Last post showed a very simple database setup with a Person, a Customer and an Employee-table. They were mapped to different classes in what is called a Table per Type mapping.

A different kind of mapping strategy is the Table Per Hierarchy mapping, where all the types in your hierarchy are mapped to the same table. In many cases your dba will not understand why there should be different tables for information that can clearly be represented within the same table! For instance, different types of employees (developer, manager, architects) will certainly re-use the employee table, where very often a column is added to differentiate between these types.

Far be it from me to disagree with such a database-schema. It makes perfect sense and is a clear example of the Object relational impedance mismatch. The domain-model needs to break free of these kinds of reasoning and needs to define it's own hierarchy.
It can do so by leveraging the column that was added to diffentiate between types. In OR-Mapping, it is called a discriminator column, as the system can use it to discriminate between different the class-type it should use.

I added a number of fun classes to the model, that represent developers: Einstein, Elvis and Mort. In this company, each inherits properties from the other, in a possibly unexpected way
There is also the Business analist and a Tester.

All these types have properties that are mapped to the same table. However, as your dba has come to understand, the different types of employees do differ a little and in time this has led to the introduction of a few extra columns in the employee table: 'ProgrammingLanguage' and 'TestMethodology'. Too bad these have to be nullable, because they don't make sense in all cases!
Also, the functionname column of the previous post was changed to functiontype (int) and will act as the discriminator.

Our database now looks like this:

Nothing fancy here.

To create the conceptual model, I could use the designer. Again, if I update from the database, the model becomes useless, but editing the SSDL was easy enough in this case.
Adding the new entities in the model designer was also easy:

• There should not be a scalar property 'FunctionType' in the model. The discriminator works behind the scenes, and that is a good thing! As a user of the domain model, you should not need to know about it.
• Only when you delete that property, can it be used as a 'condition', which basically is the condition that EF uses to see which class-type it should instantiate.
• To map the condition, you need to map the various types to the employee table, even though they are already mapped through their parent 'Employee'!! No properties need to be mapped though.
• When adding the condition, a value can be set. When you set the value, the designer does make an error in the xml which you will have to fix yourself!! So, when I wanted the type 'Einstein' to have the condition 'FunctionType = 1', I let the designer create it, and went to the line the build error indicates as being wrong. There I changed some weird value like '_x3301' to just '1'.

The model now looks like this:

Using the following test code:

....

Einstein smartNerd = new Einstein();
smartNerd.Firstname = "Albert";
smartNerd.Lastname = "Einstein";
smartNerd.Language = "C# 3.5";
context.AddToPerson(smartNerd);

Elvis elvis = new Elvis();
elvis.Firstname = "Elvis";
elvis.Lastname = "Presley";
elvis.Language = "C# 2.0";
context.AddToPerson(elvis);

Mort mort = new Mort();
mort.Firstname = "Mort";
mort.Lastname = "Builder";
mort.Language = "VB.Net";
context.AddToPerson(mort);

BusinessAnalist George = new BusinessAnalist();
George.Firstname = "George";
George.Lastname = "Clooney";
context.AddToPerson(George);

Tester tester = new Tester();
tester.Firstname = "UnitTests";
tester.Lastname = "Rock";
tester.Methodology = "TMap";
context.AddToPerson(tester);

....

I got the following expected outcome:

Ian, Mort is a Employee
Albert, Einstein is a Einstein
Ruurd, Boeke is a Person
Silvia, Banana is a Customer
George, Clooney is a BusinessAnalist
UnitTests, Rock is a Tester
Elvis, Presley is a Elvis
Mort, Builder is a Mort

The employee table was filled like this:

55 0 NULL NULL
56 1 C# 3.5 NULL
59 4 NULL NULL
60 5 NULL TMap
61 2 C# 2.0 NULL
62 3 VB.Net NULL

So, that's all there is to it.
Hopefully the data-team will fix the mapping bug in the next ctp!

Next up, I will mix it up just a bit.

