/*********************************************************************** * * * This software is part of the ast package * * Copyright (c) 1986-2007 AT&T Knowledge Ventures * * and is licensed under the * * Common Public License, Version 1.0 * * by AT&T Knowledge Ventures * * * * A copy of the License is available at * * http://www.opensource.org/licenses/cpl1.0.txt * * (with md5 checksum 059e8cd6165cb4c31e351f2b69388fd9) * * * * Information and Software Systems Research * * AT&T Research * * Florham Park NJ * * * * Glenn Fowler * * * ***********************************************************************/ #pragma prototyped /* * Glenn Fowler * AT&T Research * * preprocessor control directive support */ #include "pplib.h" #include #define TOKOP_DUP (1<<0) #define TOKOP_STRING (1<<1) #define TOKOP_UNSET (1<<2) struct edit { struct edit* next; regex_t re; }; struct map { struct map* next; regex_t re; struct edit* edit; }; #define RESTORE (COLLECTING|CONDITIONAL|DEFINITION|DIRECTIVE|DISABLE|EOF2NL|HEADER|NOSPACE|NOVERTICAL|PASSEOF|STRIP) /* * common predicate assertion operations * op is DEFINE or UNDEF */ static void assert(int op, char* pred, char* args) { register struct pplist* a; register struct ppsymbol* sym; register struct pplist* p; register struct pplist* q; if (!args) switch (op) { case DEFINE: goto mark; case UNDEF: a = 0; goto unmark; } if (a = (struct pplist*)hashget(pp.prdtab, pred)) { p = 0; q = a; while (q) { if (streq(q->value, args)) { if (op == DEFINE) return; q = q->next; if (p) p->next = q; else a = q; } else { p = q; q = q->next; } } if (op == UNDEF) { unmark: hashput(pp.prdtab, pred, a); if (sym = ppsymref(pp.symtab, pred)) sym->flags &= ~SYM_PREDICATE; return; } } if (op == DEFINE) { p = newof(0, struct pplist, 1, 0); p->next = a; p->value = strdup(args); hashput(pp.prdtab, NiL, p); mark: if ((pp.state & COMPILE) && pp.truncate) return; if (sym = ppsymset(pp.symtab, pred)) sym->flags |= SYM_PREDICATE; } } /* * tokenize string ppop() * * op PP_* op * name option name * s string of option values * n option sense * flags TOKOP_* flags */ static void tokop(int op, char* name, register char* s, register int n, int flags) { register int c; register char* t; if (!(flags & TOKOP_UNSET) && !n) error(2, "%s: option cannot be unset", name); else if (!s) ppop(op, s, n); else if (flags & TOKOP_STRING) { PUSH_LINE(s); for (;;) { pp.state &= ~NOSPACE; c = pplex(); pp.state |= NOSPACE; if (!c) break; if (c != ' ') ppop(op, (flags & TOKOP_DUP) ? strdup(pp.token) : pp.token, n); } POP_LINE(); } else do { while (*s == ' ') s++; for (t = s; *t && *t != ' '; t++); if (*t) *t++ = 0; else t = 0; if (*s) ppop(op, (flags & TOKOP_DUP) ? strdup(s) : s, n); } while (s = t); } /* * return symbol pointer for next token macro (re)definition */ static struct ppsymbol* macsym(int tok) { register struct ppsymbol* sym; if (tok != T_ID) { error(2, "%s: invalid macro name", pptokstr(pp.token, 0)); return 0; } sym = pprefmac(pp.token, REF_CREATE); if ((sym->flags & SYM_FINAL) && (pp.mode & HOSTED)) return 0; if (sym->flags & (SYM_ACTIVE|SYM_READONLY)) { if (!(pp.option & ALLPOSSIBLE)) error(2, "%s: macro is %s", sym->name, (sym->flags & SYM_READONLY) ? "readonly" : "active"); return 0; } if (!sym->macro) sym->macro = newof(0, struct ppmacro, 1, 0); return sym; } /* * get one space canonical pplex() line, sans '\n', and place in p * x is max+1 pos in p * 0 returned if line too large * otherwise end of p ('\0') returned */ static char* getline(register char* p, char* x, int disable) { register int c; register char* s; char* b; long restore; restore = pp.state & (NOSPACE|STRIP); pp.state &= ~(NEWLINE|NOSPACE|STRIP); pp.state |= EOF2NL; b = p; while ((c = pplex()) != '\n') { if (disable) { if (c == ' ') /*ignore*/; else if (disable == 1) disable = (c == T_ID && streq(pp.token, pp.pass)) ? 2 : 0; else { disable = 0; if (c == ':') pp.state |= DISABLE; } } s = pp.token; while (*p = *s++) if (++p >= x) { p = 0; goto done; } } if (p > b && *(p - 1) == ' ') p--; if (p >= x) p = 0; else *p = 0; done: pp.state &= ~(NOSPACE|STRIP); pp.state |= restore; return p; } /* * regex error handler */ void regfatal(regex_t* p, int level, int code) { char buf[128]; regerror(code, p, buf, sizeof(buf)); regfree(p); error(level, "regular expression: %s", buf); } /* * process a single directive line */ int ppcontrol(void) { register char* p; register int c; register int n; register char* s; register struct ppmacro* mac; register struct ppsymbol* sym; struct edit* edit; struct map* map; struct ppfile* fp; int o; int directive; long restore; struct pptuple* rp; struct pptuple* tp; char* v; int emitted; union { struct map* best; struct ppinstk* inp; struct pplist* list; char* string; struct ppsymbol* symbol; int type; PPLINESYNC linesync; } var; static char __va_args__[] = "__VA_ARGS__"; static int i0; static int i1; static int i2; static int i3; static int i4; static long n1; static long n2; static long n3; static char* p0; static char* p1; static char* p2; static char* p3; static char* p4; static char* p5; static char* p6; static struct ppmacro old; static char* formargs[MAXFORMALS]; #if MACKEYARGS static char* formvals[MAXFORMALS]; #endif emitted = 0; if (pp.state & SKIPCONTROL) pp.level--; restore = (pp.state & RESTORE)|NEWLINE; if (pp.state & PASSTHROUGH) restore |= DISABLE; else restore &= ~DISABLE; pp.state &= ~(NEWLINE|RESTORE|SKIPCONTROL); pp.state |= DIRECTIVE|DISABLE|EOF2NL|NOSPACE|NOVERTICAL; #if COMPATIBLE if ((pp.state & (COMPATIBILITY|STRICT)) == COMPATIBILITY || (pp.mode & HOSTED)) pp.state &= ~NOVERTICAL; #else if (pp.mode & HOSTED) pp.state &= ~NOVERTICAL; #endif switch (c = pplex()) { case T_DECIMAL: case T_OCTAL: if ((pp.state & STRICT) && !