/** * \file autoopts.c * * Time-stamp: "2011-03-25 17:55:07 bkorb" * * This file contains all of the routines that must be linked into * an executable to use the generated option processing. The optional * routines are in separately compiled modules so that they will not * necessarily be linked in. * * This file is part of AutoOpts, a companion to AutoGen. * AutoOpts is free software. * AutoOpts is Copyright (c) 1992-2011 by Bruce Korb - all rights reserved * * AutoOpts is available under any one of two licenses. The license * in use must be one of these two and the choice is under the control * of the user of the license. * * The GNU Lesser General Public License, version 3 or later * See the files "COPYING.lgplv3" and "COPYING.gplv3" * * The Modified Berkeley Software Distribution License * See the file "COPYING.mbsd" * * These files have the following md5sums: * * 43b91e8ca915626ed3818ffb1b71248b pkg/libopts/COPYING.gplv3 * 06a1a2e4760c90ea5e1dad8dfaac4d39 pkg/libopts/COPYING.lgplv3 * 66a5cedaf62c4b2637025f049f9b826f pkg/libopts/COPYING.mbsd */ #ifndef PKGDATADIR # define PKGDATADIR "" #endif static char const zNil[] = ""; static arg_types_t argTypes = { NULL }; static char zOptFmtLine[16] = { NUL }; static ag_bool displayEnum = AG_FALSE; static char const pkgdatadir_default[] = PKGDATADIR; static char const * program_pkgdatadir = pkgdatadir_default; static tOptionLoadMode option_load_mode = OPTION_LOAD_UNCOOKED; static tePagerState pagerState = PAGER_STATE_INITIAL; FILE * option_usage_fp = NULL; /* = = = START-STATIC-FORWARD = = = */ static tSuccess findOptDesc(tOptions* pOpts, tOptState* pOptState); static tSuccess next_opt_arg_must(tOptions* pOpts, tOptState* pOptState); static tSuccess next_opt_arg_may(tOptions* pOpts, tOptState* pOptState); static tSuccess next_opt_arg_none(tOptions* pOpts, tOptState* pOptState); static tSuccess nextOption(tOptions* pOpts, tOptState* pOptState); static tSuccess doPresets(tOptions* pOpts); static int checkConsistency(tOptions* pOpts); /* = = = END-STATIC-FORWARD = = = */ LOCAL void * ao_malloc(size_t sz) { void * res = malloc(sz); if (res == NULL) { fprintf(stderr, zAO_Alloc, (int)sz); exit(EXIT_FAILURE); } return res; } #undef malloc #define malloc(_s) ao_malloc(_s) LOCAL void * ao_realloc(void *p, size_t sz) { void * res = (p == NULL) ? malloc(sz) : realloc(p, sz); if (res == NULL) { fprintf(stderr, zAO_Realloc, (int)sz, p); exit(EXIT_FAILURE); } return res; } #undef realloc #define realloc(_p,_s) ao_realloc(_p,_s) LOCAL char * ao_strdup(char const *str) { char * res = strdup(str); if (res == NULL) { fprintf(stderr, zAO_Strdup, (int)strlen(str)); exit(EXIT_FAILURE); } return res; } #undef strdup #define strdup(_p) ao_strdup(_p) #ifndef HAVE_PATHFIND # include "compat/pathfind.c" #endif #ifndef HAVE_SNPRINTF # include "compat/snprintf.c" #endif #ifndef HAVE_STRDUP # include "compat/strdup.c" #endif #ifndef HAVE_STRCHR # include "compat/strchr.c" #endif /* * handle_opt * * This routine handles equivalencing, sets the option state flags and * invokes the handler procedure, if any. */ LOCAL tSuccess handle_opt(tOptions* pOpts, tOptState* pOptState) { /* * Save a copy of the option procedure pointer. * If this is an equivalence class option, we still want this proc. */ tOptDesc* pOD = pOptState->pOD; tOptProc* pOP = pOD->pOptProc; if (pOD->fOptState & OPTST_ALLOC_ARG) AGFREE(pOD->optArg.argString); pOD->optArg.argString = pOptState->pzOptArg; /* * IF we are presetting options, then we will ignore any un-presettable * options. They are the ones either marked as such. */ if ( ((pOpts->fOptSet & OPTPROC_PRESETTING) != 0) && ((pOD->fOptState & OPTST_NO_INIT) != 0) ) return PROBLEM; /* * IF this is an equivalence class option, * THEN * Save the option value that got us to this option * entry. (It may not be pOD->optChar[0], if this is an * equivalence entry.) * set the pointer to the equivalence class base */ if (pOD->optEquivIndex != NO_EQUIVALENT) { tOptDesc* p = pOpts->pOptDesc + pOD->optEquivIndex; /* * IF the current option state has not been defined (set on the * command line), THEN we will allow continued resetting of * the value. Once "defined", then it must not change. */ if ((pOD->fOptState & OPTST_DEFINED) != 0) { /* * The equivalenced-to option has been found on the command * line before. Make sure new occurrences are the same type. * * IF this option has been previously equivalenced and * it was not the same equivalenced-to option, * THEN we have a usage problem. */ if (p->optActualIndex != pOD->optIndex) { fprintf(stderr, (char*)zMultiEquiv, p->pz_Name, pOD->pz_Name, (pOpts->pOptDesc + p->optActualIndex)->pz_Name); return FAILURE; } } else { /* * Set the equivalenced-to actual option index to no-equivalent * so that we set all the entries below. This option may either * never have been selected before, or else it was selected by * some sort of "presetting" mechanism. */ p->optActualIndex = NO_EQUIVALENT; } if (p->optActualIndex != pOD->optIndex) { /* * First time through, copy over the state * and add in the equivalence flag */ p->optActualValue = pOD->optValue; p->optActualIndex = pOD->optIndex; pOptState->flags |= OPTST_EQUIVALENCE; } /* * Copy the most recent option argument. set membership state * is kept in ``p->optCookie''. Do not overwrite. */ p->optArg.argString = pOD->optArg.argString; pOD = p; } else { pOD->optActualValue = pOD->optValue; pOD->optActualIndex = pOD->optIndex; } pOD->fOptState &= OPTST_PERSISTENT_MASK; pOD->fOptState |= (pOptState->flags & ~OPTST_PERSISTENT_MASK); /* * Keep track of count only for DEFINED (command line) options. * IF we have too many, build up an error message and bail. */ if ( (pOD->fOptState & OPTST_DEFINED) && (++pOD->optOccCt > pOD->optMaxCt) ) { if ((pOpts->fOptSet & OPTPROC_ERRSTOP) != 0) { char const * pzEqv = (pOD->optEquivIndex != NO_EQUIVALENT) ? zEquiv : zNil; fputs(zErrOnly, stderr); if (pOD->optMaxCt > 1) fprintf(stderr, zAtMost, pOD->optMaxCt, pOD->pz_Name, pzEqv); else fprintf(stderr, zOnlyOne, pOD->pz_Name, pzEqv); } return FAILURE; } /* * If provided a procedure to call, call it */ if (pOP != NULL) (*pOP)(pOpts, pOD); return SUCCESS; } /* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * HUNT FOR OPTIONS IN THE ARGUMENT LIST * * The next four procedures are "private" to nextOption(). * nextOption() uses findOptDesc() to find the next descriptor and it, in * turn, uses longOptionFind() and shortOptionFind() to actually do the hunt. * * longOptionFind * * Find the long option descriptor for the current option */ LOCAL tSuccess longOptionFind(tOptions* pOpts, char* pzOptName, tOptState* pOptState) { ag_bool disable = AG_FALSE; char* pzEq = strchr(pzOptName, '='); tOptDesc* pOD = pOpts->pOptDesc; int idx = 0; int idxLim = pOpts->optCt; int matchCt = 0; int matchIdx = 0; int nameLen; char opt_name_buf[128]; /* * IF