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Why was C# designed this way?

As I understand it, an interface only describes behaviour, and serves the purpose of describing a contractual obligation for classes implementing the interface that certain behaviour is implemented.

If classes wish to implement that behavour in a shared method, why shouldn't they?

Here is an example of what I have in mind:

// These items will be displayed in a list on the screen.
public interface IListItem {
  string ScreenName();
  ...
}

public class Animal: IListItem {
    // All animals will be called "Animal".
    public static string ScreenName() {
        return "Animal";
    }
....
}

public class Person: IListItem {

    private string name;

    // All persons will be called by their individual names.
    public string ScreenName() {
        return name;
    }

    ....

 }
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19 Answers 19

up vote 106 down vote accepted

Assuming you are asking why you can't do this:

public interface IFoo {
    void Bar();
}

public class Foo: IFoo {
    public static void Bar() {}
}

This doesn't make sense to me, semantically. Methods specified on an interface should be there to specify the contract for interacting with an object. Static methods do not allow you to interact with an object - if you find yourself in the position where your implementation could be made static, you may need to ask yourself if that method really belongs in the interface.


To implement your example, I would give Animal a const property, which would still allow it to be accessed from a static context, and return that value in the implementation.

public class Animal: IListItem {
    /* Can be tough to come up with a different, yet meaningful name!
     * A different casing convention, like Java has, would help here.
     */
    public const string AnimalScreenName = "Animal";
    public string ScreenName(){ return AnimalScreenName; }
}

For a more complicated situation, you could always declare another static method and delegate to that. In trying come up with an example, I couldn't think of any reason you would do something non-trivial in both a static and instance context, so I'll spare you a FooBar blob, and take it as an indication that it might not be a good idea.

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2  
A perfect example! But I'm not sure I understand your reasoning. Surely the compiler could have been designed to look at the statuc members as well? Don't the instances have a table of addresses for the implementation of theis methods? Couldn't the static methods be included in this table? –  Kramii Nov 3 '08 at 16:03
6  
There is a case where this could be useful. For instance, I want all the implementors to implement a GetInstance method that takes an XElement argument. I can neither define that as a static method in the interface, nor demand a constructor signature from the interface. –  oleks Feb 16 '11 at 13:23
1  
If you have an instance of the class, you can have a non-static method that does what you're specifying. If you don't have an instance... how do you know which implementation to use? –  Chris Marasti-Georg Feb 22 '11 at 17:10
3  
A lot of folks have weighed in on both sides: from "This makes no sense" to "It's a bug, I wish you could." (I think there are valid use cases for it, which is how I ended up here.) As a workaround, the instance method can simply delegate to a static method. –  harpo Mar 31 '11 at 18:27
2  
You could also simply implement the piece as an extension method onto the base interface, as in: public static object MethodName(this IBaseClass base) within a static class. The downside, however, is that unlike an interface inheritance - this does not force / allow the individual inheritors to override the methodology well. –  Troy Alford Nov 3 '12 at 0:26

My (simplified) technical reason is that static methods are not in the vtable, and the call site is chosen at compile time. It's the same reason you can't have override or virtual static members. For more details, you'd need a CS grad or compiler wonk - of which I'm neither.

For the political reason, I'll quote Eric Lippert (who is a compiler wonk, and I suspect, a CS grad):

...the core design principle of static methods, the principle that gives them their name...[is]...it can always be determined exactly, at compile time, what method will be called. That is, the method can be resolved solely by static analysis of the code.

Note that Lippert does leave room for a so-called type method:

That is, a method associated with a type (like a static), which does not take a non-nullable “this” argument (unlike an instance or virtual), but one where the method called would depend on the constructed type of T (unlike a static, which must be determinable at compile time).

but is yet to be convinced of its usefulness.

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2  
Excellent, this is the answer that I wanted to write - I just didn't know the implementation detail. –  Chris Marasti-Georg Nov 3 '08 at 17:44
3  
Great answer. And I want this 'type method'! Would be useful in so many occasions (think about metadata for a type/class). –  Philip Daubmeier Apr 18 '12 at 14:22
7  
This is the correct answer. You pass an interface to someone, they need to know how to call a method. An interface is just a virtual method table. Your static class doesn't have that. The caller wouldn't know how to call a method. (Before i read this answer i thought C# was just being pedantic. Now i realize it's a technical limitation, imposed by what an interface is). Other people will talk down to you about how it's a bad design. It's not a bad design - it's a technical limitation. –  Ian Boyd Jun 11 '12 at 17:18
    
The link to the Lippert article is broken –  Tony Basile Aug 25 '12 at 8:53
1  
+1 for actually answering the question and not being pedantic and snotty. Like Ian Boyd said: "It's not a bad design - it's a technical limitation." –  Joshua Pech Mar 30 '13 at 15:23

Most answers here seem to miss the whole point. Polymorphism can be used not only between instances, but also between types. This is often needed, when we use generics.

