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Are noreturn attributes on never-returning functions necessary, or is this just an (arguably premature? -- at least for exits, I can't imagine why optimize there) optimization?

It was explained to me that in a context such as

void myexit(int s) _Noreturn {
   exit(s);
}
// ...
if (!p) { myexit(1); } 
f(*p);
/// ...

noreturn prevents the !p branch from being optimized out. But is it really permissible for a compiler to optimize out that branch? I realize the rationale for optimizing it out would be: "Undefined behavior can't happen. If p == NULL, dereferencing it is UB, therefore p can never be NULL in this context, therefore the !p branch does not trigger". But can't the compiler resolve the problem just as well by assuming that myexit could be a function that doesn't return (even if it's not explicitly marked as such)?

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  • 2
    "noreturn prevents the !p branch from being optimized out." why?
    – mvidelgauz
    Jul 18, 2016 at 7:50
  • 2
    "I'm asking whether it's necessary to apply.." In other words, you are asking about possible situations when not applying it can lead to bad results?
    – mvidelgauz
    Jul 18, 2016 at 8:10
  • 3
    @martinkunev: No, UB is allowed to go back in time and change previous results. 'Undefined' really has no limit here, not even nasal demons.
    – sp2danny
    Jul 18, 2016 at 12:59
  • 4
    @martinkunev The compiler can assume that UB never occurs and therefore rearrange code in a way that would make it seem like the UB went back in time, were it to occur. See this article for an example.
    – a3f
    Jul 19, 2016 at 4:51
  • 1
    @martinkunev Whether this is or isn't the case here is the point of OP's question. Refer to my answer for my assessment. Feel free to add your answer too. I was just addressing your "UB is not some fairy that changes your code." comment.
    – a3f
    Jul 19, 2016 at 7:56

2 Answers 2

7

This allows for several optimizations to take place. First, for the call itself this may to allow for a simplified setup, not all registers have to be saved, a jmp instruction can be used instead of call or similar. Then the code after the call can also be optimized because there is no branching back to the normal flow.

So yes, usually _Noreturn is a valuable information to the compiler.

But as a direct answer to your question, no, this is a property for optimization, so it is not necessary.

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  • 2
    Thanks, but that doesn't answer the question, though. Jul 18, 2016 at 8:05
  • 1
    @JensGustedt It's not very detailed but at least it answer the main part off the question now ;-) Jul 18, 2016 at 8:55
2

Axiom: The standard is the definite resource on what's well-defined in C.

  • The standard specifies assert, therefore using assert is well-defined.
  • assert conditionally calls abort, a _Noreturn function, therefore that's allowed.
  • Every usage of assert is inside a function. Therefore functions may or may not return.
  • The standard has this example:

    _Noreturn void g (int i) { // causes undefined behavior if i <= 0
        if (i > 0) abort();
    }
    

    Therefore functions conditionally returning must not be _Noreturn. This means:

    • For externally defined functions, the compiler has to assume the function might not return and isn't free to optimize out the if-branch
    • For "internally" defined functions, the compiler can check whether the function indeed always returns and optimize out the branch.

In both cases, compiled program behavior aligns with what a non-optimizing abstract C machine would do and the 'as-if' rule is observed.

3
  • Thought writing it out as kind of proof would be cool, now looking at it, I am not so sure anymore. But it answers the question I think. :-) Feel free to edit it to make it more formal.
    – a3f
    Jul 19, 2016 at 4:42
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    A compiler can't assume that externally-defined functions' don't return; instead it must be prepared to handle both the cases in which the function does return (code which follows the function cannot be omitted) and also the cases where it doesn't (code which follows the function cannot affect the execution of the function or anything before it).
    – supercat
    Aug 1, 2016 at 18:11
  • @supercat, reworded it. Thanks.
    – a3f
    Aug 1, 2016 at 18:13

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