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lwo2mesh.cpp @ 692

Revision 692, 21.5 KB checked in by mattausch, 19 years ago (diff)
adding ogre 1.2 and dependencies

Rev	Line
[692]	1	#include "Vector3.h"
	2	#include "lwo2mesh.h"
	3	#include "Ogre.h"
	4	#include "OgreMesh.h"
	5	#include "OgreStringConverter.h"
	6	#include "OgreDefaultHardwareBufferManager.h"
	7
	8	#if OGRE_PLATFORM == OGRE_PLATFORM_LINUX
	9	#include <math.h>
	10	#include <float.h> // FLT_MIN, FLT_MAX
	11	#include <libgen.h> // dirname(), basename().
	12	#include <string.h> // strtok();
	13	#include <string> // string class
	14	#endif
	15
	16	#define POLYLIMIT 0x5555
	17	#define POINTLIMIT 0x5555
	18
	19	extern Mesh::LodDistanceList distanceList;
	20	extern Real reduction;
	21	extern bool flags[NUMFLAGS];
	22	extern MaterialSerializer* materialSerializer;
	23	extern char *matPrefix;
	24
	25	extern ostream& nl(ostream& os);
	26
	27	#if OGRE_PLATFORM == OGRE_PLATFORM_LINUX
	28
	29	/* We expect the caller to provide an arrays of chars for the output. */
	30	void _splitpath( const char _fn, char _drive, char _dir, char _node, char *_ext ) {
	31
	32	/* A crazy mix of both c and c++.. */
	33
	34	const char *delimiters = ".";
	35	char buf[ _MAX_DRIVE+_MAX_DIR+_MAX_FNAME+_MAX_EXT + 5 ];
	36	char exte, ddir, fnam, _ext_tmp;
	37
	38	strcpy( buf, _fn );
	39	strcpy( _drive, "" ); // _drive is always empth on linux.
	40
	41	if ( String( buf ).empty() ) {
	42	strcpy( _node, "" );
	43	strcpy( _dir, "" );
	44	strcpy( _ext, "" );
	45	return;
	46	}
	47
	48	fnam = basename( buf );
	49	strcpy( _node, fnam );
	50	ddir = dirname( buf );
	51	strcpy( _dir, ddir );
	52
	53	_ext_tmp = strtok( fnam, delimiters );
	54	while ( ( _ext_tmp = strtok( NULL, delimiters ) ) != NULL ) exte = _ext_tmp;
	55	strcpy( _ext, exte );
	56
	57	_node[ strlen(_node) - strlen(_ext) - 1 ] = '\0';
	58
	59	}
	60
	61	/* We expect the caller to provide an array of chars for the output. */
	62	void _makepath( char _fn, const char _drive, const char *_dir,
	63	const char _node, const char _ext ) {
	64
	65	/* A crazy mix of both c and c++.. */
	66
	67	std::string buf("");
	68
	69	if ( _drive != NULL ) // On Linux, this is usually empty.
	70	buf += _drive;
	71
	72	if ( _dir != NULL ) { // The directory part.
	73	if ( std::string(_dir).empty() )
	74	buf += ".";
	75	buf += _dir;
	76	buf += "/";
	77	}
	78
	79	if ( _node != NULL ) // The filename without the extension.
	80	buf += _node;
	81
	82	if ( _ext != NULL ) { // The extension.
