[ViewVC] Diff of: radiance/ray/src/gen/gendaymtx.c

Comparing ray/src/gen/gendaymtx.c (file contents):
Revision 2.19 by greg, Tue Dec 30 20:35:34 2014 UTC vs.
Revision 2.35 by greg, Tue Jan 7 18:26:55 2020 UTC

#	Line 81 \| Line 81 \| static const char RCSid[] = "$Id$";
81
82		/* Include files */
83		#define _USE_MATH_DEFINES
84	–	#include <stdio.h>
84		#include <stdlib.h>
86	–	#include <string.h>
85		#include <ctype.h>
88	–	#include "rtmath.h"
86		#include "platform.h"
87	+	#include "rtmath.h"
88	+	#include "rtio.h"
89		#include "color.h"
90	<	#include "resolu.h"
90	>	#include "sun.h"
91
92		char progname; / Program name */
93		char errmsg[128]; /* Error message buffer */
#	Line 253 \| Line 252 \| static const ModelCoeff DirectLumEff[8] =
252		#define NSUNPATCH 4 /* max. # patches to spread sun into */
253		#endif
254
255	<	extern int jdate(int month, int day);
257	<	extern double stadj(int jd);
258	<	extern double sdec(int jd);
259	<	extern double salt(double sd, double st);
260	<	extern double sazi(double sd, double st);
261	<	/* sun calculation constants */
262	<	extern double s_latitude;
263	<	extern double s_longitude;
264	<	extern double s_meridian;
255	>	#define SUN_ANG_DEG 0.533 /* sun full-angle in degrees */
256
257		int nsuns = NSUNPATCH; /* number of sun patches to use */
258		double fixed_sun_sa = -1; /* fixed solid angle per sun? */
#	Line 292 \| Line 283 \| *float rh_dom; /* sky patch solid angle (sr) /*
283
284		extern int rh_init(void);
285		extern float * resize_dmatrix(float *mtx_data, int nsteps, int npatch);
286	+	extern void OutputSun(int id, FILE *fp);
287		extern void AddDirect(float *parr);
288
289
#	Line 318 \| Line 310 \| *main(int argc, char argv[])**
310		double rotation = 0; /* site rotation (degrees) */
311		double elevation; /* site elevation (meters) */
312		int dir_is_horiz; /* direct is meas. on horizontal? */
313	+	FILE sunsfp = NULL; / output file for individual suns */
314		float mtx_data = NULL; / our matrix data */
315	<	int ntsteps = 0; /* number of rows in matrix */
316	<	int step_alloc = 0;
315	>	int avgSky = 0; /* compute average sky r.t. matrix? */
316	>	int ntsteps = 0; /* number of time steps */
317	>	int tstorage = 0; /* number of allocated time steps */
318	>	int nstored = 0; /* number of time steps in matrix */
319		int last_monthly = 0; /* month of last report */
320		int mo, da; /* month (1-12) and day (1-31) */
321		double hr; /* hour (local standard time) */
#	Line 376 \| Line 371 \| *main(int argc, char argv[])**
371		skycolor[1] = atof(argv[++i]);
372		skycolor[2] = atof(argv[++i]);
373		break;
374	+	case 'n': /* no matrix output */
375	+	avgSky = -1;
376	+	rhsubdiv = 1;
377	+	/* fall through */
378		case 'd': /* solar (direct) only */
379		skycolor[0] = skycolor[1] = skycolor[2] = 0;
380	<	if (suncolor[1] <= 1e-4)
382	<	suncolor[0] = suncolor[1] = suncolor[2] = 1;
380	>	grefl[0] = grefl[1] = grefl[2] = 0;
381		break;
382	+	case 'D': /* output suns to file */
383	+	sunsfp = fopen(argv[++i], "w");
384	+	if (!sunsfp) {
385	+	fprintf(stderr, "%s: cannot open '%s' for output\n",
