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root/radiance/ray/src/hd/rhd_x11.c
Revision: 3.28
Committed: Thu Aug 27 19:32:27 1998 UTC (25 years, 7 months ago) by gwlarson
Content type: text/plain
Branch: MAIN
Changes since 3.27: +23 -7 lines
Log Message:
finally fixed problem with grid drawing

File Contents

# User Rev Content
1 gwlarson 3.26 /* Copyright (c) 1998 Silicon Graphics, Inc. */
2 gregl 3.1
3     #ifndef lint
4     static char SCCSid[] = "$SunId$ SGI";
5     #endif
6    
7     /*
8     * X11 driver for holodeck display.
9     * Based on rview driver.
10     */
11    
12     #include "standard.h"
13     #include "rhd_qtree.h"
14    
15     #include <X11/Xlib.h>
16     #include <X11/cursorfont.h>
17     #include <X11/Xutil.h>
18    
19     #include "x11icon.h"
20    
21 gregl 3.20 #ifndef RAYQLEN
22     #define RAYQLEN 50000 /* max. rays to queue before flush */
23     #endif
24    
25 gregl 3.11 #ifndef FEQ
26     #define FEQ(a,b) ((a)-(b) <= FTINY && (a)-(b) >= -FTINY)
27     #endif
28    
29 gregl 3.1 #define GAMMA 2.2 /* default gamma correction */
30    
31 gregl 3.13 #define MOVPCT 7 /* percent distance to move /frame */
32 gregl 3.2 #define MOVDIR(b) ((b)==Button1 ? 1 : (b)==Button2 ? 0 : -1)
33 gregl 3.13 #define MOVDEG (-5) /* degrees to orbit CW/down /frame */
34     #define MOVORB(s) ((s)&ShiftMask ? 1 : (s)&ControlMask ? -1 : 0)
35 gregl 3.2
36 gregl 3.1 #define MINWIDTH 480 /* minimum graphics window width */
37     #define MINHEIGHT 400 /* minimum graphics window height */
38    
39     #define VIEWDIST 356 /* assumed viewing distance (mm) */
40    
41     #define BORWIDTH 5 /* border width */
42    
43     #define ourscreen DefaultScreen(ourdisplay)
44     #define ourroot RootWindow(ourdisplay,ourscreen)
45     #define ourmask (StructureNotifyMask|ExposureMask|KeyPressMask|\
46 gregl 3.2 ButtonPressMask|ButtonReleaseMask)
47 gregl 3.1
48     #define levptr(etype) ((etype *)&currentevent)
49    
50     struct driver odev; /* global device driver structure */
51    
52     static XEvent currentevent; /* current event */
53    
54     static int ncolors = 0; /* color table size */
55     static int mapped = 0; /* window is mapped? */
56     static unsigned long *pixval = NULL; /* allocated pixels */
57     static unsigned long ourblack=0, ourwhite=1;
58    
59     static Display *ourdisplay = NULL; /* our display */
60     static XVisualInfo ourvinfo; /* our visual information */
61     static Window gwind = 0; /* our graphics window */
62     static GC ourgc = 0; /* our graphics context for drawing */
63     static Colormap ourmap = 0; /* our color map */
64    
65     static double pwidth, pheight; /* pixel dimensions (mm) */
66    
67     static int inpresflags; /* input result flags */
68    
69 gregl 3.2 static int headlocked = 0; /* lock vertical motion */
70 gregl 3.1
71     static int getpixels(), xnewcolr(), freepixels(), resizewindow(),
72 gregl 3.2 getevent(), getkey(), moveview(), getmove(), fixwindow();
73 gregl 3.1 static unsigned long true_pixel();
74    
75    
76     static int
77     mytmflags() /* figure out tone mapping flags */
78     {
79     extern char *progname;
80     register char *cp, *tail;
81     /* find basic name */
82     for (cp = tail = progname; *cp; cp++)
83     if (*cp == '/')
84     tail = cp+1;
85     for (cp = tail; *cp && *cp != '.'; cp++)
86     ;
