freebsd-skq/libopts/usage.c
roberto 7a6072eb58 Import ntp 4.2.4p5 in the vendor code area. Far too many changes to list here,
please see CommitLog for detailed changes.

XXX html/build/hints/solaris.xtra.4095849 is not being imported as it conflicts
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2008-08-18 14:26:05 +00:00

741 lines
21 KiB
C

/*
* usage.c $Id: usage.c,v 4.15 2007/04/28 22:19:23 bkorb Exp $
* Time-stamp: "2007-04-15 11:02:46 bkorb"
*
* This module implements the default usage procedure for
* Automated Options. It may be overridden, of course.
*
* Sort options:
--start=END-[S]TATIC-FORWARD --patt='^/\*($|[^:])' \
--out=xx.c key='^[a-zA-Z0-9_]+\(' --trail='^/\*:' \
--spac=2 --input=usage.c
*/
/*
* Automated Options copyright 1992-2007 Bruce Korb
*
* Automated Options is free software.
* You may redistribute it and/or modify it under the terms of the
* GNU General Public License, as published by the Free Software
* Foundation; either version 2, or (at your option) any later version.
*
* Automated Options 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 General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with Automated Options. See the file "COPYING". If not,
* write to: The Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor,
* Boston, MA 02110-1301, USA.
*
* As a special exception, Bruce Korb gives permission for additional
* uses of the text contained in his release of AutoOpts.
*
* The exception is that, if you link the AutoOpts library with other
* files to produce an executable, this does not by itself cause the
* resulting executable to be covered by the GNU General Public License.
* Your use of that executable is in no way restricted on account of
* linking the AutoOpts library code into it.
*
* This exception does not however invalidate any other reasons why
* the executable file might be covered by the GNU General Public License.
*
* This exception applies only to the code released by Bruce Korb under
* the name AutoOpts. If you copy code from other sources under the
* General Public License into a copy of AutoOpts, as the General Public
* License permits, the exception does not apply to the code that you add
* in this way. To avoid misleading anyone as to the status of such
* modified files, you must delete this exception notice from them.
*
* If you write modifications of your own for AutoOpts, it is your choice
* whether to permit this exception to apply to your modifications.
* If you do not wish that, delete this exception notice.
*/
#define OPTPROC_L_N_S (OPTPROC_LONGOPT | OPTPROC_SHORTOPT)
static arg_types_t argTypes;
FILE* option_usage_fp = NULL;
static char zOptFmtLine[ 16 ];
static ag_bool displayEnum;
/* = = = START-STATIC-FORWARD = = = */
/* static forward declarations maintained by :mkfwd */
static ag_bool
checkGNUUsage( tOptions* pOpts );
static void
printExtendedUsage(
tOptions* pOptions,
tOptDesc* pOD,
arg_types_t* pAT );
static void
printInitList(
tCC* const* papz,
ag_bool* pInitIntro,
tCC* pzRc,
tCC* pzPN );
static void
printOneUsage(
tOptions* pOptions,
tOptDesc* pOD,
arg_types_t* pAT );
static void
printOptionUsage(
tOptions* pOpts,
int ex_code,
tCC* pOptTitle );
static void
printProgramDetails( tOptions* pOptions );
static int
setGnuOptFmts( tOptions* pOpts, tCC** ppT );
static int
setStdOptFmts( tOptions* pOpts, tCC** ppT );
/* = = = END-STATIC-FORWARD = = = */
/*
* Figure out if we should try to format usage text sort-of like
* the way many GNU programs do.
