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What is the correct (most efficient) way to define the main() function in C and C++ — int main() or void main() — and why? If int main() then return 1 or return 0?

There are numerous duplicates of this question, including:


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I still think it's fairly vague too. Define "most efficient" for me. Efficient in what sense? In the sense of taking up less memory? In the sense of running faster? I can see the useful answers but I still think the question is phrased pretty poorly. –  Onorio Catenacci Oct 16 '08 at 12:51
Pish posh, the context of efficient is obvious here, especially with the examples (which are likely there to clarify the definition of 'efficient'). Hopefully the poor buffer didn't crawl into a hole and regret the question entirely. One could say, regardless of void or int, a value is returned, so it has no impact on file size, operations executed, nor memory allocated. And people, across most OSs, tend to return 0 on success, and something else on -other- success, or failure - but there is no standard. Ultimately, no difference in efficiency in any obvious way. –  Copperpot Dec 11 '12 at 17:02
@JonathanLeffler If you want to close that other question, you should first ensure that its excellent answer is somehow transferred here. –  Walter Sep 30 '13 at 19:26
"correct (most efficient)" doesn't make sense. Efficient is one thing, correct is another. main is called once (and in C++ can only be called once: no recursion). If you don't want execution to spend a lot of time in main, then don't invoke the program a large number of times: make the program implement the repetition. –  Kaz Oct 17 '13 at 16:14
I find it interesting that none of the answers, as far as I can tell, provide a fully working example, including the #include statements –  puk Nov 11 '13 at 21:42

17 Answers 17

up vote 203 down vote accepted

The return value for main should indicate how the program exited. Normal exit is generally represented by a 0 return value from main. Abnormal termination is usually signalled by a non-zero return but there is no standard for how non-zero codes are interpreted. Also as noted by others, void main() is explicitly prohibited by the C++ standard and shouldn't be used. The valid C++ main signatures are:

int main()


int main(int argc, char* argv[])

which is equivalent to

int main(int argc, char** argv)

It's also worth noting that in C++, int main() can be left without a return value at which point it defaults to returning 0. This is also true with a C99 program. Whether return 0 should be omitted or not is open to debate. The range of valid C program main signatures is much greater.

Also, efficiency is not an issue with the main function. It can only be entered and left once (marking program start and termination) according to the C++ standard. For C, the case is different and re-entering main() is allowed, but should probably be avoided.

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main CAN be entered/left multiple times, but that program probably wouldn't win any design awards ;) –  korona Oct 15 '08 at 12:38
C99 also has the C++ mis-feature that reaching the end of the main() function is equivalent to returning 0 -- if main() is defined to return a type compatible with int (section –  Jonathan Leffler Oct 15 '08 at 12:43
reentering main is not valid C++. Explicitly in the standard, states 'main shall not be used within a program' –  workmad3 Oct 15 '08 at 12:59
stdlib.h provides EXIT_SUCCESS and EXIT_FAILURE for this purpose –  Clay Oct 15 '08 at 13:13
0 and non-zero are correct but entirely meaningless to someone reading your code. This question is proof that people don't know what valid/invalid codes are. EXIT_SUCCESS/EXIT_FAILURE are much more clear. –  JaredPar Oct 15 '08 at 16:32

The accepted answer appears to be targetted for C++, so I thought I'd add an answer that pertains to C, and this differs in a few ways.

ISO/IEC 9899:1989 (C90):

main should be declared as either:

int main(void)
int main(int argc, char **argv)

Or equivalent. For example, int main(int argc, char *argv[]) is equivalent to the second one. Further, the int return type can be omitted as it is a default.

If an implementation permits it, main can be declared in other ways, but this makes the program implementation defined, and no longer strictly conforming.

The standard defines 3 values for returning that are strictly conforming (that is, does not rely on implementation defined behaviour): 0 and EXIT_SUCCESS for a successful termination, and EXIT_FAILURE for an unsuccessful termination. Any other values are non-standard and implementation defined. main must have an explicit return statement at the end to avoid undefined behaviour.

Finally, there is nothing wrong from a standards point of view with calling main() from a program.

