Announcing Stack Overflow Documentation

We started with Q&A. Technical documentation is next, and we need your help.

Whether you're a beginner or an experienced developer, you can contribute.

Sign up and start helping → Learn more about Documentation →

I've been having a discussion with my coworkers as to whether to prefix overridden methods with the virtual keyword, or only at the originating base class.

I tend to prefix all virtual methods (that is, methods involving a vtable lookup) with the virtual keyword. My rationale is threefold:

  1. Given that C++ lacks an override keyword, the presence of the virtual keyword at least notifies you that the method involves a lookup and could theoretically be overridden by further specializations, or could be called through a pointer to a higher base class.

  2. Consistently using this style means that, when you see a method (at least within our code) without the virtual keyword, you can initially assume that it is neither derived from a base nor specialized in subclass.

  3. If, through some error, the virtual were removed from IFoo, all children will still function (CFooSpecialization::DoBar would still override CFooBase::DoBar, rather than simply hiding it).

The argument against the practice, as I understood it, was, "But that method isn't virtual" (which I believe is invalid, and borne from a misunderstanding of virtuality), and "When I see the virtual keyword, I expect that means someone is deriving from it, and go searching for them."

The hypothetical classes may be spread across several files, and there are several specializations.

class IFoo {
    virtual void DoBar() = 0;
    void DoBaz();

class CFooBase : public IFoo {
    virtual void DoBar(); // Default implementation
    void DoZap();

class CFooSpecialization : public CFooBase {
    virtual void DoBar(); // Specialized implementation

Stylistically, would you remove the virtual keyword from the two derived classes? If so, why? What are Stack Overflow's thoughts here?

share|improve this question
I'd be interested to see Bjarne's (or the C++ committee's) rationale for why virtual is even allowed to be omitted in the derived class. The rationale might provide more compelling reasons for actually omitting it than does your colleague. Perhaps only in certain cases, though. – Steve Jessop Sep 3 '09 at 1:38
Unfortunately there is no rationale included in the spec. It just says it is "legal but redundant (has empty semantics)". Would be interesting to hear, though, if there is any record of what the rationale was. – Tyler McHenry Sep 3 '09 at 1:44
I don't have a copy of "design and evolution", which may or may not contain anything about it. – Steve Jessop Sep 3 '09 at 1:51
I'd like to point out that as of C++11, you can also use the override specifier to, well, specify that a function is virtual and overrides another function; doing so also allows the compiler to give you an error message if the function doesn't override anything. With your example, CFooBase and CFooSpecialization would have virtual void DoBar() override;. – Justin Time Feb 18 at 3:00
@JustinTime I think what people want, as impractical as it is, is a Standard-enforced way to require descriptive vfunc declarations, rather than having to remember to deliberately type yet another keyword that is totally optional without having to turn on compiler-dependent warnings. But I think it's too late for that now in terms of what it'd break and the customary backlash that would result. That said, here's the trick for g++: stackoverflow.com/questions/29145476/… – underscore_d Jul 3 at 0:13
up vote 23 down vote accepted

I completely agree with your rationale. It's a good reminder that the method will have dynamic dispatch semantics when called. The "that method isn't virtual" argument that you co-worker is using is completely bogus. He's mixed up the concepts of virtual and pure-virtual.

share|improve this answer

A function once a virtual always a virtual.

So in any event if the virtual keyword is not used in the subsequent classes, it does not prevent the function/method from being 'virtual' i.e. be overridden. So one of the projects that I worked-in, had the following guideline which I somewhat liked :

  • If the function/method is supposed to be overridden always use the 'virtual' keyword. This is especially true when used in interface / base classes.
  • If the derived class is supposed to be sub-classed further explicity state the 'virtual' keyword for every function/method that can be overridden. C++11 use the 'override' keyword
  • If the function/method in the derived class is not supposed to be sub-classed again, then the keyword 'virtual' is to be commented indicating that the function/method was overridden but there are no further classes that override it again. This ofcourse does not prevent someone from overriding in the derived class unless the class is made final (non-derivable), but it indicates that the method is not supposed to be overridden. Ex: /*virtual*/ void guiFocusEvent(); C++11, use the 'final' keyword along with the 'override' Ex: void guiFocusEvent() override final;
share|improve this answer

Adding virtual does not have a significant impact either way. I tend to prefer it but it's really a subjective issue. However, if you make sure to use the override and sealed keywords in Visual C++, you'll gain a significant improvement in ability to catch errors at compile time.

I include the following lines in my PCH:

#if _MSC_VER >= 1400
#define OVERRIDE override
#define SEALED sealed
#define OVERRIDE
#define SEALED
share|improve this answer
Nice - I was unaware that MSVC had this for native C++ code. I may do something similar to what you have (though I suspect I'll get overridden by the team - "that's not C++!"). – Michael Burr Sep 3 '09 at 4:10
Thanks, I've learned something new here! However, I'm tempted to say that I don't want to use non-standard language extensions unless I absolutely have to. It seems that the #define-magic can make the code compile cross-platform but it is likely that it won't restrict errors creeping into it when you work on the code base outside of windows. Hence no vote up or down. – nonsensickle Feb 17 '14 at 22:24
You can (at least in theory) get rid of your #define magic now. override is now standard (C++11) and you can replace sealed with final (also C++11). – Jeremy Sorensen Nov 5 '14 at 20:25
Or if you still need to use older versions of Visual Studio, you could rewrite it so that it defaults to defining SEALED to final, but sets it to sealed for said older versions of VS. – Justin Time Feb 18 at 3:02

