GNU Gengetopt 2.23

Table of Contents

Gengetopt

Gengetopt is a tool to write command line option parsing code for C programs.

This is Edition 2.23 of the Gengetopt manual.

This file documents GNU Gengetopt version 2.23.

This manual is for GNU Gengetopt (version 2.23, 30 May 2019), a tool to write command line option parsers for C programs.

Copyright © 2001 - 2011 Free Software Foundation, Inc.

Permission is granted to copy, distribute and/or modify this document under the terms of the GNU Free Documentation License, Version 1.1 or any later version published by the Free Software Foundation; with no Invariant Sections, with the Front-Cover Texts being “A GNU Manual,” and with the Back-Cover Texts as in (a) below. A copy of the license is included in the section entitled “GNU Free Documentation License.”

(a) The FSF’s Back-Cover Text is: “You have freedom to copy and modify this GNU Manual, like GNU software. Copies published by the Free Software Foundation raise funds for GNU development.”

Audience

Gengetopt is a tool to generate C code to parse the command line arguments argc and argv that are part of every C or C++ program. The generated code uses the C library function getopt_long to perform the actual command line parsing.

This manual is written for C and C++ programmers, specifically the lazy ones. If you’ve written any non-trivial C program, you’ve had to deal with argument parsing. It isn’t particularly difficult, nor is it particularly exciting. It is one of the classic programming nuisances, which is why most books on programming leave it as an exercise for the reader. Gengetopt can save you from this work, leaving you free to focus on the interesting parts of your program.

Thus your program will be able to handle command line options such as:

myprog --input foo.c -o foo.o --no-tabs -i 100 *.class

And both long options (those that start with --) and short options (start with - and consist of only one character) can be handled (see Terminology for further details). For standards about short and long options you may want to take a look at the GNU Coding Standards.

Gengetopt can also generate a function to save the command line options into a file (see Basic Usage), and a function to read the command line options from a file (see Configuration files). Of course, these two kinds of files are compliant.

Generated code works also if you use GNU Autoconf and GNU Automake and it is documented with Doxygen comments. In particular, PACKAGE, PACKAGE_NAME and VERSION are used in the generated code to print information.

Gengetopt Copying Conditions

Gengetopt is free software; you are free to use, share and modify it under the terms of the GNU General Public License that accompanies this manual.

The code that Gengetopt generates is also free software; however it is licensed with a simple all-permissive license instead of the GPL or LGPL. You are free to do anything you like with the generated code, including incorporating it into or linking it with proprietary software.

Gengetopt was originally written by Roberto Arturo Tena Sanchez. It is currently maintained by Tomas Volf.

A primordial version of Terminology was written by Adam Greenblatt.

1 Installation

See the file INSTALL for detailed building and installation instructions; anyway if you’re used to compiling Linux software that comes with sources you may simply follow the usual procedure, i.e. untar the file you downloaded in a directory and then:

cd <source code main directory>
./configure
make
make install

Note: unless you specify a different install directory by --prefix option of configure (e.g. ./configure --prefix=<your home>), you must be root to run make install.

Files will be by default installed in the following directories:

executables

/prefix/bin

docs

/prefix/share/doc/gengetopt

examples

/prefix/share/doc/gengetopt/examples

additional files

/prefix/share/gengetopt

Default value for prefix is /usr/local but you may change it with --prefix option to configure.

1.1 Download

You can download it from GNU’s ftp site: ftp://ftp.gnu.org/gnu/gengetopt or from one of its mirrors (see https://www.gnu.org/prep/ftp.html). You can also use https protocol to benefit from encryption: https://ftp.gnu.org/gnu/gengetopt/. Binaries are not distributed, please either use your distribution’s version or compile your own.

Archives are digitally signed by me (Tomas Volf) with GNU gpg (https://www.gnupg.org). My GPG public key can be found at my home page (https://wolfsden.cz).

1.2 Anonymous Git Checkout

This project’s git repository can be checked out through the following clone instruction¹:

git clone git://git.savannah.gnu.org/gengetopt.git

Further instructions can be found at the address:

https://savannah.gnu.org/projects/gengetopt.

And the git repository can also browsed on-line at

https://git.savannah.gnu.org/cgit/gengetopt.git.

Please note that this way you will get the latest development sources of Gengetopt, which may also be unstable. This solution is the best if you intend to correct/extend this program: you should send me patches against the latest git repository sources.

If, on the contrary, you want to get the sources of a given release, through git, say, e.g., version X.Y.Z, you must specify the tag rel_X_Y_Z.

When you compile the sources that you get from the git repository, before running the configure and make commands, for the first time, you must run the command:

autoreconf -i

This will run the autotools commands in the correct order, and also copy possibly missing files. You should have installed recent versions of automake, autoconf and libtool in order for this to succeed.

1.3 What you need to build gengetopt

Gengetopt has been developed under GNU/Linux, using gcc (C++), and bison (yacc) and flex (lex), and ported under Win32 with Cygnus C/C++compiler, available at https://www.cygwin.com.

For developing gengetopt, I use the excellent GNU Autoconf², GNU Automake³ and GNU Libtool⁴. Since version 2.19 I also started to use Gnulib - The GNU Portability Library⁵, “a central location for common GNU code, intended to be shared among GNU packages” (for instance, I rely on Gnulib for checking for the presence and correctness of getopt_long function, Use Gnulib).

Moreover GNU Gengen (https://www.gnu.org/software/gengen) is used for automatically generating the code that generates the command line parser.

Actually, you don’t need all these tools above to build gengetopt because I provide generated sources, unless you want to develop gengetopt.

The code generated by gengetopt relies on the getopt_long function that is usually in the standard C library; however, there may be some implementations of the C library that don’t include it; we refer to No getopt_long, for instructions on how to check whether getopt_long is part of the library and how to deal with their lacking (using autoconf and automake).

2 Basic Usage

The command line options, which have to be handled by gengetopt generated function, are specified in a file (typically with .ggo extension). This file consists of sentences with the formats shown below (these sentences are allowed to span more than one line). Statements in {} are optional (the option sentences need not to be given in separate lines):

package "<packname>"
version "<version>"
purpose "<purpose>"
usage "<usage>"
description "<description>"
versiontext "<versiontext>"

args "<command line options>"

option <long> <short> "<desc>"
	{details="<detailed description>"}
	{argtype} {typestr="<type descr>"}
	{values="<value1>","<value2>",...}
	{default="<default value>"}
	{dependon="<other option>"}
	{required} {argoptional} {multiple}
	{hidden}

option <long> <short> "<desc>" flag <on/off>

section "section name" {sectiondesc="optional section description"}

text "a textual sentence"

Where:

package

This has the precedence over PACKAGE and PACKAGE_NAME generated by autoconf. This is required, unless you use autoconf.

If package is specified, then it will be used to print the program name in the output of --help and --version, and also when printing errors (from within the generated parser). If it is not specified, then PACKAGE will be used when printing errors, and PACKAGE_NAME in the output of --help and --version. Note that if PACKAGE_NAME is empty, then PACKAGE will be used also in this case.

version

This has the precedence over VERSION generated by autoconf. This is required, unless you use autoconf.

purpose

What the program does (even on more than one line), it will be printed with the help, before the usage string. Optional.

usage

The “Usage” string that will be printed with the help⁶. If not specified, it will be generated automatically. Optional.

description

The “Description” string that will be printed with the help⁷, after the usage string. Optional.

versiontext

Additional information that will be printed after the program name and version in the output of --version. This would be used, for example, to display copyright and licensing information.

args

With args⁸ you can specify options that will be added to the command line options of gengetopt itself. For instance, if you always run gengetopt on your input file with the options --no-handle-error --string-parser -u, you can add these options in the input file like this:

args "--no-handle-error --string-parser -u"

and remove those recurrent options from the command line. Optional.

long

The long option, a double quoted string with upper and lower case characters, digits, a dash (-) and a dot (.). No spaces allowed. The name of the variables generated to store arguments (see later in this section) are long options converted to be legal C variable names. This means that . and - are both replaced by _.

short

The short option, a single upper or lower case char, or a digit. If a - is specified, then no short option is considered for the long option (thus long options with no associated short options are allowed). Since version 2.22 you can also specify ? as the short option.

desc

This description will be printed during the output of --help. Wrapping will be automatically performed.

details

This is an extended description string for the option that will be printed (after the option) during the output of --detailed-help⁹, which will be automatically generated. Thus, these further details will NOT be printed with --help. Wrapping will be automatically performed. Optional.

Note that if --strict-hidden is used, options that are hidden (See Hidden options.) will not appear in the output of --detailed-help, even if those options have details.

argtype

string, int, short, long, float, double, longdouble or longlong. If the option is an enumerated one (see Options with enumerated values) the type can also be enum. If no type is specified the option does not accept an argument.

typestr

a description for the type of the values for the option. This will be used during the output of --help (e.g., "filename" instead of simply STRING, or "portnumber" instead of simply INT).

values

a list of strings containing all the possible values that can be passed to the option. If not specified, the type is considered string¹⁰. For this kind of options, the type can also be enum. More on this feature can be found in Options with enumerated values.

default

an optional default value for the option. The value must always be specified as a double quoted string. It is possible to combine this with the multiple flag (Multiple Options) but only by giving a single default value. It is not possible to specify a list of default values.

dependon

this option depends on another option (whose long name description is specified). If this option is given at command line but not the option it depends on, an error will be generated.

required

required or optional. This specifies whether such option must be given at each program invocation. These keywords were introduced in release 2.17. Before, you had to use the keywords yes or no. You can still use these keywords but their use is not advised since they are not much explicative.

If not specified, an option is considered mandatory; if you do not want this behavior, you can require that by default options are considered optional, by using the command line option --default-optional¹¹.

argoptional

If this flag is specified then this option has an argument that is optional. In this case, when you specify the argument at command line, please use = in case you use a long option, and avoid spaces if you use short option. For instance, if the option with optional argument is -B|--bar, use the following command line syntax: -B15 or --bar=15, and NOT the following one -B 15 nor --bar 15.

By using this specification together with default you can obtain an option that even if not explicitly specified will have the default value, and if it is specified without an argument it will have, again, the default value.

multiple

If this flag is specified then this option can be specified more than once at command line; all the values for this option are stored in an array. You can also specify the number of occurrences that a multiple option must be specified. Notice that this is independent from the required flag. See Multiple Options.

hidden

If an option is “hidden” it will not appear in the output of --help but it can still be specified at command line¹². When hidden options are used, the command line option --full-help will also be generated. This will also print hidden options¹³. Hidden options are also displayed in the output of --detailed-help, if it is present, along with any details that those options have.

