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select('id, name') * ->from('user') * ->limit(10); * // build and execute the query * $rows = $query->all(); * // alternatively, you can create DB command and execute it * $command = $query->createCommand(); * // $command->sql returns the actual SQL * $rows = $command->queryAll(); * ``` * * Query internally uses the [[QueryBuilder]] class to generate the SQL statement. * * A more detailed usage guide on how to work with Query can be found in the [guide article on Query Builder](guide:db-query-builder). * * @property-read string[] $tablesUsedInFrom Table names indexed by aliases. * * @author Qiang Xue
* @author Carsten Brandt
* @since 2.0 */ class Query extends Component implements QueryInterface, ExpressionInterface { use QueryTrait; /** * @var array|null the columns being selected. For example, `['id', 'name']`. * This is used to construct the SELECT clause in a SQL statement. If not set, it means selecting all columns. * @see select() */ public $select; /** * @var string|null additional option that should be appended to the 'SELECT' keyword. For example, * in MySQL, the option 'SQL_CALC_FOUND_ROWS' can be used. */ public $selectOption; /** * @var bool whether to select distinct rows of data only. If this is set true, * the SELECT clause would be changed to SELECT DISTINCT. */ public $distinct = false; /** * @var array|null the table(s) to be selected from. For example, `['user', 'post']`. * This is used to construct the FROM clause in a SQL statement. * @see from() */ public $from; /** * @var array|null how to group the query results. For example, `['company', 'department']`. * This is used to construct the GROUP BY clause in a SQL statement. */ public $groupBy; /** * @var array|null how to join with other tables. Each array element represents the specification * of one join which has the following structure: * * ```php * [$joinType, $tableName, $joinCondition] * ``` * * For example, * * ```php * [ * ['INNER JOIN', 'user', 'user.id = author_id'], * ['LEFT JOIN', 'team', 'team.id = team_id'], * ] * ``` */ public $join; /** * @var string|array|ExpressionInterface|null the condition to be applied in the GROUP BY clause. * It can be either a string or an array. Please refer to [[where()]] on how to specify the condition. */ public $having; /** * @var array|null this is used to construct the UNION clause(s) in a SQL statement. * Each array element is an array of the following structure: * * - `query`: either a string or a [[Query]] object representing a query * - `all`: boolean, whether it should be `UNION ALL` or `UNION` */ public $union; /** * @var array|null this is used to construct the WITH section in a SQL query. * Each array element is an array of the following structure: * * - `query`: either a string or a [[Query]] object representing a query * - `alias`: string, alias of query for further usage * - `recursive`: boolean, whether it should be `WITH RECURSIVE` or `WITH` * @see withQuery() * @since 2.0.35 */ public $withQueries; /** * @var array|null list of query parameter values indexed by parameter placeholders. * For example, `[':name' => 'Dan', ':age' => 31]`. */ public $params = []; /** * @var int|bool|null the default number of seconds that query results can remain valid in cache. * Use 0 to indicate that the cached data will never expire. * Use a negative number to indicate that query cache should not be used. * Use boolean `true` to indicate that [[Connection::queryCacheDuration]] should be used. * @see cache() * @since 2.0.14 */ public $queryCacheDuration; /** * @var \yii\caching\Dependency|null the dependency to be associated with the cached query result for this query * @see cache() * @since 2.0.14 */ public $queryCacheDependency; /** * Creates a DB command that can be used to execute this query. * @param Connection|null $db the database connection used to generate the SQL statement. * If this parameter is not given, the `db` application component will be used. * @return Command the created DB command instance. */ public function createCommand($db = null) { if ($db === null) { $db = Yii::$app->getDb(); } list($sql, $params) = $db->getQueryBuilder()->build($this); $command = $db->createCommand($sql, $params); $this->setCommandCache($command); return $command; } /** * Prepares for building SQL. * This method is called by [[QueryBuilder]] when it starts to build SQL from a query object. * You may override this method to do some final preparation work when converting a query into a SQL statement. * @param QueryBuilder $builder * @return $this a prepared query instance which will be used by [[QueryBuilder]] to build the SQL */ public function prepare($builder) { return $this; } /** * Starts a batch query. * * A batch query supports fetching data in batches, which can keep the memory usage under a limit. * This method will return a [[BatchQueryResult]] object which implements the [[\Iterator]] interface * and can be traversed to retrieve the data in batches. * * For example, * * ```php * $query = (new Query)->from('user'); * foreach ($query->batch() as $rows) { * // $rows is an array of 100 or fewer rows from user table * } * ``` * * @param int $batchSize the number of records to be fetched in each batch. * @param Connection|null $db the database connection. If not set, the "db" application component will be used. * @return BatchQueryResult the batch