Consider the following C program:

double local_array[10];
/* local computations */
f(); // f() cannot modify the local_array since the local_array has not escaped
local_array[i] += 5.0;

If f() is known to return normally, then one can move local_array[i] += 5.0; before the call, perhaps for efficiency (one can intermingle the load - float add - store sequence with preceding computations).

However, if f() is not known to return normally, this is likely to be illegal with respect to the standard. Indeed, if f() prints an error message and exits, it would be dangerous to precede it with an access to local_array[i] that could fail (bad pointer due to an incorrect value of i). We have no way to know whether p points to valid, writable memory. Perhaps f() performs a check that excludes invalid values of p.

So my question: is there a way to tell the compiler (perhaps gcc or clang) that a function always returns normally?

There is a nothrow attribute but it seems slightly different.

Such an attribute would be the "dual" of noreturn, which means that a function never returns.

If you wonder what this is about: PostgresSQL bug #616180 was about old versions of gcc assuming they could make similar moves of a trapping instruction in front of a function call that terminated program execution (due to the detection of an internal error). I consider that what gcc was doing was incorrect… But then how would it be possible to tell it that it is allowed to perform such an optimization?

  • 1
    [[pure]] is suggested, but not currently voted in. [[gnu:pure]] works for gcc. it's sligtly different, but is probably the best you can get
    – sp2danny
    Commented Apr 17, 2023 at 9:29
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    What does it mean to "return normally"?
    – KamilCuk
    Commented Apr 17, 2023 at 9:31
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    "If f() is known to return normally, then one can move *p += 5.0; before the call," Without providing more details about f and p that is a questionable statement. What if f is responsible to assign a valid address to p? Or what it p points to some hardware register where write accesses from within f and the calling function would be executed in reverse order then? Returning from f is only one details here.
    – Gerhardh
    Commented Apr 17, 2023 at 9:56
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    "Generally speaking, it is bad practice to have general library code print error messages and close down shop - it should just return an error status to the caller and let the caller deal with the error as it pleases" → That's what abort() and other standard library functions do, and what is usually done when encountering an abnormal condition inside the data structures of the application (memory corruption, invariant violation etc.). This is similar to "panic" in Rust. I agree that panicking should not be used when a "normal" error condition (e.g. "file does not open") is encountered. Commented Apr 17, 2023 at 10:24
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    @KamilCuk The bugfix was for them to tell the compiler that ereport never returns. However, this seems to me like working around a bug in gcc. Gcc, according to my understanding of the standard, should never have assumed ereport returned. And then I wondered: if a compiler cannot make such an assumption, maybe we could inform it that it is allowed to? Commented Apr 17, 2023 at 14:30

1 Answer 1


For GCC: no, such attribute does not exist, not even internally in the compiler (as of GCC 13).

For Clang/LLVM: LLVM IR has the willreturn function attribute, but Clang does not expose it for C and C++.

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