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C++ Static member method call on class instance

Today I discovered that something I had long (and I mean long—like, for twenty years), thought illegal in C++ is actually legal. Namely, calling a static member function as if it belonged to an individual object. For example:

struct Foo
    static void bar() { cout << "Whatever."; }

void caller()
    Foo foo;
    foo.bar();    // Legal -- what?

I normally see static member functions being called strictly with "scope resolution syntax," thus:


This makes sense, because a static member function is not associated with any particular instance of the class, and therefore we wouldn't expect a particular instance to be syntactically "attached" to the function call.

Yet I discovered today that GCC 4.2, GCC 4.7.1, and Clang 3.1 (as a random sampling of compilers) accept the former syntax, as well as:

Foo* foo = new Foo;

In my particular case, the legality of this expression led to a runtime error, which convinced me that the peculiarity of this syntax is of more than academic interest—it has practical consequences.

Why does C++ allow static member functions to be called as if they were direct members of individual objects—that is, by using the . or -> syntax attached to an object instance?

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marked as duplicate by Roman R., Steve Guidi, Blue Moon, Praetorian, Bo Persson Aug 15 '12 at 21:23

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

Hmmm, why not? The difference lies in the instance passed as implicit parameter as with member functions or even not. The function pointer itself might be accessible for the compiler either ways. –  πάντα ῥεῖ Aug 15 '12 at 21:01
"In my particular case, the legality of this expression led to a runtime error" can you expand on that please? –  Luchian Grigore Aug 15 '12 at 21:02
I remember getting a compiler error when I do this when the function is declared in the .h and defined in the .cpp –  Topo Aug 15 '12 at 21:03
there is actually already a similar question on SO [here](stackoverflow.com/questions/325555/… ) with a some good information –  Kreg Aug 15 '12 at 21:04
Hm, same information as the first answer here. But I don't consider "because the bible says so" an adequate answer. –  OldPeculier Aug 15 '12 at 21:07

5 Answers 5

up vote 3 down vote accepted

Presumably so you can call it in places where you may not know the class type of something but the compiler does.

Say I had a bunch of classes that each has a static member that returned the class name:

class Foo
    static const char* ClassName() { return "Foo"; }

class Bar
    static const char* ClassName() { return "Bar"; }

Then all over my code I could do things like:

Foo foo;

printf( "This is a %s\n", foo.ClassName() );    

Without having to worry about knowing the class of my objects all the time. This would be very convenient when writing templates for example.

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This answer begins to hold some attraction. And yet I don't think that in practice this would ever be of benefit. (Maybe you can think of a case.) I would think that templates, as you mention, would be the best use case. So to adjust your second code block: template<typename T> void caller( T& t ) { printf( "This is a %s\n", t.ClassName(); } would work. But then, so would printf( "This is a %s\n", T::ClassName() ); And when would the latter ever be confusing, much less inaccessible, when the former isn't? –  OldPeculier Aug 15 '12 at 21:08
@OldPeculier: Consider a case where you change the above code so that Foo foo; is now Bar foo;. That is the only change you need to make if you used foo.ClassName(). If you have used Foo::ClassName() you need to remember to make 2 changes. Fine with small numbers of changes. Same goes for sizeof foo vs sizeof Foo, typedefs and many other declarations where you only want to make the declaration once. –  tinman Aug 15 '12 at 21:21
@OldPeculier, consider your template example when Foo::ClassName is static but Bar::ClassName isn't static, indeed it might be virtual. –  Mark Ransom Aug 15 '12 at 21:30
@tinman Good point. Seems at least somewhat useful. –  OldPeculier Aug 15 '12 at 21:31
@OldPeculier: Another case is when the type was unobtainable, such as the return type from a function, since prior to C11's decltype, obtaining the return type was not supported by the language. It allows, add(a,b).ClassName() instead of having to write boilerplate code with a template function whose only purpose is to deduce the return type and invoke the static ClassName method on the type: getClassName((add(a,b)). –  Tanner Sansbury Aug 15 '12 at 21:43

It's like this because the standard says that's how it works. n3290 § 9.4 states:

A static member s of class X may be referred to using the qualified-id expression X::s; it is not necessary to use the class member access syntax (5.2.5) to refer to a static member. A static member may be referred to using the class member access syntax, in which case the object expression is evaluated. [ Example:

struct process { 
  static void reschedule(); 

process& g();

void f() { 
  process::reschedule(); // OK: no object necessary
  g().reschedule(); // g() is called 

end example ]

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@RafaelBaptista - to answer that would be speculation. My suspicion is that "is this a static function" is considered an implementation detail, irrelevant to people who use it. –  Flexo Aug 15 '12 at 21:04
Ooooh-kay. But "because the bible said so," isn't an adequate answer in cases of software engineering. Why does the Bible say so? Why did the standards committee see this as a desirable thing? It seems intrinsically confusing, since the object is ignored (apart from its type) and the rule changes the meaning of . and ->. –  OldPeculier Aug 15 '12 at 21:05
@OldPeculier I think the only way to "correctly" address these questions on SO is to use the specification. C++ is C++ because it is. There needs be no other reason. Of course, a reference detailing why the language was designed as such would give the "why?", but such rationale information often seems lost .. perhaps there is a quote buried in some paper or interview manuscript somewhere. –  user166390 Aug 15 '12 at 21:08
The answer for "why" is perhaps because this is a safe extension, which adds a bit of flexibility without danger of breaking things up. –  Roman R. Aug 15 '12 at 21:11
There is no Rationale for the C++ standard (unlike for C99), so specific sections of the standard are generally not explained. –  Bo Persson Aug 15 '12 at 21:13

In The Design and Evolution of C++ at page 288, Bjarne Stroustrup mentions that in the days before static member functions, programmers used hacks like ((X*)0)->f() to call member functions that didn't need an object. My guess is that when static member functions were added to the language, access through -> was allowed so that programmers with code like that could change f to static without having to hunt down and change every use of it.

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+1 For a reference to a [possible] designer insight/decisions. –  user166390 Aug 15 '12 at 21:15

From The Evolution of C++ (pdf), section 8. Static Member Functions:

...It was also observed that nonportable code, such as


was used to simulate static member functions.

So my guess is (based on the pattern of rationale for almost every other weird syntactical thing) they allowed invoking a static member function when you just had the type to provide backwards compatibility with an established but broken idiom.

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Now this answer I start to actually buy. Thank you. –  OldPeculier Aug 15 '12 at 21:18

If you don't subscribe to the "because the standard says so" school of causality, I also suggest that static methods are old enough to come from a time when people actually worried about the extra overhead from passing the this argument to a function call, so making pure functions "static" as an optimization was probably all the rage in 1985.

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