. */ #namespace Doctrine::ORM::Internal::Hydration; /** * The hydrator has the tedious to process result sets returned by the database * and turn them into useable structures. * * Runtime complexity: The following gives the overall number of iterations * required to process a result set when using identity hydration * (HYDRATE_IDENTITY_OBJECT or HYDRATE_IDENTITY_ARRAY). * * numRowsInResult * numColumnsInResult + numRowsInResult * numClassesInQuery * * This comes down to: * * (numRowsInResult * (numColumnsInResult + numClassesInQuery)) * * For scalar hydration (HYDRATE_SCALAR) it's: * * numRowsInResult * numColumnsInResult * * Note that this is only a crude definition as it also heavily * depends on the complexity of all the single operations that are performed in * each iteration. * * As can be seen, the number of columns in the result has the most impact on * the overall performance (apart from the row count, of course), since numClassesInQuery * is usually pretty low. * That's why the performance of the _gatherRowData() methods which are responsible * for the "numRowsInResult * numColumnsInResult" part is crucial to fast hydration. * * @license http://www.opensource.org/licenses/lgpl-license.php LGPL * @link www.phpdoctrine.org * @since 1.0 * @version $Revision: 3192 $ * @author Konsta Vesterinen * @author Roman Borschel */ class Doctrine_ORM_Internal_Hydration_StandardHydrator extends Doctrine_ORM_Internal_Hydration_AbstractHydrator { /** * Parses the data returned by statement object. * * This is method defines the core of Doctrine's object population algorithm. * * @todo: Detailed documentation. Refactor (too long & nesting level). * * @param mixed $stmt * @param array $tableAliases Array that maps table aliases (SQL alias => DQL alias) * @param array $aliasMap Array that maps DQL aliases to their components * (DQL alias => array( * 'metadata' => Table object, * 'parent' => Parent DQL alias (if any), * 'relation' => Relation object (if any), * 'map' => Custom index to use as the key in the result (if any), * 'agg' => List of aggregate value names (sql alias => dql alias) * ) * ) * @return mixed The created object/array graph. * @throws Doctrine_Hydrator_Exception If the hydration process failed. */ public function hydrateResultSet($parserResult) { if ($parserResult->getHydrationMode() === null) { $hydrationMode = $this->_hydrationMode; } else { $hydrationMode = $parserResult->getHydrationMode(); } $stmt = $parserResult->getDatabaseStatement(); if ($hydrationMode == Doctrine_Query::HYDRATE_NONE) { return $stmt->fetchAll(PDO::FETCH_NUM); } $this->_tableAliases = $parserResult->getTableToClassAliasMap(); $this->_queryComponents = $parserResult->getQueryComponents(); if ($hydrationMode == Doctrine_Query::HYDRATE_ARRAY) { $driver = new Doctrine_ORM_Internal_Hydration_ArrayDriver(); } else { $driver = new Doctrine_ORM_Internal_Hydration_ObjectDriver($this->_em); } $s = microtime(true); // Used variables during hydration reset($this->_queryComponents); $rootAlias = key($this->_queryComponents); $rootEntityName = $this->_queryComponents[$rootAlias]['metadata']->getClassName(); // if only one class is involved we can make our lives easier $isSimpleQuery = count($this->_queryComponents) <= 1; // Lookup map to quickly discover/lookup existing records in the result // It's the identifier "memory" $identifierMap = array(); // Holds for each class a pointer to the last previously seen element in the result set $resultPointers = array(); // holds the values of the identifier/primary key fields of components, // separated by a pipe '|' and grouped by component alias (r, u, i, ... whatever) // the $idTemplate is a prepared template. $id is set to a fresh template when // starting to process a row. $id = array(); $idTemplate = array(); // Holds the resulting hydrated data structure if ($parserResult->isMixedQuery() || $hydrationMode == Doctrine_Query::HYDRATE_SCALAR) { $result = array(); } else { $result = $driver->getElementCollection($rootEntityName); } if ($stmt === false || $stmt === 0) { return $result; } // Initialize foreach ($this->_queryComponents as $dqlAlias => $component) { // disable lazy-loading of related elements during hydration $component['metadata']->setAttribute('loadReferences', false); $entityName = $component['metadata']->getClassName(); $identifierMap[$dqlAlias] = array(); $resultPointers[$dqlAlias] = array(); $idTemplate[$dqlAlias] = ''; } $cache = array(); // Evaluate HYDRATE_SINGLE_SCALAR if ($hydrationMode == Doctrine_Query::HYDRATE_SINGLE_SCALAR) { $result = $stmt->fetchAll(PDO::FETCH_ASSOC); if (count($result) > 1 || count($result[0]) > 1) { throw Doctrine_ORM_Exceptions_HydrationException::nonUniqueResult(); } $result = $this->_gatherScalarRowData($result[0], $cache); return array_shift($result); } // Process result set while ($data = $stmt->fetch(PDO::FETCH_ASSOC)) { // Evaluate HYDRATE_SCALAR if ($hydrationMode == Doctrine_Query::HYDRATE_SCALAR) { $result[] = $this->_gatherScalarRowData($data, $cache); continue; } // From here on its all about graph construction // 1) Initialize $id = $idTemplate; // initialize the id-memory $nonemptyComponents = array(); $rowData = $this->_gatherRowData($data, $cache, $id, $nonemptyComponents); // 2) Hydrate the data of the root entity from the current row // Check for an existing element $index = false; if ($isSimpleQuery || ! isset($identifierMap[$rootAlias][$id[$rootAlias]])) { $element = $driver->getElement($rowData[$rootAlias], $rootEntityName); if ($field = $this->_getCustomIndexField($rootAlias)) { if ($parserResult->isMixedQuery()) { $result[] = array( $driver->getFieldValue($element, $field) => $element ); } else { $driver->addElementToIndexedCollection($result, $element, $field); } } else { if ($parserResult->isMixedQuery()) { $result[] = array($element); } else { $driver->addElementToCollection($result, $element); } } $identifierMap[$rootAlias][$id[$rootAlias]] = $driver->getLastKey($result); } else { $index = $identifierMap[$rootAlias][$id[$rootAlias]]; } $this->_updateResultPointer($resultPointers, $result, $index, $rootAlias, false); unset($rowData[$rootAlias]); // end hydrate data of the root component for the current row // Extract scalar values. They're appended at the end. if (isset($rowData['scalars'])) { $scalars = $rowData['scalars']; unset($rowData['scalars']); } // 3) Now hydrate the rest of the data found in the current row, that // belongs to other (related) entities. foreach ($rowData as $dqlAlias => $data) { $index = false; $map = $this->_queryComponents[$dqlAlias]; $entityName = $map['metadata']->getClassName(); $parent = $map['parent']; $relation = $map['relation']; $relationAlias = $relation->getSourceFieldName();//$relation->getAlias(); $path = $parent . '.' . $dqlAlias; // pick the right element that will get the associated element attached if ($parserResult->isMixedQuery() && $parent == $rootAlias) { $key = key(reset($resultPointers)); // TODO: Exception if $key === null ? $baseElement =& $resultPointers[$parent][$key]; } else if (isset($resultPointers[$parent])) { $baseElement =& $resultPointers[$parent]; } else { unset($resultPointers[$dqlAlias]); // Ticket #1228 continue; } // check the type of the relation (many or single-valued) if ( ! $relation->isOneToOne()) { // x-many relation $oneToOne = false; if (isset($nonemptyComponents[$dqlAlias])) { $driver->initRelatedCollection($baseElement, $relationAlias); $indexExists = isset($identifierMap[$path][$id[$parent]][$id[$dqlAlias]]); $index = $indexExists ? $identifierMap[$path][$id[$parent]][$id[$dqlAlias]] : false; $indexIsValid = $index !== false ? isset($baseElement[$relationAlias][$index]) : false; if ( ! $indexExists || ! $indexIsValid) { $element = $driver->getElement($data, $entityName); if ($field = $this->_getCustomIndexField($dqlAlias)) { $driver->addRelatedIndexedElement($baseElement, $relationAlias, $element, $field); } else { $driver->addRelatedElement($baseElement, $relationAlias, $element); } $identifierMap[$path][$id[$parent]][$id[$dqlAlias]] = $driver->getLastKey( $driver->getReferenceValue($baseElement, $relationAlias)); } } else if ( ! isset($baseElement[$relationAlias])) { if ($hydrationMode == Doctrine_Query::HYDRATE_ARRAY) { $array = array(); $driver->setRelatedElement($baseElement, $relationAlias, $array); } else { $driver->setRelatedElement($baseElement, $relationAlias, $driver->getElementCollection($entityName)); } } } else { // x-1 relation $oneToOne = true; if ( ! isset($nonemptyComponents[$dqlAlias]) && ! $driver->isFieldSet($baseElement, $relationAlias)) { $driver->setRelatedElement($baseElement, $relationAlias, $driver->getNullPointer()); } else if ( ! $driver->isFieldSet($baseElement, $relationAlias)) { $driver->setRelatedElement($baseElement, $relationAlias, $driver->getElement($data, $entityName)); } } if ($hydrationMode == Doctrine_Query::HYDRATE_ARRAY) { $coll =& $driver->getReferenceValue($baseElement, $relationAlias); } else { $coll = $driver->getReferenceValue($baseElement, $relationAlias); } if ($coll !