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Length: 13135 (0x334f)
Types: TextFile
Names: »gentextyl.c«
└─⟦52210d11f⟧ Bits:30007239 EUUGD2: TeX 3 1992-12
└─⟦63303ae94⟧ »unix3.14/TeX3.14.tar.Z«
└─⟦c58930e5c⟧
└─⟦this⟧ »TeX3.14/TeXgraphics/transfig/fig2dev/dev/gentextyl.c«
/*
* gentextyl.c : TeXtyl driver for fig2dev
*
* Author: Gary Beihl, MCC 8/90
* (beihl@mcc.com)
*
* Based on the pictex driver by Micah Beck
*
*/
#if defined(hpux) || defined(SYSV)
#include <sys/types.h>
#endif
#include <sys/file.h>
#include <stdio.h>
#include <math.h>
#include "pi.h"
#include "object.h"
#include "fig2dev.h"
#include "texfonts.h"
extern char *strchr();
extern double sin(), cos(), acos(), fabs();
void gentextyl_ctl_spline(), gentextyl_itp_spline();
static int coord_system;
static double dash_length = -1;
static int line_style = 0; /* Textyl solid line style */
static int linethick = 2; /* Range is 1-12 `pixels' */
static void gentextyl_option(opt, optarg)
char opt, *optarg;
{
switch (opt) {
case 'f': /* set default text font */
texfontnames[0] = texfontnames[1] = optarg;
break;
case 'l': /* set line thickness */
linethick = atoi(optarg);
if (linethick < 1 || linethick > 12) {
put_msg(Err_badarg, opt, "textyl");
exit(1);
}
break;
case 'p':
case 's':
case 'm':
case 'L':
break;
default:
put_msg(Err_badarg, opt, "textyl");
exit(1);
break;
}
}
#define TOP (10.5) /* top of page is 10.5 inch */
#define SCALE (65536.0*72.27)
static double ppi;
static int CONV = 0;
#define measure 'S'
convy(a)
double a;
{
return (int)(((ury - a) * SCALE) / ppi);
}
convx(a)
double a; {
float f;
f = a * SCALE;
return (int)(f / ppi);
}
void gentextyl_start(objects)
F_compound *objects;
{
texfontsizes[0] = texfontsizes[1] = texfontsizes[font_size+1];
coord_system = objects->nwcorner.y;
ppi = objects->nwcorner.x;
if (coord_system == 2) CONV = 1;
/* Textyl start */
fprintf(tfp, "\\begintyl{%fsp}\n",ury/ppi*SCALE);
}
void gentextyl_end()
{
fprintf(tfp,"\\endtyl\n");
}
static set_linewidth(w)
int w;
{
/* Nop */
}
void gentextyl_line(l)
F_line *l;
{
F_point *p, *q;
fprintf(tfp, "%%\n%% Fig POLYLINE object\n%%\n");
set_linewidth(l->thickness);
set_style(l->style, l->style_val);
p = l->points;
q = p->next;
if (q == NULL) { /* A single point line */
fprintf(tfp, "\\special{tyl line %c %d L %d %u %u; %u %u}\n",
measure,linethick,line_style,
convx((double)p->x), convy((double)p->y),
convx((double)p->x), convy((double)p->y));
return;
}
if (l->back_arrow)
draw_arrow_head((double)q->x, (double)q->y, (double)p->x,
(double)p->y, l->back_arrow->ht, l->back_arrow->wid);
set_style(l->style, l->style_val);
while (q->next != NULL) {
putline(p->x, p->y, q->x, q->y);
p = q;
q = q->next;
}
putline(p->x, p->y, q->x, q->y);
if (l->for_arrow)
draw_arrow_head((double)p->x, (double)p->y, (double)q->x,
(double)q->y, l->for_arrow->ht, l->for_arrow->wid);
if (l->area_fill && (int)l->area_fill != DEFAULT)
fprintf(stderr, "Line area fill not implemented\n");
}
/*
