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doctrine2/lib/Doctrine/ORM/Internal/Hydration/AbstractHydrator.php

325 lines
12 KiB
PHP

<?php
/*
* $Id: Hydrate.php 3192 2007-11-19 17:55:23Z romanb $
*
* 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\Internal\Hydration;
use Doctrine\Common\DoctrineException;
use \PDO;
/**
* Base class for all hydrators. A hydrator is a class that provides some form
* of transformation of an SQL result set into another structure.
*
* @license http://www.opensource.org/licenses/lgpl-license.php LGPL
* @link www.doctrine-project.org
* @since 2.0
* @version $Revision: 3192 $
* @author Konsta Vesterinen <kvesteri@cc.hut.fi>
* @author Roman Borschel <roman@code-factory.org>
*/
abstract class AbstractHydrator
{
/** The ResultSetMapping. */
protected $_resultSetMapping;
/** @var EntityManager The EntityManager instance. */
protected $_em;
/** @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;
/**
* Initializes a new instance of a class derived from <tt>AbstractHydrator</tt>.
*
* @param Doctrine\ORM\EntityManager $em The EntityManager to use.
*/
public function __construct(\Doctrine\ORM\EntityManager $em)
{
$this->_em = $em;
$this->_uow = $em->getUnitOfWork();
}
/**
* Initiates a row-by-row hydration.
*
* @param object $stmt
* @param object $resultSetMapping
* @return IterableResult
*/
public function iterate($stmt, $resultSetMapping)
{
$this->_stmt = $stmt;
$this->_resultSetMapping = $resultSetMapping;
$this->_prepare();
return new IterableResult($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)
{
$this->_stmt = $stmt;
$this->_resultSetMapping = $resultSetMapping;
$this->_prepare();
$result = $this->_hydrateAll();
$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 = $this->_getRowContainer();
$this->_hydrateRow($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->_resultSetMapping = 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 $result The result to fill.
*/
protected function _hydrateRow(array &$data, array &$cache, &$result)
{
throw new Exception("_hydrateRow() not implemented for this hydrator.");
}
/**
* Hydrates all rows from the current statement instance at once.
*/
abstract protected function _hydrateAll();
/**
* Gets the row container used during row-by-row hydration through {@link iterate()}.
*/
abstract protected function _getRowContainer();
/**
* 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 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).
*/
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->_resultSetMapping->isIgnoredColumn($key)) {
$cache[$key] = false;
} else if ($this->_resultSetMapping->isScalarResult($key)) {
$cache[$key]['fieldName'] = $this->_resultSetMapping->getScalarAlias($key);
$cache[$key]['isScalar'] = true;
} else if ($this->_resultSetMapping->isFieldResult($key)) {
$classMetadata = $this->_resultSetMapping->getOwningClass($key);
$fieldName = $this->_resultSetMapping->getFieldName($key);
$classMetadata = $this->_lookupDeclaringClass($classMetadata, $fieldName);
$cache[$key]['fieldName'] = $fieldName;
$cache[$key]['isScalar'] = false;
$cache[$key]['type'] = $classMetadata->getTypeOfField($fieldName);
$cache[$key]['isIdentifier'] = $classMetadata->isIdentifier($fieldName);
$cache[$key]['dqlAlias'] = $this->_resultSetMapping->getEntityAlias($key);
} else {
// Discriminator column
$cache[$key]['isDiscriminator'] = true;
$cache[$key]['isScalar'] = false;
$cache[$key]['fieldName'] = $key;
$cache[$key]['dqlAlias'] = $this->_resultSetMapping->getEntityAlias($key);
}
}
$fieldName = $cache[$key]['fieldName'];
if ($cache[$key]['isScalar']) {
$rowData['scalars'][$fieldName] = $value;
continue;
}
$dqlAlias = $cache[$key]['dqlAlias'];
if (isset($cache[$key]['isDiscriminator'])) {
$rowData[$dqlAlias][$fieldName] = $value;
continue;
}
if ($cache[$key]['isIdentifier']) {
$id[$dqlAlias] .= '|' . $value;
}
$rowData[$dqlAlias][$fieldName] = $cache[$key]['type']->convertToPHPValue($value);
if ( ! isset($nonemptyComponents[$dqlAlias]) && $value !== null) {
$nonemptyComponents[$dqlAlias] = true;
}
/* TODO: Consider this instead of the above 4 lines. */
/*if ($value !== null) {
$rowData[$dqlAlias][$fieldName] = $cache[$key]['type']->convertToPHPValue($value);
}*/
}
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 $cache
* @return array The processed row.
*/
protected function _gatherScalarRowData(&$data, &$cache)
{
$rowData = array();
foreach ($data as $key => $value) {
// Parse each column name only once. Cache the results.
if ( ! isset($cache[$key])) {
if ($this->_resultSetMapping->isIgnoredColumn($key)) {
$cache[$key] = false;
continue;
} else if ($this->_resultSetMapping->isScalarResult($key)) {
$cache[$key]['fieldName'] = $this->_resultSetMapping->getScalarAlias($key);
$cache[$key]['isScalar'] = true;
} else {
$classMetadata = $this->_resultSetMapping->getOwningClass($key);
$fieldName = $this->_resultSetMapping->getFieldName($key);
$classMetadata = $this->_lookupDeclaringClass($classMetadata, $fieldName);
//$fieldName = $classMetadata->getFieldNameForLowerColumnName($columnName);
$cache[$key]['fieldName'] = $fieldName;
$cache[$key]['isScalar'] = false;
$cache[$key]['type'] = $classMetadata->getTypeOfField($fieldName);
$cache[$key]['dqlAlias'] = $this->_resultSetMapping->getEntityAlias($key);
}
}
$fieldName = $cache[$key]['fieldName'];
if ($cache[$key]['isScalar']) {
$rowData[/*$dqlAlias . '_' . */$fieldName] = $value;
} else {
$dqlAlias = $cache[$key]['dqlAlias'];
$rowData[$dqlAlias . '_' . $fieldName] = $cache[$key]['type']->convertToPHPValue($value);
}
}
return $rowData;
}
/**
* Gets the custom field used for indexing for the specified DQL alias.
*
* @return string The field name of the field used for indexing or NULL
* if the component does not use any custom field indices.
*/
protected function _getCustomIndexField($alias)
{
return $this->_resultSetMapping->hasIndexBy($alias) ?
$this->_resultSetMapping->getIndexByField($alias) : null;
}
/**
* Looks up the field name for a (lowercased) column name.
*
* This is mostly used during hydration, because we want to make the
* conversion to field names while iterating over the result set for best
* performance. By doing this at that point, we can avoid re-iterating over
* the data just to convert the column names to field names.
*
* However, when this is happening, we don't know the real
* class name to instantiate yet (the row data may target a sub-type), hence
* this method looks up the field name in the subclass mappings if it's not
* found on this class mapping.
* This lookup on subclasses is costly but happens only *once* for a column
* during hydration because the hydrator caches effectively.
*
* @return string The field name.
* @throws DoctrineException If the field name could not be found.
*/
private function _lookupDeclaringClass($class, $fieldName)
{
if ($class->hasField($fieldName)) {
return $class;
}
foreach ($class->getSubclasses() as $subClass) {
$subClassMetadata = $this->_em->getClassMetadata($subClass);
if ($subClassMetadata->hasField($fieldName)) {
return $subClassMetadata;
}
}
throw DoctrineException::updateMe("No owner found for field '$fieldName' during hydration.");
}
}