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source: GTP/trunk/Lib/Geom/shared/GeoTool/src/GeoMeshLoader.cpp @ 1070

Revision 1070, 38.4 KB checked in by gumbau, 18 years ago (diff)

Line
1	/*==========================================================================
2	* (C) 2005 Universitat Jaume I
3	*==========================================================================
4	* PROYECT: GAME TOOLS
5	==========================================================================/
6	/* CONTENT:
7	*
8	*
9	* @file GeoMeshLoader.cpp
10	==========================================================================/
11
12	#include "GeoMeshLoader.h"
13	#include <algorithm>
14	#include <cctype>
15	#include <map>
16
17	using namespace Geometry;
18	using namespace std;
19
20	//---------------------------------------------------------------------------
21	// Jump a chunk.
22	//---------------------------------------------------------------------------
23	void GeoMeshLoader::jumpChunk(FILE *f)
24	{
25	fseek(f,-(long)CHUNK_OVERHEAD_SIZE,1);
26
27	// Return to the begin of the chunk.
28	fseek(f,long_actual,SEEK_CUR);
29	}
30
31	//---------------------------------------------------------------------------
32	// Read a chunk.
33	//---------------------------------------------------------------------------
34	unsigned short GeoMeshLoader::readChunk(FILE *f)
35	{
36	unsigned short id;
37
38	fread(&id,sizeof(unsigned short),1,f);
39	fread(&long_actual,sizeof(unsigned long),1,f);
40
41	return id;
42	}
43
44	//---------------------------------------------------------------------------
45	// Read geometry vertex element.
46	//---------------------------------------------------------------------------
47	void GeoMeshLoader::readGeometryVertexElement(FILE f, Mesh geoMesh)
48	{
49	unsigned short source;
50	GeometryElement aux;
51	int i;
52	bool found;
53	VertexElementType vType;
54
55	i = 0;
56	found = false;
57
58	// VertexElementSemantic vSemantic;
59	// unsigned short source; // buffer bind source
60	fread(&source,sizeof(unsigned short),1,f);
61
62	// unsigned short type; // VertexElementType
63	fread(&aux.type,sizeof(unsigned short),1,f);
64
65	vType = static_cast<VertexElementType>(aux.type);
66
67	// unsigned short semantic; // VertexElementSemantic
68	fread(&aux.semantic,sizeof(unsigned short),1,f);
69
70	// vSemantic = static_cast<VertexElementSemantic>(tmp);
71	// unsigned short offset; // start offset in buffer in bytes
72	fread(&aux.offset,sizeof(unsigned short),1,f);
73
74	// unsigned short index; // index of the semantic
75	/*
76	VES_POSITION Position, 3 reals per vertex.
77	VES_BLEND_WEIGHTS Blending weights.
78	VES_BLEND_INDICES Blending indices.
79	VES_NORMAL Normal, 3 reals per vertex.
80	VES_DIFFUSE Diffuse colours.
81	VES_SPECULAR Specular colours.
82	VES_TEXTURE_COORDINATES Texture coordinates.
83	VES_BINORMAL Binormal (Y axis if normal is Z).
84	VES_TANGENT Tangent (X axis if normal is Z).
85	*/
86	fread(&aux.index,sizeof(unsigned short),1,f);
87
88	while ((i < list.size()) && (!found))
89	{
90	if (list[i].source==source)
91	{
92	found = true;
93	}
94	else
95	{
96	i++;
97	}
98	}
99
100	if (found)
101	{
102	list[i].list.push_back(aux);
103	}
104	else
105	{
106	GT aux2;
107
108	aux2.source = source;
109	aux2.list.push_back(aux);
110	list.push_back(aux2);
111	}
112	}
113
114	//---------------------------------------------------------------------------
115	// Read geometry vertex declaration.
116	//---------------------------------------------------------------------------
117	void GeoMeshLoader::readGeometryVertexDeclaration(FILE f, Mesh geoMesh)
118	{
119	unsigned short chunkID;
120	// Find optional geometry chunks
121	if (!feof(f))
122	{
123	chunkID = readChunk(f);
124
125	while(!feof(f) && (chunkID == M_GEOMETRY_VERTEX_ELEMENT ))
126	{
127	switch (chunkID)
128	{
129	case M_GEOMETRY_VERTEX_ELEMENT:
130
131	// Debug.
132	cout << " M_GEOMETRY_VERTEX_ELEMENT"
133	<< endl;
134
135	readGeometryVertexElement(f, geoMesh);
136
137	break;
138	}
139
140	// Get next chunk
141	if (!feof(f))
142	{
143	chunkID = readChunk(f);
144	}
145	}// End while.
146
147	if (!feof(f))
148	{
149	// Backpedal back to start of non-submesh chunk
150	fseek(f,-(long)CHUNK_OVERHEAD_SIZE,1);
151	}
152
153	}// End if (!feof(f))
154	}// End readGeometryVertexDeclaration.
155
156	//---------------------------------------------------------------------------
157	// Read geometry vertex buffer.
158	//---------------------------------------------------------------------------
159	void GeoMeshLoader::readGeometryVertexBuffer(FILE f, Mesh geoMesh, int option)
160	{
161	unsigned short bindIndex;
162	unsigned short vertexSize;
163	unsigned short headerID;
164	int i;
165	float aux;
166	int k;
167	bool found;
168	float x,y,z;
169	SubMesh *geoSubMesh;
170	VertexBuffer *vertex_buffer;
171
172	i = 0;
173	k = 0;
174	found = false;
175
176	if (option == GEOMESH_BUILD)
177	{
178	// If is the main mesh.
179	if (currentSubMesh == -1)
180	{
181	vertex_buffer = geoMesh->mVertexBuffer;
182	}
183	// If is a submesh.
184	else
185	{
186	// Gets the current submesh
187	geoSubMesh = &geoMesh->mSubMesh[currentSubMesh];
188	vertex_buffer = geoSubMesh->mVertexBuffer;
189	}
190	}
191
192	// Index to bind this buffer to
193	fread(&bindIndex,sizeof(unsigned short),1,f);
194
195	// Per-vertex size, must agree with declaration at this index
196	fread(&vertexSize,sizeof(unsigned short),1,f);
197
198	// Check for vertex data header
199	headerID = readChunk(f);
200
201	if (headerID != M_GEOMETRY_VERTEX_BUFFER_DATA)
202	{
203	cout << "Can't find vertex buffer data area"
204	<< endl;
205	}
206	else
207	{
208	// Debug.
