I am using Entity Framework and Code First to map to a legacy database (I know that if I have the database already built then I should the "Database First" approach, but some how, I fill better putting the annotations by hand than handling control over the designer), in which, there is a table that have a key that point to another table (it is actually a synonym to a table in another db) that works like a foreign key but it not actually defined in the table schema.
The question is: can I force this relation to exist in my POCO classes? can I map this using the Fluent API? is this possible at all?
As usual, thanks in advance!
Sure, you can manually define a foreign key and navigation properties either by fluent mapping or data annotations.
Let's say I have a Parent table with a field CatCode and a synonym CategoryEx that points to a table Category in a second database. Both have corresponding classes and DbSets in one context. The mappings (derived from EntityTypeConfiguration) could look like (the constructors):
public ParentMap()
{
this.HasKey(t => t.Id);
this.HasRequired(p => p.Category).WithMany().HasForeignKey(p => p.CatCode);
...
}
public CategoryMap()
{
this.HasKey(t => t.CatCode);
this.ToTable("CategoryEx");
...
}
where Parent looks like:
public class Parent
{
public int Id { get; set; }
public string Name { get; set; }
public string CatCode { get; set; }
...
public Category Category { get; set; }
}
Related
I have the following entity declared
public class TransactionEvent
{
[Key]
[DatabaseGenerated(DatabaseGeneratedOption.Identity)]
public Guid Id { get; set; }
public virtual List<TransactionSignInError> SignInErrors { get; set; }
}
And the context
public class TransactionAuditsDbContext : DbContext
{
public virtual DbSet<TransactionEvent> TransactionEvents { get; set; }
}
Now when I try to delete a transaction event, I want the relevant SignInError rows to be deleted as well. I realize I can do this by using cascade on delete if I had set that up in the context, too late for that now.
How can I delete successfully a transaction? I'm getting this error.
The DELETE statement conflicted with the REFERENCE constraint "FK_dbo.TransactionSignInErrors_dbo.TransactionEvents_TransactionEvent_Id". The conflict occurred in database "db", table "dbo.TransactionSignInErrors", column 'TransactionEvent_Id'
I have tried clearing the SignInErrors list before deleting, that did get rid of the above error but left NULLs in the TransactionSignInErrors table.
What you want, is "Cascade on Delete": if a TransactionEvent is deleted, then you also want that all its TransactionSignInErrors are deleted.
This works on a one-to-many relation, this does not work on a many-to-many-relation.
If you have a one-to-many relation between TransactionEvents and TransactionSignInErrors, and you followed the entity framework conventions, you will have classes like
public class TransactionEvent
{
public Guid Id { get; set; }
...
// Every TransactionEvent has zero or more TransactionSignInErrors (one-to-many)
public virtual ICollection<TransactionSignInError> SignInErrors { get; set; }
}
public class TransactionSignInError
{
public Guid Id { get; set; }
...
// Every TransactionSignInError belongs to exactly oneTransactionEvent, using foreign key
public Guid TransactionEventId {get; set;}
public virtual TransactionEvent TransactionEvent { get; set; }
}
public class TransactionAuditsDbContext : DbContext
{
public DbSet<TransactionEvent> TransactionEvents { get; set; }
public DbSet<TransactionSignInError> TransactionSignInErrors {get; set;}
}
This is all that entity framework needs to know to detect the tables, the columns in the tables and the one-to-many relation between these two tables.
In entity framework the non virtual properties represent the columns in the table, the virtual properties represent the relations between the tables (one-to-many, many-to-many, ...)
The foreign key TransactionEventId is a real column, hence it is non-virtual. TransactionEvent is not a real column, it only refers to the relation, hence it is declared virtual.
If you stick to the conventions, there is no need for attributes, nor fluent API. Only if you want non-default identifiers for tables, columns, column types or non-default behaviour for table relations, you might need attributes or fluent API.
Default behaviour is cascade on delete: if you delete a TransactionEvent, all its TransactioinSigninErrors are also deleted.
I'm not sure whether your problems arise because you have a GUID as primary key, instead of an int. If you want, you can inform entity framework about your one-to-many relation and cascade on delete in OnModelCreating:
protected override void OnModelCreating (DbModelBuilder modelBuilder)
{
// Every TransactionEvent has zero or more TransactionSignInErrors
// Every TransactionSignInError belongs to exactly one TransactionEvent
// using foreign key TransactionEventId.
