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• ClassifierModifierAbstract.java

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klass.model.meta.domain.ClassifierModifierAbstract Maven / Gradle / Ivy

package klass.model.meta.domain;
import java.math.BigDecimal;
import java.sql.Timestamp;
import java.util.*;
import java.io.*;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import com.gs.fw.common.mithra.*;
import com.gs.fw.common.mithra.attribute.*;
import com.gs.fw.common.mithra.util.*;
import com.gs.fw.common.mithra.notification.*;
import com.gs.fw.common.mithra.notification.listener.*;
import com.gs.fw.common.mithra.list.cursor.Cursor;
import com.gs.fw.common.mithra.bulkloader.*;
import com.gs.fw.common.mithra.*;
import com.gs.fw.common.mithra.behavior.*;
import com.gs.fw.common.mithra.cache.Cache;
import com.gs.fw.common.mithra.extractor.*;
import com.gs.fw.common.mithra.finder.*;
import com.gs.fw.common.mithra.list.*;
import com.gs.fw.common.mithra.behavior.state.PersistenceState;
import com.gs.fw.common.mithra.attribute.update.*;
import com.gs.fw.common.mithra.transaction.MithraObjectPersister;
import java.util.Arrays;
import java.util.HashSet;
/**
* This file was automatically generated using Mithra 18.0.0. Please do not modify it.
* Add custom logic to its subclass instead.
*/
// Generated from templates/transactional/Abstract.jsp
public abstract class ClassifierModifierAbstract extends com.gs.fw.common.mithra.superclassimpl.MithraTransactionalObjectImpl
implements
Element
{
	private static byte MEMORY_STATE = PersistenceState.IN_MEMORY;
	private static byte PERSISTED_STATE = PersistenceState.PERSISTED;
	private static final Logger logger = LoggerFactory.getLogger(ClassifierModifier.class.getName());
	private static final RelationshipHashStrategy forowningClassifier = new OwningClassifierRhs();
	private static final class OwningClassifierRhs implements RelationshipHashStrategy
	{
		public boolean equalsForRelationship(Object _srcObject, Object _srcData, Object _targetData, Timestamp _asOfDate0, Timestamp _asOfDate1)
		{
			ClassifierModifierData _castedSrcData = (ClassifierModifierData) _srcData;
			ClassifierData _castedTargetData = (ClassifierData) _targetData;
			if (_castedSrcData.getClassifierName()!= null && _castedSrcData.getClassifierName().equals(_castedTargetData.getName()))
			{
				return true;
			}

			return false;
		}

		public int computeHashCodeFromRelated(Object _srcObject, Object _srcData)
		{
			ClassifierModifierData _castedSrcData = (ClassifierModifierData) _srcData;
			return HashUtil.hash(_castedSrcData.getClassifierName());
		}

		public int computeOffHeapHashCodeFromRelated(Object _srcObject, Object _srcData)
		{
			ClassifierModifierData _castedSrcData = (ClassifierModifierData) _srcData;
			return HashUtil.offHeapHash(_castedSrcData.getClassifierName());
		}
	}

	public ClassifierModifierAbstract()
	{
		this.persistenceState = MEMORY_STATE;
	}

	public ClassifierModifier getDetachedCopy() throws MithraBusinessException
	{
		return (ClassifierModifier) super.getDetachedCopy();
	}

	public ClassifierModifier getNonPersistentCopy() throws MithraBusinessException
	{
		ClassifierModifier result = (ClassifierModifier) super.getNonPersistentCopy();
		result.persistenceState = MEMORY_STATE;
		return result;
	}

	public ClassifierModifier copyDetachedValuesToOriginalOrInsertIfNew()
	{
		return (ClassifierModifier) this.zCopyDetachedValuesToOriginalOrInsertIfNew();
	}

	public ClassifierModifier zFindOriginal()
	{
		ClassifierModifierData data = (ClassifierModifierData) this.currentData;
		Operation op;
		op = ClassifierModifierFinder.classifierName().eq(data.getClassifierName());
		op = op.and(ClassifierModifierFinder.keyword().eq(data.getKeyword()));
		return ClassifierModifierFinder.findOne(op);
	}

	public boolean isModifiedSinceDetachmentByDependentRelationships()
	{
		if(this.isModifiedSinceDetachment()) return true;
		return false;
	}

	private Logger getLogger()
	{
		return logger;
	}

	public MithraDataObject zAllocateData()
	{
		return new ClassifierModifierData();
	}

	protected void zSetFromClassifierModifierData( ClassifierModifierData data )
	{
		super.zSetData(data);
		this.persistenceState = PERSISTED_STATE;
	}

	public void setFromClassifierModifierData( ClassifierModifierData data )
	{
		super.zSetData(data);
	}

	public void zWriteDataClassName(ObjectOutput out) throws IOException
	{
	}

	public final boolean isClassifierNameNull()
	{
		return ((ClassifierModifierData) this.zSynchronizedGetData()).isClassifierNameNull();
	}

