/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License, Version 1.0 only * (the "License"). You may not use this file except in compliance * with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 2003 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ /* Copyright (c) 1984, 1986, 1987, 1988, 1989 AT&T */ /* All Rights Reserved */ #pragma ident "%Z%%M% %I% %E% SMI" /* * University Copyright- Copyright (c) 1982, 1986, 1988 * The Regents of the University of California * All Rights Reserved * * University Acknowledgment- Portions of this document are derived from * software developed by the University of California, Berkeley, and its * contributors. */ #include #include "tdef.h" #ifdef NROFF #include "tw.h" #endif #include "ext.h" /* * troff4.c * * number registers, conversion, arithmetic */ int regcnt = NNAMES; int falsef = 0; /* on if inside false branch of if */ #define NHASH(i) ((i>>6)^i)&0177 struct numtab *nhash[128]; /* 128 == the 0177 on line above */ setn() { register i, j; register tchar ii; int f; f = nform = 0; if ((i = cbits(ii = getach())) == '+') f = 1; else if (i == '-') f = -1; else ch = ii; if (falsef) f = 0; if ((i = getsn()) == 0) return; if ((i & 0177) == '.') switch (i >> BYTE) { case 's': i = pts; break; case 'v': i = lss; break; case 'f': i = font; break; case 'p': i = pl; break; case 't': i = findt1(); break; case 'o': i = po; break; case 'l': i = ll; break; case 'i': i = in; break; case '$': i = frame->nargs; break; case 'A': i = ascii; break; case 'c': i = numtab[CD].val; break; case 'n': i = lastl; break; case 'a': i = ralss; break; case 'h': i = dip->hnl; break; case 'd': if (dip != d) i = dip->dnl; else i = numtab[NL].val; break; case 'u': i = fi; break; case 'j': i = ad + 2 * admod; break; case 'w': i = widthp; break; case 'x': i = nel; break; case 'y': i = un; break; case 'T': i = dotT; break; /*-Tterm used in nroff*/ case 'V': i = VERT; break; case 'H': i = HOR; break; case 'k': i = ne; break; case 'P': i = print; break; case 'L': i = ls; break; case 'R': i = NN - regcnt; break; case 'z': i = dip->curd; *pbp++ = (i >> BYTE) & BYTEMASK; *pbp++ = i & BYTEMASK; return; case 'b': i = bdtab[font]; break; case 'F': cpushback(cfname[ifi]); return; default: goto s0; } else { s0: if ((j = findr(i)) == -1) i = 0; else { i = numtab[j].val = (numtab[j].val+numtab[j].inc*f); nform = numtab[j].fmt; } } setn1(i, nform, (tchar) 0); } tchar numbuf[17]; tchar *numbufp; wrc(i) tchar i; { if (numbufp >= &numbuf[16]) return(0); *numbufp++ = i; return(1); } /* insert into input number i, in format form, with size-font bits bits */ setn1(i, form, bits) int i; tchar bits; { extern int wrc(); numbufp = numbuf; nrbits = bits; nform = form; fnumb(i, wrc); *numbufp = 0; pushback(numbuf); } nrehash() { register struct numtab *p; register i; for (i=0; i<128; i++) nhash[i] = 0; for (p=numtab; p < &numtab[NN]; p++) p->link = 0; for (p=numtab; p < &numtab[NN]; p++) { if (p->r == 0) continue; i = NHASH(p->r); p->link = nhash[i]; nhash[i] = p; } } nunhash(rp) register struct numtab *rp; { register struct numtab *p; register struct numtab **lp; if (rp->r == 0) return; lp = &nhash[NHASH(rp->r)]; p = *lp; while (p) { if (p == rp) { *lp = p->link; p->link = 