array( * '"MyTable"."Title"', * '"AnotherTable"."Title"', * ) * ) * * @var array */ protected $collidingFields = array(); private $queriedColumns = null; /** * @var bool */ private $queryFinalised = false; // TODO: replace subclass_access with this protected $querySubclasses = true; // TODO: replace restrictclasses with this protected $filterByClassName = true; /** * Create a new DataQuery. * * @param string $dataClass The name of the DataObject class that you wish to query */ public function __construct($dataClass) { $this->dataClass = $dataClass; $this->initialiseQuery(); } /** * Clone this object */ public function __clone() { $this->query = clone $this->query; } /** * Return the {@link DataObject} class that is being queried. * * @return string */ public function dataClass() { return $this->dataClass; } /** * Return the {@link SQLSelect} object that represents the current query; note that it will * be a clone of the object. * * @return SQLSelect */ public function query() { return $this->getFinalisedQuery(); } /** * Remove a filter from the query * * @param string|array $fieldExpression The predicate of the condition to remove * (ignoring parameters). The expression will be considered a match if it's * contained within any other predicate. * @return DataQuery Self reference */ public function removeFilterOn($fieldExpression) { $matched = false; // If given a parameterised condition extract only the condition if(is_array($fieldExpression)) { reset($fieldExpression); $fieldExpression = key($fieldExpression); } $where = $this->query->getWhere(); // Iterate through each condition foreach($where as $i => $condition) { // Rewrite condition groups as plain conditions before comparison if($condition instanceof SQLConditionGroup) { $predicate = $condition->conditionSQL($parameters); $condition = array($predicate => $parameters); } // As each condition is a single length array, do a single // iteration to extract the predicate and parameters foreach($condition as $predicate => $parameters) { // @see SQLSelect::addWhere for why this is required here if(strpos($predicate, $fieldExpression) !== false) { unset($where[$i]); $matched = true; } // Enforce single-item condition predicate => parameters structure break; } } // set the entire where clause back, but clear the original one first if($matched) { $this->query->setWhere($where); } else { throw new InvalidArgumentException("Couldn't find $fieldExpression in the query filter."); } return $this; } /** * Set up the simplest initial query */ protected function initialiseQuery() { // Join on base table and let lazy loading join subtables $baseClass = DataObject::getSchema()->baseDataClass($this->dataClass()); if(!$baseClass) { throw new InvalidArgumentException("DataQuery::create() Can't find data classes for '{$this->dataClass}'"); } // Build our intial query $this->query = new SQLSelect(array()); $this->query->setDistinct(true); if($sort = singleton($this->dataClass)->stat('default_sort')) { $this->sort($sort); } $baseTable = DataObject::getSchema()->tableName($baseClass); $this->query->setFrom("\"{$baseTable}\""); $obj = Injector::inst()->get($baseClass); $obj->extend('augmentDataQueryCreation', $this->query, $this); } public function setQueriedColumns($queriedColumns) { $this->queriedColumns = $queriedColumns; } /** * Ensure that the query is ready to execute. * * @param array|null $queriedColumns Any columns to filter the query by * @return SQLSelect The finalised sql query */ public function getFinalisedQuery($queriedColumns = null) { if(!$queriedColumns) { $queriedColumns = $this->queriedColumns; } if($queriedColumns) { $queriedColumns = array_merge($queriedColumns, array('Created', 'LastEdited', 'ClassName')); } $schema = DataObject::getSchema(); $query = clone $this->query; $baseDataClass = $schema->baseDataClass($this->dataClass()); $baseIDColumn = $schema->sqlColumnForField($baseDataClass, 'ID'); $ancestorClasses = ClassInfo::ancestry($this->dataClass(), true); // Generate the list of tables to iterate over and the list of columns required // by any existing where clauses. This second step is skipped if we're fetching // the whole dataobject as any required columns will get selected regardless. if($queriedColumns) { // Specifying certain columns allows joining of child tables $tableClasses = ClassInfo::dataClassesFor($this->dataClass); // Ensure that any filtered columns are included in the selected columns foreach ($query->getWhereParameterised($parameters) as $where) { // Check for any columns in the form '"Column" = ?' or '"Table"."Column"' = ? if(preg_match_all( '/(?:"(?[^"]+)"\.)?"(?[^"]+)"(?:[^\.]