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Our company ships a suite of various applications that manipulate data in a database. Each application has its specific business logic, but all applications share a common subset of business rules. The common stuff is incapsulated in a bunch of legacy COM DLLs, written in C++, which use "classic ADO" (they usually call stored procedures, sometimes they use dynamic SQL). Most of these DLLs have XML-based methods (not to mention the proprietary-format-based methods!) to create, edit, delete and retrieve objects, and also extra action such as methods which copy and transform many entities quickly.

The middleware DLLs are now very old, our application developers want a new object-oriented (not xml-oriented) middleware that can be easily used by C# applications. Many people in the company say that we should forget old paradigms and move to new cool stuff such Entity Framework. They are intrigued by the simplicity of POCOs and they would like to use LINQ to retrieve data (The Xml-based query methods of the DLLs are not so easy to use and will never be as flexible as LINQ).

So I'm trying to create a mock-up for a simplified scenario (the real scenario is much more complex, and here I'll post just a simplified subset of the simplified scenario!). I'm using Visual Studio 2010, Entity Framework 5 Code First, SQL Server 2008 R2. Please have mercy if I make stupid mistakes, I'm a newby to Entity Framework. Since I have many different doubts, I'll post them in separate threads. This is the first one. Legacy XML methods have a signature like this:

    bool Edit(string xmlstring, out string errorMessage)

With a format like this:


The Edit method implemented the following business logic: when a Quantity is changed, an "automatic scaling" must be applied to all Orders which have the same Label. E.g. there are three orders: OrderA has quantity = 3, label = X. OrderB has quantity = 4, label = X. OrderC has quantity = 5, label = Y. I call the Edit method supplying a new quantity = 6 for OrderA, i.e. I'm doubling OrderA's quantity. Then, according to the business logic, OrderB's quantity must be automatically doubled, and must become 8, because OrderB and OrderA have the same label. OrderC must not be changed because it has a different label.

How can I replicate this with POCO classes and Entity Framework? It's a problem because the old Edit method can change only one order at a time, while Entity Framework can change a lot of Orders when SaveChanges is called. Furthermore, a single call to SaveChanges can also create new Orders. Temporary assumptions, just for this test: 1) if many Order Quantities are changed at the same time, and the scaling factor is not the same for all of them, NO scaling occurs; 2) newly added Orders are not automatically scaled even if they have the same label of a scaled order.

I tried to implement it by overriding SaveChanges.

POCO class:

using System;

namespace MockOrders
    public class Order
        public Int64 Id { get; set; }
        public string Name { get; set; }
        public string Label { get; set; }
        public decimal Quantity { get; set; }

Migration file (to create indexes):

namespace MockOrders.Migrations
    using System;
    using System.Data.Entity.Migrations;

    public partial class UniqueIndexes : DbMigration
        public override void Up()
            CreateIndex("dbo.Orders", "Name", true /* unique */, "myIndex1_Order_Name_Unique");
            CreateIndex("dbo.Orders", "Label", false /* NOT unique */, "myIndex2_Order_Label");

        public override void Down()
            DropIndex("dbo.Orders", "myIndex2_Order_Label");
            DropIndex("dbo.Orders", "myIndex1_Order_Name_Unique");


using System;
using System.Data.Entity;
using System.Data.Entity.ModelConfiguration;
using System.Linq;

namespace MockOrders
    public class MyContext : DbContext
        public MyContext() : base(GenerateConnection())

        private static string GenerateConnection()
            var sqlBuilder = new System.Data.SqlClient.SqlConnectionStringBuilder();
            sqlBuilder.DataSource = @"localhost\aaaaaa";
            sqlBuilder.InitialCatalog = "aaaaaa";
            sqlBuilder.UserID = "aaaaa";
            sqlBuilder.Password = "aaaaaaaaa!";
            return sqlBuilder.ToString();

        protected override void OnModelCreating(DbModelBuilder modelBuilder)
            modelBuilder.Configurations.Add(new OrderConfig());

        public override int SaveChanges()

            var groupByLabel = from changedEntity in ChangeTracker.Entries<Order>() 
                        where changedEntity.State == System.Data.EntityState.Modified
                                && changedEntity.Property(o => o.Quantity).IsModified
                                && changedEntity.Property(o => o.Quantity).OriginalValue != 0
                                && !String.IsNullOrEmpty(changedEntity.Property(o => o.Label).CurrentValue)
                        group changedEntity by changedEntity.Property(o => o.Label).CurrentValue into x
                        select new { Label = x.Key, List = x};

            foreach (var labeledGroup in groupByLabel)
                var withScalingFactor = from changedEntity in labeledGroup.List 
                    select new 
                        ChangedEntity = changedEntity, 
                        ScalingFactor = changedEntity.Property(o => o.Quantity).CurrentValue / changedEntity.Property(o => o.Quantity).OriginalValue 

                var groupByScalingFactor = from t in withScalingFactor 
                                           group t by t.ScalingFactor into g select g;

                // if there are too many scaling factors for this label, skip automatic scaling
                if (groupByScalingFactor.Count() == 1)
                    decimal scalingFactor = groupByScalingFactor.First().Key;
                    if (scalingFactor != 1)
                        var query = from oo in this.AllTheOrders where oo.Label == labeledGroup.Label select oo;

                        foreach (Order ord in query)
                            if (this.Entry(ord).State != System.Data.EntityState.Modified
                                && this.Entry(ord).State != System.Data.EntityState.Added)
                                ord.Quantity = ord.Quantity * scalingFactor;


            return base.SaveChanges();


        public DbSet<Order> AllTheOrders { get; set; }

    class OrderConfig : EntityTypeConfiguration<Order>
        public OrderConfig()
            Property(o => o.Name).HasMaxLength(200).IsRequired();
            Property(o => o.Label).HasMaxLength(400);

