/* $OpenBSD: infocmp.c,v 1.23 2016/08/03 16:32:08 krw Exp $ */ /**************************************************************************** * Copyright (c) 1998-2007,2008 Free Software Foundation, Inc. * * * * Permission is hereby granted, free of charge, to any person obtaining a * * copy of this software and associated documentation files (the * * "Software"), to deal in the Software without restriction, including * * without limitation the rights to use, copy, modify, merge, publish, * * distribute, distribute with modifications, sublicense, and/or sell * * copies of the Software, and to permit persons to whom the Software is * * furnished to do so, subject to the following conditions: * * * * The above copyright notice and this permission notice shall be included * * in all copies or substantial portions of the Software. * * * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS * * OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF * * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. * * IN NO EVENT SHALL THE ABOVE COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, * * DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR * * OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR * * THE USE OR OTHER DEALINGS IN THE SOFTWARE. * * * * Except as contained in this notice, the name(s) of the above copyright * * holders shall not be used in advertising or otherwise to promote the * * sale, use or other dealings in this Software without prior written * * authorization. * ****************************************************************************/ /**************************************************************************** * Author: Zeyd M. Ben-Halim 1992,1995 * * and: Eric S. Raymond * * and: Thomas E. Dickey 1996-on * ****************************************************************************/ /* * infocmp.c -- decompile an entry, or compare two entries * written by Eric S. Raymond * and Thomas E Dickey */ #include #include MODULE_ID("$Id: infocmp.c,v 1.23 2016/08/03 16:32:08 krw Exp $") #define L_CURL "{" #define R_CURL "}" #define MAX_STRING 1024 /* maximum formatted string */ const char *_nc_progname = "infocmp"; typedef char path[PATH_MAX]; /*************************************************************************** * * The following control variables, together with the contents of the * terminfo entries, completely determine the actions of the program. * ***************************************************************************/ static ENTRY *entries; /* terminfo entries */ static int termcount; /* count of terminal entries */ static bool limited = TRUE; /* "-r" option is not set */ static bool quiet = FALSE; static bool literal = FALSE; static const char *bool_sep = ":"; static const char *s_absent = "NULL"; static const char *s_cancel = "NULL"; static const char *tversion; /* terminfo version selected */ static int itrace; /* trace flag for debugging */ static int mwidth = 60; static int numbers = 0; /* format "%'char'" to/from "%{number}" */ static int outform = F_TERMINFO; /* output format */ static int sortmode; /* sort_mode */ /* main comparison mode */ static int compare; #define C_DEFAULT 0 /* don't force comparison mode */ #define C_DIFFERENCE 1 /* list differences between two terminals */ #define C_COMMON 2 /* list common capabilities */ #define C_NAND 3 /* list capabilities in neither terminal */ #define C_USEALL 4 /* generate relative use-form entry */ static bool ignorepads; /* ignore pad prefixes when diffing */ #if NO_LEAKS #undef ExitProgram static void ExitProgram(int code) GCC_NORETURN; /* prototype is to get gcc to accept the noreturn attribute */ static void ExitProgram(int code) { while (termcount-- > 0) _nc_free_termtype(&entries[termcount].tterm); _nc_leaks_dump_entry(); free(entries); _nc_free_tic(code); } #endif static char * canonical_name(char *ptr, char *buf, size_t bufl) /* extract the terminal type's primary name */ { char *bp; (void) strlcpy(buf, ptr, bufl); if ((bp = strchr(buf, '|')) != 0) *bp = '\0'; return (buf); } /*************************************************************************** * * Predicates for dump function * ***************************************************************************/ static int capcmp(PredIdx idx, const char *s, const char *t) /* capability comparison function */ { if (!VALID_STRING(s) && !VALID_STRING(t)) return (s != t); else if (!VALID_STRING(s) || !VALID_STRING(t)) return (1); if ((idx == acs_chars_index) || !ignorepads) return (strcmp(s, t)); else return (_nc_capcmp(s, t)); } static int use_predicate(unsigned type, PredIdx idx) /* predicate function to use for use decompilation */ { ENTRY *ep; switch (type) { case BOOLEAN: { int is_set = FALSE; /* * This assumes that multiple use entries are supposed * to contribute the logical or of their boolean capabilities. * This is true if we take the semantics of multiple uses to * be 'each capability gets the first non-default value found * in the sequence of use entries'. * * Note that cancelled or absent booleans are stored as FALSE, * unlike numbers and strings, whose cancelled/absent state is * recorded in the terminfo database. */ for (ep = &entries[1]; ep < entries + termcount; ep++) if (ep->tterm.Booleans[idx] == TRUE) { is_set = entries[0].tterm.Booleans[idx]; break; } if (is_set != entries[0].tterm.Booleans[idx]) return (!is_set); else return (FAIL); } case NUMBER: { int value = ABSENT_NUMERIC; /* * We take the semantics of multiple uses to be 'each * capability gets the first non-default value found * in the sequence of use entries'. */ for (ep = &entries[1]; ep < entries + termcount; ep++) if (VALID_NUMERIC(ep->tterm.Numbers[idx])) { value = ep->tterm.Numbers[idx]; break; } if (value != entries[0].tterm.Numbers[idx]) return (value != ABSENT_NUMERIC); else return (FAIL); } case STRING: { char *termstr, *usestr = ABSENT_STRING; termstr = entries[0].tterm.Strings[idx]; /* * We take the semantics of multiple uses to be 'each * capability gets the first non-default value found * in the sequence of use entries'. */ for (ep = &entries[1]; ep < entries + termcount; ep++) if (ep->tterm.Strings[idx]) { usestr = ep->tterm.Strings[idx]; break; } if (usestr == ABSENT_STRING && termstr == ABSENT_STRING) return (FAIL); else if (!usestr || !termstr || capcmp(idx, usestr, termstr)) return (TRUE); else return (FAIL); } } return (FALSE); /* pacify compiler */ } static bool useeq(ENTRY * e1, ENTRY * e2) /* are the use references in two entries equivalent? */ { unsigned i, j; if (e1->nuses != e2->nuses) return (FALSE); /* Ugh...this is quadratic again */ for (i = 0; i < e1->nuses; i++) { bool foundmatch = FALSE; /* search second entry for given use reference */ for (j = 0; j < e2->nuses; j++) if (!strcmp(e1->uses[i].name, e2->uses[j].name)) { foundmatch = TRUE; break; } if (!foundmatch) return (FALSE); } return (TRUE); } static bool entryeq(TERMTYPE *t1, TERMTYPE *t2) /* are two entries equivalent? */ { unsigned i; for (i = 0; i < NUM_BOOLEANS(t1); i++) if (t1->Booleans[i] != t2->Booleans[i]) return (FALSE); for (i = 0; i < NUM_NUMBERS(t1); i++) if (t1->Numbers[i] != t2->Numbers[i]) return (FALSE); for (i = 0; i < NUM_STRINGS(t1); i++) if (capcmp((PredIdx) i, t1->Strings[i], t2->Strings[i])) return (FALSE); return (TRUE); } #define TIC_EXPAND(result) _nc_tic_expand(result, outform==F_TERMINFO, numbers) static void print_uses(ENTRY * ep, FILE *fp) /* print an entry's use references */ { unsigned i; if (!ep->nuses) fputs("NULL", fp); else for (i = 0; i < ep->nuses; i++) { fputs(ep->uses[i].name, fp); if (i < ep->nuses - 1) fputs(" ", fp); } } static const char * dump_boolean(int val) /* display the value of a boolean capability */ { switch (val) { case ABSENT_BOOLEAN: return (s_absent); case CANCELLED_BOOLEAN: return (s_cancel); case FALSE: return ("F"); case TRUE: return ("T"); default: return ("?"); } } static void dump_numeric(int val, char *buf, size_t bufl) /* display the value of a boolean capability */ { switch (val) { case ABSENT_NUMERIC: strlcpy(buf, s_absent, bufl); break; case CANCELLED_NUMERIC: strlcpy(buf, s_cancel, bufl); break; default: snprintf(buf, bufl, "%d", val); break; } } static void dump_string(char *val, char *buf, size_t bufl) /* display the value of a string capability */ { if (val == ABSENT_STRING) strlcpy(buf, s_absent, bufl); else if (val == CANCELLED_STRING) strlcpy(buf, s_cancel, bufl); else { snprintf(buf, bufl, "'%.*s'", MAX_STRING - 3, TIC_EXPAND(val)); } } static void compare_predicate(PredType type, PredIdx idx, const char *name) /* predicate function to use for entry difference reports */ { ENTRY *e1 = &entries[0]; ENTRY *e2 = &entries[1]; char buf1[MAX_STRING], buf2[MAX_STRING]; int b1, b2; int n1, n2; char *s1, *s2; switch (type) { case CMP_BOOLEAN: b1 = e1->tterm.Booleans[idx]; b2 = e2->tterm.Booleans[idx]; switch (compare) { case C_DIFFERENCE: if (!(b1 == ABSENT_BOOLEAN && b2 == ABSENT_BOOLEAN) && b1 != b2) (void) printf("\t%s: %s%s%s.\n", name, dump_boolean(b1), bool_sep, dump_boolean(b2)); break; case C_COMMON: if (b1 == b2 && b1 != ABSENT_BOOLEAN) (void) printf("\t%s= %s.\n", name, dump_boolean(b1)); break; case C_NAND: if (b1 == ABSENT_BOOLEAN && b2 == ABSENT_BOOLEAN) (void) printf("\t!%s.\n", name); break; } break; case CMP_NUMBER: n1 = e1->tterm.Numbers[idx]; n2 = e2->tterm.Numbers[idx]; dump_numeric(n1, buf1, sizeof buf1); dump_numeric(n2, buf2, sizeof buf2); switch (compare) { case C_DIFFERENCE: if (!((n1 == ABSENT_NUMERIC && n2 == ABSENT_NUMERIC)) && n1 != n2) (void) printf("\t%s: %s, %s.