[ViewVC] Diff of: radiance/ray/src/common/mesh.c

Comparing ray/src/common/mesh.c (file contents):
Revision 2.26 by greg, Tue Nov 6 17:12:35 2012 UTC vs.
Revision 2.37 by greg, Thu Dec 12 23:04:31 2024 UTC

#	Line 5 \| Line 5 \| static const char RCSid[] = "$Id$";
5		* Mesh support routines
6		*/
7
8	–	#include <string.h>
9	–
8		#include "rtio.h"
9		#include "rtmath.h"
10		#include "rterror.h"
#	Line 52 \| Line 50 \| static int
50		cvcmp(const char vv1, const char vv2) /* compare encoded vertices */
51		{
52		const MCVERT v1 = (const MCVERT )vv1, v2 = (const MCVERT )vv2;
53	+
54		if (v1->fl != v2->fl)
55		return(1);
56		if (v1->xyz[0] != v2->xyz[0])
#	Line 73 \| Line 72 \| *cvcmp(const char vv1, const char vv2) / compare en**
72
73
74		MESH *
75	<	getmesh( /* get new mesh data reference */
75	>	getmesh( /* get mesh data reference */
76		char *mname,
77		int flags
78		)
#	Line 83 \| Line 82 \| *getmesh( / get new mesh data reference /*
82
83		flags &= IO_LEGAL;
84		for (ms = mlist; ms != NULL; ms = ms->next)
85	<	if (!strcmp(mname, ms->name)) {
87	<	ms->nref++; /* increase reference count */
85	>	if (!strcmp(mname, ms->name))
86		break;
87	<	}
90	<	if (ms == NULL) { /* load first time */
87	>	if (ms == NULL) { /* new mesh entry? */
88		ms = (MESH *)calloc(1, sizeof(MESH));
89		if (ms == NULL)
90		error(SYSTEM, "out of memory in getmesh");
91		ms->name = savestr(mname);
95	–	ms->nref = 1;
92		ms->mcube.cutree = EMPTY;
93		ms->next = mlist;
94		mlist = ms;
95		}
96	+	ms->nref++; /* bump reference count */
97	+	if (!(flags &= ~ms->ldflags)) /* nothing to load? */
98	+	return(ms);
99		if ((pathname = getpath(mname, getrlibpath(), R_OK)) == NULL) {
100		sprintf(errmsg, "cannot find mesh file \"%s\"", mname);
101	<	error(USER, errmsg);
101	>	error(SYSTEM, errmsg);
102		}
103	<	flags &= ~ms->ldflags;
105	<	if (flags)
106	<	readmesh(ms, pathname, flags);
103	>	readmesh(ms, pathname, flags);
104		return(ms);
105		}
106
#	Line 286 \| Line 283 \| *getmeshpseudo( / get mesh pseudo object for materia**
283		OBJECT mo
284		)
285		{
286	<	if (mo < mp->mat0 \|\| mo >= mp->mat0 + mp->nmats)
286	>	if ((mo < mp->mat0) \| (mo >= mp->mat0 + mp->nmats))
287		error(INTERNAL, "modifier out of range in getmeshpseudo");
288		if (mp->pseudo == NULL) {
289		int i;
#	Line 327 \| Line 324 \| *getmeshtri( / get triangle vertices /*
324
325		int32
326		addmeshvert( /* find/add a mesh vertex */
327	<	MESH *mp,
327	>	MESH *mp,
328		MESHVERT *vp
329		)
330		{
331	<	LUENT *lvp;
332	<	MCVERT cv;
331	>	LUENT *lvp;
332	>	MCVERT cv;
333		int i;
334
335		if (!(vp->fl & MT_V))
#	Line 373 \| Line 370 \| *addmeshvert( / find/add a mesh vertex /*
370		goto nomem;
371		if (lvp->key == NULL) {
372		lvp->key = (char *)malloc(sizeof(MCVERT)+sizeof(int32));
