true, 'update' => [], 'set' => [], 'insert' => [], 'values' => [], 'select' => [], 'distinct' => false, 'modifier' => [], 'from' => [], 'join' => [], 'where' => null, 'group' => [], 'having' => null, 'order' => null, 'limit' => null, 'offset' => null, 'union' => [], 'epilog' => null ]; /** * List of sprintf templates that will be used for compiling the SQL for * this query. There are some clauses that can be built as just as the * direct concatenation of the internal parts, those are listed here. * * @var array */ protected $_templates = [ 'delete' => 'DELETE', 'update' => 'UPDATE %s', 'where' => ' WHERE %s', 'group' => ' GROUP BY %s ', 'having' => ' HAVING %s ', 'order' => ' %s', 'limit' => ' LIMIT %s', 'offset' => ' OFFSET %s', 'epilog' => ' %s' ]; /** * When compiling a query to its SQL representation, the connection being used * for its execution has the ability to internally change it or even create a * completely different Query object to save any differences with its dialect. * This property holds a reference to the Query object that resulted from * transforming this instance. * * @var Query */ protected $_transformedQuery; /** * Indicates whether internal state of this query was changed, this is used to * discard internal cached objects such as the transformed query or the reference * to the executed statement * * @var boolean */ protected $_dirty = false; /** * A list of callback functions to be called to alter each row from resulting * statement upon retrieval. Each one of the callback function will receive * the row array as first argument * * @var array */ protected $_resultDecorators = []; /** * Statement object resulting from executing this query * * @var Statement */ protected $_iterator; /** * Associative array with the default fields and their types this query might contain * used to avoid repetition when calling multiple times functions inside this class that * may require a custom type for a specific field * * @var array */ protected $_defaultTypes = []; /** * The object responsible for generating query placeholders and temporarily store values * associated to each of those. * * @var ValueBinder */ protected $_valueBinder; /** * Instance of functions builder object used for generating arbitrary SQL functions * * @var FunctionsBuilder */ protected $_functionsBuilder; /** * Constructor * * @param \Cake\Database\Connection $connection The connection * object to be used for transforming and executing this query * * @return void */ public function __construct($connection) { $this->connection($connection); } /** * Sets the connection instance to be used for executing and transforming this query * When called with a null argument, it will return the current connection instance * * @param \Cake\Database\Connection $connection instance * @return Query|\Cake\Database\Connection */ public function connection($connection = null) { if ($connection === null) { return $this->_connection; } $this->_dirty(); $this->_connection = $connection; return $this; } /** * Compiles the SQL representation of this query and executes it using the * configured connection object. Returns the resulting statement object * * Executing a query internally executes several steps, the first one is * letting the connection transform this object to fit its particular dialect, * this might result in generating a different Query object that will be the one * to actually be executed. Immediately after, literal values are passed to the * connection so they are bound to the query in a safe way. Finally, the resulting * statement is decorated with custom objects to execute callbacks for each row * is retrieved if necessary. * * Resulting statement is traversable, so it can be used in any loop as you would * with an array. * * This method can be overridden in query subclasses to decorate behavior * around query execution. * * @return \Cake\Database\StatementInterface */ public function execute() { $query = $this->_transformQuery(); $statement = $this->_connection->prepare($query); $query->_bindStatement($statement); $statement->execute(); return $query->_decorateStatement($statement); } /** * Returns the SQL representation of this object. * * This function will compile this query to make it compatible * with the SQL dialect that is used by the connection, This process might * add, remove or alter any query part or internal expression to make it * executable in the target platform. * * The resulting query may have placeholders that will be replaced with the actual * values when the query is executed, hence it is most suitable to use with * prepared statements. * * @param ValueBinder $generator A placeholder a value binder object that will hold * associated values for expressions * @return string */ public function sql(ValueBinder $generator = null) { $sql = ''; if (!$generator) { $generator = $this->valueBinder(); $generator->resetCount(); } $query = $this->_transformQuery(); $query->traverse($query->_sqlCompiler($sql, $generator)); return $sql; } /** * Returns a callable object that can be used to compile a SQL string representtion * of this query * * @param string $sql initial sql string to append to * @param \Cake\Database\ValueBinder The placeholder and value binder object * @return \Closure */ protected function _sqlCompiler(&$sql, $generator) { return function($parts, $name) use (&$sql, $generator) { if (!count($parts)) { return; } if ($parts instanceof ExpressionInterface) { $parts = [$parts->sql($generator)]; } if (isset($this->_templates[$name])) { $parts = $this->_stringifyExpressions((array)$parts, $generator); return $sql .= sprintf($this->_templates[$name], implode(', ', $parts)); } return $sql .= $this->{'_build' . ucfirst($name) . 