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Code Editor : select.inc
<?php /** * @addtogroup database * @{ */ require_once dirname(__FILE__) . '/query.inc'; /** * Interface for extendable query objects. * * "Extenders" follow the "Decorator" OOP design pattern. That is, they wrap * and "decorate" another object. In our case, they implement the same interface * as select queries and wrap a select query, to which they delegate almost all * operations. Subclasses of this class may implement additional methods or * override existing methods as appropriate. Extenders may also wrap other * extender objects, allowing for arbitrarily complex "enhanced" queries. */ interface QueryExtendableInterface { /** * Enhance this object by wrapping it in an extender object. * * @param $extender_name * The base name of the extending class. The base name will be checked * against the current database connection to allow driver-specific subclasses * as well, using the same logic as the query objects themselves. For example, * PagerDefault_mysql is the MySQL-specific override for PagerDefault. * @return QueryExtendableInterface * The extender object, which now contains a reference to this object. */ public function extend($extender_name); } /** * Interface definition for a Select Query object. */ interface SelectQueryInterface extends QueryConditionInterface, QueryAlterableInterface, QueryExtendableInterface, QueryPlaceholderInterface { /* Alter accessors to expose the query data to alter hooks. */ /** * Returns a reference to the fields array for this query. * * Because this method returns by reference, alter hooks may edit the fields * array directly to make their changes. If just adding fields, however, the * use of addField() is preferred. * * Note that this method must be called by reference as well: * * @code * $fields =& $query->getFields(); * @endcode * * @return * A reference to the fields array structure. */ public function &getFields(); /** * Returns a reference to the expressions array for this query. * * Because this method returns by reference, alter hooks may edit the expressions * array directly to make their changes. If just adding expressions, however, the * use of addExpression() is preferred. * * Note that this method must be called by reference as well: * * @code * $fields =& $query->getExpressions(); * @endcode * * @return * A reference to the expression array structure. */ public function &getExpressions(); /** * Returns a reference to the order by array for this query. * * Because this method returns by reference, alter hooks may edit the order-by * array directly to make their changes. If just adding additional ordering * fields, however, the use of orderBy() is preferred. * * Note that this method must be called by reference as well: * * @code * $fields =& $query->getOrderBy(); * @endcode * * @return * A reference to the expression array structure. */ public function &getOrderBy(); /** * Returns a reference to the group-by array for this query. * * Because this method returns by reference, alter hooks may edit the group-by * array directly to make their changes. If just adding additional grouping * fields, however, the use of groupBy() is preferred. * * Note that this method must be called by reference as well: * * @code * $fields =& $query->getGroupBy(); * @endcode * * @return * A reference to the group-by array structure. */ public function &getGroupBy(); /** * Returns a reference to the tables array for this query. * * Because this method returns by reference, alter hooks may edit the tables * array directly to make their changes. If just adding tables, however, the * use of the join() methods is preferred. * * Note that this method must be called by reference as well: * * @code * $fields =& $query->getTables(); * @endcode * * @return * A reference to the tables array structure. */ public function &getTables(); /** * Returns a reference to the union queries for this query. This include * queries for UNION, UNION ALL, and UNION DISTINCT. * * Because this method returns by reference, alter hooks may edit the tables * array directly to make their changes. If just adding union queries, * however, the use of the union() method is preferred. * * Note that this method must be called by reference as well: * * @code * $fields =& $query->getUnion(); * @endcode * * @return * A reference to the union query array structure. */ public function &getUnion(); /** * Compiles and returns an associative array of the arguments for this prepared statement. * * @param $queryPlaceholder * When collecting the arguments of a subquery, the main placeholder * object should be passed as this parameter. * * @return * An associative array of all placeholder arguments for this query. */ public function getArguments(QueryPlaceholderInterface $queryPlaceholder = NULL); /* Query building operations */ /** * Sets this query to be DISTINCT. * * @param $distinct * TRUE to flag this query DISTINCT, FALSE to disable it. * @return SelectQueryInterface * The called object. */ public function distinct($distinct = TRUE); /** * Adds a field to the list to be SELECTed. * * @param $table_alias * The name of the table from which the field comes, as an alias. Generally * you will want to use the return value of join() here to ensure that it is * valid. * @param $field * The name of the field. * @param $alias * The alias for this field. If not specified, one will be generated * automatically based on the $table_alias and $field. The alias will be * checked for uniqueness, so the requested alias may not be the alias * that is assigned in