QueryBuilder.php 33.6 KB
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<?php
/**
 * @link http://www.yiiframework.com/
 * @copyright Copyright (c) 2008 Yii Software LLC
 * @license http://www.yiiframework.com/license/
 */

namespace yii\db;

use yii\base\NotSupportedException;

/**
 * QueryBuilder builds a SELECT SQL statement based on the specification given as a [[Query]] object.
 *
 * QueryBuilder can also be used to build SQL statements such as INSERT, UPDATE, DELETE, CREATE TABLE,
 * from a [[Query]] object.
 *
 * @author Qiang Xue <qiang.xue@gmail.com>
 * @since 2.0
 */
class QueryBuilder extends \yii\base\Object
{
	/**
	 * The prefix for automatically generated query binding parameters.
	 */
	const PARAM_PREFIX = ':qp';

	/**
	 * @var Connection the database connection.
	 */
	public $db;
	/**
	 * @var string the separator between different fragments of a SQL statement.
	 * Defaults to an empty space. This is mainly used by [[build()]] when generating a SQL statement.
	 */
	public $separator = " ";
	/**
	 * @var array the abstract column types mapped to physical column types.
	 * This is mainly used to support creating/modifying tables using DB-independent data type specifications.
	 * Child classes should override this property to declare supported type mappings.
	 */
	public $typeMap = array();

	/**
	 * Constructor.
	 * @param Connection $connection the database connection.
	 * @param array $config name-value pairs that will be used to initialize the object properties
	 */
	public function __construct($connection, $config = array())
	{
		$this->db = $connection;
		parent::__construct($config);
	}

	/**
	 * Generates a SELECT SQL statement from a [[Query]] object.
	 * @param Query $query the [[Query]] object from which the SQL statement will be generated
	 * @return string the generated SQL statement
	 */
	public function build($query)
	{
		$clauses = array(
			$this->buildSelect($query->select, $query->distinct, $query->selectOption),
			$this->buildFrom($query->from),
			$this->buildJoin($query->join, $query->params),
			$this->buildWhere($query->where, $query->params),
			$this->buildGroupBy($query->groupBy),
			$this->buildHaving($query->having, $query->params),
			$this->buildUnion($query->union, $query->params),
			$this->buildOrderBy($query->orderBy),
			$this->buildLimit($query->limit, $query->offset),
		);
		return implode($this->separator, array_filter($clauses));
	}

	/**
	 * Creates an INSERT SQL statement.
	 * For example,
	 *
	 * ~~~
	 * $sql = $queryBuilder->insert('tbl_user', array(
	 *	 'name' => 'Sam',
	 *	 'age' => 30,
	 * ), $params);
	 * ~~~
	 *
	 * The method will properly escape the table and column names.
	 *
	 * @param string $table the table that new rows will be inserted into.
	 * @param array $columns the column data (name => value) to be inserted into the table.
	 * @param array $params the binding parameters that will be generated by this method.
	 * They should be bound to the DB command later.
	 * @return string the INSERT SQL
	 */
	public function insert($table, $columns, &$params)
	{
		if (($tableSchema = $this->db->getTableSchema($table)) !== null) {
			$columnSchemas = $tableSchema->columns;
		} else {
			$columnSchemas = array();
		}
		$names = array();
		$placeholders = array();
		foreach ($columns as $name => $value) {
			$names[] = $this->db->quoteColumnName($name);
			if ($value instanceof Expression) {
				$placeholders[] = $value->expression;
				foreach ($value->params as $n => $v) {
					$params[$n] = $v;
				}
			} else {
				$phName = self::PARAM_PREFIX . count($params);
				$placeholders[] = $phName;
				$params[$phName] = !is_array($value) && isset($columnSchemas[$name]) ? $columnSchemas[$name]->typecast($value) : $value;
			}
		}

		return 'INSERT INTO ' . $this->db->quoteTableName($table)
			. ' (' . implode(', ', $names) . ') VALUES ('
			. implode(', ', $placeholders) . ')';
	}

	/**
	 * Generates a batch INSERT SQL statement.
	 * For example,
	 *
	 * ~~~
	 * $connection->createCommand()->batchInsert('tbl_user', array('name', 'age'), array(
	 *     array('Tom', 30),
	 *     array('Jane', 20),
	 *     array('Linda', 25),
	 * ))->execute();
	 * ~~~
	 *
	 * Not that the values in each row must match the corresponding column names.
	 *
	 * @param string $table the table that new rows will be inserted into.
	 * @param array $columns the column names
	 * @param array $rows the rows to be batch inserted into the table
	 * @return string the batch INSERT SQL statement
	 * @throws NotSupportedException if this is not supported by the underlying DBMS
	 */
	public function batchInsert($table, $columns, $rows)
	{
		throw new NotSupportedException($this->db->getDriverName() . ' does not support batch insert.');