209	cout << " M_GEOMETRY_VERTEX_BUFFER_DATA"
210	<< endl;
211	}
212
213	while ((i<list.size())&&(!found))
214	{
215	if (list[i].source == bindIndex)
216	{
217	found = true;
218	}
219	else
220	{
221	i++;
222	}
223	}
224
225	if (found)
226	{
227	for (k = 0; k < numVertices; k++)
228	{
229	// For each element in this source.
230	for(int j = 0; j < list[i].list.size(); j++)
231	{
232	// Positions.
233	if (list[i].list[j].semantic == 1)
234	{
235	fread(&x,sizeof(float),1,f);
236	fread(&y,sizeof(float),1,f);
237	fread(&z,sizeof(float),1,f);
238
239	if (option == GEOMESH_BUILD)
240	{
241	vertex_buffer->mVertexInfo \|= VERTEX_POSITION;
242	vertex_buffer->mPosition[k].x = x;
243	vertex_buffer->mPosition[k].y = y;
244	vertex_buffer->mPosition[k].z = z;
245	}
246	}
247	// If are not vertices.
248	else
249	{
250	if (list[i].list[j].type == 2)
251	{
252	fread(&x,sizeof(float),1,f);
253	fread(&y,sizeof(float),1,f);
254	fread(&z,sizeof(float),1,f);
255
256	if (option == GEOMESH_BUILD)
257	{
258	vertex_buffer->mVertexInfo \|= VERTEX_NORMAL;
259	vertex_buffer->mNormal[k].x = x;
260	vertex_buffer->mNormal[k].y = y;
261	vertex_buffer->mNormal[k].z = z;
262	}
263	}
264	if (list[i].list[j].type == 1)
265	{
266	fread(&x,sizeof(float),1,f);
267	fread(&y,sizeof(float),1,f);
268
269	if (option == GEOMESH_BUILD)
270	{
271	vertex_buffer->mVertexInfo \|= VERTEX_TEXCOORDS;
272	vertex_buffer->mTexCoords[k].x = x;
273	vertex_buffer->mTexCoords[k].y = y;
274	}
275	}
276	}
277	}
278	}
279	}
280	else
281	{
282	// Debug.
283	cout << "Error: Source not found."
284	<< endl;
285
286	// Error.
287	mError = true;
288	}
289
290	}
291
292	//---------------------------------------------------------------------------
293	// Read Geometry.
294	//---------------------------------------------------------------------------
295	void GeoMeshLoader::readGeometry(FILE f, Mesh geoMesh, int option)
296	{
297	SubMesh *geoSubMesh;
298	VertexBuffer *vertex_buffer;
299
300	fread(&numVertices,sizeof(unsigned int),1,f);
301
302	if (option == GEOMESH_BUILD)
303	{
304	if (currentSubMesh == -1)
305	{
306	// Get the current vertex buffer.
307	vertex_buffer = geoMesh->mVertexBuffer;
308	}
309	else
310	{
311	// Get the current submesh.
312	geoSubMesh = &geoMesh->mSubMesh[currentSubMesh];
313
314	// Create the VertexBuffer of the submesh.
315	geoSubMesh->mVertexBuffer = new VertexBuffer();
316
317	// Get the current vertex buffer.
318	vertex_buffer = geoSubMesh->mVertexBuffer;
319	}
320
321	// Initialize the VertexBuffer of the current submesh.
322	vertex_buffer->mVertexCount = numVertices;
323
324	// Initialize the position array.
325	vertex_buffer->mPosition = new Vector3[numVertices];
326
327	// Initialize the normal array.
328	vertex_buffer->mNormal = new Vector3[numVertices];
329
330	// Initialize the texture coords array.
331	vertex_buffer->mTexCoords = new Vector2[numVertices];
332	}
333
334	// Find optional geometry chunks
335	if (!feof(f))
336	{
337	unsigned short chunkID = readChunk(f);
338
339	while(!feof(f) &&
340	(chunkID == M_GEOMETRY_VERTEX_DECLARATION \|\|
341	chunkID == M_GEOMETRY_VERTEX_BUFFER ))
342	{
343	switch (chunkID)
344	{
345	case M_GEOMETRY_VERTEX_DECLARATION:
346
347	// Debug.
348	cout << " M_GEOMETRY_VERTEX_DECLARATION"
349	<< endl;
350
351	readGeometryVertexDeclaration(f, geoMesh);
352
353	break;
354
355	case M_GEOMETRY_VERTEX_BUFFER:
356
357	// Debug.
358	cout << " M_GEOMETRY_VERTEX_BUFFER"
359	<< endl;
360
361	readGeometryVertexBuffer(f, geoMesh,option);
362
363	break;
364	}
365
366	// Get next chunk.
367	if (!feof(f))
368	{
369	chunkID = readChunk(f);
370	}
371	}
372
373	if (!feof(f))
374	{
375	// Backpedal back to start of non-submesh chunk.
376	fseek(f,-(long)CHUNK_OVERHEAD_SIZE,1);
377	}
378	}
379	}
380
381	//---------------------------------------------------------------------------
382	// Read a submesh operation.
383	//---------------------------------------------------------------------------
384	void GeoMeshLoader::readSubMeshOperation( FILE *f,
385	Mesh *geoMesh,
386	int option)
387	{
388	unsigned short opType;
389
390	fread(&opType,sizeof(unsigned short),1,f);
391
392	if (option == GEOMESH_BUILD)
393	{
394	if (opType == 5)
395	{
396	geoMesh->mSubMesh[currentSubMesh].mType = GEO_TRIANGLE_STRIPS;
397	}
398	else
399	{
400	geoMesh->mSubMesh[currentSubMesh].mType = GEO_TRIANGLE_LIST;
401	}
402	}
403	}
404
405	//---------------------------------------------------------------------------
406	// Read a submesh.
407	//---------------------------------------------------------------------------
408	void GeoMeshLoader::readSubMesh(FILE f, Mesh geoMesh, int option)
409	{
410	SubMesh *geoSubMesh;
411	unsigned short chunkID;
412	char materialName[255];
413	bool useSharedVertices;
414	unsigned int numIndices;
415	bool idx32bit;
416
417	switch (option)
418	{
419	case SUBMESH_COUNT:
420	geoMesh->mSubMeshCount++;
421	break;
422	case GEOMESH_BUILD:
423
424	// Initialize the new subMesh.
425	geoSubMesh = &geoMesh->mSubMesh[currentSubMesh];
426	}
427
428	list.clear();
429
430	// Gets material name.
431	fgets(materialName,255,f);
432	materialName[strlen(materialName) - 1] = '\0';
433
434	fread(&useSharedVertices,sizeof(bool),1,f);
435
436	if (option == GEOMESH_BUILD)
437	{
438	// Obtain the material name.