	public final String getClassifierName()
	{
		ClassifierModifierData data = (ClassifierModifierData) this.zSynchronizedGetData();
		return data.getClassifierName();
	}

	public void setClassifierName(String newValue)
	{
		if (newValue != null && newValue.length() > 256)
		throw new MithraBusinessException("Attribute 'classifierName' cannot exceed maximum length of 256: " + newValue);
		zSetString(ClassifierModifierFinder.classifierName(), newValue, true, false );
	}

	public final boolean isKeywordNull()
	{
		return ((ClassifierModifierData) this.zSynchronizedGetData()).isKeywordNull();
	}

	public final String getKeyword()
	{
		ClassifierModifierData data = (ClassifierModifierData) this.zSynchronizedGetData();
		return data.getKeyword();
	}

	public void setKeyword(String newValue)
	{
		if (newValue != null && newValue.length() > 256)
		throw new MithraBusinessException("Attribute 'keyword' cannot exceed maximum length of 256: " + newValue);
		zSetString(ClassifierModifierFinder.keyword(), newValue, true, false );
	}

	public boolean isOrdinalNull()
	{
		return ((ClassifierModifierData) this.zSynchronizedGetData()).isOrdinalNull();
	}

	public int getOrdinal()
	{
		ClassifierModifierData data = (ClassifierModifierData) this.zSynchronizedGetData();
		return data.getOrdinal();
	}

	public void setOrdinal(int newValue)
	{
		zSetInteger(ClassifierModifierFinder.ordinal(), newValue, false, false ,false);
	}

	protected void issuePrimitiveNullSetters(TransactionalBehavior behavior, MithraDataObject data)
	{
	}

	public void zPersistDetachedRelationships(MithraDataObject _data)
	{
		ClassifierModifierData _newData = (ClassifierModifierData) _data;
	}

	public void zSetTxDetachedDeleted()
	{
		TransactionalBehavior _behavior = zGetTransactionalBehaviorForWriteWithWaitIfNecessary();
		if (_behavior.isDetached() && _behavior.isDeleted()) return;
		ClassifierModifierData _newData = (ClassifierModifierData) _behavior.getCurrentDataForRead(this);
		this.zSetTxPersistenceState(PersistenceState.DETACHED_DELETED);
	}

	public void zSetNonTxDetachedDeleted()
	{
		TransactionalBehavior _behavior = zGetTransactionalBehaviorForWriteWithWaitIfNecessary();
		ClassifierModifierData _newData = (ClassifierModifierData) _behavior.getCurrentDataForRead(this);
		this.zSetNonTxPersistenceState(PersistenceState.DETACHED_DELETED);
	}

	/**
	* Relationship Expression:
	Classifier.name = this.classifierName
	* @see Classifier#getClassifierModifiers() reverse relationship Classifier.getClassifierModifiers()
	* @return The owning classifier
	*/
	public Classifier getOwningClassifier()
	{
		Classifier _result = null;
		Operation _op = null;
		TransactionalBehavior _behavior = zGetTransactionalBehaviorForReadWithWaitIfNecessary();
		ClassifierModifierData _data = (ClassifierModifierData) _behavior.getCurrentDataForRead(this);
		MithraObjectPortal _portal = null;
		if (_behavior.isPersisted())
		{
			{
				_portal = ClassifierFinder.getMithraObjectPortal();
				Object _related = _portal.getAsOneFromCache(this, _data, forowningClassifier, null, null);
				if (!(_related instanceof NulledRelation)) _result = (Classifier) _related;
				if (_related == null)
				{
					_op = ClassifierFinder.name().eq(_data.getClassifierName());
				}
			}
		}
		else if (_behavior.isDetached())
		{
			if (_data.getOwningClassifier() instanceof NulledRelation)
			{
				return null;
			}

			_result = (Classifier) _data.getOwningClassifier();
			if (_result == null)
			{
				{
					Operation detachedOp = ClassifierFinder.name().eq(_data.getClassifierName());
					_result = ClassifierFinder.zFindOneForRelationship(detachedOp);
					if(_result != null)
					{
						_result = _result.getDetachedCopy();
					}
				}

				_data = (ClassifierModifierData) _behavior.getCurrentDataForWrite(this);
				_data.setOwningClassifier(_result);
			}
		}
		else if (_behavior.isInMemory())
		{
			_result = (Classifier) _data.getOwningClassifier();
			if (_result == null)
			{
				{
					_op = ClassifierFinder.name().eq(_data.getClassifierName());
				}
			}
		}

		if (_op != null)
		{
			_result = ClassifierFinder.zFindOneForRelationship(_op);
		}

		return _result;
	}

	public void setOwningClassifier(Classifier owningClassifier)
	{
		Classifier _owningClassifier = (Classifier) owningClassifier;
		TransactionalBehavior _behavior = zGetTransactionalBehaviorForWriteWithWaitIfNecessary();
		ClassifierModifierData _data = (ClassifierModifierData) _behavior.getCurrentDataForWrite(this);
		if (_behavior.isInMemory())
		{
			Object _prev = _data.getOwningClassifier();
			if (_behavior.isDetached() && _prev != null)
			{
				((DelegatingList)((Classifier)_prev).getClassifierModifiers()).zMarkMoved( (ClassifierModifier) this);
			}