87     if (cp-tail == 3 && !strncmp(tail, "x11", 3))
88 gregl 3.20 return(TM_F_CAMERA|TM_F_NOSTDERR);
89 gregl 3.1 if (cp-tail == 4 && !strncmp(tail, "x11h", 4))
90 gregl 3.20 return(TM_F_HUMAN|TM_F_NOSTDERR);
91 gregl 3.1 error(USER, "illegal driver name");
92     }
93    
94    
95     dev_open(id) /* initialize X11 driver */
96     char *id;
97     {
98     extern char *getenv();
99 gregl 3.24 static RGBPRIMS myprims = STDPRIMS;
100     char *ev;
101 gregl 3.1 double gamval = GAMMA;
102 gregl 3.24 RGBPRIMP dpri = stdprims;
103 gregl 3.1 int nplanes;
104     XSetWindowAttributes ourwinattr;
105     XWMHints ourxwmhints;
106     XSizeHints oursizhints;
107 gregl 3.2 /* set quadtree globals */
108 gregl 3.4 qtMinNodesiz = 2;
109 gregl 3.1 /* open display server */
110     ourdisplay = XOpenDisplay(NULL);
111     if (ourdisplay == NULL)
112     error(USER, "cannot open X-windows; DISPLAY variable set?\n");
113     /* find a usable visual */
114     nplanes = DisplayPlanes(ourdisplay, ourscreen);
115     if (XMatchVisualInfo(ourdisplay,ourscreen,
116     nplanes>12?nplanes:24,TrueColor,&ourvinfo) ||
117     XMatchVisualInfo(ourdisplay,ourscreen,
118     nplanes>12?nplanes:24,DirectColor,&ourvinfo)) {
119     ourblack = 0;
120     ourwhite = ourvinfo.red_mask |
121     ourvinfo.green_mask |
122     ourvinfo.blue_mask ;
123     } else {
124     if (nplanes < 4)
125     error(INTERNAL, "not enough colors\n");
126     if (!XMatchVisualInfo(ourdisplay,ourscreen,
127     nplanes,PseudoColor,&ourvinfo) &&
128     !XMatchVisualInfo(ourdisplay,ourscreen,
129     nplanes,GrayScale,&ourvinfo))
130     error(INTERNAL, "unsupported visual type\n");
131     ourblack = BlackPixel(ourdisplay,ourscreen);
132     ourwhite = WhitePixel(ourdisplay,ourscreen);
133     }
134     /* set gamma and tone mapping */
135 gregl 3.24 if ((ev = XGetDefault(ourdisplay, "radiance", "gamma")) != NULL
136     || (ev = getenv("DISPLAY_GAMMA")) != NULL)
137     gamval = atof(ev);
138     if ((ev = getenv("DISPLAY_PRIMARIES")) != NULL &&
139     sscanf(ev, "%f %f %f %f %f %f %f %f",
140     &myprims[RED][CIEX],&myprims[RED][CIEY],
141     &myprims[GRN][CIEX],&myprims[GRN][CIEY],
142     &myprims[BLU][CIEX],&myprims[BLU][CIEY],
143     &myprims[WHT][CIEX],&myprims[WHT][CIEY]) >= 6)
144     dpri = myprims;
145     if (tmInit(mytmflags(), dpri, gamval) == NULL)
146 gregl 3.1 error(SYSTEM, "not enough memory in dev_open");
147     /* open window */
148     ourwinattr.background_pixel = ourblack;
149     ourwinattr.border_pixel = ourblack;
150     ourwinattr.event_mask = ourmask;
151     /* this is stupid */
152     ourwinattr.colormap = XCreateColormap(ourdisplay, ourroot,
153     ourvinfo.visual, AllocNone);
154     gwind = XCreateWindow(ourdisplay, ourroot, 0, 0,
155     DisplayWidth(ourdisplay,ourscreen)-2*BORWIDTH,
156     DisplayHeight(ourdisplay,ourscreen)-2*BORWIDTH,
157     BORWIDTH, ourvinfo.depth, InputOutput, ourvinfo.visual,
158     CWBackPixel|CWBorderPixel|CWColormap|CWEventMask, &ourwinattr);
159     if (gwind == 0)
160     error(SYSTEM, "cannot create window\n");
161     XStoreName(ourdisplay, gwind, id);
162     /* get graphics context */
163     ourgc = XCreateGC(ourdisplay, gwind, 0, NULL);
164     /* set window manager hints */
165     ourxwmhints.flags = InputHint|IconPixmapHint;
166     ourxwmhints.input = True;
167     ourxwmhints.icon_pixmap = XCreateBitmapFromData(ourdisplay,
