# # define TRACE if (tTf(70, 0)) printf /* ** MACRO PROCESSOR */ # define ANYDELIM '\020' /* \| -- zero or more delims */ # define ONEDELIM '\021' /* \^ -- exactly one delim */ # define CHANGE '\022' /* \& -- token change */ # define PARAMN '\023' /* $ -- non-preprocessed param */ # define PARAMP '\024' /* $$ -- preprocessed param */ # define PRESCANENABLE '@' /* character to enable prescan */ # define LBRACE '{' /* left brace */ # define RBRACE '}' /* right brace */ # define BACKSLASH '\\' /* backslash */ # define LQUOTE '`' /* left quote */ # define RQUOTE '\'' /* right quote */ # define SPACE ' ' # define TAB '\t' # define NEWLINE '\n' # define QUOTED 0200 /* pass right through bit */ # define CHARMASK 0177 /* character part */ # define BYTEMASK 0377 /* one byte */ # define ITERTHRESH 100 /* iteration limit */ # define NPRIMS (sizeof Macprims / sizeof Macprims[0]) /* token modes, used to compute token changes */ # define NONE 0 /* guarantees a token change */ # define ID 1 /* identifier */ # define NUMBER 2 /* number (int or float) */ # define DELIM 3 /* delimiter, guarantees a token change */ # define QUOTEMODE 4 /* quoted construct */ # define OP 5 /* operator */ # define NOCHANGE 6 /* guarantees no token change */ # include "buf.h" /* headers for buffer manip */ /* macro definitions */ struct macro { struct macro *nextm; /* pointer to next macro header */ char *template; /* pointer to macro template */ char *substitute; /* pointer to substitution text */ }; /* primitive declarations */ struct macro Macprims[] = { &Macprims[1], "{define;\020\024t;\020\024s}", (char *) 1, &Macprims[2], "{rawdefine;\020\024t;\020\024s}", (char *) 2, &Macprims[3], "{remove;\020\024t}", (char *) 3, &Macprims[4], "{dump}", (char *) 4, &Macprims[5], "{type\020\024m}", (char *) 5, &Macprims[6], "{read\020\024m}", (char *) 6, &Macprims[7], "{readdefine;\020\024n;\020\024m}", (char *) 7, &Macprims[8], "{ifsame;\020\024a;\020\024b;\020\023t;\020\023f}", (char *) 8, &Macprims[9], "{ifeq;\020\024a;\020\024b;\020\023t;\020\023f}", (char *) 9, &Macprims[10], "{ifgt;\020\024a;\020\024b;\020\023t;\020\023f}", (char *) 10, &Macprims[11], "{eval\020\024e}", (char *) 11, &Macprims[12], "{substr;\020\024f;\020\024t;\024s}", (char *) 12, &Macprims[13], "{dnl}", (char *) 13, &Macprims[14], "{remove}", (char *) 3, 0, "{dump;\020\024n}", (char *) 4, }; struct macro *Machead = &Macprims[0]; /* head of macro list */ /* parameters */ struct param { struct param *nextp; char mode; char name; char *paramt; }; /* the environment */ struct env { struct env *nexte; /* next environment */ int (*rawget)(); /* raw character get routine */ char **rawpar; /* a parameter to that routine */ char prevchar; /* previous character read */ char tokenmode; /* current token mode */ char change; /* token change flag */ char eof; /* eof flag */ char newline; /* set if bol */ char rawnewline; /* same for raw input */ struct buf *pbuf; /* peek buffer */ struct buf *mbuf; /* macro buffer */ char endtrap; /* endtrap flag */ char pass; /* pass flag */ char pdelim; /* current parameter delimiter */ struct param *params; /* parameter list */ int itercount; /* iteration count */ int quotelevel; /* quote nesting level */ }; /* current environment pointer */ struct env *Macenv; /* ** MACINIT -- initialize for macro processing ** ** *** EXTERNAL INTERFACE *** ** ** The macro processor is initialized. Any crap left over from ** previous processing (which will never occur normally, but may ** happen on an interrupt, for instance) will be cleaned up. The ** raw input is defined, and the 'endtrap' parameter tells whether ** this is "primary" processing or not; in other words, it tells ** whether to spring {begintrap} and {endtrap}. ** ** This routine must always be called prior to any processing. */ macinit(rawget, rawpar, endtrap) int (*rawget)(); char **rawpar; int endtrap; { static struct env env; register struct env *e; register struct env *f; /* clear out old crap */ for (e = Macenv; e != 0; e = f) { bufpurge(&e->mbuf); bufpurge(&e->pbuf); macpflush(e); f = e->nexte; if (f != 0) buffree(e); } /* set up