public SingleTableEntityPersister(PersistentClass persistentClass, ICacheConcurrencyStrategy cache,
																			ISessionFactoryImplementor factory, IMapping mapping)
			: base(persistentClass, cache, factory)
		{
			#region CLASS + TABLE

			joinSpan = persistentClass.JoinClosureSpan + 1;
			qualifiedTableNames = new string[joinSpan];
			isInverseTable = new bool[joinSpan];
			isNullableTable = new bool[joinSpan];
			keyColumnNames = new string[joinSpan][];
			Table table = persistentClass.RootTable;
			qualifiedTableNames[0] =
				table.GetQualifiedName(factory.Dialect, factory.Settings.DefaultCatalogName, factory.Settings.DefaultSchemaName);
			isInverseTable[0] = false;
			isNullableTable[0] = false;
			keyColumnNames[0] = IdentifierColumnNames;
			cascadeDeleteEnabled = new bool[joinSpan];

			// Custom sql
			customSQLInsert = new SqlString[joinSpan];
			customSQLUpdate = new SqlString[joinSpan];
			customSQLDelete = new SqlString[joinSpan];
			insertCallable = new bool[joinSpan];
			updateCallable = new bool[joinSpan];
			deleteCallable = new bool[joinSpan];
			insertResultCheckStyles = new ExecuteUpdateResultCheckStyle[joinSpan];
			updateResultCheckStyles = new ExecuteUpdateResultCheckStyle[joinSpan];
			deleteResultCheckStyles = new ExecuteUpdateResultCheckStyle[joinSpan];

			customSQLInsert[0] = persistentClass.CustomSQLInsert;
			insertCallable[0] = customSQLInsert[0] != null && persistentClass.IsCustomInsertCallable;
			insertResultCheckStyles[0] = persistentClass.CustomSQLInsertCheckStyle
																	 ?? ExecuteUpdateResultCheckStyle.DetermineDefault(customSQLInsert[0], insertCallable[0]);
			customSQLUpdate[0] = persistentClass.CustomSQLUpdate;
			updateCallable[0] = customSQLUpdate[0] != null && persistentClass.IsCustomUpdateCallable;
			updateResultCheckStyles[0] = persistentClass.CustomSQLUpdateCheckStyle
																	 ?? ExecuteUpdateResultCheckStyle.DetermineDefault(customSQLUpdate[0], updateCallable[0]);
			customSQLDelete[0] = persistentClass.CustomSQLDelete;
			deleteCallable[0] = customSQLDelete[0] != null && persistentClass.IsCustomDeleteCallable;
			deleteResultCheckStyles[0] = persistentClass.CustomSQLDeleteCheckStyle
																	 ?? ExecuteUpdateResultCheckStyle.DetermineDefault(customSQLDelete[0], deleteCallable[0]);

			#endregion

			#region JOINS
			int j = 1;
			foreach (Join join in persistentClass.JoinClosureIterator)
			{
				qualifiedTableNames[j] = join.Table.GetQualifiedName(factory.Dialect, factory.Settings.DefaultCatalogName, factory.Settings.DefaultSchemaName);
				isInverseTable[j] = join.IsInverse;
				isNullableTable[j] = join.IsOptional;
				cascadeDeleteEnabled[j] = join.Key.IsCascadeDeleteEnabled && factory.Dialect.SupportsCascadeDelete;

				customSQLInsert[j] = join.CustomSQLInsert;
				insertCallable[j] = customSQLInsert[j] != null && join.IsCustomInsertCallable;
				insertResultCheckStyles[j] = join.CustomSQLInsertCheckStyle
																		 ??
																		 ExecuteUpdateResultCheckStyle.DetermineDefault(customSQLInsert[j], insertCallable[j]);
				customSQLUpdate[j] = join.CustomSQLUpdate;
				updateCallable[j] = customSQLUpdate[j] != null && join.IsCustomUpdateCallable;
				updateResultCheckStyles[j] = join.CustomSQLUpdateCheckStyle
																		 ??
																		 ExecuteUpdateResultCheckStyle.DetermineDefault(customSQLUpdate[j], updateCallable[j]);
				customSQLDelete[j] = join.CustomSQLDelete;
				deleteCallable[j] = customSQLDelete[j] != null && join.IsCustomDeleteCallable;
				deleteResultCheckStyles[j] = join.CustomSQLDeleteCheckStyle
																		 ??
																		 ExecuteUpdateResultCheckStyle.DetermineDefault(customSQLDelete[j], deleteCallable[j]);