(pp.mode & (HOSTED|RELAX))) error(1, "# [ \"\" [ ] ]: non-standard directive"); directive = INCLUDE; goto linesync; case T_ID: switch (directive = (int)hashref(pp.dirtab, pp.token)) { case ELIF: else_if: if ((pp.option & ALLPOSSIBLE) && !pp.in->prev->prev) goto eatdirective; if (pp.control <= pp.in->control) { error(2, "no matching #%s for #%s", dirname(IF), dirname(ELIF)); goto eatdirective; } if (pp.control == (pp.in->control + 1)) pp.in->flags |= IN_noguard; if (*pp.control & HADELSE) { error(2, "invalid #%s after #%s", dirname(ELIF), dirname(ELSE)); *pp.control |= SKIP; goto eatdirective; } if (*pp.control & KEPT) { *pp.control |= SKIP; goto eatdirective; } if (directive == IFDEF || directive == IFNDEF) { *pp.control &= ~SKIP; goto else_ifdef; } conditional: if (ppexpr(&i1)) { *pp.control &= ~SKIP; *pp.control |= KEPT; } else *pp.control |= SKIP; c = (pp.state & NEWLINE) ? '\n' : ' '; goto eatdirective; case ELSE: if ((pp.option & ALLPOSSIBLE) && !pp.in->prev->prev) goto eatdirective; if ((pp.option & ELSEIF) && (c = pplex()) == T_ID && ((n = (int)hashref(pp.dirtab, pp.token)) == IF || n == IFDEF || n == IFNDEF)) { error(1, "#%s %s is non-standard -- use #%s", dirname(directive), dirname(n), dirname(ELIF)); directive = n; goto else_if; } if (pp.control <= pp.in->control) error(2, "no matching #%s for #%s", dirname(IF), dirname(ELSE)); else { if (pp.control == (pp.in->control + 1)) pp.in->flags |= IN_noguard; if (!(*pp.control & KEPT)) { *pp.control &= ~SKIP; *pp.control |= HADELSE|KEPT; } else { if (*pp.control & HADELSE) error(2, "more than one #%s for #%s", dirname(ELSE), dirname(IF)); *pp.control |= HADELSE|SKIP; } } goto enddirective; case ENDIF: if ((pp.option & ALLPOSSIBLE) && !pp.in->prev->prev) goto eatdirective; if (pp.control <= pp.in->control) error(2, "no matching #%s for #%s", dirname(IF), dirname(ENDIF)); else if (--pp.control == pp.in->control && pp.in->symbol) { if (pp.in->flags & IN_endguard) pp.in->flags |= IN_noguard; else { pp.in->flags &= ~IN_tokens; pp.in->flags |= IN_endguard; } } goto enddirective; case IF: case IFDEF: case IFNDEF: if ((pp.option & ALLPOSSIBLE) && !pp.in->prev->prev) goto eatdirective; pushcontrol(); SETIFBLOCK(pp.control); if (*pp.control & SKIP) { *pp.control |= KEPT; goto eatdirective; } if (directive == IF) goto conditional; else_ifdef: if ((c = pplex()) == T_ID) { sym = pprefmac(pp.token, REF_IF); if (directive == IFNDEF && pp.control == pp.in->control + 1) { if (pp.in->flags & (IN_defguard|IN_endguard)) pp.in->flags |= IN_noguard; else { pp.in->flags |= IN_defguard; if (!(pp.in->flags & IN_tokens)) pp.in->symbol = sym ? sym : pprefmac(pp.token, REF_CREATE); } } } else { sym = 0; if (!(pp.mode & HOSTED)) error(1, "%s: invalid macro name", pptokstr(pp.token, 0)); } *pp.control |= ((sym != 0) == (directive == IFDEF)) ? KEPT : SKIP; goto enddirective; case INCLUDE: if (*pp.control & SKIP) { pp.state |= HEADER; c = pplex(); pp.state &= ~HEADER; goto eatdirective; } pp.state &= ~DISABLE; pp.state |= HEADER|STRIP; switch (c = pplex()) { case T_STRING: p = pp.token; do pp.token = pp.toknxt; while ((c = pplex()) == T_STRING); *pp.token = 0; pp.token = p; /*FALLTHROUGH*/ case T_HEADER: header: if (!*pp.token) { error(2, "#%s: null file name", dirname(INCLUDE)); break; } if (*pp.token == '/' && !(pp.mode & (HOSTED|RELAX))) error(1, "#%s: reference to %s is not portable", dirname(INCLUDE), pp.token); n = ppsearch(pp.token, c, SEARCH_INCLUDE); break; case '<': /* * HEADEREXPAND|HEADEREXPANDALL gets us here */ if (!(p = pp.hdrbuf) && !(p = pp.hdrbuf = newof(0, char, MAXTOKEN, 0))) error(3, "out of space"); pp.state &= ~NOSPACE; while ((c = pplex()) && c != '>') { v = p + 1; STRCOPY(p, pp.token, s); if (p == v && *(p - 1) == ' ' && pp.in->type != IN_MACRO) p--; } pp.state |= NOSPACE; *p++ = 0; memcpy(pp.token, pp.hdrbuf, p - pp.hdrbuf); c = T_HEADER; goto header; default: error(2, "#%s: \"...\" or <...> argument expected", dirname(INCLUDE)); goto eatdirective; } goto enddirective; case 0: { regmatch_t match[10]; /*UNDENT*/ p = pp.valbuf; *p++ = '#'; STRCOPY(p, pp.token, s); p0 = p; pp.mode |= EXPOSE; pp.state |= HEADER; p6 = getline(p, &pp.valbuf[MAXTOKEN], 0); pp.state &= ~HEADER; pp.mode &= ~EXPOSE; if (!p6) { *p0 = 0; error(2, "%s: directive too long", pp.valbuf); c = 0; goto eatdirective; } p1 = p2 = p3 = p4 = 0; p5 = *p ? p + 1 : 0; checkmap: i0 = *p0; p = pp.valbuf; var.best = 0; n = 0; for (map = (struct map*)pp.maps; map; map = map->next) if (!(i1 = regexec(&map->re, p, elementsof(match), match, 0))) { if ((c = match[0].rm_eo - match[0].rm_so) > n) { n = c; var.best = map; } } else if (i1 != REG_NOMATCH) regfatal(&map->re, 3, i1); c = '\n'; if (map = var.best) { if ((pp.state & (STRICT|WARN)) && !(pp.mode & (HOSTED|RELAX))) { *p0 = 0; if (!(pp.state & WARN) || strcmp(p + 1, dirname(PRAGMA))) error(1, "%s: non-standard directive", p); *p0 = i0; } if (!(*pp.control & SKIP)) { n = 0; for (edit = map->edit; edit; edit = edit->next) if (!(i0 = regexec(&edit->re, p, elementsof(match), match, 0))) { n++; if (i0 = regsubexec(&edit->re, p, elementsof(match), match)) regfatal(&edit->re, 3, i0); p = edit->re.re_sub->re_buf; if (edit->re.re_sub->re_flags & REG_SUB_STOP) break; } else if (i0 != REG_NOMATCH) regfatal(&edit->re, 3, i0); if (n && *p) { p1 = s = oldof(0, char, 0, strlen(p) + 32); while (*s = *p++) s++; debug((-4, "map: %s", p1)); *s++ = '\n'; *s = 0; error_info.line++; PUSH_RESCAN(p1); error_info.line--; directive = LINE; } } goto donedirective; } if (directive != PRAGMA && (!(*pp.control & SKIP) || !(pp.mode & (HOSTED|RELAX)))) { *p0 = 0; error(1, "%s: unknown directive", pptokstr(pp.valbuf, 0)); *p0 = i0; } pass: if (!