|$)/', $where, $matches, PREG_SET_ORDER )) { foreach($matches as $match) { $column = $match['column']; if (!in_array($column, $queriedColumns)) { $queriedColumns[] = $column; } } } } } else { $tableClasses = $ancestorClasses; } // Iterate over the tables and check what we need to select from them. If any selects are made (or the table is // required for a select) foreach($tableClasses as $tableClass) { // Determine explicit columns to select $selectColumns = null; if ($queriedColumns) { // Restrict queried columns to that on the selected table $tableFields = DataObject::database_fields($tableClass); unset($tableFields['ID']); $selectColumns = array_intersect($queriedColumns, array_keys($tableFields)); } // If this is a subclass without any explicitly requested columns, omit this from the query if(!in_array($tableClass, $ancestorClasses) && empty($selectColumns)) { continue; } // Select necessary columns (unless an explicitly empty array) if($selectColumns !== array()) { $this->selectColumnsFromTable($query, $tableClass, $selectColumns); } // Join if not the base table if($tableClass !== $baseDataClass) { $tableName = $schema->tableName($tableClass); $query->addLeftJoin( $tableName, "\"{$tableName}\".\"ID\" = {$baseIDColumn}", $tableName, 10 ); } } // Resolve colliding fields if($this->collidingFields) { foreach($this->collidingFields as $collisionField => $collisions) { $caseClauses = array(); foreach($collisions as $collision) { if(preg_match('/^"(?
[^"]+)"\./', $collision, $matches)) { $collisionTable = $matches['table']; $collisionClass = $schema->tableClass($collisionTable); if($collisionClass) { $collisionClassColumn = $schema->sqlColumnForField($collisionClass, 'ClassName'); $collisionClasses = ClassInfo::subclassesFor($collisionClass); $collisionClassesSQL = implode(', ', Convert::raw2sql($collisionClasses, true)); $caseClauses[] = "WHEN {$collisionClassColumn} IN ({$collisionClassesSQL}) THEN $collision"; } } else { user_error("Bad collision item '$collision'", E_USER_WARNING); } } $query->selectField("CASE " . implode( " ", $caseClauses) . " ELSE NULL END", $collisionField); } } if($this->filterByClassName) { // If querying the base class, don't bother filtering on class name if($this->dataClass != $baseDataClass) { // Get the ClassName values to filter to $classNames = ClassInfo::subclassesFor($this->dataClass); $classNamesPlaceholders = DB::placeholders($classNames); $baseClassColumn = $schema->sqlColumnForField($baseDataClass, 'ClassName'); $query->addWhere(array( "{$baseClassColumn} IN ($classNamesPlaceholders)" => $classNames )); } } // Select ID $query->selectField($baseIDColumn, "ID"); // Select RecordClassName $baseClassColumn = $schema->sqlColumnForField($baseDataClass, 'ClassName'); $query->selectField(" CASE WHEN {$baseClassColumn} IS NOT NULL THEN {$baseClassColumn} ELSE ".Convert::raw2sql($baseDataClass, true)." END", "RecordClassName" ); // TODO: Versioned, Translatable, SiteTreeSubsites, etc, could probably be better implemented as subclasses // of DataQuery $obj = Injector::inst()->get($this->dataClass); $obj->extend('augmentSQL', $query, $this); $this->ensureSelectContainsOrderbyColumns($query); return $query; } /** * Ensure that if a query has an order by clause, those columns are present in the select. * * @param SQLSelect $query * @param array $originalSelect */ protected function ensureSelectContainsOrderbyColumns($query, $originalSelect = array()) { if($orderby = $query->getOrderBy()) { $newOrderby = array(); $i = 0; foreach($orderby as $k => $dir) { $newOrderby[$k] = $dir; // don't touch functions in the ORDER BY or public function calls // selected as fields if(strpos($k, '(') !== false) continue; $col = str_replace('"', '', trim($k)); $parts = explode('.', $col); // Pull through SortColumn references from the originalSelect variables if(preg_match('/_SortColumn/', $col)) { if(isset($originalSelect[$col])) { $query->selectField($originalSelect[$col], $col); } continue; } if(count($parts) == 1) { // Get expression for sort value $qualCol = "\"{$parts[0]}\""; $table = DataObject::getSchema()->tableForField($this->dataClass(), $parts[0]); if($table) { $qualCol = "\"{$table}\".