the primary environment */ Macenv = e = &env; bufclear(e, sizeof *e); e->rawget = rawget; e->rawpar = rawpar; e->endtrap = endtrap; e->newline = 1; if (endtrap) macspring("{begintrap}"); } /* ** MACGETCH -- get character after macro processing ** ** *** EXTERNAL INTERFACE ROUTINE *** ** ** The macro processor must have been previously initialized by a ** call to macinit(). */ macgetch() { register struct env *e; register int c; e = Macenv; for (;;) { /* get an input character */ c = macgch(); /* check for end-of-file processing */ if (c == 0) { /* check to see if we should spring {endtrap} */ if (e->endtrap) { e->endtrap = 0; macspring("{endtrap}"); continue; } /* don't spring endtrap -- real end of file */ return (0); } /* not an end of file -- check for pass character through */ if (e->pass) { e->pass = 0; e->change = 0; } if ((c & QUOTED) != 0 || !e->change || e->tokenmode == DELIM) { /* the character is to be passed through */ /* reset iteration count and purge macro buffer */ e->itercount = 0; bufflush(&e->mbuf); e->newline = (c == NEWLINE); return (c & CHARMASK); } /* this character is a candidate for macro processing */ macunget(0); bufflush(&e->mbuf); /* check for infinite loop */ if (e->itercount > ITERTHRESH) { printf("Infinite loop in macro\n"); e->pass++; continue; } /* see if we have a macro match */ if (macallscan()) { /* yep -- count iterations and rescan it */ e->itercount++; } else { /* nope -- pass the next token through raw */ e->pass++; } } } /* ** MACGCH -- get input character, knowing about tokens ** ** The next input character is returned. In addition, the quote ** level info is maintained and the QUOTED bit is set if the ** returned character is (a) quoted or (b) backslash escaped. ** As a side effect the change flag is maintained. Also, the ** character is saved in mbuf. */ macgch() { register int c; register struct env *e; register int i; e = Macenv; for (;;) { /* get virtual raw character, save in mbuf, and set change */ c = macfetch(e->quotelevel > 0); /* test for magic frotz */ switch (c) { case 0: /* end of file */ return (0); case LQUOTE: if (e->quotelevel++ == 0) continue; break; case RQUOTE: if (e->quotelevel == 0) return (c); if (--e->quotelevel == 0) { continue; } break; case BACKSLASH: if (e->quotelevel > 0) break; c = macfetch(1); /* handle special cases */ if (c == e->pdelim) break; /* do translations */ switch (c) { case SPACE: /* space */ case TAB: /* tab */ case NEWLINE: /* newline */ case RQUOTE: case LQUOTE: case '$': case LBRACE: case RBRACE: case BACKSLASH: break; default: /* take character as is (unquoted) */ c = 0; break; } if (c != 0) break; /* not an escapable character -- treat it normally */ macunget(1); c = BACKSLASH; /* do default character processing on backslash */ default: if (e->quotelevel > 0) break; return (c); } /* the character is quoted */ return (c | QUOTED); } } /* ** MACFETCH -- fetch virtual raw character ** ** A character is fetched from the peek buffer. If that buffer is ** empty, it is fetched from the raw input. The character is then ** saved away, and the change flag is set accordingly. ** The QUOTED bit on the character is set if the 'quote' flag ** parameter is set; used for backslash escapes. ** Note that the QUOTED bit appears only on the character which ** goes into the macro buffer; the character returned is normal. */ macfetch(quote) int quote; { register struct env *e; register int c; register int escapech; e = Macenv; escapech = 0; for (;;) { /* get character from peek buffer */ c = bufget(&e->pbuf); if (c == 0) { /* peek buffer is empty */ /* check for already raw eof */ if (!e->eof) { /* note that c must be int so that the QUOTED bit is not negative */ c = (*e->rawget)(e->rawpar); if (c <= 0) { c = 0; e->eof++; } else { if (e->rawnewline) e->prevchar = NEWLINE; e->rawnewline = (c == NEWLINE); } } } /* test for escapable character */ if (escapech) { switch (c) { case 't': /* become quoted tab */ c = TAB | QUOTED; break; case 'n': /* become quoted newline */ c = NEWLINE | QUOTED; break; default: bufput(c, &e->pbuf); c = BACKSLASH; } escapech = 0; } else { if (c == BACKSLASH) { escapech++; continue; } } break; } /* quote the character if appropriate to mask change flag */ /* ('escapech' now becomes the maybe quoted character) */ escapech = c; if (quote && c != 0) escapech |= QUOTED; /* set change flag */ macschng(escapech); if (c != 0) { /* save the character in the macro buffer */ bufput(escapech, &e->mbuf); } return (c); } /* ** MACSCHNG -- set change flag and compute token type ** ** The change flag and token type is set. This does some tricky ** stuff to determine just when a new token begins. Most notably, ** notice that quoted stuff IS scanned, but the change flag is ** reset in a higher level routine so that quoted stuff looks ** like a single token, but any begin/end quote causes a token ** change. */ macschng(ch) char ch; { register struct env *e; register char c; register int thismode; int changeflag; e = Macenv; c = ch; changeflag = 0; thismode = macmode(c); switch (e->tokenmode) { case NONE: /* always cause token change */ break; case QUOTEMODE: /* change only on initial entry to quotes */ break; case DELIM: changeflag++; break; case ID: /* take any sequence of letters and numerals */ if (thismode == NUMBER) thismode = ID; break; case NUMBER: /* take string of digits and decimal points */ if (c == '.') thismode = NUMBER; break; case OP: switch (e->prevchar) { case '<': case '>': case '!': if (c != '=') changeflag++; break; case '*': if (c != '*' && c != '/') changeflag++; break; case '/': if (c != '*') changeflag++; break; case '.': if (thismode == NUMBER) e->tokenmode = thismode; break; default: changeflag++; break; } break; case NOCHANGE: /* never cause token change */ e->tokenmode = thismode; break; } e->prevchar = c; if (thismode != e->tokenmode) changeflag++; e->tokenmode = thismode; e->change = changeflag; } /* ** MACMODE -- return mode of a character */ macmode(ch) char ch; { register char c; c = ch; if ((c & QUOTED) != 0) return (QUOTEMODE); if ((c >= 'a' && c <= 'z') || (c >= 'A' && c <= 'Z') || (c == '_')) return (ID); if (c >= '0' && c <= '9') return (NUMBER); if (c == SPACE || c == TAB || c == NEWLINE) return (DELIM); return (OP); } /* ** MACALLSCAN -- scan to see if input matches a macro ** ** Returns true if there was a match, false if not. In any case, ** the virtual raw input (i.e., the peek buffer) will contain ** either the old raw input, or the substituted macro. */ macallscan() { register struct macro *m; for (m = Machead; m != 0; m = m->nextm) { /* check to see if it matches this macro */ if (macscan(m)) { /* it does -- substituted value is in mbuf */ macrescan(); return (1); } /* it doesn't match this macro -- try the next one */ macrescan(); } /* it doesn't match any of them -- tough luck */ return (0); } /* ** MACSCAN -- scan a single macro for a match ** ** As is scans it also collects parameters for possible future ** substitution. If it finds a match, it takes responsibility ** for doing the substitution. */ macscan(mac) struct macro *mac; { register struct macro *m; register char c; register char *temp; char pname, pdelim; m = mac; /* check for anchored mode */ temp = m->template; if (*temp == ONEDELIM) { if (!Macenv->newline) return (0); temp++; } /* scan the template */ for ( ; c = *temp; temp++) { if (c == PARAMN || c == PARAMP) { /* we have a parameter */ pname = *++temp; pdelim = *++temp; if (macparam(c, pname, pdelim)) { /* parameter ok */ continue; } /* failure on parameter scan */ return (0); } if (!macmatch(c)) { /* failure on literal match */ return (0); } } /* it matches!! substitute the macro */ macsubs(m); return (1); } /* ** MACPARAM -- collect a parameter ** ** The parameter is collected and stored away "somewhere" with ** name 'name'. The delimiter is taken to be 'delim'. 