[ViewVC] Diff of: radiance/ray/src/rt/m

Comparing ray/src/rt/m_direct.c (file contents):
Revision 1.5 by greg, Thu Aug 8 11:30:05 1991 UTC vs.
Revision 2.4 by greg, Wed Jan 12 16:46:39 1994 UTC

#	Line 15 \| Line 15 \| static char SCCSid[] = "$SunId$ LBL";
15
16		#include "source.h"
17
18	+	#include "func.h"
19	+
20		/*
21		* The arguments for MAT_DIRECT1 are:
22		*
#	Line 30 \| Line 32 \| static char SCCSid[] = "$SunId$ LBL";
32		*/
33
34
33	–	extern double varvalue();
34	–
35		int dir_proj();
36		VSMATERIAL direct1_vs = {dir_proj, 1};
37		VSMATERIAL direct2_vs = {dir_proj, 2};
38
39	+	#define getdfunc(m) ( (m)->otype == MAT_DIRECT1 ? \
40	+	getfunc(m, 4, 0xf, 1) : \
41	+	getfunc(m, 8, 0xff, 1) )
42
43	+
44		m_direct(m, r) /* shade redirected ray */
45		register OBJREC *m;
46		register RAY *r;
47		{
48		/* check if source ray */
49		if (r->rsrc >= 0 && source[r->rsrc].so != r->ro)
50	<	return; /* got the wrong guy */
47	<	dir_check(m);
50	>	return(1); /* got the wrong guy */
51		/* compute first projection */
52		if (m->otype == MAT_DIRECT1 \|\|
53		(r->rsrc < 0 \|\| source[r->rsrc].sa.sv.pn == 0))
#	Line 53 \| Line 56 \| *register RAY r;**
56		if (m->otype == MAT_DIRECT2 &&
57		(r->rsrc < 0 \|\| source[r->rsrc].sa.sv.pn == 1))
58		redirect(m, r, 1);
59	+	return(1);
60		}
61
62
#	Line 61 \| Line 65 \| *OBJREC m;**
65		RAY *r;
66		int n;
67		{
68	<	register char **sa;
68	>	MFUNC *mf;
69	>	register EPNODE **va;
70	>	FVECT nsdir;
71		RAY nr;
72		double coef;
73		register int j;
74		/* set up function */
75	<	setmap(m, r, &((FULLXF *)m->os)->b);
76	<	sa = m->oargs.sarg + 4*n;
75	>	mf = getdfunc(m);
76	>	setfunc(m, r);
77	>	/* assign direction variable */
78	>	if (r->rsrc >= 0) {
79	>	register SRCREC *sp = source + source[r->rsrc].sa.sv.sn;
80	>
81	>	if (sp->sflags & SDISTANT)
82	>	VCOPY(nsdir, sp->sloc);
83	>	else {
84	>	for (j = 0; j < 3; j++)
85	>	nsdir[j] = sp->sloc[j] - r->rop[j];
86	>	normalize(nsdir);
87	>	}
88	>	if (r->rox != NULL)
89	>	multv3(nsdir, nsdir, r->rox->b.xfm);
90	>	if (mf->b != &unitxf)
91	>	multv3(nsdir, nsdir, mf->b->xfm);
92	>	} else
93	>	nsdir[0] = nsdir[1] = nsdir[2] = 0.0;
94	>	varset("DxA", '=', nsdir[0]);
95	>	varset("DyA", '=', nsdir[1]);
96	>	varset("DzA", '=', nsdir[2]);
97		/* compute coefficient */
98		errno = 0;
99	<	coef = varvalue(sa[0]);
99	>	va = mf->ep + 4*n;
100	>	coef = evalue(va[0]);
101		if (errno)
102		goto computerr;
103		if (coef <= FTINY \|\| rayorigin(&nr, r, TRANS, coef) < 0)
104		return(0);
105	<	/* compute direction */
106	<	errno = 0;
107	<	for (j = 0; j < 3; j++)
108	<	nr.rdir[j] = varvalue(sa[j+1]);
109	<	if (errno)
110	<	goto computerr;
111	<	multv3(nr.rdir, nr.rdir, ((FULLXF *)m->os)->f.xfm);
105	>	va++; /* compute direction */
106	>	for (j = 0; j < 3; j++) {
107	>	nr.rdir[j] = evalue(va[j]);
108	>	if (errno)
109	>	goto computerr;
110	>	}
111	>	if (mf->f != &unitxf)
112	>	multv3(nr.rdir, nr.rdir, mf->f->xfm);
113		if (r->rox != NULL)
