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I made a small C library that implements graph theory algorithms and binds them for use in Python.

I send it to a friend to check it and he told me that va_list is "dangerous" and must not be used in this kind of project.

So the question is. In which cases va_list should be used?

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2  
If you need functions that take a variable number of arguments in C, you have to use va_list -- that's the only way to do it. There are certain ways in which variable-argument-list functions in C are unsafe, but if you need them, you need them. I can't give any advice about whether they are necessary, without seeing what you are using them for. –  Zack Dec 8 '11 at 17:32
    
This is about a C library. You should remove the c++ tag. The answers will be not suitable. –  pmr Dec 8 '11 at 17:32
    
if the arguments are of the same type or in a class hierarchy with a common base class or interface, you could always just pass an array as an argument instead of using va_list –  Nerdtron Dec 8 '11 at 17:34
    
@pmr the c++ tag is there only because va_list is also accessible from c++ code. –  kechapito Dec 8 '11 at 17:34
    
@marcushatchenson Yes, but in C++ (especially C++11) you would get different answers. –  Christian Rau Dec 8 '11 at 17:39

4 Answers 4

up vote 8 down vote accepted

The main problem I see is that there's no guarantee that you really got the number of arguments that you were expecting, and no way to check for that. This makes errors undetectable, and undetectable errors are, obviously, the most dangerous kind. va_arg is also not type-safe, which means that if you pass a double and expect an unsigned long long, you'll get garbage instead of a good-looking integer, and no way to detect it at compile-time. (It becomes much more of a mess when the types don't even have the same size).

Depending on the data you deal with, this may be more or less of a problem. If you pass pointers, it becomes almost instantly fatal to omit an argument because your function will retrieve garbage instead, and this could (if the planets are properly aligned) become a vulnerability.

If you pass "regular" numeric data, it then depends on if the function is critical. In some cases you can easily detect an error looking at the function's output, and in some practical cases it really isn't that much of a problem if the function fails.

It all revolves about if you're afraid of forgetting arguments yourself, actually.

C++11 has a variadic template feature that allows you to treat an arbitrary number of parameters in a safe way. If the step from C to C++ isn't hurting too much, you could look into it.

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In C++11, va_list should never be used, as it provides better alternative called variadic template, which is typesafe whereas va_list is not.

In C, you could use va_list when you need variadic function, but be careful, as it is not typesafe.

And yes, your friend is correct: va_list is dangerous. Avoid it as much as possible.

In C and C++03, the standard library function printf is implemented using va_list, that is why C++03 programmers usually avoid using this, for it is not typesafe.

But a variadic typesafe printf could be implemented in C++11, as: (taken from wiki)

void printf(const char *s)
{
    while (*s) {
      if (*s == '%' && *(++s) != '%')
        throw std::runtime_error("invalid format string: missing arguments");
      std::cout << *s++;
    }
}

template<typename T, typename... Args>
void printf(const char *s, T value, Args... args)
{
    while (*s) {
      if (*s == '%' && *(++s) != '%') {
         std::cout << value;
         ++s;
         printf(s, args...); 
         return;
      }
      std::cout << *s++;
    }
    throw std::logic_error("extra arguments provided to printf");
}
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If you want to implement a function in C with variable argument count, you can use va_list. For example, printf uses va_list. Not sure why it can be dangerous.

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2  
Have you ever used the wrong type specifier in a printf format string? Or worse, in a scanf format string? –  Fred Larson Dec 8 '11 at 17:35
1  
@Fed Larson, compiler makers got your point and now gcc and clang emit warnings about wrong data types for printf patterns. It still is a problem for other functions though. –  zneak Dec 8 '11 at 17:45
    
@FredLarson, Yes, now I understand the danger of using va_list. –  Kamyar Souri Dec 8 '11 at 17:47

va_list has some disadvanges that are related to the underspecification of the function arguments:

  • when calling such a function the compiler doesn't know what types of arguments are expected, so the standard imposes some "usual conversion" before the arguments are passed to the function. E.g all integers that are narrower than int are promoted, all float are promoted to double. In some border case you'd not received what you wanted in the called function.
  • In the called function you tell the compiler what type of argument you expect and how much of them. There is no guarantee that a caller get's it right.

If you pass in the number of arguments anyhow and these are of the same known type you could just pass them in with a temporary array, written for C99:

void add_vertices(graph G, vertex v, size_t n, vertex neigh[n]);

you would call this something like that

add_vertices(G, v, nv, (vertex []){ 3, 5, 6, 7 });

If that calling convention looks too ugly to you, you could wrap it in a macro

#define ADD_VERTICES(G, V, NV, ... ) add_vertices((G), (V), (NV), (vertex [NV]){ __VA_ARG__ })

ADD_VERTICES(G, v, nv, 3, 5, 6, 7);

here the ... indicates a similar concept for macros. But the result is much safer since the compiler can do a type check and this is not delayed to the execution.

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I see that you had a problem with this too. gustedt.wordpress.com/2011/07/10/avoid-writing-va_arg-functions –  kechapito Dec 8 '11 at 18:08
    
Since you already found that :) you could also have a look at the first link on that page (if you haven't yet) to see how you can even avoid to count the number of arguments. –  Jens Gustedt Dec 8 '11 at 18:17

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