/* -*- buffer-read-only: t -*- vi: set ro:
*
* DO NOT EDIT THIS FILE (options.h)
*
* It has been AutoGen-ed April 29, 2011 at 03:44:02 PM by AutoGen 5.11.9
* From the definitions funcs.def
* and the template file options_h
*
* This file defines all the global structures and special values
* used in the automated option processing library.
*
* Automated Options Copyright (C) 1992-2011 by Bruce Korb
*
* AutoOpts is free software: you can redistribute it and/or modify it
* under the terms of the GNU Lesser General Public License as published
* by the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* AutoOpts is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
* See the GNU Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.";
*/
#ifndef AUTOOPTS_OPTIONS_H_GUARD
#define AUTOOPTS_OPTIONS_H_GUARD 1
#include <sys/types.h>
#include <stdio.h>
#if defined(HAVE_STDINT_H)
# include <stdint.h>
#elif defined(HAVE_INTTYPES_H)
# include <inttypes.h>
#endif /* HAVE_STDINT/INTTYPES_H */
#if defined(HAVE_LIMITS_H)
# include <limits.h>
#elif defined(HAVE_SYS_LIMITS_H)
# include <sys/limits.h>
#endif /* HAVE_LIMITS/SYS_LIMITS_H */
#if defined(HAVE_SYSEXITS_H)
# include <sysexits.h>
#endif /* HAVE_SYSEXITS_H */
#ifndef EX_USAGE
# define EX_USAGE 64
#endif
/*
* PUBLIC DEFINES
*
* The following defines may be used in applications that need to test the
* state of an option. To test against these masks and values, a pointer
* to an option descriptor must be obtained. There are two ways:
*
* 1. inside an option processing procedure, it is the second argument,
* conventionally "tOptDesc* pOD".
*
* 2. Outside of an option procedure (or to reference a different option
* descriptor), use either "&DESC( opt_name )" or "&pfx_DESC( opt_name )".
*
* See the relevant generated header file to determine which and what
* values for "opt_name" are available.
*/
#define OPTIONS_STRUCT_VERSION 143360
#define OPTIONS_VERSION_STRING "35:0:10"
#define OPTIONS_MINIMUM_VERSION 102400
#define OPTIONS_MIN_VER_STRING "25:0:0"
typedef enum {
OPARG_TYPE_NONE = 0,
OPARG_TYPE_STRING = 1, /* default type/ vanilla string */
OPARG_TYPE_ENUMERATION = 2, /* opt arg is an enum (keyword list) */
OPARG_TYPE_BOOLEAN = 3, /* opt arg is boolean-valued */
OPARG_TYPE_MEMBERSHIP = 4, /* opt arg sets set membership bits */
OPARG_TYPE_NUMERIC = 5, /* opt arg is a long int */
OPARG_TYPE_HIERARCHY = 6, /* option arg is hierarchical value */
OPARG_TYPE_FILE = 7, /* option arg names a file */
OPARG_TYPE_TIME = 8, /* opt arg is a time duration */
OPARG_TYPE_FLOAT = 9, /* opt arg is a floating point num */
OPARG_TYPE_DOUBLE = 10, /* opt arg is a double prec. float */
OPARG_TYPE_LONG_DOUBLE = 11, /* opt arg is a long double prec. */
OPARG_TYPE_LONG_LONG = 12 /* opt arg is a long long int */
} teOptArgType;
typedef struct optionValue {
teOptArgType valType;
char* pzName;
union {
char strVal[1]; /* OPARG_TYPE_STRING */
unsigned int enumVal; /* OPARG_TYPE_ENUMERATION */
unsigned int boolVal; /* OPARG_TYPE_BOOLEAN */
unsigned long setVal; /* OPARG_TYPE_MEMBERSHIP */
long longVal; /* OPARG_TYPE_NUMERIC */
void* nestVal; /* OPARG_TYPE_HIERARCHY */
} v;
} tOptionValue;
typedef enum {
FTYPE_MODE_MAY_EXIST = 0x00,
FTYPE_MODE_MUST_EXIST = 0x01,
FTYPE_MODE_MUST_NOT_EXIST = 0x02,
FTYPE_MODE_EXIST_MASK = 0x03,
FTYPE_MODE_NO_OPEN = 0x00,
FTYPE_MODE_OPEN_FD = 0x10,
FTYPE_MODE_FOPEN_FP = 0x20,
FTYPE_MODE_OPEN_MASK = 0x30
} teOptFileType;
typedef union {
int file_flags;
char const * file_mode;
} tuFileMode;
typedef struct argList tArgList;
#define MIN_ARG_ALLOC_CT 6
#define INCR_ARG_ALLOC_CT 8
struct argList {
int useCt;
int allocCt;
char const * apzArgs[MIN_ARG_ALLOC_CT];
};
/*
* Bits in the fOptState option descriptor field.