	83	if ( std::string( _ext ).compare( 0, 1, "." ) != 0 )
	84	buf += ".";
	85	buf += _ext;
	86	}
	87
	88	strcpy( _fn, buf.c_str() );
	89	}
	90
	91	#endif
	92
	93	void Lwo2MeshWriter::doExportMaterials()
	94	{
	95	char
	96	drive[ _MAX_DRIVE ],
	97	dir[ _MAX_DIR ],
	98	node[ _MAX_FNAME ],
	99	ext[ _MAX_EXT ],
	100	texname [128];
	101
	102	unsigned int slength = 0;
	103
	104	if (flags[RenameMaterials])
	105	{
	106	if (flags[UseInteractiveMethod])
	107	{
	108	for (unsigned int i = 0; i < object->surfaces.size(); ++i)
	109	{
	110	lwSurface *surface = object->surfaces[i];
	111	cout << "Rename surface " << surface->name << " to: ";
	112	cin >> texname;
	113	surface->setname(texname);
	114	}
	115	} else {
	116	_splitpath( dest, drive, dir, node, ext );
	117
	118	for (unsigned int i = 0; i < object->surfaces.size(); ++i)
	119	{
	120	lwSurface *surface = object->surfaces[i];
	121	if (flags[UsePrefixMethod])
	122	strcpy(texname,matPrefix);
	123	else
	124	{
	125	strcpy(texname,node);
	126	strcat(texname,"_");
	127	}
	128
	129	strcat(texname, surface->name);
	130	surface->setname(texname);
	131	}
	132	}
	133	}
	134
	135	for (unsigned int i = 0; i < object->surfaces.size(); ++i)
	136	{
	137	lwSurface *surface = object->surfaces[i];
	138
	139	// Create deferred material so no load
	140	MaterialPtr ogreMat = MaterialManager::getSingleton().getByName(surface->name);
	141
	142	if (ogreMat.isNull())
	143	{
	144	ogreMat = MaterialManager::getSingleton().create(surface->name,
	145	ResourceGroupManager::DEFAULT_RESOURCE_GROUP_NAME);
	146
	147	ogreMat->setAmbient
	148	(
	149	surface->color.rgb[0],
	150	surface->color.rgb[1],
	151	surface->color.rgb[2]
	152	);
	153
	154	ogreMat->setDiffuse
	155	(
	156	surface->diffuse.val * surface->color.rgb[0],
	157	surface->diffuse.val * surface->color.rgb[1],
	158	surface->diffuse.val * surface->color.rgb[2],
	159	1.0f
	160	);
	161
	162	ogreMat->setSpecular
	163	(
	164	surface->specularity.val * surface->color.rgb[0],
	165	surface->specularity.val * surface->color.rgb[1],
	166	surface->specularity.val * surface->color.rgb[2],
	167	1.0f
	168	);
	169
	170	ogreMat->setShininess(surface->glossiness.val);
	171
	172	ogreMat->setSelfIllumination
	173	(
	174	surface->luminosity.val * surface->color.rgb[0],
	175	surface->luminosity.val * surface->color.rgb[1],
	176	surface->luminosity.val * surface->color.rgb[2]
	177	);
	178
	179	unsigned int j;
	180	lwTexture *tex;
	181	int cindex;
	182	lwClip *clip;
	183
	184	for (j = 0; j < surface->color.textures.size(); j++)
	185	{
	186	tex = surface->color.textures[j];
	187	cindex = tex->param.imap->cindex;
	188	clip = object->lwFindClip(cindex);
	189
	190	if (clip)
	191	{
	192	_splitpath( clip->source.still->name, drive, dir, node, ext );
	193	_makepath( texname, 0, 0, node, ext );
	194	ogreMat->getTechnique(0)->getPass(0)->createTextureUnitState(texname);
	195	}
	196	}
	197
	198	for (j = 0; j < surface->transparency.val.textures.size(); j++)
	199	{
	200	tex = surface->transparency.val.textures[j];
