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DataNucleus Core provides the primary components of a heterogenous Java persistence solution. It supports persistence API's being layered on top of the core functionality.

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Copyright (c) 2014 Andy Jefferson and others. All rights reserved.
Licensed under the Apache License, Version 2.0 (the "License");
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    http://www.apache.org/licenses/LICENSE-2.0

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package org.datanucleus.enhancement;

/**
 * A class that can be managed by DataNucleus must implement this interface.
 * 

* This interface defines methods that allow the implementation to manage the instances. * It also defines methods that allow a DataNucleus aware application to examine the runtime state of instances. * For example, an application can discover whether the instance is persistent, transactional, dirty, new, deleted, or detached; and to get its * associated ExecutionContext, object identity, and version if it has one. *

* The Persistable interface is designed to avoid name conflicts in the scope of user-defined classes. * All of its declared method names are prefixed with 'dn'. */ public interface Persistable { /** dnFlags == READ_WRITE_OK, then the fields in the default fetch group can be accessed for read or write without notifying the StateManager. */ static final byte READ_WRITE_OK = 0; /** dnFlags == LOAD_REQUIRED, then the fields in the default fetch group cannot be accessed for read or write without notifying the StateManager. */ static final byte LOAD_REQUIRED = 1; /** dnFlags == READ_OK, then the fields in the default fetch group can be accessed for read without notifying the StateManager */ static final byte READ_OK = -1; /** dnFieldFlags for a field includes CHECK_READ, then the field has been enhanced to call the StateManager on read if the dnFlags setting is not READ_OK or READ_WRITE_OK */ static final byte CHECK_READ = 1; /** dnFieldFlags for a field includes MEDIATE_READ, then the field has been enhanced to always call the StateManager on all reads */ static final byte MEDIATE_READ = 2; /** dnFieldFlags for a field includes CHECK_WRITE, then the field has been enhanced to call the StateManager on write if the dnFlags setting is not READ_WRITE_OK */ static final byte CHECK_WRITE = 4; /** dnFieldFlags for a field includes MEDIATE_WRITE, then the field has been enhanced to always call the StateManager on all writes */ static final byte MEDIATE_WRITE = 8; /** dnFieldFlags for a field includes SERIALIZABLE, then the field is not declared as TRANSIENT. */ static final byte SERIALIZABLE = 16; /** * Return the associated ExecutionContext if there is one. * Transactional and persistent instances return the associated ExecutionContext. * Transient non-transactional instances return null. * This method always delegates to the StateManager if it is non-null. * @return the ExecutionContext associated with this instance. */ ExecutionContextReference dnGetExecutionContext(); /** * Return the associated StateManager if there is one. * @return The StateManager managing this object */ StateManager dnGetStateManager(); /** * This method sets the StateManager instance that manages the state of this instance. * This method is normally used by the StateManager during the process of making an instance persistent, transient, or transactional. * The caller of this method must have JDOPermission for the instance, if the instance is not already owned by a StateManager. * If the parameter is null, and the StateManager approves the change, then the dnFlags field will be reset to READ_WRITE_OK. If the parameter is not null, * and the security manager approves the change, then the dnFlags field will be reset to LOAD_REQUIRED. * @param sm The StateManager which will own this instance, or null to reset the instance to transient state * @throws SecurityException if the caller does not have JDOPermission */ void dnReplaceStateManager(StateManager sm) throws SecurityException; /** * The owning StateManager uses this method to ask the instance to provide the value of the single field identified by fieldNumber. * @param fieldNumber the field whose value is to be provided by a callback to the StateManager's providedXXXField method */ void dnProvideField(int fieldNumber); /** * The owning StateManager uses this method to ask the instance to provide the values of the multiple fields identified by fieldNumbers. * @param fieldNumbers the fields whose values are to be provided by multiple callbacks to the StateManager's providedXXXField method */ void dnProvideFields(int[] fieldNumbers); /** * The owning StateManager uses this method to ask the instance to replace the value of the single field identified by number. * @param fieldNumber the field whose value is to be replaced by a callback to the StateManager's replacingXXXField method */ void dnReplaceField(int fieldNumber); /** * The owning StateManager uses this method to ask the instance to replace the values of the multiple fields identified by number. * @param fieldNumbers the fields whose values are to be replaced by multiple callbacks to the StateManager's replacingXXXField method */ void dnReplaceFields(int[] fieldNumbers); /** * The owning StateManager uses this method to ask the instance to replace the value of the flags by calling back the StateManager replacingFlags method. */ void dnReplaceFlags(); /** * Copy field values from another instance of the same class to this instance. *