*/
static ag_bool
checkGNUUsage( tOptions* pOpts )
{
char* pz = getenv( "AUTOOPTS_USAGE" );
if (pz == NULL)
;
else if (streqvcmp( pz, "gnu" ) == 0)
pOpts->fOptSet |= OPTPROC_GNUUSAGE;
else if (streqvcmp( pz, "autoopts" ) == 0)
pOpts->fOptSet &= ~OPTPROC_GNUUSAGE;
return (pOpts->fOptSet & OPTPROC_GNUUSAGE) ? AG_TRUE : AG_FALSE;
}
/*=export_func optionOnlyUsage
*
* what: Print usage text for just the options
* arg: + tOptions* + pOpts + program options descriptor +
* arg: + int + ex_code + exit code for calling exit(3) +
*
* doc:
* 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.
=*/
void
optionOnlyUsage(
tOptions* pOpts,
int ex_code )
{
tCC* pOptTitle = NULL;
/*
* Determine which header and which option formatting strings to use
*/
if (checkGNUUsage(pOpts)) {
(void)setGnuOptFmts( pOpts, &pOptTitle );
}
else {
(void)setStdOptFmts( pOpts, &pOptTitle );
}
printOptionUsage( pOpts, ex_code, pOptTitle );
}
/*=export_func optionUsage
* private:
*
* what: Print usage text
* arg: + tOptions* + pOptions + program options descriptor +
* arg: + int + exitCode + exit code for calling exit(3) +
*
* doc:
* This routine will print usage in both GNU-standard and AutoOpts-expanded
* formats. The descriptor specifies the default, but AUTOOPTS_USAGE will
* over-ride this, providing the value of it is set to either "gnu" or
* "autoopts". This routine will @strong{not} return.
*
* If "exitCode" is "EX_USAGE" (normally 64), then output will to to stdout
* and the actual exit code will be "EXIT_SUCCESS".
=*/
void
optionUsage(
tOptions* pOptions,
int usage_exit_code )
{
int actual_exit_code =
(usage_exit_code == EX_USAGE) ? EXIT_SUCCESS : usage_exit_code;
displayEnum = AG_FALSE;
/*
* Paged usage will preset option_usage_fp to an output file.
* If it hasn't already been set, then set it to standard output
* on successful exit (help was requested), otherwise error out.
*/
if (option_usage_fp == NULL)
option_usage_fp = (actual_exit_code != EXIT_SUCCESS) ? stderr : stdout;
fprintf( option_usage_fp, pOptions->pzUsageTitle, pOptions->pzProgName );
{
tCC* pOptTitle = NULL;
/*
* Determine which header and which option formatting strings to use
*/
if (checkGNUUsage(pOptions)) {
int flen = setGnuOptFmts( pOptions, &pOptTitle );
sprintf( zOptFmtLine, zFmtFmt, flen );
fputc( '\n', option_usage_fp );
}
else {
int flen = setStdOptFmts( pOptions, &pOptTitle );
sprintf( zOptFmtLine, zFmtFmt, flen );
/*
* When we exit with EXIT_SUCCESS and the first option is a doc
* option, we do *NOT* want to emit the column headers.
* Otherwise, we do.
*/
if ( (usage_exit_code != EXIT_SUCCESS)
|| ((pOptions->pOptDesc->fOptState & OPTST_DOCUMENT) == 0) )
fputs( pOptTitle, option_usage_fp );
}
printOptionUsage( pOptions, usage_exit_code, pOptTitle );
}
/*
* Describe the mechanics of denoting the options
*/
switch (pOptions->fOptSet & OPTPROC_L_N_S) {
case OPTPROC_L_N_S: fputs( zFlagOkay, option_usage_fp ); break;
case OPTPROC_SHORTOPT: break;
case OPTPROC_LONGOPT: fputs( zNoFlags, option_usage_fp ); break;
case 0: fputs( zOptsOnly, option_usage_fp ); break;
}
if ((pOptions->fOptSet & OPTPROC_NUM_OPT) != 0) {
fputs( zNumberOpt, option_usage_fp );
}
if ((pOptions->fOptSet & OPTPROC_REORDER) != 0) {
fputs( zReorder, option_usage_fp );
}
if (pOptions->pzExplain != NULL)
fputs( pOptions->pzExplain, option_usage_fp );
/*
* IF the user is asking for help (thus exiting with SUCCESS),
* THEN see what additional information we can provide.