I'm going to jump right into the Entity Framework here, with a simple how-to. If you want a gentle introduction into this technology, you can probably read some future posts, but you will be far better off reading the ADO.Net teamblog or better still, read all of the entries of Danny Simmons.

An OR-mapper needs to be flexible in mapping your domain classes, so you can describe your domain as truthfully as possible. The entity framework positions itself to be more than an OR-Mapper: it sees itself as a translation technology between models. One of those models is defined by your database, the other by your domain (your conceptual model). It's interesting to see what types of inheritance are possible. In this post I will give a sample of the Table Per Type (TPT) inheritance, where you define an inheritance in your conceptual model and use different tables to persist the data.

The way to implement this is fairly straightforward and documented, however, I certainly had some problems getting it to work. As did Scott Allen, so I thought I would create a small walk through for this scenario.

As you can see, my database (SqlExpress) has 3 tables. The 'Person' table, a customer table and an employee table. There are foreign key relations between them, with the Person table being the Primary/Unique Key Base Table and the Customer and Employee tables being the Foreign Key Base Tables. It is important to note that the PersonID column is set up to automatically generate ID's, and the CustomerID and EmployeeID columns are not: we want to create a situation where an object like Customer is persisted to these two tables (customer and person) and the Person table is the one supplying a new ID. The Customer table will just use that PersonID as it's own CustomerID.

That concludes the database schema, next up is the conceptual model, ugh, I mean domain model:

This is how I want to my conceptual model to look like.  

When you have just generated the model from the database, the foreign key relations are visible. Remove them! Then, also remove the CustomerID and EmployeeID properties that were generated. Add the two inheritance links.
Since Customer already maps to Person (through the inheritance) you do not have to map these again. You do have to add a mapping to the customer table. The key point here is that the CustomerID column needs to be mapped to the PersonID property. Same goes for Employee.

Now, this is all there is to it. Before we dive into the XML generated, let me just point this out: when you update from the database again, the designer will fail. This is a major problem, where the synchronization just isn't good enough. It will encounter problems with the foreign key associations that it has recreated. I hope this gets fixed in the following CTP.

Now, although deceptively easy through the designer, I have a gut-feeling that it's going to be best to actually understand all the XML mapping that is generated. Just like the WPF and WF designers immediately made me turn to learning Xaml and Xoml, I feel that this designer is going to force me to learn CSDL and CS mapping pretty quickly.

When opening the edmx file with the XML editor, quickly use ctrl-E-F to format everything. The designer creates very long lines.
The SSDL content is unimportant, since it represents the database and should not be tinkered with here.
The CSDL is as follows:

    <edmx:ConceptualModels>
      <Schema Namespace="EntityFrameworkTestModel1" Alias="Self" xmlns="http://schemas.microsoft.com/ado/2006/04/edm">
        <EntityContainer Name="EntityFrameworkTestEntities4">
          <EntitySet Name="Person" EntityType="EntityFrameworkTestModel1.Person" />
        </EntityContainer>
        <EntityType Name="Customer" BaseType="EntityFrameworkTestModel1.Person">
          <Property Name="CustomerDiscount" Type="Int32" Nullable="false" />
        </EntityType>
        <EntityType Name="Employee" BaseType="EntityFrameworkTestModel1.Person">
          <Property Name="FunctionName" Type="String" Nullable="false" MaxLength="50" />
        </EntityType>
        <EntityType Name="Person">
          <Key>
            <PropertyRef Name="PersonID" />
          </Key>
          <Property Name="PersonID" Type="Int32" Nullable="false" />
          <Property Name="Firstname" Type="String" Nullable="false" MaxLength="50" />
          <Property Name="Lastname" Type="String" Nullable="false" MaxLength="50" />
        </EntityType>
      </Schema>
    </edmx:ConceptualModels>

Note a container with only one set: the Person set. Then the three types are defined. Only the Person type has a key identified, the Customer and the Employee do not!

