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950 lines
28 KiB
C
950 lines
28 KiB
C
/* Hierarchial argument parsing, layered over getopt
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Copyright (C) 1995-2000, 2002, 2003, 2004, 2010 Free Software Foundation, Inc.
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This file is part of the GNU C Library.
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Written by Miles Bader <miles@gnu.ai.mit.edu>.
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The GNU C Library is free software; you can redistribute it and/or
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modify it under the terms of the GNU Lesser General Public
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License as published by the Free Software Foundation; either
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version 2.1 of the License, or (at your option) any later version.
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The GNU C Library is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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Lesser General Public License for more details.
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You should have received a copy of the GNU Lesser General Public
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License along with the GNU C Library; if not, see
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<http://www.gnu.org/licenses/>. */
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#ifdef HAVE_CONFIG_H
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#include <config.h>
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#endif
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/* AIX requires this to be the first thing in the file. */
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#ifndef __GNUC__
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# if HAVE_ALLOCA_H || defined _LIBC
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# include <alloca.h>
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# else
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# ifdef _AIX
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#pragma alloca
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# else
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# ifndef alloca /* predefined by HP cc +Olibcalls */
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char *alloca ();
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# endif
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# endif
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# endif
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#endif
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#include <stdlib.h>
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#include <string.h>
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#include <unistd.h>
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#include <limits.h>
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#include <getopt.h>
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#include <getopt_int.h>
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#ifndef _
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/* This is for other GNU distributions with internationalized messages.
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When compiling libc, the _ macro is predefined. */
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# if defined HAVE_LIBINTL_H || defined _LIBC
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# include <libintl.h>
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# ifdef _LIBC
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# undef dgettext
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# define dgettext(domain, msgid) \
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INTUSE(__dcgettext) (domain, msgid, LC_MESSAGES)
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# endif
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# else
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# define dgettext(domain, msgid) (msgid)
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# define gettext(msgid) (msgid)
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# endif
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#endif
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#ifndef N_
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# define N_(msgid) (msgid)
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#endif
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#include "argp.h"
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#include "argp-namefrob.h"
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/* Getopt return values. */
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#define KEY_END (-1) /* The end of the options. */
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#define KEY_ARG 1 /* A non-option argument. */
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#define KEY_ERR '?' /* An error parsing the options. */
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/* The meta-argument used to prevent any further arguments being interpreted
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as options. */
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#define QUOTE "--"
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/* The number of bits we steal in a long-option value for our own use. */
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#define GROUP_BITS CHAR_BIT
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/* The number of bits available for the user value. */
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#define USER_BITS ((sizeof ((struct option *)0)->val * CHAR_BIT) - GROUP_BITS)
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#define USER_MASK ((1 << USER_BITS) - 1)
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/* EZ alias for ARGP_ERR_UNKNOWN. */
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#define EBADKEY ARGP_ERR_UNKNOWN
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/* Default options. */
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/* When argp is given the --HANG switch, _ARGP_HANG is set and argp will sleep
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for one second intervals, decrementing _ARGP_HANG until it's zero. Thus
