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root/radiance/ray/src/meta/x11plot.c
Revision: 1.4
Committed: Wed Nov 21 18:51:05 2007 UTC (16 years, 10 months ago) by greg
Content type: text/plain
Branch: MAIN
CVS Tags: rad5R2, rad4R2P2, rad5R0, rad5R1, rad4R2, rad4R1, rad4R0, rad3R9, rad4R2P1
Changes since 1.3: +4 -1 lines
Log Message:
Fixed implicit declarations

File Contents

# Content
1 #ifndef lint
2 static const char RCSid[] = "$Id: x11plot.c,v 1.3 2007/10/08 18:07:57 greg Exp $";
3 #endif
4 /*
5 * X window plotting functions
6 *
7 * 2/26/86
8 */
9
10
11 #include "meta.h"
12
13 #include "plot.h"
14
15 #include "string.h"
16
17 #undef TRUE
18
19 #undef FALSE
20
21 #include <X11/Xlib.h>
22
23 extern void replay(int xmin, int ymin, int xmax, int ymax);
24
25 #define BORWIDTH 5
26
27 #define BlackPix BlackPixel(dpy,0 )
28 #define WhitePix WhitePixel(dpy,0 )
29
30 #define mapx(x) CONV(x,dxsize)
31 #define mapy(y) CONV((XYSIZE-1)-(y),dysize)
32
33 #define MAXVERT 128
34
35 #define MAXCOLOR 65535
36
37 /* X window fonts */
38 static struct {
39 char *name; /* font name */
40 Font id; /* font id */
41 } font[] = {
42 {"9x15", 0},
43 {"8x13", 0},
44 {"6x13", 0},
45 {"vtdwidth", 0},
46 {"accordbfx", 0}
47 };
48
49 /* map to our matrix string types */
50 static int fontmap[16] = {0,3,0,3,1,3,1,3,2,4,2,4,2,4,2,4};
51
52 #define LONG_DASHED_LIST_LENGTH 2
53 #define SHORT_DASHED_LIST_LENGTH 2
54 #define DOTTED_LIST_LENGTH 2
55
56 int dash_list_length[] = {
57 0,
58 LONG_DASHED_LIST_LENGTH,
59 SHORT_DASHED_LIST_LENGTH,
60 DOTTED_LIST_LENGTH,
61 };
62
63 unsigned char long_dashed[LONG_DASHED_LIST_LENGTH] = {4,7};
64 unsigned char short_dashed[SHORT_DASHED_LIST_LENGTH] = {4,3};
65 unsigned char dotted[DOTTED_LIST_LENGTH] = {5,2};
66
67 unsigned char *Linetypes[] = {
68 0,
69 long_dashed,
70 short_dashed,
71 dotted,
72 };
73
74 Display *dpy;
75 Window wind; /* our window */
76 Colormap cmap;
77 GC gc;
78 Font curfont; /* current font */
79 int curwidth; /* current width of lines */
80 int curfill; /* current fill style (FillTiled or FillSolid) */
81 int curcol; /* current color */
82 int curlinetype; /* current line style */
83 XGCValues gcval;
84 int pixel[4];
85 int dxsize, dysize; /* window size */
86 int debug = False; /* use XSynchronize if true */
87
88 static void
89 adjustsize()
90 {
91 if (dxsize > dysize)
92 dxsize = dysize;
93 else
94 dysize = dxsize;
95 }
96
97
98 void
99 init(name, geom) /* initialize window */
100 char *name;
101 char *geom;
102 {
103 char defgeom[32];
104 XColor cdef,dum;
105 XEvent evnt;
106
107 curfont = curfill = curcol = -1;
108 curlinetype = 0;
109
110 if ((dpy=XOpenDisplay("")) == NULL)
111 error(SYSTEM, "can't open display");
112
113 /* for debugging so we don't have to flush always */
114 if (debug)