*/
typedef enum {
OPTST_SET_ID = 0, /* Set via the "SET_OPT()" macro */
OPTST_PRESET_ID = 1, /* Set via an RC/INI file */
OPTST_DEFINED_ID = 2, /* Set via a command line option */
OPTST_RESET_ID = 3, /* Reset via command line option */
OPTST_EQUIVALENCE_ID = 4, /* selected by equiv'ed option */
OPTST_DISABLED_ID = 5, /* option is in disabled state */
OPTST_ALLOC_ARG_ID = 6, /* pzOptArg was allocated */
OPTST_NO_INIT_ID = 8, /* option cannot be preset */
OPTST_NUMBER_OPT_ID = 9, /* opt value (flag) is any digit */
OPTST_STACKED_ID = 10, /* opt uses optionStackArg proc */
OPTST_INITENABLED_ID = 11, /* option defaults to enabled */
OPTST_ARG_TYPE_1_ID = 12, /* bit 1 of arg type enum */
OPTST_ARG_TYPE_2_ID = 13, /* bit 2 of arg type enum */
OPTST_ARG_TYPE_3_ID = 14, /* bit 3 of arg type enum */
OPTST_ARG_TYPE_4_ID = 15, /* bit 4 of arg type enum */
OPTST_ARG_OPTIONAL_ID = 16, /* the option arg not required */
OPTST_IMM_ID = 17, /* process opt on first pass */
OPTST_DISABLE_IMM_ID = 18, /* process disablement immed. */
OPTST_OMITTED_ID = 19, /* compiled out of program */
OPTST_MUST_SET_ID = 20, /* must be set or pre-set */
OPTST_DOCUMENT_ID = 21, /* opt is for doc only */
OPTST_TWICE_ID = 22, /* process opt twice - imm + reg */
OPTST_DISABLE_TWICE_ID = 23, /* process disabled option twice */
OPTST_SCALED_NUM_ID = 24, /* scaled integer value */
OPTST_NO_COMMAND_ID = 25, /* disable from cmd line */
OPTST_DEPRECATED_ID = 26 /* support is being removed */
} opt_state_enum_t;
#define OPTST_INIT 0U
#define OPTST_SET (1U << OPTST_SET_ID)
#define OPTST_PRESET (1U << OPTST_PRESET_ID)
#define OPTST_DEFINED (1U << OPTST_DEFINED_ID)
#define OPTST_RESET (1U << OPTST_RESET_ID)
#define OPTST_EQUIVALENCE (1U << OPTST_EQUIVALENCE_ID)
#define OPTST_DISABLED (1U << OPTST_DISABLED_ID)
#define OPTST_ALLOC_ARG (1U << OPTST_ALLOC_ARG_ID)
#define OPTST_NO_INIT (1U << OPTST_NO_INIT_ID)
#define OPTST_NUMBER_OPT (1U << OPTST_NUMBER_OPT_ID)
#define OPTST_STACKED (1U << OPTST_STACKED_ID)
#define OPTST_INITENABLED (1U << OPTST_INITENABLED_ID)
#define OPTST_ARG_TYPE_1 (1U << OPTST_ARG_TYPE_1_ID)
#define OPTST_ARG_TYPE_2 (1U << OPTST_ARG_TYPE_2_ID)
#define OPTST_ARG_TYPE_3 (1U << OPTST_ARG_TYPE_3_ID)
#define OPTST_ARG_TYPE_4 (1U << OPTST_ARG_TYPE_4_ID)
#define OPTST_ARG_OPTIONAL (1U << OPTST_ARG_OPTIONAL_ID)
#define OPTST_IMM (1U << OPTST_IMM_ID)
#define OPTST_DISABLE_IMM (1U << OPTST_DISABLE_IMM_ID)
#define OPTST_OMITTED (1U << OPTST_OMITTED_ID)
#define OPTST_MUST_SET (1U << OPTST_MUST_SET_ID)
#define OPTST_DOCUMENT (1U << OPTST_DOCUMENT_ID)
#define OPTST_TWICE (1U << OPTST_TWICE_ID)
#define OPTST_DISABLE_TWICE (1U << OPTST_DISABLE_TWICE_ID)
#define OPTST_SCALED_NUM (1U << OPTST_SCALED_NUM_ID)
#define OPTST_NO_COMMAND (1U << OPTST_NO_COMMAND_ID)
#define OPTST_DEPRECATED (1U << OPTST_DEPRECATED_ID)
#define OPT_STATE_MASK 0x07FFFF7FU
#define OPTST_SET_MASK ( \
OPTST_DEFINED | OPTST_PRESET | OPTST_RESET | \
OPTST_SET \
/* 0x0000000FU */ )
#define OPTST_MUTABLE_MASK ( \
OPTST_ALLOC_ARG | OPTST_DEFINED | \
OPTST_DISABLED | OPTST_EQUIVALENCE | \
OPTST_PRESET | OPTST_RESET | \
OPTST_SET \
/* 0x0000007FU */ )
#define OPTST_SELECTED_MASK ( \
OPTST_DEFINED | OPTST_SET \
/* 0x00000005U */ )
#define OPTST_ARG_TYPE_MASK ( \
OPTST_ARG_TYPE_1 | OPTST_ARG_TYPE_2 | OPTST_ARG_TYPE_3 | \
OPTST_ARG_TYPE_4 \
/* 0x0000F000U */ )
#define OPTST_DO_NOT_SAVE_MASK ( \
OPTST_DOCUMENT | OPTST_NO_INIT | OPTST_OMITTED \
/* 0x00280100U */ )
#define OPTST_NO_USAGE_MASK ( \
