Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I have a model hierarchy configuration like so:

[Table("A")]
abstract class A { }

class B : A { } // treated as abstract

[Table("C")]
class C : B { }

This results in a TPH for A and B, and a TPT for C. So far this seems to work fine. There are two database tables being generated: "A" which contains both A and B model records, and "C" which contains only C model record columns not already kept in table "A".

For the TPH arrangement on Table A, there is a generated "Discriminator" column, which EF CF creates on its own to distinguish type A vs type B. This column is fine and expected; however, I would like to rename it. For this post's sake, the new name might be "Type".

The tutorials that document how to do this appear to suggest this:

modelBuilder.Entity<A>()
   .Map<B>(m=>m.Requires("Type").HasValue(typeof(B).Name))
   .Map<C>(m=>m.Requires("Type").HasValue(typeof(C).Name));

This does not seem to work, though, as I get a runtime error during database generation saying that the models of types A, B, and C are being added to the same table, and, "Mapping conditions can be used to distinguish the rows that these types are mapped to." (Whatever this means.)

I also tried:

modelBuilder.Entity<A>()
    .Map<B>(m=>m.Requires("Type"))
    .Map<C>(m=>m.Requires("Type"));

.. as well as ..

modelBuilder.Entity<A>().Map(m=>m.Requires("Type"));

.. and even though these attempts compile and produce no runtime errors, there seems to be no effect, as the Discriminator column remains as "Discriminator".

I tried to create a new string property on A called "Discriminator", to which I was going to subsequently rename the property's column metadata, but that just gave me two "Discriminator" columns: "Discriminator" and "Discriminator1".

Ideas?

share|improve this question
add comment

2 Answers 2

You cannot map discriminator for C because it is not part of your TPH hierarchy. Try just this:

modelBuilder.Entity<A>()
            .Map<B>(m=>m.Requires("Type").HasValue(typeof(B).Name));
share|improve this answer
    
Trying what you shared for both of two B entities (and excluding C in said .Map()'ing) results in the same thing: "(36,10) : error 3032: Problem in mapping fragments starting at lines 28, 36:EntityTypes B, B2, C are being mapped to the same rows in table A. Mapping conditions can be used to distinguish the rows that these types are mapped to." –  stimpy77 Jul 11 '11 at 9:14
    
Well, I played with this whole evening and this is quite challenging - I got very close with two mappings but it produced other error at the end. Btw. your C is not mapped with TPC but with TPT inheritance and you should probably consider not combining these inheritance types together - especially if you mentioned that B is like abstract entity. –  Ladislav Mrnka Jul 11 '11 at 22:15
    
you're absolutely right it's TPT, don't know why I said TPC... fixed... –  stimpy77 Jul 13 '11 at 7:29
add comment

Not strictly an answer but just confirmation that the approach should work...

I have just managed to rename the discriminator field in a TPH structure we're using. The hierarchy has an enum value to distinguish types.
A is the base class, B is a slightly more refined version, C,D and E are the concrete classes.

class A
class B : A
class C : B
class D : B
class E : A

modelBuilder.Entity<A>()
            .Map<B>(m => m.Requires("TypeId").HasValue((int)MyType.ClassB))
            .Map<C>(m => m.Requires("TypeId").HasValue((int)MyType.ClassC))
            .Map<D>(m => m.Requires("TypeId").HasValue((int)MyType.ClassD))
            .Map<E>(m => m.Requires("TypeId").HasValue((int)MyType.ClassE));

I had to remember to include every derived class type even if it was never used as a concrete class. Originally I forgot to include B as I was thinking it was not required and the discriminator field would keep appearing.

I can imagine EF getting a little confused if you try to map your C class even though it is in a different table.

The error message you mention in your comment sounds like some of the HasValue requirements are producing the same value for different class types - perhaps.

Edit:
Just read this which seems to deal with the same error message.

share|improve this answer
    
Great, so unless the trick is to use an int as the discriminator, I guess I'm missing something in my question. I already restarted the entire project to clean out extra junk so that I can cleanly diagnose EF CF hierarchies. I'll follow up on this tonight or later this week. –  stimpy77 Jul 11 '11 at 18:31
    
Did you say that you actually added data to the generated schema, or just generated the schema? With subtle tweaks I sometimes get errors when generating the schema but sometimes don't get errors until I start adding data ('C' type records), either way I always get an error in the long run. I still haven't tried it with int but I'm still doubtful it matters. –  stimpy77 Jul 13 '11 at 9:44
    
I didn't say - but "yes" we've added data. We have a parent class that contains a single List<A> of children and we add instances of C, D, E classes to the list. With the above code in OnModelCreating it all seems to work just fine. –  shunty Jul 14 '11 at 14:54
add comment

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.