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root/radiance/ray/src/rt/rview.c
Revision: 2.15
Committed: Fri Dec 8 18:49:24 1995 UTC (28 years, 4 months ago) by greg
Content type: text/plain
Branch: MAIN
Changes since 2.14: +6 -1 lines
Log Message: 
added M_MIST (mist) material and global participating medium

File Contents

# User Rev Content
1 greg 2.15 /* Copyright (c) 1995 Regents of the University of California */
2 greg 1.1
3     #ifndef lint
4     static char SCCSid[] = "$SunId$ LBL";
5     #endif
6    
7     /*
8     * rview.c - routines and variables for interactive view generation.
9     *
10     * 3/24/87
11     */
12    
13 greg 1.15 #include "ray.h"
14 greg 1.1
15     #include "rpaint.h"
16    
17     #include <signal.h>
18    
19     #include <ctype.h>
20    
21 greg 1.9 VIEW ourview = STDVIEW; /* viewing parameters */
22     int hresolu, vresolu; /* image resolution */
23 greg 1.15
24     int dimlist[MAXDIM]; /* sampling dimensions */
25     int ndims = 0; /* number of sampling dimensions */
26     int samplendx = 0; /* index for this sample */
27 greg 1.1
28     int psample = 8; /* pixel sample size */
29 greg 2.8 double maxdiff = .15; /* max. sample difference */
30 greg 1.1
31 greg 2.8 double exposure = 1.0; /* exposure for scene */
32 greg 1.1
33 greg 2.8 double dstrsrc = 0.0; /* square source distribution */
34     double shadthresh = .1; /* shadow threshold */
35     double shadcert = .25; /* shadow certainty */
36 greg 1.16 int directrelay = 0; /* number of source relays */
37 greg 1.18 int vspretest = 128; /* virtual source pretest density */
38 greg 2.9 int directvis = 1; /* sources visible? */
39 greg 2.8 double srcsizerat = 0.; /* maximum ratio source size/dist. */
40 greg 2.15
41     COLOR cextinction = BLKCOLOR; /* global extinction coefficient */
42     double salbedo = 0.; /* global scattering albedo */
43     double seccg = 0.; /* global scattering eccentricity */
44     double ssampdist = 0.; /* scatter sampling distance */
45 greg 1.1
46 greg 2.8 double specthresh = .3; /* specular sampling threshold */
47     double specjitter = 1.; /* specular sampling jitter */
48 greg 2.5
49 greg 2.14 int backvis = 1; /* back face visibility */
50    
51 greg 1.1 int maxdepth = 4; /* maximum recursion depth */
52 greg 2.8 double minweight = 1e-2; /* minimum ray weight */
53 greg 1.1
54     COLOR ambval = BLKCOLOR; /* ambient value */
55 greg 2.8 double ambacc = 0.2; /* ambient accuracy */
56 greg 1.5 int ambres = 8; /* ambient resolution */
57 greg 1.1 int ambdiv = 32; /* ambient divisions */
58     int ambssamp = 0; /* ambient super-samples */
59     int ambounce = 0; /* ambient bounces */
60     char *amblist[128]; /* ambient include/exclude list */
61     int ambincl = -1; /* include == 1, exclude == 0 */
62    
63     int greyscale = 0; /* map colors to brightness? */
64 greg 1.11 char *devname = dev_default; /* output device name */
65 greg 1.1
66     struct driver *dev = NULL; /* driver functions */
67    
68 greg 2.11 char rifname[128]; /* rad input file name */
69    
70 greg 1.1 VIEW oldview; /* previous view parameters */
71    
72     PNODE ptrunk; /* the base of our image */
73     RECT pframe; /* current frame boundaries */
74     int pdepth; /* image depth in current frame */
75    
76 greg 1.12 static char *reserve_mem = NULL; /* pre-allocated reserve memory */
77    
78 greg 1.20 #define RESERVE_AMT 32768 /* amount of memory to reserve */
79 greg 1.12
80 greg 2.8 #define CTRL(c) ((c)-'@')
81 greg 1.1
82    
83     quit(code) /* quit program */
84     int code;
85     {
86 greg 2.10 #ifdef MSTATS
87     if (code == 2 && errno == ENOMEM)
88     printmemstats(stderr);
89     #endif
90 greg 1.1 devclose();
91     exit(code);
92     }
93    
94    
95     devopen(dname) /* open device driver */
96     char *dname;
97     {
98 greg 1.6 extern char *progname, *octname;
99 greg 1.7 char *id;
100 greg 1.1 register int i;
101 greg 1.6
