. */ namespace Doctrine\ORM; use Doctrine\DBAL\LockMode, Doctrine\ORM\Query\Parser, Doctrine\ORM\Query\QueryException; /** * A Query object represents a DQL query. * * @since 1.0 * @author Guilherme Blanco * @author Konsta Vesterinen * @author Roman Borschel */ final class Query extends AbstractQuery { /* Query STATES */ /** * A query object is in CLEAN state when it has NO unparsed/unprocessed DQL parts. */ const STATE_CLEAN = 1; /** * A query object is in state DIRTY when it has DQL parts that have not yet been * parsed/processed. This is automatically defined as DIRTY when addDqlQueryPart * is called. */ const STATE_DIRTY = 2; /* Query HINTS */ /** * The refresh hint turns any query into a refresh query with the result that * any local changes in entities are overridden with the fetched values. * * @var string */ const HINT_REFRESH = 'doctrine.refresh'; /** * Internal hint: is set to the proxy entity that is currently triggered for loading * * @var string */ const HINT_REFRESH_ENTITY = 'doctrine.refresh.entity'; /** * The forcePartialLoad query hint forces a particular query to return * partial objects. * * @var string * @todo Rename: HINT_OPTIMIZE */ const HINT_FORCE_PARTIAL_LOAD = 'doctrine.forcePartialLoad'; /** * The includeMetaColumns query hint causes meta columns like foreign keys and * discriminator columns to be selected and returned as part of the query result. * * This hint does only apply to non-object queries. * * @var string */ const HINT_INCLUDE_META_COLUMNS = 'doctrine.includeMetaColumns'; /** * An array of class names that implement \Doctrine\ORM\Query\TreeWalker and * are iterated and executed after the DQL has been parsed into an AST. * * @var string */ const HINT_CUSTOM_TREE_WALKERS = 'doctrine.customTreeWalkers'; /** * A string with a class name that implements \Doctrine\ORM\Query\TreeWalker * and is used for generating the target SQL from any DQL AST tree. * * @var string */ const HINT_CUSTOM_OUTPUT_WALKER = 'doctrine.customOutputWalker'; //const HINT_READ_ONLY = 'doctrine.readOnly'; /** * @var string */ const HINT_INTERNAL_ITERATION = 'doctrine.internal.iteration'; /** * @var string */ const HINT_LOCK_MODE = 'doctrine.lockMode'; /** * @var integer $_state The current state of this query. */ private $_state = self::STATE_CLEAN; /** * @var string $_dql Cached DQL query. */ private $_dql = null; /** * @var \Doctrine\ORM\Query\ParserResult The parser result that holds DQL => SQL information. */ private $_parserResult; /** * @var integer The first result to return (the "offset"). */ private $_firstResult = null; /** * @var integer The maximum number of results to return (the "limit"). */ private $_maxResults = null; /** * @var CacheDriver The cache driver used for caching queries. */ private $_queryCache; /** * @var boolean Boolean value that indicates whether or not expire the query cache. */ private $_expireQueryCache = false; /** * @var int Query Cache lifetime. */ private $_queryCacheTTL; /** * @var boolean Whether to use a query cache, if available. Defaults to TRUE. */ private $_useQueryCache = true; // End of Caching Stuff /** * Initializes a new Query instance. * * @param \Doctrine\ORM\EntityManager $entityManager */ /*public function __construct(EntityManager $entityManager) { parent::__construct($entityManager); }*/ /** * Gets the SQL query/queries that correspond to this DQL query. * * @return mixed The built sql query or an array of all sql queries. * @override */ public function getSQL() { return $this->_parse()->getSQLExecutor()->getSQLStatements(); } /** * Returns the corresponding AST for this DQL query. * * @return \Doctrine\ORM\Query\AST\SelectStatement | * \Doctrine\ORM\Query\AST\UpdateStatement | * \Doctrine\ORM\Query\AST\DeleteStatement */ public function getAST() { $parser = new Parser($this); return $parser->getAST(); } /** * Parses the DQL query, if necessary, and stores the parser result. * * Note: Populates $this->_parserResult as a side-effect. * * @return \Doctrine\ORM\Query\ParserResult */ private function _parse() { if ($this->_state === self::STATE_CLEAN) { return $this->_parserResult; } $this->_state = self::STATE_CLEAN; // Check query cache. if ( ! ($this->_useQueryCache && ($queryCache = $this->getQueryCacheDriver()))) { $parser = new Parser($this); $this->_parserResult = $parser->parse(); return $this->_parserResult; } $hash = $this->_getQueryCacheId(); $cached = $this->_expireQueryCache ? false : $queryCache->fetch($hash); if ($cached !