[ViewVC] Diff of: radiance/ray/src/hd/sm

Comparing ray/src/hd/sm_ogl.c (file contents):
Revision 3.2 by gwlarson, Thu Aug 20 16:47:21 1998 UTC vs.
Revision 3.5 by gwlarson, Fri Sep 11 11:52:26 1998 UTC

#	Line 16 \| Line 16 \| static char SCCSid[] = "$SunId$ SGI";
16		#include <GL/glu.h>
17		#include <glut.h>
18		#endif
19	<	#include "object.h"
19	>	#include "sm_list.h"
20		#include "sm_geom.h"
21		#include "sm.h"
22
#	Line 27 \| Line 27 \| MAKE STATIC LATER: ui.c using for now;
27		*/
28		char smClean_notify = TRUE;
29		#else
30	<	static char smClean_notify = TRUE;
30	>	static int smClean_notify = TRUE;
31		#endif
32
33	+	typedef struct {
34	+	float dist; /* average distance */
35	+	BYTE rgb[3]; /* average color */
36	+	} QTRAVG; /* average quadtree value */
37	+
38	+	typedef struct {
39	+	QUADTREE qt; /* quadtree node (key & hash value) */
40	+	QTRAVG av; /* node average */
41	+	} QT_LUENT; /* lookup table entry */
42	+
43	+	static QT_LUENT qt_htbl = NULL; / quadtree cache */
44	+	static int qt_hsiz = 0; /* quadtree cache size */
45	+
46	+
47		int
48		mark_active_tris(qtptr,arg)
49		QUADTREE *qtptr;
50	<	char *arg;
50	>	int *arg;
51		{
52	<	OBJECT os[MAXSET+1],*optr;
53	<	int i,t_id;
54	<	SM *sm;
52	>	QUADTREE qt = *qtptr;
53	>	OBJECT os,optr;
54	>	register int i,t_id;
55
56	<
57	<	sm = (SM *)arg;
44	<
56	>	if (!QT_IS_LEAF(qt))
57	>	return(TRUE);
58		/* For each triangle in the set, set the which flag*/
59	<	if(QT_IS_EMPTY(*qtptr))
47	<	{
48	<	return(FALSE);
49	<	}
50	<	else
51	<	{
52	<	qtgetset(os,*qtptr);
59	>	os = qtqueryset(qt);
60
61	<	for (i = QT_SET_CNT(os),optr = QT_SET_PTR(os); i > 0; i--)
62	<	{
63	<	t_id = QT_SET_NEXT_ELEM(optr);
64	<	/* Set the render flag */
65	<	if(SM_IS_NTH_T_BASE(sm,t_id))
61	>	for (i = QT_SET_CNT(os), optr = QT_SET_PTR(os); i > 0; i--)
62	>	{
63	>	t_id = QT_SET_NEXT_ELEM(optr);
64	>	/* Set the render flag */
65	>	if(SM_IS_NTH_T_BASE(smMesh,t_id))
66		continue;
67	<	SM_SET_NTH_T_ACTIVE(sm,t_id);
68	<	/* FOR NOW:Also set the LRU clock bit: MAY WANT TO CHANGE: */
69	<	SM_SET_NTH_T_LRU(sm,t_id);
63	<	}
67	>	SM_SET_NTH_T_ACTIVE(smMesh,t_id);
68	>	/* FOR NOW:Also set the LRU clock bit: MAY WANT TO CHANGE: */
69	>	SM_SET_NTH_T_LRU(smMesh,t_id);
70		}
71		return(TRUE);
72		}
73
74	<
75	<	smMark_tris_in_frustum(sm,vp)
70	<	SM *sm;
71	<	VIEW *vp;
74	>	mark_tris_in_frustum(view)
75	>	VIEW *view;
76		{
77		FVECT nr[4],far[4];
78
#	Line 79 \| Line 83 \| *VIEW vp;**
83		dev_zmin,dev_zmax to satisfy OGL
84		*/
85
86	<	/* First clear all the triangle active flags */
87	<	smClear_flags(sm,T_ACTIVE_FLAG);
86	>	/* First clear all the quadtree node and triangle active flags */
87	>	qtClearAllFlags();
88	>	smClear_flags(smMesh,T_ACTIVE_FLAG);
89
90		/* calculate the world space coordinates of the view frustum */
91	<	calculate_view_frustum(vp->vp,vp->hvec,vp->vvec,vp->horiz,vp->vert,
92	<	dev_zmin,dev_zmax,nr,far);
91	>	calculate_view_frustum(view->vp,view->hvec,view->vvec,view->horiz,