168     gwind, x11icon_bits, x11icon_width, x11icon_height);
169     XSetWMHints(ourdisplay, gwind, &ourxwmhints);
170     oursizhints.min_width = MINWIDTH;
171     oursizhints.min_height = MINHEIGHT;
172     oursizhints.flags = PMinSize;
173     XSetNormalHints(ourdisplay, gwind, &oursizhints);
174 gregl 3.18 /* figure out sensible view */
175     pwidth = (double)DisplayWidthMM(ourdisplay, ourscreen) /
176     DisplayWidth(ourdisplay, ourscreen);
177     pheight = (double)DisplayHeightMM(ourdisplay, ourscreen) /
178     DisplayHeight(ourdisplay, ourscreen);
179     copystruct(&odev.v, &stdview);
180     odev.v.type = VT_PER;
181 gregl 3.1 /* map the window and get its size */
182     XMapWindow(ourdisplay, gwind);
183 gregl 3.18 dev_input(); /* sets size and view angles */
184 gregl 3.2 /* allocate our leaf pile */
185     if (!qtAllocLeaves(DisplayWidth(ourdisplay,ourscreen) *
186 gregl 3.21 DisplayHeight(ourdisplay,ourscreen) * 3 /
187     (qtMinNodesiz*qtMinNodesiz*2)))
188 gregl 3.2 error(SYSTEM, "insufficient memory for leaf storage");
189 gregl 3.1 odev.name = id;
190     odev.ifd = ConnectionNumber(ourdisplay);
191     }
192    
193    
194     dev_close() /* close our display */
195     {
196     freepixels();
197     XFreeGC(ourdisplay, ourgc);
198     XDestroyWindow(ourdisplay, gwind);
199     gwind = 0;
200     ourgc = 0;
201     XCloseDisplay(ourdisplay);
202     ourdisplay = NULL;
203     qtFreeLeaves();
204     tmDone(NULL);
205     odev.v.type = 0;
206     odev.hres = odev.vres = 0;
207     odev.ifd = -1;
208     }
209    
210    
211 gregl 3.23
212     dev_clear() /* clear our quadtree */
213     {
214     qtCompost(100);
215     if (ncolors > 0)
216     new_ctab(ncolors);
217     rayqleft = 0; /* hold off update */
218     }
219    
220    
221 gregl 3.13 int
222 gregl 3.1 dev_view(nv) /* assign new driver view */
223     VIEW *nv;
224     {
225 gregl 3.13 if (nv->type == VT_PAR || /* check view legality */
226 gregl 3.17 nv->horiz > 160. || nv->vert > 160.) {
227 gregl 3.13 error(COMMAND, "illegal view type/angle");
228     nv->type = VT_PER;
229     nv->horiz = odev.v.horiz;
230     nv->vert = odev.v.vert;
231     return(0);
232     }
233     if (nv->vfore > FTINY) {
234     error(COMMAND, "cannot handle fore clipping");
235     nv->vfore = 0.;
236     return(0);
237     }
238 gregl 3.11 if (nv != &odev.v) {
239     if (!FEQ(nv->horiz,odev.v.horiz) || /* resize window? */
240     !FEQ(nv->vert,odev.v.vert)) {
241 gregl 3.13 int dw = DisplayWidth(ourdisplay,ourscreen);
242     int dh = DisplayHeight(ourdisplay,ourscreen);
243    
244     dw -= 25; /* for window frame */
245 gregl 3.16 dh -= 50;
246 gregl 3.12 odev.hres = 2.*VIEWDIST/pwidth *
247     tan(PI/180./2.*nv->horiz);
248     odev.vres = 2.*VIEWDIST/pheight *
249     tan(PI/180./2.*nv->vert);
250 gregl 3.13 if (odev.hres > dw) {
251     odev.vres = dw * odev.vres / odev.hres;
252     odev.hres = dw;
253     }
254     if (odev.vres > dh) {
255     odev.hres = dh * odev.hres / odev.vres;
256     odev.vres = dh;
257     }
258 gregl 3.11 XResizeWindow(ourdisplay, gwind, odev.hres, odev.vres);
259 gregl 3.18 dev_input(); /* wait for resize event */
260 gregl 3.11 }
261 gregl 3.1 copystruct(&odev.v, nv);
262 gregl 3.11 }
263 gregl 3.1 qtReplant();
264 gregl 3.13 return(1);
265 gwlarson 3.26 }
266    
267    
268     dev_auxcom(cmd, args) /* process an auxiliary command */