all cases. * @return * The unique alias that was assigned for this field. */ public function addField($table_alias, $field, $alias = NULL); /** * Add multiple fields from the same table to be SELECTed. * * This method does not return the aliases set for the passed fields. In the * majority of cases that is not a problem, as the alias will be the field * name. However, if you do need to know the alias you can call getFields() * and examine the result to determine what alias was created. Alternatively, * simply use addField() for the few fields you care about and this method for * the rest. * * @param $table_alias * The name of the table from which the field comes, as an alias. Generally * you will want to use the return value of join() here to ensure that it is * valid. * @param $fields * An indexed array of fields present in the specified table that should be * included in this query. If not specified, $table_alias.* will be generated * without any aliases. * @return SelectQueryInterface * The called object. */ public function fields($table_alias, array $fields = array()); /** * Adds an expression to the list of "fields" to be SELECTed. * * An expression can be any arbitrary string that is valid SQL. That includes * various functions, which may in some cases be database-dependent. This * method makes no effort to correct for database-specific functions. * * @param $expression * The expression string. May contain placeholders. * @param $alias * The alias for this expression. If not specified, one will be generated * automatically in the form "expression_#". The alias will be checked for * uniqueness, so the requested alias may not be the alias that is assigned * in all cases. * @param $arguments * Any placeholder arguments needed for this expression. * @return * The unique alias that was assigned for this expression. */ public function addExpression($expression, $alias = NULL, $arguments = array()); /** * Default Join against another table in the database. * * This method is a convenience method for innerJoin(). * * @param $table * The table against which to join. * @param $alias * The alias for the table. In most cases this should be the first letter * of the table, or the first letter of each "word" in the table. * @param $condition * The condition on which to join this table. If the join requires values, * this clause should use a named placeholder and the value or values to * insert should be passed in the 4th parameter. For the first table joined * on a query, this value is ignored as the first table is taken as the base * table. The token %alias can be used in this string to be replaced with * the actual alias. This is useful when $alias is modified by the database * system, for example, when joining the same table more than once. * @param $arguments * An array of arguments to replace into the $condition of this join. * @return * The unique alias that was assigned for this table. */ public function join($table, $alias = NULL, $condition = NULL, $arguments = array()); /** * Inner Join against another table in the database. * * @param $table * The table against which to join. * @param $alias * The alias for the table. In most cases this should be the first letter * of the table, or the first letter of each "word" in the table. * @param $condition * The condition on which to join this table. If the join requires values, * this clause should use a named placeholder and the value or values to * insert should be passed in the 4th parameter. For the first table joined * on a query, this value is ignored as the first table is taken as the base * table. The token %alias can be used in this string to be replaced with * the actual alias. This is useful when $alias is modified by the database * system, for example, when joining the same table more than once. * @param $arguments * An array of arguments to replace into the $condition of this join. * @return * The unique alias that was assigned for this table. */ public function innerJoin($table, $alias = NULL, $condition = NULL, $arguments = array()); /** * Left Outer Join against another table in the database. * * @param $table * The table against which to join. * @param $alias * The alias for the table. In most cases this should be the first letter * of the table, or the first letter of each "word" in the table. * @param $condition * The condition on which to join this table. If the join requires values, * this clause should use a named placeholder and the value or values to * insert should be passed in the 4th parameter. For the first table joined * on a query, this value is ignored as the first table is taken as the base * table. The token %alias can be used in this string to be replaced with * the actual alias. This is useful when $alias is modified by the database * system, for example, when joining the same table more than once. * @param $arguments * An array of arguments to replace into the $condition of this join. * @return * The unique alias that was assigned for this table. */ public function leftJoin($table, $alias = NULL, $condition = NULL, $arguments = array()); /** * Right Outer Join against another table in the database. * * @param $table * The table against which to join. * @param $alias * The alias for the table. In most cases this should be the first letter * of the table, or the first letter of each "word" in the table. * @param $condition * The condition on which to join this table. If the join requires values, * this clause should use a named placeholder and the value or values to * insert should be passed in the 4th parameter. For the first