	201	cindex = tex->param.imap->cindex;
	202	clip = object->lwFindClip(cindex);
	203
	204	if (clip)
	205	{
	206	_splitpath( clip->source.still->name, drive, dir, node, ext );
	207	_makepath( texname, 0, 0, node, ext );
	208	ogreMat->getTechnique(0)->getPass(0)->createTextureUnitState(texname);
	209	}
	210	}
	211	materialSerializer->queueForExport(ogreMat);
	212	}
	213	}
	214	}
	215
	216	Skeleton *Lwo2MeshWriter::doExportSkeleton(const String &skelName, int l)
	217	{
	218	vpolygons bones;
	219	bones.clear();
	220	bones.reserve(256);
	221
	222	vpoints bonepoints;
	223	bonepoints.clear();
	224	bonepoints.reserve(512);
	225
	226	if (l == -1)
	227	{
	228	for (l = 0; l < object->layers.size(); ++l)
	229	{
	230	copyPoints(-1, ID_BONE, object->layers[l]->points, bonepoints);
	231	copyPolygons(-1, ID_BONE, object->layers[l]->polygons, bones);
	232	}
	233	}
	234	else
	235	{
	236	copyPoints(-1, ID_BONE, object->layers[l]->points, bonepoints);
	237	copyPolygons(-1, ID_BONE, object->layers[l]->polygons, bones);
	238	}
	239
	240	if (!bones.size()) return NULL; // no bones means no skeleton
	241
	242	SkeletonPtr ogreskel = Ogre::SkeletonManager::getSingleton().create(skelName, Ogre::ResourceGroupManager::DEFAULT_RESOURCE_GROUP_NAME);
	243
	244	unsigned int i;
	245	// Create all the bones in turn
	246	for (i = 0; i < bones.size(); ++i)
	247	{
	248	lwPolygon* bone = bones[i];
	249	if (bone->vertices.size() != 2) continue; // a bone has only 2 sides
	250
	251	Bone* ogreBone = ogreskel->createBone("Bone");
	252
	253	Ogre::Vector3 bonePos(bone->vertices[0]->point->x, bone->vertices[0]->point->y, bone->vertices[0]->point->z);
	254
	255	ogreBone->setPosition(bonePos);
	256	// Hmm, Milkshape has chosen a Euler angle representation of orientation which is not smart
	257	// Rotation Matrix or Quaternion would have been the smarter choice
	258	// Might we have Gimbal lock here? What order are these 3 angles supposed to be applied?
	259	// Grr, we'll try our best anyway...
	260	Quaternion qx, qy, qz, qfinal;
	261	/*
	262	qx.FromAngleAxis(msBoneRot[0], Vector3::UNIT_X);
	263	qy.FromAngleAxis(msBoneRot[1], Vector3::UNIT_Y);
	264	qz.FromAngleAxis(msBoneRot[2], Vector3::UNIT_Z);
	265	*/
	266	// Assume rotate by x then y then z
	267	qfinal = qz * qy * qx;
	268	ogreBone->setOrientation(qfinal);
	269	}
	270	/*
	271	for (i = 0; i < numBones; ++i)
	272	{
	273	msBone* bone = msModel_GetBoneAt(pModel, i);
	274
	275	if (strlen(bone->szParentName) == 0)
	276	{
	277	}
	278	else
	279	{
	280	Bone* ogrechild = ogreskel->getBone(bone->szName);
	281	Bone* ogreparent = ogreskel->getBone(bone->szParentName);
	282
	283	if (ogrechild == 0)
	284	{
	285	continue;
	286	}
	287	if (ogreparent == 0)
	288	{
	289	continue;
	290	}
	291	// Make child
	292	ogreparent->addChild(ogrechild);
	293	}
	294
	295
	296	}
	297
	298	// Create the Animation(s)
	299	doExportAnimations(pModel, ogreskel);
	300
	301	// Create skeleton serializer & export
	302	SkeletonSerializer serializer;
