/*********************************************************************** * * * This software is part of the ast package * * Copyright (c) 1986-2011 AT&T Intellectual Property * * and is licensed under the * * Eclipse Public License, Version 1.0 * * by AT&T Intellectual Property * * * * A copy of the License is available at * * http://www.eclipse.org/org/documents/epl-v10.html * * (with md5 checksum b35adb5213ca9657e911e9befb180842) * * * * Information and Software Systems Research * * AT&T Research * * Florham Park NJ * * * * Glenn Fowler * * * ***********************************************************************/ #pragma prototyped /* * Glenn Fowler * AT&T Research * * preprocessor macro call */ #include "pplib.h" #include /* * call a macro by pushing its value on the input stream * only the macro token itself has been consumed * -1 returned if macro disabled * 0 returned if tok==0 and sym->mac->value to be copied to output by caller * 1 returned if value pushed on input */ int ppcall(register struct ppsymbol* sym, int tok) { register int c; register char* p; register char* q; register struct ppmacro* mac; int n; int m; int ret; int old_hidden; int last_line; long old_state; char* last_file; char* old_next; char* old_token; struct ppmacstk* mp; struct ppinstk* old_in; struct ppinstk* kp; struct pptuple* tp; ret = -1; sym->flags |= SYM_NOTICED; if (mac = sym->macro) { count(macro); if ((sym->flags & SYM_PREDICATE) && (pp.state & (CONDITIONAL|WARN)) == (CONDITIONAL|WARN)) error(1, "%s: macro definition overrides assertion: use #%s ...", sym->name, sym->name); if (sym->flags & SYM_DISABLED) #if COMPATIBLE if ((pp.state & (COMPATIBILITY|TRANSITION)) != COMPATIBILITY || !mac->arity) #endif { pp.mode |= MARKMACRO; #if COMPATIBLE if ((pp.state & (COMPATIBILITY|STRICT)) == (COMPATIBILITY|STRICT)) error(1, "%s: macro recursion inhibited", sym->name); #endif goto disable; } if ((sym->flags & SYM_PREDEFINED) && !(pp.mode & (HOSTED|INACTIVE))) { #if COMPATIBLE if (*sym->name != '_' && !(pp.state & COMPATIBILITY)) #else if (*sym->name != '_') #endif { if (pp.state & STRICT) { error(1, "%s: obsolete predefined symbol expansion disabled", sym->name); goto disable; } error(1, "%s: obsolete predefined symbol expanded%s", sym->name, (pp.state & DIRECTIVE) ? "" : " outside of directive"); } else if (!(pp.state & DIRECTIVE) && mac->value && (ppisdig(*mac->value) || *mac->value == '#')) error(1, "%s: predefined symbol expanded outside of directive", sym->name); } debug((-5, "macro %s = %s", sym->name, mac->value)); if (pp.macref) (*pp.macref)(sym, error_info.file, error_info.line, (pp.state & CONDITIONAL) ? REF_IF : REF_NORMAL, 0L); if (tp = mac->tuple) { old_state = pp.state; pp.state |= DEFINITION|NOSPACE; old_token = pp.token; n = 2 * MAXTOKEN; pp.token = p = oldof(0, char, 0, n); q = p + MAXTOKEN; *pp.token++ = ' '; old_hidden = pp.hidden; while (c = pplex()) { if (c == '\n') { pp.hidden++; pp.state |= HIDDEN|NEWLINE; old_state |= HIDDEN|NEWLINE; error_info.line++; } else if (c == '#') { ungetchr(c); break; } else { for (;;) { if (streq(pp.token, tp->token)) { if (!