. */ namespace Doctrine\ORM\Mapping; use \ReflectionClass; use Doctrine\Common\DoctrineException; /** * A ClassMetadata instance holds all the ORM metadata of an entity and * it's associations. It is the backbone of Doctrine's metadata mapping. * * @author Roman Borschel * @since 2.0 */ final class ClassMetadata { /* The inheritance mapping types */ /** * NONE means the class does not participate in an inheritance hierarchy * and therefore does not need an inheritance mapping type. */ const INHERITANCE_TYPE_NONE = 'none'; /** * JOINED means the class will be persisted according to the rules of * Class Table Inheritance. */ const INHERITANCE_TYPE_JOINED = 'joined'; /** * SINGLE_TABLE means the class will be persisted according to the rules of * Single Table Inheritance. */ const INHERITANCE_TYPE_SINGLE_TABLE = 'singleTable'; /** * TABLE_PER_CLASS means the class will be persisted according to the rules * of Concrete Table Inheritance. */ const INHERITANCE_TYPE_TABLE_PER_CLASS = 'tablePerClass'; /* The Id generator types. */ /** * AUTO means the generator type will depend on what the used platform prefers. * Offers full portability. */ const GENERATOR_TYPE_AUTO = 'auto'; /** * SEQUENCE means a separate sequence object will be used. Platforms that do * not have native sequence support may emulate it. Full portability is currently * not guaranteed. */ const GENERATOR_TYPE_SEQUENCE = 'sequence'; /** * TABLE means a separate table is used for id generation. * Offers full portability. */ const GENERATOR_TYPE_TABLE = 'table'; /** * IDENTITY means an identity column is used for id generation. The database * will fill in the id column on insertion. Platforms that do not support * native identity columns may emulate them. Full portability is currently * not guaranteed. */ const GENERATOR_TYPE_IDENTITY = 'identity'; /** * NONE means the class does not have a generated id. That means the class * must have a natural id. */ const GENERATOR_TYPE_NONE = 'none'; /** * DEFERRED_IMPLICIT means that changes of entities are calculated at commit-time * by doing a property-by-property comparison with the original data. This will * be done for all entities that are in MANAGED state at commit-time. * * This is the default change tracking policy. */ const CHANGETRACKING_DEFERRED_IMPLICIT = 1; /** * DEFERRED_EXPLICIT means that changes of entities are calculated at commit-time * by doing a property-by-property comparison with the original data. This will * be done only for entities that were explicitly saved (through save() or cascade). */ const CHANGETRACKING_DEFERRED_EXPLICIT = 2; /** * NOTIFY means that Doctrine relies on the entities sending out notifications * when their properties change. Such entity classes must implement * the NotifyPropertyChanged interface. */ const CHANGETRACKING_NOTIFY = 3; /** * The name of the entity class. */ private $_entityName; /** * The namespace the entity class is contained in. * * @var string */ private $_namespace; /** * The name of the entity class that is at the root of the entity inheritance * hierarchy. If the entity is not part of an inheritance hierarchy this is the same * as $_entityName. * * @var string */ private $_rootEntityName; /** * The name of the custom repository class used for the entity class. * (Optional). * * @var string */ private $_customRepositoryClassName; /** * The names of the parent classes (ancestors). * * @var array */ private $_parentClasses = array(); /** * The names of all subclasses. * * @var array */ private $_subClasses = array(); /** * The field names of all fields that are part of the identifier/primary key * of the mapped entity class. * * @var array */ private $_identifier = array(); /** * The inheritance mapping type used by the class. * * @var integer */ private $_inheritanceType = self::INHERITANCE_TYPE_NONE; /** * The Id generator type used by the class. * * @var string */ private $_generatorType = self::GENERATOR_TYPE_NONE; /** * The field mappings of the class. * Keys are field names and values are mapping definitions. * * The mapping definition array has the following values: * * - fieldName (string) * The name of the field in the Entity. * * - type (object Doctrine\DBAL\Types\* or custom type) * The type of the column. Can be one of Doctrine's portable types * or a custom type. * * - columnName (string, optional) * The column name. Optional. Defaults to the field name. * * - length (integer, optional) * The database length of the column. Optional. Default value taken from * the type. * * - id (boolean, optional) * Marks the field as the primary key of the Entity. Multiple fields of an * entity can have the id attribute, forming a composite key. * * - idGenerator (string, optional) * Either: idGenerator => 'nameOfGenerator', usually only for TABLE/SEQUENCE generators * Or: idGenerator => 'identity' or 'auto' or 'table' or 'sequence' * Note that 'auto', 'table', 'sequence' and 'identity' are