I have a sql table with a string column that could contain null, empty string or a double value.
I want to map this column to a C# property that is a double, defaulting to zero when the column is null or empty.
Can I do this with a fluent-nhibernate mapping?
I tried this:
Map(p => p.doubleProperty).CustomSqlType("varchar(20)").CustomType("double").Default("0");
and variations on this theme but I always get an error that the conversion failed.
For now I've gone with a custom type which allows me to use
Map(p=>p.doubleProperty).CustomType<DoubleString>();
Which will do for my current needs.
I'll leave the question open for now in case someone comes up with an easier solution.
Code for the DoubleString type is below.
public class DoubleString : IUserType
{
public new bool Equals(object x, object y)
{
if (ReferenceEquals(x, y))
{
return true;
}
if (x == null || y == null)
{
return false;
}
return x.Equals(y);
}
public int GetHashCode(object x)
{
return x.GetHashCode();
}
public object NullSafeGet(IDataReader rs, string[] names, object owner)
{
var valueToGet = NHibernateUtil.String.NullSafeGet(rs, names[0]) as string;
double returnValue = 0.0;
double.TryParse(valueToGet, out returnValue);
return returnValue;
}
public void NullSafeSet(IDbCommand cmd, object value, int index)
{
object valueToSet = ((double)value).ToString();
NHibernateUtil.String.NullSafeSet(cmd, valueToSet, index);
}
public object DeepCopy(object value)
{
return value;
}
public object Replace(object original, object target, object owner)
{
return original;
}
public object Assemble(object cached, object owner)
{
return DeepCopy(cached);
}
public object Disassemble(object value)
{
return DeepCopy(value);
}
public SqlType[] SqlTypes
{
get
{
return new[] { new SqlType(DbType.String) };
}
}
public Type ReturnedType
{
get { return typeof(double); }
}
public bool IsMutable
{
get { return true; }
}
}
I would just map this to a string and in your entity have a property that is a double that does the conversion. Seems easier and cleaner than doing it in the mapping.
Maybe something like this:
public double Price
{
get
{
double price = -1.0;
Double.TryParse(stringProperty, out price);
return price;
}
set { stringProperty = value.ToString(); }
}
I solved kind of the same problem using two Properties which both referred to the same private variable. In my example the database contains a varchar which is NOT USED or ACTUAL, i therefor wanted a bool in my application.
private bool _myBool= true;
public virtual bool MyBool{ get { return _myBool; } set { _myBool= value; } }
public virtual string MyString
{
get { return _myBool ? "ACTUAL" : "NOT USED"; }
set { _myBool= value.Equals("NOT USED"); }
}
}
Related
I'm trying to read a decimal (38,16) from a SQL Server DB and struggling. After much reading around I'm trying to implement a custom type for SQL Decimal with the following code:
public class BigDecimal : IUserType
{
public bool Equals(object x, object y)
{
return object.Equals(x,y);
}
public int GetHashCode(object x)
{
return x.GetHashCode();
}
public object NullSafeGet(IDataReader rs, string[] names, object owner)
{
int index = rs.GetOrdinal(names[0]);
object result = rs.GetValue(index);
return result;
}
public void NullSafeSet(IDbCommand cmd, object value, int index)
{
//Not got here yet
}
public object DeepCopy(object value)
{
return value;
}
public object Replace(object original, object target, object owner)
{
return original;
}
public object Assemble(object cached, object owner)
{
return cached;
}
public object Disassemble(object value)
{
return value;
}
public SqlType[] SqlTypes { get { return new[] {SqlTypeFactory.Decimal}; } }
public Type ReturnedType { get { return typeof (SqlDecimal); } }
public bool IsMutable { get { return false; } }
}
but the output of rs.GetValue is a decimal not at SQLDecimal which causes an OverflowException.
The class looks like this:
public class Billy
{
public BigDecimal TheNumber {get;set;}
}
and the mapping looks like this:
public class BillyMap : ClassMap<Billy>
{
public BillyMap()
{
Map(b=>b.TheNumber).CustomType<BigDecimal>();
}
}
Please can someone tell me where I'm going wrong.
I think you need to cast the reader to SqlDataReader so you can access either GetSqlDecimal() or GetSqlValue(), as GetValue() will convert to a basic .Net Framework type. From 'https://msdn.microsoft.com/en-us/library/system.data.sqlclient.sqldatareader.getsqlvalue%28v=vs.110%29.aspx':
GetSqlValue returns data using the native SQL Server types. To retrieve data using the .NET Framework types, see GetValue.