(tp = tp->match)) break; if (!tp->nomatch) { free(p); pp.state = old_state; pp.token = old_token; PUSH_TUPLE(sym, tp->token); ret = 1; goto disable; } } else if (!(tp = tp->nomatch)) break; } if (!tp) { pp.token = pp.toknxt; break; } } if ((pp.token = pp.toknxt) > q) { c = pp.token - p; p = newof(p, char, n += MAXTOKEN, 0); q = p + n - MAXTOKEN; pp.token = p + c; } *pp.token++ = ' '; } if (pp.token > p && *(pp.token - 1) == ' ') pp.token--; if (pp.hidden != old_hidden) *pp.token++ = '\n'; else *pp.token++ = ' '; *pp.token = 0; pp.state = old_state; pp.token = old_token; if (*p) PUSH_RESCAN(p); else free(p); if (!mac->value) goto disable; } if (sym->flags & SYM_FUNCTION) { /* * a quick and dirty '(' peek to avoid possibly * inappropriate ungetchr()'s below */ for (p = pp.in->nextchr; isspace(*p); p++); if ((c = *p) != '(' && c != '/' && c != 0 && c != MARK) goto disable; old_next = (c == MARK) ? pp.in->nextchr : NiL; old_token = pp.token; mp = pp.macp->next; if ((pp.token = (char*)&mp->arg[mac->arity + 1]) > pp.maxmac) error(3, "%s: too many nested function-like macros", sym->name); old_hidden = pp.hidden; old_state = pp.state; pp.state |= DEFINITION|FILEPOP|NOSPACE; while ((c = pplex()) == '\n') { pp.hidden++; pp.state |= HIDDEN|NEWLINE; old_state |= HIDDEN|NEWLINE; error_info.line++; } if (c != '(') { pp.state = old_state; if (old_next) pp.in->nextchr = old_next; else { if (c) { p = pp.toknxt; while (p > pp.token) ungetchr(*--p); #if COMPATIBLE if ((pp.state & (COMPATIBILITY|STRICT)) == (COMPATIBILITY|STRICT)) error(1, "%s: macro arguments omitted", sym->name); #endif if (c == T_ID && !(pp.state & HIDDEN)) ungetchr(' '); } if (pp.hidden != old_hidden) { ungetchr('\n'); error_info.line--; if (pp.hidden && !--pp.hidden) pp.state &= ~HIDDEN; } } pp.token = old_token; goto disable; } pp.state = old_state; /* * arg[i][-1] is an extra char for each actual i * for a possible ungetchr('"') during IN_QUOTE * arg[i][-1]==0 if arg i need not be expanded * arg[0][-2] holds the actual arg count */ c = 0; m = 0; n = 0; mp = pp.macp->next; p = pp.token = (char*)&mp->arg[mac->arity + 1]; pp.state |= COLLECTING|NOEXPAND; pp.state &= ~FILEPOP; sym->flags |= SYM_ACTIVE; old_in = pp.in; last_line = error_info.line; last_file = error_info.file; mp->line = error_info.line; #if MACKEYARGS if (pp.option & KEYARGS) { for (c = 0; c < mac->arity; c++) mp->arg[c] = mac->args.key[c].value + 1; mp->arg[0]++; } else #endif { *++p = ' '; mp->arg[0] = ++p; } #if MACKEYARGS keyarg: if (pp.option & KEYARGS) { pp.state |= NOSPACE; switch (pplex()) { case T_ID: break; case ')': /* no actual key args */ if (!(pp.state & NOEXPAND)) pp.state |= NOEXPAND; for (c = 0; c < mac->arity; c++) mp->arg[c][-1] = 0; c = 0; goto endactuals; default: error(3, "%s: invalid keyword macro argument", pp.token); break; } for (c = 0; c < mac->arity; c++) if (streq(pp.token, mac->args.key[c].name)) break; if (c >= mac->arity) error(2, "%s: invalid macro argument keyword", pp.token); if (pplex() != '=') error(2, "= expected in keyword macro argument"); pp.state &= ~NOSPACE; if (!c) p++; pp.token = mp->arg[c] = ++p; } #endif for (;;) { if ((pp.mactop = pp.token = p) >= pp.maxmac) error(3, "%s: too many nested function-like macros", sym->name); switch (pplex()) { case '(': n++; break; case ')': if (!n--) { if (p > mp->arg[c] && *(p - 1) == ' ') p--; if (p > mp->arg[c] && *(p - 1) == '\\') { for (q = mp->arg[c]; q < p; q++) if (*q == '\\') q++; if (q > p) *p++ = '\\'; } #if MACKEYARGS *p = 0; m++; #endif goto endactuals; } break; case ',': if (!n && (m++, (c < mac->arity - 1 || !