{$qualCol}"; } // remove original sort unset($newOrderby[$k]); // add new columns sort $newOrderby[$qualCol] = $dir; // To-do: Remove this if block once SQLSelect::$select has been refactored to store getSelect() // format internally; then this check can be part of selectField() $selects = $query->getSelect(); if(!isset($selects[$col]) && !in_array($qualCol, $selects)) { $query->selectField($qualCol); } } else { $qualCol = '"' . implode('"."', $parts) . '"'; if(!in_array($qualCol, $query->getSelect())) { unset($newOrderby[$k]); $newOrderby["\"_SortColumn$i\""] = $dir; $query->selectField($qualCol, "_SortColumn$i"); $i++; } } } $query->setOrderBy($newOrderby); } } /** * Execute the query and return the result as {@link SS_Query} object. * * @return SS_Query */ public function execute() { return $this->getFinalisedQuery()->execute(); } /** * Return this query's SQL * * @param array $parameters Out variable for parameters required for this query * @return string The resulting SQL query (may be paramaterised) */ public function sql(&$parameters = array()) { return $this->getFinalisedQuery()->sql($parameters); } /** * Return the number of records in this query. * Note that this will issue a separate SELECT COUNT() query. * * @return int */ public function count() { $quotedColumn = DataObject::getSchema()->sqlColumnForField($this->dataClass(), 'ID'); return $this->getFinalisedQuery()->count("DISTINCT {$quotedColumn}"); } /** * Return the maximum value of the given field in this DataList * * @param String $field Unquoted database column name. Will be ANSI quoted * automatically so must not contain double quotes. * @return string */ public function max($field) { return $this->aggregate("MAX(\"$field\")"); } /** * Return the minimum value of the given field in this DataList * * @param string $field Unquoted database column name. Will be ANSI quoted * automatically so must not contain double quotes. * @return string */ public function min($field) { return $this->aggregate("MIN(\"$field\")"); } /** * Return the average value of the given field in this DataList * * @param string $field Unquoted database column name. Will be ANSI quoted * automatically so must not contain double quotes. * @return string */ public function avg($field) { return $this->aggregate("AVG(\"$field\")"); } /** * Return the sum of the values of the given field in this DataList * * @param string $field Unquoted database column name. Will be ANSI quoted * automatically so must not contain double quotes. * @return string */ public function sum($field) { return $this->aggregate("SUM(\"$field\")"); } /** * Runs a raw aggregate expression. Please handle escaping yourself * * @param string $expression An aggregate expression, such as 'MAX("Balance")', or a set of them * (as an escaped SQL statement) * @return string */ public function aggregate($expression) { return $this->getFinalisedQuery()->aggregate($expression)->execute()->value(); } /** * Return the first row that would be returned by this full DataQuery * Note that this will issue a separate SELECT ... LIMIT 1 query. */ public function firstRow() { return $this->getFinalisedQuery()->firstRow(); } /** * Return the last row that would be returned by this full DataQuery * Note that this will issue a separate SELECT ... LIMIT query. */ public function lastRow() { return $this->getFinalisedQuery()->lastRow(); } /** * Update the SELECT clause of the query with the columns from the given table * * @param SQLSelect $query * @param string $tableClass Class to select from * @param array $columns */ protected function selectColumnsFromTable(SQLSelect &$query, $tableClass, $columns = null) { // Add SQL for multi-value fields $databaseFields = DataObject::database_fields($tableClass); $compositeFields = DataObject::composite_fields($tableClass, false); unset($databaseFields['ID']); foreach($databaseFields as $k => $v) { if((is_null($columns) || in_array($k, $columns)) && !isset($compositeFields[$k])) { // Update $collidingFields if necessary $expressionForField = $query->expressionForField($k); $quotedField = DataObject::getSchema()->sqlColumnForField($tableClass, $k); if($expressionForField) { if(!isset($this->collidingFields[$k])) { $this->collidingFields[$k] = array($expressionForField); } $this->collidingFields[$k][] = $quotedField; } else { $query->selectField($quotedField, $k); } } } foreach($compositeFields as $k => $v) { if((is_null($columns) || in_array($k, $columns)) && $v) { $tableName = DataObject::getSchema()->tableName($tableClass); $dbO = Object::create_from_string($v, $k); $dbO->setTable($tableName); $dbO->addToQuery($query); } } } /** * Append a GROUP BY clause to this query. * * @param string $groupby Escaped SQL statement * @return $this */ public function groupby($groupby) { $this->query->addGroupBy($groupby); return $this; } /** * Append a HAVING clause to this query. * * @param string $having Escaped SQL statement * @return $this */ public function having($having) { $this->query->addHaving($having); return $this; } /** * Create a disjunctive subgroup. * * That is a subgroup joined by OR * * @return DataQuery_SubGroup */ public function disjunctiveGroup() { return new DataQuery_SubGroup($this, 'OR'); } /** * Create a conjunctive subgroup * * That is a subgroup