src/gen/mkillum3.c

#ifndef lint
static const char RCSid[] = "$Id: mkillum3.c,v 2.14 2016/09/15 22:34:41 greg Exp $";
#endif
/*
 * Routines to print mkillum objects
 */

#include  "mkillum.h"
#include  "paths.h"

char    DATORD[] = "RGB";               /* data ordering */
char    DATSUF[] = ".dat";              /* data file suffix */
char    DSTSUF[] = ".dist";             /* distribution suffix */
char    FNCFNM[] = "illum.cal";         /* function file name */

static void compinv(COLORV *rinv, COLORV *rp, int m);
static void colorout(int p, COLORV *da, int n, int m, double mult, FILE *fp);
static void fputnum(double d, FILE *fp);
static void brightout(COLORV *da, int n, int m, double mult, FILE *fp);
static void fputeol(FILE *fp);
static void compavg(COLOR col, COLORV *da, int n);
static char * dfname(struct illum_args *il, int c);
static FILE * dfopen(struct illum_args *il, int c);


void
printobj(               /* print out an object */
        char  *mod,
        OBJREC  *obj
)
{
        int  i;

        if (issurface(obj->otype) && !strcmp(mod, VOIDID))
                return;         /* don't print void surfaces */
        printf("\n%s %s %s", mod, ofun[obj->otype].funame, obj->oname);
        printf("\n%d", obj->oargs.nsargs);
        for (i = 0; i < obj->oargs.nsargs; i++)
                printf(" %s", obj->oargs.sarg[i]);
#ifdef  IARGS
        printf("\n%d", obj->oargs.niargs);
        for (i = 0; i < obj->oargs.niargs; i++)
                printf(" %d", obj->oargs.iarg[i]);
#else
        printf("\n0");
#endif
        printf("\n%d", obj->oargs.nfargs);
        for (i = 0; i < obj->oargs.nfargs; i++) {
                if (i%3 == 0)
                        putchar('\n');
                printf(" %18.12g", obj->oargs.farg[i]);
        }
        putchar('\n');
}


char *
dfname(                 /* return data file name */
        struct illum_args  *il,
        int  c
)
{
        char  fname[MAXSTR];
        char  *s;

        s = strcpy(fname, il->datafile);
        s += strlen(s);
        if (c) *s++ = c;
        if (il->dfnum > 0) {
                sprintf(s, "%d", il->dfnum);
                s += strlen(s);
        }
        strcpy(s, DATSUF);
        return(getpath(fname, NULL, 0));
}


static FILE *
dfopen(                 /* open data file */
        struct illum_args  *il,
        int  c
)
{
        char  *fn;
        FILE  *fp;
                                        /* get a usable file name */
        for (fn = dfname(il, c);
                        !(il->flags & IL_DATCLB) && access(fn, F_OK) == 0;
                        fn = dfname(il, c))
                il->dfnum++;
                                        /* open it for writing */
        if ((fp = fopen(fn, "w")) == NULL) {
                sprintf(errmsg, "cannot open data file \"%s\"", fn);
                error(SYSTEM, errmsg);
        }
        return(fp);
}


void
flatout(                /* write hemispherical distribution */
        struct illum_args  *il,
        COLORV  *da,
        int  n,
        int  m,
        FVECT  u,
        FVECT  v,
        FVECT  w
)
{
        COLORV  *Ninv;
        FILE  *dfp;
        int  i;