It seems to work (barring bugs of course), but this was an example with just 1 class: a real production application may have hundreds of classes! I'm afraid that in a real scenario, with a lot of constraints and business logic, the override of SaveChanges could quickly become long, cluttered and error-prone. Some colleagues are also concerned about performance. In our legacy DLLs, a lot of business logic (such as "automatic" actions) lives in stored procedures, some colleagues are worried that the SaveChanges-based approach may introduce too many round-trips and hinder performance. In the override of SaveChanges we could also invoke stored procedures, but what about transactional integrity? What if I make changes to the database before I call "base.SaveChanges()", and "base.SaveChanges()" fails?

Is there a different approach? Am I missing something?

Thank you very much!


p.s. By the way, is there a difference between overriding SaveChanges and registering to "SavingChanges" event? I read this document but it does not explain whether there's a difference:

This post: Entity Framework SaveChanges - Customize Behavior?

says that "when overriding SaveChanges you can put custom logic before and AFTER calling base.SaveChanges". But are there other caveats/advantages/drawbacks?

share|improve this question
still up to this ? – NSGaga Apr 7 '13 at 12:40
At the moment the prototype project is stuck, and my boss sent me back to work on the "legacy" stuff: T-SQL stored procedures, native C++ DLLs, extremely thin C# layers based on RCW, and so on (I call them "legacy" libraries, but they need new features and extensions all the time, so for management they are not yet "legacy"). But sooner or later I will have to face Entity Framework again. So yes, the question is still open... – Demetrio78 Apr 8 '13 at 6:44
do you think code first is the best approach in this case? Whouldn't a model first approach suit your case better? you could call the stored procedures directly instead of using the save changes. Having a partial class for each entity that can be saved with a Save() method that calls the appropriate store. – KinSlayerUY Apr 8 '13 at 14:04
@KinSlayerUY, maybe your idea is better, but unfortunately the "model first" does not support automatic migrations, a very useful feature we'd like to leverage. – Demetrio78 Apr 8 '13 at 14:46

2 Answers 2

up vote 1 down vote accepted

I'd say this logic belongs either in your MockOrders.Order class, in a class from a higher layer which uses your Order class (e.g. BusinessLogic.Order) or in a Label class. Sounds like your label acts as a joining attribute so, without knowing the particulars, I'd say pull it out and make it an entity of its own, this will give you navigation properties so you can more naturally access all Orders with the same label.

If modifying the DB to normalise out Labels is not a goer, build a view and bring that into your entity model for this purpose.

share|improve this answer
"Sounds like your label acts as a joining attribute" of course it does, but I posted an oversimplified example trying to concentrate stuff in 1 class. The problem philosophy would have not been so much different with e.g. an OrderGroup class collecting Order objects in a list. "so you can more naturally access all Orders with the same label" the problem is not accessing all orders with the same label, the problem is: when an Order is changed, a change to all Orders in the group must be automatically applied according to a specific business logic. – Demetrio78 Apr 11 '13 at 9:49
"this logic belongs (...) in a class from a higher layer which uses your Order class (e.g.BusinessLogic.Order)" I'm starting to think that I'm completely missing the point about how EF is supposed to be used.Maybe I should not expose EF classes (such as my DbContext-derived class) DIRECTLY to applications, should I? There are strong debates on IQueryable such as (…) or (…) but what about DbContext objects? – Demetrio78 Apr 11 '13 at 10:01
I found this (…), I'll read related links... BTW, thanks a lot for your reply. – Demetrio78 Apr 11 '13 at 10:14
Since there are no other comments or answers, I'll accept this one. Thank you! – Demetrio78 Jul 11 '13 at 6:33
Sorry, I never replied to you. I would veer away from coupling your higher level "application" code to your data persistence technology. If you do this and, say, it turns out that the performance of EF is not up to scratch, you'll have a headache swapping in another persistance technology. Domain is king here, if you define some interfaces which your data persistence layer will need to implement, consume those interfaces in a domain layer and inject the implementing classes you'll be in good shape for a long time to come. – A Aiston Jul 11 '13 at 10:37

I've had to do something similar, but I've created an IPrepForSave interface, and implemented that interface for any entities that need to do some business logic before they're saved.

The interface (pardon the VB.NET):

Public Interface IPrepForSave
    Sub PrepForSave()
End Interface

The dbContext.SaveChanges override:

Public Overloads Overrides Function SaveChanges() As Integer

    '** Any entities that implement IPrepForSave should have their PrepForSave method called before saving.
    Dim changedEntitiesToPrep = From br In ChangeTracker.Entries(Of IPrepForSave)()
                                Where br.State = EntityState.Added OrElse br.State = EntityState.Modified
                                Select br.Entity

    For Each br In changedEntitiesToPrep

    Return MyBase.SaveChanges()
End Function

And then I can keep the business logic in the Entity itself, in the implemented PrepForSave() method:

Partial Public Class MyEntity
    Implements IPrepForSave

    Public Sub PrepForSave() Implements IPrepForSave.PrepForSave
        'Do Stuff Here...
    End Sub

End Class

Note that I place some restrictions on what can be done in the PrepForSave() method:

  1. Any changes to the entity cannot make the entity validation logic fail, because this will be called after the validation logic is called.
  2. Database access should be kept to a minimum, and should be read-only.
  3. Any entities that don't need to do business logic before saving should not implement this interface.
share|improve this answer

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