'Part'}($parts, $generator); }; } /** * Will iterate over every part that should be included for an specific query * type and execute the passed visitor function for each of them. Traversing * functions can aggregate results using variables in the closure or instance * variables. This function is commonly used as a way for traversing all query parts that * are going to be used for constructing a query. * * The callback will receive 2 parameters, the first one is the value of the query * part that is being iterated and the second the name of such part. * * ## Example: * {{{ * $query->select(['title'])->from('articles')->traverse(function($value, $clause) { * if ($clause === 'select') { * var_dump($value); * } * }); * }}} * * @param callable $visitor a function or callable to be executed for each part * @return Query */ public function traverse(callable $visitor) { $this->{'_traverse' . ucfirst($this->_type)}($visitor); return $this; } /** * Helper function that will iterate over all query parts needed for a SELECT statement * and execute the $visitor callback for each of them. * * The callback will receive 2 parameters, the first one is the value of the query * part that is being iterated and the second the name of such part. * * @param callable $visitor a function or callable to be executed for each part * @return void */ protected function _traverseSelect(callable $visitor) { $parts = [ 'select', 'from', 'join', 'where', 'group', 'having', 'order', 'limit', 'offset', 'union', 'epilog' ]; foreach ($parts as $name) { $visitor($this->_parts[$name], $name); } } /** * Helper function that iterates the query parts needed for DELETE statements. * * @param callable $visitor A callable to execute for each part of the query. * @return void */ protected function _traverseDelete(callable $visitor) { $parts = ['delete', 'from', 'where', 'epilog']; foreach ($parts as $name) { $visitor($this->_parts[$name], $name); } } /** * Helper function that iterates the query parts needed for UPDATE statements. * * @param callable $visitor A callable to execute for each part of the query. * @return void */ protected function _traverseUpdate(callable $visitor) { $parts = ['update', 'set', 'where', 'epilog']; foreach ($parts as $name) { $visitor($this->_parts[$name], $name); } } /** * Helper function that iterates the query parts needed for INSERT statements. * * @param callable $visitor A callable to execute for each part of the query. * @return void */ protected function _traverseInsert(callable $visitor) { $parts = ['insert', 'values', 'epilog']; foreach ($parts as $name) { $visitor($this->_parts[$name], $name); } } /** * Adds new fields to be returned by a SELECT statement when this query is * executed. Fields can be passed as an array of strings, array of expression * objects, a single expression or a single string. * * If an array is passed, keys will be used to alias fields using the value as the * real field to be aliased. It is possible to alias strings, Expression objects or * even other Query objects. * * By default this function will append any passed argument to the list of fields * to be selected, unless the second argument is set to true. * * ##Examples: * * {{{ * $query->select(['id', 'title']); // Produces SELECT id, title * $query->select(['author' => 'author_id']); // Appends author: SELECT id, title, author_id as author * $query->select('id', true); // Resets the list: SELECT id * $query->select(['total' => $countQuery]); // SELECT id, (SELECT ...) AS total * }}} * * @param array|Expression|string $fields fields to be added to the list * @param boolean $overwrite whether to reset fields with passed list or not * @return Query */ public function select($fields = [], $overwrite = false) { if (is_callable($fields)) { $fields = $fields($this); } if (!is_array($fields)) { $fields = [$fields]; } if ($overwrite) { $this->_parts['select'] = $fields; } else { $this->_parts['select'] = array_merge($this->_parts['select'], $fields); } $this->_dirty(); $this->_type = 'select'; return $this; } /** * Adds a DISTINCT clause to the query to remove duplicates from the result set. * This clause can only be used for select statements. * * If you wish to filter duplicates based of those rows sharing a particular field * or set of fields, you may pass an array of fields to filter on. Beware that * this option might not be fully supported in all database systems. * * ##Examples: * * {{{ * // Filters products with the same name and city * $query->select(['name', 'city'])->from('products')->distinct(); * * // Filters products in the same city * $query->distinct(['city']); * * // Filter products with the same name * $query->distinct(['name'], true); * }}} * * @param array|ExpressionInterface fields to be filtered on * @param boolean $overwrite whether to reset fields with passed list or not * @return Query */ public function distinct($on = [], $overwrite = false) { if ($on === []) { $on = true; } if (is_array($on)) { $merge = []; if (is_array($this->_parts['distinct'])) { $merge = $this->_parts['distinct']; } $on = ($overwrite) ? array_values($on) : array_merge($merge, array_values($on)); } $this->_parts['distinct'] = $on; $this->_dirty(); return $this; } /** * Adds a single or multiple SELECT modifiers to be used in the SELECT. * * By default this function will append any passed argument to the list of modifiers * to be applied, unless the second argument is set to true. * * ### Example: * * {{{ * // Ignore cache query in MySQL * $query->select(['name', 'city'])->from('products')->modifier('SQL_NO_CACHE'); * // It will produce the SQL: SELECT SQL_NO_CACHE name, city FROM products * * // Or with multiple modifiers * $query->select(['name', 'city'])->from('products')->modifier(['HIGH_PRIORITY', 'SQL_NO_CACHE']); * // It will produce the SQL: SELECT HIGH_PRIORITY SQL_NO_CACHE name, city FROM products * }}} * * @param array|ExpressionInterface|string $modifiers modifiers to be applied to the query * @param boolean $overwrite whether to reset order with field list or not * @return Query */ public function modifier($modifiers, $overwrite = false) { if ($overwrite) { $this->_parts['modifier'] = []; } $this->_parts['modifier'] = array_merge($this->_parts['modifier'], (array)$modifiers); return $this; } /** * Helper function used to build the string representation of a SELECT clause, * it constructs the field list taking care of aliasing and * converting expression objects to string. This function also constructs the * DISTINCT clause for the query. * * @param array $parts list of fields to be transformed to string * @param \Cake\Database\ValueBinder $generator the placeholder generator to be used in expressions * @return string */ protected function _buildSelectPart($parts, $generator) { $driver = $this->_connection->driver(); $select = 'SELECT %s%s%s'; $distinct = $modifiers = null; $normalized = []; $parts = $this->_stringifyExpressions($parts, $generator); foreach ($parts as $k => $p) { if (!is_numeric($k)) { $p = $p . ' AS ' . $driver->quoteIdentifier($k); } $normalized[] = $p; } if ($this->_parts['distinct'] === true) { $distinct = 'DISTINCT '; } if (is_array($this->_parts['distinct'])) { $distinct = $this->_stringifyExpressions($this->_parts['distinct'], $generator); $distinct = sprintf('DISTINCT ON (%s) ', implode(', ', $distinct)); } if ($this->_parts['modifier']) { $modifiers = $this->_stringifyExpressions($this->_parts['modifier'], $generator); $modifiers = implode(' ', $modifiers) . ' '; } return sprintf($select, $distinct, $modifiers, implode(', ', $normalized)); } /** * Adds