439	strcpy(geoSubMesh->mMaterialName,materialName);
440
441	// Obtain the flag of vertex shared.
442	geoSubMesh->mSharedVertexBuffer = useSharedVertices;
443
444	if (useSharedVertices)
445	{
446	// The VB of the submesh points to the VB of the mesh.
447	geoSubMesh->mVertexBuffer = geoMesh->mVertexBuffer;
448	}
449	}
450
451	fread(&numIndices,sizeof(unsigned int),1,f);
452	fread(&idx32bit,sizeof(bool),1,f);
453
454	if (option == GEOMESH_BUILD)
455	{
456	// Sets the index count of the submesh.
457	geoSubMesh->mIndexCount = numIndices;
458
459	// Create the index arrar for this submesh.
460	geoSubMesh->mIndex = new Index[numIndices];
461	}
462
463
464	if (idx32bit)
465	{
466	unsigned int aux;
467
468	for (int i = 0; i < numIndices; i++)
469	{
470	fread(&aux,sizeof(unsigned int),1,f);
471
472	if (option == GEOMESH_BUILD)
473	{
474	geoSubMesh->mIndex[i] = aux;
475	}
476	}
477	}
478	else
479	{
480	unsigned short aux;
481
482	for (int i = 0; i < numIndices; i++)
483	{
484	fread(&aux,sizeof(unsigned short),1,f);
485
486	if (option == GEOMESH_BUILD)
487	{
488	geoSubMesh->mIndex[i] = aux;
489	}
490	}
491	}
492
493	// M_GEOMETRY chunk
494	// (Optional: present only if useSharedVertices = false)
495	if (!useSharedVertices)
496	{
497	chunkID = readChunk(f);
498
499	if (chunkID != M_GEOMETRY)
500	{
501	// Debug.
502	cout << "Error: Missing mesh geometry."
503	<< endl;
504
505	// Error.
506	mError = true;
507	}
508
509	readGeometry(f, geoMesh, option);
510	}
511
512	// Find all bone assignments (if present)
513	if (!feof(f))
514	{
515	chunkID = readChunk(f);
516	while(!feof(f) &&
517	(chunkID == M_SUBMESH_BONE_ASSIGNMENT \|\|
518	chunkID == M_SUBMESH_OPERATION))
519	{
520	switch(chunkID)
521	{
522	case M_SUBMESH_OPERATION:
523
524	// Debug.
525	cout << " M_SUBMESH_OPERATION"
526	<< endl;
527
528	readSubMeshOperation(f, geoMesh, option);
529
530	break;
531
532	case M_SUBMESH_BONE_ASSIGNMENT:
533
534	// Debug.
535	//cout << " M_SUBMESH_BONE_ASSIGNMENT"
536	// << endl;
537
538	if (option == GEOMESH_BUILD)
539	{
540	readSubMeshBoneAssignment(f, geoSubMesh, option);
541	}
542	else
543	{
544	jumpChunk(f);
545	}
546
547	break;
548	}
549
550	if (!feof(f))
551	{
552	chunkID = readChunk(f);
553	}
554
555	}
556	if (!feof(f))
557	{
558	// Backpedal back to start of chunk.
559	fseek(f,-(long)CHUNK_OVERHEAD_SIZE,1);
560	}
561	}
562
563	}
564
565	//---------------------------------------------------------------------------
566	// Read a mesh lod information.
567	//---------------------------------------------------------------------------
568	void GeoMeshLoader::readMeshLodInfo(FILE f, Mesh geoMesh)
569	{
570	unsigned short chunkID;
571	unsigned short i;
572	unsigned short aux;
573	bool aux2;
574
575	// unsigned short numLevels;
576	fread(&aux,sizeof(unsigned short),1,f);
577	// bool manual;
578	// (true for manual alternate meshes, false for generated)
579	fread(&aux2,sizeof(bool),1,f);
580
581	// Loop from 1 rather than 0 (full detail index is not in file)
582	for (i = 1; i < aux; ++i)
583	{
584	chunkID = readChunk(f);
585	if (chunkID != M_MESH_LOD_USAGE)
586	{
587	// Debug.
588	cout << "Error: Missing M_MESH_LOD_USAGE chunk"
589	<< endl;
590	}
591	else
592	{
593	cout << " M_MESH_LOD_USAGE"
594	<< endl;
595	}
596
597	jumpChunk(f);
598
599	}
600	}
601
602	//---------------------------------------------------------------------------
603	// Read a submesh name table.
604	//---------------------------------------------------------------------------
605	void GeoMeshLoader::readSubMeshNameTable(FILE f, Mesh geoMesh)
606	{
607	unsigned short chunkID;
608	unsigned short subMeshIndex;
609	char string[255];
610
611	if (!feof(f))
612	{
613	chunkID = readChunk(f);
614
615	while (!feof(f) && (chunkID == M_SUBMESH_NAME_TABLE_ELEMENT ))
616	{
617	// Debug.
618	cout << " M_SUBMESH_NAME_TABLE_ELEMENT"
619	<< endl;
620
621	// Read in the index of the submesh.
622	fread(&subMeshIndex,sizeof(unsigned short),1,f);
623
624	// Read in the String and map it to its index.
625	fgets(string,255,f);
626
627	// If we're not end of file get the next chunk ID.
628	if (!feof(f))
629	{
630	chunkID = readChunk(f);
631	}
632	}
633	if (!feof(f))
634	{
635	// Backpedal back to start of chunk.
636	fseek(f,-(long)CHUNK_OVERHEAD_SIZE,1);
637	}
638	}
639	}
640
641	//---------------------------------------------------------------------------
642	// Read a mesh file.
643	//---------------------------------------------------------------------------
644	void GeoMeshLoader::readMesh(FILE f, Mesh geoMesh, int option)
645	{
646	unsigned short chunkID;
647	bool nada;
648
649	// Create the VertexBuffer of the mesh.
650	geoMesh->mVertexBuffer = new VertexBuffer();
651	geoMesh->mVertexBuffer->mVertexCount = 0;
652
653	//La vacio antes de leer el mesh
654	list.clear();
655
656	// bool skeletallyAnimated
657	fread(&nada,sizeof(bool),1,f);
658
659	// Find all subchunks
660	if (!feof(f))
661	{
662	chunkID = readChunk(f);
663
664	while(!feof(f) &&
665	(chunkID == M_GEOMETRY \|\|
666	chunkID == M_SUBMESH \|\|
667	chunkID == M_MESH_SKELETON_LINK \|\|
668	chunkID == M_MESH_BONE_ASSIGNMENT \|\|
669	chunkID == M_MESH_LOD \|\|
670	chunkID == M_MESH_BOUNDS \|\|
671	chunkID == M_SUBMESH_NAME_TABLE \|\|
672	chunkID == M_EDGE_LISTS))
673	{
674	switch(chunkID)
675	{
676	case M_GEOMETRY:
677
678	// Debug.