				IEnumerable<Column> enumerableKeyCol = new SafetyEnumerable<Column>(join.Key.ColumnIterator);
				List<string> kcName = new List<string>(join.Key.ColumnSpan);
				foreach (Column col in enumerableKeyCol)
					kcName.Add(col.GetQuotedName(factory.Dialect));

				keyColumnNames[j] = kcName.ToArray();

				j++;
			}

			constraintOrderedTableNames = new string[qualifiedTableNames.Length];
			constraintOrderedKeyColumnNames = new string[qualifiedTableNames.Length][];
			for (int i = qualifiedTableNames.Length - 1, position = 0; i >= 0; i--, position++)
			{
				constraintOrderedTableNames[position] = qualifiedTableNames[i];
				constraintOrderedKeyColumnNames[position] = keyColumnNames[i];
			}

			spaces = ArrayHelper.Join(qualifiedTableNames, ArrayHelper.ToStringArray(persistentClass.SynchronizedTables));

			bool lazyAvailable = IsInstrumented(EntityMode.Poco);

			bool hasDeferred = false;
			List<string> subclassTables = new List<string>();
			List<string[]> joinKeyColumns = new List<string[]>();
			List<bool> isConcretes = new List<bool>();
			List<bool> isDeferreds = new List<bool>();
			List<bool> isInverses = new List<bool>();
			List<bool> isNullables = new List<bool>();
			List<bool> isLazies = new List<bool>();
			subclassTables.Add(qualifiedTableNames[0]);
			joinKeyColumns.Add(IdentifierColumnNames);
			isConcretes.Add(true);
			isDeferreds.Add(false);
			isInverses.Add(false);
			isNullables.Add(false);
			isLazies.Add(false);
			foreach (Join join in persistentClass.SubclassJoinClosureIterator)
			{
				isConcretes.Add(persistentClass.IsClassOrSuperclassJoin(join));
				isDeferreds.Add(join.IsSequentialSelect);
				isInverses.Add(join.IsInverse);
				isNullables.Add(join.IsOptional);
				isLazies.Add(lazyAvailable && join.IsLazy);
				if (join.IsSequentialSelect && !persistentClass.IsClassOrSuperclassJoin(join))
					hasDeferred = true;
				subclassTables.Add(join.Table.GetQualifiedName(factory.Dialect, factory.Settings.DefaultCatalogName, factory.Settings.DefaultSchemaName));
				IEnumerable<Column> enumerableKeyCol = new SafetyEnumerable<Column>(join.Key.ColumnIterator);
				List<string> keyCols = new List<string>(join.Key.ColumnSpan);
				foreach (Column col in enumerableKeyCol)
					keyCols.Add(col.GetQuotedName(factory.Dialect));

				joinKeyColumns.Add(keyCols.ToArray());
			}

			subclassTableSequentialSelect = isDeferreds.ToArray();
			subclassTableNameClosure = subclassTables.ToArray();
			subclassTableIsLazyClosure = isLazies.ToArray();
			subclassTableKeyColumnClosure = joinKeyColumns.ToArray();
			isClassOrSuperclassTable = isConcretes.ToArray();
			isInverseSubclassTable = isInverses.ToArray();
			isNullableSubclassTable = isNullables.ToArray();
			hasSequentialSelects = hasDeferred;

			#endregion

			#region DISCRIMINATOR

			if (persistentClass.IsPolymorphic)
			{
				IValue discrimValue = persistentClass.Discriminator;
				if (discrimValue == null)
					throw new MappingException("Discriminator mapping required for single table polymorphic persistence");

