0

I've noticed that g++ is smart enough to identify when a function is returning a pointer to a temporary/local variable, e.g.

int *foobar()
{
      int a;
      return &a;
}

Will result in:

 warning: address of local variable ‘a’ returned

Is there a way that I can define a function prototype to only accept pointers that the compiler can tell are not temporary. So lets say I have a function

 barfoo(int *a_int);

Is there a way I can tell g++ to complain if someone passes a pointer to a local/temporary object into it? This would prohibit people from calling barfoo with invalid pointers and potentially save debugging some annoying issues.

Example:

   void barfoo(int *a)
   {
        cerr << a << endl;
   };

   void foobar()
   {
        int a;
        barfoo(&a);
   }

I would like the compiler to complain about the `barfoo(&a)'.

10
  • 2
    You can't take te address of a temporary, so this is a non issue. Aug 29, 2011 at 19:23
  • 1
    There are instances where passing a pointer to a local variable is valid. Many date back to the C language where one way to pass variables is by pointers. Aug 29, 2011 at 19:25
  • @Dennis Zikefoose: What about this: void f(void) { int a = 0; int * pa = &a; *pa = 25; return;}. It takes the address of a temporary. Aug 29, 2011 at 19:27
  • 1
    So you want to allow only pointers to global variables? Everything else is "temporary" in the sense that it may stop being valid at some future time, either because it goes out of scope or because somebody explicitly frees it. Aug 29, 2011 at 19:28
  • 1
    @Thomas, "temporary" is a technical term in C++; it refers to unknown intermediate objects produced by expressions and not (yet) assigned to a named local variable. They are distinct from declared locals. (However, clearly the OP was not using that specialized meaning). Aug 29, 2011 at 19:30

7 Answers 7

1

You could instruct the compiler to flag that warning as an error. But beware of defining your problem incorrectly. A function that accepts a pointer to a local is valid use case:

int a;
...
do_something (&a);
printf ("%d\n", a);
1
  • The issue is the compiler doesn't complain if I do what I am describing. Lemme update the original post with an example. Aug 29, 2011 at 19:49
0

I don't think there is any way to get the compiler to enforce it, but you can detect some instances earlier by using malloc_size.

void someFunc(int * mustBeHeap) {
   assert(0!=malloc_size(mustBeHeap));
   //do stuff
}

Unfortunately you will get false positives from code like this:

void someOtherFunc() {
    int * myInts=(int *)malloc(sizeof(int)*20);
    someFunc(&(myInts[3]));
}

It won't work too well with anything allocated with new, boost::pool, etc. In fact, you will get false positives from just about everything.

Also, malloc_size is non-standard.

Edit:

After looking at one of your comments above about taking ownership, it looks like some of the things I described as false positives are in fact situations you also want to detect since you intended to free the memory from the pointer.

5
  • Getting closer, thanks for the input, the only issue is that assert() is a runtime check I believe. Aug 29, 2011 at 20:06
  • @thehelix Yes it is, but this way you can detect the error when the function is called instead of the variable goes out of scope and you start overwriting part of the stack.
    – IronMensan
    Aug 29, 2011 at 20:10
  • Good point! malloc_size() is macos only? Not finding anything about it for linux. Aug 29, 2011 at 20:13
  • @thehelix I didn't realize that, I thought it was in all versions of gcc. Someone here fixunix.com/unix/84654-malloc_size.html says mallinfo might be available. It's msize on Windows.
    – IronMensan
    Aug 29, 2011 at 20:22
  • malloc_usable_size() - fuse4bsd.creo.hu/localcgi/man-cgi.cgi?malloc+3 is close to what we want I think, except it segvs on non-heap variables for me. If that was gaurunteed and portable though that'd still be better than non-deterministic bugs. Thanks for the input! Aug 29, 2011 at 20:39
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No, it can be totally useful to do what you want to avoid there. GCC/G++ cannot guess that the function taking the reference/pointer will store it somewhere to later reuse, when the original caller of the function has already left the call-stack.

1
  • Yes it can be, but it is not in my case. Hence I'd like to tell the compiler about it so it can catch people doing it. Aug 29, 2011 at 19:53
0

You might be able to get a compiler set up to treat warnings as errors (as you should anyway!), but I don't believe there's a way to do what you're asking aside from that.

0

You can tell gcc to treat warnings as errors with -Werror option. Or make the specified warning as error -Werror=. 3.8 Options to Request or Suppress Warnings.

0

In c++ you could write a "guaranteed heap pointer" template class that contains a single real pointer inside but has tightly restricted constructors such that the only way to create one was by new. Overload enough operators, and you could have it behave almost like a naked pointer, except that it will have no conversion from such a pointer.

(I have my doubts about whether that will be worth the trouble, though).

0

Never, ever, use raw pointers in C++ without a good reason. In this case, since you plan on taking ownership of the pointer, accept an object that reflects that. Either auto_ptr \ unique_ptr, if you want sole ownership, or shared_ptr otherwise. If you aren't taking ownership, accept a (possibly const) reference.

2
  • Interesting comments.. are those rules derived from a desire for safety, performance, understanding or what? Unique_ptr will work to enforce ownership, but will not achieve what I am asking I don't think? Aug 29, 2011 at 22:04
  • @thehelix: safety, and clarity of imtent. By asking for a unique_ptr, you explicitly tell the user of your function "I plan on calling delete on this object" so if they pass non-heap memory that's on them. Aug 29, 2011 at 22:15

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