a single or multiple tables to be used in the FROM clause for this query. * Tables can be passed as an array of strings, array of expression * objects, a single expression or a single string. * * If an array is passed, keys will be used to alias tables using the value as the * real field to be aliased. It is possible to alias strings, ExpressionInterface objects or * even other Query objects. * * By default this function will append any passed argument to the list of tables * to be selected from, unless the second argument is set to true. * * This method can be used for select, update and delete statements. * * ##Examples: * * {{{ * $query->from(['p' => 'posts']); // Produces FROM posts p * $query->from('authors'); // Appends authors: FROM posts p, authors * $query->select(['products'], true); // Resets the list: FROM products * $query->select(['sub' => $countQuery]); // FROM (SELECT ...) sub * }}} * * @param array|ExpressionInterface|string $tables tables to be added to the list * @param boolean $overwrite whether to reset tables with passed list or not * @return Query */ public function from($tables = [], $overwrite = false) { if (empty($tables)) { return $this->_parts['from']; } if (is_string($tables)) { $tables = [$tables]; } if ($overwrite) { $this->_parts['from'] = $tables; } else { $this->_parts['from'] = array_merge($this->_parts['from'], $tables); } $this->_dirty(); return $this; } /** * Helper function used to build the string representation of a FROM clause, * it constructs the tables list taking care of aliasing and * converting expression objects to string. * * @param array $parts list of tables to be transformed to string * @param \Cake\Database\ValueBinder $generator the placeholder generator to be used in expressions * @return string */ protected function _buildFromPart($parts, $generator) { $select = ' FROM %s'; $normalized = []; $parts = $this->_stringifyExpressions($parts, $generator); foreach ($parts as $k => $p) { if (!is_numeric($k)) { $p = $p . ' AS ' . $k; } $normalized[] = $p; } return sprintf($select, implode(', ', $normalized)); } /** * Adds a single or multiple tables to be used as JOIN clauses this query. * Tables can be passed as an array of strings, an array describing the * join parts, an array with multiple join descriptions, or a single string. * * By default this function will append any passed argument to the list of tables * to be joined, unless the third argument is set to true. * * When no join type is specified an INNER JOIN is used by default: * ``$query->join(['authors'])`` Will produce INNER JOIN authors ON (1 = 1) * * It is also possible to alias joins using the array key: * ``$query->join(['a' => 'authors'])`` Will produce INNER JOIN authors a ON (1 = 1) * * A join can be fully described and aliased using the array notation: * * {{{ * $query->join([ * 'a' => [ * 'table' => 'authors', * 'type' => 'LEFT', * 'conditions' => 'a.id = b.author_id' * ] * ]); * // Produces LEFT JOIN authors a ON (a.id = b.author_id) * }}} * * You can even specify multiple joins in an array, including the full description: * * {{{ * $query->join([ * 'a' => [ * 'table' => 'authors', * 'type' => 'LEFT', * 'conditions' => 'a.id = b.author_id' * ], * 'p' => [ * 'table' => 'products', * 'type' => 'INNER', * 'conditions' => 'a.owner_id = p.id * ] * ]); * // LEFT JOIN authors a ON (a.id = b.author_id) * // INNER JOIN products p (a.owner_id = p.id) * }}} * * ## Using conditions and types * * Conditions can be expressed, as in the examples above, using a string for comparing * columns, or string with already quoted literal values. Additionally it is * possible to using conditions expressed in arrays or expression objects. * * When using arrays for expressing conditions, it is often desirable to convert * the literal values to the correct database representation. This is achieved * using the second parameter of this function. * * {{{ * $query->join(['a' => [ * 'table' => 'articles', * 'conditions' => [ * 'a.posted >=' => new DateTime('-3 days'), * 'a.published' => true * 'a.author_id = authors.id' * ] * ]], ['a.posted' => 'datetime', 'a.published' => 'boolean']) * }}} * * ## Overwriting joins * * When creating aliased joins using the array notation, you can override * previous join definitions by using the same alias in consequent * calls to this function or you can replace all previously defined joins * with another list if the third parameter for this function is set to true * * {{{ * $query->join(['alias' => 'table']); // joins table with as alias * $query->join(['alias' => 'another_table']); // joins another_table with as alias * $query->join(['something' => 'different_table'], [], true); // resets joins list * }}} * * @param array|string $tables list of tables to be joined in the query * @param array $types associative array of type names used to bind values to query * @param boolean $overwrite whether to reset joins with passed list or not * @see \Cake\Database\Type * @return Query */ public function join($tables = null, $types = [], $overwrite = false) { if ($tables === null) { return $this->_parts['join']; } if (is_string($tables) || isset($tables['table'])) { $tables = [$tables]; } $types += $this->defaultTypes(); $joins = []; $i = count($this->_parts['join']); foreach ($tables as $alias => $t) { if (!is_array($t)) { $t = ['table' => $t, 'conditions' => $this->newExpr()]; } if (!($t['conditions']) instanceof ExpressionInterface) { $t['conditions'] = $this->newExpr()->add($t['conditions'], $types); } $alias = is_string($alias) ? $alias : null; $joins[$alias ?: $i++] = $t + ['type' => 'INNER', 'alias' => $alias]; } if ($overwrite) { $this->_parts['join'] = $joins; } else { $this->_parts['join'] = array_merge($this->_parts['join'], $joins); } $this->_dirty(); return $this; } /** * Helper function used to build the string representation of multiple JOIN clauses, * it constructs the joins list taking care of aliasing and converting * expression objects to string in both the table to be joined and the conditions * to be used * * @param array $parts list of joins to be transformed to string * @param \Cake\Database\ValueBinder $generator the placeholder generator to be used in expressions * @return string */ protected function _buildJoinPart($parts, $generator) { $joins = ''; foreach ($parts as $join) { if ($join['table'] instanceof ExpressionInterface) { $join['table'] = '(' . $join['table']->sql($generator) . ')'; } $joins .= sprintf(' %s JOIN %s %s', $join['type'], $join['table'], $join['alias']); if (isset($join['conditions']) && count($join['conditions'])) { $joins .= sprintf(' ON %s', $join['conditions']->sql($generator)); } else { $joins .