115 (void) XSynchronize(dpy, True);
116
117 dxsize = DisplayWidth(dpy,0) - 2*BORWIDTH-4;
118 dysize = DisplayHeight(dpy,0) - 2*BORWIDTH-100;
119 adjustsize();
120
121 sprintf(defgeom, "=%dx%d+2+25", dxsize, dysize);
122 /* XUseGeometry(dpy,0,geom,defgeom,BORWIDTH,100,100,100,100,
123 &xoff,&yoff,&dxsize,&dysize); */
124 gc = DefaultGC(dpy,0); /* get default gc */
125 cmap = DefaultColormap(dpy,0); /* and colormap */
126
127 wind = XCreateSimpleWindow(dpy,DefaultRootWindow(dpy),0,0,dxsize,dysize,
128 BORWIDTH,BlackPix,WhitePix);
129 if (wind == 0)
130 error(SYSTEM, "can't create window");
131 XStoreName(dpy, wind, name);
132 XMapRaised(dpy, wind);
133 XSelectInput(dpy, wind, StructureNotifyMask | ButtonPressMask | ExposureMask);
134 if (DisplayPlanes(dpy,0) < 2) { /* less than 2 color planes, use black */
135 pixel[0] = pixel[1] = pixel[2] = pixel[3] = BlackPix;
136 } else {
137 if (XAllocNamedColor(dpy, cmap, "black", &dum, &cdef)==0)
138 error(USER,"cannot allocate black!");
139 pixel[0] = cdef.pixel;
140 if (XAllocNamedColor(dpy, cmap, "red", &dum, &cdef)==0)
141 {
142 error(WARNING,"cannot allocate red");
143 cdef.pixel = BlackPix;
144 }
145 pixel[1] = cdef.pixel;
146 if (XAllocNamedColor(dpy, cmap, "green", &dum, &cdef)==0)
147 {
148 error(WARNING,"cannot allocate green");
149 cdef.pixel = BlackPix;
150 }
151 pixel[2] = cdef.pixel;
152 if (XAllocNamedColor(dpy, cmap, "blue", &dum, &cdef)==0)
153 {
154 error(WARNING,"cannot allocate blue");
155 cdef.pixel = BlackPix;
156 }
157 pixel[3] = cdef.pixel;
158 }
159
160 while (1)
161 {
162 XNextEvent(dpy, &evnt);
163 if (evnt.type == ConfigureNotify) /* wait for first ConfigureNotify */
164 break;
165 }
166 dxsize = evnt.xconfigure.width;
167 dysize = evnt.xconfigure.height;
168 adjustsize();
169 while (1)
170 {
171 XNextEvent(dpy, &evnt);
172 if (evnt.type == Expose) /* wait for first Expose */
173 break;
174 }
175 }
176
177
178 void
179 endpage() /* end of this graph */
180 {
181 XEvent evnt;
182 int quit=False;
183
184 XFlush(dpy);
185 XBell(dpy, 0);
186 while ( !quit ) {
187 XNextEvent(dpy, &evnt);
188 switch (evnt.type) {
189 case ConfigureNotify:
190 dxsize = evnt.xconfigure.width;
191 dysize = evnt.xconfigure.height;
192 adjustsize();
193 break;
194 case Expose:
195 replay((int)((long)XYSIZE*evnt.xexpose.x/dxsize),
196 (int)((long)XYSIZE*(dysize-evnt.xexpose.y-evnt.xexpose.height)/dysize),
197 (int)((long)XYSIZE*(evnt.xexpose.x+evnt.xexpose.width)/dxsize),
198 (int)((long)XYSIZE*(dysize-evnt.xexpose.y)/dysize));
199 break;
200 case ButtonPress:
201 quit = True;
202 break;
203 } /* switch */
204 } /* for */
205 XClearWindow(dpy, wind);
206
207 }
208
209
210
211 void
212 printstr(p) /* output a string */
213
214 register PRIMITIVE *p;
215
216 {
217 int fn;
218 int col;
219
