// -*- C++ -*- /* Copyright (C) 1989, 1990, 1991, 1992 Free Software Foundation, Inc. Written by James Clark (jjc@jclark.com) This file is part of groff. groff is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2, or (at your option) any later version. groff is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with groff; see the file COPYING. If not, write to the Free Software Foundation, 675 Mass Ave, Cambridge, MA 02139, USA. */ #include "driver.h" #define DEFAULT_LINEWIDTH 40 static int linewidth = DEFAULT_LINEWIDTH; static int draw_flag = 1; /* These values were chosen because: (MULTIPLIER*SIZESCALE)/(RES*UNITWIDTH) == 1/(2^20 * 72.27) and 57816 is an exact multiple of both 72.27*SIZESCALE and 72. The width in the groff font file is the product of MULTIPLIER and the width in the tfm file. */ #define RES 57816 #define RES_7227 (RES/7227) #define UNITWIDTH 131072 #define SIZESCALE 100 #define MULTIPLIER 1 #define FILL_MAX 1000 class dvi_font : public font { dvi_font(const char *); public: int checksum; int design_size; ~dvi_font(); void handle_unknown_font_command(const char *command, const char *arg, const char *filename, int lineno); static dvi_font *load_dvi_font(const char *); }; dvi_font *dvi_font::load_dvi_font(const char *s) { dvi_font *f = new dvi_font(s); if (!f->load()) { delete f; return 0; } return f; } dvi_font::dvi_font(const char *nm) : font(nm), checksum(0), design_size(0) { } dvi_font::~dvi_font() { } void dvi_font::handle_unknown_font_command(const char *command, const char *arg, const char *filename, int lineno) { char *ptr; if (strcmp(command, "checksum") == 0) { if (arg == 0) fatal_with_file_and_line(filename, lineno, "`checksum' command requires an argument"); checksum = int(strtol(arg, &ptr, 10)); if (checksum == 0 && ptr == arg) { fatal_with_file_and_line(filename, lineno, "bad checksum"); } } else if (strcmp(command, "designsize") == 0) { if (arg == 0) fatal_with_file_and_line(filename, lineno, "`designsize' command requires an argument"); design_size = int(strtol(arg, &ptr, 10)); if (design_size == 0 && ptr == arg) { fatal_with_file_and_line(filename, lineno, "bad design size"); } } } #define FONTS_MAX 256 struct output_font { dvi_font *f; int point_size; output_font() : f(0) { } }; class dvi_printer : public printer { FILE *fp; int max_drift; int byte_count; int last_bop; int page_count; int cur_h; int cur_v; int end_h; int max_h; int max_v; output_font output_font_table[FONTS_MAX]; font *cur_font; int cur_point_size; int pushed; int pushed_h; int pushed_v; int have_pushed; void preamble(); void postamble(); void define_font(int); void set_font(int); void possibly_begin_line(); protected: enum { id_byte = 2, set1 = 128, put1 = 133, put_rule = 137, bop = 139, eop = 140, push = 141, pop = 142, right1 = 143, down1 = 157, fnt_num_0 = 171, fnt1 = 235, xxx1 = 239, fnt_def1 = 243, pre = 247, post = 248, post_post = 249, filler = 223 }; int line_thickness; void out1(int); void out2(int); void out3(int); void out4(int); void moveto(int, int); void out_string(const char *); void out_signed(unsigned char, int); void out_unsigned(unsigned char, int); void do_special(const char *); public: dvi_printer(); ~dvi_printer(); font *make_font(const char *); void begin_page(int); void end_page(int); void set_char(int, font *, const environment *, int w); void special(char *arg, const environment *env); void end_of_line(); void draw(int code, int *p, int np, const environment *env); }; class draw_dvi_printer : public dvi_printer { int output_pen_size; int fill; void set_line_thickness(const environment *); void fill_next(); public: draw_dvi_printer(); ~draw_dvi_printer(); void draw(int code, int *p, int np, const environment *env); void end_page(int); }; dvi_printer::dvi_printer() : byte_count(0), last_bop(-1), page_count(0), cur_font(0), fp(stdout), max_h(0), max_v(0), pushed(0), line_thickness(-1), cur_point_size(-1) { if (font::res != RES) fatal("resolution must be %1", RES); if (font::unitwidth != UNITWIDTH) fatal("unitwidth must be %1", UNITWIDTH); if (font::hor != 1) fatal("hor must be equal to 1"); if (font::vert != 1) fatal("vert must be equal to 1"); if (font::sizescale != SIZESCALE) fatal("sizescale must be equal to %1", SIZESCALE); max_drift = font::res/1000; // this is fairly arbitrary preamble(); } dvi_printer::~dvi_printer() { postamble(); } draw_dvi_printer::draw_dvi_printer() : output_pen_size(-1), fill(FILL_MAX) { } draw_dvi_printer::~draw_dvi_printer() { } void dvi_printer::out1(int n) { byte_count += 1; putc(n & 0xff, fp); } void dvi_printer::out2(int n) { byte_count += 2; putc((n >> 8) & 0xff, fp); putc(n & 0xff, fp); } void dvi_printer::out3(int n) { byte_count += 3; putc((n >> 16) & 0xff, fp); putc((n >> 8) & 0xff, fp); putc(n & 0xff, fp); } void dvi_printer::out4(int n) { byte_count += 4; putc((n >> 24) & 0xff, fp); putc((n >> 16) & 0xff, fp); putc((n >> 8) & 0xff, fp); putc(n & 0xff, fp); } void dvi_printer::out_string(const char *s) { out1(strlen(s)); while (*s != 0) out1(*s++); } void dvi_printer::end_of_line() { if (pushed) { out1(pop); pushed = 0; cur_h = pushed_h; cur_v = pushed_v; } } void dvi_printer::possibly_begin_line() { if (!pushed) { have_pushed = pushed = 1; pushed_h = cur_h; pushed_v = cur_v; out1(push); } } int scale(int x, int z) { int sw; int a, b, c, d; int alpha, beta; alpha = 16*z; beta = 16; while (z >= 040000000L) { z /= 2; beta /= 2; } d = x & 255; c = (x >> 8) & 255; b = (x >> 16) & 255; a = (x >> 24) & 255; sw = (((((d * z) / 0400) + (c * z)) / 0400) + (b * z)) / beta; if (a == 255) sw -= alpha; else assert(a == 0); return sw; } void dvi_printer::set_char(int index, font *f, const environment *env, int w) { int code = f->get_code(index); if (env->size != cur_point_size || f != cur_font) { cur_font = f; cur_point_size = env->size; for (int i = 0;; i++) { if (i >= FONTS_MAX) { fatal("too many output fonts required"); } if (output_font_table[i].f == 0) { output_font_table[i].f = (dvi_font *)cur_font; output_font_table[i].point_size = cur_point_size; define_font(i); } if (output_font_table[i].f == cur_font && output_font_table[i].point_size == cur_point_size) break; } set_font(i); } int distance = env->hpos - cur_h; if (env->hpos != end_h && distance != 0) { out_signed(right1, distance); cur_h = env->hpos; } else if (distance > max_drift) { out_signed(right1, distance - max_drift); cur_h = env->hpos - max_drift; } else if (distance < -max_drift) { out_signed(right1, distance + max_drift); cur_h = env->hpos + max_drift; } if (env->vpos != cur_v) { out_signed(down1, env->vpos - cur_v); cur_v = env->vpos; } possibly_begin_line(); end_h = env->hpos + w; cur_h += scale(f->get_width(index, UNITWIDTH)/MULTIPLIER, cur_point_size*RES_7227); if (cur_h > max_h) max_h = cur_h; if (cur_v > max_v) max_v = cur_v; if (code >= 0 && code <= 127) out1(code); else out_unsigned(set1, code); } void dvi_printer::define_font(int i) { out_unsigned(fnt_def1, i); dvi_font *f = output_font_table[i].f; out4(f->checksum); out4(output_font_table[i].point_size*RES_7227); out4(int((double(f->design_size)/(1<<20))*RES_7227*100 + .5)); const char *nm = f->get_internal_name(); out1(0); out_string(nm); } void dvi_printer::set_font(int i) { if (i >= 0 && i <= 63) out1(fnt_num_0 + i); else out_unsigned(fnt1, i); } void dvi_printer::out_signed(unsigned char base, int param) { if (-128 <= param && param < 128) { out1(base); out1(param); } else if (-32768 <= param && param < 32768) { out1(base+1); out2(param); } else if (-(1 << 23) <= param && param < (1 << 23)) { out1(base+2); out3(param); } else { out1(base+3); out4(param); } } void dvi_printer::out_unsigned(unsigned char base, int param) { if (param >= 0) { if (param < 256) { out1(base); out1(param); } else if (param < 65536) { out1(base+1); out2(param); } else if (param < (1 << 24)) { out1(base+2); out3(param); } else { out1(base+3); out4(param); } } else { out1(base+3); out4(param); } } void dvi_printer::preamble() { out1(pre); out1(id_byte); out4(254000); out4(font::res); out4(1000); out1(0); } void