== false) { // Cache hit. $this->_parserResult = $cached; return $this->_parserResult; } // Cache miss. $parser = new Parser($this); $this->_parserResult = $parser->parse(); $queryCache->save($hash, $this->_parserResult, $this->_queryCacheTTL); return $this->_parserResult; } /** * {@inheritdoc} */ protected function _doExecute() { $executor = $this->_parse()->getSqlExecutor(); if ($this->_queryCacheProfile) { $executor->setQueryCacheProfile($this->_queryCacheProfile); } // Prepare parameters $paramMappings = $this->_parserResult->getParameterMappings(); if (count($paramMappings) != count($this->_params)) { throw QueryException::invalidParameterNumber(); } list($sqlParams, $types) = $this->processParameterMappings($paramMappings); if ($this->_resultSetMapping === null) { $this->_resultSetMapping = $this->_parserResult->getResultSetMapping(); } return $executor->execute($this->_em->getConnection(), $sqlParams, $types); } /** * Processes query parameter mappings * * @param array $paramMappings * @return array */ private function processParameterMappings($paramMappings) { $sqlParams = $types = array(); foreach ($this->_params as $key => $value) { if ( ! isset($paramMappings[$key])) { throw QueryException::unknownParameter($key); } if (isset($this->_paramTypes[$key])) { foreach ($paramMappings[$key] as $position) { $types[$position] = $this->_paramTypes[$key]; } } $sqlPositions = $paramMappings[$key]; $value = array_values($this->processParameterValue($value)); $countValue = count($value); for ($i = 0, $l = count($sqlPositions); $i < $l; $i++) { $sqlParams[$sqlPositions[$i]] = $value[($i % $countValue)]; } } if (count($sqlParams) != count($types)) { throw QueryException::parameterTypeMissmatch(); } if ($sqlParams) { ksort($sqlParams); $sqlParams = array_values($sqlParams); ksort($types); $types = array_values($types); } return array($sqlParams, $types); } /** * Process an individual parameter value * * @param mixed $value * @return array */ private function processParameterValue($value) { switch (true) { case is_array($value): for ($i = 0, $l = count($value); $i < $l; $i++) { $paramValue = $this->processParameterValue($value[$i]); // TODO: What about Entities that have composite primary key? $value[$i] = is_array($paramValue) ? $paramValue[key($paramValue)] : $paramValue; } return array($value); case is_object($value) && $this->_em->getMetadataFactory()->hasMetadataFor(get_class($value)): if ($this->_em->getUnitOfWork()->getEntityState($value) === UnitOfWork::STATE_MANAGED) { return array_values($this->_em->getUnitOfWork()->getEntityIdentifier($value)); } $class = $this->_em->getClassMetadata(get_class($value)); return array_values($class->getIdentifierValues($value)); default: return array($value); } } /** * Defines a cache driver to be used for caching queries. * * @param Doctrine_Cache_Interface|null $driver Cache driver * @return Query This query instance. */ public function setQueryCacheDriver($queryCache) { $this->_queryCache = $queryCache; return $this; } /** * Defines whether the query should make use of a query cache, if available. * * @param boolean $bool * @return @return Query This query instance. */ public function useQueryCache($bool) { $this->_useQueryCache = $bool; return $this; } /** * Returns the cache driver used for query caching. * * @return CacheDriver The cache driver used for query caching or NULL, if this * Query does not use query caching. */ public function getQueryCacheDriver() { if ($this->_queryCache) { return $this->_queryCache; } return $this->_em->getConfiguration()->getQueryCacheImpl(); } /** * Defines how long the query cache will be active before expire. * * @param integer $timeToLive How long the cache entry is valid * @return Query This query instance. */ public function setQueryCacheLifetime($timeToLive) { if ($timeToLive !== null) { $timeToLive = (int) $timeToLive; } $this->_queryCacheTTL = $timeToLive; return $this; } /** * Retrieves the lifetime of resultset cache. * * @return int */ public function getQueryCacheLifetime() { return $this->_queryCacheTTL; } /** * Defines if the query cache is active or not. * * @param boolean $expire Whether or not to force query cache expiration. * @return Query This query instance. */ public function expireQueryCache($expire = true) { $this->_expireQueryCache = $expire; return $this; } /** * Retrieves if the query cache is active or not. * * @return bool */ public function getExpireQueryCache() { return $this->_expireQueryCache; } /** * @override */ public function free() { parent::free(); $this->_dql = null; $this->_state = self::STATE_CLEAN; } /** * Sets a DQL query string. * * @param string $dqlQuery DQL Query * @return \Doctrine\ORM\AbstractQuery */ public function setDQL($dqlQuery) { if ($dqlQuery !