	}

	/**
	 * Creates an UPDATE SQL statement.
	 * For example,
	 *
	 * ~~~
	 * $params = array();
	 * $sql = $queryBuilder->update('tbl_user', array(
	 *	 'status' => 1,
	 * ), 'age > 30', $params);
	 * ~~~
	 *
	 * The method will properly escape the table and column names.
	 *
	 * @param string $table the table to be updated.
	 * @param array $columns the column data (name => value) to be updated.
	 * @param mixed $condition the condition that will be put in the WHERE part. Please
	 * refer to [[Query::where()]] on how to specify condition.
	 * @param array $params the binding parameters that will be modified by this method
	 * so that they can be bound to the DB command later.
	 * @return string the UPDATE SQL
	 */
	public function update($table, $columns, $condition, &$params)
	{
		if (($tableSchema = $this->db->getTableSchema($table)) !== null) {
			$columnSchemas = $tableSchema->columns;
		} else {
			$columnSchemas = array();
		}

		$lines = array();
		foreach ($columns as $name => $value) {
			if ($value instanceof Expression) {
				$lines[] = $this->db->quoteColumnName($name) . '=' . $value->expression;
				foreach ($value->params as $n => $v) {
					$params[$n] = $v;
				}
			} else {
				$phName = self::PARAM_PREFIX . count($params);
				$lines[] = $this->db->quoteColumnName($name) . '=' . $phName;
				$params[$phName] = !is_array($value) && isset($columnSchemas[$name]) ? $columnSchemas[$name]->typecast($value) : $value;
			}
		}

		$sql = 'UPDATE ' . $this->db->quoteTableName($table) . ' SET ' . implode(', ', $lines);
		$where = $this->buildWhere($condition, $params);
		return $where === '' ? $sql : $sql . ' ' . $where;
	}

	/**
	 * Creates a DELETE SQL statement.
	 * For example,
	 *
	 * ~~~
	 * $sql = $queryBuilder->delete('tbl_user', 'status = 0');
	 * ~~~
	 *
	 * The method will properly escape the table and column names.
	 *
	 * @param string $table the table where the data will be deleted from.
	 * @param mixed $condition the condition that will be put in the WHERE part. Please
	 * refer to [[Query::where()]] on how to specify condition.
	 * @param array $params the binding parameters that will be modified by this method
	 * so that they can be bound to the DB command later.
	 * @return string the DELETE SQL
	 */
	public function delete($table, $condition, &$params)
	{
		$sql = 'DELETE FROM ' . $this->db->quoteTableName($table);
		$where = $this->buildWhere($condition, $params);
		return $where === '' ? $sql : $sql . ' ' . $where;
	}

	/**
	 * Builds a SQL statement for creating a new DB table.
	 *
	 * The columns in the new  table should be specified as name-definition pairs (e.g. 'name' => 'string'),
	 * where name stands for a column name which will be properly quoted by the method, and definition
	 * stands for the column type which can contain an abstract DB type.
	 * The [[getColumnType()]] method will be invoked to convert any abstract type into a physical one.
	 *
	 * If a column is specified with definition only (e.g. 'PRIMARY KEY (name, type)'), it will be directly
	 * inserted into the generated SQL.
	 *
	 * For example,
	 *
	 * ~~~
	 * $sql = $queryBuilder->createTable('tbl_user', array(
	 *	 'id' => 'pk',
	 *	 'name' => 'string',
	 *	 'age' => 'integer',
	 * ));
	 * ~~~
	 *
	 * @param string $table the name of the table to be created. The name will be properly quoted by the method.
	 * @param array $columns the columns (name => definition) in the new table.
	 * @param string $options additional SQL fragment that will be appended to the generated SQL.
	 * @return string the SQL statement for creating a new DB table.
	 */
	public function createTable($table, $columns, $options = null)
	{
		$cols = array();
		foreach ($columns as $name => $type) {
			if (is_string($name)) {
				$cols[] = "\t" . $this->db->quoteColumnName($name) . ' ' . $this->getColumnType($type);
			} else {
				$cols[] = "\t" . $type;
			}
		}
		$sql = "CREATE TABLE " . $this->db->quoteTableName($table) . " (\n" . implode(",\n", $cols) . "\n)";
		return $options === null ? $sql : $sql . ' ' . $options;
	}

