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I have just run into quite surprising problem.

The case is simple: return all entities that are currently active, which means: filter all result returned by GetAll() method according to their Boolean Active property

public IQueryable<T> GetAllActive()
      return implementation.GetAll().Where(a => ((IDeactivable)a).Active);  

where GetAll() method of implementation object is defined as:

public IQueryable<T> GetAll();

The problem is, that GetAllActive() returns all the records, regardless of value of their Active property, just like there is no Where clause.

What could be the reason for it?

Note: The code is simplified, T type is checked to implement the IDeactivable interface. Also no exception is thrown during at runtime.

Edit: IQueryable returned by implementation object comes from NHibernate

Edit2: I have used following code to check the actual values for the entities (besides using VS Debugger):

foreach (var a in active) {              //active -> filtered IQueryable before return

the result was:

11/30/2011 18:10:00 WARN xxx.Repository`1.GetAllActive: 70db43fa-2361-4c1f-a8e5-9fab012b5a2b
11/30/2011 18:10:01 WARN xxx.Repository`1.GetAllActive: False
11/30/2011 18:10:02 WARN xxx.Repository`1.GetAllActive: 5493c9bb-ec6e-4690-b5d6-9fab012b5b16
11/30/2011 18:10:02 WARN xxx.Repository`1.GetAllActive: True
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To troubleshoot it, you'll have to prove that ((IDeactivable)someRecord).Active is actually returning false when it is supposed to. Seems as if it's always returning true. –  Robert Harvey Nov 30 '11 at 17:35
Are you really really really sure that the error doesn't like inside some of the code you have removed? At a glance that looks like it will do what you want. My suspicion is that the problem lies somewhere in the code that you have cut out in your simplification or have you proved that the above does actually fail too? As others might say can you provide a small yet complete program that demonstrates your problem? –  Chris Nov 30 '11 at 17:36
Anything in your Where predicate is relevant. Don't simplify this part. –  CodesInChaos Nov 30 '11 at 17:38
Also for debugging try implementation.GetAll().ToEnumerable().Where(... which will do the filtering in .net instead of translating it. –  CodesInChaos Nov 30 '11 at 17:39
I have tried several ways of writing Where already, even though most of them seem to do the same job, result is the same. HOWEVER, I have tried what CodeInChaos had proposed and IT DOES WORK. But what is the actual reason of it, and what is the effect of it? My filter was somehow ignored by QueryProvider translator? optimizer? What is the performance overhead of casting to IEnumerable and back? –  mikus Nov 30 '11 at 17:51

2 Answers 2

When you return an IQueryable<T>, you are not actually returning a result set. What you are returning is an object that can be queried.

Execution of the .Where() method is deferred until you (or someone calling your method) actually compels execution of the Linq chain. This is what makes it possible for downstream clients to apply their additional Linq methods to the result, and still get lazy evaluation for the entire Linq chain.

So when you say that the IQueryable<T> is returning all records, you're probably looking at the result in the debugger, and it's showing you the original data set without the filtering (since the .Where() hasn't executed yet).

The reason casting to IEnumerable works is because it triggers execution of the Linq command chain, and the result is a bonafide list, rather than an object that can be queried. Calling ToList() or ToArray() will also trigger execution.

In short, the only way you can be sure you're seeing the correct result from your Linq methods during your testing process is to force execution of the Linq chain:

foreach(var record in GetAllActive.ToList())
    // Display each record

For a little flavor of how this works, see Working with Deferred Execution. It contains an example showing how you can actually get into trouble returning an IQueryable from a using block, because the IQueryable object gets disposed before the query executes.

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I am aware of most of the facts you mentioned and I can understand how it works. However, obviously, the solution CodeInChaos proposed could not be accepted in production environment, as it breakes deffered execution, which is really appreciated here. I believe everybody could agree, that the expected result my code should be slightly different, as deffered execution should NOT change behavior of the query regardless of the moment it was specified or consumed. –  mikus Nov 30 '11 at 19:14
When you eventually consume the query somewhere in the code (by producing a list), you will get the correct result. You only have to perform the cast or ToList() if you wish to test the query result prior to it being consumed in downstream code. I suggest that you perform the ToList() in your unit test; you don't need to return an IEnumerable in your GetAllActive() method. In fact, it defeats the purpose. –  Robert Harvey Nov 30 '11 at 19:18
BTW. what is the difference between iterating through all elements using foreach(var record in GetAllActive) and foreach(var record in GetAllActive.ToList()). Anyway, the query has to be executed at the time of the loop execution. For sure, in both ways you get you IQueryable from the outside of the using block. –  mikus Nov 30 '11 at 19:21
Am I right to say that calling GetAllActive().Count() by a Unit Test is a right way to consume the Query? It does not return the right result anyway. –  mikus Nov 30 '11 at 19:24
MSDN says that IQueryable.Count is "dependent on the implementation of the type of the source parameter. The expected behavior is that it counts the number of items in source." Try GetAllActive().AsEnumerable.Count(). –  Robert Harvey Nov 30 '11 at 19:39
up vote 0 down vote accepted

I have tried several different approaches and I finally I have found a part of my code not tested yet. It turned out that LINQ Queries to NHibernate caused some issues when using Where clause, that I have not noticed before.

Eventually, I figured out, that I am using a wrong version of LINQ to NHibernate QueryProvider (not the one included in NH 3.0) and that is a known issue. Now that I have get rid of it, everything works fine. THANK YOU FOR YOUR HELP, GUYS! You pointed me out to the right direction.

Mentioned issue is described in following thread: Problem with linq query

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