== null) { $this->_dql = $dqlQuery; $this->_state = self::STATE_DIRTY; } return $this; } /** * Returns the DQL query that is represented by this query object. * * @return string DQL query */ public function getDQL() { return $this->_dql; } /** * Returns the state of this query object * By default the type is Doctrine_ORM_Query_Abstract::STATE_CLEAN but if it appears any unprocessed DQL * part, it is switched to Doctrine_ORM_Query_Abstract::STATE_DIRTY. * * @see AbstractQuery::STATE_CLEAN * @see AbstractQuery::STATE_DIRTY * * @return integer Return the query state */ public function getState() { return $this->_state; } /** * Method to check if an arbitrary piece of DQL exists * * @param string $dql Arbitrary piece of DQL to check for * @return boolean */ public function contains($dql) { return stripos($this->getDQL(), $dql) === false ? false : true; } /** * Sets the position of the first result to retrieve (the "offset"). * * @param integer $firstResult The first result to return. * @return Query This query object. */ public function setFirstResult($firstResult) { $this->_firstResult = $firstResult; $this->_state = self::STATE_DIRTY; return $this; } /** * Gets the position of the first result the query object was set to retrieve (the "offset"). * Returns NULL if {@link setFirstResult} was not applied to this query. * * @return integer The position of the first result. */ public function getFirstResult() { return $this->_firstResult; } /** * Sets the maximum number of results to retrieve (the "limit"). * * @param integer $maxResults * @return Query This query object. */ public function setMaxResults($maxResults) { $this->_maxResults = $maxResults; $this->_state = self::STATE_DIRTY; return $this; } /** * Gets the maximum number of results the query object was set to retrieve (the "limit"). * Returns NULL if {@link setMaxResults} was not applied to this query. * * @return integer Maximum number of results. */ public function getMaxResults() { return $this->_maxResults; } /** * Executes the query and returns an IterableResult that can be used to incrementally * iterated over the result. * * @param array $params The query parameters. * @param integer $hydrationMode The hydration mode to use. * @return \Doctrine\ORM\Internal\Hydration\IterableResult */ public function iterate(array $params = array(), $hydrationMode = self::HYDRATE_OBJECT) { $this->setHint(self::HINT_INTERNAL_ITERATION, true); return parent::iterate($params, $hydrationMode); } /** * {@inheritdoc} */ public function setHint($name, $value) { $this->_state = self::STATE_DIRTY; return parent::setHint($name, $value); } /** * {@inheritdoc} */ public function setHydrationMode($hydrationMode) { $this->_state = self::STATE_DIRTY; return parent::setHydrationMode($hydrationMode); } /** * Set the lock mode for this Query. * * @see \Doctrine\DBAL\LockMode * @param int $lockMode * @return Query */ public function setLockMode($lockMode) { if ($lockMode === LockMode::PESSIMISTIC_READ || $lockMode === LockMode::PESSIMISTIC_WRITE) { if ( ! $this->_em->getConnection()->isTransactionActive()) { throw TransactionRequiredException::transactionRequired(); } } $this->setHint(self::HINT_LOCK_MODE, $lockMode); return $this; } /** * Get the current lock mode for this query. * * @return int */ public function getLockMode() { $lockMode = $this->getHint(self::HINT_LOCK_MODE); if ( ! $lockMode) { return LockMode::NONE; } return $lockMode; } /** * Generate a cache id for the query cache - reusing the Result-Cache-Id generator. * * The query cache * * @return string */ protected function _getQueryCacheId() { ksort($this->_hints); return md5( $this->getDql() . var_export($this->_hints, true) . '&firstResult=' . $this->_firstResult . '&maxResult=' . $this->_maxResults . '&hydrationMode='.$this->_hydrationMode.'DOCTRINE_QUERY_CACHE_SALT' ); } /** * Cleanup Query resource when clone is called. * * @return void */ public function __clone() { parent::__clone(); $this->_state = self::STATE_DIRTY; } }