220 fn = fontmap[(p->arg0 >> 2) & 017]; /* get font number */
221 /* set font */
222 if (font[fn].id == 0)
223 {
224 font[fn].id = XLoadFont(dpy, font[fn].name);
225 if (font[fn].id == 0)
226 {
227 sprintf(errmsg, "can't open font \"%s\"", font[fn].name);
228 error(SYSTEM, errmsg);
229 }
230 }
231 col = p->arg0 & 03;
232 if (curcol != col)
233 {
234 curcol = col;
235 XSetForeground(dpy, gc, pixel[col]);
236 }
237 if (curfont != font[fn].id)
238 {
239 curfont = font[fn].id;
240 XSetFont(dpy, gc, curfont);
241 }
242
243 XDrawImageString(dpy, wind, gc, mapx(p->xy[XMN]), mapy(p->xy[YMN]),
244 p->args, strlen(p->args));
245 }
246
247
248
249
250
251 void
252 plotlseg(p) /* plot a line segment */
253
254 register PRIMITIVE *p;
255
256 {
257 int x1, y1, x2, y2;
258 int linetype, ps, pw;
259 int col;
260
261 linetype = (p->arg0 >> 4) & 03; /* line style (solid, dashed, etc) */
262
263 col = p->arg0 & 03; /* color */
264
265 ps = WIDTH((p->arg0 >> 2) & 03);
266 pw = CONV((ps)/2, dxsize);
267
268 x1 = mapx(p->xy[XMN]);
269 x2 = mapx(p->xy[XMX]);
270 if (p->arg0 & 0100) { /* reverse slope */
271 y1 = mapy(p->xy[YMX]);
272 y2 = mapy(p->xy[YMN]);
273 } else {
274 y1 = mapy(p->xy[YMN]);
275 y2 = mapy(p->xy[YMX]);
276 }
277
278 if (curcol != col || curwidth != pw)
279 {
280 curcol = col;
281 gcval.foreground = pixel[col];
282 curwidth = pw;
283 gcval.line_width = pw*2+1; /* convert to thickness in pixels */
284 gcval.join_style = JoinRound;
285 XChangeGC(dpy, gc, GCJoinStyle|GCLineWidth|GCForeground, &gcval);
286 }
287 if (curlinetype != linetype)
288 {
289 curlinetype = linetype;
290 if (linetype==0)
291 gcval.line_style = LineSolid;
292 else
293 {
294 gcval.line_style = LineOnOffDash;
295 XSetDashes(dpy, gc, 0, Linetypes[linetype], dash_list_length[linetype]);
296 }
297 XChangeGC(dpy, gc, GCLineStyle, &gcval);
298 }
299 XDrawLine(dpy,wind,gc,x1,y1,x2,y2);
300 }
301
302
303 void
304 pXFlush()
305 {
306 XFlush(dpy);
307 }
308
309
310 #ifdef nyet
311
312 static void
313 fill(xmin,ymin,xmax,ymax,pm)
314 int xmin,ymin,xmax,ymax;
315 Pixmap pm;
316 {
317 if (pm != 0 && curpat != pm)
318 {
319 XSetTile(dpy, gc, pm);
320 curpat = pm;
321 }
322 XFillRectangle(dpy, wind, gc, xmin, ymin, xmax-xmin+1, ymax-ymin+1);
323 }
324
325
326 void
327 fillrect(p) /* fill a rectangle */
328
329 register PRIMITIVE *p;
330
331 {
332 int left, right, top, bottom;
333
334 left = mapx(p->xy[XMN]);
335 bottom = mapy(p->xy[YMN]);
336 right = mapx(p->xy[XMX]);
337 top = mapy(p->xy[YMX]);
338
339 fill(left, top, right, bottom, pixpat(pati[(p->arg0>>2)&03],p->arg0&03));
340
341 }
342
343
344
345
346 void
347 filltri(p) /* fill a triangle */
348
349 register PRIMITIVE *p;
350
351 {
352 Vertex v[4];
353 int left, right, top, bottom;
354
355 left = mapx(p->xy[XMN]);
356 right = mapx(p->xy[XMX]);