joined by AND * * @return DataQuery_SubGroup */ public function conjunctiveGroup() { return new DataQuery_SubGroup($this, 'AND'); } /** * Adds a WHERE clause. * * @see SQLSelect::addWhere() for syntax examples, although DataQuery * won't expand multiple arguments as SQLSelect does. * * @param string|array|SQLConditionGroup $filter Predicate(s) to set, as escaped SQL statements or * paramaterised queries * @return DataQuery */ public function where($filter) { if($filter) { $this->query->addWhere($filter); } return $this; } /** * Append a WHERE with OR. * * @see SQLSelect::addWhere() for syntax examples, although DataQuery * won't expand multiple method arguments as SQLSelect does. * * @param string|array|SQLConditionGroup $filter Predicate(s) to set, as escaped SQL statements or * paramaterised queries * @return DataQuery */ public function whereAny($filter) { if($filter) { $this->query->addWhereAny($filter); } return $this; } /** * Set the ORDER BY clause of this query * * @see SQLSelect::orderby() * * @param String $sort Column to sort on (escaped SQL statement) * @param String $direction Direction ("ASC" or "DESC", escaped SQL statement) * @param Boolean $clear Clear existing values * @return DataQuery */ public function sort($sort = null, $direction = null, $clear = true) { if($clear) { $this->query->setOrderBy($sort, $direction); } else { $this->query->addOrderBy($sort, $direction); } return $this; } /** * Reverse order by clause * * @return DataQuery */ public function reverseSort() { $this->query->reverseOrderBy(); return $this; } /** * Set the limit of this query. * * @param int $limit * @param int $offset * @return $this */ public function limit($limit, $offset = 0) { $this->query->setLimit($limit, $offset); return $this; } /** * Set whether this query should be distinct or not. * * @param bool $value * @return DataQuery */ public function distinct($value) { $this->query->setDistinct($value); return $this; } /** * Add an INNER JOIN clause to this query. * * @param String $table The unquoted table name to join to. * @param String $onClause The filter for the join (escaped SQL statement) * @param String $alias An optional alias name (unquoted) * @param int $order A numerical index to control the order that joins are added to the query; lower order values * will cause the query to appear first. The default is 20, and joins created automatically by the * ORM have a value of 10. * @param array $parameters Any additional parameters if the join is a parameterised subquery * @return $this */ public function innerJoin($table, $onClause, $alias = null, $order = 20, $parameters = array()) { if($table) { $this->query->addInnerJoin($table, $onClause, $alias, $order, $parameters); } return $this; } /** * Add a LEFT JOIN clause to this query. * * @param string $table The unquoted table to join to. * @param string $onClause The filter for the join (escaped SQL statement). * @param string $alias An optional alias name (unquoted) * @param int $order A numerical index to control the order that joins are added to the query; lower order values * will cause the query to appear first. The default is 20, and joins created automatically by the * ORM have a value of 10. * @param array $parameters Any additional parameters if the join is a parameterised subquery * @return $this */ public function leftJoin($table, $onClause, $alias = null, $order = 20, $parameters = array()) { if($table) { $this->query->addLeftJoin($table, $onClause, $alias, $order, $parameters); } return $this; } /** * Traverse the relationship fields, and add the table * mappings to the query object state. This has to be called * in any overloaded {@link SearchFilter->apply()} methods manually. * * @param string|array $relation The array/dot-syntax relation to follow * @param bool $linearOnly Set to true to restrict to linear relations only. Set this * if this relation will be used for sorting, and should not include duplicate rows. * @return string The model class of the related item */ public function applyRelation($relation, $linearOnly = false) { // NO-OP if(!