/* * $Id: enumeration.c,v 4.26 2009/08/01 17:43:06 bkorb Exp $ * Time-stamp: "2008-07-27 12:28:01 bkorb" * * Automated Options Paged Usage module. * * This routine will run run-on options through a pager so the * user may examine, print or edit them at their leisure. * * This file is part of AutoOpts, a companion to AutoGen. * AutoOpts is free software. * AutoOpts is copyright (c) 1992-2009 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 */ tSCC* pz_enum_err_fmt; /* = = = START-STATIC-FORWARD = = = */ /* static forward declarations maintained by mk-fwd */ static void enumError( tOptions* pOpts, tOptDesc* pOD, tCC* const * paz_names, int name_ct ); static uintptr_t findName( tCC* pzName, tOptions* pOpts, tOptDesc* pOD, tCC* const * paz_names, unsigned int name_ct ); /* = = = END-STATIC-FORWARD = = = */ static void enumError( tOptions* pOpts, tOptDesc* pOD, tCC* const * paz_names, int name_ct ) { size_t max_len = 0; size_t ttl_len = 0; int ct_down = name_ct; int hidden = 0; /* * A real "pOpts" pointer means someone messed up. Give a real error. */ if (pOpts > OPTPROC_EMIT_LIMIT) fprintf(option_usage_fp, pz_enum_err_fmt, pOpts->pzProgName, pOD->optArg.argString, pOD->pz_Name); fprintf(option_usage_fp, zValidKeys, pOD->pz_Name); /* * If the first name starts with this funny character, then we have * a first value with an unspellable name. You cannot specify it. * So, we don't list it either. */ if (**paz_names == 0x7F) { paz_names++; hidden = 1; ct_down = --name_ct; } /* * Figure out the maximum length of any name, plus the total length * of all the names. */ { tCC * const * paz = paz_names; do { size_t len = strlen( *(paz++) ) + 1; if (len > max_len) max_len = len; ttl_len += len; } while (--ct_down > 0); ct_down = name_ct; } /* * IF any one entry is about 1/2 line or longer, print one per line */ if (max_len > 35) { do { fprintf( option_usage_fp, " %s\n", *(paz_names++) ); } while (--ct_down > 0); } /* * ELSE IF they all fit on one line, then do so. */ else if (ttl_len < 76) { fputc( ' ', option_usage_fp ); do { fputc( ' ', option_usage_fp ); fputs( *(paz_names++), option_usage_fp ); } while (--ct_down > 0); fputc( '\n', option_usage_fp ); } /* * Otherwise, columnize the output */ else { int ent_no = 0; char zFmt[16]; /* format for all-but-last entries on a line */ sprintf( zFmt, "%%-%ds", (int)max_len ); max_len = 78 / max_len; /* max_len is now max entries on a line */ fputs( " ", option_usage_fp ); /* * Loop through all but the last entry */ ct_down = name_ct; while (--ct_down > 0) { if (++ent_no == max_len) { /* * Last entry on a line. Start next line, too. */ fprintf( option_usage_fp, "%s\n ", *(paz_names++) ); ent_no = 0; } else fprintf(option_usage_fp, zFmt, *(paz_names++) ); } fprintf(option_usage_fp, "%s\n", *paz_names); } if (pOpts > OPTPROC_EMIT_LIMIT) { fprintf(option_usage_fp, zIntRange, hidden, name_ct - 1 + hidden); (*(pOpts->pUsageProc))( pOpts, EXIT_FAILURE ); /* NOTREACHED */ } if (OPTST_GET_ARGTYPE(pOD->fOptState) == OPARG_TYPE_MEMBERSHIP) { fprintf(option_usage_fp, zLowerBits, name_ct); fputs(zSetMemberSettings, option_usage_fp); } else { fprintf(option_usage_fp, zIntRange, hidden, name_ct - 1 + hidden); } } static uintptr_t findName( tCC* pzName, tOptions* pOpts, tOptDesc* pOD, tCC* const * paz_names, unsigned int name_ct ) { /* * Return the matching index as a pointer sized integer. * The result gets stashed in a char* pointer. */ uintptr_t res = name_ct; size_t