ViewVC Help
View File | Revision Log | Show Annotations | Download File | Root Listing
root/radiance/src/cv/bsdf2rad.c
Revision: 2.22
Committed: Tue Apr 11 02:21:37 2017 UTC (8 years, 6 months ago) by greg
Content type: text/plain
Branch: MAIN
Changes since 2.21: +19 -9 lines
Log Message: 
Fixed issue with up vector that was misorienting 3-D plots

File Contents

# User Rev Content
1 greg 2.1 #ifndef lint
2 greg 2.22 static const char RCSid[] = "$Id: bsdf2rad.c,v 2.21 2017/04/10 15:44:19 greg Exp $";
3 greg 2.1 #endif
4     /*
5 greg 2.4 * Plot 3-D BSDF output based on scattering interpolant or XML representation
6 greg 2.1 */
7    
8     #include <stdio.h>
9 greg 2.4 #include <string.h>
10 greg 2.1 #include <stdlib.h>
11 greg 2.16 #include "paths.h"
12     #include "rtmath.h"
13     #include "resolu.h"
14 greg 2.1 #include "bsdfrep.h"
15    
16 greg 2.18 #define NINCIDENT 37 /* number of samples/hemisphere */
17 greg 2.1
18 greg 2.16 #define GRIDSTEP 2 /* our grid step size */
19     #define SAMPRES (GRIDRES/GRIDSTEP)
20    
21     int front_comp = 0; /* front component flags (SDsamp*) */
22     int back_comp = 0; /* back component flags */
23     double overall_min = 1./PI; /* overall minimum BSDF value */
24     double min_log10; /* smallest log10 value for plotting */
25     double overall_max = .0; /* overall maximum BSDF value */
26    
27     char ourTempDir[TEMPLEN] = ""; /* our temporary directory */
28    
29     const char frpref[] = "frefl";
30     const char ftpref[] = "ftrans";
31     const char brpref[] = "brefl";
32     const char btpref[] = "btrans";
33     const char dsuffix[] = ".txt";
34    
35     const char sph_mat[] = "BSDFmat";
36     const double sph_rad = 10.;
37     const double sph_xoffset = 15.;
38    
39     #define bsdf_rad (sph_rad*.25)
40     #define arrow_rad (bsdf_rad*.015)
41    
42     #define FEQ(a,b) ((a)-(b) <= 1e-7 && (b)-(a) <= 1e-7)
43    
44     #define set_minlog() (min_log10 = log10(overall_min + 1e-5) - .1)
45    
46     char *progname;
47    
48     /* Get Fibonacci sphere vector (0 to NINCIDENT-1) */
49 greg 2.19 static RREAL *
50 greg 2.16 get_ivector(FVECT iv, int i)
51     {
52     const double phistep = PI*(3. - 2.236067978);
53     double r;
54    
55 greg 2.18 iv[2] = 1. - (i+.5)*(1./NINCIDENT);
56 greg 2.16 r = sqrt(1. - iv[2]*iv[2]);
57     iv[0] = r * cos((i+1.)*phistep);
58     iv[1] = r * sin((i+1.)*phistep);
59 greg 2.19
60     return(iv);
61     }
62    
63     /* Convert incident vector into sphere position */
64     static RREAL *
65     cvt_sposition(FVECT sp, const FVECT iv, int inc_side)
66     {
67 greg 2.20 sp[0] = -iv[0]*sph_rad + inc_side*sph_xoffset;
68 greg 2.19 sp[1] = -iv[1]*sph_rad;
69     sp[2] = iv[2]*sph_rad;
70    
71     return(sp);
72 greg 2.16 }
73    
74     /* Get temporary file name */
75     static char *
76     tfile_name(const char *prefix, const char *suffix, int i)
77     {
78     static char buf[128];
79    
80     if (!ourTempDir[0]) { /* create temporary directory */
81     mktemp(strcpy(ourTempDir,TEMPLATE));
82     if (mkdir(ourTempDir, 0777) < 0) {
83     perror("mkdir");
84     exit(1);
85     }
86     }
87     if (!prefix) prefix = "T";
88     if (!suffix) suffix = "";
89     sprintf(buf, "%s/%s%03d%s", ourTempDir, prefix, i, suffix);
90     return(buf);
91     }
92    
93     /* Remove temporary directory & contents */
94     static void
95     cleanup_tmp(void)
96     {
97     char buf[128];
98    
99     if (!ourTempDir[0])
100     return;
101 schorsch 2.15 #if defined(_WIN32) || defined(_WIN64)
102 greg 2.16 sprintf(buf, "RMDIR %s /S /Q", ourTempDir);
103 greg 2.11 #else
104 greg 2.16 sprintf(buf, "rm -rf %s", ourTempDir);
105 greg 2.11 #endif
106 greg 2.16 system(buf);
107     }
108    
109     /* Run the specified command, returning 1 if OK */