// Also: cascade on delete:
modelBuilder.Entity<TransactionEvent>()
.HasMany(transactionEvent => transactionEvent.TransactionSignInErrors)
.WithRequired(transactionSignInError => transactionSignInError.TransactionEvent)
.HasForeignKey(transactionSignInError => transactionSignInError.TransactionEventId)
.WillCascadeOnDelete();
So three major changes to your code:
The DbSets in the DbContext are non-virtual
Added the table TransactionSignInErrors to your DbContext
If that is not enough for CascadeOnDelete (check this first!) add fluent API.
Small change: Use ICollection instead of IList.
Rationale: if you fetch a TransactionEvent with its TransactionSignInErrors, does TransactionEvent.SignInErrors[4] have a defined meaning? Wouldn't it be better if people have no access to methods that they don't know what they really mean?
If you want to use a cascade delete you have to include the children:
var removingRow=_context.Set<TransactionEvent>()
.Include(x=> x.SignInErrors )
.Where(x => x.Id ==id)
.FirstOrDefault();
if(removingRow != null)
{
_context.Remove(removingRow);
_context.SaveChanges();
}
Your post has the tag of entity-framework. I'm not sure how things work with Entity Framework 6 or previous versions, but with Entity Framework Core you can solve your issue like -
var tEvent = dbCtx.TransactionEvents
.Include(p=> p.SignInErrors)
.FirstOrDefault(p => p.Id == id);
foreach (var error in eventx.SignInErrors)
{
dbCtx.SignInErrors.Remove(error);
}
dbCtx.TransactionEvents.Remove(tEvent);
dbCtx.SaveChanges();
Assume I have following database tables with 1:1 mapping
Table dbo.Foo with PrimaryKey FooRowId
Table dbo.Bar with PrimaryKey BarRowId
No foreign keys exist on either table.
Using EF, I defined models as follows.
Modeling Foo table
public class Foo
{
[Key]
public long FooRowId { get; set; }
// Navigation
public virtual Bar Bar { get; set; }
}
Modeling Bar table
public class Bar
{
[Key]
public long BarRowId { get; set; }
// Navigation
public virtual Foo Foo { get; set; }
}
This gives me navigation property related error as follows.
Unable to determine the principal end of an association between the types 'MyOrg.Models.Foo'
and 'MyOrg.Models.Bar'. The principal end of this association must be explicitly
configured using either the relationship fluent API or data annotations.
One way to fix is by standardizing property names as follows.
On Foo
public class Foo
{
[Key]
[Column("FooRowId")]
public long FooId { get; set; }
// Navigation
public virtual Bar Bar { get; set; }
}
On Bar
public class Bar
{
[Key]
[Column("BarRowId")]
public long BarId { get; set; }
// Navigation
public virtual Foo Foo { get; set; }
}
However, requirement states I must keep the original properties FooRowID and BarRowId. Given this constraint, how to make the navigation properties work?
Although Attributes seem easy to use, it limits reuse of your classes in other databases.
Suppose you have created a class BillingAddress according to the standards of your company (country maybe). You want to use this class in two different DbContexts, each to represent their own database. The BillingAddress in database 1 has a primary key in column "MyPrimaryKey", the BillingAddress in database 2 has a primary key in column "Id". You can't solve that using attributes.
The names of columns and tables, the relation between tables is part of the database. Therefore this ought to be described in the DbContext. If you don't use Attributes in the DbSet classes, you'll be able to use the same class in different databases.
So let's write your table design in fluent Api
See:
Fluent API to configure tables, like table name
Fluent API to configure properties, like primary key, column names, foreign keys
Fluent API to configure relations between tables, like one-to-many
Below I give examples for all three categories:
Configure the table name and the primary key of the table
Configure one of the properties: column name
Configure relation between tables, for example one-to-many
Keep in mind: if you use code first, and you stick to the entity framework code first conventions, none of this is needed. As long as you stick to these conventions, Entity Framework will be very capable in detecting primary keys, foreign keys, relations between tables.
But if your tables are different, the following fluent API is needed in your DbContext
protected override void OnModelCreating(DbModelBuilder modelBuilder)
{
// Configure entity table FOO:
var entityFoo = modelBuilder.Entity<Foo>();
// example: configure Name and primary key of foo table
entityFoo.ToTable("MySpecialFooTable");
entifyFoo.HasKey(foo => foo.FooRowId);
// example: configure property Name is in column FooName:
entityFoo.Property(foo => foo.Name).HasColumnName("MyFooName");
// example: one-to-many relation between foo and bar
// every Foo has zero or more Bars in property MyBars,
// every Bar belongs to exactly one For in property MyFoo
// using foreign key MyFooId:
entityFoo.HasMany(foo => foo.MyBars) // Foo has zero or more Bars in MyBars
.WithRequired(bar => bar.MyFoo) // every Bar belongs to one Foo
.HasForeignKey(bar => bar.MyFooId); // using foreign key MyFooId
}
I am using entity framework 4, mvc4 and code first.
