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I mean like

int main(){
  void a(){
  //code
  }
  a();
}

AFAIS: nested classes and structs are most common solution...

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1  
Why are you trying to do this? Explaining your purpose might allow someone to tell you the right way to achieve your goal. –  Thomas Owens Dec 1 '10 at 13:26
2  
gcc supports nested functions as a non-standard extension. But better don't use it even if you are using gcc. And in C++ mode, it is not available anyway. –  Sven Marnach Dec 1 '10 at 13:32
4  
@Thomas: Because it would be good to reduce the scope of a? Functions in functions is a usual feature in other languages. –  kotlinski Dec 1 '10 at 13:32
1  
@kotlinski: The C++ way of doing this would be using classes or namesapces. –  Sven Marnach Dec 1 '10 at 13:34
7  
He's talking about nested functions. Similarly to being able to next classes inside classes, he wants to nest a function inside a function. Actually, I've had situations where I would have done so, too, if it were possible. There are languages (e.g. F#) which allows this, and I can tell you that it can make code much more clearer, readable and maintainable without polluting a library with dozens of helpers functions that are useless outside of a very specific context. ;) –  Mephane Dec 1 '10 at 13:35
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10 Answers

up vote 41 down vote accepted

No, C++ doesn't support that.

That said, you can have local classes, and they can have functions (non-static or static), so you can get this to some extend, albeit it's a bit of a kludge:

int main() // it's int, dammit!
{
  struct X { // struct's as good as class
    static void a()
    {
    }
  };

  X::a();

  return 0;
}

However, I'd question the praxis. Everyone knows (well, now that you do, anyway :)) C++ doesn't support local functions, so they are used to not having them. They are not used, however, to that kludge. I would spend quite a while on this code to make sure it's really only there to allow local functions. Not good.

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1  
Main also takes two args if you're going to be pedantic about the return type. :) (Or is that optional but not the return these days? I can't keep up.) –  Leo Davidson Dec 1 '10 at 13:29
2  
This is just bad - it breaks every convention of good, clean code. I can't think of a single instance where this is a good idea. –  Thomas Owens Dec 1 '10 at 13:29
3  
@Thomas Owens: It's good if you need a callback function and don't want to pollute some other namespace with it. –  Leo Davidson Dec 1 '10 at 13:31
2  
@Leo: The standard says there are two permissible forms for main: int main() and int main(int argc, char* argv[]) –  John Dibling Dec 1 '10 at 13:33
3  
The standard says int main() and int main(int argc, char* argv[]) must be supported and others may be supported but they all have return int. –  Joe Gauterin Dec 1 '10 at 13:37
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C++0x (which is the next C++ standard that’s still in the making, but partly implemented by the most recent compilers) supports this using lambdas/closures.

int main() {
    auto f = [] { return 42; };
    std::cout << "f() = " << f() << std::endl;
}

In GCC 4.5 for example you can test this by passing the -std=c++0x flag to the compiler.

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Ah, that's neat! I didn't think of it. This is much better than my idea, +1 from me. –  sbi Dec 1 '10 at 13:32
    
@sbi: I’ve actually used local structs to simulate this in the past (yes, I’m suitably ashamed of myself). But the usefulness is limited by the fact that local structs don’t create a closure, i.e. you cannot access local variables in them. You need to pass and store them explicitly via a constructor. –  Konrad Rudolph Dec 1 '10 at 13:34
1  
@Konrad: Another problem with them is that in C++98 you mustn't use local types as template parameters. I think C++1x has lifted that restriction, though. (Or was that C++03?) –  sbi Dec 1 '10 at 13:36
    
@sbi: Local type still have internal linkage in 03; 0x gives them external linkage so they can be used as template arguments. –  Fred Nurk Dec 1 '10 at 13:44
3  
@luis: I must agree with Fred. You are attaching a meaning to lambdas which they simply don’t have (neither in C++ nor in other languages that I’ve worked with – which don’t include Python and Ada, for the record). Furthermore, making that distinction is just not meaningful in C++ because C++ does not have local functions, period. It only has lambdas. If you want to limit the scope of a function-like thing to a function, your only choices are lambdas or the local struct mentioned in other answers. I’d say that the latter is rather too convoluted to be of any practical interest. –  Konrad Rudolph Dec 2 '10 at 10:04
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No.

What are you trying to do?

workaround:

int main(void)
{
  struct foo
  {
    void operator()() { int a = 1; }
  };

  foo b;
  b(); // call the operator()

}
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Local classes have already been mentioned, but here is a way to let them appear even more as local functions, using an operator() overload and an anonymous class:

int main() {
    struct {
        unsigned int operator() (unsigned int val) const {
            return val<=1 ? 1 : val*(*this)(val-1);
        }
    } fac;

    std::cout << fac(5) << '\n';
}

I don't advise on using this, it's just a funny trick (can do, but imho shouldn't).


2014 Update:

With the rise of C++11 a while back, you can now have local functions whose syntax is a little reminiscient of JavaScript:

auto fac = [] (unsigned int val) {
    return val*42;
};

Recursion is not intrinsically supported, though.