92	>	view->vert, dev_zmin,dev_zmax,nr,far);
93
94		/* Project the view frustum onto the spherical quadtree */
95		/* For every cell intersected by the projection of the faces
96		of the frustum: mark all triangles in the cell as ACTIVE-
97		Also set the triangles LRU clock counter
98		*/
94	–	/* Need to do tonemap call */
99		/* Near face triangles */
100	<	smLocator_apply_func(sm,nr[0],nr[2],nr[3],mark_active_tris,(char *)(sm));
101	<	smLocator_apply_func(sm,nr[2],nr[0],nr[1],mark_active_tris,(char *)(sm));
100	>	smLocator_apply_func(smMesh,nr[0],nr[2],nr[3],mark_active_tris,NULL);
101	>	smLocator_apply_func(smMesh,nr[2],nr[0],nr[1],mark_active_tris,NULL);
102		/* Right face triangles */
103	<	smLocator_apply_func(sm,nr[0],far[3],far[0],mark_active_tris,(char *)(sm));
104	<	smLocator_apply_func(sm,far[3],nr[0],nr[3],mark_active_tris,(char *)(sm));
103	>	smLocator_apply_func(smMesh,nr[0],far[3],far[0],mark_active_tris,NULL);
104	>	smLocator_apply_func(smMesh,far[3],nr[0],nr[3],mark_active_tris,NULL);
105		/* Left face triangles */
106	<	smLocator_apply_func(sm,nr[1],far[2],nr[2],mark_active_tris,(char *)(sm));
107	<	smLocator_apply_func(sm,far[2],nr[1],far[1],mark_active_tris,(char *)(sm));
106	>	smLocator_apply_func(smMesh,nr[1],far[2],nr[2],mark_active_tris,NULL);
107	>	smLocator_apply_func(smMesh,far[2],nr[1],far[1],mark_active_tris,NULL);
108		/* Top face triangles */
109	<	smLocator_apply_func(sm,nr[0],far[0],nr[1],mark_active_tris,(char *)(sm));
110	<	smLocator_apply_func(sm,nr[1],far[0],far[1],mark_active_tris,(char *)(sm));
109	>	smLocator_apply_func(smMesh,nr[0],far[0],nr[1],mark_active_tris,NULL);
110	>	smLocator_apply_func(smMesh,nr[1],far[0],far[1],mark_active_tris,NULL);
111		/* Bottom face triangles */
112	<	smLocator_apply_func(sm,nr[3],nr[2],far[3],mark_active_tris,(char *)(sm));
113	<	smLocator_apply_func(sm,nr[2],far[2],far[3],mark_active_tris,(char *)(sm));
112	>	smLocator_apply_func(smMesh,nr[3],nr[2],far[3],mark_active_tris,NULL);
113	>	smLocator_apply_func(smMesh,nr[2],far[2],far[3],mark_active_tris,NULL);
114		/* Far face triangles */
115	<	smLocator_apply_func(sm,far[0],far[2],far[1],mark_active_tris,(char *)(sm));
116	<	smLocator_apply_func(sm,far[2],far[0],far[3],mark_active_tris,(char *)(sm));
115	>	smLocator_apply_func(smMesh,far[0],far[2],far[1],mark_active_tris,NULL);
116	>	smLocator_apply_func(smMesh,far[2],far[0],far[3],mark_active_tris,NULL);
117
118		#ifdef TEST_DRIVER
119		VCOPY(FrustumFar[0],far[0]);
#	Line 131 \| Line 135 \| *VIEW vp;**
135		*/
136		smClean()
137		{
134	–	/* Mark all triangles in the frustum as active */
135	–	if(!smMesh \|\| SM_NUM_TRIS(smMesh)==0)
136	–	return;
137	–
138	–	#ifdef TEST_DRIVER
139	–	smMark_tris_in_frustum(smMesh,&Current_View);
140	–	#else
141	–	smMark_tris_in_frustum(smMesh,&(odev.v));
142	–	#endif
138		smClean_notify = TRUE;
139		}
140
141	+	int
142	+	qtCache_init(nel) /* initialize for at least nel elements */
