Repository Pattern with Entity Framework 4.1 and Parent/Child Relationships

霸气de小男生 提交于 2019-11-28 13:54:59

问题


I still have some confusion with the Repository Pattern. The primary reason why I want to use this pattern is to avoid calling EF 4.1 specific data access operations from the domain. I'd rather call generic CRUD operations from a IRepository interface. This will make testing easier and if I ever have to change the data access framework in the future, I will be able to do so without refactoring a lot of code.

Here is an example of my situation:

I have 3 tables in the database: Group, Person, and GroupPersonMap. GroupPersonMap is a link table and just consists of the Group and Person primary keys. I created an EF model of the 3 tables with VS 2010 designer. EF was smart enough to assume GroupPersonMap is a link table so it doesn't show it in the designer. I want to use my existing domain objects instead of EF's generated classes so I turn off code generation for the model.

My existing classes that matches the EF model are as follows:

public class Group
{
   public int GroupId { get; set; }
   public string Name { get; set; }

   public virtual ICollection<Person> People { get; set; }
}

public class Person
{
   public int PersonId {get; set; }
   public string FirstName { get; set; }

   public virtual ICollection<Group> Groups { get; set; }
}

I have a generic repository interface like so:

public interface IRepository<T> where T: class
{
    IQueryable<T> GetAll();
    T Add(T entity);
    T Update(T entity);
    void Delete(T entity);
    void Save()
}

and a generic EF repository:

public class EF4Repository<T> : IRepository<T> where T: class
{
    public DbContext Context { get; private set; }
    private DbSet<T> _dbSet;

    public EF4Repository(string connectionString)
    {
        Context = new DbContext(connectionString);
        _dbSet = Context.Set<T>();
    }

    public EF4Repository(DbContext context)
    {
        Context = context;
        _dbSet = Context.Set<T>();
    }

    public IQueryable<T> GetAll()
    {
        // code
    }

    public T Insert(T entity)
    {
        // code
    }

    public T Update(T entity)
    {
        Context.Entry(entity).State = System.Data.EntityState.Modified;
        Context.SaveChanges();
    }

    public void Delete(T entity)
    {
        // code
    }

    public void Save()
    {
        // code
    }
}

Now suppose I just want to map an existing Group to an existing Person. I would have to do something like the following:

        EFRepository<Group> groupRepository = new EFRepository<Group>("name=connString");
        EFRepository<Person> personRepository = new EFRepository<Person>("name=connString");

        var group = groupRepository.GetAll().Where(g => g.GroupId == 5).First();
        var person = personRepository.GetAll().Where(p => p.PersonId == 2).First();

        group.People.Add(person);
        groupRepository.Update(group);

But this doesn't work because EF thinks Person is new, and will try to re-INSERT the Person into the database which will cause a primary key constraint error. I must use DbSet's Attach method to tell EF that the Person already exists in the database so just create a map between Group and Person in the GroupPersonMap table.

So in order to attach Person to the context I must now add an Attach method to my IRepository:

public interface IRepository<T> where T: class
{
    // existing methods
    T Attach(T entity);
}

To fix the primary key constraint error:

EFRepository<Group> groupRepository = new EFRepository<Group>("name=connString");
EFRepository<Person> personRepository = new EFRepository<Person>(groupRepository.Context);

var group = groupRepository.GetAll().Where(g => g.GroupId == 5).First();
var person = personRepository.GetAll().Where(p => p.PersonId == 2).First();

personRepository.Attach(person);
group.People.Add(person);
groupRepository.Update(group);

Fixed. Now I have to deal with another issue where Group is being UPDATE'd in the database every time I create a Group/Person map. This is because in my EFRepository.Update() method, the entity state is explicitly set to Modified'. I must set the Group's state toUnchangedso theGroup` table doesn't get modified.

To fix this I must add some sort of Update overload to my IRepository that does not update the root entity, or Group, in this case:

public interface IRepository<T> where T: class
{
    // existing methods
    T Update(T entity, bool updateRootEntity);
}

The EF4 implentation of the Update method would look something like this:

T Update(T entity, bool updateRootEntity)
{
   if (updateRootEntity)
      Context.Entry(entity).State = System.Data.EntityState.Modified;
   else
      Context.Entry(entity).State = System.Data.EntityState.Unchanged;

    Context.SaveChanges();
}

My question is: Am I approaching this the right way? My Repository is starting to look EF centric as I start to work with EF and the repository pattern. Thanks for reading this long post


回答1:


The primary reason why I want to use this pattern is to avoid calling EF 4.1 specific data access operations from the domain. I'd rather call generic CRUD operations from a IRepository interface. This will make testing easier

No it will not make your testing easier. You exposed IQueryable so your repository is not unit testable.

if I ever have to change the data access framework in the future, I will be able to do so without refactoring a lot of code.

No you will have to change a lot of code anyway because you exposed IQueryable and because EF / ORM is leaky abstraction - your upper layer expects some behavior happens magically inside your ORM (for example lazy loading). Also this is one of the most odd reasons to go for repository. Simply choose the right technology now and use it to get the bets of it. If you have to change it later it means either that you did a mistake and chose the wrong one or requirements have changed - in either case it will be a lot of work.

But this doesn't work because EF thinks Person is new, and will try to re-INSERT the Person into the database which will cause a primary key constraint error.

Yes because you are using a new context for each repository = that is wrong approach. Repositories must share the context. Your second solution is not correct as well because you put your EF dependency back to the application - repository is exposing the context. This is usually solved by second pattern - unit of work. Unit of work wraps the context and unit of work forms the atomic change set - SaveChanges must be exposed on unit of work to commit changes done by all related repositories.

Now I have an issue with the Group being UPDATE'd in the database every time I want to create a Group/Person map.

Why do you change the state? You received entity from the repository so until you detached it there is no reason to call Attach and change the state manually. This all should happen automatically on attached entity. Simply call SaveChanges. If you are using detached entities then you must correctly set state for every entity and relation so in such case you will indeed needs some logic or update overloads to handle all scenarios.

Am I approaching this the right way? My Repository is starting to look EF centric as I start to work with EF and the repository pattern.

I don't think so. First of all you are not using aggregate roots. If you do you would immediately found that generic repository is not suitable for that. Repository for aggregate roots have specific methods per aggregate root to handle working with relations aggregated by the root. Group is not part of Person aggregate but GroupPersonMap should be so your Person repository should have specific methods to handle adding and removing groups from person (but not to create or delete groups themselves). Imo generic repository is redundant layer.



来源:https://stackoverflow.com/questions/7171023/repository-pattern-with-entity-framework-4-1-and-parent-child-relationships

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