110     static int
111     run_cmd(const char *cmd)
112     {
113     fflush(stdout);
114     if (system(cmd)) {
115     fprintf(stderr, "%s: error running: %s\n", progname, cmd);
116     return(0);
117     }
118     return(1);
119     }
120    
121     /* Plot surface points for the given BSDF incident angle */
122     static int
123     plotBSDF(const char *fname, const FVECT ivec, int dfl, const SDData *sd)
124     {
125     FILE *fp = fopen(fname, "w");
126     int i, j;
127    
128     if (fp == NULL) {
129     fprintf(stderr, "%s: cannot open '%s' for writing\n",
130     progname, fname);
131     return(0);
132     }
133     if (ivec[2] > 0) {
134     input_orient = 1;
135     output_orient = dfl&SDsampR ? 1 : -1;
136     } else {
137     input_orient = -1;
138     output_orient = dfl&SDsampR ? -1 : 1;
139     }
140     for (i = SAMPRES; i--; )
141     for (j = 0; j < SAMPRES; j++) {
142     FVECT ovec;
143     SDValue sval;
144     double bsdf;
145     ovec_from_pos(ovec, i*GRIDSTEP, j*GRIDSTEP);
146     if (SDreportError(SDevalBSDF(&sval, ovec,
147     ivec, sd), stderr))
148     return(0);
149     if (sval.cieY > overall_max)
150     overall_max = sval.cieY;
151     bsdf = (sval.cieY < overall_min) ? overall_min : sval.cieY;
152     bsdf = log10(bsdf) - min_log10;
153     fprintf(fp, "%.5f %.5f %.5f\n",
154     ovec[0]*bsdf, ovec[1]*bsdf, ovec[2]*bsdf);
155     }
156     if (fclose(fp) == EOF) {
157     fprintf(stderr, "%s: error writing data to '%s'\n",
158     progname, fname);
159     return(0);
160     }
161     return(1);
162     }
163    
164     /* Build BSDF values from loaded XML file */
165     static int
166     build_wBSDF(const SDData *sd)
167     {
168     FVECT ivec;
169     int i;
170    
171     if (front_comp & SDsampR)
172     for (i = 0; i < NINCIDENT; i++) {
173     get_ivector(ivec, i);
174     if (!plotBSDF(tfile_name(frpref, dsuffix, i),
175     ivec, SDsampR, sd))
176     return(0);
177     }
178     if (front_comp & SDsampT)
179     for (i = 0; i < NINCIDENT; i++) {
180     get_ivector(ivec, i);
181     if (!plotBSDF(tfile_name(ftpref, dsuffix, i),
182     ivec, SDsampT, sd))
183     return(0);
184     }
185     if (back_comp & SDsampR)
186     for (i = 0; i < NINCIDENT; i++) {
187     get_ivector(ivec, i);
188     ivec[0] = -ivec[0]; ivec[2] = -ivec[2];
189     if (!plotBSDF(tfile_name(brpref, dsuffix, i),
190     ivec, SDsampR, sd))
191     return(0);
192     }
193     if (back_comp & SDsampT)
194     for (i = 0; i < NINCIDENT; i++) {
195     get_ivector(ivec, i);
196     ivec[0] = -ivec[0]; ivec[2] = -ivec[2];
197     if (!plotBSDF(tfile_name(btpref, dsuffix, i),
198     ivec, SDsampT, sd))
199     return(0);
200     }
201     return(1);
202     }
203    
204     /* Plot surface points using radial basis function */
205     static int
206     plotRBF(const char *fname, const RBFNODE *rbf)
207     {
208     FILE *fp = fopen(fname, "w");
209     int i, j;
210    
211     if (fp == NULL) {
212     fprintf(stderr, "%s: cannot open '%s' for writing\n",
213     progname, fname);
214     return(0);
215     }
216     for (i = SAMPRES; i--; )
217     for (j = 0; j < SAMPRES; j++) {
218     FVECT ovec;
219     double bsdf;
220     ovec_from_pos(ovec, i*GRIDSTEP, j*GRIDSTEP);
221     bsdf = eval_rbfrep(rbf, ovec);
222     if (bsdf > overall_max)
223     overall_max = bsdf;
224     else if (bsdf < overall_min)
225     bsdf = overall_min;
226     bsdf = log10(bsdf) - min_log10;
227     fprintf(fp, "%.5f %.5f %.5f\n",
228     ovec[0]*bsdf, ovec[1]*bsdf, ovec[2]*bsdf);
229     }
230     if (fclose(fp) == EOF) {
231     fprintf(stderr, "%s: error writing data to '%s'\n",
232     progname, fname);
233     return(0);
234     }
235     return(1);
236     }
237    