query result. It implements the [[\Iterator]] interface * and can be traversed to retrieve the data in batches. */ public function batch($batchSize = 100, $db = null) { return Yii::createObject([ 'class' => BatchQueryResult::className(), 'query' => $this, 'batchSize' => $batchSize, 'db' => $db, 'each' => false, ]); } /** * Starts a batch query and retrieves data row by row. * * This method is similar to [[batch()]] except that in each iteration of the result, * only one row of data is returned. For example, * * ```php * $query = (new Query)->from('user'); * foreach ($query->each() as $row) { * } * ``` * * @param int $batchSize the number of records to be fetched in each batch. * @param Connection|null $db the database connection. If not set, the "db" application component will be used. * @return BatchQueryResult the batch query result. It implements the [[\Iterator]] interface * and can be traversed to retrieve the data in batches. */ public function each($batchSize = 100, $db = null) { return Yii::createObject([ 'class' => BatchQueryResult::className(), 'query' => $this, 'batchSize' => $batchSize, 'db' => $db, 'each' => true, ]); } /** * Executes the query and returns all results as an array. * @param Connection|null $db the database connection used to generate the SQL statement. * If this parameter is not given, the `db` application component will be used. * @return array the query results. If the query results in nothing, an empty array will be returned. */ public function all($db = null) { if ($this->emulateExecution) { return []; } $rows = $this->createCommand($db)->queryAll(); return $this->populate($rows); } /** * Converts the raw query results into the format as specified by this query. * This method is internally used to convert the data fetched from database * into the format as required by this query. * @param array $rows the raw query result from database * @return array the converted query result */ public function populate($rows) { if ($this->indexBy === null) { return $rows; } $result = []; foreach ($rows as $row) { $result[ArrayHelper::getValue($row, $this->indexBy)] = $row; } return $result; } /** * Executes the query and returns a single row of result. * @param Connection|null $db the database connection used to generate the SQL statement. * If this parameter is not given, the `db` application component will be used. * @return array|bool the first row (in terms of an array) of the query result. False is returned if the query * results in nothing. */ public function one($db = null) { if ($this->emulateExecution) { return false; } return $this->createCommand($db)->queryOne(); } /** * Returns the query result as a scalar value. * The value returned will be the first column in the first row of the query results. * @param Connection|null $db the database connection used to generate the SQL statement. * If this parameter is not given, the `db` application component will be used. * @return string|int|null|false the value of the first column in the first row of the query result. * False is returned if the query result is empty. */ public function scalar($db = null) { if ($this->emulateExecution) { return null; } return $this->createCommand($db)->queryScalar(); } /** * Executes the query and returns the first column of the result. * @param Connection|null $db the database connection used to generate the SQL statement. * If this parameter is not given, the `db` application component will be used. * @return array the first column of the query result. An empty array is returned if the query results in nothing. */ public function column($db = null) { if ($this->emulateExecution) { return []; } if ($this->indexBy === null) { return $this->createCommand($db)->queryColumn(); } if (is_string($this->indexBy) && is_array($this->select) && count($this->select) === 1) { if (strpos($this->indexBy, '.') === false && count($tables = $this->getTablesUsedInFrom()) > 0) { $this->select[] = key($tables) . '.' . $this->indexBy; } else { $this->select[] = $this->indexBy; } } $rows = $this->createCommand($db)->queryAll(); $results = []; $column = null; if (is_string($this->indexBy)) { if (($dotPos = strpos($this->indexBy, '.')) === false) { $column = $this->indexBy; } else { $column = substr($this->indexBy, $dotPos + 1); } } foreach ($rows as $row) { $value = reset($row); if ($this->indexBy instanceof \Closure) { $results[call_user_func($this->indexBy, $row)] = $value; } else { $results[$row[$column]] = $value; } } return $results; } /** * Returns the number of records. * @param string $q the COUNT expression. Defaults to '*'. * Make sure you properly [quote](guide:db-dao#quoting-table-and-column-names) column names in the expression. * @param Connection|null $db the database connection used to generate the SQL statement. * If this parameter is not given (or null), the `db` application component will be used. * @return int|string|null number of records. The result may be a string depending on the * underlying database engine and to support integer values higher than a 32bit PHP integer can handle. */ public function count($q = '*', $db = null) { if ($this->emulateExecution) { return 0; } return $this->queryScalar("COUNT($q)", $db); } /** * Returns the sum of the specified column values. * @param string $q the column name or expression. * Make sure you properly [quote](guide:db-dao#quoting-table-and-column-names) column