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Adopt

A portable command-line argument parser for C that handles short (-a, -b foo, etc) and long (--arg-a, --arg-b=foo) style options. It is meant to be compatible with GNU getopt in command-line usage (though not as an API) and available under an MIT license.

Adopt can also produces help syntax and usage messages based on the arguments you accept, so that you don't need to remember to update your usage messages when you add a new option.

Types of options

  • Boolean values are options that do not take a value, and are either set or unset, for example -v or --verbose. If a boolean has a long name (eg --verbose) then it implicitly has a negation prefixed by no- (in this case, --no-verbose). The given value will be set to 1 when the boolean is given on the command line and 0 when its negation is given.
  • Accumulators are options that can be provided multiple times to increase its value. For example, -v will set verbosity to 1, but -vvv will set verbosity to 3.
  • Switches are options that do not take a value on the command line, for example --long or --short. When a switch is present on the command line, a variable will be set to a predetermined value. This is useful for (say) having a length variable that both --long and --short will update.
  • Values are options that take a value, for example -m 2 or --level=2.
  • Literal separators are bare double-dashes, -- as a lone word, indicating that further words will be treated as arguments (even if they begin with a dash).
  • Arguments are bare words, not prefixed with a single or double dash, for example filename.txt.
  • Argument lists are the remainder of arguments, not prefixed with dashes. For example, an array: file1.txt, file2.txt, ...

Specifying command-line options

Options should be specified as an array of adopt_spec elements, elements, terminated with an adopt_spec initialized to zeroes.

int debug = 0;
int verbose = 0;
int volume = 1;
char *channel = "default";
char *filename1 = NULL;
char *filename2 = NULL;

adopt_spec opt_specs[] = {
    /* `verbose`, above, will increment each time `-v` is specified. */
    { ADOPT_ACCUMULATOR, "verbose", 'v', &verbose },

    /* `debug`, above, will be set to `1` when `--debug` is specified,
     * or to `0` if `--no-debug` is specified.
     */
    { ADOPT_BOOL, "debug", 'd', &debug },

    /* `volume` will be set to `0` when `--quiet` is specified, and
     * set to `2` when `--loud` is specified.  if neither is specified,
     * it will retain its default value of `1`, defined above.
     */
    { ADOPT_SWITCH, "quiet", 'q', &volume, 0 },
    { ADOPT_SWITCH, "loud", 'l', &volume, 2 },

    /* `channel` will be set to the given argument if an argument is
     * provided to `--channel`, or will be set to `NULL` if no argument
     * was specified.
     */
    { ADOPT_VALUE, "channel", 'c', &channel, NULL },

    /* A double dash (`--`) may be specified to indicate that the parser
     * should stop treated arguments as possible options and treat
     * remaining arguments as literal arguments; which allows a user
     * to specify `--loud` as an actual literal filename (below).
     */
    { ADOPT_LITERAL },

    /* `filename` will be set to the first bare argument */
    { ADOPT_ARG, NULL, 0, &filename1 },

    /* `filename2` will be set to the first bare argument */
    { ADOPT_ARG, NULL, 0, &filename2 },

    /* End of the specification list. */
    { 0 },
};

Parsing arguments

The simplest way to parse arguments is by calling adopt_parse. This will parse the arguments given to it, will set the given spec->values to the appropriate arguments, and will stop and return an error on any invalid input. If there are errors, you can display that information with adopt_status_fprint.

int main(int argc, const char **argv)
{
    adopt_parser parser;
    adopt_opt result;
    const char *value;
    const char *file;
    
    if (adopt_parse(&result, opt_specs, argv + 1, argc - 1, ADOPT_PARSE_DEFAULT) < 0) {
            adopt_status_fprint(stderr, &opt);
            adopt_usage_fprint(stderr, argv[0], opt_specs);
            return 129;
    }
}

Parsing arguments individually

For more control over your parsing, you may iterate over the parser in a loop. After initializing the parser by calling adopt_parser_init with the adopt_specs and the command-line arguments given to your program, you can call adopt_parser_next in a loop to handle each option.

int main(int argc, const char **argv)
{
    adopt_parser parser;
    adopt_opt opt;
    const char *value;
    const char *file;
    
    adopt_parser_init(&parser, opt_specs, argv + 1, argc - 1);
    
    while (adopt_parser_next(&opt, &parser)) {
        /*
         * Although regular practice would be to simply let the parser
         * set the variables for you, there is information about the
         * parsed argument available in the `opt` struct.  For example,
         * `opt.spec` will point to the `adopt_spec` that was parsed,
         * or `NULL` if it did not match a specification.
         */
        if (!opt.spec) {
            fprintf(stderr, "Unknown option: %s\n", opt.arg);
            return 129;
        }
    }
}

Required arguments

Some value options may require arguments, and it would be an error for callers to omit those.

