[ViewVC] Diff of: Development/ray/src/gen/gensurf.c

Comparing ray/src/gen/gensurf.c (file contents):
Revision 1.14 by greg, Tue Apr 23 15:51:11 1991 UTC vs.
Revision 2.27 by greg, Sun Jun 14 03:54:23 2020 UTC

#	Line 1 \| Line 1
1		#ifndef lint
2	<	static char SCCSid[] = "$SunId$ LBL";
2	>	static const char RCSid[] = "$Id$";
3		#endif
4	–
5	–	/* Copyright (c) 1989 Regents of the University of California */
6	–
4		/*
5		* gensurf.c - program to generate functional surfaces
6		*
#	Line 14 \| Line 11 \| static char SCCSid[] = "$SunId$ LBL";
11		* rule applied to (s,t).
12		*
13		* 4/3/87
14	+	*
15	+	* 4/16/02 Added conditional vertex output
16		*/
17
18		#include "standard.h"
19
20	<	#define XNAME "X_" /* x function name */
21	<	#define YNAME "Y_" /* y function name */
22	<	#define ZNAME "Z_" /* z function name */
20	>	#include "paths.h"
21	>	#include "resolu.h"
22	>	#include "rterror.h"
23	>	#include "calcomp.h"
24
25	+	char XNAME[] = "X`SYS"; /* x function name */
26	+	char YNAME[] = "Y`SYS"; /* y function name */
27	+	char ZNAME[] = "Z`SYS"; /* z function name */
28	+
29	+	char VNAME[] = "valid"; /* valid vertex name */
30	+
31		#define ABS(x) ((x)>=0 ? (x) : -(x))
32
33	+	#define ZEROVECT(v) (DOT(v,v) <= FTINY*FTINY)
34	+
35		#define pvect(p) printf(vformat, (p)[0], (p)[1], (p)[2])
36
37	<	char vformat[] = "%15.9g %15.9g %15.9g\n";
38	<	char tsargs[] = "4 surf_dx surf_dy surf_dz surf.cal\n";
37	>	char vformat[] = "%18.12g %18.12g %18.12g\n";
38	>	char tsargs[] = "4 surf_dx surf_dy surf_dz surf.cal";
39		char texname[] = "Phong";
40
41		int smooth = 0; /* apply smoothing? */
42	+	int objout = 0; /* output .OBJ format? */
43
44		char modname, surfname;
45
46	<	double funvalue(), l_hermite(), l_bezier(), l_bspline(), argument();
46	>	/* recorded data flags */
47	>	#define HASBORDER 01
48	>	#define TRIPLETS 02
49	>	/* a data structure */
50	>	struct {
51	>	int flags; /* data type */
52	>	short m, n; /* number of s and t values */
53	>	RREAL data; / the data itself, s major sort */
54	>	} datarec; /* our recorded data */
55
56	+	/* XXX this is redundant with rt/noise3.c, should go to a library */
57	+	double l_hermite(), l_bezier(), l_bspline(), l_dataval();
58	+
59		typedef struct {
60	+	int valid; /* point is valid (vertex number) */
61	+	int nvalid; /* normal is valid */
62		FVECT p; /* vertex position */
63		FVECT n; /* average normal */
64	+	RREAL uv[2]; /* (u,v) position */
65		} POINT;
66
67	+	int nverts = 0; /* vertex output count */
68	+	int nnorms = 0; /* normal output count */
69
70	+	void loaddata(char *file, int m, int n, int pointsize);
71	+	double l_dataval(char *nam);
72	+	void putobjrow(POINT *rp, int n);
73	+	void putobjvert(POINT *p);
74	+	void putsquare(POINT p0, POINT p1, POINT p2, POINT p3);
