/* $NetBSD: troff.cpp,v 1.1.1.1 2016/01/13 18:41:49 christos Exp $ */
// -*- C++ -*-
/* Copyright (C) 1989, 1990, 1991, 1992, 2000, 2001, 2002, 2003, 2005
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, 51 Franklin St - Fifth Floor, Boston, MA 02110-1301, USA. */
#include "pic.h"
#include "common.h"
const double RELATIVE_THICKNESS = -1.0;
const double BAD_THICKNESS = -2.0;
class simple_output : public common_output {
virtual void simple_line(const position &, const position &) = 0;
virtual void simple_spline(const position &, const position *, int n) = 0;
virtual void simple_arc(const position &, const position &,
const position &) = 0;
virtual void simple_circle(int, const position &, double rad) = 0;
virtual void simple_ellipse(int, const position &, const distance &) = 0;
virtual void simple_polygon(int, const position *, int) = 0;
virtual void line_thickness(double) = 0;
virtual void set_fill(double) = 0;
virtual void set_color(char *, char *) = 0;
virtual void reset_color() = 0;
virtual char *get_last_filled() = 0;
void dot(const position &, const line_type &) = 0;
public:
void start_picture(double sc, const position &ll, const position &ur) = 0;
void finish_picture() = 0;
void text(const position &, text_piece *, int, double) = 0;
void line(const position &, const position *, int n,
const line_type &);
void polygon(const position *, int n,
const line_type &, double);
void spline(const position &, const position *, int n,
const line_type &);
void arc(const position &, const position &, const position &,
const line_type &);
void circle(const position &, double rad, const line_type &, double);
void ellipse(const position &, const distance &, const line_type &, double);
int supports_filled_polygons();
};
int simple_output::supports_filled_polygons()
{
return driver_extension_flag != 0;
}
void simple_output::arc(const position &start, const position ¢,
const position &end, const line_type <)
{
switch (lt.type) {
case line_type::solid:
line_thickness(lt.thickness);
simple_arc(start, cent, end);
break;
case line_type::invisible:
break;
case line_type::dashed:
dashed_arc(start, cent, end, lt);
break;
case line_type::dotted:
dotted_arc(start, cent, end, lt);
break;
}
}
void simple_output::line(const position &start, const position *v, int n,
const line_type <)
{
position pos = start;
line_thickness(lt.thickness);
for (int i = 0; i < n; i++) {
switch (lt.type) {
case line_type::solid:
simple_line(pos, v[i]);
break;
case line_type::dotted:
{
distance vec(v[i] - pos);
double dist = hypot(vec);
int ndots = int(dist/lt.dash_width + .5);
if (ndots == 0)
dot(pos, lt);
else {
vec /= double(ndots);
for (int j = 0; j <= ndots; j++)
dot(pos + vec*j, lt);
}
}
break;
case line_type::dashed:
{
distance vec(v[i] - pos);
double dist = hypot(vec);
if (dist <= lt.dash_width*2.0)
simple_line(pos, v[i]);
else {
int ndashes = int((dist - lt.dash_width)/(lt.dash_width*2.0) + .5);
distance dash_vec = vec*(lt.dash_width/dist);
double dash_gap = (dist - lt.dash_width)/ndashes;
distance dash_gap_vec = vec*(dash_gap/dist);
for (int j = 0; j <= ndashes; j++) {
position s(pos + dash_gap_vec*j);
simple_line(s, s + dash_vec);
}
}
}
break;
case line_type::invisible:
break;
default:
assert(0);
}
pos = v[i];
}
}
void simple_output::spline(const position &start, const position *v, int n,
const line_type <)
{
line_thickness(lt.thickness);
simple_spline(start, v, n);
}
void simple_output::polygon(const position *v, int n,
const line_type <, double fill)
{
if (driver_extension_flag && ((fill >= 0.0) || (get_last_filled() != 0))) {
if (get_last_filled() == 0)
set_fill(fill);
simple_polygon(1, v, n);
}