ISO/IEC 9899:1999 (C99):

For C99, everything is the same as above except:

  • The int return type may not be omitted.
  • You may omit the return statement from main. If you do, and main finished, there is an implicit return 0.
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C90 uses a different wording, but exactly to the same effect as in C99. In, "If the main function executes a return that specifies no value, the termination status returned to the host environment is undefined". In, "Reaching the } that terminates a function is equivalent to executing a return statement without an expression". Having no return statement is OK for any function in C90. –  Andrey Chernyakhovskiy Oct 10 '13 at 14:35
@ Chris Young : Where is the return value going to. And whats the use of the value returned? Can you explain that. or is it just to avoid undefined behaviour. –  MELWIN Mar 7 '14 at 11:51
@ MELWIN : Return value is passed to the host environment. Most of the time it would be your OS, which can pass this value to some other running process by request (e.g. system() call). –  Ternvein Jan 9 at 11:02

I believe that main() should return either EXIT_SUCCESS or EXIT_FAILURE. They are defined in stdlib.h

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0 is also standard. –  Chris Young Oct 16 '08 at 14:46
@ChrisYoung There is EXIT_SUCCESS and EXIT_FAILURE because some historic operating systems (VMS?) used a different number than 0 to denote success. It's 0 everywhere nowadays. –  FUZxxl Sep 17 '14 at 10:45
@FUZxxl you're correct, but that's not in conflict with my comment. EXIT_SUCCESS can indeed be nonzero, but the standards (C89, C99, C11) all define 0 (as well as EXIT_SUCCESS) to also be an implementation-defined form of the status successful termination. –  Chris Young Oct 22 '14 at 9:43
@ChrisYoung Thank you for correcting me. I was apparently wrong. –  FUZxxl Oct 22 '14 at 9:48

[I've copied an expanded version of my answers to the duplicate questions here because it covers (and quotes) Standard C, Standard C++ and Microsoft's variations, which none of the other answers here seems to do. Since this seems to be the earliest question on Stack Overflow covering the topic, it should be the one chosen as the definitive question, and it should have the best (most nearly definitive) answer(s).]

Standard C

For a hosted environment (that's the normal one), the C11 standard (ISO/IEC 9899:2011) says: Program startup

The function called at program startup is named main. The implementation declares no prototype for this function. It shall be defined with a return type of int and with no parameters:

int main(void) { /* ... */ }

or with two parameters (referred to here as argc and argv, though any names may be used, as they are local to the function in which they are declared):

int main(int argc, char *argv[]) { /* ... */ }

or equivalent;10) or in some other implementation-defined manner.

If they are declared, the parameters to the main function shall obey the following constraints:

  • The value of argc shall be nonnegative.
  • argv[argc] shall be a null pointer.
  • If the value of argc is greater than zero, the array members argv[0] through argv[argc-1] inclusive shall contain pointers to strings, which are given implementation-defined values by the host environment prior to program startup. The intent is to supply to the program information determined prior to program startup from elsewhere in the hosted environment. If the host environment is not capable of supplying strings with letters in both uppercase and lowercase, the implementation shall ensure that the strings are received in lowercase.
  • If the value of argc is greater than zero, the string pointed to by argv[0] represents the program name; argv[0][0] shall be the null character if the program name is not available from the host environment. If the value of argc is greater than one, the strings pointed to by argv[1] through argv[argc-1] represent the program parameters.
  • The parameters argc and argv and the strings pointed to by the argv array shall be modifiable by the program, and retain their last-stored values between program startup and program termination.

10) Thus, int can be replaced by a typedef name defined as int, or the type of argv can be written as char **argv, and so on.

Program termination in C99 or C11

The value returned from main() is transmitted to the 'environment' in an implementation-defined way. Program termination

1 If the return type of the main function is a type compatible with int, a return from the initial call to the main function is equivalent to calling the exit function with the value returned by the main function as its argument;11) reaching the } that terminates the main function returns a value of 0. If the return type is not compatible with int, the termination status returned to the host environment is unspecified.

11) In accordance with 6.2.4, the lifetimes of objects with automatic storage duration declared in main will have ended in the former case, even where they would not have in the latter.