238     /* Build BSDF values from scattering interpolant representation */
239     static int
240     build_wRBF(void)
241     {
242     const char *pref;
243     int i;
244    
245     if (input_orient > 0) {
246     if (output_orient > 0)
247     pref = frpref;
248     else
249     pref = ftpref;
250     } else if (output_orient < 0)
251     pref = brpref;
252     else
253     pref = btpref;
254    
255     for (i = 0; i < NINCIDENT; i++) {
256     FVECT ivec;
257     RBFNODE *rbf;
258     get_ivector(ivec, i);
259     if (input_orient < 0) {
260 greg 2.19 ivec[0] = -ivec[0]; ivec[2] = -ivec[2];
261 greg 2.16 }
262     rbf = advect_rbf(ivec, 15000);
263     if (!plotRBF(tfile_name(pref, dsuffix, i), rbf))
264     return(0);
265     if (rbf) free(rbf);
266     }
267     return(1); /* next call frees */
268     }
269    
270     /* Put out mirror arrow for the given incident vector */
271     static void
272     put_mirror_arrow(const FVECT ivec, int inc_side)
273     {
274     const double arrow_len = 1.2*bsdf_rad;
275     const double tip_len = 0.2*bsdf_rad;
276     FVECT origin, refl;
277     int i;
278    
279 greg 2.19 cvt_sposition(origin, ivec, inc_side);
280 greg 2.16
281 greg 2.19 refl[0] = -2.*ivec[2]*ivec[0];
282     refl[1] = -2.*ivec[2]*ivec[1];
283 greg 2.16 refl[2] = 2.*ivec[2]*ivec[2] - 1.;
284    
285     printf("\n# Mirror arrow\n");
286     printf("\narrow_mat cylinder inc_dir\n0\n0\n7");
287     printf("\n\t%f %f %f\n\t%f %f %f\n\t%f\n",
288     origin[0], origin[1], origin[2]+arrow_len,
289     origin[0], origin[1], origin[2],
290     arrow_rad);
291     printf("\narrow_mat cylinder mir_dir\n0\n0\n7");
292     printf("\n\t%f %f %f\n\t%f %f %f\n\t%f\n",
293     origin[0], origin[1], origin[2],
294     origin[0] + arrow_len*refl[0],
295     origin[1] + arrow_len*refl[1],
296     origin[2] + arrow_len*refl[2],
297     arrow_rad);
298     printf("\narrow_mat cone mir_tip\n0\n0\n8");
299     printf("\n\t%f %f %f\n\t%f %f %f\n\t%f 0\n",
300     origin[0] + (arrow_len-.5*tip_len)*refl[0],
301     origin[1] + (arrow_len-.5*tip_len)*refl[1],
302     origin[2] + (arrow_len-.5*tip_len)*refl[2],
303     origin[0] + (arrow_len+.5*tip_len)*refl[0],
304     origin[1] + (arrow_len+.5*tip_len)*refl[1],
305     origin[2] + (arrow_len+.5*tip_len)*refl[2],
306     2.*arrow_rad);
307     }
308    
309     /* Put out transmitted direction arrow for the given incident vector */
310     static void
311     put_trans_arrow(const FVECT ivec, int inc_side)
312     {
313     const double arrow_len = 1.2*bsdf_rad;
314     const double tip_len = 0.2*bsdf_rad;
315     FVECT origin;
316     int i;
317    
318 greg 2.19 cvt_sposition(origin, ivec, inc_side);
319 greg 2.16
320     printf("\n# Transmission arrow\n");
321     printf("\narrow_mat cylinder trans_dir\n0\n0\n7");
322     printf("\n\t%f %f %f\n\t%f %f %f\n\t%f\n",
323     origin[0], origin[1], origin[2],
324     origin[0], origin[1], origin[2]-arrow_len,
325     arrow_rad);
326     printf("\narrow_mat cone trans_tip\n0\n0\n8");
327     printf("\n\t%f %f %f\n\t%f %f %f\n\t%f 0\n",
328     origin[0], origin[1], origin[2]-arrow_len+.5*tip_len,
329     origin[0], origin[1], origin[2]-arrow_len-.5*tip_len,
330     2.*arrow_rad);
331     }
332    
333     /* Compute rotation (x,y,z) => (xp,yp,zp) */
334     static int
335     addrot(char *xf, const FVECT xp, const FVECT yp, const FVECT zp)
336     {
337     int n = 0;
338     double theta;
339 greg 2.10
340 greg 2.16 if (yp[2]*yp[2] + zp[2]*zp[2] < 2.*FTINY*FTINY) {
341     /* Special case for X' along Z-axis */
342     theta = -atan2(yp[0], yp[1]);
343     sprintf(xf, " -ry %f -rz %f",
344     xp[2] < 0.0 ? 90.0 : -90.0,
345     theta*(180./PI));
346     return(4);
347     }
348     theta = atan2(yp[2], zp[2]);
349     if (!FEQ(theta,0.0)) {