102 greg 1.7 id = octname!=NULL ? octname : progname;
103 greg 1.1 /* check device table */
104     for (i = 0; devtable[i].name; i++)
105     if (!strcmp(dname, devtable[i].name))
106 greg 1.7 if ((dev = (*devtable[i].init)(dname, id)) == NULL) {
107 greg 1.1 sprintf(errmsg, "cannot initialize %s", dname);
108     error(USER, errmsg);
109     } else
110     return;
111 greg 2.8 #ifndef NIX
112 greg 1.1 /* not there, try exec */
113 greg 1.7 if ((dev = comm_init(dname, id)) == NULL) {
114 greg 1.1 sprintf(errmsg, "cannot start device \"%s\"", dname);
115     error(USER, errmsg);
116     }
117 greg 2.8 #endif
118 greg 1.1 }
119    
120    
121     devclose() /* close our device */
122     {
123     if (dev != NULL)
124     (*dev->close)();
125     dev = NULL;
126     }
127    
128    
129     printdevices() /* print list of output devices */
130     {
131     register int i;
132    
133     for (i = 0; devtable[i].name; i++)
134     printf("%-16s # %s\n", devtable[i].name, devtable[i].descrip);
135     }
136    
137    
138     rview() /* do a view */
139     {
140     char buf[32];
141    
142     devopen(devname); /* open device */
143 greg 1.14 newimage(); /* start image (calls fillreserves) */
144    
145 greg 1.1 for ( ; ; ) { /* quit in command() */
146 greg 1.14 while (hresolu <= 1<<pdepth && vresolu <= 1<<pdepth)
147 greg 1.1 command("done: ");
148 greg 1.14 while (reserve_mem == NULL)
149     command("out of memory: ");
150     errno = 0;
151     if (hresolu <= psample<<pdepth && vresolu <= psample<<pdepth) {
152 greg 1.1 sprintf(buf, "%d sampling...\n", 1<<pdepth);
153     (*dev->comout)(buf);
154     rsample();
155     } else {
156     sprintf(buf, "%d refining...\n", 1<<pdepth);
157     (*dev->comout)(buf);
158 greg 1.9 refine(&ptrunk, 0, 0, hresolu, vresolu, pdepth+1);
159 greg 1.1 }
160 greg 1.14 if (errno == ENOMEM) /* ran out of memory */
161     freereserves();
162     else if (dev->inpready) /* noticed some input */
163 greg 1.1 command(": ");
164 greg 1.14 else /* finished this depth */
165 greg 1.1 pdepth++;
166     }
167     }
168    
169    
170 greg 1.14 fillreserves() /* fill memory reserves */
171 greg 1.12 {
172     if (reserve_mem != NULL)
173 greg 1.14 return;
174 greg 1.12 reserve_mem = malloc(RESERVE_AMT);
175     }
176    
177    
178 greg 1.14 freereserves() /* free memory reserves */
179 greg 1.12 {
180 greg 1.14 if (reserve_mem == NULL)
181     return;
182 greg 1.12 free(reserve_mem);
183     reserve_mem = NULL;
184     }
185    
186    
187 greg 1.1 command(prompt) /* get/execute command */
188     char *prompt;
189     {
190 greg 2.8 #define badcom(s) strncmp(s, inpbuf, args-inpbuf-1)
191 greg 1.1 char inpbuf[256];
192     char *args;
193     again:
194 greg 1.10 (*dev->comin)(inpbuf, prompt); /* get command + arguments */
195 greg 1.1 for (args = inpbuf; *args && *args != ' '; args++)
196     ;
197     if (*args) *args++ = '\0';
198     else *++args = '\0';
199    
200     switch (inpbuf[0]) {
201 greg 2.10 case 'f': /* new frame (or free mem.) */
202     if (badcom("frame")) {
203     if (badcom("free"))
204     goto commerr;
205     free_objmem();
206     break;
207     }
208 greg 1.1 getframe(args);
209     break;
210     case 'v': /* view */
211     if (badcom("view"))
212     goto commerr;
213     getview(args);
214     break;
215     case 'l': /* last view */
216     if (badcom("last"))
217     goto commerr;
218     lastview(args);
219 greg 2.11 break;
220     case 'V': /* save view */
221     if (badcom("V"))
222     goto commerr;
223     saveview(args);
224     break;
225     case 'L': /* load view */
226     if (badcom("L"))
227     goto commerr;
228     loadview(args);
229 greg 1.1 break;
230     case 'e': /* exposure */
231     if (badcom("exposure"))
232     goto commerr;
233     getexposure(args);
234     break;
235     case 's': /* set a parameter */
236 greg 2.13 if (badcom("set")) {
237     #ifdef SIGTSTP
238     if (!badcom("stop"))
239     goto dostop;
240     #endif