Suppose we have type parameter in generic method and we need to do some operation with it. We dont want to instantinate, because we are unaware of the constructors.

For example:

Repository GetRepository<T>()
{
  //need to call T.IsQueryable, but can't!!!
  //need to call T.RowCount
  //need to call T.DoSomeStaticMath(int param)
}

...
var r = GetRepository<Customer>()

Unfortunately, I can come up only with "ugly" alternatives:

  • Use reflection Ugly and beats the idea of interfaces and polymorphism.

  • Create completely separate factory class

    This might greatly increase the complexity of the code. For example, if we are trying to model domain objects, each object would need another repository class.

  • Instantiate and then call the desired interface method

    This can be hard to implement even if we control the source for the classes, used as generic parameters. The reason is that, for example we might need the instances to be only in well-known, "connected to DB" state.

Example:

public class Customer 
{
  //create new customer
  public Customer(Transaction t) { ... }

  //open existing customer
  public Customer(Transaction t, int id) { ... }

  void SomeOtherMethod() 
  { 
    //do work...
  }
}

in order to use instantination for solving the static interface problem we need to do the following thing:

public class Customer: IDoSomeStaticMath
{
  //create new customer
  public Customer(Transaction t) { ... }

  //open existing customer
  public Customer(Transaction t, int id) { ... }

  //dummy instance
  public Customer() { IsDummy = true; }

  int DoSomeStaticMath(int a) { }

  void SomeOtherMethod() 
  { 
    if(!IsDummy) 
    {
      //do work...
    }
  }
}

This is obviously ugly and also unnecessary complicates the code for all other methods. Obviously, not an elegant solution either!

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7  
+1 for "Most answers here seem to miss the whole point."; it's incredible how it seems that pretty much all the answers dodge the core of the question to delve into mostly unuseful verbiage... –  user610650 May 31 '12 at 16:06
    
Your examples don't make sense to me... the "IsQueryable" functionality can be an annotation/attribute, or better yet, an interface that the class implements (otherwise, how do you query it?). RowCount... of what? The number of customers? That's something the customer repository should do, not the customer class. The static math example is incomplete, so I'm not sure what you would actually be trying to do there. –  Chris Marasti-Georg Oct 23 '12 at 14:54
2  
@Chris Here's a specific example that made me just hit this restriction again. I want to add an IResettable interface to classes to indicate that they cache certain data in static variables that can be reset by the site admin (e.g. an order category list, a set of vat rates, a list of categories retrieved from an external API) to reduce the DB and external API hits, this would obviously use a static method reset. This allows me to just automate the detection of which classes can be reset. I can still do this, but the method is not enforced or automatically added in the IDE and relies on hope. –  mattmanser Oct 26 '12 at 14:18
    
@mattmanser I'd say you've reached the point in your architecture where you need to use an actual cache, rather than static variables on domain objects (a decision which I would also question, but that's a different discussion :)). –  Chris Marasti-Georg Oct 26 '12 at 19:00
2  
@Chris I disagree, massive overkill. It's always a sign of a language flaw when more architecture is the 'best' solution. Remember all the patterns no-one talks about any more since C# got generics and anonymous methods? –  mattmanser Oct 30 '12 at 9:15

Interfaces specify behavior of an object.

Static methods do not specify a behavior of an object, but behavior that affects an object in some way.