(*pp.control & SKIP) && pp.pragma && !(pp.state & NOTEXT) && (directive == PRAGMA || !(pp.mode & INIT))) { *p0 = 0; if (p2) *p2 = 0; if (p4) { if (p4 == p5) { p5 = strcpy(pp.tmpbuf, p5); if (p = strchr(p5, MARK)) { s = p; while (*p) if ((*s++ = *p++) == MARK && *p == MARK) p++; *s = 0; } } *p4 = 0; } if (p = (char*)memchr(pp.valbuf + 1, MARK, p6 - pp.valbuf - 1)) { s = p; while (p < p6) switch (*s++ = *p++) { case 0: s = p; break; case MARK: p++; break; } *s = 0; } (*pp.pragma)(pp.valbuf + 1, p1, p3, p5, (pp.state & COMPILE) || (pp.mode & INIT) != 0); emitted = 1; } goto donedirective; /*INDENT*/ } } if (*pp.control & SKIP) goto eatdirective; switch (directive) { #if MACDEF case ENDMAC: c = pplex(); error(2, "no matching #%s for #%s", dirname(MACDEF), dirname(ENDMAC)); goto enddirective; #endif #if MACDEF case MACDEF: if ((pp.state & STRICT) && !(pp.mode & (HOSTED|RELAX))) error(1, "#%s: non-standard directive", pp.token); /*FALLTHROUGH*/ #endif case DEFINE: n2 = error_info.line; if ((c = pplex()) == '#' && directive == DEFINE) goto assertion; if (c == '<') { n = 1; c = pplex(); } else n = 0; if (!(sym = macsym(c))) goto eatdirective; if (pp.truncate) ppfsm(FSM_MACRO, pp.token); mac = sym->macro; if ((pp.option & ALLPOSSIBLE) && !pp.in->prev->prev && mac->value) goto eatdirective; if (n) goto tuple; old = *mac; i0 = sym->flags; sym->flags &= ~(SYM_BUILTIN|SYM_EMPTY|SYM_FINAL|SYM_FUNCTION|SYM_INIT|SYM_INITIAL|SYM_MULTILINE|SYM_NOEXPAND|SYM_PREDEFINED|SYM_REDEFINE|SYM_VARIADIC); #if MACDEF if (directive == MACDEF) sym->flags |= SYM_MULTILINE; #endif mac->arity = 0; mac->formals = 0; mac->value = 0; pp.state &= ~NOSPACE; pp.state |= DEFINITION|NOEXPAND; switch (c = pplex()) { case '(': sym->flags |= SYM_FUNCTION; pp.state |= NOSPACE; #if MACKEYARGS if (pp.option & KEYARGS) { n = 2 * MAXTOKEN; p = mac->formals = oldof(0, char, 0, n); if ((c = pplex()) == T_ID) for (;;) { if (mac->arity < MAXFORMALS) { if (mac->arity) p++; formargs[mac->arity] = p; STRAPP(p, pp.token, s); formvals[mac->arity++] = p1 = p; if (mac->arity == 1) *p++ = ' '; *p++ = ' '; *p = 0; } else error(2, "%s: formal argument %s ignored", sym->name, pp.token); switch (c = pplex()) { case '=': c = pplex(); break; case ',': break; default: goto endformals; } pp.state &= ~NOSPACE; p0 = 0; for (;;) { switch (c) { case '\n': goto endformals; case '(': p0++; break; case ')': if (!p0--) { if (p > formvals[mac->arity - 1] && *(p - 1) == ' ') *--p = 0; goto endformals; } break; case ',': if (!p0) { if (p > formvals[mac->arity - 1] && *(p - 1) == ' ') *--p = 0; goto nextformal; } break; case ' ': if (p > formvals[mac->arity - 1] && *(p - 1) == ' ') continue; break; } STRCOPY(p, pp.token, s); if (p > &mac->formals[n - MAXTOKEN] && (s = newof(mac->formals, char, n += MAXTOKEN, 0)) != mac->formals) { n1 = s - mac->formals; for (n = 0; n < mac->arity; n++) { formargs[n] += n1; formvals[n] += n1; } c = p - mac->formals; mac->formals = s; p = mac->formals + c; } c = pplex(); } nextformal: pp.state |= NOSPACE; if ((c = pplex()) != T_ID) { c = ','; break; } } endformals: /*NOP*/; } else #endif { p = mac->formals = oldof(0, char, 0, MAXFORMALS * (MAXID + 1)); c = pplex(); #if COMPATIBLE if ((pp.state & COMPATIBILITY) && c == ',') { if ((pp.state & WARN) && !(pp.mode & HOSTED)) error(1, "%s: macro formal argument expected", sym->name); while ((c = pplex()) == ','); } #endif for (;;) { if (c == T_VARIADIC) { if (sym->flags & SYM_VARIADIC) error(2, "%s: %s: duplicate macro formal argument", sym->name, pp.token); sym->flags |= SYM_VARIADIC; v = __va_args__; } else if (c == T_ID) { v = pp.token; if (sym->flags & SYM_VARIADIC) error(2, "%s: %s: macro formal argument cannot follow ...", sym->name, v); else if (streq(v, __va_args__)) error(2, "%s: %s: invalid macro formal argument", sym->name, v); } else break; if (mac->arity < MAXFORMALS) { for (n = 0; n < mac->arity; n++) if (streq(formargs[n], v)) error(2, "%s: %s: duplicate macro formal argument", sym->name, v); formargs[mac->arity++] = p; STRAPP(p, v, s); } else error(2, "%s: %s: macro formal argument ignored", sym->name, v); if ((c = pplex()) == ',') { c = pplex(); #if COMPATIBLE if ((pp.state & COMPATIBILITY) && c == ',') { if ((pp.state & WARN) && !(pp.mode & HOSTED)) error(1, "%s: macro formal argument expected", sym->name); while ((c = pplex()) == ','); } #endif } else if (c != T_VARIADIC) break; else { if (sym->flags & SYM_VARIADIC) error(2, "%s: %s: duplicate macro formal argument", sym->name, pp.token); sym->flags |= SYM_VARIADIC; c = pplex(); break; } } if (mac->arity && (s = newof(mac->formals, char, p - mac->formals, 0)) != mac->formals) { n1 = s - mac->formals; for (n = 0; n < mac->arity; n++) formargs[n] += n1; mac->formals = s; } } if (!mac->arity) { free(mac->formals); mac->formals = 0; } switch (c) { case ')': #if MACKEYARGS pp.state |= NOEXPAND|NOSPACE; #else pp.state |= NOEXPAND; #endif c = pplex(); break; default: error(2, "%s: invalid macro formal argument list", sym->name); if (mac->formals) { free(mac->formals); mac->formals = 0; mac->arity = 0; } free(mac); sym->macro = 0; goto eatdirective; } pp.state &= ~NOSPACE; break; case ' ': case '\t': c = pplex(); break; } n = 2 * MAXTOKEN; #if MACKEYARGS p1 = p; #endif p = mac->value = oldof(0, char, 0, n); var.type = 0; n1 = 0; #if MACDEF i2 = i3 = 0; n3 = pp.state; #endif if ((pp.option & PLUSPLUS) && (pp.state & (COMPATIBILITY|TRANSITION)) != COMPATIBILITY) switch (c) { case '+': case '-': case '&': case '|': case '<': case '>': case ':': case '=': *p++ = ' '; break; } o = 0; for (;;) { switch (c) { case T_ID: for (c = 0; c < mac->arity; c++) if (streq(formargs[c], pp.token)) { #if COMPATIBLE if (!