#ifndef lint static char sccsid[] = "@(#)n3.c 2.3 (CWI) 86/11/27"; #endif lint /* @(#)n3.c 1.1 */ /* * troff3.c * * macro and string routines, storage allocation */ #include "tdef.h" #ifdef NROFF #include "tw.h" #endif #include #include "ext.h" #define MHASH(x) ((x>>6)^x)&0177 struct contab *mhash[128]; /* 128 == the 0177 on line above */ #define blisti(i) (((i)-NEV*(int)sizeof(env))/BLK) filep blist[NBLIST]; tchar *argtop; int pagech = '%'; int strflg; #ifdef INCORE tchar *wbuf; tchar corebuf[NEV*sizeof(env)/sizeof(tchar) + NBLIST*BLK+ 1]; #else tchar wbuf[BLK]; tchar rbuf[BLK]; #endif caseig() { register i; offset = 0; if ((i = copyb()) != '.') control(i, 1); } casern() { register i, j; lgf++; skip(); if ((i = getrq()) == 0 || (oldmn = findmn(i)) < 0) return; skip(); clrmn(findmn(j = getrq())); if (j) { munhash(&contab[oldmn]); contab[oldmn].rq = j; maddhash(&contab[oldmn]); } } maddhash(rp) register struct contab *rp; { register struct contab **hp; if (rp->rq == 0) return; hp = &mhash[MHASH(rp->rq)]; rp->link = *hp; *hp = rp; } munhash(mp) register struct contab *mp; { register struct contab *p; register struct contab **lp; if (mp->rq == 0) return; lp = &mhash[MHASH(mp->rq)]; p = *lp; while (p) { if (p == mp) { *lp = p->link; p->link = 0; return; } lp = &p->link; p = p->link; } } mrehash() { register struct contab *p; register i; for (i=0; i<128; i++) mhash[i] = 0; for (p=contab; p < &contab[NM]; p++) p->link = 0; for (p=contab; p < &contab[NM]; p++) { if (p->rq == 0) continue; i = MHASH(p->rq); p->link = mhash[i]; mhash[i] = p; } } caserm() { int j; lgf++; while (!skip() && (j = getrq()) != 0) clrmn(findmn(j)); lgf--; } caseas() { app++; caseds(); } caseds() { ds++; casede(); } caseam() { app++; casede(); } casede() { register i, req; register filep savoff; extern filep finds(); if (dip != d) wbfl(); req = '.'; lgf++; skip(); if ((i = getrq()) == 0) goto de1; if ((offset = finds(i)) == 0) goto de1; if (ds) copys(); else req = copyb(); wbfl(); clrmn(oldmn); if (newmn) { if (contab[newmn].rq) munhash(&contab[newmn]); contab[newmn].rq = i; maddhash(&contab[newmn]); } if (apptr) { savoff = offset; offset = apptr; wbt((tchar) IMP); offset = savoff; } offset = dip->op; if (req != '.') control(req, 1); de1: ds = app = 0; return; } findmn(i) register int i; { register struct contab *p; for (p = mhash[MHASH(i)]; p; p = p->link) if (i == p->rq) return(p - contab); return(-1); } clrmn(i) register int i; { if (i >= 0) { if (contab[i].mx) ffree((filep)contab[i].mx); munhash(&contab[i]); contab[i].rq = 0; contab[i].mx = 0; contab[i].f = 0; } } filep finds(mn) register int mn; { register i; register filep savip; extern filep alloc(); extern filep incoff(); oldmn = findmn(mn); newmn = 0; apptr = (filep)0; if (app && oldmn >= 0 && contab[oldmn].mx) { savip = ip; ip = (filep)contab[oldmn].mx; oldmn = -1; while ((i = rbf()) != 0) ; apptr = ip; if (!diflg) ip = incoff(ip); nextb = ip; ip = savip; } else { for (i = 0; i < NM; i++) { if (contab[i].rq == 0) break; } if (i == NM || (nextb = alloc()) == 0) { app = 0; if (macerr++ > 1) done2(02); errprint("Too many (%d) string/macro names", NM); edone(04); return(offset = 0); } contab[i].mx = (unsigned) nextb; if (!diflg) { newmn = i; if (oldmn == -1) contab[i].rq = -1; } else { contab[i].rq = mn; maddhash(&contab[i]); } } app = 0; return(offset = nextb); } skip() { register tchar i; while (cbits(i = getch()) == ' ') ; ch = i; return(nlflg); } copyb() { register i, j, state; register tchar ii; int req, k; filep savoff; if (skip() || !