/* $NetBSD: yacc.y,v 1.27 2009/01/05 06:11:43 tnozaki Exp $ */ %{ /*- * Copyright (c) 1993 * The Regents of the University of California. All rights reserved. * * This code is derived from software contributed to Berkeley by * Paul Borman at Krystal Technologies. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. Neither the name of the University nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. */ #if HAVE_NBTOOL_CONFIG_H #include "nbtool_config.h" #endif #include #ifndef lint #if 0 static char sccsid[] = "@(#)yacc.y 8.1 (Berkeley) 6/6/93"; static char rcsid[] = "$FreeBSD$"; #else __RCSID("$NetBSD: yacc.y,v 1.27 2009/01/05 06:11:43 tnozaki Exp $"); #endif #endif /* not lint */ #include #include /* Needed by on NetBSD 1.5. */ #include /* Needed for htonl on POSIX systems. */ #include #include "runetype_local.h" #include #include #include #include #include #include #include #include "ldef.h" const char *locale_file = ""; rune_map maplower = { { 0, }, }; rune_map mapupper = { { 0, }, }; rune_map types = { { 0, }, }; _NBRuneLocale new_locale = { { 0, }, }; __nbrune_t charsetbits = (__nbrune_t)0x00000000; #if 0 __nbrune_t charsetmask = (__nbrune_t)0x0000007f; #endif __nbrune_t charsetmask = (__nbrune_t)0xffffffff; void set_map __P((rune_map *, rune_list *, u_int32_t)); void set_digitmap __P((rune_map *, rune_list *)); void add_map __P((rune_map *, rune_list *, u_int32_t)); int main __P((int, char *[])); void usage __P((void)); int yyerror __P((const char *s)); void *xmalloc __P((unsigned int sz)); u_int32_t *xlalloc __P((unsigned int sz)); u_int32_t *xrelalloc __P((u_int32_t *old, unsigned int sz)); void dump_tables __P((void)); int yyparse __P((void)); extern int yylex __P((void)); /* mklocaledb.c */ extern void mklocaledb __P((const char *, FILE *, FILE *)); %} %union { __nbrune_t rune; int i; char *str; rune_list *list; } %token RUNE %token LBRK %token RBRK %token THRU %token MAPLOWER %token MAPUPPER %token DIGITMAP %token LIST %token VARIABLE %token CHARSET %token ENCODING %token INVALID %token STRING %type list %type map %% locale : /* empty */ | table { dump_tables(); } ; table : entry | table entry ; entry : ENCODING STRING { strncpy(new_locale.rl_encoding, $2, sizeof(new_locale.rl_encoding)); } | VARIABLE { new_locale.rl_variable_len = strlen($1) + 1; new_locale.rl_variable = strdup($1); } | CHARSET RUNE { charsetbits = $2; charsetmask = 0x0000007f; } | CHARSET RUNE RUNE { charsetbits = $2; charsetmask = $3; } | CHARSET STRING { int final = $2[strlen($2) - 1] & 0x7f; charsetbits = final << 24; if ($2[0] == '$') { charsetmask = 0x00007f7f; if (strchr(",-./", $2[1])) charsetbits |= 0x80; if (0xd0 <= final && final <= 0xdf) charsetmask |= 0x007f0000; } else { charsetmask = 0x0000007f; if (strchr(",-./", $2[0])) charsetbits |= 0x80; if (strlen($2) == 2 && $2[0] == '!') charsetbits |= ((0x80 | $2[0]) << 16); } /* * special rules */ if (charsetbits == ('B' << 24) && charsetmask == 0x0000007f) { /*ASCII: 94B*/ charsetbits = 0; charsetmask = 0x0000007f; } else if (charsetbits == (('A' << 24) | 0x80) && charsetmask == 0x0000007f) { /*Latin1: 96A*/ charsetbits = 0x80; charsetmask = 0x0000007f; } } | INVALID RUNE { new_locale.rl_invalid_rune = $2; } | LIST list { set_map(&types, $2, $1); } | MAPLOWER map { set_map(&maplower, $2, 0); } | MAPUPPER map { set_map(&mapupper, $2, 