/* * 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 */ /* * 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 "tdef.h" #include "tw.h" #include "ext.h" #include /* * n6.c -- width functions, sizes and fonts */ int bdtab[NFONT+1] ={ 0, 0, 0, 3, 3, 0, }; int sbold = 0; int fontlab[NFONT+1] = { 0, 'R', 'I', 'B', PAIR('B','I'), 'S', 0 }; extern int nchtab; int width(j) tchar j; { int i, k; if (j & (ZBIT|MOT)) { if (iszbit(j)) return(0); if (isvmot(j)) return(0); k = absmot(j); if (isnmot(j)) k = -k; return(k); } i = cbits(j); if (i < ' ') { if (i == '\b') return(-widthp); if (i == PRESC) i = eschar; else if (iscontrol(i)) return(0); } if (i==ohc) return(0); #ifdef EUC #ifdef NROFF if (multi_locale) { if ((j & MBMASK) || (j & CSMASK)) { switch(j & MBMASK) { case BYTE_CHR: case LASTOFMB: k = t.Char * csi_width[cs(j)]; break; default: k = 0; break; } widthp = k; return(k); } } i &= 0x1ff; #endif /* NROFF */ #endif /* EUC */ i = trtab[i]; if (i < 32) return(0); k = t.width[i] * t.Char; widthp = k; return(k); } tchar setch() { int j; char temp[10]; char *s; s = temp; if ((*s++ = getach()) == 0 || (*s++ = getach()) == 0) return(0); *s = '\0'; if ((j = findch(temp)) > 0) return j | chbits; else return 0; } tchar setabs() /* set absolute char from \C'...' */ { /* for now, a no-op */ int i, n, nf; getch(); n = 0; n = inumb(&n); getch(); if (nonumb) return 0; return n + nchtab + _SPECCHAR_ST; } int findft(i) int i; { int k; if ((k = i - '0') >= 0 && k <= nfonts && k < smnt) return(k); for (k = 0; fontlab[k] != i; k++) if (k > nfonts) return(-1); return(k); } int caseps() { return (0); } int mchbits() { chbits = 0; setfbits(chbits, font); sps = width(' ' | chbits); return (0); } int setps() { int i, j; i = cbits(getch()); if (ischar(i) && isdigit(i)) { /* \sd or \sdd */ i -= '0'; if (i == 0) /* \s0 */ ; else if (i <= 3 && ischar(j = cbits(ch = getch())) && isdigit(j)) { /* \sdd */ ch = 0; } } else if (i == '(') { /* \s(dd */ getch(); getch(); } else if (i == '+' || i == '-') { /* \s+, \s- */ j = cbits(getch()); if (ischar(j) && isdigit(j)) { /* \s+d, \s-d */ ; } else if (j == '(') { /* \s+(dd, \s-(dd */ getch(); getch(); } } return (0); } tchar setht() /* set character height from \H'...' */ { int n; tchar c; getch(); n = inumb(&apts); getch(); return(0); } tchar setslant() /* set slant from \S'...' */ { int n; tchar c; getch(); n = 0; n = inumb(&n); getch(); return(0); } int caseft() { skip(); setfont(1); return (0); } int setfont(a) int a; { int i, j; if (a) i = getrq(); else i = getsn(); if (!i || i == 'P') { j = font1; goto s0; } if (i == 'S' || i == '0') return (0); if ((j = findft(i, fontlab)) == -1) return (0); s0: font1 = font; font = j; mchbits(); return (0); } int setwd() { int base, wid; tchar i; int delim, emsz, k; int savhp, savapts, savapts1, savfont, savfont1, savpts, savpts1; base = numtab[ST].val = wid = numtab[CT].val = 0; if (ismot(i = getch())) return (0); delim = cbits(i); savhp = numtab[HP].val; numtab[HP].val = 0; savapts = apts; savapts1 = apts1; savfont = font; savfont1 = font1; savpts = pts; savpts1 = pts1; setwdf++; while (cbits(i = getch()) != delim && !nlflg) { k = width(i); wid += k; numtab[HP].val += k; if (!ismot(i)) { emsz = (INCH * pts + 36) / 72; } else if (isvmot(i)) { k = absmot(i); if (isnmot(i)) k = -k; base -= k; emsz = 0; } else continue; if (base < numtab[SB].val) numtab[SB].val = base; if ((k = base + emsz) > numtab[ST].val) numtab[ST].val = k; } setn1(wid, 0, (tchar) 0); numtab[HP].val = savhp; apts = savapts; apts1 = savapts1; font = savfont; font1 = savfont1; pts = savpts; pts1 = savpts1; mchbits(); setwdf = 0; return (0); } tchar vmot() { dfact = lss; vflag++; return(mot()); } tchar hmot() { dfact = EM; return(mot()); } tchar mot() { int j, n; tchar i; j = HOR; getch(); /*eat delim*/ if (n = atoi()) { if (vflag) j = VERT; i = makem(quant(n, j)); } else i = 0; getch(); vflag = 0; dfact = 1; return(i); } tchar sethl(k) int k; { int j; tchar i; j = t.Halfline; if (k == 'u') j = -j; else if (k == 'r') j = -2 * j; vflag++; i = makem(j); vflag = 0; return(i); } tchar makem(i) int i; { tchar j; if ((j = i) < 0) j = -j; j |= MOT; if (i < 0) j |= NMOT; if (vflag) j |= VMOT; return(j); } tchar getlg(i) tchar i; { return(i); } int caselg() { return (0); } int casefp() { int i, j; skip(); if ((i = cbits(getch()) - '0') < 0 || i > nfonts) return (0); if (skip() || !(j = getrq())) return (0); fontlab[i] = j; return (0); } int casecs() { return (0); } int casebd() { int i, j, k; k = 0; bd0: if (skip() || !(i = getrq()) || (j = findft(i)) == -1) { if (k) goto bd1; else return (0); } if (j == smnt) { k = smnt; goto bd0; } if (k) { sbold = j; j = k; } bd1: skip(); noscale++; bdtab[j] = atoi(); noscale = 0; return (0); } int casevs() { int i; skip(); vflag++; dfact = INCH; /*default scaling is points!*/ dfactd = 72; res = VERT; i = inumb(&lss); if (nonumb) i = lss1; if (i < VERT) i = VERT; /* was VERT */ lss1 = lss; lss = i; return (0); } int casess() { return (0); } tchar xlss() { /* stores \x'...' into * two successive tchars. * the first contains HX, the second the value, * encoded as a vertical motion. * decoding is done in n2.c by pchar(). */ int i; getch(); dfact = lss; i = quant(atoi(), VERT); dfact = 1; getch(); if (i >= 0) *pbp++ = MOT | VMOT | i; else *pbp++ = MOT | VMOT | NMOT | -i; return(HX); }