array($parameters))
*
* @var array
*/
protected $where = array();
/**
* The logical connective used to join WHERE clauses. Defaults to AND.
*
* @var string
*/
protected $connective = 'AND';
/**
* An array of tables. The first one is just the table name.
* Used as the FROM in DELETE/SELECT statements, the INTO in INSERT statements,
* and the target table in UPDATE statements
*
* The keys of this array are the aliases of the tables (unquoted), where the
* values are either the literal table names, or an array with join details.
*
* @see SQLConditionalExpression::addLeftJoin()
*
* @var array
*/
protected $from = array();
/**
* Construct a new SQLInteractExpression.
*
* @param array|string $from An array of Tables (FROM clauses). The first one should be just the table name.
* @param array $where An array of WHERE clauses.
*/
function __construct($from = array(), $where = array()) {
$this->setFrom($from);
$this->setWhere($where);
}
/**
* Sets the list of tables to query from or update
*
* @example $query->setFrom('"MyTable"'); // SELECT * FROM "MyTable"
*
* @param string|array $from Single, or list of, ANSI quoted table names
* @return self
*/
public function setFrom($from) {
$this->from = array();
return $this->addFrom($from);
}
/**
* Add a table to include in the query or update
*
* @example $query->addFrom('"MyTable"'); // SELECT * FROM "MyTable"
*
* @param string|array $from Single, or list of, ANSI quoted table names
* @return self Self reference
*/
public function addFrom($from) {
if(is_array($from)) {
$this->from = array_merge($this->from, $from);
} elseif(!empty($from)) {
$this->from[str_replace(array('"','`'), '', $from)] = $from;
}
return $this;
}
/**
* Set the connective property.
*
* @param string $value either 'AND' or 'OR'
*/
public function setConnective($value) {
$this->connective = $value;
}
/**
* Get the connective property.
*
* @return string 'AND' or 'OR'
*/
public function getConnective() {
return $this->connective;
}
/**
* Use the disjunctive operator 'OR' to join filter expressions in the WHERE clause.
*/
public function useDisjunction() {
$this->setConnective('OR');
}
/**
* Use the conjunctive operator 'AND' to join filter expressions in the WHERE clause.
*/
public function useConjunction() {
$this->setConnective('AND');
}
/**
* Add a LEFT JOIN criteria to the tables list.
*
* @param string $table Unquoted table name
* @param string $onPredicate The "ON" SQL fragment in a "LEFT JOIN ... AS ... ON ..." statement, Needs to be valid
* (quoted) SQL.
* @param string $tableAlias Optional alias which makes it easier to identify and replace joins later on
* @param int $order A numerical index to control the order that joins are added to the query; lower order values
* will cause the query to appear first. The default is 20, and joins created automatically by the
* ORM have a value of 10.
* @param array $parameters Any additional parameters if the join is a parameterised subquery
* @return self Self reference
*/
public function addLeftJoin($table, $onPredicate, $tableAlias = '', $order = 20, $parameters = array()) {
if(!$tableAlias) {
$tableAlias = $table;
}
$this->from[$tableAlias] = array(
'type' => 'LEFT',
'table' => $table,
'filter' => array($onPredicate),
'order' => $order,
'parameters' => $parameters
);
return $this;
}
/**
* Add an INNER JOIN criteria
*
* @param string $table Unquoted table name
* @param string $onPredicate The "ON" SQL fragment in an "INNER JOIN ... AS ... ON ..." statement. Needs to be
* valid (quoted) SQL.
* @param string $tableAlias Optional alias which makes it easier to identify and replace joins later on
* @param int $order A numerical index to control the order that joins are added to the query; lower order
* values will cause the query to appear first. The default is 20, and joins created automatically by the
* ORM have a value of 10.
* @param array $parameters Any additional parameters if the join is a parameterised subquery
* @return self Self reference
*/
public function addInnerJoin($table, $onPredicate, $tableAlias = null, $order = 20, $parameters = array()) {
if(!$tableAlias) $tableAlias = $table;
$this->from[$tableAlias] = array(
'type' => 'INNER',
'table' => $table,
'filter' => array($onPredicate),
'order' => $order,
'parameters' => $parameters
);
return $this;
}
/**
* Add an additional filter (part of the ON clause) on a join.