114		multv3(nr.rdir, nr.rdir, r->rox->f.xfm);
115		if (normalize(nr.rdir) == 0.0)
#	Line 106 \| Line 134 \| *SRCREC s;**
134		int n;
135		{
136		RAY tr;
137	<	register OBJREC *m;
138	<	char **sa;
137	>	OBJREC *m;
138	>	MFUNC *mf;
139	>	EPNODE **va;
140		FVECT cent, newdir, nv, h;
141	<	double olddot, newdot, od;
141	>	double coef, olddot, newdot, od;
142		register int i, j;
114	–	/* get material arguments */
115	–	m = objptr(o->omod);
116	–	dir_check(m);
117	–	sa = m->oargs.sarg + 4*n;
143		/* initialize test ray */
144		getmaxdisk(cent, o);
145		if (s->sflags & SDISTANT)
#	Line 138 \| Line 163 \| int n;
163		if (!(*ofun[o->otype].funp)(o, &tr))
164		return(0); /* no intersection! */
165		/* compute redirection */
166	<	setmap(m, &tr, &((FULLXF *)m->os)->b);
166	>	m = vsmaterial(o);
167	>	mf = getdfunc(m);
168	>	setfunc(m, &tr);
169	>	varset("DxA", '=', 0.0);
170	>	varset("DyA", '=', 0.0);
171	>	varset("DzA", '=', 0.0);
172		errno = 0;
173	<	if (varvalue(sa[0]) <= FTINY)
174	<	return(0); /* insignificant */
173	>	va = mf->ep + 4*n;
174	>	coef = evalue(va[0]);
175		if (errno)
176		goto computerr;
177	<	for (i = 0; i < 3; i++)
178	<	newdir[i] = varvalue(sa[i+1]);
179	<	if (errno)
180	<	goto computerr;
181	<	multv3(newdir, newdir, ((FULLXF *)m->os)->f.xfm);
177	>	if (coef <= FTINY)
178	>	return(0); /* insignificant */
179	>	va++;
180	>	for (i = 0; i < 3; i++) {
181	>	newdir[i] = evalue(va[i]);
182	>	if (errno)
183	>	goto computerr;
184	>	}
185	>	if (mf->f != &unitxf)
186	>	multv3(newdir, newdir, mf->f->xfm);
187		/* normalization unnecessary */
188		newdot = DOT(newdir, nv);
189		if (newdot <= FTINY && newdot >= -FTINY)
#	Line 172 \| Line 207 \| int n;
207		computerr:
208		objerror(m, WARNING, "projection compute error");
209		return(0);
175	–	}
176	–
177	–
178	–	static
179	–	dir_check(m) /* check arguments and load function file */
180	–	register OBJREC *m;
181	–	{
182	–	register FULLXF *mxf;
183	–	register int ff;
184	–
185	–	ff = m->otype == MAT_DIRECT1 ? 5 : 9;
186	–	if (ff > m->oargs.nsargs)
187	–	objerror(m, USER, "too few arguments");
188	–	funcfile(m->oargs.sarg[ff-1]);
189	–	if (m->os == NULL) {
190	–	mxf = (FULLXF *)malloc(sizeof(FULLXF));
191	–	if (mxf == NULL)
192	–	error(SYSTEM, "out of memory in dir_check");
193	–	if (fullxf(mxf, m->oargs.nsargs-ff, m->oargs.sarg+ff) !=
194	–	m->oargs.nsargs-ff)
195	–	objerror(m, USER, "bad transform");
196	–	if (mxf->f.sca < 0.0)
197	–	mxf->f.sca = -mxf->f.sca;
198	–	if (mxf->b.sca < 0.0)
199	–	mxf->b.sca = -mxf->b.sca;
200	–	m->os = (char *)mxf;
201	–	}
210		}

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Comparing ray/src/rt/m_direct.c (file contents): Revision 1.5 by greg, Thu Aug 8 11:30:05 1991 UTC vs. Revision 2.4 by greg, Wed Jan 12 16:46:39 1994 UTC

Diff Legend

Comparing ray/src/rt/m_direct.c (file contents):
Revision 1.5 by greg, Thu Aug 8 11:30:05 1991 UTC vs.
Revision 2.4 by greg, Wed Jan 12 16:46:39 1994 UTC