* This method will throw an exception if the other instance is not managed by the same StateManager as this instance. * @param other the PC instance from which field values are to be copied * @param fieldNumbers the field numbers to be copied into this instance */ void dnCopyFields(Object other, int[] fieldNumbers); /** * Explicitly mark this instance and this field dirty. * Normally, Persistable classes are able to detect changes made to their fields. * However, if a reference to an array is given to a method outside the class, and the array is modified, then the persistent instance is not aware of the change. * This API allows the application to notify the instance that a change was made to a field. *

* The field name should be the fully qualified name, including package name and class name of the class declaring the field. * This allows unambiguous identification of the field to be marked dirty. If multiple classes declare the same field, and if the package and class name are * not provided by the parameter in this API, then the field marked dirty is the field declared by the most derived class. *

* Transient instances ignore this method. *

* @param fieldName the name of the field to be marked dirty. */ void dnMakeDirty(String fieldName); /** * Return a copy of the identity associated with this instance. *

* Persistent instances of Persistable classes have an identity managed by the ExecutionContext. * This method returns a copy of the ObjectId that represents the identity. *

* Transient instances return null. *

* The ObjectId may be serialized and later restored, and used with a ExecutionContext from the same DataNucleus instance to locate * a persistent instance with the same data store identity. *

* If the identity is managed by the application, then the ObjectId may be used with a ExecutionContext from DataNucleus that supports the Persistable class. *

* If the identity is not managed by the application or the data store, then the ObjectId returned is only valid within the current transaction. *

* If the identity is being changed in the transaction, this method returns the object id as of the beginning of the current transaction. * @return a copy of the ObjectId of this instance as of the beginning of the transaction. */ Object dnGetObjectId(); /** * Return a copy of the identity associated with this instance. * This method is the same as dnGetObjectId if the identity of the instance has not changed in the current transaction. *

* If the identity is being changed in the transaction, this method returns the current object id as modified in the current transaction. * @see #dnGetObjectId() * @return a copy of the ObjectId of this instance as modified in the transaction. */ Object dnGetTransactionalObjectId(); /** * Return the version of this instance. * @return the version */ Object dnGetVersion(); /** * Tests whether this object is dirty. * Instances that have been modified, deleted, or newly made persistent in the current transaction return true. *

* Transient instances return false. * Embedded instances return false. * @return true if this instance has been modified in the current transaction. */ boolean dnIsDirty(); /** * Tests whether this object is transactional. * Instances whose state is associated with the current transaction return true. Transient instances return false. * @return true if this instance is transactional. */ boolean dnIsTransactional(); /** * Tests whether this object is persistent. Instances that represent persistent objects in the data store return true. * @return true if this instance is persistent. */ boolean dnIsPersistent(); /** * Tests whether this object has been newly made persistent. * Instances that have been made persistent in the current transaction return true. Transient instances return false. * @return true if this instance was made persistent in the current transaction. */ boolean dnIsNew(); /** * Tests whether this object has been deleted. Instances that have been deleted in the current transaction return true. * Transient instances return false. * @return true if this instance was deleted in the current transaction. */ boolean dnIsDeleted(); /** * Tests whether this object has been detached. Instances that have been detached return true. * Transient instances return false. * @return true if this instance is detached. */ boolean dnIsDetached(); /** * Return a new instance of this class, with the StateManager set to the parameter, and dnFlags set to LOAD_REQUIRED. *

* This method is used as a performance optimisation as an alternative to using reflection to construct a new instance. * It is used by the EnhancementHelper class method newInstance. * @param sm the StateManager that will own the new instance. * @return a new instance of this class. */ Persistable dnNewInstance(StateManager sm); /** * Return a new instance of this class, with the StateManager set to the parameter, key fields initialised to the values in the oid, and dnFlags set to LOAD_REQUIRED. *