table joined * on a query, this value is ignored as the first table is taken as the base * table. The token %alias can be used in this string to be replaced with * the actual alias. This is useful when $alias is modified by the database * system, for example, when joining the same table more than once. * @param $arguments * An array of arguments to replace into the $condition of this join. * @return * The unique alias that was assigned for this table. */ public function rightJoin($table, $alias = NULL, $condition = NULL, $arguments = array()); /** * Join against another table in the database. * * This method does the "hard" work of queuing up a table to be joined against. * In some cases, that may include dipping into the Schema API to find the necessary * fields on which to join. * * @param $type * The type of join. Typically one one of INNER, LEFT OUTER, and RIGHT OUTER. * @param $table * The table against which to join. May be a string or another SelectQuery * object. If a query object is passed, it will be used as a subselect. * @param $alias * The alias for the table. In most cases this should be the first letter * of the table, or the first letter of each "word" in the table. If omitted, * one will be dynamically generated. * @param $condition * The condition on which to join this table. If the join requires values, * this clause should use a named placeholder and the value or values to * insert should be passed in the 4th parameter. For the first table joined * on a query, this value is ignored as the first table is taken as the base * table. The token %alias can be used in this string to be replaced with * the actual alias. This is useful when $alias is modified by the database * system, for example, when joining the same table more than once. * @param $arguments * An array of arguments to replace into the $condition of this join. * @return * The unique alias that was assigned for this table. */ public function addJoin($type, $table, $alias = NULL, $condition = NULL, $arguments = array()); /** * Orders the result set by a given field. * * If called multiple times, the query will order by each specified field in the * order this method is called. * * If the query uses DISTINCT or GROUP BY conditions, fields or expressions * that are used for the order must be selected to be compatible with some * databases like PostgreSQL. The PostgreSQL driver can handle simple cases * automatically but it is suggested to explicitly specify them. Additionally, * when ordering on an alias, the alias must be added before orderBy() is * called. * * @param $field * The field on which to order. * @param $direction * The direction to sort. Legal values are "ASC" and "DESC". Any other value * will be converted to "ASC". * @return SelectQueryInterface * The called object. */ public function orderBy($field, $direction = 'ASC'); /** * Orders the result set by a random value. * * This may be stacked with other orderBy() calls. If so, the query will order * by each specified field, including this one, in the order called. Although * this method may be called multiple times on the same query, doing so * is not particularly useful. * * Note: The method used by most drivers may not scale to very large result * sets. If you need to work with extremely large data sets, you may create * your own database driver by subclassing off of an existing driver and * implementing your own randomization mechanism. See * * http://jan.kneschke.de/projects/mysql/order-by-rand/ * * for an example of such an alternate sorting mechanism. * * @return SelectQueryInterface * The called object */ public function orderRandom(); /** * Restricts a query to a given range in the result set. * * If this method is called with no parameters, will remove any range * directives that have been set. * * @param $start * The first record from the result set to return. If NULL, removes any * range directives that are set. * @param $length * The number of records to return from the result set. * @return SelectQueryInterface * The called object. */ public function range($start = NULL, $length = NULL); /** * Add another Select query to UNION to this one. * * Union queries consist of two or more queries whose * results are effectively concatenated together. Queries * will be UNIONed in the order they are specified, with * this object's query coming first. Duplicate columns will * be discarded. All forms of UNION are supported, using * the second '$type' argument. * * Note: All queries UNIONed together must have the same * field structure, in the same order. It is up to the * caller to ensure that they match properly. If they do * not, an SQL syntax error will result. * * @param $query * The query to UNION to this query. * @param $type * The type of UNION to add to the query. Defaults to plain * UNION. * @return SelectQueryInterface * The called object. */ public function union(SelectQueryInterface $query, $type = ''); /** * Groups the result set by the specified field. * * @param $field * The field on which to group. This should be the field as aliased. * @return SelectQueryInterface * The called object. */ public function groupBy($field); /** * Get the equivalent COUNT query of this query as a new query object. * * @return SelectQueryInterface * A new SelectQuery object with no fields or expressions besides COUNT(*). */ public function countQuery(); /** * Indicates if preExecute() has already been called on that object. * * @return * TRUE is this query has already been prepared, FALSE otherwise. */ public function isPrepared(); /** * Generic preparation and validation