(pp.state & COMPATIBILITY)) #endif if (var.type != TOK_TOKCAT && p > mac->value && *(p - 1) != ' ' && !(pp.option & PRESERVE)) *p++ = ' '; *p++ = MARK; #if COMPATIBLE if ((pp.state & (COMPATIBILITY|TRANSITION)) == COMPATIBILITY) *p++ = 'C'; else #endif *p++ = (n1 || var.type == TOK_TOKCAT) ? 'C' : 'A'; *p++ = c + ARGOFFSET; var.type = TOK_FORMAL|TOK_ID; c = '>'; goto checkvalue; } if (var.type == TOK_BUILTIN) switch ((int)hashget(pp.strtab, pp.token)) { case V_DEFAULT: case V_EMPTY: sym->flags |= SYM_EMPTY; break; } else if (pp.hiding && (var.symbol = ppsymref(pp.symtab, pp.token)) && var.symbol->hidden) { for (var.inp = pp.in; var.inp->type != IN_FILE && var.inp->prev; var.inp = var.inp->prev); p += sfsprintf(p, MAXTOKEN, "_%d_%s_hIDe", var.inp->hide, pp.token); var.type = TOK_ID; goto checkvalue; } var.type = TOK_ID; break; case '#': var.type = 0; #if MACDEF if (!(sym->flags & (SYM_FUNCTION|SYM_MULTILINE))) break; #else if (!(sym->flags & SYM_FUNCTION)) break; #endif pp.state |= NOSPACE; c = pplex(); if (c == '@') { c = pplex(); i4 = 'S'; } else i4 = 'Q'; pp.state &= ~NOSPACE; if (c != T_ID) c = mac->arity; else for (c = 0; c < mac->arity; c++) if (streq(formargs[c], pp.token)) break; if (c >= mac->arity) { #if MACDEF if (sym->flags & SYM_MULTILINE) { if (n3 & NEWLINE) { pp.state &= ~NOEXPAND; switch ((int)hashref(pp.dirtab, pp.token)) { case ENDMAC: if (!i2--) goto gotdefinition; break; case INCLUDE: /* PARSE HEADER constant */ break; case MACDEF: i2++; break; } *p++ = '#'; } } else #endif #if COMPATIBLE if (pp.state & COMPATIBILITY) *p++ = '#'; else #endif error(2, "# must precede a formal parameter"); } else { if (p > mac->value && ppisidig(*(p - 1)) && !(pp.option & PRESERVE)) *p++ = ' '; *p++ = MARK; *p++ = i4; *p++ = c + ARGOFFSET; goto checkvalue; } break; case T_TOKCAT: if (p <= mac->value) error(2, "%s lhs operand omitted", pp.token); else { if (*(p - 1) == ' ') p--; if (var.type == (TOK_FORMAL|TOK_ID)) *(p - 2) = 'C'; } pp.state |= NOSPACE; c = pplex(); pp.state &= ~NOSPACE; if (c == '\n') error(2, "%s rhs operand omitted", pptokchr(T_TOKCAT)); var.type = TOK_TOKCAT; continue; case '(': if (*pp.token == '#') { var.type = TOK_BUILTIN; n1++; } else { var.type = 0; if (n1) n1++; } break; case ')': var.type = 0; if (n1) n1--; break; case T_STRING: case T_CHARCONST: pp.state &= ~NOEXPAND; var.type = 0; if (strchr(pp.token, MARK)) pp.state &= ~NOEXPAND; #if COMPATIBLE /*UNDENT*/ if ((sym->flags & SYM_FUNCTION) && (pp.state & (COMPATIBILITY|TRANSITION))) { char* v; s = pp.token; for (;;) { if (!*s) goto checkvalue; if (ppisid(*s)) { v = s; while (ppisid(*++s)); i1 = *s; *s = 0; for (c = 0; c < mac->arity; c++) if (streq(formargs[c], v)) { *p++ = MARK; *p++ = 'C'; *p++ = c + ARGOFFSET; if (!(pp.mode & HOSTED) && (!(pp.state & COMPATIBILITY) || (pp.state & WARN))) switch (*pp.token) { case '"': error(1, "use the # operator to \"...\" quote macro arguments"); break; case '\'': error(1, "macro arguments should be '...' quoted before substitution"); break; } goto quotearg; } STRCOPY2(p, v); quotearg: *s = i1; } else *p++ = *s++; } } /*INDENT*/ #endif break; case '\n': #if MACDEF if (sym->flags & SYM_MULTILINE) { if (pp.state & EOF2NL) { error_info.line++; pp.state |= HIDDEN; pp.hidden++; var.type = 0; if (!i3++) goto checkvalue; break; } pp.state |= EOF2NL; error(2, "%s: missing #%s", sym->name, dirname(ENDMAC)); } #endif goto gotdefinition; case 0: c = '\n'; goto gotdefinition; #if COMPATIBLE case ' ': if (pp.state & COMPATIBILITY) var.type = 0; if (pp.option & PRESERVE) break; if (p > mac->value && *(p - 1) != ' ') *p++ = ' '; goto checkvalue; case '\t': if (var.type & TOK_ID) { while ((c = pplex()) == '\t'); if (c == T_ID) { if (var.type == (TOK_FORMAL|TOK_ID)) *(p - 2) = 'C'; var.type = TOK_TOKCAT; if (pp.state & WARN) error(1, "use the ## operator to concatenate macro arguments"); } else var.type = 0; continue; } var.type = 0; if (pp.option & PRESERVE) break; if (p > mac->value && *(p - 1) != ' ') *p++ = ' '; goto checkvalue; #endif case MARK: pp.state &= ~NOEXPAND; /*FALLTHROUGH*/ default: var.type = 0; break; } STRCOPY(p, pp.token, s); checkvalue: o = c; if (p > &mac->value[n - MAXTOKEN] && (s = newof(mac->value, char, n += MAXTOKEN, 0)) != mac->value) { c = p - mac->value; mac->value = s; p = mac->value + c; } #if MACDEF n3 = pp.state; #endif c = pplex(); } gotdefinition: while (p > mac->value && *(p - 1) == ' ') p--; if (p > mac->value && (pp.option & PLUSPLUS) && (pp.state & (COMPATIBILITY|TRANSITION)) != COMPATIBILITY) switch (o) { case '+': case '-': case '&': case '|': case '<': case '>': case ':': case '=': *p++ = ' '; break; } *p = 0; #if MACKEYARGS if (!mac->arity) /* ok */; else if (pp.option & KEYARGS) { p0 = mac->formals; mac->formkeys = newof(0, struct ppkeyarg, n, p1 - p0 + 1); s = (char*)&mac->formkeys[mac->arity]; (void)memcpy(s, p0, p1 - p0 + 1); free(p0); for (n = 0; n < mac->arity; n++) { mac->formkeys[n].name = s + (formargs[n] - p0); mac->formkeys[n].value = s + (formvals[n] - p0); } } else #endif for (n = 1; n < mac->arity; n++) *(formargs[n] - 1) = ','; if (old.value) { if ((i0 & SYM_FUNCTION) != (sym->flags & SYM_FUNCTION) || old.arity != mac->arity || !streq(old.value, mac->value)) goto redefined; if (!old.formals) { if (mac->formals) goto redefined; } else if (mac->formals) { #if MACKEYARGS if (pp.option & KEYARGS) { for (n = 0; n < mac->arity; n++) if (!streq(mac->formkeys[n].name, old.formkeys[n].name) || !streq(mac->formkeys[n].value, old.formkeys[n].value)) goto redefined; } else #endif if (!streq(mac->formals, old.formals)) goto redefined; } #if MACKEYARGS if (pp.option & KEYARGS) { if (mac->formkeys) free(mac->formkeys); mac->formkeys = old.formkeys; } else #endif { if (mac->formals) free(mac->formals); mac->formals = old.formals; } free(mac->value); mac->value = old.value; goto benign; redefined: if (!