Consider following program:

#include <iostream>
int main = ( std::cout << "C++ is excellent!\n", 195 ); 

Using g++ 4.8.1 (mingw64) on Windows 7 OS, the program compiles and runs fine, printing:

C++ is excellent!

to the console. main appears to be a global variable rather than a function; how can this program execute without the function main()? Does this code conform to the C++ standard? Is the behavior of the program is well defined? I have also used the -pedantic-errors option but the program still compiles and runs.

  • 11
    @πάνταῥεῖ: why language lawyer tag is necessary?
    – Destructor
    Sep 29, 2015 at 18:29
  • 15
    Note that 195 is the opcode for the RET instruction, and that in the C calling convention, the caller clears the stack.
    – Brian Bi
    Sep 29, 2015 at 18:37
  • 2
    @PravasiMeet "then how this program executes" – do you not think the initialization code for a variable should be execute (even without the main() function? in fact, they are completely unrelated.) Sep 29, 2015 at 18:37
  • 4
    I'm among those who found that the program segfaults as is (64-bit linux, g++ 5.1/clang 3.6). I can rectify this however by amending it to int main = ( std::cout << "C++ is excellent!\n", exit(0),1 ); (and including <cstdlib>), albeit the program remains legally ill-formed. Sep 29, 2015 at 18:58
  • 12
    @Brian You should mention architecture when making statements like that. All the world is not a VAX. Or x86. Or whatever. Sep 29, 2015 at 21:58

7 Answers 7


Before going into the meat of the question about what is going on, it is important to point out that program is ill-formed as per defect report 1886: Language linkage for main():

[...] A program that declares a variable main at global scope or that declares the name main with C language linkage (in any namespace) is ill-formed. [...]

The most recent versions of clang and gcc makes this an error and the program will not compile (see gcc live example):

error: cannot declare '::main' to be a global variable
int main = ( std::cout << "C++ is excellent!\n", 195 ); 

So why was there no diagnostic in older versions of gcc and clang? This defect report did not even have a proposed resolution until late 2014 and so this case was only very recently explicitly ill-formed, which requires a diagnostic.

Prior to this, it seems like this would be undefined behavior since we are violating a shall requirement of the draft C++ standard from section 3.6.1 [basic.start.main]:

A program shall contain a global function called main, which is the designated start of the program. [...]

Undefined behavior is unpredictable and does not require a diagnostic. The inconsistency we see with reproducing the behavior is typical undefined behavior.

So what is the code actually doing and why in some cases does it produce results? Let's see what we have:

|        initializer----------------------------------
|        |                                           |
v        v                                           v
int main = ( std::cout << "C++ is excellent!\n", 195 ); 
    ^      ^                                   ^
    |      |                                   |
    |      |                                   comma operator
    |      primary expression
global variable of type int

We have main which is an int declared in the global namespace and is being initialized, the variable has static storage duration. It is implementation defined whether the initialization will take place before an attempt to call main is made but it appears gcc does do this before calling main.

The code uses the comma operator, the left operand is a discarded value expression and is used here solely for the side effect of calling std::cout. The result of the comma operator is the right operand which in this case is the prvalue 195 which is assigned to the variable main.

We can see sergej points out the generated assembly shows that cout is called during static initialization. Although the more interesting point for discussion see live godbolt session would be this:

.zero   4

and the subsequent:

movl    $195, main(%rip)

The likely scenario is that the program jumps to the symbol main expecting valid code to be there and in some cases will seg-fault. So if that is the case we would expect storing valid machine code in the variable main could lead to workable program, assuming we are located in a segment that allows code execution. We can see this 1984 IOCCC entry does just that.

It appears we can get gcc to do this in C using (see it live):

const int main = 195 ;

It seg-faults if the variable main is not const presumably because it is not located in an executable location, Hat Tip to this comment here which gave me this idea.

Also see FUZxxl answer here to a C specific version of this question.

  • Why implementation isn't giving any warnings also. (When I use -Wall & -Wextra it still not gives single warning). Why? What you think about @Mark B's answer of this question?
    – Destructor
    Sep 30, 2015 at 5:53
  • IMHO, the compiler shouldn't give a warning because main isn't a reserved identifier (3.6.1/3). In this case, I think VS2013's handling of this case (see Francis Cugler's answer) is more correct in it's handling than gcc & clang.
    – cdmh
    Sep 30, 2015 at 8:57
  • @PravasiMeet I updated my answer wrt to why earlier versions of gcc did not give a diagnostic. Sep 30, 2015 at 11:55
  • 2
    ... and indeed, when I test the OP's program on Linux/x86-64, with g++ 5.2 (which accepts the program - I guess you weren't kidding about "most recent version"), it crashes exactly where I expected it would.
    – zwol
    Sep 30, 2015 at 21:31
  • 1
    @Walter I don't believe these are duplicates the former is asking much narrower question. There is clearly a group of SO users that have a more reductionist view of duplicates which I does not make much sense to me since we could boil down most SO questions to some version of older questions bu then SO would not be very useful. Oct 1, 2015 at 13:10

From 3.6.1/1:

A program shall contain a global function called main, which is the designated start of the program. It is implementation defined whether a program in a freestanding environment is required to define a main function.

From this it looks like g++ happens to allow a program (presumably as the "freestanding" clause) without a main function.

Then from 3.6.1/3:

The function main shall not be used (3.2) within a program. The linkage (3.5) of main is implementation defined. A program that declares main to be inline or static is illformed. The name main is not otherwise reserved.