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you can force the program to continue by attaching a debugger and setting
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it to 0 yourself. */
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static volatile int _argp_hang;
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#define OPT_PROGNAME -2
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#define OPT_USAGE -3
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#define OPT_HANG -4
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static const struct argp_option argp_default_options[] =
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{
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{"help", '?', 0, 0, N_("Give this help list"), -1},
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{"usage", OPT_USAGE, 0, 0, N_("Give a short usage message")},
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{"program-name",OPT_PROGNAME,"NAME", OPTION_HIDDEN, N_("Set the program name")},
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{"HANG", OPT_HANG, "SECS", OPTION_ARG_OPTIONAL | OPTION_HIDDEN,
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N_("Hang for SECS seconds (default 3600)")},
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{0, 0}
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};
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static error_t
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argp_default_parser (int key, char *arg, struct argp_state *state)
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{
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switch (key)
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{
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case '?':
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__argp_state_help (state, state->out_stream, ARGP_HELP_STD_HELP);
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break;
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case OPT_USAGE:
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__argp_state_help (state, state->out_stream,
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ARGP_HELP_USAGE | ARGP_HELP_EXIT_OK);
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break;
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case OPT_PROGNAME: /* Set the program name. */
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#if defined _LIBC || HAVE_DECL_PROGRAM_INVOCATION_NAME
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program_invocation_name = arg;
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#endif
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/* [Note that some systems only have PROGRAM_INVOCATION_SHORT_NAME (aka
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__PROGNAME), in which case, PROGRAM_INVOCATION_NAME is just defined
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to be that, so we have to be a bit careful here.] */
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/* Update what we use for messages. */
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state->name = strrchr (arg, '/');
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if (state->name)
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state->name++;
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else
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state->name = arg;
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#if defined _LIBC || HAVE_DECL_PROGRAM_INVOCATION_SHORT_NAME
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program_invocation_short_name = state->name;
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#endif
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if ((state->flags & (ARGP_PARSE_ARGV0 | ARGP_NO_ERRS))
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== ARGP_PARSE_ARGV0)
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/* Update what getopt uses too. */
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state->argv[0] = arg;
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break;
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case OPT_HANG:
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_argp_hang = atoi (arg ? arg : "3600");
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while (_argp_hang-- > 0)
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__sleep (1);
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break;
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default:
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return EBADKEY;
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}
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return 0;
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}
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static const struct argp argp_default_argp =
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{argp_default_options, &argp_default_parser, NULL, NULL, NULL, NULL, "libc"};
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static const struct argp_option argp_version_options[] =
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{
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{"version", 'V', 0, 0, N_("Print program version"), -1},
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{0, 0}
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};
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static error_t
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argp_version_parser (int key, char *arg, struct argp_state *state)
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{
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switch (key)
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{
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case 'V':
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if (argp_program_version_hook)
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(*argp_program_version_hook) (state->out_stream, state);
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else if (argp_program_version)
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fprintf (state->out_stream, "%s\n", argp_program_version);
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else
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__argp_error (state, dgettext (state->root_argp->argp_domain,
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"(PROGRAM ERROR) No version known!?"));