reserved names and * therefore cant be used as a generator name! * * - nullable (boolean, optional) * Whether the column is nullable. Defaults to FALSE. * * - columnDefinition (string, optional, schema-only) * The SQL fragment that is used when generating the DDL for the column. * * - precision (integer, optional, schema-only) * The precision of a decimal column. Only valid if the column type is decimal. * * - scale (integer, optional, schema-only) * The scale of a decimal column. Only valid if the column type is decimal. * * - index (string, optional, schema-only) * Whether an index should be generated for the column. * The value specifies the name of the index. To create a multi-column index, * just use the same name for several mappings. * * - unique (string, optional, schema-only) * Whether a unique constraint should be generated for the column. * The value specifies the name of the unique constraint. To create a multi-column * unique constraint, just use the same name for several mappings. * * - foreignKey (string, optional, schema-only) * * @var array */ private $_fieldMappings = array(); /** * An array of field names. Used to look up field names from column names. * Keys are column names and values are field names. * This is the reverse lookup map of $_columnNames. * * @var array */ private $_fieldNames = array(); /** * An array of column names. Keys are field names and values column names. * Used to look up column names from field names. * This is the reverse lookup map of $_fieldNames. * * @var array */ private $_columnNames = array(); /** * Map that maps lowercased column names (keys) to field names (values). * Mainly used during hydration because Doctrine enforces PDO_CASE_LOWER * for portability. * * @var array */ private $_lcColumnToFieldNames = array(); /** * Whether to automatically OUTER JOIN subtypes when a basetype is queried. * * This does only apply to the JOINED inheritance mapping strategy. * * @var boolean */ private $_joinSubclasses = true; /** * A map that maps discriminator values to class names. * * This does only apply to the JOINED and SINGLE_TABLE inheritance mapping strategies * where a discriminator column is used. * * @var array * @see _discriminatorColumn */ //private $_discriminatorMap = array(); private $_discriminatorValue; /** * The definition of the descriminator column used in JOINED and SINGLE_TABLE * inheritance mappings. * * @var array */ private $_discriminatorColumn; /** * The primary table definition. The definition is an array with the * following entries: * * name => * schema => * catalog => * * @var array */ private $_primaryTable; /** * The cached lifecycle listeners. There is only one instance of each * listener class at any time. * * @var array */ private $_lifecycleListenerInstances = array(); /** * The registered lifecycle callbacks for entities of this class. * * @var array */ private $_lifecycleCallbacks = array(); /** * The registered lifecycle listeners for entities of this class. * * @var array */ private $_lifecycleListeners = array(); /** * The association mappings. All mappings, inverse and owning side. * * @var array */ private $_associationMappings = array(); /** * List of inverse association mappings, indexed by mappedBy field name. * * @var array */ private $_inverseMappings = array(); /** * Flag indicating whether the identifier/primary key of the class is composite. * * @var boolean */ private $_isIdentifierComposite = false; /** * The ReflectionClass instance of the mapped class. * * @var ReflectionClass */ private $_reflectionClass; /** * The ReflectionProperty instances of the mapped class. * * @var array */ private $_reflectionProperties; //private $_insertSql; /** * The ID generator used for generating IDs for this class. * * @var AbstractIdGenerator */ private $_idGenerator; /** * The definition of the sequence generator of this class. Only used for the * SEQUENCE generation strategy. * * @var array */ private $_sequenceGeneratorDefinition; /** * The definition of the table generator of this class. Only used for the * TABLE generation strategy. * * @var array */ //private $_tableGeneratorDefinition; /** * The policy used for change-tracking on entities of this class. * * @var integer */ //private $_changeTrackingPolicy; /** * Initializes a new ClassMetadata instance that will hold the object-relational mapping * metadata of the class with the given name. * * @param string $entityName Name of the entity class the new instance is used for. */ public function __construct($entityName) { $this->_entityName = $entityName; $this->_namespace = substr($entityName, 0, strrpos($entityName, '\\')); $this->_primaryTable['name'] = str_replace($this->_namespace . '\\', '', $this->_entityName); $this->_rootEntityName = $entityName; $this->_reflectionClass = new ReflectionClass($entityName); } /** * Gets the ReflectionClass instance of the mapped class. * * @return ReflectionClass */ public function getReflectionClass() { return $this->_reflectionClass; } /** * Gets the ReflectionPropertys of the mapped class. * * @return array An array of ReflectionProperty instances. */ public function getReflectionProperties() { return $this->_reflectionProperties; } /** * INTERNAL: * Adds a reflection property. Usually only used by the ClassMetadataFactory * while processing inheritance mappings. * * @param array $props */ public function addReflectionProperty($propName, \ReflectionProperty $property) { $this->_reflectionProperties[$propName] = $property; } /** * Gets a ReflectionProperty for a specific field of the mapped class. * * @param string $name * @return ReflectionProperty */ public function getReflectionProperty($name) { return $this->_reflectionProperties[$name]; } /** * Gets the ReflectionProperty for the single identifier field. * * @return ReflectionProperty * @throws DoctrineException If the class has a composite identifier. */ public function getSingleIdReflectionProperty() { if ($this->_isIdentifierComposite) { throw DoctrineException::updateMe("getSingleIdReflectionProperty called on entity with composite key."); } return $this->_reflectionProperties[$this->_identifier[0]]; } /** * Gets the name of the mapped class. * * @return string */ public function getClassName() { return $this->_entityName; } /** * Gets the name of the class in the entity hierarchy that owns the field with * the given name. The owning class is the one that defines the field. * * @param string $fieldName * @return string */ public function getOwningClass($fieldName) { if ($this->_inheritanceType == self::INHERITANCE_TYPE_NONE) { return $this->_entityName; } else { $mapping = $this->getFieldMapping($fieldName); return $mapping['inherited']; } } /** * Gets the name of the root class of the mapped entity hierarchy. If the entity described * by this ClassMetadata instance is not participating in a hierarchy, this is the same as the * name returned by {@link getClassName()}. * * @return string The name of the root class of the entity hierarchy. */ public function getRootClassName() { return $this->_rootEntityName; } /** * Checks whether a field is part of the identifier/primary key field(s). * * @param string $fieldName The field name * @return boolean TRUE if the field is part of the table identifier/primary key field(s), * FALSE otherwise. */ public function isIdentifier($fieldName) { if ( ! $this->_isIdentifierComposite) { return $fieldName === $this->_identifier[0]; } return in_array($fieldName, $this->_identifier); } /** * Checks if the class has a composite identifier. * * @param string $fieldName The field name * @return boolean TRUE if the identifier is composite, FALSE otherwise. */ public function isIdentifierComposite() { return $this->_isIdentifierComposite; } /** * Check if the field is unique. * * @param string $fieldName The field name * @return boolean TRUE if the field is unique, FALSE otherwise. */ public function isUniqueField($fieldName) { $mapping = $this->getFieldMapping($fieldName); if ($mapping !== false) { return isset($mapping['unique']) && $mapping['unique'] == true; } return false; } /** * Check if the field is not null. * * @param string $fieldName The field name * @return boolean TRUE if the field is not null, FALSE otherwise. */ public function isNotNull($fieldName) { $mapping = $this->getFieldMapping($fieldName); if ($mapping !== false) { return isset($mapping['nullable']) && $mapping['nullable'] == false; } return false; } /** * Gets a column name for a field name. * If the column name for the field cannot be found, the given field name * is returned. * * @param string $fieldName The field name. * @return string The column name. */ public function getColumnName($fieldName) { return isset($this->_columnNames[$fieldName]) ? $this->_columnNames[$fieldName] : $fieldName; } /** * Gets the mapping of a (regular) field that holds some data but not a * reference to another object. * * @param string $fieldName The field name. * @return array The field mapping. */ public function getFieldMapping($fieldName) { if ( ! isset($this->_fieldMappings[$fieldName])) { throw MappingException::mappingNotFound($fieldName); } return $this->_fieldMappings[$fieldName]; } /** * Gets the mapping of an association. * * @param string $fieldName The field name that represents the association in * the object model. * @return Doctrine\ORM\Mapping\AssociationMapping The mapping. */ public function getAssociationMapping($fieldName) { if ( ! isset($this->_associationMappings[$fieldName])) { throw MappingException::mappingNotFound($fieldName); } return $this->_associationMappings[$fieldName]; } /** * Gets the inverse association mapping for the given fieldname. * * @param string $mappedByFieldName * @return Doctrine\ORM\Mapping\AssociationMapping The mapping. */ public function getInverseAssociationMapping($mappedByFieldName) { if ( ! isset($this->_inverseMappings[$mappedByFieldName])) { throw MappingException::mappingNotFound($mappedByFieldName); } return $this->_inverseMappings[$mappedByFieldName]; } /** * Whether the class has an inverse association mapping on the given fieldname. * * @param string $mappedByFieldName * @return boolean */ public function hasInverseAssociationMapping($mappedByFieldName) { return isset($this->_inverseMappings[$mappedByFieldName]); } /** * Gets all association mappings of the class. * * @return array */ public function getAssociationMappings() { return $this->_associationMappings; } /** * Gets all association mappings of the class. * * Alias for getAssociationMappings(). * * @return array */ public function getAssociations() { return $this->_associationMappings; } /** * Gets the field name for a column name. * If no field name can be found the column name is returned. * * @param string $columnName column name * @return string column alias */ public function getFieldName($columnName) { return isset($this->_fieldNames[$columnName]) ? $this->_fieldNames[$columnName] : $columnName; } /** * Gets the field name for a completely lowercased column name. * Mainly used during hydration. * * @param string $lcColumnName The all-lowercase column name. * @return string The field name. */ public function getFieldNameForLowerColumnName($lcColumnName) { return isset($this->_lcColumnToFieldNames[$lcColumnName]) ? $this->_lcColumnToFieldNames[$lcColumnName] : $lcColumnName; } /** * Checks whether a specified column name (all lowercase) exists in this class. * * @param string $lcColumnName * @return boolean */ public function hasLowerColumn($lcColumnName) { return isset($this->_lcColumnToFieldNames[$lcColumnName]); } /** * Validates & completes the given field mapping. * * @param array $mapping The field mapping to validated & complete. * @return array The validated and completed field mapping. */ private function _validateAndCompleteFieldMapping(array &$mapping) { // Check mandatory fields if ( ! isset($mapping['fieldName'])) { throw MappingException::missingFieldName(); } if ( ! isset($mapping['type'])) { throw MappingException::missingType(); } if ( ! is_object($mapping['type'])) { $mapping['type'] = \Doctrine\DBAL\Types\Type::getType($mapping['type']); } // Complete fieldName and columnName mapping if ( ! isset($mapping['columnName'])) { $mapping['columnName'] = $mapping['fieldName']; } $lcColumnName = strtolower($mapping['columnName']); $this->_columnNames[$mapping['fieldName']] = $mapping['columnName']; $this->_fieldNames[$mapping['columnName']] = $mapping['fieldName']; $this->_lcColumnToFieldNames[$lcColumnName] = $mapping['fieldName']; // Complete id mapping if (isset($mapping['id']) && $mapping['id'] === true) { if ( ! in_array($mapping['fieldName'], $this->_identifier)) { $this->_identifier[] = $mapping['fieldName']; } // Check for composite key if ( ! $this->_isIdentifierComposite && count($this->_identifier) > 1) { $this->_isIdentifierComposite = true; } } // Store ReflectionProperty of mapped field $refProp = $this->_reflectionClass->getProperty($mapping['fieldName']); $refProp->setAccessible(true); $this->_reflectionProperties[$mapping['fieldName']] = $refProp; } /** * @todo Implementation of Optimistic Locking. */ public function mapVersionField(array $mapping) { //... } /** * Overrides an existant field mapping. * Used i.e. by Entity classes deriving from another Entity class that acts * as a mapped superclass to refine the basic mapping. * * @param array $newMapping * @todo Implementation. */ public function overrideFieldMapping(array $newMapping) { //... } /** * Maps an embedded value object. * * @todo Implementation. */ public function mapEmbeddedValue() { //... } /** * Gets the identifier (primary key) field names of the class. * * @return mixed * @deprecated Use getIdentifierFieldNames() */ public function getIdentifier() { return $this->_identifier; } /** * Gets the identifier (primary key) field names of the class. * * @return mixed */ public function getIdentifierFieldNames() { return $this->_identifier; } /** * Gets the name of the single id field. Note that this only works on * entity classes that have a single-field pk. * * @return string */ public function getSingleIdentifierFieldName() { if ($this->_isIdentifierComposite) { throw DoctrineException::updateMe("Calling getSingleIdentifierFieldName " . "on a class that uses a composite identifier is not allowed."); } return $this->_identifier[0]; } /** * Gets the column name of the single id column. Note that this only works on * entity classes that have a single-field pk. * * @return string */ public function getSingleIdentifierColumnName() { return $this->getColumnName($this->getSingleIdentifierFieldName()); } /** * INTERNAL: * Sets the mapped identifier/primary key fields of this class. * Mainly used by the ClassMetadataFactory to assign inherited identifiers. * * @param array $identifier */ public