(sym->flags & SYM_VARIADIC)))) { if (p > mp->arg[c] && *(p - 1) == ' ') p--; *p++ = 0; if (!(pp.state & NOEXPAND)) pp.state |= NOEXPAND; else mp->arg[c][-1] = 0; #if MACKEYARGS if (pp.option & KEYARGS) { pp.token = p + 1; goto keyarg; } #endif { if ((pp.state & STRICT) && p == mp->arg[c]) error(1, "%s: macro call argument %d is null", sym->name, c + 1); if (c < mac->arity) c++; *p++ = ' '; } pp.toknxt = mp->arg[c] = p; } break; case 0: if (pp.in == old_in) kp = 0; else for (kp = pp.in; kp && kp != old_in; kp = kp->prev); if (!kp) { error( #if COMPATIBLE (pp.state & COMPATIBILITY) ? 3 : #endif 2, "%s: %s in macro argument list", sym->name, pptokchr(0)); goto endactuals; } continue; case '\n': pp.state |= HIDDEN; error_info.line++; pp.hidden++; /*FALLTHROUGH*/ case ' ': if (p > mp->arg[c] && *(p - 1) != ' ') *p++ = ' '; continue; } p = pp.toknxt; if (error_info.line != last_line) { SETLINE(p, error_info.line); last_line = error_info.line; } if (error_info.file != last_file) { SETFILE(p, error_info.file); last_file = error_info.file; } } endactuals: if (pp.state & NOEXPAND) mp->arg[c][-1] = 0; pp.token = old_token; if (pp.in != old_in) { for (kp = pp.in; kp && kp != old_in; kp = kp->prev); if (kp) error(2, "%s: macro call starts and ends in different files", sym->name); } pp.state &= ~(COLLECTING|FILEPOP|NOEXPAND); sym->flags &= ~SYM_ACTIVE; #if MACKEYARGS if (!(pp.option & KEYARGS)) #endif { if (p > mp->arg[0] && ++m || (sym->flags & SYM_VARIADIC)) c++; if (c != (n = mac->arity) && (c > 0 || n > 1) && !(sym->flags & SYM_EMPTY)) { if (!(sym->flags & SYM_VARIADIC)) error(1, "%s: %d actual argument%s expected", sym->name, n, n == 1 ? "" : "s"); else if (c < --n) error(1, "%s: at least %d actual argument%s expected", sym->name, n, n == 1 ? "" : "s"); #if COMPATIBLE if (!c && (pp.state & (COMPATIBILITY|STRICT)) == (COMPATIBILITY|STRICT)) goto disable; #endif } if (!c) ++c; while (c < mac->arity) mp->arg[c++] = (char*)"\0" + 1; } mp->arg[0][-2] = m; *p++ = 0; nextframe(mp, p); count(function); } if (!tok && (sym->flags & SYM_NOEXPAND)) { if (sym->flags & SYM_FUNCTION) popframe(mp); ret = !mac->size; } else if (!(pp.state & HEADER) || (pp.option & HEADEREXPANDALL) || pp.in->type != IN_COPY) { if (sym->flags & SYM_MULTILINE) PUSH_MULTILINE(sym); else PUSH_MACRO(sym); ret = 1; } } disable: if (ret < 0 && sym->hidden && !(pp.mode & EXPOSE) && !(pp.state & HEADER) && (pp.in->type == IN_FILE || pp.in->type == IN_MACRO || pp.in->type == IN_EXPAND)) { struct ppinstk* inp; for (inp = pp.in; inp->type != IN_FILE && inp->prev; inp = inp->prev); sfsprintf(pp.hidebuf, MAXTOKEN, "_%d_%s_hIDe", inp->index, sym->name); PUSH_STRING(pp.hidebuf); ret = 1; } pp.state &= ~NEWLINE; pp.in->flags |= IN_tokens; count(token); return ret; }