'Mode' ** tells whether to prescan the parameter (done immediately before ** substitute time to avoid side effects if the macro actually ** turns out to not match). */ macparam(mode, name, delim) char mode; char name; char delim; { register char c; register struct env *e; struct buf *b; register struct param *p; int bracecount; char *bufalloc(); char *bufcrunch(); e = Macenv; b = 0; e->pdelim = delim; TRACE("\nmacparam(%d, %c, %c):\n", mode, name, delim); if (mode == PARAMP) { /* check for REALLY prescan */ c = macgch(); if (c != PRESCANENABLE) { mode = PARAMN; macunget(0); } } bracecount = 0; e->tokenmode = NOCHANGE; while (!macmatch(delim)) { do { c = macgch(); if (c == 0 || c == NEWLINE) { e->pdelim = 0; bufpurge(&b); TRACE("macparam fails\n"); return (0); } bufput(c, &b); if (c == LBRACE) bracecount++; else if (c == RBRACE && bracecount > 0) bracecount--; } while (bracecount > 0); } e->pdelim = 0; /* allocate and store the parameter */ p = (struct param *) bufalloc(sizeof *p); p->mode = mode; p->name = name; p->nextp = e->params; e->params = p; p->paramt = bufcrunch(&b); bufpurge(&b); TRACE("macparam: |%s|\n", p->paramt); return (1); } /* ** MACMATCH -- test for a match between template character and input. ** ** The parameter is the character from the template to match on. ** The input is read. The template character may be a meta- ** character. In all cases if the match occurs the input is ** thrown away; if no match occurs the input is left unchanged. ** ** Return value is true for a match, false for no match. */ macmatch(template) char template; { register char t; register char c; register int res; t = template; TRACE("\tmacmatch(%c)", t); switch (t) { case ANYDELIM: /* match zero or more delimiters */ /* chew and chuck delimiters */ while (macdelim()) ; /* as a side effect, must match a token change */ if (!macckch()) { TRACE(" fail\n"); return (0); } TRACE(" succeed\n"); return (1); case ONEDELIM: /* match exactly one delimiter */ TRACE(":\n"); res = macdelim(); return (res); case CHANGE: /* match a token change */ case 0: /* end of template */ TRACE(":\n"); res = macckch(); return (res); default: /* must have exact character match */ c = macgch(); TRACE(" against %c ", c); if (c == t) { TRACE("succeed\n"); return (1); } /* failure */ macunget(0); TRACE("fail\n"); return (0); } } /* ** MACDELIM -- test for next input character a delimiter ** ** Returns true if the next input character is a delimiter, false ** otherwise. Delimiters are chewed. */ macdelim() { register char c; c = macgch(); TRACE("\t\tmacdelim against %c: ", c); if (macmode(c) == DELIM) { TRACE("succeed\n"); return (1); } macunget(0); TRACE("fail\n"); return (0); } /* ** MACCKCH -- check for token change ** ** Returns true if a token change occurs between this and the next ** character. No characters are ever chewed, however, the token ** change (if it exists) is always chewed. */ macckch() { register int change; register char c; register struct env *e; e = Macenv; if (e->tokenmode == NONE) { /* then last character has been ungotten: take old change */ change = e->change; } else { c = macgch(); change = Macenv->change; macunget(0); } TRACE("macckch got %c ret %d\n", c, change); /* chew the change and return */ e->tokenmode = NOCHANGE; return (change); } /* ** MACSUBS -- substitute in macro substitution ** ** This routine prescans appropriate parameters and then either ** loads the substitution into the macro buffer or calls the ** correct primitive routine. */ macsubs(mac) struct macro *mac; { register struct param *p; register struct env *e; register char *s; e = Macenv; for (p = e->params; p != 0; p = p->nextp) { /* check to see if we should prescan */ if (p->mode != PARAMP) { continue; } /* prescan parameter */ macprescan(&p->paramt); p->mode = PARAMN; } s = mac->substitute; /* clear out the macro call */ bufflush(&e->mbuf); if (s <= NPRIMS) { /* it is a primitive */ macload(macprim(s), 0); } else { /* it is a user-defined macro */ macload(s, 1); } } /* ** MACPRESCAN -- prescan a parameter ** ** The parameter pointed to by 'pp' is fed once through the macro ** processor and replaced with the new version. */ macprescan(pp) char **pp; { struct buf *b; char *p; register struct env *e; register char c; extern int macsget(); char *bufcrunch(); b = 0; p = *pp; /* set up a new environment */ macnewev(&macsget, &p); e = Macenv; /* scan the parameter */ while ((c = macgetch()) != 0) bufput(c, &b); /* free the old parameter */ buffree(*pp); /* move in the new one */ *pp = bufcrunch(&b); bufpurge(&b); /* restore the old environment */ macpopev(); } /* ** MACNEWEV -- set up new environment ** ** Parameters are raw get routine and parameter */ macnewev(rawget, rawpar) int (*rawget)(); char **rawpar; { register struct env *e; char *bufalloc(); e = (struct env *) bufalloc(sizeof *e); e->rawget = rawget; e->rawpar = rawpar; e->nexte = Macenv; e->newline = 1; Macenv = e; } /* ** MACPOPEV -- pop an environment ** ** Makes sure all buffers and stuff are purged */ macpopev() { register struct env *e; e = Macenv; bufpurge(&e->mbuf); bufpurge(&e->pbuf); macpflush(e); Macenv = e->nexte; buffree(e); } /* ** MACPFLUSH -- flush all parameters ** ** Used to deallocate all parameters in a given environment. */ macpflush(env) struct env *env; { register struct env *e; register struct param *p; register struct param *q; e = env; for (p = e->params; p != 0; p = q) { buffree(p->paramt); q = p->nextp; buffree(p); } e->params = 0; } /* ** MACSGET -- get from string ** ** Works like a getchar from a string. Used by macprescan(). ** The parameter is a pointer to the string. */ macsget(pp) char **pp; { register char **p; register int c; p = pp; c = **p & BYTEMASK; if (c != 0) (*p)++; return (c); } /* ** MACLOAD -- load a string into the macro buffer ** ** The parameters are a pointer to a string to be appended to ** the macro buffer and a flag telling whether parameter substi- ** tution can occur. */ macload(str, flag) char *str; int flag; { register struct env *e; register char *s; register char c; e = Macenv; s = str; if (s == 0) return; while ((c = *s++) != 0) { if (c == PARAMN) macload(macplkup(*s++), 0); else bufput(c & CHARMASK, &e->mbuf); } } /* ** MACRESCAN -- rescan the macro buffer ** ** Copies the macro buffer into the peek buffer so that it will be ** reread. Also deallocates any parameters which may happen to be ** stored away. */ macrescan() { register struct env *e; register char c; e = Macenv; while ((c = bufget(&e->mbuf) & CHARMASK) != 0) bufput(c, &e->pbuf); e->quotelevel = 0; e->tokenmode = NONE; macpflush(e); } /* ** MACUNGET -- unget a character ** ** Moves one character from the macro buffer to the peek buffer. ** If 'mask' is set, the character has the quote bit stripped off. */ macunget(mask) int mask; { register struct env *e; register char c; e = Macenv; if (e->prevchar != 0) { c = bufget(&e->mbuf); if (mask) c &= CHARMASK; bufput(c, &e->pbuf); e->tokenmode = NONE; } } /* ** MACPLKUP -- look up parameter ** ** Returns a pointer to the named parameter. Returns null ** if the parameter is not found ("cannot happen"). */ char *macplkup(name) char name; { register struct param *p; for (p = Macenv->params; p != 0; p = p->nextp) { if (p->name == name) return (p->paramt); } return (0); } /* ** MACSPRING -- spring a trap ** ** The named trap is sprung, in other words, if the named macro is ** defined it is called, otherwise there is no replacement text. */ macspring(trap) char *trap; { register struct env *e; register char *p; char *macro(); e = Macenv; bufflush(&e->mbuf); /* fetch the macro */ p = macro(trap); /* if not defined, don't bother */ if (p == 0) return; /* load the trap */ macload(p); /* insert a newline after the trap */ bufput('\n', &e->mbuf); macrescan(); } /* ** MACPRIM -- do primitives ** ** The parameter is the primitive to execute. */ char *macprim(n) int n; { register struct env *e; char *bufcrunch(); char *macsstr(); e = Macenv; switch (n) { case 1: /* {define; $t; $s} */ macdnl(); macdefine(macplkup('t'), macplkup('s'), 0); break; case 2: /* {rawdefine; $t; $s} */ macdnl(); macdefine(macplkup('t'), macplkup('s'), 1); break; case 3: /* {remove $t} */ macdnl(); macremove(macplkup('t')); break; case 4: /* {dump} */ /* {dump; $n} */ macdnl(); macdump(macplkup('n')); break; case 5: /* {type $m} */ macdnl(); printf("%s\n", macplkup('m')); break; case 6: /* {read $m} */ printf("%s ", macplkup('m')); macread(); break; case 7: /* {read; $n; $m} */ printf("%s ", macplkup('m')); macread(); macdefine(macplkup('n'), bufcrunch(&e->mbuf), 1); return("{readcount}"); case 