0); } | DIGITMAP map { set_digitmap(&types, $2); } ; list : RUNE { $$ = (rune_list *)malloc(sizeof(rune_list)); $$->min = ($1 & charsetmask) | charsetbits; $$->max = ($1 & charsetmask) | charsetbits; $$->next = 0; } | RUNE THRU RUNE { $$ = (rune_list *)malloc(sizeof(rune_list)); $$->min = ($1 & charsetmask) | charsetbits; $$->max = ($3 & charsetmask) | charsetbits; $$->next = 0; } | list RUNE { $$ = (rune_list *)malloc(sizeof(rune_list)); $$->min = ($2 & charsetmask) | charsetbits; $$->max = ($2 & charsetmask) | charsetbits; $$->next = $1; } | list RUNE THRU RUNE { $$ = (rune_list *)malloc(sizeof(rune_list)); $$->min = ($2 & charsetmask) | charsetbits; $$->max = ($4 & charsetmask) | charsetbits; $$->next = $1; } ; map : LBRK RUNE RUNE RBRK { $$ = (rune_list *)malloc(sizeof(rune_list)); $$->min = ($2 & charsetmask) | charsetbits; $$->max = ($2 & charsetmask) | charsetbits; $$->map = $3; $$->next = 0; } | map LBRK RUNE RUNE RBRK { $$ = (rune_list *)malloc(sizeof(rune_list)); $$->min = ($3 & charsetmask) | charsetbits; $$->max = ($3 & charsetmask) | charsetbits; $$->map = $4; $$->next = $1; } | LBRK RUNE THRU RUNE ':' RUNE RBRK { $$ = (rune_list *)malloc(sizeof(rune_list)); $$->min = ($2 & charsetmask) | charsetbits; $$->max = ($4 & charsetmask) | charsetbits; $$->map = $6; $$->next = 0; } | map LBRK RUNE THRU RUNE ':' RUNE RBRK { $$ = (rune_list *)malloc(sizeof(rune_list)); $$->min = ($3 & charsetmask) | charsetbits; $$->max = ($5 & charsetmask) | charsetbits; $$->map = $7; $$->next = $1; } ; %% int debug = 0; FILE *ofile; int main(ac, av) int ac; char *av[]; { int x; const char *locale_type; extern char *optarg; extern int optind; locale_type = NULL; while ((x = getopt(ac, av, "do:t:")) != EOF) { switch(x) { case 'd': debug = 1; break; case 'o': locale_file = optarg; if ((ofile = fopen(locale_file, "w")) == 0) err(1, "unable to open output file %s", locale_file); break; case 't': locale_type = optarg; break; default: usage(); } } switch (ac - optind) { case 0: break; case 1: if (freopen(av[optind], "r", stdin) == 0) err(1, "unable to open input file %s", av[optind]); break; default: usage(); } if (ofile == NULL) ofile = stdout; if (locale_type != NULL && strcasecmp(locale_type, "CTYPE")) { mklocaledb(locale_type, stdin, ofile); return 0; } for (x = 0; x < _NB_CACHED_RUNES; ++x) { mapupper.map[x] = x; maplower.map[x] = x; } new_locale.rl_invalid_rune = _NB_DEFAULT_INVALID_RUNE; memcpy(new_locale.rl_magic, _NB_RUNE_MAGIC_1, sizeof(new_locale.rl_magic)); yyparse(); return 0; } void usage() { fprintf(stderr, "usage: mklocale [-d] [-o output] [-t type] [source]\n"); exit(1); } int yyerror(s) const char *s; { fprintf(stderr, "%s\n", s); return 0; } void * xmalloc(sz) unsigned int sz; { void *r = malloc(sz); if (!r) { perror("xmalloc"); abort(); } return(r); } u_int32_t * xlalloc(sz) unsigned int sz; { u_int32_t *r = (u_int32_t *)malloc(sz * sizeof(u_int32_t)); if (!r) { perror("xlalloc"); abort(); } return(r); } u_int32_t * xrelalloc(old, sz) u_int32_t *old; unsigned int sz; { u_int32_t *r = (u_int32_t *)realloc((char *)old, sz * sizeof(u_int32_t)); if (!r) { perror("xrelalloc"); abort(); } return(r); } void set_map(map, list, flag) rune_map *map; rune_list *list; u_int32_t flag; { list->map &= charsetmask; list->map |= charsetbits; while (list) { rune_list *nlist = list->next; add_map(map, list, flag); list = nlist; } } void set_digitmap(map, list) rune_map *map; rune_list *list; { __nbrune_t i; while (list) { rune_list *nlist = list->next; for (i = list->min; i <= list->max; ++i) { if (list->map + (i - list->min)) { rune_list *tmp = (rune_list *)xmalloc(sizeof(rune_list)); tmp->min = i; tmp->max = i; add_map(map, tmp, list->map + (i - list->min)); } } free(list); list = nlist; } } void add_map(map, list, flag) rune_map *map; rune_list *list; u_int32_t flag; { __nbrune_t i; rune_list *lr = 0; rune_list *r; __nbrune_t run; while (list->min < _NB_CACHED_RUNES && list->min <= list->max) { if (flag) map->map[list->min++] |= flag; else map->map[list->min++] = list->map++; } if (list->min > list->max) { free(list); return; } run = list->max - list->min + 1; if (!(r = map->root) || (list->max < r->min - 1) || (!flag && list->max == r->min - 1)) { if (flag) { list->types = xlalloc(run); for (i = 0; i < run; ++i) list->types[i] = flag; } list->next = map->root; map->root = list; return; } for (r = map->root; r && r->max + 1 < list->min; r = r->next) lr = r; if (!r) { /* * We are off the end. */ if (flag) { list->types = xlalloc(run); for (i = 0; i < run; ++i) list->types[i] = flag; } list->next = 0; lr->next = list; return; } if (list->max < r->min - 1) { /* * We come before this range and we do not intersect it. * We are not before the root node, it was checked before the loop */ if (flag) { list->types = xlalloc(run); for (i = 0; i < run; ++i) list->types[i] = flag; } list->next = lr->next; lr->next = list; return; } /* * At this point we have found that we at least intersect with * the range pointed to by `r', we might intersect with one or * more ranges beyond `r' as well. */ if (!flag && list->map - list->min != r->map - r->min) { /* * There are only two cases when we are doing case maps and * our maps needn't have the same offset. When we are adjoining * but not intersecting. */ if (list->max + 1 == r->min) { lr->next = list; list->next = r; return; } if (list->min - 1 == r->max) { list->next = r->next; r->next = list; return; } fprintf(stderr, "Error: conflicting map entries\n"); exit(1); } if (list->min >= r->min && list->max <= r->max) { /* * Subset case. */ if (flag) { for (i = list->min; i <= list->max; ++i) r->types[i - r->min] |= flag; } free(list); return; } if (list->min <= r->min && list->max >= r->max) { /* * Superset case. Make him big enough to hold us. * We might need to merge with the guy after him. */ if (flag) { list->types = xlalloc(list->max - list->min + 1); for (i = list->min; i <= list->max; ++i) list->types[i - list->min] = flag; for (i = r->min; i <= r->max; ++i) list->types[i - list->min] |= r->types[i - r->min]; free(r->types); r->types = list->types; } else { r->map = list->map; } r->min = list->min; r->max = list->max; free(list); } else if (list->min < r->min) { /* * Our tail intersects his head. */ if (flag) { list->types = xlalloc(r->max - list->min + 1); for (i = r->min; i <= r->max; ++i) list->types[i - list->min] = r->types[i - r->min]; for (i = list->min; i < r->min; ++i) list->types[i - list->min] = flag; for (i = r->min; i <= list->max; ++i) list->types[i - list->min] |= flag; free(r->types); r->types = list->types; } else { r->map = list->map; } r->min = list->min; free(list); return; } else { /* * Our head