	303	serializer.exportSkeleton(ogreskel, szFile);
	304
	305	ogreMesh->_notifySkeleton(ogreskel);
	306
	307	return ogreskel;
	308	*/
	309	if (!ogreskel.isNull())
	310	Ogre::SkeletonManager::getSingleton().remove(ogreskel->getHandle());
	311
	312	return NULL;
	313	}
	314
	315	#define POSITION_BINDING 0
	316	#define NORMAL_BINDING 1
	317	#define TEXCOORD_BINDING 2
	318
	319	VertexData Lwo2MeshWriter::setupVertexData(unsigned short vertexCount, VertexData oldVertexData, bool deleteOldVertexData)
	320	{
	321	VertexData *vertexData = new VertexData();
	322
	323	if (oldVertexData)
	324	{
	325	// Basic vertex info
	326	vertexData->vertexStart = oldVertexData->vertexStart;
	327	vertexData->vertexCount = oldVertexData->vertexCount + vertexCount;
	328
	329	const VertexBufferBinding::VertexBufferBindingMap bindings = oldVertexData->vertexBufferBinding->getBindings();
	330	VertexBufferBinding::VertexBufferBindingMap::const_iterator vbi, vbend;
	331	vbend = bindings.end();
	332
	333	for (vbi = bindings.begin(); vbi != vbend; ++vbi)
	334	{
	335	HardwareVertexBufferSharedPtr srcbuf = vbi->second;
	336	// create new buffer with the same settings
	337	HardwareVertexBufferSharedPtr dstBuf =
	338	HardwareBufferManager::getSingleton().createVertexBuffer(
	339	srcbuf->getVertexSize(), srcbuf->getNumVertices() + vertexCount, srcbuf->getUsage(), srcbuf->isSystemMemory());
	340
	341	// copy data
	342	dstBuf->copyData(*srcbuf, 0, 0, srcbuf->getSizeInBytes(), true);
	343
	344	// Copy binding
	345	vertexData->vertexBufferBinding->setBinding(vbi->first, dstBuf);
	346	}
	347
	348	// Copy elements
	349	const VertexDeclaration::VertexElementList elems = oldVertexData->vertexDeclaration->getElements();
	350	VertexDeclaration::VertexElementList::const_iterator ei, eiend;
	351	eiend = elems.end();
	352	for (ei = elems.begin(); ei != eiend; ++ei)
	353	{
	354	vertexData->vertexDeclaration->addElement(
	355	ei->getSource(),
	356	ei->getOffset(),
	357	ei->getType(),
	358	ei->getSemantic(),
	359	ei->getIndex() );
	360	}
	361	if (deleteOldVertexData) delete oldVertexData;
	362	}
	363	else
	364	{
	365	vertexData->vertexCount = vertexCount;
	366
	367	VertexBufferBinding* bind = vertexData->vertexBufferBinding;
	368	VertexDeclaration* decl = vertexData->vertexDeclaration;
	369
	370	decl->addElement(POSITION_BINDING, 0, VET_FLOAT3, VES_POSITION);
	371	HardwareVertexBufferSharedPtr pbuf = HardwareBufferManager::getSingleton().createVertexBuffer(decl->getVertexSize(POSITION_BINDING), vertexData->vertexCount, HardwareBuffer::HBU_DYNAMIC, false);
	372	bind->setBinding(POSITION_BINDING, pbuf);
	373
	374	decl->addElement(NORMAL_BINDING, 0, VET_FLOAT3, VES_NORMAL);
	375	HardwareVertexBufferSharedPtr nbuf = HardwareBufferManager::getSingleton().createVertexBuffer(decl->getVertexSize(NORMAL_BINDING), vertexData->vertexCount, HardwareBuffer::HBU_DYNAMIC, false);
	376	bind->setBinding(NORMAL_BINDING, nbuf);
	377
	378	decl->addElement(TEXCOORD_BINDING, 0, VET_FLOAT2, VES_TEXTURE_COORDINATES);