\n", name, buf1, buf2); break; case C_COMMON: if (n1 != ABSENT_NUMERIC && n2 != ABSENT_NUMERIC && n1 == n2) (void) printf("\t%s= %s.\n", name, buf1); break; case C_NAND: if (n1 == ABSENT_NUMERIC && n2 == ABSENT_NUMERIC) (void) printf("\t!%s.\n", name); break; } break; case CMP_STRING: s1 = e1->tterm.Strings[idx]; s2 = e2->tterm.Strings[idx]; switch (compare) { case C_DIFFERENCE: if (capcmp(idx, s1, s2)) { dump_string(s1, buf1, sizeof buf1); dump_string(s2, buf2, sizeof buf2); if (strcmp(buf1, buf2)) (void) printf("\t%s: %s, %s.\n", name, buf1, buf2); } break; case C_COMMON: if (s1 && s2 && !capcmp(idx, s1, s2)) (void) printf("\t%s= '%s'.\n", name, TIC_EXPAND(s1)); break; case C_NAND: if (!s1 && !s2) (void) printf("\t!%s.\n", name); break; } break; case CMP_USE: /* unlike the other modes, this compares *all* use entries */ switch (compare) { case C_DIFFERENCE: if (!useeq(e1, e2)) { (void) fputs("\tuse: ", stdout); print_uses(e1, stdout); fputs(", ", stdout); print_uses(e2, stdout); fputs(".\n", stdout); } break; case C_COMMON: if (e1->nuses && e2->nuses && useeq(e1, e2)) { (void) fputs("\tuse: ", stdout); print_uses(e1, stdout); fputs(".\n", stdout); } break; case C_NAND: if (!e1->nuses && !e2->nuses) (void) printf("\t!use.\n"); break; } } } /*************************************************************************** * * Init string analysis * ***************************************************************************/ typedef struct { const char *from; const char *to; } assoc; static const assoc std_caps[] = { /* these are specified by X.364 and iBCS2 */ {"\033c", "RIS"}, /* full reset */ {"\0337", "SC"}, /* save cursor */ {"\0338", "RC"}, /* restore cursor */ {"\033[r", "RSR"}, /* not an X.364 mnemonic */ {"\033[m", "SGR0"}, /* not an X.364 mnemonic */ {"\033[2J", "ED2"}, /* clear page */ /* this group is specified by ISO 2022 */ {"\033(0", "ISO DEC G0"}, /* enable DEC graphics for G0 */ {"\033(A", "ISO UK G0"}, /* enable UK chars for G0 */ {"\033(B", "ISO US G0"}, /* enable US chars for G0 */ {"\033)0", "ISO DEC G1"}, /* enable DEC graphics for G1 */ {"\033)A", "ISO UK G1"}, /* enable UK chars for G1 */ {"\033)B", "ISO US G1"}, /* enable US chars for G1 */ /* these are DEC private controls widely supported by emulators */ {"\033=", "DECPAM"}, /* application keypad mode */ {"\033>", "DECPNM"}, /* normal keypad mode */ {"\033<", "DECANSI"}, /* enter ANSI mode */ {"\033[!p", "DECSTR"}, /* soft reset */ {"\033 F", "S7C1T"}, /* 7-bit controls */ {(char *) 0, (char *) 0} }; static const assoc std_modes[] = /* ECMA \E[ ... [hl] modes recognized by many emulators */ { {"2", "AM"}, /* keyboard action mode */ {"4", "IRM"}, /* insert/replace mode */ {"12", "SRM"}, /* send/receive mode */ {"20", "LNM"}, /* linefeed mode */ {(char *) 0, (char *) 0} }; static const assoc private_modes[] = /* DEC \E[ ... [hl] modes recognized by many emulators */ { {"1", "CKM"}, /* application cursor keys */ {"2", "ANM"}, /* set VT52 mode */ {"3", "COLM"}, /* 132-column mode */ {"4", "SCLM"}, /* smooth scroll */ {"5", "SCNM"}, /* reverse video mode */ {"6", "OM"}, /* origin mode */ {"7", "AWM"}, /* wraparound mode */ {"8", "ARM"}, /* auto-repeat mode */ {(char *) 0, (char *) 0} }; static const assoc ecma_highlights[] = /* recognize ECMA attribute sequences */ { {"0", "NORMAL"}, /* normal */ {"1", "+BOLD"}, /* bold on */ {"2", "+DIM"}, /* dim on */ {"3", "+ITALIC"}, /* italic on */ {"4", "+UNDERLINE"}, /* underline on */ {"5", "+BLINK"}, /* blink on */ {"6", "+FASTBLINK"}, /* fastblink on */ {"7", "+REVERSE"}, /* reverse on */ {"8", "+INVISIBLE"}, /* invisible on */ {"9", "+DELETED"}, /* deleted on */ {"10", "MAIN-FONT"}, /* select primary font */ {"11", "ALT-FONT-1"}, /* select alternate font 1 */ {"12", "ALT-FONT-2"}, /* select alternate font 2 */ {"13", "ALT-FONT-3"}, /* select alternate font 3 */ {"14", "ALT-FONT-4"}, /* select alternate font 4 */ {"15", "ALT-FONT-5"}, /* select alternate font 5 */ {"16", "ALT-FONT-6"}, /* select alternate font 6 */ {"17", "ALT-FONT-7"}, /* select alternate font 7 */ {"18", "ALT-FONT-1"}, /* select alternate font 1 */ {"19", "ALT-FONT-1"}, /* select alternate font 1 */ {"20", "FRAKTUR"}, /* Fraktur font */ {"21", "DOUBLEUNDER"}, /* double underline */ {"22", "-DIM"}, /* dim off */ {"23", "-ITALIC"}, /* italic off */ {"24", "-UNDERLINE"}, /* underline off */ {"25", "-BLINK"}, /* blink off */ {"26", "-FASTBLINK"}, /* fastblink off */ {"27", "-REVERSE"}, /* reverse off */ {"28", "-INVISIBLE"}, /* invisible off */ {"29", "-DELETED"}, /* deleted off */ {(char *) 0, (char *) 0} }; static int skip_csi(const char *cap) { int result = 0; if (cap[0] == '\033' && cap[1] == '[') result = 2; else if (UChar(cap[0]) == 0233) result = 1; return result; } static bool same_param(const char *table, const char *param, unsigned length) { bool result = FALSE; if (strncmp(table, param, length) == 0) { result = !isdigit(UChar(param[length])); } return result; } static char * lookup_params(const assoc * table, char *dst, char *src, size_t dstlen) { char *result = 0; const char *ep = strtok(src, ";"); if (ep != 0) { const assoc *ap; do { bool found = FALSE; for (ap = table; ap->from; ap++) { size_t tlen = strlen(ap->from); if (same_param(ap->from, ep, tlen)) { (void) strlcat(dst, ap->to, dstlen); found = TRUE; break; } } if (!found) (void) strlcat(dst, ep, dstlen); (void) strlcat(dst, ";", dstlen); } while ((ep = strtok((char *) 0, ";"))); if (dst[0] != '\0' && dst[strlen(dst) - 1] == ';') dst[strlen(dst) - 1] = '\0'; result = dst; } return result; } static void analyze_string(const char *name, const char *cap, TERMTYPE *tp) { char buf2[MAX_TERMINFO_LENGTH]; const char *sp; const assoc *ap; int tp_lines = tp->Numbers[2]; if (cap == ABSENT_STRING || cap == CANCELLED_STRING) return; (void) printf("%s: ", name); for (sp = cap; *sp; sp++) { int i; int csi; size_t len = 0; size_t next; const char *expansion = 0; char buf3[MAX_TERMINFO_LENGTH]; /* first, check other capabilities in this entry */ for (i = 0; i < STRCOUNT; i++) { char *cp = tp->Strings[i]; /* don't use soft-key capabilities */ if (strnames[i][0] == 'k' && strnames[i][1] == 'f') continue; if (cp != ABSENT_STRING && cp != CANCELLED_STRING && cp[0] && cp != cap) { len = strlen(cp); (void) strncpy(buf2, sp, len); buf2[len] = '\0'; if (_nc_capcmp(cp, buf2)) continue; #define ISRS(s) (!strncmp((s), "is", 2) || !strncmp((s), "rs", 2)) /* * Theoretically we just passed the test for translation * (equality once the padding is stripped). However, there * are a few more hoops that need to be jumped so that * identical pairs of initialization and reset strings * don't just refer to each other. */ if (ISRS(name) || ISRS(strnames[i])) if (cap < cp) continue; #undef ISRS expansion = strnames[i]; break; } } /* now check the standard capabilities */ if (!expansion) { csi = skip_csi(sp); for (ap = std_caps; ap->from; ap++) { size_t adj = (size_t) (csi ? 2 : 0); len = strlen(ap->from); if (csi && skip_csi(ap->from) != csi) continue; if (len > adj && strncmp(ap->from + adj, sp + csi, len - adj) == 0) { expansion = ap->to; len -= adj; len += (size_t) csi; break; } } } /* now check for standard-mode sequences */ if (!expansion && (csi = skip_csi(sp)) != 0 && (len = strspn(sp + csi, "0123456789;")) && (len < sizeof(buf3)) && (next = (size_t) csi + len) && ((sp[next] == 'h') || (sp[next] == 'l'))) { (void) strlcpy(buf2, (sp[next] == 'h') ? "ECMA+" : "ECMA-", sizeof buf2); (void) strncpy(buf3, sp + csi, len); buf3[len] = '\0'; len += (size_t) csi + 1; expansion = lookup_params(std_modes, buf2, buf3, sizeof buf2); } /* now check for private-mode sequences */ if (!expansion && (csi = skip_csi(sp)) != 0 && sp[csi] == '?' && (len = strspn(sp + csi + 1, "0123456789;")) && (len < sizeof(buf3)) && (next = (size_t) csi + 1 + len) && ((sp[next] == 'h') || (sp[next] == 'l'))) { (void) strlcpy(buf2, (sp[next] == 'h') ? "DEC+" : "DEC-", sizeof buf2); (void) strncpy(buf3, sp + csi + 1, len); buf3[len] = '\0'; len += (size_t) csi + 2; expansion = lookup_params(private_modes, buf2, buf3, sizeof buf2); } /* now check for ECMA highlight sequences */ if (!expansion && (csi = skip_csi(sp)) != 0 && (len = strspn(sp + csi, "0123456789;")) != 0 && (len < sizeof(buf3)) && (next = (size_t) csi + len) && sp[next] == 'm') { (void) strlcpy(buf2, "SGR:", sizeof buf2); (void) strncpy(buf3, sp + csi, len); buf3[len] = '\0'; len += (size_t) csi + 1; expansion = lookup_params(ecma_highlights, buf2, buf3, sizeof buf2); } if (!expansion && (csi = skip_csi(sp)) != 0 && sp[csi] == 'm') { len = (size_t) csi + 1; (void) strlcpy(buf2, "SGR:", sizeof buf2); strlcat(buf2, ecma_highlights[0].to, sizeof buf2); expansion = buf2; } /* now check for scroll region reset */ if (!expansion && (csi = skip_csi(sp)) != 0) { if (sp[csi] == 'r') { expansion = "RSR"; len = 1; } else { (void) snprintf(buf2, sizeof buf2, "1;%dr", tp_lines); len = strlen(buf2); if (strncmp(buf2, sp + csi, len) == 0) expansion = "RSR"; } len += (size_t) csi; } /* now check for home-down */ if (!expansion && (csi = skip_csi(sp)) != 0) { (void) snprintf(buf2, sizeof buf2, "%d;1H", tp_lines); len = strlen(buf2); if (strncmp(buf2, sp + csi, len) == 0) { expansion = "LL"; } else { (void) snprintf(buf2, sizeof buf2, "%dH", tp_lines); len = strlen(buf2); if (strncmp(buf2, sp + csi, len) == 0) { expansion = "LL"; } } len += (size_t) csi; } /* now look at the expansion we got, if any */ if (expansion) { printf("{%s}", expansion); sp += len - 1; } else { /* couldn't match anything */ buf2[0] = *sp; buf2[1] = '\0'; fputs(TIC_EXPAND(buf2), stdout); } } putchar('\n'); } /*************************************************************************** * * File