the value is attached to the name, * copy it off so we can NUL terminate. */ if (pzEq != NULL) { nameLen = (int)(pzEq - pzOptName); if (nameLen >= sizeof(opt_name_buf)) return FAILURE; memcpy(opt_name_buf, pzOptName, nameLen); opt_name_buf[nameLen] = NUL; pzOptName = opt_name_buf; pzEq++; } else nameLen = strlen(pzOptName); do { /* * If option disabled or a doc option, skip to next */ if (pOD->pz_Name == NULL) continue; if ( SKIP_OPT(pOD) && (pOD->fOptState != (OPTST_OMITTED | OPTST_NO_INIT))) continue; if (strneqvcmp(pzOptName, pOD->pz_Name, nameLen) == 0) { /* * IF we have a complete match * THEN it takes priority over any already located partial */ if (pOD->pz_Name[ nameLen ] == NUL) { matchCt = 1; matchIdx = idx; break; } } /* * IF there is a disable name * *AND* no argument value has been supplied * (disabled options may have no argument) * *AND* the option name matches the disable name * THEN ... */ else if ( (pOD->pz_DisableName != NULL) && (strneqvcmp(pzOptName, pOD->pz_DisableName, nameLen) == 0) ) { disable = AG_TRUE; /* * IF we have a complete match * THEN it takes priority over any already located partial */ if (pOD->pz_DisableName[ nameLen ] == NUL) { matchCt = 1; matchIdx = idx; break; } } else continue; /* * We found a partial match, either regular or disabling. * Remember the index for later. */ matchIdx = idx; if (++matchCt > 1) break; } while (pOD++, (++idx < idxLim)); /* * Make sure we either found an exact match or found only one partial */ if (matchCt == 1) { pOD = pOpts->pOptDesc + matchIdx; if (SKIP_OPT(pOD)) { fprintf(stderr, zDisabledErr, pOpts->pzProgName, pOD->pz_Name); if (pOD->pzText != NULL) fprintf(stderr, " -- %s", pOD->pzText); fputc('\n', stderr); (*pOpts->pUsageProc)(pOpts, EXIT_FAILURE); /* NOTREACHED */ } /* * IF we found a disablement name, * THEN set the bit in the callers' flag word */ if (disable) pOptState->flags |= OPTST_DISABLED; pOptState->pOD = pOD; pOptState->pzOptArg = pzEq; pOptState->optType = TOPT_LONG; return SUCCESS; } /* * IF there is no equal sign * *AND* we are using named arguments * *AND* there is a default named option, * THEN return that option. */ if ( (pzEq == NULL) && NAMED_OPTS(pOpts) && (pOpts->specOptIdx.default_opt != NO_EQUIVALENT)) { pOptState->pOD = pOpts->pOptDesc + pOpts->specOptIdx.default_opt; pOptState->pzOptArg = pzOptName; pOptState->optType = TOPT_DEFAULT; return SUCCESS; } /* * IF we are to stop on errors (the default, actually) * THEN call the usage procedure. */ if ((pOpts->fOptSet & OPTPROC_ERRSTOP) != 0) { fprintf(stderr, (matchCt == 0) ? zIllOptStr : zAmbigOptStr, pOpts->pzProgPath, pzOptName); (*pOpts->pUsageProc)(pOpts, EXIT_FAILURE); } return FAILURE; } /* * shortOptionFind * * Find the short option descriptor for the current option */ LOCAL tSuccess shortOptionFind(tOptions* pOpts, uint_t optValue, tOptState* pOptState) { tOptDesc* pRes = pOpts->pOptDesc; int ct = pOpts->optCt; /* * Search the option list */ do { if (optValue != pRes->optValue) continue; if (SKIP_OPT(pRes)) { if ( (pRes->fOptState == (OPTST_OMITTED | OPTST_NO_INIT)) && (pRes->pz_Name != NULL)) { fprintf(stderr, zDisabledErr, pOpts->pzProgPath, pRes->pz_Name); if (pRes->pzText != NULL) fprintf(stderr, " -- %s", pRes->pzText); fputc('\n', stderr); (*pOpts->pUsageProc)(pOpts, EXIT_FAILURE); /* NOTREACHED */ } goto short_opt_error; } pOptState->pOD = pRes; pOptState->optType = TOPT_SHORT; return SUCCESS; } while (pRes++, --ct > 0); /* * IF the character value is a digit * AND there is a special number option ("-n") * THEN the result is the "option" itself and the * option is the specially marked "number" option. */ if ( IS_DEC_DIGIT_CHAR(optValue) && (pOpts->specOptIdx.number_option != NO_EQUIVALENT) ) { pOptState->pOD = \ pRes = pOpts->pOptDesc + pOpts->specOptIdx.number_option; (pOpts->pzCurOpt)--; pOptState->optType = TOPT_SHORT; return SUCCESS; } short_opt_error: /* * IF we are to stop on errors (the default, actually) * THEN call the usage procedure. */ if ((pOpts->fOptSet & OPTPROC_ERRSTOP) != 0) { fprintf(stderr, zIllOptChr, pOpts->pzProgPath, optValue); (*pOpts->pUsageProc)(pOpts, EXIT_FAILURE); } return FAILURE; } /* * findOptDesc * * Find the option descriptor for the current option */ static tSuccess findOptDesc(tOptions* pOpts, tOptState* pOptState) { /* * IF we are continuing a short option list (e.g. -xyz...) * THEN continue a single flag option. * OTHERWISE see if there is room to advance and then do so. */ if ((pOpts->pzCurOpt != NULL) && (*pOpts->pzCurOpt != NUL)) return shortOptionFind(pOpts, (tAoUC)*(pOpts->pzCurOpt), pOptState); if (pOpts->curOptIdx >= pOpts->origArgCt) return PROBLEM; /* NORMAL COMPLETION */ pOpts->pzCurOpt = pOpts->origArgVect[ pOpts->curOptIdx ]; /* * IF all arguments must be named options, ... */ if (NAMED_OPTS(pOpts)) { char * pz = pOpts->pzCurOpt; int def; tSuccess res; tAoUS * def_opt; pOpts->curOptIdx++; if (*pz != '-') return longOptionFind(pOpts, pz, pOptState); /* * The name is prefixed with one or more hyphens. Strip them off * and disable the "default_opt" setting. Use heavy recasting to * strip off the "const" quality of the "default_opt" field. */ while (*(++pz) == '-') ; def_opt = (void *)&(pOpts->specOptIdx.default_opt); def = *def_opt; *def_opt = NO_EQUIVALENT; res = longOptionFind(pOpts, pz, pOptState); *def_opt = def; return res; } /* * Note the kind of flag/option marker */ if (*((pOpts->pzCurOpt)++) != '-') return PROBLEM; /* NORMAL COMPLETION - this + rest are operands */ /* * Special hack for a hyphen by itself */ if (*(pOpts->pzCurOpt) == NUL) return PROBLEM; /* NORMAL COMPLETION - this + rest are operands */ /* * The current argument is to be processed as an option argument */ pOpts->curOptIdx++; /* * We have an option marker. * Test the next character for long option indication */ if (pOpts->pzCurOpt[0] == '-') { if (*++(pOpts->pzCurOpt) == NUL) /* * NORMAL COMPLETION - NOT this arg, but rest are operands */ return PROBLEM; /* * We do not allow the hyphen to be used as a flag value. * Therefore, if long options are not to be accepted, we punt. */ if ((pOpts->fOptSet & OPTPROC_LONGOPT) == 0) { fprintf(stderr, zIllOptStr, pOpts->pzProgPath, zIllegal, pOpts->pzCurOpt-2); return FAILURE; } return longOptionFind(pOpts, pOpts->pzCurOpt, pOptState); } /* * If short options are not allowed, then do long * option processing. Otherwise the character must be a * short (i.e. single character) option. */ if ((pOpts->fOptSet & OPTPROC_SHORTOPT) != 0) return shortOptionFind(pOpts, (tAoUC)*(pOpts->pzCurOpt), pOptState); return longOptionFind(pOpts, pOpts->pzCurOpt, pOptState); } static tSuccess next_opt_arg_must(tOptions* pOpts, tOptState* pOptState) { /* * An option argument is required. Long options can either have * a separate command line argument, or an argument attached by * the '=' character. Figure out