for a SELECT query. * * @return * TRUE if the validation was successful, FALSE if not. */ public function preExecute(SelectQueryInterface $query = NULL); /** * Helper function to build most common HAVING conditional clauses. * * This method can take a variable number of parameters. If called with two * parameters, they are taken as $field and $value with $operator having a value * of IN if $value is an array and = otherwise. * * @param $field * The name of the field to check. If you would like to add a more complex * condition involving operators or functions, use having(). * @param $value * The value to test the field against. In most cases, this is a scalar. For more * complex options, it is an array. The meaning of each element in the array is * dependent on the $operator. * @param $operator * The comparison operator, such as =, <, or >=. It also accepts more complex * options such as IN, LIKE, or BETWEEN. Defaults to IN if $value is an array * = otherwise. * @return QueryConditionInterface * The called object. */ public function havingCondition($field, $value = NULL, $operator = NULL); /** * Clone magic method. * * Select queries have dependent objects that must be deep-cloned. The * connection object itself, however, should not be cloned as that would * duplicate the connection itself. */ public function __clone(); /** * Add FOR UPDATE to the query. * * FOR UPDATE prevents the rows retrieved by the SELECT statement from being * modified or deleted by other transactions until the current transaction * ends. Other transactions that attempt UPDATE, DELETE, or SELECT FOR UPDATE * of these rows will be blocked until the current transaction ends. * * @param $set * IF TRUE, FOR UPDATE will be added to the query, if FALSE then it won't. * * @return QueryConditionInterface * The called object. */ public function forUpdate($set = TRUE); } /** * The base extender class for Select queries. */ class SelectQueryExtender implements SelectQueryInterface { /** * The SelectQuery object we are extending/decorating. * * @var SelectQueryInterface */ protected $query; /** * The connection object on which to run this query. * * @var DatabaseConnection */ protected $connection; /** * A unique identifier for this query object. */ protected $uniqueIdentifier; /** * The placeholder counter. */ protected $placeholder = 0; public function __construct(SelectQueryInterface $query, DatabaseConnection $connection) { $this->uniqueIdentifier = uniqid('', TRUE); $this->query = $query; $this->connection = $connection; } /** * Implements QueryPlaceholderInterface::uniqueIdentifier(). */ public function uniqueIdentifier() { return $this->uniqueIdentifier; } /** * Implements QueryPlaceholderInterface::nextPlaceholder(). */ public function nextPlaceholder() { return $this->placeholder++; } /* Implementations of QueryAlterableInterface. */ public function addTag($tag) { $this->query->addTag($tag); return $this; } public function hasTag($tag) { return $this->query->hasTag($tag); } public function hasAllTags() { $args = func_get_args(); return call_user_func_array(array($this->query, 'hasAllTags'), $args); } public function hasAnyTag() { $args = func_get_args(); return call_user_func_array(array($this->query, 'hasAnyTag'), $args); } public function addMetaData($key, $object) { $this->query->addMetaData($key, $object); return $this; } public function getMetaData($key) { return $this->query->getMetaData($key); } /* Implementations of QueryConditionInterface for the WHERE clause. */ public function condition($field, $value = NULL, $operator = NULL) { $this->query->condition($field, $value, $operator); return $this; } public function &conditions() { return $this->query->conditions(); } public function arguments() { return $this->query->arguments(); } public function where($snippet, $args = array()) { $this->query->where($snippet, $args); return $this; } public function compile(DatabaseConnection $connection, QueryPlaceholderInterface $queryPlaceholder) { return $this->query->compile($connection, $queryPlaceholder); } public function compiled() { return $this->query->compiled(); } /* Implementations of QueryConditionInterface for the HAVING clause. */ public function havingCondition($field, $value = NULL, $operator = '=') { $this->query->havingCondition($field, $value, $operator); return $this; } public function &havingConditions() { return $this->query->havingConditions(); } public function havingArguments() { return $this->query->havingArguments(); } public function having($snippet, $args = array()) { $this->query->having($snippet, $args); return $this; } public function havingCompile(DatabaseConnection $connection) { return $this->query->havingCompile($connection); } /* Implementations of QueryExtendableInterface. */ public function extend($extender_name) { // The extender can be anywhere so this needs to go to the registry, which // is surely loaded by now. $class = $this->connection->getDriverClass($extender_name, array(), TRUE); return new $class($this, $this->connection); } /* Alter accessors to expose the query data to alter hooks. */ public function &getFields() { return $this->query->getFields(); } public function &getExpressions() { return $this->query->getExpressions(); } public function &getOrderBy() { return $this->query->getOrderBy(); } public function &getGroupBy() { return $this->query->getGroupBy(); } public function &getTables() { return $this->query->getTables(); } public function &getUnion() { return $this->query->getUnion(); } public function getArguments(QueryPlaceholderInterface $queryPlaceholder = NULL) { return $this->query->getArguments($queryPlaceholder); } public function isPrepared() { return $this->query->isPrepared(); } public function preExecute(SelectQueryInterface $query = NULL) { // If no query object is passed in, use $this. if (!isset($query)) { $query = $this; } return $this->query->preExecute($query); } public function execute() { // By calling preExecute() here, we force it to preprocess the extender // object rather than just the base query object. That means // hook_query_alter() gets access to the extended object. if (!