The C-S mapping then, glues this model to the SSDL:

      <Mapping Space="C-S" xmlns="urn:schemas-microsoft-com:windows:storage:mapping:CS">
        <EntityContainerMapping StorageEntityContainer="dbo" CdmEntityContainer="EntityFrameworkTestEntities4">
          <EntitySetMapping Name="Person">
            <EntityTypeMapping TypeName="IsTypeOf(EntityFrameworkTestModel1.Person)">
              <MappingFragment StoreEntitySet="Person">
                <ScalarProperty Name="PersonID" ColumnName="PersonID" />
                <ScalarProperty Name="Firstname" ColumnName="Firstname" />
                <ScalarProperty Name="Lastname" ColumnName="Lastname" />
              </MappingFragment>
            </EntityTypeMapping>
            <EntityTypeMapping TypeName="IsTypeOf(EntityFrameworkTestModel1.Customer)">
              <MappingFragment StoreEntitySet="Customer">
                <ScalarProperty Name="PersonID" ColumnName="CustomerID" />
                <ScalarProperty Name="CustomerDiscount" ColumnName="CustomerDiscount" />
              </MappingFragment>
            </EntityTypeMapping>
            <EntityTypeMapping TypeName="IsTypeOf(EntityFrameworkTestModel1.Employee)">
              <MappingFragment StoreEntitySet="Employee">
                <ScalarProperty Name="PersonID" ColumnName="EmployeeID" />
                <ScalarProperty Name="FunctionName" ColumnName="FunctionName" />
              </MappingFragment>
            </EntityTypeMapping>
          </EntitySetMapping>
        </EntityContainerMapping>
      </Mapping>

Here we see the PersonID being mapped to either the CustomerID column or the EmployeeID column. Interesting!

In code, this allows us to do the following:

EntityFrameworkTestEntities4 context = new EntityFrameworkTestEntities4();


// inserting some
Person p = new Person();
p.Firstname = "Ruurd";
p.Lastname = "Boeke";
context.AddToPerson(p);

Customer c = new Customer();
c.Firstname = "Silvia";
c.Lastname = "Banana";
c.CustomerDiscount = 10;
context.AddToPerson(c);

Employee e = new Employee();
e.Firstname = "Ian";
e.Lastname = "Mort";
e.FunctionName = "Developer";
context.AddToPerson(e);

context.SaveChanges();

IQueryable<Person> persons =
from person in context.Person
select person;

foreach (Person person in persons)
{
Console.WriteLine("{0}, {1} is a {2}",
person.Firstname, person.Lastname, person.GetType().Name);
}

Console.ReadLine();

Did you notice that the context was first saved, before the Linq query was executed? It's easy to forget, but the query is executed on the database, not on a Union of objects in the database and in the context.

The output is as expected:

Ruurd, Boeke is a Person
Silvia, Banana is a Customer
Ian, Mort is a Employee

What I really like about this mapping strategy, is the fact that no discriminator column was needed. The system knows that an employee is an employee because of the existence of the record in the employee table. Let's quickly look at the generated query