= ' ON 1 = 1'; } } return $joins; } /** * Helper function to generate SQL for SET expressions. * * @param array $parts List of keys & values to set. * @param \Cake\Database\ValueBinder $generator the placeholder generator to be used in expressions * @return string */ protected function _buildSetPart($parts, $generator) { $set = []; foreach ($parts as $part) { if ($part instanceof ExpressionInterface) { $part = $part->sql($generator); } if ($part[0] === '(') { $part = substr($part, 1, -1); } $set[] = $part; } return ' SET ' . implode('', $set); } /** * Adds a condition or set of conditions to be used in the WHERE clause for this * query. Conditions can be expressed as an array of fields as keys with * comparison operators in it, the values for the array will be used for comparing * the field to such literal. Finally, conditions can be expressed as a single * string or an array of strings. * * When using arrays, each entry will be joined to the rest of the conditions using * an AND operator. Consecutive calls to this function will also join the new * conditions specified using the AND operator. Additionally, values can be * expressed using expression objects which can include other query objects. * * Any conditions created with this methods can be used with any SELECT, UPDATE * and DELETE type of queries. * * ## Conditions using operators: * * {{{ * $query->where([ * 'posted >=' => new DateTime('3 days ago'), * 'title LIKE' => 'Hello W%', * 'author_id' => 1, * ], ['posted' => 'datetime']); * }}} * * The previous example produces: * * ``WHERE posted >= 2012-01-27 AND title LIKE 'Hello W%' AND author_id = 1`` * * Second parameter is used to specify what type is expected for each passed * key. Valid types can be used from the mapped with Database\Type class. * * ## Nesting conditions with conjunctions: * * {{{ * $query->where([ * 'author_id !=' => 1, * 'OR' => ['published' => true, 'posted <' => new DateTime('now')], * 'NOT' => ['title' => 'Hello'] * ], ['published' => boolean, 'posted' => 'datetime'] * }}} * * The previous example produces: * * ``WHERE author_id = 1 AND (published = 1 OR posted < '2012-02-01') AND NOT (title = 'Hello')`` * * You can nest conditions using conjunctions as much as you like. Sometimes, you * may want to define 2 different options for the same key, in that case, you can * wrap each condition inside a new array: * * ``$query->where(['OR' => [['published' => false], ['published' => true]])`` * * Keep in mind that every time you call where() with the third param set to false * (default), it will join the passed conditions to the previous stored list using * the AND operator. Also, using the same array key twice in consecutive calls to * this method will not override the previous value. * * ## Using expressions objects: * * {{{ * $exp = $query->newExpr()->add(['id !=' => 100, 'author_id' != 1])->type('OR'); * $query->where(['published' => true], ['published' => 'boolean'])->where($exp); * }}} * * The previous example produces: * * ``WHERE (id != 100 OR author_id != 1) AND published = 1`` * * Other Query objects that be used as conditions for any field. * * ## Adding conditions in multiple steps: * * You can use callable functions to construct complex expressions, functions * receive as first argument a new QueryExpression object and this query instance * as second argument. Functions must return an expression object, that will be * added the list of conditions for the query using th AND operator * * {{{ * $query * ->where(['title !=' => 'Hello World']) * ->where(function($exp, $query) { * $or = $exp->or_(['id' => 1]); * $and = $exp->and_(['id >' => 2, 'id <' => 10]); * return $or->add($and); * }); * }}} * * * The previous example produces: * * ``WHERE title != 'Hello World' AND (id = 1 OR (id > 2 AND id < 10))`` * * ## Conditions as strings: * * {{{ * $query->where(['articles.author_id = authors.id', 'modified IS NULL']); * }}} * * The previous example produces: * * ``WHERE articles.author_id = authors.id AND modified IS NULL`` * * Please note that when using the array notation or the expression objects, all * values will be correctly quoted and transformed to the correspondent database * data type automatically for you, thus securing your application from SQL injections. * If you use string conditions make sure that your values are correctly quoted. * The safest thing you can do is to never use string conditions. * * @param string|array|ExpressionInterface|callback $conditions * @param array $types associative array of type names used to bind values to query * @param boolean $overwrite whether to reset conditions with passed list or not * @see \Cake\Database\Type * @see \Cake\Database\QueryExpression * @return Query */ public function where($conditions = null, $types = [], $overwrite = false) { if ($overwrite) { $this->_parts['where'] = $this->newExpr(); } $this->_conjugate('where', $conditions, 'AND', $types + $this->defaultTypes()); return $this; } /** * Connects any previously defined set of conditions to the provided list * using the AND operator. This function accepts the conditions list in the same * format as the method `where` does, hence you can use arrays, expression objects * callback functions or strings. * * It is important to notice that when calling this function, any previous set * of conditions defined for this query will be treated as a single argument for * the AND operator. This function will not only operate the most recently defined * condition, but all the conditions as a whole. * * When using an array for defining conditions, creating constraints form each * array entry will use the same logic as with the `where()` function. This means * that each array entry will be joined to the other using the AND operator, unless * you nest the conditions in the array using other operator. * * ##Examples: * * {{{ * $query->where(['title' => 'Hello World')->andWhere(['author_id' => 1]); * }}} * * Will produce: * * ``WHERE title = 'Hello World' AND author_id = 1`` * * {{{ * $query * ->where(['OR' => ['published' => false, 'published is NULL']]) * ->andWhere(['author_id' => 1, 'comments_count >' => 10]) * }}} * * Produces: * * ``WHERE (published = 0 OR published IS NULL) AND author_id = 1 AND comments_count > 10`` * * {{{ * $query * ->where(['title' => 'Foo']) * ->andWhere(function($exp, $query) { * return $exp * ->add(['author_id' => 1]) * ->or_(['author_id' => 2]); * }); * }}} * * Generates the following conditions: * * ``WHERE (title = 'Foo') AND (author_id = 1 OR author_id = 2)`` * * @param string|array|ExpressionInterface|callback $conditions * @param array $types