*
* @param string $table Table to join on from the original join (unquoted)
* @param string $filter The "ON" SQL fragment (escaped)
* @return self Self reference
*/
public function addFilterToJoin($table, $filter) {
$this->from[$table]['filter'][] = $filter;
return $this;
}
/**
* Set the filter (part of the ON clause) on a join.
*
* @param string $table Table to join on from the original join (unquoted)
* @param string $filter The "ON" SQL fragment (escaped)
* @return self Self reference
*/
public function setJoinFilter($table, $filter) {
$this->from[$table]['filter'] = array($filter);
return $this;
}
/**
* Returns true if we are already joining to the given table alias
*
* @param string $tableAlias Table name
* @return boolean
*/
public function isJoinedTo($tableAlias) {
return isset($this->from[$tableAlias]);
}
/**
* Return a list of tables that this query is selecting from.
*
* @return array Unquoted table names
*/
public function queriedTables() {
$tables = array();
foreach($this->from as $key => $tableClause) {
if(is_array($tableClause)) {
$table = '"'.$tableClause['table'].'"';
} else if(is_string($tableClause) && preg_match('/JOIN +("[^"]+") +(AS|ON) +/i', $tableClause, $matches)) {
$table = $matches[1];
} else {
$table = $tableClause;
}
// Handle string replacements
if($this->replacementsOld) $table = str_replace($this->replacementsOld, $this->replacementsNew, $table);
$tables[] = preg_replace('/^"|"$/','',$table);
}
return $tables;
}
/**
* Return a list of tables queried
*
* @return array
*/
public function getFrom() {
return $this->from;
}
/**
* Retrieves the finalised list of joins
*
* @todo This part of the code could be simplified
*
* @param array $parameters Out variable for parameters required for this query
* @return array List of joins as a mapping from array('Alias' => 'Join Expression')
*/
public function getJoins(&$parameters = array()) {
if(func_num_args() == 0) {
Deprecation::notice(
'4.0',
'SQLConditionalExpression::getJoins() now may produce parameters which are necessary to
execute this query'
);
}
// Sort the joins
$parameters = array();
$joins = $this->getOrderedJoins($this->from);
// Build from clauses
foreach($joins as $alias => $join) {
// $join can be something like this array structure
// array('type' => 'inner', 'table' => 'SiteTree', 'filter' => array("SiteTree.ID = 1",
// "Status = 'approved'", 'order' => 20))
if(!is_array($join)) continue;
if(is_string($join['filter'])) {
$filter = $join['filter'];
} elseif(sizeof($join['filter']) == 1) {
$filter = $join['filter'][0];
} else {
$filter = "(" . implode(") AND (", $join['filter']) . ")";
}
// Ensure tables are quoted, unless the table is actually a sub-select
$table = preg_match('/\bSELECT\b/i', $join['table'])
? $join['table']
: "\"{$join['table']}\"";
$aliasClause = ($alias != $join['table'])
? " AS \"{$alias}\""
: "";
$joins[$alias] = strtoupper($join['type']) . " JOIN " . $table . "$aliasClause ON $filter";
if(!empty($join['parameters'])) {
$parameters = array_merge($parameters, $join['parameters']);
}
}
return $joins;
}
/**
* Ensure that framework "auto-generated" table JOINs are first in the finalised SQL query.
* This prevents issues where developer-initiated JOINs attempt to JOIN using relations that haven't actually
* yet been scaffolded by the framework. Demonstrated by PostGres in errors like:
*"...ERROR: missing FROM-clause..."
