Is there a really effective way of dealing with command line parameters in C++?

What I'm doing below feels completely amateurish, and I can't imagine this is how command line parameters are really handled (atoi, hard-coded argc checks) in professional software.

// Command line usage: sum num1 num2

int main(int argc, char *argv[])
   if (argc < 3)
      cout << "Usage: " << argv[0] << " num1 num2\n";
   int a = atoi(argv[1]);    int b = atoi(argv[2]);    int sum = a + b;
   cout << "Sum: " << sum << "\n";
   return 0; }
  • I think the Nunit source code (C#) has a good example of a command line handling class.... – Mitch Wheat Sep 30 '10 at 0:35
  • 1
    possible duplicate of Option Parsers for c/c++? – wilhelmtell Sep 30 '10 at 0:41
  • For the above example it is perfect. I would not do anything more complex. Now if you are doing something like gcc where it has a couple of thousand flags then an library may be useful but when one is required over the other will depend completely on situation. – Martin York Sep 30 '10 at 2:26
  • Not a duplicate as the other question is tagged for C, where you might use a very different strategy than for C++. – Adrian McCarthy Apr 2 '18 at 17:55
  • What does "effective" mean? You should clarify this a bit. – hyde Jul 30 '18 at 7:39

You probably want to use an external library for that. There are many to chose from.

Boost has a very feature-rich (as usual) library Boost Program Options.

My personal favorite for the last few years has been TCLAP -- purely templated, hence no library or linking, automated '--help' generation and other goodies. See the simplest example from the docs.

  • +1, didn't know about tclap and it manages to be lightweight and yet feels complete, I'm definitely going to delve deeper. – Matthieu M. Sep 30 '10 at 6:33

You could use an already created library for this



if this is linux/unix then the standard one to use is gnu getopt


  • Not really as the question was about C++ and Getopt is just plain C. There used to be a C++ variant of it but for some reason it was withdrawn. – Dirk Eddelbuettel Sep 30 '10 at 0:52
  • 1
    it works fine in c++ tho; its what we use in all our c++ code. – pm100 Sep 30 '10 at 1:04
  • Well yes but you can do much better with e.g. TCLAP. I add or remove one line with new option definition and I do not need to edit code in other place --> not so true with old school getopt. – Dirk Eddelbuettel Sep 30 '10 at 1:51

It's a bit too big to include in a Stack Overflow answer, but I made a library for defining commands lines declaratively. It takes advantage of the the C++14 ability to build up a class constructor by giving initial values to each member variable.

The library is mostly a base class. To define your command syntax, you declare a struct that derives from it. Here's a sample:

struct MyCommandLine : public core::CommandLine {
    Argument<std::string> m_verb{this, "program", "program.exe",
        "this is what my program does"};
    Option<bool> m_help{this, "help", false,
        "displays information about the command line"};
    Alias<bool> alias_help{this, '?', &m_help};
    Option<bool> m_demo{this, "demo", false,
        "runs my program in demonstration mode"};
    Option<bool> m_maximize{this, "maximize", false,
        "opens the main window maximized"};
    Option<int> m_loops{this, "loops", 1,
        "specifies the number of times to repeat"};
    EnumOption<int> m_size{this, "size", 3,
                           { {"s", 1},
                             {"small", 1},
                             {"m", 3},
                             {"med", 3},
                             {"medium", 3},
                             {"l", 5},
                             {"large", 5} } };
    BeginOptionalArguments here{this};
    Argument<std::string> m_file{this, "file-name", "",
        "name of an existing file to open"};
} cl;

The Argument, Option, and Alias class templates are declared in the scope of the CommandLine base class, and you can specialize them for your own types. Each one takes the this pointer, the option name, the default value, and a description for use in printing the command synopsis/usage.

I'm still looking to eliminate the need to sprinkle all the this pointers in there, but I haven't found a way to do it without introducing macros. Those pointers allow each member to register itself with the tables in the base class that drive the parsing.

Once you have an instance, there are several overloads of a method to parse the input from a string or a main-style argument vector. The parser handles both Windows-style and Unix-style option syntax.

if (!cl.Parse(argc, argv)) {
    std::string message;
    for (const auto &error : cl.GetErrors()) {
        message += error + "\n";
    std::cerr << message;

Once it's parsed, you can access the value of any of the options using operator():

if (cl.m_help()) { std::cout << cl.GetUsage(); }
for (int i = 0; i < cl.m_loops(); ++i) { ... }

The whole library is only about 300 lines (excluding tests). The instances are a bit bloaty, since the parsing tables are part of the instance (rather than the class). But you generally only need one instance per program, and the convenience of this purely declarative approach is pretty powerful, and an instance can be reset simply by parsing new input.


I would recommend always using boost lexical_cast<> in place of junk like atoi, atof, etc.


Other than that your code okay for simple stuff.


I am using getopt() under windows/mingw :

while ((c = getopt(myargc, myargv, "vp:d:rcx")) != -1) {
        switch (c) {
        case 'v': // print version
            printf("%s Version %s\n", myargv[0], VERSION);
        case 'p': // change local port to listen to
            strncpy(g_portnum, optarg, 10);

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