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

Comparing ray/src/gen/gendaymtx.c (file contents):
Revision 2.10 by greg, Sat Apr 6 00:44:59 2013 UTC vs.
Revision 2.28 by greg, Tue Jun 25 17:06:36 2019 UTC

#	Line 86 \| Line 86 \| static const char RCSid[] = "$Id$";
86		#include <string.h>
87		#include <ctype.h>
88		#include "rtmath.h"
89	+	#include "rtio.h"
90	+	#include "resolu.h"
91	+	#include "platform.h"
92		#include "color.h"
93	+	#include "resolu.h"
94
95		char progname; / Program name */
96		char errmsg[128]; /* Error message buffer */
#	Line 108 \| Line 112 \| *double sky_clearness; / Sky clearness /*
112		double solar_rad; /* Solar radiance */
113		double sun_zenith; /* Sun zenith angle (radians) */
114		int input = 0; /* Input type */
115	+	int output = 0; /* Output type */
116
117		extern double dmax( double, double );
118		extern double CalcAirMass();
#	Line 208 \| Line 213 \| static const CategoryBounds SkyClearCat[8] =
213		{ 1.950, 2.800 },
214		{ 2.800, 4.500 },
215		{ 4.500, 6.200 },
216	<	{ 6.200, 12.00 } /* Clear */
216	>	{ 6.200, 12.01 } /* Clear */
217		};
218
219		/* Luminous efficacy model coefficients */
#	Line 291 \| Line 296 \| extern int rh_init(void);
296		extern float * resize_dmatrix(float *mtx_data, int nsteps, int npatch);
297		extern void AddDirect(float *parr);
298
299	+
300	+	static const char *
301	+	getfmtname(int fmt)
302	+	{
303	+	switch (fmt) {
304	+	case 'a':
305	+	return("ascii");
306	+	case 'f':
307	+	return("float");
308	+	case 'd':
309	+	return("double");
310	+	}
311	+	return("unknown");
312	+	}
313	+
314	+
315		int
316		main(int argc, char *argv[])
317		{
318		char buf[256];
319	+	int doheader = 1; /* output header? */
320		double rotation = 0; /* site rotation (degrees) */
321		double elevation; /* site elevation (meters) */
322		int dir_is_horiz; /* direct is meas. on horizontal? */
323		float mtx_data = NULL; / our matrix data */
324	<	int ntsteps = 0; /* number of rows in matrix */
324	>	int avgSky = 0; /* compute average sky r.t. matrix? */
325	>	int ntsteps = 0; /* number of time steps */
326	>	int tstorage = 0; /* number of allocated time steps */
327	>	int nstored = 0; /* number of time steps in matrix */
328		int last_monthly = 0; /* month of last report */
329	+	int inconsistent = 0; /* inconsistent options set? */
330		int mo, da; /* month (1-12) and day (1-31) */
331		double hr; /* hour (local standard time) */
332		double dir, dif; /* direct and diffuse values */
#	Line 319 \| Line 345 \| *main(int argc, char argv[])**
345		case 'v': /* verbose progress reports */
346		verbose++;
347		break;
348	+	case 'h': /* turn off header */
349	+	doheader = 0;
350	+	break;
351		case 'o': /* output format */
352		switch (argv[i][2]) {
353		case 'f':
#	Line 330 \| Line 359 \| *main(int argc, char argv[])**
359		goto userr;
360		}
361		break;
362	+	case 'O': /* output type */
363	+	switch (argv[i][2]) {
364	+	case '0':
365	+	output = 0;
366	+	break;
367	+	case '1':
368	+	output = 1;
369	+	break;
370	+	default:
371	+	goto userr;
372	+	}
373	+	if (argv[i][3])
374	+	goto userr;
375	+	break;
376		case 'm': /* Reinhart subdivisions */
377		rhsubdiv = atoi(argv[++i]);
378		break;
379		case 'c': /* sky color */
380	+	inconsistent \|= (skycolor[1] <= 1e-4);
381		skycolor[0] = atof(argv[++i]);
382		skycolor[1] = atof(argv[++i]);
383		skycolor[2] = atof(argv[++i]);
384		break;
385		case 'd': /* solar (direct) only */
386		skycolor[0] = skycolor[1] = skycolor[2] = 0;
387	<	if (suncolor[1] <= 1e-4)
387	>	if (suncolor[1] <= 1e-4) {
388	>	inconsistent = 1;
389		suncolor[0] = suncolor[1] = suncolor[2] = 1;
390	+	}
391		break;
392		case 's': /* sky only (no direct) */
393		suncolor[0] = suncolor[1] = suncolor[2] = 0;
394	<	if (skycolor[1] <= 1e-4)
394	>	if (skycolor[1] <= 1e-4) {
395	>	inconsistent = 1;