75	+	void comprow(double s, POINT *row, int siz);
76	+	void compnorms(POINT r0, POINT r1, POINT *r2, int siz);
77	+	int norminterp(FVECT resmat[4], POINT p0, POINT p1, POINT p2, POINT p3);
78	+
79	+
80	+	int
81		main(argc, argv)
82		int argc;
83		char *argv[];
84		{
49	–	extern long eclock;
85		POINT row0, row1, row2, rp;
86		int i, j, m, n;
87		char stmp[256];
88
89	+	esupport \|= E_VARIABLE\|E_FUNCTION\|E_RCONST;
90	+	esupport &= ~(E_OUTCHAN\|E_INCHAN);
91		varset("PI", ':', PI);
92		funset("hermite", 5, ':', l_hermite);
93		funset("bezier", 5, ':', l_bezier);
#	Line 62 \| Line 99 \| *char argv[];**
99		for (i = 8; i < argc; i++)
100		if (!strcmp(argv[i], "-e"))
101		scompile(argv[++i], NULL, 0);
102	<	else if (!strcmp(argv[i], "-f"))
103	<	fcompile(argv[++i]);
104	<	else if (!strcmp(argv[i], "-s"))
102	>	else if (!strcmp(argv[i], "-f")) {
103	>	char *fpath = getpath(argv[++i], getrlibpath(), 0);
104	>	if (fpath == NULL) {
105	>	fprintf(stderr, "%s: cannot find file '%s'\n",
106	>	argv[0], argv[i]);
107	>	quit(1);
108	>	}
109	>	fcompile(fpath);
110	>	} else if (!strcmp(argv[i], "-s"))
111		smooth++;
112	+	else if (!strcmp(argv[i], "-o"))
113	+	objout++;
114		else
115		goto userror;
116
117		modname = argv[1];
118		surfname = argv[2];
119	<	sprintf(stmp, "%s(s,t)=%s;", XNAME, argv[3]);
120	<	scompile(stmp, NULL, 0);
76	<	sprintf(stmp, "%s(s,t)=%s;", YNAME, argv[4]);
77	<	scompile(stmp, NULL, 0);
78	<	sprintf(stmp, "%s(s,t)=%s;", ZNAME, argv[5]);
79	<	scompile(stmp, NULL, 0);
80	<	m = atoi(argv[6]);
81	<	n = atoi(argv[7]);
119	>	m = eval(argv[6]) + .5;
120	>	n = eval(argv[7]) + .5;
121		if (m <= 0 \|\| n <= 0)
122		goto userror;
123	<
123	>	if (!strcmp(argv[5], "-") \|\| access(argv[5], 4) == 0) { /* file? */
124	>	funset(ZNAME, 2, ':', l_dataval);
125	>	if (!strcmp(argv[5],argv[3]) && !strcmp(argv[5],argv[4])) {
126	>	loaddata(argv[5], m, n, 3);
127	>	funset(XNAME, 2, ':', l_dataval);
128	>	funset(YNAME, 2, ':', l_dataval);
129	>	} else {
130	>	loaddata(argv[5], m, n, 1);
131	>	sprintf(stmp, "%s(s,t)=%s;", XNAME, argv[3]);
132	>	scompile(stmp, NULL, 0);
133	>	sprintf(stmp, "%s(s,t)=%s;", YNAME, argv[4]);
134	>	scompile(stmp, NULL, 0);
135	>	}
136	>	} else {
137	>	sprintf(stmp, "%s(s,t)=%s;", XNAME, argv[3]);
138	>	scompile(stmp, NULL, 0);
139	>	sprintf(stmp, "%s(s,t)=%s;", YNAME, argv[4]);
140	>	scompile(stmp, NULL, 0);
141	>	sprintf(stmp, "%s(s,t)=%s;", ZNAME, argv[5]);
142	>	scompile(stmp, NULL, 0);
143	>	}
144		row0 = (POINT )malloc((n+3)sizeof(POINT));
145		row1 = (POINT )malloc((n+3)sizeof(POINT));
146		row2 = (POINT )malloc((n+3)sizeof(POINT));
#	Line 91 \| Line 150 \| *char argv[];**
150		}
151		row0++; row1++; row2++;
152		/* print header */
153	<	printhead(argc, argv);
153	>	fputs("# ", stdout);