(j = getrq())) j = '.'; req = j; k = j >> BYTE; j &= BYTEMASK; copyf++; flushi(); nlflg = 0; state = 1; while (1) { i = cbits(ii = getch()); if (state == 3) { if (i == k) break; if (!k) { ch = ii; i = getach(); ch = ii; if (!i) break; } state = 0; goto c0; } if (i == '\n') { state = 1; nlflg = 0; goto c0; } if (state == 1 && i == '.') { state++; savoff = offset; goto c0; } if ((state == 2) && (i == j)) { state++; goto c0; } state = 0; c0: if (offset) wbf(ii); } if (offset) { wbfl(); offset = savoff; wbt((tchar)0); } copyf--; return(req); } copys() { register tchar i; copyf++; if (skip()) goto c0; if (cbits(i = getch()) != '"') wbf(i); while (cbits(i = getch()) != '\n') wbf(i); c0: wbt((tchar)0); copyf--; } filep alloc() { register i; register filep j; for (i = 0; i < NBLIST; i++) { if (blist[i] == 0) break; } if (i == NBLIST) { j = 0; } else { blist[i] = -1; if ((j = ((filep)i * BLK + NEV*(int)sizeof(env))) < NEV*(int)sizeof(env)) j = 0; } return(nextb = j); } ffree(i) filep i; { register j; while (blist[j = blisti(i)] != (unsigned) ~0) { i = (filep) blist[j]; blist[j] = 0; } blist[j] = 0; } wbt(i) tchar i; { wbf(i); wbfl(); } wbf(i) register tchar i; { register j; if (!offset) return; if (!woff) { woff = offset; #ifdef INCORE wbuf = &corebuf[woff]; /* INCORE only */ #endif wbfi = 0; } wbuf[wbfi++] = i; if (!((++offset) & (BLK - 1))) { wbfl(); j = blisti(--offset); if (j < 0 || j >= NBLIST) { errprint("Out of temp file space"); done2(01); } if (blist[j] == (unsigned) ~0) { if (alloc() == 0) { errprint("Out of temp file space"); done2(01); } blist[j] = (unsigned)(nextb); } offset = ((filep)blist[j]); } if (wbfi >= BLK) wbfl(); } wbfl() { if (woff == 0) return; #ifndef INCORE lseek(ibf, ((long)woff) * sizeof(tchar), 0); write(ibf, (char *)wbuf, wbfi * sizeof(tchar)); #endif if ((woff & (~(BLK - 1))) == (roff & (~(BLK - 1)))) roff = -1; woff = 0; } tchar rbf() { register tchar i; register filep j, p; extern filep incoff(); if (ip == NBLIST*BLK) { /* for rdtty */ if (j = rdtty()) return(j); else return(popi()); } /* this is an inline expansion of rbf0: dirty! */ #ifndef INCORE j = ip & ~(BLK - 1); if (j != roff) { roff = j; lseek(ibf, (long)j * sizeof(tchar), 0); if (read(ibf, (char *)rbuf, BLK * sizeof(tchar)) <= 0) i = 0; else i = rbuf[ip & (BLK-1)]; } else i = rbuf[ip & (BLK-1)]; #else i = corebuf[ip]; #endif /* end of rbf0 */ if (i == 0) { if (!app) i = popi(); return(i); } /* this is an inline expansion of incoff: also dirty */ p = ++ip; if ((p & (BLK - 1)) == 0) { if ((ip = blist[blisti(p-1)]) == (unsigned) ~0) { ip = 0; errprint("Bad storage allocation"); done2(-5); } /* this was meant to protect against people removing /* the macro they were standing on, but it's too /* sensitive to block boundaries. /* if (ip == 0) { /* errprint("Block removed while in use"); /* done2(-6); /* } */ } return(i); } tchar rbf0(p) register filep p; { #ifndef INCORE register filep i; if ((i = p & ~(BLK - 1)) != roff) { roff = i; lseek(ibf, (long)roff * sizeof(tchar), 0); if (read(ibf, (char *)rbuf, BLK * sizeof(tchar)) == 0) return(0); } return(rbuf[p & (BLK-1)]); #else return(corebuf[p]); #endif } filep incoff(p) register filep p; { p++; if ((p & (BLK - 1)) == 0) { if ((p = blist[blisti(p-1)]) == (unsigned) ~0) { errprint("Bad storage allocation"); done2(-5); } } return(p); } tchar popi() { register struct s *p; if (frame == stk) return(0); if (strflg) strflg--; p = nxf = frame; p->nargs = 0; frame = p->pframe; ip = p->pip; pendt = p->ppendt; lastpbp = p->lastpbp; return(p->pch); } /* * test that the end of the allocation is above a certain location * in memory */ #define SPACETEST(base, size) while ((enda - (size)) <= (char *)(base)){setbrk(DELTA);} pushi(newip, mname) filep newip; int mname; { register struct s *p; extern char *setbrk(); SPACETEST(nxf, sizeof(struct s)); p = nxf; p->pframe = frame; p->pip = ip; p->ppendt = pendt; p->pch = ch; p->lastpbp = lastpbp; p->mname = mname; lastpbp = pbp; pendt = ch = 0; frame = nxf; if (nxf->nargs == 0) nxf += 1; else nxf = (struct s *)argtop; return(ip = newip); } char *setbrk(x) int x; { register char *i; register j; char *sbrk(); if (j = x % sizeof(int)) /*allocate only whole words for 3B*/ x += sizeof(int) - j; if ((i = sbrk(x)) == (char *) -1) { errprint("Core limit reached"); edone(0100); } else { if ((unsigned)i % sizeof(int)) { /*check alignment for 3B*/ errprint("alignment problem"); edone(0100); } enda = i + x; } return(i); } getsn() { register i; if ((i = getach()) == 0) return(0); if (i == '(') return(getrq()); else return(i); } setstr() { register i, j; lgf++; if ((i = getsn()) == 0 || (j = findmn(i)) == -1 || !contab[j].mx) { lgf--; return(0); } else { SPACETEST(nxf, sizeof(struct s)); nxf->nargs = 0; strflg++; lgf--; return pushi((filep)contab[j].mx, i); } } collect() { register j; register tchar i; register tchar *strp; tchar * lim; tchar * *argpp, **argppend; int quote; struct s *savnxf; copyf++; nxf->nargs = 0; savnxf = nxf; if (skip()) goto rtn; { char *memp; memp = (char *)savnxf; /* * 1 s structure for the macro descriptor * APERMAC tchar *'s for pointers into the strings * space for the tchar's themselves */ memp += sizeof(struct s); /* * CPERMAC (the total # of characters for ALL arguments) * to a macros, has been carefully chosen * so that the distance between stack frames is < DELTA */ #define CPERMAC 200 #define APERMAC 9 memp += APERMAC * sizeof(tchar *); memp += CPERMAC * sizeof(tchar); nxf = (struct s*)memp; } lim = (tchar *)nxf; argpp = (tchar **)(savnxf + 1); argppend = &argpp[APERMAC]; SPACETEST(argppend, sizeof(tchar *)); strp = (tchar *)argppend; /* * Zero out all the string pointers before filling them in. */ for (j = 0; j < APERMAC; j++){ argpp[j] = (tchar *)0; } #if 0 errprint("savnxf=0x%x,nxf=0x%x,argpp=0x%x,strp=argppend=0x%x,lim=0x%x,enda=0x%x", savnxf, nxf, argpp, strp, lim, enda); #endif 0 strflg = 0; while ((argpp != argppend) && (!skip())) { *argpp++ = strp; quote = 0; if (cbits(i = getch()) == '"') quote++; else ch = i; while (1) { i = getch(); if (nlflg || (!quote && cbits(i) == ' ')) break; if ( quote && (cbits(i) == '"') && (cbits(i = getch()) != '"')) { ch = i; break; } *strp++ = i; if (strflg && strp >= lim) { #if 0 errprint("strp=0x%x, lim = 0x%x", strp, lim); #endif 0 errprint("Macro argument too long"); copyf--; edone(004); } SPACETEST(strp, 3 * sizeof(tchar)); } *strp++ = 0; } nxf = savnxf; nxf->nargs = argpp - (tchar **)(savnxf + 1); argtop = strp; rtn: copyf--; } seta() { register i; i = cbits(getch()) - '0'; if (i > 0 && i <= APERMAC && i <= frame->nargs) pushback(*(((tchar **)(frame + 1)) + i - 1)); } caseda() { app++; casedi(); } casedi() { register i, j; register *k; lgf++; if (skip() || (i = getrq()) == 0) { if (dip != d) wbt((tchar)0); if (dilev > 0) { numtab[DN].val = dip->dnl; numtab[DL].val = dip->maxl; dip = &d[--dilev]; offset = dip->op; } goto rtn; } if (++dilev == NDI) { --dilev; errprint("Diversions nested too deep"); edone(02); } if (dip != d) wbt((tchar)0); diflg++; dip = &d[dilev]; dip->op = finds(i); dip->curd = i; clrmn(oldmn); k = (int *) & dip->dnl; for (j = 0; j < 10; j++) k[j] = 0; /*not op and curd*/ rtn: app = 0; diflg = 0; } casedt() { lgf++; dip->dimac = dip->ditrap = dip->ditf = 0; skip(); dip->ditrap = vnumb((int *)0); if (nonumb) return; skip(); dip->dimac = getrq(); } casetl() { register j; int w[3]; tchar buf[LNSIZE]; register tchar *tp; tchar i, delim; /* * bug fix * * if .tl is the first thing in the file, the p1 * doesn't come out, also the pagenumber will be 0 * * tends too confuse the device filter (and the user as well) */ if( dip == d && numtab[NL].val == -1) newline(1); /* end fix */ dip->nls = 0; skip(); if (ismot(delim = getch())) { ch = delim; delim = '\''; } else delim = cbits(delim); tp = buf; numtab[HP].val = 0; w[0] = w[1] = w[2] = 0; j = 0; while (cbits(i = getch()) != '\n') { if (cbits(i) == cbits(delim)) { if (j < 3) w[j] = numtab[HP].val; numtab[HP].val = 0; j++; *tp++ = 0; } else { if (cbits(i) == pagech) { setn1(numtab[PN].val, numtab[findr('%')].fmt, i&SFMASK); continue; } numtab[HP].val += width(i); if (tp < &buf[LNSIZE-10]) *tp++ = i; } } if (j<3) w[j] = numtab[HP].val; *tp++ = 0; *tp++ = 0; *tp++ = 0; tp = buf; #ifdef NROFF horiz(po); #endif while (i = *tp++) pchar(i); if (w[1] || w[2]) horiz(j = quant((lt - w[1]) / 2 - w[0], HOR)); while (i = *tp++) pchar(i); if (w[2]) { horiz(lt - w[0] - w[1] - w[2] - j); while (i = *tp++) pchar(i); } newline(0); if (dip != d) { if (dip->dnl > dip->hnl) dip->hnl = dip->dnl; } else { if (numtab[NL].val > dip->hnl) dip->hnl = numtab[NL].val; } } casepc() { pagech = chget(IMP); } casepm() { register i, k; register char *p; int xx, cnt, tcnt, kk, tot; filep j; char pmline[10]; kk = cnt = tcnt = 0; tot = !skip(); for (i = 0; i < NM; i++) { if ((xx = contab[i].rq) == 0 || contab[i].mx == 0) continue; tcnt++; p = pmline; j = (filep) contab[i].mx; k = 1; while ((j = blist[blisti(j)]) != (unsigned) ~0) { k++; } cnt++; kk += k; if (!tot) { *p++ = xx & 0177; if (!(*p++ = (xx >> BYTE) & 0177)) *(p - 1) = ' '; *p++ = 0; fdprintf(stderr, "%s %d\n", pmline, k); } } fdprintf(stderr, "pm: total %d, macros %d, space %d\n", tcnt, cnt, kk); } stackdump() /* dumps stack of macros in process */ { struct s *p; if (p != stk) { for (p = frame; p != stk; p = p->pframe) fdprintf(stderr, "%c%c ", p->mname&0177, (p->mname>>BYTE)&0177); fdprintf(stderr, "\n"); } }