$this->preExecute($this)) { return NULL; } return $this->query->execute(); } public function distinct($distinct = TRUE) { $this->query->distinct($distinct); return $this; } public function addField($table_alias, $field, $alias = NULL) { return $this->query->addField($table_alias, $field, $alias); } public function fields($table_alias, array $fields = array()) { $this->query->fields($table_alias, $fields); return $this; } public function addExpression($expression, $alias = NULL, $arguments = array()) { return $this->query->addExpression($expression, $alias, $arguments); } public function join($table, $alias = NULL, $condition = NULL, $arguments = array()) { return $this->query->join($table, $alias, $condition, $arguments); } public function innerJoin($table, $alias = NULL, $condition = NULL, $arguments = array()) { return $this->query->innerJoin($table, $alias, $condition, $arguments); } public function leftJoin($table, $alias = NULL, $condition = NULL, $arguments = array()) { return $this->query->leftJoin($table, $alias, $condition, $arguments); } public function rightJoin($table, $alias = NULL, $condition = NULL, $arguments = array()) { return $this->query->rightJoin($table, $alias, $condition, $arguments); } public function addJoin($type, $table, $alias = NULL, $condition = NULL, $arguments = array()) { return $this->query->addJoin($type, $table, $alias, $condition, $arguments); } public function orderBy($field, $direction = 'ASC') { $this->query->orderBy($field, $direction); return $this; } public function orderRandom() { $this->query->orderRandom(); return $this; } public function range($start = NULL, $length = NULL) { $this->query->range($start, $length); return $this; } public function union(SelectQueryInterface $query, $type = '') { $this->query->union($query, $type); return $this; } public function groupBy($field) { $this->query->groupBy($field); return $this; } public function forUpdate($set = TRUE) { $this->query->forUpdate($set); return $this; } public function countQuery() { return $this->query->countQuery(); } function isNull($field) { $this->query->isNull($field); return $this; } function isNotNull($field) { $this->query->isNotNull($field); return $this; } public function exists(SelectQueryInterface $select) { $this->query->exists($select); return $this; } public function notExists(SelectQueryInterface $select) { $this->query->notExists($select); return $this; } public function __toString() { return (string) $this->query; } public function __clone() { $this->uniqueIdentifier = uniqid('', TRUE); // We need to deep-clone the query we're wrapping, which in turn may // deep-clone other objects. Exciting! $this->query = clone($this->query); } /** * Magic override for undefined methods. * * If one extender extends another extender, then methods in the inner extender * will not be exposed on the outer extender. That's because we cannot know * in advance what those methods will be, so we cannot provide wrapping * implementations as we do above. Instead, we use this slower catch-all method * to handle any additional methods. */ public function __call($method, $args) { $return = call_user_func_array(array($this->query, $method), $args); // Some methods will return the called object as part of a fluent interface. // Others will return some useful value. If it's a value, then the caller // probably wants that value. If it's the called object, then we instead // return this object. That way we don't "lose" an extender layer when // chaining methods together. if ($return instanceof SelectQueryInterface) { return $this; } else { return $return; } } } /** * Query builder for SELECT statements. */ class SelectQuery extends Query implements SelectQueryInterface { /** * The fields to SELECT. * * @var array */ protected $fields = array(); /** * The expressions to SELECT as virtual fields. * * @var array */ protected $expressions = array(); /** * The tables against which to JOIN. * * This property is a nested array. Each entry is an array representing * a single table against which to join. The structure of each entry is: * * array( * 'type' => $join_type (one of INNER, LEFT OUTER, RIGHT OUTER), * 'table' => $table, * 'alias' => $alias_of_the_table, * 'condition' => $condition_clause_on_which_to_join, * 'arguments' => $array_of_arguments_for_placeholders_in_the condition. * 'all_fields' => TRUE to SELECT $alias.