OPTST_DEPRECATED | OPTST_NO_COMMAND | OPTST_OMITTED \
/* 0x06080000U */ )
#ifdef NO_OPTIONAL_OPT_ARGS
# undef OPTST_ARG_OPTIONAL
# define OPTST_ARG_OPTIONAL 0
#endif
#define OPTST_PERSISTENT_MASK (~OPTST_MUTABLE_MASK)
#define SELECTED_OPT(_od) ((_od)->fOptState & OPTST_SELECTED_MASK)
#define UNUSED_OPT( _od) (((_od)->fOptState & OPTST_SET_MASK) == 0)
#define DISABLED_OPT(_od) ((_od)->fOptState & OPTST_DISABLED)
#define OPTION_STATE(_od) ((_od)->fOptState)
#define OPTST_SET_ARGTYPE(_n) ((_n) << OPTST_ARG_TYPE_1_ID)
#define OPTST_GET_ARGTYPE(_f) (((_f)&OPTST_ARG_TYPE_MASK)>>OPTST_ARG_TYPE_1_ID)
/*
* PRIVATE INTERFACES
*
* The following values are used in the generated code to communicate
* with the option library procedures. They are not for public use
* and may be subject to change.
*/
/*
* Define the processing state flags
*/
typedef enum {
OPTPROC_LONGOPT_ID = 0, /* Process long style options */
OPTPROC_SHORTOPT_ID = 1, /* Process short style "flags" */
OPTPROC_ERRSTOP_ID = 2, /* Stop on argument errors */
OPTPROC_DISABLEDOPT_ID = 3, /* Current option is disabled */
OPTPROC_NO_REQ_OPT_ID = 4, /* no options are required */
OPTPROC_NUM_OPT_ID = 5, /* there is a number option */
OPTPROC_INITDONE_ID = 6, /* have inits been done? */
OPTPROC_NEGATIONS_ID = 7, /* any negation options? */
OPTPROC_ENVIRON_ID = 8, /* check environment? */
OPTPROC_NO_ARGS_ID = 9, /* Disallow remaining arguments */
OPTPROC_ARGS_REQ_ID = 10, /* Require args after options */
OPTPROC_REORDER_ID = 11, /* reorder operands after opts */
OPTPROC_GNUUSAGE_ID = 12, /* emit usage in GNU style */
OPTPROC_TRANSLATE_ID = 13, /* Translate strings in tOptions */
OPTPROC_MISUSE_ID = 14, /* no usage on usage error */
OPTPROC_NXLAT_OPT_CFG_ID = 16, /* suppress for config only */
OPTPROC_NXLAT_OPT_ID = 17, /* suppress xlation always */
OPTPROC_PRESETTING_ID = 19 /* opt processing in preset state */
} optproc_state_enum_t;
#define OPTPROC_NONE 0U
#define OPTPROC_LONGOPT (1U << OPTPROC_LONGOPT_ID)
#define OPTPROC_SHORTOPT (1U << OPTPROC_SHORTOPT_ID)
#define OPTPROC_ERRSTOP (1U << OPTPROC_ERRSTOP_ID)
#define OPTPROC_DISABLEDOPT (1U << OPTPROC_DISABLEDOPT_ID)
#define OPTPROC_NO_REQ_OPT (1U << OPTPROC_NO_REQ_OPT_ID)
#define OPTPROC_NUM_OPT (1U << OPTPROC_NUM_OPT_ID)
#define OPTPROC_INITDONE (1U << OPTPROC_INITDONE_ID)
#define OPTPROC_NEGATIONS (1U << OPTPROC_NEGATIONS_ID)
#define OPTPROC_ENVIRON (1U << OPTPROC_ENVIRON_ID)
#define OPTPROC_NO_ARGS (1U << OPTPROC_NO_ARGS_ID)
#define OPTPROC_ARGS_REQ (1U << OPTPROC_ARGS_REQ_ID)
#define OPTPROC_REORDER (1U << OPTPROC_REORDER_ID)
#define OPTPROC_GNUUSAGE (1U << OPTPROC_GNUUSAGE_ID)
#define OPTPROC_TRANSLATE (1U << OPTPROC_TRANSLATE_ID)
#define OPTPROC_MISUSE (1U << OPTPROC_MISUSE_ID)
#define OPTPROC_NXLAT_OPT_CFG (1U << OPTPROC_NXLAT_OPT_CFG_ID)
#define OPTPROC_NXLAT_OPT (1U << OPTPROC_NXLAT_OPT_ID)
#define OPTPROC_PRESETTING (1U << OPTPROC_PRESETTING_ID)
#define OPTPROC_STATE_MASK 0x000B7FFFU
#define OPTPROC_NO_XLAT_MASK ( \
OPTPROC_NXLAT_OPT | OPTPROC_NXLAT_OPT_CFG \
/* 0x00030000U */ )
#define STMTS(s) do { s; } while (0)
/*
* The following must be #defined instead of typedef-ed
* because "static const" cannot both be applied to a type,
* tho each individually can...so they all are
*/
#define tSCC static char const
#define tCC char const
#define tAoSC static char
#define tAoUC unsigned char
#define tAoUI unsigned int
#define tAoUL unsigned long
#define tAoUS unsigned short
/*
* It is so disgusting that there must be so many ways
* of specifying TRUE and FALSE.