	/**
	 * Builds a SQL statement for renaming a DB table.
	 * @param string $oldName the table to be renamed. The name will be properly quoted by the method.
	 * @param string $newName the new table name. The name will be properly quoted by the method.
	 * @return string the SQL statement for renaming a DB table.
	 */
	public function renameTable($oldName, $newName)
	{
		return 'RENAME TABLE ' . $this->db->quoteTableName($oldName) . ' TO ' . $this->db->quoteTableName($newName);
	}

	/**
	 * Builds a SQL statement for dropping a DB table.
	 * @param string $table the table to be dropped. The name will be properly quoted by the method.
	 * @return string the SQL statement for dropping a DB table.
	 */
	public function dropTable($table)
	{
		return "DROP TABLE " . $this->db->quoteTableName($table);
	}
	
	/**
	 * Builds a SQL statement for adding a primary key constraint to an existing table.
	 * @param string $name the name of the primary key constraint.
	 * @param string $table the table that the primary key constraint will be added to.
	 * @param string|array $columns comma separated string or array of columns that the primary key will consist of.
	 * @return string the SQL statement for adding a primary key constraint to an existing table.
	 */
	public function addPrimaryKey($name, $table, $columns)
	{
		if (is_string($columns)) {
			$columns = preg_split('/\s*,\s*/', $columns, -1, PREG_SPLIT_NO_EMPTY);
		}

		foreach ($columns as $i => $col) {
			$columns[$i] = $this->db->quoteColumnName($col);
		}
		
		return 'ALTER TABLE ' . $this->db->quoteTableName($table) . ' ADD CONSTRAINT '
			. $this->db->quoteColumnName($name) . '  PRIMARY KEY ('
			. implode(', ', $columns). ' )';
	}
	
	/**
	 * Builds a SQL statement for removing a primary key constraint to an existing table.
	 * @param string $name the name of the primary key constraint to be removed.
	 * @param string $table the table that the primary key constraint will be removed from.
	 * @return string the SQL statement for removing a primary key constraint from an existing table.	 *
	 */
	public function dropPrimaryKey($name, $table)
	{
		return 'ALTER TABLE ' . $this->db->quoteTableName($table)
			. ' DROP CONSTRAINT ' . $this->db->quoteColumnName($name);
	}

	/**
	 * Builds a SQL statement for truncating a DB table.
	 * @param string $table the table to be truncated. The name will be properly quoted by the method.
	 * @return string the SQL statement for truncating a DB table.
	 */
	public function truncateTable($table)
	{
		return "TRUNCATE TABLE " . $this->db->quoteTableName($table);
	}

	/**
	 * Builds a SQL statement for adding a new DB column.
	 * @param string $table the table that the new column will be added to. The table name will be properly quoted by the method.
	 * @param string $column the name of the new column. The name will be properly quoted by the method.
	 * @param string $type the column type. The [[getColumnType()]] method will be invoked to convert abstract column type (if any)
	 * into the physical one. Anything that is not recognized as abstract type will be kept in the generated SQL.
	 * For example, 'string' will be turned into 'varchar(255)', while 'string not null' will become 'varchar(255) not null'.
	 * @return string the SQL statement for adding a new column.
	 */
	public function addColumn($table, $column, $type)
	{
		return 'ALTER TABLE ' . $this->db->quoteTableName($table)
			. ' ADD ' . $this->db->quoteColumnName($column) . ' '
			. $this->getColumnType($type);
	}

	/**
	 * Builds a SQL statement for dropping a DB column.
	 * @param string $table the table whose column is to be dropped. The name will be properly quoted by the method.
	 * @param string $column the name of the column to be dropped. The name will be properly quoted by the method.
	 * @return string the SQL statement for dropping a DB column.
	 */
	public function dropColumn($table, $column)
	{
		return "ALTER TABLE " . $this->db->quoteTableName($table)
			. " DROP COLUMN " . $this->db->quoteColumnName($column);
	}