143	+	int nel;
144	+	{
145	+	static int hsiztab[] = {
146	+	8191, 16381, 32749, 65521, 131071, 262139, 524287, 1048573, 0
147	+	};
148	+	register int i;
149
150	<	smRender_tri(sm,i,vp)
150	>	if (nel <= 0) { /* call to free table */
151	>	if (qt_hsiz) {
152	>	free((char *)qt_htbl);
153	>	qt_htbl = NULL;
154	>	qt_hsiz = 0;
155	>	}
156	>	return(0);
157	>	}
158	>	nel += nel>>1; /* 66% occupancy */
159	>	for (i = 0; hsiztab[i]; i++)
160	>	if (hsiztab[i] > nel)
161	>	break;
162	>	if (!(qt_hsiz = hsiztab[i]))
163	>	qt_hsiz = nel2 + 1; / not always prime */
164	>	qt_htbl = (QT_LUENT *)calloc(qt_hsiz, sizeof(QT_LUENT));
165	>	if (qt_htbl == NULL)
166	>	qt_hsiz = 0;
167	>	for (i = qt_hsiz; i--; )
168	>	qt_htbl[i].qt = EMPTY;
169	>	return(qt_hsiz);
170	>	}
171	>
172	>	QT_LUENT *
173	>	qtCache_find(qt) /* find a quadtree table entry */
174	>	QUADTREE qt;
175	>	{
176	>	int i, n;
177	>	register int ndx;
178	>	register QT_LUENT *le;
179	>
180	>	if (qt_hsiz == 0 && !qtCache_init(1))
181	>	return(NULL);
182	>	tryagain: /* hash table lookup */
183	>	ndx = (unsigned long)qt % qt_hsiz;
184	>	for (i = 0, n = 1; i < qt_hsiz; i++, n += 2) {
185	>	le = &qt_htbl[ndx];
186	>	if (QT_IS_EMPTY(le->qt) \|\| le->qt == qt)
187	>	return(le);
188	>	if ((ndx += n) >= qt_hsiz) /* this happens rarely */
189	>	ndx = ndx % qt_hsiz;
190	>	}
191	>	/* table is full, reallocate */
192	>	le = qt_htbl;
193	>	ndx = qt_hsiz;
194	>	if (!qtCache_init(ndx+1)) { /* no more memory! */
195	>	qt_htbl = le;
196	>	qt_hsiz = ndx;
197	>	return(NULL);
198	>	}
199	>	/* copy old table to new and free */
200	>	while (ndx--)
201	>	if (!QT_IS_EMPTY(le[ndx].qt))
202	>	copystruct(qtCache_find(le[ndx].qt), &le[ndx]);
203	>	free((char *)le);
204	>	goto tryagain; /* should happen only once! */
205	>	}
206	>
207	>	stCount_level_leaves(lcnt, qt) /* count quadtree leaf nodes at each level */
208	>	int lcnt[];
209	>	register QUADTREE qt;
210	>	{
211	>	if (QT_IS_EMPTY(qt))
212	>	return;
213	>	if (QT_IS_TREE(qt)) {
214	>	if (!QT_IS_FLAG(qt)) /* not in our frustum */
215	>	return;
216	>	stCount_level_leaves(lcnt+1, QT_NTH_CHILD(qt,0));
217	>	stCount_level_leaves(lcnt+1, QT_NTH_CHILD(qt,1));
218	>	stCount_level_leaves(lcnt+1, QT_NTH_CHILD(qt,2));
219	>	stCount_level_leaves(lcnt+1, QT_NTH_CHILD(qt,3));
220	>	}
221	>	else
222	>	lcnt[0]++;
223	>	}
224	>
225	>
226	>	QTRAVG *
227	>	qtRender_level(qt,v0,v1,v2,sm,lvl)
228	>	QUADTREE qt;
229	>	FVECT v0,v1,v2;
230		SM *sm;
231	+	int lvl;
232	+	{
233	+	FVECT a,b,c;
234	+	register QT_LUENT *le;
235	+	QTRAVG *rc[4];
236	+
237	+	if (QT_IS_EMPTY(qt)) /* empty leaf node */
238	+	return(NULL);
239	+	if (QT_IS_TREE(qt) && !QT_IS_FLAG(qt)) /* not in our frustum */
240	+	return(NULL);
241	+	/* else look up node */
242	+	if ((le = qtCache_find(qt)) == NULL)
243	+	error(SYSTEM, "out of memory in qtRender_level");
244	+	if (QT_IS_TREE(qt) && (QT_IS_EMPTY(le->qt) \|\| lvl > 0))
245	+	{ /* compute children */