* This method is used as a performance optimisation as an alternative to using reflection to construct a new instance of a class that uses application identity. * It is used by the EnhancementHelper class method newInstance. * @param sm the StateManager that will own the new instance. * @param oid an instance of the object id class (application identity). * @return a new instance of this class. */ Persistable dnNewInstance(StateManager sm, Object oid); /** * Create a new instance of the ObjectId class for this Persistable class and initialize the key fields from the instance on which this method is called. * This method creates a new instance of the class used for identity. It is intended only for application identity. * If the class uses datastore identity, or if the class is abstract, null is returned. *

* For classes using single field identity, this method must be called on an instance of a persistence-capable class with its primary key field * initialised (not null), or an exception is thrown. *

* The instance returned is initialized with the value(s) of the primary key field(s) of the instance on which the method is called. * @return the new instance created. */ Object dnNewObjectIdInstance(); /** * Create a new instance of the class used for identity, using the key constructor of the object id class. * It is intended for single field identity. The identity instance returned has no relationship with the values of the primary key fields * of the persistence-capable instance on which the method is called. If the key is the wrong class for the object id class, null is returned. *

* For classes that use single field identity, if the parameter is of one of the following types, the behaviour must be as specified: *

    *
  • Number or Character: the parameter must be the single field type or the wrapper class of the primitive field type; * the parameter is passed to the single field identity constructor
  • *
  • ObjectIdFieldSupplier: the field value is fetched from the ObjectIdFieldSupplier and passed to the single field identity constructor
  • *
  • String: the String is passed to the single field identity constructor
  • *
* @return the new instance created. * @param o the object identity constructor parameter */ Object dnNewObjectIdInstance(Object o); /** * Copy fields from this Persistable instance to the Object Id instance. * For classes using single field identity, this method always throws JDOUserException. * @param oid the ObjectId target of the key fields */ void dnCopyKeyFieldsToObjectId(Object oid); /** * Copy fields from an outside source to the key fields in the ObjectId. * This method is generated in the Persistable class to generate a call to the field manager for each key field in the ObjectId. * For example, an ObjectId class that has three key fields (int id, String name, and Float salary) would have the method generated: * * void dnCopyKeyFieldsToObjectId(ObjectIdFieldSupplier fm, Object objectId) * { * EmployeeKey oid = (EmployeeKey)objectId; * oid.id = fm.fetchIntField (0); * oid.name = fm.fetchStringField (1); * oid.salary = fm.fetchObjectField (2); * } * *

* The implementation is responsible for implementing the ObjectIdFieldSupplier to produce the values for the key fields. *

* For classes using single field identity, this method always throws JDOUserException. * @param oid the ObjectId target of the copy. * @param fm the field supplier that supplies the field values. */ void dnCopyKeyFieldsToObjectId(ObjectIdFieldSupplier fm, Object oid); /** * Copy fields to an outside consumer from the key fields in the ObjectId. * This method is generated in the Persistable class to generate a call to the field manager for each key field in the ObjectId. * For example, an ObjectId class that has three key fields (int id, String name, and Float salary) would have the method generated: * * void copyKeyFieldsFromObjectId(ObjectIdFieldConsumer fm, Object objectId) * { * EmployeeKey oid = (EmployeeKey)objectId; * fm.storeIntField (0, oid.id); * fm.storeStringField (1, oid.name); * fm.storeObjectField (2, oid.salary); * } * *

