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source: GTP/trunk/Lib/Geom/shared/GTGeometry/src/GeoLodStripsLibrary.cpp @ 1560

Revision 1560, 19.4 KB checked in by gumbau, 18 years ago (diff)

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1	/*==========================================================================
2	* (C) 2005 Universitat Jaume I
3	*==========================================================================
4	* PROYECT: GAME TOOLS
5	*==========================================================================
6	* CONTENT:
7	*
8	*
9	* @file GeoLodStripsLibrary.cpp
10	===========================================================================/
11
12	#include "GeoLodStripsLibrary.h"
13
14	using namespace Geometry;
15	using namespace std;
16
17	//-----------------------------------------------------------------------------
18	// Constructor.
19	//-----------------------------------------------------------------------------
20	LodStripsLibrary::LodStripsLibrary( const LodStripsLibraryData *lodstripsdata,
21	Mesh *geomesh,
22	IndexData *userindexdata)
23	{
24	// Sets the current lod.
25	mCurrentLod = 0;
26
27	// Sets the global mesh.
28	mGeoMesh = geomesh;
29
30	delete_indexdata = false;
31	dataRetrievalInterface = userindexdata;
32	indices_x_submesh = NULL;
33	offsets_x_submesh = NULL;
34	mStripsSubmesh = NULL;
35	submesh_x_strip = NULL;
36	lodFactor = 1.0f;
37	current_triangle_count = 0;
38
39	// Loads the Level Of Detail file.
40	LodStripsLibrary::LoadStripMesh(lodstripsdata,mGeoMesh);
41
42	GoToLod(0.0f);
43
44	minFaces = 0;
45
46	for (unsigned int strip = 0; strip < mTotalStrips; strip++)
47	{
48	minFaces += int(mStrips[strip].size() - 2);
49	}
50
51	GoToLod(1.0f);
52
53	maxFaces = 0;
54
55	for (unsigned int strip = 0; strip < mTotalStrips; strip++)
56	{
57	maxFaces += int(mStrips[strip].size() - 2);
58	}
59	}
60
61	//-----------------------------------------------------------------------------
62	// Destructor
63	//-----------------------------------------------------------------------------
64	LodStripsLibrary::~LodStripsLibrary()
65	{
66	delete [] mStrips;
67	if (delete_indexdata)
68	delete dataRetrievalInterface;
69	if (indices_x_submesh)
70	delete[] indices_x_submesh;
71	if (offsets_x_submesh)
72	delete[] offsets_x_submesh;
73	if (mStripsSubmesh)
74	delete[] mStripsSubmesh;
75	if (submesh_x_strip)
76	delete[] submesh_x_strip;
77	}
78
79	//-----------------------------------------------------------------------------
80	// Public.
81	//-----------------------------------------------------------------------------
82
83	//-----------------------------------------------------------------------------
84	// Go to the level of detail.
85	//-----------------------------------------------------------------------------
86	void LodStripsLibrary::GoToLod(float lodfactor)
87	{
88	register int j;
89	register int offset;
90	long int i;
91	long int k;
92	long int b_change_ok = 1;
93	unsigned long int lod;
94	long int t;
95	long int r;
96	long int next;
97	long int el1;
98	long int el2;
99	long int total_changes;
100	long int totalR;
101	SmallIntVector *strip;
102	SmallIntVector::iterator start;
103
104	if (lodfactor<0.0f) lodfactor=0.0f;
105	if (lodfactor>1.0f) lodfactor=1.0f;
106
107	uint32 newLOD = (uint32)((1.0f - lodfactor) * mLods);
108
109	lodFactor=lodfactor;
110
111	if (newLOD != mCurrentLod)
112	{
113	if (newLOD > mCurrentLod)
114	{
115	// Forwards.
116	// Increments LOD (decreases level of detail)
117	for ( lod = mCurrentLod;
118	(lod < newLOD)
119	\|\|
120	((mCurrentRegLOD->obligatory == 1) && (lod < (mLods - 1)));
121	lod++)
122	{
123	next = mVertex[lod];
124	total_changes = mPChanges[lod];
125
126	for (i = 0; i < total_changes; i++)
127	{
128	// Strip change.