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38  
Sorry.. I'm not sure that's right! An interface doesn't specify behavior. An interface defines a set of named operations. Two classes could implement an interface's method to behave in completely different ways. So, an interface doesn't specify behavior at all. The class that implements it does. –  Scott Langham Nov 3 '08 at 17:27
1  
Hope you don't think I'm being picky.. but I think it's an important distinction for anybody learning OO to understand. –  Scott Langham Nov 3 '08 at 17:28
3  
An interface is supposed to specify a contract that includes behavior and presentation. That's why changing the behavior of an interface call is a no-no as both are supposed to be fixed. If you have an interface where the call acts differently (i.e. IList.Add did a remove) it wouldn't be right. –  Jeff Yates Nov 3 '08 at 18:03
7  
Well, yes, you'd be warped in the head to define a method to behave incongruously to its name. If you had IAlertService.GetAssistance() though, it's behaviour could be to flash a light, sound an alarm, or poke in the eye with a stick. –  Scott Langham Nov 4 '08 at 0:05
1  
An implementation would also be able to write to a log file. This behaviour isn't specified in the interface. But, maybe you're right. The behaviour to 'get assistance' should really be respected. –  Scott Langham Nov 4 '08 at 0:09

Because the purpose of an interface is to allow polymorphism, being able to pass an instance of any number of defined classes that have all been defined to implement the defined interface... guaranteeing that within your polymorphic call, the code will be able to find the method you are calling. it makes no sense to allow a static method to implement the interface,

How would you call it??


public interface MyInterface { void MyMethod(); }
public class MyClass: MyInterface
{
    public static void MyMethod() { //Do Something; }
}

 // inside of some other class ...  
 // How would you call the method on the interface ???
    MyClass.MyMethod();  // this calls the method normally 
                         // not through the interface...

    // This next fails you can't cast a classname to a different type... 
    // Only instances can be Cast to a different type...
    MyInterface myItf = MyClass as MyInterface;  
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Other languages (Java, for example) allow static methods to be called from object instances, although you will get a warning that you should be calling them from a static context. –  Chris Marasti-Georg Nov 3 '08 at 18:48

I know it's an old question, but it's interesting. The example isn't the best. I think it would be much clearer if you showed a usage case:

string DoSomething<T>() where T:ISomeFunction
{
  if (T.someFunction())
    ...
}

Merely being able to have static methods implement an interface would not achieve what you want; what would be needed would be to have static members as part of an interface. I can certainly imagine many usage cases for that, especially when it comes to being able to create things. Two approaches I could offer which might be helpful:

  1. Create a static generic class whose type parameter will be the type you'd be passing to DoSomething above. Each variation of this class will have one or more static members holding stuff related to that type. This information could supplied either by having each class of interest call a "register information" routine, or by using Reflection to get the information when the class variation's static constructor is run. I believe the latter approach is used by things like Comparer<T>.Default().
  2. For each class T of interest, define a class or struct which implements IGetWhateverClassInfo<T> and satisfies a "new" constraint. The class won't actually contain any fields, but will have a static property which returns a static field with the type information. Pass the type of that class or struct to the generic routine in question, which will be able to create an instance and use it to get information about the other class. If you use a class for this purpose, you should probably define a static generic class as indicated above, to avoid having to construct a new descriptor-object instance each time. If you use a struct, instantiation cost should be nil, but every different struct type would require a different expansion of the DoSomething routine.

None of these approaches is really appealing. On the other hand, I would expect that if the mechanisms existed in CLR to provide this sort of functionality cleanly, .net would allow one to specify parameterized "new" constraints (since knowing if a class has a constructor with a particular signature would seem to be comparable in difficulty to knowing if it has a static method with a particular signature).

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Very useful ideas. Thanks. –  Kramii Nov 18 '11 at 9:32

Because interfaces are in inheritance structure, and static methods don't inherit well.

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Short-sightedness, I'd guess.

When originally designed, interfaces were intended only to be used with instances of class

IMyInterface val = GetObjectImplementingIMyInterface();
val.SomeThingDefinedinInterface();

It was only with the introduction of interfaces as constraints for generics did added a static method to an interface have a practical use.

(responding to comment:) I believe changing it now would require a change to the CLR, which would lead to incompatibilities with existing assemblies.

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It is in the context of generics that I first encountered the problem, but I wonder if including static methods in interfaces could be useful in other contexts, too? Is there a reason why things couldn't be changed? –  Kramii Nov 3 '08 at 16:05
    
me too encounter this when implementing a generic class which require the parameter type to create itself with some parameters. Since the new() cannot take any. Did you figure out how to do this yet, Kramii? –  Tom Dec 9 '09 at 18:31
    
@Kramii: Contracts for static APIs. I don't want an object instance, just a guarantee of a particular signature, eg. IMatrixMultiplier or ICustomSerializer. Funcs/Actions/Delegates as class members do the trick, but IMO this sometimes seems like overkill, and can be confusing for the unexperienced trying to extend the API. –  David Cuccia May 9 '10 at 22:04

What you seem to want would allow for a static method to be called via both the Type or any instance of that type. This would at very least result in ambiguity which is not a desirable trait.