names in the expression. * @param Connection|null $db the database connection used to generate the SQL statement. * If this parameter is not given, the `db` application component will be used. * @return mixed the sum of the specified column values. */ public function sum($q, $db = null) { if ($this->emulateExecution) { return 0; } return $this->queryScalar("SUM($q)", $db); } /** * Returns the average of the specified column values. * @param string $q the column name or expression. * Make sure you properly [quote](guide:db-dao#quoting-table-and-column-names) column names in the expression. * @param Connection|null $db the database connection used to generate the SQL statement. * If this parameter is not given, the `db` application component will be used. * @return mixed the average of the specified column values. */ public function average($q, $db = null) { if ($this->emulateExecution) { return 0; } return $this->queryScalar("AVG($q)", $db); } /** * Returns the minimum of the specified column values. * @param string $q the column name or expression. * Make sure you properly [quote](guide:db-dao#quoting-table-and-column-names) column names in the expression. * @param Connection|null $db the database connection used to generate the SQL statement. * If this parameter is not given, the `db` application component will be used. * @return mixed the minimum of the specified column values. */ public function min($q, $db = null) { return $this->queryScalar("MIN($q)", $db); } /** * Returns the maximum of the specified column values. * @param string $q the column name or expression. * Make sure you properly [quote](guide:db-dao#quoting-table-and-column-names) column names in the expression. * @param Connection|null $db the database connection used to generate the SQL statement. * If this parameter is not given, the `db` application component will be used. * @return mixed the maximum of the specified column values. */ public function max($q, $db = null) { return $this->queryScalar("MAX($q)", $db); } /** * Returns a value indicating whether the query result contains any row of data. * @param Connection|null $db the database connection used to generate the SQL statement. * If this parameter is not given, the `db` application component will be used. * @return bool whether the query result contains any row of data. */ public function exists($db = null) { if ($this->emulateExecution) { return false; } $command = $this->createCommand($db); $params = $command->params; $command->setSql($command->db->getQueryBuilder()->selectExists($command->getSql())); $command->bindValues($params); return (bool) $command->queryScalar(); } /** * Queries a scalar value by setting [[select]] first. * Restores the value of select to make this query reusable. * @param string|ExpressionInterface $selectExpression * @param Connection|null $db the database connection used to execute the query. * @return bool|string|null * @throws \Throwable if can't create command */ protected function queryScalar($selectExpression, $db) { if ($this->emulateExecution) { return null; } if ( !$this->distinct && empty($this->groupBy) && empty($this->having) && empty($this->union) ) { $select = $this->select; $order = $this->orderBy; $limit = $this->limit; $offset = $this->offset; $this->select = [$selectExpression]; $this->orderBy = null; $this->limit = null; $this->offset = null; $e = null; try { $command = $this->createCommand($db); } catch (\Exception $e) { // throw it later (for PHP < 7.0) } catch (\Throwable $e) { // throw it later } $this->select = $select; $this->orderBy = $order; $this->limit = $limit; $this->offset = $offset; if ($e !== null) { throw $e; } return $command->queryScalar(); } $command = (new self()) ->select([$selectExpression]) ->from(['c' => $this]) ->createCommand($db); $this->setCommandCache($command); return $command->queryScalar(); } /** * Returns table names used in [[from]] indexed by aliases. * Both aliases and names are enclosed into {{ and }}. * @return string[] table names indexed by aliases * @throws \yii\base\InvalidConfigException * @since 2.0.12 */ public function getTablesUsedInFrom() { if (empty($this->from)) { return []; } if (is_array($this->from)) { $tableNames = $this->from; } elseif (is_string($this->from)) { $tableNames = preg_split('/\s*,\s*/', trim($this->from), -1, PREG_SPLIT_NO_EMPTY); } elseif ($this->from instanceof Expression) { $tableNames = [$this->from]; } else { throw new InvalidConfigException(gettype($this->from) . ' in $from is not supported.'); } return $this->cleanUpTableNames($tableNames); } /** * Clean up table names and aliases * Both aliases and names are enclosed into {{ and }}. * @param array $tableNames non-empty array * @return string[] table names indexed by aliases * @since 2.0.14 */ protected function cleanUpTableNames($tableNames) { $cleanedUpTableNames = []; foreach ($tableNames as $alias => $tableName) { if (is_string($tableName) && !is_string($alias)) { $pattern = <<