*/
typedef enum { AG_FALSE = 0, AG_TRUE } ag_bool;
/*
* Define a structure that describes each option and
* a pointer to the procedure that handles it.
* The argument is the count of this flag previously seen.
*/
typedef struct options tOptions;
typedef struct optDesc tOptDesc;
typedef struct optNames tOptNames;
#define OPTPROC_EMIT_USAGE ((tOptions *)0x01UL)
#define OPTPROC_EMIT_SHELL ((tOptions *)0x02UL)
#define OPTPROC_RETURN_VALNAME ((tOptions *)0x03UL)
#define OPTPROC_EMIT_LIMIT ((tOptions *)0x0FUL)
/*
* The option procedures do the special processing for each
* option flag that needs it.
*/
typedef void (tOptProc)(tOptions* pOpts, tOptDesc* pOptDesc);
typedef tOptProc* tpOptProc;
/*
* The usage procedure will never return. It calls "exit(2)"
* with the "exitCode" argument passed to it.
*/
// coverity[+kill]
typedef void (tUsageProc)(tOptions* pOpts, int exitCode);
typedef tUsageProc* tpUsageProc;
/*
* Special definitions. "NOLIMIT" is the 'max' value to use when
* a flag may appear multiple times without limit. "NO_EQUIVALENT"
* is an illegal value for 'optIndex' (option description index).
*/
#define NOLIMIT USHRT_MAX
#define OPTION_LIMIT SHRT_MAX
#define NO_EQUIVALENT (OPTION_LIMIT+1)
typedef union {
char const * argString;
uintptr_t argEnum;
uintptr_t argIntptr;
long argInt;
unsigned long argUint;
unsigned int argBool;
FILE * argFp;
int argFd;
} optArgBucket_t;
#define pzLastArg optArg.argString
/*
* Descriptor structure for each option.
* Only the fields marked "PUBLIC" are for public use.
*/
struct optDesc {
tAoUS const optIndex; /* PUBLIC */
tAoUS const optValue; /* PUBLIC */
tAoUS optActualIndex; /* PUBLIC */
tAoUS optActualValue; /* PUBLIC */
tAoUS const optEquivIndex; /* PUBLIC */
tAoUS const optMinCt;
tAoUS const optMaxCt;
tAoUS optOccCt; /* PUBLIC */
tAoUI fOptState; /* PUBLIC */
tAoUI reserved;
optArgBucket_t optArg; /* PUBLIC */
void* optCookie; /* PUBLIC */
int const * const pOptMust;
int const * const pOptCant;
tpOptProc const pOptProc;
char const* const pzText;
char const* const pz_NAME;
char const* const pz_Name;
char const* const pz_DisableName;
char const* const pz_DisablePfx;
};
/*
* Some options need special processing, so we store their
* indexes in a known place:
*/
typedef struct optSpecIndex tOptSpecIndex;
struct optSpecIndex {
const tAoUS more_help;
const tAoUS save_opts;
const tAoUS number_option;
const tAoUS default_opt;
};
/*
* The procedure generated for translating option text
*/
typedef void (tOptionXlateProc)(void);
/*
* Everything marked "PUBLIC" is also marked "const".
* Public access is not a license to modify. Other fields
* are used and modified by the library. They are also
* subject to change without any notice. Do not even
* look at these outside of libopts.