There would be endless debates about whether it mattered, which is best practice and whether there are performance issues doing it one way or another. By simply not supporting it C# saves us having to worry about it.

Its also likely that a compilier that conformed to this desire would lose some optimisations that may come with a more strict separation between instance and static methods.

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Interestingly, it is quite possible to call a static method by both Type ad Instance in VB.Net (even though the IDE gives a warning in the latter case). It doesn't appear to be a problem. You may be right about the optimisations. –  Kramii Nov 3 '08 at 16:54

You can think of the static methods and non-static methods of a class as being different interfaces. When called, static methods resolve to the singleton static class object, and non-static methods resolve to the instance of the class you deal with. So, if you use static and non-static methods in an interface, you'd effectively be declaring two interfaces when really we want interfaces to be used to access one cohesive thing.

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This is an interesting POV, and is probably the one that the C# designers had in mind. I will think of static members in a different way from now on. –  Kramii Nov 3 '08 at 17:00

To give an example where I am missing either static implementation of interface methods or what Mark Brackett introduced as the "so-called type method":

When reading from a database storage, we have a generic DataTable class that handles reading from a table of any structure. All table specific information is put in one class per table that also holds data for one row from the DB and which must implement an IDataRow interface. Included in the IDataRow is a description of the structure of the table to read from the database. The DataTable must ask for the datastructure from the IDataRow before reading from the DB. Currently this looks like:

interface IDataRow {
  string GetDataSTructre();  // How to read data from the DB
  void Read(IDBDataRow);     // How to populate this datarow from DB data
}

public class DataTable<T> : List<T> where T : IDataRow {

  public string GetDataStructure()
    // Desired: Static or Type method:
    // return (T.GetDataStructure());
    // Required: Instantiate a new class:
    return (new T().GetDataStructure());
  }

}

The GetDataStructure is only required once for each table to read, the overhead for instantiating one more instance is minimal. However, it would be nice in this case here.

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To the extent that interfaces represent "contracts", it seems quiet reasonable for static classes to implement interfaces.

The above arguments all seem to miss this point about contracts.

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FYI: You could get a similar behavior to what you want by creating extension methods for the interface. The extension method would be a shared, non overridable static behavior. However, unfortunately, this static method would not be part of the contract.

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Static classes should be able to do this so they can be used generically. I had to instead implement a Singleton to achieve the desired results.

I had a bunch of Static Business Layer classes that implemented CRUD methods like "Create", "Read", "Update", "Delete" for each entity type like "User", "Team", ect.. Then I created a base control that had an abstract property for the Business Layer class that implemented the CRUD methods. This allowed me to automate the "Create", "Read", "Update", "Delete" operations from the base class. I had to use a Singleton because of the Static limitation.

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Most people seem to forget that in OOP Classes are objects too, and so they have messages, which for some reason c# calls "static method". The fact that differences exist between instance objects and class objects only shows flaws or shortcomings in the language. Optimist about c# though...

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The problem is that this question isn't about "in OOP". It's about "in C#". In C#, there are no "messages". –  John Saunders Dec 14 '13 at 19:09

Regarding static methods used in non-generic contexts I agree that it doesn't make much sense to allow them in interfaces, since you wouldn't be able to call them if you had a reference to the interface anyway. However there is a fundamental hole in the language design created by using interfaces NOT in a polymorphic context, but in a generic one. In this case the interface is not an interface at all but rather a constraint. Because C# has no concept of a constraint outside of an interface it is missing substantial functionality. Case in point:

T SumElements<T>(T initVal, T[] values)
{
    foreach (var v in values)
    {
        initVal += v;
    }
}

Here there is no polymorphism, the generic uses the actual type of the object and calls the += operator, but this fails since it can't say for sure that that operator exists. The simple solution is to specify it in the constraint; the simple solution is impossible because operators are static and static methods can't be in an interface and (here is the problem) constraints are represented as interfaces.