ensureNameQuoted($alias)] = $tableName; } elseif ($tableName instanceof self) { $cleanedUpTableNames[$this->ensureNameQuoted($alias)] = $tableName; } else { $cleanedUpTableNames[$this->ensureNameQuoted($alias)] = $this->ensureNameQuoted($tableName); } } return $cleanedUpTableNames; } /** * Ensures name is wrapped with {{ and }} * @param string $name * @return string */ private function ensureNameQuoted($name) { $name = str_replace(["'", '"', '`', '[', ']'], '', $name); if ($name && !preg_match('/^{{.*}}$/', $name)) { return '{{' . $name . '}}'; } return $name; } /** * Sets the SELECT part of the query. * @param string|array|ExpressionInterface $columns the columns to be selected. * Columns can be specified in either a string (e.g. "id, name") or an array (e.g. ['id', 'name']). * Columns can be prefixed with table names (e.g. "user.id") and/or contain column aliases (e.g. "user.id AS user_id"). * The method will automatically quote the column names unless a column contains some parenthesis * (which means the column contains a DB expression). A DB expression may also be passed in form of * an [[ExpressionInterface]] object. * * Note that if you are selecting an expression like `CONCAT(first_name, ' ', last_name)`, you should * use an array to specify the columns. Otherwise, the expression may be incorrectly split into several parts. * * When the columns are specified as an array, you may also use array keys as the column aliases (if a column * does not need alias, do not use a string key). * * Starting from version 2.0.1, you may also select sub-queries as columns by specifying each such column * as a `Query` instance representing the sub-query. * * @param string|null $option additional option that should be appended to the 'SELECT' keyword. For example, * in MySQL, the option 'SQL_CALC_FOUND_ROWS' can be used. * @return $this the query object itself */ public function select($columns, $option = null) { $this->select = $this->normalizeSelect($columns); $this->selectOption = $option; return $this; } /** * Add more columns to the SELECT part of the query. * * Note, that if [[select]] has not been specified before, you should include `*` explicitly * if you want to select all remaining columns too: * * ```php * $query->addSelect(["*", "CONCAT(first_name, ' ', last_name) AS full_name"])->one(); * ``` * * @param string|array|ExpressionInterface $columns the columns to add to the select. See [[select()]] for more * details about the format of this parameter. * @return $this the query object itself * @see select() */ public function addSelect($columns) { if ($this->select === null) { return $this->select($columns); } if (!is_array($this->select)) { $this->select = $this->normalizeSelect($this->select); } $this->select = array_merge($this->select, $this->normalizeSelect($columns)); return $this; } /** * Normalizes the SELECT columns passed to [[select()]] or [[addSelect()]]. * * @param string|array|ExpressionInterface $columns * @return array * @since 2.0.21 */ protected function normalizeSelect($columns) { if ($columns instanceof ExpressionInterface) { $columns = [$columns]; } elseif (!is_array($columns)) { $columns = preg_split('/\s*,\s*/', trim((string)$columns), -1, PREG_SPLIT_NO_EMPTY); } $select = []; foreach ($columns as $columnAlias => $columnDefinition) { if (is_string($columnAlias)) { // Already in the normalized format, good for them $select[$columnAlias] = $columnDefinition; continue; } if (is_string($columnDefinition)) { if ( preg_match('/^(.*?)(?i:\s+as\s+|\s+)([\w\-_\.]+)$/', $columnDefinition, $matches) && !preg_match('/^\d+$/', $matches[2]) && strpos($matches[2], '.') === false ) { // Using "columnName as alias" or "columnName alias" syntax $select[$matches[2]] = $matches[1]; continue; } if (strpos($columnDefinition, '(') === false) { // Normal column name, just alias it to itself to ensure it's not selected twice $select[$columnDefinition] = $columnDefinition; continue; } } // Either a string calling a function, DB expression, or sub-query $select[] = $columnDefinition; } return $select; } /** * Returns unique column names excluding duplicates. * Columns to be removed: * - if column definition already present in SELECT part with same alias * - if column definition without alias already present in SELECT part without alias too * @param array $columns the columns to be merged to the select. * @since 2.0.14 * @deprecated in 2.0.21 */ protected function getUniqueColumns($columns) { $unaliasedColumns = $this->getUnaliasedColumnsFromSelect(); $result = []; foreach ($columns as $columnAlias => $columnDefinition) { if (!$columnDefinition instanceof Query) { if (is_string($columnAlias)) { $existsInSelect = isset($this->select[$columnAlias]) && $this->select[$columnAlias] === $columnDefinition; if ($existsInSelect) { continue; } } elseif (is_int($columnAlias)) { $existsInSelect = in_array($columnDefinition, $unaliasedColumns, true); $existsInResultSet = in_array($columnDefinition, $result, true); if ($existsInSelect || $existsInResultSet) { continue; } } } $result[$columnAlias] = $columnDefinition; } return $result; } /** * @return array List of columns without aliases from SELECT statement. * @since 2.0.14 * @deprecated in 2.0.21 */ protected function getUnaliasedColumnsFromSelect() { $result = []; if (is_array($this->select)) { foreach ($this->select as $name => $value) { if (is_int($name)) { $result[] = $value; } } } return array_unique($result); } /** * Sets the value indicating whether to SELECT DISTINCT or not. * @param bool $value whether to SELECT DISTINCT or not. * @return $this the query object itself */ public function distinct($value = true) { $this->distinct = $value; return $this; } /** * Sets the FROM part of the query. * @param string|array|ExpressionInterface $tables the table(s) to be selected from. This can be either a string (e.g. `'user'`) * or an array (e.g. `['user', 'profile']`) specifying one or several table names. * Table names can contain schema prefixes (e.g. `'public.user'`) and/or table aliases (e.g. `'user u'`). * The method will automatically quote the table names unless it contains some parenthesis * (which means the table is given as a sub-query or DB expression). * * When the tables are specified as an array, you may also use the array keys as the table aliases * (if a table does not need alias, do not use a string key). * * Use a Query object to represent a sub-query. In this case, the corresponding array key will be used * as the alias for the sub-query. * * To specify the `FROM` part in plain SQL, you may pass an instance of [[ExpressionInterface]]. * * Here are some examples: * * ```php * // SELECT * FROM `user` `u`, `profile`; * $query = (new \yii\db\Query)->from(['u' => 'user', 'profile']); * * // SELECT * FROM (SELECT * FROM `user` WHERE `active` = 1) `activeusers`; * $subquery = (new \yii\db\Query)->from('user')->where(['active' => true]) * $query = (new \yii\db\Query)->from(['activeusers' => $subquery]); * * // subquery can also be a string with plain SQL wrapped in parenthesis * // SELECT * FROM (SELECT * FROM `user` WHERE `active` = 1) `activeusers`; * $subquery = "(SELECT * FROM `user` WHERE `active` = 1)"; * $query = (new \yii\db\Query)->from(['activeusers' => $subquery]); * ``` * * @return $this the query object itself */ public function from($tables) { if ($tables instanceof ExpressionInterface) { $tables = [$tables]; } if (is_string($tables)) { $tables = preg_split('/\s*,\s*/', trim($tables), -1, PREG_SPLIT_NO_EMPTY); } $this->from = $tables; return $this; } /** * Sets the WHERE part of the query. * * The method requires a `$condition` parameter, and optionally a `$params` parameter * specifying the values to be bound to the query. * * The `$condition` parameter should be either a string (e.g. `'id=1'`) or an array. * * {@inheritdoc} * * @param string|array|ExpressionInterface $condition the conditions that should be put in the WHERE part. * @param array $params the parameters (name => value) to be bound to the query. * @return $this the query object itself * @see andWhere() * @see orWhere() * @see QueryInterface::where() */ public function where($condition, $params = []) { $this->where = $condition; $this->addParams($params); return $this; } /** * Adds an additional WHERE condition to the existing one. * The new condition and the existing one will be joined using the `AND` operator. * @param string|array|ExpressionInterface $condition the new WHERE condition. Please refer to [[where()]] * on how to specify this parameter. * @param array $params the parameters (name => value) to be bound to the query. * @return $this the query object itself * @see where() * @see orWhere() */ public function andWhere($condition, $params = []) { if ($this->where === null) { $this->where = $condition; } elseif (is_array($this->where) && isset($this->where[0]) && strcasecmp($this->where[0], 'and') === 0) { $this->where[] = $condition; } else { $this->where = ['and', $this->where, $condition]; } $this->addParams($params); return $this; } /** * Adds an additional WHERE condition to the existing one. * The new condition and the existing one will be joined using the `OR` operator. * @param string|array|ExpressionInterface $condition the new WHERE condition. Please refer to [[where()]] * on how to specify this parameter. * @param array $params the parameters (name => value) to be bound to the query. * @return $this the query object itself * @see where() * @see andWhere() */ public function orWhere($condition, $params = []) { if ($this->where === null) { $this->where = $condition; } else { $this->where = ['or', $this->where, $condition]; } $this->addParams($params); return $this; } /** * Adds a filtering condition for a specific column and allow the user to choose a filter operator. * * It adds an additional WHERE condition for the given field and determines the comparison operator * based on the first few characters of the given value. * The condition is added in the same way as in [[andFilterWhere]] so [[isEmpty()|empty values]] are ignored. * The new condition and the existing one will be joined using the `AND` operator. * * The comparison operator is intelligently determined based on the first few characters in the given value. * In particular, it recognizes the following operators if they appear as the leading characters in the given value: * * - `<`: the column must be less than the given value. * - `>`: the column must be greater than the given value. * - `<=`: the column must be less than or equal to the given value. * - `>=`: the column must be greater than or equal to the given value. * - `<>`: the column must not be the same as the given value. * - `=`: the column must be equal to the given value. * - If none of the above operators is detected, the `$defaultOperator` will be used. * * @param string $name the column name. * @param string $value the column value optionally prepended with the comparison operator. * @param string $defaultOperator The operator to use, when no operator is given in `$value`. * Defaults to `=`, performing an exact match. * @return $this The query object itself * @since 2.0.8 */ public function andFilterCompare($name, $value, $defaultOperator = '=') { if (preg_match('/^(<>|>=|>|<=|<|=)/', (string)$value, $matches)) { $operator = $matches[1]; $value = substr($value, strlen($operator)); } else { $operator = $defaultOperator; } return $this->andFilterWhere([$operator, $name, $value]); } /** * Appends a JOIN part to the query. * The first parameter specifies what type of join it is. * @param string $type the type of join, such as INNER JOIN, LEFT JOIN. * @param string|array $table the table or sub-query to be joined. * * Use a string to represent the name of the table to be joined. * The table name can contain a schema prefix (e.g. 