*, FALSE or NULL otherwise. * ) * * If $table is a string, it is taken as the name of a table. If it is * a SelectQuery object, it is taken as a subquery. * * @var array */ protected $tables = array(); /** * The fields by which to order this query. * * This is an associative array. The keys are the fields to order, and the value * is the direction to order, either ASC or DESC. * * @var array */ protected $order = array(); /** * The fields by which to group. * * @var array */ protected $group = array(); /** * The conditional object for the WHERE clause. * * @var DatabaseCondition */ protected $where; /** * The conditional object for the HAVING clause. * * @var DatabaseCondition */ protected $having; /** * Whether or not this query should be DISTINCT * * @var boolean */ protected $distinct = FALSE; /** * The range limiters for this query. * * @var array */ protected $range; /** * An array whose elements specify a query to UNION, and the UNION type. The * 'type' key may be '', 'ALL', or 'DISTINCT' to represent a 'UNION', * 'UNION ALL', or 'UNION DISTINCT' statement, respectively. * * All entries in this array will be applied from front to back, with the * first query to union on the right of the original query, the second union * to the right of the first, etc. * * @var array */ protected $union = array(); /** * Indicates if preExecute() has already been called. * @var boolean */ protected $prepared = FALSE; /** * The FOR UPDATE status */ protected $forUpdate = FALSE; public function __construct($table, $alias = NULL, DatabaseConnection $connection, $options = array()) { $options['return'] = Database::RETURN_STATEMENT; parent::__construct($connection, $options); $this->where = new DatabaseCondition('AND'); $this->having = new DatabaseCondition('AND'); $this->addJoin(NULL, $table, $alias); } /* Implementations of QueryAlterableInterface. */ public function addTag($tag) { $this->alterTags[$tag] = 1; return $this; } public function hasTag($tag) { return isset($this->alterTags[$tag]); } public function hasAllTags() { $args = func_get_args(); return !(boolean)array_diff($args, array_keys($this->alterTags)); } public function hasAnyTag() { $args = func_get_args(); return (boolean)array_intersect($args, array_keys($this->alterTags)); } public function addMetaData($key, $object) { $this->alterMetaData[$key] = $object; return $this; } public function getMetaData($key) { return isset($this->alterMetaData[$key]) ? $this->alterMetaData[$key] : NULL; } /* Implementations of QueryConditionInterface for the WHERE clause. */ public function condition($field, $value = NULL, $operator = NULL) { $this->where->condition($field, $value, $operator); return $this; } public function &conditions() { return $this->where->conditions(); } public function arguments() { if (!$this->compiled()) { return NULL; } $args = $this->where->arguments() + $this->having->arguments(); foreach ($this->tables as $table) { if ($table['arguments']) { $args += $table['arguments']; } // If this table is a subquery, grab its arguments recursively. if ($table['table'] instanceof SelectQueryInterface) { $args += $table['table']->arguments(); } } foreach ($this->expressions as $expression) { if ($expression['arguments']) { $args += $expression['arguments']; } } // If there are any dependent queries to UNION, // incorporate their arguments recursively. foreach ($this->union as $union) { $args += $union['query']->arguments(); } return $args; } public function where($snippet, $args = array()) { $this->where->where($snippet, $args); return $this; } public function isNull($field) { $this->where->isNull($field); return $this; } public function isNotNull($field) { $this->where->isNotNull($field); return $this; } public function exists(SelectQueryInterface $select) { $this->where->exists($select); return $this; } public function notExists(SelectQueryInterface $select) { $this->where->notExists($select); return $this; } public function compile(DatabaseConnection $connection, QueryPlaceholderInterface $queryPlaceholder) { $this->where->compile($connection, $queryPlaceholder); $this->having->compile($connection, $queryPlaceholder); foreach ($this->tables as $table) { // If this table is a subquery, compile it recursively. if ($table['table'] instanceof SelectQueryInterface) { $table['table']->compile($connection, $queryPlaceholder); } } // If there are any dependent queries to UNION, compile it recursively. foreach ($this->union as $union) { $union['query']->compile($connection, $queryPlaceholder); } } public function compiled() { if (!$this->where->compiled() || !$this->having->compiled()) { return FALSE; } foreach ($this->tables as $table) { // If this table is a subquery, check its status recursively. if ($table['table'] instanceof SelectQueryInterface) { if (!$table['table']->compiled()) { return FALSE; } } } foreach ($this->union as $union) { if (!$union['query']->compiled()) { return FALSE; } } return TRUE; } /* Implementations of QueryConditionInterface for the HAVING clause. */ public function havingCondition($field, $value = NULL, $operator = NULL) { $this->having->condition($field, $value, $operator); return $this; } public function &havingConditions() { return $this->having->conditions(); } public function havingArguments() { return $this->having->arguments(); } public function having($snippet, $args = array()) { $this->having->where($snippet, $args); return $this; } public function havingCompile(DatabaseConnection $connection) { return $this->having->compile($connection, $this); } /* Implementations of QueryExtendableInterface. */ public function extend($extender_name) { $override_class = $extender_name . '_' . $this->connection->driver(); if (class_exists($override_class)) { $extender_name = $override_class; } return new $extender_name($this, $this->connection); } public function havingIsNull($field) { $this->having->isNull($field); return $this; } public function havingIsNotNull($field) { $this->having->isNotNull($field); return $this; } public function havingExists(SelectQueryInterface $select) { $this->having->exists($select); return $this; } public function havingNotExists(SelectQueryInterface $select) { $this->having->notExists($select); return $this; } public function forUpdate($set = TRUE) { if (isset($set)) { $this->forUpdate = $set; } return $this; } /* Alter accessors to expose the query data to alter hooks. */ public function &getFields() { return $this->fields; } public function &getExpressions() { return $this->expressions; } public function &getOrderBy() { return $this->order; } public function &getGroupBy() { return $this->group; } public function &getTables() { return $this->tables; } public function &getUnion() { return $this->union; } public function getArguments(QueryPlaceholderInterface $queryPlaceholder = NULL) { if (!isset($queryPlaceholder)) { $queryPlaceholder = $this; } $this->compile($this->connection, $queryPlaceholder); return $this->arguments(); } /** * Indicates if preExecute() has already been called on that object. */ public function isPrepared() { return $this->prepared; } /** * Generic preparation and validation for a SELECT query. * * @return * TRUE if the validation was successful, FALSE if not. */ public function preExecute(SelectQueryInterface $query = NULL) { // If no query object is passed in, use $this. if (!isset($query)) { $query = $this; } // Only execute this once. if ($query->isPrepared()) { return TRUE; } // Modules may alter all queries or only those having a particular tag. if (isset($this->alterTags)) { $hooks = array('query'); foreach ($this->alterTags as $tag => $value) { $hooks[] = 'query_' . $tag; } drupal_alter($hooks, $query); } $this->prepared = TRUE; // Now also prepare any sub-queries. foreach ($this->tables as $table) { if ($table['table'] instanceof SelectQueryInterface) { $table['table']->preExecute(); } } foreach ($this->union as $union) { $union['query']->preExecute(); } return $this->prepared; } public function execute() { // If validation fails, simply return NULL. // Note that validation routines in preExecute() may throw exceptions instead. if (!$this->preExecute()) { return NULL; } $args = $this->getArguments(); return $this->connection->query((string) $this, $args, $this->queryOptions); } public function distinct($distinct = TRUE) { $this->distinct = $distinct; return $this; } public function addField($table_alias, $field, $alias = NULL) { // If no alias is specified, first try the field name itself. if (empty($alias)) { $alias = $field; } // If that's already in use, try the table name and field name. if (!empty($this->fields[$alias])) { $alias = $table_alias . '_' . $field; } // If that is already used, just add a counter until we find an unused alias. $alias_candidate = $alias; $count = 2; while (!empty($this->fields[$alias_candidate])) { $alias_candidate = $alias . '_' . $count++; } $alias = $alias_candidate; $this->fields[$alias] = array( 'field' => $field, 'table' => $table_alias, 'alias' => $alias, ); return $alias; } public function fields($table_alias, array $fields = array()) { if ($fields) { foreach ($fields as $field) { // We don't care what alias was assigned. $this->addField($table_alias, $field); } } else { // We want all fields from this table. $this->tables[$table_alias]['all_fields'] = TRUE; } return $this; } public function addExpression($expression, $alias = NULL, $arguments = array()) { if (empty($alias)) { $alias = 'expression'; } $alias_candidate = $alias; $count = 2; while (!empty($this->expressions[$alias_candidate])) { $alias_candidate = $alias . '_' . $count++; } $alias = $alias_candidate; $this->expressions[$alias] = array( 'expression' => $expression, 'alias' => $alias, 'arguments' => $arguments, ); return $alias; } public function join($table, $alias = NULL, $condition = NULL, $arguments = array()) { return $this->addJoin('INNER', $table, $alias, $condition, $arguments); } public function innerJoin($table, $alias = NULL, $condition = NULL, $arguments = array()) { return $this->addJoin('INNER', $table, $alias, $condition, $arguments); } public function leftJoin($table, $alias = NULL, $condition = NULL, $arguments = array()) { return $this->addJoin('LEFT OUTER', $table, $alias, $condition, $arguments); } public function rightJoin($table, $alias = NULL, $condition = NULL, $arguments = array()) { return $this->addJoin('RIGHT OUTER', $table, $alias, $condition, $arguments); } public function addJoin($type, $table, $alias = NULL, $condition = NULL, $arguments = array()) { if (empty($alias)) { if ($table instanceof SelectQueryInterface) { $alias = 'subquery'; } else { $alias = $table; } } $alias_candidate = $alias; $count = 2; while (!empty($this->tables[$alias_candidate])) { $alias_candidate = $alias . '_' . $count++; } $alias = $alias_candidate; if (is_string($condition)) { $condition = str_replace('%alias', $alias, $condition); } $this->tables[$alias] = array( 'join type' => $type, 'table' => $table, 'alias' => $alias, 'condition' => $condition, 'arguments' => $arguments, ); return $alias; } public function orderBy($field, $direction = 'ASC') { // Only allow ASC and DESC, default to ASC. $direction = strtoupper($direction) == 'DESC' ? 'DESC' : 'ASC'; $this->order[$field] = $direction; return $this; } public function orderRandom() { $alias = $this->addExpression('RAND()', 'random_field'); $this->orderBy($alias); return $this; } public function range($start = NULL, $length = NULL) { $this->range = func_num_args() ? array('start' => $start, 'length' => $length) : array(); return $this; } public function union(SelectQueryInterface $query, $type = '') { // Handle UNION aliasing. switch ($type) { // Fold UNION DISTINCT to UNION for better cross database support. case 'DISTINCT': case '': $type = 'UNION'; break; case 'ALL': $type = 'UNION ALL'; default: } $this->union[] = array( 'type' => $type, 'query' => $query, ); return $this; } public function groupBy($field) { $this->group[$field] = $field; return $this; } public function countQuery() { // Create our new query object that we will mutate into a count query. $count = clone($this); $group_by = $count->getGroupBy(); $having = $count->havingConditions(); if (!