* set_style - issue style commands as appropriate
*/
static set_style(style, dash_len)
int style;
double dash_len;
{
switch (style) {
case SOLID_LINE:
line_style = 0;
break;
case DASH_LINE:
line_style = 2;
break;
case DOTTED_LINE:
line_style = 1;
break;
}
}
/*
* putline
*/
static putline (start_x, start_y, end_x, end_y)
int start_x, start_y, end_x, end_y;
{
fprintf(tfp, "\\special{tyl line %c %d L %d %u %u; %u %u}\n",
measure, linethick,line_style,
convx((double)start_x), convy((double)start_y),
convx((double)end_x), convy((double)end_y));
}
void gentextyl_spline(s)
F_spline *s;
{
set_linewidth(s->thickness);
set_style(s->style, s->style_val);
if (int_spline(s))
gentextyl_itp_spline(s);
else
gentextyl_ctl_spline(s);
if (s->area_fill && (int)s->area_fill != DEFAULT)
fprintf(stderr, "Spline area fill not implemented\n");
}
void gentextyl_ellipse(e)
F_ellipse *e;
{
int sx, sy;
int radius;
fprintf(tfp, "%%\n%% Fig ELLIPSE\n%%\n");
set_linewidth(e->thickness);
set_style(e->style, e->style_val);
if (e->radiuses.x == e->radiuses.y) {
fprintf(tfp, "\\special{tyl arc %c %d L 0 %u @ %u,%u 0 360}\n",
measure,linethick,convx((double)e->radiuses.x),
convx((double)e->center.x),convy((double)e->center.y));
}
else {
if (e->radiuses.x > e->radiuses.y) {
sy = 100;
sx = ((float)e->radiuses.x/(float)e->radiuses.y) * 100.0;
radius = e->radiuses.y;
}
else {
sx = 100;
sy = ((float)e->radiuses.y/(float)e->radiuses.x) * 100.0;
radius = e->radiuses.x;
}
fprintf(tfp,
"\\special{tyl arc %c T %u %u 0 0 0 %d L 0 %u @ %u,%u 0 360}\n",
measure,sx,sy,linethick,convx((double)radius),
convx((double)e->center.x),convy((double)e->center.y));
if (e->area_fill && (int)e->area_fill != DEFAULT)
fprintf(stderr, "Ellipse area fill not implemented\n");
}
}
#define HT_OFFSET (0.2 / 72.0)
void gentextyl_text(t)
F_text *t;
{
double x, y;
char *cp;
fprintf(tfp, "%%\n%% Fig TEXT object\n%%\n");
x = t->base_x;
y = t->base_y;
switch (t->type) {
case T_LEFT_JUSTIFIED:
case DEFAULT:
break;
default:
fprintf(stderr, "Warning: Text incorrectly positioned\n");
break;
}
fprintf(tfp,"\\special{tyl label %c 1 %u %u \"%s\"}\n",
measure,convx(x),convy(y),t->cstring);
}
void gentextyl_arc(a)
F_arc *a;
{
double x, y;
double cx, cy, sx, sy, ex, ey;
double dx1, dy1, dx2, dy2, r1, r2, th1, th2, theta;
set_linewidth(a->thickness);
set_style(a->style, a->style_val);
cx = a->center.x; cy = a->center.y;
sx = a->point[0].x; sy = a->point[0].y;
ex = a->point[2].x; ey = a->point[2].y;
if (a->for_arrow) {
arc_tangent(cx, cy, ex, ey, !a->direction, &x, &y);
draw_arrow_head(x, y, ex, ey,
a->for_arrow->ht, a->for_arrow->wid);
}
if (a->back_arrow) {
arc_tangent(cx, cy, sx, sy, a->direction, &x, &y);
draw_arrow_head(x, y, sx, sy,
a->back_arrow->ht, a->back_arrow->wid);
}
cy = ury - a->center.y;
sy = ury - a->point[0].y;
ey = ury - a->point[2].y;
dx1 = sx - cx;
dy1 = sy - cy;
dx2 = ex - cx;
dy2 = ey - cy;
cy = a->center.y;
sy = a->point[0].y;
ey = a->point[2].y;