246	+	qtSubdivide_tri(v0,v1,v2,a,b,c);
247	+	rc[0] = qtRender_level(QT_NTH_CHILD(qt,0),v0,a,c,sm,lvl-1);
248	+	rc[1] = qtRender_level(QT_NTH_CHILD(qt,1),a,v1,b,sm,lvl-1);
249	+	rc[2] = qtRender_level(QT_NTH_CHILD(qt,2),c,b,v2,sm,lvl-1);
250	+	rc[3] = qtRender_level(QT_NTH_CHILD(qt,3),b,c,a,sm,lvl-1);
251	+	}
252	+	if (QT_IS_EMPTY(le->qt))
253	+	{ /* let's make some data! */
254	+	int rgbs[3];
255	+	double distsum;
256	+	register int i, n;
257	+	/* average our triangle vertices */
258	+	rgbs[0] = rgbs[1] = rgbs[2] = 0;
259	+	distsum = 0.; n = 0;
260	+	if(QT_IS_TREE(qt))
261	+	{ /* from subtree */
262	+	for (i = 4; i--; )
263	+	if (rc[i] != NULL)
264	+	{
265	+	rgbs[0] += rc[i]->rgb[0]; rgbs[1] += rc[i]->rgb[1];
266	+	rgbs[2] += rc[i]->rgb[2]; distsum += rc[i]->dist; n++;
267	+	}
268	+	}
269	+	else
270	+	{ /* from triangle set */
271	+	OBJECT *os;
272	+	int s0, s1, s2;
273	+
274	+	os = qtqueryset(qt);
275	+	for (n = os[0]; n; n--)
276	+	{
277	+	qtTri_from_id(os[n],a,b,c,NULL,NULL,NULL,&s0,&s1,&s2);
278	+	distsum += SM_BG_SAMPLE(sm,s0) ? dev_zmax
279	+	: sqrt(dist2(a,SM_VIEW_CENTER(sm)));
280	+	distsum += SM_BG_SAMPLE(sm,s1) ? dev_zmax
281	+	: sqrt(dist2(b,SM_VIEW_CENTER(sm)));
282	+	distsum += SM_BG_SAMPLE(sm,s2) ? dev_zmax
283	+	: sqrt(dist2(c,SM_VIEW_CENTER(sm)));
284	+	rgbs[0] += SM_NTH_RGB(sm,s0)[0] + SM_NTH_RGB(sm,s1)[0]
285	+	+ SM_NTH_RGB(sm,s2)[0];
286	+	rgbs[1] += SM_NTH_RGB(sm,s0)[1] + SM_NTH_RGB(sm,s1)[1]
287	+	+ SM_NTH_RGB(sm,s2)[1];
288	+	rgbs[2] += SM_NTH_RGB(sm,s0)[2] + SM_NTH_RGB(sm,s1)[2]
289	+	+ SM_NTH_RGB(sm,s2)[2];
290	+	}
291	+	n = 3*os[0];
292	+	}
293	+	if (!n)
294	+	return(NULL);
295	+	le->qt = qt;
296	+	le->av.rgb[0] = rgbs[0]/n; le->av.rgb[1] = rgbs[1]/n;
297	+	le->av.rgb[2] = rgbs[2]/n; le->av.dist = distsum/(double)n;
298	+	}
299	+	if (lvl == 0 \|\| (lvl > 0 && QT_IS_LEAF(qt)))
300	+	{ /* render this node */
301	+	/* compute pseudo vertices */
302	+	VCOPY(a,v0); VCOPY(b,v1); VCOPY(c,v2);
303	+	normalize(a); normalize(b); normalize(c);
304	+	VSUM(a,SM_VIEW_CENTER(sm),a,le->av.dist);
305	+	VSUM(b,SM_VIEW_CENTER(sm),b,le->av.dist);
306	+	VSUM(c,SM_VIEW_CENTER(sm),c,le->av.dist);
307	+	/* draw triangle */
308	+	glColor3ub(le->av.rgb[0],le->av.rgb[1],le->av.rgb[2]);
309	+	/* NOTE: Triangle vertex order may change */
310	+	glVertex3d(c[0],c[1],c[2]);
311	+	glVertex3d(b[0],b[1],b[2]);
312	+	glVertex3d(a[0],a[1],a[2]);
313	+	}
314	+	return(&le->av);
315	+	}
316	+
317	+
318	+	smRender_stree_level(sm,lvl)
319	+	SM *sm;
320	+	int lvl;
321	+	{
322	+	QUADTREE root;
323	+	int i;
324	+	FVECT t0,t1,t2;
325	+
326	+	if (lvl < 1)
327	+	return;
328	+	glPushAttrib(GL_LIGHTING_BIT);
329	+	glShadeModel(GL_FLAT);
330	+	glBegin(GL_TRIANGLES);
331	+	for(i=0; i < 4; i++)
332	+	{
333	+	root = ST_NTH_ROOT(SM_LOCATOR(sm),i);
334	+	stNth_base_verts(SM_LOCATOR(sm),i,t0,t1,t2);
335	+	qtRender_level(root,t0,t1,t2,sm,lvl-1);
336	+	}
337	+	glEnd();
338	+	glPopAttrib();
339	+	}
340	+
341	+
