I am in the process of converting our internal web application from Linq-To-Sql to EF CodeFirst from an existing database. I have been getting annoyed with Linq-To-Sql's limitations more and more lately, and having to update the edmx after updating a very intertwined database table finally frustrated me enough to switch to EF.

However, I am encountering several situations where using linq with Linq-To-Sql is more powerful than the latest Entity Framework, and I am wondering if anyone knows the reasoning for it? Most of this seems to deal with transformations. For example, the following query works in L2S but not in EF:

        var client = (from c in _context.Clients
                      where c.id == id
                      select ClientViewModel.ConvertFromEntity(c)).First();

In L2S, this correctly retrieves a client from the database and converts it into a ClientViewModel type, but in EF this exceptions saying that Linq to Entities does not recognize the method (which makes sense as I wrote it.

In order to get this working in EF I have to move the select to after the First() call.

Another example is my query to retrieve a list of clients. In my query I transform it into an anonymous structure to be converted into JSON:

        var clients = (from c in _context.Clients
                       orderby c.name ascending
                       select new
                           id = c.id,
                           name = c.name,
                           versionString = Utils.GetVersionString(c.ProdVersion),
                           versionName = c.ProdVersion.name,
                           date = c.prod_deploy_date.ToString()

Not only does my Utils.GetVersionString() method cause an unsupported method exception in EF, the c.prod_deploy_date.ToString() causes one too and it's a simple DateTime. Like previously, in order to fix it I had to do my select transformation after ToList().

Edit: Another case I just came across is that EF cannot handle where clauses that compare entities where as L2S has no issues for with it. For example the query

context.TfsWorkItemTags.Where(x => x.TfsWorkItem == TfsWorkItemEntity).ToList()

throws an exception and instead I have to do

context.TfsWorkItemTags.Where(x => x.TfsWorkItem.id == tfsWorkItemEntity.id).ToList() 

Edit 2: I wanted to add another issue that I found. Apparently you can't use arrays in EF Linq queries, and this probably annoys me more than anything. So for example, right now I convert an entity that denotes a version into an int[4] and try to query on it. In Linq-to-Sql I used the following query:

return context.ReleaseVersions.Where(x => x.major_version == ver[0] && x.minor_version == ver[1]
                                          && x.build_version == ver[2] && x.revision_version == ver[3])
                              .Count() > 0;

This fails with the following exception:

The LINQ expression node type 'ArrayIndex' is not supported in LINQ to Entities.

Edit 3: I found another instance of EF's bad Linq implementation. The following is a query that works in L2S but doesn't in EF 4.1:

        DateTime curDate = DateTime.Now.Date;
        var reqs = _context.TestRequests.Where(x => DateTime.Now > (curDate + x.scheduled_time.Value)).ToList();

This throws an ArgumentException with the message DbArithmeticExpression arguments must have a numeric common type.

Why does it seem like they downgraded the ability for Linq queries in EF than in L2S?

  • I've had some fairly complex queries in L2S that i've tested converting to L2E, the SQL L2E generated was horrible. So right now im sticking with L2S.
    – Magnus
    Jun 20, 2011 at 16:10
  • This seems more like a rant disguised a questions.
    – cadrell0
    Feb 27, 2012 at 20:54
  • No, it was a real question as I was genuinely interested in why the linq capabilities would be so limited from one generation to another.
    – KallDrexx
    Feb 27, 2012 at 21:33
  • As DevPrime pointed out much more thoroughly below, it matters how you write the query. In your first example, it is wrong, because your method ConvertFromEntity is not part of the SQL provider. You are absolutely limited to the sql provider until you enumerate your query, which is what First() does, and why you can execute your method after the call. If you want to do anything custom, you will pretty much need to enumerate your query to an object or a list before applying it with EF.
    – tap
    Mar 13, 2012 at 14:36

3 Answers 3


Edit (9/2/2012): Updated to reflect .NET 4.5 and added few more missing features

This is not the answer - it cannot be because the only qualified person who can answer your question is probably a product manager from ADO.NET team.