Note that when --strict-hidden is used, hidden options do not appear as described above, although they can still be given on the comand line. That is to say, the --full-help option is not generated, and hidden options do not appear in the output of --detailed-help, even if they have details.

on/off

on or off. This is the state of the flag when the program starts. If user specifies the option, the flag toggles.

For strings (delimited by ") the following convention is adopted¹⁴: a string spanning more than one line will be interpreted with the corresponding line breaks; if the line break is not desired one can use the backslash \ to break the line without inserting a line break. A line break in a string can also be inserted with the string \n. Here are some examples:

"This string will be interpreted
into two lines exactly as it is"

"This string is specified with two lines \
but interpreted as specified in only one line \
i.e., without explicit line break"

"This string\nwill have a line break"

Moreover, if the character " must be specified in the string, it will have to be escaped with the backslash¹⁵:

"This string contains \"a quoted string\" inside"

The part that must be provided in the correct order is

option <long> <short> "<desc>"

while the other specifications can be given in any order¹⁶. Thus, for instance

option <long> <short> "<desc>" {argtype} {typestr="<type descr>"}

is the same as

option <long> <short> "<desc>" {typestr="<type descr>"} {argtype}

Comments begin with # (except in strings) and ends in the end of line.

Notice that the options -h,--help and -V,--version are added automatically; however, if you specify an option yourself that has h as short form, then only --help is added¹⁷. The same holds for -V,--version.

In case hidden options are used, See Hidden options, the command line option --full-help will also be generated. This will print also the hidden options¹⁸.

Note, though, that when --strict-hidden is used, this is not the case and --full-help is not generated.

If there’s at least one option with details, the command line option --detailed-help will also be generated. This will print also the details for options and hidden options¹⁹ (except when --strict-hidden is used).

Options can be part of sections, that provide a more meaningful descriptions of the options. A section can be defined with the following syntax (the sectiondesc is optional) and all the options following a section declaration are considered part of that sections:

section "section name" {sectiondesc="optional section description"}

Notice that the separation in sections is stronger than separation in groups of mutually exclusive options (see Group options). Furthermore, sections should not be inserted among group options (but only externally). A section makes sense only if it is followed by some options. If you don’t specify any option after a section, that section will not be printed at all. If you need to simply insert some text in the output of --help, then you must use text, explained in the next paragraph.

You can insert, among options, a textual string that will be printed in the output of --help²⁰:

text "\nA text description with possible line\nbreaks"

Of course, you can use this mechanism even to manually insert blank lines among options with an empty text string:

text ""

You can also specify the list of values that can be passed to an option (if the type is not specified, the option has type string). More on this feature can be found in Options with enumerated values. If a value that is not in the list is passed, an error is raised. You can think of such options as enumerated options. It is not necessary to pass the complete value at the command line option: a non ambiguous prefix will do. For instance, if the accepted values are "foo","bar","foobar", then you can pass at the command line the value "b" and the value "bar" will be selected, or the value "foob" and the value "foobar" will be selected; instead, passing the value "fo" will raise an ambiguity error.

Here’s an example of such a file (the file is called sample1.ggo)

# Name of your program
package "sample1" # don't use package if you're using automake
# Version of your program
version "2.0"   # don't use version if you're using automake

# Options
option  "str-opt"         s "A string option, for a filename"
        string typestr="filename"     optional
text "\nA brief text description"
text " before the other options.\n"
option  "my-opt"          m "Another integer option, \
this time the description of the option should be \"quite\" long to \
require wrapping... possibly more than one wrapping :-) \
especially if I\nrequire a line break"      int     optional
option  "int-opt"         i "A int option"         int        yes
section "more involved options" 
        sectiondesc="the following options\nare more complex"
text ""
option  "flag-opt"        - "A flag option"        flag       off
option  "funct-opt"       F "A function option"    optional 
    details="\nA function option is basically an option with no argument.\
  It can be used, e.g., to specify a specific behavior for a program.

Well, this further explanation is quite useless, but it's only to \
show an example of an option with details, \
which will be printed only when --detailed-help is given \
at the command line."
section "last option section"
option  "long-opt"        - "A long option"        long       optional
option  "def-opt"         - "A string option with default" 
        string default="Hello" optional
option  "enum-opt"         - "A string option with list of values" 
        values="foo","bar","hello","bye" default="hello" optional
option  "secret"         S "hidden option will not appear in --help" 
        int optional hidden
option  "dependant"         D 
        "option that depends on str-opt" int optional dependon="str-opt"
text "\nAn ending text."

The simplest way to use gengetopt is to pass this file as the standard input, i.e.:

gengetopt < sample1.ggo

By default gengetopt generates cmdline.h and cmdline.c. Otherwise we can specify these names with a command line option:

gengetopt < sample1.ggo --file-name=cmdline1 --unnamed-opts

The option --unnamed-opts allows the generated command line parser to accept also names, without an option (for instance you can pass a file name without an option in front of it, and also use wildcards, such as *.c, foo*.? and so on). These are also called parameters (see Terminology). You can specify an optional description for these additional names (default is FILES).

In cmdline1.h you’ll find the generated C struct:

/** @file cmdline1.h
 *  @brief The header file for the command line option parser
 *  generated by GNU Gengetopt version 2.23
 *  http://www.gnu.org/software/gengetopt.
 *  DO NOT modify this file, since it can be overwritten
 *  @author GNU Gengetopt */

#ifndef CMDLINE1_H
#define CMDLINE1_H

/* If we use autoconf.  */
#ifdef HAVE_CONFIG_H
#include "config.h"
#endif

#include <stdio.h> /* for FILE */

#ifdef __cplusplus
extern "C" {
#endif /* __cplusplus */

#ifndef CMDLINE_PARSER_PACKAGE
/** @brief the program name (used for printing errors) */
#define CMDLINE_PARSER_PACKAGE "sample1"
#endif

#ifndef CMDLINE_PARSER_PACKAGE_NAME
/** @brief the complete program name (used for help and version) */
#define CMDLINE_PARSER_PACKAGE_NAME "sample1"
#endif

#ifndef CMDLINE_PARSER_VERSION
/** @brief the program version */
#define CMDLINE_PARSER_VERSION "2.0"
#endif

/** @brief Where the command line options are stored */
struct gengetopt_args_info
{
  const char *help_help; /**< @brief Print help and exit help description.  */
  const char *detailed_help_help; /**< @brief Print help, including all details and hidden options, and exit help description.  */
  const char *full_help_help; /**< @brief Print help, including hidden options, and exit help description.  */
  const char *version_help; /**< @brief Print version and exit help description.  */
  char * str_opt_arg;	/**< @brief A string option, for a filename.  */
  char * str_opt_orig;	/**< @brief A string option, for a filename original value given at command line.  */
  const char *str_opt_help; /**< @brief A string option, for a filename help description.  */
  int my_opt_arg;	/**< @brief Another integer option, this time the description of the option should be \"quite\" long to require wrapping... possibly more than one wrapping :-) especially if I
  require a line break.  */
  char * my_opt_orig;	/**< @brief Another integer option, this time the description of the option should be \"quite\" long to require wrapping... possibly more than one wrapping :-) especially if I
  require a line break original value given at command line.  */
  const char *my_opt_help; /**< @brief Another integer option, this time the description of the option should be \"quite\" long to require wrapping... possibly more than one wrapping :-) especially if I
  require a line break help description.  */
  int int_opt_arg;	/**< @brief A int option.  */
  char * int_opt_orig;	/**< @brief A int option original value given at command line.  */
  const char *int_opt_help; /**< @brief A int option help description.  */
  int flag_opt_flag;	/**< @brief A flag option (default=off).  */
  const char *flag_opt_help; /**< @brief A flag option help description.  */
  const char *funct_opt_help; /**< @brief A function option help description.  */
  long long_opt_arg;	/**< @brief A long option.  */
  char * long_opt_orig;	/**< @brief A long option original value given at command line.  */
  const char *long_opt_help; /**< @brief A long option help description.  */
  char * def_opt_arg;	/**< @brief A string option with default (default='Hello').  */
  char * def_opt_orig;	/**< @brief A string option with default original value given at command line.  */
  const char *def_opt_help; /**< @brief A string option with default help description.  */
  char * enum_opt_arg;	/**< @brief A string option with list of values (default='hello').  */
  char * enum_opt_orig;	/**< @brief A string option with list of values original value given at command line.  */
  const char *enum_opt_help; /**< @brief A string option with list of values help description.  */
  int secret_arg;	/**< @brief hidden option will not appear in --help.  */
  char * secret_orig;	/**< @brief hidden option will not appear in --help original value given at command line.  */
  const char *secret_help; /**< @brief hidden option will not appear in --help help description.  */
  int dependant_arg;	/**< @brief option that depends on str-opt.  */
  char * dependant_orig;	/**< @brief option that depends on str-opt original value given at command line.  */
  const char *dependant_help; /**< @brief option that depends on str-opt help description.  */
  
  unsigned int help_given ;	/**< @brief Whether help was given.  */
  unsigned int detailed_help_given ;	/**< @brief Whether detailed-help was given.  */
  unsigned int full_help_given ;	/**< @brief Whether full-help was given.  */
  unsigned int version_given ;	/**< @brief Whether version was given.  */
  unsigned int str_opt_given ;	/**< @brief Whether str-opt was given.  */
  unsigned int my_opt_given ;	/**< @brief Whether my-opt was given.  */
  unsigned int int_opt_given ;	/**< @brief Whether int-opt was given.  */
  unsigned int flag_opt_given ;	/**< @brief Whether flag-opt was given.  */
  unsigned int funct_opt_given ;	/**< @brief Whether funct-opt was given.  */
  unsigned int long_opt_given ;	/**< @brief Whether long-opt was given.  */
  unsigned int def_opt_given ;	/**< @brief Whether def-opt was given.  */
  unsigned int enum_opt_given ;	/**< @brief Whether enum-opt was given.  */
  unsigned int secret_given ;	/**< @brief Whether secret was given.  */
  unsigned int dependant_given ;	/**< @brief Whether dependant was given.  */

  char **inputs ; /**< @brief unnamed options (options without names) */
  unsigned inputs_num ; /**< @brief unnamed options number */
} ;