Note that 0 is mandated as 'success'. You can use EXIT_FAILURE and EXIT_SUCCESS from <stdlib.h> if you prefer, but 0 is well established, and so is 1. See also Exit codes greater than 255 — possible?.

In C89 (and hence in Microsoft C), there is no statement about what happens if the main() function returns but does not specify a return value; it therefore leads to undefined behaviour.

Standard C++

The C++11 standard (ISO/IEC 14882:2011) says:

3.6.1 Main function [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 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() { /* ... */ }


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 (NTMBSs) ( and argv[0] shall be the pointer to the initial character of a NTMBS that represents the name used to invoke the program or "". The value of argc shall be non-negative. The value of argv[argc] shall be 0. [ Note: It is recommended that any further (optional) parameters be added after argv. —end note ]

¶3 The function main shall not be used within a program. [...]

¶5 A return statement in main has the effect of leaving the main function (destroying any objects with automatic storage duration) and calling std::exit with the return value as the argument. If control reaches the end of main without encountering a return statement, the effect is that of executing

return 0;

The C++ standard explicitly says "It [the main function] shall have a return type of type int, but otherwise its type is implementation defined", and requires the same two signatures as the C standard. So a 'void main()' is directly not allowed by the C++ standard, though there's nothing it can do to stop a non-standard implementation allowing alternatives. Note that C++ forbids the user from calling main (but the C standard does not).

Common Extension

Classically, Unix systems support a third variant:

int main(int argc, char **argv, char **envp) { ... }

The third argument is a null-terminated list of pointers to strings, each of which is an environment variable which has a name, an equals sign, and a value (possibly empty). If you do not use this, you can still get at the environment via 'extern char **environ;'. For a long time, that did not have a header that declared it, but the POSIX 2008 standard now requires it to be declared in <unistd.h>.

This is recognized by the C standard as a common extension, documented in Annex J:

J.5.1 Environment arguments

¶1 In a hosted environment, the main function receives a third argument, char *envp[], that points to a null-terminated array of pointers to char, each of which points to a string that provides information about the environment for this execution of the program (

Microsoft C

The Microsoft VS 2010 compiler is interesting. The web site says:

The declaration syntax for main is

 int main();

or, optionally,

int main(int argc, char *argv[], char *envp[]);

Alternatively, the main and wmain functions can be declared as returning void (no return value). If you declare main or wmain as returning void, you cannot return an exit code to the parent process or operating system by using a return statement. To return an exit code when main or wmain is declared as void, you must use the exit function.

It is not clear to me what happens (what exit code is returned to the parent or o/s) when a program with void main() does exit — and the MS web site is silent too.

Interestingly, MS does not prescribe the two-argument version of main() that the C and C++ standards require. It only prescribes a three argument form where the third argument is char **envp, a pointer to a list of environment variables.

The Microsoft page also lists some other alternatives — wmain() which takes wide character strings, and some more.

The Microsoft VS 2005 version of this page does not list void main() as an alternative. The versions from Microsoft VS 2008 onwards do.

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Return 0 on success and non-zero for error. This is the standard used by UNIX and DOS scripting to find out what happened with your program.

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The standard says main should return an int. void is not supposed to work. Take a look at this question, too.

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in c89 & k&r c unspecified return types default to int

return 1? return 0?

1> if you do not write return statement to int main() then closing { will return 0 by default

2> return 0 or return 1 will be received by environment variable of OS. so if you are not using that environment variable then you should dont worry about return value of main()

see How can I get what my main function has returned?

$ ./a.out
$ echo $?   

this way you can see that environment variable $? which receive the last 1 byte of return value of main()

so if you are writing any script then you should take care or return value of main() otherwise dont

In UNIX and DOS scripting Return 0 on success and non-zero for error are usually returned. . This is the standard used by UNIX and DOS scripting to find out what happened with your program and controlling whole flow

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Strictly speaking, $? is not an environment variable; it is a shell predefined (or built-in) variable. The difference is hard to spot, but if you run env (without any arguments), it prints the environment, and $? won't be shown in the environment. –  Jonathan Leffler Sep 22 '13 at 23:20
Returning 0 automatically when main "falls of the end" is only in C++ and C99 onwards, not in C90. –  Kaz Oct 17 '13 at 16:43

Keep in mind that,even though you're returning an int, some OSes (Windows) truncate the returned value to a single byte (0-255).