'public.user') and/or table alias (e.g. 'user u'). * The method will automatically quote the table name unless it contains some parenthesis * (which means the table is given as a sub-query or DB expression). * * You may also specify the table as an array with one element, using the array key as the table alias * (e.g. ['u' => 'user']). * * To join a sub-query, use an array with one element, with the value set to a [[Query]] object * representing the sub-query, and the corresponding key representing the alias. * * @param string|array $on the join condition that should appear in the ON part. * Please refer to [[where()]] on how to specify this parameter. * * Note that the array format of [[where()]] is designed to match columns to values instead of columns to columns, so * the following would **not** work as expected: `['post.author_id' => 'user.id']`, it would * match the `post.author_id` column value against the string `'user.id'`. * It is recommended to use the string syntax here which is more suited for a join: * * ```php * 'post.author_id = user.id' * ``` * * @param array $params the parameters (name => value) to be bound to the query. * @return $this the query object itself */ public function join($type, $table, $on = '', $params = []) { $this->join[] = [$type, $table, $on]; return $this->addParams($params); } /** * Appends an INNER JOIN part to the query. * @param string|array $table the table or sub-query to be joined. * * Use a string to represent the name of the table to be joined. * The table name can contain a schema prefix (e.g. 'public.user') and/or table alias (e.g. 'user u'). * The method will automatically quote the table name unless it contains some parenthesis * (which means the table is given as a sub-query or DB expression). * * You may also specify the table as an array with one element, using the array key as the table alias * (e.g. ['u' => 'user']). * * To join a sub-query, use an array with one element, with the value set to a [[Query]] object * representing the sub-query, and the corresponding key representing the alias. * * @param string|array $on the join condition that should appear in the ON part. * Please refer to [[join()]] on how to specify this parameter. * @param array $params the parameters (name => value) to be bound to the query. * @return $this the query object itself */ public function innerJoin($table, $on = '', $params = []) { $this->join[] = ['INNER JOIN', $table, $on]; return $this->addParams($params); } /** * Appends a LEFT OUTER JOIN part to the query. * @param string|array $table the table or sub-query to be joined. * * Use a string to represent the name of the table to be joined. * The table name can contain a schema prefix (e.g. 'public.user') and/or table alias (e.g. 'user u'). * The method will automatically quote the table name unless it contains some parenthesis * (which means the table is given as a sub-query or DB expression). * * You may also specify the table as an array with one element, using the array key as the table alias * (e.g. ['u' => 'user']). * * To join a sub-query, use an array with one element, with the value set to a [[Query]] object * representing the sub-query, and the corresponding key representing the alias. * * @param string|array $on the join condition that should appear in the ON part. * Please refer to [[join()]] on how to specify this parameter. * @param array $params the parameters (name => value) to be bound to the query * @return $this the query object itself */ public function leftJoin($table, $on = '', $params = []) { $this->join[] = ['LEFT JOIN', $table, $on]; return $this->addParams($params); } /** * Appends a RIGHT OUTER JOIN part to the query. * @param string|array $table the table or sub-query to be joined. * * Use a string to represent the name of the table to be joined. * The table name can contain a schema prefix (e.g. 'public.user') and/or table alias (e.g. 'user u'). * The method will automatically quote the table name unless it contains some parenthesis * (which means the table is given as a sub-query or DB expression). * * You may also specify the table as an array with one element, using the array key as the table alias * (e.g. ['u' => 'user']). * * To join a sub-query, use an array with one element, with the value set to a [[Query]] object * representing the sub-query, and the corresponding key representing the alias. * * @param string|array $on the join condition that should appear in the ON part. * Please refer to [[join()]] on how to specify this parameter. * @param array $params the parameters (name => value) to be bound to the query * @return $this the query object itself */ public function rightJoin($table, $on = '', $params = []) { $this->join[] = ['RIGHT JOIN', $table, $on]; return $this->addParams($params); } /** * Sets the GROUP BY part of the query. * @param