342	+	smRender_stree(sm, qual) /* render some quadtree triangles */
343	+	SM *sm;
344	+	int qual;
345	+	{
346	+	int i, ntarget;
347	+	int lvlcnt[QT_MAX_LEVELS];
348	+
349	+	if (qual <= 0)
350	+	return;
351	+	/* compute rendering target */
352	+	ntarget = 0;
353	+	SM_FOR_ALL_ACTIVE_TRIS(sm,i)
354	+	ntarget++;
355	+	ntarget = ntarget*qual/100;
356	+	if (!ntarget)
357	+	return;
358	+	for (i = QT_MAX_LEVELS; i--; )
359	+	lvlcnt[i] = 0;
360	+	stCount_level_leaves(lvlcnt, SM_LOCATOR(sm)->root);
361	+	for (ntarget -= lvlcnt[i=0]; i < QT_MAX_LEVELS-1; ntarget -= lvlcnt[++i])
362	+	if (ntarget < lvlcnt[i+1])
363	+	break;
364	+	/* compute and render target level */
365	+	smRender_stree_level(sm,i);
366	+	}
367	+
368	+
369	+	smRender_tri(sm,i,vp,clr)
370	+	SM *sm;
371		int i;
372		FVECT vp;
373	+	int clr;
374		{
375		TRI *tri;
376		double ptr[3];
377		int j;
378
379		tri = SM_NTH_TRI(sm,i);
380	<	SM_CLEAR_NTH_T_NEW(sm,i);
381	<	if(smNew_tri_cnt)
159	<	smNew_tri_cnt--;
380	>	if (clr) SM_CLEAR_NTH_T_NEW(sm,i);
381	>
382		/* NOTE:Triangles are defined clockwise:historical relative to spherical
383		tris: could change
384		*/
#	Line 174 \| Line 396 \| FVECT vp;
396		}
397		}
398
399	<	/* NOTE SEEMS BAD TO PENALIZE POLYGONS INFRONT BY LETTING
178	<	ADJACENT TRIANGLES TO BG be BG
179	<	*/
180	<	smRender_bg_tri(sm,i,vp,d)
399	>	smRender_mixed_tri(sm,i,vp,clr)
400		SM *sm;
401		int i;
402		FVECT vp;
403	<	double d;
403	>	int clr;
404		{
405		TRI *tri;
406	<	FVECT p;
406	>	double p[3],d;
407		int j,ids[3],cnt;
408		int rgb[3];
409
191	–
410		tri = SM_NTH_TRI(sm,i);
411	<	SM_CLEAR_NTH_T_NEW(sm,i);
412	<	if(smNew_tri_cnt)
195	<	smNew_tri_cnt--;
411	>	if (clr) SM_CLEAR_NTH_T_NEW(sm,i);
412	>
413		/* NOTE:Triangles are defined clockwise:historical relative to spherical
414		tris: could change
415		*/
416		cnt = 0;
417	+	d = 0.0;
418		rgb[0] = rgb[1] = rgb[2] = 0;
419	<	for(j=0;j<3;j++)
419	>	for(j=0;j < 3;j++)
420		{
421	<	ids[j] = T_NTH_V(tri,j);
422	<	if(SM_BG_SAMPLE(sm,ids[j]))
423	<	{
424	<	rgb[0] += SM_NTH_RGB(sm,ids[j])[0];
425	<	rgb[1] += SM_NTH_RGB(sm,ids[j])[1];
426	<	rgb[2] += SM_NTH_RGB(sm,ids[j])[2];
427	<	cnt++;
428	<	}
421	>	ids[j] = T_NTH_V(tri,j);
422	>	if(!SM_BG_SAMPLE(sm,ids[j]))
423	>	{
424	>	rgb[0] += SM_NTH_RGB(sm,ids[j])[0];
425	>	rgb[1] += SM_NTH_RGB(sm,ids[j])[1];
426	>	rgb[2] += SM_NTH_RGB(sm,ids[j])[2];
427	>	cnt++;
428	>	d += DIST(vp,SM_NTH_WV(sm,ids[j]));
429	>	}
430		}
431	<	if(cnt)
431	>	if(cnt > 1)
432		{
433		rgb[0]/=cnt; rgb[1]/=cnt; rgb[2]/=cnt;
434	+	d /= (double)cnt;
435		}
436		for(j=2; j>= 0; j--)
437		{
438		if(SM_BG_SAMPLE(sm,ids[j]))
439	<	glColor3ub(SM_NTH_RGB(sm,ids[j])[0],SM_NTH_RGB(sm,ids[j])[1],
440	<	SM_NTH_RGB(sm,ids[j])[2]);
439	>	{
440	>	glColor3ub(rgb[0],rgb[1],rgb[2]);
441	>	VSUB(p,SM_NTH_WV(sm,ids[j]),SM_VIEW_CENTER(sm));
442	>	p[0] *= d;
443	>	p[1] *= d;
444	>	p[2] *= d;
445	>	VADD(p,p,SM_VIEW_CENTER(sm));
446	>	}
447		else
222	–	glColor3ub(rgb[0],rgb[1],rgb[2]);