396		skycolor[0] = skycolor[1] = skycolor[2] = 1;
397	+	}
398		break;
399		case 'r': /* rotate distribution */
400		if (argv[i][2] && argv[i][2] != 'z')
#	Line 355 \| Line 403 \| *main(int argc, char argv[])**
403		break;
404		case '5': /* 5-phase calculation */
405		nsuns = 1;
406	<	fixed_sun_sa = 6.797e-05;
406	>	fixed_sun_sa = PI/360.*atof(argv[++i]);
407	>	if (fixed_sun_sa <= 0) {
408	>	fprintf(stderr, "%s: missing solar disk size argument for '-5' option\n",
409	>	argv[0]);
410	>	exit(1);
411	>	}
412	>	fixed_sun_sa = fixed_sun_saPI;
413		break;
414	+	case 'A': /* compute average sky */
415	+	avgSky = 1;
416	+	break;
417		default:
418		goto userr;
419		}
420		if (i < argc-1)
421		goto userr;
422	+	if (inconsistent)
423	+	fprintf(stderr, "%s: WARNING: inconsistent -s, -d, -c options!\n",
424	+	progname);
425		if (i == argc-1 && freopen(argv[i], "r", stdin) == NULL) {
426		fprintf(stderr, "%s: cannot open '%s' for input\n",
427		progname, argv[i]);
#	Line 419 \| Line 479 \| *main(int argc, char argv[])**
479		s_latitude = DegToRad(s_latitude);
480		s_longitude = DegToRad(s_longitude);
481		s_meridian = DegToRad(s_meridian);
482	+	/* initial allocation */
483	+	mtx_data = resize_dmatrix(mtx_data, tstorage=2, nskypatch);
484		/* process each time step in tape */
485		while (scanf("%d %d %lf %lf %lf\n", &mo, &da, &hr, &dir, &dif) == 5) {
486		double sda, sta;
487	<	/* make space for next time step */
488	<	mtx_offset = 3nskypatchntsteps++;
489	<	mtx_data = resize_dmatrix(mtx_data, ntsteps, nskypatch);
487	>
488	>	mtx_offset = 3nskypatchnstored;
489	>	nstored += !avgSky \| !nstored;
490	>	/* make space for next row */
491	>	if (nstored > tstorage) {
492	>	tstorage += (tstorage>>1) + nstored + 7;
493	>	mtx_data = resize_dmatrix(mtx_data, tstorage, nskypatch);
494	>	}
495	>	ntsteps++; /* keep count of time steps */
496		if (dif <= 1e-4) {
497	<	memset(mtx_data+mtx_offset, 0, sizeof(float)3nskypatch);
497	>	if (!avgSky \| !mtx_offset)
498	>	memset(mtx_data+mtx_offset, 0, sizeof(float)3nskypatch);
499		continue;
500		}
501		if (verbose && mo != last_monthly)
#	Line 451 \| Line 520 \| *main(int argc, char argv[])**
520		/* compute sky patch values */
521		ComputeSky(mtx_data+mtx_offset);
522		AddDirect(mtx_data+mtx_offset);
523	+	/* update cumulative sky? */
524	+	for (i = 3nskypatch(avgSky&(ntsteps>1)); i--; )
525	+	mtx_data[i] += mtx_data[mtx_offset+i];
526		}
527		/* check for junk at end */
528		while ((i = fgetc(stdin)) != EOF)
#	Line 462 \| Line 534 \| *main(int argc, char argv[])**
534		fputs(buf, stderr); fputc('\n', stderr);
535		break;
536		}
537	+	if (!ntsteps) {
538	+	fprintf(stderr, "%s: no valid time steps on input\n", progname);
539	+	exit(1);
540	+	}
541	+	dif = 1./(double)ntsteps; /* average sky? */
542	+	for (i = 3nskypatch(avgSky&(ntsteps>1)); i--; )
543	+	mtx_data[i] *= dif;
544		/* write out matrix */
545	+	if (outfmt != 'a')
546	+	SET_FILE_BINARY(stdout);
547		#ifdef getc_unlocked
548		flockfile(stdout);
549		#endif
550		if (verbose)
551		fprintf(stderr, "%s: writing %smatrix with %d time steps...\n",
552	<	progname, outfmt=='a' ? "" : "binary ", ntsteps);
552	>	progname, outfmt=='a' ? "" : "binary ", nstored);
553	>	if (doheader) {
554	>	newheader("RADIANCE", stdout);
555	>	printargs(argc, argv, stdout);
556	>	printf("LATLONG= %.8f %.8f\n", RadToDeg(s_latitude),
557	>	-RadToDeg(s_longitude));
558	>	printf("NROWS=%d\n", nskypatch);
559	>	printf("NCOLS=%d\n", nstored);
560	>	printf("NCOMP=3\n");
561	>	fputformat((char *)getfmtname(outfmt), stdout);
562	>	putchar('\n');
563	>	}
564		/* patches are rows (outer sort) */
565		for (i = 0; i < nskypatch; i++) {
566		mtx_offset = 3*i;
567		switch (outfmt) {
568		case 'a':
569	<	for (j = 0; j < ntsteps; j++) {
569	>	for (j = 0; j < nstored; j++) {
570		printf("%.3g %.3g %.3g\n", mtx_data[mtx_offset],
