Starting with the C99 standard, the compiler is required to generate the equivalent of a return 0 or return EXIT_SUCCESS if no return is supplied at the end of main. There was also a corresponding and identical change to the C++ language standard around that same time. I am interested in the reasons for both and I guessed that it was unlikely they were entirely separate and unrelated changes.

My question is:

What was the documented rationale for this change?

An ideal answer would cite authoritative sources for both C and C++ which is why I have tagged the question with both languages.

Note that unlike the question What the reasons for/against returning 0 from main in ISO C++?, I'm not asking for advice on whether to write return 0 in my programs -- I'm asking why the language standards themselves were changed.


To help understand the purpose for the question, here is a bit more of the context:

  1. Understanding why a change was made is helpful in deciding how to use it.
  2. Rationale is frequently included within the standard itself. For example, the C90 standard includes many explanatory footnotes such as footnote 36 which starts, "The intent of this list..."

I've studied the standards searching for the answer myself before I asked here, but did not find the answer. I've been asked to help write coding standards for both languages for a group of programmers and I wanted to make sure I understand why this feature exists so that I may accurately explain its use to others.

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    @Olaf: Language change proposals are usually documented with the reasons for the proposed change. I'm asking for that documentation, not for speculation. – Edward Jul 13 '15 at 22:07
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    C++98 preceded C99 so the answer is likely to be in WG21, not WG14 ... possibly even in pre-standard C++, does anyone have the old book? – o11c Jul 13 '15 at 22:23
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    This needs to be two questions, one for C, one for C++. Feel free to include links in each question to the other one. – Ben Voigt Jul 13 '15 at 22:42
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    The Foreword to the C99 standard includes a list of "major changes" from the previous edition. The change that made falling off the end of main equivalent to return 0; is not mentioned, and the section where the change was made (5.1.2.2.3) offers no rationale. – Keith Thompson Jul 13 '15 at 23:03
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    @Olaf this is not speculative nor opinion based. Changes to C and C++ are made as part of standards process and changes all have a rationale. It may be difficult to find a public document for a particular case but a rationale does exist and it is a valid question. – Shafik Yaghmour Jul 14 '15 at 4:01
up vote 23 down vote accepted

In The New C Standard section 5.1.2.2.3 Program termination the author Derek Jones commentary on this lines from the C99 standard:

reaching the } that terminates the main function returns a value of 0

is:

The standard finally having to bow to sloppy existing practices.

Which indicates the rationale was to address poor programming practices with respect to explicitly returning a value from main. Prior to this the status returned was undefined.

He indicates that many implementations already implemented this even in C90, so the fact that this change already reflected common implementation also probably helped.

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    C89 already required "If the main function executes a return that specifies no value, the termination status returned to the host environment is undefined." So it (at least) wasn't undefined behavior, and there's no difference between C89 and C99 if the host environment doesn't use the exit value. – Potatoswatter Jul 14 '15 at 3:24

The official rationale document for C99 scarcely addresses this. It appears that exit(0) became the default for control flow off the end of main because exit(0) was given meaningful portable semantics.

Here are the two relevant sections:

5.1.2.2.1 Program startup

The behavior of the arguments to main, and of the interaction of exit, main and atexit (see §7.20.4.2) has been codified to curb some unwanted variety in the representation of argv strings, and in the meaning of values returned by main.

The specification of argc and argv as arguments to main recognizes extensive prior practice.

argv[argc] is required to be a null pointer to provide a redundant check for the end of the list, also on the basis of common practice.

main is the only function that may portably be declared either with zero or two arguments. (The number of other functions’ arguments must match exactly between invocation and definition.) This special case simply recognizes the widespread practice of leaving off the arguments to main when the program does not access the program argument strings. While many implementations support more than two arguments to main, such practice is neither blessed nor forbidden by the Standard; a program that defines main with three arguments is not strictly conforming (see §J.5.1.).

Command line I/O redirection is not mandated by the Standard, as this was deemed to be a feature of the underlying operating system rather than the C language.

and

7.20.4.3 The exit function

The argument to exit is a status indication returned to the invoking environment. In the UNIX operating system, a value of zero is the successful return code from a program. As usage of C has spread beyond UNIX, exit(0) has often been retained as an idiom indicating successful termination, even on operating systems with different systems of return codes. This usage is thus recognized as standard. There has never been a portable way of indicating a non-successful termination, since the arguments to exit are implementation-defined. The EXIT_FAILURE macro was added to C89 to provide such a capability. EXIT_SUCCESS was added as well.

Aside from calls explicitly coded by a programmer, exit is invoked on return from main. Thus in at least this case, the body of exit cannot assume the existence of any objects with automatic storage duration except those declared in exit.

The Committee considered the addition of _exit, but rejected it based on concerns of incompatible with the POSIX specification upon which it is based. For example, one concern expressed is that _exit was specified as a way to get out of a signal handler without triggering another signal, but that is not actually the way _exit behaves in POSIX environments. The Committee did not wish to give programmers this kind of false hope. (But see §7.20.4.4 for C99.)

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    "It appears that exit(0) became the default for control flow off the end of main because exit(0) was given meaningful portable semantics." -- That doesn't quite follow. C89/C90 specifies that exit(0) (or return 0; from main) denotes successful termination, but falling off the end of main wasn't made equivalent to return 0; until C99. – Keith Thompson Jul 13 '15 at 22:51
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    I appreciate the effort. It seems to explain the motivation between the equivalence of return 0 and return EXIT_SUCCESS but not the further mutation of no return being interpreted as return 0. If you see it in there, can you provide some interpretation explaining where you see it? – Edward Jul 14 '15 at 2:12
  • Note that finishing main() with exit(0); is different from either return 0; or simply falling off the end (though the differences seldom matter in practice). Specifically, if you call exit(0);, local variables in main() still exist, whereas they go out of scope with a return (implicit or explicit). One time this could matter is if you were careless and used a local variable as a buffer for a file stream — setbuf() or setvbuf() — and the file has to be closed by the cleanup code. You have to be trying to run foul of the difference, but it's there. – Jonathan Leffler Feb 24 '17 at 21:29

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