C# will not allow to write non-member functions and every method should be part of a class. I was thinking this as a restriction in all CLI languages. But I was wrong and I found that C++/CLI supports non-member functions. When it is compiled, compiler will make the method as member of some unnamed class.

Here is what C++/CLI standard says,

[Note: Non-member functions are treated by the CLI as members of some unnamed class; however, in C++/CLI source code, such functions cannot be qualified explicitly with that class name. end note]

The encoding of non-member functions in metadata is unspecified. [Note: This does not cause interop problems because such functions cannot have public visibility. end note]

So my question is why don't C# implement something like this? Or do you think there should not be non-member functions and every method should belong to some class?

My opinion is to have non-member function support and it helps to avoid polluting class's interface.

Any thoughts..?

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    F# also supports methods without an explicit class (and then creates a name from the file name for the implicit class). – Richard Jun 24 '09 at 9:09

11 Answers 11


See this blog posting:



I am asked "why doesn't C# implement feature X?" all the time. The answer is always the same: because no one ever designed, specified, implemented, tested, documented and shipped that feature. All six of those things are necessary to make a feature happen. All of them cost huge amounts of time, effort and money. Features are not cheap, and we try very hard to make sure that we are only shipping those features which give the best possible benefits to our users given our constrained time, effort and money budgets.

I understand that such a general answer probably does not address the specific question.

In this particular case, the clear user benefit was in the past not large enough to justify the complications to the language which would ensue. By stricting how different language entities nest inside each other we (1) restrict legal programs to be in a common, easily understood style, and (2) make it possible to define "identifier lookup" rules which are comprehensible, specifiable, implementable, testable and documentable.

By restricting method bodies to always be inside a struct or class, we make it easier to reason about the meaning of an unqualified identifier used in an invocation context; such a thing is always an invocable member of the current type (or a base type).


and this follow-up posting:



Like all design decisions, when we're faced with a number of competing, compelling, valuable and noncompossible ideas, we've got to find a workable compromise. We don't do that except by considering all the possibilites, which is what we're doing in this case.

(emphasis from original text)

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    Good point, but it should be (and is) a comment, rather than an answer. – Beska Jun 22 '09 at 15:50
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    @Beska, given that it is clearly an answer to the original question (and the only answer here with any claim to provenance!) how do you figure that? – Daniel Earwicker Jun 22 '09 at 16:23
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    I am not merely posting "a link to a blogger I respect", I am posting a link to my own blog. – Eric Lippert Jun 22 '09 at 21:45
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    Maybe he's trying to earn his own respect. Perhaps by submitting to a series of painful ordeals. Such as visiting SO! :) – Daniel Earwicker Jun 23 '09 at 8:26
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    @Eric: I happen to know for a fact that you like it when we speculate about your mental state and present it as facts. – configurator Oct 14 '10 at 1:17

C# doesn't allow it because Java didn't allow it.

I can think of several reasons why the designers of Java probably didn't allow it

  • Java was designed to be simple. They attempted to make a language without random shortcuts, so that you generally have just one simple way to do everything, even if other approaches would have been cleaner or more concise. They wanted to minimize the learning curve, and learning "a class may contain methods" is simpler than "a class may contain methods, and functions may exist outside classes".
  • Superficially, it looks less object-oriented. (Anything that isn't part of an object obviously can't be object-oriented? Can it? of course, C++ says yes, but C++ wasn't involved in this decision)

As I already said in comments, I think this is a good question, and there are plenty of cases where non-member functions would've been preferable. (this part is mostly a response to all the other answers saying "you don't need it")

In C++, where non-member functions are allowed, they are often preferred, for several reasons:

  • It aids encapsulation. The fewer methods have access to the private members of a class, the easier that class will be to refactor or maintain. Encapsulation is an important part of OOP.
  • Code can be reused much easier when it is not part of a class. For example, the C++ standard library defines std::find or std::sort` as non-member functions, so that they can be reused on any type of sequences, whether it is arrays, sets, linked lists or (for std::find, at least) streams. Code reuse is also an important part of OOP.
  • It gives us better decoupling. The find function doesn't need to know about the LinkedList class in order to be able to work on it. If it had been defined as a member function, it would be a member of the LinkedList class, basically merging the two concepts into one big blob.
  • Extensibility. If you accept that the interface of a class is not just "all its public members", but also "all non-member functions that operate on the class", then it becomes possible to extend the interface of a class without having to edit or even recompile the class itself.

