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In Java you can mark method as final to make it impossible to override.

In C# you have to mark method as virtual to make it possible to override.

Does it mean that in C# you should mark all methods virtual (except a few ones that you don't want to be overridden), since most likely you don't know in what way your class can be inherited?

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I like to think that in C# if you're doing something that feels fastidious, you're doing it wrong. –  Baboon Jan 22 '13 at 12:04
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@KonradRudolph, citation/source please! –  bestsss Jan 22 '13 at 14:04
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@bestsss No, I definitely don’t. Final fields are completely unrelated. –  Konrad Rudolph Jan 22 '13 at 14:13
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@bestsss Forget about final fields, I know that he talks about them. But I think he also talks about final methods in Effective Java. However, I may misremember this. I’m sure though that he mentioned it elsewhere then – maybe in one of his talks. –  Konrad Rudolph Jan 22 '13 at 14:25
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let us continue this discussion in chat –  bestsss Jan 22 '13 at 20:40

6 Answers 6

up vote 111 down vote accepted

In C# you have to mark method as virtual to make it possible to override. Does it mean that in C# you should mark all methods virtual (except a few ones that you don't want to be overridden), since most likely you don't know in what way your class can be inherited?

No. If the language designers thought that virtual should have been the default then it would have been the default.

Overridablility is a feature, and like all features it has costs. The costs of an overrideable method are considerable: there are big design, implementation and testing costs, particularly if there is any "sensitivity" to the class; virtual methods are ways of introducing untested third-party code into a system and that has a security impact.

If you don't know how you intend your class to be inherited then don't publish your class because you haven't finished designing it yet. Your extensibility model is definitely something you should know ahead of time; it should deeply influence your design and testing strategy.

I advocate that all classes be sealed and all methods be non-virtual until you have a real-world customer-focussed reason to unseal or to make a method virtual.

Basically your question is "I am ignorant of how my customers intend to consume my class; should I therefore make it arbitrarily extensible?" No; you should become knowledgable! You wouldn't ask "I don't know how my customers are going to use my class, so should I make all my properties read-write? And should I make all my methods read-write properties of delegate type so that my users can replace any method with their own implementation?" No, don't do any of those things until you have evidence that a user actually needs that capability! Spend your valuable time designing, testing and implementing features that users actually want and need, and do so from a position of knowledge.

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+100 for "all classes be sealed and all methods be non-virtual until you have a real-world customer-focussed reason to unseal or to make a method virtual." –  tallseth Jan 22 '13 at 4:30
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I agree with this answer, but I find it funny that you advocate that classes should be sealed by default, which they are not. –  Matthew Jan 22 '13 at 4:41
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@PopCatalin Your assumption is that making more stuff virtual protects your customer. Actually, it exposes the customer to your mistakes more. –  deworde Jan 22 '13 at 10:48
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-1 I don't agree either. You shouldn't have to limit the extensibility of your software with all known use-cases of your classes. Sealed + non-virtual types inhibits testing and the extensibility of your types and any the software that uses your types. You can look at System.Web as one of the most friction-encumbered and untestable HTTP Stacks in modern use today, 10+ years on and we still aren't void of the concrete ASP.NET types and its non-substitutable impls. After several attempts at new Web Abstractions, MS themselves aren't able to share functionality between their different HTTP stacks –  mythz Jan 22 '13 at 12:47
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I think its probably very important to make the distinction in re: the 'appropriate' answer here betw. "fwks for others" and "code used by ppl w access to change the source later". Non-virtual and sealed in the .NET fwk (as an example) was used in places it never should have been and consumers of that fwk are still saddled w those 10+yr-old 'assumptions' about 'necessary' extensibility points. You CAN'T predict how ppl will want/need to extend your classes so while 'virt-by-default' may be too far the other way, sealed by default is an equally poor choice IMO. –  sbohlen Jan 22 '13 at 12:55

No! Because you don't know how your class will be inherited, you should only mark a method as virtual if you know that you want it to be overridden.