/** @brief The additional parameters to pass to parser functions */
struct cmdline_parser_params
{
  int override; /**< @brief whether to override possibly already present options (default 0) */
  int initialize; /**< @brief whether to initialize the option structure gengetopt_args_info (default 1) */
  int check_required; /**< @brief whether to check that all required options were provided (default 1) */
  int check_ambiguity; /**< @brief whether to check for options already specified in the option structure gengetopt_args_info (default 0) */
  int print_errors; /**< @brief whether getopt_long should print an error message for a bad option (default 1) */
} ;

/** @brief the purpose string of the program */
extern const char *gengetopt_args_info_purpose;
/** @brief the usage string of the program */
extern const char *gengetopt_args_info_usage;
/** @brief the description string of the program */
extern const char *gengetopt_args_info_description;
/** @brief all the lines making the help output */
extern const char *gengetopt_args_info_help[];
/** @brief all the lines making the full help output (including hidden options) */
extern const char *gengetopt_args_info_full_help[];
/** @brief all the lines making the detailed help output (including hidden options and details) */
extern const char *gengetopt_args_info_detailed_help[];

/**
 * The command line parser
 * @param argc the number of command line options
 * @param argv the command line options
 * @param args_info the structure where option information will be stored
 * @return 0 if everything went fine, NON 0 if an error took place
 */
int cmdline_parser (int argc, char **argv,
  struct gengetopt_args_info *args_info);

/**
 * The command line parser (version with additional parameters - deprecated)
 * @param argc the number of command line options
 * @param argv the command line options
 * @param args_info the structure where option information will be stored
 * @param override whether to override possibly already present options
 * @param initialize whether to initialize the option structure my_args_info
 * @param check_required whether to check that all required options were provided
 * @return 0 if everything went fine, NON 0 if an error took place
 * @deprecated use cmdline_parser_ext() instead
 */
int cmdline_parser2 (int argc, char **argv,
  struct gengetopt_args_info *args_info,
  int override, int initialize, int check_required);

/**
 * The command line parser (version with additional parameters)
 * @param argc the number of command line options
 * @param argv the command line options
 * @param args_info the structure where option information will be stored
 * @param params additional parameters for the parser
 * @return 0 if everything went fine, NON 0 if an error took place
 */
int cmdline_parser_ext (int argc, char **argv,
  struct gengetopt_args_info *args_info,
  struct cmdline_parser_params *params);

/**
 * Save the contents of the option struct into an already open FILE stream.
 * @param outfile the stream where to dump options
 * @param args_info the option struct to dump
 * @return 0 if everything went fine, NON 0 if an error took place
 */
int cmdline_parser_dump(FILE *outfile,
  struct gengetopt_args_info *args_info);

/**
 * Save the contents of the option struct into a (text) file.
 * This file can be read by the config file parser (if generated by gengetopt)
 * @param filename the file where to save
 * @param args_info the option struct to save
 * @return 0 if everything went fine, NON 0 if an error took place
 */
int cmdline_parser_file_save(const char *filename,
  struct gengetopt_args_info *args_info);

/**
 * Print the help
 */
void cmdline_parser_print_help(void);
/**
 * Print the full help (including hidden options)
 */
void cmdline_parser_print_full_help(void);
/**
 * Print the detailed help (including hidden options and details)
 */
void cmdline_parser_print_detailed_help(void);
/**
 * Print the version
 */
void cmdline_parser_print_version(void);

/**
 * Initializes all the fields a cmdline_parser_params structure 
 * to their default values
 * @param params the structure to initialize
 */
void cmdline_parser_params_init(struct cmdline_parser_params *params);

/**
 * Allocates dynamically a cmdline_parser_params structure and initializes
 * all its fields to their default values
 * @return the created and initialized cmdline_parser_params structure
 */
struct cmdline_parser_params *cmdline_parser_params_create(void);

/**
 * Initializes the passed gengetopt_args_info structure's fields
 * (also set default values for options that have a default)
 * @param args_info the structure to initialize
 */
void cmdline_parser_init (struct gengetopt_args_info *args_info);
/**
 * Deallocates the string fields of the gengetopt_args_info structure
 * (but does not deallocate the structure itself)
 * @param args_info the structure to deallocate
 */
void cmdline_parser_free (struct gengetopt_args_info *args_info);

/**
 * Checks that all the required options were specified
 * @param args_info the structure to check
 * @param prog_name the name of the program that will be used to print
 *   possible errors
 * @return
 */
int cmdline_parser_required (struct gengetopt_args_info *args_info,
  const char *prog_name);

extern const char *cmdline_parser_enum_opt_values[];  /**< @brief Possible values for enum-opt. */


#ifdef __cplusplus
}
#endif /* __cplusplus */
#endif /* CMDLINE1_H */

First of all, notice that the argv parameter (typically corresponding to the homonimous argument of your program’s main function) is declared as char ** and not as char *const *²¹. Actually, the version of getopt_long in libc uses prototypes with char *const *argv that are incorrect because getopt_long and getopt_long_only can permute argv; this is required for backward compatibility (e.g., for LSB 2.0.1)²². So, it is better to declare argv as char ** in the generated parser functions.

The <option>_given field is set to 1 when an argument for <option> has been specified (otherwise it is 0)²³. This fields also counts the times a multiple option is specified (see Multiple Options). If the option accepts an argument and it is not of flag type The <option>_arg field is set to the value passed at the command line. The <option>_arg field has the corresponding C type specified in the file passed to gengetopt.

Notice that if an option has a default value, then the corresponding <option>_arg will be initialized with that value but the corresponding <option>_given will NOT be initialized to 1. Thus, <option>_given will effectively inform you if the user has specified that command line option.

The additional field <option>_orig is always a string containing the original value passed at the command line. This may be different, for instance, in case of numerical arguments: gengetopt converts the passed value (a string) into the corresponding numerical type; due to conversions, float representations, etc., this may not correspond exactly to the original value passed at command line. It can also be different when enumerated options are used (see above): in particular the <option>_arg field will contain a value taken from the specified list, while <option>_orig contains the (non-ambiguous) prefix specified at the command line.

The user can always access this original value by using <option>_orig instead of <option>_arg, as he sees fit²⁴. For instance, gengetopt itself uses the original value when it saves the command line options into a file (see the _file_save function in the following). However, apart from very specific command line processing, the user might hardly need the <option>_orig field, and can be always safely use <option>_arg.

The <option>_help contains the string (concerning this very option) that is printed when --help command line is given.

If it is of flag type, only the field <option>_flag is generated.

The strings cmdline_parser_purpose and cmdline_parser_usage contain the purpose as specified in the input file and the generated “usage” string as printed when --help command line is given. Finally, the string array cmdline_parser_help contains the strings (one for each option) printed when --help command line is given (this array is terminated by a null string element). If hidden options are used also the cmdline_parser_full_help array is available (containing also help strings concerning hidden options). If at least one option has details, then the cmdline_parser_detailed_help array is available (containing also help strings concerning hidden options and details for options). All these strings can be used by the programmer to build a customized help output²⁵.

Even if <option>_given is 0, the corresponding <option>_arg is set to default value (if one has been specified for <option>). However, in this case, the <option>_orig is set to NULL.

Notice that by default the generated function is called cmdline_parser (see the command line options below, to override this name), and it takes the arguments that main receives and a pointer to such a struct, that it will be filled. Another version, cmdline_parser2, can be specified more arguments. Since you typically need this second version only in conjunction with other “kinds” of parsers such as configuration files and multiple parsers, you can find more details about it in Configuration files.

IMPORTANT: The array passed to the parser function (that in turn is passed to getopt_long) is expected to have in the first element (of index 0) the name of the program that was invoked. This will be used, for instance, for printing possible errors.

cmdline_parser_free can be called to deallocate memory allocated by the parser for string and multiple options.

cmdline_parser_init can be called to initialize the struct (it is not mandatory, since it is done automatically by the command line parser).

cmdline_parser_file_save²⁶ can be used to save the command line options into a file. The contents of this file are consistent with the configuration files (Configuration files). Notice that if an option has a default value, this option will be saved into the file only if it was passed explicitly at command line (or read from a configuration file), i.e., default values will not be saved into the file. Alternatively, you can use cmdline_parser_dump²⁷ that takes as the first parameter an already open stream (FILE *) instead of a file name.

And here’s how these functions can be used inside the main program:

/* main1.cc */
/* we try to use gengetopt generated file in a C++ program */
/* we don't use autoconf and automake vars */

#ifdef HAVE_CONFIG_H
#include "config.h"
#endif

#include <iostream>
#include "stdlib.h"

#include "cmdline1.h"

using std::cout;
using std::endl;

int
main (int argc, char **argv)
{
  gengetopt_args_info args_info;

  cout << "This one is from a C++ program" << endl ;
  cout << "Try to launch me with some options" << endl ;
  cout << "(type sample1 --help for the complete list)" << endl ;
  cout << "For example: ./sample1 *.* --funct-opt" << endl ;

  /* let's call our cmdline parser */
  if (cmdline_parser (argc, argv, &args_info) != 0)
    exit(1) ;

  cout << "Here are the options you passed..." << endl;

  for ( unsigned i = 0 ; i < args_info.inputs_num ; ++i )
    cout << "file: " << args_info.inputs[i] << endl ;

  if ( args_info.funct_opt_given )
    cout << "You chose --funct-opt or -F." << endl ;

  if ( args_info.str_opt_given )
    cout << "You inserted " << args_info.str_opt_arg << " for " <<
      "--str-opt option." << endl ;

  if ( args_info.int_opt_given )
    cout << "This is the integer you input: " << 
      args_info.int_opt_arg << "." << endl;

  if (args_info.flag_opt_given)
    cout << "The flag option was given!" << endl;

  cout << "The flag is " << ( args_info.flag_opt_flag ? "on" : "off" ) <<
    "." << endl ;

  if (args_info.enum_opt_given) {
    cout << "enum-opt value: " << args_info.enum_opt_arg << endl;
    cout << "enum-opt (original specified) value: " 
	 << args_info.enum_opt_orig << endl;
  }

  if (args_info.secret_given)
    cout << "Secret option was specified: " << args_info.secret_arg
	 << endl;

  cout << args_info.def_opt_arg << "! ";

  cout << "Have a nice day! :-)" << endl ;

  cmdline_parser_free (&args_info); /* release allocated memory */

  return 0;
}

Now you can compile main1.cc and the cmdline1.c generated by gengetopt and link all together to obtain sample1 executable:

gcc -c cmdline1.c
g++ -c main1.cc
g++ -o sample1 cmdline1.o main1.o

(Here we assume that getopt_long is included in the standard C library; see Installation and No getopt_long).

