The main function must be declared as a non-member function in the global namespace. This means that it cannot be a static or non-static member function of a class, nor can it be placed in a namespace (even the unnamed namespace). The name main is not reserved in C++ except as a function in the global namespace.
Every C program has a primary (main) function that must be named main. If your code adheres to the Unicode programming model, you can use the wide-character version of main, wmain. The main function serves as the starting point for program execution.
"compiler does not need a declaration for main() " Every definition is a declaration, so I think the wording needs to be adjusted. "compiler declares it as one of the following two functions" Why "compiler declares"?
No. It's non-standard. The standard prototype of main is int main() with the optional command line arguments argc and argv . The int returned by main() is a way for a program to return a value to the system that invokes it.
The main
function must be declared as a non-member function in the global namespace. This means that it cannot be a static or non-static member function of a class, nor can it be placed in a namespace (even the unnamed namespace).
The name main
is not reserved in C++ except as a function in the global namespace. You are free to declare other entities named main
, including among other things, classes, variables, enumerations, member functions, and non-member functions not in the global namespace.
You can declare a function named main
as a member function or in a namespace, but such a function would not be the main
function that designates where the program starts.
The main
function cannot be declared as static
or inline
. It also cannot be overloaded; there can be only one function named main
in the global namespace.
The main
function cannot be used in your program: you are not allowed to call the main
function from anywhere in your code, nor are you allowed to take its address.
The return type of main
must be int
. No other return type is allowed (this rule is in bold because it is very common to see incorrect programs that declare main
with a return type of void
; this is probably the most frequently violated rule concerning the main
function).
There are two declarations of main
that must be allowed:
int main() // (1)
int main(int, char*[]) // (2)
In (1), there are no parameters.
In (2), there are two parameters and they are conventionally named argc
and argv
, respectively. argv
is a pointer to an array of C strings representing the arguments to the program. argc
is the number of arguments in the argv
array.
Usually, argv[0]
contains the name of the program, but this is not always the case. argv[argc]
is guaranteed to be a null pointer.
Note that since an array type argument (like char*[]
) is really just a pointer type argument in disguise, the following two are both valid ways to write (2) and they both mean exactly the same thing:
int main(int argc, char* argv[])
int main(int argc, char** argv)
Some implementations may allow other types and numbers of parameters; you'd have to check the documentation of your implementation to see what it supports.
main()
is expected to return zero to indicate success and non-zero to indicate failure. You are not required to explicitly write a return
statement in main()
: if you let main()
return without an explicit return
statement, it's the same as if you had written return 0;
. The following two main()
functions have the same behavior:
int main() { }
int main() { return 0; }
There are two macros, EXIT_SUCCESS
and EXIT_FAILURE
, defined in <cstdlib>
that can also be returned from main()
to indicate success and failure, respectively.
The value returned by main()
is passed to the exit()
function, which terminates the program.
Note that all of this applies only when compiling for a hosted environment (informally, an environment where you have a full standard library and there's an OS running your program). It is also possible to compile a C++ program for a freestanding environment (for example, some types of embedded systems), in which case startup and termination are wholly implementation-defined and a main()
function may not even be required. If you're writing C++ for a modern desktop OS, though, you're compiling for a hosted environment.
From Standard docs., 3.6.1.2 Main Function,
It shall have a return type of type int, but otherwise its type is implementation-defined. All implementations shall allow both of the following definitions of main:
int main() { / ... / }
and
int main(int argc, char* argv[]) { / ... / }
In the latter form
argc
shall be the number of arguments passed to the program from the environment in which the program is run.If argc is nonzero these arguments shall be supplied in argv[0] through argv[argc-1] as pointers to the initial characters of null-terminated multibyte strings.....
Hope that helps..
The exact wording of the latest published standard (C++14) is:
An implementation shall allow both
a function of
()
returningint
anda function of
(int
, pointer to pointer tochar)
returningint
as the type of
main
.
This makes it clear that alternative spellings are permitted so long as the type of main
is the type int()
or int(int, char**)
. So the following are also permitted:
int main(void)
auto main() -> int
int main ( )
signed int main()
typedef char **a; typedef int b, e; e main(b d, a c)
The two valid mains are int main()
and int main(int, char*[])
. Any thing else may or may not compile. If main
doesn't explicitly return a value, 0 is implicitly returned.
Details on return values and their meaning
Per 3.6.1 ([basic.start.main]
):
A return statement in
main
has the effect of leaving themain
function (destroying any objects with automatic storage duration) and callingstd::exit
with the return value as the argument. If control reaches the end ofmain
without encountering areturn
statement, the effect is that of executingreturn 0;
The behavior of std::exit
is detailed in section 18.5 ([support.start.term]
), and describes the status code:
Finally, control is returned to the host environment. If status is zero or
EXIT_SUCCESS
, an implementation-defined form of the status successful termination is returned. If status isEXIT_FAILURE
, an implementation-defined form of the status unsuccessful termination is returned. Otherwise the status returned is implementation-defined.
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