In the end I made a something which performs a convert in the SQL and made it a Property Part and just use it on all the mapping files:
private const string DECIMAL_CONVERSION = "(CONVERT(decimal(28,6), [{0}]))";
private static string MapDecimalProperty(string fieldName)
{
return string.Format(DECIMAL_CONVERSION, fieldName.Trim('[',']'));
}
public static PropertyPart LongDecimal(this PropertyPart part, string fieldName)
{
return part.Formula(MapDecimalProperty(fieldName));
}
the on the mapping:
Map(ep => ep.BigDecimalField).EDWDecimal("[BigDecimalField]");
this works for now. I've informed the data architecture team that this is happening and they don't think that it will be a problem with any current data and will consider it for future developments.
Based on Jimmy's Enumeration classes idea I am wanting to see if I can avoid using the constructor to instantiate my type (which I assume is happening with the discriminator-value) but rather use a "factory method"-esque way of getting my instance mapped from the db.
Here is my type:
public class Impact : Enumeration
{
public static readonly Impact Carbon
= new Impact(1, "Carbon dioxide equivalent", CommonUnit.CO2e);
public static readonly Impact Energy
= new Impact(2, "Energy", CommonUnit.MJ);
public static readonly Impact Cost
= new Impact(3, "Cost", CommonUnit.Dollars);
public Impact(int index, string name, CommonUnit unit)
: base(index, name)
{
this.Unit = unit;
}
public CommonUnit Unit { get; private set; }
}
And here is the definition for Enumeration:
public class Enumeration : ValueObject
{
public Enumeration(int index, string displayName)
{
this.Index = index;
this.DisplayName = displayName;
}
public int Index { get; private set; }
public string DisplayName { get; private set; }
public override string ToString()
{
return this.DisplayName;
}
public static IEnumerable<T> GetAllFor<T>() where T : Enumeration
{
foreach (var publicStatic in typeof(T).GetFields(BindingFlags.Static | BindingFlags.Public | BindingFlags.DeclaredOnly))
{
Enumeration item = null;
item = (Enumeration)publicStatic.GetValue(null);
yield return item as T;
}
}
public static T With<T>(int index) where T : Enumeration
{
return GetAllFor<T>().SingleOrDefault(i => i.Index == index);
}
}
ValueObject simply covers off Equality functionality.
Elsewhere I use the static methods to get items from this enum (kinda like how you could use the core Enumeration static methods):
impact = Impact.With<Impact>(index.ImpactId.Value);
This is pretty handy but I want to know if I can get NHibernate to do this too when rehydrating objects.
Can it be done and how?
With an NHibernate Custom Type:
public class EnumerationType<T> : PrimitiveType where T : Enumeration
{
public EnumerationType()
: base(new SqlType(DbType.Int32))
{
}
public override object Get(IDataReader rs, int index)
{
object o = rs[index];
var value = Convert.ToInt32(o);
return Enumeration.With<T>(value);
}
public override object Get(IDataReader rs, string name)
{
int ordinal = rs.GetOrdinal(name);
return Get(rs, ordinal);
}
public override Type ReturnedClass
{
get { return typeof(T); }
}
public override object FromStringValue(string xml)
{
return int.Parse(xml);
}
public override string Name
{
get { return "Enumeration"; }
}
public override void Set(IDbCommand cmd, object value, int index)
{
var parameter = (IDataParameter)cmd.Parameters[index];
var val = (Enumeration)value;
parameter.Value = val.Value;
}
public override string ObjectToSQLString(object value, Dialect dialect)
{
return value.ToString();
}
public override Type PrimitiveClass
{
get { return typeof(int); }
}
public override object DefaultValue
{
get { return 0; }
}
}
If you're doing an HBM.xml-based mapping, you can set the custom type like this:
<property name="Impact" column="Impact" type="Namespace.To.EnumerationType`1[[Impact, AssemblyWithDomainEnum]], AssemblyWithNHibCustomType"/>
Alternatively, if you're using Fluent NHibernate, you can create a convention to map all enumeration types without having to configure each one individually:
public class EnumerationTypeConvention : IPropertyConvention, IPropertyConventionAcceptance
{
private static readonly Type _openType = typeof(EnumerationType<>);
public void Apply(IPropertyInstance instance)
{
var closedType = _openType.MakeGenericType(instance.Property.PropertyType);
instance.CustomType(closedType);
}
public void Accept(IAcceptanceCriteria<IPropertyInspector> criteria)
{
criteria.Expect(x => typeof(Enumeration).IsAssignableFrom(x.Property.PropertyType));
}
}
And then add that convention however you like in your Fluent NHibernate configuration.