129	t = mCurrentRegLOD->strip;
130	strip = &(mStrips[t]);
131	start = strip->begin();
132
133	int stripsize_ini = strip->size();
134
135	// Position.
136	totalR = mCurrentRegLOD->position;
137
138	for (j = totalR - 1; j >= 0; j--)
139	{
140	start[*mCurrentData] = next;
141	++mCurrentData;
142	}
143
144	// L1.
145	totalR = mCurrentRegLOD->vertexRepetition;
146
147	for (j = totalR - 1; j >= 0; j--)
148	{
149	offset = *mCurrentData + 1;
150
151	strip->erase( start + offset,
152	start
153	+
154	offset
155	+
156	(*(mCurrentData + 1)));
157
158	++mCurrentData;
159	++mCurrentData;
160	}
161
162	// L2
163	totalR = mCurrentRegLOD->edgeRepetition;
164
165	for (j = totalR - 1; j >= 0; j--)
166	{
167	offset = *mCurrentData + 2;
168	strip->erase( start + offset,
169	start
170	+
171	offset
172	+
173	2((mCurrentData + 1)));
174
175	mCurrentData++;
176	mCurrentData++;
177	}
178
179	// lastLOD = mCurrentRegLOD;
180	mCurrentRegLOD++;
181
182	mStripsChanges[t] = 1;
183
184	int stripsize_end = strip->size();
185	indices_x_submesh[submesh_x_strip[t]] -= (stripsize_ini - stripsize_end);
186
187	}
188
189	mCurrentLod = lod + 1;
190	}
191
192	}
193	// If LOD is less than actual.
194	else
195	{
196	mCurrentRegLOD--;
197	mCurrentData--;
198
199
200	// Decrements LOD.
201	for ( lod = mCurrentLod;
202	(lod > newLOD)
203	\|\|
204	((mCurrentRegLOD->obligatory == 1) && (lod > 0))
205	\|\|
206	((mCurrentRegLOD[1].obligatory == 1) && (lod > 0));
207	lod--)
208	{
209
210	total_changes = mPChanges[lod - 1];
211
212	for (i = 0; i < total_changes; i++)
213	{
214	t = mCurrentRegLOD->strip;
215	strip = &(mStrips[t]);
216	start = mStrips[t].begin();
217	int stripsize_ini = strip->size();
218
219	// L2.
220	totalR = mCurrentRegLOD->edgeRepetition;
221
222	for (j = 0; j < totalR; j++)
223	{
224	el1 = (strip)[(mCurrentData - 1)];
225	el2 = (strip)[(mCurrentData - 1) + 1];
226	r = *(mCurrentData);
227
228	for (k = 0; k < r; k++)
229	{
230	(strip).insert(start+(mCurrentData - 1),el2);
231	(strip).insert(start+(mCurrentData - 1),el1);
232	}
233
234	mCurrentData--;
235	mCurrentData--;
236	}
237
238	// Vertex Repetition.
239	totalR = mCurrentRegLOD->vertexRepetition;
240
241	for (j = 0; j < totalR; j++)
242	{
243	el1 = (strip)[(mCurrentData-1)];
244	r = *(mCurrentData);
245
246	for (k = 0; k < r; k++)
247	{
248	(strip).insert(start+(mCurrentData-1),el1);
249	}
250
251	mCurrentData--;
252	mCurrentData--;
253	}
254
255	// POS.
256	totalR = mCurrentRegLOD->position;
257
258	for (j = 0; j < totalR; j++)
259	{
260	(strip)[mCurrentData] = lod - 1;
261	mCurrentData--;
262	}
263
264	// lastLOD = mCurrentRegLOD;
265	mCurrentRegLOD--;
266	mStripsChanges[t] = 1;
267
268	int stripsize_end = strip->size();
269	indices_x_submesh[submesh_x_strip[t]] += (stripsize_end - stripsize_ini);
270	}
271
272	// Update LOD.