*/
struct options {
int const structVersion;
int origArgCt;
char** origArgVect;
unsigned int fOptSet;
unsigned int curOptIdx;
char* pzCurOpt;
char const* const pzProgPath; /* PUBLIC */
char const* const pzProgName; /* PUBLIC */
char const* const pzPROGNAME; /* PUBLIC */
char const* const pzRcName; /* PUBLIC */
char const* const pzCopyright; /* PUBLIC */
char const* const pzCopyNotice; /* PUBLIC */
char const* const pzFullVersion; /* PUBLIC */
char const* const* const papzHomeList;
char const* const pzUsageTitle;
char const* const pzExplain;
char const* const pzDetail;
tOptDesc* const pOptDesc; /* PUBLIC */
char const* const pzBugAddr; /* PUBLIC */
void* pExtensions;
void* pSavedState;
// coverity[+kill]
tpUsageProc pUsageProc;
tOptionXlateProc* pTransProc;
tOptSpecIndex specOptIdx;
int const optCt;
int const presetOptCt;
char const * pzFullUsage;
char const * pzShortUsage;
/* PUBLIC: */
optArgBucket_t const * const originalOptArgArray;
void * const * const originalOptArgCookie;
char const * const pzPkgDataDir;
char const * const pzPackager;
};
/*
* Versions where in various fields first appear:
* ($AO_CURRENT * 4096 + $AO_REVISION, but $AO_REVISION must be zero)
*/
#define originalOptArgArray_STRUCT_VERSION 131072 /* AO_CURRENT = 32 */
#define HAS_originalOptArgArray(_opt) \
((_opt)->structVersion >= originalOptArgArray_STRUCT_VERSION)
#define pzPkgDataDir_STRUCT_VERSION 139264 /* AO_CURRENT = 34 */
#define HAS_pzPkgDataDir(_opt) \
((_opt)->structVersion >= pzPkgDataDir_STRUCT_VERSION)
/*
* "token list" structure returned by "string_tokenize()"
*/
typedef struct {
unsigned long tkn_ct;
unsigned char* tkn_list[1];
} token_list_t;
/*
* Hide the interface - it pollutes a POSIX claim, but leave it for
* anyone #include-ing this header
*/
#define strneqvcmp option_strneqvcmp
#define streqvcmp option_streqvcmp
#define streqvmap option_streqvmap
#define strequate option_strequate
#define strtransform option_strtransform
/*
* This is an output only structure used by text_mmap and text_munmap.
* Clients must not alter the contents and must provide it to both
* the text_mmap and text_munmap procedures. BE ADVISED: if you are
* mapping the file with PROT_WRITE the NUL byte at the end MIGHT NOT
* BE WRITABLE. In any event, that byte is not be written back
* to the source file. ALSO: if "txt_data" is valid and "txt_errno"
* is not zero, then there *may* not be a terminating NUL.
*/
typedef struct {
void* txt_data; /* text file data */
size_t txt_size; /* actual file size */
size_t txt_full_size; /* mmaped mem size */
int txt_fd; /* file descriptor */
int txt_zero_fd; /* fd for /dev/zero */
int txt_errno; /* warning code */
int txt_prot; /* "prot" flags */
int txt_flags; /* mapping type */
int txt_alloc; /* if we malloced memory */
} tmap_info_t;
#define TEXT_MMAP_FAILED_ADDR(a) ((void*)(a) == (void*)MAP_FAILED)
#ifdef __cplusplus
#define CPLUSPLUS_OPENER extern "C" {
CPLUSPLUS_OPENER
#define CPLUSPLUS_CLOSER }
#else
#define CPLUSPLUS_CLOSER
#endif
/*
* The following routines may be coded into AutoOpts client code:
*/
/* From: tokenize.c line 166
*
* ao_string_tokenize - tokenize an input string
*
* Arguments:
* string string to be tokenized
*
* Returns: token_list_t* - pointer to a structure that lists each token
*
* This function will convert one input string into a list of strings.
* The list of strings is derived by separating the input based on
* white space separation. However, if the input contains either single
* or double quote characters, then the text after that character up to
* a matching quote will become the string in the list.
*
* The returned pointer should be deallocated with @code{free(3C)} when
* are done using the data. The data are placed in a single block of
* allocated memory. Do not deallocate individual token/strings.
*
* The structure pointed to will contain at least these two fields:
* @table @samp
* @item tkn_ct
* The number of tokens found in the input string.
* @item tok_list
* An array of @code{tkn_ct + 1} pointers to substring tokens, with
* the last pointer set to NULL.
* @end table
*
* There are two types of quoted strings: single quoted (@code{'}) and
* double quoted (@code{"}). Singly quoted strings are fairly raw in that
* escape characters (@code{\\}) are simply another character, except when
* preceding the following characters:
* @example
* @code{\\} double backslashes reduce to one
* @code{'} incorporates the single quote into the string
* @code{\n} suppresses both the backslash and newline character
* @end example
*
* Double quote strings are formed according to the rules of string
* constants in ANSI-C programs.
*/
extern token_list_t* ao_string_tokenize(char const*);
/* From: configfile.c line 80
*
* configFileLoad - parse a configuration file
*
* Arguments:
* pzFile the file to load
*
* Returns: const tOptionValue* - An allocated, compound value structure
*
* This routine will load a named configuration file and parse the
* text as a hierarchically valued option. The option descriptor
* created from an option definition file is not used via this interface.