This seemed to work too, but perhaps Jimmy's way seems easier:
public class ImpactEnumType : IUserType
{
public SqlType[] SqlTypes
{
get
{
//We store our Impact in a single column in the database that can contain a int (for the index value)
SqlType[] types = new SqlType[1];
types[0] = new SqlType(DbType.Int32);
return types;
}
}
public Type ReturnedType
{
get { return typeof(Impact); }
}
public bool Equals(object x, object y)
{
// Impact is derived from ValueObject which implements Equals
return x.Equals(y);
}
public int GetHashCode(object x)
{
// as above
return x.GetHashCode();
}
public object NullSafeGet(IDataReader rs, string[] names, object owner)
{
//We get the string from the database using the NullSafeGet used to get ints
int impactIndex = (int)NHibernateUtil.Int32.NullSafeGet(rs, names[0]);
// then pull the instance from the Enumeration type using the static helpers
return Impact.With<Impact>(impactIndex);
}
public void NullSafeSet(IDbCommand cmd, object value, int index)
{
//Set the value using the NullSafeSet implementation for int from NHibernateUtil
if (value == null)
{
NHibernateUtil.Int32.NullSafeSet(cmd, null, index);
return;
}
value = (value as Impact).Index;
NHibernateUtil.Int32.NullSafeSet(cmd, value, index);
}
public object DeepCopy(object value)
{
//We deep copy the Impact by creating a new instance with the same contents
if (value == null) return null;
return Impact.With<Impact>((value as Impact).Index);
}
public bool IsMutable
{
get { return false; }
}
public object Replace(object original, object target, object owner)
{
//As our object is immutable we can just return the original
return original;
}
public object Assemble(object cached, object owner)
{
//Used for casching, as our object is immutable we can just return it as is
return cached;
}
public object Disassemble(object value)
{
//Used for casching, as our object is immutable we can just return it as is
return value;
}
}
My HBM XML:
<property name="Impact" column="ImpactIndex" type="namespace.childnamespace.ImpactEnumType, namespace.childnamespace" />
Searched various NHibernate lists and haven't come up with a definitive answer. The SQL2008 dialect doesn't appear to have support for the HierarchyID data type - new date and time types only.
Does anyone have a good implementation or an effective workaround? I'd really like to leverage HierarchyID in a new app of mine. Support for this interesting and powerful data type is sorely lacking in MS's own tools so I'm not shocked that NHibernate doesn't have support.
There are some approaches out there that I haven't delved into yet. Wondering if anyone has some experience in what works, what is more performant, etc.'
Full disclosure: I'm working with Castle ActiveRecord but this seems like an NHibernate issue.
I've given Needles' answer a test run. It's a very good answer but there are some changes needed to make it function (at least in .NET 4). Here's what I've come up with for my project:
Update: the following code can be download over at GitHub and will be updated there. NHiberntate.HierarchyId.UserType
SqlHierarchyId IUserType
namespace NHibernate.UserTypes
{
using SqlTypes;
using System;
using System.Data;
using System.Data.SqlTypes;
using Microsoft.SqlServer.Types;
public class HierarchyId : IUserType
{
#region Properties
public SqlType[] SqlTypes
{
get { return new[] { NHibernateUtil.String.SqlType }; }
}
public Type ReturnedType
{
get { return typeof(SqlHierarchyId); }
}
public bool IsMutable
{
get { return true; }
}
#endregion Properties
#region Methods
new public bool Equals(object x, object y)
{
if (ReferenceEquals(x, y)) return true;
if (x == null || y == null) return false;
return x.Equals(y);
}
public int GetHashCode(object x)
{
return x.GetHashCode();
}
public object NullSafeGet(IDataReader rs, string[] names, object owner)
{
object prop1 = NHibernateUtil.String.NullSafeGet(rs, names[0]);
if (prop1 == null) return null;
return SqlHierarchyId.Parse(new SqlString(prop1.ToString()));
}
public void NullSafeSet(IDbCommand cmd, object value, int index)
{
if (value == null)
((IDataParameter)cmd.Parameters[index]).Value = DBNull.Value;
else if (value is SqlHierarchyId)
((IDataParameter)cmd.Parameters[index]).Value = ((SqlHierarchyId)value).ToString();
}
public object DeepCopy(object value)
{
if (value == null) return null;
return SqlHierarchyId.Parse(((SqlHierarchyId)value).ToString());
}
public object Replace(object original, object target, object owner)
{
return DeepCopy(original);
}
public object Assemble(object cached, object owner)
{
return DeepCopy(cached);
}
public object Disassemble(object value)
{
return DeepCopy(value);
}
#endregion Methods
}
}
Mapping
<?xml version="1.0" encoding="utf-8" ?>
<hibernate-mapping xmlns="urn:nhibernate-mapping-2.2" assembly="DataLayer" namespace="NHibernate.Map">
<class name="NHibernate.Map.OrganizationUnit, DataLayer" table="`orgunit`">
<property name="HierarchyId" column="`ou_hid`" type="NHibernate.UserTypes.HierarchyId, DataLayer" />
...