679	cout << " M_GEOMETRY"
680	<< endl;
681
682	readGeometry(f, geoMesh, option);
683	break;
684
685	case M_SUBMESH:
686
687	// Debug.
688	cout << " M_SUBMESH"
689	<< endl;
690
691	if (option == GEOMESH_BUILD)
692	{
693	// Increments the current submesh.
694	currentSubMesh++;
695	}
696
697	readSubMesh(f, geoMesh, option);
698
699	break;
700
701	case M_MESH_SKELETON_LINK:
702
703	// Debug.
704	cout << " M_MESH_SKELETON_LINK "
705	<< endl;
706
707
708	readSkeletonLink(f, geoMesh, option);
709
710	break;
711
712	case M_MESH_BONE_ASSIGNMENT:
713
714	// Debug.
715	//cout << " M_MESH_BONE_ASSIGNMENT "
716	// << endl;
717
718	readMeshBoneAssignment(f, geoMesh, option);
719
720	break;
721
722	case M_MESH_LOD:
723
724	// Debug.
725	cout << " M_MESH_LOD"
726	<< endl;
727
728	readMeshLodInfo(f, geoMesh);
729	break;
730
731	case M_MESH_BOUNDS:
732
733	// Debug.
734	cout << " M_MESH_BOUNDS "
735	<< endl;
736
737	//jumpChunk(f);
738	readMeshBounds(f, geoMesh, option);
739	break;
740
741	case M_SUBMESH_NAME_TABLE:
742
743	// Debug.
744	cout << " M_SUBMESH_NAME_TABLE "
745	<< endl;
746
747	readSubMeshNameTable(f, geoMesh);
748	break;
749
750	case M_EDGE_LISTS:
751
752	// Debug.
753	cout << " M_EDGE_LISTS "
754	<< endl;
755
756	jumpChunk(f);
757	break;
758	}
759
760	if (!feof(f))
761	{
762	chunkID = readChunk(f);
763	}
764
765	}
766
767	if (!feof(f))
768	{
769	// Backpedal back to start of chunk
770	fseek(f,-(long)CHUNK_OVERHEAD_SIZE,1);
771
772	// Debug.
773	cout << "Error: Reading failure."
774	<< endl;
775
776	// Error.
777	mError = true;
778	}
779	}
780
781	}
782
783
784	//---------------------------------------------------------------------------
785	// Allocate memory to the array of strips
786	//---------------------------------------------------------------------------
787	SubMesh* GeoMeshLoader::BuildStripsGeoSubMesh(SubMesh* geoSubMesh)
788	{
789	bool head_found;
790	bool tail_found;
791	int strip_count;
792	int tailIndex;
793	size_t tail;
794
795
796	head_found = false;
797	tail_found = false;
798	geoSubMesh->mStripCount = 1;
799
800	// Foreachone of the indices.
801	// Obtains the number of triangle strips.
802	for (int i = 0; i < (geoSubMesh->mIndexCount - 1); i++)
803	{
804	if (geoSubMesh->mIndex[i] == geoSubMesh->mIndex[i+1])
805	{
806	if (head_found)
807	{
808	tail_found = true;
809	}
810	else
811	{
812	head_found = true;
813	}
814
815	// Jump one index.
816	i++;
817	}
818	else
819	{
820	// Increments the number of triangle strips.
821	if (tail_found)
822	{
823	geoSubMesh->mStripCount++;
824	}
825
826	head_found = false;
827	tail_found = false;
828	}
829	}
830
831	geoSubMesh->mStrip = (Index*) malloc( sizeof(Index)
832	*
833	geoSubMesh->mStripCount);
834
835	// Number of strips. Initially there is one triangle strip.
836	strip_count = 1;
837
838	head_found = false;
839	tail_found = false;
840
841	// Initialize the fist triangle strip.
842	geoSubMesh->mStrip[0] = &geoSubMesh->mIndex[0];
843
844	// Foreachone of the indices.
845	// Assigns the beginning of the triangle strips.
846	for(int i = 0;i < (geoSubMesh->mIndexCount - 1); i++)
847	{
848	if(geoSubMesh->mIndex[i] == geoSubMesh->mIndex[i+1])
849	{
850	if(head_found)
851	{
852	if (!tail_found)
853	{
854	tailIndex = i;
855	}
856
857	tail_found = true;
858	}
859	else
860	{
861	head_found = true;
862	}
863
864	// Jump one index.
865	i++;
866	}
867	else
868	{
869	// Increments the number of triangle strips.
870	if(tail_found)
871	{
872	geoSubMesh->mStrip[strip_count++] = &geoSubMesh->mIndex[tailIndex];
873	}
874
875	head_found = false;
876	tail_found = false;
877	}
878	}
879
880	// Remove degenerate triangles of a submesh given.
881	//geoSubMesh = removeDegenerateTriangles(geoSubMesh);
882
883	return geoSubMesh;
884	}
885
886	//---------------------------------------------------------------------------
887	// Remove degenerate triangles of a submesh given.
888	//---------------------------------------------------------------------------
889	SubMesh * GeoMeshLoader::removeDegenerateTriangles(SubMesh *geoSubMesh)
890	{
891	Index *indices;
892	Index *index;
893	Index *indexBegin;
894	Index *indexEnd;
895	Index *new_strip_starts;
896	size_t new_index_count;
897	size_t current_index;
898
899	// Stores the new starts of strips.
900	new_strip_starts = new Index[geoSubMesh->mStripCount];
901
902	// Calculate the new index count.
903	new_index_count = geoSubMesh->mIndexCount
904	-
905	(2 * geoSubMesh->mStripCount)
906	+
907	2;
908
909	// Auxiliar index array.
910	indices = new Index[new_index_count];
911
912	// Initialize the current index.
913	current_index = 0;
914
915	// For each one of the strips.
916	for (int strip = 0; strip < geoSubMesh->mStripCount; strip++)
917	{
918	// Stars of strip without degenerate triangles.
919	new_strip_starts[strip] = current_index;
920
921	// First index of the strip.
922	indexBegin = geoSubMesh->mStrip[strip];
923
924	// If is the final strip
925	if (strip == (geoSubMesh->mStripCount - 1))
926	{
927	// The end of the index array.