I would tend not to use any syntax that the compiler will allow me to omit. Having said that, part of the design of C# (in an attempt to improve over C++) was to require overrides of virtual methods to be labeled as "override", and that seems to be a reasonable idea. My concern is that, since it's completely optional, it's only a matter of time before someone omits it, and by then you'll have gotten into the habit of expecting overrides to be have "virtual" specified. Maybe it's best to just live within the limitations of the language, then.

share|improve this answer
"I would tend not to use any syntax that the compiler will allow me to omit." - whereas I think there are some strong cases for using keywords which I'm permitted to omit, for clarity. For example, if I group class members together, then I put an access specifier at the start of each group even if it's the same as the specifier for the previous group. I put "virtual" in the same category - it's so common in my experience to miss that something is virtual, that the value of adding it outweighs the cost. It's really just a comment, provided the base really is (and remains) virtual. – Steve Jessop Sep 3 '09 at 1:59
Does that mean you don't use "inline", "const", "volatile" and "explicit"? Note that I'm not going to pull out the old dogs "auto" and "register" (don't recall if they even made the transition from C to C++, perhaps not, but that's fine, I've never used them in 20+ years anyway). If your intent is "I don't use any syntax that has no effect on the code" that's a little different. Not trying to be pedantic. – Dan Sep 3 '09 at 3:46
I keep hearing from various people, that C# is an attempt to improve over C++. It's a totally different question, I guess, but how can a language be an improvement if it's significantly more complicated, has a lot more syntax constructs (LINQ anyone?) and is so tightly tied to it's standard library (it took me quite some time, coming from C++, to understand that int[] is a class that inherits from IEnumerable<int> etc.)? – Paulius Sep 3 '09 at 4:15
@onebyone: I think clarity is best served by not repeating yourself or explicitly specifying the default. So, for example, I see little purpose to stating that a method is private when, by default, all methods are. On the other hand, there are places where it's syntactically necessary to specify it, and there I do. Essentially, I am trying to cut down on the excess verbiage (in my code, clearly not in comments here!) so that we can focus on what it does, not what the compiler wants me to say. – Steven Sudit Sep 3 '09 at 11:31
@Dan: Yes, thanks for the clarification. When I say I would avoid syntax that the compiler would allow me to omit, I do indeed mean "omit without any change in behavior". Clearly, things like volatile and const do affect behavior, so they don't count. But virtual on an override is just seasoning, and I prefer not to over-season. – Steven Sudit Sep 3 '09 at 11:33

I can think of one disadvantage: When a class member function is not overridden and you declare it virtual, you add an uneccessary entry in the virtual table for that class definition.

share|improve this answer
If the base method has already been overridden you already have that penalty. Marking the overridden function virtual doesn't add anything. It's purely a note to programmers. – Martin Beckett Sep 30 '09 at 16:24

Note: My answer regards C++03 which some of us are still stuck with. C++11 has the override and final keywords as @JustinTime suggests in the comments which should probably be used instead of the following suggestion.

There are plenty of answers already and two contrary opinions that stand out the most. I want to combine what @280Z28 mentioned in his answer with @StevenSudit's opinion and @Abhay's style guidelines.

I disagree with @280Z28 and wouldn't use Microsoft's language extensions unless you are certain that you will only ever use that code on Windows.

But I do like the keywords. So why not just use a #define-d keyword addition for clarity?

#define OVERRIDE
#define SEALED


#define OVERRIDE virtual
#define SEALED virtual

The difference being your decision on what you want to happen in the case you outline in your 3rd point.

3 - If, through some error, the virtual were removed from IFoo, all children will still function (CFooSpecialization::DoBar would still override CFooBase::DoBar, rather than simply hiding it).

Though I would argue that it is a programming error so there is no "fix" and you probably shouldn't even bother mitigating it but should ensure it crashes or notifies the programmer in some other way (though I can't think of one right now).

Should you chose the first option and don't like adding #define's then you can just use comments like:

/* override */
/* sealed */

And that should do the job for all cases where you want clarity, because I don't consider the word virtual to be clear enough for what you want it to do.

share|improve this answer
Just gotta point out two things: 1) override and sealed go after the parameter list, not at the start. void func() virtual { /* ... */ } isn't a valid function, but void func() override { /* ... */ } is, as long as it overrides a virtual function in a base class. 2) As of C++11, override is an actual specifier in ISO C++ with the same semantics as the Microsoft-specific version, and final is also an ISO C++11 specifier with (to my knowledge) the same semantics as the Microsoft-specific sealed. – Justin Time Feb 18 at 3:19
@JustinTime Considering that the question was asked in 2009, my answer is for C++03, which some people still use. I'm well aware that C++11 does provide the keywords you mentioned, but I don't think that it yet applies to all of the C++ community. However, your comment does point out that I potentially require a preamble for my answer. – nonsensickle Feb 18 at 22:55
@JustinTime additionally, where in my answer did you find me suggesting to put the virtual keyword after the parameter list? I really don't understand where your point 1) is coming from... – nonsensickle Feb 18 at 22:58
That would be the #define OVERRIDE virtual and #define SEALED virtual macros. If you use those definitions, and use OVERRIDE and SEALED as you would override and final or the older Microsoft-specific override and sealed, then the preprocessor will turn, for instance, void func() OVERRIDE { /* ... */ } into void func() virtual { /* ... */ }. – Justin Time Feb 19 at 0:10
Also, C++11 doesn't add the context-sensitive keyword sealed, it adds final, which appears, as far as I can tell, to have the same semantics as the older Microsoft-specific sealed. – Justin Time Feb 19 at 0:12

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.