Now let’s try some tests with this program:

$ ./sample1 -s "hello" --int-opt 1234
This one is from a C++ program
Try to launch me with some options
(type sample1 --help for the complete list)
For example: ./sample1 *.* --funct-opt
Here are the options you passed...
You inserted hello for --str-opt option.
This is the integer you input: 1234.
The flag is off.
Have a nice day! :-)

You can also pass many file names to the command line (this also shows how flags work):

$ ./sample1 *.h -i -100 -x
This one is from a C++ program
Try to launch me with some options
(type sample1 --help for the complete list)
For example: ./sample1 *.* --funct-opt
Here are the options you passed...
file: cmdline1.h
file: cmdline2.h
file: cmdline.h
file: getopt.h
This is the integer you input: -100.
The flag is on.
Have a nice day! :-)

And if we try to omit the --int-opt (or -i), which is required, we get an error:

$ ./sample1
This one is from a C++ program
Try to launch me with some options
(type sample1 --help for the complete list)
For example: ./sample1 *.* --funct-opt
sample1: `--int-opt' (`-i') option required!

Now, let’s test the enumerated options, notice the use of a prefix for specifying an acceptable value, and the difference between the actual passed value and the one recorded in <option>_arg:

$ ./sample1 -i 10 --enum-opt h
...
enum-opt value: hello
enum-opt (original specified) value: h
...

While the next one raises an ambiguity error (between "bar" and "bye"):

$ ./sample1 -i 10 --enum-opt b
...
./sample1: ambiguous argument, "b", for option `--enum-opt'

Here is the output of --help of the parser generated from sample1.ggo by specifying the following options to gengetopt: --long-help -u --show-required (see Invoking gengetopt for further explanation for these command line options).

This one is from a C++ program
Try to launch me with some options
(type sample1 --help for the complete list)
For example: ./sample1 *.* --funct-opt
Usage: sample1 -iINT|--int-opt=INT [-h|--help] [--detailed-help] [--full-help]
         [-V|--version] [-sfilename|--str-opt=filename] [-mINT|--my-opt=INT]
         [--flag-opt] [-F|--funct-opt] [--long-opt=LONG] [--def-opt=STRING]
         [--enum-opt=STRING] [-DINT|--dependant=INT] [FILE]...

  -h, --help              Print help and exit
      --detailed-help     Print help, including all details and hidden options,
                            and exit
      --full-help         Print help, including hidden options, and exit
  -V, --version           Print version and exit
  -s, --str-opt=filename  A string option, for a filename

A brief text description before the other options.

  -m, --my-opt=INT        Another integer option, this time the description of
                            the option should be "quite" long to require
                            wrapping... possibly more than one wrapping :-)
                            especially if I
                            require a line break
  -i, --int-opt=INT       A int option (mandatory)


more involved options:
  the following options
  are more complex
      --flag-opt          A flag option  (default=off)
  -F, --funct-opt         A function option

last option section:
      --long-opt=LONG     A long option
      --def-opt=STRING    A string option with default  (default=`Hello')
      --enum-opt=STRING   A string option with list of values  (possible
                            values="foo", "bar", "hello", "bye"
                            default=`hello')
  -D, --dependant=INT     option that depends on str-opt

An ending text.

Notice how filename is printed instead of STRING for the option --str-opt (since typestr was used in the sample1.ggo file) and how the description of --my-opt is wrapped to 80 columns, and how the \n is actually interpreted as a newline request. Also the usage string is wrapped. Moreover, since -S,--secret is an hidden option (See Hidden options.) it is not printed; if you wanted that to be printed, you should use --full-help. The option --func-opt has also the details, but they are not printed with --help.

Finally, notice how the text strings are printed in the help output (and the empty line after the “more involved options” section achieved with an empty text string).

Instead, here is the output of --detailed-help of the parser generated from sample1.ggo. You may want to compare this output with the one produced by --help (See Output of --help.); in particular, you may notice that the hidden option --secret is actually printed and the details of --func-opt are printed too:

This one is from a C++ program
Try to launch me with some options
(type sample1 --help for the complete list)
For example: ./sample1 *.* --funct-opt
Usage: sample1 -iINT|--int-opt=INT [-h|--help] [--detailed-help] [--full-help]
         [-V|--version] [-sfilename|--str-opt=filename] [-mINT|--my-opt=INT]
         [--flag-opt] [-F|--funct-opt] [--long-opt=LONG] [--def-opt=STRING]
         [--enum-opt=STRING] [-DINT|--dependant=INT] [FILE]...

  -h, --help              Print help and exit
      --detailed-help     Print help, including all details and hidden options,
                            and exit
      --full-help         Print help, including hidden options, and exit
  -V, --version           Print version and exit
  -s, --str-opt=filename  A string option, for a filename

A brief text description before the other options.

  -m, --my-opt=INT        Another integer option, this time the description of
                            the option should be "quite" long to require
                            wrapping... possibly more than one wrapping :-)
                            especially if I
                            require a line break
  -i, --int-opt=INT       A int option (mandatory)


more involved options:
  the following options
  are more complex
      --flag-opt          A flag option  (default=off)
  -F, --funct-opt         A function option
  
  A function option is basically an option with no argument.  It can be used,
  e.g., to specify a specific behavior for a program.

  Well, this further explanation is quite useless, but it's only to show an
  example of an option with details, which will be printed only when
  --detailed-help is given at the command line.

last option section:
      --long-opt=LONG     A long option
      --def-opt=STRING    A string option with default  (default=`Hello')
      --enum-opt=STRING   A string option with list of values  (possible
                            values="foo", "bar", "hello", "bye"
                            default=`hello')
  -S, --secret=INT        hidden option will not appear in --help
  -D, --dependant=INT     option that depends on str-opt

An ending text.

If you’re curious you may want to take a look at the generated C file cmdline1.c.

You may find other examples in /prefix/share/doc/gengetopt/examples or in the tests of the source tarbal.

3 Invoking gengetopt

This is the output of gengetopt --help:

gengetopt 

This program generates a C function that uses getopt_long function
to parse the command line options, validate them and fill a struct.

Usage: gengetopt [OPTION]...

  -h, --help                    Print help and exit
      --detailed-help           Print help, including all details and hidden
                                  options, and exit
      --full-help               Print help, including hidden options, and exit
  -V, --version                 Print version and exit

Main options:

  -i, --input=filename          input file (default std input)
  -f, --func-name=name          name of generated function
                                  (default=`cmdline_parser')
  -a, --arg-struct-name=name    name of generated args info struct
                                  (default=`gengetopt_args_info')
  -F, --file-name=name          name of generated file  (default=`cmdline')
      --output-dir=path         output directory
      --header-output-dir=path  header output directory
      --src-output-dir=path     source output directory
  -c, --c-extension=ext         extension of c file  (default=`c')
  -H, --header-extension=ext    extension of header file  (default=`h')
  -l, --long-help               long usage line in help
      --default-optional        by default, an option is considered optional if
                                  not specified otherwise
  -u, --unnamed-opts[=STRING]   accept options without names (e.g., file names)
                                  (default=`FILE')

The parser generated is thought to be used to parse the command line arguments.
However, you can also generate parsers for configuration files, or strings that
contain the arguments to parse, by using the following two options.

  -C, --conf-parser             generate a config file parser
  -S, --string-parser           generate a string parser (the string contains
                                  the command line)

Additional options:
  -G, --include-getopt          adds the code for getopt_long in the generated
                                  C file
  -n, --no-handle-help          do not handle --help|-h automatically
      --no-help                 do not add --help|-h automatically
  -N, --no-handle-version       do not handle --version|-V automatically
      --no-version              do not add --version|-V automatically
  -e, --no-handle-error         do not exit on errors
      --show-required[=STRING]  in the output of help will specify which
                                  options are mandatory, by using the optional
                                  passed string  (default=`(mandatory)')
      --strict-hidden           completely hide hidden options
  -g, --gen-version             put gengetopt version in the generated file
                                  (default=on)
      --set-package=STRING      set the package name (override package defined
                                  in the .ggo file)
      --set-version=STRING      set the version number (override version
                                  defined in the .ggo file)
      --show-help               show the output of --help instead of generating
                                  code
      --show-full-help          show the output of --full-help (i.e., including
                                  hidden options) instead of generating code
      --show-detailed-help      show the output of --detailed-help (i.e.,
                                  including details and hidden options) instead
                                  of generating code
      --show-version            show the output of --version instead of
                                  generating code

Please refer to the info manual for further explanations.

The options should be clear; in particular:

--func-name

if no --func-name is given, cmdline_parser is taken by default;

--output-dir

if no --output-dir²⁸ is given, the files are generated in the current directory;

--src-output-dir

--header-output-dir

With these options²⁹ the generated C file and the corresponding generated header files can be generated in different directories;

--arg-struct-name

allows to specify the name of the generated struct for command line arguments (default is gengetopt_args_info)

--long-help

the “Usage” line reports all the options; this may be unpleasant if options are many;

--default-optional

If this command line option is given, by default, options are considered optional (if not explicitly specified otherwise). Otherwise, options are considered mandatory (if not explicitly specified otherwise).

--unnamed-opts

the program will accept also options without a name, which, in most case, means that we can pass many file names to the program (see the example in Basic Usage, where we call sample1 *.h). You can specify an optional description for these additional names (default is FILES).

--no-handle-help

--no-handle-version

if --no-handle-help (--no-handle-version) is given the command line option --help|-h (--version|-V) is not handled automatically, so the programmer will be able to print some other information; then the function for printing the standard help (version) response can be used; this function is called <parser-name>_print_help (<parser-name>_print_version), where <parser-name> is the name specified with --func-name or the default, cmdline_parser. In case hidden options are used, See Hidden options, also the function <parser-name>_print_full_help will be generated; if details are used for at least one option, then also the function <parser-name>_print_detailed_help will be generated. Notice that, although the programmer can handle these options manually, the parser will return after finding one of these options: the other command line options, if any, will be ignored. In case you want to have full control on --help|-h, --version|-V, you should use the following options:

--no-help

--no-version

With these options³⁰ you can disable the automatic addition of options --help|-h and --version|-V, respectively. The programmer will then be able to add these options in the input file and handle them as he sees fit. Notice that --no-help will also disable the automatic options --detailed-help and --full-help. The programmer can still define options with short character h and V as he wants, but he cannot define options help and version, unless he specifies --no-help and --no-version, respectively (otherwise an error will be printed). An example using these options and manually handles --help and --version can be found in test_manual_help_cmd.ggo and test_manual_help.c in the examples directory.