        if ((Ninv = (COLORV *)malloc(3*m*sizeof(COLORV))) == NULL)
                error(SYSTEM, "out of memory in flatout");
        compinv(Ninv, da, m);
        if (il->flags & IL_COLDST) {
                printf("\n%s %s %s%s", VOIDID, ofun[PAT_CDATA].funame,
                                il->matname, DSTSUF);
                printf("\n9 red green blue");
                for (i = 0; i < 3; i++) {
                        dfp = dfopen(il, DATORD[i]);
                        fprintf(dfp, "2\n%f %f %d\n%f %f %d\n",
                                        1.+.5/n, .5/n, n+1,
                                        0., 2.*PI, m+1);
                        colorout(i, Ninv, 1, m, 1./il->nsamps/il->col[i], dfp);
                        colorout(i, da, n, m, 1./il->nsamps/il->col[i], dfp);
                        fputeol(dfp);
                        fclose(dfp);
                        printf(" %s", dfname(il, DATORD[i]));
                }
        } else {
                printf("\n%s %s %s%s", VOIDID, ofun[PAT_BDATA].funame,
                                il->matname, DSTSUF);
                printf("\n5 noneg");
                dfp = dfopen(il, 0);
                fprintf(dfp, "2\n%f %f %d\n%f %f %d\n",
                                1.+.5/n, .5/n, n+1,
                                0., 2.*PI, m+1);
                brightout(Ninv, 1, m, 1./il->nsamps/bright(il->col), dfp);
                brightout(da, n, m, 1./il->nsamps/bright(il->col), dfp);
                fputeol(dfp);
                fclose(dfp);
                printf(" %s", dfname(il, 0));
        }
        printf("\n\t%s il_alth il_azih", FNCFNM);
        printf("\n0\n9\n");
        printf("\t%f\t%f\t%f\n", u[0], u[1], u[2]);
        printf("\t%f\t%f\t%f\n", v[0], v[1], v[2]);
        printf("\t%f\t%f\t%f\n", w[0], w[1], w[2]);
        il->dfnum++;
        free(Ninv);
}


void
roundout(                       /* write spherical distribution */
        struct illum_args  *il,
        COLORV  *da,
        int  n,
        int  m
)
{
        COLORV  *Ninv, *Sinv;
        FILE  *dfp;
        int  i;

        if ((Ninv = (COLORV *)malloc(3*m*sizeof(COLORV))) == NULL ||
                        (Sinv = (COLORV *)malloc(3*m*sizeof(COLORV))) == NULL)
                error(SYSTEM, "out of memory in roundout");
        compinv(Ninv, da, m);
        compinv(Sinv, da+3*m*(n-1), m);
        if (il->flags & IL_COLDST) {
                printf("\n%s %s %s%s", VOIDID, ofun[PAT_CDATA].funame,
                                il->matname, DSTSUF);
                printf("\n9 red green blue");
                for (i = 0; i < 3; i++) {
                        dfp = dfopen(il, DATORD[i]);
                        fprintf(dfp, "2\n%f %f %d\n%f %f %d\n",
                                        1.+1./n, -1.-1./n, n+2,
                                        0., 2.*PI, m+1);
                        colorout(i, Ninv, 1, m, 1./il->nsamps/il->col[i], dfp);
                        colorout(i, da, n, m, 1./il->nsamps/il->col[i], dfp);
                        colorout(i, Sinv, 1, m, 1./il->nsamps/il->col[i], dfp);
                        fputeol(dfp);
                        fclose(dfp);
                        printf(" %s", dfname(il, DATORD[i]));
                }
        } else {
                printf("\n%s %s %s%s", VOIDID, ofun[PAT_BDATA].funame,
                                il->matname, DSTSUF);
                printf("\n5 noneg");
                dfp = dfopen(il, 0);
                fprintf(dfp, "2\n%f %f %d\n%f %f %d\n",
                                1.+1./n, -1.-1./n, n+2,
                                0., 2.*PI, m+1);
                brightout(Ninv, 1, m, 1./il->nsamps/bright(il->col), dfp);
                brightout(da, n, m, 1./il->nsamps/bright(il->col), dfp);
                brightout(Sinv, 1, m, 1./il->nsamps/bright(il->col), dfp);
                fputeol(dfp);
                fclose(dfp);
                printf(" %s", dfname(il, 0));
        }
        printf("\n\t%s il_alt il_azi", FNCFNM);
        printf("\n0\n0\n");
        il->dfnum++;
        free(Ninv);
        free(Sinv);
}


void
illumout(               /* print illum object */
        struct illum_args  *il,
        OBJREC  *ob
)
{
        double  cout[3];