(pp.mode & HOSTED) || !(i0 & SYM_INITIAL)) error(1, "%s redefined", sym->name); #if MACKEYARGS if ((pp.option & KEYARGS) && mac->formkeys) free(mac->formkeys); #endif #if MACKEYARGS if (!(pp.option & KEYARGS)) #endif if (old.formals) free(old.formals); free(old.value); } else if (!pp.truncate) ppfsm(FSM_MACRO, sym->name); mac->value = newof(mac->value, char, (mac->size = p - mac->value) + 1, 0); if ((pp.option & (DEFINITIONS|PREDEFINITIONS|REGUARD)) && !sym->hidden && !(sym->flags & SYM_MULTILINE) && ((pp.option & PREDEFINITIONS) || !(pp.mode & INIT)) && ((pp.option & (DEFINITIONS|PREDEFINITIONS)) || !(pp.state & NOTEXT))) { ppsync(); ppprintf("#%s %s", dirname(DEFINE), sym->name); if (sym->flags & SYM_FUNCTION) { ppputchar('('); if (mac->formals) ppprintf("%s", mac->formals); ppputchar(')'); } if ((p = mac->value) && *p) { ppputchar(' '); i0 = 0; while (n = *p++) { if (n != MARK || (n = *p++) == MARK) { ppputchar(n); i0 = ppisid(n); } else { if (n == 'Q') ppputchar('#'); else if (i0) { ppputchar('#'); ppputchar('#'); } s = formargs[*p++ - ARGOFFSET]; while ((n = *s++) && n != ',') ppputchar(n); if (ppisid(*p) || *p == MARK) { ppputchar('#'); ppputchar('#'); } i0 = 0; } ppcheckout(); } } emitted = 1; } benign: if (pp.mode & BUILTIN) sym->flags |= SYM_BUILTIN; if (pp.option & FINAL) sym->flags |= SYM_FINAL; if (pp.mode & INIT) sym->flags |= SYM_INIT; if (pp.option & INITIAL) sym->flags |= SYM_INITIAL; if (pp.state & NOEXPAND) sym->flags |= SYM_NOEXPAND; if (pp.option & PREDEFINED) sym->flags |= SYM_PREDEFINED; if (pp.mode & READONLY) sym->flags |= SYM_READONLY; if (pp.macref) (*pp.macref)(sym, error_info.file, n2, mac ? error_info.line - n2 + 1 : REF_UNDEF, mac ? strsum(mac->value, (long)mac->arity) : 0L); break; assertion: c = pplex(); if ((pp.state & STRICT) && !(pp.mode & (HOSTED|RELAX))) error(1, "#%s #%s: assertions are non-standard", dirname(directive), pptokstr(pp.token, 0)); if (c != T_ID) { error(2, "%s: invalid predicate name", pptokstr(pp.token, 0)); goto eatdirective; } switch ((int)hashref(pp.strtab, pp.token)) { case X_DEFINED: case X_EXISTS: case X_STRCMP: error(2, "%s is a builtin predicate", pp.token); goto eatdirective; case X_SIZEOF: error(2, "%s cannot be a predicate", pp.token); goto eatdirective; } strcpy(pp.tmpbuf, pp.token); switch (pppredargs()) { case T_ID: case T_STRING: assert(directive, pp.tmpbuf, pp.args); break; case 0: assert(directive, pp.tmpbuf, NiL); break; default: error(2, "invalid predicate argument list"); goto eatdirective; } break; tuple: pp.state |= DEFINITION|NOEXPAND|NOSPACE; rp = 0; tp = mac->tuple; if (!tp && !mac->value) ppfsm(FSM_MACRO, sym->name); while ((c = pplex()) && c != '>' && c != '\n') { for (; tp; tp = tp->nomatch) if (streq(tp->token, pp.token)) break; if (!tp) { if (!(tp = newof(0, struct pptuple, 1, strlen(pp.token)))) error(3, "out of space"); strcpy(tp->token, pp.token); if (rp) { tp->nomatch = rp; rp->nomatch = tp; } else { tp->nomatch = mac->tuple; mac->tuple = tp; } } rp = tp; tp = tp->match; } pp.state &= ~NOSPACE; if (!rp || c != '>') error(2, "%s: > omitted in tuple macro definition", sym->name); else { n = 2 * MAXTOKEN; p = v = oldof(0, char, 0, n); while ((c = pplex()) && c != '\n') if (p > v || c != ' ') { STRCOPY(p, pp.token, s); if (p > &v[n - MAXTOKEN] && (s = newof(v, char, n += MAXTOKEN, 0)) != v) { c = p - v; v = s; p = v + c; } } while (p > v && *(p - 1) == ' ') p--; n = p - v; tp = newof(0, struct pptuple, 1, n); strcpy(tp->token, v); tp->match = rp->match; rp->match = tp; } goto benign; case WARNING: if ((pp.state & STRICT) && !(pp.mode & (HOSTED|RELAX))) error(1, "#%s: non-standard directive", pp.token); /*FALLTHROUGH*/ case ERROR: pp.state &= ~DISABLE; p = pp.tmpbuf; while ((c = pplex()) != '\n') if (p + strlen(pp.token) < &pp.tmpbuf[MAXTOKEN]) { STRCOPY(p, pp.token, s); pp.state &= ~NOSPACE; } *p = 0; p = *pp.tmpbuf ? pp.tmpbuf : ((directive == WARNING) ? "user warning" : "user error"); n = (directive == WARNING) ? 1 : 3; error(n, "%s", p); break; case LET: n2 = error_info.line; if ((pp.state & STRICT) && !(pp.mode & (HOSTED|RELAX))) error(1, "#%s: non-standard directive", pp.token); if (!(sym = macsym(c = pplex()))) goto eatdirective; if ((c = pplex()) != '=') { error(2, "%s: = expected", sym->name); goto eatdirective; } sym->flags &= ~(SYM_BUILTIN|SYM_FUNCTION|SYM_MULTILINE|SYM_PREDEFINED|SYM_VARIADIC); mac = sym->macro; mac->arity = 0; if (mac->value) { if (!(sym->flags & SYM_REDEFINE) && !sym->hidden) error(1, "%s: redefined", sym->name); #if MACKEYARGS if ((pp.option & KEYARGS) && mac->formkeys) free(mac->formkeys); else #endif free(mac->formals); mac->formals = 0; n = strlen(mac->value) + 1; } else { ppfsm(FSM_MACRO, sym->name); n = 0; } n1 = ppexpr(&i1); if (i1) c = sfsprintf(pp.tmpbuf, MAXTOKEN, "%luU", n1); else c = sfsprintf(pp.tmpbuf, MAXTOKEN, "%ld", n1); if (n < ++c) { if (mac->value) free(mac->value); mac->value = oldof(0, char, 0, c); } strcpy(mac->value, pp.tmpbuf); sym->flags |= SYM_REDEFINE; c = (pp.state & NEWLINE) ? '\n' : ' '; goto benign; case LINE: pp.state &= ~DISABLE; if ((c = pplex()) == '#') { c = pplex(); directive = INCLUDE; } if (c != T_DECIMAL && c != T_OCTAL) { error(1, "#%s: line number expected", dirname(LINE)); goto eatdirective; } linesync: n = error_info.line; error_info.line = strtol(pp.token, NiL, 0); if (error_info.line == 0 && directive == LINE && (pp.state & STRICT) && !