269     char *cmd, *args;
270     {
271     sprintf(errmsg, "%s: unknown command", cmd);
272     error(COMMAND, errmsg);
273 gregl 3.1 }
274    
275    
276 gwlarson 3.25 VIEW *
277     dev_auxview(n, hvres) /* return nth auxiliary view */
278     int n;
279     int hvres[2];
280     {
281     if (n)
282     return(NULL);
283     hvres[0] = odev.hres; hvres[1] = odev.vres;
284     return(&odev.v);
285     }
286    
287    
288 gregl 3.1 int
289     dev_input() /* get X11 input */
290     {
291     inpresflags = 0;
292 gregl 3.5
293 gregl 3.1 do
294     getevent();
295    
296 gwlarson 3.27 while (XPending(ourdisplay) > 0);
297 gregl 3.1
298 gwlarson 3.27 odev.inpready = 0;
299    
300 gregl 3.1 return(inpresflags);
301     }
302    
303    
304     dev_paintr(rgb, xmin, ymin, xmax, ymax) /* fill a rectangle */
305     BYTE rgb[3];
306     int xmin, ymin, xmax, ymax;
307     {
308     unsigned long pixel;
309    
310     if (!mapped)
311     return;
312     if (ncolors > 0)
313     pixel = pixval[get_pixel(rgb, xnewcolr)];
314     else
315     pixel = true_pixel(rgb);
316     XSetForeground(ourdisplay, ourgc, pixel);
317     XFillRectangle(ourdisplay, gwind,
318     ourgc, xmin, odev.vres-ymax, xmax-xmin, ymax-ymin);
319     }
320    
321    
322     int
323     dev_flush() /* flush output */
324     {
325     qtUpdate();
326 gregl 3.20 rayqleft = RAYQLEN;
327 gwlarson 3.27 return(odev.inpready = XPending(ourdisplay));
328 gregl 3.1 }
329    
330    
331     static
332     xnewcolr(ndx, r, g, b) /* enter a color into hardware table */
333     int ndx;
334     int r, g, b;
335     {
336     XColor xcolor;
337    
338     xcolor.pixel = pixval[ndx];
339     xcolor.red = r << 8;
340     xcolor.green = g << 8;
341     xcolor.blue = b << 8;
342     xcolor.flags = DoRed|DoGreen|DoBlue;
343    
344     XStoreColor(ourdisplay, ourmap, &xcolor);
345     }
346    
347    
348     static int
349     getpixels() /* get the color map */
350     {
351     XColor thiscolor;
352     register int i, j;
353    
354     if (ncolors > 0)
355     return(ncolors);
356     if (ourvinfo.visual == DefaultVisual(ourdisplay,ourscreen)) {
357     ourmap = DefaultColormap(ourdisplay,ourscreen);
358     goto loop;
359     }
360     newmap:
361     ourmap = XCreateColormap(ourdisplay,gwind,ourvinfo.visual,AllocNone);
362     loop:
363     for (ncolors = ourvinfo.colormap_size;
364     ncolors > ourvinfo.colormap_size/3;
365     ncolors = ncolors*.937) {
366     pixval = (unsigned long *)malloc(ncolors*sizeof(unsigned long));
367     if (pixval == NULL)
368     return(ncolors = 0);
369     if (XAllocColorCells(ourdisplay,ourmap,0,NULL,0,pixval,ncolors))
370     break;
371     free((char *)pixval);
372     pixval = NULL;
373     }
374     if (pixval == NULL) {
375     if (ourmap == DefaultColormap(ourdisplay,ourscreen))
376     goto newmap; /* try it with our map */
377     else
378     return(ncolors = 0); /* failed */
379     }
380     if (ourmap != DefaultColormap(ourdisplay,ourscreen))
381     for (i = 0; i < ncolors; i++) { /* reset black and white */
382     if (pixval[i] != ourblack && pixval[i] != ourwhite)
383     continue;
384     thiscolor.pixel = pixval[i];
385     thiscolor.flags = DoRed|DoGreen|DoBlue;
386     XQueryColor(ourdisplay,
387     DefaultColormap(ourdisplay,ourscreen),
388     &thiscolor);
389     XStoreColor(ourdisplay, ourmap, &thiscolor);