        if (il->sampdens <= 0)
                printf("\n%s ", VOIDID);
        else
                printf("\n%s%s ", il->matname, DSTSUF);
        printf("%s %s", ofun[il->flags&IL_LIGHT?MAT_LIGHT:MAT_ILLUM].funame,
                        il->matname);
        if (il->flags & IL_LIGHT || !strcmp(il->altmat,VOIDID))
                printf("\n0");
        else
                printf("\n1 %s", il->altmat);
        if (il->flags & IL_COLAVG) {
                cout[0] = il->col[0];
                cout[1] = il->col[1];
                cout[2] = il->col[2];
        } else {
                cout[0] = cout[1] = cout[2] = bright(il->col);
        }
        printf("\n0\n3 %f %f %f\n", cout[0], cout[1], cout[2]);

        printobj(il->matname, ob);
}


static void
compavg(                /* compute average for set of data values */
        COLOR  col,
        COLORV  *da,
        int  n
)
{
        int  i;

        setcolor(col, 0.0, 0.0, 0.0);
        i = n;
        while (i-- > 0) {
                addcolor(col, da);
                da += 3;
        }
        scalecolor(col, 1./(double)n);
}


static void
compinv(                /* compute other side of row average */
        COLORV  *rinv,
        COLORV  *rp,
        int  m
)
{
        COLOR  avg;

        compavg(avg, rp, m);            /* row average */
        while (m-- > 0) {
                *rinv++ = 2.*avg[0] - *rp++;
                *rinv++ = 2.*avg[1] - *rp++;
                *rinv++ = 2.*avg[2] - *rp++;
        }
}


int
average(                /* evaluate average value for distribution */
        struct illum_args  *il,
        COLORV  *da,
        int  n
)
{
        compavg(il->col, da, n);        /* average */
        if (il->nsamps > 1) {
                il->col[0] /= (double)il->nsamps;
                il->col[1] /= (double)il->nsamps;
                il->col[2] /= (double)il->nsamps;
        }
                                        /* brighter than minimum? */
        return(bright(il->col) > il->minbrt+FTINY);
}


static int      colmcnt = 0;    /* count of columns written */

static void
fputnum(                        /* put out a number to fp */
        double  d,
        FILE  *fp
)
{
        if (colmcnt++ % 5 == 0)
                putc('\n', fp);
        fprintf(fp, " %11e", d);
}


static void
fputeol(                        /* write end of line to fp */
        FILE  *fp
)
{
        putc('\n', fp);
        colmcnt = 0;
}


static void
colorout(       /* put out color distribution data */
        int  p,
        COLORV  *da,
        int  n,
        int  m,
        double  mult,
        FILE  *fp
)
{
        int  i, j;

        for (i = 0; i < n; i++) {
                for (j = 0; j < m; j++) {
                        fputnum(mult*da[p], fp);
                        da += 3;
                }
                fputnum(mult*da[p-3*m], fp);    /* wrap phi */
        }
}


static void
brightout(      /* put out brightness distribution data */
        COLORV  *da,
        int  n,
        int  m,
        double  mult,
        FILE  *fp
)
{
        int  i, j;