function setIdentifier(array $identifier) { $this->_identifier = $identifier; } /** * Checks whether the class has a (mapped) field with a certain name. * * @return boolean */ public function hasField($fieldName) { return isset($this->_columnNames[$fieldName]); } public function setValue($entity, $field, $value) { if (isset($this->_reflectionProperties[$field])) { $this->_reflectionProperties[$field]->setValue($entity, $value); } } public function setValueIfChanged($entity, $field, $value) { if (isset($this->_reflectionProperties[$field])) { $this->_reflectionProperties[$field]->setValue($entity, $value); } } /** * Gets all field mappings. * * @return array */ public function getFieldMappings() { return $this->_fieldMappings; } /** * Gets an array containing all the column names. * * @return array */ public function getColumnNames(array $fieldNames = null) { if ($fieldNames === null) { return array_keys($this->_fieldNames); } else { $columnNames = array(); foreach ($fieldNames as $fieldName) { $columnNames[] = $this->getColumnName($fieldName); } return $columnNames; } } /** * Returns an array with all the identifier column names. * * @return array */ public function getIdentifierColumnNames() { return $this->getColumnNames((array)$this->getIdentifierFieldNames()); } /** * Returns an array containing all the field names. * * @return array */ public function getFieldNames() { return array_values($this->_fieldNames); } /** * Gets the Id generator type used by the class. * * @return string */ public function getIdGeneratorType() { return $this->_generatorType; } /** * Sets the type of Id generator to use for the mapped class. */ public function setIdGeneratorType($generatorType) { $this->_generatorType = $generatorType; } /** * Checks whether the mapped class uses an Id generator. * * @return boolean TRUE if the mapped class uses an Id generator, FALSE otherwise. */ public function usesIdGenerator() { return $this->_generatorType != self::GENERATOR_TYPE_NONE; } /** * * @return */ public function isInheritanceTypeNone() { return $this->_inheritanceType == self::INHERITANCE_TYPE_NONE; } /** * Checks whether the mapped class uses the JOINED inheritance mapping strategy. * * @return boolean TRUE if the class participates in a JOINED inheritance mapping, * FALSE otherwise. */ public function isInheritanceTypeJoined() { return $this->_inheritanceType == self::INHERITANCE_TYPE_JOINED; } /** * Checks whether the mapped class uses the SINGLE_TABLE inheritance mapping strategy. * * @return boolean TRUE if the class participates in a SINGLE_TABLE inheritance mapping, * FALSE otherwise. */ public function isInheritanceTypeSingleTable() { return $this->_inheritanceType == self::INHERITANCE_TYPE_SINGLE_TABLE; } /** * Checks whether the mapped class uses the TABLE_PER_CLASS inheritance mapping strategy. * * @return boolean TRUE if the class participates in a TABLE_PER_CLASS inheritance mapping, * FALSE otherwise. */ public function isInheritanceTypeTablePerClass() { return $this->_inheritanceType == self::INHERITANCE_TYPE_TABLE_PER_CLASS; } /** * Checks whether the class uses an identity column for the Id generation. * * @return boolean TRUE if the class uses the IDENTITY generator, FALSE otherwise. */ public function isIdGeneratorIdentity() { return $this->_generatorType == self::GENERATOR_TYPE_IDENTITY; } /** * Checks whether the class uses a sequence for id generation. * * @return boolean TRUE if the class uses the SEQUENCE generator, FALSE otherwise. */ public function isIdGeneratorSequence() { return $this->_generatorType == self::GENERATOR_TYPE_SEQUENCE; } /** * Checks whether the class uses a table for id generation. * * @return boolean TRUE if the class uses the TABLE generator, FALSE otherwise. */ public function isIdGeneratorTable() { $this->_generatorType == self::GENERATOR_TYPE_TABLE; } /** * Checks whether the class has a natural identifier/pk (which means it does * not use any Id generator. * * @return boolean */ public function isIdentifierNatural() { return $this->_generatorType == self::GENERATOR_TYPE_NONE; } /** * Gets the type of a field. * * @param string $fieldName * @return Doctrine\DBAL\Types\Type */ public function getTypeOfField($fieldName) { return isset($this->_fieldMappings[$fieldName]) ? $this->_fieldMappings[$fieldName]['type'] : null; } /** * Gets the type of a column. * * @return Doctrine\DBAL\Types\Type */ public function getTypeOfColumn($columnName) { return $this->getTypeOfField($this->getFieldName($columnName)); } /** * Gets the (maximum) length of a field. */ public function getFieldLength($fieldName) { return $this->_fieldMappings[$fieldName]['length']; } /** * Gets the name of the primary table. * * @return string */ public function getTableName() { return $this->_primaryTable['name']; } public function getInheritedFields() { } /** * Adds a named query. * * @param string $name The name under which the query gets registered. * @param