	379	HardwareVertexBufferSharedPtr tbuf = HardwareBufferManager::getSingleton().createVertexBuffer(decl->getVertexSize(TEXCOORD_BINDING), vertexData->vertexCount, HardwareBuffer::HBU_DYNAMIC, false);
	380	bind->setBinding(TEXCOORD_BINDING, tbuf);
	381	}
	382	return vertexData;
	383	}
	384
	385	void Lwo2MeshWriter::copyPoints(int surfaceIndex, unsigned long polygontype, vpoints &sourcepoints, vpoints &destpoints)
	386	{
	387	for (unsigned int i = 0; i < sourcepoints.size(); i++)
	388	{
	389	lwPoint *point = sourcepoints[i];
	390
	391	for (unsigned int j = 0; j < point->polygons.size(); j++)
	392	{
	393	lwPolygon *polygon = point->polygons[j];
	394	if (polygon->type == polygontype)
	395	if (surfaceIndex == -1 \|\| surfaceIndex == polygon->surfidx)
	396	{
	397	destpoints.push_back(point);
	398	break;
	399	}
	400	}
	401	}
	402	}
	403
	404	void Lwo2MeshWriter::copyPolygons(int surfaceIndex, unsigned long polygontype, vpolygons &sourcepolygons, vpolygons &destpolygons)
	405	{
	406	for (unsigned int i = 0; i < sourcepolygons.size(); i++)
	407	{
	408	lwPolygon *polygon = sourcepolygons[i];
	409	if (polygon->type == polygontype)
	410	if (surfaceIndex == -1 \|\| surfaceIndex == polygon->surfidx)
	411	destpolygons.push_back(polygon);
	412	}
	413	}
	414
	415	void Lwo2MeshWriter::copyDataToVertexData(vpoints &points,
	416	vpolygons &polygons,
	417	vvmaps &vmaps,
	418	IndexData *indexData,
	419	VertexData *vertexData,
	420	unsigned short vertexDataOffset)
	421	{
	422	lwVMap *vmap = 0;
	423	unsigned int ni;
	424
	425	HardwareVertexBufferSharedPtr pbuf = vertexData->vertexBufferBinding->getBuffer(POSITION_BINDING);
	426	HardwareVertexBufferSharedPtr nbuf = vertexData->vertexBufferBinding->getBuffer(NORMAL_BINDING);
	427	HardwareVertexBufferSharedPtr tbuf = vertexData->vertexBufferBinding->getBuffer(TEXCOORD_BINDING);
	428	HardwareIndexBufferSharedPtr ibuf = indexData->indexBuffer;
	429
	430	float* pPos = static_cast<float*>(pbuf->lock(HardwareBuffer::HBL_DISCARD));
	431	float* pNor = static_cast<float*>(nbuf->lock(HardwareBuffer::HBL_DISCARD));
	432	float* pTex = static_cast<float*>(tbuf->lock(HardwareBuffer::HBL_DISCARD));
	433	unsigned short pIdx = static_cast<unsigned short>(ibuf->lock(HardwareBuffer::HBL_DISCARD));
	434
	435	for (unsigned int p = 0; p < polygons.size(); p++)
	436	{
	437	lwPolygon *polygon = polygons[p];
	438
	439	if (polygon->vertices.size() != 3) continue; // only copy triangles;
	440
	441	for (unsigned int v = 0; v < polygon->vertices.size(); v++)
	442	{
	443	lwVertex *vertex = polygon->vertices[v];
	444	lwPoint *point = vertex->point;
	445	unsigned short i = getPointIndex(point, points);
	446
	447	pIdx[p*3 + v] = vertexDataOffset + i;
	448
	449	ni = (vertexDataOffset + i) * 3;
	450
	451	pPos[ni] = vertex->point->x;
	452	pPos[ni + 1] = vertex->point->y;
	453	pPos[ni + 2] = vertex->point->z;
	454
	455	pNor[ni] = vertex->normal.x;
	456	pNor[ni + 1] = vertex->normal.y;
	457	pNor[ni + 2] = vertex->normal.z;
