The C standard never mentions this _start
function; I don't believe C++ does either.
In C prior to the 1999 ISO standard, if execution reaches the end of main()
without executing a return
statement, or executes a return
statement that doesn't specify a value, then "the termination status returned to the host environment is undefined". In practice, I've seen implementations where such a program returns a status of 1 (failure), or some arbitrary value in memory such as the result of the last function that was called.
The 1999 ISO C standard changed this: "reaching the } that terminates the main function returns a value of 0". This matches the rule that C++ has had at least since the first ISO C++ standard in 1998.
(As a matter of style, I prefer to have an explicit return 0;
at the end of main
, even if it's not strictly required. This is consistent with int
functions other than main
, and it makes for better portability to pre-C99 C compilers.)
All this assumes that main
is defined with a return type of int
. That's the only type that's specifically supported by the C standard (either int main(void)
or int main(int argc, char *argv[])
or equivalent), but (hosted) implementations may support other implementation-defined definitions. The C90 standard doesn't explicitly cover this case, but C99 says, "If the return type is not compatible with int, the termination status returned to the host environment is unspecified."
The C++ standard is a bit different. For hosted implementations, main
must be defined to return int
. The parameters are implementation-defined, but both the standard forms of C must be supported.
For a hosted implementation in either C or C++, there is no good reason I know of to define main
with a return type other than int
. Just use one of the two standard definitions, and the question won't arise.
For "freestanding implementations", "the name and type of the function called at program
startup are implementation-defined". So the entry point might legitimately return void
or something else, and it might not even be called main
. Note that a "freestanding implementation" is one "in which C program execution may take place without any
benefit of an operating system", typically an embedded system.