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EDIT: This is more of a good design question that came up while refactoring and combining reusable code into a library.

I am consolidating frequently used code from over the years to a library and interfaces play a large part here. While refactoring, one of the main categories that interfaces are split in include whether they were designed for mutable or immutable scenarios. Consider the following:

Mutable and Immutable:

interface ICloneable<T> { T Clone (); }

Immutable:

interface ISomeInterface { T SomeFunc (); }

Mutable

interface IInitializable { void Initialize (); }
interface ICopyable<T>: IInitializable { T CopyFrom (T source); T CopyTo (T destination); }

The case of IInitializable is the odd one out as there is no reason for it to accept a generic parameter. However, without one, it cannot enforce usage with classes only.

I assume that constraints do not exist for non-generic types so the question is whether there is a way to enforce this at runtime (or better at compile time)? Besides generics, attributes can also be restricted (not that it matters here).

Of course I could just make the interface generic but that wouldn't be a good enough reason would it? Any elegant way to achieve this?

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What's the reason why you want to prevent a value type from implementing IInitializable in a structural way? I mean, that is really something that comes up in a code review or code analysis. Besides, it isn't already forbidden by the language, so there are some scenarios where it makes sense. In any case, if the object has an Initialize() method, then its consumer should not know or care whether it is a struct, class, or an instant Martian, right? –  Keith Payne Feb 1 '14 at 16:47
    
@KeithPayne: Your last sentence is certainly true. My question is more from a library developer's point of view. If I want to show clear intent that IInitializable is meant for reference types, I could for example structure the namespaces appropriately in addition to documentation of course. The reason I asked on S.O. was to see if there was any mechanism available to enforce the behavior rather than merely suggest it. Short of alternatives, I am considering eliminating such interfaces entirely while porting the function signatures to other interfaces that already have generic constraints. –  Raheel Khan Feb 1 '14 at 17:00

2 Answers 2

up vote 1 down vote accepted

There is no way in the C# language to prevent a struct from implementing your interface. Any type is free to implement any interface so long as it can satisfy the methods described there.

However you can constrain the usages of IInitializable to only work with implementations that are class types. For example

void M<T>(T value) where T : IInitializable, class 

This can be used to constrain your usage scenarios to class only and hence get the guarantee you are looking for

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Thanks. Does your example intend to make the void Initialize () method of the interface generic? If so, I would be inclined to drop the interface altogether and shift the method to whichever other interfaces require it. –  Raheel Khan Feb 1 '14 at 17:07
    
@RaheelKhan no, it just leaves the interface exactly as is –  JaredPar Feb 1 '14 at 17:08
    
In that case I am not sure I understand. Since my library does not have any implementations of these interfaces, where does the method M<T>(T value) go? –  Raheel Khan Feb 1 '14 at 17:11
    
@RaheelKhan that's a question you need to answer. Why do you have the interface if you don't ever use it? –  JaredPar Feb 1 '14 at 17:12

Your code looks like Java.

C# supports operator overloading and user-defined conversions, so your ICopyable<T> seems redundant.

Also, unless you really need a generic Clone() method, you're probably just as well-off defining copy constructors; you can always use double-dispatch internally. By 'really need', I mean, is the algorithm truly generic?

Edit: Clonable in Java was a kludge to get around the fact that it didn't support templates/generics. C# does, so your algorithm can match on type and you can use simple-to-use copy construtors.

Finally, WRT to Initialize(), if it's a generic no-argument method, why not just put the code in the constructor? It's going to be far easier for people to use and understand. If your object is only partially inialised at contruction, then you need to check and throw InvalidOperationExceptions anyway, so why complicate your interface?

If the Initialise() method is to support polymorphism, then it shouldn't be in an interface, as it's an implementation detail - interfaces are about how people use your objects, no how you build them; the fact that that the compiler does some checks on them is secondary to their purpose.

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