			_data.setOwningClassifier(_owningClassifier);
			_owningClassifier.getClassifierModifiers().add( (ClassifierModifier) this);
		}
		else if (_behavior.isPersisted())
		{
			_behavior.clearTempTransaction(this);
			if (_owningClassifier == null)
			{
				this.setClassifierName(null);
			}
			else
			{
				this.setClassifierName(
					_owningClassifier.getName());
			}
		}
		else throw new RuntimeException("not implemented");
	}

	public void zSetParentContainerowningClassifier(ClassifierAbstract parent)
	{
		TransactionalBehavior _behavior = zGetTransactionalBehaviorForWriteWithWaitIfNecessary();
		ClassifierModifierData _data = (ClassifierModifierData) _behavior.getCurrentDataForWrite(this);
		_behavior.clearTempTransaction(this);
		if (_behavior.isInMemory())
		{
			_data.setOwningClassifier(parent);
		}
	}

	protected void cascadeInsertImpl() throws MithraBusinessException
	{
		TransactionalBehavior _behavior = zGetTransactionalBehaviorForWriteWithWaitIfNecessary();
		_behavior.insert(this);
	}

	@Override
	public Map< RelatedFinder, StatisticCounter > zAddNavigatedRelationshipsStats(RelatedFinder finder, Map< RelatedFinder, StatisticCounter > navigationStats)
	{
		TransactionalBehavior _behavior = zGetTransactionalBehaviorForWriteWithWaitIfNecessary();
		_behavior.addNavigatedRelationshipsStats(this, finder, navigationStats);
		return navigationStats;
	}

	@Override
	public Map< RelatedFinder, StatisticCounter > zAddNavigatedRelationshipsStatsForUpdate(RelatedFinder parentFinderGeneric, Map< RelatedFinder, StatisticCounter > navigationStats)
	{
		return navigationStats;
	}

	@Override
	public Map< RelatedFinder, StatisticCounter > zAddNavigatedRelationshipsStatsForDelete(RelatedFinder parentFinder, Map< RelatedFinder, StatisticCounter > navigationStats)
	{
		return navigationStats;
	}

	@Override
	public ClassifierModifier zCascadeCopyThenInsert() throws MithraBusinessException
	{
		TransactionalBehavior _behavior = zGetTransactionalBehaviorForWriteWithWaitIfNecessary();
		ClassifierModifier original = (ClassifierModifier) _behavior.copyThenInsert(this);
		return original;
	}

	protected void cascadeDeleteImpl() throws MithraBusinessException
	{
		this.delete();
	}

	public Cache zGetCache()
	{
		return ClassifierModifierFinder.getMithraObjectPortal().getCache();
	}

	public MithraObjectPortal zGetPortal()
	{
		return ClassifierModifierFinder.getMithraObjectPortal();
	}

	public ClassifierModifier getOriginalPersistentObject()
	{
		return this.zFindOriginal();
	}

	protected boolean issueUpdatesForNonPrimaryKeys(TransactionalBehavior behavior, MithraDataObject data, MithraDataObject newData)
	{
		boolean changed = false;
		changed |= zUpdateInteger(behavior, data, newData, ClassifierModifierFinder.ordinal(), false);
		return changed;
	}

	protected boolean issueUpdatesForPrimaryKeys(TransactionalBehavior behavior, MithraDataObject data, MithraDataObject newData)
	{
		boolean changed = false;
		changed |= zUpdateString(behavior, data, newData, ClassifierModifierFinder.classifierName(), false);
		changed |= zUpdateString(behavior, data, newData, ClassifierModifierFinder.keyword(), false);
		return changed;
	}

	public Object readResolve() throws ObjectStreamException
	{
		ClassifierModifierAbstract result = (ClassifierModifierAbstract) super.readResolve();
		if (result.persistenceState == PersistenceState.PERSISTED)
		{
			result.persistenceState = PERSISTED_STATE;
		}
		else if (result.persistenceState == PersistenceState.IN_MEMORY)
		{
			result.persistenceState = MEMORY_STATE;
		}

		return result;
	}

	protected static void zConfigNonTx()
	{
		MEMORY_STATE = PersistenceState.IN_MEMORY_NON_TRANSACTIONAL;
		PERSISTED_STATE = PersistenceState.PERSISTED_NON_TRANSACTIONAL;
	}

	protected static void zConfigFullTx()
	{
		MEMORY_STATE = PersistenceState.IN_MEMORY;
		PERSISTED_STATE = PersistenceState.PERSISTED;
	}
}