The ability to have non-member functions may have originated with C (where you had no other choice), but in modern C++, it is a vital feature in its own right, not just for backward-comparibility purposes, but because of the simpler, cleaner and more reusable code it allows.

In fact, C# seems to have realized much the same things, much later. Why do you think extension methods were added? They are an attempt at achieving the above, while preserving the simple Java-like syntax. Lambdas are also interesting examples, as they too are essentially small functions defined freely, not as members of any particular class. So yes, the concept of non-member functions is useful, and C#'s designers have realized the same thing. They've just tried to sneak the concept in through the back door.

http://www.ddj.com/cpp/184401197 and http://www.gotw.ca/publications/mill02.htm are two articles written by C++ experts on the subject.

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    "C# doesn't allow it because Java didn't allow it." -- I would be fascinated to hear how you came up with this particular conclusion. Were you in the design meeting that day? Have you read the design team's notes? Did one of the designers tell you that? – Eric Lippert Jun 21 '09 at 22:09
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    @Eric: Microsoft at the end of the previous century was very much in copy mode, at least publicly. With stuff like J# and the whole Sun/Microsoft row, it's impossible to deny that Java influenced C# and CLI. It doesn't follow automatically that this applies to this particular (mis)feature. But it's quite remarkable that such a common language feature is missing from the Common Language Infrastructure. – MSalters Jun 22 '09 at 9:49
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    Of course Java was an influence on C#. As was C, C++, JScript, Visual Basic, Pascal, and a great many other languages. But C# is not "Java with the stupid parts taken out", as many people seem to think. – Eric Lippert Jun 22 '09 at 13:45
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    Absolutely. C# and Java share a large number of their confusing or error-prone idioms. We have tried to learn from the shortcomings of the Java design; there are a great many places where the C# compiler produces warnings or errors for idioms where the equivalent Java code is legal but misleading. But we by no means got anywhere close to all of them. – Eric Lippert Jun 22 '09 at 17:48
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    @Eric: no, I wasn't in that meeting. :) But given that C# drew a lot of inspiration from Java (as you have stated), and that C++ does allow non-member functions, and has some very good reasons for doing so (beyond just "we need to be compatible with C"), I can't really think of any reasons other than variations on the theme of "hey, it worked in Java, let's stick with that", I find it to be the most likely explanation. Whatever the reasoning behind this decision, would you have even considered it if Java hadn't done it first? – jalf Oct 14 '10 at 11:31

Non member functions are a good thing because they improve encapsulation and reduce coupling between types. Most modern programming languages such as Haskell and F# support free functions.

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    Yeah. All my new projects are in C# and I really miss free function feature :( – Navaneeth K N Jun 21 '09 at 16:25
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    Extension methods help quite a bit, but I agree, proper free functions would be a great addition – jalf Jun 21 '09 at 16:30
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    You can still use static classes to achieve the same effect. – Jason Baker Jun 21 '09 at 20:33
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    "Static classes" serve no real purpose. They are just like namespaces (except they are harder to type) - why not use real namespaces instead? – Nemanja Trifunovic Jun 21 '09 at 21:47

What's the benefit of not putting each method in a named class? Why would a non-member function "pollute" the class's interface? If you don't want it as part of the public API of a class, either don't make it public or don't put it in that class. You can always create a different class.

I can't remember ever wanting to write a method floating around with no appropriate scope - other than anonymous functions, of course (which aren't really the same).

In short, I can't see any benefit in non-member functions, but I can see benefits in terms of consistency, naming and documentation in putting all methods in an appropriately named class.