if (lt.type == line_type::solid && driver_extension_flag) {
line_thickness(lt.thickness);
simple_polygon(0, v, n);
}
else if (lt.type != line_type::invisible) {
line_thickness(lt.thickness);
line(v[n - 1], v, n, lt);
}
}
void simple_output::circle(const position ¢, double rad,
const line_type <, double fill)
{
if (driver_extension_flag && ((fill >= 0.0) || (get_last_filled() != 0))) {
if (get_last_filled() == 0)
set_fill(fill);
simple_circle(1, cent, rad);
}
line_thickness(lt.thickness);
switch (lt.type) {
case line_type::invisible:
break;
case line_type::dashed:
dashed_circle(cent, rad, lt);
break;
case line_type::dotted:
dotted_circle(cent, rad, lt);
break;
case line_type::solid:
simple_circle(0, cent, rad);
break;
default:
assert(0);
}
}
void simple_output::ellipse(const position ¢, const distance &dim,
const line_type <, double fill)
{
if (driver_extension_flag && ((fill >= 0.0) || (get_last_filled() != 0))) {
if (get_last_filled() == 0)
set_fill(fill);
simple_ellipse(1, cent, dim);
}
if (lt.type != line_type::invisible)
line_thickness(lt.thickness);
switch (lt.type) {
case line_type::invisible:
break;
case line_type::dotted:
dotted_ellipse(cent, dim, lt);
break;
case line_type::dashed:
dashed_ellipse(cent, dim, lt);
break;
case line_type::solid:
simple_ellipse(0, cent, dim);
break;
default:
assert(0);
}
}
class troff_output : public simple_output {
const char *last_filename;
position upper_left;
double height;
double scale;
double last_line_thickness;
double last_fill;
char *last_filled; // color
char *last_outlined; // color
public:
troff_output();
~troff_output();
void start_picture(double, const position &ll, const position &ur);
void finish_picture();
void text(const position &, text_piece *, int, double);
void dot(const position &, const line_type &);
void command(const char *, const char *, int);
void set_location(const char *, int);
void simple_line(const position &, const position &);
void simple_spline(const position &, const position *, int n);
void simple_arc(const position &, const position &, const position &);
void simple_circle(int, const position &, double rad);
void simple_ellipse(int, const position &, const distance &);
void simple_polygon(int, const position *, int);
void line_thickness(double p);
void set_fill(double);
void set_color(char *, char *);
void reset_color();
char *get_last_filled();
char *get_outline_color();
position transform(const position &);
};
output *make_troff_output()
{
return new troff_output;
}
troff_output::troff_output()
: last_filename(0), last_line_thickness(BAD_THICKNESS),
last_fill(-1.0), last_filled(0), last_outlined(0)
{
}
troff_output::~troff_output()
{
}
inline position troff_output::transform(const position &pos)
{
return position((pos.x - upper_left.x)/scale,
(upper_left.y - pos.y)/scale);
}
#define FILL_REG "00"
// If this register > 0, then pic will generate \X'ps: ...' commands
// if the aligned attribute is used.
#define GROPS_REG "0p"
// If this register is defined, geqn won't produce `\x's.
#define EQN_NO_EXTRA_SPACE_REG "0x"
void troff_output::start_picture(double sc,
const position &ll, const position &ur)
{
upper_left.x = ll.x;
upper_left.y = ur.y;
scale = compute_scale(sc, ll, ur);
height = (ur.y - ll.y)/scale;
double width = (ur.x - ll.x)/scale;
printf(".PS %.3fi %.3fi", height, width);
if (args)
printf(" %s\n", args);
else
putchar('\n');
printf(".\\\" %g %g %g %g\n", ll.x, ll.y, ur.x, ur.y);
printf(".\\\" %.3fi %.3fi %.3fi %.3fi\n", 0.0, height, width, 0.0);
printf(".nr " FILL_REG " \\n(.u\n.nf\n");
printf(".nr " EQN_NO_EXTRA_SPACE_REG " 1\n");
// This guarantees that if the picture is used in a diversion it will
// have the right width.