928	indexEnd = &geoSubMesh->mIndex[geoSubMesh->mIndexCount];
929	}
930	else
931	{
932	// The beginning of the next strip.
933	indexEnd = geoSubMesh->mStrip[strip + 1];
934	}
935
936	int i;
937	i = 0;
938
939	// If is not the first strip.
940	if (strip != 0)
941	{
942	indexBegin++;
943	}
944
945	// If is not the last strip.
946	if (strip != (geoSubMesh->mStripCount - 1))
947	{
948	indexEnd--;
949	}
950
951	// For each index of the strip.
952	for (index = indexBegin; index < indexEnd; index++)
953	{
954	indices[current_index++] = indexBegin[i];
955
956	// Increments i.
957	i++;
958	}
959
960	}
961
962	// Free Index memory.
963	delete []geoSubMesh->mIndex;
964
965	// Update index count.
966	geoSubMesh->mIndexCount = new_index_count;
967
968	geoSubMesh->mIndex = new Index[new_index_count];
969
970	// Store new index array without degenerate triangles.
971	for (size_t i = 0; i < geoSubMesh->mIndexCount; i++)
972	{
973	geoSubMesh->mIndex[i] = indices[i];
974	}
975
976	// Free auxiliar index array;
977	delete []indices;
978
979	// Update start of the strip.
980	for (int strip = 0; strip < geoSubMesh->mStripCount; strip++)
981	{
982	geoSubMesh->mStrip[strip] = &geoSubMesh->mIndex[new_strip_starts[strip]];
983	}
984
985	// Free auxiliar strip starts.
986	delete []new_strip_starts;
987
988	return geoSubMesh;
989	}
990
991	//---------------------------------------------------------------------------
992	// Loads a mesh.
993	//---------------------------------------------------------------------------
994	Mesh* GeoMeshLoader::load(char *nameFileMesh)
995	{
996	unsigned short uno;
997	unsigned short chunkID;
998	char version[255];
999	char kk;
1000	FILE *pFile;
1001	SubMesh *geosubmesh;
1002
1003	// Debug.
1004	cout << "---------------------------------"
1005	<< endl
1006	<< "\t LOAD MESH"
1007	<< endl
1008	<< "---------------------------------"
1009	<< endl;
1010
1011	// retrieve the extension of the file
1012	std::string fileExt;
1013	std::string completeFileName(nameFileMesh);
1014	for (std::string::reverse_iterator it = completeFileName.rbegin(); it!=completeFileName.rend(); it++)
1015	if (*it=='.')
1016	break;
1017	else
1018	fileExt += *it;
1019
1020	std::transform(fileExt.begin(), fileExt.end(), fileExt.begin(), std::toupper);
1021	reverse(fileExt.begin(),fileExt.end());
1022
1023	geoMesh = NULL;
1024
1025	// Open the mesh file.
1026	pFile = fopen(nameFileMesh, "rb");
1027
1028	if (pFile)
1029	{
1030	// Initialize the current submesh;
1031	currentSubMesh = -1;
1032
1033	// Initialize the return value.
1034	geoMesh = new Mesh();
1035
1036	if (fileExt==std::string("OBJ"))
1037	{
1038	mError = false;
1039	importOBJ(pFile,geoMesh);
1040	}
1041	else
1042	{
1043	// Count the submeshes
1044	// and next build the geomesh.
1045	for (int option = 0; option < 2;option++)
1046	{
1047	// Initialize Error.
1048	mError = false;
1049
1050	fread(&uno,sizeof(unsigned short),1,pFile);
1051
1052	if (uno != M_HEADER)
1053	{
1054	// Debug.
1055	cout << "Error: Header not found."
1056	<< endl;
1057
1058	// Error.
1059	mError = true;
1060	}
1061
1062	// Read version.
1063	fgets(version,255,pFile);
1064
1065	cout << version << endl;
1066
1067	if (strcmp(version,"[MeshSerializer_v1.30]\n"))
1068	{
1069	// Debug.
1070	cout << "Error: Wrong mesh version."
1071	<< endl
1072	<< "Only version 1.3 or older allowed."
1073	<< endl;
1074
1075	// Error.
1076	mError = true;
1077	}
1078
1079	while(!feof(pFile))
1080	{
1081	chunkID = readChunk(pFile);
1082
1083	switch (chunkID)
1084	{
1085	case M_MESH:
1086	readMesh(pFile, geoMesh, option);
1087	break;
1088	}
1089	}
1090
1091	// Create the submesh array.
1092	if (option == SUBMESH_COUNT)
1093	{
1094	geoMesh->mSubMesh = new SubMesh[geoMesh->mSubMeshCount];
1095	}
1096
1097	// Move the curso to the begining of the file.
1098	fseek(pFile,0,SEEK_SET);
1099	}
1100
1101	// Goes to the end of the file.
1102	fseek(pFile,0,SEEK_END);
1103
1104	// Gets the size of the file.
1105	mFileSize = ftell(pFile);
1106	}
1107
1108	// Close the mesh file.
1109	fclose(pFile);
1110
1111	// If no error.
1112	if (!mError)
1113	{
1114	for (int submesh = 0; submesh < geoMesh->mSubMeshCount; submesh++)
1115	{
1116	// Gets the actual submesh.
1117	geosubmesh = &geoMesh->mSubMesh[submesh];
1118
1119	if (geosubmesh->mType == Geometry::GEO_TRIANGLE_STRIPS)
1120	{
1121	// Fill the strips list.
1122	geosubmesh = BuildStripsGeoSubMesh(geosubmesh);
1123	}
1124	}
1125
1126	// Sets coods between -1 and 1.
1127	normalizeModel(geoMesh);
1128	}
1129	}
1130	else
1131	{
1132	// Debug.
1133	cout << "Error: File not found."
1134	<< endl;
1135
1136	// File not found.
1137	mError = true;
1138	}
1139
1140	// If an error happens.
1141	if (mError)
1142	{
1143	delete geoMesh;
1144
1145	geoMesh = NULL;
1146	}
1147
1148	return geoMesh;
1149	}
1150
1151	//---------------------------------------------------------------------------
1152	// Sets coords between -1 and 1.
1153	//---------------------------------------------------------------------------
1154	void GeoMeshLoader::normalizeModel(Mesh *geoMesh)
1155	{
1156	unsigned int i;
1157	float maxx, minx, maxy, miny, maxz, minz;
1158	float cx, cy, cz, w, h, d, max;
1159	float scale;
1160	VertexBuffer *vertex_buffer;
1161
1162	// Gets vertex buffer.