comparison * ***************************************************************************/ static void file_comparison(int argc, char *argv[]) { #define MAXCOMPARE 2 /* someday we may allow comparisons on more files */ int filecount = 0; ENTRY *heads[MAXCOMPARE]; ENTRY *qp, *rp; int i, n; memset(heads, 0, sizeof(heads)); dump_init((char *) 0, F_LITERAL, S_TERMINFO, 0, itrace, FALSE); for (n = 0; n < argc && n < MAXCOMPARE; n++) { if (freopen(argv[n], "r", stdin) == 0) _nc_err_abort("Can't open %s", argv[n]); _nc_head = _nc_tail = 0; /* parse entries out of the source file */ _nc_set_source(argv[n]); _nc_read_entry_source(stdin, NULL, TRUE, literal, NULLHOOK); if (itrace) (void) fprintf(stderr, "Resolving file %d...\n", n - 0); /* maybe do use resolution */ if (!_nc_resolve_uses2(!limited, literal)) { (void) fprintf(stderr, "There are unresolved use entries in %s:\n", argv[n]); for_entry_list(qp) { if (qp->nuses) { (void) fputs(qp->tterm.term_names, stderr); (void) fputc('\n', stderr); } } ExitProgram(EXIT_FAILURE); } heads[filecount] = _nc_head; filecount++; } /* OK, all entries are in core. Ready to do the comparison */ if (itrace) (void) fprintf(stderr, "Entries are now in core...\n"); /* The entry-matching loop. Sigh, this is intrinsically quadratic. */ for (qp = heads[0]; qp; qp = qp->next) { for (rp = heads[1]; rp; rp = rp->next) if (_nc_entry_match(qp->tterm.term_names, rp->tterm.term_names)) { if (qp->ncrosslinks < MAX_CROSSLINKS) qp->crosslinks[qp->ncrosslinks] = rp; qp->ncrosslinks++; if (rp->ncrosslinks < MAX_CROSSLINKS) rp->crosslinks[rp->ncrosslinks] = qp; rp->ncrosslinks++; } } /* now we have two circular lists with crosslinks */ if (itrace) (void) fprintf(stderr, "Name matches are done...\n"); for (qp = heads[0]; qp; qp = qp->next) { if (qp->ncrosslinks > 1) { (void) fprintf(stderr, "%s in file 1 (%s) has %d matches in file 2 (%s):\n", _nc_first_name(qp->tterm.term_names), argv[0], qp->ncrosslinks, argv[1]); for (i = 0; i < qp->ncrosslinks; i++) (void) fprintf(stderr, "\t%s\n", _nc_first_name((qp->crosslinks[i])->tterm.term_names)); } } for (rp = heads[1]; rp; rp = rp->next) { if (rp->ncrosslinks > 1) { (void) fprintf(stderr, "%s in file 2 (%s) has %d matches in file 1 (%s):\n", _nc_first_name(rp->tterm.term_names), argv[1], rp->ncrosslinks, argv[0]); for (i = 0; i < rp->ncrosslinks; i++) (void) fprintf(stderr, "\t%s\n", _nc_first_name((rp->crosslinks[i])->tterm.term_names)); } } (void) printf("In file 1 (%s) only:\n", argv[0]); for (qp = heads[0]; qp; qp = qp->next) if (qp->ncrosslinks == 0) (void) printf("\t%s\n", _nc_first_name(qp->tterm.term_names)); (void) printf("In file 2 (%s) only:\n", argv[1]); for (rp = heads[1]; rp; rp = rp->next) if (rp->ncrosslinks == 0) (void) printf("\t%s\n", _nc_first_name(rp->tterm.term_names)); (void) printf("The following entries are equivalent:\n"); for (qp = heads[0]; qp; qp = qp->next) { rp = qp->crosslinks[0]; if (qp->ncrosslinks == 1) { rp = qp->crosslinks[0]; repair_acsc(&qp->tterm); repair_acsc(&rp->tterm); #if NCURSES_XNAMES _nc_align_termtype(&qp->tterm, &rp->tterm); #endif if (entryeq(&qp->tterm, &rp->tterm) && useeq(qp, rp)) { char name1[NAMESIZE], name2[NAMESIZE]; (void) canonical_name(qp->tterm.term_names, name1, sizeof name1); (void) canonical_name(rp->tterm.term_names, name2, sizeof name2); (void) printf("%s = %s\n", name1, name2); } } } (void) printf("Differing entries:\n"); termcount = 2; for (qp = heads[0]; qp; qp = qp->next) { if (qp->ncrosslinks == 1) { rp = qp->crosslinks[0]; #if NCURSES_XNAMES /* sorry - we have to do this on each pass */ _nc_align_termtype(&qp->tterm, &rp->tterm); #endif if (!(entryeq(&qp->tterm, &rp->tterm) && useeq(qp, rp))) { char name1[NAMESIZE], name2[NAMESIZE]; entries[0] = *qp; entries[1] = *rp; (void) canonical_name(qp->tterm.term_names, name1, sizeof name1); (void) canonical_name(rp->tterm.term_names, name2, sizeof name2); switch (compare) { case C_DIFFERENCE: if (itrace) (void) fprintf(stderr, "%s: dumping differences\n", _nc_progname); (void) printf("comparing %s to %s.\n", name1, name2); compare_entry(compare_predicate, &entries->tterm, quiet); break; case C_COMMON: if (itrace) (void) fprintf(stderr, "%s: dumping common capabilities\n", _nc_progname); (void) printf("comparing %s to %s.\n", name1, name2); compare_entry(compare_predicate, &entries->tterm, quiet); break; case C_NAND: if (itrace) (void) fprintf(stderr, "%s: dumping differences\n", _nc_progname); (void) printf("comparing %s to %s.