string|array|ExpressionInterface|null $columns the columns to be grouped by. * Columns can be specified in either a string (e.g. "id, name") or an array (e.g. ['id', 'name']). * The method will automatically quote the column names unless a column contains some parenthesis * (which means the column contains a DB expression). * * Note that if your group-by is an expression containing commas, you should always use an array * to represent the group-by information. Otherwise, the method will not be able to correctly determine * the group-by columns. * * Since version 2.0.7, an [[ExpressionInterface]] object can be passed to specify the GROUP BY part explicitly in plain SQL. * Since version 2.0.14, an [[ExpressionInterface]] object can be passed as well. * @return $this the query object itself * @see addGroupBy() */ public function groupBy($columns) { if ($columns instanceof ExpressionInterface) { $columns = [$columns]; } elseif (!is_array($columns) && !is_null($columns)) { $columns = preg_split('/\s*,\s*/', trim($columns), -1, PREG_SPLIT_NO_EMPTY); } $this->groupBy = $columns; return $this; } /** * Adds additional group-by columns to the existing ones. * @param string|array|ExpressionInterface $columns additional columns to be grouped by. * Columns can be specified in either a string (e.g. "id, name") or an array (e.g. ['id', 'name']). * The method will automatically quote the column names unless a column contains some parenthesis * (which means the column contains a DB expression). * * Note that if your group-by is an expression containing commas, you should always use an array * to represent the group-by information. Otherwise, the method will not be able to correctly determine * the group-by columns. * * Since version 2.0.7, an [[Expression]] object can be passed to specify the GROUP BY part explicitly in plain SQL. * Since version 2.0.14, an [[ExpressionInterface]] object can be passed as well. * @return $this the query object itself * @see groupBy() */ public function addGroupBy($columns) { if ($columns instanceof ExpressionInterface) { $columns = [$columns]; } elseif (!is_array($columns)) { $columns = preg_split('/\s*,\s*/', trim($columns), -1, PREG_SPLIT_NO_EMPTY); } if ($this->groupBy === null) { $this->groupBy = $columns; } else { $this->groupBy = array_merge($this->groupBy, $columns); } return $this; } /** * Sets the HAVING part of the query. * @param string|array|ExpressionInterface $condition the conditions to be put after HAVING. * Please refer to [[where()]] on how to specify this parameter. * @param array $params the parameters (name => value) to be bound to the query. * @return $this the query object itself * @see andHaving() * @see orHaving() */ public function having($condition, $params = []) { $this->having = $condition; $this->addParams($params); return $this; } /** * Adds an additional HAVING condition to the existing one. * The new condition and the existing one will be joined using the `AND` operator. * @param string|array|ExpressionInterface $condition the new HAVING condition. Please refer to [[where()]] * on how to specify this parameter. * @param array $params the parameters (name => value) to be bound to the query. * @return $this the query object itself * @see having() * @see orHaving() */ public function andHaving($condition, $params = []) { if ($this->having === null) { $this->having = $condition; } else { $this->having = ['and', $this->having, $condition]; } $this->addParams($params); return $this; } /** * Adds an additional HAVING condition to the existing one. * The new condition and the existing one will be joined using the `OR` operator. * @param string|array|ExpressionInterface $condition the new HAVING condition. Please refer to [[where()]] * on how to specify this parameter. * @param array $params the parameters (name => value) to be bound to the query. * @return $this the query object itself * @see having() * @see andHaving() */ public function orHaving($condition, $params = []) { if ($this->having === null) { $this->having = $condition; } else { $this->having = ['or', $this->having, $condition]; } $this->addParams($params); return $this; } /** * Sets the HAVING part of the query but ignores [[isEmpty()|empty operands]]. * * This method is similar to [[having()]]. The main difference is that this method will * remove [[isEmpty()|empty query operands]]. As a result, this method is best suited * for building query conditions based on filter values entered by users. * * The following code shows the difference between this method and [[having()]]: * * ```php * // HAVING `age`=:age * $query->filterHaving(['name' => null, 'age' => 20]); * // HAVING `age`=:age * $query->having(['age' => 20]); * // HAVING `name` IS NULL AND `age`=:age * $query->having(['name' => null, 'age' => 20]); * ``` * * Note that unlike [[having()]], you cannot pass binding parameters to this method. * * @param array $condition the conditions that should be put in the HAVING part. * See [[having()]] on how to specify this parameter. * @return $this the query object itself * @see having() * @see andFilterHaving() * @see orFilterHaving() * @since 2.0.11 */ public function filterHaving(array $condition) { $condition = $this->filterCondition($condition); if ($condition !