223	–	if(SM_BG_SAMPLE(sm,ids[j]))
224	–	VSUB(p,SM_NTH_WV(sm,ids[j]),SM_VIEW_CENTER(sm));
225	–	else
226	–	smDir(sm,p,ids[j]);
227	–	if(dev_zmin > 1.0)
448		{
449	<	p[0] *= d;
450	<	p[1] *= d;
451	<	p[2] *= d;
449	>	glColor3ub(SM_NTH_RGB(sm,ids[j])[0],SM_NTH_RGB(sm,ids[j])[1],
450	>	SM_NTH_RGB(sm,ids[j])[2]);
451	>	VCOPY(p,SM_NTH_WV(sm,ids[j]));
452		}
233	–	VADD(p,p,vp);
453		glVertex3d(p[0],p[1],p[2]);
454	+	}
455	+	}
456	+
457	+	smRender_bg_tri(sm,i,vp,d,clr)
458	+	SM *sm;
459	+	int i;
460	+	FVECT vp;
461	+	double d;
462	+	int clr;
463	+	{
464	+	double p[3];
465	+	int j,id;
466	+	TRI *tri;
467	+
468	+	tri = SM_NTH_TRI(sm,i);
469	+	if (clr) SM_CLEAR_NTH_T_NEW(sm,i);
470	+
471	+	/* NOTE:Triangles are defined clockwise:historical relative to spherical
472	+	tris: could change
473	+	*/
474	+	for(j=2; j>= 0; j--)
475	+	{
476	+	id = T_NTH_V(tri,j);
477	+	glColor3ub(SM_NTH_RGB(sm,id)[0],SM_NTH_RGB(sm,id)[1],
478	+	SM_NTH_RGB(sm,id)[2]);
479	+	VSUB(p,SM_NTH_WV(sm,id),SM_VIEW_CENTER(sm));
480	+	if(dev_zmin >= 0.99)
481	+	{
482	+	p[0] *= d;
483	+	p[1] *= d;
484	+	p[2] *= d;
485	+	}
486	+	VADD(p,p,vp);
487	+	glVertex3d(p[0],p[1],p[2]);
488		}
489		}
490
491	<	smRender_mesh(sm,vp)
491	>	smRender_mesh(sm,vp,clr)
492		SM *sm;
493		FVECT vp;
494	+	int clr;
495		{
496		int i;
497		TRI *tri;
#	Line 252 \| Line 506 \| FVECT vp;
506		glDisable(GL_DEPTH_TEST);
507		glBegin(GL_TRIANGLES);
508		SM_FOR_ALL_ACTIVE_BG_TRIS(sm,i)
509	<	smRender_bg_tri(sm,i,vp,d);
509	>	smRender_bg_tri(sm,i,vp,d,clr);
510		glEnd();
511
512		glEnable(GL_DEPTH_TEST);
513		glBegin(GL_TRIANGLES);
514		SM_FOR_ALL_ACTIVE_FG_TRIS(sm,i)
515	<	smRender_tri(sm,i,vp);
515	>	{
516	>	if(!SM_MIXED_TRI(sm,i))
517	>	smRender_tri(sm,i,vp,clr);
518	>	else
519	>	smRender_mixed_tri(sm,i,vp,clr);
520	>	}
521		glEnd();
522
523		glPopAttrib();
524		}
525	+
526		smRender_tri_edges(sm,i)
527		SM *sm;
528		int i;
#	Line 301 \| Line 561 \| *compare_tri_depths(T_DEPTH td1,T_DEPTH td2)*
561		return(0);
562		}
563
564	<	smDepth_sort_tris(sm,vp,td)
564	>	LIST
565	>	*smDepth_sort_tris(sm,vp,td)
566		SM *sm;
567	<	VIEW *vp;
567	>	FVECT vp;
568		T_DEPTH *td;
569		{
570	<	int i,j,t_id;
570	>	int i,j,t_id,v;
571		TRI *tri;
572	<	double d[3];
572	>	double d,min_d;
573	>	LIST *tlist=NULL;
574
575		i = 0;
576		SM_FOR_ALL_NEW_TRIS(sm,t_id)
577		{
578	<	if(i >= smNew_tri_cnt)
578	>	if(SM_BG_TRI(sm,t_id))
579		{
580	<	#ifdef DEBUG
581	<	eputs("smDepth_sort_tris(): more new tris then counted\n");
320	<	#endif
321	<	break;
580	>	tlist = push_data(tlist,t_id);
581	>	continue;
582		}
583		tri = SM_NTH_TRI(sm,t_id);
584		td[i].tri = t_id;
585	+	min_d = -1;
586		for(j=0;j < 3;j++)
587	<	d[j] = DIST(vp->vp,SM_T_NTH_WV(sm,tri,j));
588	<	td[i].depth = MIN_VEC3(d);
587	>	{
588	>	v = T_NTH_V(tri,j);
589	>	if(!SM_BG_SAMPLE(sm,v))
590	>	{
591	>	d = DIST(vp,SM_NTH_WV(sm,v));
592	>	if(min_d == -1 \|\| d < min_d)
593	>	min_d = d;
594	>	}
595	>	}
596	>	td[i].depth = min_d;
