. */ namespace Doctrine\ORM\Query; use Doctrine\Common\DoctrineException; use Doctrine\ORM\Query; use Doctrine\ORM\Query\AST; use Doctrine\ORM\Query\Exec; /** * An LL(*) parser for the context-free grammar of the Doctrine Query Language. * Parses a DQL query, reports any errors in it, and generates an AST. * * @author Guilherme Blanco * @author Janne Vanhala * @author Roman Borschel * @license http://www.opensource.org/licenses/lgpl-license.php LGPL * @link http://www.doctrine-project.org * @since 2.0 * @version $Revision$ */ class Parser { /** Maps registered string function names to class names. */ private static $_STRING_FUNCTIONS = array( 'concat' => 'Doctrine\ORM\Query\AST\Functions\ConcatFunction', 'substring' => 'Doctrine\ORM\Query\AST\Functions\SubstringFunction', 'trim' => 'Doctrine\ORM\Query\AST\Functions\TrimFunction', 'lower' => 'Doctrine\ORM\Query\AST\Functions\LowerFunction', 'upper' => 'Doctrine\ORM\Query\AST\Functions\UpperFunction' ); /** Maps registered numeric function names to class names. */ private static $_NUMERIC_FUNCTIONS = array( 'length' => 'Doctrine\ORM\Query\AST\Functions\LengthFunction', 'locate' => 'Doctrine\ORM\Query\AST\Functions\LocateFunction', 'abs' => 'Doctrine\ORM\Query\AST\Functions\AbsFunction', 'sqrt' => 'Doctrine\ORM\Query\AST\Functions\SqrtFunction', 'mod' => 'Doctrine\ORM\Query\AST\Functions\ModFunction', 'size' => 'Doctrine\ORM\Query\AST\Functions\SizeFunction' ); /** Maps registered datetime function names to class names. */ private static $_DATETIME_FUNCTIONS = array( 'current_date' => 'Doctrine\ORM\Query\AST\Functions\CurrentDateFunction', 'current_time' => 'Doctrine\ORM\Query\AST\Functions\CurrentTimeFunction', 'current_timestamp' => 'Doctrine\ORM\Query\AST\Functions\CurrentTimestampFunction' ); /** * The minimum number of tokens read after last detected error before * another error can be reported. * * @var int */ //const MIN_ERROR_DISTANCE = 2; /** * Path expressions that were encountered during parsing of SelectExpressions * and still need to be validated. * * @var array */ private $_deferredPathExpressionStacks = array(); /** * The lexer. * * @var Doctrine\ORM\Query\Lexer */ private $_lexer; /** * The parser result. * * @var Doctrine\ORM\Query\ParserResult */ private $_parserResult; /** * The EntityManager. * * @var EnityManager */ private $_em; /** * The Query to parse. * * @var Query */ private $_query; /** * Map of declared query components in the parsed query. * * @var array */ private $_queryComponents = array(); /** * Sql tree walker * * @var SqlTreeWalker */ private $_sqlTreeWalker; /** * Creates a new query parser object. * * @param Query $query The Query to parse. */ public function __construct(Query $query) { $this->_query = $query; $this->_em = $query->getEntityManager(); $this->_lexer = new Lexer($query->getDql()); $this->_parserResult = new ParserResult; } /** * Attempts to match the given token with the current lookahead token. * * If they match, updates the lookahead token; otherwise raises a syntax * error. * * @param int|string token type or value * @return bool True, if tokens match; false otherwise. */ public function match($token) { $key = (is_string($token)) ? 'value' : 'type'; if ( ! ($this->_lexer->lookahead[$key] === $token)) { $this->syntaxError($this->_lexer->getLiteral($token)); } $this->_lexer->moveNext(); } /** * Free this parser enabling it to be reused * * @param boolean $deep Whether to clean peek and reset errors * @param integer $position Position to reset */ public function free($deep = false, $position = 0) { // WARNING! Use this method with care. It resets the scanner! $this->_lexer->resetPosition($position); // Deep = true cleans peek and also any previously defined errors if ($deep) { $this->_lexer->resetPeek(); //$this->_errors = array(); } $this->_lexer->token = null; $this->_lexer->lookahead = null; //$this->_errorDistance = self::MIN_ERROR_DISTANCE; } /** * Parses a query string. * * @return ParserResult */ public function parse() { // Parse & build AST $AST = $this->QueryLanguage(); // Check for end of string if ($this->_lexer->lookahead !== null) { //var_dump($this->_lexer->lookahead); $this->syntaxError('end of string'); } // Create SqlWalker who creates the SQL from the AST $sqlWalker = $this->_sqlTreeWalker ?: new SqlWalker( $this->_query, $this->_parserResult, $this->_queryComponents ); // Assign an SQL executor to the parser result $this->_parserResult->setSqlExecutor(Exec\AbstractExecutor::create($AST, $sqlWalker)); return $this->_parserResult; } /** * Gets the lexer used by the parser. * * @return Doctrine\ORM\Query\Lexer */ public function getLexer() { return $this->_lexer; } /** * Gets the ParserResult that is being filled with information during parsing. * * @return Doctrine\ORM\Query\ParserResult */ public function getParserResult() { return $this->_parserResult; } /** * Generates a new syntax error. * * @param string $expected Optional expected string. * @param array $token Optional token. */ public function syntaxError($expected = '', $token = null) { if ($token === null) { $token = $this->_lexer->lookahead; } $message = 'line 0, col ' . (isset($token['position']) ? $token['position'] : '-1') . ': Error: '; if ($expected !== '') { $message .= "Expected '$expected', got "; } else { $message .= 'Unexpected '; } if ($this->_lexer->lookahead === null) { $message .= 'end of string.'; } else { $message .= "'{$this->_lexer->lookahead['value']}'"; } throw QueryException::syntaxError($message); } /** * Generates a new semantical error. * * @param string $message Optional message. * @param array $token Optional token. */ public function semanticalError($message = '', $token = null) { if ($token === null) { $token = $this->_lexer->lookahead; } // Find a position of a final word to display in error string $dql = $this->_query->getDql(); $pos = strpos($dql, ' ', $token['position'] + 10); $length = ($pos !