*
* @param $from array - in the format of $this->from
* @return array - and reorderded list of selects
*/
protected function getOrderedJoins($from) {
// shift the first FROM table out from so we only deal with the JOINs
$baseFrom = array_shift($from);
$this->mergesort($from, function($firstJoin, $secondJoin) {
if(
!is_array($firstJoin)
|| !is_array($secondJoin)
|| $firstJoin['order'] == $secondJoin['order']
) {
return 0;
} else {
return ($firstJoin['order'] < $secondJoin['order']) ? -1 : 1;
}
});
// Put the first FROM table back into the results
array_unshift($from, $baseFrom);
return $from;
}
/**
* Since uasort don't preserve the order of an array if the comparison is equal
* we have to resort to a merge sort. It's quick and stable: O(n*log(n)).
*
* @see http://stackoverflow.com/q/4353739/139301
*
* @param array &$array - the array to sort
* @param callable $cmpFunction - the function to use for comparison
*/
protected function mergesort(&$array, $cmpFunction = 'strcmp') {
// Arrays of size < 2 require no action.
if (count($array) < 2) {
return;
}
// Split the array in half
$halfway = count($array) / 2;
$array1 = array_slice($array, 0, $halfway);
$array2 = array_slice($array, $halfway);
// Recurse to sort the two halves
$this->mergesort($array1, $cmpFunction);
$this->mergesort($array2, $cmpFunction);
// If all of $array1 is <= all of $array2, just append them.
if(call_user_func($cmpFunction, end($array1), reset($array2)) < 1) {
$array = array_merge($array1, $array2);
return;
}
// Merge the two sorted arrays into a single sorted array
$array = array();
$val1 = reset($array1);
$val2 = reset($array2);
do {
if (call_user_func($cmpFunction, $val1, $val2) < 1) {
$array[key($array1)] = $val1;
$val1 = next($array1);
} else {
$array[key($array2)] = $val2;
$val2 = next($array2);
}
} while($val1 && $val2);
// Merge the remainder
while($val1) {
$array[key($array1)] = $val1;
$val1 = next($array1);
}
while($val2) {
$array[key($array2)] = $val2;
$val2 = next($array2);
}
return;
}
/**
* Set a WHERE clause.
*
* @see SQLConditionalExpression::addWhere() for syntax examples
*
* @param mixed $where Predicate(s) to set, as escaped SQL statements or paramaterised queries
* @param mixed $where,... Unlimited additional predicates
* @return self Self reference
*/
public function setWhere($where) {
$where = func_num_args() > 1 ? func_get_args() : $where;
$this->where = array();
return $this->addWhere($where);
}
/**
* Adds a WHERE clause.
*
* Note that the database will execute any parameterised queries using
* prepared statements whenever available.
*
* There are several different ways of doing this.
*
*
* // the entire predicate as a single string
* $query->addWhere("\"Column\" = 'Value'");
*
* // multiple predicates as an array
* $query->addWhere(array("\"Column\" = 'Value'", "\"Column\" != 'Value'"));
*
* // Shorthand for the above using argument expansion
* $query->addWhere("\"Column\" = 'Value'", "\"Column\" != 'Value'");
*
* // multiple predicates with parameters
* $query->addWhere(array('"Column" = ?' => $column, '"Name" = ?' => $value)));
*
* // Shorthand for simple column comparison (as above), omitting the '?'
* $query->addWhere(array('"Column"' => $column, '"Name"' => $value));
*
* // Multiple predicates, each with multiple parameters.
* $query->addWhere(array(
* '"ColumnOne" = ? OR "ColumnTwo" != ?' => array(1, 4),
* '"ID" != ?' => $value
* ));
*
* // Using a dynamically generated condition (any object that implements SQLConditionGroup)
* $condition = new ObjectThatImplements_SQLConditionGroup();
* $query->addWhere($condition);
*
*
*
* Note that if giving multiple parameters for a single predicate the array
* of values must be given as an indexed array, not an associative array.
*
* Also should be noted is that any null values for parameters may give unexpected
* behaviour. array('Column' => NULL) is shorthand for array('Column = ?', NULL), and
* will not match null values for that column, as 'Column IS NULL' is the correct syntax.
*
* Additionally, be careful of key conflicts. Adding two predicates with the same
* condition but different parameters can cause a key conflict if added in the same array.
* This can be solved by wrapping each individual condition in an array. E.g.
