[dcl.attr.noreturn] provides the following example:

[[ noreturn ]] void f() {
    throw "error";
    // OK

but I do not understand what is the point of [[noreturn]], because the return type of the function is already void.

So, what is the point of the noreturn attribute? How is it supposed to be used?

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    What is so important about this kind of funciton (that will most likely happen once in a program execution) that deserves such attention? Isn't this an easily detectable situation? – user666412 Aug 26 '15 at 23:01
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    @MrLister The OP's conflating the concepts of “returning” and “return value”. Given how they're nearly always used in tandem, I think the confusion is justified. – Slipp D. Thompson Jun 24 '16 at 5:55

The noreturn attribute is supposed to be used for functions that don't return to the caller. That doesn't mean void functions (which do return to the caller - they just don't return a value), but functions where the control flow will not return to the calling function after the function finishes (e.g. functions that exit the application, loop forever or throw exceptions as in your example).

This can be used by compilers to make some optimizations and generate better warnings. For example if f has the noreturn attribute, the compiler could warn you about g() being dead code when you write f(); g();. Similarly the compiler will know not to warn you about missing return statements after calls to f().

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    What about a function such as execve that shouldn't return but could? Should it have the noreturn attribute? – Kalrish Oct 10 '14 at 15:27
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    No, it shouldn't -- if there is a possibility for control flow to return to the caller, it must not have the noreturn attribute. noreturn may only be used if your function is guaranteed to do something that terminates the program before control flow can return to the caller -- for example because you call exit(), abort(), assert(0), etc. – RavuAlHemio Nov 11 '14 at 19:56
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    Does that include returning via exception throw (so to speak), or do thrown exceptions skip catches outside of the noreturn function, or is throwing exceptions from within the noreturn function disallowed? – Slipp D. Thompson Jun 24 '16 at 5:59
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    @SlippD.Thompson If a call to a noreturn function is wrapped in a try-block, any code from the catch block on will count as reachable again. – sepp2k Jun 24 '16 at 8:15
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    @SlippD.Thompson no, it's impossible to return. Throwing an exception is not returning, so if every path throws then it's noreturn. Handling that exception is not the same as it having returned. Any code within the try after the call is still unreachable, and if not void then any assignment or use of the return value will not happen. – Jon Hanna Sep 1 '17 at 15:09

noreturn doesn't tell the compiler that the function doesn't return any value. It tells the compiler that control flow will not return to the caller. This allows the compiler to make a variety of optimizations -- it need not save and restore any volatile state around the call, it can dead-code eliminate any code that would otherwise follow the call, etc.

  • Be careful to use [[noreturn]]. Because if the function contains while loop, and you break the loop unintentionally, the program may act wired. – CuteDoge Feb 23 at 8:28

It means that the function will not complete. The control flow will never hit the statement after the call to f():

void g() {
   // unreachable:
   std::cout << "No! That's impossible" << std::endl;

The information can be used by the compiler/optimizer in different ways. The compiler can add a warning that the code above is unreachable, and it can modify the actual code of g() in different ways for example to support continuations.

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    gcc/clang don't give warnings – TemplateRex Aug 21 '13 at 8:08
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    @TemplateRex: Compile with -Wno-return and you will get a warning. Probably not the one you were expecting but it is probably sufficient to tell you that the compiler has knowledge of what [[noreturn]] is and it can take advantage of it. (I am a bit surprised that -Wunreachable-code did not kick in...) – David Rodríguez - dribeas Aug 21 '13 at 13:14
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    @TemplateRex: Sorry -Wmissing-noreturn, the warning implies that flow analysis determined that the std::cout is not reachable. I don't have a new enough gcc at hand to look at the generated assembly, but I would not be surprised if the call to operator<< was dropped – David Rodríguez - dribeas Aug 21 '13 at 13:18
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    Here's an assembly dump (-S -o - flags in coliru), indeed drops the "unreachable" code. Interestingly enough, -O1 is already enough to drop that unreachable code without the [[noreturn]] hint. – TemplateRex Aug 21 '13 at 13:23
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    @TemplateRex: All of the code is in the same translation unit and visible, so the compiler can infer the [[noreturn]] from the code. If this translation unit only had a declaration of the function that was defined somewhere else, the compiler would not be able to drop that code, as it does not know that the function does not return. That is where the attribute should help the compiler. – David Rodríguez - dribeas Aug 21 '13 at 13:46

Previous answers correctly explained what noreturn is, but not why it exists. I don't think the "optimization" comments is the main purpose: Functions which do not return are rare and usually do not need to be optimized. Rather I think the main raison d'être of noreturn is to avoid false-positive warnings. For example, consider this code:

int f(bool b){
    if (b) {
        return 7;
    } else {

Had abort() not been marked "noreturn", the compiler might have warned about this code having a path where f does not return an integer as expected. But because abort() is marked no return it knows the code is correct.