597		i++;
598		}
599	<	qsort((void *)td,smNew_tri_cnt,sizeof(T_DEPTH),compare_tri_depths);
599	>	td[i].tri = -1;
600	>	if(i)
601	>	qsort((void *)td,i,sizeof(T_DEPTH),compare_tri_depths);
602	>	return(tlist);
603		}
604
605
606	<	smUpdate_Rendered_mesh(sm,vp)
606	>	smUpdate_Rendered_mesh(sm,vp,clr)
607		SM *sm;
608	<	VIEW *vp;
608	>	FVECT vp;
609	>	int clr;
610		{
611		static T_DEPTH *td= NULL;
612		static int tsize = 0;
613		int i;
614		GLint depth_test;
615		double d;
616	<
616	>	LIST *bglist;
617		/* For all of the NEW triangles (since last update): assume
618		ACTIVE. Go through and sort on depth value (from vp). Turn
619		Depth Buffer test off and render back-front
#	Line 349 \| Line 622 \| *VIEW vp;**
622		if(smNew_tri_cnt > tsize)
623		{
624		if(td)
625	<	free(td);
625	>	free((char *)td);
626		td = (T_DEPTH )malloc(smNew_tri_cntsizeof(T_DEPTH));
627		tsize = smNew_tri_cnt;
628		}
#	Line 357 \| Line 630 \| *VIEW vp;**
630		{
631		error(SYSTEM,"smUpdate_Rendered_mesh:Cannot allocate memory\n");
632		}
633	<	smDepth_sort_tris(sm,vp,td);
633	>	bglist = smDepth_sort_tris(sm,vp,td);
634
635	<	/* Turn Depth Test off */
635	>	/* Turn Depth Test off -- using Painter's algorithm */
636		glPushAttrib(GL_DEPTH_BUFFER_BIT);
637	<	glDepthFunc(GL_ALWAYS); /* Turn off Depth-painter's algorithm */
365	<
637	>	glDisable(GL_DEPTH_TEST);
638		d = (dev_zmin+dev_zmax)/2.0;
639		/* Now render back-to front */
640		/* First render bg triangles */
369	–	glDisable(GL_DEPTH_TEST);
641		glBegin(GL_TRIANGLES);
642	<	for(i=0; i< smNew_tri_cnt; i++)
643	<	if(SM_BG_TRI(sm,td[i].tri))
373	<	smRender_bg_tri(sm,td[i].tri,vp,d);
642	>	while(bglist)
643	>	smRender_bg_tri(sm,pop_list(&bglist),vp,d,clr);
644		glEnd();
645
646		glEnable(GL_DEPTH_TEST);
647		glBegin(GL_TRIANGLES);
648	<	for(i=0; i< smNew_tri_cnt; i++)
649	<	if(!SM_BG_TRI(sm,td[i].tri))
650	<	smRender_tri(sm,td[i].tri,vp);
648	>	i=0;
649	>	while(td[i].tri != -1)
650	>	if(!SM_MIXED_TRI(sm,td[i].tri))
651	>	smRender_tri(sm,td[i++].tri,vp,clr);
652	>	else
653	>	smRender_mixed_tri(sm,td[i++].tri,vp,clr);
654		glEnd();
655
656		/* Restore Depth Test */
#	Line 385 \| Line 658 \| *VIEW vp;**
658		}
659
660		/*
661	<	* smUpdate(vp, qua) : update OpenGL output geometry for view vp
662	<	* VIEW *vp; : desired view
661	>	* smUpdate(view, qua) : update OpenGL output geometry for view vp
662	>	* VIEW *view; : desired view
663		* int qual; : quality level (percentage on linear time scale)
664		*
665		* Draw new geometric representation using OpenGL calls. Assume that the
666		* view has already been set up and the correct frame buffer has been
667		* selected for drawing. The quality level is on a linear scale, where 100%
668		* is full (final) quality. It is not necessary to redraw geometry that has
669	<	* been output since the last call to smClean().
669	>	* been output since the last call to smClean(). (The last view drawn will
670	>	* be view==&odev.v each time.)