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    it's pretty commonly accepted in C++ that when possible, non-member functions should be preferred. The logic is simple. The fewer methods have access to a class' privates, the better. The better encapsulated it is, and the easier it is to maintain. And of course, it allows a lot more code reuse across classes. (The standard library std::find, for example, is one single implementation that is reused for any iterator type. In C#, every container class have to define their own find function. Which is most OOP? Which offers the most code reusability? ;) – jalf Jun 21 '09 at 16:00
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    To most Java/C# programmers, this is a bit of a source of culture shock, but the logic behind it is pretty straightforward. See ddj.com/cpp/184401197 for example. However, I think you answer the question very well. C# doesn't allow it because to non-C++ programmers, it looks strange and scary and non-OOP. ;) It goes against a lot of what "conventional" OOP languages teach. – jalf Jun 21 '09 at 16:01
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    @Jon: But why should I put it in a static class? What benefit does that give me over placing it outside all classes? It doesn't conceptually belong to that other static class. Anonymous classes are not members of the class in which they're created, however. They are implemented as a lot of trickery and the creation of a new anonymous class. As for global variables outside a class, no. A global variable can't meaningfully be considered part of a class's interface, the way a free function can. Why do you consider a static class a better grouping construct than a namespace though? – jalf Jun 21 '09 at 16:29
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    "Why do you consider a static class a better grouping construct than a namespace though?" Seconded! :) If non-member functions were allowed (and all else equal), a namespace would be better than a static class because it can be targeted by a using. Or equivalently we can ask: why shouldn't a 'using' directive be able to target a static class, allowing us to call its methods without qualification? – Daniel Earwicker Jun 21 '09 at 16:33
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    How can a static class be a smaller unit than a namespace? Is a namespace containing, say, 3 nonmember functions a bigger unit than a static class containing 3 static member functions? The class contains a lot of additional infrastructure (a type id, for example), in addition to the three methods. Doesn't that make the static class a bigger unit than the equivalent namespace? – jalf Jun 21 '09 at 17:13

The CLS (common language specification) says that you shouldn't have non-member functions in a library that conforms to the CLS. It's like an extra set of restrictions in addition to the basic restrictions of the CLI (common language interface).

It is possible that a future version of C# will add the ability to write a using directive that allows the static members of a class to be accessed without the class name qualification:

using System.Linq.Enumerable; // Enumerable is a static class


IEnumerable<int> range = Range(1, 10); // finds Enumerable.Range

Then there will be no need to change the CLS and existing libraries.

These blog posts demonstrate a library for functional programming in C#, and they use a class name that is just one letter long, to try and cut down the noise caused by the requirement to qualify static method calls. Examples like that would be made a little nicer if using directives could target classes.

  • Having all code lie within classes allows for a more powerful set of reflection capabilities.
  • It allows the use of static intializers, which can initialize the data needed by static methods within a class.
  • It avoids name clashes between methods by explicitly enclosing them within a unit that cannot be added to by another compilation unit.
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Since Java, most programmers have easily accepted that any method is a member of a class. I doesn't make any considerable obstacles and make the concept of method more narrow, which make a language easier.

However, indeed, class infers object, and object infers state, so the concept of class containing only static methods looks a little absurd.

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    Class only infers object if it's an instance method. I don't see anything absurd about the concept of a class containing only static methods - it's a sufficiently useful pattern that it got proper syntax support in C# 2 :) Put it this way - I'd rather have classes "IOUtil", "StringUtil" etc than have all utility methods just at the namespace level. – Jon Skeet Jun 21 '09 at 16:18
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    It is absurd. Classes are supposed to be patterns for creating objects, not containers for methods. – Nemanja Trifunovic Jun 21 '09 at 16:23
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    I don't think putting static method into a class or into a namespace is a big deal either. But think about the very word "class". Class of what? I think the ansfer is of objects, not of something you can use in your program ;) . – Dmitry Tashkinov Jun 21 '09 at 16:27
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    It's certainly a bit strange. Logically there is no difference between a static class and a namespace containing (hypothetical) non-member functions. It makes no more sense to insist that all utility methods should be contained in a static class than it would to insist that all small utility classes should be contained in a static class – Daniel Earwicker Jun 21 '09 at 16:29

I think you really need to clarify what you would want to create non-member static methods to achieve.