which. */ switch (pOptState->optType) { case TOPT_SHORT: /* * See if an arg string follows the flag character */ if (*++(pOpts->pzCurOpt) == NUL) pOpts->pzCurOpt = pOpts->origArgVect[ pOpts->curOptIdx++ ]; pOptState->pzOptArg = pOpts->pzCurOpt; break; case TOPT_LONG: /* * See if an arg string has already been assigned (glued on * with an `=' character) */ if (pOptState->pzOptArg == NULL) pOptState->pzOptArg = pOpts->origArgVect[ pOpts->curOptIdx++ ]; break; default: #ifdef DEBUG fputs("AutoOpts lib error: option type not selected\n", stderr); exit(EXIT_FAILURE); #endif case TOPT_DEFAULT: /* * The option was selected by default. The current token is * the option argument. */ break; } /* * Make sure we did not overflow the argument list. */ if (pOpts->curOptIdx > pOpts->origArgCt) { fprintf(stderr, zMisArg, pOpts->pzProgPath, pOptState->pOD->pz_Name); return FAILURE; } pOpts->pzCurOpt = NULL; /* next time advance to next arg */ return SUCCESS; } static tSuccess next_opt_arg_may(tOptions* pOpts, tOptState* pOptState) { /* * An option argument is optional. */ switch (pOptState->optType) { case TOPT_SHORT: if (*++pOpts->pzCurOpt != NUL) pOptState->pzOptArg = pOpts->pzCurOpt; else { char* pzLA = pOpts->origArgVect[ pOpts->curOptIdx ]; /* * BECAUSE it is optional, we must make sure * we did not find another flag and that there * is such an argument. */ if ((pzLA == NULL) || (*pzLA == '-')) pOptState->pzOptArg = NULL; else { pOpts->curOptIdx++; /* argument found */ pOptState->pzOptArg = pzLA; } } break; case TOPT_LONG: /* * Look for an argument if we don't already have one (glued on * with a `=' character) *AND* we are not in named argument mode */ if ( (pOptState->pzOptArg == NULL) && (! NAMED_OPTS(pOpts))) { char* pzLA = pOpts->origArgVect[ pOpts->curOptIdx ]; /* * BECAUSE it is optional, we must make sure * we did not find another flag and that there * is such an argument. */ if ((pzLA == NULL) || (*pzLA == '-')) pOptState->pzOptArg = NULL; else { pOpts->curOptIdx++; /* argument found */ pOptState->pzOptArg = pzLA; } } break; default: case TOPT_DEFAULT: fputs(zAO_Woops, stderr ); exit(EX_SOFTWARE); } /* * After an option with an optional argument, we will * *always* start with the next option because if there * were any characters following the option name/flag, * they would be interpreted as the argument. */ pOpts->pzCurOpt = NULL; return SUCCESS; } static tSuccess next_opt_arg_none(tOptions* pOpts, tOptState* pOptState) { /* * No option argument. Make sure next time around we find * the correct option flag character for short options */ if (pOptState->optType == TOPT_SHORT) (pOpts->pzCurOpt)++; /* * It is a long option. Make sure there was no ``=xxx'' argument */ else if (pOptState->pzOptArg != NULL) { fprintf(stderr, zNoArg, pOpts->pzProgPath, pOptState->pOD->pz_Name); return FAILURE; } /* * It is a long option. Advance to next command line argument. */ else pOpts->pzCurOpt = NULL; return SUCCESS; } /* * nextOption * * Find the option descriptor and option argument (if any) for the * next command line argument. DO NOT modify the descriptor. Put * all the state in the state argument so that the option can be skipped * without consequence (side effect). */ static tSuccess nextOption(tOptions* pOpts, tOptState* pOptState) { { tSuccess res; res = findOptDesc(pOpts, pOptState); if (! SUCCESSFUL(res)) return res; } if ( ((pOptState->flags & OPTST_DEFINED) != 