* The implementation is responsible for implementing the ObjectIdFieldConsumer to store the values for the key fields. * @param oid the ObjectId source of the copy. * @param fm the field manager that receives the field values. */ void dnCopyKeyFieldsFromObjectId(ObjectIdFieldConsumer fm, Object oid); /** * This interface is used to provide fields to the Object id instance. It is used by the method copyKeyFieldsToObjectId. * When the method is called, the generated code calls the instance of the FieldManager for each field in the object id. */ static interface ObjectIdFieldSupplier { /** * Fetch one field from the field manager. This field will be stored in the proper field of the ObjectId. * @param fieldNumber the field number of the key field. * @return the value of the field to be stored into the ObjectId. */ boolean fetchBooleanField(int fieldNumber); /** * Fetch one field from the field manager. This field will be stored in the proper field of the ObjectId. * @param fieldNumber the field number of the key field. * @return the value of the field to be stored into the ObjectId. */ char fetchCharField(int fieldNumber); /** * Fetch one field from the field manager. This field will be stored in the proper field of the ObjectId. * @param fieldNumber the field number of the key field. * @return the value of the field to be stored into the ObjectId. */ byte fetchByteField(int fieldNumber); /** * Fetch one field from the field manager. This field will be stored in the proper field of the ObjectId. * @param fieldNumber the field number of the key field. * @return the value of the field to be stored into the ObjectId. */ short fetchShortField(int fieldNumber); /** * Fetch one field from the field manager. This field will be stored in the proper field of the ObjectId. * @param fieldNumber the field number of the key field. * @return the value of the field to be stored into the ObjectId. */ int fetchIntField(int fieldNumber); /** * Fetch one field from the field manager. This field will be stored in the proper field of the ObjectId. * @param fieldNumber the field number of the key field. * @return the value of the field to be stored into the ObjectId. */ long fetchLongField(int fieldNumber); /** * Fetch one field from the field manager. This field will be stored in the proper field of the ObjectId. * @param fieldNumber the field number of the key field. * @return the value of the field to be stored into the ObjectId. */ float fetchFloatField(int fieldNumber); /** * Fetch one field from the field manager. This field will be stored in the proper field of the ObjectId. * @param fieldNumber the field number of the key field. * @return the value of the field to be stored into the ObjectId. */ double fetchDoubleField(int fieldNumber); /** * Fetch one field from the field manager. This field will be stored in the proper field of the ObjectId. * @param fieldNumber the field number of the key field. * @return the value of the field to be stored into the ObjectId. */ String fetchStringField(int fieldNumber); /** * Fetch one field from the field manager. This field will be stored in the proper field of the ObjectId. * @param fieldNumber the field number of the key field. * @return the value of the field to be stored into the ObjectId. */ Object fetchObjectField(int fieldNumber); } /** * This interface is used to store fields from the Object id instance. It is used by the method copyKeyFieldsFromObjectId. * When the method is called, the generated code calls the instance of the FieldManager for each field in the object id. */ static interface ObjectIdFieldConsumer { /** * Store one field into the field manager. This field was retrieved from the field of the ObjectId. * @param fieldNumber the field number of the key field. * @param value the value of the field from the ObjectId. */ void storeBooleanField(int fieldNumber, boolean value); /** * Store one field into the field manager. This field was retrieved from the field of the ObjectId. * @param fieldNumber the field number of the key field. * @param value the value of the field from the ObjectId. */ void storeCharField(int fieldNumber, char value); /** * Store one field into the field manager. This field was retrieved from the field of the ObjectId. * @param fieldNumber the field number of the key field. * @param value the value of the field from the ObjectId. */ void storeByteField(int fieldNumber, byte value); /** * Store one field into the field manager. This field was retrieved from the field of the ObjectId. * @param fieldNumber the field number of the key field. * @param value the value of the field from the ObjectId. */ void storeShortField(int fieldNumber, short value); /** * Store one field into the field manager. This field was retrieved from the field of the ObjectId. * @param fieldNumber the field number of the key field. * @param value the value of the field from the ObjectId. */ void storeIntField(int fieldNumber, int value); /** * Store one field into the field manager. This field was retrieved from the field of the ObjectId. * @param fieldNumber the field number of the key field. * @param value the value of the field from the ObjectId. */ void storeLongField(int fieldNumber, long value); /** * Store one field into the field manager. This field was retrieved from the field of the ObjectId. * @param fieldNumber the field number of the key field. * @param value the value of the field from the ObjectId. */ void storeFloatField(int fieldNumber, float value); /** * Store one field into the field manager. This field was retrieved from the field of the ObjectId. * @param fieldNumber the field number of the key field. * @param value the value of the field from the ObjectId. */ void storeDoubleField(int fieldNumber, double value); /** * Store one field into the field manager. This field was retrieved from the field of the ObjectId. * @param fieldNumber the field number of the key field. * @param value the value of the field from the ObjectId. */ void storeStringField(int fieldNumber, String value); /** * Store one field into the field manager. This field was retrieved from the field of the ObjectId. * @param fieldNumber the field number of the key field. * @param value the value of the field from the ObjectId. */ void storeObjectField(int fieldNumber, Object value); } }





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