--no-handle-error

if --no-handle-error is given, an error in the parsing does not provoke the exit of the program; instead, since the parser function, in case of an error, returns a value different 0, the program can print a help message, as gengetopt itself does in case of an error (try it!).

--show-required

if --show-required is given, possibly with a string, in the output of --help will be made explicit which options are actually required, See Basic Usage.

--strict-hidden

when given, this causes hidden options to become really hidden. That is to say, the --full-help option will not be added, and hidden options will not show-up in the output of --detailed-help, even if they have details. See Hidden options.

--gen-version

is a flag (default on) that when disabled does not put in the output file the gengetopt version (it is useful for testing purposes).

--conf-parser

Detailed in Configuration files.

--string-parser

Detailed in String Parsers and Multiple Parsers.

--include-getopt

Adds the code for getopt_long into the generated parser C file. This will make your generated parser much bigger, but it will be compiled in any system, even if getopt_long is not part of the C library where your program is being compiled. See also No getopt_long.

--show-help

--show-full-help

--show-version

only make gengetopt show the output of --help, --full-help and --version command lines without generating any code, See Automatically added options. For instance, I use the --show-help option to generate a texinfo file with the output of help (this also shows an example of use of --set-package and --set-version):

../src/gengetopt --show-help -i ../src/cmdline.ggo \
	--set-package="gengetopt" \
	--set-version="" > help_output.texi

You may have already guessed it: gengetopt uses gengetopt itself for command line options, and its specification file is cmdline.ggo in the source directory. In particular the command line for gengetopt itself is generated with the following command:

gengetopt --input=cmdline.ggo --no-handle-version \
	--no-handle-help --no-handle-error

Indeed when --help|-h is passed on the command line, gengetopt will call cmdline_parser_print_help() and then the lines for reporting bugs. When --version|-V is passed, it will call cmdline_parser_print_version() and then prints a copyright. If an error occurs it prints a message on the screen:

$ ./gengetopt --zzzz
./gengetopt: unrecognized option `--zzzz'
Run gengetopt --help to see the list of options.

4 Terminology

An argument is an element of the argv array passed into your C or C++ program by your operating system.

An option is an argument that begins with -, or --.

A value is an argument, or part of an argument, that is associated with a particular option (an option may also not accept any value). For example, in

> ls --width=80

ls is called with one argument, --width=80, which is an option that has a value, 80, while in

> ls --width 80

ls is called with two arguments, --width, which is an option, and 80 which might or might not be a value. In this case, whether the 80 is treated as a value associated with the preceding --width option, or as the name of a file to list depends on how ls parses the --width option.

The order in which options are specified is usually unimportant:

> ls -a -l
> ls -l -a

both do exactly the same thing.

An parameter is an argument that is not an option. For example, in

> cp --archive source dest

cp is called with three arguments, the option --archive, the parameter source, and the parameter dest. Unlike options, the order in which parameters are specified usually is important:

> cp --archive --verbose source dest
> cp --verbose --archive source dest
> cp --archive source --verbose dest
> cp --archive --verbose dest source

The first three cp commands do the same thing, but the fourth one is completely different.

If you’re new to Gengetopt, you may wish to skip the rest of this section. It goes into more detail about different sorts of options, and how they are parsed.

Note that some parameters may begin with - or --. Equivalently, not all arguments that begin with - or -- are options. Consider

> ls -- -file
> tar -c -f - . > ../foo.tar

The ls command has two arguments; the first argument, -- is ignored by ls, but causes the -file argument to be interpreted as a parameter. The tar command has four arguments. The -c argument tells tar to create an archive; the -f argument, which takes a value, -, tells tar that the archive should be written onto the standard output, and the fourth argument, ., tells tar what directories to include in the archive. (The remaining two items, > and ../foo.tar, tell the shell to redirect the tar command’s output to the file ../foo.tar. The tar command doesn’t even see them.)

The GNU convention is that - by itself is always interpreted as a value or parameter, while the first -- by itself is always ignored, but causes all subsequent arguments to be interpreted as parameters. Gengetopt always behaves this way.

A short option is an option that begins with -. Not including the leading dash, short options must be one character long:

> ls -a -l -t --width=80

The -a, -l, and -t options are all short options. Multiple short options may be combined into a single argument:

> ls -alt --width=80

is equivalent to the above example.

A long option is an option that begins with - or --. Ignoring the leading punctuation, long options may be one or more characters long:

> ls --all -fs

The ls command has two arguments; the long option --all, and the pair of short options -fs.

Long options need not have synonymous short options; after all, complex programs like cc have more long options than there are valid short option characters; it wouldn’t be possible to assign a short option to each of them. Short options are encouraged, but not required, to have a synonymous long option.

Long options may be abbreviated, as long as the abbreviation is not ambiguous. Gengetopt automatically treats unambiguous abbreviations as synonyms.

Short options may have values just like long options, but if several short options are grouped together into one argument, only the last one may have a value. Values in the same argument as a long option are delimited by an equals sign, values in the same argument as a short option are not:

> ls --width 60  # ok, value is "60"
> ls --width=60  # ok, value is "60"
> ls -w60        # ok, value is "60"
> ls -w 60       # ok, value is "60"
> ls -w=60       # unexpected, value is "=60"
> ls -T7 -w60    # ok, value for -T is 7, value for -w is 60
> ls -T7w60      # unexpected, value for -T is "7w60", no -w at all

A required option must be present, otherwise an error will be raised.

A multiple option is an option that may appear more than once on the command line. Gengetopt would create a tidy array for multiple options (see Multiple Options, for further details about dealing with multiple options).

5 Options with enumerated values

You can also specify the list of values that can be passed to an option (if the type is not specified, the option has type string). If a value that is not in the list is passed, an error is raised. You can think of such options as enumerated options. It is not necessary to pass the complete value at the command line option: a non ambiguous prefix will do. For instance, if the accepted values are "foo","bar","foobar", then you can pass at the command line the value "b" and the value "bar" will be selected, or the value "foob" and the value "foobar" will be selected; instead, passing the value "fo" will raise an ambiguity error.

Since version 2.22 options with values can be given a specific type (the default is string). If you give a numeric type to such options, gengetopt will check that the enumerated values are actually valid values for that numeric type.

As for other options, the <option>_arg field will have the specified type, while the <option>_orig field will always be a string (char *) storing the (non-ambiguous) prefix specified at the command line.

For such an option, no matter what its type is, an array of strings, <parser-name>_<option>_values, will be generated that contains all the strings representing the possible accepted values.

An option with enumerated values can also be given the type enum; in that case, a C enum type is also generated with name enum_<option>; the values of such C enum will be generated according this pattern: <option>_arg_<value>, where value is the value specified in the input file, and the starting value is always 0. An additional value is generated to represent the null/empty value, with the pattern <option>__NULL (note the double underscore) with integer value -1. For instance, if we specify in the input file the following option

option "myopt" ... ... values="FOO","180","BAR" enum ...

then the following C enum will be generated:

enum enum_myopt {
myopt__NULL = -1, myopt_arg_FOO = 0, myopt_arg_180, myopt_arg_BAR };

If you use the symbols + and -, these will be translated into PLUS_ and MINUS_, respectively, in the C enum. Thus, if we specify in the input file the following option

option "myopt" ... ... values="+foo","-all","-foo" enum ...

then the following C enum will be generated:

enum enum_myopt { myopt__NULL = -1,
	myopt_arg_PLUS_foo = 0,
	myopt_arg_MINUS_all, myopt_arg_MINUS_foo };

An example using options with values (and enum options) is tests/test_values_cmd.ggo and tests/test_values.c.

6 Group options

It is also possible to group options; options belonging to a group are considered in mutual exclusion. In order to use this feature, first the group has to be defined, and then a groupoption can be defined. A groupoption has basically the same syntax of a standard option, apart that the required flag must not be specified (it would not make sense, since the options of the same group are mutually exclusive) and the group to which the option belongs has to be specified.

defgroup "<group name>" {groupdesc="<group description>"} {required}
groupoption <long> <short> "<desc>" <argtype> group="<group name>" \
	{argoptional} {multiple}

If a group is defined as required, then one (but only one) option belonging to the group has to be specified.

Here’s an example (taken from the test test_group_cmd.ggo):

defgroup "my grp2"
defgroup "grp1" groupdesc="an option of this group is required" required
groupoption "opta" a "string a" group="grp1" multiple
groupoption "optA" A "string A" string group="grp1" argoptional
groupoption "optAmul" M "string M" string group="grp1" argoptional multiple
groupoption "optb" b "string b" group="grp1"
groupoption "optc" - "string c" group="my grp2"
groupoption "optd" d "string d" group="my grp2"

The group grp1 is required, so either --opta or --optb has to be specified (but only one of them). Here’s the output of some executions:

$ ./test_groups
test_groups: 0 options of group grp1 were given. One is required
$ ./test_groups -a          OK
$ ./test_groups -a -a       OK (the same option given twice)
$ ./test_groups -a -b
test_groups: 2 options of group grp1 were given. One is required
$ ./test_groups -a -c       OK
$ ./test_groups -a --optc -d
test_groups: 2 options of group my grp2 were given. At most one is required

7 Mode options

It is also possible to specify “mode options”; options belonging to a mode are considered in mutual exclusion with options of a different mode. Thus, you can specify more options belonging to the same mode, but you cannot specify, on the same command line, two options belonging to two different modes (thus, modes are different from groups, Group options).

These sets of options are called modes, since they represent the different modes (modalities), in which a program can be run.

In order to use this feature, first the mode has to be defined, and then a modeoption can be defined. A modeoption has basically the same syntax of a standard option, and it can be given the required flag must not be specified (with a slightly different semantics, see below) and the group to which the option belongs has to be specified.

defmode "<mode name>" {modedesc="<mode description>"}
modeoption <long> <short> "<desc>" <argtype> mode="<mode name>" \
	{argoptional} {multiple} {required}

If a mode option is specified as required, then it will be required only if other options of the same mode are specified; this makes it possible to specify options of different modes as required.