== []) { $this->having($condition); } return $this; } /** * Adds an additional HAVING condition to the existing one but ignores [[isEmpty()|empty operands]]. * The new condition and the existing one will be joined using the `AND` operator. * * This method is similar to [[andHaving()]]. The main difference is that this method will * remove [[isEmpty()|empty query operands]]. As a result, this method is best suited * for building query conditions based on filter values entered by users. * * @param array $condition the new HAVING condition. Please refer to [[having()]] * on how to specify this parameter. * @return $this the query object itself * @see filterHaving() * @see orFilterHaving() * @since 2.0.11 */ public function andFilterHaving(array $condition) { $condition = $this->filterCondition($condition); if ($condition !== []) { $this->andHaving($condition); } return $this; } /** * Adds an additional HAVING condition to the existing one but ignores [[isEmpty()|empty operands]]. * The new condition and the existing one will be joined using the `OR` operator. * * This method is similar to [[orHaving()]]. The main difference is that this method will * remove [[isEmpty()|empty query operands]]. As a result, this method is best suited * for building query conditions based on filter values entered by users. * * @param array $condition the new HAVING condition. Please refer to [[having()]] * on how to specify this parameter. * @return $this the query object itself * @see filterHaving() * @see andFilterHaving() * @since 2.0.11 */ public function orFilterHaving(array $condition) { $condition = $this->filterCondition($condition); if ($condition !== []) { $this->orHaving($condition); } return $this; } /** * Appends a SQL statement using UNION operator. * @param string|Query $sql the SQL statement to be appended using UNION * @param bool $all TRUE if using UNION ALL and FALSE if using UNION * @return $this the query object itself */ public function union($sql, $all = false) { $this->union[] = ['query' => $sql, 'all' => $all]; return $this; } /** * Prepends a SQL statement using WITH syntax. * @param string|Query $query the SQL statement to be prepended using WITH * @param string $alias query alias in WITH construction * @param bool $recursive TRUE if using WITH RECURSIVE and FALSE if using WITH * @return $this the query object itself * @since 2.0.35 */ public function withQuery($query, $alias, $recursive = false) { $this->withQueries[] = ['query' => $query, 'alias' => $alias, 'recursive' => $recursive]; return $this; } /** * Sets the parameters to be bound to the query. * @param array $params list of query parameter values indexed by parameter placeholders. * For example, `[':name' => 'Dan', ':age' => 31]`. * @return $this the query object itself * @see addParams() */ public function params($params) { $this->params = $params; return $this; } /** * Adds additional parameters to be bound to the query. * @param array $params list of query parameter values indexed by parameter placeholders. * For example, `[':name' => 'Dan', ':age' => 31]`. * @return $this the query object itself * @see params() */ public function addParams($params) { if (!empty($params)) { if (empty($this->params)) { $this->params = $params; } else { foreach ($params as $name => $value) { if (is_int($name)) { $this->params[] = $value; } else { $this->params[$name] = $value; } } } } return $this; } /** * Enables query cache for this Query. * @param int|true $duration the number of seconds that query results can remain valid in cache. * Use 0 to indicate that the cached data will never expire. * Use a negative number to indicate that query cache should not be used. * Use boolean `true` to indicate that [[Connection::queryCacheDuration]] should be used. * Defaults to `true`. * @param \yii\caching\Dependency|null $dependency the cache dependency associated with the cached result. * @return $this the Query object itself * @since 2.0.14 */ public function cache($duration = true, $dependency = null) { $this->queryCacheDuration = $duration; $this->queryCacheDependency = $dependency; return $this; } /** * Disables query cache for this Query. * @return $this the Query object itself * @since 2.0.14 */ public function noCache() { $this->queryCacheDuration = -1; return $this; } /** * Sets $command cache, if this query has enabled caching. * * @param Command $command * @return Command * @since 2.0.14 */ protected function setCommandCache($command) { if ($this->queryCacheDuration !== null || $this->queryCacheDependency !== null) { $duration = $this->queryCacheDuration === true ? null : $this->queryCacheDuration; $command->cache($duration, $this->queryCacheDependency); } return $command; } /** * Creates a new Query object and copies its property values from an existing one. * The properties being copies are the ones to be used by query builders. * @param Query $from the source query object * @return Query the new Query object */ public static function create($from) { return new self([ 'where' => $from->where, 'limit' => $from->limit, 'offset' => $from->offset, 'orderBy' => $from->orderBy, 'indexBy' => $from->indexBy, 'select' => $from->select, 'selectOption' => $from->selectOption, 'distinct' => $from->distinct, 'from' => $from->from, 'groupBy' => $from->groupBy, 'join' => $from->join, 'having' => $from->having, 'union' => $from->union, 'params' => $from->params, 'withQueries' => $from->withQueries, ]); } /** * Returns the SQL representation of Query * @return string */ public function __toString() { return serialize($this); } }