8: /* {ifsame; $a; $b; $t; $f} */ if (sequal(macplkup('a'), macplkup('b'))) return (macplkup('t')); else return (macplkup('f')); case 9: /* {ifeq; $a; $b; $t; $f} */ if (macnumber(macplkup('a')) == macnumber(macplkup('b'))) return (macplkup('t')); else return (macplkup('f')); case 10: /* {ifgt; $a; $b; $t; $f} */ if (macnumber(macplkup('a')) > macnumber(macplkup('b'))) return (macplkup('t')); else return (macplkup('f')); case 12: /* {substr; $f; $t; $s} */ return (macsstr(macnumber(macplkup('f')), macnumber(macplkup('t')), macplkup('s'))); case 13: /* {dnl} */ macdnl(); break; default: syserr("macro: bad primitive %d", n); } return (""); } /* ** MACDNL -- delete to newline ** ** Used in general after macro definitions to avoid embarrassing ** newlines. Just reads input until a newline character, and ** then throws it away. */ macdnl() { register char c; register struct env *e; e = Macenv; while ((c = macgch()) != 0 && c != NEWLINE) ; bufflush(&e->mbuf); } /* ** MACDEFINE -- define primitive ** ** This function defines a macro. The parameters are the ** template, the substitution string, and a flag telling whether ** this is a raw define or not. Syntax checking is done. */ macdefine(template, subs, raw) char *template; char *subs; int raw; { register struct env *e; char paramdefined[128]; char *p; register char c; char d; struct buf *b; register struct macro *m; extern int macsget(); int escapech; char *bufalloc(); char *bufcrunch(); char *mactcvt(); /* remove any old macro definition */ macremove(template); /* get a new environment */ macnewev(&macsget, &p); b = 0; e = Macenv; /* undefine all parameters */ bufclear(paramdefined, 128); /* avoid an initial token change */ e->tokenmode = NOCHANGE; escapech = 1; /* allocate macro header and template */ m = (struct macro *) bufalloc(sizeof *m); /* scan and convert template, collect available parameters */ p = template; m->template = mactcvt(raw, paramdefined); if (m->template == 0) { /* some sort of syntax error */ buffree(m); macpopev(); return; } bufflush(&e->mbuf); bufflush(&e->pbuf); e->eof = 0; /* scan substitute string */ for (p = subs; c = macfetch(0); ) { if (c != '$') { /* substitute non-parameters literally */ bufput(c & CHARMASK, &b); continue; } /* it's a parameter */ bufput(PARAMN, &b); c = macfetch(0); /* check to see if name is supplied */ if (paramdefined[c] == 0) { /* nope, it's not */ printf("define: parameter %c referenced but not defined\n", c); buffree(m->template); buffree(m); macpopev(); bufpurge(&b); return; } bufput(c & CHARMASK, &b); } /* allocate substitution string */ m->substitute = bufcrunch(&b); /* allocate it as a macro */ m->nextm = Machead; Machead = m; /* finished... */ macpopev(); bufpurge(&b); } /* ** MACTCVT -- convert template to internal form ** ** Converts the template from external form to internal form. ** ** Parameters: ** raw -- set if only raw type conversion should take place. ** paramdefined -- a map of flags to determine declaration of ** parameters, etc. If zero, no parameters are allowed. ** ** Return value: ** A character pointer off into mystic space. ** ** The characters of the template are read using macfetch, so ** a new environment should be created which will arrange to ** get this. */ char *mactcvt(raw, paramdefined) int raw; char paramdefined[128]; { register int c; struct buf *b; register char d; register int escapech; char *p; char *bufcrunch(); b = 0; escapech = 1; while (c = macfetch(0)) { switch (c) { case '$': /* parameter */ if (escapech < 0) { printf("define: every parameter needs a delimiter\n"); bufpurge(&b); return (0); } /* skip delimiters before parameter in non-raw */ if (Macenv->change && !escapech && !raw) bufput(ANYDELIM, &b); escapech = 0; c = macfetch(0); d = PARAMN; if (c == '$') { /* prescanned parameter */ d = PARAMP; c = macfetch(0); } /* process parameter name */ if (c == 0) { /* no parameter name */ printf("define: null parameter name\n"); bufpurge(&b); return (0); } bufput(d, &b); escapech = -1; /* check for legal parameter */ if (paramdefined == 0) break; if (paramdefined[c]) { printf("define: parameter %c redeclared\n", c); bufpurge(&b); return (0); } paramdefined[c]++; /* get parameter delimiter */ break; case BACKSLASH: /* a backslash escape */ escapech = 1; c = macfetch(0); switch (c) { case '|': c = ANYDELIM; break; case '^': c = ONEDELIM; break; case '&': c = CHANGE; break; default: escapech = 0; c = BACKSLASH; macunget(0); break; } break; case NEWLINE | QUOTED: case TAB | QUOTED: case SPACE | QUOTED: if (escapech < 0) c &= CHARMASK; escapech = 1; break; default: /* change delimiters to ANYDELIM */ if (macmode(c) == DELIM && !raw) { while (macmode(c = macfetch(0)) == DELIM) ; macunget(0); if (c == 0) c = ONEDELIM; else c = ANYDELIM; escapech = 1; } else { if (Macenv->change && !escapech) { bufput(ANYDELIM, &b); } if (escapech < 0) { /* parameter: don't allow quoted delimiters */ c &= CHARMASK; } escapech = 0; } break; } bufput(c, &b); } if (escapech <= 0) bufput(CHANGE, &b); p = bufcrunch(&b); bufpurge(&b); TRACE("mactcvt: '%s'\n", p); return (p); } /* ** MACREMOVE -- remove macro ** ** The named macro is looked up. If it is found it is removed ** from the macro list. */ macremove(name) char *name; { register struct macro *m; register struct macro **mp; extern int macsget(); char *p; register char *cname; struct macro *macmlkup(); if (name != 0) { /* convert name to internal format */ macnewev(&macsget, &p); p = name; cname = mactcvt(0, 0); macpopev(); if (cname == 0) { /* some sort of syntax error */ return; } } /* find macro */ while (name == 0 ? ((m = Machead)->substitute > NPRIMS) : ((m = macmlkup(cname)) != 0)) { /* remove macro from list */ mp = &Machead; /* find it's parent */ while (*mp != m) mp = &(*mp)->nextm; /* remove macro from list */ *mp = m->nextm; buffree(m->template); buffree(m->substitute); buffree(m); } buffree(cname); } /* ** MACMLKUP -- look up macro ** ** The named macro is looked up and a pointer to the macro header ** is returned. Zero is returned if the macro is not found. ** The name must be in internal form. */ struct macro *macmlkup(name) char *name; { register struct macro *m; register char *n; n = name; /* scan the macro list for it */ for (m = Machead; m != 0; m = m->nextm) { if (macmmatch(n, m->template, 0)) return (m); } return ((struct macro *) 0); } /* ** MACMMATCH -- check for macro name match ** ** The given 'name' and 'temp' are compared for equality. If they ** match true is returned, else false. ** Both must be converted to internal format before the call is ** given. ** ** "Match" is defined as two macros which might scan as equal. ** ** 'Flag' is set to indicate that the macros must match exactly, ** that is, neither may have any parameters and must end with both ** at end-of-template. This mode is used for getting traps and ** such. */ macmmatch(name, temp, flag) char *name; char *temp; int flag; { register char ac; register char bc; char *ap, *bp; ap = name; bp = temp; /* scan character by character */ for (;; ap++, bp++) { ac = *ap; bc = *bp; TRACE("macmmatch: ac=%c/%u, bc=%c/%u\n", ac, ap, bc, bp); if (bc == ANYDELIM) { if (macmmchew(&ap)) continue; } else { switch (ac) { case SPACE: case NEWLINE: case TAB: if (ac == bc || bc == ONEDELIM) continue; break; case ONEDELIM: if (ac == bc || macmode(bc) == DELIM) continue; break; case ANYDELIM: if (macmmchew(&bp)) continue; break; case PARAMP: case PARAMN: case 0: if (bc == PARAMN || bc == PARAMP || bc == 0 || bc == ANYDELIM || bc == ONEDELIM || bc == CHANGE || macmode(bc) == DELIM) { /* success */ if (!flag) return (1); if (ac == 0 && bc == 0) return (1); } break; default: if (ac == bc) continue; break; } } /* failure */ return (0); } } /* ** MACMMCHEW -- chew nonspecific match characters ** ** The pointer passed as parameter is scanned so as to skip over ** delimiters and pseudocharacters. ** At least one character must match. */ macmmchew(pp) char **pp; { register char *p; register char c; register int matchflag; p = *pp; for (matchflag = 0; ; matchflag++) { c = *p; if (c != ANYDELIM && c != ONEDELIM && c != CHANGE && macmode(c) != DELIM) break; p++; } p--; if (matchflag == 0) return (0); *pp = p; return (1); } /* ** MACREAD -- read