350     sprintf(xf, " -rx %f", theta*(180./PI));
351     while (*xf) ++xf;
352     n += 2;
353     }
354     theta = Asin(-xp[2]);
355     if (!FEQ(theta,0.0)) {
356     sprintf(xf, " -ry %f", theta*(180./PI));
357     while (*xf) ++xf;
358     n += 2;
359     }
360     theta = atan2(xp[1], xp[0]);
361     if (!FEQ(theta,0.0)) {
362     sprintf(xf, " -rz %f", theta*(180./PI));
363     /* while (*xf) ++xf; */
364     n += 2;
365     }
366     return(n);
367     }
368    
369     /* Put out BSDF surfaces */
370     static int
371     put_BSDFs(void)
372     {
373     const double scalef = bsdf_rad/(log10(overall_max) - min_log10);
374 greg 2.22 FVECT ivec, sorg, upv;
375 greg 2.16 RREAL vMtx[3][3];
376     char *fname;
377     char cmdbuf[256];
378     char xfargs[128];
379     int nxfa;
380     int i;
381    
382     printf("\n# Gensurf output corresponding to %d incident directions\n",
383     NINCIDENT);
384    
385     printf("\nvoid glow arrow_glow\n0\n0\n4 1 0 1 0\n");
386 greg 2.20 printf("\nvoid mixfunc arrow_mat\n4 arrow_glow void 0.5 .\n0\n0\n");
387 greg 2.16
388 greg 2.19 if (front_comp & SDsampR) /* front reflection */
389 greg 2.16 for (i = 0; i < NINCIDENT; i++) {
390     get_ivector(ivec, i);
391     put_mirror_arrow(ivec, 1);
392 greg 2.19 cvt_sposition(sorg, ivec, 1);
393     ivec[0] = -ivec[0]; ivec[1] = -ivec[1]; /* normal */
394 greg 2.22 upv[0] = ivec[0]*ivec[1]*(ivec[2] - 1.);
395     upv[1] = ivec[0]*ivec[0] + ivec[1]*ivec[1]*ivec[2];
396     upv[2] = -ivec[1]*(ivec[0]*ivec[0] + ivec[1]*ivec[1]);
397 greg 2.16 sprintf(xfargs, "-s %f -t %f %f %f", bsdf_rad,
398 greg 2.19 sorg[0], sorg[1], sorg[2]);
399 greg 2.16 nxfa = 6;
400     printf("\nvoid colorfunc scale_pat\n");
401     printf("%d bsdf_red bsdf_grn bsdf_blu bsdf2rad.cal\n\t%s\n0\n0\n",
402     4+nxfa, xfargs);
403     printf("\nscale_pat glow scale_mat\n0\n0\n4 1 1 1 0\n");
404 greg 2.22 SDcompXform(vMtx, ivec, upv);
405 greg 2.16 nxfa = addrot(xfargs, vMtx[0], vMtx[1], vMtx[2]);
406     sprintf(xfargs+strlen(xfargs), " -s %f -t %f %f %f",
407 greg 2.19 scalef, sorg[0], sorg[1], sorg[2]);
408 greg 2.16 nxfa += 6;
409     fname = tfile_name(frpref, dsuffix, i);
410 greg 2.19 sprintf(cmdbuf, "gensurf scale_mat %s%d %s %s %s %d %d | xform %s",
411 greg 2.20 frpref, i, fname, fname, fname, SAMPRES-1, SAMPRES-1,
412 greg 2.16 xfargs);
413     if (!run_cmd(cmdbuf))
414     return(0);
415     }
416 greg 2.19 if (front_comp & SDsampT) /* front transmission */
417 greg 2.16 for (i = 0; i < NINCIDENT; i++) {
418     get_ivector(ivec, i);
419     put_trans_arrow(ivec, 1);
420 greg 2.19 cvt_sposition(sorg, ivec, 1);
421     ivec[0] = -ivec[0]; ivec[1] = -ivec[1]; /* normal */
422 greg 2.22 upv[0] = ivec[0]*ivec[1]*(ivec[2] - 1.);
423     upv[1] = ivec[0]*ivec[0] + ivec[1]*ivec[1]*ivec[2];
424     upv[2] = -ivec[1]*(ivec[0]*ivec[0] + ivec[1]*ivec[1]);
425 greg 2.16 sprintf(xfargs, "-s %f -t %f %f %f", bsdf_rad,
426 greg 2.19 sorg[0], sorg[1], sorg[2]);
427 greg 2.16 nxfa = 6;
428     printf("\nvoid colorfunc scale_pat\n");
429     printf("%d bsdf_red bsdf_grn bsdf_blu bsdf2rad.cal\n\t%s\n0\n0\n",
430     4+nxfa, xfargs);
431     printf("\nscale_pat glow scale_mat\n0\n0\n4 1 1 1 0\n");
432 greg 2.22 SDcompXform(vMtx, ivec, upv);
433 greg 2.16 nxfa = addrot(xfargs, vMtx[0], vMtx[1], vMtx[2]);
434     sprintf(xfargs+strlen(xfargs), " -s %f -t %f %f %f",
435 greg 2.19 scalef, sorg[0], sorg[1], sorg[2]);
436 greg 2.16 nxfa += 6;
437     fname = tfile_name(ftpref, dsuffix, i);
438 greg 2.19 sprintf(cmdbuf, "gensurf scale_mat %s%d %s %s %s %d %d | xform -I %s",
439 greg 2.20 ftpref, i, fname, fname, fname, SAMPRES-1, SAMPRES-1,
440 greg 2.16 xfargs);
441     if (!run_cmd(cmdbuf))
442     return(0);
443     }
444 greg 2.19 if (back_comp & SDsampR) /* rear reflection */
