16

First some references. The C99 Standard says this about restrict in section 6.7.3:

An object that is accessed through a restrict-qualified pointer has a special association with that pointer. This association, defined in 6.7.3.1 below, requires that all accesses to that object use, directly or indirectly, the value of that particular pointer.117) The intended use of the restrict qualifier (like the register storage class) is to promote optimization, and deleting all instances of the qualifier from all preprocessing translation units composing a conforming program does not change its meaning (i.e., observable behavior).

And then (§6.7.3.1 "Formal definition of restrict"):

Let D be a declaration of an ordinary identifier that provides a means of designating an object P as a restrict-qualified pointer to type T.

If D appears inside a block and does not have storage class extern, let B denote the block. If D appears in the list of parameter declarations of a function definition, let B denote the associated block. Otherwise, let B denote the block of main (or the block of whatever function is called at program startup in a freestanding environment).

In what follows, a pointer expression E is said to be based on object P if (at some sequence point in the execution of B prior to the evaluation of E) modifying P to point to a copy of the array object into which it formerly pointed would change the value of E.119) Note that ''based'' is defined only for expressions with pointer types.

During each execution of B, let L be any lvalue that has &L based on P. If L is used to access the value of the object X that it designates, and X is also modified (by any means), then the following requirements apply: T shall not be const-qualified. Every other lvalue used to access the value of X shall also have its address based on P. Every access that modifies X shall be considered also to modify P, for the purposes of this subclause. If P is assigned the value of a pointer expression E that is based on another restricted pointer object P2, associated with block B2, then either the execution of B2 shall begin before the execution of B, or the execution of B2 shall end prior to the assignment. If these requirements are not met, then the behavior is undefined.

As some have pointed out, this illustrates the rules (Example 4 from the standard):

{
    int * restrict p1;
    int * restrict q1;

    p1 = q1; //  undefined behavior

    {
        int * restrict p2 = p1; //  valid
        int * restrict q2 = q1; //  valid
        p1 = q2; //  undefined behavior
        p2 = q2; //  undefined behavior
    }
}

Now, my first question is this: why is it okay to assign from an outer restricted pointer to an inner one?

My understanding is that nothing forbids this, which has clear aliasing:

int * restricted x = /* ... */ ;

{
    int * restricted y = x;
    *x = 3;
    printf("%d\n", *y); // 3
    *y = 4;
    printf("%d\n", *x); // 4
}

Of course, the set of aliases is restricted to the two pointers.

Hence my second question: what is the difference assigning from outer to inner (allowed), but not from inner to outer (forbidden, e.g. p1 = q1; in the first example above)?

  • Please change it so that it actually compiles. – gnasher729 Mar 26 '15 at 10:58
  • Wasn't the only place where you can declare a pointer as restrict in the parameter list to a function? – fuz Mar 26 '15 at 10:58
  • @FUZxxl Nope, the standard doesn't say so, and it works perfectly well with all warnings and strict standard compliance enabled. – Norswap Mar 26 '15 at 14:50
  • The semantics of restrict would have been more understandable if it described what the compiler was allowed to do than what the programmer is forbidden from doing, but I think the basic idea is that restrict allows a compiler to behave as though any read through a restrict pointer is performed anywhere in the execution sequence between the assignment of the pointer and the point the logical read occurs, and writes are allowed to behave as though they occur any time within the lifetime of the pointer beyond where the logical write occurs, save that reads and writes can't occur... – supercat Jul 11 '16 at 18:50
  • 1
    If you have two functions void foo(int *restrict a, int *restrict b) and void bar(int *restrict c, int *restrict d), presumably you agree that bar should be able to call foo(c, d). You're also allowed to "inline" foo "by hand" by placing its implementation in a nested block. – Tavian Barnes Jan 19 '17 at 18:09
1

I think the rules are designed to satisfy two objectives:

  1. Allow creation of a temporary pointer similar to what would naturally be created when an argument is passed to a function call, without requiring that code using the pointer be moved into a physically separate function.

  2. Ensure that a graph showing pointer derivation will be free of cycles (meaning that if pointer x is derived from y or anything that is directly or indirectly derived from y, y cannot be derived from x nor anything which is directly or indirectly derived from x). While the rules may be tighter than would be absolutely necessary to achieve #2, nearly all of the useful cases that would satisfy this second requirement also satisfy the rules as written, and compilers would have difficulty getting much benefit from restrict in the cases that don't.

The restrict qualifier is far from perfect, but it's still better than most alternatives.

-4

None of these are undefined behaviour. You can assign between restrict pointers all you like. Undefined behaviour may occur if you assign to the objects pointed to by restrict pointers in the wrong way.

And in your second example, the pointer y is derived from x, so assigning first to *x, then to the same variable as *y, is fine as well.

Instead of reading the legalese, have you actually thought about what "restrict" is supposed to achieve?

  • 1
    Well, the standard contradicts you without doubt. And yes I have thought about it; and I'm asking the question since my intuitive understand precisely doesn't mesh with what the standard says. I'm making the assumption the standard wasn't written by complete idiots, and so there must be a reason for its quirks. Also, this is a comment; not an answer. – Norswap Mar 26 '15 at 14:49
  • 1
    Could you point out where I'm erring instead of dishing out ad hominems? Also consider that it's not only my reading but also that of other stackoverflow users on the question I've linked and here, with no one to contradict (of course, that doesn't prove anything). – Norswap Mar 26 '15 at 16:45

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