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I was pondering of this while I was writing some helper functions dealing with reflection. Is there anything else besides classes, structs, enums and interfaces in C#? If I write a function that checks for class, struct, enum and interface, would that be the all encompassing function?

I read that delegates are classes anyway here and here.

Help me make my idea on this kind of hierarchy perfect:

   reference type                   value type
         |                               |    
  ---------------                   ----------
  |             |                   |        |
interface    class                struct    enum

// the all encompassing function - pseudo code:
public static bool IsC#Stuff(this Type type)
    return type.IsEnum || type.IsStruct || type.IsClass || type.IsInterface;

Am I missing something?

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Delegates? Generics? –  asawyer May 12 '13 at 19:35
pointers and several kinds of references(for example the ones used for ref parameters) –  CodesInChaos May 12 '13 at 19:37
Just a note about your hierarchy: value types can implement interfaces as well as reference types.. –  2kay May 12 '13 at 19:40
generics make an interesting case: the T in a generic type/method can be either value-typed or reference-typed; there are special op-codes ("unbox any" and "constrained") to allow this work –  Marc Gravell May 12 '13 at 19:54
@nawfal: Array and delegate instances are much like other heap object instances, but array and delegate type descriptions (i.e. the instances of System.Type that define the array and delegate types) are special because they encapsulate other types. Had generics been part of the NET 1.0 spec, delegates and arrays might have been handled in much the same way as other generic types, but instead there's special handling to make them quasi-generic. –  supercat May 13 '13 at 16:26

2 Answers 2

There are also arrays and delegates, although those are actually classes.

There are also references (ref parameters to methods) and generic type parameters in definitions of generic methods or types.

In unsafe code, there are also pointers.

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Hmm, interesting. Never thought about pointers. But I don't get why you mention ref parameters and generic type parameters. Are they equivalent to classes, structs etc? –  nawfal May 12 '13 at 19:49
@nawfal: No; they are not. –  SLaks May 12 '13 at 19:54
@nawfal: If one has an int field, and one calls Interlocked.Increment(ref myField), the passed parameter is an Int32 byref. Normal "reference" types hold standalone persistent object references which may be kept around as long as desired, and will keep the underlying object around as long as the reference exists. Each standalone object has some "extra" information associated with it to help the garbage collector. A "byref" may refer to a primitive which has no GC information stored with it, but will only be valid within the scope of the procedure to which it is passed. –  supercat May 13 '13 at 15:32
@supercat thanks, indeed helpful. –  nawfal May 13 '13 at 16:18

Not sure is this is a direct answer to your question but .NET has 5 types:
class, struct, interface, delegate, and enum

Common Type System

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Blam, delegates are basically classes internally. –  nawfal May 13 '13 at 3:31
@nawfal: Value types are also classes (they derive from System.ValueType which derives from System.Object) Sometimes the distinction is useful, sometimes not. Sometimes distinguishing delegates is useful, and sometimes not. –  Ben Voigt May 13 '13 at 3:43
@BenVoigt that's right, but here I'm talking about the base object itself. I know int is ValueType which in turn is a class. But typeof(int).IsClass returns false even though typeof(ValueType).IsClass is true. Similarly, typeof(Delegate).IsClass is true, but even typeof(Func<>).IsClass returns true. At one point that was confusing, but I did some reading on the subject, and realised internally they were classes (with special syntax). Kindly go thru the two links I attached in the question. –  nawfal May 13 '13 at 3:47
@nawfal: That's because the specification of IsClass isn't "true if it is a class". It's "true if it is a class but it is not a value type". –  Ben Voigt May 13 '13 at 3:49
@nawfal That is the formal type definition from the CTS. –  Blam May 13 '13 at 13:35

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