associative array of type names used to bind values to query * @see \Cake\Database\Query::where() * @see \Cake\Database\Type * @return Query */ public function andWhere($conditions, $types = []) { $this->_conjugate('where', $conditions, 'AND', $types + $this->defaultTypes()); return $this; } /** * Connects any previously defined set of conditions to the provided list * using the OR operator. This function accepts the conditions list in the same * format as the method `where` does, hence you can use arrays, expression objects * callback functions or strings. * * It is important to notice that when calling this function, any previous set * of conditions defined for this query will be treated as a single argument for * the OR operator. This function will not only operate the most recently defined * condition, but all the conditions as a whole. * * When using an array for defining conditions, creating constraints form each * array entry will use the same logic as with the `where()` function. This means * that each array entry will be joined to the other using the OR operator, unless * you nest the conditions in the array using other operator. * * ##Examples: * * {{{ * $query->where(['title' => 'Hello World')->orWhere(['title' => 'Foo']); * }}} * * Will produce: * * ``WHERE title = 'Hello World' OR title = 'Foo'`` * * {{{ * $query * ->where(['OR' => ['published' => false, 'published is NULL']]) * ->orWhere(['author_id' => 1, 'comments_count >' => 10]) * }}} * * Produces: * * ``WHERE (published = 0 OR published IS NULL) OR (author_id = 1 AND comments_count > 10)`` * * {{{ * $query * ->where(['title' => 'Foo']) * ->orWhere(function($exp, $query) { * return $exp * ->add(['author_id' => 1]) * ->or_(['author_id' => 2]); * }); * }}} * * Generates the following conditions: * * ``WHERE (title = 'Foo') OR (author_id = 1 OR author_id = 2)`` * * @param string|array|ExpressionInterface|callback $conditions * @param array $types associative array of type names used to bind values to query * @see \Cake\Database\Query::where() * @see \Cake\Database\Type * @return Query */ public function orWhere($conditions, $types = []) { $this->_conjugate('where', $conditions, 'OR', $types + $this->defaultTypes()); return $this; } /** * Adds a single or multiple fields to be used in the ORDER clause for this query. * Fields can be passed as an array of strings, array of expression * objects, a single expression or a single string. * * If an array is passed, keys will be used as the field itself and the value will * represent the order in which such field should be ordered. When called multiple * times with the same fields as key, the last order definition will prevail over * the others. * * By default this function will append any passed argument to the list of fields * to be selected, unless the second argument is set to true. * * ##Examples: * * {{{ * $query->order(['title' => 'DESC', 'author_id' => 'ASC']); * }}} * * Produces: * * ``ORDER BY title DESC, author_id ASC`` * * {{{ * $query->order(['title' => 'DESC NULLS FIRST'])->order('author_id'); * }}} * * Will generate: * * ``ORDER BY title DESC NULLS FIRST, author_id`` * * {{{ * $expression = $query->newExpr()->add(['id % 2 = 0']); * $query->order($expression)->order(['title' => 'ASC']); * }}} * * Will become: * * ``ORDER BY (id %2 = 0), title ASC`` * * @param array|ExpressionInterface|string $fields fields to be added to the list * @param boolean $overwrite whether to reset order with field list or not * @return Query */ public function order($fields, $overwrite = false) { if ($overwrite || !$this->_parts['order']) { $this->_parts['order'] = new OrderByExpression; } $this->_conjugate('order', $fields, '', []); return $this; } /** * Adds a single or multiple fields to be used in the GROUP BY clause for this query. * Fields can be passed as an array of strings, array of expression * objects, a single expression or a single string. * * By default this function will append any passed argument to the list of fields * to be grouped, unless the second argument is set to true. * * ##Examples: * * {{{ * $query->group(['id', 'title']); // Produces GROUP BY id, title * $query->group('title'); // Produces GROUP BY title * }}} * * @param array|ExpressionInterface|string $fields fields to be added to the list * @param boolean $overwrite whether to reset fields with passed list or not * @return Query */ public function group($fields, $overwrite = false) { if ($overwrite) { $this->_parts['group'] = []; } if (!is_array($fields)) { $fields = [$fields]; } $this->_parts['group'] = array_merge($this->_parts['group'], array_values($fields)); $this->_dirty(); return $this; } /** * Adds a condition or set of conditions to be used in the HAVING clause for this * query. This method operates in exactly the same way as the method ``where()`` * does. Please refer to its documentation for an insight on how to using each * parameter. * * @param string|array|ExpressionInterface|callback $conditions * @param array $types associative array of type names used to bind values to query * @param boolean $overwrite whether to reset conditions with passed list or not * @see \Cake\Database\Query::where() * @return Query */ public function having($conditions = null, $types = [], $overwrite = false) { if ($overwrite) { $this->_parts['having'] = $this->newExpr(); } $this->_conjugate('having', $conditions, 'AND', $types + $this->defaultTypes()); return $this; } /** * Connects any previously defined set of conditions to the provided list * using the AND operator in the HAVING clause. This method operates in exactly * the same way as the method ``andWhere()`` does. Please refer to its * documentation for an insight on how to using each parameter. * * @param string|array|ExpressionInterface|callback $conditions * @param array $types associative array of type names used to bind values to query * @see \Cake\Database\Query::andWhere() * @return Query */ public function andHaving($conditions, $types = []) { $this->_conjugate('having', $conditions, 'AND', $types + $this->defaultTypes()); return $this; } /** * Connects any previously defined set of conditions to the provided list * using the OR operator in the HAVING clause. This method operates in exactly * the same way as the method ``orWhere()`` does. Please refer to its * documentation for an insight on how to using each parameter. * * @param string|array|ExpressionInterface|callback $conditions * @param array $types associative array of type names used to bind values to query * @see \Cake\Database\Query::orWhere() * @return Query */ public function orHaving($conditions, $types = []) { $this->_conjugate('having', $conditions, 