$count->distinct && !isset($having[0])) { // When not executing a distinct query, we can zero-out existing fields // and expressions that are not used by a GROUP BY or HAVING. Fields // listed in a GROUP BY or HAVING clause need to be present in the // query. $fields =& $count->getFields(); foreach (array_keys($fields) as $field) { if (empty($group_by[$field])) { unset($fields[$field]); } } $expressions =& $count->getExpressions(); foreach (array_keys($expressions) as $field) { if (empty($group_by[$field])) { unset($expressions[$field]); } } // Also remove 'all_fields' statements, which are expanded into tablename.* // when the query is executed. foreach ($count->tables as $alias => &$table) { unset($table['all_fields']); } } // If we've just removed all fields from the query, make sure there is at // least one so that the query still runs. $count->addExpression('1'); // Ordering a count query is a waste of cycles, and breaks on some // databases anyway. $orders = &$count->getOrderBy(); $orders = array(); if ($count->distinct && !empty($group_by)) { // If the query is distinct and contains a GROUP BY, we need to remove the // distinct because SQL99 does not support counting on distinct multiple fields. $count->distinct = FALSE; } $query = $this->connection->select($count); $query->addExpression('COUNT(*)'); return $query; } public function __toString() { // For convenience, we compile the query ourselves if the caller forgot // to do it. This allows constructs like "(string) $query" to work. When // the query will be executed, it will be recompiled using the proper // placeholder generator anyway. if (!$this->compiled()) { $this->compile($this->connection, $this); } // Create a sanitized comment string to prepend to the query. $comments = $this->connection->makeComment($this->comments); // SELECT $query = $comments . 'SELECT '; if ($this->distinct) { $query .= 'DISTINCT '; } // FIELDS and EXPRESSIONS $fields = array(); foreach ($this->tables as $alias => $table) { if (!empty($table['all_fields'])) { $fields[] = $this->connection->escapeTable($alias) . '.*'; } } foreach ($this->fields as $alias => $field) { // Always use the AS keyword for field aliases, as some // databases require it (e.g., PostgreSQL). $fields[] = (isset($field['table']) ? $this->connection->escapeTable($field['table']) . '.' : '') . $this->connection->escapeField($field['field']) . ' AS ' . $this->connection->escapeAlias($field['alias']); } foreach ($this->expressions as $alias => $expression) { $fields[] = $expression['expression'] . ' AS ' . $this->connection->escapeAlias($expression['alias']); } $query .= implode(', ', $fields); // FROM - We presume all queries have a FROM, as any query that doesn't won't need the query builder anyway. $query .= "\nFROM "; foreach ($this->tables as $alias => $table) { $query .= "\n"; if (isset($table['join type'])) { $query .= $table['join type'] . ' JOIN '; } // If the table is a subquery, compile it and integrate it into this query. if ($table['table'] instanceof SelectQueryInterface) { // Run preparation steps on this sub-query before converting to string. $subquery = $table['table']; $subquery->preExecute(); $table_string = '(' . (string) $subquery . ')'; } else { $table_string = '{' . $this->connection->escapeTable($table['table']) . '}'; } // Don't use the AS keyword for table aliases, as some // databases don't support it (e.g., Oracle). $query .= $table_string . ' ' . $this->connection->escapeTable($table['alias']); if (!empty($table['condition'])) { $query .= ' ON ' . $table['condition']; } } // WHERE if (count($this->where)) { // There is an implicit string cast on $this->condition. $query .= "\nWHERE " . $this->where; } // GROUP BY if ($this->group) { $query .= "\nGROUP BY " . implode(', ', $this->group); } // HAVING if (count($this->having)) { // There is an implicit string cast on $this->having. $query .= "\nHAVING " . $this->having; } // ORDER BY if ($this->order) { $query .= "\nORDER BY "; $fields = array(); foreach ($this->order as $field => $direction) { $fields[] = $field . ' ' . $direction; } $query .= implode(', ', $fields); } // RANGE // There is no universal SQL standard for handling range or limit clauses. // Fortunately, all core-supported databases use the same range syntax. // Databases that need a different syntax can override this method and // do whatever alternate logic they need to. if (!empty($this->range)) { $query .= "\nLIMIT " . (int) $this->range['length'] . " OFFSET " . (int) $this->range['start']; } // UNION is a little odd, as the select queries to combine are passed into // this query, but syntactically they all end up on the same level. if ($this->union) { foreach ($this->union as $union) { $query .= ' ' . $union['type'] . ' ' . (string) $union['query']; } } if ($this->forUpdate) { $query .= ' FOR UPDATE'; } return $query; } public function __clone() { // On cloning, also clone the dependent objects. However, we do not // want to clone the database connection object as that would duplicate the // connection itself. $this->where = clone($this->where); $this->having = clone($this->having); foreach ($this->union as $key => $aggregate) { $this->union[$key]['query'] = clone($aggregate['query']); } } } /** * @} End of "addtogroup database". */
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