*/
if (usage_exit_code == EXIT_SUCCESS)
printProgramDetails( pOptions );
if (pOptions->pzBugAddr != NULL)
fprintf( option_usage_fp, zPlsSendBugs, pOptions->pzBugAddr );
fflush( option_usage_fp );
exit( actual_exit_code );
}
/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
*
* PER OPTION TYPE USAGE INFORMATION
*/
static void
printExtendedUsage(
tOptions* pOptions,
tOptDesc* pOD,
arg_types_t* pAT )
{
/*
* IF there are option conflicts or dependencies,
* THEN print them here.
*/
if ( (pOD->pOptMust != NULL)
|| (pOD->pOptCant != NULL) ) {
fputs( zTabHyp, option_usage_fp );
/*
* DEPENDENCIES:
*/
if (pOD->pOptMust != NULL) {
const int* pOptNo = pOD->pOptMust;
fputs( zReqThese, option_usage_fp );
for (;;) {
fprintf( option_usage_fp, zTabout, pOptions->pOptDesc[
*pOptNo ].pz_Name );
if (*++pOptNo == NO_EQUIVALENT)
break;
}
if (pOD->pOptCant != NULL)
fputs( zTabHypAnd, option_usage_fp );
}
/*
* CONFLICTS:
*/
if (pOD->pOptCant != NULL) {
const int* pOptNo = pOD->pOptCant;
fputs( zProhib, option_usage_fp );
for (;;) {
fprintf( option_usage_fp, zTabout, pOptions->pOptDesc[
*pOptNo ].pz_Name );
if (*++pOptNo == NO_EQUIVALENT)
break;
}
}
}
/*
* IF there is a disablement string
* THEN print the disablement info
*/
if (pOD->pz_DisableName != NULL )
fprintf( option_usage_fp, zDis, pOD->pz_DisableName );
/*
* IF the numeric option has a special callback,
* THEN call it, requesting the range or other special info
*/
if ( (OPTST_GET_ARGTYPE(pOD->fOptState) == OPARG_TYPE_NUMERIC)
&& (pOD->pOptProc != NULL)
&& (pOD->pOptProc != optionNumericVal) ) {
(*(pOD->pOptProc))( pOptions, NULL );
}
/*
* IF the option defaults to being enabled,
* THEN print that out
*/
if (pOD->fOptState & OPTST_INITENABLED)
fputs( zEnab, option_usage_fp );
/*
* IF the option is in an equivalence class
* AND not the designated lead
* THEN print equivalence and leave it at that.
*/
if ( (pOD->optEquivIndex != NO_EQUIVALENT)
&& (pOD->optEquivIndex != pOD->optActualIndex ) ) {
fprintf( option_usage_fp, zAlt,
pOptions->pOptDesc[ pOD->optEquivIndex ].pz_Name );
return;
}
/*
* IF this particular option can NOT be preset
* AND some form of presetting IS allowed,
* AND it is not an auto-managed option (e.g. --help, et al.)
* THEN advise that this option may not be preset.
*/
if ( ((pOD->fOptState & OPTST_NO_INIT) != 0)
&& ( (pOptions->papzHomeList != NULL)
|| (pOptions->pzPROGNAME != NULL)
)
&& (pOD->optIndex < pOptions->presetOptCt)
)
fputs( zNoPreset, option_usage_fp );
/*
* Print the appearance requirements.
*/
if (OPTST_GET_ARGTYPE(pOD->fOptState) == OPARG_TYPE_MEMBERSHIP)
fputs( zMembers, option_usage_fp );
else switch (pOD->optMinCt) {
case 1:
case 0:
switch (pOD->optMaxCt) {
case 0: fputs( zPreset, option_usage_fp ); break;
case NOLIMIT: fputs( zNoLim, option_usage_fp ); break;
case 1: break;
/*
* IF the max is more than one but limited, print "UP TO" message
*/
default: fprintf( option_usage_fp, zUpTo, pOD->optMaxCt ); break;
}
break;
default:
/*
* More than one is required. Print the range.