$relation) { return $this->dataClass; } if(is_string($relation)) { $relation = explode(".", $relation); } $modelClass = $this->dataClass; foreach($relation as $rel) { $model = singleton($modelClass); if ($component = $model->hasOneComponent($rel)) { // Join via has_one $this->joinHasOneRelation($modelClass, $rel, $component); $modelClass = $component; } elseif ($component = $model->hasManyComponent($rel)) { // Fail on non-linear relations if($linearOnly) { throw new InvalidArgumentException("$rel is not a linear relation on model $modelClass"); } // Join via has_many $this->joinHasManyRelation($modelClass, $rel, $component); $modelClass = $component; } elseif ($component = $model->manyManyComponent($rel)) { // Fail on non-linear relations if($linearOnly) { throw new InvalidArgumentException("$rel is not a linear relation on model $modelClass"); } // Join via many_many list($parentClass, $componentClass, $parentField, $componentField, $relationTable) = $component; $this->joinManyManyRelationship( $parentClass, $componentClass, $parentField, $componentField, $relationTable ); $modelClass = $componentClass; } else { throw new InvalidArgumentException("$rel is not a relation on model $modelClass"); } } return $modelClass; } /** * Join the given class to this query with the given key * * @param string $localClass Name of class that has the has_one to the joined class * @param string $localField Name of the has_one relationship to joi * @param string $foreignClass Class to join */ protected function joinHasOneRelation($localClass, $localField, $foreignClass) { if (!$foreignClass) { throw new InvalidArgumentException("Could not find a has_one relationship {$localField} on {$localClass}"); } if ($foreignClass === 'SilverStripe\ORM\DataObject') { throw new InvalidArgumentException( "Could not join polymorphic has_one relationship {$localField} on {$localClass}" ); } $schema = DataObject::getSchema(); // Skip if already joined $foreignBaseClass = $schema->baseDataClass($foreignClass); $foreignBaseTable = $schema->tableName($foreignBaseClass); if($this->query->isJoinedTo($foreignBaseTable)) { return; } // Join base table $foreignIDColumn = $schema->sqlColumnForField($foreignBaseClass, 'ID'); $localColumn = $schema->sqlColumnForField($localClass, "{$localField}ID"); $this->query->addLeftJoin($foreignBaseTable, "{$foreignIDColumn} = {$localColumn}"); /** * add join clause to the component's ancestry classes so that the search filter could search on * its ancestor fields. */ $ancestry = ClassInfo::ancestry($foreignClass, true); if(!empty($ancestry)){ $ancestry = array_reverse($ancestry); foreach($ancestry as $ancestor){ $ancestorTable = $schema->tableName($ancestor); if($ancestorTable !== $foreignBaseTable) { $this->query->addLeftJoin($ancestorTable, "{$foreignIDColumn} = \"{$ancestorTable}\".\"ID\""); } } } } /** * Join the given has_many relation to this query. * * Doesn't work with polymorphic relationships * * @param string $localClass Name of class that has the has_many to the joined class * @param string $localField Name of the has_many relationship to join * @param string $foreignClass Class to join */ protected function joinHasManyRelation($localClass, $localField, $foreignClass) { if(!$foreignClass || $foreignClass === 'SilverStripe\ORM\DataObject') { throw new InvalidArgumentException("Could not find a has_many relationship {$localField} on {$localClass}"); } $schema = DataObject::getSchema(); // Skip if already joined $foreignTable = $schema->tableName($foreignClass); if($this->query->isJoinedTo($foreignTable)) { return; } // Join table with associated has_one /** @var DataObject $model */ $model = singleton($localClass); $foreignKey = $model->getRemoteJoinField($localField, 'has_many', $polymorphic); $localIDColumn = $schema->sqlColumnForField($localClass, 'ID'); if($polymorphic) { $foreignKeyIDColumn = $schema->sqlColumnForField($foreignClass, "{$foreignKey}ID"); $foreignKeyClassColumn = $schema->sqlColumnForField($foreignClass, "{$foreignKey}Class"); $localClassColumn = $schema->sqlColumnForField($localClass, 'ClassName'); $this->query->addLeftJoin( $foreignTable, "{$foreignKeyIDColumn} = {$localIDColumn} AND {$foreignKeyClassColumn} = {$localClassColumn}" ); } else { $foreignKeyIDColumn = $schema->sqlColumnForField($foreignClass, $foreignKey); $this->query->addLeftJoin($foreignTable, "{$foreignKeyIDColumn} = {$localIDColumn}"); } /** * add join clause to the component's ancestry classes so that the search filter could search on * its ancestor fields. */ $ancestry = ClassInfo::ancestry($foreignClass, true); $ancestry = array_reverse($ancestry); foreach($ancestry as $ancestor) { $ancestorTable = $schema->tableName($ancestor); if($ancestorTable !== $foreignTable) { $this->query->addInnerJoin($ancestorTable, "\"{$foreignTable}\".\"ID\" = \"{$ancestorTable}\".\"ID\""); } } } /** * Join table via many_many relationship * * @param string $parentClass * @param string $componentClass * @param string $parentField * @param string $componentField * @param string $relationTable Name of relation table */ protected function joinManyManyRelationship($parentClass, $componentClass, $parentField, $componentField, $relationTable) { $schema = DataObject::getSchema(); // Join on parent table $parentIDColumn = $schema->sqlColumnForField($parentClass, 'ID'); $this->query->addLeftJoin( $relationTable, "\"$relationTable\".