Options not belonging to any mode are not in conflict with mode options.

For instance, let us consider the file test_modes_cmd.ggo:

package "test_modes"
version "1.0"

section "some non mode options"

option "no-mode" N "a generic option not beloging to any mode" optional
option "no-mode2" - "another generic option not beloging to any mode" string optional

section "some modes just for testing"

defmode "mode 2"
defmode "my mode"
defmode "mode1" modedesc="any option of this mode is in contrast with any \
option of the other mode\nNotice that this description is quite long so \
it may spawn many lines...              \
fortunately gengetopt will wrap it for you :-)"

modeoption "opta" a "string a" multiple mode="mode1" optional
modeoption "optA" A "string A" string argoptional mode="mode1" required
modeoption "optAmul" M "string M" 
        argoptional string mode="mode1" multiple optional
modeoption "optb" b "string b" mode="mode1" optional

modeoption "optc" - "string c" mode="mode 2" optional
modeoption "optd" d "string d" mode="mode 2" required

modeoption "mopt" m "option of my mode" int optional mode="my mode" optional

Now, we use the program test_modes (that uses the generated parser for the input file above) to demonstrate how the parser generated by gengetopt perform checks on mode options.

test_modes -N

This execution generates no errors (although there are required options which are not specified, these required options are part of modes and they are required only if that mode is used).

test_modes -a
./test_modes: '--optA' ('-A') option required

Since an option of a mode is specified, then required options of that mode must be provided, but, in this execution, we forgot to specify a required option of the mode that is being used.

test_modes -a -A -N

This execution is correct: we specified two options of the same mode, in particular we also specified the required option of that mode. Notice that we use also an option not belonging to any mode, which does not interfere with mode options.

test_modes -a -A -N --optc
test_modes: option --optc conflicts with option --opta
test_modes: option --optc conflicts with option --optA
test_modes: '--optd' ('-d') option required

Here we see a conflict, (actually two), since the last option we specified belongs to a mode that is different from the one of the first two options.

If you require gengetopt to generate --full-help (See --full-help.), the usage string will be generated so that it will show the modes of the program; for instance, this is the output of --help of the generated parser for the input file above:

test_modes 1.0

Usage: test_modes [-h|--help] [-V|--version] [-N|--no-mode] [--no-mode2=STRING]
  or : test_modes -d|--optd [--optc]
  or : test_modes -ASTRING|--optA=STRING [-a|--opta]
         [-MSTRING|--optAmul=STRING] [-b|--optb]
  or : test_modes [-mINT|--mopt=INT]

  -h, --help              Print help and exit
  -V, --version           Print version and exit

some non mode options:
  -N, --no-mode           a generic option not beloging to any mode
      --no-mode2=STRING   another generic option not beloging to any mode

some modes just for testing:

 Mode: mode1
  any option of this mode is in contrast with any option of the other mode
  Notice that this description is quite long so it may spawn many lines...
  fortunately gengetopt will wrap it for you :-)
  -a, --opta              string a
  -A, --optA[=STRING]     string A
  -M, --optAmul[=STRING]  string M
  -b, --optb              string b

 Mode: mode 2
      --optc              string c
  -d, --optd              string d

 Mode: my mode
  -m, --mopt=INT          option of my mode

8 Parser function additional parameters

Besides the parser functions, in the generated header file, gengetopt also generates³¹ an additional structure <cmd_parser_name>_params that can be used to customize the invocation of the generated parsers (it is especially useful when using configuration file parsers, Configuration files, string parsers, String Parsers and Multiple Parsers, and, in general, multiple parsers).

These are the fields of this structure (as usual, boolean options are represented as int and they are true if they are set to 1 and false if they are set to 0):

int initialize (default = 1)

tells whether the args_info struct has to be initialized.

int override (default = 0)

tells whether the values for the options that are parsed should override those that are already present in the passed args_info struct (e.g., this is the case when you call a parser multiple times using the same args_info struct, see, e.g., Configuration files and String Parsers and Multiple Parsers).

int check_required (default = 1)

tells whether the check for required options must be performed or not.

int check_ambiguity (default = 0)

tells whether the check whether options that are parsed are not already present in the passed args_info struct; this is performed only for NON multiple options (see also Multiple Options).

int print_errors (default = 1)

tells³² whether getopt_long must print error messages to the standard error stream if it encounters an unknown option character or an option with a missing required argument. This is the default behavior. If you set this variable to zero, getopt_long does not print any messages, but the generated parser will still return with error.

Gengetopt also generates an initialization function for such structures³³, called <cmd_parser_name>_params_init, which takes as argument a pointer to such structure and initialize all its fields to their default values; it also generates a function called <cmd_parser_name>_params_create that returns a dynamically allocated structure with all fields initialized to their default values.

We strongly advise to use such functions for creating and initializing such a structure, since this will make your code scalable to future releases of gengetopt where such structure might contain additional fields. Otherwise, you might risk to use a structure where some fields are not initialized, with unpredictable results. Furthermore, since the <cmd_parser_name>_params_create function returns a pointer to a dynamically allocated structure (with malloc), it is up to you to deallocate that structure when you no longer need it (with free).

Some examples of usage of this parameters struct are shown in Configuration files.

9 Configuration files

It is often useful to specify command line options directly in a configuration file, so that the value of some options are read from this file if they are not given as command line options. When the command line option -C|--conf-parser is given to gengetopt, apart from the standard command line option parser, also this additional parser is generated (its name is <cmd_parser_name>_config_file³⁴):

int
<cmd_parser_name>_config_file(char * const filename,
	struct gengetopt_args_info *args_info,
	struct <cmd_parser_name>_params *params);

The parameter structure <cmd_parser_name>_params is described in Parser function additional parameters. For instance, params->override tells whether the values read in the configuration file have to override those specified at the command line.

IMPORTANT: you have to explicitly set params->initialize to 1 if you call the config file parser before the standard command line option parser, otherwise unpredictable results may show.

If you call the config file parser before the standard command line option parser and then you want to call the standard command line parser you MUST use this second version of the parser function, with params->initialize set to 0, so that collected values from the config file are not lost³⁵:

int
<cmd_parser_name>_ext (int argc,
	char **argv,
	struct gengetopt_args_info *args_info,
	struct <cmd_parser_name>_params *params);

Notice, that with this version you can also specify whether the options passed at the command line must override the ones read from the config file. Moreover, you have to specify whether the check for missing required options must be performed or not. This concerns also options of a required group (Group options).

If you decide not to request the check for required option, you can test it manually, after the command line parsing returns by using the following generated function:

int
<cmd_parser_name>_required (struct gengetopt_args_info *args_info,
	const char *program_name);

where program_name is the name of your executable (usually you should pass argv[0] as argument). If the function returns a value different from 0, then some required options are missing. An error has already been printed by this function. This concerns also options of a required group (Group options).

The config file has the following simple syntax: lines starting with # are considered comments and:

<option_name> = {<option_val>}

or simply (if the option does not take an argument):

<option_name>

which means that option_name is given, and if it accepts an argument, then its value is option_val. The = is not mandatory.

Since version 2.19, it is possible to include other files (i.e., other configuration files) in a configuration file, by using the include syntax:

include "filename"

For instance here’s a program that uses this feature (this is the test test_conf_parser):

/* test_conf_parser.c test */

/* test all kinds of options and the conf file parser */

#ifdef HAVE_CONFIG_H
#include "config.h"
#endif

#include <stdlib.h>
#include <stdio.h>

#include "test_conf_parser_cmd.h"

static struct my_args_info args_info;

int
main (int argc, char **argv)
{  
  unsigned int i;
  int result = 0;

  struct test_conf_parser_cmd_parser_params *params;
  
  /* initialize the parameters structure */
  params = test_conf_parser_cmd_parser_params_create();

  /* call the command line parser */
  if (test_conf_parser_cmd_parser (argc, argv, &args_info) != 0) {
    result = 1;
    goto stop;
  }

  /* 
     override command line options,
     but do not initialize args_info, check for required options.
     NOTICE: we must NOT skip the 0 assignment to initialize,
     since its default value is 1 and override defaults to 0
     while check_required is already set to its default value, 1
  */
  params->initialize = 0;
  params->override = 1;

  /* call the config file parser */
  if (test_conf_parser_cmd_parser_config_file
      (args_info.conf_file_arg, &args_info, params) != 0) 
    {
      result = 1;
      goto stop;
    }

  printf ("value of required: %s\n", args_info.required_arg);
  printf ("value of string: %s\n", args_info.string_arg);
  printf ("value of no-short_given: %d\n", args_info.no_short_given);
  printf ("value of int: %d\n", args_info.int_arg);
  printf ("value of float: %f\n", args_info.float_arg);

  printf ("value of multi-string_given: %d\n", args_info.multi_string_given);
  for (i = 0; i < args_info.multi_string_given; i++)
    printf ("  value of multi-string: %s\n", args_info.multi_string_arg [i]);

  printf ("value of multi-string-def_given: %d\n",
          args_info.multi_string_def_given);
  for (i = 0; i < args_info.multi_string_def_given; ++i)
    printf ("  value of multi-string-def: %s\n",
            args_info.multi_string_def_arg [i]);
  if (!args_info.multi_string_def_given && args_info.multi_string_def_arg [0])
    printf ("default value of multi-string-def: %s\n",
            args_info.multi_string_def_arg [0]);

  printf ("value of opta: %s\n", args_info.opta_arg);

  printf ("noarg given %d times\n", args_info.noarg_given);
  printf ("noarg_noshort given %d times\n", args_info.noarg_noshort_given);

  printf ("opt-arg given: %d\n", args_info.opt_arg_given);
  printf ("opt-arg value: %s\n", (args_info.opt_arg_arg ? args_info.opt_arg_arg : "not given"));

  if (args_info.file_save_given) {
    if (test_conf_parser_cmd_parser_file_save (args_info.file_save_arg, &args_info) == EXIT_FAILURE)
      result = 1;
    else
      printf ("saved configuration file %s\n", args_info.file_save_arg);
  }

 stop:
  /* deallocate structures */
  test_conf_parser_cmd_parser_free (&args_info);
  free (params);

  return result;
}

So if we use the following config file

# required option
required "this is a test"
float 3.14
no-short
string another

and we run test_conf_parser like that, we will have

./test_conf_parser -r bar -i 100 --float 2.14 --conf-file test_conf.conf
value of required: this is a test
value of string: another
value of no-short: 1
value of int: 100
value of float: 3.140000