	458
	459	bool found = false;
	460
	461	ni = (vertexDataOffset + i) * 2;
	462
	463	for (unsigned int v = 0; v < point->vmaps.size(); v++)
	464	{
	465	for (unsigned int vr = 0; vr < vmaps.size(); vr++)
	466	{
	467	vmap = vmaps[vr];
	468	if (point->vmaps[v].vmap == vmap)
	469	{
	470	int n = point->vmaps[v].index;
	471
	472	pTex[ni] = vmap->val[n][0];
	473	pTex[ni + 1] = 1.0f - vmap->val[n][1];
	474	found = true;
	475	break;
	476	}
	477	}
	478	if (found) break;
	479	}
	480	}
	481	}
	482	pbuf->unlock();
	483	nbuf->unlock();
	484	tbuf->unlock();
	485	ibuf->unlock();
	486	}
	487
	488	void Lwo2MeshWriter::prepLwObject(void)
	489	{
	490	unsigned int l, p;
	491
	492	for (l = 0; l < object->layers.size(); l++)
	493	{
	494	lwLayer *layer = object->layers[l];
	495
	496	#ifdef _DEBUG
	497	cout << "Triangulating layer " << l << ", Polygons before: " << layer->polygons.size();
	498	#endif
	499	layer->triangulatePolygons();
	500	#ifdef _DEBUG
	501	cout << ", Polygons after: " << layer->polygons.size() << endl;
	502	#endif
	503
	504	// Mirror x-coord for Ogre;
	505	for (p = 0; p < layer->points.size(); p++)
	506	{
	507	layer->points[p]->x *= -1.0f;
	508	layer->points[p]->polygons.clear();
	509	}
	510	// Unscrew the bounding box
	511	float x = layer->bboxmin.x * -1.0f;
	512	layer->bboxmin.x = layer->bboxmax.x * -1.0f;
	513	layer->bboxmax.x = x;
	514
	515	for ( p = 0; p < layer->polygons.size(); p++ )
	516	{
	517	lwPolygon *polygon = layer->polygons[ p ];
	518	for (unsigned int j = 0; j < polygon->vertices.size(); j++ )
	519	polygon->vertices[ j ]->point->polygons.push_back(polygon);
	520	}
	521
	522	for (p = 0; p < layer->polygons.size(); p++)
	523	layer->polygons[p]->flip();
	524
	525	layer->calculatePolygonNormals();
	526	layer->calculateVertexNormals();
	527	}
	528	}
	529
	530	inline int Lwo2MeshWriter::getPointIndex(lwPoint *point, vpoints &points)
	531	{
	532	for (unsigned int i = 0; i < points.size(); ++i)
	533	if (points[i] == point) return i;
	534
	535	return -1;
	536	}
	537
	538	inline String Lwo2MeshWriter::makeLayerFileName(char* dest, unsigned int l, char *layername)
	539	{
	540	char
	541	drive[ _MAX_DRIVE ],
	542	dir[ _MAX_DIR ],
	543	node[ _MAX_FNAME ],
	544	ext[ _MAX_EXT ],
	545	buf[ _MAX_DRIVE + _MAX_DIR + _MAX_FNAME + _MAX_EXT + 5 ];
	546
	547	String LayerFileName;
	548	String TempName;
	549
	550	_splitpath( dest, drive, dir, node, ext );
	551
	552	TempName = String( node );
	553
	554	if (layername) {
	555	TempName += ".";
	556	TempName += layername;
	557	} else {
	558	TempName += ".layer" + StringConverter::toString(l);
	559	}
	560
	561	_makepath( buf, drive, dir, TempName.c_str(), ext );
	562	LayerFileName = String( buf );
	563
	564	return LayerFileName;
	565	}
	566
	567	inline String Lwo2MeshWriter::makeMaterialFileName(char* dest)
	568	{
	569	char
	570	drive[ _MAX_DRIVE ],
	571	dir[ _MAX_DIR ],
	572	node[ _MAX_FNAME ],
	573	ext[ _MAX_EXT ],
	574	buf[ _MAX_DRIVE + _MAX_DIR + _MAX_FNAME + _MAX_EXT + 5 ];
	575