241 greg 1.1 goto commerr;
242 greg 2.13 }
243 greg 1.1 setparam(args);
244     break;
245     case 'n': /* new picture */
246     if (badcom("new"))
247     goto commerr;
248     newimage();
249     break;
250     case 't': /* trace a ray */
251     if (badcom("trace"))
252     goto commerr;
253     traceray(args);
254     break;
255     case 'a': /* aim camera */
256     if (badcom("aim"))
257     goto commerr;
258     getaim(args);
259     break;
260 greg 2.10 case 'm': /* move camera (or memstats) */
261 greg 1.1 if (badcom("move"))
262 greg 2.8 #ifdef MSTATS
263 greg 2.2 {
264     if (badcom("memory"))
265     goto commerr;
266     printmemstats(stderr);
267     break;
268     }
269     #else
270 greg 1.1 goto commerr;
271 greg 2.2 #endif
272 greg 1.1 getmove(args);
273     break;
274 greg 1.8 case 'r': /* rotate/repaint */
275     if (badcom("rotate")) {
276 greg 2.13 if (badcom("repaint")) {
277     if (badcom("redraw"))
278     goto commerr;
279     redraw();
280     break;
281     }
282 greg 1.8 getrepaint(args);
283     break;
284     }
285 greg 1.1 getrotate(args);
286     break;
287     case 'p': /* pivot view */
288 greg 2.13 if (badcom("pivot")) {
289     if (badcom("pause"))
290     goto commerr;
291     goto again;
292     }
293 greg 1.1 getpivot(args);
294     break;
295 greg 2.4 case CTRL('R'): /* redraw */
296 greg 1.1 redraw();
297     break;
298     case 'w': /* write */
299     if (badcom("write"))
300     goto commerr;
301     writepict(args);
302     break;
303     case 'q': /* quit */
304     if (badcom("quit"))
305     goto commerr;
306     quit(0);
307 greg 2.4 case CTRL('C'): /* interrupt */
308 greg 1.1 goto again;
309 greg 2.8 #ifdef SIGTSTP
310 greg 2.13 case CTRL('Z'):; /* stop */
311     dostop:
312 greg 1.1 devclose();
313     kill(0, SIGTSTP);
314     /* pc stops here */
315     devopen(devname);
316     redraw();
317     break;
318     #endif
319     case '\0': /* continue */
320     break;
321     default:;
322     commerr:
323     if (iscntrl(inpbuf[0]))
324     sprintf(errmsg, "^%c: unknown control",
325     inpbuf[0]|0100);
326     else
327     sprintf(errmsg, "%s: unknown command", inpbuf);
328     error(COMMAND, errmsg);
329     break;
330     }
331 greg 2.8 #undef badcom
332 greg 1.1 }
333    
334    
335     rsample() /* sample the image */
336     {
337     int xsiz, ysiz, y;
338     RECT r;
339     PNODE *p;
340     register RECT *rl;
341 greg 2.8 register PNODE **pl;
342 greg 1.1 register int x;
343     /*
344     * We initialize the bottom row in the image at our current
345 greg 2.8 * resolution. During sampling, we check super-pixels to the
346 greg 1.1 * right and above by calling bigdiff(). If there is a significant
347     * difference, we subsample the super-pixels. The testing process
348     * includes initialization of the next row.
349     */
350 greg 2.12 xsiz = (((long)(pframe.r-pframe.l)<<pdepth)+hresolu-1) / hresolu;
351     ysiz = (((long)(pframe.u-pframe.d)<<pdepth)+vresolu-1) / vresolu;
352 greg 1.1 rl = (RECT *)malloc(xsiz*sizeof(RECT));
353 greg 1.12 if (rl == NULL)
354 greg 1.14 return;
355 greg 1.1 pl = (PNODE **)malloc(xsiz*sizeof(PNODE *));
356 greg 2.7 if (pl == NULL) {
357     free((char *)rl);
358 greg 1.14 return;
359 greg 2.7 }
360 greg 1.1 /*
361     * Initialize the bottom row.
362     */
363     rl[0].l = rl[0].d = 0;
364 greg 1.9 rl[0].r = hresolu; rl[0].u = vresolu;
365 greg 1.1 pl[0] = findrect(pframe.l, pframe.d, &ptrunk, rl, pdepth);
366     for (x = 1; x < xsiz; x++) {
367     rl[x].l = rl[x].d = 0;
368 greg 1.9 rl[x].r = hresolu; rl[x].u = vresolu;
369     pl[x] = findrect(pframe.l+((x*hresolu)>>pdepth),
370 greg 1.1 pframe.d, &ptrunk, rl+x, pdepth);
371     }
372     /* sample the image */
373     for (y = 0; /* y < ysiz */ ; y++) {
374     for (x = 0; x < xsiz-1; x++) {
375 greg 1.20 if (dev->inpready || errno == ENOMEM)
376 greg 1.1 goto escape;
377     /*
378     * Test super-pixel to the right.