671		*/
672	<	smUpdate(vp,qual)
673	<	VIEW *vp;
672	>	smUpdate(view,qual)
673	>	VIEW *view;
674		int qual;
675		{
676		double d;
677	+	int last_update;
678		int t;
679	<	#ifdef TEST_DRIVER
405	<	Current_View = (*vp);
406	<	#endif
679	>
680		/* If view has moved beyond epsilon from canonical: must rebuild -
681		epsilon is calculated as running avg of distance of sample points
682	<	from canonical view: m = 1/(SUM1/r): some fraction of this
682	>	from canonical view: m = 1/(AVG(1/r)): some fraction of this
683		*/
684	<	d = DIST(vp->vp,SM_VIEW_CENTER(smMesh));
684	>	d = DIST(view->vp,SM_VIEW_CENTER(smMesh));
685		if(qual >= 100 && d > SM_ALLOWED_VIEW_CHANGE(smMesh))
686		{
414	–	smNew_tri_cnt = 0;
687		/* Re-build the mesh */
688	<	smRebuild_mesh(smMesh,vp);
688	>	#ifdef TEST_DRIVER
689	>	odev.v = *view;
690	>	#endif
691	>	smRebuild_mesh(smMesh,view->vp);
692		}
693	<	/* Check if should draw ALL triangles in current frustum */
694	<	if(smClean_notify \|\| (smNew_tri_cnt > SM_NUM_TRIS(smMesh)*SM_INC_PERCENT))
693	>	/* This is our final update iff qual==100 and view==&odev.v */
694	>	last_update = qual>=100 && view==&(odev.v);
695	>	/* Check if we should draw ALL triangles in current frustum */
696	>	if(smClean_notify \|\| smNew_tri_cnt > SM_NUM_TRIS(smMesh)*SM_INC_PERCENT)
697		{
698		#ifdef TEST_DRIVER
699		glClear(GL_COLOR_BUFFER_BIT \| GL_DEPTH_BUFFER_BIT);
700		#else
701	<	tmClearHisto();
702	<	tmAddHisto(SM_BRT(smMesh),SM_NUM_SAMP(smMesh),1);
703	<	if(tmComputeMapping(0.,0.,0.) != TM_E_OK)
704	<	return;
705	<	if(tmMapPixels(SM_RGB(smMesh),SM_BRT(smMesh),SM_CHR(smMesh),
706	<	SM_NUM_SAMP(smMesh))!=TM_E_OK)
707	<	return;
701	>	if (SM_TONE_MAP(smMesh) < SM_NUM_SAMP(smMesh))
702	>	{
703	>	tmClearHisto();
704	>	tmAddHisto(SM_BRT(smMesh),SM_NUM_SAMP(smMesh),1);
705	>	if(tmComputeMapping(0.,0.,0.) != TM_E_OK \|\|
706	>	tmMapPixels(SM_RGB(smMesh),SM_BRT(smMesh),SM_CHR(smMesh),
707	>	SM_NUM_SAMP(smMesh)) != TM_E_OK)
708	>	return;
709	>	}
710		#endif
711	<	smRender_mesh(smMesh,vp->vp);
712	<	smClean_notify = FALSE;
711	>	mark_tris_in_frustum(view);
712	>	if (qual <= 75)
713	>	smRender_stree(smMesh,qual);
714	>	else
715	>	smRender_mesh(smMesh,view->vp,last_update);
716		#ifdef TEST_DRIVER
717		glFlush();
718		glutSwapBuffers();
#	Line 456 \| Line 738 \| smUpdate(vp,qual)
738		SM_NTH_CHR(smMesh,t), SM_NUM_SAMP(smMesh)-t) != TM_E_OK)
739		return;
740		#endif
741	<	smUpdate_Rendered_mesh(smMesh,vp);
741	>	smUpdate_Rendered_mesh(smMesh,view->vp,last_update);
742
743		#ifdef TEST_DRIVER
744		glDrawBuffer(GL_BACK);
745		#endif
746		}
747		SM_TONE_MAP(smMesh) = SM_NUM_SAMP(smMesh);
748	<	}
748	>	if (last_update)
749	>	{
750	>	smClean_notify = FALSE;
751	>	smNew_tri_cnt = 0;
752	>	qtCache_init(0);
753	>	}
754
755	<	/* LATER:If quality < 100 should draw approximation because it indicates
469	<	the user is moving
470	<	*/
471	<
472	<
755	>	}

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Comparing ray/src/hd/sm_ogl.c (file contents): Revision 3.2 by gwlarson, Thu Aug 20 16:47:21 1998 UTC vs. Revision 3.5 by gwlarson, Fri Sep 11 11:52:26 1998 UTC

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Comparing ray/src/hd/sm_ogl.c (file contents):
Revision 3.2 by gwlarson, Thu Aug 20 16:47:21 1998 UTC vs.
Revision 3.5 by gwlarson, Fri Sep 11 11:52:26 1998 UTC