154	>	printargs(argc, argv, stdout);
155		eclock = 0;
156		/* initialize */
157		comprow(-1.0/m, row0, n);
158		comprow(0.0, row1, n);
159		comprow(1.0/m, row2, n);
160		compnorms(row0, row1, row2, n);
161	+	if (objout) {
162	+	printf("\nusemtl %s\n\n", modname);
163	+	putobjrow(row1, n);
164	+	}
165		/* for each row */
166		for (i = 0; i < m; i++) {
167		/* compute next row */
#	Line 107 \| Line 171 \| *char argv[];**
171		row2 = rp;
172		comprow((double)(i+2)/m, row2, n);
173		compnorms(row0, row1, row2, n);
174	+	if (objout)
175	+	putobjrow(row1, n);
176
177		for (j = 0; j < n; j++) {
178	+	int orient = (j & 1);
179		/* put polygons */
180	<	if ((i+j) & 1)
180	>	if (!(row0[j].valid && row1[j+1].valid))
181	>	orient = 1;
182	>	else if (!(row1[j].valid && row0[j+1].valid))
183	>	orient = 0;
184	>	if (orient)
185		putsquare(&row0[j], &row1[j],
186		&row0[j+1], &row1[j+1]);
187		else
#	Line 119 \| Line 190 \| *char argv[];**
190		}
191		}
192
193	<	quit(0);
193	>	return 0;
194
195		userror:
196		fprintf(stderr, "Usage: %s material name ", argv[0]);
197	<	fprintf(stderr, "x(s,t) y(s,t) z(s,t) m n [-s][-e expr][-f file]\n");
198	<	quit(1);
197	>	fprintf(stderr, "x(s,t) y(s,t) z(s,t) m n [-s][-o][-e expr][-f file]\n");
198	>	return 1;
199		}
200
201
202	<	putsquare(p0, p1, p2, p3) /* put out a square */
203	<	POINT p0, p1, p2, p3;
202	>	void
203	>	loaddata( /* load point data from file */
204	>	char *file,
205	>	int m,
206	>	int n,
207	>	int pointsize
208	>	)
209		{
210	+	FILE *fp;
211	+	char word[64];
212	+	int size;
213	+	RREAL *dp;
214	+
215	+	datarec.flags = HASBORDER; /* assume border values */
216	+	datarec.m = m+1;
217	+	datarec.n = n+1;
218	+	size = datarec.mdatarec.npointsize;
219	+	if (pointsize == 3)
220	+	datarec.flags \|= TRIPLETS;
221	+	dp = (RREAL )malloc(sizesizeof(RREAL));
222	+	if ((datarec.data = dp) == NULL) {
223	+	fputs("Out of memory\n", stderr);
224	+	exit(1);
225	+	}
226	+	if (!strcmp(file, "-")) {
227	+	file = "<stdin>";
228	+	fp = stdin;
229	+	} else if ((fp = fopen(file, "r")) == NULL) {
230	+	fputs(file, stderr);
231	+	fputs(": cannot open\n", stderr);
232	+	exit(1);
233	+	}
234	+	while (size > 0 && fgetword(word, sizeof(word), fp) != NULL) {
235	+	if (!isflt(word)) {
236	+	fprintf(stderr, "%s: garbled data value: %s\n",
237	+	file, word);
238	+	exit(1);
239	+	}
240	+	*dp++ = atof(word);
241	+	size--;
242	+	}
243	+	if (size == (m+n+1)pointsize) { / no border after all */
244	+	dp = (RREAL *)realloc(datarec.data,
245	+	mnpointsize*sizeof(RREAL));
246	+	if (dp != NULL)
247	+	datarec.data = dp;
248	+	datarec.flags &= ~HASBORDER;
249	+	datarec.m = m;
250	+	datarec.n = n;
251	+	size = 0;
252	+	}
253	+	if (datarec.m < 2 \|\| datarec.n < 2 \|\| size != 0 \|\|