The simplest way to detect unspecified values is to inspect for NULL. First, set a variable to a default value, like with channel above. If the --channel option is specified without a value, then channel will be set to NULL when it is read. This can be detected either during the processing loop, or after. For example:

if (!channel) {
    fprintf(stderr, "Option: %s requires an argument\n", opt.arg);
    return 129;
}

Inspecting the opt struct

If you cannot use a sentinal value, perhaps because NULL is a useful value, you can also inspect the opt struct. For example:

if (opt.spec->value == &channel && !channel) {
    fprintf(stderr, "Option: %s requires an argument\n", opt.arg);
    return 129;
}

Displaying usage

If you provide additional usage information in your adopt_specs, you can have adopt print this usage information for you based on the options you accept. This allows you to define a single structure for both argument parsing and help information, which keeps your help in sync with the code automatically.

Simply set the three additional structure members: value_name is the one-word description of the argument (for options of type ADOPT_VALUE), help is a short description of the option, and usage is a set of flags that determine whether all or part of the option is required.

(Specifying an option or a value does not affect parsing, it only affects how help is displayed. If an option or value is not required, its help will display it within square brackets.)

Adding these to the above example:

adopt_spec opt_specs[] = {
    /* For bools and switches, you probably only want to set the help.
     * There is no value to describe, and these are unlikely to be
     * required.
     */
    { ADOPT_BOOL, "verbose", 'v', &verbose,
      NULL, "Turn on verbose mode", 0 },

    /* Specifying that an option is an `ADOPT_USAGE_CHOICE` indicates
     * that it is orthogonal to the previous entry.  These two options
     * will be rendered together in help output as `[-q|-l]`.
     */
    { ADOPT_SWITCH, "quiet", 'q', &volume, 0,
      NULL, "Emit no output", 0 },
    { ADOPT_SWITCH, "loud", 'l', &volume, 2 },
      NULL, "Emit louder than usual output", ADOPT_USAGE_CHOICE },

    /* Set the `value_name` and specify that the value is required.
     * This will be rendered in help output as `-c <channel>`;
     * if it was not required, it would be rendered as `-c [<channel>]`.
     */
    { ADOPT_VALUE, "channel", 'c', &channel, NULL,
      "channel", "Set the channel number", ADOPT_USAGE_VALUE_REQUIRED },

    { ADOPT_LITERAL },

    /* `filename` is required.  It will be rendered in help output as
     * `<file1>`.
     */
    { ADOPT_ARG, NULL, 0, &filename1, NULL,
      "file1", "The first filename", ADOPT_USAGE_REQUIRED },

    /* `filename` is not required.  It will be rendered in help output
     * as `[<file2>]`.
     */
    { ADOPT_ARG, NULL, 0, &filename2, NULL,
      "file2", "The second (optional) filename", 0 },

    /* End of the specification list. */
    { 0 },
};

If you call adopt_usage_fprint with the above specifications, it will emit:

usage: ./example [-v] [-q] [-l] [-c <channel>] -- <file1> [<file2>]

Inclusion in your product

If you loathe additional namespaces, and want to use adopt inside your product without using the adopt_ prefix, you can use the included rename.pl script to give the functions and structs your own prefix.

For example:

% ./rename.pl ed_opt

Will product ed_opt.c and ed_opt.h that can be included in an application, with the variables renamed to ed_opt (instead of adopt) and enum names renamed to ED_OPT (instead of ADOPT).

Or simply:

% ./rename.pl opt

To produce opt.c and opt.h, with variables prefixed with opt.

About Adopt

Adopt was written by Edward Thomson ethomson@edwardthomson.com and is available under the MIT License. Please see the included file LICENSE for more information.

Adopt takes its name from the only entry in /usr/dict/words that ends in the letters opt. But if you happen to like adopt, consider a donation to your local pet shelter or human society.