386	+	progname, argv[i]);
387	+	exit(1);
388	+	}
389	+	break;
390		case 's': /* sky only (no direct) */
391		suncolor[0] = suncolor[1] = suncolor[2] = 0;
386	–	if (skycolor[1] <= 1e-4)
387	–	skycolor[0] = skycolor[1] = skycolor[2] = 1;
392		break;
393		case 'r': /* rotate distribution */
394		if (argv[i][2] && argv[i][2] != 'z')
#	Line 394 \| Line 398 \| *main(int argc, char argv[])**
398		case '5': /* 5-phase calculation */
399		nsuns = 1;
400		fixed_sun_sa = PI/360.*atof(argv[++i]);
401	+	if (fixed_sun_sa <= 0) {
402	+	fprintf(stderr, "%s: missing solar disk size argument for '-5' option\n",
403	+	progname);
404	+	exit(1);
405	+	}
406		fixed_sun_sa = fixed_sun_saPI;
407		break;
408	+	case 'A': /* compute average sky */
409	+	avgSky = 1;
410	+	break;
411		default:
412		goto userr;
413		}
#	Line 448 \| Line 460 \| *main(int argc, char argv[])**
460		fprintf(stderr, "%s: location '%s'\n", progname, buf);
461		fprintf(stderr, "%s: (lat,long)=(%.1f,%.1f) degrees north, west\n",
462		progname, s_latitude, s_longitude);
463	<	fprintf(stderr, "%s: %d sky patches per time step\n",
464	<	progname, nskypatch);
463	>	if (avgSky >= 0)
464	>	fprintf(stderr, "%s: %d sky patches\n",
465	>	progname, nskypatch);
466	>	if (sunsfp)
467	>	fprintf(stderr, "%s: outputting suns to file\n",
468	>	progname);
469		if (rotation != 0)
470		fprintf(stderr, "%s: rotating output %.0f degrees\n",
471		progname, rotation);
#	Line 458 \| Line 474 \| *main(int argc, char argv[])**
474		s_latitude = DegToRad(s_latitude);
475		s_longitude = DegToRad(s_longitude);
476		s_meridian = DegToRad(s_meridian);
477	+	/* initial allocation */
478	+	mtx_data = resize_dmatrix(mtx_data, tstorage=2, nskypatch);
479		/* process each time step in tape */
480		while (scanf("%d %d %lf %lf %lf\n", &mo, &da, &hr, &dir, &dif) == 5) {
481		double sda, sta;
482	<	/* make space for next time step */
483	<	mtx_offset = 3nskypatchntsteps++;
484	<	if (ntsteps > step_alloc) {
485	<	step_alloc += (step_alloc>>1) + ntsteps + 7;
486	<	mtx_data = resize_dmatrix(mtx_data, step_alloc, nskypatch);
482	>
483	>	mtx_offset = 3nskypatchnstored;
484	>	nstored += !avgSky \| !nstored;
485	>	/* make space for next row */
486	>	if (nstored > tstorage) {
487	>	tstorage += (tstorage>>1) + nstored + 7;
488	>	mtx_data = resize_dmatrix(mtx_data, tstorage, nskypatch);
489		}
490	+	ntsteps++; /* keep count of time steps */
491		if (dif <= 1e-4) {
492	<	memset(mtx_data+mtx_offset, 0, sizeof(float)3nskypatch);
492	>	if (!avgSky \| !mtx_offset)
493	>	memset(mtx_data+mtx_offset, 0, sizeof(float)3nskypatch);
494		continue;
495		}
474	–	if (verbose && mo != last_monthly)
475	–	fprintf(stderr, "%s: stepping through month %d...\n",
476	–	progname, last_monthly=mo);
496		/* compute solar position */
497		julian_date = jdate(mo, da);
498		sda = sdec(julian_date);
#	Line 492 \| Line 511 \| *main(int argc, char argv[])**
511		}
512		/* compute sky patch values */
513		ComputeSky(mtx_data+mtx_offset);
514	+
515	+	if (sunsfp) /* output sun if indicated */
516	+	OutputSun(ntsteps, sunsfp);
517	+