SELECT
CASE WHEN (( NOT (([UnionAll1].[C2] = 1) AND ([UnionAll1].[C2] IS NOT NULL))) AND ( NOT (([UnionAll1].[C3] = 1) AND ([UnionAll1].[C3] IS NOT NULL)))) THEN '0X' WHEN (([UnionAll1].[C2] = 1) AND ([UnionAll1].[C2] IS NOT NULL)) THEN '0X0X' ELSE '0X1X' END AS [C1],
[Extent1].[PersonID] AS [PersonID],
[Extent1].[Firstname] AS [Firstname],
[Extent1].[Lastname] AS [Lastname],
CASE WHEN (( NOT (([UnionAll1].[C2] = 1) AND ([UnionAll1].[C2] IS NOT NULL))) AND ( NOT (([UnionAll1].[C3] = 1) AND ([UnionAll1].[C3] IS NOT NULL)))) THEN CAST(NULL AS int) WHEN (([UnionAll1].[C2] = 1) AND ([UnionAll1].[C2] IS NOT NULL)) THEN [UnionAll1].[CustomerDiscount] END AS [C2],
CASE WHEN (( NOT (([UnionAll1].[C2] = 1) AND ([UnionAll1].[C2] IS NOT NULL))) AND ( NOT (([UnionAll1].[C3] = 1) AND ([UnionAll1].[C3] IS NOT NULL)))) THEN CAST(NULL AS nvarchar(50)) WHEN (([UnionAll1].[C2] = 1) AND ([UnionAll1].[C2] IS NOT NULL)) THEN CAST(NULL AS nvarchar(50)) ELSE CAST( [UnionAll1].[C1] AS nvarchar(50)) END AS [C3]
FROM [dbo].[Person] AS [Extent1]
LEFT OUTER JOIN (SELECT
    [Extent2].[CustomerID] AS [CustomerID],
    [Extent2].[CustomerDiscount] AS [CustomerDiscount],
    CAST(NULL AS nvarchar(max)) AS [C1],
    cast(1 as bit) AS [C2],
    cast(0 as bit) AS [C3]
    FROM [dbo].[Customer] AS [Extent2]
UNION ALL
    SELECT
    [Extent3].[EmployeeID] AS [EmployeeID],
    CAST(NULL AS int) AS [C1],
    [Extent3].[FunctionName] AS [FunctionName],
    cast(0 as bit) AS [C2],
    cast(1 as bit) AS [C3]
    FROM [dbo].[Employee] AS [Extent3]) AS [UnionAll1] ON [Extent1].[PersonID] = [UnionAll1].[CustomerID]

A left outer join was done with a union of customer and employee. Also note the CASE statements in the main select statement.
I leave it up to you to decide if such SQL statements are okay in your environment. I see no problem with them but I can see them growing pretty fast.

Let's take a look at what happens if you only want your customers. The following Linq expression can be used:

IQueryable<Customer> customers =
from customer in context.Person.OfType<Customer>()
select customer;

When executed, the following SQL is executed:

SELECT
'0X0X' AS [C1],
[Extent1].[CustomerID] AS [CustomerID],
[Extent2].[Firstname] AS [Firstname],
[Extent2].[Lastname] AS [Lastname],
[Extent1].[CustomerDiscount] AS [CustomerDiscount]
FROM [dbo].[Customer] AS [Extent1]
INNER JOIN [dbo].[Person] AS [Extent2] ON [Extent1].[CustomerID] = [Extent2].[PersonID]

All in all very straightforward.

I have been on the same project for a long time, and it has given me many opportunities that I am very thankful for:

• Big time WPF experience. The project was one of the first big WPF projects, starting out when WPF was called Avalon. I have gained a deep insight in the technology and I am very happy to say that I really love it. Yes, it has it's flaws and sometimes feels 'beta-like' still, but it has great potential and is fun to work with.
• WF experience. I was able to do some great stuff with WF and I view WF as a major step forward for business proces modelling. However, it does have it's downfalls , and I am looking forward to the next version to correct those. Having said that, for specific scenario's, WF is really the way to go, even at this moment.
• Architecture: I was able to shape the project using these great technologies and I was given a great team of people to implement it with.

However, it's time for a new challenge now! I'm taking some serious time off to relax and look into new technologies. I'm very interested in the Entity Framework. I haven't blogged about these things for a long time, because I was totally into WPF, but I feel a strong desire to start poking at the framework. I also hope to spend some time looking into F# and all the dynamic language stuff that's been hitting us lately (the DLR). Obviously, I'll take a look at Silverlight, potentially the best thing ever to come out of Redmond. I hope it lives up to expectations!

After my little sabbatical, I will be interested in helping out with new projects. Especially if they are working with .net 3.5. Let me know if you have any projects coming up by emailing me.

First up though, u can expect some newbie posts about the Entity Framework!

Best wishes for the new year.

Some might remember that I was amongst the first to b*tch about not having a datepicker for wpf. Kevin Moore did his trick, and published a datepicker a long time ago. I'm very happy to see that a rich community is building around wpf. That has led to these two datepickers:

• Farsi Library FX by Hadi Eskandari (here)
• The datepicker from wpf contrib by Marlon (here)

Have fun with these!!