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In my opinion the currently accepted answer is unnecessarily dogmatic.

Fact is that when you don't mark a method as virtual, others cannot override its behaviour and when you mark a class as sealed others cannot inherit from the class. This can cause substantial pain. I don't know how many times I cursed an API for marking classes sealed or not marking methods virtual simply because they did not anticipate my use case.

Theoretically it might be the correct approach to only allow overriding methods and inheriting classes which are meant to be overridden and inherited but in practice it's impossible to foresee every possible scenario and unless your project is security critical there really isn't a good reason to be so closed in.

  1. If you don't have a very good reason then don't mark classes as sealed.
  2. Don't mark every method as virtual as this seems a bit overkill and is unusual in C# but mark the main methods of a class which contain the behaviour as virtual.

One way to make the call is to look at the name of the method or property. A GetLength() method on a List does exactly what the name implies and it doesn't allow for much of interpretation. Changing its implementation would likely be not very transparent so marking it as virtual is probably unnecessary. Marking the Add method as virtual is far more useful as someone could create a special List which only accepts some objects via the Add method etc. Another example are custom controls. You would want to make the main drawing method virtual so others can use the bulk of the behaviour and just change the look but you probably wouldn't override the X and Y properties.

In the end you often don't have to make that decision right away. In an internal project where you can easily change the code anyway I wouldn't worry about these things. If a method needs to be overridden you can always make it virtual when this happens. On the contrary, if the project is an API or library which is consumed by others and slow to update it certainly pays off to think about which classes and methods might be useful. In this case I think it's better to be open rather than strictly closed.

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No. Only methods that you want derived classes to specify should be virtual.

Virtual is not related to final.

To prevent overriding of a virtual method in c# you use sealed

public class MyClass
{
    public sealed override void MyFinalMethod() {...}
}
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FYI, in Java, final on a method means not virtual. –  John Saunders Jan 22 '13 at 4:20

We can conjure up reasons for/again either camp, but that's entirely useless.

In Java there are millions of unintended non-final public methods, but we hear very few horror stories.

In C# there are millions of sealed public methods, and we hear very few horror stories.

So it is not a big deal - the need to override a public method is rare, so it's moot either way.


This reminds me of another argument - whether a local variable should be final by default. It is a pretty good idea, but we cannot exaggerate how valuable it is. There are billions of local variables that could be, but are not, final, but it has been shown to be an actual problem.

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Making a method virtual will generally slow down any code that needs to call it. This slowdown will be insignificant but may in some cases be quite large (among other things, because non-virtual method calls may be in-lined, which may in turn allow the optimizer to eliminate unnecessary operations). It's not always possible to predict the extent to which virtual calls may affect execution speed, and one should generally void doing things which will make code slower except when there's a discernible benefit for doing so.

The performance benefit of making methods non-virtual is probably sufficient in many cases to justify having methods be non-virtual by default, but when classes are designed to be inherited most methods should be virtual and unsealed; the primary usage for non-virtual or sealed methods should be as wrappers for other (possibly protected) virtual methods (code that wants to change the underlying behavior should override the appropriate virtual rather than the wrapper).

There are frequently non-performance-related reasons for marking classes as sealed or limiting inheritance to other classes within the assembly. Among other things, if a class is externally inheritable, all members with protected scope are effectively added to its public API, and any changes to their behavior in the base class may break any derived classes that rely upon that behavior. On the other hand, if a class is inheritable, making its methods virtual doesn't really increase its exposure. If anything, it may reduce derived class's reliance upon the base class internals by allowing them to completely "bury" aspects of the base class implementation that are no longer relevant in the derived class [e.g. if the members of List<T> were virtual, a derived class which overrode them all could use an array of arrays to hold things (avoiding large-object-heap issues), and wouldn't have to try to keep the private array used by List<T> consistent with the array-of-arrays.

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