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The compiler gives the warning warning: second argument of ‘int main(int, std::string*)’ should be ‘char **’ [-Wmain]

when I choose to put in

int main(int argv, std::string a[])

instead of

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

If you can come up with a reason ,also pray dotell what's wrong with the string approach.

I mean with std::string being the posterchild of of character representation/string representation , for C++ , why bother with C styles?


IS there really no hack around the standard implementation?

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Because main() is not allowed to have an std::string parameter in standards compliant code. See here. –  juanchopanza Jun 30 '13 at 19:03
Spoiler alert: The names "argv" and "argc" actually mean something, and there's a reason they're usually used in a specific order. –  Kerrek SB Jun 30 '13 at 19:04
"IS there a reason why the compiler gives the warning" - well, what do you think? The compiler emits warnings just for fun, without any reason, just to annoy you? (you'd deserve it, but still...) –  user529758 Jun 30 '13 at 19:09
@H2CO3 I think the compiler, though an awesome piece of code , is still non learning piece of code ..and cannot be imagined to handle very possible input I just thought maybe it just fudged up. –  nerorevenge Jun 30 '13 at 19:12
@nerorevenge: You don't need a "learning" compiler to deal with incorrect code. It's just following the rules of the language (but do look up "internal compiler errors", which are a rare class of errors that are due to a bug in the compiler itself). –  In silico Jun 30 '13 at 19:26

3 Answers 3

up vote 10 down vote accepted

The reason is pretty simple: the language rules do not mandate your form and the implementation you use do not support it through its own choice.

Quoting the standard 3.6.1p2

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 nonnegative. The value of argv[argc] shall be 0. [Note: it is recommended that any further (optional) parameters be added after argv. ]

EDIT: to cover additional question:

There is no need to "hack" anything, as nothing stops to use a function or a class that takes the original argc and argv and processes it to a vector literally, or better yet parse it and map processed data to internal variables. We have a plenty of those floating around, and those who create more than a handful of main()-s per year probably already use one of those or their own.

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Hysterical raisins. –  aschepler Jun 30 '13 at 19:16
Yes, the std::string is a C++ type and more difficult for operating systems to implement. Remember, the operating system is passing information to your function via the main function. An array of pointers to nul terminated strings is easy for an OS to implement and pass. This also lets the OS use one function to call yours, whether it is implemented in C++ or C; remember C does not have std::string. –  Thomas Matthews Jun 30 '13 at 19:24
The mandated forms are inherited from C. And for extending the main functions there were just no proposals. I guess for lack of good motivation, the way we have works fine as is, and in practice most users have libraries and frameworks to process the command line anyway. –  Balog Pal Jun 30 '13 at 19:25
std::string is a dynamic string. It's not the panacea for each and every string-type situation. Command-line arguments are a perfect example for a non-dynamic string where std::string would be plain overdoing it. –  Kerrek SB Jun 30 '13 at 19:35
@nerorevenge The reason is that std::string is not part of the C++ language. It's not in the core. It's not a built-in, just a class in the standard library. And the compiler, the runtime, the caller of main() etc. all have no knowledge of its existence at all. –  user529758 Jun 30 '13 at 20:09


 vector<string> args(argv, argv + argc);

 for (auto s: args) 
      cout << s << endl;

std::string and std::vector are heavy weight objects. Dynamic memory allocation is used during their construction.

2nd way to do it is to use my RO library. Below code will create light weight iterator range object around argv array:

 auto args = ro::range(argv,argv+argc);

 for (auto s: args) 
      cout << s << endl;
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I would +1 this if it didn't have the abominable abusing namespace std;. –  Kerrek SB Jun 30 '13 at 19:39
Teaching rookies bad practices is even worse! They don't have the mental power to see through the bad parts of your advice :-( –  Kerrek SB Jun 30 '13 at 19:58
@LeonidVolnitsky That's not an excuse, in fact KerrekSB is right and encouraging newcomers to use bad practices is a serious error. Fixed the namespace abuse, but you don't get my upvote for this very reason. –  user529758 Jun 30 '13 at 20:11
@H2CO3: note that there's no consensus on which form is good or abomination, when vector and string is involved. "And is it any wonder/That the monkey's confused" –  Balog Pal Jul 1 '13 at 0:00
Thanks H2CO3, but I prefer examples without namespace. I am reverting your edit. I am sure readers of this post won't get confused about what string I am talking about. –  Leonid Volnitsky Aug 1 '13 at 9:37

You've been given the reason why your implementation need not support it. However there's also a reason why your implementation would not want to support it:

The (usually precompiled) code calling main passes an int and a char** (and in some implementations as extension a second char**; indeed, on many platforms it gets exactly that data already provided by the operating system and just passes it on). It is easy to support to ignore trailing arguments (usually they are pushed to the stack in reverse order, so ignoring the additional arguments just means not accessing them, no additional logic required). However, you cannot just read out a char** as std::string*, therefore the compiler would have to generate extra code to support this interface. Given that any source code using that interface would be non-portable anyway and few people would use it, and given that the original interface works just fine, it would just be a waste of resources to implement that alternative interface.

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