intersects his tail. * We might need to merge with the guy after him. */ if (flag) { r->types = xrelalloc(r->types, list->max - r->min + 1); for (i = list->min; i <= r->max; ++i) r->types[i - r->min] |= flag; for (i = r->max+1; i <= list->max; ++i) r->types[i - r->min] = flag; } r->max = list->max; free(list); } /* * Okay, check to see if we grew into the next guy(s) */ while ((lr = r->next) && r->max >= lr->min) { if (flag) { if (r->max >= lr->max) { /* * Good, we consumed all of him. */ for (i = lr->min; i <= lr->max; ++i) r->types[i - r->min] |= lr->types[i - lr->min]; } else { /* * "append" him on to the end of us. */ r->types = xrelalloc(r->types, lr->max - r->min + 1); for (i = lr->min; i <= r->max; ++i) r->types[i - r->min] |= lr->types[i - lr->min]; for (i = r->max+1; i <= lr->max; ++i) r->types[i - r->min] = lr->types[i - lr->min]; r->max = lr->max; } } else { if (lr->max > r->max) r->max = lr->max; } r->next = lr->next; if (flag) free(lr->types); free(lr); } } void dump_tables() { int x, n; rune_list *list; _FileRuneLocale file_new_locale; FILE *fp = ofile; memset(&file_new_locale, 0, sizeof(file_new_locale)); /* * See if we can compress some of the istype arrays */ for(list = types.root; list; list = list->next) { list->map = list->types[0]; for (x = 1; x < list->max - list->min + 1; ++x) { if (list->types[x] != list->map) { list->map = 0; break; } } } memcpy(&file_new_locale.frl_magic, new_locale.rl_magic, sizeof(file_new_locale.frl_magic)); memcpy(&file_new_locale.frl_encoding, new_locale.rl_encoding, sizeof(file_new_locale.frl_encoding)); file_new_locale.frl_invalid_rune = htonl(new_locale.rl_invalid_rune); /* * Fill in our tables. Do this in network order so that * diverse machines have a chance of sharing data. * (Machines like Crays cannot share with little machines due to * word size. Sigh. We tried.) */ for (x = 0; x < _NB_CACHED_RUNES; ++x) { file_new_locale.frl_runetype[x] = htonl(types.map[x]); file_new_locale.frl_maplower[x] = htonl(maplower.map[x]); file_new_locale.frl_mapupper[x] = htonl(mapupper.map[x]); } /* * Count up how many ranges we will need for each of the extents. */ list = types.root; while (list) { new_locale.rl_runetype_ext.rr_nranges++; list = list->next; } file_new_locale.frl_runetype_ext.frr_nranges = htonl(new_locale.rl_runetype_ext.rr_nranges); list = maplower.root; while (list) { new_locale.rl_maplower_ext.rr_nranges++; list = list->next; } file_new_locale.frl_maplower_ext.frr_nranges = htonl(new_locale.rl_maplower_ext.rr_nranges); list = mapupper.root; while (list) { new_locale.rl_mapupper_ext.rr_nranges++; list = list->next; } file_new_locale.frl_mapupper_ext.frr_nranges = htonl(new_locale.rl_mapupper_ext.rr_nranges); file_new_locale.frl_variable_len = htonl(new_locale.rl_variable_len); /* * Okay, we are now ready to write the new locale file. */ /* * PART 1: The _RuneLocale structure */ if (fwrite((char *)&file_new_locale, sizeof(file_new_locale), 1, fp) != 1) err(1, "writing _RuneLocale to %s", locale_file); /* * PART 2: The runetype_ext structures (not the actual tables) */ for (list = types.root, n = 0; list != NULL; list = list->next, n++) { _FileRuneEntry re; memset(&re, 0, sizeof(re)); re.fre_min = htonl(list->min); re.fre_max = htonl(list->max); re.fre_map = htonl(list->map); if (fwrite((char *)&re, sizeof(re), 1, fp) != 