* The returned value is "named" with the input file name and is of
* type "@code{OPARG_TYPE_HIERARCHY}". It may be used in calls to
* @code{optionGetValue()}, @code{optionNextValue()} and
* @code{optionUnloadNested()}.
*/
extern const tOptionValue* configFileLoad(char const*);
/* From: configfile.c line 1059
*
* optionFileLoad - Load the locatable config files, in order
*
* Arguments:
* pOpts program options descriptor
* pzProg program name
*
* Returns: int - 0 -> SUCCESS, -1 -> FAILURE
*
* This function looks in all the specified directories for a configuration
* file ("rc" file or "ini" file) and processes any found twice. The first
* time through, they are processed in reverse order (last file first). At
* that time, only "immediate action" configurables are processed. For
* example, if the last named file specifies not processing any more
* configuration files, then no more configuration files will be processed.
* Such an option in the @strong{first} named directory will have no effect.
*
* Once the immediate action configurables have been handled, then the
* directories are handled in normal, forward order. In that way, later
* config files can override the settings of earlier config files.
*
* See the AutoOpts documentation for a thorough discussion of the
* config file format.
*
* Configuration files not found or not decipherable are simply ignored.
*/
extern int optionFileLoad(tOptions*, char const*);
/* From: configfile.c line 212
*
* optionFindNextValue - find a hierarcicaly valued option instance
*
* Arguments:
* pOptDesc an option with a nested arg type
* pPrevVal the last entry
* name name of value to find
* value the matching value
*
* Returns: const tOptionValue* - a compound value structure
*
* This routine will find the next entry in a nested value option or
* configurable. It will search through the list and return the next entry
* that matches the criteria.
*/
extern const tOptionValue* optionFindNextValue(const tOptDesc*, const tOptionValue*, char const*, char const*);
/* From: configfile.c line 138
*
* optionFindValue - find a hierarcicaly valued option instance
*
* Arguments:
* pOptDesc an option with a nested arg type
* name name of value to find
* value the matching value
*
* Returns: const tOptionValue* - a compound value structure
*
* This routine will find an entry in a nested value option or configurable.
* It will search through the list and return a matching entry.
*/
extern const tOptionValue* optionFindValue(const tOptDesc*, char const*, char const*);
/* From: restore.c line 166
*
* optionFree - free allocated option processing memory
*
* Arguments:
* pOpts program options descriptor
*
* AutoOpts sometimes allocates memory and puts pointers to it in the
* option state structures. This routine deallocates all such memory.
*/
extern void optionFree(tOptions*);
/* From: configfile.c line 281
*
* optionGetValue - get a specific value from a hierarcical list
*
* Arguments:
* pOptValue a hierarchcal value
* valueName name of value to get
*
* Returns: const tOptionValue* - a compound value structure
*
* This routine will find an entry in a nested value option or configurable.
* If "valueName" is NULL, then the first entry is returned. Otherwise,
* the first entry with a name that exactly matches the argument will be
* returned.
*/
extern const tOptionValue* optionGetValue(const tOptionValue*, char const*);
/* From: load.c line 478
*
* optionLoadLine - process a string for an option name and value
*
* Arguments:
* pOpts program options descriptor
* pzLine NUL-terminated text
*
* This is a client program callable routine for setting options from, for
* example, the contents of a file that they read in. Only one option may
* appear in the text. It will be treated as a normal (non-preset) option.
*
* When passed a pointer to the option struct and a string, it will find
* the option named by the first token on the string and set the option
* argument to the remainder of the string. The caller must NUL terminate
* the string. Any embedded new lines will be included in the option
* argument. If the input looks like one or more quoted strings, then the
* input will be "cooked". The "cooking" is identical to the string
* formation used in AutoGen definition files (@pxref{basic expression}),
* except that you may not use backquotes.
*/
extern void optionLoadLine(tOptions*, char const*);
/* From: configfile.c line 340
*
* optionNextValue - get the next value from a hierarchical list
*
* Arguments:
* pOptValue a hierarchcal list value
* pOldValue a value from this list
*
* Returns: const tOptionValue* - a compound value structure
*
* This routine will return the next entry after the entry passed in. At the
* end of the list, NULL will be returned. If the entry is not found on the
* list, NULL will be returned and "@var{errno}" will be set to EINVAL.
* The "@var{pOldValue}" must have been gotten from a prior call to this
* routine or to "@code{opitonGetValue()}".
*/
extern const tOptionValue* optionNextValue(const tOptionValue*, const tOptionValue*);
/* From: usage.c line 195
*
* optionOnlyUsage - Print usage text for just the options
*
* Arguments:
* pOpts program options descriptor
* ex_code exit code for calling exit(3)
*
* This routine will print only the usage for each option.
* This function may be used when the emitted usage must incorporate
* information not available to AutoOpts.