        for (i = 0; i < n; i++) {
                for (j = 0; j < m; j++) {
                        fputnum(mult*bright(da), fp);
                        da += 3;
                }
                fputnum(mult*bright(da-3*m), fp);       /* wrap phi */
        }
}
Revision:	2.15
Committed:	Sat Dec 16 18:35:27 2023 UTC (4 months, 1 week ago) by greg
Content type:	text/plain
Branch:	MAIN
CVS Tags:	HEAD
Changes since 2.14:	+10 -12 lines
Log Message:	perf(mkillum): Replaced brt() macro with proper one from color.h
#	Content
1	#ifndef lint
2	static const char RCSid[] = "$Id: mkillum3.c,v 2.14 2016/09/15 22:34:41 greg Exp $";
3	#endif
4	/*
5	* Routines to print mkillum objects
6	*/
7
8	#include "mkillum.h"
9	#include "paths.h"
10
11	char DATORD[] = "RGB"; /* data ordering */
12	char DATSUF[] = ".dat"; /* data file suffix */
13	char DSTSUF[] = ".dist"; /* distribution suffix */
14	char FNCFNM[] = "illum.cal"; /* function file name */
15
16	static void compinv(COLORV rinv, COLORV rp, int m);
17	static void colorout(int p, COLORV da, int n, int m, double mult, FILE fp);
18	static void fputnum(double d, FILE *fp);
19	static void brightout(COLORV da, int n, int m, double mult, FILE fp);
20	static void fputeol(FILE *fp);
21	static void compavg(COLOR col, COLORV *da, int n);
22	static char * dfname(struct illum_args *il, int c);
23	static FILE * dfopen(struct illum_args *il, int c);
24
25
26	void
27	printobj( /* print out an object */
28	char *mod,
29	OBJREC *obj
30	)
31	{
32	int i;
33
34	if (issurface(obj->otype) && !strcmp(mod, VOIDID))
35	return; /* don't print void surfaces */
36	printf("\n%s %s %s", mod, ofun[obj->otype].funame, obj->oname);
37	printf("\n%d", obj->oargs.nsargs);
38	for (i = 0; i < obj->oargs.nsargs; i++)
39	printf(" %s", obj->oargs.sarg[i]);
40	#ifdef IARGS
41	printf("\n%d", obj->oargs.niargs);
42	for (i = 0; i < obj->oargs.niargs; i++)
43	printf(" %d", obj->oargs.iarg[i]);
44	#else
45	printf("\n0");
46	#endif
47	printf("\n%d", obj->oargs.nfargs);
48	for (i = 0; i < obj->oargs.nfargs; i++) {
49	if (i%3 == 0)
50	putchar('\n');
51	printf(" %18.12g", obj->oargs.farg[i]);
52	}
53	putchar('\n');
54	}
55
56
57	char *
58	dfname( /* return data file name */
59	struct illum_args *il,
60	int c
61	)
62	{
63	char fname[MAXSTR];
64	char *s;
65
66	s = strcpy(fname, il->datafile);
67	s += strlen(s);
68	if (c) *s++ = c;
69	if (il->dfnum > 0) {
70	sprintf(s, "%d", il->dfnum);
71	s += strlen(s);
72	}
73	strcpy(s, DATSUF);
74	return(getpath(fname, NULL, 0));
75	}
76
77
78	static FILE *
79	dfopen( /* open data file */
80	struct illum_args *il,
81	int c
82	)
83	{
84	char *fn;
85	FILE *fp;
86	/* get a usable file name */
87	for (fn = dfname(il, c);
88	!(il->flags & IL_DATCLB) && access(fn, F_OK) == 0;
89	fn = dfname(il, c))
90	il->dfnum++;
91	/* open it for writing */
92	if ((fp = fopen(fn, "w")) == NULL) {
93	sprintf(errmsg, "cannot open data file \"%s\"", fn);
94	error(SYSTEM, errmsg);
95	}
96	return(fp);
97	}
98
99
100	void
101	flatout( /* write hemispherical distribution */