*/
fprintf( option_usage_fp, zMust, pOD->optMinCt, pOD->optMaxCt );
}
if ( NAMED_OPTS( pOptions )
&& (pOptions->specOptIdx.default_opt == pOD->optIndex))
fputs( zDefaultOpt, option_usage_fp );
}
/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
*
* Figure out where all the initialization files might live.
* This requires translating some environment variables and
* testing to see if a name is a directory or a file. It's
* squishy, but important to tell users how to find these files.
*/
static void
printInitList(
tCC* const* papz,
ag_bool* pInitIntro,
tCC* pzRc,
tCC* pzPN )
{
char zPath[ AG_PATH_MAX+1 ];
if (papz == NULL)
return;
fputs( zPresetIntro, option_usage_fp );
*pInitIntro = AG_FALSE;
for (;;) {
char const* pzPath = *(papz++);
if (pzPath == NULL)
break;
if (optionMakePath(zPath, (int)sizeof( zPath ), pzPath, pzPN))
pzPath = zPath;
/*
* Print the name of the "homerc" file. If the "rcfile" name is
* not empty, we may or may not print that, too...
*/
fprintf( option_usage_fp, zPathFmt, pzPath );
if (*pzRc != NUL) {
struct stat sb;
/*
* IF the "homerc" file is a directory,
* then append the "rcfile" name.
*/
if ( (stat( pzPath, &sb ) == 0)
&& S_ISDIR( sb.st_mode ) ) {
fputc( DIRCH, option_usage_fp );
fputs( pzRc, option_usage_fp );
}
}
fputc( '\n', option_usage_fp );
}
}
/*
* Print the usage information for a single option.
*/
static void
printOneUsage(
tOptions* pOptions,
tOptDesc* pOD,
arg_types_t* pAT )
{
/*
* Flag prefix: IF no flags at all, then omit it. If not printable
* (not allowed for this option), then blank, else print it.
* Follow it with a comma if we are doing GNU usage and long
* opts are to be printed too.
*/
if ((pOptions->fOptSet & OPTPROC_SHORTOPT) == 0)
fputs( pAT->pzSpc, option_usage_fp );
else if (! isgraph( pOD->optValue)) {
if ( (pOptions->fOptSet & (OPTPROC_GNUUSAGE|OPTPROC_LONGOPT))
== (OPTPROC_GNUUSAGE|OPTPROC_LONGOPT))
fputc( ' ', option_usage_fp );
fputs( pAT->pzNoF, option_usage_fp );
} else {
fprintf( option_usage_fp, " -%c", pOD->optValue );
if ( (pOptions->fOptSet & (OPTPROC_GNUUSAGE|OPTPROC_LONGOPT))
== (OPTPROC_GNUUSAGE|OPTPROC_LONGOPT))
fputs( ", ", option_usage_fp );
}
{
char z[ 80 ];
tCC* pzArgType;
/*
* Determine the argument type string first on its usage, then,
* when the option argument is required, base the type string on the
* argument type.