If, instead we call the test_conf_parser_cmd_parser_configfile with 0 for override argument, we get the following result

value of required: bar
value of string: another
value of no-short: 1
value of int: 100
value of float: 2.140000

This second example use the second version of the command line parser: first call the configuration file parser and then the command line parser (the command line options will override the configuration file options):

/* test_conf_parser_ov2.c test */

/* test all kinds of options and the conf file parser */
/* differently from test_conf_parser_ov.c, first scan the conf file and
   then the command line */

#ifdef HAVE_CONFIG_H
#include "config.h"
#endif

#include <stdlib.h>
#include <stdio.h>

#include "test_conf_parser_cmd.h"

static struct my_args_info args_info;

int
main (int argc, char **argv)
{
  struct test_conf_parser_cmd_parser_params *params;
  
  /* initialize the parameters structure */
  params = test_conf_parser_cmd_parser_params_create();
  
  /* 
     initialize args_info, but don't check for required options
     NOTICE: the other fields are initialized to their default values
  */
  params->check_required = 0;

  /* call the config file parser */
  if (test_conf_parser_cmd_parser_config_file
      ("../../tests/test_conf2.conf", &args_info, params) != 0)
    exit(1);

  /* 
     override config file options,
     do not initialize args_info, check for required options.
  */
  params->initialize = 0;
  params->override = 1;
  params->check_required = 1;

  /* call the command line parser */
  if (test_conf_parser_cmd_parser_ext (argc, argv, &args_info, params) != 0)
    exit(1) ;

  printf ("value of required: %s\n", args_info.required_arg);
  printf ("value of string: %s\n", args_info.string_arg);
  printf ("value of no-short_given: %d\n", args_info.no_short_given);
  printf ("value of int: %d\n", args_info.int_arg);
  printf ("value of float: %f\n", args_info.float_arg);

  /* release memory */
  test_conf_parser_cmd_parser_free (&args_info);
  free (params);

  return 0;
}

This is an invocation and its results:

./test_conf_parser_ov2 -r "bar" --float 2.14 -i 100
value of required: bar
value of string: another
value of no-short: 1
value of int: 100
value of float: 2.140000

If on the above code you substitute params->override = 1 with params->check_ambiguity = 1 (see the test file test_conf_parser_ov4.c), then the following invocation will generate an error:

./test_conf_parser_ov4 -r "bar" -i 100
./test_conf_parser_ov4: `--required' (`-r') option given more than once

since the -r option is specified both in the configuration file and at the command line.

9.1 Further details on the configuration file parser

The generated config file parser function uses the constant CONFIG_FILE_LINE_SIZE to read each line of the configuration file. By default this constant is set to 2048 that should be enough for most applications. If your application uses configuration files with lines that are longer, you can compile the generated C file by specifying an explicit value for this constant with the -D command line option of gcc.

10 Multiple Options

If an option is specified as multiple, then it can be specified multiple times at command line. In this case, say the option is called foo, the generated foo_given field in the args structure contains the number of times it was specified and the generated field foo_arg is an array containing all the values that were specified for this option.

Notice that if a default value is specified for a multiple option, that value is assigned to the option only if no other value is specified on the command line, i.e., a default value IS NOT always part of the values of a multiple option.

As in the case for standard options, if a multiple option has a default value, and this is set because no value was specified on the command line, then the corresponding <option>_given will still be initialized to 0. Thus, <option>_given will effectively inform you if the user has specified that command line option.

If it is known that a multiple option has a default value, then it can be safely assumed that the first element of generated array <option>_arg is always set.

For instance, if the gengetopt file is as follows

# test options that can be given more than once
option "string"      s "string option" string optional multiple
option "int"         i "int option" int optional multiple

Then the command line options can be collected like that

/* test options that can be given more than once */

#ifdef HAVE_CONFIG_H
#include "config.h"
#endif

#include <stdlib.h>
#include <stdio.h>

#include "test_multiple_cmd.h"

static struct gengetopt_args_info args_info;

int
main (int argc, char **argv)
{ 
  int i = 0;
 
  if (test_multiple_cmd_parser (argc, argv, &args_info) != 0)
    exit(1) ;

  for (i = 0; i < args_info.string_given; ++i)
    printf ("passed string: %s\n", args_info.string_arg[i]);

  for (i = 0; i < args_info.int_given; ++i)
    printf ("passed int: %d\n", args_info.int_arg[i]);

  return 0;
}

Then if this program is called with the following command line options

./multiple_example -s world -s hellow -s bar -s foo -i 200 -i 100

The output of the program will be

passed string: world
passed string: hello
passed string: bar
passed string: foo
passed int: 200
passed int: 100

You can also pass arguments to a multiple option separated by commas (if you need to actually specify the comma operator as part of the argument you can escape it with \), as in the following:

./test_multiple -s"foo","bar","hello" -i100,200 -s "world"

You can specify the number of occurrences of multiple options by using the following syntax (that must be given after the multiple keyword):

(number)

requires that the multiple option, if given, must be given exactly number times

(number1-number2)

requires that the multiple option, if given, must be given not less than number1 times and no more than number2 times

(number-)

requires that the multiple option, if given, must be given at least number times

(-number)

requires that the multiple option, if given, must be given at most number times

Here are some examples:

option "string"      s "string option" string optional multiple(4)

option "string"      s "string option" string optional multiple(1-4)

option "string"      s "string option" string optional multiple(-5)

Notice that this is independent from the required flag.

11 String Parsers and Multiple Parsers

The parsers generated by gengetopt (indeed the C and header files) are self-contained and different parsers can be linked in the same program, without interferences. This is useful, e.g., in cases where a specific command line option argument has a complex syntax that accepts options itself according to terminology already defined, i.e., the one handled by getopt_long, see Terminology. Another case when multiple parsers can be useful is when your command behaves differently according to a specific command line option.

Obviously there exists only one instance of command line arguments passed to the main function (namely the variables argc and argv) so passing the same arguments to different command line parsers is likely to generate errors: the different command line parsers are likely to have different syntaxes for accepted options.

For this reason gengetopt can generate parser functions that take a string containing the further options to parse, instead of taking an array. This additional parser will have the parser name and the suffix _string. If you want these additional parsers to be generated you have to pass the command line option -S|--string-parser to gengetopt (see Invoking gengetopt). The two functions will be:

int <parser_name>_string (const char *cmdline,
	struct test_first_cmdline_cmd_struct *args_info,
	const char *prog_name);
int <parser_name>_string_ext (const char *cmdline,
	struct test_first_cmdline_cmd_struct *args_info,
	const char *prog_name,
	struct <cmd_parser_name>_params *params);

The second version³⁶ allows you to specify more details about the parsing, using the <cmd_parser_name>_params structure, shown in Parser function additional parameters (this is the same as for configuration files, thus we refer to that section for the details of the two functions and default values, see Configuration files).

Of course, these functions can be used in general to simulate the invocation of a program with specific command line options (stored in the first string argument), or in general to parse options that are all stored in a string (instead of a vector).

The first argument of these parsers is a string containing the options to parse (remember that this must respect the option format handled by getopt_long, see Terminology). The second one is the pointer to the struct that will be filled with passed options and arguments, as usual. The third option is the program name: this will be used when errors have to be printed. This last argument can be null: in this case, the first element of the first string argument is considered the program name.

Let’s show these functionalities with an example. Consider a program that accepts two command line options (required in this case):

# test for multiple parsers, this is the main file
# test_main_cmdline_cmd.ggo

option "first-cmd" F "the first command line to parse" required \
	typestr="first command" string multiple
option "second-cmd" S "the second command line to parse" required \
	typestr="second command" string multiple

These two options accept strings as argument that in turn are considered command line arguments, according to specific syntaxes. The first one is:

# test for multiple parsers, this is the first command line file
# test_first_cmdline_cmd.ggostr

option "option-a" a "option a of the first command line to parse"
optional int option "multi" M \
	"multiple option of the first command line to parse" \
	optional string multiple

and the second one is:

# test for multiple parsers, this is the second command line file
# test_second_cmdline_cmd.ggostr

option "option-a" a "option a of the second command line to parse" \
	optional string
option "option-b" b "option a of the second command line to parse" \
	optional string
option "my-multi" M \
	"multiple option of the second command line to parse" \
	optional string multiple

These last two files are processed with gengetopt using the --string-parser. Let’s put everything together in this main file:

#ifdef HAVE_CONFIG_H
#include "config.h"
#endif

#include <stdio.h>
#include <stdlib.h>

#include "test_main_cmdline_cmd.h"
#include "test_first_cmdline_cmd.h"
#include "test_second_cmdline_cmd.h"

int
main(int argc, char **argv)
{
  struct gengetopt_args_info main_args_info;
  struct test_first_cmdline_cmd_struct first_args_info;
  struct test_second_cmdline_cmd_struct second_args_info;
  int exit_code = 0;
  unsigned int i, j;

  if (test_main_cmdline_cmd_parser (argc, argv, &main_args_info) != 0) {
    exit_code = 1;
    return exit_code;
  }

  for (j = 0; j < main_args_info.second_cmd_given; ++j) {
    printf("second cmdline: %s\n", main_args_info.second_cmd_arg[j]);
    if (test_second_cmdline_cmd_parser_string 
	(main_args_info.second_cmd_arg[j], &second_args_info, argv[0]) == 0) {
      if (second_args_info.option_a_given)
	printf("  --option-a: %s\n", second_args_info.option_a_arg);
      if (second_args_info.option_b_given)
	printf("  --option-b: %s\n", second_args_info.option_b_arg);
      for (i = 0; i < second_args_info.my_multi_given; ++i)
	printf("  --my-multi: %s\n", second_args_info.my_multi_arg[i]);

      test_second_cmdline_cmd_parser_free (&second_args_info);
    }
  }

  for (j = 0; j < main_args_info.first_cmd_given; ++j) {
    printf("first cmdline: %s\n", main_args_info.first_cmd_arg[j]);
    if (test_first_cmdline_cmd_parser_string 
	(main_args_info.first_cmd_arg[j], &first_args_info, argv[0]) == 0) {
      if (first_args_info.option_a_given)
	printf("  --option-a: %d\n", first_args_info.option_a_arg);
      for (i = 0; i < first_args_info.multi_given; ++i)
	printf("  --multi: %s\n", first_args_info.multi_arg[i]);

      test_first_cmdline_cmd_parser_free (&first_args_info);
    }
  }

  test_main_cmdline_cmd_parser_free (&main_args_info);

  return exit_code;
}

Notice that in the for loops we always free the elements of the argument structures in order to avoid memory leaks.