373	<	memcpy((void )lvp->key, (void )&cv, sizeof(MCVERT));
373	>	memcpy(lvp->key, &cv, sizeof(MCVERT));
374		}
375		if (lvp->data == NULL) { /* new vertex */
376		MESHPATCH *pp;
#	Line 384 \| Line 381 \| *addmeshvert( / find/add a mesh vertex /*
381		goto nomem;
382		mp->npatches = 1;
383		} else if (mp->patch[mp->npatches-1].nverts >= 256) {
384	+	if (mp->npatches >= 1L<<22)
385	+	error(INTERNAL, "too many mesh patches");
386		if (mp->npatches % MPATCHBLKSIZ == 0) {
387	<	mp->patch = (MESHPATCH *)realloc(
388	<	(void *)mp->patch,
389	<	(mp->npatches + MPATCHBLKSIZ)*
390	<	sizeof(MESHPATCH));
392	<	memset((void *)(mp->patch + mp->npatches), '\0',
387	>	mp->patch = (MESHPATCH *)realloc(mp->patch,
388	>	(mp->npatches + MPATCHBLKSIZ)*
389	>	sizeof(MESHPATCH));
390	>	memset((mp->patch + mp->npatches), '\0',
391		MPATCHBLKSIZ*sizeof(MESHPATCH));
392		}
393	<	if (mp->npatches++ >= 1L<<22)
396	<	error(INTERNAL, "too many mesh patches");
393	>	mp->npatches++;
394		}
395		pp = &mp->patch[mp->npatches-1];
396		if (pp->xyz == NULL) {
#	Line 439 \| Line 436 \| *addmeshtri( / add a new mesh triangle /*
436		OBJECT mo
437		)
438		{
439	<	int32 vid[3], t;
440	<	int pn[3], i;
439	>	int32 vid[3], t;
440	>	int pn[3], i;
441		MESHPATCH *pp;
442
443		if (!(tv[0].fl & tv[1].fl & tv[2].fl & MT_V))
#	Line 459 \| Line 456 \| *addmeshtri( / add a new mesh triangle /*
456		error(INTERNAL, "modifier range error in addmeshtri");
457		}
458		/* assign triangle */
459	<	if (pn[0] == pn[1] && pn[1] == pn[2]) { /* local case */
459	>	if ((pn[0] == pn[1]) & (pn[1] == pn[2])) { /* local case */
460		pp = &mp->patch[pn[0]];
461		if (pp->tri == NULL) {
462		pp->tri = (struct PTri *)malloc(
#	Line 485 \| Line 482 \| *addmeshtri( / add a new mesh triangle /*
482		pp->trimat[pp->ntris] = mo;
483		return(pn[0] << 10 \| pp->ntris++);
484		}
485	<	}
489	<	if (pn[0] == pn[1]) {
485	>	} else if (pn[0] == pn[1]) {
486		t = vid[2]; vid[2] = vid[1]; vid[1] = vid[0]; vid[0] = t;
487		i = pn[2]; pn[2] = pn[1]; pn[1] = pn[0]; pn[0] = i;
488		} else if (pn[0] == pn[2]) {
#	Line 510 \| Line 506 \| *addmeshtri( / add a new mesh triangle /*
506		}
507		}
508		/* double link */
509	<	pp = &mp->patch[pn[2]];
509	>	pp = &mp->patch[pn[i=0]];
510	>	if (mp->patch[pn[1]].nj2tris < pp->nj2tris)
511	>	pp = &mp->patch[pn[i=1]];
512	>	if (mp->patch[pn[2]].nj2tris < pp->nj2tris)
513	>	pp = &mp->patch[pn[i=2]];
514	>	if (pp->nj2tris >= 256)
515	>	error(INTERNAL, "too many patch triangles in addmeshtri");
516		if (pp->j2tri == NULL) {
517		pp->j2tri = (struct PJoin2 *)malloc(
518		256*sizeof(struct PJoin2));
519		if (pp->j2tri == NULL)
520		goto nomem;
521		}
520	–	if (pp->nj2tris >= 256)
521	–	error(INTERNAL, "too many patch triangles in addmeshtri");
522	–	pp->j2tri[pp->nj2tris].v1j = vid[0];