254	+	fgetword(word, sizeof(word), fp) != NULL) {
255	+	fputs(file, stderr);
256	+	fputs(": bad number of data points\n", stderr);
257	+	exit(1);
258	+	}
259	+	fclose(fp);
260	+	}
261	+
262	+
263	+	double
264	+	l_dataval( /* return recorded data value */
265	+	char *nam
266	+	)
267	+	{
268	+	double u, v;
269	+	int i, j;
270	+	RREAL *dp;
271	+	double d00, d01, d10, d11;
272	+	/* compute coordinates */
273	+	u = argument(1); v = argument(2);
274	+	if (datarec.flags & HASBORDER) {
275	+	i = u *= datarec.m-1;
276	+	j = v *= datarec.n-1;
277	+	} else {
278	+	i = u = u*datarec.m - .5;
279	+	j = v = v*datarec.n - .5;
280	+	}
281	+	if (i < 0) i = 0;
282	+	else if (i > datarec.m-2) i = datarec.m-2;
283	+	if (j < 0) j = 0;
284	+	else if (j > datarec.n-2) j = datarec.n-2;
285	+	/* compute value */
286	+	if (datarec.flags & TRIPLETS) {
287	+	dp = datarec.data + 3(jdatarec.m + i);
288	+	if (nam == ZNAME)
289	+	dp += 2;
290	+	else if (nam == YNAME)
291	+	dp++;
292	+	d00 = dp[0]; d01 = dp[3];
293	+	dp += 3*datarec.m;
294	+	d10 = dp[0]; d11 = dp[3];
295	+	} else {
296	+	dp = datarec.data + j*datarec.m + i;
297	+	d00 = dp[0]; d01 = dp[1];
298	+	dp += datarec.m;
299	+	d10 = dp[0]; d11 = dp[1];
300	+	}
301	+	/* bilinear interpolation */
302	+	return((j+1-v)((i+1-u)d00+(u-i)d01)+(v-j)((i+1-u)d10+(u-i)d11));
303	+	}
304	+
305	+
306	+	void
307	+	putobjrow( /* output vertex row to .OBJ */
308	+	POINT *rp,
309	+	int n
310	+	)
311	+	{
312	+	for ( ; n-- >= 0; rp++) {
313	+	if (!rp->valid)
314	+	continue;
315	+	fputs("v ", stdout);
316	+	pvect(rp->p);
317	+	if (smooth && !ZEROVECT(rp->n)) {
318	+	printf("\tvn %.9g %.9g %.9g\n",
319	+	rp->n[0], rp->n[1], rp->n[2]);
320	+	rp->nvalid = ++nnorms;
321	+	} else
322	+	rp->nvalid = 0;
323	+	printf("\tvt %.9g %.9g\n", rp->uv[0], rp->uv[1]);
324	+	rp->valid = ++nverts;
325	+	}
326	+	}
327	+
328	+
329	+	void
330	+	putobjvert( /* put out OBJ vertex index triplet */
331	+	POINT *p
332	+	)
333	+	{
334	+	int pti = p->valid ? p->valid-nverts-1 : 0;
335	+	int ni = p->nvalid ? p->nvalid-nnorms-1 : 0;
336	+
337	+	printf(" %d/%d/%d", pti, pti, ni);
338	+	}
339	+
340	+
341	+	void
342	+	putsquare( /* put out a square */
343	+	POINT *p0,
344	+	POINT *p1,
345	+	POINT *p2,
346	+	POINT *p3
347	+	)
348	+	{
349		static int nout = 0;
350		FVECT norm[4];
351		int axis;
352		FVECT v1, v2, vc1, vc2;
353		int ok1, ok2;
354		/* compute exact normals */
355	<	fvsum(v1, p1->p, p0->p, -1.0);
356	<	fvsum(v2, p2->p, p0->p, -1.0);
357	<	fcross(vc1, v1, v2);
358	<	ok1 = normalize(vc1) != 0.0;
359	<	fvsum(v1, p2->p, p3->p, -1.0);
360	<	fvsum(v2, p1->p, p3->p, -1.0);
361	<	fcross(vc2, v1, v2);
362	<	ok2 = normalize(vc2) != 0.0;
355	>	ok1 = (p0->valid && p1->valid && p2->valid);
356	>	if (ok1) {
357	>	VSUB(v1, p1->p, p0->p);