390     for (j = i; j+1 < ncolors; j++)
391     pixval[j] = pixval[j+1];
392     ncolors--;
393     i--;
394     }
395     XSetWindowColormap(ourdisplay, gwind, ourmap);
396     return(ncolors);
397     }
398    
399    
400     static
401     freepixels() /* free our pixels */
402     {
403     if (ncolors == 0)
404     return;
405     XFreeColors(ourdisplay,ourmap,pixval,ncolors,0L);
406     free((char *)pixval);
407     pixval = NULL;
408     ncolors = 0;
409     if (ourmap != DefaultColormap(ourdisplay,ourscreen))
410     XFreeColormap(ourdisplay, ourmap);
411     ourmap = 0;
412     }
413    
414    
415     static unsigned long
416     true_pixel(rgb) /* return true pixel value for color */
417     register BYTE rgb[3];
418     {
419     register unsigned long rval;
420    
421     rval = ourvinfo.red_mask*rgb[RED]/255 & ourvinfo.red_mask;
422     rval |= ourvinfo.green_mask*rgb[GRN]/255 & ourvinfo.green_mask;
423     rval |= ourvinfo.blue_mask*rgb[BLU]/255 & ourvinfo.blue_mask;
424     return(rval);
425     }
426    
427    
428     static
429     getevent() /* get next event */
430     {
431     XNextEvent(ourdisplay, levptr(XEvent));
432     switch (levptr(XEvent)->type) {
433     case ConfigureNotify:
434     resizewindow(levptr(XConfigureEvent));
435     break;
436     case UnmapNotify:
437     mapped = 0;
438     freepixels();
439     break;
440     case MapNotify:
441     if (ourvinfo.class == PseudoColor ||
442     ourvinfo.class == GrayScale) {
443     if (getpixels() == 0)
444     error(SYSTEM, "cannot allocate colors\n");
445     new_ctab(ncolors);
446     }
447     mapped = 1;
448     break;
449     case Expose:
450     fixwindow(levptr(XExposeEvent));
451     break;
452     case KeyPress:
453     getkey(levptr(XKeyPressedEvent));
454     break;
455     case ButtonPress:
456 gregl 3.2 getmove(levptr(XButtonPressedEvent));
457 gregl 3.1 break;
458     }
459     }
460    
461    
462     static
463 gregl 3.9 ilclip(dp, wp) /* clip world coordinates to device */
464     int dp[2][2];
465     FVECT wp[2];
466     {
467 gwlarson 3.28 static FVECT vmin = {0.,0.,0.}, vmax = {1.-FTINY,1.-FTINY,FHUGE};
468     FVECT wpc[2], ip[2];
469     double d, d0, d1;
470     /* check for points behind view */
471     d = DOT(odev.v.vp, odev.v.vdir);
472     d0 = DOT(wp[0], odev.v.vdir) - d;
473     d1 = DOT(wp[1], odev.v.vdir) - d;
474     /* work on copy of world points */
475     if (d0 <= d1) {
476     VCOPY(wpc[0], wp[0]); VCOPY(wpc[1], wp[1]);
477     } else {
478     d = d0; d0 = d1; d1 = d;
479     VCOPY(wpc[1], wp[0]); VCOPY(wpc[0], wp[1]);
480     }
481     if (d0 <= FTINY) {
482     if (d1 <= FTINY) return(0);
483     VSUB(wpc[0], wpc[0], wpc[1]);
484     d = .99*d1/(d1-d0);
485     VSUM(wpc[0], wpc[1], wpc[0], d);
486     }
487     /* get view coordinates and clip to window */
488     viewloc(ip[0], &odev.v, wpc[0]);
489     viewloc(ip[1], &odev.v, wpc[1]);
490 gregl 3.9 if (!clip(ip[0], ip[1], vmin, vmax))
491     return(0);
492     dp[0][0] = ip[0][0]*odev.hres;
493     dp[0][1] = ip[0][1]*odev.vres;
494     dp[1][0] = ip[1][0]*odev.hres;
495     dp[1][1] = ip[1][1]*odev.vres;
496     return(1);
497     }
498    
499    
500     static
501     draw3dline(wp) /* draw 3d line in world coordinates */
502     FVECT wp[2];
503     {
504     int dp[2][2];
505    
506     if (!ilclip(dp, wp))
507     return;