273	mCurrentLod = lod - 1;
274
275	// Debug.
276	cout << "Obligatory: "
277	<< (int)mCurrentRegLOD->obligatory
278	<< endl;
279	}
280
281	mCurrentData++;
282	mCurrentRegLOD++;
283	}
284	}
285
286	/* // debug!
287	FILE *f = fopen("lodstrips_lodinfo.txt","wt");
288	fprintf(f,"mCurrentLOD: %d",mCurrentLod);
289	fprintf(f,"mLods: %d",mLods);
290	for (int i=0; i<mTotalStrips; i++)
291	{
292	fprintf(f,"\nstrip: %d - ",i);
293	for (int j=0; j<mStrips[i].size(); j++)
294	{
295	int ind = mStrips[i][j];
296	fprintf(f,"%d ",ind);
297	}
298	}
299	fclose(f);*/
300
301	UpdateDataRetrievalInterface();
302	// return return_value;
303	}
304
305	//-----------------------------------------------------------------------------
306	// Returns the number of vertices of the highest LOD.
307	//-----------------------------------------------------------------------------
308	uint32 LodStripsLibrary::MaxVertices()
309	{
310	return mMaxVerticesLOD;
311	}
312
313	//-----------------------------------------------------------------------------
314	// Returns the number of vertices of the lowest LOD.
315	//-----------------------------------------------------------------------------
316	uint32 LodStripsLibrary::MinVertices()
317	{
318	uint32 number_of_vertices;
319
320	// Total vertices of minimum lod.
321	number_of_vertices = mMaxVerticesLOD - (mMinLod + 1);
322
323	return number_of_vertices;
324	}
325
326	//-----------------------------------------------------------------------------
327	// Returns the number of triangles of the highest LOD.
328	//-----------------------------------------------------------------------------
329	uint32 LodStripsLibrary::MaxFaces()
330	{
331	/* uint32 number_of_faces;
332
333	uint32 current_lod;
334
335	current_lod = GoToLod(MaxLod());
336
337	// Initialize number of faces count.
338	number_of_faces = 0;
339
340	// For each strip.
341	for (unsigned int strip = 0; strip < mTotalStrips; strip++)
342	{
343	number_of_faces += int(mStrips[strip].size() - 2);
344	}
345
346	GoToLod(current_lod);
347
348	return number_of_faces;*/
349
350	return maxFaces;
351	}
352
353	//-----------------------------------------------------------------------------
354	// Returns the number of triangles of the lowest LOD.
355	//-----------------------------------------------------------------------------
356	uint32 LodStripsLibrary::MinFaces()
357	{
358	/* uint32 current_lod;
359	uint32 number_of_faces;
360
361	current_lod = GoToLod(MinLod());
362
363	// Initialize number of faces count.
364	number_of_faces = 0;
365
366	// For each strip.
367	for (unsigned int strip = 0; strip < mTotalStrips; strip++)
368	{
369	number_of_faces += int(mStrips[strip].size() - 2);
370	}
371
372	GoToLod(current_lod);
373
374	return number_of_faces;*/
375
376	return minFaces;
377	}
378
379	//-----------------------------------------------------------------------------
380	// Establishes the new LOD range.
381	// Only the LODs in that range are stored and used.
382	//-----------------------------------------------------------------------------
383	void LodStripsLibrary::TrimByLod(uint32 minLod, uint32 maxLod)
384	{
385	// Refresh number of vercies of the max lod.
386	mMaxVerticesLOD += mMaxLod - maxLod;
387
388	mMinLod = minLod;
389	mMaxLod = maxLod;
390	}
391	/*
392	//-----------------------------------------------------------------------------
393	// Get strip count.
394	//-----------------------------------------------------------------------------
395	uint32 LodStripsLibrary::GetStripCount() const
396	{
397	return (uint32) mTotalStrips;
398	}
399
400	//-----------------------------------------------------------------------------
401	// Get Index by strip.