445 greg 2.16 for (i = 0; i < NINCIDENT; i++) {
446     get_ivector(ivec, i);
447     put_mirror_arrow(ivec, -1);
448 greg 2.19 cvt_sposition(sorg, ivec, -1);
449     ivec[0] = -ivec[0]; ivec[1] = -ivec[1]; /* normal */
450 greg 2.22 upv[0] = ivec[0]*ivec[1]*(ivec[2] - 1.);
451     upv[1] = ivec[0]*ivec[0] + ivec[1]*ivec[1]*ivec[2];
452     upv[2] = -ivec[1]*(ivec[0]*ivec[0] + ivec[1]*ivec[1]);
453 greg 2.16 sprintf(xfargs, "-s %f -t %f %f %f", bsdf_rad,
454 greg 2.19 sorg[0], sorg[1], sorg[2]);
455 greg 2.16 nxfa = 6;
456     printf("\nvoid colorfunc scale_pat\n");
457     printf("%d bsdf_red bsdf_grn bsdf_blu bsdf2rad.cal\n\t%s\n0\n0\n",
458     4+nxfa, xfargs);
459     printf("\nscale_pat glow scale_mat\n0\n0\n4 1 1 1 0\n");
460 greg 2.22 SDcompXform(vMtx, ivec, upv);
461 greg 2.16 nxfa = addrot(xfargs, vMtx[0], vMtx[1], vMtx[2]);
462     sprintf(xfargs+strlen(xfargs), " -s %f -t %f %f %f",
463 greg 2.19 scalef, sorg[0], sorg[1], sorg[2]);
464 greg 2.16 nxfa += 6;
465     fname = tfile_name(brpref, dsuffix, i);
466 greg 2.19 sprintf(cmdbuf, "gensurf scale_mat %s%d %s %s %s %d %d | xform -I -ry 180 %s",
467 greg 2.20 brpref, i, fname, fname, fname, SAMPRES-1, SAMPRES-1,
468 greg 2.16 xfargs);
469     if (!run_cmd(cmdbuf))
470     return(0);
471     }
472 greg 2.19 if (back_comp & SDsampT) /* rear transmission */
473 greg 2.16 for (i = 0; i < NINCIDENT; i++) {
474     get_ivector(ivec, i);
475     put_trans_arrow(ivec, -1);
476 greg 2.19 cvt_sposition(sorg, ivec, -1);
477     ivec[0] = -ivec[0]; ivec[1] = -ivec[1]; /* normal */
478 greg 2.22 upv[0] = ivec[0]*ivec[1]*(ivec[2] - 1.);
479     upv[1] = ivec[0]*ivec[0] + ivec[1]*ivec[1]*ivec[2];
480     upv[2] = -ivec[1]*(ivec[0]*ivec[0] + ivec[1]*ivec[1]);
481 greg 2.16 sprintf(xfargs, "-s %f -t %f %f %f", bsdf_rad,
482 greg 2.19 sorg[0], sorg[1], sorg[2]);
483 greg 2.16 nxfa = 6;
484     printf("\nvoid colorfunc scale_pat\n");
485     printf("%d bsdf_red bsdf_grn bsdf_blu bsdf2rad.cal\n\t%s\n0\n0\n",
486     4+nxfa, xfargs);
487     printf("\nscale_pat glow scale_mat\n0\n0\n4 1 1 1 0\n");
488 greg 2.22 SDcompXform(vMtx, ivec, upv);
489 greg 2.16 nxfa = addrot(xfargs, vMtx[0], vMtx[1], vMtx[2]);
490     sprintf(xfargs+strlen(xfargs), " -s %f -t %f %f %f",
491 greg 2.19 scalef, sorg[0], sorg[1], sorg[2]);
492 greg 2.16 nxfa += 6;
493     fname = tfile_name(btpref, dsuffix, i);
494 greg 2.19 sprintf(cmdbuf, "gensurf scale_mat %s%d %s %s %s %d %d | xform -ry 180 %s",
495 greg 2.20 btpref, i, fname, fname, fname, SAMPRES-1, SAMPRES-1,
496 greg 2.16 xfargs);
497     if (!run_cmd(cmdbuf))
498     return(0);
499     }
500     return(1);
501     }
502    
503     /* Put our hemisphere material */
504     static void
505     put_matBSDF(const char *XMLfile)
506     {
507     const char *curdir = "./";
508    
509     if (!XMLfile) { /* simple material */
510     printf("\n# Simplified material because we have no XML input\n");
511     printf("\nvoid brightfunc latlong\n2 latlong bsdf2rad.cal\n0\n0\n");
512     if ((front_comp|back_comp) & SDsampT)
513 greg 2.20 printf("\nlatlong trans %s\n0\n0\n7 .75 .75 .75 0 .04 .5 .8\n",
514 greg 2.16 sph_mat);
515     else
516     printf("\nlatlong plastic %s\n0\n0\n5 .5 .5 .5 0 0\n",
517     sph_mat);
518     return;
519     }
520     switch (XMLfile[0]) { /* avoid RAYPATH search */
521     case '.':
522     CASEDIRSEP:
523     curdir = "";
524     break;
525     case '\0':
526     fprintf(stderr, "%s: empty file name in put_matBSDF\n", progname);
527     exit(1);
528     break;
529     }
530     printf("\n# Actual BSDF material for rendering the hemispheres\n");
531 greg 2.22 printf("\nvoid BSDF BSDFmat\n6 0 \"%s%s\" upx upy upz bsdf2rad.cal\n0\n0\n",
532 greg 2.16 curdir, XMLfile);
533     printf("\nvoid plastic black\n0\n0\n5 0 0 0 0 0\n");