printf("\\h'%.3fi'\n.sp -1\n", width);
}
void troff_output::finish_picture()
{
line_thickness(BAD_THICKNESS);
last_fill = -1.0; // force it to be reset for each picture
reset_color();
if (!flyback_flag)
printf(".sp %.3fi+1\n", height);
printf(".if \\n(" FILL_REG " .fi\n");
printf(".br\n");
printf(".nr " EQN_NO_EXTRA_SPACE_REG " 0\n");
// this is a little gross
set_location(current_filename, current_lineno);
fputs(flyback_flag ? ".PF\n" : ".PE\n", stdout);
}
void troff_output::command(const char *s,
const char *filename, int lineno)
{
if (filename != 0)
set_location(filename, lineno);
fputs(s, stdout);
putchar('\n');
}
void troff_output::simple_circle(int filled, const position ¢, double rad)
{
position c = transform(cent);
printf("\\h'%.3fi'"
"\\v'%.3fi'"
"\\D'%c %.3fi'"
"\n.sp -1\n",
c.x - rad/scale,
c.y,
(filled ? 'C' : 'c'),
rad*2.0/scale);
}
void troff_output::simple_ellipse(int filled, const position ¢,
const distance &dim)
{
position c = transform(cent);
printf("\\h'%.3fi'"
"\\v'%.3fi'"
"\\D'%c %.3fi %.3fi'"
"\n.sp -1\n",
c.x - dim.x/(2.0*scale),
c.y,
(filled ? 'E' : 'e'),
dim.x/scale, dim.y/scale);
}
void troff_output::simple_arc(const position &start, const distance ¢,
const distance &end)
{
position s = transform(start);
position c = transform(cent);
distance cv = c - s;
distance ev = transform(end) - c;
printf("\\h'%.3fi'"
"\\v'%.3fi'"
"\\D'a %.3fi %.3fi %.3fi %.3fi'"
"\n.sp -1\n",
s.x, s.y, cv.x, cv.y, ev.x, ev.y);
}
void troff_output::simple_line(const position &start, const position &end)
{
position s = transform(start);
distance ev = transform(end) - s;
printf("\\h'%.3fi'"
"\\v'%.3fi'"
"\\D'l %.3fi %.3fi'"
"\n.sp -1\n",
s.x, s.y, ev.x, ev.y);
}
void troff_output::simple_spline(const position &start,
const position *v, int n)
{
position pos = transform(start);
printf("\\h'%.3fi'"
"\\v'%.3fi'",
pos.x, pos.y);
fputs("\\D'~ ", stdout);
for (int i = 0; i < n; i++) {
position temp = transform(v[i]);
distance d = temp - pos;
pos = temp;
if (i != 0)
putchar(' ');
printf("%.3fi %.3fi", d.x, d.y);
}
printf("'\n.sp -1\n");
}
// a solid polygon
void troff_output::simple_polygon(int filled, const position *v, int n)
{
position pos = transform(v[0]);
printf("\\h'%.3fi'"
"\\v'%.3fi'",
pos.x, pos.y);
printf("\\D'%c ", (filled ? 'P' : 'p'));
for (int i = 1; i < n; i++) {
position temp = transform(v[i]);
distance d = temp - pos;
pos = temp;
if (i != 1)
putchar(' ');
printf("%.3fi %.3fi", d.x, d.y);
}
printf("'\n.sp -1\n");
}
const double TEXT_AXIS = 0.22; // in ems
static const char *choose_delimiter(const char *text)
{
if (strchr(text, '\'') == 0)
return "'";
else
return "\\(ts";
}
void troff_output::text(const position ¢er, text_piece *v, int n,
double ang)
{
line_thickness(BAD_THICKNESS); // the text might use lines (eg in equations)
int rotate_flag = 0;
if (driver_extension_flag && ang != 0.0) {
rotate_flag = 1;