*/
extern void optionOnlyUsage(tOptions*, int);
/* From: autoopts.c line 1065
*
* optionProcess - this is the main option processing routine
*
* Arguments:
* pOpts program options descriptor
* argc program arg count
* argv program arg vector
*
* Returns: int - the count of the arguments processed
*
* This is the main entry point for processing options. It is intended
* that this procedure be called once at the beginning of the execution of
* a program. Depending on options selected earlier, it is sometimes
* necessary to stop and restart option processing, or to select completely
* different sets of options. This can be done easily, but you generally
* do not want to do this.
*
* The number of arguments processed always includes the program name.
* If one of the arguments is "--", then it is counted and the processing
* stops. If an error was encountered and errors are to be tolerated, then
* the returned value is the index of the argument causing the error.
* A hyphen by itself ("-") will also cause processing to stop and will
* @emph{not} be counted among the processed arguments. A hyphen by itself
* is treated as an operand. Encountering an operand stops option
* processing.
*/
extern int optionProcess(tOptions*, int, char**);
/* From: restore.c line 123
*
* optionRestore - restore option state from memory copy
*
* Arguments:
* pOpts program options descriptor
*
* Copy back the option state from saved memory.
* The allocated memory is left intact, so this routine can be
* called repeatedly without having to call optionSaveState again.
* If you are restoring a state that was saved before the first call
* to optionProcess(3AO), then you may change the contents of the
* argc/argv parameters to optionProcess.
*/
extern void optionRestore(tOptions*);
/* From: save.c line 664
*
* optionSaveFile - saves the option state to a file
*
* Arguments:
* pOpts program options descriptor
*
* This routine will save the state of option processing to a file. The name
* of that file can be specified with the argument to the @code{--save-opts}
* option, or by appending the @code{rcfile} attribute to the last
* @code{homerc} attribute. If no @code{rcfile} attribute was specified, it
* will default to @code{.@i{programname}rc}. If you wish to specify another
* file, you should invoke the @code{SET_OPT_SAVE_OPTS(@i{filename})} macro.
*
* The recommend usage is as follows:
* @example
* optionProcess(&progOptions, argc, argv);
* if (i_want_a_non_standard_place_for_this)
* SET_OPT_SAVE_OPTS("myfilename");
* optionSaveFile(&progOptions);
* @end example
*/
extern void optionSaveFile(tOptions*);
/* From: restore.c line 71
*
* optionSaveState - saves the option state to memory
*
* Arguments:
* pOpts program options descriptor
*
* This routine will allocate enough memory to save the current option
* processing state. If this routine has been called before, that memory
* will be reused. You may only save one copy of the option state. This
* routine may be called before optionProcess(3AO). If you do call it
* before the first call to optionProcess, then you may also change the
* contents of argc/argv after you call optionRestore(3AO)
*
* In fact, more strongly put: it is safest to only use this function
* before having processed any options. In particular, the saving and
* restoring of stacked string arguments and hierarchical values is
* disabled. The values are not saved.
*/
extern void optionSaveState(tOptions*);
/* From: nested.c line 551
*
* optionUnloadNested - Deallocate the memory for a nested value
*
* Arguments:
* pOptVal the hierarchical value
*
* A nested value needs to be deallocated. The pointer passed in should
* have been gotten from a call to @code{configFileLoad()} (See
* @pxref{libopts-configFileLoad}).
*/
extern void optionUnloadNested(tOptionValue const *);
/* From: version.c line 31
*
* optionVersion - return the compiled AutoOpts version number
*
* Returns: char const* - the version string in constant memory
*
* Returns the full version string compiled into the library.
* The returned string cannot be modified.
*/
extern char const* optionVersion(void);
/* From: ../compat/pathfind.c line 29
*
* pathfind - fild a file in a list of directories
*
* Arguments:
* path colon separated list of search directories
* file the name of the file to look for
* mode the mode bits that must be set to match
*
* Returns: char* - the path to the located file
*
* the pathfind function is available only if HAVE_PATHFIND is not defined
*
* pathfind looks for a a file with name "FILE" and "MODE" access
* along colon delimited "PATH", and returns the full pathname as a
* string, or NULL if not found. If "FILE" contains a slash, then
* it is treated as a relative or absolute path and "PATH" is ignored.
*
* @strong{NOTE}: this function is compiled into @file{libopts} only if
* it is not natively supplied.
*
* The "MODE" argument is a string of option letters chosen from the
* list below:
* @example
* Letter Meaning
* r readable
* w writable
* x executable
* f normal file (NOT IMPLEMENTED)
* b block special (NOT IMPLEMENTED)
* c character special (NOT IMPLEMENTED)
* d directory (NOT IMPLEMENTED)
* p FIFO (pipe) (NOT IMPLEMENTED)
* u set user ID bit (NOT IMPLEMENTED)
* g set group ID bit (NOT IMPLEMENTED)
* k sticky bit (NOT IMPLEMENTED)
* s size nonzero (NOT IMPLEMENTED)
* @end example
*/
#ifndef HAVE_PATHFIND
extern char* pathfind(char const*, char const*, char const*);
#endif /* HAVE_PATHFIND */
/* From: streqvcmp.c line 209
*
* strequate - map a list of characters to the same value
*
* Arguments:
* ch_list characters to equivalence
*
* Each character in the input string get mapped to the first character
* in the string.