1) err(1, "writing runetype_ext #%d to %s", n, locale_file); } /* * PART 3: The maplower_ext structures */ for (list = maplower.root, n = 0; list != NULL; list = list->next, n++) { _FileRuneEntry re; memset(&re, 0, sizeof(re)); re.fre_min = htonl(list->min); re.fre_max = htonl(list->max); re.fre_map = htonl(list->map); if (fwrite((char *)&re, sizeof(re), 1, fp) != 1) err(1, "writing maplower_ext #%d to %s", n, locale_file); } /* * PART 4: The mapupper_ext structures */ for (list = mapupper.root, n = 0; list != NULL; list = list->next, n++) { _FileRuneEntry re; memset(&re, 0, sizeof(re)); re.fre_min = htonl(list->min); re.fre_max = htonl(list->max); re.fre_map = htonl(list->map); if (fwrite((char *)&re, sizeof(re), 1, fp) != 1) err(1, "writing mapupper_ext #%d to %s", n, locale_file); } /* * PART 5: The runetype_ext tables */ for (list = types.root, n = 0; list != NULL; list = list->next, n++) { for (x = 0; x < list->max - list->min + 1; ++x) list->types[x] = htonl(list->types[x]); if (!list->map) { if (fwrite((char *)list->types, (list->max - list->min + 1) * sizeof(u_int32_t), 1, fp) != 1) err(1, "writing runetype_ext table #%d to %s", n, locale_file); } } /* * PART 5: And finally the variable data */ if (new_locale.rl_variable_len != 0 && fwrite((char *)new_locale.rl_variable, new_locale.rl_variable_len, 1, fp) != 1) err(1, "writing variable data to %s", locale_file); fclose(fp); if (!debug) return; if (new_locale.rl_encoding[0]) fprintf(stderr, "ENCODING %s\n", new_locale.rl_encoding); if (new_locale.rl_variable) fprintf(stderr, "VARIABLE %s\n", (char *)new_locale.rl_variable); fprintf(stderr, "\nMAPLOWER:\n\n"); for (x = 0; x < _NB_CACHED_RUNES; ++x) { if (isprint(maplower.map[x])) fprintf(stderr, " '%c'", (int)maplower.map[x]); else if (maplower.map[x]) fprintf(stderr, "%04x", maplower.map[x]); else fprintf(stderr, "%4x", 0); if ((x & 0xf) == 0xf) fprintf(stderr, "\n"); else fprintf(stderr, " "); } fprintf(stderr, "\n"); for (list = maplower.root; list; list = list->next) fprintf(stderr, "\t%04x - %04x : %04x\n", list->min, list->max, list->map); fprintf(stderr, "\nMAPUPPER:\n\n"); for (x = 0; x < _NB_CACHED_RUNES; ++x) { if (isprint(mapupper.map[x])) fprintf(stderr, " '%c'", (int)mapupper.map[x]); else if (mapupper.map[x]) fprintf(stderr, "%04x", mapupper.map[x]); else fprintf(stderr, "%4x", 0); if ((x & 0xf) == 0xf) fprintf(stderr, "\n"); else fprintf(stderr, " "); } fprintf(stderr, "\n"); for (list = mapupper.root; list; list = list->next) fprintf(stderr, "\t%04x - %04x : %04x\n", list->min, list->max, list->map); fprintf(stderr, "\nTYPES:\n\n"); for (x = 0; x < _NB_CACHED_RUNES; ++x) { u_int32_t r = types.map[x]; if (r) { if (isprint(x)) fprintf(stderr, " '%c':%2d", x, (int)(r & 0xff)); else fprintf(stderr, "%04x:%2d", x, (int)(r & 0xff)); fprintf(stderr, " %4s", (r & _RUNETYPE_A) ? "alph" : ""); fprintf(stderr, " %4s", (r & _RUNETYPE_C) ? "ctrl" : ""); fprintf(stderr, " %4s", (r & _RUNETYPE_D) ? "dig" : ""); fprintf(stderr, " %4s", (r & _RUNETYPE_G) ? "graf" : ""); fprintf(stderr, " %4s", (r & _RUNETYPE_L) ? "low" : ""); fprintf(stderr, " %4s", (r & _RUNETYPE_P) ? "punc" : ""); fprintf(stderr, " %4s", (r & _RUNETYPE_S) ? "spac" : ""); fprintf(stderr, " %4s", (r & _RUNETYPE_U) ? "upp" : ""); fprintf(stderr, " %4s", (r & _RUNETYPE_X) ? "xdig" : ""); fprintf(stderr, " %4s", (r & _RUNETYPE_B) ? "blnk" : ""); fprintf(stderr, " %4s", (r & _RUNETYPE_R) ? "prnt" : ""); fprintf(stderr, " %4s", (r & _RUNETYPE_I) ? "ideo" : ""); fprintf(stderr, " %4s", (r & _RUNETYPE_T) ? "spec" : ""); fprintf(stderr, " %4s", (r & _RUNETYPE_Q) ? "phon" : ""); fprintf(stderr, "\n"); } } for (list = types.root; list; list = list->next) { if (list->map && list->min + 3 < list->max) { u_int32_t r = list->map; fprintf(stderr, "%04x:%2d", list->min, r & 0xff); fprintf(stderr, " %4s", (r & _RUNETYPE_A) ? "alph" : ""); fprintf(stderr, " %4s", (r & _RUNETYPE_C) ? "ctrl" : ""); fprintf(stderr, " %4s", (r & _RUNETYPE_D) ? "dig" : ""); fprintf(stderr, " %4s", (r & _RUNETYPE_G) ? "graf" : ""); fprintf(stderr, " %4s", (r & _RUNETYPE_L) ? "low" : ""); fprintf(stderr, " %4s", (r & _RUNETYPE_P) ? "punc" : ""); fprintf(stderr, " %4s", (r & _RUNETYPE_S) ? "spac" : ""); fprintf(stderr, " %4s", (r & _RUNETYPE_U) ? "upp" : ""); fprintf(stderr, " %4s", (r & _RUNETYPE_X) ? "xdig" : ""); fprintf(stderr, " %4s", (r & _RUNETYPE_B) ? "blnk" : ""); fprintf(stderr, " %4s", (r & _RUNETYPE_R) ? "prnt" : ""); fprintf(stderr, " %4s", (r & _RUNETYPE_I) ? "ideo" : ""); fprintf(stderr, " %4s", (r & _RUNETYPE_T) ? "spec" : ""); fprintf(stderr, " %4s", (r & _RUNETYPE_Q) ? "phon" : ""); fprintf(stderr, "\n...\n"); fprintf(stderr, "%04x:%2d", list->max, r & 0xff); fprintf(stderr, " %4s", (r & _RUNETYPE_A) ? "alph" : ""); fprintf(stderr, " %4s", (r & _RUNETYPE_C) ? "ctrl" : ""); fprintf(stderr, " %4s", (r & _RUNETYPE_D) ? "dig" : ""); fprintf(stderr, " %4s", (r & _RUNETYPE_G) ? "graf" : ""); fprintf(stderr, " %4s", (r & _RUNETYPE_L) ? "low" : ""); fprintf(stderr, " %4s", (r & _RUNETYPE_P) ? "punc" : ""); fprintf(stderr, " %4s", (r & _RUNETYPE_S) ? "spac" : ""); fprintf(stderr, " %4s", (r & _RUNETYPE_U) ? "upp" : ""); fprintf(stderr, " %4s", (r & _RUNETYPE_X) ? "xdig" : ""); fprintf(stderr, " %4s", (r & _RUNETYPE_B) ? "blnk" : ""); fprintf(stderr, " %4s", (r & _RUNETYPE_R) ? "prnt" : ""); fprintf(stderr, " %4s", (r & _RUNETYPE_I) ? "ideo" : ""); fprintf(stderr, " %4s", (r & _RUNETYPE_T) ? "spec" : ""); fprintf(stderr, " %4s", (r & _RUNETYPE_Q) ? "phon" : ""); fprintf(stderr, " %1u", (unsigned)((r & _RUNETYPE_SWM)>>_RUNETYPE_SWS)); fprintf(stderr, "\n"); } else for (x = list->min; x <= list->max; ++x) { u_int32_t r = ntohl(list->types[x - list->min]); if (r) { fprintf(stderr, "%04x:%2d", x, (int)(r & 0xff)); fprintf(stderr, " %4s", (r & _RUNETYPE_A) ? "alph" : ""); fprintf(stderr, " %4s", (r & _RUNETYPE_C) ? "ctrl" : ""); fprintf(stderr, " %4s", (r & _RUNETYPE_D) ? "dig" : ""); fprintf(stderr, " %4s", (r & _RUNETYPE_G) ? "graf" : ""); fprintf(stderr, " %4s", (r & _RUNETYPE_L) ? "low" : ""); fprintf(stderr, " %4s", (r & _RUNETYPE_P) ? "punc" : ""); fprintf(stderr, " %4s", (r & _RUNETYPE_S) ? "spac" : ""); fprintf(stderr, " %4s", (r & _RUNETYPE_U) ? "upp" : ""); fprintf(stderr, " %4s", (r & _RUNETYPE_X) ? "xdig" : ""); fprintf(stderr, " %4s", (r & _RUNETYPE_B) ? "blnk" : ""); fprintf(stderr, " %4s", (r & _RUNETYPE_R) ? "prnt" : ""); fprintf(stderr, " %4s", (r & _RUNETYPE_I) ? "ideo" : ""); fprintf(stderr, " %4s", (r & _RUNETYPE_T) ? "spec" : ""); fprintf(stderr, " %4s", (r & _RUNETYPE_Q) ? "phon" : ""); fprintf(stderr, " %1u", (unsigned)((r & _RUNETYPE_SWM)>>_RUNETYPE_SWS)); fprintf(stderr, "\n"); } } } }