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I'm using Entity Framework and I have a custum IQueryProvider. I use the Execute method so that I can modify the result (a POCO) of a query after is has been executed. I want to do the same for collections. The problem is that the Execute method is only called for single result.

As described on MSDN :

The Execute method executes queries that return a single value (instead of an enumerable sequence of values). Expression trees that represent queries that return enumerable results are executed when their associated IQueryable object is enumerated.

Is there another way to accomplish what I want that I missed?

I know I could write a specific method inside a repository or whatever but I want to apply this to all possible queries.

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3 Answers 3

This is true that the actual signature is:

public object Execute(Expression expression)
public TResult Execute<TResult>(Expression expression)

However, that does not mean that the TResult will always be a single element! It is the type expected to be returned from the expression.

Also, note that there are no constraints over the TResult, not even 'class' or 'new()'.

The TResult is a MyObject when your expression is of singular result, like .FirstOrDefault(). However, the TResult can also be a double when you .Avg() over the query, and also it can be IEnumerable<MyObject> when your query is plain .Select.Where.

Proof(*) - I've just set a breakpoint inside my Execute() implementation, and I've inspected it with Watches:

typeof(TResult).FullName    "System.Collections.Generic.IEnumerable`1[[xxxxxx,xxxxx]]"
expression.Type.FullName    "System.Linq.IQueryable`1[[xxxxxx,xxxxx]]"

I admit that three overloads, one object, one TResult and one IEnumerable<TResult> would probably be more readable. I think they did not place three of them as extensibility point for future interfaces. I can imagine that in future they came up with something more robust than IEnumerable, and then they'd need to add another overload and so on. With simple this interface can process any type.

Oh, see, we now also have IQueryable in addition to IEnumerable, so it would need at least four overloads:)

The Proof is marked with (*) because I have had a small bug/feature in my IQueryProvider's code that has is obscuring the real behavior of LINQ.

LINQ indeed calls the generic Execute only for singular cases. This is a shortcut, an optimization.

For all other cases, it ... doesn't call Execute() it at all

For those all other cases, the LINQ calls .GetEnumerator on your custom IQueryable<> implementation, that what happens is dictated by .. simply what you wrote there. I mean, assuming that you actually provided custom implementations of IQueryable. That would be strange if you did not - that's just about 15 lines in total, nothing compared to the length of custom provider.

In the project where I got the "proof" from, my implementation looks like:

public System.Collections.IEnumerator GetEnumerator()
{
    return Provider.Execute<IEnumerable>( this.Expression ).GetEnumerator();
}

public IEnumerator<TOut> GetEnumerator()
{
    return Provider.Execute<IEnumerable<TOut>>( this.Expression ).GetEnumerator();
}

of course, one of them would be explicit due to name collision. Please note that to fetch the enumerator, I actually call the Execute with explicitely stated TResult. This is why in my "proof" those types occurred.

I think that you see the "TResult = Single Element" case, because you wrote i.e. something like this:

public IEnumerator<TOut> GetEnumerator()
{
    return Provider.Execute<TOut>( this.Expression ).GetEnumerator();
}

Which really renders your Execute implementation without choice, and must return single element. IMHO, this is just a bug in your code. You could have done it like in my example above, or you could simply use the untyped Execute:

public System.Collections.IEnumerator GetEnumerator()
{
    return ((IEnumerable)Provider.Execute( this.Expression )).GetEnumerator();
}

public IEnumerator<TOut> GetEnumerator()
{
    return ((IEnumerable<TOut>)Provider.Execute( this.Expression )).GetEnumerator();
}

Of course, your implementation of Execute must make sure to return proper IEnumerables for such queries!

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Expression trees that represent queries that return enumerable results are executed when their associated IQueryable object is enumerated.

I recommend enumerating your query:

foreach(T t in query)
{
  CustomModification(t);
}

Your IQueryProvider must implement CreateQuery<T>. You get to choose the implemenation of the resulting IQueryable. If you want that IQueryable to do something to each row when enumerated, you get to write that implementation.

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Yes, this would work if it was ONE query. But I am building a framework and I don't have a single point where I can enumerate the query. I want to sit right on top of Entity Framework for EVERY queries. As I said, I would want the exact equivalent of the Execute method of IQueryProvider but for enumerated results. –  W3Max Jan 9 '12 at 19:04
up vote -1 down vote accepted

The final answer is that it's not possible.

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I think you are wrong, please review my answer. –  quetzalcoatl Feb 18 '13 at 12:00

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