508     XDrawLine(ourdisplay, gwind, ourgc,
509     dp[0][0], odev.vres-1 - dp[0][1],
510     dp[1][0], odev.vres-1 - dp[1][1]);
511     }
512    
513    
514     static
515     draw_grids() /* draw holodeck section grids */
516     {
517     static BYTE gridrgb[3] = {0x0, 0xff, 0xff};
518     unsigned long pixel;
519    
520     if (ncolors > 0)
521     pixel = pixval[get_pixel(gridrgb, xnewcolr)];
522     else
523     pixel = true_pixel(gridrgb);
524     XSetForeground(ourdisplay, ourgc, pixel);
525     /* draw each grid line */
526     gridlines(draw3dline);
527     }
528    
529    
530     static
531 gregl 3.13 moveview(dx, dy, mov, orb) /* move our view */
532     int dx, dy, mov, orb;
533 gregl 3.2 {
534     VIEW nv;
535 gregl 3.17 FVECT odir, v1;
536 gregl 3.2 double d;
537 gregl 3.13 register int li;
538 gregl 3.2 /* start with old view */
539     copystruct(&nv, &odev.v);
540     /* change view direction */
541 gregl 3.13 if (mov | orb) {
542 gregl 3.4 if ((li = qtFindLeaf(dx, dy)) < 0)
543 gregl 3.2 return(0); /* not on window */
544 gregl 3.17 VSUM(odir, qtL.wp[li], nv.vp, -1.);
545 gregl 3.2 } else {
546     if (viewray(nv.vp, nv.vdir, &odev.v,
547     (dx+.5)/odev.hres, (dy+.5)/odev.vres) < -FTINY)
548     return(0); /* outside view */
549     }
550 gregl 3.13 if (orb && mov) { /* orbit left/right */
551 gregl 3.17 spinvector(odir, odir, nv.vup, d=MOVDEG*PI/180.*mov);
552     VSUM(nv.vp, qtL.wp[li], odir, -1.);
553     spinvector(nv.vdir, nv.vdir, nv.vup, d);
554 gregl 3.13 } else if (orb) { /* orbit up/down */
555 gregl 3.17 fcross(v1, odir, nv.vup);
556 gregl 3.13 if (normalize(v1) == 0.)
557     return(0);
558 gregl 3.17 spinvector(odir, odir, v1, d=MOVDEG*PI/180.*orb);
559     VSUM(nv.vp, qtL.wp[li], odir, -1.);
560     spinvector(nv.vdir, nv.vdir, v1, d);
561 gregl 3.13 } else if (mov) { /* move forward/backward */
562     d = MOVPCT/100. * mov;
563 gregl 3.17 VSUM(nv.vp, nv.vp, odir, d);
564 gregl 3.2 }
565 gregl 3.13 if (!mov ^ !orb && headlocked) { /* restore head height */
566     VSUM(v1, odev.v.vp, nv.vp, -1.);
567     d = DOT(v1, odev.v.vup);
568     VSUM(nv.vp, nv.vp, odev.v.vup, d);
569     }
570 gregl 3.2 if (setview(&nv) != NULL)
571     return(0); /* illegal view */
572     dev_view(&nv);
573 gregl 3.14 inpresflags |= DFL(DC_SETVIEW);
574 gregl 3.2 return(1);
575     }
576    
577    
578     static
579     getmove(ebut) /* get view change */
580     XButtonPressedEvent *ebut;
581     {
582 gregl 3.13 int movdir = MOVDIR(ebut->button);
583     int movorb = MOVORB(ebut->state);
584 gregl 3.2 int oldnodesiz = qtMinNodesiz;
585     Window rootw, childw;
586     int rootx, rooty, wx, wy;
587     unsigned int statemask;
588    
589     qtMinNodesiz = 16; /* for quicker update */
590 gregl 3.9 XNoOp(ourdisplay);
591 gregl 3.2
592 gregl 3.9 while (!XCheckMaskEvent(ourdisplay,
593     ButtonReleaseMask, levptr(XEvent))) {
594    
595 gregl 3.2 if (!XQueryPointer(ourdisplay, gwind, &rootw, &childw,
596     &rootx, &rooty, &wx, &wy, &statemask))
597     break; /* on another screen */
598    
599 gregl 3.13 if (!moveview(wx, odev.vres-1-wy, movdir, movorb)) {
600 gregl 3.2 sleep(1);
601 gregl 3.9 continue;
602     }
603     XClearWindow(ourdisplay, gwind);
604     qtUpdate();
605     draw_grids();
606     }
607 gregl 3.14 if (!(inpresflags & DFL(DC_SETVIEW))) { /* do final motion */