\n", name1, name2); compare_entry(compare_predicate, &entries->tterm, quiet); break; } } } } } static void usage(void) { static const char *tbl[] = { "Usage: infocmp [options] [-A directory] [-B directory] [termname...]" ,"" ,"Options:" ," -1 print single-column" ," -C use termcap-names" ," -F compare terminfo-files" ," -I use terminfo-names" ," -L use long names" ," -R subset (see manpage)" ," -T eliminate size limits (test)" ," -U eliminate post-processing of entries" ," -V print version" #if NCURSES_XNAMES ," -a with -F, list commented-out caps" #endif ," -c list common capabilities" ," -d list different capabilities" ," -e format output for C initializer" ," -E format output as C tables" ," -f with -1, format complex strings" ," -G format %{number} to %'char'" ," -g format %'char' to %{number}" ," -i analyze initialization/reset" ," -l output terminfo names" ," -n list capabilities in neither" ," -p ignore padding specifiers" ," -q brief listing, removes headers" ," -r with -C, output in termcap form" ," -r with -F, resolve use-references" ," -s [d|i|l|c] sort fields" #if NCURSES_XNAMES ," -t suppress commented-out capabilities" #endif ," -u produce source with 'use='" ," -v number (verbose)" ," -w number (width)" #if NCURSES_XNAMES ," -x treat unknown capabilities as user-defined" #endif }; const size_t first = 3; const size_t last = SIZEOF(tbl); const size_t left = (last - first + 1) / 2 + first; size_t n; for (n = 0; n < left; n++) { size_t m = (n < first) ? last : n + left - first; if (m < last) fprintf(stderr, "%-40.40s%s\n", tbl[n], tbl[m]); else fprintf(stderr, "%s\n", tbl[n]); } ExitProgram(EXIT_FAILURE); } static char * any_initializer(const char *fmt, const char *type) { static char *initializer; static size_t len; char *s; if (initializer == 0) { len = strlen(entries->tterm.term_names) + strlen(type) + strlen(fmt); initializer = (char *) malloc(len); } (void) strlcpy(initializer, entries->tterm.term_names, len); for (s = initializer; *s != 0 && *s != '|'; s++) { if (!isalnum(UChar(*s))) *s = '_'; } *s = 0; (void) snprintf(s, len - (s - initializer), fmt, type); return initializer; } static char * name_initializer(const char *type) { return any_initializer("_%s_data", type); } static char * string_variable(const char *type) { return any_initializer("_s_%s", type); } /* dump C initializers for the terminal type */ static void dump_initializers(TERMTYPE *term) { unsigned n; const char *str = 0; printf("\nstatic char %s[] = \"%s\";\n\n", name_initializer("alias"), entries->tterm.term_names); for_each_string(n, term) { char buf[MAX_STRING], *sp, *tp; if (VALID_STRING(term->Strings[n])) { tp = buf; *tp++ = '"'; for (sp = term->Strings[n]; *sp != 0 && (tp - buf) < MAX_STRING - 6; sp++) { if (isascii(UChar(*sp)) && isprint(UChar(*sp)) && *sp != '\\' && *sp != '"') *tp++ = *sp; else { (void) snprintf(tp, buf + sizeof buf - tp, "\\%03o", UChar(*sp)); tp += strlen(tp); } } *tp++ = '"'; *tp = '\0'; (void) printf("static char %-20s[] = %s;\n", string_variable(ExtStrname(term, n, strnames)), buf); } } printf("\n"); (void) printf("static char %s[] = %s\n", name_initializer("bool"), L_CURL); for_each_boolean(n, term) { switch ((int) (term->Booleans[n])) { case TRUE: str = "TRUE"; break; case FALSE: str = "FALSE"; break; case ABSENT_BOOLEAN: str = "ABSENT_BOOLEAN"; break; case CANCELLED_BOOLEAN: str = "CANCELLED_BOOLEAN"; break; } (void) printf("\t/* %3u: %-8s */\t%s,\n", n, ExtBoolname(term, n, boolnames), str); } (void) printf("%s;\n", R_CURL); (void) printf("static short %s[] = %s\n", name_initializer("number"), L_CURL); for_each_number(n, term) { char buf[BUFSIZ]; switch (term->Numbers[n]) { case ABSENT_NUMERIC: str = "ABSENT_NUMERIC"; break; case CANCELLED_NUMERIC: str = "CANCELLED_NUMERIC"; break; default: snprintf(buf, sizeof buf, "%d", term->Numbers[n]); str = buf; break; } (void) printf("\t/* %3u: %-8s */\t%s,\n", n, ExtNumname(term, n, numnames), str); } (void) printf("%s;\n", R_CURL); (void) printf("static char * %s[] = %s\n", name_initializer("string"), L_CURL); for_each_string(n, term) { if (term->Strings[n] == ABSENT_STRING) str = "ABSENT_STRING"; else if (term->Strings[n] == CANCELLED_STRING) str = "CANCELLED_STRING"; else { str = string_variable(ExtStrname(term, n, strnames)); } (void) printf("\t/* %3u: %-8s */\t%s,\n", n, ExtStrname(term, n, strnames), str); } (void) printf("%s;\n", R_CURL); #if NCURSES_XNAMES if ((NUM_BOOLEANS(term) != BOOLCOUNT) || (NUM_NUMBERS(term) != NUMCOUNT) || (NUM_STRINGS(term) != STRCOUNT)) { (void) printf("static char * %s[] = %s\n", name_initializer("string_ext"), L_CURL); for (n = BOOLCOUNT; n < NUM_BOOLEANS(term); ++n) { (void) printf("\t/* %3u: bool */\t\"%s\",\n", n, ExtBoolname(term, n, boolnames)); } for (n = NUMCOUNT; n < NUM_NUMBERS(term); ++n) { (void) printf("\t/* %3u: num */\t\"%s\",\n", n, ExtNumname(term, n, numnames)); } for (n = STRCOUNT; n < NUM_STRINGS(term); ++n) { (void) printf("\t/* %3u: str */\t\"%s\",\n", n, ExtStrname(term, n, strnames)); } (void) printf("%s;\n", R_CURL); } #endif } /* dump C initializers for