Now if you can run this program as follows (notice that we use the comma separated arguments for multiple option arguments but we escape it with \ because otherwise, e.g., 200 and 300 would be intended as further arguments of --first-cmd instead of --multi, see Multiple Options):

./test_multiple_parsers \
	--first-cmd="-M400 -a10 --multi 100\,200\,300" \
	--second-cmd="-a20 -b10 --my-multi=a\,b\,c\,d\,e\,f" \
	-F"-M500 -M600" -S"--my-multi g"
second cmdline: -a20 -b10 --my-multi=a,b,c,d,e,f
	--option-a: 20
	--option-b: 10
	--my-multi: a
	--my-multi: b
	--my-multi: c
	--my-multi: d
	--my-multi: e
	--my-multi: f
second cmdline: --my-multi g
	--my-multi: g
first cmdline: -M400 -a10 --multi 100,200,300
	--option-a: 10
	--multi: 400
	--multi: 100
	--multi: 200
	--multi: 300
first cmdline: -M500 -M600
	--multi: 500
	--multi: 600

12 What if getopt_long is not available?

If you use gengetopt to generate C functions for parsing command line arguments you have to know that these generated functions use getopt_long to actually read the command line and parsing it. This function is typically part of the standard C library, but some implementations may not include it. If you want your program to be portable on several systems, and be compilable with many C compilers, you can rely on one of the following solutions.

12.1 Include the getopt_long code into the generated parser

Since version 2.17, gengetopt can include into the generated C parser file the code of getopt_long, so that the include code will be used to actually parse the command line arguments, instead of that taken from the C library.

This solution is actually quite easy, since you only need to specify the command line option --include-getopt (see Invoking gengetopt), but it has two main drawbacks:

• The generate C file of the parser will be much bigger;
• You won’t be able to use the latest version of getopt_long of the C library

It is up to you to choose between this and the automake/autoconf based solution.

Actually, this solution has the advantage that your program won’t behave strangely when used with another implementation of getopt_long.

I prefer the automake/autoconf based solution, as described in Use automake/autoconf, in particular the one described in Use Gnulib, which is also the one I adopt for gengetopt itself.

12.2 Use automake/autoconf to check for the existence of getopt_long

Autoconf and Automake are great tools to generate a configure script that automatically checks for the configuration of your system and for possible missing functions required to compile your program. However, in case of detected missing functions, your program must be able to provide a replacement for such functions. In the next sections we describe two mechanisms for including the (possible) missing code for getopt_long and for checking its presence with automake/autoconf. Since version 2.19, gengetopt itself uses the first mechanism.

12.2.1 Use Gnulib

Since version 2.19 I also started to use Gnulib - The GNU Portability Library³⁷, “a central location for common GNU code, intended to be shared among GNU packages”. Gnulib provides an easy and smooth way to add to your package sources the sources of functions that you want to check during configure. It will also handle the checks for these functions in the configure script, and in case they’re not in your system (or they’re present but with some missing features) it compiles their sources into a library (that you will need to link your program to, as illustrated in the following).

Once you retrieved gnulib (for the moment it is available only through git, see the home page), you can invoke ‘gnulib-tool --import’ that will copy source files, create a Makefile.am to build them, generate a file gnulib-comp.m4 with Autoconf M4 macro declarations used by configure.ac, and generate a file gnulib-cache.m4 containing the cached specification of how Gnulib is used. In particular, you must specify the modules you want to import, and in our case, it is getopt:

gnulib-tool --import getopt

By default, the source code is copied into lib/ and the M4 macros in m4/. You can override these paths by using --source-base=DIRECTORY and --m4-base=DIRECTORY. For instance, gengetopt uses gl and gl/m4, respectively. We will use these directories in the rest of this section.

You must ensure Autoconf can find the macro definitions in gnulib-comp.m4. Use the ACLOCAL_AMFLAGS specifier in your top-level Makefile.am file (and the first time you run aclocal you have to use the -I as well); for instance, in the case of gengetopt we have:

ACLOCAL_AMFLAGS = -I gl/m4

You are now ready to call the M4 macros in gnulib-comp.m4 from configure.ac. The macro gl_EARLY must be called as soon as possible after verifying that the C compiler is working. Typically, this is immediately after AC_PROG_CC, as in:

...
AC_PROG_CC
gl_EARLY
...

The core part of the gnulib checks are done by the macro gl_INIT. Place it further down in the file, typically where you normally check for header files or functions. For example:

...
# For gnulib.
gl_INIT
...

gl_INIT will in turn call the macros related with the gnulib functions, be it specific gnulib macros. So there is no need to call those macros yourself when you use the corresponding gnulib modules.

You must also make sure that the gnulib library is built. Add the Makefile in the gnulib source base directory to AC_CONFIG_FILES, as in:

AC_CONFIG_FILES(... gl/Makefile ...)

You must also make sure that make will recurse into the gnulib directory. To achieve this, add the gnulib source base directory to a SUBDIRS Makefile.am statement, as in:

SUBDIRS = gl

Finally, you have to add compiler and linker flags in the appropriate source directories, so that you can make use of the gnulib library. Since the ‘getopt’ module copies files into the build directory, top_builddir/gl is needed as well as top_srcdir/gl. For example:

...
AM_CPPFLAGS = -I$(top_srcdir)/gl -I$(top_builddir)/gl
...
LDADD = gl/libgnu.a
...

Don’t forget to #include the various header files. In this example, you would need to make sure that ‘#include "getopt.h"’ is evaluated when compiling all source code files, that want to make use of getopt or getopt_long. If you simply use the files generated by gengetopt, you won’t need include this header though, since it is already handled by the generated files.

Every now and then, check whether there are updates in the Gnulib modules, and if the modules you use (e.g., getopt) are upgraded, please remember to also update your files, simply by running:

gnulib-tool --update

We refer to Gnulib documentation for further explanations and features.

12.2.2 Use getopt_long sources

NOTICE: this was the procedure used by gengetopt itself up to version 2.18. We suggest now to use the procedure described in Use Gnulib, since the files described in the following might not be kept up-to-date.

We provide C files that actually implement getopt_long function: getopt.c getopt1.c and gnugetopt.h. You’ll find these files in the <install prefix>/share/gengetopt directory where <install prefix> is the one you specified during compilation. If no prefix had been specified, /usr/local is the default. If you downloaded gengetopt in binary form prefix will probably be /usr/local or /usr.

You can rename gnugetopt.h to getopt.h and then simply compile these files and link them to the executable of you program. However, if you use automake and autoconf here’s a more elegant solution: you should download the file adl_func_getopt_long.m4 you find at this site:

https://autoconf-archive.cryp.to

and add its contents to your acinclude.m4. You can find this macro also in the acinclude.m4 in the sources of gengetopt.

This macro checks if getopt_long function is in C library; if it is not then it adds getopt.o and getopt1.o to the objects files that will be linked to your executable (LIBOBJS).

Then in Makefile.am of your source directory you have to add the contents of LIBOBJS to the LDADD of the program that has to use getopt_long; e.g., if the program foo has to use getopt_long, you have to add the following line

foo_LDADD = @LIBOBJS@

Now these files will be compiled and linked to your program only if necessary.

Moreover you have to add getopt.c getopt1.c and gnugetopt.h to your distribution. Note that it is not necessary to put these file names among the foo_SOURCES contents), but you have to add gnugetopt.h to EXTRA_DIST:

EXTRA_DIST = gnugetopt.h

You may want to take a look at gengetopt’s configure.in and src/Makefile.am: they both use the techniques described here.

13 Known Bugs and Limitations

If you find a bug in gengetopt, please use the Savannah web interface

https://savannah.gnu.org/bugs/?group=gengetopt

Include the version number, which you can find by running ‘gengetopt --version’. Also include in your message the output that the program produced and the output you expected.

If you have other questions, comments or suggestions about gengetopt, contact the author via electronic mail or ask at the mailing list.

The list of to-dos in the TODO.

13.1 Getopt and subsequent calls

It seems that getopt_long, at least the version in the GNU library, if invoked with different argv arrays, might access memory in a bad way leading to crashes or unexpected behaviors. This happens because it keeps pointers to locations of the previous arrays if not initialized each time by setting optind = 0³⁸. Unfortunately this initialization behavior seems to be part only of the implementation of GNU library and actually it is not documented (you can see it by taking a look into the source of getopt.c); other implementations of getopt_long might not be affected by this problem; alternatively, as reported by a user, optind = 0 leads some getopt_long implementations to consider the program name as a command line option (since it is in position 0), which is bad anyway!

Probably this is usually not a problem since you usually parse only the command line, thus you only invoke the command line parser only once, and only with one instance of array (i.e., the argv passed to main). However, it can lead to problems when you use advanced features, as in the case of configuration file parsing (see Configuration files) and multiple parsers (see String Parsers and Multiple Parsers).

The parser generated by gengetopt checks whether the program name was actually considered a command line option, and in that case it removes it from the collected command line options; thus, this optind issue should not come up anyway. In case you still don’t feel comfortable, you can include a correct getopt_long implementation in the generated parser, so that you can be sure you will always use the same implementation of getopt_long (Include the getopt_long code into the parser).

14 Mailing Lists

The following mailing lists are available:

help-gengetopt at gnu dot org

for generic discussions about the program and for asking for help about it (open mailing list), https://mail.gnu.org/mailman/listinfo/help-gengetopt

info-gengetopt at gnu dot org

for receiving information about new releases and features (read-only mailing list), https://mail.gnu.org/mailman/listinfo/info-gengetopt.

bug-gengetopt at gnu dot org

if you prefer reporting bugs via email instead of web interface at savannah, please use this mailing list, https://mail.gnu.org/mailman/listinfo/bug-gengetopt.

If you want to subscribe to a mailing list just go to the URL and follow the instructions, or send me an e-mail and I’ll subscribe you.

Index