string $query The DQL query. * @todo Implementation. */ public function addNamedQuery($name, $query) { //... } /** * Gets the inheritance mapping type used by the mapped class. * * @return string */ public function getInheritanceType() { return $this->_inheritanceType; } /** * Sets the subclasses of the mapped class. * * All entity classes that participate in a hierarchy and have subclasses * need to declare them this way. * * @param array $subclasses The names of all subclasses. */ public function setSubclasses(array $subclasses) { $this->_subClasses = $subclasses; } /** * Gets the names of all subclasses. * * @return array The names of all subclasses. */ public function getSubclasses() { return $this->_subClasses; } /** * Checks whether the class has any persistent subclasses. * * @return boolean TRUE if the class has one or more persistent subclasses, FALSE otherwise. */ public function hasSubclasses() { return ! $this->_subClasses; } /** * Gets the names of all parent classes. * * @return array The names of all parent classes. */ public function getParentClasses() { return $this->_parentClasses; } /** * Sets the parent class names. * Assumes that the class names in the passed array are in the order: * directParent -> directParentParent -> directParentParentParent ... -> root. */ public function setParentClasses(array $classNames) { $this->_parentClasses = $classNames; if (count($classNames) > 0) { $this->_rootEntityName = array_pop($classNames); } } /** * Checks whether the class has any persistent parent classes. * * @return boolean TRUE if the class has one or more persistent parent classes, FALSE otherwise. */ public function hasParentClasses() { return ! $this->_parentClasses; } /** * Sets the inheritance type used by the class and it's subclasses. * * @param integer $type */ public function setInheritanceType($type) { if ( ! $this->_isInheritanceType($type)) { throw MappingException::invalidInheritanceType($type); } $this->_inheritanceType = $type; } /** * Checks whether a mapped field is inherited from a superclass. * * @return boolean TRUE if the field is inherited, FALSE otherwise. */ public function isInheritedField($fieldName) { return isset($this->_fieldMappings[$fieldName]['inherited']); } /** * Sets the name of the primary table the class is mapped to. * * @param string $tableName The table name. * @deprecated */ public function setTableName($tableName) { $this->_primaryTable['name'] = $tableName; } /** * Sets the primary table definition. The provided array must have the * following structure: * * name => * schema => * catalog => * * @param array $primaryTableDefinition */ public function setPrimaryTable(array $primaryTableDefinition) { $this->_primaryTable = $primaryTableDefinition; } /** * Gets the primary table definition. * * @see setPrimaryTable() * @return array */ public function getPrimaryTable() { return $this->_primaryTable; } /** * Checks whether the given type identifies an inheritance type. * * @param string $type * @return boolean */ private function _isInheritanceType($type) { return $type == self::INHERITANCE_TYPE_NONE || $type == self::INHERITANCE_TYPE_SINGLE_TABLE || $type == self::INHERITANCE_TYPE_JOINED || $type == self::INHERITANCE_TYPE_TABLE_PER_CLASS; } /** * Checks whether the given type identifies an id generator type. * * @param string $type * @return boolean */ private function _isIdGeneratorType($type) { return $type == self::GENERATOR_TYPE_AUTO || $type == self::GENERATOR_TYPE_IDENTITY || $type == self::GENERATOR_TYPE_SEQUENCE || $type == self::GENERATOR_TYPE_TABLE || $type == self::GENERATOR_TYPE_NONE; } /** * Makes some automatic additions to the association mapping to make the life * easier for the user. * * @param array $mapping * @todo Pass param by ref? */ private function _completeAssociationMapping(array $mapping) { $mapping['sourceEntity'] = $this->_entityName; if (isset($mapping['targetEntity']) && strpos($mapping['targetEntity'], '\\') === false) { $mapping['targetEntity'] = $this->_namespace . '\\' . $mapping['targetEntity']; } return $mapping; } /** * Adds a field mapping. * * @param array $mapping */ public function mapField(array $mapping) { $this->_validateAndCompleteFieldMapping($mapping); if (isset($this->_fieldMappings[$mapping['fieldName']])) { throw MappingException::duplicateFieldMapping($mapping['fieldName']); } $this->_fieldMappings[$mapping['fieldName']] = $mapping; } /** * INTERNAL: * Adds an association mapping without completing/validating it. * This is mainly used to add inherited association mappings to derived classes. * * @param AssociationMapping $mapping */ public function addAssociationMapping(AssociationMapping $mapping) { $this->_storeAssociationMapping($mapping); } /** * INTERNAL: * Adds an association mapping without completing/validating it. * This is mainly used to add inherited field mappings to derived classes. * * @param array $mapping */ public