1163	vertex_buffer = geoMesh->mSubMesh[0].mVertexBuffer;
1164
1165	// Get the max/mins.
1166	maxx = minx = vertex_buffer->mPosition[0].x;
1167	maxy = miny = vertex_buffer->mPosition[0].y;
1168	maxz = minz = vertex_buffer->mPosition[0].z;
1169
1170	// For each submesh.
1171	for (int submesh = 0; submesh < geoMesh->mSubMeshCount; submesh++)
1172	{
1173	// Gets the actual submesh.
1174	vertex_buffer = geoMesh->mSubMesh[submesh].mVertexBuffer;
1175
1176	// For each index of the strip.
1177	for (int i = 0; i < vertex_buffer->mVertexCount; i++)
1178	{
1179	if (maxx < vertex_buffer->mPosition[i].x)
1180	{
1181	maxx = vertex_buffer->mPosition[i].x;
1182	}
1183
1184	if (minx > vertex_buffer->mPosition[i].x)
1185	{
1186	minx = vertex_buffer->mPosition[i].x;
1187	}
1188
1189	if (maxy < vertex_buffer->mPosition[i].y)
1190	{
1191	maxy = vertex_buffer->mPosition[i].y;
1192	}
1193
1194	if (miny > vertex_buffer->mPosition[i].y)
1195	{
1196	miny = vertex_buffer->mPosition[i].y;
1197	}
1198
1199	if (maxz < vertex_buffer->mPosition[i].z)
1200	{
1201	maxz = vertex_buffer->mPosition[i].z;
1202	}
1203
1204	if (minz > vertex_buffer->mPosition[i].z)
1205	{
1206	minz = vertex_buffer->mPosition[i].z;
1207	}
1208	}
1209
1210	// If is a shared vertex Buffer.
1211	if (geoMesh->mSubMesh[submesh].mSharedVertexBuffer)
1212	{
1213	break;
1214	}
1215	}
1216
1217	// Calculate model width, height, and depth.
1218	w = fabs(maxx) + fabs(minx);
1219	h = fabs(maxy) + fabs(miny);
1220	d = fabs(maxz) + fabs(minz);
1221
1222	// Calculate center of the model.
1223	cx = (maxx + minx) / 2.0;
1224	cy = (maxy + miny) / 2.0;
1225	cz = (maxz + minz) / 2.0;
1226
1227
1228	// Calculate max dimension.
1229	if (w > h)
1230	{
1231	max = w;
1232	}
1233	else
1234	{
1235	max = h;
1236	}
1237
1238	if (d > max)
1239	{
1240	max = d;
1241	}
1242
1243	// Calculate unitizing scale factor.
1244	scale = 1.0 / max;
1245
1246	geoMesh->mMeshBounds.scaleFactor = scale;
1247
1248	// Translate around center then scale.
1249	// For each submesh.
1250	for (int submesh = 0; submesh < geoMesh->mSubMeshCount; submesh++)
1251	{
1252	// Gets the actual submesh.
1253	vertex_buffer = geoMesh->mSubMesh[submesh].mVertexBuffer;
1254
1255	// For each index of the strip.
1256	for (int i = 0; i < vertex_buffer->mVertexCount; i++)
1257	{
1258	vertex_buffer->mPosition[i].x -= cx;
1259	vertex_buffer->mPosition[i].y -= cy;
1260	vertex_buffer->mPosition[i].z -= cz;
1261	vertex_buffer->mPosition[i].x *= scale;
1262	vertex_buffer->mPosition[i].y *= scale;
1263	vertex_buffer->mPosition[i].z *= scale;
1264	}
1265
1266	// If is a shared vertex Buffer.
1267	if (geoMesh->mSubMesh[submesh].mSharedVertexBuffer)
1268	{
1269	break;
1270	}
1271	}
1272
1273	}
1274
1275	//---------------------------------------------------------------------------
1276	// Get the size in bytes of the file.
1277	//---------------------------------------------------------------------------
1278	size_t GeoMeshLoader::getFileSize()
1279	{
1280	return mFileSize;
1281	}
1282
1283	//---------------------------------------------------------------------------
1284	// Constructor
1285	//---------------------------------------------------------------------------
1286	GeoMeshLoader::GeoMeshLoader()
1287	{
1288	geoMesh = NULL;
1289	mFileSize = 0;
1290	}
1291
1292	//---------------------------------------------------------------------------
1293	// Destroyer.
1294	//---------------------------------------------------------------------------
1295	GeoMeshLoader::~GeoMeshLoader()
1296	{
1297	delete geoMesh;
1298	}
1299
1300	//---------------------------------------------------------------------------
1301	// Read bones of the submesh.
1302	//---------------------------------------------------------------------------
1303	void GeoMeshLoader::readSubMeshBoneAssignment(FILE* f, SubMesh* geoSubMesh,int option)
1304	{
1305	if (option == GEOMESH_BUILD)
1306	{
1307	VertexBoneAssignment assign;
1308
1309	// unsigned int vertexIndex;
1310	fread(&(assign.vertexIndex),sizeof(unsigned int),1,f);
1311	// unsigned short boneIndex;
1312	fread(&(assign.boneIndex),sizeof(unsigned short),1,f);
1313	// float weight
1314	fread(&(assign.weight),sizeof(float),1,f);
1315
1316	geoSubMesh->mBones.push_back(assign);
1317	}
1318	}
1319
1320	//---------------------------------------------------------------------------
1321	// Read bones of the main mesh.
1322	//---------------------------------------------------------------------------
1323	void GeoMeshLoader::readMeshBoneAssignment(FILE* f, Mesh* geoMesh,int option)
1324	{
1325	if (option == GEOMESH_BUILD)
1326	{
1327	VertexBoneAssignment assign;
1328
1329	// unsigned int vertexIndex;
1330	fread(&(assign.vertexIndex),sizeof(unsigned int),1,f);
1331	// unsigned short boneIndex;
1332	fread(&(assign.boneIndex),sizeof(unsigned short),1,f);
1333	// float weight
1334	fread(&(assign.weight),sizeof(float),1,f);
1335
1336
1337	geoMesh->mBones.push_back(assign);
1338	}
1339	}
1340
1341	//---------------------------------------------------------------------------
1342	// Read skeleton link.
1343	//---------------------------------------------------------------------------
1344	void GeoMeshLoader::readSkeletonLink(FILE* f, Mesh* geoMesh,int option)
1345	{
1346	if (option == GEOMESH_BUILD)
1347	{
1348	fgets(geoMesh->mSkeletonName,255,f);
1349
1350	geoMesh->hasSkeleton = true;
1351
1352	// Debug.