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1  
Should be operator () (unsigned int val), your missing a set of parentheses. –  Joe D Dec 1 '10 at 14:55
    
Actually, this is a perfectly reasonable thing to do if you need to pass this functor to an stl function or algorithm, like std::sort(), or std::for_each(). –  Dima Dec 1 '10 at 16:18
1  
@Dima: Unfortunately, in C++03, locally defined types cannot be used as template arguments. C++0x fixes this, but also provides the much nicer solutions of lambdas, so you still wouldn't do that. –  Ben Voigt Dec 2 '10 at 20:31
    
Oops, you are right. My bad. But still, this is not just a funny trick. It would have been a useful thing if it were allowed. :) –  Dima Dec 2 '10 at 20:34
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You cannot define a free function inside another in C++.

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1  
Not with ansi/posix, but you can with gnu extensions. –  luis.espinal Dec 1 '10 at 17:35
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You can, sort-of, but you have to cheat and use a dummy class:

void moo()
{
    class dummy
    {
    public:
         static void a() { printf("I'm in a!\n"); }
    };

    dummy::a();
    dummy::a();
}
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How to get rid of dummy::? –  Rella Dec 2 '10 at 11:29
    
Not sure you can, except by creating an object instead (which adds just as much noise, IMO). Unless there's some clever thing you can do with namespaces, but I can't think of it and it's probably not a good idea to abuse the language any more than what we are already. :) –  Leo Davidson Dec 2 '10 at 12:31
    
The getting-rid-of-dummy:: is in one of the other answers. –  phresnel Feb 22 '11 at 14:23
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No, it's not allowed. Neither C nor C++ support this feature by default, however TonyK points out (in the comments) that there are extensions to the GNU C compiler that enable this behavior in C.

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2  
It is supported by the GNU C compiler, as a special extension. But only for C, not C++. –  TonyK Dec 1 '10 at 13:29
    
Ah. I don't have any special extensions in my C compiler. That's good to know, though. I'll add that titbit to my answer. –  Thomas Owens Dec 1 '10 at 13:30
    
I've used the gcc extension for support of nested functions (in C, though, not C++). Nested functions are a nifty thing (as in Pascal and Ada) for managing complex, yet cohesive structures that are not meant to be of general use. As long as one uses the gcc toolchain, it is assured to be mostly portable to all targeted architectures. But if there is change of having to compile the resulting code with a non-gcc compiler, then, it is best to avoid such extensions and stick as close as possible to the ansi/posix mantra. –  luis.espinal Dec 1 '10 at 17:34
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As others have mentioned, you can use nested functions by using the gnu language extensions in gcc. If you (or your project) sticks to the gcc toolchain, your code will be mostly portable across the different architectures targeted by the gcc compiler.

However, if there is a possible requirement that you might need to compile code with a different toolchain, then I'd stay away from such extensions.


I'd also tread with care when using nested functions. They are a beautiful solution for managing the structure of complex, yet cohesive blocks of code (the pieces of which are not meant for external/general use.) They are also very helpful in controlling namespace pollution (a very real concern with naturally complex/long classes in verbose languages.)

But like anything, they can be open to abuse.

It is sad that C/C++ does not support such features as an standard. Most pascal variants and Ada do (almost all Algol-based languages do). Same with JavaScript. Same with modern languages like Scala. Same with venerable languages like Erlang, Lisp or Python.

And just as with C/C++, unfortunately, Java (with which I earn most of my living) does not.

I mention Java here because I see several posters suggesting usage of classes and class' methods as alternatives to nested functions. And that's also the typical workaround in Java.

Short answer: No.

Doing so tend to introduce artificial, needless complexity on a class hierarchy. With all things being equal, the ideal is to have a class hierarchy (and its encompassing namespaces and scopes) representing an actual domain as simple as possible.

Nested functions help deal with "private", within-function complexity. Lacking those facilities, one should try to avoid propagating that "private" complexity out and into one's class model.

In software (and in any engineering discipline), modeling is a matter of trade-offs. Thus, in real life, there will be justified exceptions to those rules (or rather guidelines). Proceed with care, though.

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All this tricks just look (more or less) as local functions, but they doesn't work like that. In local function you can use local variables of it's super functions. It's kind of semi-globals. Non of these tricks can do that. The closest is the lambda trick from c++0x, but it's closure is binded in definition time, not the use time.

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But we can declare a function inside main():

int main()
{
    void a();
}

Although the syntax is correct, sometimes it can lead to the "Most vexing parse":

#include <iostream>


struct U
{
    U() : val(0) {}
    U(int val) : val(val) {}

    int val;
};

struct V
{
    V(U a, U b)
    {
        std::cout << "V(" << a.val << ", " << b.val << ");\n";
    }
    ~V()
    {
        std::cout << "~V();\n";
    }
};

int main()
{
    int five = 5;
    V v(U(five), U());
}

=> no program output.

(Only Clang warning after compilation).

C++'s most vexing parse again

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