402	//-----------------------------------------------------------------------------
403	uint32 LodStripsLibrary::GetIndexCountByStrip(uint32 istrip) const
404	{
405	return (uint32) mStrips[istrip].size();
406	}
407	*/
408	//-----------------------------------------------------------------------------
409	// Private.
410	//-----------------------------------------------------------------------------
411
412	//-----------------------------------------------------------------------------
413	// Copy a STL vector to a C array.
414	//-----------------------------------------------------------------------------
415	void LodStripsLibrary::CopyVectors2Arrays(void)
416	{
417	SmallInt max;
418	SmallInt t;
419	SmallInt *data_array;
420	SmallIntVector tira;
421	LODRegisterType *changes_array;
422	LODRegisterVector list_changes;
423
424	mTotalStrips = int(mFileStrips.size());
425	mVertex = new SmallInt[mTotalVertices];
426	mStripsChanges = new SmallInt[mTotalChanges];
427	mStrips = new SmallIntVector[mTotalStrips];
428	data_array = new SmallInt[mData.size()];
429
430	max = 0;
431	mTotalFaces = 0;
432
433	// unsigned int * strip_sizes = new unsigned int[mFileStrips.size()];
434	unsigned int total_strip_size = 0;
435
436	for (unsigned int i = 0; i < mFileStrips.size(); i++)
437	{
438	total_strip_size += t = int(mFileStrips[i].size());
439	if (t>max)
440	max = t;
441	mTotalFaces += t - 2;
442	}
443
444	changes_array = new LODRegisterType[mFileChangesLOD.size()];
445
446	// Fill up changes array.
447	for (unsigned int i = 0; i < mFileChangesLOD.size(); ++i)
448	{
449	changes_array[i] = mFileChangesLOD[i];
450	}
451
452	mCurrentRegLOD = changes_array;
453
454	// Copy strips.
455	// unsigned int numDegenerated = 2*mTotalStrips - 2;
456	// dataRetrievalInterface=create_index_data_func(total_strip_size,indexdata_user_data); // temporal!
457
458	// dataRetrievalInterface->Init(total_strip_size);
459	/* dataRetrievalInterface->numinds=total_strip_size;
460	dataRetrievalInterface->numvalidinds=total_strip_size;*/
461	// dataRetrievalInterface->Begin();
462
463	unsigned int ii = 0;
464
465	for (unsigned int i = 0; i < mFileStrips.size(); i++)
466	{
467	for (unsigned int j = 0; j < mFileStrips[i].size(); j++,ii++)
468	{
469	mStrips[i].push_back(mFileStrips[i][j]);
470	// dataRetrievalInterface->SetIndex(ii,mFileStrips[i][j]);
471	}
472
473	// Reset flags of strips changed.
474	mStripsChanges[i] = 0;
475	}
476
477	// dataRetrievalInterface->End();
478
479	for (unsigned int i = 0; i < mData.size(); i++)
480	{
481	data_array[i] = mData[i];
482	}
483
484	mCurrentData = data_array;
485
486	// Fill up mVertex.
487	for(unsigned int i = 0; i < mFileVertices.size(); i++)
488	{
489	mVertex[i] = mFileVertices[i];
490	}
491
492	// delete[] strip_sizes;
493	}
494
495	//-----------------------------------------------------------------------------
496	// LoadStripMesh
497	//-----------------------------------------------------------------------------
498	void LodStripsLibrary::LoadStripMesh(const LodStripsLibraryData lodstripsdata, Mesh geomesh)
499	{
500	//FILE *fp;
501	SmallIntVector strip_aux;
502	//LODRegisterType lod_register;
503	std::vector <LODRegisterType> list_pos;
504	std::vector <unsigned int> p_changes;
505	//int value;
506	int v = 0;
507	int t = -1;
508	int s = 0;
509	int next = 0;
510	int c = -1;
511	//char buff[80];
512	Index *index;
513	Index *indexBegin;
514	Index *indexEnd;
515	SubMesh *geoSubMesh;
516
517	// For each one of the submeshes.