518	+	if (avgSky < 0) /* no matrix? */
519	+	continue;
520	+
521		AddDirect(mtx_data+mtx_offset);
522	+	/* update cumulative sky? */
523	+	for (i = 3nskypatch(avgSky&(ntsteps>1)); i--; )
524	+	mtx_data[i] += mtx_data[mtx_offset+i];
525	+	/* monthly reporting */
526	+	if (verbose && mo != last_monthly)
527	+	fprintf(stderr, "%s: stepping through month %d...\n",
528	+	progname, last_monthly=mo);
529		}
530	+	if (!ntsteps) {
531	+	fprintf(stderr, "%s: no valid time steps on input\n", progname);
532	+	exit(1);
533	+	}
534		/* check for junk at end */
535		while ((i = fgetc(stdin)) != EOF)
536		if (!isspace(i)) {
#	Line 504 \| Line 541 \| *main(int argc, char argv[])**
541		fputs(buf, stderr); fputc('\n', stderr);
542		break;
543		}
544	+
545	+	if (avgSky < 0) /* no matrix output? */
546	+	goto alldone;
547	+
548	+	dif = 1./(double)ntsteps; /* average sky? */
549	+	for (i = 3nskypatch(avgSky&(ntsteps>1)); i--; )
550	+	mtx_data[i] *= dif;
551		/* write out matrix */
552		if (outfmt != 'a')
553		SET_FILE_BINARY(stdout);
#	Line 512 \| Line 556 \| *main(int argc, char argv[])**
556		#endif
557		if (verbose)
558		fprintf(stderr, "%s: writing %smatrix with %d time steps...\n",
559	<	progname, outfmt=='a' ? "" : "binary ", ntsteps);
559	>	progname, outfmt=='a' ? "" : "binary ", nstored);
560		if (doheader) {
561		newheader("RADIANCE", stdout);
562		printargs(argc, argv, stdout);
563		printf("LATLONG= %.8f %.8f\n", RadToDeg(s_latitude),
564		-RadToDeg(s_longitude));
565		printf("NROWS=%d\n", nskypatch);
566	<	printf("NCOLS=%d\n", ntsteps);
566	>	printf("NCOLS=%d\n", nstored);
567		printf("NCOMP=3\n");
568	+	if ((outfmt == 'f') \| (outfmt == 'd'))
569	+	fputendian(stdout);
570		fputformat((char *)getfmtname(outfmt), stdout);
571		putchar('\n');
572		}
#	Line 529 \| Line 575 \| *main(int argc, char argv[])**
575		mtx_offset = 3*i;
576		switch (outfmt) {
577		case 'a':
578	<	for (j = 0; j < ntsteps; j++) {
578	>	for (j = 0; j < nstored; j++) {
579		printf("%.3g %.3g %.3g\n", mtx_data[mtx_offset],
580		mtx_data[mtx_offset+1],
581		mtx_data[mtx_offset+2]);
582		mtx_offset += 3*nskypatch;
583		}
584	<	if (ntsteps > 1)
584	>	if (nstored > 1)
585		fputc('\n', stdout);
586		break;
587		case 'f':
588	<	for (j = 0; j < ntsteps; j++) {
589	<	fwrite(mtx_data+mtx_offset, sizeof(float), 3,
588	>	for (j = 0; j < nstored; j++) {
589	>	putbinary(mtx_data+mtx_offset, sizeof(float), 3,
590		stdout);
591		mtx_offset += 3*nskypatch;
592		}
593		break;
594		case 'd':
595	<	for (j = 0; j < ntsteps; j++) {
595	>	for (j = 0; j < nstored; j++) {
596		double ment[3];
597		ment[0] = mtx_data[mtx_offset];
598		ment[1] = mtx_data[mtx_offset+1];
599		ment[2] = mtx_data[mtx_offset+2];
600	<	fwrite(ment, sizeof(double), 3, stdout);
600	>	putbinary(ment, sizeof(double), 3, stdout);
601		mtx_offset += 3*nskypatch;
602		}
603		break;
#	Line 559 \| Line 605 \| *main(int argc, char argv[])**
605		if (ferror(stdout))
606		goto writerr;
607		}
608	<	if (fflush(stdout) == EOF)
608	>	alldone:
609	>	if (fflush(NULL) == EOF)
610		goto writerr;
611		if (verbose)
612		fprintf(stderr, "%s: done.\n", progname);