rtop(dx1, dy1, &r1, &th1);
rtop(dx2, dy2, &r2, &th2);
theta = th2 - th1;
if (theta > 0) theta -= 2*M_PI;
set_linewidth(a->thickness);
if (a->direction) { /* Counterclockwise */
fprintf(tfp,"\\special{tyl arc %c %d L 0 %u @ %u,%u %d %d}\n",
measure,linethick,convx(r1),convx(cx),convy(cy),
(int)(180/M_PI * th1), (int)(180/M_PI * th2));
}
else {
fprintf(tfp,"\\special{tyl arc %c %d L 0 %u @ %u,%u %d %d}\n",
measure,linethick,convx(r1),convx(cx),convy(cy),
(int)(180/M_PI * th2), (int)(180/M_PI * th1));
}
if (a->area_fill && (int)a->area_fill != DEFAULT)
fprintf(stderr, "Arc area fill not implemented\n");
}
/*
* rtop - rectangular to polar conversion
*/
static rtop(x, y, r, th)
double x, y, *r, *th;
{
*r = hypot(x,y);
*th = acos(x/(*r));
if (y < 0) *th = 2*M_PI - *th;
}
static arc_tangent(x1, y1, x2, y2, direction, x, y)
double x1, y1, x2, y2, *x, *y;
int direction;
{
if (direction) { /* counter clockwise */
*x = x2 + (y2 - y1);
*y = y2 - (x2 - x1);
}
else {
*x = x2 - (y2 - y1);
*y = y2 + (x2 - x1);
}
}
/* draw arrow heading from (x1, y1) to (x2, y2) */
static draw_arrow_head(x1, y1, x2, y2, arrowht, arrowwid)
double x1, y1, x2, y2;
double arrowht, arrowwid;
{
double x, y, xb, yb, dx, dy, l, sina, cosa;
double xc, yc, xd, yd;
int style;
double dash;
fprintf(tfp, "%%\n%% arrow head\n%%\n");
dx = x2 - x1; dy = y1 - y2;
l = hypot(dx, dy);
sina = dy / l; cosa = dx / l;
xb = x2*cosa - y2*sina;
yb = x2*sina + y2*cosa;
x = xb - arrowht;
y = yb - arrowwid / 2;
xc = x*cosa + y*sina;
yc = -x*sina + y*cosa;
y = yb + arrowwid / 2;
xd = x*cosa + y*sina;
yd = -x*sina + y*cosa;
fprintf(tfp, "\\special{tyl line %c %d %u %u; %u %u}\n",measure,linethick,
convx(xc), convy(yc), convx(x2), convy(y2));
fprintf(tfp, "\\special{tyl line %c %d %u %u; %u %u}\n",measure,linethick,
convx(x2), convy(y2), convx(xd), convy(yd));
}
#define THRESHOLD (10.0)
double last_x, last_y;
static quadratic_spline(a1, b1, a2, b2, a3, b3, a4, b4)
double a1, b1, a2, b2, a3, b3, a4, b4;
{
double x1, y1, x4, y4;
double xmid, ymid;
x1 = a1; y1 = b1;
x4 = a4; y4 = b4;
xmid = (a2 + a3) / 2;
ymid = (b2 + b3) / 2;
if (fabs(x1 - xmid) < THRESHOLD && fabs(y1 - ymid) < THRESHOLD) {
fprintf(tfp, "\\special{tyl line %c %d %u %u; %u %u}\n",
measure, linethick,convx(last_x),convy(last_y),
convx(xmid), convy(ymid));
last_x = xmid; last_y = ymid;
}
else {
quadratic_spline(x1, y1, ((x1+a2)/2), ((y1+b2)/2),
((3*a2+a3)/4), ((3*b2+b3)/4), xmid, ymid);
}
if (fabs(xmid - x4) < THRESHOLD && fabs(ymid - y4) < THRESHOLD) {
fprintf(tfp, "\\special{tyl line %c %d %u %u; %u %u}\n",
measure, linethick,convx(last_x),convy(last_y),convx(x4), convy(y4));
last_x = x4; last_y = y4;
}
else {
quadratic_spline(xmid, ymid, ((a2+3*a3)/4), ((b2+3*b3)/4),
((a3+x4)/2), ((b3+y4)/2), x4, y4);
}
}
static void gentextyl_ctl_spline(s)
F_spline *s;
{
F_point *p;
double cx1, cy1, cx2, cy2, cx3, cy3, cx4, cy4;
double x1, y1, x2, y2;
fprintf(tfp, "%%\n%% Fig CONTROL PT SPLINE\n%%\n");
p = s->points;