If you check feature set of old datasets then linq-to-sql and then EF you will find that critical features are removed in newer APIs because newer APIs are developed in much shorter times with big effort to deliver new fancy features.

Just list of some critical features available in DataSets but not available in later APIs:

  • Batch processing
  • Unique keys

Features available in Linq-to-Sql but not supported in EF (perhaps the list is not fully correct, I haven't used L2S for a long time):

  • Logging database activity
  • Lazy loaded properties
  • Left outer join (DefaultIfEmpty) since the first version (EF has it since EFv4)
  • Global eager loading definitions
  • AssociateWith - for example conditions for eager loaded data
  • Code first since the first version
  • IMultipleResults supporting stored procedures returning multiple result sets (EF has it in .NET 4.5 but there is no designer support for this feature)
  • Support for table valued functions (EF has this in .NET 4.5)
  • And some others

Now we can list features available in EF ObjectContext API (EFv4) and missing in DbContext API (EFv4.1):

  • Mapping stored procedures
  • Conditional mapping
  • Mapping database functions
  • Defining queries, QueryViews, Model defined functions
  • ESQL is not available unless you convert DbContext back to ObjectContext
  • Manipulating state of independent relationships is not possible unless you convert DbContext back to ObjectContext
  • Using MergeOption.OverwriteChanges and MergeOption.PreserveChanges is not possible unless you convert DbContext back to ObjectContext
  • And some others

My personal feeling about this is only big sadness. Core features are missing and features existing in previous APIs are removed because ADO.NET team obviously doesn't have enough resources to reimplement them - this makes migration path in many cases almost impossible. The whole situation is even worse because missing features or migration obstacles are not directly listed (I'm afraid even ADO.NET team doesn't know about them until somebody reports them).

Because of that I think that whole idea of DbContext API was management failure. At the moment ADO.NET team must maintain two APIs - DbContext is not mature to replace ObjectContext and it actually can't because it is just a wrapper and because of that ObjectContext cannot die. Resources available for EF development was most probably halved.

There are more problems related. Once we leave ADO.NET team and look on the problem from the perspective of MS product suite we will see so many discrepancies that I sometimes even wonder if there is any global strategy.

Simply live with the fact that EF's provider works in different way and queries which worked in Linq-to-sql don't have to work with EF.

  • I'm probably going to mark this as the answer, since I guess there can't be an answer. The more I try to do with this the more frustrated I get, as I keep finding more queries that don't work in EF 4.1.
    – KallDrexx
    Jun 21, 2011 at 18:21
  • You can still get access to the ObjectContext from the DbContext. It isn't gone in 4.1 It's just hidden away to make it easier to use for people who don't need and might not understand the implications of the intricacies of the ObjectContext. (See: thedatafarm.com/blog/data-access/…) Feb 24, 2012 at 15:05
  • @jesse: I mentioned this possibility multiple times in my answer when I referred to converting DbContext back to ObjectContext but that wasn't really the main point of the answer. Feb 24, 2012 at 15:13
  • For those landing on this answer today, it's worth mentioning most of these missing features are now available in EF5.0 Code First - for example, lazy-loaded properties is easy to switch on at a design level. Sep 20, 2013 at 20:37

A little late to the game, but I found this post while searching for something else, and figured that I'd post an answer to the fundamental questions in the original post, which mostly boil down to "LINQ to SQL allows Expression [x], but EF doesn't".

The answer is that the query provider (the code that translates your LINQ expression tree into something that actually executes and returns an enumerable set of stuff) is fundamentally different between L2S and EF. To understand why, you have to realize that another fundamental difference between L2S and EF is that L2S is table-based and EF is entity-model-based. In other words, EF works with conceptual entity models, and knows that the underlying physical model (the DB tables) don't necessarily reflect conceptual entities. This is because tables are normalized/denormalized, and have weird ways of dealing with entity type generalization (inheritance). So in EF, you have a picture of the conceptual model (which is the objects you code against in VB/C#, etc.) and a mapping to the physical underlying table(s) that comprise your conceptual entities. L2S does not do this. Every "model entity" in L2S is strictly a single table, with exactly the table fields as-is.