608 gregl 3.13 movdir = MOVDIR(levptr(XButtonReleasedEvent)->button);
609 gregl 3.2 wx = levptr(XButtonReleasedEvent)->x;
610     wy = levptr(XButtonReleasedEvent)->y;
611 gregl 3.13 moveview(wx, odev.vres-1-wy, movdir, movorb);
612 gregl 3.2 }
613 gregl 3.9 dev_flush();
614 gregl 3.2
615     qtMinNodesiz = oldnodesiz; /* restore quadtree resolution */
616     }
617    
618    
619     static
620 gregl 3.1 getkey(ekey) /* get input key */
621     register XKeyPressedEvent *ekey;
622     {
623     int n;
624     char buf[8];
625    
626     n = XLookupString(ekey, buf, sizeof(buf), NULL, NULL);
627     if (n != 1)
628     return;
629     switch (buf[0]) {
630     case 'h': /* turn on height motion lock */
631 gregl 3.2 headlocked = 1;
632 gregl 3.1 return;
633     case 'H': /* turn off height motion lock */
634 gregl 3.2 headlocked = 0;
635 gregl 3.13 return;
636     case 'l': /* retrieve last view */
637 gregl 3.14 inpresflags |= DFL(DC_LASTVIEW);
638 gregl 3.1 return;
639 gregl 3.2 case 'p': /* pause computation */
640 gregl 3.14 inpresflags |= DFL(DC_PAUSE);
641 gregl 3.2 return;
642 gregl 3.7 case 'v': /* spit out view */
643 gregl 3.14 inpresflags |= DFL(DC_GETVIEW);
644 gregl 3.7 return;
645 gregl 3.2 case '\n':
646 gregl 3.5 case '\r': /* resume computation */
647 gregl 3.14 inpresflags |= DFL(DC_RESUME);
648 gregl 3.2 return;
649 gregl 3.7 case CTRL('R'): /* redraw screen */
650     if (ncolors > 0)
651     new_ctab(ncolors);
652     qtRedraw(0, 0, odev.hres, odev.vres);
653     return;
654     case CTRL('L'): /* refresh from server */
655 gregl 3.14 if (inpresflags & DFL(DC_REDRAW))
656 gregl 3.8 return;
657 gregl 3.7 XClearWindow(ourdisplay, gwind);
658 gregl 3.9 draw_grids();
659 gregl 3.8 XFlush(ourdisplay);
660 gregl 3.6 qtCompost(100); /* unload the old tree */
661 gregl 3.3 if (ncolors > 0)
662     new_ctab(ncolors);
663 gregl 3.14 inpresflags |= DFL(DC_REDRAW); /* resend values from server */
664 gregl 3.22 rayqleft = 0; /* hold off update */
665 gregl 3.3 return;
666 gregl 3.15 case 'K': /* kill rtrace process(es) */
667     inpresflags |= DFL(DC_KILL);
668     break;
669     case 'R': /* restart rtrace */
670     inpresflags |= DFL(DC_RESTART);
671     break;
672     case 'C': /* clobber holodeck */
673     inpresflags |= DFL(DC_CLOBBER);
674     break;
675 gregl 3.1 case 'q': /* quit the program */
676 gregl 3.14 inpresflags |= DFL(DC_QUIT);
677 gregl 3.1 return;
678     default:
679     XBell(ourdisplay, 0);
680     return;
681     }
682     }
683    
684    
685     static
686     fixwindow(eexp) /* repair damage to window */
687     register XExposeEvent *eexp;
688     {
689     if (odev.hres == 0 || odev.vres == 0) { /* first exposure */
690     odev.hres = eexp->width;
691     odev.vres = eexp->height;
692     }
693     qtRedraw(eexp->x, odev.vres - eexp->y - eexp->height,
694     eexp->x + eexp->width, odev.vres - eexp->y);
695     }
696    
697    
698     static
699     resizewindow(ersz) /* resize window */
700     register XConfigureEvent *ersz;
701     {
702     if (ersz->width == odev.hres && ersz->height == odev.vres)
703     return;
704    
705     odev.hres = ersz->width;
706     odev.vres = ersz->height;
707    
708 gregl 3.12 odev.v.horiz = 2.*180./PI * atan(0.5/VIEWDIST*pwidth*odev.hres);
709     odev.v.vert = 2.*180./PI * atan(0.5/VIEWDIST*pheight*odev.vres);
710    
711 gregl 3.14 inpresflags |= DFL(DC_SETVIEW);
712 gregl 3.1 }