(pp.mode & HOSTED)) error(1, "#%s: line number should be > 0", dirname(LINE)); pp.state &= ~DISABLE; pp.state |= STRIP; switch (c = pplex()) { case T_STRING: s = error_info.file; if (*(p = pp.token)) pathcanon(p, 0); fp = ppsetfile(p); error_info.file = fp->name; if (error_info.line == 1) ppmultiple(fp, INC_TEST); switch (c = pplex()) { case '\n': break; case T_DECIMAL: case T_OCTAL: if (directive == LINE && (pp.state & STRICT) && !(pp.mode & (HOSTED|RELAX))) error(1, "#%s: integer file type argument is non-standard", dirname(LINE)); break; default: error(1, "#%s: integer file type argument expected", dirname(LINE)); break; } if (directive == LINE) pp.in->flags &= ~IN_ignoreline; else if (pp.incref) { if (error_info.file != s) { switch (*pp.token) { case PP_sync_push: if (pp.insert) (*pp.incref)(s, error_info.file, n, PP_SYNC_INSERT); else (*pp.incref)(s, error_info.file, n, PP_SYNC_PUSH); break; case PP_sync_pop: if (pp.insert) (*pp.incref)(s, error_info.file, n, PP_SYNC_INSERT); else (*pp.incref)(s, error_info.file, n - 1, PP_SYNC_POP); break; case PP_sync_ignore: if (pp.insert) (*pp.incref)(s, error_info.file, n, PP_SYNC_INSERT); else { (*pp.incref)(s, error_info.file, n, PP_SYNC_IGNORE); error_info.file = s; } break; default: if (*s) { if (fp == pp.insert) pp.insert = 0; else if (error_info.line == 1 && !pp.insert) (*pp.incref)(s, error_info.file, n, PP_SYNC_PUSH); else { if (!pp.insert) pp.insert = ppgetfile(s); (*pp.incref)(s, error_info.file, n, PP_SYNC_INSERT); } } break; } } } break; case '\n': break; default: error(1, "#%s: \"file-name\" expected", dirname(LINE)); break; } if (directive == LINE && (pp.in->flags & IN_ignoreline)) error_info.line = n + 1; else { pp.hidden = 0; pp.state &= ~HIDDEN; if (pp.linesync) { #if CATSTRINGS if (pp.state & JOINING) pp.state |= HIDDEN|SYNCLINE; else #endif { s = pp.lineid; n = pp.flags; if (directive == LINE) { pp.flags &= ~PP_linetype; if (pp.macref) pp.lineid = dirname(LINE); } (*pp.linesync)(error_info.line, error_info.file); pp.flags = n; pp.lineid = s; } } } directive = LINE; break; case PRAGMA: /* * #pragma [STDC] [pass:] [no]option [arg ...] * * pragma args are not expanded by default * * if STDC is present then it is silently passed on * * if pass is pp.pass then the option is used * and verified but is not passed on * * if pass is omitted then the option is passed on * * otherwise if pass is non-null and not pp.pass then * the option is passed on but not used * * if the line does not match this form then * it is passed on unchanged * * #directive pass: option [...] * ^ ^ ^ ^ ^ ^ ^ ^ * pp.valbuf p0 p1 p2 p3 p4 p5 p6 * * p? 0 if component omitted * i0 0 if ``no''option */ p = pp.valbuf; *p++ = '#'; STRCOPY(p, pp.token, s); p0 = p; if (pp.option & PRAGMAEXPAND) pp.state &= ~DISABLE; if (!(p6 = getline(p, &pp.valbuf[MAXTOKEN], !!(pp.option & PRAGMAEXPAND)))) { *p0 = 0; error(2, "%s: directive too long", pp.valbuf); c = 0; goto eatdirective; } p1 = ++p; while (ppisid(*p)) p++; if (p == p1) { p5 = p; p4 = 0; p3 = 0; p2 = 0; p1 = 0; } else if (*p != ':') { p5 = *p ? p + (*p == ' ') : 0; p4 = p; p3 = p1; p2 = 0; p1 = 0; } else { p2 = p++; p3 = p; while (ppisid(*p)) p++; if (p == p3) { p4 = p1; p3 = 0; p2 = 0; p1 = 0; } else p4 = p; p5 = *p4 ? p4 + (*p4 == ' ') : 0; } if (!p1 && p3 && (p4 - p3) == 4 && strneq(p3, "STDC", 4)) goto pass; if ((pp.state & WARN) && !(pp.mode & (HOSTED|RELAX))) error(1, "#%s: non-standard directive", dirname(PRAGMA)); i0 = !p3 || *p3 != 'n' || *(p3 + 1) != 'o'; if (!p3) goto checkmap; if (p1) { *p2 = 0; n = streq(p1, pp.pass); *p2 = ':'; if (!n) goto checkmap; } else n = 0; i2 = *p4; *p4 = 0; if (((i1 = (int)hashref(pp.strtab, p3 + (i0 ? 0 : 2))) < 1 || i1 > X_last_option) && (i0 || (i1 = (int)hashref(pp.strtab, p3)) > X_last_option)) i1 = 0; if ((pp.state & (COMPATIBILITY|STRICT)) == STRICT && !(pp.mode & (HOSTED|RELAX))) { if (pp.optflags[i1] & OPT_GLOBAL) goto donedirective; if (n || (pp.mode & WARN)) { n = 0; error(1, "#%s: non-standard directive ignored", dirname(PRAGMA)); } i1 = 0; } if (!n) { if (!(pp.optflags[i1] & OPT_GLOBAL)) { *p4 = i2; goto checkmap; } if (!(pp.optflags[i1] & OPT_PASS)) n = 1; } else if (!i1) error(2, "%s: unknown option", p1); else if ((pp.state & STRICT) && !(pp.mode & (HOSTED|RELAX))) error(1, "%s: non-standard option", p1); p = p5; switch (i1) { case X_ALLMULTIPLE: ppop(PP_MULTIPLE, i0); break; case X_ALLPOSSIBLE: setoption(ALLPOSSIBLE, i0); break; case X_BUILTIN: setmode(BUILTIN, i0); break; case X_CATLITERAL: setmode(CATLITERAL, i0); if (pp.mode & CATLITERAL) setoption(STRINGSPLIT, 0); break; case X_CDIR: tokop(PP_CDIR, p3, p, i0, TOKOP_UNSET|TOKOP_STRING|TOKOP_DUP); break; case X_CHECKPOINT: #if CHECKPOINT ppload(p); #else error(3, "%s: preprocessor not compiled with checkpoint enabled", p3); #endif break; case X_CHOP: tokop(PP_CHOP, p3, p, i0, TOKOP_UNSET|TOKOP_STRING); break; case X_COMPATIBILITY: ppop(PP_COMPATIBILITY, i0); break; case X_DEBUG: error_info.trace = i0 ? (p ? -strtol(p, NiL, 0) : -1) : 0; break; case X_ELSEIF: setoption(ELSEIF, i0); break; case X_EXTERNALIZE: setmode(EXTERNALIZE, i0); break; case X_FINAL: setoption(FINAL, i0); break; case X_HEADEREXPAND: setoption(HEADEREXPAND, i0); break; case X_HEADEREXPANDALL: setoption(HEADEREXPANDALL, i0); break; case X_HIDE: case X_NOTE: PUSH_LINE(p); /* UNDENT...*/ while (c = pplex()) { if (c != T_ID) error(1, "%s: %s: identifier expected", p3, pp.token); else if (sym = ppsymset(pp.symtab, pp.token)) { if (i1 == X_NOTE) { sym->flags &= ~SYM_NOTICED; ppfsm(FSM_MACRO, sym->name); } else if (i0) { if (!sym->hidden && !(sym->hidden = newof(0, struct pphide, 1, 0))) error(3, "out of space"); if (!sym->macro) ppfsm(FSM_MACRO, sym->name); if (!sym->hidden->level++) { pp.hiding++; if (sym->macro && !