358	>	VSUB(v2, p2->p, p0->p);
359	>	fcross(vc1, v1, v2);
360	>	ok1 = (normalize(vc1) != 0.0);
361	>	}
362	>	ok2 = (p1->valid && p2->valid && p3->valid);
363	>	if (ok2) {
364	>	VSUB(v1, p2->p, p3->p);
365	>	VSUB(v2, p1->p, p3->p);
366	>	fcross(vc2, v1, v2);
367	>	ok2 = (normalize(vc2) != 0.0);
368	>	}
369		if (!(ok1 \| ok2))
370		return;
371	+	if (objout) { /* output .OBJ faces */
372	+	if (ok1 & ok2 && fdot(vc1,vc2) >= 1.0-FTINY*FTINY) {
373	+	putc('f', stdout);
374	+	putobjvert(p0); putobjvert(p1);
375	+	putobjvert(p3); putobjvert(p2);
376	+	putc('\n', stdout);
377	+	return;
378	+	}
379	+	if (ok1) {
380	+	putc('f', stdout);
381	+	putobjvert(p0); putobjvert(p1); putobjvert(p2);
382	+	putc('\n', stdout);
383	+	}
384	+	if (ok2) {
385	+	putc('f', stdout);
386	+	putobjvert(p2); putobjvert(p1); putobjvert(p3);
387	+	putc('\n', stdout);
388	+	}
389	+	return;
390	+	}
391		/* compute normal interpolation */
392		axis = norminterp(norm, p0, p1, p2, p3);
393
#	Line 154 \| Line 395 \| *POINT p0, p1, p2, p3;*
395		if (ok1 & ok2 && fdot(vc1,vc2) >= 1.0-FTINY*FTINY) {
396		printf("\n%s ", modname);
397		if (axis != -1) {
398	<	printf("texfunc %s\n", texname);
158	<	printf(tsargs);
398	>	printf("texfunc %s\n%s\n", texname, tsargs);
399		printf("0\n13\t%d\n", axis);
400		pvect(norm[0]);
401		pvect(norm[1]);
#	Line 177 \| Line 417 \| *POINT p0, p1, p2, p3;*
417		if (ok1) {
418		printf("\n%s ", modname);
419		if (axis != -1) {
420	<	printf("texfunc %s\n", texname);
181	<	printf(tsargs);
420	>	printf("texfunc %s\n%s\n", texname, tsargs);
421		printf("0\n13\t%d\n", axis);
422		pvect(norm[0]);
423		pvect(norm[1]);
#	Line 196 \| Line 435 \| *POINT p0, p1, p2, p3;*
435		if (ok2) {
436		printf("\n%s ", modname);
437		if (axis != -1) {
438	<	printf("texfunc %s\n", texname);
200	<	printf(tsargs);
438	>	printf("texfunc %s\n%s\n", texname, tsargs);
439		printf("0\n13\t%d\n", axis);
440		pvect(norm[0]);
441		pvect(norm[1]);
#	Line 215 \| Line 453 \| *POINT p0, p1, p2, p3;*
453		}
454
455
456	<	comprow(s, row, siz) /* compute row of values */
457	<	double s;
458	<	register POINT *row;
459	<	int siz;
456	>	void
457	>	comprow( /* compute row of values */
458	>	double s,
459	>	POINT *row,
460	>	int siz
461	>	)
462		{
463		double st[2];
464		int end;
465	<	register int i;
465	>	int checkvalid;
466	>	int i;
467
468		if (smooth) {
469		i = -1; /* compute one past each end */
#	Line 234 \| Line 475 \| int siz;
475		end = siz;
476		}
477		st[0] = s;
478	+	checkvalid = (fundefined(VNAME) == 2);
479		while (i <= end) {
480		st[1] = (double)i/siz;
481	<	row[i].p[0] = funvalue(XNAME, 2, st);
482	<	row[i].p[1] = funvalue(YNAME, 2, st);
483	<	row[i].p[2] = funvalue(ZNAME, 2, st);
481	>	if (checkvalid && funvalue(VNAME, 2, st) <= 0.0) {
482	>	row[i].valid = 0;