523	–	pp->j2tri[pp->nj2tris].v2j = vid[1];
524	–	pp->j2tri[pp->nj2tris].v3 = vid[2] & 0xff;
522		pp->j2tri[pp->nj2tris].mat = mo;
523	<	return(pn[2] << 10 \| 0x300 \| pp->nj2tris++);
523	>	switch (i) {
524	>	case 0:
525	>	pp->j2tri[pp->nj2tris].v3 = vid[0] & 0xff;
526	>	pp->j2tri[pp->nj2tris].v1j = vid[1];
527	>	pp->j2tri[pp->nj2tris].v2j = vid[2];
528	>	return(pn[0] << 10 \| 0x300 \| pp->nj2tris++);
529	>	case 1:
530	>	pp->j2tri[pp->nj2tris].v2j = vid[0];
531	>	pp->j2tri[pp->nj2tris].v3 = vid[1] & 0xff;
532	>	pp->j2tri[pp->nj2tris].v1j = vid[2];
533	>	return(pn[1] << 10 \| 0x300 \| pp->nj2tris++);
534	>	case 2:
535	>	pp->j2tri[pp->nj2tris].v1j = vid[0];
536	>	pp->j2tri[pp->nj2tris].v2j = vid[1];
537	>	pp->j2tri[pp->nj2tris].v3 = vid[2] & 0xff;
538	>	return(pn[2] << 10 \| 0x300 \| pp->nj2tris++);
539	>	}
540		nomem:
541		error(SYSTEM, "out of memory in addmeshtri");
542		return(OVOID);
#	Line 535 \| Line 548 \| *checkmesh(MESH mp) /* validate mesh data /*
548		{
549		static char embuf[128];
550		int nouvbounds = 1;
551	<	int i;
551	>	int i, j;
552		/* basic checks */
553		if (mp == NULL)
554		return("NULL mesh pointer");
#	Line 557 \| Line 570 \| *checkmesh(MESH mp) /* validate mesh data /*
570		if (isempty(mp->mcube.cutree))
571		error(WARNING, "empty mesh octree");
572		}
573	<	/* check scene data */
573	>	/* check patch data */
574		if (mp->ldflags & IO_SCENE) {
575	+	MESHVERT mv;
576		if (!(mp->ldflags & IO_BOUNDS))
577		return("unbounded scene in mesh");
578		if (mp->mat0 < 0 \|\| mp->mat0+mp->nmats > nobjects)
579		return("bad mesh modifier range");
580	+	if (mp->nmats > 0) /* allocate during preload_objs()! */
581	+	getmeshpseudo(mp, mp->mat0);
582		for (i = mp->mat0+mp->nmats; i-- > mp->mat0; ) {
583		int otyp = objptr(i)->otype;
584		if (!ismodifier(otyp)) {
#	Line 584 \| Line 600 \| *checkmesh(MESH mp) /* validate mesh data /*
600		if (nouvbounds && pp->uv != NULL)
601		return("unreferenced uv coordinates");
602		}
603	<	if (pp->ntris > 0 && pp->tri == NULL)
604	<	return("missing patch triangle list");
605	<	if (pp->nj1tris > 0 && pp->j1tri == NULL)
606	<	return("missing patch joiner triangle list");
607	<	if (pp->nj2tris > 0 && pp->j2tri == NULL)
608	<	return("missing patch double-joiner list");
603	>	if (pp->ntris > 0) {
604	>	struct PTri *tp = pp->tri;
605	>	if (tp == NULL)
606	>	return("missing patch triangle list");
607	>	if (mp->nmats <= 0)
608	>	j = -1;
609	>	else if (pp->trimat == NULL)
610	>	j = ((pp->solemat < 0) \| (pp->solemat >= mp->nmats)) - 1;
611	>	else
612	>	for (j = pp->ntris; j--; )
613	>	if ((pp->trimat[j] < 0) \|
614	>	(pp->trimat[j] >= mp->nmats))
615	>	break;
616	>	if (j >= 0)
617	>	return("bad local triangle material");
618	>	for (j = pp->ntris; j--; tp++)
619	>	if ((tp->v1 >= pp->nverts) \| (tp->v2 >= pp->nverts) \|