	/**
	 * Builds a SQL statement for renaming a column.
	 * @param string $table the table whose column is to be renamed. The name will be properly quoted by the method.
	 * @param string $oldName the old name of the column. The name will be properly quoted by the method.
	 * @param string $newName the new name of the column. The name will be properly quoted by the method.
	 * @return string the SQL statement for renaming a DB column.
	 */
	public function renameColumn($table, $oldName, $newName)
	{
		return "ALTER TABLE " . $this->db->quoteTableName($table)
			. " RENAME COLUMN " . $this->db->quoteColumnName($oldName)
			. " TO " . $this->db->quoteColumnName($newName);
	}

	/**
	 * Builds a SQL statement for changing the definition of a column.
	 * @param string $table the table whose column is to be changed. The table name will be properly quoted by the method.
	 * @param string $column the name of the column to be changed. The name will be properly quoted by the method.
	 * @param string $type the new column type. The [[getColumnType()]] method will be invoked to convert abstract
	 * column type (if any) into the physical one. Anything that is not recognized as abstract type will be kept
	 * in the generated SQL. For example, 'string' will be turned into 'varchar(255)', while 'string not null'
	 * will become 'varchar(255) not null'.
	 * @return string the SQL statement for changing the definition of a column.
	 */
	public function alterColumn($table, $column, $type)
	{
		return 'ALTER TABLE ' . $this->db->quoteTableName($table) . ' CHANGE '
			. $this->db->quoteColumnName($column) . ' '
			. $this->db->quoteColumnName($column) . ' '
			. $this->getColumnType($type);
	}

	/**
	 * Builds a SQL statement for adding a foreign key constraint to an existing table.
	 * The method will properly quote the table and column names.
	 * @param string $name the name of the foreign key constraint.
	 * @param string $table the table that the foreign key constraint will be added to.
	 * @param string|array $columns the name of the column to that the constraint will be added on.
	 * If there are multiple columns, separate them with commas or use an array to represent them.
	 * @param string $refTable the table that the foreign key references to.
	 * @param string|array $refColumns the name of the column that the foreign key references to.
	 * If there are multiple columns, separate them with commas or use an array to represent them.
	 * @param string $delete the ON DELETE option. Most DBMS support these options: RESTRICT, CASCADE, NO ACTION, SET DEFAULT, SET NULL
	 * @param string $update the ON UPDATE option. Most DBMS support these options: RESTRICT, CASCADE, NO ACTION, SET DEFAULT, SET NULL
	 * @return string the SQL statement for adding a foreign key constraint to an existing table.
	 */
	public function addForeignKey($name, $table, $columns, $refTable, $refColumns, $delete = null, $update = null)
	{
		$sql = 'ALTER TABLE ' . $this->db->quoteTableName($table)
			. ' ADD CONSTRAINT ' . $this->db->quoteColumnName($name)
			. ' FOREIGN KEY (' . $this->buildColumns($columns) . ')'
			. ' REFERENCES ' . $this->db->quoteTableName($refTable)
			. ' (' . $this->buildColumns($refColumns) . ')';
		if ($delete !== null) {
			$sql .= ' ON DELETE ' . $delete;
		}
		if ($update !== null) {
			$sql .= ' ON UPDATE ' . $update;
		}
		return $sql;
	}

	/**
	 * Builds a SQL statement for dropping a foreign key constraint.
	 * @param string $name the name of the foreign key constraint to be dropped. The name will be properly quoted by the method.
	 * @param string $table the table whose foreign is to be dropped. The name will be properly quoted by the method.
	 * @return string the SQL statement for dropping a foreign key constraint.
	 */
	public function dropForeignKey($name, $table)
	{
		return 'ALTER TABLE ' . $this->db->quoteTableName($table)
			. ' DROP CONSTRAINT ' . $this->db->quoteColumnName($name);
	}

	/**
	 * Builds a SQL statement for creating a new index.
	 * @param string $name the name of the index. The name will be properly quoted by the method.
	 * @param string $table the table that the new index will be created for. The table name will be properly quoted by the method.
	 * @param string|array $columns the column(s) that should be included in the index. If there are multiple columns,
	 * separate them with commas or use an array to represent them. Each column name will be properly quoted
	 * by the method, unless a parenthesis is found in the name.
	 * @param boolean $unique whether to add UNIQUE constraint on the created index.
	 * @return string the SQL statement for creating a new index.
	 */
	public function createIndex($name, $table, $columns, $unique = false)
	{
		return ($unique ? 'CREATE UNIQUE INDEX ' : 'CREATE INDEX ')
			. $this->db->quoteTableName($name) . ' ON '
			. $this->db->quoteTableName($table)
			. ' (' . $this->buildColumns($columns) . ')';
	}