What C# needs is a real constraint type, all interfaces would also be constraints, but not all constraints would be interfaces then you could do this:

constraint CHasPlusEquals
{
    static CHasPlusEquals operator + (CHasPlusEquals a, CHasPlusEquals b);
}

T SumElements<T>(T initVal, T[] values) where T : CHasPlusEquals
{
    foreach (var v in values)
    {
        initVal += v;
    }
}

There has been lots of talk already about making an IArithmetic for all numeric types to implement, but there is concern about efficiency, since a constraint is not a polymorphic construct, making a CArithmetic constraint would solve that problem.

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Operators in C# are static, so this still doesn't make sense. –  John Saunders Aug 13 '13 at 18:39
    
Thats the point, the constraint verifies that the TYPE (not instance) has the + operator (and by extension the += operator) and allows the template to be generated, then when the actual template substitution occures the object being used is guaranteed to be of a type that has that operator (or other static method.) So you can say: SumElements<int>(0, 5); which would instantiate this: SumElements(int initVal, int[] values) { foreach (var v in values) { initVal += v; } }, which of course, makes perfect sense –  Jeremy Sorensen Aug 13 '13 at 21:44
    
Remember it's not a template. It's generics, which is not the same as C++ templates. –  John Saunders Aug 13 '13 at 21:46
    
@JohnSaunders: Generics aren't templates, and I don't know how they could reasonably be made to work with statically-bound operators, but in generic contexts there are many cases where it could be useful to specify that a T should have a static member (e.g. a factory that produces T instances). Even without runtime changes, I think it would be possible to define conventions and helper methods that would allow languages to implement such a thing as syntactic sugar in an efficient and interoperable fashion. If for each interface with virtual static methods there were a helper class... –  supercat Dec 14 '13 at 18:51
    
...then if T is constrained to IFoo<T>, T.CreateThing(paramString) would become IFoo_Helper<T>.CreateThing(paramString), and within class Fred that implemnets IFoo<Fred>, a definition of static Fred IFoo.CreateThing(string st) would tag the method so that the IFoo_Helper method could find it via Reflection the first time it was needed [future accesses would be via cached delegate]. –  supercat Dec 14 '13 at 18:57

I think the short answer is "because it is of zero usefulness". To call an interface method, you need an instance of the type. From instance methods you can call any static methods you want to.

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Interfaces are abstract sets of defined available functionality.

Whether or not a method in that interface behaves as static or not is an implementation detail that should be hidden behind the interface. It would be wrong to define an interface method as static because you would be unnecessarily forcing the method to be implemented in a certain way.

If methods were defined as static, the class implementing the interface wouldn't be as encapsulated as it could be. Encapsulation is a good thing to strive for in object oriented design (I won't go into why, you can read that here: http://en.wikipedia.org/wiki/Object-oriented). For this reason, static methods aren't permitted in interfaces.

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1  
Yes, a static in the interface declaration would be silly. A class should not be forced to implement the interface in a certain way. However, does C# restrict a class to implementing the interface using non-static methods. Does this make sense? Why? –  Kramii Nov 3 '08 at 16:50
    
You can't use the keyword 'static'. There is no restriction though because you don't need the static keyword to write a method that behaves statically. Just write a method that doesn't access any of its object's members, then it will behave just like a static method. So, there is restriction. –  Scott Langham Nov 3 '08 at 17:06
    
True Scott, but it doesn't allow someone to access that method in a static way, in another part of the code. Not that I can think of a reason you would want to, but that seems to be what the OP is asking. –  Chris Marasti-Georg Nov 3 '08 at 17:41
    
Well, if you really felt the need you could write it as a static method for access in another part of the code, and just write the non-static method to call the static method. I could be wrong, but I doubt that's an objective of the questioner. –  Scott Langham Nov 3 '08 at 23:46

OK here is an example of needing a 'type method'. I am creating one of a set of classes based on some source XML. So I have a

  static public bool IsHandled(XElement xml)

function which is called in turn on each class.

The function should be static as otherwise we waste time creating inappropriate objects. As @Ian Boyde points out it could be done in a factory class, but this just adds complexity.

It would be nice to add it to the interface to force class implementors to implement it. This would not cause significant overhead - it is only a compile/link time check and does not affect the vtable.

However, it would also be a fairly minor improvement. As the method is static, I as the caller, must call it explicitly and so get an immediate compile error if it is not implemented. Allowing it to be specified on the interface would mean this error comes marginally earlier in the development cycle, but this is trivial compared to other broken-interface issues.

So it is a minor potential feature which on balance is probably best left out.

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