(sym->flags & (SYM_ACTIVE|SYM_READONLY))) { sym->hidden->macro = sym->macro; sym->macro = 0; sym->hidden->flags = sym->flags; sym->flags &= ~(SYM_BUILTIN|SYM_FUNCTION|SYM_INIT|SYM_MULTILINE|SYM_PREDEFINED|SYM_REDEFINE|SYM_VARIADIC); } } } else if (sym->hidden) { if ((mac = sym->macro) && !(sym->flags & (SYM_ACTIVE|SYM_READONLY))) { if (mac->formals) free(mac->formals); free(mac->value); free(mac); sym->macro = 0; sym->flags &= ~(SYM_BUILTIN|SYM_FUNCTION|SYM_INIT|SYM_MULTILINE|SYM_PREDEFINED|SYM_REDEFINE|SYM_VARIADIC); } if (!--sym->hidden->level) { pp.hiding--; if (sym->hidden->macro) { sym->macro = sym->hidden->macro; sym->flags = sym->hidden->flags; } free(sym->hidden); sym->hidden = 0; } } } } /*...INDENT*/ POP_LINE(); break; case X_HOSTDIR: tokop(PP_HOSTDIR, p3, p, i0, TOKOP_UNSET|TOKOP_STRING|TOKOP_DUP); break; case X_HOSTED: setmode(HOSTED, i0); break; case X_HOSTEDTRANSITION: setmode(HOSTEDTRANSITION, i0); break; case X_ID: tokop(PP_ID, p3, p, i0, TOKOP_UNSET|TOKOP_STRING); break; case X_IGNORE: tokop(PP_IGNORE, p3, p, i0, TOKOP_UNSET|TOKOP_STRING); break; case X_INCLUDE: tokop(PP_INCLUDE, p3, p, i0, TOKOP_STRING|TOKOP_DUP); break; case X_INITIAL: setoption(INITIAL, i0); break; case X_KEYARGS: ppop(PP_KEYARGS, i0); break; case X_LINE: if (pp.linesync) pp.olinesync = pp.linesync; pp.linesync = i0 ? pp.olinesync : (PPLINESYNC)0; break; case X_LINEBASE: ppop(PP_LINEBASE, i0); break; case X_LINEFILE: ppop(PP_LINEFILE, i0); break; case X_LINEID: ppop(PP_LINEID, i0 ? p : (char*)0); break; case X_LINETYPE: ppop(PP_LINETYPE, i0 ? (p ? strtol(p, NiL, 0) : 1) : 0); break; case X_MACREF: if (!p) { if (i0 && !pp.macref) { ppop(PP_LINETYPE, 1); ppop(PP_MACREF, ppmacref); } else error(2, "%s: option cannot be unset", p3); } else if (s = strchr(p, ' ')) { if (pp.macref && (s = strchr(p, ' '))) { *s++ = 0; c = strtol(s, NiL, 0); var.type = pp.truncate; pp.truncate = PPTOKSIZ; (*pp.macref)(pprefmac(p, REF_CREATE), error_info.file, error_info.line - (c == REF_NORMAL ? 2 : 1), c, (s = strchr(s, ' ')) ? strtol(s, NiL, 0) : 0L); pp.truncate = var.type; } error_info.line -= 2; } break; case X_MAP: /*UNDENT*/ /* * #pragma pp:map [id ...] "/from/[,/to/]" [ "/old/new/[glnu]" ... ] */ if (!i0) { error(2, "%s: option cannot be unset", p3); goto donedirective; } if (!p5) { error(2, "%s: address argument expected", p3); goto donedirective; } PUSH_LINE(p5); while ((c = pplex()) == T_ID) { sfsprintf(pp.tmpbuf, MAXTOKEN, "__%s__", s = pp.token); if (c = (int)hashget(pp.dirtab, s)) { hashput(pp.dirtab, 0, 0); hashput(pp.dirtab, pp.tmpbuf, c); } if (c = (int)hashget(pp.strtab, s)) { hashput(pp.strtab, 0, 0); hashput(pp.strtab, pp.tmpbuf, c); } } if (c != T_STRING || !*(s = pp.token)) { if (c) error(2, "%s: %s: address argument expected", p3, pptokstr(pp.token, 0)); goto eatmap; } map = newof(0, struct map, 1, 0); /* * /from/ */ if (i0 = regcomp(&map->re, s, REG_AUGMENTED|REG_DELIMITED|REG_LENIENT|REG_NULL)) regfatal(&map->re, 3, i0); if (*(s += map->re.re_npat)) { error(2, "%s: invalid characters after pattern: %s ", p3, s); goto eatmap; } /* * /old/new/[flags] */ edit = 0; while ((c = pplex()) == T_STRING) { if (!*(s = pp.token)) { error(2, "%s: substitution argument expected", p3); goto eatmap; } if (edit) edit = edit->next = newof(0, struct edit, 1, 0); else edit = map->edit = newof(0, struct edit, 1, 0); if (!(i0 = regcomp(&edit->re, s, REG_AUGMENTED|REG_DELIMITED|REG_LENIENT|REG_NULL)) && !(i0 = regsubcomp(&edit->re, s += edit->re.re_npat, NiL, 0, 0))) s += edit->re.re_npat; if (i0) regfatal(&edit->re, 3, i0); if (*s) { error(2, "%s: invalid characters after substitution: %s ", p3, s); goto eatmap; } } if (c) { error(2, "%s: %s: substitution argument expected", p3, pptokstr(pp.token, 0)); goto eatmap; } map->next = (struct map*)pp.maps; pp.maps = (char*)map; eatmap: POP_LINE(); /*INDENT*/ break; case X_MAPINCLUDE: ppmapinclude(NiL, p5); break; case X_MODERN: setoption(MODERN, i0); break; case X_MULTIPLE: n = 1; if (pp.in->type == IN_FILE) ppmultiple(ppsetfile(error_info.file), i0 ? INC_CLEAR : INC_TEST); break; case X_NATIVE: setoption(NATIVE, i0); break; case X_OPSPACE: ppfsm(FSM_OPSPACE, i0 ? p4 : (char*)0); break; case X_PASSTHROUGH: ppop(PP_PASSTHROUGH, i0); break; case X_PEDANTIC: ppop(PP_PEDANTIC, i0); break; case X_PLUSCOMMENT: ppop(PP_PLUSCOMMENT, i0); break; case X_PLUSPLUS: ppop(PP_PLUSPLUS, i0); break; case X_PLUSSPLICE: setoption(PLUSSPLICE, i0); break; case X_PRAGMAEXPAND: setoption(PRAGMAEXPAND, i0); break; case X_PRAGMAFLAGS: tokop(PP_PRAGMAFLAGS, p3, p, i0, 0); break; case X_PREDEFINED: setoption(PREDEFINED, i0); break; case X_PREFIX: setoption(PREFIX, i0); break; case X_PRESERVE: setoption(PRESERVE, i0); if (pp.option & PRESERVE) { setmode(CATLITERAL, 0); ppop(PP_COMPATIBILITY, 1); ppop(PP_TRANSITION, 0); ppop(PP_PLUSCOMMENT, 1); ppop(PP_SPACEOUT, 1); setoption(STRINGSPAN, 1); setoption(STRINGSPLIT, 0); ppop(PP_HOSTDIR, "-", 1); } break; case X_PROTOTYPED: /* * this option doesn't bump the token count */ n = 1; directive = ENDIF; #if PROTOTYPE setoption(PROTOTYPED, i0); #else error(1, "preprocessor not compiled with prototype conversion enabled"); #endif break; case X_PROTO: setoption(NOPROTO, !i0); break; case X_QUOTE: tokop(PP_QUOTE, p3, p, i0, TOKOP_UNSET|TOKOP_STRING); break; case X_READONLY: setmode(READONLY, i0); break; case X_REGUARD: setoption(REGUARD, i0); break; case X_RESERVED: tokop(PP_RESERVED, p3, p, i0, 0); break; case X_SPACEOUT: if (!