x1 = p->x; y1 = p->y;
p = p->next;
x2 = p->x; y2 = p->y;
cx1 = (x1 + x2) / 2; cy1 = (y1 + y2) / 2;
cx2 = (x1 + 3 * x2) / 4; cy2 = (y1 + 3 * y2) / 4;
if (closed_spline(s)) {
fprintf(tfp, "%% closed spline\n%%\n");
last_x = cx1; last_y = cy1;
}
else {
fprintf(tfp, "%% open spline\n%%\n");
if (s->back_arrow)
draw_arrow_head(cx1, cy1, x1, y1,
s->back_arrow->ht, s->back_arrow->wid);
fprintf(tfp, "\\special{tyl line %c %d %u %u;%u %u}\n",
measure,linethick,
convx(x1),convy(y1),convx(cx1),convy(cy1));
last_x = cx1; last_y = cy1;
}
for (p = p->next; p != NULL; p = p->next) {
x1 = x2; y1 = y2;
x2 = p->x; y2 = p->y;
cx3 = (3 * x1 + x2) / 4; cy3 = (3 * y1 + y2) / 4;
cx4 = (x1 + x2) / 2; cy4 = (y1 + y2) / 2;
quadratic_spline(cx1, cy1, cx2, cy2, cx3, cy3, cx4, cy4);
cx1 = cx4; cy1 = cy4;
cx2 = (x1 + 3 * x2) / 4; cy2 = (y1 + 3 * y2) / 4;
}
x1 = x2; y1 = y2;
p = s->points->next;
x2 = p->x; y2 = p->y;
cx3 = (3 * x1 + x2) / 4; cy3 = (3 * y1 + y2) / 4;
cx4 = (x1 + x2) / 2; cy4 = (y1 + y2) / 2;
if (closed_spline(s)) {
quadratic_spline(cx1, cy1, cx2, cy2, cx3, cy3, cx4, cy4);
}
else {
fprintf(tfp,"\\special{tyl line %c %d %u %u;%u %u}\n",
measure,linethick,
convx(cx1),convy(cy1),convx(x1),convy(y1));
if (s->for_arrow)
draw_arrow_head(cx1, cy1, x1, y1,
s->for_arrow->ht, s->for_arrow->wid);
}
}
static void gentextyl_itp_spline(s)
F_spline *s;
{
F_point *p1, *p2;
F_control *cp1, *cp2;
double x1, x2, y1, y2;
p1 = s->points;
cp1 = s->controls;
x2 = p1->x; y2 = p1->y;
if (s->back_arrow)
draw_arrow_head(cp1->rx, cp1->ry, x2, y2,
s->back_arrow->ht, s->back_arrow->wid);
last_x = x2; last_y = y2;
fprintf(tfp, "%%\n%% Fig INTERPOLATED SPLINE\n%%\n");
for (p2 = p1->next, cp2 = s->controls->next;
p2 != NULL;
cp1 = cp2, p2 = p2->next, cp2 = cp2->next) {
x1 = x2; y1 = y2; x2 = p2->x; y2 = p2->y;
bezier_spline(x1,y1,cp1->rx,cp1->ry,
cp2->lx,cp2->ly,x2,y2);
}
if (s->for_arrow)
draw_arrow_head(cp1->lx, cp1->ly, x2, y2,
s->for_arrow->ht, s->for_arrow->wid);
}
static bezier_spline(a0, b0, a1, b1, a2, b2, a3, b3)
double a0, b0, a1, b1, a2, b2, a3, b3;
{
double x0, y0, x3, y3;
double sx1, sy1, sx2, sy2, tx, ty, tx1, ty1, tx2, ty2, xmid, ymid;
x0 = a0; y0 = b0;
x3 = a3; y3 = b3;
if (fabs(x0 - x3) < THRESHOLD && fabs(y0 - y3) < THRESHOLD) {
fprintf(tfp,"\\special{tyl line %c %d %u %u ; %u %u}\n",measure,linethick,
convx(last_x),convy(last_y),convx(x3),convy(y3));
last_x = x3; last_y = y3;
}
else {
tx = (a1 + a2) / 2; ty = (b1 + b2) / 2;
sx1 = (x0 + a1) / 2; sy1 = (y0 + b1) / 2;
sx2 = (sx1 + tx) / 2; sy2 = (sy1 + ty) / 2;
tx2 = (a2 + x3) / 2; ty2 = (b2 + y3) / 2;
tx1 = (tx2 + tx) / 2; ty1 = (ty2 + ty) / 2;
xmid = (sx2 + tx1) / 2; ymid = (sy2 + ty1) / 2;
bezier_spline(x0, y0, sx1, sy1, sx2, sy2, xmid, ymid);
bezier_spline(xmid, ymid, tx1, ty1, tx2, ty2, x3, y3);
}
}
struct driver dev_textyl = {
gentextyl_option,
gentextyl_start,
gentextyl_arc,
gentextyl_ellipse,
gentextyl_line,
gentextyl_spline,
gentextyl_text,
gentextyl_end,
EXCLUDE_TEXT
};