	/**
	 * Builds a SQL statement for dropping an index.
	 * @param string $name the name of the index to be dropped. The name will be properly quoted by the method.
	 * @param string $table the table whose index is to be dropped. The name will be properly quoted by the method.
	 * @return string the SQL statement for dropping an index.
	 */
	public function dropIndex($name, $table)
	{
		return 'DROP INDEX ' . $this->db->quoteTableName($name) . ' ON ' . $this->db->quoteTableName($table);
	}

	/**
	 * Creates a SQL statement for resetting the sequence value of a table's primary key.
	 * The sequence will be reset such that the primary key of the next new row inserted
	 * will have the specified value or 1.
	 * @param string $table the name of the table whose primary key sequence will be reset
	 * @param mixed $value the value for the primary key of the next new row inserted. If this is not set,
	 * the next new row's primary key will have a value 1.
	 * @return string the SQL statement for resetting sequence
	 * @throws NotSupportedException if this is not supported by the underlying DBMS
	 */
	public function resetSequence($table, $value = null)
	{
		throw new NotSupportedException($this->db->getDriverName() . ' does not support resetting sequence.');
	}

	/**
	 * Builds a SQL statement for enabling or disabling integrity check.
	 * @param boolean $check whether to turn on or off the integrity check.
	 * @param string $schema the schema of the tables. Defaults to empty string, meaning the current or default schema.
	 * @param string $table the table name. Defaults to empty string, meaning that no table will be changed.
	 * @return string the SQL statement for checking integrity
	 * @throws NotSupportedException if this is not supported by the underlying DBMS
	 */
	public function checkIntegrity($check = true, $schema = '', $table = '')
	{
		throw new NotSupportedException($this->db->getDriverName() . ' does not support enabling/disabling integrity check.');
	}

	/**
	 * Converts an abstract column type into a physical column type.
	 * The conversion is done using the type map specified in [[typeMap]].
	 * The following abstract column types are supported (using MySQL as an example to explain the corresponding
	 * physical types):
	 *
	 * - `pk`: an auto-incremental primary key type, will be converted into "int(11) NOT NULL AUTO_INCREMENT PRIMARY KEY"
	 * - `string`: string type, will be converted into "varchar(255)"
	 * - `text`: a long string type, will be converted into "text"
	 * - `smallint`: a small integer type, will be converted into "smallint(6)"
	 * - `integer`: integer type, will be converted into "int(11)"
	 * - `bigint`: a big integer type, will be converted into "bigint(20)"
	 * - `boolean`: boolean type, will be converted into "tinyint(1)"
	 * - `float``: float number type, will be converted into "float"
	 * - `decimal`: decimal number type, will be converted into "decimal"
	 * - `datetime`: datetime type, will be converted into "datetime"
	 * - `timestamp`: timestamp type, will be converted into "timestamp"
	 * - `time`: time type, will be converted into "time"
	 * - `date`: date type, will be converted into "date"
	 * - `money`: money type, will be converted into "decimal(19,4)"
	 * - `binary`: binary data type, will be converted into "blob"
	 *
	 * If the abstract type contains two or more parts separated by spaces (e.g. "string NOT NULL"), then only
	 * the first part will be converted, and the rest of the parts will be appended to the converted result.
	 * For example, 'string NOT NULL' is converted to 'varchar(255) NOT NULL'.
	 *
	 * For some of the abstract types you can also specify a length or precision constraint
	 * by prepending it in round brackets directly to the type.
	 * For example `string(32)` will be converted into "varchar(32)" on a MySQL database.
	 * If the underlying DBMS does not support these kind of constraints for a type it will
	 * be ignored.
	 *
	 * If a type cannot be found in [[typeMap]], it will be returned without any change.
	 * @param string $type abstract column type
	 * @return string physical column type.
	 */
	public function getColumnType($type)
	{
		if (isset($this->typeMap[$type])) {
			return $this->typeMap[$type];
		} elseif (preg_match('/^(\w+)\((.+?)\)(.*)$/', $type, $matches)) {
			if (isset($this->typeMap[$matches[1]])) {
				return preg_replace('/\(.+\)/', '(' . $matches[2] . ')', $this->typeMap[$matches[1]]) . $matches[3];
			}
		} elseif (preg_match('/^(\w+)\s+/', $type, $matches)) {
			if (isset($this->typeMap[$matches[1]])) {
				return preg_replace('/^\w+/', $this->typeMap[$matches[1]], $type);
			}
		}
		return $type;
	}