1353	cout << "Skeleton Name: "
1354	<< geoMesh->mSkeletonName
1355	<< endl;
1356	}
1357	}
1358
1359	//---------------------------------------------------------------------------
1360	// Read bounding box settings.
1361	//---------------------------------------------------------------------------
1362	void GeoMeshLoader::readMeshBounds(FILE f, Mesh geoMesh, int option)
1363	{
1364	if (option == GEOMESH_BUILD)
1365	{
1366	fread(&(geoMesh->mMeshBounds.minX),sizeof(float),1,f);
1367	fread(&(geoMesh->mMeshBounds.minY),sizeof(float),1,f);
1368	fread(&(geoMesh->mMeshBounds.minZ),sizeof(float),1,f);
1369	fread(&(geoMesh->mMeshBounds.maxX),sizeof(float),1,f);
1370	fread(&(geoMesh->mMeshBounds.maxY),sizeof(float),1,f);
1371	fread(&(geoMesh->mMeshBounds.maxZ),sizeof(float),1,f);
1372	fread(&(geoMesh->mMeshBounds.radius),sizeof(float),1,f);
1373	}
1374	}
1375
1376	struct face_t
1377	{
1378	int v1,v2,v3;
1379	int t1,t2,t3;
1380	int n1,n2,n3;
1381	};
1382
1383
1384	class vertex_arranger_node
1385	{
1386	public:
1387	int v, n, t;
1388
1389	vertex_arranger_node(void){
1390	v=n=t=-1;
1391	}
1392	vertex_arranger_node(int iv, int in=-1, int it=-1){
1393	v=iv;
1394	n=in;
1395	t=it;
1396	}
1397
1398	bool operator<(const vertex_arranger_node &vu) const {
1399	if (v<vu.v) return true;
1400	if (v>vu.v) return false;
1401	if (n<vu.n) return true;
1402	if (n>vu.n) return false;
1403	if (t<vu.t) return true;
1404	if (t>vu.t) return false;
1405	return false;
1406	}
1407	bool operator==(const vertex_arranger_node &vu) const {
1408	return (v==vu.v && v==vu.v && n==vu.n && n==vu.n && t==vu.t && t==vu.t);
1409	}
1410	};
1411
1412
1413	void GeoMeshLoader::importOBJ(FILE f, Mesh mesh)
1414	{
1415	mesh->hasSkeleton=false;
1416	mesh->mSubMeshCount=0;
1417
1418	std::vector<Geometry::Vector3> vertices;
1419	std::vector<Geometry::Vector3> normals;
1420	std::vector<Geometry::Vector2> texcoords;
1421	std::vector<std::vector<face_t> > faces;
1422	std::vector<face_t> current_faces;
1423
1424	mesh->mMeshBounds.maxX = -99999999.9f;
1425	mesh->mMeshBounds.maxY = -99999999.9f;
1426	mesh->mMeshBounds.maxZ = -99999999.9f;
1427	mesh->mMeshBounds.minX = 99999999.9f;
1428	mesh->mMeshBounds.minY = 99999999.9f;
1429	mesh->mMeshBounds.minZ = 99999999.9f;
1430	mesh->mMeshBounds.radius = 1.0f;
1431	mesh->mMeshBounds.scaleFactor = 1.0f;
1432
1433	char line[256]="";
1434	while(!feof(f))
1435	{
1436	fgets(line,256,f);
1437	if (line[0]=='v' && line[1]==' ')
1438	{
1439	Geometry::Vector3 v3;
1440	sscanf(line+2,"%f %f %f",&v3.x,&v3.y,&v3.z);
1441	vertices.push_back(v3);
1442	}
1443	else if (line[0]=='v' && line[1]=='t')
1444	{
1445	Geometry::Vector2 v2;
1446	sscanf(line+2,"%f %f",&v2.x,&v2.y);
1447	texcoords.push_back(v2);
1448	}
1449	else if (line[0]=='v' && line[1]=='n')
1450	{
1451	Geometry::Vector3 v3;
1452	sscanf(line+2,"%f %f %f",&v3.x,&v3.y,&v3.z);
1453	normals.push_back(v3);
1454	}
1455	else if (line[0]=='f')
1456	{
1457	face_t auxface;
1458	auxface.n1=auxface.n2=auxface.n3=auxface.t1=auxface.t2=auxface.t3=auxface.v1=auxface.v2=auxface.v3=0;
1459	int n = sscanf(line+2,"%d/%d/%d %d/%d/%d %d/%d/%d", &auxface.v1,&auxface.t1,&auxface.n1,
1460	&auxface.v2,&auxface.t2,&auxface.n2,
1461	&auxface.v3,&auxface.t3,&auxface.n3);
1462	if (n<9)
1463	{
1464	auxface.n1=auxface.n2=auxface.n3=auxface.t1=auxface.t2=auxface.t3=auxface.v1=auxface.v2=auxface.v3=0;
1465	n = sscanf(line+2,"%d//%d %d//%d %d//%d", &auxface.v1,&auxface.n1,
1466	&auxface.v2,&auxface.n2,
1467	&auxface.v3,&auxface.n3);
1468	if (n<6)
1469	{
1470	auxface.n1=auxface.n2=auxface.n3=auxface.t1=auxface.t2=auxface.t3=auxface.v1=auxface.v2=auxface.v3=0;
1471	n = sscanf(line+2,"%d/%d %d/%d %d/%d", &auxface.v1,&auxface.t1,
1472	&auxface.v2,&auxface.t2,
1473	&auxface.v3,&auxface.t3);
1474	if (n<6)
1475	{
1476	auxface.n1=auxface.n2=auxface.n3=auxface.t1=auxface.t2=auxface.t3=auxface.v1=auxface.v2=auxface.v3=0;
1477	n = sscanf(line+2,"%d %d %d", &auxface.v1,&auxface.v2,&auxface.v3);
1478	}
1479	}
1480	}
1481
1482	auxface.v1=abs(auxface.v1); auxface.v2=abs(auxface.v2); auxface.v3=abs(auxface.v3);
1483	auxface.t1=abs(auxface.t1); auxface.t2=abs(auxface.t2); auxface.t3=abs(auxface.t3);
1484	auxface.n1=abs(auxface.n1); auxface.n2=abs(auxface.n2); auxface.n3=abs(auxface.n3);
1485	auxface.v1--; auxface.v2--; auxface.v3--;
1486	auxface.t1--; auxface.t2--; auxface.t3--;
1487	auxface.n1--; auxface.n2--; auxface.n3--;
1488	current_faces.push_back(auxface);
1489	}
1490	else if (line[0]=='g')
1491	{
1492	if (current_faces.size()>0)
1493	faces.push_back(current_faces);
1494	current_faces.clear();
1495	}
1496	}
1497
1498	if (current_faces.size()>0)
