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I know everyone hates gotos. In my code, for reasons I have considered and am comfortable with, they provide an effective solution (ie I'm not looking for "don't do that" as an answer, I understand your reservations, and understand why I am using them anyway).

So far they have been fantastic, but I want to expand the functionality in such a way that requires me to essentially be able to store pointers to the labels, then go to them later.

If this code worked, it would represent the type of functionality that I need. But it doesn't work, and 30 min of googling hasn't revealed anything. Does anyone have any ideas?

int main (void)
{
  int i=1;
  void* the_label_pointer;

  the_label:

  the_label_pointer = &the_label;

  if( i-- )
    goto *the_label_pointer;

  return 0;
}
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Can you explain why you need to store the labels in pointers? –  Ahmed Said Nov 22 '09 at 6:23
2  
I am implementing a finite state machine, based off of the answer by Remo.D in this post stackoverflow.com/questions/132241 My version has evolved to be considerably more involved than this, but this represents the basic structure. It has been effective so far, but I would like to make available to the states some context where they can access the calling state and current state through either some variables that are set on state transitions, or through a callback or something. –  Joshua Cheek Nov 22 '09 at 6:36
    
Duplicate of stackoverflow.com/questions/938518/c-c-goto –  qrdl Nov 22 '09 at 7:52
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11 Answers

The C and C++ standards do not support this feature. However, the GNU Compiler Collection (GCC) includes a non-standard extension for doing this as described in this article. Essentially, they have added a special operator "&&" that reports the address of the label as type "void*". See the article for details.

P.S. In other words, just use "&&" instead of "&" in your example, and it will work on GCC.
P.P.S. I know you don't want me to say it, but I'll say it anyway,... DON'T DO THAT!!!

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5  
+1 for the PPS! –  Jonathan Leffler Nov 22 '09 at 6:57
    
+1 for the PPS too! I'll add my own: DON'T DO THAT! –  Daniel Rodriguez Nov 22 '09 at 8:11
1  
goto label address is great for writing an interpreter. –  Justin Dennahower Nov 5 '13 at 17:22
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You can do something similar with setjmp/longjmp.

int main (void)
{
    jmp_buf buf;
    int i=1;

    // this acts sort of like a dynamic label
    setjmp(buf);

    if( i-- )
        // and this effectively does a goto to the dynamic label
        longjmp(buf, 1);

    return 0;
}
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4  
Just a caution that setjmp/longjmp can be slow, since they save and restore much more than just the program counter. –  RickNZ Nov 22 '09 at 7:00
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According to the C99 standard, § 6.8.6, the syntax for a goto is:

    goto identifier ;

So, even if you could take the address of a label, you couldn't use it with goto.

You could combine a goto with a switch, which is like a computed goto, for a similar effect:

int foo() {
    static int i=0;
    return i++;
}

int main(void) {
    enum {
        skip=-1,
        run,
        jump,
        scamper
    } label = skip; 

#define STATE(lbl) case lbl: puts(#lbl); break
    computeGoto:
    switch (label) {
    case skip: break;
    	STATE(run);
    	STATE(jump);
    	STATE(scamper);
    default:
        printf("Unknown state: %d\n", label);
        exit(0);
    }
#undef STATE
    label = foo();
    goto computeGoto;
}

If you use this for anything other than an obfuscated C contest, I will hunt you down and hurt you.

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What is the difference between puts(#lbl) and puts(lbl)? –  Ahmed Said Nov 22 '09 at 7:31
1  
The # is the preprocessor stringizing operator (en.wikipedia.org/wiki/C_preprocessor#Quoting_macro_arguments). It converts identifiers into strings. puts(lbl) won't compile because lbl isn't a char *. –  outis Nov 22 '09 at 7:54
    
Rather, it will compile with warnings and crash if you run it. –  outis Nov 23 '09 at 1:33
1  
+1 for evil thinking and use of macros above and beyond the call of duty. –  EvilTeach Apr 2 '10 at 22:20
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The switch ... case statement is essentially a computed goto. A good example of how it works is the bizarre hack known as Duff's Device:

send(to, from, count)
register short *to, *from;
register count;
{
    register n=(count+7)/8;
    switch(count%8){
    case 0:	do{	*to = *from++;
    case 7:		*to = *from++;
    case 6:		*to = *from++;
    case 5:		*to = *from++;
    case 4:		*to = *from++;
    case 3:		*to = *from++;
    case 2:		*to = *from++;
    case 1:		*to = *from++;
    	}while(--n>0);
    }
}