0; return; } lp = &p->link; p = p->link; } } findr(i) register int i; { register struct numtab *p; register h = NHASH(i); if (i == 0) return(-1); for (p = nhash[h]; p; p = p->link) if (i == p->r) return(p - numtab); for (p = numtab; p < &numtab[NN]; p++) { if (p->r == 0) { p->r = i; p->link = nhash[h]; nhash[h] = p; regcnt++; return(p - numtab); } } errprint(gettext("too many number registers (%d)."), NN); done2(04); /* NOTREACHED */ } usedr(i) /* returns -1 if nr i has never been used */ register int i; { register struct numtab *p; if (i == 0) return(-1); for (p = nhash[NHASH(i)]; p; p = p->link) if (i == p->r) return(p - numtab); return -1; } fnumb(i, f) register int i, (*f)(); { register j; j = 0; if (i < 0) { j = (*f)('-' | nrbits); i = -i; } switch (nform) { default: case '1': case 0: return decml(i, f) + j; break; case 'i': case 'I': return roman(i, f) + j; break; case 'a': case 'A': return abc(i, f) + j; break; } } decml(i, f) register int i, (*f)(); { register j, k; k = 0; nform--; if ((j = i / 10) || (nform > 0)) k = decml(j, f); return(k + (*f)((i % 10 + '0') | nrbits)); } roman(i, f) int i, (*f)(); { if (!i) return((*f)('0' | nrbits)); if (nform == 'i') return(roman0(i, f, "ixcmz", "vldw")); else return(roman0(i, f, "IXCMZ", "VLDW")); } roman0(i, f, onesp, fivesp) int i, (*f)(); char *onesp, *fivesp; { register q, rem, k; k = 0; if (!i) return(0); k = roman0(i / 10, f, onesp + 1, fivesp + 1); q = (i = i % 10) / 5; rem = i % 5; if (rem == 4) { k += (*f)(*onesp | nrbits); if (q) i = *(onesp + 1); else i = *fivesp; return(k += (*f)(i | nrbits)); } if (q) k += (*f)(*fivesp | nrbits); while (--rem >= 0) k += (*f)(*onesp | nrbits); return(k); } abc(i, f) int i, (*f)(); { if (!i) return((*f)('0' | nrbits)); else return(abc0(i - 1, f)); } abc0(i, f) int i, (*f)(); { register j, k; k = 0; if (j = i / 26) k = abc0(j - 1, f); return(k + (*f)((i % 26 + nform) | nrbits)); } long atoi0() { register c, k, cnt; register tchar ii; long i, acc; extern long ckph(); i = 0; acc = 0; nonumb = 0; cnt = -1; a0: cnt++; ii = getch(); c = cbits(ii); switch (c) { default: ch = ii; if (cnt) break; case '+': i = ckph(); if (nonumb) break; acc += i; goto a0; case '-': i = ckph(); if (nonumb) break; acc -= i; goto a0; case '*': i = ckph(); if (nonumb) break; acc *= i; goto a0; case '/': i = ckph(); if (nonumb) break; if (i == 0) { flusho(); errprint(gettext("divide by zero.")); acc = 0; } else acc /= i; goto a0; case '%': i = ckph(); if (nonumb) break; acc %= i; goto a0; case '&': /*and*/ i = ckph(); if (nonumb) break; if ((acc > 0) && (i > 0)) acc = 1; else acc = 0; goto a0; case ':': /*or*/ i = ckph(); if (nonumb) break; if ((acc > 0) || (i > 0)) acc = 1; else acc = 0; goto a0; case '=': if (cbits(ii = getch()) != '=') ch = ii; i = ckph(); if (nonumb) { acc = 0; break; } if (i == acc) acc = 1; else acc = 0; goto a0; case '>': k = 0; if (cbits(ii = getch()) == '=') k++; else ch = ii; i = ckph(); if (nonumb) { acc = 0; break; } if (acc > (i - k)) acc = 1; else acc = 0; goto a0; case '<': k = 0; if (cbits(ii = getch()) == '=') k++; else ch = ii; i = ckph(); if (nonumb) { acc = 0; break; } if (acc < (i + k)) acc = 1; else acc = 0; goto a0; case ')': break; case '(': acc = atoi0(); goto a0; } return(acc); } long