. */ namespace Doctrine\ORM\Internal\Hydration; use PDO, Doctrine\DBAL\Connection, Doctrine\DBAL\Types\Type, Doctrine\ORM\EntityManager, Doctrine\ORM\Mapping\ClassMetadata; /** * Base class for all hydrators. A hydrator is a class that provides some form * of transformation of an SQL result set into another structure. * * @since 2.0 * @author Konsta Vesterinen * @author Roman Borschel * @author Guilherme Blanco */ abstract class AbstractHydrator { /** @var ResultSetMapping The ResultSetMapping. */ protected $_rsm; /** @var EntityManager The EntityManager instance. */ protected $_em; /** @var AbstractPlatform The dbms Platform instance */ protected $_platform; /** @var UnitOfWork The UnitOfWork of the associated EntityManager. */ protected $_uow; /** @var array The cache used during row-by-row hydration. */ protected $_cache = array(); /** @var Statement The statement that provides the data to hydrate. */ protected $_stmt; /** @var array The query hints. */ protected $_hints; /** * Initializes a new instance of a class derived from AbstractHydrator. * * @param Doctrine\ORM\EntityManager $em The EntityManager to use. */ public function __construct(EntityManager $em) { $this->_em = $em; $this->_platform = $em->getConnection()->getDatabasePlatform(); $this->_uow = $em->getUnitOfWork(); } /** * Initiates a row-by-row hydration. * * @param object $stmt * @param object $resultSetMapping * * @return IterableResult */ public function iterate($stmt, $resultSetMapping, array $hints = array()) { $this->_stmt = $stmt; $this->_rsm = $resultSetMapping; $this->_hints = $hints; $this->prepare(); return new IterableResult($this); } /** * Hydrates all rows returned by the passed statement instance at once. * * @param object $stmt * @param object $resultSetMapping * @return mixed */ public function hydrateAll($stmt, $resultSetMapping, array $hints = array()) { $this->_stmt = $stmt; $this->_rsm = $resultSetMapping; $this->_hints = $hints; $this->prepare(); $result = $this->hydrateAllData(); $this->cleanup(); return $result; } /** * Hydrates a single row returned by the current statement instance during * row-by-row hydration with {@link iterate()}. * * @return mixed */ public function hydrateRow() { $row = $this->_stmt->fetch(PDO::FETCH_ASSOC); if ( ! $row) { $this->cleanup(); return false; } $result = array(); $this->hydrateRowData($row, $this->_cache, $result); return $result; } /** * Excutes one-time preparation tasks, once each time hydration is started * through {@link hydrateAll} or {@link iterate()}. */ protected function prepare() {} /** * Excutes one-time cleanup tasks at the end of a hydration that was initiated * through {@link hydrateAll} or {@link iterate()}. */ protected function cleanup() { $this->_rsm = null; $this->_stmt->closeCursor(); $this->_stmt = null; } /** * Hydrates a single row from the current statement instance. * * Template method. * * @param array $data The row data. * @param array $cache The cache to use. * @param mixed $result The result to fill. */ protected function hydrateRowData(array $data, array &$cache, array &$result) { throw new HydrationException("hydrateRowData() not implemented by this hydrator."); } /** * Hydrates all rows from the current statement instance at once. */ abstract protected function hydrateAllData(); /** * Processes a row of the result set. * * Used for identity-based hydration (HYDRATE_OBJECT and HYDRATE_ARRAY). * Puts the elements of a result row into a new array, grouped by the dql alias * they belong to. The column names in the result set are mapped to their * field names during this procedure as well as any necessary conversions on * the values applied. Scalar values are kept in a specfic key 'scalars'. * * @param array $data SQL Result Row * @param array &$cache Cache for column to field result information * @param array &$id Dql-Alias => ID-Hash * @param array &$nonemptyComponents Does this DQL-Alias has at least one non NULL value? * * @return array An array with all the fields (name => value) of the data row, * grouped by their component alias. */ protected function gatherRowData(array $data, array &$cache, array &$id, array &$nonemptyComponents) { $rowData = array(); foreach ($data as $key => $value) { // Parse each column name only once. Cache the results. if ( ! isset($cache[$key])) { switch (true) { // NOTE: Most of the times it's a field mapping, so keep it first!!! case (isset($this->_rsm->fieldMappings[$key])): $fieldName = $this->_rsm->fieldMappings[$key]; $classMetadata = $this->_em->getClassMetadata($this->_rsm->declaringClasses[$key]); $cache[$key]['fieldName'] = $fieldName; $cache[$key]['type'] = Type::getType($classMetadata->fieldMappings[$fieldName]['type']); $cache[$key]['isIdentifier'] = $classMetadata->isIdentifier($fieldName); $cache[$key]['dqlAlias'] = $this->_rsm->columnOwnerMap[$key]; break; case (isset($this->_rsm->scalarMappings[$key])): $cache[$key]['fieldName'] = $this->_rsm->scalarMappings[$key]; $cache[$key]['isScalar'] = true; break; case (isset($this->_rsm->metaMappings[$key])): // Meta column (has meaning in relational schema only, i.e. foreign keys or discriminator columns). $fieldName = $this->_rsm->metaMappings[$key]; $classMetadata = $this->_em->getClassMetadata($this->_rsm->aliasMap[$this->_rsm->columnOwnerMap[$key]]); $cache[$key]['isMetaColumn'] = true; $cache[$key]['fieldName'] = $fieldName; $cache[$key]['dqlAlias'] = $this->_rsm->columnOwnerMap[$key]; $cache[$key]['isIdentifier'] = isset($this->_rsm->isIdentifierColumn[$cache[$key]['dqlAlias']][$key]); break; default: // this column is a left over, maybe from a LIMIT query hack for example in Oracle or DB2 // maybe from an additional column that has not been defined in a NativeQuery ResultSetMapping. continue 2; } } if (isset($cache[$key]['isScalar'])) { $rowData['scalars'][$cache[$key]['fieldName']] = $value; continue; } $dqlAlias = $cache[$key]['dqlAlias']; if ($cache[$key]['isIdentifier']) { $id[$dqlAlias] .= '|' . $value; } if (isset($cache[$key]['isMetaColumn'])) { if ( ! isset($rowData[$dqlAlias][$cache[$key]['fieldName']]) || $value !== null) { $rowData[$dqlAlias][$cache[$key]['fieldName']] = $value; } continue; } // in an inheritance hierarchy the same field could be defined several times. // We overwrite this value so long we dont have a non-null value, that value we keep. // Per definition it cannot be that a field is defined several times and has several values. if (isset($rowData[$dqlAlias][$cache[$key]['fieldName']]) && $value === null) { continue; } $rowData[$dqlAlias][$cache[$key]['fieldName']] = $cache[$key]['type']->convertToPHPValue($value, $this->_platform); if ( ! isset($nonemptyComponents[$dqlAlias]) && $value !== null) { $nonemptyComponents[$dqlAlias] = true; } } return $rowData; } /** * Processes a row of the result set. * * Used for HYDRATE_SCALAR. This is a variant of _gatherRowData() that * simply converts column names to field names and properly converts the * values according to their types. The resulting row has the same number * of elements as before. * * @param array $data * @param array $cache * * @return array The processed row. */ protected function gatherScalarRowData(&$data, &$cache) { $rowData = array(); foreach ($data as $key => $value) { // Parse each column name only once. Cache the results. if ( ! isset($cache[$key])) { switch (true) { // NOTE: During scalar hydration, most of the times it's a scalar mapping, keep it first!!! case (isset($this->_rsm->scalarMappings[$key])): $cache[$key]['fieldName'] = $this->_rsm->scalarMappings[$key]; $cache[$key]['isScalar'] = true; break; case (isset($this->_rsm->fieldMappings[$key])): $fieldName = $this->_rsm->fieldMappings[$key]; $classMetadata = $this->_em->getClassMetadata($this->_rsm->declaringClasses[$key]); $cache[$key]['fieldName'] = $fieldName; $cache[$key]['type'] = Type::getType($classMetadata->fieldMappings[$fieldName]['type']); $cache[$key]['dqlAlias'] = $this->_rsm->columnOwnerMap[$key]; break; case (isset($this->_rsm->metaMappings[$key])): // Meta column (has meaning in relational schema only, i.e. foreign keys or discriminator columns). $cache[$key]['isMetaColumn'] = true; $cache[$key]['fieldName'] = $this->_rsm->metaMappings[$key]; $cache[$key]['dqlAlias'] = $this->_rsm->columnOwnerMap[$key]; break; default: // this column is a left over, maybe from a LIMIT query hack for example in Oracle or DB2 // maybe from an additional column that has not been defined in a NativeQuery ResultSetMapping. continue 2; } } $fieldName = $cache[$key]['fieldName']; switch (true) { case (isset($cache[$key]['isScalar'])): $rowData[$fieldName] = $value; break; case (isset($cache[$key]['isMetaColumn'])): $rowData[$cache[$key]['dqlAlias'] . '_' . $fieldName] = $value; break; default: $value = $cache[$key]['type']->convertToPHPValue($value, $this->_platform); $rowData[$cache[$key]['dqlAlias'] . '_' . $fieldName] = $value; } } return $rowData; } /** * Register entity as managed in UnitOfWork. * * @param Doctrine\ORM\Mapping\ClassMetadata $class * @param object $entity * @param array $data * * @todo The "$id" generation is the same of UnitOfWork#createEntity. Remove this duplication somehow */ protected function registerManaged(ClassMetadata $class, $entity, array $data) { if ($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]; } } } else { if (isset($class->associationMappings[$class->identifier[0]])) { $id = array($class->identifier[0] => $data[$class->associationMappings[$class->identifier[0]]['joinColumns'][0]['name']]); } else { $id = array($class->identifier[0] => $data[$class->identifier[0]]); } } $this->_em->getUnitOfWork()->registerManaged($entity, $id, $data); } }