dvi_printer::postamble() { int tem = byte_count; out1(post); out4(last_bop); out4(254000); out4(font::res); out4(1000); out4(max_v); out4(max_h); out2(have_pushed); // stack depth out2(page_count); int i; for (i = 0; i < FONTS_MAX && output_font_table[i].f != 0; i++) define_font(i); out1(post_post); out4(tem); out1(id_byte); for (i = 0; i < 4 || byte_count % 4 != 0; i++) out1(filler); } void dvi_printer::begin_page(int i) { page_count++; int tem = byte_count; out1(bop); out4(i); for (int j = 1; j < 10; j++) out4(0); out4(last_bop); last_bop = tem; // By convention position (0,0) in a dvi file is placed at (1in, 1in). cur_h = font::res; cur_v = font::res; end_h = 0; } void dvi_printer::end_page(int) { if (pushed) end_of_line(); out1(eop); cur_font = 0; } void draw_dvi_printer::end_page(int len) { dvi_printer::end_page(len); output_pen_size = -1; } void dvi_printer::do_special(const char *s) { int len = strlen(s); if (len == 0) return; possibly_begin_line(); out_unsigned(xxx1, len); while (*s) out1(*s++); } void dvi_printer::special(char *arg, const environment *env) { moveto(env->hpos, env->vpos); do_special(arg); } void dvi_printer::moveto(int h, int v) { if (h != cur_h) { out_signed(right1, h - cur_h); cur_h = h; if (cur_h > max_h) max_h = cur_h; } if (v != cur_v) { out_signed(down1, v - cur_v); cur_v = v; if (cur_v > max_v) max_v = cur_v; } end_h = 0; } void dvi_printer::draw(int code, int *p, int np, const environment *env) { if (code == 'l') { int x, y; int height = 0, width; int thickness; if (line_thickness < 0) thickness = env->size*RES_7227*linewidth/1000; else if (line_thickness > 0) thickness = line_thickness; else thickness = 1; if (np != 2) { error("2 arguments required for line"); } else if (p[0] == 0) { // vertical rule if (p[1] > 0) { x = env->hpos - thickness/2; y = env->vpos + p[1] + thickness/2; height = p[1] + thickness; width = thickness; } else if (p[1] < 0) { x = env->hpos - thickness/2; y = env->vpos + thickness/2; height = thickness - p[1]; width = thickness; } } else if (p[1] == 0) { if (p[0] > 0) { x = env->hpos - thickness/2; y = env->vpos + thickness/2; height = thickness; width = p[0] + thickness; } else if (p[0] < 0) { x = env->hpos - p[0] - thickness/2; y = env->vpos + thickness/2; height = thickness; width = thickness - p[0]; } } if (height != 0) { moveto(x, y); out1(put_rule); out4(height); out4(width); } } else if (code == 't') { if (np == 0) { line_thickness = -1; } else { // troff gratuitously adds an extra 0 if (np != 1 && np != 2) error("0 or 1 argument required for thickness"); else line_thickness = p[0]; } } else if (code == 'R') { if (np != 2) error("2 arguments required for rule"); else if (p[0] != 0 || p[1] != 0) { int dh = p[0]; int dv = p[1]; int oh = env->hpos; int ov = env->vpos; if (dv > 0) { ov += dv; dv = -dv; } if (dh < 0) { oh += dh; dh = -dh; } moveto(oh, ov); out1(put_rule); out4(-dv); out4(dh); } } } // XXX Will this overflow? inline int milliinches(int n) { return (n*1000 + font::res/2)/font::res; } void draw_dvi_printer::set_line_thickness(const environment *env) { int desired_pen_size = milliinches(line_thickness < 0 // Will this overflow? ? env->size*RES_7227*linewidth/1000 : line_thickness); if (desired_pen_size != output_pen_size) { char buf[256]; sprintf(buf, "pn %d", desired_pen_size); do_special(buf); output_pen_size = desired_pen_size; } } void draw_dvi_printer::fill_next() { char buf[256]; sprintf(buf, "sh %.3f", double(fill)/FILL_MAX); do_special(buf); } void draw_dvi_printer::draw(int code, int *p, int np, const environment *env) { char buf[1024]; int fill_flag = 0; switch (code) { case 'C': fill_flag = 1; // fall through case 'c': // troff adds an extra argument to C if (np != 1 && !