379     */
380     if (pl[x] != pl[x+1] && bigdiff(pl[x]->v,
381     pl[x+1]->v, maxdiff)) {
382     refine(pl[x], rl[x].l, rl[x].d,
383     rl[x].r, rl[x].u, 1);
384     refine(pl[x+1], rl[x+1].l, rl[x+1].d,
385     rl[x+1].r, rl[x+1].u, 1);
386     }
387     }
388     if (y >= ysiz-1)
389     break;
390     for (x = 0; x < xsiz; x++) {
391 greg 1.20 if (dev->inpready || errno == ENOMEM)
392 greg 1.1 goto escape;
393     /*
394     * Find super-pixel at this position in next row.
395     */
396     r.l = r.d = 0;
397 greg 1.9 r.r = hresolu; r.u = vresolu;
398     p = findrect(pframe.l+((x*hresolu)>>pdepth),
399     pframe.d+(((y+1)*vresolu)>>pdepth),
400 greg 1.1 &ptrunk, &r, pdepth);
401     /*
402     * Test super-pixel in next row.
403     */
404     if (pl[x] != p && bigdiff(pl[x]->v, p->v, maxdiff)) {
405     refine(pl[x], rl[x].l, rl[x].d,
406     rl[x].r, rl[x].u, 1);
407     refine(p, r.l, r.d, r.r, r.u, 1);
408     }
409     /*
410     * Copy into super-pixel array.
411     */
412     rl[x].l = r.l; rl[x].d = r.d;
413     rl[x].r = r.r; rl[x].u = r.u;
414     pl[x] = p;
415     }
416     }
417     escape:
418     free((char *)rl);
419     free((char *)pl);
420     }
421    
422    
423     int
424     refine(p, xmin, ymin, xmax, ymax, pd) /* refine a node */
425 greg 2.8 register PNODE *p;
426 greg 1.1 int xmin, ymin, xmax, ymax;
427     int pd;
428     {
429     int growth;
430     int mx, my;
431     int i;
432    
433     if (dev->inpready) /* quit for input */
434     return(0);
435    
436     if (pd <= 0) /* depth limit */
437     return(0);
438    
439     mx = (xmin + xmax) >> 1;
440     my = (ymin + ymax) >> 1;
441     growth = 0;
442    
443     if (p->kid == NULL) { /* subdivide */
444    
445     if ((p->kid = newptree()) == NULL)
446 greg 1.20 return(0);
447 greg 1.1 /*
448     * The following paint order can leave a black pixel
449 greg 2.7 * if redraw() is called in (*dev->paintr)().
450 greg 1.1 */
451     if (p->x >= mx && p->y >= my)
452     pcopy(p, p->kid+UR);
453     else
454     paint(p->kid+UR, mx, my, xmax, ymax);
455     if (p->x < mx && p->y >= my)
456     pcopy(p, p->kid+UL);
457     else
458     paint(p->kid+UL, xmin, my, mx, ymax);
459     if (p->x >= mx && p->y < my)
460     pcopy(p, p->kid+DR);
461     else
462     paint(p->kid+DR, mx, ymin, xmax, my);
463     if (p->x < mx && p->y < my)
464     pcopy(p, p->kid+DL);
465     else
466     paint(p->kid+DL, xmin, ymin, mx, my);
467    
468     growth++;
469     }
470     /* do children */
471     if (mx > pframe.l) {
472     if (my > pframe.d)
473     growth += refine(p->kid+DL, xmin, ymin, mx, my, pd-1);
474     if (my < pframe.u)
475     growth += refine(p->kid+UL, xmin, my, mx, ymax, pd-1);
476     }
477     if (mx < pframe.r) {
478     if (my > pframe.d)
479     growth += refine(p->kid+DR, mx, ymin, xmax, my, pd-1);
480     if (my < pframe.u)
481     growth += refine(p->kid+UR, mx, my, xmax, ymax, pd-1);
482     }
483     /* recompute sum */
484     if (growth) {
485     setcolor(p->v, 0.0, 0.0, 0.0);
486     for (i = 0; i < 4; i++)
487     addcolor(p->v, p->kid[i].v);
488     scalecolor(p->v, 0.25);
489     }
490     return(growth);
491     }