== false) ? $pos - $token['position'] : 10; // Building informative message $message = 'line 0, col ' . (isset($token['position']) ? $token['position'] : '-1') . " near '" . substr($dql, $token['position'], $length) . "'): Error: " . $message; throw QueryException::semanticalError($message); } /** * Logs new error entry. * * @param string $message Message to log. * @param array $token Token that it was processing. */ /*protected function _logError($message = '', $token) { if ($this->_errorDistance >= self::MIN_ERROR_DISTANCE) { $message = 'line 0, col ' . $token['position'] . ': ' . $message; $this->_errors[] = $message; } $this->_errorDistance = 0; }*/ /** * Gets the EntityManager used by the parser. * * @return EntityManager */ public function getEntityManager() { return $this->_em; } /** * Checks if the next-next (after lookahead) token starts a function. * * @return boolean */ private function _isFunction() { $next = $this->_lexer->glimpse(); return $next['value'] === '('; } /** * Checks whether the next 2 tokens start a subselect. * * @return boolean TRUE if the next 2 tokens start a subselect, FALSE otherwise. */ private function _isSubselect() { $la = $this->_lexer->lookahead; $next = $this->_lexer->glimpse(); return ($la['value'] === '(' && $next['type'] === Lexer::T_SELECT); } /** * QueryLanguage ::= SelectStatement | UpdateStatement | DeleteStatement */ public function QueryLanguage() { $this->_lexer->moveNext(); switch ($this->_lexer->lookahead['type']) { case Lexer::T_SELECT: return $this->SelectStatement(); case Lexer::T_UPDATE: return $this->UpdateStatement(); case Lexer::T_DELETE: return $this->DeleteStatement(); default: $this->syntaxError('SELECT, UPDATE or DELETE'); break; } } /** * SelectStatement ::= SelectClause FromClause [WhereClause] [GroupByClause] [HavingClause] [OrderByClause] */ public function SelectStatement() { $this->_beginDeferredPathExpressionStack(); $selectClause = $this->SelectClause(); $fromClause = $this->FromClause(); $this->_processDeferredPathExpressionStack(); $whereClause = $this->_lexer->isNextToken(Lexer::T_WHERE) ? $this->WhereClause() : null; $groupByClause = $this->_lexer->isNextToken(Lexer::T_GROUP) ? $this->GroupByClause() : null; $havingClause = $this->_lexer->isNextToken(Lexer::T_HAVING) ? $this->HavingClause() : null; $orderByClause = $this->_lexer->isNextToken(Lexer::T_ORDER) ? $this->OrderByClause() : null; return new AST\SelectStatement( $selectClause, $fromClause, $whereClause, $groupByClause, $havingClause, $orderByClause ); } /** * Begins a new stack of deferred path expressions. */ private function _beginDeferredPathExpressionStack() { $this->_deferredPathExpressionStacks[] = array(); } /** * Processes the topmost stack of deferred path expressions. * These will be validated to make sure they are indeed * valid StateFieldPathExpressions and additional information * is attached to their AST nodes. */ private function _processDeferredPathExpressionStack() { $exprStack = array_pop($this->_deferredPathExpressionStacks); $qComps = $this->_queryComponents; foreach ($exprStack as $expr) { switch ($expr->getType()) { case AST\PathExpression::TYPE_STATE_FIELD: $this->_validateStateFieldPathExpression($expr); break; case AST\PathExpression::TYPE_SINGLE_VALUED_ASSOCIATION: $this->_validateSingleValuedAssociationPathExpression($expr); break; case AST\PathExpression::TYPE_COLLECTION_VALUED_ASSOCIATION: $this->_validateCollectionValuedAssociationPathExpression($expr); break; case AST\PathExpression::TYPE_SINGLE_VALUED_PATH_EXPRESSION: $this->_validateSingleValuedPathExpression($expr); break; default: $this->semanticalError('Encountered invalid PathExpression.'); break; } } } /** * UpdateStatement ::= UpdateClause [WhereClause] */ public function UpdateStatement() { $updateStatement = new AST\UpdateStatement($this->UpdateClause()); $updateStatement->setWhereClause( $this->_lexer->isNextToken(Lexer::T_WHERE) ? $this->WhereClause() : null ); return $updateStatement; } /** * UpdateClause ::= "UPDATE" AbstractSchemaName [["AS"] AliasIdentificationVariable] "SET" UpdateItem {"," UpdateItem}* */ public function UpdateClause() { $this->match(Lexer::T_UPDATE); $abstractSchemaName = $this->AbstractSchemaName(); $aliasIdentificationVariable = null; if ($this->_lexer->isNextToken(Lexer::T_AS)) { $this->match(Lexer::T_AS); } if ($this->_lexer->isNextToken(Lexer::T_IDENTIFIER)) { $this->match(Lexer::T_IDENTIFIER); $aliasIdentificationVariable = $this->_lexer->token['value']; } else { $aliasIdentificationVariable = $abstractSchemaName; } $this->match(Lexer::T_SET); $updateItems = array(); $updateItems[] = $this->UpdateItem(); while ($this->_lexer->isNextToken(',')) { $this->match(','); $updateItems[] = $this->UpdateItem(); } $classMetadata = $this->_em->getClassMetadata($abstractSchemaName); // Building queryComponent $queryComponent = array( 'metadata' => $classMetadata, 'parent' => null, 'relation' => null, 'map' => null ); $this->_queryComponents[$aliasIdentificationVariable] = $queryComponent; $updateClause = new AST\UpdateClause($abstractSchemaName, $updateItems); $updateClause->setAliasIdentificationVariable($aliasIdentificationVariable); return $updateClause; } /** * UpdateItem ::= [IdentificationVariable "."] {StateField | SingleValuedAssociationField} "=" NewValue */ public function UpdateItem() { $peek = $this->_lexer->glimpse(); $identVariable = null; if ($peek['value'] == '.') { $this->match(Lexer::T_IDENTIFIER); $identVariable = $this->_lexer->token['value']; $this->match('.'); } else { throw QueryException::missingAliasQualifier(); } $this->match(Lexer::T_IDENTIFIER); $field = $this->_lexer->token['value']; $this->match('='); $newValue = $this->NewValue(); $updateItem = new AST\UpdateItem($field, $newValue); $updateItem->setIdentificationVariable($identVariable); return $updateItem; } /** * NewValue ::= SimpleArithmeticExpression | StringPrimary | DatetimePrimary | BooleanPrimary | * EnumPrimary | SimpleEntityExpression | "NULL" * * NOTE: Since it is not possible to correctly recognize individual types, here is the full * grammar that needs to be supported: * * NewValue ::= SimpleArithmeticExpression | "NULL" * * SimpleArithmeticExpression covers all *Primary grammar rules and also SimplEntityExpression * * @todo Find why removal of InputParameter check causes ClassTableInheritanceTest to fail with * wrong parameter count (Should be processed in Literal, part of SimpleArithmeticExpression) */ public function NewValue() { if ($this->_lexer->isNextToken(Lexer::T_NULL)) { $this->match(Lexer::T_NULL); return null; } else if ($this->_lexer->isNextToken(Lexer::T_INPUT_PARAMETER)) { $this->match(Lexer::T_INPUT_PARAMETER); return new AST\InputParameter($this->_lexer->token['value']); } return $this->SimpleArithmeticExpression(); } /** * DeleteStatement ::= DeleteClause [WhereClause] */ public function DeleteStatement() { $deleteStatement = new AST\DeleteStatement($this->DeleteClause()); $deleteStatement->setWhereClause( $this->_lexer->isNextToken(Lexer::T_WHERE) ? $this->WhereClause() : null ); return $deleteStatement; } /** * DeleteClause ::= "DELETE" ["FROM"] AbstractSchemaName [["AS"] AliasIdentificationVariable] */ public function DeleteClause() { $this->match(Lexer::T_DELETE); if ($this->_lexer->isNextToken(Lexer::T_FROM)) { $this->match(Lexer::T_FROM); } $deleteClause = new AST\DeleteClause($this->AbstractSchemaName()); if ($this->_lexer->isNextToken(Lexer::T_AS)) { $this->match(Lexer::T_AS); } if ($this->_lexer->isNextToken(Lexer::T_IDENTIFIER)) { $this->match(Lexer::T_IDENTIFIER); $deleteClause->setAliasIdentificationVariable($this->_lexer->token['value']); } else { $deleteClause->setAliasIdentificationVariable($deleteClause->getAbstractSchemaName()); } $classMetadata = $this->_em->getClassMetadata($deleteClause->getAbstractSchemaName()); $queryComponent = array( 'metadata' => $classMetadata ); $this->_queryComponents[$deleteClause->getAliasIdentificationVariable()] = $queryComponent; return $deleteClause; } /** * SelectClause ::= "SELECT" ["DISTINCT"] SelectExpression {"," SelectExpression} */ public function SelectClause() { $isDistinct = false; $this->match(Lexer::T_SELECT); // Check for DISTINCT if ($this->_lexer->isNextToken(Lexer::T_DISTINCT)) { $this->match(Lexer::T_DISTINCT); $isDistinct = true; } // Process SelectExpressions (1..N) $selectExpressions = array(); $selectExpressions[] = $this->SelectExpression(); while ($this->_lexer->isNextToken(',')) { $this->match(','); $selectExpressions[] = $this->SelectExpression(); } return new AST\SelectClause($selectExpressions, $isDistinct); } /** * FromClause ::= "FROM" IdentificationVariableDeclaration {"," IdentificationVariableDeclaration}* */ public function FromClause() { $this->match(Lexer::T_FROM); $identificationVariableDeclarations = array(); $identificationVariableDeclarations[] = $this->IdentificationVariableDeclaration(); while ($this->_lexer->isNextToken(',')) { $this->match(','); $identificationVariableDeclarations[] = $this->IdentificationVariableDeclaration(); } return new AST\FromClause($identificationVariableDeclarations); } /** * SelectExpression ::= * IdentificationVariable | StateFieldPathExpression | * (AggregateExpression | "(" Subselect ")" | Function) [["AS"] ResultVariable] */ public function SelectExpression() { $expression = null; $fieldAliasIdentificationVariable = null; $peek = $this->_lexer->glimpse(); // First we recognize for an IdentificationVariable (DQL class alias) if ($peek['value'] != '.' && $peek['value'] != '(' && $this->_lexer->lookahead['type'] === Lexer::T_IDENTIFIER) { $expression = $this->IdentificationVariable(); } else if (($isFunction = $this->_isFunction()) !== false || $this->_isSubselect()) { if ($isFunction) { if ($this->isAggregateFunction($this->_lexer->lookahead['type'])) { $expression = $this->AggregateExpression(); } else { $expression = $this->_Function(); } } else { $this->match('('); $expression = $this->Subselect(); $this->match(')'); } if ($this->_lexer->isNextToken(Lexer::T_AS)) { $this->match(Lexer::T_AS); } if ($this->_lexer->isNextToken(Lexer::T_IDENTIFIER)) { $fieldAliasIdentificationVariable = $this->ResultVariable(); } } else { // Deny hydration of partial objects if doctrine.forcePartialLoad query hint not defined if ( $this->_query->getHydrationMode() == Query::HYDRATE_OBJECT && ! $this->_em->getConfiguration()->getAllowPartialObjects() && ! $this->_query->getHint('doctrine.forcePartialLoad') ) { throw DoctrineException::partialObjectsAreDangerous(); } $expression = $this->StateFieldPathExpression(); } return new AST\SelectExpression($expression, $fieldAliasIdentificationVariable); } /** * ResultVariable ::= identifier */ public function ResultVariable() { $this->match(Lexer::T_IDENTIFIER); return $this->_lexer->token['value']; } /** * IdentificationVariable ::= identifier */ public function IdentificationVariable() { $this->match(Lexer::T_IDENTIFIER); return $this->_lexer->token['value']; } /** * IdentificationVariableDeclaration ::= RangeVariableDeclaration [IndexBy] {JoinVariableDeclaration}* */ public function IdentificationVariableDeclaration() { $rangeVariableDeclaration = $this->RangeVariableDeclaration(); $indexBy = $this->_lexer->isNextToken(Lexer::T_INDEX) ? $this->IndexBy() : null; $joinVariableDeclarations = array(); while ( $this->_lexer->isNextToken(Lexer::T_LEFT) || $this->_lexer->isNextToken(Lexer::T_INNER) || $this->_lexer->isNextToken(Lexer::T_JOIN) ) { $joinVariableDeclarations[] = $this->JoinVariableDeclaration(); } return new AST\IdentificationVariableDeclaration( $rangeVariableDeclaration, $indexBy, $joinVariableDeclarations ); } /** * RangeVariableDeclaration ::= AbstractSchemaName ["AS"] AliasIdentificationVariable */ public function RangeVariableDeclaration() { $abstractSchemaName = $this->AbstractSchemaName(); if ($this->_lexer->isNextToken(Lexer::T_AS)) { $this->match(Lexer::T_AS); } $aliasIdentificationVariable = $this->AliasIdentificationVariable(); $classMetadata = $this->_em->getClassMetadata($abstractSchemaName); // Building queryComponent $queryComponent = array( 'metadata' => $classMetadata, 'parent' => null, 'relation' => null, 'map' => null ); $this->_queryComponents[$aliasIdentificationVariable] = $queryComponent; return new AST\RangeVariableDeclaration( $classMetadata, $aliasIdentificationVariable ); } /** * AbstractSchemaName ::= identifier */ public function AbstractSchemaName() { $this->match(Lexer::T_IDENTIFIER); return $this->_lexer->token['value']; } /** * AliasIdentificationVariable = identifier */ public function AliasIdentificationVariable() { $this->match(Lexer::T_IDENTIFIER); return $this->_lexer->token['value']; } /** * JoinVariableDeclaration ::= Join [IndexBy] */ public function JoinVariableDeclaration() { $join = $this->Join(); $indexBy = $this->_lexer->isNextToken(Lexer::T_INDEX) ? $this->IndexBy() : null; return new AST\JoinVariableDeclaration($join, $indexBy); } /** * Join ::= ["LEFT" ["OUTER"] | "INNER"] "JOIN" JoinAssociationPathExpression * ["AS"] AliasIdentificationVariable [("ON" | "WITH") ConditionalExpression] */ public function Join() { // Check Join type $joinType = AST\Join::JOIN_TYPE_INNER; if ($this->_lexer->isNextToken(Lexer::T_LEFT)) { $this->match(Lexer::T_LEFT); // Possible LEFT OUTER join if ($this->_lexer->isNextToken(Lexer::T_OUTER)) { $this->match(Lexer::T_OUTER); $joinType = AST\Join::JOIN_TYPE_LEFTOUTER; } else { $joinType = AST\Join::JOIN_TYPE_LEFT; } } else if ($this->_lexer->isNextToken(Lexer::T_INNER)) { $this->match(Lexer::T_INNER); } $this->match(Lexer::T_JOIN); $joinPathExpression = $this->JoinPathExpression(); if ($this->_lexer->isNextToken(Lexer::T_AS)) { $this->match(Lexer::T_AS); } $aliasIdentificationVariable = $this->AliasIdentificationVariable(); // Verify that the association exists. $parentClass = $this->_queryComponents[$joinPathExpression->getIdentificationVariable()]['metadata']; $assocField = $joinPathExpression->getAssociationField(); if ( ! $parentClass->hasAssociation($assocField)) { $this->semanticalError( "Class " . $parentClass->name . " has no association named '$assocField'." ); } $targetClassName = $parentClass->getAssociationMapping($assocField)->getTargetEntityName(); // Building queryComponent $joinQueryComponent = array( 'metadata' => $this->_em->getClassMetadata($targetClassName), 'parent' => $joinPathExpression->getIdentificationVariable(), 'relation' => $parentClass->getAssociationMapping($assocField), 'map' => null ); $this->_queryComponents[$aliasIdentificationVariable] = $joinQueryComponent; // Create AST node $join = new AST\Join($joinType, $joinPathExpression, $aliasIdentificationVariable); // Check for ad-hoc Join conditions if ($this->_lexer->isNextToken(Lexer::T_ON) || $this->_lexer->isNextToken(Lexer::T_WITH)) { if ($this->_lexer->isNextToken(Lexer::T_ON)) { $this->match(Lexer::T_ON); $join->setWhereType(AST\Join::JOIN_WHERE_ON); } else { $this->match(Lexer::T_WITH); } $join->setConditionalExpression($this->ConditionalExpression()); } return $join; } /** * JoinPathExpression ::= IdentificationVariable "." (CollectionValuedAssociationField | SingleValuedAssociationField) */ public function JoinPathExpression() { $identificationVariable = $this->IdentificationVariable(); $this->match('.'); $this->match(Lexer::T_IDENTIFIER); return new AST\JoinPathExpression( $identificationVariable, $this->_lexer->token['value'] ); } /** * IndexBy ::= "INDEX" "BY" SimpleStateFieldPathExpression */ public function IndexBy() { $this->match(Lexer::T_INDEX); $this->match(Lexer::T_BY); $pathExp = $this->SimpleStateFieldPathExpression(); // Add the INDEX BY info to the query component $parts = $pathExp->getParts(); $this->_queryComponents[$pathExp->getIdentificationVariable()]['map'] = $parts[0]; return $pathExp; } /** * StateFieldPathExpression ::= SimpleStateFieldPathExpression | SimpleStateFieldAssociationPathExpression */ public function StateFieldPathExpression() { $pathExpr = $this->PathExpression(AST\PathExpression::TYPE_STATE_FIELD); if ( ! empty($this->_deferredPathExpressionStacks)) { $exprStack = array_pop($this->_deferredPathExpressionStacks); $exprStack[] = $pathExpr; array_push($this->_deferredPathExpressionStacks, $exprStack); return $pathExpr; } $this->_validateStateFieldPathExpression($pathExpr); return $pathExpr; } /** * SimpleStateFieldPathExpression ::= IdentificationVariable "." StateField */ public function SimpleStateFieldPathExpression() { $pathExpr = $this->PathExpression(AST\PathExpression::TYPE_STATE_FIELD); if ( ! empty($this->_deferredPathExpressionStacks)) { $exprStack = array_pop($this->_deferredPathExpressionStacks); $exprStack[] = $pathExpr; array_push($this->_deferredPathExpressionStacks, $exprStack); return $pathExpr; } $this->_validateStateFieldPathExpression($pathExpr); return $pathExpr; } /** * SingleValuedAssociationPathExpression ::= IdentificationVariable "." {SingleValuedAssociationField "."}* SingleValuedAssociationField */ public function SingleValuedAssociationPathExpression() { $pathExpr = $this->PathExpression(AST\PathExpression::TYPE_SINGLE_VALUED_ASSOCIATION); if ( ! empty($this->_deferredPathExpressionStacks)) { $exprStack = array_pop($this->_deferredPathExpressionStacks); $exprStack[] = $pathExpr; array_push($this->_deferredPathExpressionStacks, $exprStack); return $pathExpr; } $this->_validateSingleValuedAssociationPathExpression($pathExpr); return $pathExpr; } /** * CollectionValuedPathExpression ::= IdentificationVariable "." {SingleValuedAssociationField "."}* CollectionValuedAssociationField */ public function CollectionValuedPathExpression() { $pathExpr = $this->PathExpression(AST\PathExpression::TYPE_COLLECTION_VALUED_ASSOCIATION); if ( ! empty($this->_deferredPathExpressionStacks)) { $exprStack = array_pop($this->_deferredPathExpressionStacks); $exprStack[] = $pathExpr; array_push($this->_deferredPathExpressionStacks, $exprStack); return $pathExpr; } $this->_validateCollectionValuedPathExpression($pathExpr); return $pathExpr; } /** * SingleValuedPathExpression ::= StateFieldPathExpression | SingleValuedAssociationPathExpression */ public function SingleValuedPathExpression() { $pathExpr = $this->PathExpression(AST\PathExpression::TYPE_SINGLE_VALUED_PATH_EXPRESSION); if ( ! empty($this->_deferredPathExpressionStacks)) { $exprStack = array_pop($this->_deferredPathExpressionStacks); $exprStack[] = $pathExpr; array_push($this->_deferredPathExpressionStacks, $exprStack); return $pathExpr; } $this->_validateSingleValuedPathExpression($pathExpr); return $pathExpr; } /** * Validates that the given PathExpression is a semantically correct * CollectionValuedPathExpression as specified in the grammar. * * @param PathExpression $pathExpression */ private function _validateCollectionValuedPathExpression(AST\PathExpression $pathExpression) { $class = $this->_queryComponents[$pathExpression->getIdentificationVariable()]['metadata']; $collectionValuedField = null; foreach ($pathExpression->getParts() as $field) { if ($collectionValuedField !== null) { $this->semanticalError('Can not navigate through collection-valued field named ' . $collectionValuedField); } if ( ! isset($class->associationMappings[$field])) { $this->semanticalError('Class ' . $class->name . ' has no association field named ' . $lastItem); } if ($class->associationMappings[$field]->isOneToOne()) { $class = $this->_em->getClassMetadata($class->associationMappings[$field]->targetEntityName); } else { $collectionValuedField = $field; } } if ($collectionValuedField === null) { $this->syntaxError('SingleValuedAssociationField or CollectionValuedAssociationField'); } } /** * Validates that the given PathExpression is a semantically correct * SingleValuedAssociationPathExpression as specified in the grammar. * * @param PathExpression $pathExpression */ private function _validateSingleValuedAssociationPathExpression(AST\PathExpression $pathExpression) { $class = $this->_queryComponents[$pathExpression->getIdentificationVariable()]['metadata']; foreach ($pathExpression->getParts() as $field) { if ( ! isset($class->associationMappings[$field])) { $this->semanticalError('Class ' . $class->name . ' has no association field named ' . $field); } if ($class->associationMappings[$field]->isOneToOne()) { $class = $this->_em->getClassMetadata($class->associationMappings[$field]->targetEntityName); } else { $this->syntaxError('SingleValuedAssociationField'); } } } /** * Validates that the given PathExpression is a semantically correct * StateFieldPathExpression as specified in the grammar. * * @param PathExpression $pathExpression */ private function _validateStateFieldPathExpression(AST\PathExpression $pathExpression) { $stateFieldSeen = $this->_validateSingleValuedPathExpression($pathExpression); if ( ! $stateFieldSeen) { $this->semanticalError('Invalid StateFieldPathExpression. Must end in a state field.'); } } /** * Validates that the given PathExpression is a semantically correct * SingleValuedPathExpression as specified in the grammar. * * @param PathExpression $pathExpression * @return boolean */ private function _validateSingleValuedPathExpression(AST\PathExpression $pathExpression) { $class = $this->_queryComponents[$pathExpression->getIdentificationVariable()]['metadata']; $stateFieldSeen = false; foreach ($pathExpression->getParts() as $field) { if ($stateFieldSeen) { $this->semanticalError('Cannot navigate through state field.'); } if (isset($class->associationMappings[$field]) && $class->associationMappings[$field]->isOneToOne()) { $class = $this->_em->getClassMetadata($class->associationMappings[$field]->targetEntityName); } else if (isset($class->fieldMappings[$field])) { $stateFieldSeen = true; } else { $this->semanticalError('SingleValuedAssociationField or StateField expected.'); } } // We need to force the type in PathExpression since SingleValuedPathExpression is in a // state of recognition of what's is the dealed type (StateField or SingleValuedAssociation) $pathExpression->setType( ($stateFieldSeen) ? AST\PathExpression::TYPE_STATE_FIELD : AST\PathExpression::TYPE_SINGLE_VALUED_ASSOCIATION ); return $stateFieldSeen; } /** * Parses an arbitrary path expression without any semantic validation. * * PathExpression ::= IdentificationVariable "." {identifier "."