</class>
</hibernate-mapping>
Object with HierarchyId
namespace NHibernate.Map
{
using Microsoft.SqlServer.Types;
public class OrganizationUnit
{
#region Fields
private SqlHierarchyId _hierarchyId;
...
#endregion Fields
#region Properties
public virtual SqlHierarchyId HierarchyId
{
get { return _hierarchyId; }
set { _hierarchyId = value; }
}
...
#endregion Properties
}
}
Disclaimer: Im not an NHibernate expert, however, we are using it with Fluent in an upcoming project which uses SQL Server 2008 R2 and Hierarchy IDs. The code below is what we are using currently on our dev environment and is not fully tested/refined. I copied the majority of the code from elsewhere (sorry I lost the link!)
You need to create a User Defined Type and then use it in your mappings. The mapping below is Fluent, Im not aware how to do it using ActiveRecord but Im guessing it should be similar!
User Defined Type
namespace YourNamespace {
public class SqlHierarchyIdUserType : IUserType {
public bool Equals(object x, object y) {
if(ReferenceEquals(x, y))
return true;
if(x == null || y == null)
return false;
return x.Equals(y);
}
public int GetHashCode(object x) {
return x.GetHashCode();
}
public object NullSafeGet(IDataReader rs, string[] names, object owner) {
object prop1 = NHibernateUtil.String.NullSafeGet(rs, names[0]);
if(prop1 == null)
return null;
return SqlHierarchyId.Parse(new SqlString(prop1.ToString()));
}
public void NullSafeSet(IDbCommand cmd, object value, int index) {
if(value == null) {
((IDataParameter)cmd.Parameters[index]).Value = DBNull.Value;
} else {
if(value is SqlHierarchyId) {
SqlHierarchyId hId = (SqlHierarchyId)value;
((IDataParameter)cmd.Parameters[index]).Value = hId.ToString();
}
}
}
public object DeepCopy(object value) {
if(value == null)
return null;
var sourceTarget = (SqlHierarchyId)value;
SqlHierarchyId copy = SqlHierarchyId.Parse(sourceTarget.ToString());
return copy;
}
public object Replace(object original, object target, object owner) {
return DeepCopy(original);
}
public object Assemble(object cached, object owner) {
return DeepCopy(cached);
}
public object Disassemble(object value) {
return DeepCopy(value);
}
public SqlType[] SqlTypes {
get { return new[] { NHibernateUtil.String.SqlType }; }
}
public Type ReturnedType {
get { return typeof(SqlHierarchyId); }
}
public bool IsMutable {
get { return true; }
}
}
}
Fluent Mapping
Map(e => e.YourSqlHierarchyIdProperty)
.Column("YourSqlHierarchyIdFieldName")
.CustomType<SqlHierarchyIdUserType>();
Reading this post:
Castle ActiveRecord: Map to IUserType wihtin Class in C#
ActiveRecord uses a [Property] attribute to map User Defined Types. So for you it would look something like this:
public class YourDataObject {
[Property(ColumnType="YourNamespace.SqlHierarchyIdUserType, YourNamespace")
public virtual SqlHierarchyId YourSqlHierarchyIdProperty;
}
Hope it helps!
I'm dealing with a legacy database that has date and time fields as char(8) columns (formatted yyyyMMdd and HH:mm:ss, respectively) in some of the tables. How can i map the 2 char columns to a single .NET DateTime property? I have tried the following, but i get a "can't access setter" error of course because DateTime Date and TimeOfDay properties are read-only:
public class SweetPocoMannaFromHeaven
{
public virtual DateTime? FileCreationDateTime { get; set; }
}
.
mapping.Component<DateTime?>(x => x.FileCreationDateTime,
dt =>
{
dt.Map(x => x.Value.Date,
"file_creation_date");
dt.Map(x => x.Value.TimeOfDay,
"file_creation_time");
});
I have also tried defining a IUserType for DateTime, but i can't figure it out. I've done a ton of googling for an answer, but i can't figure it out still. What is my best option to handle this stupid legacy database convention? A code example would be helpful since there's not much out for documentation on some of these more obscure scenarios.