*/
if (OPTST_GET_ARGTYPE(pOD->fOptState) == OPARG_TYPE_NONE) {
pzArgType = pAT->pzNo;
} else if (pOD->fOptState & OPTST_ARG_OPTIONAL) {
pzArgType = pAT->pzOpt;
} else switch (OPTST_GET_ARGTYPE(pOD->fOptState)) {
case OPARG_TYPE_ENUMERATION: pzArgType = pAT->pzKey; break;
case OPARG_TYPE_MEMBERSHIP: pzArgType = pAT->pzKeyL; break;
case OPARG_TYPE_BOOLEAN: pzArgType = pAT->pzBool; break;
case OPARG_TYPE_NUMERIC: pzArgType = pAT->pzNum; break;
case OPARG_TYPE_HIERARCHY: pzArgType = pAT->pzNest; break;
case OPARG_TYPE_STRING: pzArgType = pAT->pzStr; break;
default: goto bogus_desc; break;
}
snprintf( z, sizeof(z), pAT->pzOptFmt, pzArgType, pOD->pz_Name,
(pOD->optMinCt != 0) ? pAT->pzReq : pAT->pzOpt );
fprintf( option_usage_fp, zOptFmtLine, z, pOD->pzText );
switch (OPTST_GET_ARGTYPE(pOD->fOptState)) {
case OPARG_TYPE_ENUMERATION:
case OPARG_TYPE_MEMBERSHIP:
displayEnum = (pOD->pOptProc != NULL) ? AG_TRUE : displayEnum;
}
}
return;
bogus_desc:
fprintf( stderr, zInvalOptDesc, pOD->pz_Name );
exit( EX_SOFTWARE );
}
/*
* Print out the usage information for just the options.
*/
static void
printOptionUsage(
tOptions* pOpts,
int ex_code,
tCC* pOptTitle )
{
int ct = pOpts->optCt;
int optNo = 0;
tOptDesc* pOD = pOpts->pOptDesc;
int docCt = 0;
do {
if ((pOD->fOptState & OPTST_OMITTED) != 0)
continue;
if ((pOD->fOptState & OPTST_DOCUMENT) != 0) {
if (ex_code == EXIT_SUCCESS) {
fprintf(option_usage_fp, argTypes.pzBrk, pOD->pzText,
pOptTitle);
docCt++;
}
continue;
}
/*
* IF this is the first auto-opt maintained option
* *AND* we are doing a full help
* *AND* there are documentation options
* *AND* the last one was not a doc option,
* THEN document that the remaining options are not user opts
*/
if ( (pOpts->presetOptCt == optNo)
&& (ex_code == EXIT_SUCCESS)
&& (docCt > 0)
&& ((pOD[-1].fOptState & OPTST_DOCUMENT) == 0) )
fprintf( option_usage_fp, argTypes.pzBrk, zAuto, pOptTitle );
printOneUsage( pOpts, pOD, &argTypes );
/*
* IF we were invoked because of the --help option,
* THEN print all the extra info
*/
if (ex_code == EXIT_SUCCESS)
printExtendedUsage( pOpts, pOD, &argTypes );
} while (pOD++, optNo++, (--ct > 0));
fputc( '\n', option_usage_fp );
}
/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
*
* PROGRAM DETAILS
*/
static void
printProgramDetails( tOptions* pOptions )
{
ag_bool initIntro = AG_TRUE;
/*
* Display all the places we look for config files
*/
printInitList( pOptions->papzHomeList, &initIntro,
pOptions->pzRcName, pOptions->pzProgPath );
/*
* Let the user know about environment variable settings
*/
if ((pOptions->fOptSet & OPTPROC_ENVIRON) != 0) {
if (initIntro)
fputs( zPresetIntro, option_usage_fp );
fprintf( option_usage_fp, zExamineFmt, pOptions->pzPROGNAME );
}
/*
* IF we found an enumeration,
* THEN hunt for it again. Call the handler proc with a NULL
* option struct pointer. That tells it to display the keywords.
*/
if (displayEnum) {
int ct = pOptions->optCt;
int optNo = 0;
tOptDesc* pOD = pOptions->pOptDesc;
fputc( '\n', option_usage_fp );
fflush( option_usage_fp );
do {
switch (OPTST_GET_ARGTYPE(pOD->fOptState)) {
case OPARG_TYPE_ENUMERATION:
case OPARG_TYPE_MEMBERSHIP:
(*(pOD->pOptProc))( NULL, pOD );
}
} while (pOD++, optNo++, (--ct > 0));
}
/*
* If there is a detail string, now is the time for that.