*
*
* // Multiple predicates with duplicate conditions
* $query->addWhere(array(
* array('ID != ?' => 5),
* array('ID != ?' => 6)
* ));
*
* // Alternatively this can be added in two separate calls to addWhere
* $query->addWhere(array('ID != ?' => 5));
* $query->addWhere(array('ID != ?' => 6));
*
* // Or simply omit the outer array
* $query->addWhere(array('ID != ?' => 5), array('ID != ?' => 6));
*
*
* If it's necessary to force the parameter to be considered as a specific data type
* by the database connector's prepared query processor any parameter can be cast
* to that type by using the following format.
*
*
* // Treat this value as a double type, regardless of its type within PHP
* $query->addWhere(array(
* 'Column' => array(
* 'value' => $variable,
* 'type' => 'double'
* )
* ));
*
*
* @param mixed $where Predicate(s) to set, as escaped SQL statements or paramaterised queries
* @param mixed $where,... Unlimited additional predicates
* @return self Self reference
*/
public function addWhere($where) {
$where = $this->normalisePredicates(func_get_args());
// If the function is called with an array of items
$this->where = array_merge($this->where, $where);
return $this;
}
/**
* @see SQLConditionalExpression::addWhere()
*
* @param mixed $filters Predicate(s) to set, as escaped SQL statements or paramaterised queries
* @param mixed $filters,... Unlimited additional predicates
* @return self Self reference
*/
public function setWhereAny($filters) {
$filters = func_num_args() > 1 ? func_get_args() : $filters;
return $this
->setWhere(array())
->addWhereAny($filters);
}
/**
* @see SQLConditionalExpression::addWhere()
*
* @param mixed $filters Predicate(s) to set, as escaped SQL statements or paramaterised queries
* @param mixed $filters,... Unlimited additional predicates
* @return self Self reference
*/
public function addWhereAny($filters) {
// Parse and split predicates along with any parameters
$filters = $this->normalisePredicates(func_get_args());
$this->splitQueryParameters($filters, $predicates, $parameters);
$clause = "(".implode(") OR (", $predicates).")";
return $this->addWhere(array($clause => $parameters));
}
/**
* Return a list of WHERE clauses used internally.
*
* @return array
*/
public function getWhere() {
return $this->where;
}
/**
* Return a list of WHERE clauses used internally.
*
* @param array $parameters Out variable for parameters required for this query
* @return array
*/
public function getWhereParameterised(&$parameters) {
$this->splitQueryParameters($this->where, $predicates, $parameters);
return $predicates;
}
/**
* Given a key / value pair, extract the predicate and any potential paramaters
* in a format suitable for storing internally as a list of paramaterised conditions.
*
* @param string|integer $key The left hand (key index) of this condition.
* Could be the predicate or an integer index.
* @param mixed $value The The right hand (array value) of this condition.
* Could be the predicate (if non-paramaterised), or the parameter(s). Could also be
* an array containing a nested condition in the similar format this function outputs.
* @return array|SQLConditionGroup A single item array in the format
* array($predicate => array($parameters)), unless it's a SQLConditionGroup
*/
protected function parsePredicate($key, $value) {
// If a string key is given then presume this is a paramaterised condition
if($value instanceof SQLConditionGroup) {
return $value;
} elseif(is_string($key)) {
// Extract the parameter(s) from the value
if(!is_array($value) || isset($value['type'])) {
$parameters = array($value);
} else {
$parameters = array_values($value);
}
// Append '= ?' if not present, parameters are given, and we have exactly one parameter
if(strpos($key, '?') === FALSE) {
$parameterCount = count($parameters);
if($parameterCount === 1) {
$key .= " = ?";
} elseif($parameterCount > 1) {
user_error("Incorrect number of '?' in predicate $key. Expected $parameterCount but none given.",
E_USER_ERROR);
}
}
return array($key => $parameters);
} elseif(is_array($value)) {
// If predicates are nested one per array (as per the internal format)
// then run a quick check over the contents and recursively parse
if(count($value) != 1) {
user_error('Nested predicates should be given as a single item array in '
. 'array($predicate => array($prameters)) format)', E_USER_ERROR);
}
foreach($value as $key => $value) {
return $this->parsePredicate($key, $value);
}
} else {
// Non-paramaterised condition
return array($value => array());
}
}
/**
* Given a list of conditions in any user-acceptable format, convert this
* to an array of paramaterised predicates suitable for merging with $this->where.