I'm struggling with creating an option 1:1 mapping, where the main entity that has the optional 1:1 mapping doesn't have the FK in it:
public class User
{
[Column("user_id")]
public int Id {get;set;}
public virtual House House {get;set;} // optional mapping
}
public class House
{
[Column("house_id")]
public int Id {get;set;}
[Column("user_id")]
public int UserId {get;set;}
}
Notice how the user table doesn't have teh houseId column.
How can I map this correctly?
Note: the below method isn't what i really want to do since it forces me to add a navigational property on the House model also back to User.
I tried this method, although I had to add a virtual property to the House model which I didn't want to do: How do I code an optional one-to-one relationship in EF 4.1 code first with lazy loading and the same primary key on both tables?
So my configuration looks like with the above attempt:
public class UserConfiguration : EntityTypeConfiguration<User>
{
public UserConfiguration()
{
this.ToTable("User", SchemaName);
this.HasKey(x => x.Id);
this.HasOptional(x => x.House);
}
}
public class HouseConfiguration : EntityTypeConfiguration<House>
{
public HouseConfiguration()
{
this.ToTable("House", SchemaName);
this.HasKey(x => x.Id);
this.HasRequired(vc => vc.User).WithRequiredDependent(v => v.House);
}
}
But when I do this, saving the model I get this error:
Cannot insert explicit value for identity column in table 'House' when IDENTITY_INSERT is set to OFF
Note: without the above setup (mapping and configuration), the House entity saves just fine to the database and the identity is setup correctly.
Remove the UserId property from House, remove the this.HasRequired... mapping from the HouseConfiguration constructor and use in UserConfiguration:
this.HasOptional(x => x.House).WithRequired();
This will define a shared primary key association (i.e. House.Id is primary key of House and the foreign key to User at the same time).
If you have an existing database with a separate foreign key column user_id in the House table and this column has a unique key constraint to enforce a one-to-one relation in the database you cannot map this as one-to-one relationship with Entity Framework because EF doesn't support foreign key one-to-one associations.
You would have to map this as one-to-many relationship in this case and unfortunately you can't have a single reference House on the principal User. You would have to use a collection of Housees instead (and ensure in business logic that you never add more than one element to this collection, otherwise upon saving you would get an exception due to a violation of the unique FK constraint in the House table) or no navigation property at all in User. But then you need a navigation reference User in entity House so that EF would be able to map a relationship at all (at least a navigation property on one side of a relationship is always needed).
Can't rollback to EF4, but was only using it in a similar way a while ago, so don't believe this has changed.
You need to set a Key on the House object and set it to DB generated:
using System.ComponentModel.DataAnnotations.Schema
using System.ComponentModel.DataAnnotations
...
public class House
{
[Column("house_id")]
[Key]
[DatabaseGenerated(DatabaseGeneratedOption.Identity)]
public int Id { get; set; }
[Column("user_id")]
public int UserId { get; set; }
}
I'm using entity framework code-first to create my database schema automatically, and one of my entities looks like this:
public class AssessmentsCaseStudies {
#region Persisted fields
[Required]
[Key, Column(Order=0)]
[ForeignKey("Assessment")]
public int AssessmentId { get; set; }
[Required]
[Key, Column(Order=1)]
[ForeignKey("CaseStudy")]
public int CaseStudyId { get; set; }
[Required]
public int Score { get; set; }
[ForeignKey("Follows")]
public int? FollowsCaseStudyId { get; set; }
#endregion
#region Navigation properties
public virtual Assessment Assessment { get; set; }
public virtual CaseStudy CaseStudy { get; set; }
public virtual CaseStudy Follows { get; set; }
#endregion
}
When EF auto-generates my database, it generates a table with the following columns:
AssessmentId (PK, FK, int, not null)
CaseStudyId (PK, FK, int, not null)
Score (int, not null)
FollowsCaseStudyId (FK, int, null)
CaseStudy_CaseStudyId (FK, int, null)
This is all fine apart from the CaseStudy_CaseStudyId column. Why has that been generated? What is it for? How can I stop it being generated? My suspicion is that EF can no longer automatically match up CaseStudy's ICollection<AssessmentsCaseStudies> with the CaseStudyId column, so it creates its own column to link the two together for that navigation property.