(pp.state & (COMPATIBILITY|COMPILE))) ppop(PP_SPACEOUT, i0); break; case X_SPLICECAT: setoption(SPLICECAT, i0); break; case X_SPLICESPACE: setoption(SPLICESPACE, i0); break; case X_STANDARD: tokop(PP_STANDARD, p3, p, i0, TOKOP_UNSET|TOKOP_STRING|TOKOP_DUP); break; case X_STRICT: ppop(PP_STRICT, i0); break; case X_STRINGSPAN: setoption(STRINGSPAN, i0); break; case X_STRINGSPLIT: setoption(STRINGSPLIT, i0); if (pp.option & STRINGSPLIT) setmode(CATLITERAL, 0); break; case X_SYSTEM_HEADER: if (i0) { pp.mode |= HOSTED; pp.flags |= PP_hosted; pp.in->flags |= IN_hosted; } else { pp.mode &= ~HOSTED; pp.flags &= ~PP_hosted; pp.in->flags &= ~PP_hosted; } break; case X_TEST: ppop(PP_TEST, p); break; case X_TEXT: if (!(pp.option & KEEPNOTEXT)) setstate(NOTEXT, !i0); break; case X_TRANSITION: ppop(PP_TRANSITION, i0); if (pp.state & TRANSITION) ppop(PP_COMPATIBILITY, i0); break; case X_TRUNCATE: ppop(PP_TRUNCATE, i0 ? (p ? strtol(p, NiL, 0) : TRUNCLENGTH) : 0); break; case X_VENDOR: tokop(PP_VENDOR, p3, p, i0, TOKOP_UNSET|TOKOP_STRING|TOKOP_DUP); break; case X_VERSION: if (!(*pp.control & SKIP) && pp.pragma && !(pp.state & NOTEXT)) { sfsprintf(pp.tmpbuf, MAXTOKEN, "\"%s\"", pp.version); (*pp.pragma)(dirname(PRAGMA), pp.pass, p3, pp.tmpbuf, !n); if (pp.linesync && !n) (*pp.linesync)(error_info.line, error_info.file); emitted = 1; } break; case X_WARN: ppop(PP_WARN, i0); break; case X_ZEOF: setoption(ZEOF, i0); break; #if DEBUG case 0: case X_INCLUDED: case X_NOTICED: case X_OPTION: case X_STATEMENT: break; default: error(PANIC, "%s: option recognized but not implemented", pp.valbuf); break; #endif } *p4 = i2; if (!n) goto checkmap; goto donedirective; case RENAME: if ((pp.state & STRICT) && !(pp.mode & (HOSTED|RELAX))) error(1, "#%s: non-standard directive", pp.token); if ((c = pplex()) != T_ID) { error(1, "%s: invalid macro name", pptokstr(pp.token, 0)); goto eatdirective; } if (!(sym = pprefmac(pp.token, REF_DELETE)) || !sym->macro) goto eatdirective; if (sym->flags & (SYM_ACTIVE|SYM_READONLY)) { if (!(pp.option & ALLPOSSIBLE)) error(2, "%s: macro is %s", sym->name, (sym->flags & SYM_READONLY) ? "readonly" : "active"); goto eatdirective; } if ((c = pplex()) != T_ID) { error(1, "%s: invalid macro name", pptokstr(pp.token, 0)); goto eatdirective; } var.symbol = pprefmac(pp.token, REF_CREATE); if (mac = var.symbol->macro) { if (var.symbol->flags & (SYM_ACTIVE|SYM_READONLY)) { if (!(pp.option & ALLPOSSIBLE)) error(2, "%s: macro is %s", var.symbol->name, (var.symbol->flags & SYM_READONLY) ? "readonly" : "active"); goto eatdirective; } if (!(pp.mode & HOSTED) || !(var.symbol->flags & SYM_INITIAL)) error(1, "%s redefined", var.symbol->name); if (mac->formals) free(mac->formals); free(mac->value); free(mac); } ppfsm(FSM_MACRO, var.symbol->name); var.symbol->flags = sym->flags; sym->flags &= ~(SYM_BUILTIN|SYM_FUNCTION|SYM_INIT|SYM_MULTILINE|SYM_PREDEFINED|SYM_REDEFINE|SYM_VARIADIC); var.symbol->macro = sym->macro; sym->macro = 0; break; case UNDEF: if ((c = pplex()) != T_ID) { error(1, "%s: invalid macro name", pptokstr(pp.token, 0)); goto eatdirective; } if (sym = pprefmac(pp.token, REF_DELETE)) { if (mac = sym->macro) { if (sym->flags & (SYM_ACTIVE|SYM_READONLY)) { if (!(pp.option & ALLPOSSIBLE)) error(2, "%s: macro is %s", sym->name, (sym->flags & SYM_READONLY) ? "readonly" : "active"); goto eatdirective; } if (mac->formals) free(mac->formals); free(mac->value); free(mac); mac = sym->macro = 0; } if ((pp.option & (DEFINITIONS|PREDEFINITIONS|REGUARD)) && !sym->hidden && !(sym->flags & SYM_MULTILINE) && ((pp.option & PREDEFINITIONS) || !(pp.mode & INIT)) && ((pp.option & (DEFINITIONS|PREDEFINITIONS)) || !(pp.state & NOTEXT))) { ppsync(); ppprintf("#%s %s", dirname(UNDEF), sym->name); emitted = 1; } sym->flags &= ~(SYM_BUILTIN|SYM_FUNCTION|SYM_INIT|SYM_MULTILINE|SYM_PREDEFINED|SYM_REDEFINE|SYM_VARIADIC); n2 = error_info.line; goto benign; } else pprefmac(pp.token, REF_UNDEF); break; #if DEBUG default: error(PANIC, "#%s: directive recognized but not implemented", pp.token); goto eatdirective; #endif } break; case '\n': break; default: error(1, "%s: invalid directive name", pptokstr(pp.token, 0)); goto eatdirective; } enddirective: #if COMPATIBLE if (c != '\n' && !(pp.state & COMPATIBILITY)) #else if (c != '\n') #endif { pp.state |= DISABLE|NOSPACE; if ((c = pplex()) != '\n' && (pp.mode & (HOSTED|PEDANTIC)) == PEDANTIC) error(1, "%s: invalid characters after directive", pptokstr(pp.token, 0)); } eatdirective: if (c != '\n') { pp.state |= DISABLE; while (pplex() != '\n'); } donedirective: #if _HUH_2002_05_09 if (!(pp.state & EOF2NL)) error(2, "%s in directive", pptokchr(0)); #endif pp.state &= ~RESTORE; pp.mode &= ~RELAX; if (!(*pp.control & SKIP)) { pp.state |= restore; switch (directive) { case LINE: return 0; case INCLUDE: if (pp.include) { error_info.line++; PUSH_FILE(pp.include, n); if (!pp.vendor && (pp.found->type & TYPE_VENDOR)) pp.vendor = 1; pp.include = 0; return 0; } if (pp.incref) (*pp.incref)(error_info.file, ppgetfile(pp.path)->name, error_info.line, PP_SYNC_IGNORE); else if (pp.linesync && pp.macref) { pp.flags |= PP_lineignore; (*pp.linesync)(error_info.line, ppgetfile(pp.path)->name); } /*FALLTHROUGH*/ default: pp.in->flags |= IN_tokens; /*FALLTHROUGH*/ case ENDIF: error_info.line++; if (emitted) { ppputchar('\n'); ppcheckout(); } else { pp.state |= HIDDEN; pp.hidden++; } return 0; } } pp.state |= restore|HIDDEN|SKIPCONTROL; pp.hidden++; pp.level++; error_info.line++; return 0; } /* * grow the pp nesting control stack */ void ppnest(void) { register struct ppinstk* ip; int oz; int nz; long adjust; long* op; long* np; oz = pp.constack; op = pp.maxcon - oz + 1; nz = oz * 2; np = newof(op, long, nz, 0); if (adjust = (np - op)) { ip = pp.in; do { if (ip->control) ip->control += adjust; } while (ip = ip->prev); } pp.control = np + oz; pp.constack = nz; pp.maxcon = np + nz - 1; }