'OR', $types + $this->defaultTypes()); return $this; } /** * Set the page of results you want. * * This method provides an easier to use interface to set the limit + offset * in the record set you want as results. If empty the limit will default to * the existing limit clause, and if that too is empty, then `25` will be used. * * Pages should start at 1. * * @param integer $num The page number you want. * @return Query */ public function page($page) { $limit = $this->clause('limit'); if ($limit === null) { $limit = 25; $this->limit($limit); } $this->offset(($page - 1) * $limit); return $this; } /** * Sets the number of records that should be retrieved from database, * accepts an integer or an expression object that evaluates to an integer. * In some databases, this operation might not be supported or will require * the query to be transformed in order to limit the result set size. * * ## Examples * * {{{ * $query->limit(10) // generates LIMIT 10 * $query->limit($query->newExpr()->add(['1 + 1'])); // LIMIT (1 + 1) * }}} * * @param integer|ExpressionInterface $num number of records to be returned * @return Query */ public function limit($num) { if ($num !== null && !is_object($num)) { $num = (int)$num; } $this->_parts['limit'] = $num; return $this; } /** * Sets the number of records that should be skipped from the original result set * This is commonly used for paginating large results. Accepts an integer or an * expression object that evaluates to an integer. * * In some databases, this operation might not be supported or will require * the query to be transformed in order to limit the result set size. * * ## Examples * * {{{ * $query->offset(10) // generates OFFSET 10 * $query->limit($query->newExpr()->add(['1 + 1'])); // OFFSET (1 + 1) * }}} * * @param integer|ExpressionInterface $num number of records to be skipped * @return Query */ public function offset($num) { if ($num !== null && !is_object($num)) { $num = (int)$num; } $this->_parts['offset'] = $num; return $this; } /** * Adds a complete query to be used in conjunction with an UNION operator with * this query. This is used to combine the result set of this query with the one * that will be returned by the passed query. You can add as many queries as you * required by calling multiple times this method with different queries. * * By default, the UNION operator will remove duplicate rows, if you wish to include * every row for all queries, use unionAll() * * ## Examples * * {{{ * $union = (new Query($conn))->select(['id', 'title'])->from(['a' => 'articles']); * $query->select(['id', 'name'])->from(['d' => 'things'])->union($union); * }}} * * Will produce: * * ``SELECT id, name FROM things d UNION SELECT id, title FROM articles a`` * * @param string|Query $query full SQL query to be used in UNION operator * @param boolean $overwrite whether to reset the list of queries to be operated or not * @return Query */ public function union($query, $overwrite = false) { if ($overwrite) { $this->_parts['union'] = []; } $this->_parts['union'][] = [ 'all' => false, 'query' => $query ]; $this->_dirty(); return $this; } /** * Adds a complete query to be used in conjunction with the UNION ALL operator with * this query. This is used to combine the result set of this query with the one * that will be returned by the passed query. You can add as many queries as you * required by calling multiple times this method with different queries. * * Unlike UNION, UNION ALL will not remove duplicate rows. * * {{{ * $union = (new Query($conn))->select(['id', 'title'])->from(['a' => 'articles']); * $query->select(['id', 'name'])->from(['d' => 'things'])->unionAll($union); * }}} * * Will produce: * * ``SELECT id, name FROM things d UNION ALL SELECT id, title FROM articles a`` * * @param string|Query $query full SQL query to be used in UNION operator * @param boolean $overwrite whether to reset the list of queries to be operated or not * @return Query */ public function unionAll($query, $overwrite = false) { if ($overwrite) { $this->_parts['union'] = []; } $this->_parts['union'][] = [ 'all' => true, 'query' => $query ]; $this->_dirty(); return $this; } /** * Builds the SQL string for all the UNION clauses in this query, when dealing * with query objects it will also transform them using their configured SQL * dialect. * * @param array $parts list of queries to be operated with UNION * @param \Cake\Database\ValueBinder $generator the placeholder generator to be used in expressions * @return string */ protected function _buildUnionPart($parts, $generator) { $parts = array_map(function($p) use ($generator) { $p['query'] = $p['query']->sql($generator); $p['query'] = $p['query'][0] === '(' ? trim($p['query'], '()') : $p['query']; return $p['all'] ? 'ALL ' . $p['query'] : $p['query']; }, $parts); return sprintf("\nUNION %s", implode("\nUNION ", $parts)); } /** * Builds the SQL fragment for INSERT INTO. * * @param array $parts * @param \Cake\Database\ValueBinder $generator the placeholder generator to be used in expressions * @return string SQL fragment. */ protected function _buildInsertPart($parts, $generator) { $table = $parts[0]; $columns = $this->_stringifyExpressions($parts[1], $generator); return sprintf('INSERT INTO %s (%s)', $table, implode(', ', $columns)); } /** * Builds the SQL fragment for INSERT INTO. * * @param array $parts * @param \Cake\Database\ValueBinder $generator the placeholder generator to be used in expressions * @return string SQL fragment. */ protected function _buildValuesPart($parts, $generator) { return implode('', $this->_stringifyExpressions($parts, $generator)); } /** * Helper function used to covert ExpressionInterface objects inside an array * into their string representation * * @param array $expression list of strings and ExpressionInterface objects * @param \Cake\Database\ValueBinder $generator the placeholder generator to be used in expressions * @return array */ protected function _stringifyExpressions(array $expressions, ValueBinder $generator) { $result = []; foreach ($expressions as $k => $expression) { if ($expression instanceof ExpressionInterface) { $expression = '(' . $expression->sql($generator) . ')'; } $result[$k] = $expression; } return $result; } /** * Create an insert query. * * Note calling this method will reset any data previously set * with Query::values() * * @param array $columns The columns to insert into. * @param array $types A map between columns & their datatypes. * @return Query * @throws \RuntimeException When there are 0 columns. */ public function insert($columns, $types = []) { if (empty($columns)) { throw new \RuntimeException('At least 1 column is required to perform an insert.'); } $this->_dirty(); $this->_type = 'insert'; $this->_parts['insert'][1] = $columns; if (!