(code == 'C' && np == 2)) { error("1 argument required for circle"); break; } moveto(env->hpos+p[0]/2, env->vpos); if (fill_flag) fill_next(); else set_line_thickness(env); int rad; rad = milliinches(p[0]/2); sprintf(buf, "%s 0 0 %d %d 0 6.28319", (fill_flag ? "ia" : "ar"), rad, rad); do_special(buf); break; case 'l': if (np != 2) { error("2 arguments required for line"); break; } moveto(env->hpos, env->vpos); set_line_thickness(env); do_special("pa 0 0"); sprintf(buf, "pa %d %d", milliinches(p[0]), milliinches(p[1])); do_special(buf); do_special("fp"); break; case 'E': fill_flag = 1; // fall through case 'e': if (np != 2) { error("2 arguments required for ellipse"); break; } moveto(env->hpos+p[0]/2, env->vpos); if (fill_flag) fill_next(); sprintf(buf, "%s 0 0 %d %d 0 6.28319", (fill_flag ? "ia" : "ar"), milliinches(p[0]/2), milliinches(p[1]/2)); do_special(buf); break; case 'P': fill_flag = 1; // fall through case 'p': { if (np & 1) { error("even number of arguments required for polygon"); break; } if (np == 0) { error("no arguments for polygon"); break; } moveto(env->hpos, env->vpos); if (fill_flag) fill_next(); else set_line_thickness(env); do_special("pa 0 0"); int h = 0, v = 0; for (int i = 0; i < np; i += 2) { h += p[i]; v += p[i+1]; sprintf(buf, "pa %d %d", milliinches(h), milliinches(v)); do_special(buf); } do_special("pa 0 0"); do_special(fill_flag ? "ip" : "fp"); break; } case '~': { if (np & 1) { error("even number of arguments required for spline"); break; } if (np == 0) { error("no arguments for spline"); break; } moveto(env->hpos, env->vpos); set_line_thickness(env); do_special("pa 0 0"); int h = 0, v = 0; for (int i = 0; i < np; i += 2) { h += p[i]; v += p[i+1]; sprintf(buf, "pa %d %d", milliinches(h), milliinches(v)); do_special(buf); } do_special("sp"); break; } case 'a': { if (np != 4) { error("4 arguments required for arc"); break; } set_line_thickness(env); double c[2]; if (adjust_arc_center(p, c)) { int rad = milliinches(int(sqrt(c[0]*c[0] + c[1]*c[1]) + .5)); moveto(env->hpos + int(c[0]), env->vpos + int(c[1])); sprintf(buf, "ar 0 0 %d %d %f %f", rad, rad, atan2(p[1] + p[3] - c[1], p[0] + p[2] - c[0]), atan2(-c[1], -c[0])); do_special(buf); } else { moveto(env->hpos, env->vpos); do_special("pa 0 0"); sprintf(buf, "pa %d %d", milliinches(p[0] + p[2]), milliinches(p[1] + p[3])); do_special(buf); do_special("fp"); } break; } case 't': { if (np == 0) { line_thickness = -1; } else { // troff gratuitously adds an extra 0 if (np != 1 && np != 2) { error("0 or 1 argument required for thickness"); break; } line_thickness = p[0]; } break; } case 'f': { if (np != 1 && np != 2) { error("1 argument required for fill"); break; } fill = p[0]; if (fill < 0 || fill > FILL_MAX) fill = FILL_MAX; break; } case 'R': { if (np != 2) { error("2 arguments required for rule"); break; } int dh = p[0]; if (dh == 0) break; int dv = p[1]; if (dv == 0) break; int oh = env->hpos; int ov = env->vpos; if (dv > 0) { ov += dv; dv = -dv; } if (dh < 0) { oh += dh; dh = -dh; } moveto(oh, ov); out1(put_rule); out4(-dv); out4(dh); break; } default: error("unrecognised drawing command `%1'", char(code)); break; } } font *dvi_printer::make_font(const char *nm) { return dvi_font::load_dvi_font(nm); } printer *make_printer() { if (draw_flag) return new draw_dvi_printer; else return new dvi_printer; } static void usage(); int main(int argc, char **argv) { program_name = argv[0]; static char stderr_buf[BUFSIZ]; setbuf(stderr, stderr_buf); int c; while ((c = getopt(argc, argv, "F:vw:d")) != EOF) switch(c) { case 'v': { extern const char *version_string; fprintf(stderr, "grodvi version %s\n", version_string); fflush(stderr); break; } case 'w': if (sscanf(optarg, "%d", &linewidth) != 1 || linewidth < 0 || linewidth > 1000) { error("bad line width"); linewidth = DEFAULT_LINEWIDTH; } break; case 'd': draw_flag = 0; break; case 'F': font::command_line_font_dir(optarg); break; case '?': usage(); break; default: assert(0); } if (optind >= argc) do_file("-"); else { for (int i = optind; i < argc; i++) do_file(argv[i]); } delete pr; return 0; } static void usage() { fprintf(stderr, "usage: %s [-dv] [-F dir] [-w n] [files ...]\n", program_name); exit(1); }