*
* Normalised predicates are in the below format, in order to avoid key collisions.
*
*
* array(
* array('Condition != ?' => array('parameter')),
* array('Condition != ?' => array('otherparameter')),
* array('Condition = 3' => array()),
* array('Condition = ? OR Condition = ?' => array('parameter1', 'parameter2))
* )
*
*
* @param array $predicates List of predicates. These should be wrapped in an array
* one level more than for addWhere, as query expansion is not supported here.
* @return array List of normalised predicates
*/
protected function normalisePredicates(array $predicates) {
// Since this function is called with func_get_args we should un-nest the single first parameter
if(count($predicates) == 1) $predicates = array_shift($predicates);
// Ensure single predicates are iterable
if(!is_array($predicates)) $predicates = array($predicates);
$normalised = array();
foreach($predicates as $key => $value) {
if(empty($value) && (empty($key) || is_numeric($key))) continue; // Ignore empty conditions
$normalised[] = $this->parsePredicate($key, $value);
}
return $normalised;
}
/**
* Given a list of conditions as per the format of $this->where, split
* this into an array of predicates, and a separate array of ordered parameters
*
* Note, that any SQLConditionGroup objects will be evaluated here.
* @see SQLConditionGroup
*
* @param array $conditions List of Conditions including parameters
* @param array $predicates Out parameter for the list of string predicates
* @param array $parameters Out parameter for the list of parameters
*/
public function splitQueryParameters($conditions, &$predicates, &$parameters) {
// Merge all filters with paramaterised queries
$predicates = array();
$parameters = array();
foreach($conditions as $condition) {
// Evaluate the result of SQLConditionGroup here
if($condition instanceof SQLConditionGroup) {
$conditionSQL = $condition->conditionSQL($conditionParameters);
if(!empty($conditionSQL)) {
$predicates[] = $conditionSQL;
$parameters = array_merge($parameters, $conditionParameters);
}
} else {
foreach($condition as $key => $value) {
$predicates[] = $key;
$parameters = array_merge($parameters, $value);
}
}
}
}
/**
* Checks whether this query is for a specific ID in a table
*
* @todo Doesn't work with combined statements (e.g. "Foo='bar' AND ID=5")
*
* @return boolean
*/
public function filtersOnID() {
$regexp = '/^(.*\.)?("|`)?ID("|`)?\s?(=|IN)/';
foreach($this->getWhereParameterised($parameters) as $predicate) {
if(preg_match($regexp, $predicate)) return true;
}
return false;
}
/**
* Checks whether this query is filtering on a foreign key, ie finding a has_many relationship
*
* @todo Doesn't work with combined statements (e.g. "Foo='bar' AND ParentID=5")
*
* @return boolean
*/
public function filtersOnFK() {
$regexp = '/^(.*\.)?("|`)?[a-zA-Z]+ID("|`)?\s?(=|IN)/';
// @todo - Test this works with paramaterised queries
foreach($this->getWhereParameterised($parameters) as $predicate) {
if(preg_match($regexp, $predicate)) return true;
}
return false;
}
public function isEmpty() {
return empty($this->from);
}
/**
* Generates an SQLDelete object using the currently specified parameters
*
* @return SQLDelete
*/
public function toDelete() {
$delete = new SQLDelete();
$this->copyTo($delete);
return $delete;
}
/**
* Generates an SQLSelect object using the currently specified parameters.
*
* @return SQLSelect
*/
public function toSelect() {
$select = new SQLSelect();
$this->copyTo($select);
return $select;
}
/**
* Generates an SQLUpdate object using the currently specified parameters.
* No fields will have any assigned values for the newly generated SQLUpdate
* object.
*
* @return SQLUpdate
*/
public function toUpdate() {
$update = new SQLUpdate();
$this->copyTo($update);
return $update;
}
}