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Can anybody tell what's the problem of the code below?

int main () { 
return main() ; 
}

I tested, it compiles correctly. It's running forever. Anymore trick behind the scene?

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5  
Don't worry, it won't run forever. The second the stack overflows, it'll tell you all about it. Have you considered tail recursion? –  ojrac Jan 24 '10 at 19:12
5  
@ojrac The function main as defined is tail-recursive and was obviously optimized as such by the compiler. If it was going to overflow the stack, it would do so quickly (for instance on my platform stack size (kbytes, -s) 8192 ) –  Pascal Cuoq Jan 24 '10 at 19:17
5  
"Can anybody tell what's the problem of the code below? " We could, but not until you tell us what's the problem with that code is. –  dmckee Jan 24 '10 at 19:37
6  
For any utterance you may unleash on the internet with humorous intent, there are a thousand people, also on the internet, who would say the exact same thing sincerely — Feel free to quote this as the law of Pascal. –  Pascal Cuoq Jan 24 '10 at 20:10
5  
To understand recursion, you must first understand recursion. –  user142019 Sep 6 '11 at 22:50

10 Answers 10

up vote 24 down vote accepted

There seems to be confusion about the terminology used in the standard, and the implications that has for the programmer and compiler.

Firstly, the standard alone determines everything about the C++ language. If your particular version of a particular compiler allows some particular action, that has no bearing on whether or not that action is legal. For the remainder of the post, I'm referring to the ISO03 standard.

So to quote once again, the standard says in §3.6.1.3:

The function main shall not be used within a program.

Additionally, §3.2 defines "used" as:

An object or non-overloaded function is used if its name appears in a potentially-evaluated expression.

This means that once the program begins executing, main should never be entered again. That means programmers cannot call main, that means the compiler cannot insert another call to main (why it would, who knows), you cannot take the address of main and call that, etc. You cannot even have the potential of calling main.

The only call to main should be by the run-time library the program is running on; all other calls invoke undefined behavior. (Which means anything could happen!)


Now onto compiler behavior:

A diagnosable rule is defined as (§1.4.1):

The set of diagnosable rules consists of all syntactic and semantic rules in this International Standard except for those rules containing an explicit notation that “no diagnostic is required” or which are described as resulting in “undefined behavior.”

In our case, §3.6.1.3 defines a diagnosable rule. Here's what compilers should do according to §1.4.2:

— If a program contains no violations of the rules in this International Standard, a conforming implementation shall, within its resource limits, accept and correctly execute3) that program.
— If a program contains a violation of any diagnosable rule, a conforming implementation shall issue at least one diagnostic message, except that
— If a program contains a violation of a rule for which no diagnostic is required, this International Standard places no requirement on implementations with respect to that program.

So compilers are not required to enforce rules. All compilers have to do is take well-formed programs (§1.3.14) and turn them into an executable program. A compiler is free to warn, error, etc. however it likes, as long as it does not conflict with the language. It is required to display a message in our particular case, according to the second clause.

For this particular problem, on gcc the -pedantic option will warn about the illegality of calling main within the program. Visual Studio will not warn about calling main, but on any warning level (greater than 0) it will warn about the recursive nature of the program.


What does all this mean in terms of the answers you should expect? It means it's completely meaningless to try and define with certainty what the code snippet posted will do. Calling main results in undefined behavior, and trying to define undefined behavior is obviously a lost cause. The only honest answer anyone can give to "what happens when I call main?" is "Anything."

I hope this clears things up.

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2  
In VS, you can change your entry point to function like ThisIsMyNewMainAndBeatIt(), then you can call main() again and feel good with it. –  alemjerus Jan 24 '10 at 21:06
    
Your use of "undefined behavior" does not match the rest of the world, it seems. That may be fine but i think it deserves an explanation. What you seem to mean is that the compiler is free to do what it wants after giving at least one diagnostic (this of course is always the case, even for a correct program: The standard does not forbid compressing the result executable, for instance). But what most other people mean is that anything can happen, including no diagnostic at all. So, calling main is equivalent with writing "i have a dream" into your main function: It's just ill-formed. –  Johannes Schaub - litb Jan 24 '10 at 22:11
    
@Johannes: I thought "anything can happen" was a run-time issue, while at compile time a diagnosis should be required. –  GManNickG Jan 24 '10 at 22:14
    
Fair point. I agree with you: Once the compiler accepts the code (after giving a diagnostic), it will probably do the obvious thing and cause infinite recursion which indeed is bad. Just wanted to note that on the language level, this is really not different from writing other ill-formed snippets, like int *i = 10;. What the compiler does in the end is its business. Have fun :) –  Johannes Schaub - litb Jan 24 '10 at 22:19
    
@GMan regarding your last question about whether undefined behavior is only a runtime issue. "Undefined behavior" is about both translation and execution. Some cases where UB is a compile time issue: Unbound template instantiation, forgotten newline in non-empty file, violation of ODR (two different definitions of the same class). I think exceeding limits also causes undefined behavior (like too many nested blocks, too long identifiers, etc..). –  Johannes Schaub - litb Jan 24 '10 at 22:51

Calling main in C++ is illegal (§3.6.1.3):

The function main shall not be used within a program.