571		mtx_data[mtx_offset+1],
572		mtx_data[mtx_offset+2]);
573		mtx_offset += 3*nskypatch;
574		}
575	<	if (ntsteps > 1)
575	>	if (nstored > 1)
576		fputc('\n', stdout);
577		break;
578		case 'f':
579	<	for (j = 0; j < ntsteps; j++) {
580	<	fwrite(mtx_data+mtx_offset, sizeof(float), 3,
579	>	for (j = 0; j < nstored; j++) {
580	>	putbinary(mtx_data+mtx_offset, sizeof(float), 3,
581		stdout);
582		mtx_offset += 3*nskypatch;
583		}
584		break;
585		case 'd':
586	<	for (j = 0; j < ntsteps; j++) {
586	>	for (j = 0; j < nstored; j++) {
587		double ment[3];
588		ment[0] = mtx_data[mtx_offset];
589		ment[1] = mtx_data[mtx_offset+1];
590		ment[2] = mtx_data[mtx_offset+2];
591	<	fwrite(ment, sizeof(double), 3, stdout);
591	>	putbinary(ment, sizeof(double), 3, stdout);
592		mtx_offset += 3*nskypatch;
593		}
594		break;
#	Line 510 \| Line 602 \| *main(int argc, char argv[])**
602		fprintf(stderr, "%s: done.\n", progname);
603		exit(0);
604		userr:
605	<	fprintf(stderr, "Usage: %s [-v][-d\|-s][-r deg][-m N][-g r g b][-c r g b][-o{f\|d}] [tape.wea]\n",
605	>	fprintf(stderr, "Usage: %s [-v][-h][-A][-d\|-s][-r deg][-m N][-g r g b][-c r g b][-o{f\|d}][-O{0\|1}] [tape.wea]\n",
606		progname);
607		exit(1);
608		fmterr:
#	Line 569 \| Line 661 \| *ComputeSky(float parr)**
661
662		/* Limit sky brightness */
663		if (sky_brightness < 0.01)
664	<	sky_brightness = 0.01;
664	>	sky_brightness = 0.01;
665
666		/* Calculate illuminance */
667		index = GetCategoryIndex();
#	Line 582 \| Line 674 \| *ComputeSky(float parr)**
674		index = CalcSkyParamFromIllum();
675		}
676
677	+	if (output == 1) { /* hack for solar radiance */
678	+	diff_illum = diff_irrad * WHTEFFICACY;
679	+	dir_illum = dir_irrad * WHTEFFICACY;
680	+	}
681	+
682		if (bright(skycolor) <= 1e-4) { /* 0 sky component? */
683		memset(parr, 0, sizeof(float)3nskypatch);
684		return;
#	Line 602 \| Line 699 \| *ComputeSky(float parr)**
699		/* Calculate relative horizontal illuminance */
700		norm_diff_illum = CalcRelHorzIllum(parr);
701
702	+	/* Check for zero sky -- make uniform in that case */
703	+	if (norm_diff_illum <= FTINY) {
704	+	for (i = 1; i < nskypatch; i++)
705	+	setcolor(parr+3*i, 1., 1., 1.);
706	+	norm_diff_illum = PI;
707	+	}
708		/* Normalization coefficient */
709		norm_diff_illum = diff_illum / norm_diff_illum;
710
#	Line 801 \| Line 904 \| double CalcSkyClearness()
904		double sz_cubed; /* Sun zenith angle cubed */
905
906		/* Calculate sun zenith angle cubed */
907	<	sz_cubed = pow(sun_zenith, 3.0);
907	>	sz_cubed = sun_zenithsun_zenithsun_zenith;
908
909		return ((diff_irrad + dir_irrad) / diff_irrad + 1.041 *
910		sz_cubed) / (1.0 + 1.041 * sz_cubed);
#	Line 832 \| Line 935 \| double CalcDiffuseIrradiance()
935		double CalcDirectIrradiance()
936		{
937		return CalcDiffuseIrradiance() * ((sky_clearness - 1.0) * (1 + 1.041
938	<	* pow(sun_zenith, 3.0)));
938	>	* sun_zenithsun_zenithsun_zenith));
939		}
940
941		/* Calculate sky brightness and clearness from illuminance values */
#	Line 871 \| Line 974 \| int CalcSkyParamFromIllum()
974		/* Convert illuminance to irradiance */
975		index = GetCategoryIndex();
976		diff_irrad = diff_illum / CalcDiffuseIllumRatio(index);
977	<	dir_irrad = dir_illum / CalcDirectIllumRatio(index);
977	>	dir_irrad = CalcDirectIllumRatio(index);
978	>	if (dir_irrad > 0.1)
979	>	dir_irrad = dir_illum / dir_irrad;
980
981		/* Calculate sky brightness and clearness */
982		sky_brightness = CalcSkyBrightness();

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Comparing ray/src/gen/gendaymtx.c (file contents): Revision 2.10 by greg, Sat Apr 6 00:44:59 2013 UTC vs. Revision 2.28 by greg, Tue Jun 25 17:06:36 2019 UTC

Diff Legend

Comparing ray/src/gen/gendaymtx.c (file contents):
Revision 2.10 by greg, Sat Apr 6 00:44:59 2013 UTC vs.
Revision 2.28 by greg, Tue Jun 25 17:06:36 2019 UTC