534     printf("\nvoid mixfunc %s\n4 BSDFmat black latlong bsdf2rad.cal\n0\n0\n",
535     sph_mat);
536     }
537    
538     /* Put out overhead parallel light source */
539     static void
540     put_source(void)
541     {
542     printf("\n# Overhead parallel light source\n");
543 greg 2.20 printf("\nvoid light bright\n0\n0\n3 2500 2500 2500\n");
544 greg 2.16 printf("\nbright source light\n0\n0\n4 0 0 1 2\n");
545     printf("\n# Material used for labels\n");
546     printf("\nvoid trans vellum\n0\n0\n7 1 1 1 0 0 .5 0\n");
547     }
548    
549     /* Put out hemisphere(s) */
550     static void
551     put_hemispheres(void)
552     {
553 greg 2.21 const int nsegs = 131;
554    
555 greg 2.16 printf("\n# Hemisphere(s) for showing BSDF appearance (if XML file)\n");
556     if (front_comp) {
557 greg 2.21 printf(
558     "\n!genrev %s Front \"R*sin(A*t)\" \"R*cos(A*t)\" %d -e \"R:%g;A:%f\" -s | xform -t %g 0 0\n",
559     sph_mat, nsegs, sph_rad, 0.495*PI, sph_xoffset);
560 greg 2.16 printf("\nvoid brighttext front_text\n3 helvet.fnt . FRONT\n0\n");
561     printf("12\n\t%f %f 0\n\t%f 0 0\n\t0 %f 0\n\t.01 1 -.1\n",
562 greg 2.20 -.22*sph_rad + sph_xoffset, -1.4*sph_rad,
563 greg 2.16 .35/5.*sph_rad, -1.6*.35/5.*sph_rad);
564     printf("\nfront_text alias front_label_mat vellum\n");
565     printf("\nfront_label_mat polygon front_label\n0\n0\n12");
566     printf("\n\t%f %f 0\n\t%f %f 0\n\t%f %f 0\n\t%f %f 0\n",
567 greg 2.20 -.25*sph_rad + sph_xoffset, -1.3*sph_rad,
568     -.25*sph_rad + sph_xoffset, (-1.4-1.6*.35/5.-.1)*sph_rad,
569     .25*sph_rad + sph_xoffset, (-1.4-1.6*.35/5.-.1)*sph_rad,
570     .25*sph_rad + sph_xoffset, -1.3*sph_rad );
571 greg 2.16 }
572     if (back_comp) {
573 greg 2.21 printf(
574     "\n!genrev %s Back \"R*cos(A*t)\" \"R*sin(A*t)\" %d -e \"R:%g;A:%f\" -s | xform -t %g 0 0\n",
575     sph_mat, nsegs, sph_rad, 0.495*PI, -sph_xoffset);
576 greg 2.16 printf("\nvoid brighttext back_text\n3 helvet.fnt . BACK\n0\n");
577     printf("12\n\t%f %f 0\n\t%f 0 0\n\t0 %f 0\n\t.01 1 -.1\n",
578 greg 2.20 -.22*sph_rad - sph_xoffset, -1.4*sph_rad,
579 greg 2.16 .35/4.*sph_rad, -1.6*.35/4.*sph_rad);
580     printf("\nback_text alias back_label_mat vellum\n");
581     printf("\nback_label_mat polygon back_label\n0\n0\n12");
582     printf("\n\t%f %f 0\n\t%f %f 0\n\t%f %f 0\n\t%f %f 0\n",
583 greg 2.20 -.25*sph_rad - sph_xoffset, -1.3*sph_rad,
584     -.25*sph_rad - sph_xoffset, (-1.4-1.6*.35/4.-.1)*sph_rad,
585     .25*sph_rad - sph_xoffset, (-1.4-1.6*.35/4.-.1)*sph_rad,
586     .25*sph_rad - sph_xoffset, -1.3*sph_rad );
587 greg 2.16 }
588     }
589    
590     /* Put out falsecolor scale and name label */
591     static void
592     put_scale(void)
593     {
594     const double max_log10 = log10(overall_max);
595 greg 2.20 const double leg_width = 2.*.75*(fabs(sph_xoffset) - sph_rad);
596 greg 2.16 const double leg_height = 2.*sph_rad;
597     const int text_lines = 6;
598 greg 2.17 const int text_digits = 8;
599 greg 2.16 char fmt[16];
600     int i;
601    
602     printf("\n# BSDF legend with falsecolor scale\n");
603     printf("\nvoid colorfunc lscale\n10 sca_red(Py) sca_grn(Py) sca_blu(Py)");
604     printf("\n\tbsdf2rad.cal -s %f -t 0 %f 0\n0\n0\n", leg_height, -.5*leg_height);
605 greg 2.17 sprintf(fmt, "%%.%df", text_digits-3);
606 greg 2.16 for (i = 0; i < text_lines; i++) {
607     char vbuf[16];
608     sprintf(vbuf, fmt, pow(10., (i+.5)/text_lines*(max_log10-min_log10)+min_log10));
609     printf("\nlscale brighttext lscale\n");
610     printf("3 helvet.fnt . %s\n0\n12\n", vbuf);
611     printf("\t%f %f 0\n", -.45*leg_width, ((i+.9)/text_lines-.5)*leg_height);
612 greg 2.17 printf("\t%f 0 0\n", .8*leg_width/strlen(vbuf));
613 greg 2.16 printf("\t0 %f 0\n", -.9/text_lines*leg_height);
614     printf("\t.01 1 -.1\n");