357 top = mapy(p->xy[YMX]);
358 bottom = mapy(p->xy[YMN]);
359
360 switch (p->arg0 & 060) {
361 case 0: /* right (& down) */
362 v[0].x = left; v[0].y = bottom;
363 v[1].x = right; v[1].y = bottom;
364 v[2].x = right; v[2].y = top;
365 break;
366 case 020: /* up */
367 v[0].x = right; v[0].y = bottom;
368 v[1].x = right; v[1].y = top;
369 v[2].x = left; v[2].y = top;
370 break;
371 case 040: /* left */
372 v[0].x = right; v[0].y = top;
373 v[1].x = left; v[1].y = top;
374 v[2].x = left; v[2].y = bottom;
375 break;
376 case 060: /* down */
377 v[0].x = left; v[0].y = top;
378 v[1].x = left; v[1].y = bottom;
379 v[2].x = right; v[2].y = bottom;
380 break;
381 }
382 v[3].x = v[0].x; v[3].y = v[0].y;
383 v[0].flags = v[1].flags = v[2].flags = v[3].flags = 0;
384 if (curfill != FillTiled)
385 {
386 XSetFillStyle(dpy, gc, FillTiled);
387 curfill = FillTiled;
388 XSetTile(dpy, gc, pixpat(pati[(p->arg0>>2)&03],p->arg0&03));
389 }
390 XDrawFIlled(dpy, wind, gc, v, 4);
391 }
392
393
394 vpod
395 xform(xp, yp, p) /* transform a point according to p */
396
397 register int *xp, *yp;
398 register PRIMITIVE *p;
399
400 {
401 int x, y;
402
403 switch (p->arg0 & 060) {
404 case 0: /* right */
405 x = *xp;
406 y = *yp;
407 break;
408 case 020: /* up */
409 x = (XYSIZE-1) - *yp;
410 y = *xp;
411 break;
412 case 040: /* left */
413 x = (XYSIZE-1) - *xp;
414 y = (XYSIZE-1) - *yp;
415 break;
416 case 060: /* down */
417 x = *yp;
418 y = (XYSIZE-1) - *xp;
419 break;
420 }
421
422 *xp = CONV(x, p->xy[XMX] - p->xy[XMN]) + p->xy[XMN];
423 *yp = CONV(y, p->xy[YMX] - p->xy[YMN]) + p->xy[YMN];
424
425 }
426
427
428 void
429 fillpoly(p) /* fill a polygon */
430
431 register PRIMITIVE *p;
432
433 {
434 int x0, y0, curx, cury;
435 PolyHandle polyh;
436 char *nextscan();
437 register char *s;
438
439 polyh = OpenPoly();
440
441 if ((s = nextscan(nextscan(p->args, "%d", &x0), "%d", &y0)) == NULL)
442 error(USER, "illegal polygon spec in fillpoly");
443
444 xform(&x0, &y0, p);
445 x0 = mapx(x0); y0 = mapy(y0);
446 MoveTo(x0, y0);
447
448 while ((s = nextscan(nextscan(s, "%d", &curx), "%d", &cury)) != NULL) {
449 xform(&curx, &cury, p);
450 curx = mapx(curx); cury = mapy(cury);
451 LineTo(curx, cury);
452 }
453 LineTo(x0, y0);
454
455 ClosePoly();
456
457 if (p->arg0 & 0100) { /* draw border */
458 if (curpat != 0) {
459 PenPat(macpat[0]);
460 curpat = 0;
461 }
462 if (curpsiz != 1) {
463 PenSize(1, 1);
464 curpsiz = 1;
465 }
466 if (curpmod != patOr) {
467 PenMode(patOr);
468 curpmod = patOr;
469 }
470 FramePoly(polyh);
471 }
472
473 setfill(p->arg0 & 077);
474 PaintPoly(polyh);
475 KillPoly(polyh);
476 xpos = -1;
477 ypos = -1;
478
479 }
480
481 #else
482
483 void filltri(PRIMITIVE *p) {}
484 void fillpoly(PRIMITIVE *p) {}
485 void fillrect(PRIMITIVE *p) {}
486
487 #endif