483	>	row[i].p[0] = row[i].p[1] = row[i].p[2] = 0.0;
484	>	row[i].uv[0] = row[i].uv[1] = 0.0;
485	>	} else {
486	>	row[i].valid = 1;
487	>	row[i].p[0] = funvalue(XNAME, 2, st);
488	>	row[i].p[1] = funvalue(YNAME, 2, st);
489	>	row[i].p[2] = funvalue(ZNAME, 2, st);
490	>	row[i].uv[0] = st[0];
491	>	row[i].uv[1] = st[1];
492	>	}
493		i++;
494		}
495		}
496
497
498	<	compnorms(r0, r1, r2, siz) /* compute row of averaged normals */
499	<	register POINT r0, r1, *r2;
500	<	int siz;
498	>	void
499	>	compnorms( /* compute row of averaged normals */
500	>	POINT *r0,
501	>	POINT *r1,
502	>	POINT *r2,
503	>	int siz
504	>	)
505		{
506		FVECT v1, v2;
252	–	register int i;
507
508		if (!smooth) /* not needed if no smoothing */
509		return;
510	<	/* compute middle points */
510	>	/* compute row 1 normals */
511		while (siz-- >= 0) {
512	<	fvsum(v1, r2[0].p, r0[0].p, -1.0);
513	<	fvsum(v2, r1[1].p, r1[-1].p, -1.0);
512	>	if (!r1[0].valid)
513	>	goto skip;
514	>	if (!r0[0].valid) {
515	>	if (!r2[0].valid) {
516	>	r1[0].n[0] = r1[0].n[1] = r1[0].n[2] = 0.0;
517	>	goto skip;
518	>	}
519	>	fvsum(v1, r2[0].p, r1[0].p, -1.0);
520	>	} else if (!r2[0].valid)
521	>	fvsum(v1, r1[0].p, r0[0].p, -1.0);
522	>	else
523	>	fvsum(v1, r2[0].p, r0[0].p, -1.0);
524	>	if (!r1[-1].valid) {
525	>	if (!r1[1].valid) {
526	>	r1[0].n[0] = r1[0].n[1] = r1[0].n[2] = 0.0;
527	>	goto skip;
528	>	}
529	>	fvsum(v2, r1[1].p, r1[0].p, -1.0);
530	>	} else if (!r1[1].valid)
531	>	fvsum(v2, r1[0].p, r1[-1].p, -1.0);
532	>	else
533	>	fvsum(v2, r1[1].p, r1[-1].p, -1.0);
534		fcross(r1[0].n, v1, v2);
535		normalize(r1[0].n);
536	+	skip:
537		r0++; r1++; r2++;
538		}
539		}
540
541
542		int
543	<	norminterp(resmat, p0, p1, p2, p3) /* compute normal interpolation */
544	<	register FVECT resmat[4];
545	<	POINT p0, p1, p2, p3;
543	>	norminterp( /* compute normal interpolation */
544	>	FVECT resmat[4],
545	>	POINT *p0,
546	>	POINT *p1,
547	>	POINT *p2,
548	>	POINT *p3
549	>	)
550		{
551		#define u ((ax+1)%3)
552		#define v ((ax+2)%3)
553
554	<	register int ax;
554	>	int ax;
555		MAT4 eqnmat;
556		FVECT v1;
557	<	register int i, j;
557	>	int i, j;
558
559		if (!smooth) /* no interpolation if no smoothing */
560		return(-1);
#	Line 304 \| Line 583 \| *POINT p0, p1, p2, p3;*
583		eqnmat[3][2] = p3->p[v];
584		eqnmat[3][3] = 1.0;
585		/* invert matrix (solve system) */
586	<	if (!invmat(eqnmat, eqnmat))
586	>	if (!invmat4(eqnmat, eqnmat))
587		return(-1); /* no solution */
588		/* compute result matrix */
589		for (j = 0; j < 4; j++)
#	Line 320 \| Line 599 \| *POINT p0, p1, p2, p3;*
599		}
600
601
323	–	/*
324	–	* invmat - computes the inverse of mat into inverse. Returns 1
325	–	* if there exists an inverse, 0 otherwise. It uses Gaussian Elimination
326	–	* method.