	576	String MaterialFileName;
	577
	578	_splitpath( dest, drive, dir, node, ext );
	579	_makepath( buf, drive, dir, node, ".material" );
	580
	581	const char *test = MaterialFileName.c_str();
	582	MaterialFileName = String( buf );
	583
	584	return MaterialFileName;
	585	}
	586
	587	inline void Lwo2MeshWriter::getTextureVMaps(vtextures &textures, vvmaps &svmaps, vvmaps &dvmaps)
	588	{
	589	for (unsigned int i = 0; i < textures.size(); i++)
	590	{
	591	lwTexture *texture = textures[i];
	592
	593	if (texture->type == ID_IMAP && texture->param.imap)
	594	{
	595	char *mapname = texture->param.imap->vmap_name;
	596	if (mapname)
	597	for (unsigned int v = 0; v < svmaps.size(); v++)
	598	{
	599	lwVMap *vmap = svmaps[v];
	600	if (strcmp(mapname, vmap->name) == 0) dvmaps.push_back(vmap);
	601	}
	602	}
	603	}
	604	return;
	605	}
	606
	607	bool Lwo2MeshWriter::writeLwo2Mesh(lwObject nobject, char ndest)
	608	{
	609	object = nobject;
	610	dest = ndest;
	611
	612	if (!object) return false;
	613	if (!object->layers.size()) return false;
	614
	615	prepLwObject();
	616
	617	vpoints points;
	618	vpolygons polygons;
	619	vvmaps vmaps;
	620
	621	MeshSerializer meshserializer;
	622
	623	if (flags[ExportMaterials])
	624	{
	625	doExportMaterials();
	626	materialSerializer->exportQueued(makeMaterialFileName(dest));
	627	}
	628
	629	unsigned int ml = object->layers.size();
	630
	631	bool SeparateLayers = flags[UseSeparateLayers] && ml > 1;
	632
	633	if (!SeparateLayers) ogreMesh = Ogre::MeshManager::getSingleton().create(ndest, Ogre::ResourceGroupManager::DEFAULT_RESOURCE_GROUP_NAME);
	634
	635	Ogre::Vector3 boundingBoxMin(FLT_MAX, FLT_MAX, FLT_MAX);
	636	Ogre::Vector3 boundingBoxMax(FLT_MIN, FLT_MIN, FLT_MIN);
	637
	638
	639	for( unsigned int ol = 0; ol < ml; ++ol )
	640	{
	641	if (!object->layers[ol]->polygons.size())
	642	continue;
	643
	644	Ogre::Vector3 currentMin(object->layers[ol]->bboxmin.x,
	645	object->layers[ol]->bboxmin.y,
	646	object->layers[ol]->bboxmin.z);
	647	Ogre::Vector3 currentMax(object->layers[ol]->bboxmax.x,
	648	object->layers[ol]->bboxmax.y,
	649	object->layers[ol]->bboxmax.z);
	650
	651	if (SeparateLayers)
	652	{
	653	ogreMesh = Ogre::MeshManager::getSingleton().create(ndest, Ogre::ResourceGroupManager::DEFAULT_RESOURCE_GROUP_NAME);
	654	ogreMesh->_setBounds(Ogre::AxisAlignedBox(currentMin, currentMax));
	655	ogreMesh->_setBoundingSphereRadius(Ogre::Math::Sqrt(std::max(currentMin.squaredLength(), currentMax.squaredLength())));
	656	}
	657	else
	658	{
	659	boundingBoxMin.makeFloor(currentMin);
	660	boundingBoxMax.makeCeil(currentMax);
	661	}
	662
	663	for (unsigned int s = 0; s < object->surfaces.size(); s++)
	664	{
	665	lwSurface *surface = object->surfaces[s];
	666
	667	points.clear();
	668	polygons.clear();
	669	vmaps.clear();
	670
	671	unsigned int l = ol;
	672
	673	for( unsigned int il = 0; il < ml; ++il )
	674	{
	675	if (!SeparateLayers) l = il;
	676
	677	copyPoints(s, ID_FACE, object->layers[l]->points, points);