	/**
	 * @param array $columns
	 * @param boolean $distinct
	 * @param string $selectOption
	 * @return string the SELECT clause built from [[query]].
	 */
	public function buildSelect($columns, $distinct = false, $selectOption = null)
	{
		$select = $distinct ? 'SELECT DISTINCT' : 'SELECT';
		if ($selectOption !== null) {
			$select .= ' ' . $selectOption;
		}

		if (empty($columns)) {
			return $select . ' *';
		}

		foreach ($columns as $i => $column) {
			if (is_object($column)) {
				$columns[$i] = (string)$column;
			} elseif (strpos($column, '(') === false) {
				if (preg_match('/^(.*?)(?i:\s+as\s+|\s+)([\w\-_\.]+)$/', $column, $matches)) {
					$columns[$i] = $this->db->quoteColumnName($matches[1]) . ' AS ' . $this->db->quoteColumnName($matches[2]);
				} else {
					$columns[$i] = $this->db->quoteColumnName($column);
				}
			}
		}

		if (is_array($columns)) {
			$columns = implode(', ', $columns);
		}

		return $select . ' ' . $columns;
	}

	/**
	 * @param array $tables
	 * @return string the FROM clause built from [[query]].
	 */
	public function buildFrom($tables)
	{
		if (empty($tables)) {
			return '';
		}

		foreach ($tables as $i => $table) {
			if (strpos($table, '(') === false) {
				if (preg_match('/^(.*?)(?i:\s+as\s+|\s+)(.*)$/i', $table, $matches)) { // with alias
					$tables[$i] = $this->db->quoteTableName($matches[1]) . ' ' . $this->db->quoteTableName($matches[2]);
				} else {
					$tables[$i] = $this->db->quoteTableName($table);
				}
			}
		}

		if (is_array($tables)) {
			$tables = implode(', ', $tables);
		}

		return 'FROM ' . $tables;
	}

	/**
	 * @param string|array $joins
	 * @param array $params the binding parameters to be populated
	 * @return string the JOIN clause built from [[query]].
	 * @throws Exception if the $joins parameter is not in proper format
	 */
	public function buildJoin($joins, &$params)
	{
		if (empty($joins)) {
			return '';
		}

		foreach ($joins as $i => $join) {
			if (is_object($join)) {
				$joins[$i] = (string)$join;
			} elseif (is_array($join) && isset($join[0], $join[1])) {
				// 0:join type, 1:table name, 2:on-condition
				$table = $join[1];
				if (strpos($table, '(') === false) {
					if (preg_match('/^(.*?)(?i:\s+as\s+|\s+)(.*)$/', $table, $matches)) { // with alias
						$table = $this->db->quoteTableName($matches[1]) . ' ' . $this->db->quoteTableName($matches[2]);
					} else {
						$table = $this->db->quoteTableName($table);
					}
				}
				$joins[$i] = $join[0] . ' ' . $table;
				if (isset($join[2])) {
					$condition = $this->buildCondition($join[2], $params);
					if ($condition !== '') {
						$joins[$i] .= ' ON ' . $condition;
					}
				}
			} else {
				throw new Exception('A join clause must be specified as an array of join type, join table, and optionally join condition.');
			}
		}

		return implode($this->separator, $joins);
	}

	/**
	 * @param string|array $condition
	 * @param array $params the binding parameters to be populated
	 * @return string the WHERE clause built from [[query]].
	 */
	public function buildWhere($condition, &$params)
	{
		$where = $this->buildCondition($condition, $params);
		return $where === '' ? '' : 'WHERE ' . $where;
	}

	/**
	 * @param array $columns
	 * @return string the GROUP BY clause
	 */
	public function buildGroupBy($columns)
	{
		return empty($columns) ? '' : 'GROUP BY ' . $this->buildColumns($columns);
	}

	/**
	 * @param string|array $condition
	 * @param array $params the binding parameters to be populated
	 * @return string the HAVING clause built from [[query]].
	 */
	public function buildHaving($condition, &$params)
	{
		$having = $this->buildCondition($condition, $params);
		return $having === '' ? '' : 'HAVING ' . $having;
	}