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if (! (state->flags & ARGP_NO_EXIT))
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exit (0);
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break;
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default:
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return EBADKEY;
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}
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return 0;
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}
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static const struct argp argp_version_argp =
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{argp_version_options, &argp_version_parser, NULL, NULL, NULL, NULL, "libc"};
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/* Returns the offset into the getopt long options array LONG_OPTIONS of a
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long option with called NAME, or -1 if none is found. Passing NULL as
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NAME will return the number of options. */
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static int
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find_long_option (struct option *long_options, const char *name)
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{
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struct option *l = long_options;
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while (l->name != NULL)
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if (name != NULL && strcmp (l->name, name) == 0)
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return l - long_options;
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else
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l++;
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if (name == NULL)
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return l - long_options;
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else
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return -1;
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}
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/* The state of a `group' during parsing. Each group corresponds to a
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particular argp structure from the tree of such descending from the top
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level argp passed to argp_parse. */
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struct group
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{
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/* This group's parsing function. */
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argp_parser_t parser;
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/* Which argp this group is from. */
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const struct argp *argp;
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/* Points to the point in SHORT_OPTS corresponding to the end of the short
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options for this group. We use it to determine from which group a
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particular short options is from. */
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char *short_end;
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/* The number of non-option args sucessfully handled by this parser. */
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unsigned args_processed;
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/* This group's parser's parent's group. */
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struct group *parent;
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unsigned parent_index; /* And the our position in the parent. */
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/* These fields are swapped into and out of the state structure when
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calling this group's parser. */
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void *input, **child_inputs;
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void *hook;
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};
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/* Call GROUP's parser with KEY and ARG, swapping any group-specific info
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from STATE before calling, and back into state afterwards. If GROUP has
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no parser, EBADKEY is returned. */
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static error_t
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group_parse (struct group *group, struct argp_state *state, int key, char *arg)
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{
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if (group->parser)
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{
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error_t err;
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state->hook = group->hook;
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state->input = group->input;
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state->child_inputs = group->child_inputs;
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state->arg_num = group->args_processed;
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err = (*group->parser)(key, arg, state);
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group->hook = state->hook;
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return err;
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}
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else
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return EBADKEY;
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}
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struct parser
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{
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const struct argp *argp;
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/* SHORT_OPTS is the getopt short options string for the union of all the
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groups of options. */
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char *short_opts;
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/* LONG_OPTS is the array of getop long option structures for the union of
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all the groups of options. */