0) && ((pOptState->pOD->fOptState & OPTST_NO_COMMAND) != 0)) { fprintf(stderr, zNotCmdOpt, pOptState->pOD->pz_Name); return FAILURE; } pOptState->flags |= (pOptState->pOD->fOptState & OPTST_PERSISTENT_MASK); /* * Figure out what to do about option arguments. An argument may be * required, not associated with the option, or be optional. We detect the * latter by examining for an option marker on the next possible argument. * Disabled mode option selection also disables option arguments. */ { enum { ARG_NONE, ARG_MAY, ARG_MUST } arg_type = ARG_NONE; tSuccess res; if ((pOptState->flags & OPTST_DISABLED) != 0) arg_type = ARG_NONE; else if (OPTST_GET_ARGTYPE(pOptState->flags) == OPARG_TYPE_NONE) arg_type = ARG_NONE; else if (pOptState->flags & OPTST_ARG_OPTIONAL) arg_type = ARG_MAY; else arg_type = ARG_MUST; switch (arg_type) { case ARG_MUST: res = next_opt_arg_must(pOpts, pOptState); break; case ARG_MAY: res = next_opt_arg_may( pOpts, pOptState); break; case ARG_NONE: res = next_opt_arg_none(pOpts, pOptState); break; } return res; } } /* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * DO PRESETS * * The next several routines do the immediate action pass on the command * line options, then the environment variables, then the config files in * reverse order. Once done with that, the order is reversed and all * the config files and environment variables are processed again, this * time only processing the non-immediate action options. doPresets() * will then return for optionProcess() to do the final pass on the command * line arguments. */ /** * scan the command line for immediate action options. * This is only called the first time through. */ LOCAL tSuccess doImmediateOpts(tOptions* pOpts) { pOpts->curOptIdx = 1; /* start by skipping program name */ pOpts->pzCurOpt = NULL; /* * Examine all the options from the start. We process any options that * are marked for immediate processing. */ for (;;) { tOptState optState = OPTSTATE_INITIALIZER(PRESET); switch (nextOption(pOpts, &optState)) { case FAILURE: goto failed_option; case PROBLEM: return SUCCESS; /* no more args */ case SUCCESS: break; } /* * IF this is an immediate-attribute option, then do it. */ if (! DO_IMMEDIATELY(optState.flags)) continue; if (! SUCCESSFUL(handle_opt(pOpts, &optState))) break; } failed_option:; if ((pOpts->fOptSet & OPTPROC_ERRSTOP) != 0) (*pOpts->pUsageProc)(pOpts, EXIT_FAILURE); return FAILURE; } /** * Process all the options from our current position onward. (This allows * interspersed options and arguments for the few non-standard programs that * require it.) Thus, do not rewind option indexes because some programs * choose to re-invoke after a non-option. */ LOCAL tSuccess doRegularOpts(tOptions* pOpts) { for (;;) { tOptState optState = OPTSTATE_INITIALIZER(DEFINED); switch (nextOption(pOpts, &optState)) { case FAILURE: goto failed_option; case PROBLEM: return SUCCESS; /* no more args */ case SUCCESS: break; } /* * IF this is an immediate action option, * THEN skip it (unless we are supposed to do it a second time). */ if (! DO_NORMALLY(optState.flags)) { if (! DO_SECOND_TIME(optState.flags)) continue; optState.pOD->optOccCt--; /* don't count this repetition */ } if (! SUCCESSFUL(handle_opt(pOpts, &optState))) break; } failed_option:; if ((pOpts->fOptSet & OPTPROC_ERRSTOP) != 0) (*pOpts->pUsageProc)(pOpts, EXIT_FAILURE); return FAILURE; } /** * check for preset values from a config files or