the terminal type */ static void dump_termtype(TERMTYPE *term) { (void) printf("\t%s\n\t\t%s,\n", L_CURL, name_initializer("alias")); (void) printf("\t\t(char *)0,\t/* pointer to string table */\n"); (void) printf("\t\t%s,\n", name_initializer("bool")); (void) printf("\t\t%s,\n", name_initializer("number")); (void) printf("\t\t%s,\n", name_initializer("string")); #if NCURSES_XNAMES (void) printf("#if NCURSES_XNAMES\n"); (void) printf("\t\t(char *)0,\t/* pointer to extended string table */\n"); (void) printf("\t\t%s,\t/* ...corresponding names */\n", ((NUM_BOOLEANS(term) != BOOLCOUNT) || (NUM_NUMBERS(term) != NUMCOUNT) || (NUM_STRINGS(term) != STRCOUNT)) ? name_initializer("string_ext") : "(char **)0"); (void) printf("\t\t%d,\t\t/* count total Booleans */\n", NUM_BOOLEANS(term)); (void) printf("\t\t%d,\t\t/* count total Numbers */\n", NUM_NUMBERS(term)); (void) printf("\t\t%d,\t\t/* count total Strings */\n", NUM_STRINGS(term)); (void) printf("\t\t%d,\t\t/* count extensions to Booleans */\n", NUM_BOOLEANS(term) - BOOLCOUNT); (void) printf("\t\t%d,\t\t/* count extensions to Numbers */\n", NUM_NUMBERS(term) - NUMCOUNT); (void) printf("\t\t%d,\t\t/* count extensions to Strings */\n", NUM_STRINGS(term) - STRCOUNT); (void) printf("#endif /* NCURSES_XNAMES */\n"); #else (void) term; #endif /* NCURSES_XNAMES */ (void) printf("\t%s\n", R_CURL); } static int optarg_to_number(void) { char *temp = 0; long value = strtol(optarg, &temp, 0); if (temp == 0 || temp == optarg || *temp != 0) { fprintf(stderr, "Expected a number, not \"%s\"\n", optarg); ExitProgram(EXIT_FAILURE); } return (int) value; } static char * terminal_env(void) { char *terminal; if ((terminal = getenv("TERM")) == 0) { (void) fprintf(stderr, "%s: environment variable TERM not set\n", _nc_progname); exit(EXIT_FAILURE); } return terminal; } /*************************************************************************** * * Main sequence * ***************************************************************************/ int main(int argc, char *argv[]) { /* Avoid "local data >32k" error with mwcc */ /* Also avoid overflowing smaller stacks on systems like AmigaOS */ path *tfile = 0; char **tname = 0; int maxterms; char **myargv; char *firstdir, *restdir; int c, i, len; bool formatted = FALSE; bool filecompare = FALSE; int initdump = 0; bool init_analyze = FALSE; bool suppress_untranslatable = FALSE; if (pledge("stdio rpath", NULL) == -1) { perror("pledge"); exit(1); } /* where is the terminfo database location going to default to? */ restdir = firstdir = 0; #if NCURSES_XNAMES use_extended_names(FALSE); #endif _nc_progname = _nc_rootname(argv[0]); /* make sure we have enough space to add two terminal entries */ myargv = typeCalloc(char *, (size_t) (argc + 3)); memcpy(myargv, argv, (sizeof(char *) * (size_t) argc)); argv = myargv; while ((c = getopt(argc, argv, "1A:aB:CcdEeFfGgIiLlnpqR:rs:TtUuVv:w:x")) != -1) { switch (c) { case '1': mwidth = 0; break; case 'A': firstdir = optarg; break; #if NCURSES_XNAMES case 'a': _nc_disable_period = TRUE; use_extended_names(TRUE); break; #endif case 'B': restdir = optarg; break; case 'C': outform = F_TERMCAP; tversion = "BSD"; if (sortmode == S_DEFAULT) sortmode = S_TERMCAP; break; case 'c': compare = C_COMMON; break; case 'd': compare = C_DIFFERENCE; break; case 'E': initdump |= 2; break; case 'e': initdump |= 1; break; case 'F': filecompare = TRUE; break; case 'f': formatted = TRUE; break; case 'G': numbers = 1; break; case 'g': numbers = -1; break; case 'I': outform = F_TERMINFO; if (sortmode == S_DEFAULT) sortmode = S_VARIABLE; tversion = 0; break; case 'i': init_analyze = TRUE; break; case 'L': outform = F_VARIABLE; if (sortmode == S_DEFAULT) sortmode = S_VARIABLE; break; case 'l': outform = F_TERMINFO; break; case 'n': compare = C_NAND; break; case 'p': ignorepads = TRUE; break; case 'q': quiet = TRUE; s_absent = "-"; s_cancel = "@"; bool_sep = ", "; break; case 'R': tversion = optarg; break; case 'r': tversion = 0; break; case 's': if (*optarg == 'd') sortmode = S_NOSORT; else if (*optarg == 'i') sortmode = S_TERMINFO; else if (*optarg == 'l') sortmode = S_VARIABLE; else if (*optarg == 'c') sortmode = S_TERMCAP; else { (void) fprintf(stderr, "%s: unknown sort mode\n", _nc_progname); ExitProgram(EXIT_FAILURE); } break; case 'T': limited = FALSE; break; #if NCURSES_XNAMES case 't': _nc_disable_period = FALSE; suppress_untranslatable = TRUE; break; #endif case 'U': literal = TRUE; break; case 'u': compare = C_USEALL; break; case 'V': puts(curses_version()); ExitProgram(EXIT_SUCCESS); case 'v': itrace = optarg_to_number(); set_trace_level(itrace); break; case 'w': mwidth = optarg_to_number(); break; #if NCURSES_XNAMES case 'x': use_extended_names(TRUE); break; #endif default: usage(); } } maxterms = (argc + 2 - optind); tfile = typeMalloc(path, maxterms); tname = typeCalloc(char *, maxterms); entries = typeCalloc(ENTRY, maxterms); if (tfile == 0 || tname == 0 || entries == 0) { fprintf(stderr, "%s: not enough memory\n", _nc_progname); ExitProgram(EXIT_FAILURE); } /* by default, sort by terminfo name */ if (sortmode == S_DEFAULT) sortmode = S_TERMINFO; /* set up for display */ dump_init(tversion, outform, sortmode, mwidth, itrace, formatted); /* make sure we have at least one terminal name to work with */ if (optind >= argc) argv[argc++] = terminal_env(); /* if user is after a comparison, make sure we have two entries */ if (compare != C_DEFAULT && optind >= argc - 1) argv[argc++] = terminal_env(); /* exactly two terminal names with no options means do -d */ if (argc - optind == 2 && compare == C_DEFAULT) compare = C_DIFFERENCE; if (!filecompare) { /* grab the entries */ termcount = 0; for (; optind < argc; optind++) { const char *directory = termcount ? restdir : firstdir; int status; tname[termcount] = argv[optind]; if (directory) { #if USE_DATABASE #if MIXEDCASE_FILENAMES #define LEAF_FMT "%c" #else #define LEAF_FMT "%02x" #endif (void) snprintf(tfile[termcount], sizeof (path), "%s/" LEAF_FMT "/%s", directory, UChar(*argv[optind]), argv[optind]); if (itrace) (void) fprintf(stderr, "%s: reading entry %s from file %s\n", _nc_progname, argv[optind], tfile[termcount]); status = _nc_read_file_entry(tfile[termcount], &entries[termcount].tterm); #else (void) fprintf(stderr, "%s: terminfo files not supported\n", _nc_progname); ExitProgram(EXIT_FAILURE); #endif } else { if (itrace) (void) fprintf(stderr, "%s: reading entry %s from database\n", _nc_progname, tname[termcount]); status = _nc_read_entry(tname[termcount], tfile[termcount], &entries[termcount].tterm); directory = TERMINFO; /* for error message */ } if (status <= 0) { (void) fprintf(stderr, "%s: couldn't open terminfo file %s.\n", _nc_progname, tfile[termcount]); ExitProgram(EXIT_FAILURE); } repair_acsc(&entries[termcount].tterm); termcount++; } #if NCURSES_XNAMES if (termcount > 1) _nc_align_termtype(&entries[0].tterm, &entries[1].tterm); #endif /* dump as C initializer for the terminal type */ if (initdump) { if (initdump & 1) dump_termtype(&entries[0].tterm); if (initdump & 2) dump_initializers(&entries[0].tterm); } /* analyze the init strings */ else if (init_analyze) { #undef CUR #define CUR entries[0].tterm. analyze_string("is1", init_1string, &entries[0].tterm); analyze_string("is2", init_2string, &entries[0].tterm); analyze_string("is3", init_3string, &entries[0].tterm); analyze_string("rs1", reset_1string, &entries[0].tterm); analyze_string("rs2", reset_2string, &entries[0].tterm); analyze_string("rs3", reset_3string, &entries[0].tterm); analyze_string("smcup", enter_ca_mode, &entries[0].tterm); analyze_string("rmcup", exit_ca_mode, &entries[0].tterm); #undef CUR } else { /* * Here's where the real work gets done */ switch (compare) { case C_DEFAULT: if (itrace) (void) fprintf(stderr, "%s: about to dump %s\n", _nc_progname, tname[0]); (void) printf("#\tReconstructed via infocmp from file: %s\n", tfile[0]); dump_entry(&entries[0].tterm, suppress_untranslatable, limited, numbers, NULL); len = show_entry(); if (itrace) (void) fprintf(stderr, "%s: length %d\n", _nc_progname, len); break; case C_DIFFERENCE: if (itrace) (void) fprintf(stderr, "%s: dumping differences\n", _nc_progname); (void) printf("comparing %s to %s.\n", tname[0], tname[1]); compare_entry(compare_predicate, &entries->tterm, quiet); break; case C_COMMON: if (itrace) (void) fprintf(stderr, "%s: dumping common capabilities\n", _nc_progname); (void) printf("comparing %s to %s.\n", tname[0], tname[1]); compare_entry(compare_predicate, &entries->tterm, quiet); break; case C_NAND: if (itrace) (void) fprintf(stderr, "%s: dumping differences\n", _nc_progname); (void) printf("comparing %s to %s.\n", tname[0], tname[1]); compare_entry(compare_predicate, &entries->tterm, quiet); break; case C_USEALL: if (itrace) (void) fprintf(stderr, "%s: dumping use entry\n", _nc_progname); dump_entry(&entries[0].tterm, suppress_untranslatable, limited, numbers, use_predicate); for (i = 1; i < termcount; i++) dump_uses(tname[i], !(outform == F_TERMCAP || outform == F_TCONVERR)); len = show_entry(); if (itrace) (void) fprintf(stderr, "%s: length %d\n", _nc_progname, len); break; } } } else if (compare == C_USEALL) (void) fprintf(stderr, "Sorry, -u doesn't work with -F\n"); else if (compare == C_DEFAULT) (void) fprintf(stderr, "Use `tic -[CI] ' for this.\n"); else if (argc - optind != 2) (void) fprintf(stderr, "File comparison needs exactly two file arguments.\n"); else file_comparison(argc - optind, argv + optind); #if NO_LEAKS free(myargv); free(tfile); free(tname); #endif ExitProgram(EXIT_SUCCESS); } /* infocmp.c ends here */