613		exit(0);
614		userr:
615	<	fprintf(stderr, "Usage: %s [-v][-h][-d\|-s][-r deg][-m N][-g r g b][-c r g b][-o{f\|d}][-O{0\|1}] [tape.wea]\n",
615	>	fprintf(stderr, "Usage: %s [-v][-h][-A][-d\|-s\|-n][-D file][-r deg][-m N][-g r g b][-c r g b][-o{f\|d}][-O{0\|1}] [tape.wea]\n",
616		progname);
617		exit(1);
618		fmterr:
619	<	fprintf(stderr, "%s: input weather tape format error\n", progname);
619	>	fprintf(stderr, "%s: weather tape format error in header\n", progname);
620		exit(1);
621		writerr:
622		fprintf(stderr, "%s: write error on output\n", progname);
#	Line 641 \| Line 688 \| *ComputeSky(float parr)**
688		diff_illum = diff_irrad * WHTEFFICACY;
689		dir_illum = dir_irrad * WHTEFFICACY;
690		}
644	–
645	–	if (bright(skycolor) <= 1e-4) { /* 0 sky component? */
646	–	memset(parr, 0, sizeof(float)3nskypatch);
647	–	return;
648	–	}
691		/* Compute ground radiance (include solar contribution if any) */
692		parr[0] = diff_illum;
693		if (altitude > 0)
#	Line 653 \| Line 695 \| *ComputeSky(float parr)**
695		parr[2] = parr[1] = parr[0] *= (1./PI/WHTEFFICACY);
696		multcolor(parr, grefl);
697
698	+	if (bright(skycolor) <= 1e-4) { /* 0 sky component? */
699	+	memset(parr+3, 0, sizeof(float)3(nskypatch-1));
700	+	return;
701	+	}
702		/* Calculate Perez sky model parameters */
703		CalcPerezParam(sun_zenith, sky_clearness, sky_brightness, index);
704
#	Line 730 \| Line 776 \| *AddDirect(float parr)**
776		}
777		}
778
779	+	/* Output a sun to indicated file if appropriate for this time step */
780	+	void
781	+	OutputSun(int id, FILE *fp)
782	+	{
783	+	double srad;
784	+	FVECT sv;
785	+
786	+	if ((altitude <= 0) \| (dir_illum <= 1e-4))
787	+	return;
788	+
789	+	srad = DegToRad(SUN_ANG_DEG/2.);
790	+	srad = dir_illum/(WHTEFFICACY * PIsradsrad);
791	+	vector(sv, altitude, azimuth);
792	+	fprintf(fp, "\nvoid light solar%d\n0\n0\n", id);
793	+	fprintf(fp, "3 %.3e %.3e %.3e\n", srad*suncolor[0],
794	+	sradsuncolor[1], sradsuncolor[2]);
795	+	fprintf(fp, "\nsolar%d source sun%d\n0\n0\n", id, id);
796	+	fprintf(fp, "4 %.6f %.6f %.6f %.4f\n", sv[0], sv[1], sv[2], SUN_ANG_DEG);
797	+	}
798	+
799		/* Initialize Reinhart sky patch positions (GW) */
800		int
801		rh_init(void)
#	Line 937 \| Line 1003 \| int CalcSkyParamFromIllum()
1003		/* Convert illuminance to irradiance */
1004		index = GetCategoryIndex();
1005		diff_irrad = diff_illum / CalcDiffuseIllumRatio(index);
1006	<	dir_irrad = dir_illum / CalcDirectIllumRatio(index);
1006	>	dir_irrad = CalcDirectIllumRatio(index);
1007	>	if (dir_irrad > 0.1)
1008	>	dir_irrad = dir_illum / dir_irrad;
1009
1010		/* Calculate sky brightness and clearness */
1011		sky_brightness = CalcSkyBrightness();

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Comparing ray/src/gen/gendaymtx.c (file contents): Revision 2.19 by greg, Tue Dec 30 20:35:34 2014 UTC vs. Revision 2.35 by greg, Tue Jan 7 18:26:55 2020 UTC

Diff Legend

Comparing ray/src/gen/gendaymtx.c (file contents):
Revision 2.19 by greg, Tue Dec 30 20:35:34 2014 UTC vs.
Revision 2.35 by greg, Tue Jan 7 18:26:55 2020 UTC