  • All the other examples listed use void functions -- how does it work when you have both the [[no return]] directive and a non-void return type? Does the [[no return]] directive only come into play when the compiler gets ready to warn about a possibility of not returning and ignore the warning? For example, does the compiler go: "Okay, here is a non-void function." * continues compiling * "Oh crap, this code might not return! Should I warn the user?* "Nevermind, I see the no-return directive. Carry on" – Raleigh L. Feb 15 '19 at 21:02
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    The noreturn function in my example is not f(), it's abort(). It doesn't make sense to mark a non-void function noreturn. A function which sometimes returns a value and sometimes returns (a good example is execve()) cannot be marked noreturn. – Nadav Har'El Apr 3 '19 at 12:16
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    implicit-fallthrough is another such example: stackoverflow.com/questions/45129741/… – Ciro Santilli 新疆再教育营六四事件法轮功郝海东 Aug 5 '19 at 12:56

Type theoretically speaking, void is what is called in other languages unit or top. Its logical equivalent is True. Any value can be legitimately cast to void (every type is a subtype of void). Think about it as "universe" set; there are no operations in common to all the values in the world, so there are no valid operations on a value of type void. Put it another way, telling you that something belongs to the universe set gives you no information whatsoever - you know it already. So the following is sound:

(void)foo(17); // whatever foo(17) does

But the assignment below is not:

void raise();
void f(int y) {
    int x = y!=0 ? 100/y : raise(); // raise() returns void, so what should x be?
    cout << x << endl;

[[noreturn]], on the other hand, is called sometimes empty, Nothing, Bottom or Bot and is the logical equivalent of False. It has no values at all, and an expression of this type can be cast to (i.e is subtype of) any type. This is the empty set. Note that if someone tells you "the value of the expression foo() belongs to the empty set" it is highly informative - it tells you that this expression will never complete its normal execution; it will abort, throw or hang. It is the exact opposite of void.

So the following does not make sense (pseudo-C++, since noreturn is not a first-class C++ type)

void foo();
(noreturn)5; // obviously a lie; the expression 5 does "return"
(noreturn)foo(); // foo() returns void, and therefore returns

But the assignment below is perfectly legitimate, since throw is understood by the compiler to not return:

void f(int y) {
    int x = y!=0 ? 100/y : throw exception();
    cout << x << endl;

In a perfect world, you could use noreturn as the return value for the function raise() above:

noreturn raise() { throw exception(); }
int x = y!=0 ? 100/y : raise();

Sadly C++ does not allow it, probably for practical reasons. Instead it gives you the ability to use [[ noreturn ]] attribute which helps guiding compiler optimizations and warnings.

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    Nothing may be cast to void and void never evaluates to true or false or anything else. – Clearer Mar 24 '15 at 14:31
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    Everything may be cast to void. and void never evaluates to true since bool is subtype of void and not the other way around. Again, everything said here is type-theoretical. nothing C++-centric. void is not a 1st-class citizen in the C++ type system. – Elazar Mar 24 '15 at 14:35
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    When I say true, I don't mean "the value true of the type bool" but the logic sense, see Curry-Howard correspondence – Elazar Mar 24 '15 at 14:36
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    Abstract type theory which does not fit the type system of a specific language is irrelevant when discussing the type system of that language. The question, in question :-), is about C++, not type theory. – Clearer Mar 24 '15 at 14:37
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    (void)true; is perfectly valid, as the answer suggests. void(true) is something completely different, syntactically. It is an attempt to create a new object of type void by calling a constructor with true as an argument; this fails, among other reasons, because void is not first class. – Elazar Mar 24 '15 at 18:26

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