102	struct illum_args *il,
103	COLORV *da,
104	int n,
105	int m,
106	FVECT u,
107	FVECT v,
108	FVECT w
109	)
110	{
111	COLORV *Ninv;
112	FILE *dfp;
113	int i;
114
115	if ((Ninv = (COLORV )malloc(3m*sizeof(COLORV))) == NULL)
116	error(SYSTEM, "out of memory in flatout");
117	compinv(Ninv, da, m);
118	if (il->flags & IL_COLDST) {
119	printf("\n%s %s %s%s", VOIDID, ofun[PAT_CDATA].funame,
120	il->matname, DSTSUF);
121	printf("\n9 red green blue");
122	for (i = 0; i < 3; i++) {
123	dfp = dfopen(il, DATORD[i]);
124	fprintf(dfp, "2\n%f %f %d\n%f %f %d\n",
125	1.+.5/n, .5/n, n+1,
126	0., 2.*PI, m+1);
127	colorout(i, Ninv, 1, m, 1./il->nsamps/il->col[i], dfp);
128	colorout(i, da, n, m, 1./il->nsamps/il->col[i], dfp);
129	fputeol(dfp);
130	fclose(dfp);
131	printf(" %s", dfname(il, DATORD[i]));
132	}
133	} else {
134	printf("\n%s %s %s%s", VOIDID, ofun[PAT_BDATA].funame,
135	il->matname, DSTSUF);
136	printf("\n5 noneg");
137	dfp = dfopen(il, 0);
138	fprintf(dfp, "2\n%f %f %d\n%f %f %d\n",
139	1.+.5/n, .5/n, n+1,
140	0., 2.*PI, m+1);
141	brightout(Ninv, 1, m, 1./il->nsamps/bright(il->col), dfp);
142	brightout(da, n, m, 1./il->nsamps/bright(il->col), dfp);
143	fputeol(dfp);
144	fclose(dfp);
145	printf(" %s", dfname(il, 0));
146	}
147	printf("\n\t%s il_alth il_azih", FNCFNM);
148	printf("\n0\n9\n");
149	printf("\t%f\t%f\t%f\n", u[0], u[1], u[2]);
150	printf("\t%f\t%f\t%f\n", v[0], v[1], v[2]);
151	printf("\t%f\t%f\t%f\n", w[0], w[1], w[2]);
152	il->dfnum++;
153	free(Ninv);
154	}
155
156
157	void
158	roundout( /* write spherical distribution */
159	struct illum_args *il,
160	COLORV *da,
161	int n,
162	int m
163	)
164	{
165	COLORV Ninv, Sinv;
166	FILE *dfp;
167	int i;
168
169	if ((Ninv = (COLORV )malloc(3m*sizeof(COLORV))) == NULL \|\|
170	(Sinv = (COLORV )malloc(3m*sizeof(COLORV))) == NULL)
171	error(SYSTEM, "out of memory in roundout");
172	compinv(Ninv, da, m);
173	compinv(Sinv, da+3m(n-1), m);
174	if (il->flags & IL_COLDST) {
175	printf("\n%s %s %s%s", VOIDID, ofun[PAT_CDATA].funame,
176	il->matname, DSTSUF);
177	printf("\n9 red green blue");
178	for (i = 0; i < 3; i++) {
179	dfp = dfopen(il, DATORD[i]);
180	fprintf(dfp, "2\n%f %f %d\n%f %f %d\n",
181	1.+1./n, -1.-1./n, n+2,
182	0., 2.*PI, m+1);
183	colorout(i, Ninv, 1, m, 1./il->nsamps/il->col[i], dfp);
184	colorout(i, da, n, m, 1./il->nsamps/il->col[i], dfp);
185	colorout(i, Sinv, 1, m, 1./il->nsamps/il->col[i], dfp);
186	fputeol(dfp);
187	fclose(dfp);
188	printf(" %s", dfname(il, DATORD[i]));
189	}
190	} else {
191	printf("\n%s %s %s%s", VOIDID, ofun[PAT_BDATA].funame,
192	il->matname, DSTSUF);
193	printf("\n5 noneg");
194	dfp = dfopen(il, 0);
195	fprintf(dfp, "2\n%f %f %d\n%f %f %d\n",
196	1.+1./n, -1.-1./n, n+2,
197	0., 2.*PI, m+1);
198	brightout(Ninv, 1, m, 1./il->nsamps/bright(il->col), dfp);
199	brightout(da, n, m, 1./il->nsamps/bright(il->col), dfp);
200	brightout(Sinv, 1, m, 1./il->nsamps/bright(il->col), dfp);
201	fputeol(dfp);
202	fclose(dfp);
203	printf(" %s", dfname(il, 0));