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Unix does the same, as do most other operating systems probably. I know VMS does such incredible weird things with it that returning anything other than EXIT_SUCCESS or EXIT_FAILURE is asking for trouble. –  Leon Timmermans Oct 16 '08 at 16:34
MSDN begs to differ: when reported through mscorlib, an exit code is a signed 32-bit integer. This seems to imply that the C runtime libraries that truncate exit codes are defective. –  Rhymoid Jan 5 at 10:16

The return value can be used by the operating system to check how the program was closed.

Return value 0 usually means OK in most operating systems (the ones i can think of anyway).

It also can also be checked when you call a process yourself, and see if the program exited and finished properly.

It's NOT just a programming convention.

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I was under the impression that standard specifies that main doesn't need a return value as a successful return was OS based (zero in one could be either a success or a failure in another), therefore the absence of return was a cue for the compiler to insert the successful return itself.

However I usually return 0.

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C99 (and C++98) allow you to omit the return statement from main; C89 does not allow you to omit the return statement. –  Jonathan Leffler Jul 18 '13 at 5:56

Returning 0 should tell the programmer that ,the program has successfully finished the job.

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Returning 1 from main() normally signals an error occurred; returning 0 signals success. If your programs always fail, then 1 is OK, but it not the best idea. –  Jonathan Leffler Sep 22 '13 at 23:17
@JonathanLeffler: The meaning of returning 1 from main is implementation-defined. The only language-defined values are 0, EXIT_SUCCESS (often defined as 0), and EXIT_FAILURE. In OpenVMS, return 1; denotes successful termination. –  Keith Thompson Feb 5 '14 at 21:59
VMS is not 'normal' — within the meaning of what I said. Isn't it something like 'any odd value is success; even values are failure' on VMS? –  Jonathan Leffler Feb 5 '14 at 22:02

if you really have issues related to efficency of returning an integer from a process, you should probably avoid to call that process so many times that this return value become an issue.

If you are doing this (call a process so many times), you should find a way to put your logic directly inside the caller, or in a dll, without allocate a specific process for each call; the multiple process allocations bring you the relevant efficency problem in this case.

In detail, if you only want to know if returning 0 is more or less efficent than returning 1, it could depend from the compiler in some case, but generically, assuming they are read from the same source (local, field, constant, embedded in the code, function result, ecc..) it requires exactly the same number of clock times.

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The return value of main() shows how the program exited. if the return value is zero it means that the execution was successful while any non zero value will represent that something went bad in the execution.

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What to return depends on what you want to do with the executable. For example if you are using your program with a command line shell, then you need to return 0 for a success and a non zero for failure. Then you would be able to use the program in shells with conditional processing depending on the outcome of your code. Also you can assign any nonzero value as per your interpretation, for example for critical errors different program exit points could terminate a program with different exit values , and which is available to the calling shell which can decide what to do by inspecting the value returned. If the code is not intended for use with shells and the returned value does not bother anybody then it might be omitted. I personally use the signature int main (void) { .. return 0; .. }

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This basically depends on your execution environment (the OS). C implies that it will be run by a UNIX like OS which expects the program to return a (small? 1 Byte? can't remember) integer to indicate success / failure.

You should probably just use int main(int argc, char** argv).

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See Exit codes bigger than 255 — possible? Yes, only values from 0 to 255 can be returned. –  Jonathan Leffler May 17 '14 at 19:57

It depends on what you are trying to signal the OS with.

You should return 0 when program successfully executed; you should return 1 when it is not successful.

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This doesn't address the question of void main() vs int main(); it presumes int main(). –  Jonathan Leffler Jul 18 '13 at 13:53

void main() is forbidden after C90. main should return a value. I used to return 0.

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And void main() wasn't allowed before C90 because void was not really part of the C language before the standard. It (void) did appear a little before the standard in a few compilers, but it was one of the features added to the language by C90. –  Jonathan Leffler Jan 23 '14 at 16:49

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