Your compiler is allowing illegal behavior.

It loops forever because, well, main calls main, who calls main, who calls main, and so on.

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Do you have a reference for this supposed illegality? I doubt if compilers are required to detect this. –  ergosys Jan 24 '10 at 19:19
    
@ego: It's in the post. :o –  GManNickG Jan 24 '10 at 19:20
3  
I find this rule amusing in its ambiguity. "How am I supposed to get my program to run if I can't use main?" –  Swiss Jan 24 '10 at 19:21
    
@GMan The note about compiler is allowing illegal behaviour is not precise. The standard does not require compiler to perform any diagnostics. So it is not required to throw any error message. –  mloskot Jan 24 '10 at 19:23
1  
@Swiss You do not run it, but the C++ implementation and its infrastructure does. Check the pointed section in the standard. –  mloskot Jan 24 '10 at 19:24

It's like being a drug-dealer. Pretty illegal, but compiles and even works out good for some time...

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+1 for making me laugh. :) –  Matteo Italia Jan 24 '10 at 20:01

The question is, why would you want to?

main is supposed to be a single entrypoint for your program. Calling it again essentially restarts your program, but without a new process instance; no new stack, no new heap, etc.

If you really need recursion, call a separate function recursively.

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The C++ standard, in section 3.6.1 it says:

The function main shall not be used (3.2) within a program.

It specifies, you are not supposed to call it from within your program.

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Of course if you really want call your main function recursively, and sometimes there are good reasons, you should just do this

int mymain()
{
  return mymain();
}

int main()
{
   return mymain();
}
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When you write recursive code, you need to make sure that at some point you stop recursing, otherwise you've just written an infinite loop.

Which you have.

You should expect this code to go away for a long time and then finally crash with a stack overflow.

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1  
True for any other function, but calling main is not allowed. –  jalf Jan 24 '10 at 19:37
3  
@Jogn: Just because one compiler doesn't stop something doesn't suddenly make it allowed, defined, etc. The language is specified by the standard and the standard alone. And the standard says it's not allowed. It's as simple as that. –  GManNickG Jan 24 '10 at 19:53
3  
@John, i think you are misunderstanding the Standard then. What the Standard states is pretty clear, and it forbids calling main. –  Johannes Schaub - litb Jan 24 '10 at 20:34
2  
@John: Undefined behavior has everything to do with the infinite recursion he's seeing. Calling main behaves exactly the way the compiler implements it. Which is not necessarily the same way as any other function. And the spec mandates nothing, unlike what you seem to be arguing. You're arguing that the spec should require main to behave like any other function when called. The spec does not guarantee that. And for heaven's sake, never trust the compiler over someone who simply reads the spec. The compiler writers carefully read the spec, yes, but they may choose not to follow it. –  jalf Jan 24 '10 at 23:41
2  
@John: No one is going to take you seriously. Just read this post stackoverflow.com/questions/2128321/… and understand the very well defined terminology used. "Use" was also defined there. We are correct, everything is right there in the standard for you to read. It's sheer laziness to not just look it up yourself and continue arguing with your own predisposed definitions. I normally don't down-vote answers based on comments, because they are two separate things, but here you go. You're spreading misinformation. –  GManNickG Jan 25 '10 at 2:52

You have two issues. The first is calling main which, as has been pointed out both violates the standard and the intent of the standard.

The bigger problem is you've written a recursive call without any closing point. You question seems to assume that the version of main called by the initial one will just return. However, most languages (in fact all I can think of) allowed unlimited recursion: if a function calls itself then that version will as well. The only limit is system resources.

So you need to wrap the call in a conditional and only continue to call when needed. In your example, adding a global integer set to the number of levels you want to recurse would work. Something like this:

`

int levels = 3;
 int main() {
    if(levels) {
       cout << "Recursing another level...\n";
       levels--;
       main();
    }
    else {
       cout << "Reached the bottom.\n";
    }
    return levels;
 }

`

Will exit.

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I would also like to know the compiler. Under gcc/g++ the program compiles but I get a segmentation fault when running the program.

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g++ -Wall -c "%f" –  skydoor Jan 24 '10 at 19:27
    
It doesn't show but as mentioned above -pedantic does with the output "error: ISO C++ forbids taking address of function ‘::main’" –  J. Polak Jan 24 '10 at 19:45

Whilst your program obviously makes no sense as it loops forever it might look feasible to do something like:

int main( int argc, char* argv[] )
{
   if( argc )
   {
      // do something with argv[0]
      main( argc - 1, &argv[1] );
   }
   else
   {
       // rest of application having loaded your arguments
   }
}

However the standard disallows it. (See other answers)

Of course you can implement that by doing this

int myFunc( int argc, char * argv[] )
{
     // I can recurse this if I like and just get main to forward straight to here
}
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