518	indices_x_submesh = new int[geomesh->mSubMeshCount];
519	offsets_x_submesh = new int[geomesh->mSubMeshCount];
520
521	int totaltiras = 0;
522	for (unsigned int submesh = 0; submesh < geomesh->mSubMeshCount; submesh++)
523	for (unsigned int strip = 0; strip < geomesh->mSubMesh[submesh].mStripCount; strip++)
524	totaltiras++;
525
526	submesh_x_strip = new int[totaltiras];
527
528	int istrip = 0;
529	for (unsigned int submesh = 0; submesh < geomesh->mSubMeshCount; submesh++)
530	{
531	geoSubMesh = &geomesh->mSubMesh[submesh];
532	indices_x_submesh[submesh] = 0;
533
534	// For each one of the strips.
535	for (unsigned int strip = 0; strip < geoSubMesh->mStripCount; strip++, istrip++)
536	{
537	// Insert an empty strip.
538	submesh_x_strip[istrip] = submesh;
539	t++;
540	strip_aux.clear();
541	mFileStrips.push_back(strip_aux);
542
543	// First index of the strip.
544	indexBegin = geoSubMesh->mStrip[strip];
545
546	// If the strips is not the first. (DEG!)
547	if (strip != 0)
548	indexBegin++;
549
550	// If is the final strip
551	if (strip == (geoSubMesh->mStripCount - 1))
552	{
553	// The end of the index array.
554	indexEnd = &geoSubMesh->mIndex[geoSubMesh->mIndexCount];
555	}
556	else
557	{
558	// The beginning of the next strip.
559	indexEnd = geoSubMesh->mStrip[strip + 1];
560
561	// Remove degenerated (DEG!)
562	indexEnd--;
563	}
564
565	int i;
566	i = 0;
567
568	if (submesh==0)
569	offsets_x_submesh[submesh] = 0;
570	else
571	offsets_x_submesh[submesh] = indices_x_submesh[submesh-1];
572
573	// For each index of the strip.
574	for (index = indexBegin; index < indexEnd; index++)
575	{
576	mFileStrips[t].push_back(indexBegin[i]);
577	indices_x_submesh[submesh]++;
578	i++;
579	}
580	}
581	}
582
583	// TODO: LOD file loaded in load file mesh process.
584	// Open the LOD file.
585	/* if ((fp = fopen (name, "r")) == NULL)
586	{
587	// Error in open.
588	}
589	else
590	{
591	mTotalChanges = 0;
592
593	while (!feof (fp))
594	{
595	fgets (buff, 80, fp);
596
597	if (*buff == 'v')
598	{
599	sscanf (buff+2,"%d",&value);
600
601	mFileVertices.push_back(value);
602	v++;
603	}
604	else if ( (buff == 'c') \|\| (buff == 'd'))
605	{
606	if (*buff == 'c')
607	{
608	c++;
609	}
610	else
611	{
612	unsigned int a;
613	unsigned int b;
614	unsigned int c;
615	unsigned int d;
616
617	sscanf (buff+2,"%u %u %u %u\n",&a,&b,&c,&d);
618	lod_register.strip = a;
619	lod_register.position = b;
620	lod_register.vertexRepetition = c;
621	lod_register.edgeRepetition = d;
622
623	mFileChangesLOD.push_back(lod_register);
624	}
625	}
626	else if (*buff=='b')
627	{
628	sscanf(buff+2,"%u",&value);
629	mData.push_back(value);
630	}
631	else if (*buff=='p')
632	{
633	sscanf (buff+2,"%u",&value);
634	p_changes.push_back(value);
635	}
636	}
637
638	fclose(fp);*/
639
640	mFileVertices = lodstripsdata->mFileVertices;
641	mFileChangesLOD = lodstripsdata->mFileChangesLOD;
642	mData = lodstripsdata->mData;
643	p_changes = lodstripsdata->p_changes;
644
645	mStripsSubmesh = new int [geomesh->mSubMeshCount];
646	for (size_t submesh = 0; submesh < geomesh->mSubMeshCount; submesh++)
647	{
648	mStripsSubmesh[submesh]=0;
649	}
650
651
652	// Max / Min values for LOD.