204	}
205	printf("\n\t%s il_alt il_azi", FNCFNM);
206	printf("\n0\n0\n");
207	il->dfnum++;
208	free(Ninv);
209	free(Sinv);
210	}
211
212
213	void
214	illumout( /* print illum object */
215	struct illum_args *il,
216	OBJREC *ob
217	)
218	{
219	double cout[3];
220
221	if (il->sampdens <= 0)
222	printf("\n%s ", VOIDID);
223	else
224	printf("\n%s%s ", il->matname, DSTSUF);
225	printf("%s %s", ofun[il->flags&IL_LIGHT?MAT_LIGHT:MAT_ILLUM].funame,
226	il->matname);
227	if (il->flags & IL_LIGHT \|\| !strcmp(il->altmat,VOIDID))
228	printf("\n0");
229	else
230	printf("\n1 %s", il->altmat);
231	if (il->flags & IL_COLAVG) {
232	cout[0] = il->col[0];
233	cout[1] = il->col[1];
234	cout[2] = il->col[2];
235	} else {
236	cout[0] = cout[1] = cout[2] = bright(il->col);
237	}
238	printf("\n0\n3 %f %f %f\n", cout[0], cout[1], cout[2]);
239
240	printobj(il->matname, ob);
241	}
242
243
244	static void
245	compavg( /* compute average for set of data values */
246	COLOR col,
247	COLORV *da,
248	int n
249	)
250	{
251	int i;
252
253	setcolor(col, 0.0, 0.0, 0.0);
254	i = n;
255	while (i-- > 0) {
256	addcolor(col, da);
257	da += 3;
258	}
259	scalecolor(col, 1./(double)n);
260	}
261
262
263	static void
264	compinv( /* compute other side of row average */
265	COLORV *rinv,
266	COLORV *rp,
267	int m
268	)
269	{
270	COLOR avg;
271
272	compavg(avg, rp, m); /* row average */
273	while (m-- > 0) {
274	rinv++ = 2.avg[0] - *rp++;
275	rinv++ = 2.avg[1] - *rp++;
276	rinv++ = 2.avg[2] - *rp++;
277	}
278	}
279
280
281	int
282	average( /* evaluate average value for distribution */
283	struct illum_args *il,
284	COLORV *da,
285	int n
286	)
287	{
288	compavg(il->col, da, n); /* average */
289	if (il->nsamps > 1) {
290	il->col[0] /= (double)il->nsamps;
291	il->col[1] /= (double)il->nsamps;
292	il->col[2] /= (double)il->nsamps;
293	}
294	/* brighter than minimum? */
295	return(bright(il->col) > il->minbrt+FTINY);
296	}
297
298
299	static int colmcnt = 0; /* count of columns written */
300
301	static void
302	fputnum( /* put out a number to fp */
303	double d,
304	FILE *fp
305	)
306	{
307	if (colmcnt++ % 5 == 0)
308	putc('\n', fp);
309	fprintf(fp, " %11e", d);
310	}
311
312
313	static void
314	fputeol( /* write end of line to fp */
315	FILE *fp
316	)
317	{
318	putc('\n', fp);
319	colmcnt = 0;
320	}
321
322
323	static void
324	colorout( /* put out color distribution data */
325	int p,
326	COLORV *da,
327	int n,
328	int m,
329	double mult,
330	FILE *fp
331	)
332	{
333	int i, j;
334
335	for (i = 0; i < n; i++) {
336	for (j = 0; j < m; j++) {
337	fputnum(mult*da[p], fp);
338	da += 3;
339	}
340	fputnum(multda[p-3m], fp); /* wrap phi */
341	}
342	}
343
344
345	static void
346	brightout( /* put out brightness distribution data */
347	COLORV *da,
348	int n,
349	int m,
350	double mult,
351	FILE *fp
352	)
353	{
354	int i, j;
355
356	for (i = 0; i < n; i++) {
357	for (j = 0; j < m; j++) {
358	fputnum(mult*bright(da), fp);
359	da += 3;
360	}
361	fputnum(multbright(da-3m), fp); /* wrap phi */
362	}
363	}