* This function name is mapped to option_strequate so as to not conflict
* with the POSIX name space.
*/
extern void strequate(char const*);
/* From: streqvcmp.c line 119
*
* streqvcmp - compare two strings with an equivalence mapping
*
* Arguments:
* str1 first string
* str2 second string
*
* Returns: int - the difference between two differing characters
*
* Using a character mapping, two strings are compared for "equivalence".
* Each input character is mapped to a comparison character and the
* mapped-to characters are compared for the two NUL terminated input strings.
* This function name is mapped to option_streqvcmp so as to not conflict
* with the POSIX name space.
*/
extern int streqvcmp(char const*, char const*);
/* From: streqvcmp.c line 156
*
* streqvmap - Set the character mappings for the streqv functions
*
* Arguments:
* From Input character
* To Mapped-to character
* ct compare length
*
* Set the character mapping. If the count (@code{ct}) is set to zero, then
* the map is cleared by setting all entries in the map to their index
* value. Otherwise, the "@code{From}" character is mapped to the "@code{To}"
* character. If @code{ct} is greater than 1, then @code{From} and @code{To}
* are incremented and the process repeated until @code{ct} entries have been
* set. For example,
* @example
* streqvmap('a', 'A', 26);
* @end example
* @noindent
* will alter the mapping so that all English lower case letters
* will map to upper case.
*
* This function name is mapped to option_streqvmap so as to not conflict
* with the POSIX name space.
*/
extern void streqvmap(char, char, int);
/* From: streqvcmp.c line 78
*
* strneqvcmp - compare two strings with an equivalence mapping
*
* Arguments:
* str1 first string
* str2 second string
* ct compare length
*
* Returns: int - the difference between two differing characters
*
* Using a character mapping, two strings are compared for "equivalence".
* Each input character is mapped to a comparison character and the
* mapped-to characters are compared for the two NUL terminated input strings.
* The comparison is limited to @code{ct} bytes.
* This function name is mapped to option_strneqvcmp so as to not conflict
* with the POSIX name space.
*/
extern int strneqvcmp(char const*, char const*, int);
/* From: streqvcmp.c line 235
*
* strtransform - convert a string into its mapped-to value
*
* Arguments:
* dest output string
* src input string
*
* Each character in the input string is mapped and the mapped-to
* character is put into the output.
* This function name is mapped to option_strtransform so as to not conflict
* with the POSIX name space.
*
* The source and destination may be the same.
*/
extern void strtransform(char*, char const*);
/* AutoOpts PRIVATE FUNCTIONS: */
tOptProc optionStackArg, optionUnstackArg, optionBooleanVal, optionNumericVal;
extern char* ao_string_cook(char*, int*);
extern unsigned int ao_string_cook_escape_char(char const*, char*, unsigned int);
extern void genshelloptUsage(tOptions*, int);
extern void optionBooleanVal(tOptions*, tOptDesc*);
extern uintptr_t optionEnumerationVal(tOptions*, tOptDesc*, char const * const *, unsigned int);
extern void optionFileCheck(tOptions*, tOptDesc*, teOptFileType, tuFileMode);
extern char const * optionKeywordName(tOptDesc*, unsigned int);
extern void optionLoadOpt(tOptions*, tOptDesc*);
extern ag_bool optionMakePath(char*, int, char const*, char const*);
extern void optionNestedVal(tOptions*, tOptDesc*);
extern void optionNumericVal(tOptions*, tOptDesc*);
extern void optionPagedUsage(tOptions*, tOptDesc*);
extern void optionParseShell(tOptions*);
extern void optionPrintVersion(tOptions*, tOptDesc*);
extern void optionPutShell(tOptions*);
extern void optionResetOpt(tOptions*, tOptDesc*);
extern void optionSetMembers(tOptions*, tOptDesc*, char const * const *, unsigned int);
extern void optionShowRange(tOptions*, tOptDesc*, void *, int);
extern void optionStackArg(tOptions*, tOptDesc*);
extern void optionTimeDate(tOptions*, tOptDesc*);
extern void optionTimeVal(tOptions*, tOptDesc*);
extern void optionUnstackArg(tOptions*, tOptDesc*);
extern void optionUsage(tOptions*, int);
extern void optionVersionStderr(tOptions*, tOptDesc*);
extern void* text_mmap(char const*, int, int, tmap_info_t*);
extern int text_munmap(tmap_info_t*);
CPLUSPLUS_CLOSER
#endif /* AUTOOPTS_OPTIONS_H_GUARD */
/*
* Local Variables:
* c-file-style: "stroustrup"
* indent-tabs-mode: nil
* End:
* options.h ends here */
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