$this->_parts['values']) { $this->_parts['values'] = new ValuesExpression($columns, $types + $this->defaultTypes()); } return $this; } /** * Set the table name for insert queries. * * @param string $table The table name to insert into. * @return Query */ public function into($table) { $this->_dirty(); $this->_type = 'insert'; $this->_parts['insert'][0] = $table; return $this; } /** * Set the values for an insert query. * * Multi inserts can be performed by calling values() more than one time, * or by providing an array of value sets. Additionally $data can be a Query * instance to insert data from another SELECT statement. * * @param array|Query $data The data to insert. * @return Query * @throws \Cake\Database\Exception if you try to set values before declaring columns. * Or if you try to set values on non-insert queries. */ public function values($data) { if ($this->_type !== 'insert') { throw new Exception( 'You cannot add values before defining columns to use.' ); } if (empty($this->_parts['insert'])) { throw new Exception( 'You cannot add values before defining columns to use.' ); } $this->_dirty(); if ($data instanceof ValuesExpression) { $this->_parts['values'] = $data; return $this; } $this->_parts['values']->add($data); return $this; } /** * Create an update query. * * Can be combined with set() and where() methods to create update queries. * * @param string $table The table you want to update. * @return Query */ public function update($table) { $this->_dirty(); $this->_type = 'update'; $this->_parts['update'][0] = $table; return $this; } /** * Set one or many fields to update. * * @param string|array|QueryExpression $key The column name or array of keys * + values to set. This can also be a QueryExpression containing a SQL fragment. * @param mixed $value The value to update $key to. Can be null if $key is an * array or QueryExpression. When $key is an array, this parameter will be * used as $types instead. * @param array $types The column types to treat data as. * @return Query */ public function set($key, $value = null, $types = []) { if (empty($this->_parts['set'])) { $this->_parts['set'] = $this->newExpr()->type(','); } if (is_array($key) || $key instanceof ExpressionInterface) { $types = (array)$value; $this->_parts['set']->add($key, $types + $this->defaultTypes()); return $this; } if (is_string($types) && is_string($key)) { $types = [$key => $types]; } $this->_parts['set']->eq($key, $value, $types + $this->defaultTypes()); return $this; } /** * Create a delete query. * * Can be combined with from(), where() and other methods to * create delete queries with specific conditions. * * @param string $table The table to use when deleting. This * @return Query */ public function delete($table = null) { $this->_dirty(); $this->_type = 'delete'; if ($table) { $this->from($table); } return $this; } /** * A string or expression that will be appended to the generated query * * ### Examples: * {{{ * $query->select('id')->where(['author_id' => 1])->epilog('FOR UPDATE'); * $query * ->insert('articles', ['title']) * ->values(['author_id' => 1]) * ->epilog('RETURNING id'); * }}} * * @param string|QueryExpression the expression to be appended * @return Query */ public function epilog($expression = null) { $this->_dirty(); $this->_parts['epilog'] = $expression; return $this; } /** * Returns the type of this query (select, insert, update, delete) * * @return string */ public function type() { return $this->_type; } /** * Returns a new QueryExpression object. This is a handy function when * building complex queries using a fluent interface. You can also override * this function in subclasses to use a more specialized QueryExpression class * if required. * * @return QueryExpression */ public function newExpr() { return new QueryExpression; } /** * Returns an instance of a functions builder object that can be used for * generating arbitrary SQL functions. * * ### Example: * * {{{ * $query->func()->count('*'); * $query->func()->dateDiff(['2012-01-05', '2012-01-02']) * }}} * * @return FunctionsBuilder */ public function func() { if (empty($this->_functionsBuilder)) { $this->_functionsBuilder = new FunctionsBuilder; } return $this->_functionsBuilder; } /** * Executes this query and returns a results iterator. This function is required * for implementing the IteratorAggregate interface and allows the query to be * iterated without having to call execute() manually, thus making it look like * a result set instead of the query itself. * * @return Iterator */ public function getIterator() { if (empty($this->_iterator) || $this->_dirty) { $this->_iterator = $this->execute(); } return $this->_iterator; } /** * Returns any data that was stored in the specified clause. This is useful for * modifying any internal part of the query and it is used by the SQL dialects * to transform the query accordingly before it is executed. The valid clauses that * can be retrieved are: delete, update, set, insert, values, select, distinct, * from, join, set, where, group, having, order, limit, offset and union. * * The return value for each of those parts may vary. Some clauses use QueryExpression * to internally store their state, some use arrays and others may use booleans or * integers. This is summary of the return types for each clause * * - update: string The name of the table to update * - set: QueryExpression * - insert: array, will return an array containing the table + columns. * - values: ValuesExpression * - select: array, will return empty array when no fields are set * - distinct: boolean * - from: array of tables * - join: array * - set: array * - where: QueryExpression, returns null when not set * - group: array * - having: QueryExpression, returns null when not set * - order: OrderByExpression, returns null when not set * - limit: integer or QueryExpression, null when not set * - offset: integer or QueryExpression, null when not set * - union: array * * @param string $name name of the clause to be returned * @return mixed */ public function clause($name) { return $this->_parts[$name]; } /** * Registers a callback to be executed for each result that is fetched from the * result set, the callback function will receive as first parameter an array with * the raw data from the database for every row that is fetched and must return the * row with any possible modifications. * * Callbacks will be executed lazily, if only 3 rows are fetched for database it will * called 3 times, event though there might be more rows to be fetched in the cursor. * * Callbacks are stacked in the order they are registered, if you wish to reset the stack * the call this function with the second parameter set to true. * * If you wish to remove all decorators from the stack, set the first parameter * to null and the second to true. * * ## Example * * {{{ * $query->decorateResults(function($row) { * $row['order_total'] = $row['subtotal'] + ($row['subtotal'] * $row['tax']); * return $row; * }); * }}} * * @param null|callable $callback * @param boolean $overwrite * @return Query */ public function decorateResults($callback, $overwrite = false) { if ($overwrite) { $this->_resultDecorators = []; } if ($callback !