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struct option *long_opts;
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/* OPT_DATA is the getopt data used for the re-entrant getopt. */
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struct _getopt_data opt_data;
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/* States of the various parsing groups. */
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struct group *groups;
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/* The end of the GROUPS array. */
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struct group *egroup;
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/* An vector containing storage for the CHILD_INPUTS field in all groups. */
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void **child_inputs;
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/* True if we think using getopt is still useful; if false, then
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remaining arguments are just passed verbatim with ARGP_KEY_ARG. This is
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cleared whenever getopt returns KEY_END, but may be set again if the user
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moves the next argument pointer backwards. */
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int try_getopt;
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/* State block supplied to parsing routines. */
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struct argp_state state;
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/* Memory used by this parser. */
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void *storage;
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};
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/* The next usable entries in the various parser tables being filled in by
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convert_options. */
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struct parser_convert_state
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{
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struct parser *parser;
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char *short_end;
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struct option *long_end;
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void **child_inputs_end;
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};
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/* Converts all options in ARGP (which is put in GROUP) and ancestors
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into getopt options stored in SHORT_OPTS and LONG_OPTS; SHORT_END and
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CVT->LONG_END are the points at which new options are added. Returns the
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next unused group entry. CVT holds state used during the conversion. */
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static struct group *
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convert_options (const struct argp *argp,
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struct group *parent, unsigned parent_index,
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struct group *group, struct parser_convert_state *cvt)
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{
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/* REAL is the most recent non-alias value of OPT. */
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const struct argp_option *real = argp->options;
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const struct argp_child *children = argp->children;
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if (real || argp->parser)
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{
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const struct argp_option *opt;
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if (real)
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for (opt = real; !__option_is_end (opt); opt++)
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{
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if (! (opt->flags & OPTION_ALIAS))
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/* OPT isn't an alias, so we can use values from it. */
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real = opt;
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if (! (real->flags & OPTION_DOC))
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/* A real option (not just documentation). */
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{
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if (__option_is_short (opt))
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/* OPT can be used as a short option. */
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{
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*cvt->short_end++ = opt->key;
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if (real->arg)
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{
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*cvt->short_end++ = ':';
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if (real->flags & OPTION_ARG_OPTIONAL)
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*cvt->short_end++ = ':';
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}
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*cvt->short_end = '\0'; /* keep 0 terminated */
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}
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if (opt->name
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&& find_long_option (cvt->parser->long_opts, opt->name) < 0)
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/* OPT can be used as a long option. */
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{
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cvt->long_end->name = opt->name;
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cvt->long_end->has_arg =
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(real->arg
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? (real->flags & OPTION_ARG_OPTIONAL
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? optional_argument
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: required_argument)
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: no_argument);
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cvt->long_end->flag = 0;
