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I'm trying to come up with an implementation for NotOfType, which has a readable call syntax. NotOfType should be the complement to OfType<T> and would consequently yield all elements that are not of type T

My goal was to implement a method which would be called just like OfType<T>, like in the last line of this snippet:

public abstract class Animal {}
public class Monkey : Animal {}
public class Giraffe : Animal {}
public class Lion : Animal {}

var monkey = new Monkey();
var giraffe = new Giraffe();
var lion = new Lion();

IEnumerable<Animal> animals = new Animal[] { monkey, giraffe, lion };

IEnumerable<Animal> fewerAnimals = animals.NotOfType<Giraffe>();

However, I can not come up with an implementation that supports that specific calling syntax.

This is what I've tried so far:

public static class EnumerableExtensions
{
    public static IEnumerable<T> NotOfType<T>(this IEnumerable<T> sequence, Type type)
    {
        return sequence.Where(x => x.GetType() != type);
    }

    public static IEnumerable<T> NotOfType<T, TExclude>(this IEnumerable<T> sequence)
    {
        return sequence.Where(x => !(x is TExclude));
    }
}

Calling these methods would look like this:

// Animal is inferred
IEnumerable<Animal> fewerAnimals = animals.NotOfType(typeof(Giraffe));

and

// Not all types could be inferred, so I have to state all types explicitly
IEnumerable<Animal> fewerAnimals = animals.NotOfType<Animal, Giraffe>();

I think that there are major drawbacks with the style of both of these calls. The first one suffers from a redundant "of type/type of" construct, and the second one just doesn't make sense (do I want a list of animals that are neither Animals nor Giraffes?).

So, is there a way to accomplish what I want? If not, could it be possible in future versions of the language? (I'm thinking that maybe one day we will have named type arguments, or that we only need to explicitly supply type arguments that can't be inferred?)

Or am I just being silly?

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I only write framework/shared code like this if I feel it is going to get a decent amount of reuse. How often do you need a method like this, and does it justify the cost (time spent thinking about the design difficulties)? –  Merlyn Morgan-Graham Dec 30 '10 at 1:15
1  
Your two versions do substantially different things. –  SLaks Dec 30 '10 at 1:21
    
@SLaks: Elaborate, please. –  Christoffer Lette Dec 30 '10 at 1:25
1  
@Lette: The first one will also exclude inherited types. –  SLaks Dec 30 '10 at 1:29
    
@Merlyn: I'm off the clock, so no actual cost. But yes, there's probably not much reuse to be found here. Consider it an experiment, for now. –  Christoffer Lette Dec 30 '10 at 1:31

4 Answers 4

up vote 5 down vote accepted

How about

animals.NotOf(typeof(Giraffe));

Alternatively, you can split the generic parameters across two methods:

animals.NotOf().Type<Giraffe>();

public static NotOfHolder<TSource> NotOf<TSource>(this IEnumerable<TSource> source);

public class NotOfHolder<TSource> : IHideObjectMembers {
    public IEnumerable<TSource> NotOf<TNot>();
}

Also, you need to decide whether to also exclude inherited types.

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Ah. This "fluent" approach looks like a good alternative. –  Christoffer Lette Dec 30 '10 at 1:44
    
I wrote a blog post explaining in greater detail: blog.slaks.net/2010/12/partial-type-inference-in-net.html –  SLaks Dec 30 '10 at 1:59
    
Finally, I've concluded that your solution will be best for my specific scenario. I'm taking into account the fact that the code will be used in automated acceptance tests, and they may at some time be read by people who might not be full-time developers. Having a call that is strongly typed all the way will make it easier to keep subsequent code more (human-)readable. Thanks. –  Christoffer Lette Jan 3 '11 at 13:47

I am not sure why you don't just say:

animals.Where(x => !(x is Giraffe));

This seems perfectly readable to me. It is certainly more straight-forward to me than animals.NotOfType<Animal, Giraffe>() which would confuse me if I came across it... the first would never confuse me since it is immediately readable.

If you wanted a fluent interface, I suppose you could also do something like this with an extension method predicate on Object:

animals.Where(x => x.NotOfType<Giraffe>())
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This might seem like a strange suggestion, but what about an extension method on plain old IEnumerable? This would mirror the signature of OfType<T>, and it would also eliminate the issue of the redundant <T, TExclude> type parameters.

I would also argue that if you have a strongly-typed sequence already, there is very little reason for a special NotOfType<T> method; it seems a lot more potentially useful (in my mind) to exclude a specific type from a sequence of arbitrary type... or let me put it this way: if you're dealing with an IEnumerable<T>, it's trivial to call Where(x => !(x is T)); the usefulness of a method like NotOfType<T> becomes more questionable in this case.

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Interesting idea regarding the non-generic IEnumerable. It will make the calling code look exactly as I wanted. Obviously, it will not return a strongly-typed sequence, which is a minor inconvenience. –  Christoffer Lette Dec 30 '10 at 2:36
    
Regarding the 2nd paragraph: One could argue that the usefulness of NotOfType<T> matches that of OfType<T>... (It's interesting to try to apply your arguments to OfType<T> instead.) My argument is only about code readability. FYI, in the actual business case I have a sequence of Event elements that are of different subtypes, and in one specific scenario the requirements called for a listing of all events, except one particular type. This experiment was all about finding a way to express that requirement in easily readable code. –  Christoffer Lette Dec 30 '10 at 2:51
1  
@Lette: OfType<T>() is different because it changes the type of the sequence. NotOfType cannot change the type of the sequence. –  SLaks Dec 30 '10 at 3:18
    
@SLaks: You're both absolutely right. I'm a little embarrased right now over the fact that I totally missed that the OfType method's source is IEnumerable and not IEnumerable<T>... Still a good discussion, though. –  Christoffer Lette Dec 30 '10 at 3:59

If you're going to make a method for inference, you want to infer all the way. That requires an example of each type:

public static class ExtMethods
{
    public static IEnumerable<T> NotOfType<T, U>(this IEnumerable<T> source)
    {
        return source.Where(t => !(t is U));
    }
      // helper method for type inference by example
    public static IEnumerable<T> NotOfSameType<T, U>(
      this IEnumerable<T> source,
      U example)
    {
        return source.NotOfType<T, U>();
    }
}

called by

List<ValueType> items = new List<ValueType>() { 1, 1.0m, 1.0 };
IEnumerable<ValueType> result = items.NotOfSameType(2);
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