	/**
	 * @param array $columns
	 * @return string the ORDER BY clause built from [[query]].
	 */
	public function buildOrderBy($columns)
	{
		if (empty($columns)) {
			return '';
		}
		$orders = array();
		foreach ($columns as $name => $direction) {
			if (is_object($direction)) {
				$orders[] = (string)$direction;
			} else {
				$orders[] = $this->db->quoteColumnName($name) . ($direction === Query::SORT_DESC ? ' DESC' : '');
			}
		}

		return 'ORDER BY ' . implode(', ', $orders);
	}

	/**
	 * @param integer $limit
	 * @param integer $offset
	 * @return string the LIMIT and OFFSET clauses built from [[query]].
	 */
	public function buildLimit($limit, $offset)
	{
		$sql = '';
		if ($limit !== null && $limit >= 0) {
			$sql = 'LIMIT ' . (int)$limit;
		}
		if ($offset > 0) {
			$sql .= ' OFFSET ' . (int)$offset;
		}
		return ltrim($sql);
	}

	/**
	 * @param array $unions
	 * @param array $params the binding parameters to be populated
	 * @return string the UNION clause built from [[query]].
	 */
	public function buildUnion($unions, &$params)
	{
		if (empty($unions)) {
			return '';
		}
		foreach ($unions as $i => $union) {
			if ($union instanceof Query) {
				$union->addParams($params);
				$unions[$i] = $this->build($union);
				$params = $union->params;
			}
		}
		return "UNION (\n" . implode("\n) UNION (\n", $unions) . "\n)";
	}

	/**
	 * Processes columns and properly quote them if necessary.
	 * It will join all columns into a string with comma as separators.
	 * @param string|array $columns the columns to be processed
	 * @return string the processing result
	 */
	public function buildColumns($columns)
	{
		if (!is_array($columns)) {
			if (strpos($columns, '(') !== false) {
				return $columns;
			} else {
				$columns = preg_split('/\s*,\s*/', $columns, -1, PREG_SPLIT_NO_EMPTY);
			}
		}
		foreach ($columns as $i => $column) {
			if (is_object($column)) {
				$columns[$i] = (string)$column;
			} elseif (strpos($column, '(') === false) {
				$columns[$i] = $this->db->quoteColumnName($column);
			}
		}
		return is_array($columns) ? implode(', ', $columns) : $columns;
	}


	/**
	 * Parses the condition specification and generates the corresponding SQL expression.
	 * @param string|array $condition the condition specification. Please refer to [[Query::where()]]
	 * on how to specify a condition.
	 * @param array $params the binding parameters to be populated
	 * @return string the generated SQL expression
	 * @throws \yii\db\Exception if the condition is in bad format
	 */
	public function buildCondition($condition, &$params)
	{
		static $builders = array(
			'AND' => 'buildAndCondition',
			'OR' => 'buildAndCondition',
			'BETWEEN' => 'buildBetweenCondition',
			'NOT BETWEEN' => 'buildBetweenCondition',
			'IN' => 'buildInCondition',
			'NOT IN' => 'buildInCondition',
			'LIKE' => 'buildLikeCondition',
			'NOT LIKE' => 'buildLikeCondition',
			'OR LIKE' => 'buildLikeCondition',
			'OR NOT LIKE' => 'buildLikeCondition',
		);

		if (!is_array($condition)) {
			return (string)$condition;
		} elseif (empty($condition)) {
			return '';
		}
		if (isset($condition[0])) { // operator format: operator, operand 1, operand 2, ...
			$operator = strtoupper($condition[0]);
			if (isset($builders[$operator])) {
				$method = $builders[$operator];
				array_shift($condition);
				return $this->$method($operator, $condition, $params);
			} else {
				throw new Exception('Found unknown operator in query: ' . $operator);
			}
		} else { // hash format: 'column1' => 'value1', 'column2' => 'value2', ...
			return $this->buildHashCondition($condition, $params);
		}
	}

	private function buildHashCondition($condition, &$params)
	{
		$parts = array();
		foreach ($condition as $column => $value) {
			if (is_array($value)) { // IN condition
				$parts[] = $this->buildInCondition('in', array($column, $value), $params);
			} else {
				if (strpos($column, '(') === false) {
					$column = $this->db->quoteColumnName($column);
				}
				if ($value === null) {
					$parts[] = "$column IS NULL";
				} elseif ($value instanceof Expression) {
					$parts[] = "$column=" . $value->expression;
					foreach ($value->params as $n => $v) {
						$params[$n] = $v;
					}
				} else {
					$phName = self::PARAM_PREFIX . count($params);
					$parts[] = "$column=$phName";
					$params[$phName] = $value;
				}
			}
		}
		return count($parts) === 1 ? $parts[0] : '(' . implode(') AND (', $parts) . ')';
	}