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/* we add a disambiguating code to all the user's
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values (which is removed before we actually call
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the function to parse the value); this means that
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the user loses use of the high 8 bits in all his
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values (the sign of the lower bits is preserved
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however)... */
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cvt->long_end->val =
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((opt->key ? opt->key : real->key) & USER_MASK)
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+ (((group - cvt->parser->groups) + 1) << USER_BITS);
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/* Keep the LONG_OPTS list terminated. */
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(++cvt->long_end)->name = NULL;
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}
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}
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}
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group->parser = argp->parser;
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group->argp = argp;
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group->short_end = cvt->short_end;
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group->args_processed = 0;
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group->parent = parent;
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group->parent_index = parent_index;
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group->input = 0;
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group->hook = 0;
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group->child_inputs = 0;
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if (children)
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/* Assign GROUP's CHILD_INPUTS field some space from
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CVT->child_inputs_end.*/
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{
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unsigned num_children = 0;
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while (children[num_children].argp)
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num_children++;
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group->child_inputs = cvt->child_inputs_end;
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cvt->child_inputs_end += num_children;
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}
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parent = group++;
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}
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else
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parent = 0;
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if (children)
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{
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unsigned index = 0;
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while (children->argp)
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group =
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convert_options (children++->argp, parent, index++, group, cvt);
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}
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return group;
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}
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/* Find the merged set of getopt options, with keys appropiately prefixed. */
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static void
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parser_convert (struct parser *parser, const struct argp *argp, int flags)
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{
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struct parser_convert_state cvt;
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cvt.parser = parser;
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cvt.short_end = parser->short_opts;
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cvt.long_end = parser->long_opts;
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cvt.child_inputs_end = parser->child_inputs;
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if (flags & ARGP_IN_ORDER)
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*cvt.short_end++ = '-';
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else if (flags & ARGP_NO_ARGS)
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*cvt.short_end++ = '+';
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*cvt.short_end = '\0';
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cvt.long_end->name = NULL;
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parser->argp = argp;
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if (argp)
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parser->egroup = convert_options (argp, 0, 0, parser->groups, &cvt);
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else
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parser->egroup = parser->groups; /* No parsers at all! */
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}
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/* Lengths of various parser fields which we will allocated. */
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struct parser_sizes
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{
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size_t short_len; /* Getopt short options string. */
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size_t long_len; /* Getopt long options vector. */
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size_t num_groups; /* Group structures we allocate. */
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size_t num_child_inputs; /* Child input slots. */
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};
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/* For ARGP, increments the NUM_GROUPS field in SZS by the total number of
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argp structures descended from it, and the SHORT_LEN & LONG_LEN fields by
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the maximum lengths of the resulting merged getopt short options string and