	678	copyPolygons(s, ID_FACE, object->layers[l]->polygons, polygons);
	679	getTextureVMaps(surface->color.textures, object->layers[l]->vmaps, vmaps);
	680
	681	if (SeparateLayers) break;
	682	}
	683
	684	if (!polygons.size()) continue;
	685
	686	SubMesh *ogreSubMesh = ogreMesh->createSubMesh();
	687	ogreSubMesh->useSharedVertices = flags[UseSharedVertexData] && points.size() < POINTLIMIT;
	688
	689	ogreSubMesh->indexData->indexCount = polygons.size() * 3;
	690	ogreSubMesh->indexData->indexBuffer = HardwareBufferManager::getSingleton().createIndexBuffer(HardwareIndexBuffer::IT_16BIT, ogreSubMesh->indexData->indexCount, HardwareBuffer::HBU_STATIC_WRITE_ONLY);
	691	ogreSubMesh->setMaterialName(surface->name);
	692
	693
	694	if (ogreSubMesh->useSharedVertices)
	695	{
	696	unsigned short vertexDataOffset = 0;
	697	if (ogreMesh->sharedVertexData) vertexDataOffset = ogreMesh->sharedVertexData->vertexCount;
	698	ogreMesh->sharedVertexData = setupVertexData(points.size(), ogreMesh->sharedVertexData);
	699	copyDataToVertexData(points, polygons, vmaps, ogreSubMesh->indexData, ogreMesh->sharedVertexData, vertexDataOffset);
	700	}
	701	else
	702	{
	703	ogreSubMesh->vertexData = setupVertexData(points.size());
	704	copyDataToVertexData(points, polygons, vmaps, ogreSubMesh->indexData, ogreSubMesh->vertexData);
	705	}
	706	}
	707
	708	if (!SeparateLayers)
	709	{
	710	ogreMesh->_setBounds(Ogre::AxisAlignedBox(boundingBoxMin, boundingBoxMax));
	711	ogreMesh->_setBoundingSphereRadius(Ogre::Math::Sqrt(std::max(boundingBoxMin.squaredLength(), boundingBoxMax.squaredLength())));
	712	}
	713
	714	String fname = SeparateLayers ? makeLayerFileName(dest, ol, object->layers[ol]->name) : dest;
	715
	716	Skeleton *skeleton = 0;
	717
	718	if (flags[ExportSkeleton])
	719	if (SeparateLayers)
	720	skeleton = doExportSkeleton(fname, ol);
	721	else
	722	if (!ol) skeleton = doExportSkeleton(fname, -1);
	723
	724	if (flags[GenerateLOD])
	725	{
	726	ProgressiveMesh::VertexReductionQuota quota;
	727
	728	if (flags[UseFixedMethod])
	729	quota = ProgressiveMesh::VRQ_CONSTANT;
	730	else
	731	quota = ProgressiveMesh::VRQ_PROPORTIONAL;
	732
	733	ogreMesh->generateLodLevels(distanceList, quota, reduction);
	734	}
	735
	736	if (flags[GenerateEdgeLists])
	737	{
	738	ogreMesh->buildEdgeList();
	739	}
	740
	741	if (flags[GenerateTangents])
	742	{
	743	ogreMesh->buildTangentVectors();
	744	}
	745
	746	try
	747	{
	748	meshserializer.exportMesh(ogreMesh.getPointer(), fname);
	749	}
	750	catch (...)
	751	{
	752	cout << "Could not export to file: " << fname << endl;
	753	}
	754
	755	ogreMesh->unload();
	756
	757	Ogre::MeshManager::getSingleton().remove(ogreMesh->getHandle());
	758	if (flags[ExportSkeleton] && skeleton) delete skeleton;
	759
	760	if (!SeparateLayers) break;
	761	}
	762
	763	return true;
	764	}

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source: OGRE/trunk/ogrenew/Tools/LightwaveConverter/src/lwo2mesh.cpp @ 692

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