You need an ICompositeUserType to handle more than one column. You need to beef up the error checking, parsing formats, etc, but here is a starting point for you.
HTH,
Berryl
public class LegacyDateUserType : ICompositeUserType
{
public new bool Equals(object x, object y)
{
if (x == null || y == null) return false;
return ReferenceEquals(x, y) || x.Equals(y);
}
public int GetHashCode(object x) {
return x == null ? typeof (DateTime).GetHashCode() + 473 : x.GetHashCode();
}
public object NullSafeGet(IDataReader dr, string[] names, ISessionImplementor session, object owner)
{
if (dr == null) return null;
var datePortion = NHibernateUtil.String.NullSafeGet(dr, names[0], session, owner) as string;
var timePortion = NHibernateUtil.String.NullSafeGet(dr, names[1], session, owner) as string;
var date = DateTime.Parse(datePortion);
var time = DateTime.Parse(timePortion);
return date.AddTicks(time.Ticks);
}
///<summary>
/// Write an instance of the mapped class to a prepared statement. Implementors
/// should handle possibility of null values. A multi-column type should be written
/// to parameters starting from index.
///</summary>
public void NullSafeSet(IDbCommand cmd, object value, int index, ISessionImplementor session) {
if (value == null) {
// whatever
}
else {
var date = (DateTime) value;
var datePortion = date.ToString("your date format");
NHibernateUtil.String.NullSafeSet(cmd, datePortion, index, session);
var timePortion = date.ToString("your time format");
NHibernateUtil.String.NullSafeSet(cmd, timePortion, index + 1, session);
}
}
public object GetPropertyValue(object component, int property)
{
var date = (DateTime)component;
return property == 0 ? date.ToString("your date format") : date.ToString("your time format");
}
public void SetPropertyValue(object component, int property, object value)
{
throw new NotSupportedException("DateTime is an immutable object.");
}
public object DeepCopy(object value) { return value; }
public object Disassemble(object value, ISessionImplementor session) { return value; }
public object Assemble(object cached, ISessionImplementor session, object owner) { return cached; }
public object Replace(object original, object target, ISessionImplementor session, object owner) { return original; }
///<summary>Get the "property names" that may be used in a query.</summary>
public string[] PropertyNames { get { return new[] { "DATE_PORTION", "TIME_PORTION" }; } }
///<summary>Get the corresponding "property types"</summary>
public IType[] PropertyTypes { get { return new IType[] { NHibernateUtil.String, NHibernateUtil.String }; } }
///<summary>The class returned by NullSafeGet().</summary>
public Type ReturnedClass { get { return typeof(DateTime); } }
///<summary>Are objects of this type mutable?</summary>
public bool IsMutable { get { return false; } }
}
=== fluent mapping (assuming automapping w/override classes) ====
public void Override(AutoMapping<MyClass> m)
{
....
m.Map(x => x.MyDateTime).CustomType<LegacyDateUserType>();
}
I have a SQL Server DB with a recursive table:
MyTable:
ID : string PrimaryKey
Parent: string references MyTable - NOTNULL !!
and map with Fluent NHibernate to
class MyTable
{
public virtual string ID {get; set;}
public virtual MyTable Parent {get; set;}
}
My problem is that Parent should be null in my C# app if the column Parent is "" (empty string) in the database and vice versa. Unfortunately I can't change the column type to accept NULL!
I tried to use IEmptyInterceptor but I don't get it working.
Thanks in advance,
forki
You need to have an IUserType for the primary key column, which does the special NULL value handling.
public MyTableMap()
{
Id(x => x.EntryNo)
// Since the PK is a string, it must be assigned by the application.