For instance, some of the things you might want them for could be handled with Extension Methods

Another typical use (of a class which only contains static methods) is in a library. In this case, there is little harm in creating a class in an assembly which is entirely composed of static methods. It keeps them together, avoids naming collisions. After all, there are static methods in Math which serve the same purpose.

Also, you should not necessarily compare C++'s object model with C#. C++ is largely (but not perfectly) compatible with C, which didn't have a class system at all - so C++ had to support this programming idiom out of the C legacy, not for any particular design imperative.

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Bear something in mind: C++ is a much more complicated language than C#. And although they may be similiar syntactically, they are very different beasts semantically. You wouldn't think it would be terribly difficult to make a change like this, but I could see how it could be. ANTLR has a good wiki page called What makes a language problem hard? that's good to consult for questions like this. In this case:

Context sensitive lexer? You can't decide what vocabulay symbol to match unless you know what kind of sentence you are parsing.

Now instead of just worrying about functions defined in classes, we have to worry about functions defined outside classes. Conceptually, there isn't much difference. But in terms of lexing and parsing the code, now you have the added problem of having to say "if a function is outside a class, it belongs to this unnamed class. However, if it is inside the class, then it belongs to that class."

Also, if the compiler comes across a method like this:

public void Foo()

...it now has to answer the question "is Bar located within this class or is it a global class?"

Forward or external references? I.e., multiple passes needed? Pascal has a "forward" reference to handle intra-file procedure references, but references to procedures in other files via the USES clauses etc... require special handling.

This is another thing that causes problems. Remember that C# doesn't require forward declarations. The compiler will make one pass just to determine what classes are named and what functions those classes contain. Now you have to worry about finding classes and functions where functions can be either inside or outside of a class. This is something a C++ parser doesn't have to worry about as it parses everything in order.

Now don't get me wrong, it could probably be done in C#, and I would probably use such a feature. But is it really worth all the trouble of overcoming these obstacles when you could just type a class name in front of a static method?

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  • Forget C++. How about F# or VB.NET? They do support free functions just fine. – Nemanja Trifunovic Jun 21 '09 at 16:32
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    If for some daft reason you had to type MONKEY in front of every identifier in C#, we could defend this by saying "Is it really such a big deal having to type MONKEY in front of every identifier? Come on, don't make such a fuss about a little bit of typing!" But that wouldn't stop it from being a strange and unnecessary imposition. It's the same with requiring all references to static functions to be qualified by a class name. No need for it, waste of everyone's time. – Daniel Earwicker Jun 21 '09 at 18:42
  • @Nemanja - They're still very different languages with different grammars. Look, I agree that global functions would be helpful. But I personally would rather have dynamic typing, co/contravariance, and optional and named parameters before I get free functions. – Jason Baker Jun 21 '09 at 20:32
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    And in fact you will get all of those things before you get "free" methods. :-) – Eric Lippert Jun 22 '09 at 15:55
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    @Jason - I shouldn't be too concerned that the outcome of this discussion will impact on the feature set of C# 4.0! – Daniel Earwicker Jun 22 '09 at 16:14

Free functions are very useful if you combine them with duck typing. The whole C++ STL is based on it. Hence I am sure that C# will introduce free functions when they manage to add true generics.

Like economics, language design is also about psychology. If you create appetite for true generics via free functions in C# and not deliver, then you would kill C#. Then all C# developers would move to C++ and nobody wants that to happen, not the C# community and most certainly not those invested in C++.


While it's true you need a class (e.g. a static class called FreeFunctions) to hold such functions, you're free to place using static FreeFunctions; at the top of any file that needs the functions from it, without having to litter your code with FreeFunctions. qualifiers. I'm not sure if there's actually a case where this is demonstrably inferior to not requiring the function definitions to be contained in a class.

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