\"$parentField\" = {$parentIDColumn}" ); // Join on base table of component class $componentBaseClass = $schema->baseDataClass($componentClass); $componentBaseTable = $schema->tableName($componentBaseClass); $componentIDColumn = $schema->sqlColumnForField($componentBaseClass, 'ID'); if (!$this->query->isJoinedTo($componentBaseTable)) { $this->query->addLeftJoin( $componentBaseTable, "\"$relationTable\".\"$componentField\" = {$componentIDColumn}" ); } /** * add join clause to the component's ancestry classes so that the search filter could search on * its ancestor fields. */ $ancestry = ClassInfo::ancestry($componentClass, true); $ancestry = array_reverse($ancestry); foreach($ancestry as $ancestor) { $ancestorTable = $schema->tableName($ancestor); if($ancestorTable != $componentBaseTable && !$this->query->isJoinedTo($ancestorTable)) { $this->query->addLeftJoin($ancestorTable, "{$componentIDColumn} = \"{$ancestorTable}\".\"ID\""); } } } /** * Removes the result of query from this query. * * @param DataQuery $subtractQuery * @param string $field * @return $this */ public function subtract(DataQuery $subtractQuery, $field='ID') { $fieldExpression = $subtractQuery->expressionForField($field); $subSelect = $subtractQuery->getFinalisedQuery(); $subSelect->setSelect(array()); $subSelect->selectField($fieldExpression, $field); $subSelect->setOrderBy(null); $subSelectSQL = $subSelect->sql($subSelectParameters); $this->where(array($this->expressionForField($field)." NOT IN ($subSelectSQL)" => $subSelectParameters)); return $this; } /** * Select the given fields from the given table. * * @param string $table Unquoted table name (will be escaped automatically) * @param array $fields Database column names (will be escaped automatically) * @return $this */ public function selectFromTable($table, $fields) { $fieldExpressions = array_map(function($item) use($table) { return "\"{$table}\".\"{$item}\""; }, $fields); $this->query->setSelect($fieldExpressions); return $this; } /** * Query the given field column from the database and return as an array. * * @param string $field See {@link expressionForField()}. * @return array List of column values for the specified column */ public function column($field = 'ID') { $fieldExpression = $this->expressionForField($field); $query = $this->getFinalisedQuery(array($field)); $originalSelect = $query->getSelect(); $query->setSelect(array()); $query->selectField($fieldExpression, $field); $this->ensureSelectContainsOrderbyColumns($query, $originalSelect); return $query->execute()->column($field); } /** * @param String $field Select statement identifier, either the unquoted column name, * the full composite SQL statement, or the alias set through {@link SQLSelect->selectField()}. * @return String The expression used to query this field via this DataQuery */ protected function expressionForField($field) { // Prepare query object for selecting this field $query = $this->getFinalisedQuery(array($field)); // Allow query to define the expression for this field $expression = $query->expressionForField($field); if(!empty($expression)) { return $expression; } // Special case for ID, if not provided if($field === 'ID') { return DataObject::getSchema()->sqlColumnForField($this->dataClass, 'ID'); } return null; } /** * Select the given field expressions. * * @param $fieldExpression String The field to select (escaped SQL statement) * @param $alias String The alias of that field (escaped SQL statement) */ public function selectField($fieldExpression, $alias = null) { $this->query->selectField($fieldExpression, $alias); } //// QUERY PARAMS /** * An arbitrary store of query parameters that can be used by decorators. * @todo This will probably be made obsolete if we have subclasses of DataList and/or DataQuery. */ private $queryParams; /** * Set an arbitrary query parameter, that can be used by decorators to add additional meta-data to the query. * It's expected that the $key will be namespaced, e.g, 'Versioned.stage' instead of just 'stage'. * * @param string $key * @param string $value * @return $this */ public function setQueryParam($key, $value) { $this->queryParams[$key] = $value; return $this; } /** * Set an arbitrary query parameter, that can be used by decorators to add additional meta-data to the query. * * @param string $key * @return string */ public function getQueryParam($key) { if(isset($this->queryParams[$key])) { return $this->queryParams[$key]; } return null; } /** * Returns all query parameters * @return array query parameters array */ public function getQueryParams() { return $this->queryParams; } }