Main function
A program shall contain a global function named main, which is the designated start of the program in hosted environment. It shall have one of the following forms:
int main() { body }
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(1) | ||||||||
int main( int argc, char* argv[] ) { body }
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(2) | ||||||||
int main( /* implementation-defined */) { body }
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(3) | ||||||||
main
function running independently of environment-provided arguments.main
function accepting environment-provided arguments.main
function of implement-defined type, returning int.main
functions to place the extra (optional) parameters after argv.argc | - | Non-negative value representing the number of arguments passed to the program from the environment in which the program is run. |
argv | - | Pointer to the first element of an array of argc + 1 pointers, of which the last one is null and the previous ones, if any, point to null-terminated multibyte strings that represent the arguments passed to the program from the execution environment. If argv[0] is not a null pointer (or, equivalently, if argc > 0), it points to a string that represents the name used to invoke the program, or to an empty string. |
body | - | The body of the main function.
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Explanation
The main
function is called at program startup after initialization of the non-local objects with static storage duration. It is the designated entry point to a program that is executed in hosted environment (that is, with an operating system). The entry points to freestanding programs (boot loaders, OS kernels, etc) are implementation-defined.
The parameters of the two-parameter form of the main
function allow arbitrary multibyte character strings to be passed from the execution environment (these are typically known as command line arguments), the pointers argv[1] .. argv[argc - 1] point at the first characters in each of these strings. argv[0] (if non-null) is the pointer to the initial character of a null-terminated multibyte string that represents the name used to invoke the program itself (or an empty string "" if this is not supported by the execution environment). The strings are modifiable, although these modifications do not propagate back to the execution environment: they can be used, for example, with std::strtok. The size of the array pointed to by argv is at least argc + 1, and the last element, argv[argc], is guaranteed to be a null pointer.
The main
function has the following several special properties:
main
function does not need to contain the return statement: if control reaches the end of main
without encountering a return statement, the effect is that of executing return 0;.main
) is equivalent to first leaving the function normally (which destroys the objects with automatic storage duration) and then calling std::exit with the same argument as the argument of the return (std::exit then destroys static objects and terminates the program).The main
function has several restrictions (violation of which renders the program ill-formed):
main
in the global namespace is reserved for functions (although it can be used to name classes, namespaces, enumerations, and any entity in a non-global namespace, except that an entity named main
cannot be declared with C language linkage in any namespace.constexpr
(since C++11), consteval
(since C++20), inline
, or static
.
4) The return type of the
main function cannot be deduced (auto main() {...} is not allowed). |
(since C++14) |
(since C++20) |
(since C++20) |
Notes
If the main
function is defined with a function try block, the exceptions thrown by the destructors of static objects (which are destroyed by the implied std::exit) are not caught by it.
The manner in which the arguments given at the OS command line are converted into the multibyte character arrays referenced by argv may involve implementation-defined processing:
A very common implementation-defined form of main() has a third argument (in addition to argc
and argv
), of type char**, pointing at an array of pointers to the execution environment variables.
Example
Demonstrates how to inform a program about where to find its input and where to write its results.
A possible invocation: ./convert table_in.dat table_out.dat
#include <cstdlib> #include <iomanip> #include <iostream> int main(int argc, char *argv[]) { std::cout << "argc == " << argc << '\n'; for (int ndx{}; ndx != argc; ++ndx) std::cout << "argv[" << ndx << "] == " << std::quoted(argv[ndx]) << '\n'; std::cout << "argv[" << argc << "] == " << static_cast<void*>(argv[argc]) << '\n'; /* ... */ return argc == 3 ? EXIT_SUCCESS : EXIT_FAILURE; // optional return value }
Possible output:
argc == 3 argv[0] == "./convert" argv[1] == "table_in.dat" argv[2] == "table_out.dat" argv[3] == 0
References
Extended content |
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Defect reports
The following behavior-changing defect reports were applied retroactively to previously published C++ standards.
DR | Applied to | Behavior as published | Correct behavior |
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CWG 1003 | C++98 | supported parameter names of main were overly restricted
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all valid parameter names are supported |
CWG 1886 | C++98 | the main function could be declared with a language linkage
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prohibited |
CWG 2479 | C++20 | the main function could be declared consteval
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prohibited |
CWG 2811 | C++98 | whether the main function is used after N3214 was unclear
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it is considered used when named |
See also
C documentation for
main function |