.GeneratedBy.Assigned()
.SetAttribute("type", typeof(SpecialNullValueStringType).AssemblyQualifiedName);
References(x => x.Parent);
}
public class SpecialNullValueStringType : IUserType
{
#region IUserType Members
public bool IsMutable
{
get { return false; }
}
public Type ReturnedType
{
get { return typeof(string); }
}
public SqlType[] SqlTypes
{
get { return new[] { NHibernateUtil.String.SqlType }; }
}
public object NullSafeGet(IDataReader rs, string[] names, object owner)
{
var obj = NHibernateUtil.String.NullSafeGet(rs, names[0]);
if (obj == null)
{
return null;
}
var value = (string) obj;
if (String.IsNullOrEmpty(value))
{
return null;
}
return value;
}
public void NullSafeSet(IDbCommand cmd, object value, int index)
{
if (value == null)
{
((IDataParameter) cmd.Parameters[index]).Value = String.Empty;
}
else
{
((IDataParameter) cmd.Parameters[index]).Value = value;
}
}
public object DeepCopy(object value)
{
return value;
}
public object Replace(object original, object target, object owner)
{
return original;
}
public object Assemble(object cached, object owner)
{
return cached;
}
public object Disassemble(object value)
{
return value;
}
public new bool Equals(object x, object y)
{
if (ReferenceEquals(x, y))
{
return true;
}
if (x == null || y == null)
{
return false;
}
return x.Equals(y);
}
public int GetHashCode(object x)
{
return x == null ? typeof(string).GetHashCode() + 473 : x.GetHashCode();
}
#endregion
}
I found a (messy) way to get this working:
public class NullEventListener : IPreUpdateEventListener, IPreInsertEventListener, IPreLoadEventListener
{
#region IPreInsertEventListener Members
public bool OnPreInsert(PreInsertEvent preInsertEvent)
{
var instance = preInsertEvent.Entity as MyTable;
if (instance == null)
return false;
if (instance.Parent == null)
Set(preInsertEvent.Persister, preInsertEvent.State, "Parent", string.Empty);
return false;
}
#endregion
#region IPreLoadEventListener Members
public void OnPreLoad(PreLoadEvent preLoadEvent)
{
var instance = preLoadEvent.Entity as MyTable;
if (instance == null)
return;
try
{
// this is really messy!!
var parent = Get(preLoadEvent.Persister, preLoadEvent.State, "Parent") as MyTable;
if (parent == null || parent.ID == "")
throw new Exception("Set to null");
}
catch (Exception)
{
Set(preLoadEvent.Persister, preLoadEvent.State, "Parent", null);
}
return;
}
#endregion
#region IPreUpdateEventListener Members
public bool OnPreUpdate(PreUpdateEvent preUpdateEvent)
{
var instance = preUpdateEvent.Entity as MyTable;
if (instance == null)
return false;
if (instance.Parent == null)
Set(preUpdateEvent.Persister, preUpdateEvent.State, "Parent", string.Empty);
return false;
}
#endregion
private static void Set(IEntityPersister persister, object[] state, string propertyName, object value)
{
int index = Array.IndexOf(persister.PropertyNames, propertyName);
if (index == -1)
return;
state[index] = value;
}
private static object Get(IEntityPersister persister, object[] state, string propertyName)
{
int index = Array.IndexOf(persister.PropertyNames, propertyName);
if (index == -1)
return null;
return state[index];
}
}
Thanks and regards,
forki
I'd go for a IUserType which would convert empty string to nulls and vice versa. Two methods to pay attention to are NullSafeGet and NullSafeSet.
Not sure though how custom types integrate with Fluent NHibernate.
I tried to implement IUserType for my mapping:
public class MyCustomString : IUserType
{
public Type ReturnedType
{
get { return typeof (MyTable); }
}
public SqlType[] SqlTypes
{
get { return new[] {NHibernateUtil.String.SqlType}; }
}
public object NullSafeGet(IDataReader rs, string[] names, object owner)
{
object obj = NHibernateUtil.String.NullSafeGet(rs, names[0]);
if (obj == null) return null;
var s = (string) obj;
if (s == "")
return null;
using (ISession session = SessionHelper.OpenSession())
{
using (session.BeginTransaction())
{
return MyTable.Get(session, s);
}
}
}
public void NullSafeSet(IDbCommand cmd, object value, int index)
{
((IDataParameter) cmd.Parameters[index]).Value = value == null ? 0 : ((MyTable) value).EntryNo;
}
...
}
and changed the mapping to
public MyTableMap()
{
Id(x => x.EntryNo);
Map(x => x.Parent).CustomTypeIs<MyCustomString>();
// References() doesn't allow CustomTypeIs()
// References(x => x.Parent).CustomTypeIs<MyCustomString>();
}
This seems to work for my root - but it always opens a session to get the right parent.
And it is not lazy - so it always retrieves all parents up to the root :-(
This can't be the right way. I don't want to open a new session - but otherwise I am returning a string and get a runtime type error.
Have you considered using the Null Object Pattern instead?