615     }
616     printf("\nlscale alias legend_mat vellum\n");
617     printf("\nlegend_mat polygon legend\n0\n0\n12");
618     printf("\n\t%f %f 0\n\t%f %f 0\n\t%f %f 0\n\t%f %f 0\n",
619     -.5*leg_width, .5*leg_height,
620     -.5*leg_width, -.5*leg_height,
621     .5*leg_width, -.5*leg_height,
622     .5*leg_width, .5*leg_height);
623     printf("\nvoid brighttext BSDFtitle\n3 helvet.fnt . BSDF\n0\n12\n");
624     printf("\t%f %f 0\n", -.25*leg_width, .7*leg_height);
625     printf("\t%f 0 0\n", .4/4.*leg_width);
626     printf("\t0 %f 0\n", -.1*leg_height);
627     printf("\t.01 1 -.1\n");
628     printf("\nBSDFtitle alias title_mat vellum\n");
629     printf("\ntitle_mat polygon title\n0\n0\n12");
630     printf("\n\t%f %f 0\n\t%f %f 0\n\t%f %f 0\n\t%f %f 0\n",
631     -.3*leg_width, .75*leg_height,
632     -.3*leg_width, .55*leg_height,
633     .3*leg_width, .55*leg_height,
634     .3*leg_width, .75*leg_height);
635     if (!bsdf_name[0])
636     return;
637     printf("\nvoid brighttext BSDFname\n3 helvet.fnt . \"%s\"\n0\n12\n", bsdf_name);
638     printf("\t%f %f 0\n", -.95*leg_width, -.6*leg_height);
639 greg 2.18 printf("\t%f 0 0\n", 1.8/strlen(bsdf_name)*leg_width);
640 greg 2.16 printf("\t0 %f 0\n", -.1*leg_height);
641     printf("\t.01 1 -.1\n");
642     printf("\nBSDFname alias name_mat vellum\n");
643     printf("\nname_mat polygon name\n0\n0\n12");
644     printf("\n\t%f %f 0\n\t%f %f 0\n\t%f %f 0\n\t%f %f 0\n",
645     -leg_width, -.55*leg_height,
646     -leg_width, -.75*leg_height,
647     leg_width, -.75*leg_height,
648     leg_width, -.55*leg_height);
649     }
650    
651     /* Convert MGF to Radiance in output */
652     static void
653     convert_mgf(const char *mgfdata)
654     {
655     int len = strlen(mgfdata);
656     char mgfn[128];
657     char radfn[128];
658     char cmdbuf[256];
659     float xmin, xmax, ymin, ymax, zmin, zmax;
660     double max_dim;
661     int fd;
662     FILE *fp;
663    
664     if (!len) return;
665     strcpy(mgfn, tfile_name("geom", ".mgf", 0));
666     fd = open(mgfn, O_WRONLY|O_CREAT, 0666);
667     if (fd < 0 || write(fd, mgfdata, len) != len) {
668     fprintf(stderr, "%s: cannot write file '%s'\n",
669     progname, mgfn);
670     return;
671     }
672     close(fd);
673     strcpy(radfn, tfile_name("geom", ".rad", 0));
674     sprintf(cmdbuf, "mgf2rad %s > %s", mgfn, radfn);
675     if (!run_cmd(cmdbuf))
676     return;
677     sprintf(cmdbuf, "getbbox -w -h %s", radfn);
678     if ((fp = popen(cmdbuf, "r")) == NULL ||
679     fscanf(fp, "%f %f %f %f %f %f",
680     &xmin, &xmax, &ymin, &ymax, &zmin, &zmax) != 6
681     || pclose(fp) < 0) {
682     fprintf(stderr, "%s: error reading from command: %s\n",
683     progname, cmdbuf);
684     return;
685     }
686     max_dim = ymax - ymin;
687     if (xmax - xmin > max_dim)
688     max_dim = xmax - xmin;
689     if (front_comp) {
690     printf("\n# BSDF system geometry (front view)\n");
691     sprintf(cmdbuf, "xform -t %f %f %f -s %f -t %f %f 0 %s",
692     -.5*(xmin+xmax), -.5*(ymin+ymax), -zmax,
693     1.5*sph_rad/max_dim,
694 greg 2.20 sph_xoffset, -2.5*sph_rad,
695 greg 2.16 radfn);
696     if (!run_cmd(cmdbuf))
697     return;
698     }
699     if (back_comp) {
700     printf("\n# BSDF system geometry (back view)\n");
701     sprintf(cmdbuf, "xform -t %f %f %f -s %f -ry 180 -t %f %f 0 %s",
702     -.5*(xmin+xmax), -.5*(ymin+ymax), -zmin,
703     1.5*sph_rad/max_dim,
704 greg 2.20 -sph_xoffset, -2.5*sph_rad,
705 greg 2.16 radfn);
706     if (!run_cmd(cmdbuf))
707     return;
708     }
709     }
710    
711     /* Check RBF input header line & get minimum BSDF value */
712     static int
713     rbf_headline(char *s, void *p)
714     {
715     char fmt[64];
716    
717     if (formatval(fmt, s)) {