== null) { $this->_updateResultPointer($resultPointers, $coll, $index, $dqlAlias, $oneToOne); } } // append scalar values to mixed result sets if (isset($scalars)) { $rowNumber = count($result) - 1; foreach ($scalars as $name => $value) { $result[$rowNumber][$name] = $value; } } } $stmt->closeCursor(); $driver->flush(); // re-enable lazy loading foreach ($this->_queryComponents as $dqlAlias => $data) { $data['metadata']->setAttribute('loadReferences', true); } $e = microtime(true); echo 'Hydration took: ' . ($e - $s) . ' for '.count($result).' records' . PHP_EOL; return $result; } /** * Updates the result pointer for an Entity. The result pointers point to the * last seen instance of each Entity type. This is used for graph construction. * * @param array $resultPointers The result pointers. * @param array|Collection $coll The element. * @param boolean|integer $index Index of the element in the collection. * @param string $dqlAlias * @param boolean $oneToOne Whether it is a single-valued association or not. */ protected function _updateResultPointer(&$resultPointers, &$coll, $index, $dqlAlias, $oneToOne) { if ($coll === $this->_nullObject || $coll === null) { unset($resultPointers[$dqlAlias]); // Ticket #1228 return; } if ($index !== false) { $resultPointers[$dqlAlias] =& $coll[$index]; return; } if (is_array($coll) && $coll) { if ($oneToOne) { $resultPointers[$dqlAlias] =& $coll; } else { end($coll); $resultPointers[$dqlAlias] =& $coll[key($coll)]; } } else if ($coll instanceof Doctrine_ORM_Entity) { $resultPointers[$dqlAlias] = $coll; } else if (count($coll) > 0) { $resultPointers[$dqlAlias] = $coll->getLast(); } } /** * Processes a row of the result set. * Used for identity hydration (HYDRATE_IDENTITY_OBJECT and HYDRATE_IDENTITY_ARRAY). * Puts the elements of a result row into a new array, grouped by the class * they belong to. The column names in the result set are mapped to their * field names during this procedure as well as any necessary conversions on * the values applied. * * @return array An array with all the fields (name => value) of the data row, * grouped by their component (alias). * @todo Significant code duplication with _gatherScalarRowData(). Good refactoring * possible without sacrificing performance? */ protected function _gatherRowData(&$data, &$cache, &$id, &$nonemptyComponents) { $rowData = array(); foreach ($data as $key => $value) { // Parse each column name only once. Cache the results. if ( ! isset($cache[$key])) { if ($this->_isIgnoredName($key)) continue; // Cache general information like the column name <-> field name mapping $e = explode(Doctrine_Query_ParserRule::SQLALIAS_SEPARATOR, $key); $columnName = array_pop($e); $cache[$key]['dqlAlias'] = $this->_tableAliases[ implode(Doctrine_Query_ParserRule::SQLALIAS_SEPARATOR, $e) ]; $classMetadata = $this->_queryComponents[$cache[$key]['dqlAlias']]['metadata']; // check whether it's an aggregate value or a regular field if (isset($this->_queryComponents[$cache[$key]['dqlAlias']]['agg'][$columnName])) { $fieldName = $this->_queryComponents[$cache[$key]['dqlAlias']]['agg'][$columnName]; $cache[$key]['isScalar'] = true; } else { $fieldName = $classMetadata->lookupFieldName($columnName); $cache[$key]['isScalar'] = false; } $cache[$key]['fieldName'] = $fieldName; // cache identifier information if ($classMetadata->isIdentifier($fieldName)) { $cache[$key]['isIdentifier'] = true; } else { $cache[$key]['isIdentifier'] = false; } // cache type information $type = $classMetadata->getTypeOfColumn($columnName); if ($type == 'integer' || $type == 'string') { $cache[$key]['isSimpleType'] = true; } else { $cache[$key]['type'] = $type; $cache[$key]['isSimpleType'] = false; } } $class = $this->_queryComponents[$cache[$key]['dqlAlias']]['metadata']; $dqlAlias = $cache[$key]['dqlAlias']; $fieldName = $cache[$key]['fieldName']; if ($cache[$key]['isScalar']) { $rowData['scalars'][$fieldName] = $value; continue; } if ($cache[$key]['isIdentifier']) { $id[$dqlAlias] .