position c = transform(center);
printf(".if \\n(" GROPS_REG " \\{\\\n"
"\\h'%.3fi'"
"\\v'%.3fi'"
"\\X'ps: exec gsave currentpoint 2 copy translate %.4f rotate neg exch neg exch translate'"
"\n.sp -1\n"
".\\}\n",
c.x, c.y, -ang*180.0/M_PI);
}
for (int i = 0; i < n; i++)
if (v[i].text != 0 && *v[i].text != '\0') {
position c = transform(center);
if (v[i].filename != 0)
set_location(v[i].filename, v[i].lineno);
printf("\\h'%.3fi", c.x);
const char *delim = choose_delimiter(v[i].text);
if (v[i].adj.h == RIGHT_ADJUST)
printf("-\\w%s%s%su", delim, v[i].text, delim);
else if (v[i].adj.h != LEFT_ADJUST)
printf("-(\\w%s%s%su/2u)", delim, v[i].text, delim);
putchar('\'');
printf("\\v'%.3fi-(%dv/2u)+%dv+%.2fm",
c.y,
n - 1,
i,
TEXT_AXIS);
if (v[i].adj.v == ABOVE_ADJUST)
printf("-.5v");
else if (v[i].adj.v == BELOW_ADJUST)
printf("+.5v");
putchar('\'');
fputs(v[i].text, stdout);
fputs("\n.sp -1\n", stdout);
}
if (rotate_flag)
printf(".if '\\*(.T'ps' \\{\\\n"
"\\X'ps: exec grestore'\n.sp -1\n"
".\\}\n");
}
void troff_output::line_thickness(double p)
{
if (p < 0.0)
p = RELATIVE_THICKNESS;
if (driver_extension_flag && p != last_line_thickness) {
printf("\\D't %.3fp'\\h'%.3fp'\n.sp -1\n", p, -p);
last_line_thickness = p;
}
}
void troff_output::set_fill(double f)
{
if (driver_extension_flag && f != last_fill) {
// \D'Fg ...' emits a node only in compatibility mode,
// thus we add a dummy node
printf("\\&\\D'Fg %.3f'\n.sp -1\n", 1.0 - f);
last_fill = f;
}
if (last_filled) {
free(last_filled);
last_filled = 0;
printf(".fcolor\n");
}
}
void troff_output::set_color(char *color_fill, char *color_outlined)
{
if (driver_extension_flag) {
if (last_filled || last_outlined) {
reset_color();
}
// .gcolor and .fcolor emit a node in compatibility mode only,
// but that won't work anyway
if (color_fill) {
printf(".fcolor %s\n", color_fill);
last_filled = strsave(color_fill);
}
if (color_outlined) {
printf(".gcolor %s\n", color_outlined);
last_outlined = strsave(color_outlined);
}
}
}
void troff_output::reset_color()
{
if (driver_extension_flag) {
if (last_filled) {
printf(".fcolor\n");
a_delete last_filled;
last_filled = 0;
}
if (last_outlined) {
printf(".gcolor\n");
a_delete last_outlined;
last_outlined = 0;
}
}
}
char *troff_output::get_last_filled()
{
return last_filled;
}
char *troff_output::get_outline_color()
{
return last_outlined;
}
const double DOT_AXIS = .044;
void troff_output::dot(const position ¢, const line_type <)
{
if (driver_extension_flag) {
line_thickness(lt.thickness);
simple_line(cent, cent);
}
else {
position c = transform(cent);
printf("\\h'%.3fi-(\\w'.'u/2u)'"
"\\v'%.3fi+%.2fm'"
".\n.sp -1\n",
c.x,
c.y,
DOT_AXIS);
}
}
void troff_output::set_location(const char *s, int n)
{
if (last_filename != 0 && strcmp(s, last_filename) == 0)
printf(".lf %d\n", n);
else {
printf(".lf %d %s\n", n, s);
last_filename = s;
}
}