a terminal input line ** ** Reads one line from the user. Returns the line into mbuf, ** and a count of the number of characters read into the macro ** "{readcount}" (-1 for end of file). */ macread() { register struct env *e; register int count; register char c; e = Macenv; count = -1; while ((c = getchar()) > 0) { count++; if (c == NEWLINE) break; bufput(c, &e->mbuf); } macdefine("{readcount}", iocv(count), 1); } /* ** MACNUMBER -- return converted number ** ** This procedure is essentially identical to the system atoi ** routine, in that it does no syntax checking whatsoever. */ macnumber(s) char *s; { register char *p; register char c; register int result; int minus; result = 0; p = s; minus = 0; while ((c = *p++) == SPACE) ; if (c == '-') { minus++; while ((c = *p++) == SPACE) ; } while (c >= '0' && c <= '9') { result = result * 10 + (c - '0'); c = *p++; } if (minus) result = -result; return (result); } /* ** MACSUBSTR -- substring primitive ** ** The substring of 'string' from 'from' to 'to' is extracted. ** A pointer to the result is returned. Note that macsstr ** in the general case modifies 'string' in place. */ char *macsstr(from, to, string) int from; int to; char *string; { register int f; int l; register char *s; register int t; s = string; t = to; f = from; if (f < 1) f = 1; if (f >= t) return (""); l = length(s); if (t < l) s[t] = 0; return (&s[f - 1]); } /* ** MACDUMP -- dump a macro definition to the terminal ** ** All macros matching 'name' are output to the buffer. If ** 'name' is the null pointer, all macros are printed. */ macdump(name) char *name; { register struct macro *m; register char *p; register char *n; extern int macsget(); char *ptr; char *macmocv(); n = name; if (n != 0) { macnewev(&macsget, &ptr); ptr = n; n = mactcvt(0, 0); macpopev(); if (n == 0) return; } for (m = Machead; m != 0; m = m->nextm) { if (n == 0 || macmmatch(n, m->template, 0)) { if (m->substitute <= NPRIMS) continue; p = macmocv(m->template); macload("`{rawdefine; ", 0); macload(p, 0); macload("; ", 0); p = macmocv(m->substitute); macload(p, 0); macload("}'\n", 0); } } if (n != 0) buffree(n); } /* ** MACMOCV -- macro output conversion ** ** This routine converts the internal format of the named macro ** to an unambigous external representation. ** ** Note that much work can be done to this routine to make it ** produce cleaner output, for example, translate "\|" to " " ** in most cases. */ char *macmocv(m) char *m; { register char *p; struct buf *b; register int c; register int pc; static char *lastbuf; char *bufcrunch(); p = m; /* release last used buffer (as appropriate) */ if (lastbuf != 0) { buffree(lastbuf); lastbuf = 0; } if (p <= NPRIMS) { /* we have a primitive */ p = "Primitive xxx"; itoa(m, &p[10]); return (p); } b = 0; for (; (c = *p++) != 0; pc = c) { switch (c) { case BACKSLASH: case '|': case '&': case '^': break; case ANYDELIM: c = '\\|'; break; case ONEDELIM: c = '\\^'; break; case CHANGE: c = '\\&'; break; case PARAMN: c = '$'; break; case PARAMP: c = '$$'; break; case '$': c = '\\$'; break; case NEWLINE: c = ('\\' | QUOTED) | ('\n' << 8); break; default: bufput(c, &b); continue; } if (pc == BACKSLASH) bufput(pc, &b); pc = c & CHARMASK; bufput(pc, &b); pc = (c >> 8) & CHARMASK; if (pc != 0) { c = pc; bufput(c, &b); } } p = bufcrunch(&b); bufpurge(&b); lastbuf = p; return (p); } /* ** MACRO -- get macro substitution value ** ** *** EXTERNAL INTERFACE *** ** ** This routine handles the rather specialized case of looking ** up a macro and returning the substitution value. The name ** must match EXACTLY, character for character. ** ** The null pointer is returned if the macro is not defined. */ char *macro(name) char *name; { register struct macro *m; register char *n; extern int macsget(); char *p; /* convert macro name to internal format */ macnewev(&macsget, &p); p = name; n = mactcvt(0, 0); macpopev(); if (n == 0) { /* some sort of syntax error */ return ((char *) 0); } for (m = Machead; m != 0; m = m->nextm) { if (macmmatch(n, m->template, 1)) { buffree(n); return (m->substitute); } } buffree(n); return ((char *) 0); }