}* identifier * * @return PathExpression */ public function PathExpression($type) { $identificationVariable = $this->IdentificationVariable(); $parts = array(); do { $this->match('.'); $this->match(Lexer::T_IDENTIFIER); $parts[] = $this->_lexer->token['value']; } while ($this->_lexer->isNextToken('.')); return new AST\PathExpression($type, $identificationVariable, $parts); } /** * EntityExpression ::= SingleValuedAssociationPathExpression | SimpleEntityExpression */ public function EntityExpression() { $glimpse = $this->_lexer->glimpse(); if ($this->_lexer->isNextToken(Lexer::T_IDENTIFIER) && $glimpse['value'] === '.') { return $this->SingleValuedAssociationPathExpression(); } return $this->SimpleEntityExpression(); } /** * SimpleEntityExpression ::= IdentificationVariable | InputParameter */ public function SimpleEntityExpression() { if ($this->_lexer->isNextToken(Lexer::T_INPUT_PARAMETER)) { $this->match(Lexer::T_INPUT_PARAMETER); return new AST\InputParameter($this->_lexer->token['value']); } return $this->IdentificationVariable(); } /** * NullComparisonExpression ::= (SingleValuedPathExpression | InputParameter) "IS" ["NOT"] "NULL" */ public function NullComparisonExpression() { if ($this->_lexer->isNextToken(Lexer::T_INPUT_PARAMETER)) { $this->match(Lexer::T_INPUT_PARAMETER); $expr = new AST\InputParameter($this->_lexer->token['value']); } else { $expr = $this->SingleValuedPathExpression(); } $nullCompExpr = new AST\NullComparisonExpression($expr); $this->match(Lexer::T_IS); if ($this->_lexer->isNextToken(Lexer::T_NOT)) { $this->match(Lexer::T_NOT); $nullCompExpr->setNot(true); } $this->match(Lexer::T_NULL); return $nullCompExpr; } /** * AggregateExpression ::= * ("AVG" | "MAX" | "MIN" | "SUM") "(" ["DISTINCT"] StateFieldPathExpression ")" | * "COUNT" "(" ["DISTINCT"] (IdentificationVariable | SingleValuedPathExpression) ")" */ public function AggregateExpression() { $isDistinct = false; $functionName = ''; if ($this->_lexer->isNextToken(Lexer::T_COUNT)) { $this->match(Lexer::T_COUNT); $functionName = $this->_lexer->token['value']; $this->match('('); if ($this->_lexer->isNextToken(Lexer::T_DISTINCT)) { $this->match(Lexer::T_DISTINCT); $isDistinct = true; } $pathExp = $this->SingleValuedPathExpression(); $this->match(')'); } else { if ($this->_lexer->isNextToken(Lexer::T_AVG)) { $this->match(Lexer::T_AVG); } else if ($this->_lexer->isNextToken(Lexer::T_MAX)) { $this->match(Lexer::T_MAX); } else if ($this->_lexer->isNextToken(Lexer::T_MIN)) { $this->match(Lexer::T_MIN); } else if ($this->_lexer->isNextToken(Lexer::T_SUM)) { $this->match(Lexer::T_SUM); } else { $this->syntaxError('One of: MAX, MIN, AVG, SUM, COUNT'); } $functionName = $this->_lexer->token['value']; $this->match('('); $pathExp = $this->StateFieldPathExpression(); $this->match(')'); } return new AST\AggregateExpression($functionName, $pathExp, $isDistinct); } /** * GroupByClause ::= "GROUP" "BY" GroupByItem {"," GroupByItem}* */ public function GroupByClause() { $this->match(Lexer::T_GROUP); $this->match(Lexer::T_BY); $groupByItems = array($this->GroupByItem()); while ($this->_lexer->isNextToken(',')) { $this->match(','); $groupByItems[] = $this->GroupByItem(); } return new AST\GroupByClause($groupByItems); } /** * GroupByItem ::= IdentificationVariable | SingleValuedPathExpression * * @todo Finish this implementation */ public function GroupByItem() { return $this->SingleValuedPathExpression(); } /** * HavingClause ::= "HAVING" ConditionalExpression */ public function HavingClause() { $this->match(Lexer::T_HAVING); return new AST\HavingClause($this->ConditionalExpression()); } /** * OrderByClause ::= "ORDER" "BY" OrderByItem {"," OrderByItem}* */ public function OrderByClause() { $this->match(Lexer::T_ORDER); $this->match(Lexer::T_BY); $orderByItems = array(); $orderByItems[] = $this->OrderByItem(); while ($this->_lexer->isNextToken(',')) { $this->match(','); $orderByItems[] = $this->OrderByItem(); } return new AST\OrderByClause($orderByItems); } /** * OrderByItem ::= (ResultVariable | StateFieldPathExpression) ["ASC" | "DESC"] * * @todo Support general SingleValuedPathExpression instead of only StateFieldPathExpression. */ public function OrderByItem() { // We need to check if we are in a ResultVariable or StateFieldPathExpression $glimpse = $this->_lexer->glimpse(); if ($glimpse['value'] != '.') { $expr = $this->ResultVariable(); // @todo Check if ResultVariable is defined somewhere } else { $expr = $this->StateFieldPathExpression(); } $item = new AST\OrderByItem($expr); if ($this->_lexer->isNextToken(Lexer::T_ASC)) { $this->match(Lexer::T_ASC); $item->setAsc(true); return $item; } if ($this->_lexer->isNextToken(Lexer::T_DESC)) { $this->match(Lexer::T_DESC); } $item->setDesc(true); return $item; } /** * WhereClause ::= "WHERE" ConditionalExpression */ public function WhereClause() { $this->match(Lexer::T_WHERE); return new AST\WhereClause($this->ConditionalExpression()); } /** * ConditionalExpression ::= ConditionalTerm {"OR" ConditionalTerm}* */ public function ConditionalExpression() { $conditionalTerms = array(); $conditionalTerms[] = $this->ConditionalTerm(); while ($this->_lexer->isNextToken(Lexer::T_OR)) { $this->match(Lexer::T_OR); $conditionalTerms[] = $this->ConditionalTerm(); } return new AST\ConditionalExpression($conditionalTerms); } /** * ConditionalTerm ::= ConditionalFactor {"AND" ConditionalFactor}* */ public function ConditionalTerm() { $conditionalFactors = array(); $conditionalFactors[] = $this->ConditionalFactor(); while ($this->_lexer->isNextToken(Lexer::T_AND)) { $this->match(Lexer::T_AND); $conditionalFactors[] = $this->ConditionalFactor(); } return new AST\ConditionalTerm($conditionalFactors); } /** * ConditionalFactor ::= ["NOT"] ConditionalPrimary */ public function ConditionalFactor() { $not = false; if ($this->_lexer->isNextToken(Lexer::T_NOT)) { $this->match(Lexer::T_NOT); $not = true; } return new AST\ConditionalFactor($this->ConditionalPrimary(), $not); } /** * ConditionalPrimary ::= SimpleConditionalExpression | "(" ConditionalExpression ")" * @todo Implementation incomplete: Recognition of SimpleConditionalExpression is incomplete. */ public function ConditionalPrimary() { $condPrimary = new AST\ConditionalPrimary; if ($this->_lexer->isNextToken('(')) { // We need to inner inspect for a subselect (ArithmeticExpression) if ( ! $this->_isSubselect()) { // Peek beyond and not until matching closing parenthesis $peek = $this->_lexer->peek(); $arithmeticOps = array("+", "-", "*", "/"); $numUnmatched = 1; // While not found a closing matched parenthesis and a matched arithmetic operator while ($numUnmatched > 0 && ! in_array($peek['value'], $arithmeticOps)) { if ($peek['value'] == ')') { --$numUnmatched; } else if ($peek['value'] == '(') { ++$numUnmatched; } $peek = $this->_lexer->peek(); } } // Check if unmatched parenthesis is > 0, then we found a matching arithmetic operator if ($numUnmatched > 0) { $condPrimary->setSimpleConditionalExpression($this->SimpleConditionalExpression()); } else { $this->match('('); $condPrimary->setConditionalExpression($this->ConditionalExpression()); $this->match(')'); } } else { $condPrimary->setSimpleConditionalExpression($this->SimpleConditionalExpression()); } return $condPrimary; } /** * SimpleConditionalExpression ::= * ComparisonExpression | BetweenExpression | LikeExpression | * InExpression | NullComparisonExpression | ExistsExpression | * EmptyCollectionComparisonExpression | CollectionMemberExpression */ public function SimpleConditionalExpression() { if ($this->_lexer->isNextToken(Lexer::T_NOT)) { $token = $this->_lexer->glimpse(); } else { $token = $this->_lexer->lookahead; } if ($token['type'] === Lexer::T_EXISTS) { return $this->ExistsExpression(); } $pathExprOrInputParam = false; if ($token['type'] === Lexer::T_IDENTIFIER || $token['type'] === Lexer::T_INPUT_PARAMETER) { // Peek beyond the PathExpression $pathExprOrInputParam = true; $peek = $this->_lexer->peek(); while ($peek['value'] === '.') { $this->_lexer->peek(); $peek = $this->_lexer->peek(); } // Also peek beyond a NOT if there is one if ($peek['type'] === Lexer::T_NOT) { $peek = $this->_lexer->peek(); } $this->_lexer->resetPeek(); $token = $peek; } if ($pathExprOrInputParam) { switch ($token['type']) { case Lexer::T_NONE: return $this->ComparisonExpression(); case Lexer::T_BETWEEN: return $this->BetweenExpression(); case Lexer::T_LIKE: return $this->LikeExpression(); case Lexer::T_IN: return $this->InExpression(); case Lexer::T_IS: return $this->NullComparisonExpression(); case Lexer::T_MEMBER: return $this->CollectionMemberExpression(); default: $this->syntaxError(); } } else { return $this->ComparisonExpression(); } } /** * CollectionMemberExpression ::= EntityExpression ["NOT"] "MEMBER" ["OF"] CollectionValuedPathExpression * * EntityExpression ::= SingleValuedAssociationPathExpression | SimpleEntityExpression * SimpleEntityExpression ::= IdentificationVariable | InputParameter * * @return AST\CollectionMemberExpression */ public function CollectionMemberExpression() { $isNot = false; $entityExpr = $this->EntityExpression(); if ($this->_lexer->isNextToken(Lexer::T_NOT)) { $isNot = true; $this->match(Lexer::T_NOT); } $this->match(Lexer::T_MEMBER); if ($this->_lexer->isNextToken(Lexer::T_OF)) { $this->match(Lexer::T_OF); } return new AST\CollectionMemberExpression( $entityExpr, $this->CollectionValuedPathExpression(), $isNot ); } /** * ComparisonExpression ::= ArithmeticExpression ComparisonOperator ( QuantifiedExpression | ArithmeticExpression ) * * @return AST\ComparisonExpression * @todo Semantical checks whether $leftExpr $operator and $rightExpr are compatible. */ public function ComparisonExpression() { $peek = $this->_lexer->glimpse(); $leftExpr = $this->ArithmeticExpression(); $operator = $this->ComparisonOperator(); if ($this->_isNextAllAnySome()) { $rightExpr = $this->QuantifiedExpression(); } else { $rightExpr = $this->ArithmeticExpression(); } return new AST\ComparisonExpression($leftExpr, $operator, $rightExpr); } /** * Checks whether the current lookahead token of the lexer has the type * T_ALL, T_ANY or T_SOME. * * @return boolean */ private function _isNextAllAnySome() { return $this->_lexer->lookahead['type'] === Lexer::T_ALL || $this->_lexer->lookahead['type'] === Lexer::T_ANY || $this->_lexer->lookahead['type'] === Lexer::T_SOME; } /** * Function ::= FunctionsReturningStrings | FunctionsReturningNumerics | FunctionsReturningDatetime */ public function _Function() { $funcName = $this->_lexer->lookahead['value']; if ($this->isStringFunction($funcName)) { return $this->FunctionsReturningStrings(); } else if ($this->isNumericFunction($funcName)) { return $this->FunctionsReturningNumerics(); } else if ($this->isDatetimeFunction($funcName)) { return $this->FunctionsReturningDatetime(); } $this->syntaxError('Known function.'); } /** * Checks whether the function with the given name is a string function * (a function that returns strings). */ public function isStringFunction($funcName) { return isset(self::$_STRING_FUNCTIONS[strtolower($funcName)]); } /** * Checks whether the function with the given name is a numeric function * (a function that returns numerics). */ public function isNumericFunction($funcName) { return isset(self::$_NUMERIC_FUNCTIONS[strtolower($funcName)]); } /** * Checks whether the function with the given name is a datetime function * (a function that returns date/time values). */ public function isDatetimeFunction($funcName) { return isset(self::$_DATETIME_FUNCTIONS[strtolower($funcName)]); } /** * Peeks beyond the specified token and returns the first token after that one. */ private function _peekBeyond($token) { $peek = $this->_lexer->peek(); while ($peek['value'] != $token) { $peek = $this->_lexer->peek(); } $peek = $this->_lexer->peek(); $this->_lexer->resetPeek(); return $peek; } /** * Checks whether the given token is a comparison operator. */ public function isComparisonOperator($token) { $value = $token['value']; return $value == '=' || $value == '<' || $value == '<=' || $value == '<>' || $value == '>' || $value == '>=' || $value == '!='; } /** * ArithmeticExpression ::= SimpleArithmeticExpression | "(" Subselect ")" */ public function ArithmeticExpression() { $expr = new AST\ArithmeticExpression; if ($this->_lexer->lookahead['value'] === '(') { $peek = $this->_lexer->glimpse(); if ($peek['type'] === Lexer::T_SELECT) { $this->match('('); $expr->setSubselect($this->Subselect()); $this->match(')'); return $expr; } } $expr->setSimpleArithmeticExpression($this->SimpleArithmeticExpression()); return $expr; } /** * SimpleArithmeticExpression ::= ArithmeticTerm {("+" | "-") ArithmeticTerm}* */ public function SimpleArithmeticExpression() { $terms = array(); $terms[] = $this->ArithmeticTerm(); while ($this->_lexer->lookahead['value'] == '+' || $this->_lexer->lookahead['value'] == '-') { if ($this->_lexer->lookahead['value'] == '+') { $this->match('+'); } else { $this->match('-'); } $terms[] = $this->_lexer->token['value']; $terms[] = $this->ArithmeticTerm(); } return new AST\SimpleArithmeticExpression($terms); } /** * ArithmeticTerm ::= ArithmeticFactor {("*" | "/") ArithmeticFactor}* */ public function ArithmeticTerm() { $factors = array(); $factors[] = $this->ArithmeticFactor(); while ($this->_lexer->lookahead['value'] == '*' || $this->_lexer->lookahead['value'] == '/') { if ($this->_lexer->lookahead['value'] == '*') { $this->match('*'); } else { $this->match('/'); } $factors[] = $this->_lexer->token['value']; $factors[] = $this->ArithmeticFactor(); } return new AST\ArithmeticTerm($factors); } /** * ArithmeticFactor ::= [("+" | "-")] ArithmeticPrimary */ public function ArithmeticFactor() { $pSign = $nSign = false; if ($this->_lexer->lookahead['value'] == '+') { $this->match('+'); $pSign = true; } else if ($this->_lexer->lookahead['value'] == '-') { $this->match('-'); $nSign = true; } return new AST\ArithmeticFactor($this->ArithmeticPrimary(), $pSign, $nSign); } /** * InExpression ::= StateFieldPathExpression ["NOT"] "IN" "(" (Literal {"," Literal}* | Subselect) ")" */ public function InExpression() { $inExpression = new AST\InExpression($this->StateFieldPathExpression()); if ($this->_lexer->isNextToken(Lexer::T_NOT)) { $this->match(Lexer::T_NOT); $inExpression->setNot(true); } $this->match(Lexer::T_IN); $this->match('('); if ($this->_lexer->isNextToken(Lexer::T_SELECT)) { $inExpression->setSubselect($this->Subselect()); } else { $literals = array(); $literals[] = $this->Literal(); while ($this->_lexer->isNextToken(',')) { $this->match(','); $literals[] = $this->Literal(); } $inExpression->setLiterals($literals); } $this->match(')'); return $inExpression; } /** * ExistsExpression ::= ["NOT"] "EXISTS" "(" Subselect ")" */ public function ExistsExpression() { $not = false; if ($this->_lexer->isNextToken(Lexer::T_NOT)) { $this->match(Lexer::T_NOT); $not = true; } $this->match(Lexer::T_EXISTS); $this->match('('); $existsExpression = new AST\ExistsExpression($this->Subselect()); $this->match(')'); $existsExpression->setNot($not); return $existsExpression; } /** * QuantifiedExpression ::= ("ALL" | "ANY" | "SOME") "(" Subselect ")" */ public function QuantifiedExpression() { $all = $any = $some = false; if ($this->_lexer->isNextToken(Lexer::T_ALL)) { $this->match(Lexer::T_ALL); $all = true; } else if ($this->_lexer->isNextToken(Lexer::T_ANY)) { $this->match(Lexer::T_ANY); $any = true; } else if ($this->_lexer->isNextToken(Lexer::T_SOME)) { $this->match(Lexer::T_SOME); $some = true; } else { $this->syntaxError('ALL, ANY or SOME'); } $this->match('('); $qExpr = new AST\QuantifiedExpression($this->Subselect()); $this->match(')'); $qExpr->setAll($all); $qExpr->setAny($any); $qExpr->setSome($some); return $qExpr; } /** * Subselect ::= SimpleSelectClause SubselectFromClause [WhereClause] [GroupByClause] [HavingClause] [OrderByClause] */ public function Subselect() { $this->_beginDeferredPathExpressionStack(); $subselect = new AST\Subselect($this->SimpleSelectClause(), $this->SubselectFromClause()); $this->_processDeferredPathExpressionStack(); $subselect->setWhereClause( $this->_lexer->isNextToken(Lexer::T_WHERE) ? $this->WhereClause() : null ); $subselect->setGroupByClause( $this->_lexer->isNextToken(Lexer::T_GROUP) ? $this->GroupByClause() : null ); $subselect->setHavingClause( $this->_lexer->isNextToken(Lexer::T_HAVING) ? $this->HavingClause() : null ); $subselect->setOrderByClause( $this->_lexer->isNextToken(Lexer::T_ORDER) ? $this->OrderByClause() : null ); return $subselect; } /** * SimpleSelectClause ::= "SELECT" ["DISTINCT"] SimpleSelectExpression */ public function SimpleSelectClause() { $distinct = false; $this->match(Lexer::T_SELECT); if ($this->_lexer->isNextToken(Lexer::T_DISTINCT)) { $this->match(Lexer::T_DISTINCT); $distinct = true; } $simpleSelectClause = new AST\SimpleSelectClause($this->SimpleSelectExpression()); $simpleSelectClause->setDistinct($distinct); return $simpleSelectClause; } /** * SubselectFromClause ::= "FROM" SubselectIdentificationVariableDeclaration {"," SubselectIdentificationVariableDeclaration}* */ public function SubselectFromClause() { $this->match(Lexer::T_FROM); $identificationVariables = array(); $identificationVariables[] = $this->SubselectIdentificationVariableDeclaration(); while ($this->_lexer->isNextToken(',')) { $this->match(','); $identificationVariables[] = $this->SubselectIdentificationVariableDeclaration(); } return new AST\SubselectFromClause($identificationVariables); } /** * SubselectIdentificationVariableDeclaration ::= IdentificationVariableDeclaration | (AssociationPathExpression ["AS"] AliasIdentificationVariable) */ public function SubselectIdentificationVariableDeclaration() { $peek = $this->_lexer->glimpse(); if ($peek['value'] == '.') { $subselectIdentificationVarDecl = new AST\SubselectIdentificationVariableDeclaration; $subselectIdentificationVarDecl->setAssociationPathExpression($this->AssociationPathExpression()); $this->match(Lexer::T_AS); $this->match(Lexer::T_IDENTIFIER); $subselectIdentificationVarDecl->setAliasIdentificationVariable($this->_lexer->token['value']); return $subselectIdentificationVarDecl; } return $this->IdentificationVariableDeclaration(); } /** * SimpleSelectExpression ::= StateFieldPathExpression | IdentificationVariable | (AggregateExpression [["AS"] ResultVariable]) */ public function SimpleSelectExpression() { if ($this->_lexer->isNextToken(Lexer::T_IDENTIFIER)) { // SingleValuedPathExpression | IdentificationVariable $peek = $this->_lexer->glimpse(); if ($peek['value'] == '.') { return new AST\SimpleSelectExpression($this->StateFieldPathExpression()); } $this->match($this->_lexer->lookahead['value']); return new AST\SimpleSelectExpression($this->_lexer->token['value']); } else { $expr = new AST\SimpleSelectExpression($this->AggregateExpression()); if ($this->_lexer->isNextToken(Lexer::T_AS)) { $this->match(Lexer::T_AS); } if ($this->_lexer->isNextToken(Lexer::T_IDENTIFIER)) { $expr->setFieldIdentificationVariable($this->ResultVariable()); } return $expr; } } /** * Literal ::= string | char | integer | float | boolean | InputParameter * * @todo Rip out InputParameter. Thats not a literal. */ public function Literal() { switch ($this->_lexer->lookahead['type']) { case Lexer::T_INPUT_PARAMETER: $this->match($this->_lexer->lookahead['value']); return new AST\InputParameter($this->_lexer->token['value']); case Lexer::T_STRING: case Lexer::T_INTEGER: case Lexer::T_FLOAT: $this->match($this->_lexer->lookahead['value']); return $this->_lexer->token['value']; default: $this->syntaxError('Literal'); } } /** * BetweenExpression ::= ArithmeticExpression ["NOT"] "BETWEEN" ArithmeticExpression "AND" ArithmeticExpression */ public function BetweenExpression() { $not = false; $arithExpr1 = $this->ArithmeticExpression(); if ($this->_lexer->isNextToken(Lexer::T_NOT)) { $this->match(Lexer::T_NOT); $not = true; } $this->match(Lexer::T_BETWEEN); $arithExpr2 = $this->ArithmeticExpression(); $this->match(Lexer::T_AND); $arithExpr3 = $this->ArithmeticExpression(); $betweenExpr = new AST\BetweenExpression($arithExpr1, $arithExpr2, $arithExpr3); $betweenExpr->setNot($not); return $betweenExpr; } /** * ArithmeticPrimary ::= SingleValuedPathExpression | Literal | "(" SimpleArithmeticExpression ")" * | FunctionsReturningNumerics | AggregateExpression | FunctionsReturningStrings * | FunctionsReturningDatetime | IdentificationVariable */ public function ArithmeticPrimary() { if ($this->_lexer->lookahead['value'] === '(') { $this->match('('); $expr = $this->SimpleArithmeticExpression(); $this->match(')'); return $expr; } switch ($this->_lexer->lookahead['type']) { case Lexer::T_IDENTIFIER: $peek = $this->_lexer->glimpse(); if ($peek['value'] == '(') { return $this->_Function(); } if ($peek['value'] == '.') { return $this->SingleValuedPathExpression(); } return $this->IdentificationVariable(); case Lexer::T_INPUT_PARAMETER: $this->match($this->_lexer->lookahead['value']); return new AST\InputParameter($this->_lexer->token['value']); case Lexer::T_STRING: case Lexer::T_INTEGER: case Lexer::T_FLOAT: $this->match($this->_lexer->lookahead['value']); return $this->_lexer->token['value']; default: $peek = $this->_lexer->glimpse(); if ($peek['value'] == '(') { if ($this->isAggregateFunction($this->_lexer->lookahead['type'])) { return $this->AggregateExpression(); } return $this->FunctionsReturningStrings(); } else { $this->syntaxError(); } } } /** * FunctionsReturningStrings ::= * "CONCAT" "(" StringPrimary "," StringPrimary ")" | * "SUBSTRING" "(" StringPrimary "," SimpleArithmeticExpression "," SimpleArithmeticExpression ")" | * "TRIM" "(" [["LEADING" | "TRAILING" | "BOTH"] [char] "FROM"] StringPrimary ")" | * "LOWER" "(" StringPrimary ")" | * "UPPER" "(" StringPrimary ")" */ public function FunctionsReturningStrings() { $funcNameLower = strtolower($this->_lexer->lookahead['value']); $funcClass = self::$_STRING_FUNCTIONS[$funcNameLower]; $function = new $funcClass($funcNameLower); $function->parse($this); return $function; } /** * FunctionsReturningNumerics ::= * "LENGTH" "(" StringPrimary ")" | * "LOCATE" "(" StringPrimary "," StringPrimary ["," SimpleArithmeticExpression]")" | * "ABS" "(" SimpleArithmeticExpression ")" | * "SQRT" "(" SimpleArithmeticExpression ")" | * "MOD" "(" SimpleArithmeticExpression "," SimpleArithmeticExpression ")" | * "SIZE" "(" CollectionValuedPathExpression ")" */ public function FunctionsReturningNumerics() { $funcNameLower = strtolower($this->_lexer->lookahead['value']); $funcClass = self::$_NUMERIC_FUNCTIONS[$funcNameLower]; $function = new $funcClass($funcNameLower); $function->parse($this); return $function; } /** * FunctionsReturningDateTime ::= "CURRENT_DATE" | "CURRENT_TIME" | "CURRENT_TIMESTAMP" */ public function FunctionsReturningDatetime() { $funcNameLower = strtolower($this->_lexer->lookahead['value']); $funcClass = self::$_DATETIME_FUNCTIONS[$funcNameLower]; $function = new $funcClass($funcNameLower); $function->parse($this); return $function; } /** * Checks whether the given token type indicates an aggregate function. */ public function isAggregateFunction($tokenType) { return $tokenType == Lexer::T_AVG || $tokenType == Lexer::T_MIN || $tokenType == Lexer::T_MAX || $tokenType == Lexer::T_SUM || $tokenType == Lexer::T_COUNT; } /** * ComparisonOperator ::= "=" | "<" | "<=" | "<>" | ">" | ">=" | "!=" */ public function ComparisonOperator() { switch ($this->_lexer->lookahead['value']) { case '=': $this->match('='); return '='; case '<': $this->match('<'); $operator = '<'; if ($this->_lexer->isNextToken('=')) { $this->match('='); $operator .= '='; } else if ($this->_lexer->isNextToken('>')) { $this->match('>'); $operator .= '>'; } return $operator; case '>': $this->match('>'); $operator = '>'; if ($this->_lexer->isNextToken('=')) { $this->match('='); $operator .= '='; } return $operator; case '!': $this->match('!'); $this->match('='); return '<>'; default: $this->syntaxError('=, <, <=, <>, >, >=, !='); } } /** * LikeExpression ::= StringExpression ["NOT"] "LIKE" (string | input_parameter) ["ESCAPE" char] */ public function LikeExpression() { $stringExpr = $this->StringExpression(); $isNot = false; if ($this->_lexer->lookahead['type'] === Lexer::T_NOT) { $this->match(Lexer::T_NOT); $isNot = true; } $this->match(Lexer::T_LIKE); if ($this->_lexer->isNextToken(Lexer::T_INPUT_PARAMETER)) { $this->match(Lexer::T_INPUT_PARAMETER); $stringPattern = new AST\InputParameter($this->_lexer->token['value']); } else { $this->match(Lexer::T_STRING); $stringPattern = $this->_lexer->token['value']; } $escapeChar = null; if ($this->_lexer->lookahead['type'] === Lexer::T_ESCAPE) { $this->match(Lexer::T_ESCAPE); $this->match(Lexer::T_STRING); $escapeChar = $this->_lexer->token['value']; } return new AST\LikeExpression($stringExpr, $stringPattern, $isNot, $escapeChar); } /** * StringExpression ::= StringPrimary | "(" Subselect ")" */ public function StringExpression() { if ($this->_lexer->lookahead['value'] === '(') { $peek = $this->_lexer->glimpse(); if ($peek['type'] === Lexer::T_SELECT) { $this->match('('); $expr = $this->Subselect(); $this->match(')'); return $expr; } } return $this->StringPrimary(); } /** * StringPrimary ::= StateFieldPathExpression | string | InputParameter | FunctionsReturningStrings | AggregateExpression */ public function StringPrimary() { if ($this->_lexer->lookahead['type'] === Lexer::T_IDENTIFIER) { $peek = $this->_lexer->glimpse(); if ($peek['value'] == '.') { return $this->StateFieldPathExpression(); } else if ($peek['value'] == '(') { return $this->FunctionsReturningStrings(); } else { $this->syntaxError("'.' or '('"); } } else if ($this->_lexer->lookahead['type'] === Lexer::T_STRING) { $this->match(Lexer::T_STRING); return $this->_lexer->token['value']; } else if ($this->_lexer->lookahead['type'] === Lexer::T_INPUT_PARAMETER) { $this->match(Lexer::T_INPUT_PARAMETER); return new AST\InputParameter($this->_lexer->token['value']); } else if ($this->isAggregateFunction($this->_lexer->lookahead['type'])) { return $this->AggregateExpression(); } $this->syntaxError('StateFieldPathExpression | string | InputParameter | FunctionsReturningStrings | AggregateExpression'); } /** * Sets the list of custom tree walkers. * * @param array $treeWalkers */ public function setSqlTreeWalker($treeWalker) { $this->_treeWalker = $treeWalker; } /** * Registers a custom function that returns strings. * * @param string $name The function name. * @param string $class The class name of the function implementation. */ public static function registerStringFunction($name, $class) { self::$_STRING_FUNCTIONS[$name] = $class; } /** * Registers a custom function that returns numerics. * * @param string $name The function name. * @param string $class The class name of the function implementation. */ public static function registerNumericFunction($name, $class) { self::$_NUMERIC_FUNCTIONS[$name] = $class; } /** * Registers a custom function that returns date/time values. * * @param string $name The function name. * @param string $class The class name of the function implementation. */ public static function registerDatetimeFunction($name, $class) { self::$_DATETIME_FUNCTIONS[$name] = $class; } }