653	mLods = int(p_changes.size());
654	mMaxLod = 0;
655	mMinLod = mLods;
656
657	mPChanges = new SmallInt[mLods];
658
659	for (unsigned int i = 0; i < mLods; i++)
660	mPChanges[i] = p_changes[i];
661
662	mTotalVertices = int(mFileVertices.size());
663	mMaxVerticesLOD = mTotalVertices;
664	mTotalStrips = int(mFileStrips.size());
665	mTotalChanges = int(mFileChangesLOD.size());
666
667	//Copy the data to the structure we will use
668	CopyVectors2Arrays();
669	}
670
671	void LodStripsLibrary::UpdateDataRetrievalInterface(void)
672	{
673	int target_submesh = 0;
674	size_t strip_count = 0;
675	unsigned int ii_submesh = 0;
676
677	current_triangle_count = 0;
678
679	// indices_x_submesh is calculated without degenerates,
680	// we must add the degenerate indices added here
681	uint32 numdeg = mGeoMesh->mSubMesh[target_submesh].mStripCount * 2 - 2;
682
683	dataRetrievalInterface->Begin(target_submesh,
684	indices_x_submesh[target_submesh] + numdeg);
685
686	current_triangle_count += indices_x_submesh[target_submesh] + numdeg;
687
688	// For each strip.
689	for (unsigned int i = 0; i < mTotalStrips; i++, strip_count++)
690	{
691	if (strip_count >= mGeoMesh->mSubMesh[target_submesh].mStripCount)
692	{
693	if (target_submesh == 0)
694	{
695	offsets_x_submesh[target_submesh] = 0;
696	}
697	else
698	{
699	offsets_x_submesh[target_submesh] = indices_x_submesh[target_submesh-1]
700	+
701	offsets_x_submesh[target_submesh-1];
702	}
703
704	mStripsSubmesh[target_submesh] = (int)strip_count;
705	strip_count = 0;
706
707	target_submesh++;
708	ii_submesh = 0;
709	dataRetrievalInterface->End();
710
711	numdeg = mGeoMesh->mSubMesh[target_submesh].mStripCount*2 - 2;
712
713	dataRetrievalInterface->Begin(target_submesh,
714	indices_x_submesh[target_submesh] + numdeg);
715
716	current_triangle_count += indices_x_submesh[target_submesh] + numdeg;
717	}
718
719	int lastindex = -1;
720
721	for ( SmallIntVector::iterator it = mStrips[i].begin();
722	it != mStrips[i].end();
723	it++, ii_submesh++)
724	{
725	// repeat the first index of the strip: degenerate (DEG!)
726	// except for the first strip in a mesh
727	if ((lastindex == -1) && (strip_count > 0))
728	{
729	lastindex = *it;
730
731	dataRetrievalInterface->SetIndex(ii_submesh,*it);
732	ii_submesh++;
733	}
734
735	lastindex = *it;
736	dataRetrievalInterface->SetIndex(ii_submesh,*it);
737	}
738
739	// repeat last vertex of the strip: degenerate (DEG!)
740	// except for the last strip in a mesh
741	if (strip_count < mGeoMesh->mSubMesh[target_submesh].mStripCount-1)
742	{
743	dataRetrievalInterface->SetIndex(ii_submesh,lastindex);
744	ii_submesh++;
745	}
746	}
747
748	if (strip_count >= mGeoMesh->mSubMesh[target_submesh].mStripCount)
749	{
750	if (target_submesh == 0)
751	{
752	offsets_x_submesh[target_submesh] = 0;
753	}
754	else
755	{
756	offsets_x_submesh[target_submesh] = indices_x_submesh[target_submesh-1]
757	+
758	offsets_x_submesh[target_submesh-1];
759	}
760
761	mStripsSubmesh[target_submesh] = (int)strip_count;
762	strip_count = 0;
763
764	target_submesh++;
765	}
766
767	dataRetrievalInterface->End();
768	}
769

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