620	>	(tp->v3 >= pp->nverts))
621	>	return("bad local triangle index");
622	>	}
623	>	if (pp->nj1tris > 0) {
624	>	struct PJoin1 *j1p = pp->j1tri;
625	>	if (j1p == NULL)
626	>	return("missing patch joiner triangle list");
627	>	for (j = pp->nj1tris; j--; j1p++) {
628	>	if (mp->nmats > 0 &&
629	>	(j1p->mat < 0) \| (j1p->mat >= mp->nmats))
630	>	return("bad j1 triangle material");
631	>	if (!getmeshvert(&mv, mp, j1p->v1j, MT_V))
632	>	return("bad j1 triangle joiner");
633	>	if ((j1p->v2 >= pp->nverts) \| (j1p->v3 >= pp->nverts))
634	>	return("bad j1 triangle local index");
635	>	}
636	>	}
637	>	if (pp->nj2tris > 0) {
638	>	struct PJoin2 *j2p = pp->j2tri;
639	>	if (j2p == NULL)
640	>	return("missing patch double-joiner list");
641	>	for (j = pp->nj2tris; j--; j2p++) {
642	>	if (mp->nmats > 0 &&
643	>	(j2p->mat < 0) \| (j2p->mat >= mp->nmats))
644	>	return("bad j2 triangle material");
645	>	if (!getmeshvert(&mv, mp, j2p->v1j, MT_V) \|
646	>	!getmeshvert(&mv, mp, j2p->v2j, MT_V))
647	>	return("bad j2 triangle joiner");
648	>	if (j2p->v3 >= pp->nverts)
649	>	return("bad j2 triangle local index");
650	>	}
651	>	}
652		}
653		}
654	<	return(NULL); /* seems OK */
654	>	return(NULL); /* seems to be self-consistent */
655		}
656
657
#	Line 709 \| Line 768 \| *freemesh(MESH ms) /* free mesh data /*
768		MESHPATCH *pp = ms->patch + ms->npatches;
769		while (pp-- > ms->patch) {
770		if (pp->j2tri != NULL)
771	<	free((void *)pp->j2tri);
771	>	free(pp->j2tri);
772		if (pp->j1tri != NULL)
773	<	free((void *)pp->j1tri);
773	>	free(pp->j1tri);
774		if (pp->tri != NULL)
775	<	free((void *)pp->tri);
775	>	free(pp->tri);
776		if (pp->uv != NULL)
777	<	free((void *)pp->uv);
777	>	free(pp->uv);
778		if (pp->norm != NULL)
779	<	free((void *)pp->norm);
779	>	free(pp->norm);
780		if (pp->xyz != NULL)
781	<	free((void *)pp->xyz);
781	>	free(pp->xyz);
782	>	if (pp->trimat != NULL)
783	>	free(pp->trimat);
784		}
785	<	free((void *)ms->patch);
785	>	free(ms->patch);
786		}
787		if (ms->pseudo != NULL)
788	<	free((void *)ms->pseudo);
789	<	free((void *)ms);
788	>	free(ms->pseudo);
789	>	free(ms);
790		}
791
792
#	Line 735 \| Line 796 \| *freemeshinst(OBJREC o) /* free mesh instance /*
796		if (o->os == NULL)
797		return;
798		freemesh(((MESHINST )o->os).msh);
799	<	free((void *)o->os);
799	>	free(o->os);
800		o->os = NULL;
801		}

Diff Legend

-–
+Removed lines
-+
+Added lines
-<
+Changed lines
->
+Changed lines

Comparing ray/src/common/mesh.c (file contents): Revision 2.26 by greg, Tue Nov 6 17:12:35 2012 UTC vs. Revision 2.37 by greg, Thu Dec 12 23:04:31 2024 UTC

Diff Legend

Comparing ray/src/common/mesh.c (file contents):
Revision 2.26 by greg, Tue Nov 6 17:12:35 2012 UTC vs.
Revision 2.37 by greg, Thu Dec 12 23:04:31 2024 UTC