envrionment variables */ static tSuccess doPresets(tOptions* pOpts) { tOptDesc * pOD = NULL; if (! SUCCESSFUL(doImmediateOpts(pOpts))) return FAILURE; /* * IF this option set has a --save-opts option, then it also * has a --load-opts option. See if a command line option has disabled * option presetting. */ if ( (pOpts->specOptIdx.save_opts != NO_EQUIVALENT) && (pOpts->specOptIdx.save_opts != 0)) { pOD = pOpts->pOptDesc + pOpts->specOptIdx.save_opts + 1; if (DISABLED_OPT(pOD)) return SUCCESS; } /* * Until we return from this procedure, disable non-presettable opts */ pOpts->fOptSet |= OPTPROC_PRESETTING; /* * IF there are no config files, * THEN do any environment presets and leave. */ if (pOpts->papzHomeList == NULL) { doEnvPresets(pOpts, ENV_ALL); } else { doEnvPresets(pOpts, ENV_IMM); /* * Check to see if environment variables have disabled presetting. */ if ((pOD != NULL) && ! DISABLED_OPT(pOD)) internalFileLoad(pOpts); /* * ${PROGRAM_LOAD_OPTS} value of "no" cannot disable other environment * variable options. Only the loading of .rc files. */ doEnvPresets(pOpts, ENV_NON_IMM); } pOpts->fOptSet &= ~OPTPROC_PRESETTING; return SUCCESS; } /* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * VERIFY OPTION CONSISTENCY * * Make sure that the argument list passes our consistency tests. */ static int checkConsistency(tOptions* pOpts) { int errCt = 0; tOptDesc* pOD = pOpts->pOptDesc; int oCt = pOpts->presetOptCt; /* * FOR each of "oCt" options, ... */ for (;;) { const int* pMust = pOD->pOptMust; const int* pCant = pOD->pOptCant; /* * IF the current option was provided on the command line * THEN ensure that any "MUST" requirements are not * "DEFAULT" (unspecified) *AND* ensure that any * "CANT" options have not been SET or DEFINED. */ if (SELECTED_OPT(pOD)) { if (pMust != NULL) for (;;) { tOptDesc* p = pOpts->pOptDesc + *(pMust++); if (UNUSED_OPT(p)) { const tOptDesc* pN = pOpts->pOptDesc + pMust[-1]; errCt++; fprintf(stderr, zReqFmt, pOD->pz_Name, pN->pz_Name); } if (*pMust == NO_EQUIVALENT) break; } if (pCant != NULL) for (;;) { tOptDesc* p = pOpts->pOptDesc + *(pCant++); if (SELECTED_OPT(p)) { const tOptDesc* pN = pOpts->pOptDesc + pCant[-1]; errCt++; fprintf(stderr, zCantFmt, pOD->pz_Name, pN->pz_Name); } if (*pCant == NO_EQUIVALENT) break; } } /* * IF this option is not equivalenced to another, * OR it is equivalenced to itself (is the equiv. root) * THEN we need to make sure it occurs often enough. */ if ( (pOD->optEquivIndex == NO_EQUIVALENT) || (pOD->optEquivIndex == pOD->optIndex) ) do { /* * IF the occurrence counts have been satisfied, * THEN there is no problem. */ if (pOD->optOccCt >= pOD->optMinCt) break; /* * IF MUST_SET means SET and PRESET are okay, * so min occurrence count doesn't count */ if ( (pOD->fOptState & OPTST_MUST_SET) && (pOD->fOptState & (OPTST_PRESET | OPTST_SET)) ) break; errCt++; if (pOD->optMinCt > 1) fprintf(stderr, zNotEnough, pOD->pz_Name, pOD->optMinCt); else fprintf(stderr, zNeedOne, pOD->pz_Name); } while (0); if (--oCt <= 0) break; pOD++; } /* * IF we are stopping on errors, check to see if any remaining * arguments are required to be there or prohibited from being there. */ if ((pOpts->fOptSet & OPTPROC_ERRSTOP) != 0) { /* * Check for prohibition */ if ((pOpts->fOptSet & OPTPROC_NO_ARGS) != 0) { if (pOpts->origArgCt > pOpts->curOptIdx) { fprintf(stderr, zNoArgs, pOpts->pzProgName); ++errCt; } } /* * ELSE not prohibited, check