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long-options array, respectively. */
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static void
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calc_sizes (const struct argp *argp, struct parser_sizes *szs)
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{
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const struct argp_child *child = argp->children;
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const struct argp_option *opt = argp->options;
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if (opt || argp->parser)
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{
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szs->num_groups++;
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if (opt)
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{
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int num_opts = 0;
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while (!__option_is_end (opt++))
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num_opts++;
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szs->short_len += num_opts * 3; /* opt + up to 2 `:'s */
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szs->long_len += num_opts;
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}
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}
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if (child)
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while (child->argp)
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{
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calc_sizes ((child++)->argp, szs);
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szs->num_child_inputs++;
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}
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}
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/* Initializes PARSER to parse ARGP in a manner described by FLAGS. */
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static error_t
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parser_init (struct parser *parser, const struct argp *argp,
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int argc, char **argv, int flags, void *input)
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{
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error_t err = 0;
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struct group *group;
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struct parser_sizes szs;
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struct _getopt_data opt_data = _GETOPT_DATA_INITIALIZER;
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szs.short_len = (flags & ARGP_NO_ARGS) ? 0 : 1;
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szs.long_len = 0;
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szs.num_groups = 0;
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szs.num_child_inputs = 0;
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if (argp)
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calc_sizes (argp, &szs);
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/* Lengths of the various bits of storage used by PARSER. */
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#define GLEN (szs.num_groups + 1) * sizeof (struct group)
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#define CLEN (szs.num_child_inputs * sizeof (void *))
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#define LLEN ((szs.long_len + 1) * sizeof (struct option))
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#define SLEN (szs.short_len + 1)
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parser->storage = malloc (GLEN + CLEN + LLEN + SLEN);
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if (! parser->storage)
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return ENOMEM;
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parser->groups = parser->storage;
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parser->child_inputs = parser->storage + GLEN;
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parser->long_opts = parser->storage + GLEN + CLEN;
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parser->short_opts = parser->storage + GLEN + CLEN + LLEN;
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parser->opt_data = opt_data;
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memset (parser->child_inputs, 0, szs.num_child_inputs * sizeof (void *));
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parser_convert (parser, argp, flags);
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memset (&parser->state, 0, sizeof (struct argp_state));
|
||
parser->state.root_argp = parser->argp;
|
||
parser->state.argc = argc;
|
||
parser->state.argv = argv;
|
||
parser->state.flags = flags;
|
||
parser->state.err_stream = stderr;
|
||
parser->state.out_stream = stdout;
|
||
parser->state.next = 0; /* Tell getopt to initialize. */
|
||
parser->state.pstate = parser;
|
||
|
||
parser->try_getopt = 1;
|
||
|
||
/* Call each parser for the first time, giving it a chance to propagate
|
||
values to child parsers. */
|
||
if (parser->groups < parser->egroup)
|
||
parser->groups->input = input;
|
||
for (group = parser->groups;
|
||
group < parser->egroup && (!err || err == EBADKEY);
|
||
group++)
|
||
{
|
||
if (group->parent)
|
||
/* If a child parser, get the initial input value from the parent. */
|
||
group->input = group->parent->child_inputs[group->parent_index];
|
||
|
||
if (!group->parser
|
||
&& group->argp->children && group->argp->children->argp)
|
||
/* For the special case where no parsing function is supplied for an
|
||
argp, propagate its input to its first child, if any (this just
|
||
makes very simple wrapper argps more convenient). */
|
||
group->child_inputs[0] = group->input;
|
||
|
||
err = group_parse (group, &parser->state, ARGP_KEY_INIT, 0);
|
||
}
|
||
if (err == EBADKEY)
|
||
err = 0; /* Some parser didn't understand. */
|
||
|
||
if (err)
|
||
return err;
|
||
|
||
if (parser->state.flags & ARGP_NO_ERRS)
|
||
{
|
||
parser->opt_data.opterr = 0;
|
||
if (parser->state.flags & ARGP_PARSE_ARGV0)
|
||
/* getopt always skips ARGV[0], so we have to fake it out. As long
|
||
as OPTERR is 0, then it shouldn't actually try to access it. */
|
||
parser->state.argv--, parser->state.argc++;
|
||
}
|
||
else
|
||
parser->opt_data.opterr = 1; /* Print error messages. */
|
||
|
||
if (parser->state.argv == argv && argv[0])