You can't do a goto from an arbitrary location using this technique, but you can wrap your entire function in a switch statement based on a variable, then set that variable indicating where you want to go, and goto that switch statement.

int main () {
  int label = 0;
  dispatch: switch (label) {
  case 0:
    label = some_computation();
    goto dispatch;
  case 1:
    label = another_computation();
    goto dispatch;
  case 2:
    return 0;
  }
}

Of course, if you do this a lot, you'd want to write some macros to wrap it.

This technique, along with some convenience macros, can even be used to implement coroutines in C.

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1  
There is no guarantee that the switch/case will be implemented as a computed goto. Quite often it is compiled as if it was a series of if/else if/else if/... and the generated assembly will test for each value rather than compute a single address to jump to. –  Sam Hocevar Dec 8 '11 at 9:46
    
@SamHocevar Sure, you can't depend on how it will be implemented (though cases like this, in which you are using a small range with no holes, are much more likely to be optimized this way). But despite whether the optimization is applied, it is semantically equivalent to a goto that is conditional on the value that you pass in, due to the fall-through behavior. The behavior is the same, the implementation only effects the performance. And it seems to be a relevant answer to the OP's question, since he's looking to build a state machine using gotos, for which switch would do the trick. –  Brian Campbell Dec 8 '11 at 23:00
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The only officially supported thing that you can do with a label in C is goto it. As you've noticed, you can't take the address of it or store it in a variable or anything else. So instead of saying "don't do that", I'm going to say "you can't do that".

Looks like you will have to find a different solution. Perhaps assembly language, if this is performance-critical?

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1  
+1 for just doing it in assembly, that's how I solved a similar issue previously. –  mrduclaw Nov 22 '09 at 6:22
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In the very very very old version of C language (think of the time dinosaurs roamed the Earth), known as "Reference Manual" version of C (which refers to a document written by Dennis Ritchie), labels formally had type "array of int", meaning that you could declare an int * variable

int *target;

and assign the address of label to that variable

target = label; /* where `label` is some label */

Later you could use that variable as the operand of goto statement

goto target; /* jumps to label `label` */

However, in ANSI C this feature was thrown out. In the standard modern C you cannot take address of a label and you cannot do "parametrized" goto. This behavior is supposed to be simulated with switch statements, pointers-to-functions and other methods etc. Actually, even the "Reference Manual" itself said that "Label variables are a bad idea in general; the switch statement makes them almost always unnecessary.".

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Read this: setjmp.h - Wikipedia As previously said it is possible with setjmp/longjmp with which you can store a jumppoint in a variable and jump back later.

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Use function pointers and a while loop. Don't make a piece of code someone else will have to regret fixing for you.

I presume you're trying to change the address of the label somehow externally. Function pointers will work.

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I will note that the functionally described here (including && in gcc) is IDEAL for implementing a Forth language interpreter in C. That blows all the "don't do that" arguments out of the water - the fit between that functionality and the way Forth's inner interpreter works is too good to ignore.

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According to this thread, label points are not a standard, so whether they work or not would depend on the compiler you're using.

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I know the feeling then everybody says it shouldn't be done; it just has to be done. Here's how to do it:

#define jumpto(a) asm("jmp *%0"::"r"(a):)

int main (void)
{
  int i=1;
  void* the_label_pointer;

  the_label:

  the_label_pointer = &&the_label;

  if( i-- )
    jumpto(the_label_pointer);

  return 0;
}

The label dereferencing operator && will only work with gcc. And obviously the jumpto assembly macro needs to be implemented specifically for each processor (this one works with both 32 and 64 bit x86). Also keep in mind that there is no guarantee that the state of the stack is the same at two different points in the same function. And at least with some optimization turned on it's possible that the compiler assumes some registers to contain some value at the point after the label. These kind of things can easily get screwed up then doing crazy shit the compiler doesn't expect. Be sure to proof read the compiled code.

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