for being required */ else if ((pOpts->fOptSet & OPTPROC_ARGS_REQ) != 0) { if (pOpts->origArgCt <= pOpts->curOptIdx) { fprintf(stderr, zArgsMust, pOpts->pzProgName); ++errCt; } } } return errCt; } /* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * THESE ROUTINES ARE CALLABLE FROM THE GENERATED OPTION PROCESSING CODE */ /*=--subblock=arg=arg_type,arg_name,arg_desc =*/ /*=* * library: opts * header: your-opts.h * * lib_description: * * These are the routines that libopts users may call directly from their * code. There are several other routines that can be called by code * generated by the libopts option templates, but they are not to be * called from any other user code. The @file{options.h} header is * fairly clear about this, too. =*/ /*=export_func optionProcess * * what: this is the main option processing routine * * arg: + tOptions* + pOpts + program options descriptor + * arg: + int + argc + program arg count + * arg: + char** + argv + program arg vector + * * ret_type: int * ret_desc: the count of the arguments processed * * doc: * * 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. * * err: Errors will cause diagnostics to be printed. @code{exit(3)} may * or may not be called. It depends upon whether or not the options * were generated with the "allow-errors" attribute, or if the * ERRSKIP_OPTERR or ERRSTOP_OPTERR macros were invoked. =*/ int optionProcess(tOptions * pOpts, int argCt, char ** argVect) { if (! SUCCESSFUL(validateOptionsStruct(pOpts, argVect[0]))) exit(EX_SOFTWARE); /* * Establish the real program name, the program full path, * and do all the presetting the first time thru only. */ if ((pOpts->fOptSet & OPTPROC_INITDONE) == 0) { pOpts->origArgCt = argCt; pOpts->origArgVect = argVect; pOpts->fOptSet |= OPTPROC_INITDONE; if (HAS_pzPkgDataDir(pOpts)) program_pkgdatadir = pOpts->pzPkgDataDir; if (! SUCCESSFUL(doPresets(pOpts))) return 0; /* * IF option name conversion was suppressed but it is not suppressed * for the command line, then it's time to translate option names. * Usage text will not get retranslated. */ if ( ((pOpts->fOptSet & OPTPROC_TRANSLATE) != 0) && (pOpts->pTransProc != NULL) && ((pOpts->fOptSet & OPTPROC_NO_XLAT_MASK) == OPTPROC_NXLAT_OPT_CFG) ) { pOpts->fOptSet &= ~OPTPROC_NXLAT_OPT_CFG; (*pOpts->pTransProc)(); } if ((pOpts->fOptSet & OPTPROC_REORDER) != 0) optionSort(pOpts); pOpts->curOptIdx = 1; pOpts->pzCurOpt = NULL; } /* * IF we are (re)starting, * THEN reset option location */ else if (pOpts->curOptIdx <= 0) { pOpts->curOptIdx = 1; pOpts->pzCurOpt = NULL; } if (! SUCCESSFUL(doRegularOpts(pOpts))) return pOpts->origArgCt; /* * IF there were no errors * AND we have RC/INI files * AND there is a request to save the files * THEN do that now before testing for conflicts. * (conflicts are ignored in preset options) */ if ( (pOpts->specOptIdx.save_opts != NO_EQUIVALENT) && (pOpts->specOptIdx.save_opts != 0)) { tOptDesc* pOD = pOpts->pOptDesc + pOpts->specOptIdx.save_opts; if (SELECTED_OPT(pOD)) { optionSaveFile(pOpts); exit(EXIT_SUCCESS); } } /* * IF we are checking for errors, * THEN look for too few occurrences of required options */ if ((pOpts->fOptSet & OPTPROC_ERRSTOP) != 0) { if (checkConsistency(pOpts) != 0) (*pOpts->pUsageProc)(pOpts, EXIT_FAILURE); } return pOpts->curOptIdx; } /* * Local Variables: * mode: C * c-file-style: "stroustrup" * indent-tabs-mode: nil * End: * end of autoopts/autoopts.c */