|
||
/* There's an argv[0]; use it for messages. */
|
||
{
|
||
char *short_name = strrchr (argv[0], '/');
|
||
parser->state.name = short_name ? short_name + 1 : argv[0];
|
||
}
|
||
else
|
||
parser->state.name = __argp_short_program_name ();
|
||
|
||
return 0;
|
||
}
|
||
|
||
/* Free any storage consumed by PARSER (but not PARSER itself). */
|
||
static error_t
|
||
parser_finalize (struct parser *parser,
|
||
error_t err, int arg_ebadkey, int *end_index)
|
||
{
|
||
struct group *group;
|
||
|
||
if (err == EBADKEY && arg_ebadkey)
|
||
/* Suppress errors generated by unparsed arguments. */
|
||
err = 0;
|
||
|
||
if (! err)
|
||
{
|
||
if (parser->state.next == parser->state.argc)
|
||
/* We successfully parsed all arguments! Call all the parsers again,
|
||
just a few more times... */
|
||
{
|
||
for (group = parser->groups;
|
||
group < parser->egroup && (!err || err==EBADKEY);
|
||
group++)
|
||
if (group->args_processed == 0)
|
||
err = group_parse (group, &parser->state, ARGP_KEY_NO_ARGS, 0);
|
||
for (group = parser->egroup - 1;
|
||
group >= parser->groups && (!err || err==EBADKEY);
|
||
group--)
|
||
err = group_parse (group, &parser->state, ARGP_KEY_END, 0);
|
||
|
||
if (err == EBADKEY)
|
||
err = 0; /* Some parser didn't understand. */
|
||
|
||
/* Tell the user that all arguments are parsed. */
|
||
if (end_index)
|
||
*end_index = parser->state.next;
|
||
}
|
||
else if (end_index)
|
||
/* Return any remaining arguments to the user. */
|
||
*end_index = parser->state.next;
|
||
else
|
||
/* No way to return the remaining arguments, they must be bogus. */
|
||
{
|
||
if (!(parser->state.flags & ARGP_NO_ERRS)
|
||
&& parser->state.err_stream)
|
||
fprintf (parser->state.err_stream,
|
||
dgettext (parser->argp->argp_domain,
|
||
"%s: Too many arguments\n"),
|
||
parser->state.name);
|
||
err = EBADKEY;
|
||
}
|
||
}
|
||
|
||
/* Okay, we're all done, with either an error or success; call the parsers
|
||
to indicate which one. */
|
||
|
||
if (err)
|
||
{
|
||
/* Maybe print an error message. */
|
||
if (err == EBADKEY)
|
||
/* An appropriate message describing what the error was should have
|
||
been printed earlier. */
|
||
__argp_state_help (&parser->state, parser->state.err_stream,
|
||
ARGP_HELP_STD_ERR);
|
||
|
||
/* Since we didn't exit, give each parser an error indication. */
|
||
for (group = parser->groups; group < parser->egroup; group++)
|
||
group_parse (group, &parser->state, ARGP_KEY_ERROR, 0);
|
||
}
|
||
else
|
||
/* Notify parsers of success, and propagate back values from parsers. */
|
||
{
|
||
/* We pass over the groups in reverse order so that child groups are
|
||
given a chance to do there processing before passing back a value to
|
||
the parent. */
|
||
for (group = parser->egroup - 1
|
||
; group >= parser->groups && (!err || err == EBADKEY)
|
||
; group--)
|
||
err = group_parse (group, &parser->state, ARGP_KEY_SUCCESS, 0);
|
||
if (err == EBADKEY)
|
||
err = 0; /* Some parser didn't understand. */
|
||
}
|
||
|
||
/* Call parsers once more, to do any final cleanup. Errors are ignored. */
|
||
for (group = parser->egroup - 1; group >= parser->groups; group--)
|
||
group_parse (group, &parser->state, ARGP_KEY_FINI, 0);
|
||
|
||
if (err == EBADKEY)
|
||
err = EINVAL;
|
||
|
||
free (parser->storage);
|
||
|
||
return err;
|
||
}
|
||
|
||
/* Call the user parsers to parse the non-option argument VAL, at the current
|
||
position, returning any error. The state NEXT pointer is assumed to have
|
||
been adjusted (by getopt) to point after this argument; this function will
|
||
adjust it correctly to reflect however many args actually end up being
|
||
consumed. */
|
||
static error_t
|
||
parser_parse_arg (struct parser *parser, char *val)
|
||
{
|
||
/* Save the starting value of NEXT, first adjusting it so that the arg
|
||
we're parsing is again the front of the arg vector. */
|
||
int index = --parser->state.next;
|
||
error_t err = EBADKEY;
|
||
struct group *group;
|
||
int key = 0; /* Which of ARGP_KEY_ARG[S] we used. */
|
||
|
||
/* Try to parse the argument in each parser. */
|
||
for (group = parser->groups
|
||
; group < parser->egroup && err == EBADKEY
|
||
; group++)
|
||
{
|
||
parser->state.next++; /* For ARGP_KEY_ARG, consume the arg. */
|
||
key = ARGP_KEY_ARG;
|
||
err = group_parse (group, &parser->state, key, val);
|
||
|
||
if (err == EBADKEY)
|
||
/* This parser doesn't like ARGP_KEY_ARG; try ARGP_KEY_ARGS instead. */
|
||
{
|
||
parser->state.next--; /* For ARGP_KEY_ARGS, put back the arg. */
|
||
key = ARGP_KEY_ARGS;
|
||
err = group_parse (group, &parser->state, key, 0);
|
||
}
|
||
}
|
||
|
||
if (! err)
|
||
{
|
||
if (key == ARGP_KEY_ARGS)
|
||
/* The default for ARGP_KEY_ARGS is to assume that if NEXT isn't
|
||
changed by the user, *all* arguments should be considered
|
||
consumed. */
|
||
parser->state.next = parser->state.argc;
|
||
|
||
if (parser->state.next > index)
|
||
/* Remember that we successfully processed a non-option
|
||
argument -- but only if the user hasn't gotten tricky and set
|
||
the clock back. */
|
||
(--group)->args_processed += (parser->state.next - index);
|
||
else
|
||
/* The user wants to reparse some args, give getopt another try. */
|
||
parser->try_getopt = 1;
|
||
}
|
||
|
||
return err;
|
||
}
|
||
|
||
/* Call the user parsers to parse the option OPT, with argument VAL, at the
|
||
current position, returning any error. */
|
||
static error_t
|
||
parser_parse_opt (struct parser *parser, int opt, char *val)
|
||
{
|
||
/* The group key encoded in the high bits; 0 for short opts or
|
||
group_number + 1 for long opts. */
|
||
int group_key = opt >> USER_BITS;
|
||
error_t err = EBADKEY;
|
||
|
||
if (group_key == 0)
|
||
/* A short option. By comparing OPT's position in SHORT_OPTS to the
|
||
various starting positions in each group's SHORT_END field, we can
|
||
determine which group OPT came from. */
|
||
{
|
||
struct group *group;
|
||
char *short_index = strchr (parser->short_opts, opt);
|
||
|
||
if (short_index)
|
||
for (group = parser->groups; group < parser->egroup; group++)
|
||
if (group->short_end > short_index)
|
||
{
|
||
err = group_parse (group, &parser->state, opt,
|
||
parser->opt_data.optarg);
|
||
break;
|
||
}
|
||
}
|
||
else
|
||
/* A long option. We use shifts instead of masking for extracting
|
||
the user value in order to preserve the sign. */
|
||
err =
|
||
group_parse (&parser->groups[group_key - 1], &parser->state,