327	–	*/
328	–
329	–	invmat(inverse,mat)
330	–	MAT4 inverse, mat;
331	–	{
332	–	#define SWAP(a,b,t) (t=a,a=b,b=t)
333	–
334	–	MAT4 m4tmp;
335	–	register int i,j,k;
336	–	register double temp;
337	–
338	–	copymat4(m4tmp, mat);
339	–	/* set inverse to identity */
340	–	for (i = 0; i < 4; i++)
341	–	for (j = 0; j < 4; j++)
342	–	inverse[i][j] = i==j ? 1.0 : 0.0;
343	–
344	–	for(i = 0; i < 4; i++) {
345	–	/* Look for row with largest pivot and swap rows */
346	–	temp = FTINY; j = -1;
347	–	for(k = i; k < 4; k++)
348	–	if(ABS(m4tmp[k][i]) > temp) {
349	–	temp = ABS(m4tmp[k][i]);
350	–	j = k;
351	–	}
352	–	if(j == -1) /* No replacing row -> no inverse */
353	–	return(0);
354	–	if (j != i)
355	–	for(k = 0; k < 4; k++) {
356	–	SWAP(m4tmp[i][k],m4tmp[j][k],temp);
357	–	SWAP(inverse[i][k],inverse[j][k],temp);
358	–	}
359	–
360	–	temp = m4tmp[i][i];
361	–	for(k = 0; k < 4; k++) {
362	–	m4tmp[i][k] /= temp;
363	–	inverse[i][k] /= temp;
364	–	}
365	–	for(j = 0; j < 4; j++) {
366	–	if(j != i) {
367	–	temp = m4tmp[j][i];
368	–	for(k = 0; k < 4; k++) {
369	–	m4tmp[j][k] -= m4tmp[i][k]*temp;
370	–	inverse[j][k] -= inverse[i][k]*temp;
371	–	}
372	–	}
373	–	}
374	–	}
375	–	return(1);
376	–
377	–	#undef SWAP
378	–	}
379	–
380	–
381	–	eputs(msg)
382	–	char *msg;
383	–	{
384	–	fputs(msg, stderr);
385	–	}
386	–
387	–
388	–	wputs(msg)
389	–	char *msg;
390	–	{
391	–	eputs(msg);
392	–	}
393	–
394	–
395	–	quit(code)
396	–	{
397	–	exit(code);
398	–	}
399	–
400	–
401	–	printhead(ac, av) /* print command header */
402	–	register int ac;
403	–	register char **av;
404	–	{
405	–	putchar('#');
406	–	while (ac--) {
407	–	putchar(' ');
408	–	fputs(*av++, stdout);
409	–	}
410	–	putchar('\n');
411	–	}
412	–
413	–
602		double
603	<	l_hermite()
603	>	l_hermite(char *nm)
604		{
605		double t;
606
#	Line 425 \| Line 613 \| l_hermite()
613
614
615		double
616	<	l_bezier()
616	>	l_bezier(char *nm)
617		{
618		double t;
619
#	Line 438 \| Line 626 \| l_bezier()
626
627
628		double
629	<	l_bspline()
629	>	l_bspline(char *nm)
630		{
631		double t;
632

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Comparing ray/src/gen/gensurf.c (file contents): Revision 1.14 by greg, Tue Apr 23 15:51:11 1991 UTC vs. Revision 2.27 by greg, Sun Jun 14 03:54:23 2020 UTC

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Comparing ray/src/gen/gensurf.c (file contents):
Revision 1.14 by greg, Tue Apr 23 15:51:11 1991 UTC vs.
Revision 2.27 by greg, Sun Jun 14 03:54:23 2020 UTC