function addFieldMapping(array $fieldMapping) { $this->_fieldMappings[$fieldMapping['fieldName']] = $fieldMapping; } /** * Adds a one-to-one mapping. * * @param array $mapping The mapping. */ public function mapOneToOne(array $mapping) { $mapping = $this->_completeAssociationMapping($mapping); $oneToOneMapping = new OneToOneMapping($mapping); $this->_storeAssociationMapping($oneToOneMapping); } /** * Registers the mapping as an inverse mapping, if it is a mapping on the * inverse side of an association mapping. * * @param AssociationMapping The mapping to register as inverse if it is a mapping * for the inverse side of an association. */ private function _registerMappingIfInverse(AssociationMapping $assoc) { if ($assoc->isInverseSide()) { $this->_inverseMappings[$assoc->getMappedByFieldName()] = $assoc; } } /** * Adds a one-to-many mapping. * * @param array $mapping The mapping. */ public function mapOneToMany(array $mapping) { $mapping = $this->_completeAssociationMapping($mapping); $oneToManyMapping = new OneToManyMapping($mapping); $this->_storeAssociationMapping($oneToManyMapping); } /** * Adds a many-to-one mapping. * * @param array $mapping The mapping. */ public function mapManyToOne(array $mapping) { // A many-to-one mapping is simply a one-one backreference $this->mapOneToOne($mapping); } /** * Adds a many-to-many mapping. * * @param array $mapping The mapping. */ public function mapManyToMany(array $mapping) { $mapping = $this->_completeAssociationMapping($mapping); $manyToManyMapping = new ManyToManyMapping($mapping); $this->_storeAssociationMapping($manyToManyMapping); } /** * Stores the association mapping. * * @param AssociationMapping $assocMapping */ private function _storeAssociationMapping(AssociationMapping $assocMapping) { $sourceFieldName = $assocMapping->getSourceFieldName(); if (isset($this->_associationMappings[$sourceFieldName])) { throw MappingException::duplicateFieldMapping(); } $this->_associationMappings[$sourceFieldName] = $assocMapping; $this->_registerMappingIfInverse($assocMapping); // Store ReflectionProperty of mapped field $refProp = $this->_reflectionClass->getProperty($sourceFieldName); $refProp->setAccessible(true); $this->_reflectionProperties[$sourceFieldName] = $refProp; } /** * Registers a custom repository class for the entity class. * * @param string $mapperClassName The class name of the custom mapper. */ public function setCustomRepositoryClass($repositoryClassName) { $this->_customRepositoryClassName = $repositoryClassName; } /** * Gets the name of the custom repository class used for the entity class. * * @return string|null The name of the custom repository class or NULL if the entity * class does not have a custom repository class. */ public function getCustomRepositoryClass() { return $this->_customRepositoryClassName; } /** * Sets whether sub classes should be automatically OUTER JOINed when a base * class is queried in a class hierarchy that uses the JOINED inheritance mapping * strategy. * * This options does only apply to the JOINED inheritance mapping strategy. * * @param boolean $bool * @see getJoinSubClasses() */ public function setJoinSubClasses($bool) { $this->_joinSubclasses = (bool)$bool; } /** * Gets whether the class mapped by this instance should OUTER JOIN sub classes * when a base class is queried. * * @return * @see setJoinSubClasses() */ public function getJoinSubClasses() { return $this->_joinSubclasses; } /** * Dispatches the lifecycle event of the given entity to the registered * lifecycle callbacks and lifecycle listeners. * * @param string $event The lifecycle event. * @param Entity $entity The Entity on which the event occured. */ public function invokeLifecycleCallbacks($lifecycleEvent, $entity) { foreach ($this->getLifecycleCallbacks($lifecycleEvent) as $callback) { $entity->$callback(); } foreach ($this->getLifecycleListeners($lifecycleEvent) as $className => $callback) { if ( ! isset($this->_lifecycleListenerInstances[$className])) { $this->_lifecycleListenerInstances[$className] = new $className; } $this->_lifecycleListenerInstances[$className]->$callback($entity); } } /** * Gets the registered lifecycle callbacks for an event. * * @param string $event * @return array */ public function getLifecycleCallbacks($event) { return isset($this->_lifecycleCallbacks[$event]) ? $this->_lifecycleCallbacks[$event] : array(); } /** * Gets the registered lifecycle listeners for an event. * * @param string $event * @return array */ public function getLifecycleListeners($event) { return isset($this->_lifecycleListeners[$event]) ? $this->_lifecycleListeners[$event] : array(); } /** * Adds a lifecycle listener for entities of this class. * * Note: If the same listener class is registered more than once, the old * one will be overridden. * * @param string $listenerClass * @param array $callbacks */ public function addLifecycleListener($listenerClass, array $callbacks) { $this->_lifecycleListeners[$event][$listenerClass] = array(); foreach ($callbacks as $method => $event) { $this->_lifecycleListeners[$event][$listenerClass][] = $method; } } /** * Adds a lifecycle callback for entities of this class. * * Note: If the same callback is registered more than once, the old one * will be overridden. * * @param string $callback * @param string $event */ public function addLifecycleCallback($callback, $event) { if ( ! isset($this->_lifecycleCallbacks[$event])) { $this->_lifecycleCallbacks[$event] = array(); } if ( ! in_array($callback, $this->_lifecycleCallbacks[$event])) { $this->_lifecycleCallbacks[$event][$callback] = $callback; } } /** * Sets the discriminator column definition. * * @param array $columnDef * @see getDiscriminatorColumn() */ public function setDiscriminatorColumn($columnDef) { $this->_discriminatorColumn = $columnDef; } /** * Gets the discriminator column definition. * * The discriminator column definition is an array with the following keys: * name: The name of the column * type: The type of the column (only integer and string supported) * length: The length of the column (applies only if type is string) * * A discriminator column is used for JOINED and SINGLE_TABLE inheritance mappings. * * @return array * @see setDiscriminatorColumn() */ public function getDiscriminatorColumn() { return $this->_discriminatorColumn; } /** * Sets the dsicriminator value used by this class. * Used for JOINED and SINGLE_TABLE inheritance mapping strategies. * * @param array $map */ public function setDiscriminatorValue($value) { $this->_discriminatorValue = $value; } /** * Gets the discriminator value of this class. * Used for JOINED and SINGLE_TABLE inheritance mapping strategies. * * @return array */ public function getDiscriminatorValue() { return $this->_discriminatorValue; } /** * Checks whether the given column name is the discriminator column. * * @param string $columnName * @return boolean */ public function isDiscriminatorColumn($columnName) { return $columnName === $this->_discriminatorColumn['name']; } /** * Checks whether the class has a mapped association with the given field name. * * @param string $fieldName * @return boolean */ public function hasAssociation($fieldName) { return isset($this->_associationMappings[$fieldName]); } /** * Checks whether the class has a mapped association for the specified field * and if yes, checks whether it is a single-valued association (to-one). * * @param string $fieldName * @return boolean TRUE if the association exists and is single-valued, FALSE otherwise. */ public function isSingleValuedAssociation($fieldName) { return isset($this->_associationMappings[$fieldName]) && $this->_associationMappings[$fieldName]->isOneToOne(); } /** * Checks whether the class has a mapped association for the specified field * and if yes, checks whether it is a collection-valued association (to-many). * * @param string $fieldName * @return boolean TRUE if the association exists and is collection-valued, FALSE otherwise. */ public function isCollectionValuedAssociation($fieldName) { return isset($this->_associationMappings[$fieldName]) && ! $this->_associationMappings[$fieldName]->isOneToOne(); } /** * Gets the name of the ID generator used for this class. * Only classes that use a SEQUENCE or TABLE ID generation strategy have a generator name. * * @return string|null The name of the ID generator or NULL if this class does not * use a named ID generator. */ /*public function getIdGeneratorName() { return $this->_idGeneratorName; }*/ /** * Sets the ID generator used to generate IDs for instances of this class. * * @param AbstractIdGenerator $generator */ public function setIdGenerator($generator) { $this->_idGenerator = $generator; } /** * Gets the ID generator used to generate IDs for instances of this class. * * @return AbstractIdGenerator */ public function getIdGenerator() { return $this->_idGenerator; } /** * Gets the definition of the sequence ID generator for this class. * * The definition has the following structure: * * array( * 'sequenceName' => 'name', * 'allocationSize' => 20, * 'initialValue' => 1 * ) * * * @return array|null An array with the generator definition or NULL if this class * has no sequence generator definition. */ public function getSequenceGeneratorDefinition() { return $this->_sequenceGeneratorDefinition; } /** * Sets the definition of the sequence ID generator for this class. * * The definition must have the following structure: * * array( * 'sequenceName' => 'name', * 'allocationSize' => 20, * 'initialValue' => 1 * ) * * * @param array $definition */ public function setSequenceGeneratorDefinition(array $definition) { $this->_sequenceGeneratorDefinition = $definition; } /** * Creates a string representation of this instance. * * @return string The string representation of this instance. */ public function __toString() { return __CLASS__ . '@' . spl_object_hash($this); } }