len = strlen( (char*)pzName ); uintptr_t idx; if (IS_DEC_DIGIT_CHAR(*pzName)) { char * pz = (char *)(void *)pzName; unsigned long val = strtoul(pz, &pz, 0); if ((*pz == NUL) && (val < name_ct)) return (uintptr_t)val; enumError(pOpts, pOD, paz_names, (int)name_ct); return name_ct; } /* * Look for an exact match, but remember any partial matches. * Multiple partial matches means we have an ambiguous match. */ for (idx = 0; idx < name_ct; idx++) { if (strncmp( (char*)paz_names[idx], (char*)pzName, len) == 0) { if (paz_names[idx][len] == NUL) return idx; /* full match */ res = (res != name_ct) ? ~0 : idx; /* save partial match */ } } if (res < name_ct) return res; /* partial match */ pz_enum_err_fmt = (res == name_ct) ? zNoKey : zAmbigKey; option_usage_fp = stderr; enumError(pOpts, pOD, paz_names, (int)name_ct); return name_ct; } /*=export_func optionKeywordName * what: Convert between enumeration values and strings * private: * * arg: tOptDesc*, pOD, enumeration option description * arg: unsigned int, enum_val, the enumeration value to map * * ret_type: char const* * ret_desc: the enumeration name from const memory * * doc: This converts an enumeration value into the matching string. =*/ char const* optionKeywordName( tOptDesc* pOD, unsigned int enum_val ) { tOptDesc od; od.optArg.argEnum = enum_val; (*(pOD->pOptProc))(OPTPROC_RETURN_VALNAME, &od ); return od.optArg.argString; } /*=export_func optionEnumerationVal * what: Convert from a string to an enumeration value * private: * * arg: tOptions*, pOpts, the program options descriptor * arg: tOptDesc*, pOD, enumeration option description * arg: char const * const *, paz_names, list of enumeration names * arg: unsigned int, name_ct, number of names in list * * ret_type: uintptr_t * ret_desc: the enumeration value * * doc: This converts the optArg.argString string from the option description * into the index corresponding to an entry in the name list. * This will match the generated enumeration value. * Full matches are always accepted. Partial matches are accepted * if there is only one partial match. =*/ uintptr_t optionEnumerationVal( tOptions* pOpts, tOptDesc* pOD, tCC * const * paz_names, unsigned int name_ct ) { uintptr_t res = 0UL; /* * IF the program option descriptor pointer is invalid, * then it is some sort of special request. */ switch ((uintptr_t)pOpts) { case (uintptr_t)OPTPROC_EMIT_USAGE: /* * print the list of enumeration names. */ enumError(pOpts, pOD, paz_names, (int)name_ct); break; case (uintptr_t)OPTPROC_EMIT_SHELL: { unsigned int ix = pOD->optArg.argEnum; /* * print the name string. */ if (ix >= name_ct) printf( "INVALID-%d", ix ); else fputs( paz_names[ ix ], stdout ); break; } case (uintptr_t)OPTPROC_RETURN_VALNAME: { tSCC zInval[] = "*INVALID*"; unsigned int ix = pOD->optArg.argEnum; /* * Replace the enumeration value with the name string. */ if (ix >= name_ct) return (uintptr_t)zInval; pOD->optArg.argString = paz_names[ix]; break; } default: res = findName(pOD->optArg.argString, pOpts, pOD, paz_names, name_ct); if (pOD->fOptState & OPTST_ALLOC_ARG) { AGFREE(pOD->optArg.argString); pOD->fOptState &= ~OPTST_ALLOC_ARG; pOD->optArg.argString = NULL; } } return res; } /*=export_func optionSetMembers * what: Convert between bit flag values and strings * private: * * arg: tOptions*, pOpts, the program options descriptor * arg: tOptDesc*, pOD, enumeration option description * arg: char const * const *, * paz_names, list of enumeration names * arg: unsigned int, name_ct, number of names in list * * doc: This converts the optArg.argString string from the option description * into the index corresponding to an entry in the name list. * This will match the generated enumeration value. * Full matches are always accepted. Partial matches are accepted * if there is only one partial match. =*/ void optionSetMembers( tOptions* pOpts, tOptDesc* pOD, tCC* const * paz_names, unsigned int name_ct ) { /* * IF the program option descriptor pointer is invalid, * then it is some sort of special request. */ switch ((uintptr_t)pOpts) { case (uintptr_t)OPTPROC_EMIT_USAGE: /* * print the list of enumeration names. */ enumError(OPTPROC_EMIT_USAGE, pOD, paz_names, (int)name_ct ); return; case (uintptr_t)OPTPROC_EMIT_SHELL: { /* * print the name string. */ int ix = 0; uintptr_t bits = (uintptr_t)pOD->optCookie; size_t len = 0; bits &= ((uintptr_t)1 << (uintptr_t)name_ct) - (uintptr_t)1; while (bits != 0) { if (bits & 1) { if (len++ > 0) fputs( " | ", stdout ); fputs(paz_names[ix], stdout); } if (++ix >= name_ct) break; bits >>= 1; } return; } case (uintptr_t)OPTPROC_RETURN_VALNAME: { char* pz; uintptr_t bits = (uintptr_t)pOD->optCookie; int ix = 0; size_t len = 5; bits &= ((uintptr_t)1 << (uintptr_t)name_ct) - (uintptr_t)1; /* * Replace the enumeration value with the name string. * First, determine the needed length, then allocate and fill in. */ while (bits != 0) { if (bits & 1) len += strlen( paz_names[ix]) + 8; if (++ix >= name_ct) break; bits >>= 1; } pOD->optArg.argString = pz = AGALOC(len, "enum name"); /* * Start by clearing all the bits. We want to turn off any defaults * because we will be restoring to current state, not adding to * the default set of bits. */ strcpy( pz, "none" ); pz += 4; bits = (uintptr_t)pOD->optCookie; bits &= ((uintptr_t)1 << (uintptr_t)name_ct) - (uintptr_t)1; ix = 0; while (bits != 0) { if (bits & 1) { strcpy( pz, " + " ); strcpy( pz+3, paz_names[ix]); pz += strlen( paz_names[ix]) + 3; } if (++ix >= name_ct) break; bits >>= 1; } return; } default: break; } if ((pOD->fOptState & OPTST_RESET) != 0) return; { tCC* pzArg = pOD->optArg.argString; uintptr_t res; if ((pzArg == NULL) || (*pzArg == NUL)) { pOD->optCookie = (void*)0; return; } res = (uintptr_t)pOD->optCookie; for (;;) { tSCC zSpn[] = " ,|+\t\r\f\n"; int iv, len; pzArg += strspn( pzArg, zSpn ); iv = (*pzArg == '!'); if (iv) pzArg += strspn( pzArg+1, zSpn ) + 1; len = strcspn( pzArg, zSpn ); if (len == 0) break; if ((len == 3) && (strncmp(pzArg, zAll, (size_t)3) == 0)) { if (iv) res = 0; else res = ~0UL; } else if ((len == 4) && (strncmp(pzArg, zNone, (size_t)4) == 0)) { if (! iv) res = 0; } else do { char* pz; uintptr_t bit = strtoul( pzArg, &pz, 0 ); if (pz != pzArg + len) { char z[ AO_NAME_SIZE ]; tCC* p; int shift_ct; if (*pz != NUL) { if (len >= AO_NAME_LIMIT) break; strncpy( z, pzArg, (size_t)len ); z[len] = NUL; p = z; } else { p = pzArg; } shift_ct = findName(p, pOpts, pOD, paz_names, name_ct); if (shift_ct >= name_ct) { pOD->optCookie = (void*)0; return; } bit = 1UL << shift_ct; } if (iv) res &= ~bit; else res |= bit; } while (0); if (pzArg[len] == NUL) break; pzArg += len + 1; } if (name_ct < (8 * sizeof( uintptr_t ))) { res &= (1UL << name_ct) - 1UL; } pOD->optCookie = (void*)res; } } /* * Local Variables: * mode: C * c-file-style: "stroustrup" * indent-tabs-mode: nil * End: * end of autoopts/enumeration.c */