Why is there no warning in the following code?

int deserialize_students(const Student *dest, const int destCapacityMax)
    FILE *ptr_file;
    int i=0;

    ptr_file =fopen("output.txt","r");
    if (!ptr_file)
        return -1;

        return -2;

    while (!feof (ptr_file))
        fscanf (ptr_file, "%d", &dest[i].id);    // UB?
        fscanf (ptr_file, "%s",  dest[i].name);     
        fscanf (ptr_file, "%d", &dest[i].gender);      

            return 0;

    return 0;

This is how I called it:

Student students[5];

Also I have following question: is what I did undefined behaviour? Note:

  • I think passing students is fine because function expects const Student* and I can pass non const. Right?
  • But when I modify that object in fscanf, did I trigger UB? Or it depends whether students was declared const or not in the first place(outside that function)?
  • 1
    You don't get an error/warning because fscanf is a variadic function just expects any arguments after the format string and therefore the compiler can't tell. Not sure if it's UB, probably it is. Aug 21 '15 at 7:16
  • @MichaelWalz: compiler can't tell but I have trigerred UB right?
    – anon
    Aug 21 '15 at 7:16
  • The answer to the first question is "Yes, you can pass a non-const". As to the second question, I think that you did not trigger UB, exactly because you've passed a non-const. As long as it is allocated in a writable memory segment, no harm is done. On the other hand, the C-language standard does not refer to the "physical" access permission of different memory segments, and in addition, the definition of UB is extremely broad. So one might claim that purely by the standard, it is UB. Aug 21 '15 at 8:01
  • @barakmanos: if students variable was declared the way it is now, I think it is not UB, if it was declared as const Student students[5];-and then passed to the function, then it would be UB, do you agree with this?
    – anon
    Aug 21 '15 at 8:04
  • @userq: That's exactly what I wrote in my initial comment. But please read the updated comment - in its current form, like I said, "no harm is done". Nevertheless, purely by the standard, one might claim that it is UB. People here on Stack Overflow like using this concept in order to answer just about anything, so I'd expect most of the answers you'll get to tell you that it is UB. Aug 21 '15 at 8:08

There's no undefined behaviour in your code.

What the caller passed is a mutable object. So it's fine to modify it either directly or by explicit cast:

int func(const int *p) {
  int *q = (int*)p;
  *q = 5;

is fine (probably ill-advised way but legal) as long as the object passed to func() is a mutable one.

But if the object passed was const qualified then it would have been undefined behaviour. So in your case, it's not undefined.

The qualifier const is only a contract that the function is not supposed to modify dest. It has no bearing on the actual mutability of an object. So the modifying a const-qualified invokes UB or not depends whether the object passed to has any such qualifier.

As for the warning, GCC (5.1.1) warns for:

int func(const int *p) {
   fscanf(stdin, "%d", p);


warning: writing into constant object (argument 3) [-Wformat=]

Probably VS doesn't recognize that fscanf() modifies the object. But the C standard only says that it's undefined if you modify a const-qualified object:

(C11 draft, 6.7.3, 6 type qualifiers)

If an attempt is made to modify an object defined with a const-qualified type through use of an lvalue with non-const-qualified type, the behavior is undefined.

There's no diagnostic required by the C standard if the code invokes undefined behaviour. In general, you are on your own if your code causes UB and a compiler may not be able to help you in all causes.

  • My own understanding of standard is that int *q = (int*)p; forces the compiler to accept it and generate the code. But I would be afraid that the compiler used the const declaration in caller to whatever optimisation. Is it guaranteed that it will pass original object, or could it pass a copy for a const using the as-if-rule? Aug 21 '15 at 10:26
  • @SergeBallesta There are two scenarios here: 1) The object is const qualified for the object at its definition. This case is quite simple: any attempt to change it after that by any means is UB. 2) An object is mutable but a function to which it is passed has const qualifier for it (OP's example). Here, the object is mutable and so it's well-defined. Re optimization: const in function parameter is not meant for optimization (there may be optimizations for case 1 as long as no UB is invoked). Of course, compiler is allowed to perform any sort of optimization while obeying the as-if rule.
    – P.P
    Aug 22 '15 at 12:15
  • But a compiler can't blindly assume that the object is immutable because the function parameter has const-qualifier. I read your answer and you seem to be confusing const with restrict which does require such a promise from the programmer. But const doesn't. Would I recommend such as cast? Absolutely not (otherwise, there's no point in using const qualifier in function parameters). But I am talking about the legality it. In general, optimization plays no role in defining whether an operation (or construct) would lead to undefined behaviour.
    – P.P
    Aug 22 '15 at 12:17

IMHO it is formal UB.

The function deserialize_students declares a const Student *dest parameter. From there on, dest[i].id is a const int, and &dest[i].id is a const int *.

You get no warning, because fscanf is a variadic function, and compiler cannot control constness (even if gcc uses it as a special case) but if you used an temp intermediary variable you would get an error:

int id;
fscanf (ptr_file, "%d", &id);
dest[i].id = id;       // here you get an error

So you are passing a const pointer to a function that modify the pointee (fscanf) and IMHO it is enough to qualify it as formal UB. One could imagine a implementation of a compiler that would pass a pointer to a copy of the value to fscanf, since you promised it was const. Or that would have passed a pointer to a copy of the students array since deserialize_students declares its parameter as const.

Is there a real risk? IMHO no because as you pass a modifiable dest to the function, normal compiler implementation will just pass the original address, and will the same pass the address of dest[i].id to fscanf. So the whole thing will end in correctly modifying the original array. But as already said by Peter, like all instances of undefined behaviour, one possible result is working like you expect, so working with all tested compilers is not an insurance for not being undefined behaviour.

NB: as the original array is not const, the object was not defined as const, so I am not sure that 6.7.3,§ 6 applies here. But 6.7.3 § 9 still says: For two qualified types to be compatible, both shall have the identically qualified version of a compatible type so int * (required by fscanf), and const int * (actually passed) are not.

  • @userq: barak manos gave a nice summary in its comments: "no harm is done". Nevertheless, purely by the standard, one might claim that it is UB. Will it work? Yes - Is it strictly standard conformant? No Aug 21 '15 at 11:39

The standard is unclear on the matter. From C11

The conversion specifiers and their meanings are:

d Matches an optionally signed decimal integer, whose format is the same as expected for the subject sequence of the strtol function with the value 10 for the base argument. The corresponding argument shall be a pointer to signed integer.

Now, you could argue that because it doesn't say "a pointer to non-const signed integer", it actually means that int * and const int * are both OK. Or you could argue that they meant pointer to non-const signed integer only.

Note that the definition of vararg passing (7.16) explicitly says that it's undefined to use va_arg(int *) to retrieve an argument of type const int *. However, the fscanf function is NOT specified to behave as if va_arg had been used. So this is not directly relevant.

Opinion follows: The entire specification of printf and scanf are a sloppy mess that is below the usual quality of specification found in the rest of the standard. There are many other such examples, e.g. according to the exact wording of the standard, printf("%lx", 1L); is undefined behaviour whereas printf("%lx", -1L); is not undefined behaviour.

In reality implementations made their own decisions about what to do, and nobody wants to touch the standard wording with a barge pole. So I would say there is not really a correct answer to this question.

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