|
||
(opt << GROUP_BITS) >> GROUP_BITS,
|
||
parser->opt_data.optarg);
|
||
|
||
if (err == EBADKEY)
|
||
/* At least currently, an option not recognized is an error in the
|
||
parser, because we pre-compute which parser is supposed to deal
|
||
with each option. */
|
||
{
|
||
static const char bad_key_err[] =
|
||
N_("(PROGRAM ERROR) Option should have been recognized!?");
|
||
if (group_key == 0)
|
||
__argp_error (&parser->state, "-%c: %s", opt,
|
||
dgettext (parser->argp->argp_domain, bad_key_err));
|
||
else
|
||
{
|
||
struct option *long_opt = parser->long_opts;
|
||
while (long_opt->val != opt && long_opt->name)
|
||
long_opt++;
|
||
__argp_error (&parser->state, "--%s: %s",
|
||
long_opt->name ? long_opt->name : "???",
|
||
dgettext (parser->argp->argp_domain, bad_key_err));
|
||
}
|
||
}
|
||
|
||
return err;
|
||
}
|
||
|
||
/* Parse the next argument in PARSER (as indicated by PARSER->state.next).
|
||
Any error from the parsers is returned, and *ARGP_EBADKEY indicates
|
||
whether a value of EBADKEY is due to an unrecognized argument (which is
|
||
generally not fatal). */
|
||
static error_t
|
||
parser_parse_next (struct parser *parser, int *arg_ebadkey)
|
||
{
|
||
int opt;
|
||
error_t err = 0;
|
||
|
||
if (parser->state.quoted && parser->state.next < parser->state.quoted)
|
||
/* The next argument pointer has been moved to before the quoted
|
||
region, so pretend we never saw the quoting `--', and give getopt
|
||
another chance. If the user hasn't removed it, getopt will just
|
||
process it again. */
|
||
parser->state.quoted = 0;
|
||
|
||
if (parser->try_getopt && !parser->state.quoted)
|
||
/* Give getopt a chance to parse this. */
|
||
{
|
||
/* Put it back in OPTIND for getopt. */
|
||
parser->opt_data.optind = parser->state.next;
|
||
/* Distinguish KEY_ERR from a real option. */
|
||
parser->opt_data.optopt = KEY_END;
|
||
if (parser->state.flags & ARGP_LONG_ONLY)
|
||
opt = _getopt_long_only_r (parser->state.argc, parser->state.argv,
|
||
parser->short_opts, parser->long_opts, 0,
|
||
&parser->opt_data);
|
||
else
|
||
opt = _getopt_long_r (parser->state.argc, parser->state.argv,
|
||
parser->short_opts, parser->long_opts, 0,
|
||
&parser->opt_data);
|
||
/* And see what getopt did. */
|
||
parser->state.next = parser->opt_data.optind;
|
||
|
||
if (opt == KEY_END)
|
||
/* Getopt says there are no more options, so stop using
|
||
getopt; we'll continue if necessary on our own. */
|
||
{
|
||
parser->try_getopt = 0;
|
||
if (parser->state.next > 1
|
||
&& strcmp (parser->state.argv[parser->state.next - 1], QUOTE)
|
||
== 0)
|
||
/* Not only is this the end of the options, but it's a
|
||
`quoted' region, which may have args that *look* like
|
||
options, so we definitely shouldn't try to use getopt past
|
||
here, whatever happens. */
|
||
parser->state.quoted = parser->state.next;
|
||
}
|
||
else if (opt == KEY_ERR && parser->opt_data.optopt != KEY_END)
|
||
/* KEY_ERR can have the same value as a valid user short
|
||
option, but in the case of a real error, getopt sets OPTOPT
|
||
to the offending character, which can never be KEY_END. */
|
||
{
|
||
*arg_ebadkey = 0;
|
||
return EBADKEY;
|
||
}
|
||
}
|
||
else
|
||
opt = KEY_END;
|
||
|
||
if (opt == KEY_END)
|
||
{
|
||
/* We're past what getopt considers the options. */
|
||
if (parser->state.next >= parser->state.argc
|
||
|| (parser->state.flags & ARGP_NO_ARGS))
|
||
/* Indicate that we're done. */
|
||
{
|
||
*arg_ebadkey = 1;
|
||
return EBADKEY;
|
||
}
|
||
else
|
||
/* A non-option arg; simulate what getopt might have done. */
|
||
{
|
||
opt = KEY_ARG;
|
||
parser->opt_data.optarg = parser->state.argv[parser->state.next++];
|
||
}
|
||
}
|
||
|
||
if (opt == KEY_ARG)
|
||
/* A non-option argument; try each parser in turn. */
|
||
err = parser_parse_arg (parser, parser->opt_data.optarg);
|
||
else
|
||
err = parser_parse_opt (parser, opt, parser->opt_data.optarg);
|
||
|
||
if (err == EBADKEY)
|
||
*arg_ebadkey = (opt == KEY_END || opt == KEY_ARG);
|
||
|
||
return err;
|
||
}
|
||
|
||
/* Parse the options strings in ARGC & ARGV according to the argp in ARGP.
|
||
FLAGS is one of the ARGP_ flags above. If END_INDEX is non-NULL, the
|
||
index in ARGV of the first unparsed option is returned in it. If an
|
||
unknown option is present, EINVAL is returned; if some parser routine
|
||
returned a non-zero value, it is returned; otherwise 0 is returned. */
|
||
error_t
|
||
__argp_parse (const struct argp *argp, int argc, char **argv, unsigned flags,
|
||
int *end_index, void *input)
|
||
{
|
||
error_t err;
|
||
struct parser parser;
|
||
|
||
/* If true, then err == EBADKEY is a result of a non-option argument failing
|
||
to be parsed (which in some cases isn't actually an error). */
|
||
int arg_ebadkey = 0;
|
||
|
||
if (! (flags & ARGP_NO_HELP))
|
||
/* Add our own options. */
|
||
{
|
||
struct argp_child *child = alloca (4 * sizeof (struct argp_child));
|
||
struct argp *top_argp = alloca (sizeof (struct argp));
|
||
|
||
/* TOP_ARGP has no options, it just serves to group the user & default
|
||
argps. */
|
||
memset (top_argp, 0, sizeof (*top_argp));
|
||
top_argp->children = child;
|
||
|
||
memset (child, 0, 4 * sizeof (struct argp_child));
|
||
|
||
if (argp)
|
||
(child++)->argp = argp;
|
||
(child++)->argp = &argp_default_argp;
|
||
if (argp_program_version || argp_program_version_hook)
|
||
(child++)->argp = &argp_version_argp;
|
||
child->argp = 0;
|
||
|
||
argp = top_argp;
|
||
}
|
||
|
||
/* Construct a parser for these arguments. */
|
||
err = parser_init (&parser, argp, argc, argv, flags, input);
|
||
|
||
if (! err)
|
||
/* Parse! */
|
||
{
|
||
while (! err)
|
||
err = parser_parse_next (&parser, &arg_ebadkey);
|
||
err = parser_finalize (&parser, err, arg_ebadkey, end_index);
|
||
}
|
||
|
||
return err;
|
||
}
|
||
#ifdef weak_alias
|
||
weak_alias (__argp_parse, argp_parse)
|
||
#endif
|
||
|
||
/* Return the input field for ARGP in the parser corresponding to STATE; used
|
||
by the help routines. */
|
||
void *
|
||
__argp_input (const struct argp *argp, const struct argp_state *state)
|
||
{
|
||
if (state)
|
||
{
|
||
struct group *group;
|
||
struct parser *parser = state->pstate;
|
||
|
||
for (group = parser->groups; group < parser->egroup; group++)
|
||
if (group->argp == argp)
|
||
return group->input;
|
||
}
|
||
|
||
return 0;
|
||
}
|
||
#ifdef weak_alias
|
||
weak_alias (__argp_input, _argp_input)
|
||
#endif
|