718     if (strcmp(fmt, BSDFREP_FMT))
719     return(-1);
720     return(0);
721     }
722     if (!strncmp(s, "IO_SIDES=", 9)) {
723     sscanf(s+9, "%d %d", &input_orient, &output_orient);
724     if (input_orient == output_orient) {
725     if (input_orient > 0)
726     front_comp |= SDsampR;
727     else
728     back_comp |= SDsampR;
729     } else if (input_orient > 0)
730     front_comp |= SDsampT;
731     else
732     back_comp |= SDsampT;
733     return(0);
734     }
735     if (!strncmp(s, "BSDFMIN=", 8)) {
736     sscanf(s+8, "%lf", &bsdf_min);
737     if (bsdf_min < overall_min)
738     overall_min = bsdf_min;
739     return(0);
740     }
741     return(0);
742     }
743 greg 2.1
744 greg 2.16 /* Produce a Radiance model plotting the given BSDF representation */
745 greg 2.1 int
746     main(int argc, char *argv[])
747     {
748 greg 2.4 int inpXML = -1;
749     SDData myBSDF;
750 greg 2.16 int n;
751 greg 2.4 /* check arguments */
752 greg 2.1 progname = argv[0];
753 greg 2.16 if (argc > 1 && (n = strlen(argv[1])-4) > 0) {
754 greg 2.4 if (!strcasecmp(argv[1]+n, ".xml"))
755     inpXML = 1;
756     else if (!strcasecmp(argv[1]+n, ".sir"))
757     inpXML = 0;
758     }
759 greg 2.16 if (inpXML < 0 || inpXML & (argc > 2)) {
760     fprintf(stderr, "Usage: %s bsdf.xml > output.rad\n", progname);
761     fprintf(stderr, " Or: %s hemi1.sir hemi2.sir .. > output.rad\n", progname);
762 greg 2.1 return(1);
763     }
764 greg 2.16 fputs("# ", stdout); /* copy our command */
765     printargs(argc, argv, stdout);
766     /* evaluate BSDF */
767 greg 2.4 if (inpXML) {
768     SDclearBSDF(&myBSDF, argv[1]);
769     if (SDreportError(SDloadFile(&myBSDF, argv[1]), stderr))
770     return(1);
771 greg 2.16 if (myBSDF.rf != NULL) front_comp |= SDsampR;
772     if (myBSDF.tf != NULL) front_comp |= SDsampT;
773     if (myBSDF.rb != NULL) back_comp |= SDsampR;
774     if (myBSDF.tb != NULL) back_comp |= SDsampT;
775     if (!front_comp & !back_comp) {
776     fprintf(stderr, "%s: nothing to plot in '%s'\n",
777 greg 2.4 progname, argv[1]);
778     return(1);
779     }
780 greg 2.16 if (front_comp & SDsampR && myBSDF.rLambFront.cieY < overall_min*PI)
781     overall_min = myBSDF.rLambFront.cieY/PI;
782     if (back_comp & SDsampR && myBSDF.rLambBack.cieY < overall_min*PI)
783     overall_min = myBSDF.rLambBack.cieY/PI;
784     if ((front_comp|back_comp) & SDsampT &&
785     myBSDF.tLamb.cieY < overall_min*PI)
786     overall_min = myBSDF.tLamb.cieY/PI;
787     set_minlog();
788     if (!build_wBSDF(&myBSDF))
789 greg 2.9 return(1);
790 greg 2.16 if (myBSDF.matn[0])
791     strcpy(bsdf_name, myBSDF.matn);
792 greg 2.1 else
793 greg 2.16 strcpy(bsdf_name, myBSDF.name);
794     strcpy(bsdf_manuf, myBSDF.makr);
795     put_matBSDF(argv[1]);
796     } else {
797     FILE *fp;
798     for (n = 1; n < argc; n++) {
799     fp = fopen(argv[n], "rb");
800     if (fp == NULL) {
801     fprintf(stderr, "%s: cannot open BSDF interpolant '%s'\n",
802     progname, argv[n]);
803     return(1);
804     }
805     if (getheader(fp, rbf_headline, NULL) < 0) {
806     fprintf(stderr, "%s: bad BSDF interpolant '%s'\n",
807     progname, argv[n]);
808     return(1);
809 greg 2.2 }
810 greg 2.16 fclose(fp);
811 greg 2.2 }
812 greg 2.16 set_minlog();
813     for (n = 1; n < argc; n++) {
814     fp = fopen(argv[n], "rb");
815     if (!load_bsdf_rep(fp))
816     return(1);
817     fclose(fp);
818     if (!build_wRBF())
819     return(1);
820 greg 2.2 }
821 greg 2.16 put_matBSDF(NULL);
822 greg 2.1 }
823 greg 2.16 put_source(); /* before hemispheres & labels */
824     put_hemispheres();
825     put_scale();
826     if (inpXML && myBSDF.mgf)
827     convert_mgf(myBSDF.mgf);
828     if (!put_BSDFs())
829     return(1);
830     cleanup_tmp();
831 greg 2.1 return(0);
832     }