*/
if (pOptions->pzDetail != NULL)
fputs( pOptions->pzDetail, option_usage_fp );
}
/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
*
* OPTION LINE FORMATTING SETUP
*
* The "OptFmt" formats receive three arguments:
* 1. the type of the option's argument
* 2. the long name of the option
* 3. "YES" or "no ", depending on whether or not the option must appear
* on the command line.
* These formats are used immediately after the option flag (if used) has
* been printed.
*
* Set up the formatting for GNU-style output
*/
static int
setGnuOptFmts( tOptions* pOpts, tCC** ppT )
{
int flen = 22;
*ppT = zNoRq_ShrtTtl;
argTypes.pzStr = zGnuStrArg;
argTypes.pzReq = zOneSpace;
argTypes.pzNum = zGnuNumArg;
argTypes.pzKey = zGnuKeyArg;
argTypes.pzKeyL = zGnuKeyLArg;
argTypes.pzBool = zGnuBoolArg;
argTypes.pzNest = zGnuNestArg;
argTypes.pzOpt = zGnuOptArg;
argTypes.pzNo = zOneSpace;
argTypes.pzBrk = zGnuBreak;
argTypes.pzNoF = zSixSpaces;
argTypes.pzSpc = zThreeSpaces;
switch (pOpts->fOptSet & OPTPROC_L_N_S) {
case OPTPROC_L_N_S: argTypes.pzOptFmt = zGnuOptFmt; break;
case OPTPROC_LONGOPT: argTypes.pzOptFmt = zGnuOptFmt; break;
case 0: argTypes.pzOptFmt = zGnuOptFmt + 2; break;
case OPTPROC_SHORTOPT:
argTypes.pzOptFmt = zShrtGnuOptFmt;
zGnuStrArg[0] = zGnuNumArg[0] = zGnuKeyArg[0] = zGnuBoolArg[0] = ' ';
argTypes.pzOpt = " [arg]";
flen = 8;
break;
}
return flen;
}
/*
* Standard (AutoOpts normal) option line formatting
*/
static int
setStdOptFmts( tOptions* pOpts, tCC** ppT )
{
int flen = 0;
argTypes.pzStr = zStdStrArg;
argTypes.pzReq = zStdReqArg;
argTypes.pzNum = zStdNumArg;
argTypes.pzKey = zStdKeyArg;
argTypes.pzKeyL = zStdKeyLArg;
argTypes.pzBool = zStdBoolArg;
argTypes.pzNest = zStdNestArg;
argTypes.pzOpt = zStdOptArg;
argTypes.pzNo = zStdNoArg;
argTypes.pzBrk = zStdBreak;
argTypes.pzNoF = zFiveSpaces;
argTypes.pzSpc = zTwoSpaces;
switch (pOpts->fOptSet & (OPTPROC_NO_REQ_OPT | OPTPROC_SHORTOPT)) {
case (OPTPROC_NO_REQ_OPT | OPTPROC_SHORTOPT):
*ppT = zNoRq_ShrtTtl;
argTypes.pzOptFmt = zNrmOptFmt;
flen = 19;
break;
case OPTPROC_NO_REQ_OPT:
*ppT = zNoRq_NoShrtTtl;
argTypes.pzOptFmt = zNrmOptFmt;
flen = 19;
break;
case OPTPROC_SHORTOPT:
*ppT = zReq_ShrtTtl;
argTypes.pzOptFmt = zReqOptFmt;
flen = 24;
break;
case 0:
*ppT = zReq_NoShrtTtl;
argTypes.pzOptFmt = zReqOptFmt;
flen = 24;
}
return flen;
}
/*:
* Local Variables:
* mode: C
* c-file-style: "stroustrup"
* indent-tabs-mode: nil
* End:
* end of autoopts/usage.c */