So here we learn that it's perfectly fine to have an integer variable named main.

Finally if you're wondering why the output is printed, the initialization of the int main uses the comma operator to execute cout at static init and then provide an actual integral value to do the initialization.

  • 7
    It's interesting to note that linking fails if you rename main to something else: (.text+0x20): undefined reference to main' ` Sep 29, 2015 at 18:34
  • 1
    Don't you have to specify to gcc that your program is freestanding? Sep 30, 2015 at 19:11

gcc 4.8.1 generates the following x86 assembly:

    .string "C++ is excellent!\n"
    subq    $8, %rsp    #,
    movl    std::__ioinit, %edi #,
    call    std::ios_base::Init::Init() #
    movl    $__dso_handle, %edx #,
    movl    std::__ioinit, %esi #,
    movl    std::ios_base::Init::~Init(), %edi  #,
    call    __cxa_atexit    #
    movl    $.LC0, %esi #,
    movl    std::cout, %edi #,
    call    std::basic_ostream<char, std::char_traits<char> >& std::operator<< <std::char_traits<char> >(std::basic_ostream<char, std::char_traits<char> >&, char const*)   #
    movl    $195, main(%rip)    #, main
    addq    $8, %rsp    #,
    .zero   4

Note that cout is called during initialization, not in the main function!

.zero 4 declares 4 (0-initialized) bytes starting at location main, where main is the name of the variable[!].

The main symbol is interpreted as the start of the program. The behavior depends on the platform.

  • 2
    Note as Brian points out 195 is the opcode for ret on some architectures. So saying zero instructions may not be accurate. Oct 1, 2015 at 3:08
  • @ShafikYaghmour Thanks for your comment, you are right. I got messed up with the assembler directives.
    – sergej
    Oct 2, 2015 at 7:49
  • Specifically, 0xc3 is a ret on x86 (including x86-64). This might work on an old system with gcc -zexecstack if that's handled by making all pages executable, not just the stack, including sections like .data that aren't given exec permission normally. (Unlike .rodata on old systems which got linked with .text). A very old 32-bit x86 system not using PAE wouldn't support an exec permission bit, so read would imply exec. But this question was from 2015 so that's odd; Intel CPUs since 2006 (Core 2) support x86-64 and the NX bit. Aug 12, 2022 at 5:21

That is an ill-formed program. It crashes on my test environment, cygwin64/g++ 4.9.3.

From the standard:

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.

  • I think prior to the defect report I cited, this was just plain undefined behavior. Sep 30, 2015 at 19:10
  • @ShafikYaghmour, Is that the general principle to be applied at all the places where the standard uses shall ?
    – R Sahu
    Sep 30, 2015 at 19:15
  • I want to say yes but I have not see a good description of the difference. From what I can tell from this discussion, ill-formed NDR and undefined behavior are probably synonymous since neither require a diagnostic. This would seem to imply ill-formed and UB are distinct but not sure. Oct 1, 2015 at 13:05
  • 3
    C99 section 4 ("Conformance") makes this unambiguous: "If a 'shall' or 'shall not' requirement that appears outside of a constraint is violated, the behavior is undefined." I can't find equivalent wording in C++98 or C++11, but I strongly suspect the committee meant it to be there. (The C and C++ committees really need to sit down and iron out all the terminological differences between the two standards.)
    – zwol
    Oct 3, 2015 at 16:32

The reason I believe this works is that the compiler does not know it is compiling the main() function so it compiles a global integer with assignment side-effects.

The object format that this translation-unit is compiled into is not capable of differentiating between a function symbol and a variable symbol.

So the linker happily links to the (variable) main symbol and treats it like a function call. But not until the runtime system has run the global variable initialization code.

When I ran the sample it printed out but then it caused a seg-fault. I assume that's when the runtime system tried to execute an int variable as if it were a function.

  • Most systems put variables in non-executable pages, especially read-write data. Read-only constants (in .rodata on Linux / .rdata on Windows) used to get linked into the same program segment as as the .text section; modern GNU Binultils ld puts it in a separate segment so it can be read-only without exec. And of course your system has to be x86 (including x86-64), because 0xc3 is the x86 opcode for a ret instruction. On other ISAs, 0xc3 would be some other instruction. Aug 12, 2022 at 5:16

I've tried this on a Win7 64bit OS using VS2013 and it compiles correctly but when I try to build the application I get this message from the output window.

1>------ Build started: Project: tempTest, Configuration: Debug Win32 ------
1>LINK : fatal error LNK1561: entry point must be defined
========== Build: 0 succeeded, 1 failed, 0 up-to-date, 0 skipped ==========
  • 2
    FWIW, that's a linker error, not a message from the debugger. The compilation succeeded, but the linker couldn't find a function main() because it's a variable of type int
    – cdmh
    Sep 30, 2015 at 8:54
  • Thanks for the reply I'll reword my initial answer to reflect this. Oct 1, 2015 at 16:57

You are doing tricky work here. As main( somehow) could declared to be integer. You used list operator to print message & then assign 195 to it. As said by someone below, that it doesn't comfort with C++, is true. But as compiler didn't find any user defined name, main, it didn't complaint. Remember main is not system defined function, its user defined function & thing from which program starts executing is Main Module, not main(), specifically. Again main() is called by startup function which is executed by loader intentionally. Then all of your variables are initialized, & while initializing it output like that. That's it. Program without main() is ok, but not standard.

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