.
*
* @param ClassMetadata $class
*/
private function _generateStaticSql($class)
{
if ($versioned = $class->isVersioned) {
$versionField = $class->versionField;
}
// Generate INSERT SQL
$columns = $values = array();
if ($class->inheritanceType == ClassMetadata::INHERITANCE_TYPE_JOINED) {
// Generate INSERT SQL for inheritance type JOINED
foreach ($class->reflFields as $name => $field) {
if (isset($class->fieldMappings[$name]['inherited']) && ! isset($class->fieldMappings[$name]['id'])
|| isset($class->inheritedAssociationFields[$name])
|| ($versioned && $versionField == $name)) {
if (isset($class->columnNames[$name])) {
// Add column mapping for SQL result sets
$columnName = $class->columnNames[$name];
$class->resultColumnNames[$this->_targetPlatform->getSqlResultCasing($columnName)] = $columnName;
}
continue;
}
if (isset($class->associationMappings[$name])) {
$assoc = $class->associationMappings[$name];
if ($assoc->isOneToOne() && $assoc->isOwningSide) {
foreach ($assoc->targetToSourceKeyColumns as $sourceCol) {
$columns[] = $assoc->getQuotedJoinColumnName($sourceCol, $this->_targetPlatform);
$values[] = '?';
// Add column mapping for SQL result sets
$class->resultColumnNames[$this->_targetPlatform->getSqlResultCasing($sourceCol)] = $sourceCol;
}
}
} else if ($class->name != $class->rootEntityName || ! $class->isIdGeneratorIdentity() || $class->identifier[0] != $name) {
$columns[] = $class->getQuotedColumnName($name, $this->_targetPlatform);
$values[] = '?';
// Add column mapping for SQL result sets
$columnName = $class->columnNames[$name];
$class->resultColumnNames[$this->_targetPlatform->getSqlResultCasing($columnName)] = $columnName;
} else {
// Add column mapping for SQL result sets
$columnName = $class->columnNames[$name];
$class->resultColumnNames[$this->_targetPlatform->getSqlResultCasing($columnName)] = $columnName;
}
}
} else {
// Generate INSERT SQL for inheritance types NONE, SINGLE_TABLE, TABLE_PER_CLASS
foreach ($class->reflFields as $name => $field) {
if ($versioned && $versionField == $name) {
continue;
}
if (isset($class->associationMappings[$name])) {
$assoc = $class->associationMappings[$name];
if ($assoc->isOwningSide && $assoc->isOneToOne()) {
foreach ($assoc->targetToSourceKeyColumns as $sourceCol) {
$columns[] = $assoc->getQuotedJoinColumnName($sourceCol, $this->_targetPlatform);
$values[] = '?';
// Add column mapping for SQL result sets
$class->resultColumnNames[$this->_targetPlatform->getSqlResultCasing($sourceCol)] = $sourceCol;
}
}
} else if ($class->generatorType != ClassMetadata::GENERATOR_TYPE_IDENTITY || $class->identifier[0] != $name) {
$columns[] = $class->getQuotedColumnName($name, $this->_targetPlatform);
$values[] = '?';
// Add column mapping for SQL result sets
$columnName = $class->columnNames[$name];
$class->resultColumnNames[$this->_targetPlatform->getSqlResultCasing($columnName)] = $columnName;
} else {
// Add column mapping for SQL result sets
$columnName = $class->columnNames[$name];
$class->resultColumnNames[$this->_targetPlatform->getSqlResultCasing($columnName)] = $columnName;
}
}
}
// Add discriminator column to the INSERT SQL if necessary
if (isset($class->discriminatorColumn['name'])) {
if ($class->isInheritanceTypeSingleTable() || $class->isInheritanceTypeJoined()
&& $class->name == $class->rootEntityName) {
$columns[] = $class->getQuotedDiscriminatorColumnName($this->_targetPlatform);
$values[] = '?';
}
// Add column mapping for SQL result sets
$columnName = $class->discriminatorColumn['name'];
$class->resultColumnNames[$this->_targetPlatform->getSqlResultCasing($columnName)] = $columnName;
}
if (empty($columns)) {
$class->insertSql = $this->_targetPlatform->getEmptyIdentityInsertSql(
$class->getQuotedTableName($this->_targetPlatform),
$class->getQuotedColumnName($class->identifier[0], $this->_targetPlatform)
);
} else {
$class->insertSql = 'INSERT INTO ' .
$class->getQuotedTableName($this->_targetPlatform)
. ' (' . implode(', ', $columns) . ') '
. 'VALUES (' . implode(', ', $values) . ')';
}
}
/**
* Completes the ID generator mapping. If "auto" is specified we choose the generator
* most appropriate for the targeted database platform.
*
* @param Doctrine\ORM\Mapping\ClassMetadata $class
*/
private function _completeIdGeneratorMapping(ClassMetadata $class)
{
$idGenType = $class->generatorType;
if ($idGenType == ClassMetadata::GENERATOR_TYPE_AUTO) {
if ($this->_targetPlatform->prefersSequences()) {
$class->setIdGeneratorType(ClassMetadata::GENERATOR_TYPE_SEQUENCE);
} else if ($this->_targetPlatform->prefersIdentityColumns()) {
$class->setIdGeneratorType(ClassMetadata::GENERATOR_TYPE_IDENTITY);
} else {
$class->setIdGeneratorType(ClassMetadata::GENERATOR_TYPE_TABLE);
}
}
// Create & assign an appropriate ID generator instance
switch ($class->generatorType) {
case ClassMetadata::GENERATOR_TYPE_IDENTITY:
$class->setIdGenerator(new \Doctrine\ORM\Id\IdentityGenerator());
break;
case ClassMetadata::GENERATOR_TYPE_SEQUENCE:
// If there is no sequence definition yet, create a default definition
$definition = $class->getSequenceGeneratorDefinition();
if ( ! $definition) {
$sequenceName = $class->getTableName() . '_' . $class->getSingleIdentifierColumnName() . '_seq';
$definition['sequenceName'] = $this->_targetPlatform->fixSchemaElementName($sequenceName);
$definition['allocationSize'] = 20;
$definition['initialValue'] = 1;
$class->setSequenceGeneratorDefinition($definition);
}
$sequenceGenerator = new \Doctrine\ORM\Id\SequenceGenerator(
$definition['sequenceName'],
$definition['allocationSize']
);
$class->setIdGenerator($sequenceGenerator);
break;
case ClassMetadata::GENERATOR_TYPE_NONE:
$class->setIdGenerator(new \Doctrine\ORM\Id\Assigned());
break;
case ClassMetadata::GENERATOR_TYPE_TABLE:
throw new DoctrineException("DoctrineTableGenerator not yet implemented.");
break;
default:
throw new DoctrineException("Unexhaustive match.");
}
}
}