= '|' . $value; } if ($cache[$key]['isSimpleType']) { $rowData[$dqlAlias][$fieldName] = $value; } else { $rowData[$dqlAlias][$fieldName] = $this->prepareValue( $class, $fieldName, $value, $cache[$key]['type']); } //$rowData[$dqlAlias][$fieldName] = $cache[$key]['type']->convertToObjectValue($value); if ( ! isset($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 prepares the * values. The resulting row has the same number of elements as before. * * @param array $data * @param array $cache * @return array The processed row. * @todo Significant code duplication with _gatherRowData(). Good refactoring * possible without sacrificing performance? */ private function _gatherScalarRowData(&$data, &$cache) { $rowData = array(); foreach ($data as $key => $value) { // Parse each column name only once. Cache the results. if ( ! isset($cache[$key])) { if ($this->_isIgnoredName($key)) continue; // cache general information like the column name <-> field name mapping $e = explode(Doctrine_Query_ParserRule::SQLALIAS_SEPARATOR, $key); $columnName = array_pop($e); $cache[$key]['dqlAlias'] = $this->_tableAliases[ implode(Doctrine_Query_ParserRule::SQLALIAS_SEPARATOR, $e) ]; $classMetadata = $this->_queryComponents[$cache[$key]['dqlAlias']]['metadata']; // check whether it's an aggregate value or a regular field if (isset($this->_queryComponents[$cache[$key]['dqlAlias']]['agg'][$columnName])) { $fieldName = $this->_queryComponents[$cache[$key]['dqlAlias']]['agg'][$columnName]; $cache[$key]['isScalar'] = true; } else { $fieldName = $classMetadata->lookupFieldName($columnName); $cache[$key]['isScalar'] = false; } $cache[$key]['fieldName'] = $fieldName; // cache type information $type = $classMetadata->getTypeOfColumn($columnName); if ($type == 'integer' || $type == 'string') { $cache[$key]['isSimpleType'] = true; } else { $cache[$key]['type'] = $type; $cache[$key]['isSimpleType'] = false; } } $class = $this->_queryComponents[$cache[$key]['dqlAlias']]['metadata']; $dqlAlias = $cache[$key]['dqlAlias']; $fieldName = $cache[$key]['fieldName']; if ($cache[$key]['isSimpleType'] || $cache[$key]['isScalar']) { $rowData[$dqlAlias . '_' . $fieldName] = $value; } else { $rowData[$dqlAlias . '_' . $fieldName] = $this->prepareValue( $class, $fieldName, $value, $cache[$key]['type']); } //$rowData[$dqlAlias . '_' . $fieldName] = $cache[$key]['type']->convertToObjectValue($value); } return $rowData; } /** * Gets the custom field used for indexing for the specified component alias. * * @return string The field name of the field used for indexing or NULL * if the component does not use any custom field indices. */ private function _getCustomIndexField($alias) { return isset($this->_queryComponents[$alias]['map']) ? $this->_queryComponents[$alias]['map'] : null; } /** * Checks whether a name is ignored. Used during result set parsing to skip * certain elements in the result set that do not have any meaning for the result. * (I.e. ORACLE limit/offset emulation adds doctrine_rownum to the result set). * * @param string $name * @return boolean */ private function _isIgnoredName($name) { return $name == 'doctrine_rownum'; } /** * prepareValue * this method performs special data preparation depending on * the type of the given column * * 1. It unserializes array and object typed columns * 2. Uncompresses gzip typed columns * 3. Gets the appropriate enum values for enum typed columns * 4. Initializes special null object pointer for null values (for fast column existence checking purposes) * * example: * * $field = 'name'; * $value = null; * $table->prepareValue($field, $value); // Doctrine_Null * * * @param string $field the name of the field * @param string $value field value * @param string $typeHint A hint on the type of the value. If provided, the type lookup * for the field can be skipped. Used i.e. during hydration to * improve performance on large and/or complex results. * @return mixed prepared value */ public function prepareValue(Doctrine_ClassMetadata $class, $fieldName, $value, $typeHint = null) { if ($value === $this->_nullObject) { return $this->_nullObject; } else if ($value === null) { return null; } else { $type = is_null($typeHint) ? $class->getTypeOf($fieldName) : $typeHint; switch ($type) { case 'integer': case 'string': case 'enum': case 'boolean': // don't do any conversions on primitive types break; case 'array': case 'object': if (is_string($value)) { $value = unserialize($value); if ($value === false) { throw new Doctrine_Hydrator_Exception('Unserialization of ' . $fieldName . ' failed.'); } return $value; } break; case 'gzip': $value = gzuncompress($value); if ($value === false) { throw new Doctrine_Hydrator_Exception('Uncompressing of ' . $fieldName . ' failed.'); } return $value; break; } } return $value; } /** Needed only temporarily until the new parser is ready */ private $_isResultMixed = false; public function setResultMixed($bool) { $this->_isResultMixed = $bool; } }