So far, that in and of itself doesn't really explain the problems in the original post, but hopefully, you can begin to appreciate that fundamentally, EF is not L2S+ or L2S v4.0. It's a very different kind of product (a real ORM) even though there is some coincidental overlap in the fact that both use LINQ to get at database data.

One other interesting difference is that EF was built from the ground up to be DB-agnostic, whereas L2S only works against MS SQL Server (although anyone who's sniffed around the L2S code deep enough will see that there are some underpinnings to allow different DBs, but in the end, it was tied to MS SQL Server only). This difference also plays a big role in why some expressions work in L2S LINQ, but not in EF LINQ. EF's query provider deals with canonical DB expressions, which in plain english means LINQ expressions that have SQL query equivalents in nearly all relational databases out there. The underlying EF engine (query provider) translates the LINQ expressions to these canonical DB expressions, then hands the canonical expression tree off to a specific DB provider (say Oracle's or MySQL's EF provider) where it is translated to product-specific SQL. You can see here how these canonical expressions are supposed to be translated by the individual product-specific providers: http://msdn.microsoft.com/en-us/library/ee789836.aspx

Additionally, EF allows some product-specific DB functions (store functions) as expressions through extensions. The underlying product-specific providers are responsible for both providing and translating these.

That being the case, EF only allows expressions that are DB canonical expressions, or store-specific functions, becuase all expressions in the tree are converted to SQL for execution against the DB.

The difference with L2S is that L2S passes off any expressions that it can to the DB from its limited SQL generator, and then executes any expressions it can't translate to SQL on the materialized object set that is returned. While this makes it look simpler to use L2S, what you don't see is that half your expressions don't actually make it to the DB as SQL and this can cause some really inefficient queries bringing back larger sets of data which are then iterated again in CLR memory with regular object LINQ acting against them for the other expressions which L2S can't turn into SQL.

You get the exact same effects in EF by using EF to return the materialized data to object sets in memory, and then using additional LINQ statements on that set in memory - just as L2S does, but in this case, you just have to do it explicitly, just like when you say you have to call .First() before using a non-DB-canonical expression. Similarly, you can call .ToArray() or .ToList() before using additional expressions that can't be turned into SQL.

One other big difference is that in EF, entities must be used whole. Real model entities represent conceptual objects that are transacted on in whole. You never have half a User, for example. The User is an object whose state depends on all fields. If you want to return partial entities, or a flattened join of multiple entities, you have to define a projection (what EF calls a Complex Type), or you can use some of the new 4.1/4.2/4.3 POCO features.


Now that Entity Framework is open source, it's easy enough to see, especially from the comments on Issues from the team, that one of the goals is to provide EF as an open layer on top of multiple databases. To be fair, Microsoft has unsurprisingly only implemented that layer on top of their SQL Server, but there are other implementations, like DevArt's MySql EF Connector.

As part of that goal, it's wise to keep the public interface somewhat limited, and attempting to add an additional layer that asks - well, some of this might be done in memory, some of this might be done in SQL, who knows - definitely complicates the job for other implementers trying to tie EF into this or that database.

So, I agree with the other answer here - you'd have to ask the team - but you can also get a lot of info about that team's direction on the public bug tracker and their other publications, and this seems like a clear motivation.

That said the main difference between LINQ to SQL and EF is the way EF throws an exception on code that has to be run in memory, and if you're an Expressions ninja there's nothing stopping you from going the next step to wrap the DbContext class and make that work just like LINQ to SQL. On the other hand, what you gain there is a mixed bag - you make it implicit rather than explicit when the SQL is generated, and when it fires, and that can be viewed as a loss of performance and control in exchange for flexibility/ease of authoring.

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