ckph() { register tchar i; register long j; extern long atoi0(); extern long atoi1(); if (cbits(i = getch()) == '(') j = atoi0(); else { j = atoi1(i); } return(j); } long atoi1(ii) register tchar ii; { register i, j, digits; register long acc; int neg, abs, field; neg = abs = field = digits = 0; acc = 0; for (;;) { i = cbits(ii); switch (i) { default: break; case '+': ii = getch(); continue; case '-': neg = 1; ii = getch(); continue; case '|': abs = 1 + neg; neg = 0; ii = getch(); continue; } break; } a1: while (i >= '0' && i <= '9') { field++; digits++; acc = 10 * acc + i - '0'; ii = getch(); i = cbits(ii); } if (i == '.') { field++; digits = 0; ii = getch(); i = cbits(ii); goto a1; } if (!field) { ch = ii; goto a2; } switch (i) { case 'u': i = j = 1; /* should this be related to HOR?? */ break; case 'v': /*VSs - vert spacing*/ j = lss; i = 1; break; case 'm': /*Ems*/ j = EM; i = 1; break; case 'n': /*Ens*/ j = EM; #ifndef NROFF i = 2; #endif #ifdef NROFF i = 1; /*Same as Ems in NROFF*/ #endif break; case 'p': /*Points*/ j = INCH; i = 72; break; case 'i': /*Inches*/ j = INCH; i = 1; break; case 'c': /*Centimeters*/ /* if INCH is too big, this will overflow */ j = INCH * 50; i = 127; break; case 'P': /*Picas*/ j = INCH; i = 6; break; default: j = dfact; ch = ii; i = dfactd; } if (neg) acc = -acc; if (!noscale) { acc = (acc * j) / i; } if ((field != digits) && (digits > 0)) while (digits--) acc /= 10; if (abs) { if (dip != d) j = dip->dnl; else j = numtab[NL].val; if (!vflag) { j = numtab[HP].val; } if (abs == 2) j = -j; acc -= j; } a2: nonumb = !field; return(acc); } caserr() { register i, j; register struct numtab *p; lgf++; while (!skip() && (i = getrq()) ) { j = usedr(i); if (j < 0) continue; p = &numtab[j]; nunhash(p); p->r = p->val = p->inc = p->fmt = 0; regcnt--; } } casenr() { register i, j; lgf++; skip(); if ((i = findr(getrq())) == -1) goto rtn; skip(); j = inumb(&numtab[i].val); if (nonumb) goto rtn; numtab[i].val = j; skip(); j = atoi(); if (nonumb) goto rtn; numtab[i].inc = j; rtn: return; } caseaf() { register i, k; register tchar j, jj; lgf++; if (skip() || !(i = getrq()) || skip()) return; k = 0; j = getch(); if (!ischar(jj = cbits(j)) || !isalpha(jj)) { ch = j; while ((j = cbits(getch())) >= '0' && j <= '9') k++; } if (!k) k = j; numtab[findr(i)].fmt = k & BYTEMASK; } setaf() /* return format of number register */ { register int i, j; i = usedr(getsn()); if (i == -1) return; if (numtab[i].fmt > 20) /* it was probably a, A, i or I */ *pbp++ = numtab[i].fmt; else for (j = (numtab[i].fmt ? numtab[i].fmt : 1); j; j--) *pbp++ = '0'; } vnumb(i) int *i; { vflag++; dfact = lss; res = VERT; return(inumb(i)); } hnumb(i) int *i; { dfact = EM; res = HOR; return(inumb(i)); } inumb(n) int *n; { register i, j, f; register tchar ii; f = 0; if (n) { if ((j = cbits(ii = getch())) == '+') f = 1; else if (j == '-') f = -1; else ch = ii; } i = atoi(); if (n && f) i = *n + f * i; i = quant(i, res); vflag = 0; res = dfactd = dfact = 1; if (nonumb) i = 0; return(i); } quant(n, m) int n, m; { register i, neg; neg = 0; if (n < 0) { neg++; n = -n; } /* better as i = ((n + (m/2))/m)*m */ i = n / m; if ((n - m * i) > (m / 2)) i += 1; i *= m; if (neg) i = -i; return(i); }