Because you have two navigation properties of type CaseStudy in your AssessmentsCaseStudies entity and an AssessmentsCaseStudies collection in your CaseStudy entity EF cannot decide which of the two CaseStudy navigation properties this collection refers to. Both could be possible and both options would result in a valid but different entity model and database schema.
In such an ambiguous situation the EF convention is to create actually three relationships, i.e. your collection in CaseStudy does not refer to any of the two CaseStudy navigation properties but has a third (but not exposed and "invisible") endpoint in AssessmentsCaseStudies. This third relationship is the reason for the third foreign key your are seeing in the database - the one with the underscore. (The underscore is always a strong indication that something happend by mapping convention and not by your explicit configuration or data annotations.)
To fix the problem and to override the convention you can apply the [InverseProperty] attribute, thereby specifying the CaseStudy navigation property the AssessmentsCaseStudies collection belongs to:
[InverseProperty("AssessmentsCaseStudies")] // the collection in CaseStudy entity
public virtual CaseStudy CaseStudy { get; set; }
You can also (alternatively, you don't need both) put the attribute on the collection side:
[InverseProperty("CaseStudy")] // the CaseStudy property in AssessmentsCaseStudies entity
public virtual ICollection<AssessmentsCaseStudies> AssessmentsCaseStudies { get; set; }
For some reason, Slauma's InverseProperty attribute suggestion didn't work. What did work was me specifying the relationship between the two CaseStudy navigation properties in AssessmentsCaseStudies, and the CaseStudy entity, via the Fluent API in my database context's OnModelCreating method:
modelBuilder.Entity<AssessmentsCaseStudies>()
.HasRequired(acs => acs.CaseStudy)
.WithMany(cs => cs.AssessmentsCaseStudies)
.HasForeignKey(acs => acs.CaseStudyId)
.WillCascadeOnDelete(false);
modelBuilder.Entity<AssessmentsCaseStudies>()
.HasOptional(acs => acs.Follows)
.WithMany() // No reverse navigation property
.HasForeignKey(acs => acs.FollowsCaseStudy)
.WillCascadeOnDelete(false);
Once that's added, the migration code that's generated when I Add-Migration no longer tries to add the CaseStudy_CaseStudyId column and I just get the FollowsCaseStudyId column added, with the appropriate foreign key relationship.
For anyone else landing here looking for a solution, if you've tried the previous answers and are still getting an extra foreign key column, look for any properties you may have defined further down your POCO class that you did not intend to map to DB fields. Even if they contain code blocks, as with complex get accessors, Entity Framework will try to map them to the database somehow. This may result in extra foreign key columns if your properties return entities. To be safe, either decorate such properties with the [NotMapped] attribute or convert them to methods.
I've got an application that keeps track of (for the sake of an example) what drinks are available at a given restaurant. My domain model looks like:
class Restaurant {
public IEnumerable<RestaurantDrink> GetRestaurantDrinks() { ... }
//other various properties
}
class RestaurantDrink {
public Restaurant Restaurant { get; set; }
public Drink { get; set; }
public string DrinkVariety { get; set; } //"fountain drink", "bottled", etc.
//other various properties
}
class Drink {
public string Name { get; set; }
public string Manufacturer { get; set; }
//other various properties
}
My db schema is (I hope) about what you'd expect; "RestaurantDrinks" is essentially a mapping table between Restaurants and Drinks with some extra properties (like "DrinkVariety" tacked on).
Using Fluent NHibernate to set up mappings, I've set up a "HasMany" relationship from Restaurants to RestaurantDrinks that causes the latter to be deleted when its parent Restaurant is deleted.
My question is, given that "Drink" does not have any property on it that explicitly references RestaurantDrinks (the relationship only exists in the underlying database), can I set up a mapping that will cause RestaurantDrinks to be deleted if their associated Drink is deleted?
Update: I've been trying to set up the mapping from the "RestaurantDrink" end of things using
References(x => x.Drink)
.Column("DrinkId")
.Cascade.All();
But this doesn't seem to work (I still get an FK violation when deleting a Drink).
The answers to this question suggest that what I want to do isn't possible: how to define an inverse cascade delete on a many-to-one mapping in hibernate