As expected, the following fails in C++11 because that language does not have return type deduction for bog standard functions:

auto main()
   return 0;

However, C++14 does, so I cannot explain the following error (with equivalent outcomes in GCC trunk, clang 3.8 and Visual Studio 2015):

error: 'main' must return 'int'

Is there a passage in the standard that I'm not seeing, forbidding return type deduction for main? Or are both compilers non-compliant?

(For what it's worth, I'd never actually do this. int main() for the win…)

  • I was able to reproduce this in Visual Studio as well. – Xirema Aug 23 '16 at 16:58
  • @Xirema: Thanks! 2015, I assume? – Lightness Races in Orbit Aug 23 '16 at 16:59
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    Is this related? stackoverflow.com/a/17135093/3545094 – Martin G Aug 23 '16 at 17:03
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    What if there are multiple return statements in the main function returning different types (int, double etc) of data? – Muhammad Ali Aug 24 '16 at 6:17
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    @iammilind: I won't fight the duplicate but it's hardly "exact". For starters, run a diff: you'll find lots of characters differ. Speaking more broadly, that one asks whether return type for main "will be" deduced in C++14... while this one, starting with the premise that answer should be "yes", asks why various compilers are giving results that contrast with that answer. Do they have a bug, or is there something else at play? Unfortunately, the premise was flawed because I was using an outdated draft by mistake, so it's all kind of moot. – Lightness Races in Orbit Aug 24 '16 at 8:39

Reading the C++17 draft §3.6.1/2:

... and it shall have a declared return type of type int, ...

So yes I would say it's forbidden to use deduction.

Almost the exact same wording in the last C++14 draft (same section as the C++17 draft):

It shall have a declared return type of type int, ...

Just a personal reflection on the possible reasoning behind this, after reading comments and other answers. The reasoning return-type deduction is not allowed is (I think) because then the return type isn't known by the compiler until it sees a return statement. It's also not uncommon that other types (that are implicitly convertible to int) might be returned which would make the deduced type wrong. Declaring the return type up-front (either by the normal old-fashioned way, or by using trailing return type) will set the type when the function is declared, and can be checked by the compiler then and there to be correct.

As for allowing type-aliases, they are just aliases of a type. So allowing e.g.

typedef int my_type;
my_type main() { ... }

is really no different from

int main() { ... }
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    @JohannesSchaub-litb: heh. Well, the type MyInt is the type int, so... – Lightness Races in Orbit Aug 23 '16 at 18:13
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    N4296 is not the "last C++14 draft". It's the first C++17 draft with fold expressions and all that. The C++14 DIS is N3937 (N3936 has the same content but a different cover page); the IS is N4141 (N4140 is the IS + editorial fixes). – T.C. Aug 23 '16 at 19:02
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    @T.C. That's not what the isocpp.org website says: "This working draft contains the C++14 standard plus minor editorial changes." – isanae Aug 23 '16 at 19:05
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    @isanae It's wrong. – T.C. Aug 23 '16 at 19:05
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    If anyone has tweeter they could send to @isocpp letting them know about the mistake – M.M Aug 24 '16 at 3:42

From 3.6.1/2 (emphasis mine):

[...]it shall have a declared return type of type int, but otherwise its type is implementation-defined.

When auto is used without a trailing return type, the declared return type of a function is still auto, even though the deduced return type can be something else. The difference between declared and deduced isn't spelled out plainly in the standard, but may shed some light:

When [...] a return statement occurs in a function declared with a return type that contains a placeholder type, the deduced return type [...] is determined from the type of its initializer. In the case of a return with no operand or with an operand of type void, the declared return type shall be auto and the deduced return type is void.

My understanding is that with this:

auto main(){ return 0; }

the declared return type would still be auto, although the deduced return type would be int. As per 3.6.1/2 above, the declared return type of main must be int. Therefore, this is ill-formed.

However, a trailing return type is considered a declared return type. From

If the function declarator includes a trailing-return-type (8.3.5), that trailing-return-type specifies the declared return type of the function.

$ cat a.cpp
auto main() -> int {}
$ g++ -Wall -std=c++14 a.cpp

All quotes are identical in both C++14 and C++17.

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    The real question is why an inferred type from a return statement does not specify the declared return type of the function. – Random832 Aug 23 '16 at 18:21
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    @Random832 I've updated my answer, although there's no real answer as to why. – isanae Aug 23 '16 at 18:43

From 3.6.1 [basic.start.main]

1 A program shall contain a global function called main, which is the designated start of the program....
2 An implementation shall not predefine the main function. This function shall not be overloaded. It shall have a declared return type of type int, but otherwise its type is implementation-defined...

If the standard were to restrict deduction, then I think the verbiage "declared return type int" would be it.

  • This is the wording for C++14 as of N4296 (the draft I have on hand) – AndyG Aug 23 '16 at 17:06
  • Ah, you're right - my draft is too old. I thought it was the FDIS. :( – Lightness Races in Orbit Aug 23 '16 at 17:07

Many answers have nicely mention the quotes from the standard. But there is another subtle problem with auto as return type.

According to C++ standard (somewhere), the return statement is not mandatory inside main(). This is explicitly mentioned in Bjarne Stroustrup's website:

In C++, main() need not contain an explicit return statement. In that case, the value returned is 0, meaning successful execution.

Which means below statement is valid:

auto main () {}

One can assume an implicit return 0; statement just before }. So in such case auto is interpreted as int. However, from technicality of C++14, the auto must be deduced to void because of no return statement! So, "int vs void", what to consider?

IMO this is the caveat, which prevents auto as a return type in a logical sense as well.

  • "Which means below statement is valid" I don't follow your reasoning. Obviously you cannot use return type deduction without a return statement. That in no way means that it shouldn't be able to use return type deduction when you do write a return statement, just as with any other function. – Lightness Races in Orbit Aug 24 '16 at 8:44
  • @Light, you wrote: "Obviously you cannot use return type deduction without a return statement". It's not true. Ofcourse we can deduce return type without return statement! Demo. When there is no return type, it's deduced as void as seen there. Your remaining sentence is unclear. Anyhow, you can try to follow the linked dupe, if it helps. – iammilind Aug 24 '16 at 9:10
  • (except when you want to deduce void)* The remaining sentence is quite clear but without knowing what part of it you're confused about, I cannot help. – Lightness Races in Orbit Aug 24 '16 at 11:21

As discussed in various comments, I was indeed missing it in the standard, because what I thought was a copy of the C++14 FDIS was in fact no such thing (but, instead, a marginally older draft), and the word "declared" was snuck into the relevant passage after CWG 1669.

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    This does not provide an answer to the question. To critique or request clarification from an author, leave a comment below their post. - From Review – miken32 Aug 23 '16 at 18:11
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    @miken32: It most certainly is an answer, and I'm unlikely to request clarification from myself. – Lightness Races in Orbit Aug 23 '16 at 18:12
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    Nice find on 1669. – isanae Aug 23 '16 at 18:47
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    It's also mentioned on this answer. If I were brave enough, I'd flag this question as a duplicate :) – isanae Aug 23 '16 at 19:07
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    @iammilind: Yes, it certainly is an answer, as discussed almost a month ago. Did you have anything useful or constructive to add, at all? – Lightness Races in Orbit Sep 19 '16 at 9:12

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