				forceDiscriminator = persistentClass.IsForceDiscriminator;
				IEnumerator<ISelectable> iSel = discrimValue.ColumnIterator.GetEnumerator();
				iSel.MoveNext();
				ISelectable selectable = iSel.Current;
				if (discrimValue.HasFormula)
				{
					Formula formula = (Formula)selectable;
					discriminatorFormula = formula.FormulaString;
					discriminatorFormulaTemplate = formula.GetTemplate(factory.Dialect, factory.SQLFunctionRegistry);
					discriminatorColumnName = null;
					discriminatorAlias = Discriminator_Alias;
				}
				else
				{
					Column column = (Column)selectable;
					discriminatorColumnName = column.GetQuotedName(factory.Dialect);
					discriminatorAlias = column.GetAlias(factory.Dialect, persistentClass.RootTable);
					discriminatorFormula = null;
					discriminatorFormulaTemplate = null;
				}
				discriminatorType = persistentClass.Discriminator.Type;
				if (persistentClass.IsDiscriminatorValueNull)
				{
					discriminatorValue = NullDiscriminator;
					discriminatorSQLValue = InFragment.Null;
					discriminatorInsertable = false;
				}
				else if (persistentClass.IsDiscriminatorValueNotNull)
				{
					discriminatorValue = NotNullDiscriminator;
					discriminatorSQLValue = InFragment.NotNull;
					discriminatorInsertable = false;
				}
				else
				{
					discriminatorInsertable = persistentClass.IsDiscriminatorInsertable && !discrimValue.HasFormula;
					try
					{
						IDiscriminatorType dtype = (IDiscriminatorType)discriminatorType;
						discriminatorValue = dtype.StringToObject(persistentClass.DiscriminatorValue);
						discriminatorSQLValue = dtype.ObjectToSQLString(discriminatorValue, factory.Dialect);
					}
					catch (InvalidCastException cce)
					{
						throw new MappingException(
							string.Format("Illegal discriminator type: {0} of entity {1}", discriminatorType.Name, persistentClass.EntityName), cce);
					}
					catch (Exception e)
					{
						throw new MappingException("Could not format discriminator value to SQL string of entity " + persistentClass.EntityName, e);
					}
				}
			}
			else
			{
				forceDiscriminator = false;
				discriminatorInsertable = false;
				discriminatorColumnName = null;
				discriminatorAlias = null;
				discriminatorType = null;
				discriminatorValue = null;
				discriminatorSQLValue = null;
				discriminatorFormula = null;
				discriminatorFormulaTemplate = null;
			}

			#endregion

			#region PROPERTIES

			propertyTableNumbers = new int[PropertySpan];
			int i2 = 0;
			foreach (Property prop in persistentClass.PropertyClosureIterator)
			{
				propertyTableNumbers[i2++] = persistentClass.GetJoinNumber(prop);
			}

			List<int> columnJoinNumbers = new List<int>();
			List<int> formulaJoinedNumbers = new List<int>();
			List<int> propertyJoinNumbers = new List<int>();
			foreach (Property prop in persistentClass.SubclassPropertyClosureIterator)
			{
				int join = persistentClass.GetJoinNumber(prop);
				propertyJoinNumbers.Add(join);

				//propertyTableNumbersByName.put( prop.getName(), join );
				propertyTableNumbersByNameAndSubclass[prop.PersistentClass.EntityName + '.' + prop.Name] = join;
				foreach (ISelectable thing in prop.ColumnIterator)
				{
					if (thing.IsFormula)
						formulaJoinedNumbers.Add(join);
					else
						columnJoinNumbers.Add(join);
				}
			}

			subclassColumnTableNumberClosure = columnJoinNumbers.ToArray();
			subclassFormulaTableNumberClosure = formulaJoinedNumbers.ToArray();
			subclassPropertyTableNumberClosure = propertyJoinNumbers.ToArray();

			int subclassSpan = persistentClass.SubclassSpan + 1;
			subclassClosure = new string[subclassSpan];
			subclassClosure[0] = EntityName;
			if (persistentClass.IsPolymorphic)
				subclassesByDiscriminatorValue[discriminatorValue] = EntityName;

			#endregion

			#region SUBCLASSES
			if (persistentClass.IsPolymorphic)
			{
				int k = 1;
				foreach (Subclass sc in persistentClass.SubclassIterator)
				{
					subclassClosure[k++] = sc.EntityName;
					if (sc.IsDiscriminatorValueNull)
					{
						subclassesByDiscriminatorValue[NullDiscriminator] = sc.EntityName;
					}
					else if (sc.IsDiscriminatorValueNotNull)
					{
						subclassesByDiscriminatorValue[NotNullDiscriminator] = sc.EntityName;
					}
					else
					{
						if (discriminatorType == null)
							throw new MappingException("Not available discriminator type of entity " + persistentClass.EntityName);
						try
						{
							IDiscriminatorType dtype = (IDiscriminatorType)discriminatorType;
							subclassesByDiscriminatorValue[dtype.StringToObject(sc.DiscriminatorValue)] = sc.EntityName;
						}
						catch (InvalidCastException cce)
						{
							throw new MappingException(
								string.Format("Illegal discriminator type: {0} of entity {1}", discriminatorType.Name, persistentClass.EntityName), cce);
						}
						catch (Exception e)
						{
							throw new MappingException("Error parsing discriminator value of entity " + persistentClass.EntityName, e);
						}
					}
				}
			}

			#endregion

			InitLockers();

			InitSubclassPropertyAliasesMap(persistentClass);

			PostConstruct(mapping);
		}