1499	faces.push_back(current_faces);
1500	current_faces.clear();
1501
1502	mesh->mSubMeshCount = faces.size();
1503	bool found_texcoords=!texcoords.empty();
1504
1505	if (normals.empty())
1506	{
1507	// calculate face normals
1508	for (int i=0, inormal=0; i<mesh->mSubMeshCount; i++)
1509	{
1510	Geometry::SubMesh *submesh = mesh->mSubMesh+i;
1511	std::vector<face_t> & vecfaces = faces[i];
1512	int j=0;
1513	for (std::vector<face_t>::iterator it=vecfaces.begin(); it!=vecfaces.end(); it++,j++,inormal++)
1514	{
1515	face_t & auxface = *it;
1516	auxface.n1 = inormal;
1517	auxface.n2 = inormal;
1518	auxface.n3 = inormal;
1519	Geometry::Vector3 v1,v2,v3,v31,v21,nor;
1520	v1 = vertices[auxface.v1];
1521	v2 = vertices[auxface.v2];
1522	v3 = vertices[auxface.v3];
1523	v31 = v3 - v1;
1524	v21 = v2 - v1;
1525	nor = v21.crossProduct(v31);
1526	nor.normalise();
1527	normals.push_back(nor);
1528	}
1529	}
1530	}
1531
1532	// fill up the mesh structure with the loaded information
1533
1534	std::map<vertex_arranger_node,int> vertex_map;
1535
1536	mesh->mSubMesh=new Geometry::SubMesh[mesh->mSubMeshCount];
1537	for (int i=0; i<mesh->mSubMeshCount; i++)
1538	{
1539	Geometry::SubMesh *submesh = mesh->mSubMesh+i;
1540	int j=0;
1541	const std::vector<face_t> & vecfaces = faces[i];
1542	std::vector<Geometry::Index> aux_indices;
1543	submesh->mSharedVertexBuffer = true;
1544	submesh->mIndexCount = vecfaces.size()*3;
1545	submesh->mIndex=new Geometry::Index[submesh->mIndexCount];
1546
1547	for (std::vector<face_t>::const_iterator it=vecfaces.begin(); it!=vecfaces.end(); it++,j++)
1548	{
1549	const face_t & auxface = *it;
1550
1551	vertex_arranger_node v1(auxface.v1,auxface.n1,auxface.t1);
1552	vertex_arranger_node v2(auxface.v2,auxface.n2,auxface.t2);
1553	vertex_arranger_node v3(auxface.v3,auxface.n3,auxface.t3);
1554
1555	std::map<vertex_arranger_node,int>::iterator res;
1556	res=vertex_map.find(v1);
1557	if (res==vertex_map.end())
1558	{
1559	int val = vertex_map.size();
1560	vertex_map[v1] = val;
1561	submesh->mIndex[j*3+0] = val;
1562	}
1563	else
1564	submesh->mIndex[j*3+0] = res->second;
1565
1566	res=vertex_map.find(v2);
1567	if (res==vertex_map.end())
1568	{
1569	int val = vertex_map.size();
1570	vertex_map[v2] = val;
1571	submesh->mIndex[j*3+1] = val;
1572	}
1573	else
1574	submesh->mIndex[j*3+1] = res->second;
1575
1576	res=vertex_map.find(v3);
1577	if (res==vertex_map.end())
1578	{
1579	int val = vertex_map.size();
1580	vertex_map[v3] = val;
1581	submesh->mIndex[j*3+2] = val;
1582	}
1583	else
1584	submesh->mIndex[j*3+2] = res->second;
1585	}
1586	}
1587
1588	mesh->mVertexBuffer=new Geometry::VertexBuffer;
1589	mesh->mVertexBuffer->mVertexCount = vertex_map.size();
1590	mesh->mVertexBuffer->mPosition = new Geometry::Vector3[mesh->mVertexBuffer->mVertexCount];
1591	mesh->mVertexBuffer->mTexCoords = texcoords.empty()?NULL:new Geometry::Vector2[mesh->mVertexBuffer->mVertexCount];
1592	mesh->mVertexBuffer->mNormal = normals.empty()?NULL:new Geometry::Vector3[mesh->mVertexBuffer->mVertexCount];
1593	mesh->mVertexBuffer->mVertexInfo = Geometry::VERTEX_POSITION \| (texcoords.empty()?0:Geometry::VERTEX_TEXCOORDS) \| (normals.empty()?0:Geometry::VERTEX_NORMAL);
1594
1595	// sort the calculated vertices
1596
1597	vertex_arranger_node * vertex_list = new vertex_arranger_node[mesh->mVertexBuffer->mVertexCount];
1598	for (std::map<vertex_arranger_node,int>::iterator it=vertex_map.begin(); it!=vertex_map.end(); it++)
1599	vertex_list[it->second] = it->first;
1600
1601
1602	for (int i=0; i<mesh->mSubMeshCount; i++)
1603	mesh->mSubMesh[i].mVertexBuffer=mesh->mVertexBuffer;
1604
1605	for (int j=0; j<mesh->mVertexBuffer->mVertexCount; j++)
1606	{
1607	int vi = vertex_list[j].v;
1608	int ti = vertex_list[j].t;
1609	int ni = vertex_list[j].n;
1610
1611	Geometry::Vector3 auxpos(vertices[vi]);
1612	if (auxpos.x < mesh->mMeshBounds.minX) mesh->mMeshBounds.minX = auxpos.x;
1613	if (auxpos.y < mesh->mMeshBounds.minY) mesh->mMeshBounds.minY = auxpos.y;
1614	if (auxpos.z < mesh->mMeshBounds.minZ) mesh->mMeshBounds.minZ = auxpos.z;
1615	if (auxpos.x > mesh->mMeshBounds.maxX) mesh->mMeshBounds.maxX = auxpos.x;
1616	if (auxpos.y > mesh->mMeshBounds.maxY) mesh->mMeshBounds.maxY = auxpos.y;
1617	if (auxpos.z > mesh->mMeshBounds.maxZ) mesh->mMeshBounds.maxZ = auxpos.z;
1618
1619	mesh->mVertexBuffer->mPosition[j] = auxpos;
1620	mesh->mVertexBuffer->mNormal[j] = normals[ni];
1621	if (found_texcoords)
1622	mesh->mVertexBuffer->mTexCoords[j] = texcoords[ti];
1623	}
1624
1625	delete[] vertex_list;
1626	}
1627

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