	private function buildAndCondition($operator, $operands, &$params)
	{
		$parts = array();
		foreach ($operands as $operand) {
			if (is_array($operand)) {
				$operand = $this->buildCondition($operand, $params);
			}
			if ($operand !== '') {
				$parts[] = $operand;
			}
		}
		if (!empty($parts)) {
			return '(' . implode(") $operator (", $parts) . ')';
		} else {
			return '';
		}
	}

	private function buildBetweenCondition($operator, $operands, &$params)
	{
		if (!isset($operands[0], $operands[1], $operands[2])) {
			throw new Exception("Operator '$operator' requires three operands.");
		}

		list($column, $value1, $value2) = $operands;

		if (strpos($column, '(') === false) {
			$column = $this->db->quoteColumnName($column);
		}
		$phName1 = self::PARAM_PREFIX . count($params);
		$params[$phName1] = $value1;
		$phName2 = self::PARAM_PREFIX . count($params);
		$params[$phName2] = $value2;

		return "$column $operator $phName1 AND $phName2";
	}

	private function buildInCondition($operator, $operands, &$params)
	{
		if (!isset($operands[0], $operands[1])) {
			throw new Exception("Operator '$operator' requires two operands.");
		}

		list($column, $values) = $operands;

		$values = (array)$values;

		if (empty($values) || $column === array()) {
			return $operator === 'IN' ? '0=1' : '';
		}

		if (count($column) > 1) {
			return $this->buildCompositeInCondition($operator, $column, $values, $params);
		} elseif (is_array($column)) {
			$column = reset($column);
		}
		foreach ($values as $i => $value) {
			if (is_array($value)) {
				$value = isset($value[$column]) ? $value[$column] : null;
			}
			if ($value === null) {
				$values[$i] = 'NULL';
			} elseif ($value instanceof Expression) {
				$values[$i] = $value->expression;
				foreach ($value->params as $n => $v) {
					$params[$n] = $v;
				}
			} else {
				$phName = self::PARAM_PREFIX . count($params);
				$params[$phName] = $value;
				$values[$i] = $phName;
			}
		}
		if (strpos($column, '(') === false) {
			$column = $this->db->quoteColumnName($column);
		}

		if (count($values) > 1) {
			return "$column $operator (" . implode(', ', $values) . ')';
		} else {
			$operator = $operator === 'IN' ? '=' : '<>';
			return "$column$operator{$values[0]}";
		}
	}

	protected function buildCompositeInCondition($operator, $columns, $values, &$params)
	{
		foreach ($columns as $i => $column) {
			if (strpos($column, '(') === false) {
				$columns[$i] = $this->db->quoteColumnName($column);
			}
		}
		$vss = array();
		foreach ($values as $value) {
			$vs = array();
			foreach ($columns as $column) {
				if (isset($value[$column])) {
					$phName = self::PARAM_PREFIX . count($params);
					$params[$phName] = $value[$column];
					$vs[] = $phName;
				} else {
					$vs[] = 'NULL';
				}
			}
			$vss[] = '(' . implode(', ', $vs) . ')';
		}
		return '(' . implode(', ', $columns) . ") $operator (" . implode(', ', $vss) . ')';
	}

	private function buildLikeCondition($operator, $operands, &$params)
	{
		if (!isset($operands[0], $operands[1])) {
			throw new Exception("Operator '$operator' requires two operands.");
		}

		list($column, $values) = $operands;

		$values = (array)$values;

		if (empty($values)) {
			return $operator === 'LIKE' || $operator === 'OR LIKE' ? '0=1' : '';
		}

		if ($operator === 'LIKE' || $operator === 'NOT LIKE') {
			$andor = ' AND ';
		} else {
			$andor = ' OR ';
			$operator = $operator === 'OR LIKE' ? 'LIKE' : 'NOT LIKE';
		}

		if (strpos($column, '(') === false) {
			$column = $this->db->quoteColumnName($column);
		}

		$parts = array();
		foreach ($values as $value) {
			$phName = self::PARAM_PREFIX . count($params);
			$params[$phName] = $value;
			$parts[] = "$column $operator $phName";
		}

		return implode($andor, $parts);
	}
}