== null) { $this->_resultDecorators[] = $callback; } return $this; } /** * This function works similar to the traverse() function, with the difference * that it does a full depth traversal of the entire expression tree. This will execute * the provided callback function for each ExpressionInterface object that is * stored inside this query at any nesting depth in any part of the query. * * Callback will receive as first parameter the currently visited expression. * * @param callable $callback the function to be executed for each ExpressionInterface * found inside this query. * @return Query */ public function traverseExpressions(callable $callback) { $visitor = function($expression) use (&$visitor, $callback) { if (is_array($expression)) { foreach ($expression as $e) { $visitor($e); } return; } if ($expression instanceof ExpressionInterface) { $expression->traverse($visitor); if (!($expression instanceof self)) { $callback($expression); } } }; return $this->traverse($visitor); } /** * Configures a map of default fields and their associated types to be * used as the default list of types for every function in this class * with a $types param. Useful to avoid repetition when calling the same * functions using the same fields and types. * * If called with no arguments it will return the currently configured types. * * ## Example * * {{{ * $query->defaultTypes(['created' => 'datetime', 'is_visible' => 'boolean']); * }}} * * @param array $types associative array where keys are field names and values * are the correspondent type. * @return Query|array */ public function defaultTypes(array $types = null) { if ($types === null) { return $this->_defaultTypes; } $this->_defaultTypes = $types; return $this; } /** * Associates a query placeholder to a value and a type. * * If type is expressed as "atype[]" (note braces) then it will cause the * placeholder to be re-written dynamically so if the value is an array, it * will create as many placeholders as values are in it. For example "string[]" * will create several placeholders of type string. * * @param string|integer $token placeholder to be replaced with quoted version * of $value * @param mixed $value the value to be bound * @param string|integer $type the mapped type name, used for casting when sending * to database * @return Query */ public function bind($param, $value, $type = 'string') { $this->valueBinder()->bind($param, $value, $type); return $this; } /** * Returns the currently used ValueBinder instance. If a value is passed, * it will be set as the new instance to be used. * A ValueBinder is responsible for generating query placeholders and temporarily * associate values to those placeholders so that they can be passed correctly * statement object. * * @param ValueBinder $binder new instance to be set. If no value is passed the * default one will be returned * @return Query|\Cake\Database\ValueBinder */ public function valueBinder($binder = null) { if ($binder === null) { if ($this->_valueBinder === null) { $this->_valueBinder = new ValueBinder; } return $this->_valueBinder; } $this->_valueBinder = $binder; return $this; } /** * Auxiliary function used to wrap the original statement from the driver with * any registered callbacks. * * @param \Cake\Database\Statement $statement to be decorated * @return \Cake\Database\Statement\CallbackStatement */ protected function _decorateStatement($statement) { foreach ($this->_resultDecorators as $f) { $statement = new CallbackStatement($statement, $this->connection()->driver(), $f); } return $statement; } /** * Helper function used to build conditions by composing QueryExpression objects * * @param string name of the query part to append the new part to * @param string|array|Expression|callback $append * @param sttring $conjunction type of conjunction to be used to operate part * @param array $types associative array of type names used to bind values to query * @return void */ protected function _conjugate($part, $append, $conjunction, $types) { $expression = $this->_parts[$part] ?: $this->newExpr(); if (is_callable($append)) { $append = $append($this->newExpr(), $this); } if ($expression->type() === $conjunction) { $expression->add($append, $types); } else { $expression = $this->newExpr() ->type($conjunction) ->add([$append, $expression], $types); } $this->_parts[$part] = $expression; $this->_dirty(); } /** * Traverses all QueryExpression objects stored in every relevant for this type * of query and binds every value to the statement object for each placeholder. * * @param \Cake\Database\Statement $statement * @return void */ protected function _bindStatement($statement) { $bindings = $this->valueBinder()->bindings(); if (empty($bindings)) { return; } $params = $types = []; foreach ($bindings as $b) { $params[$b['placeholder']] = $b['value']; $types[$b['placeholder']] = $b['type']; } $statement->bind($params, $types); } /** * Returns a query object as returned by the connection object as a result of * transforming this query instance to conform to any dialect specifics * * @return Query */ protected function _transformQuery() { if (!empty($this->_transformedQuery) && !$this->_dirty) { return $this->_transformedQuery; } if ($this->_transformedQuery === false) { return $this; } $translator = $this->connection()->driver()->queryTranslator($this->_type); $transformed = $translator($this); $transformed->_dirty = false; $transformed->_transformedQuery = false; if ($transformed !== $this) { $this->_transformedQuery = $transformed; } return $transformed; } /** * Marks a query as dirty, removing any preprocessed information * from in memory caching * * @return void */ protected function _dirty() { $this->_dirty = true; $this->_transformedQuery = null; if ($this->_valueBinder) { $this->valueBinder()->reset(); } } /** * Returns string representation of this query (complete SQL statement) * * @return string */ public function __toString() { return sprintf('(%s)', $this->sql()); } }