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path: root/indra/llprimitive/llmodel.cpp
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/** 
 * @file llmodel.cpp
 * @brief Model handling implementation
 *
 * $LicenseInfo:firstyear=2001&license=viewergpl$
 * 
 * Copyright (c) 2001-2007, Linden Research, Inc.
 * 
 * Second Life Viewer Source Code
 * The source code in this file ("Source Code") is provided by Linden Lab
 * to you under the terms of the GNU General Public License, version 2.0
 * ("GPL"), unless you have obtained a separate licensing agreement
 * ("Other License"), formally executed by you and Linden Lab.  Terms of
 * the GPL can be found in doc/GPL-license.txt in this distribution, or
 * online at http://secondlife.com/developers/opensource/gplv2
 * 
 * There are special exceptions to the terms and conditions of the GPL as
 * it is applied to this Source Code. View the full text of the exception
 * in the file doc/FLOSS-exception.txt in this software distribution, or
 * online at http://secondlife.com/developers/opensource/flossexception
 * 
 * By copying, modifying or distributing this software, you acknowledge
 * that you have read and understood your obligations described above,
 * and agree to abide by those obligations.
 * 
 * ALL LINDEN LAB SOURCE CODE IS PROVIDED "AS IS." LINDEN LAB MAKES NO
 * WARRANTIES, EXPRESS, IMPLIED OR OTHERWISE, REGARDING ITS ACCURACY,
 * COMPLETENESS OR PERFORMANCE.
 * $/LicenseInfo$
 */

#include "linden_common.h"

#include "llmodel.h"
#include "llsdserialize.h"
#include "llvector4a.h"

#include "dae.h"
#include "dae/daeErrorHandler.h"
#include "dom/domConstants.h"
#include "dom/domMesh.h"
#include "zlib/zlib.h"


std::string model_names[] =
{
	"lowest_lod",
	"low_lod",
	"medium_lod",
	"high_lod",
	"physics_shape"
};

const int MODEL_NAMES_LENGTH = sizeof(model_names) / sizeof(std::string);

LLModel::LLModel(LLVolumeParams& params, F32 detail)
	: LLVolume(params, detail), mNormalizedScale(1,1,1), mNormalizedTranslation(0,0,0)
{

}

void load_face_from_dom_inputs(LLVolumeFace& face, const domInputLocalOffset_Array& inputs, U32 min_idx, U32 max_idx)
{
	for (U32 j = 0; j < inputs.getCount(); ++j)
	{
		if (strcmp(COMMON_PROFILE_INPUT_VERTEX, inputs[j]->getSemantic()) == 0)
		{ //found vertex array
			const domURIFragmentType& uri = inputs[j]->getSource();
			daeElementRef elem = uri.getElement();
			domVertices* vertices = (domVertices*) elem.cast();

			domInputLocal_Array& v_inp = vertices->getInput_array();
			if (inputs[j]->getOffset() != 0)
			{
				llerrs << "WTF?" << llendl;
			}

			for (U32 k = 0; k < v_inp.getCount(); ++k)
			{
				if (strcmp(COMMON_PROFILE_INPUT_POSITION, v_inp[k]->getSemantic()) == 0)
				{
					const domURIFragmentType& uri = v_inp[k]->getSource();
					
					daeElementRef elem = uri.getElement();
					domSource* src = (domSource*) elem.cast();

					if (src->getTechnique_common()->getAccessor()->getStride() != 3)
					{
						llerrs << "WTF?" << llendl;
					}

					domListOfFloats& v = src->getFloat_array()->getValue();

					LLVector4a min;
					min.set(v[min_idx], v[min_idx+1], v[min_idx+2]);
					LLVector4a max = min;

					for (U32 j = min_idx; j <= max_idx; ++j)
					{ //copy vertex array
						face.mPositions[j-min_idx].set(v[j*3+0], v[j*3+1], v[j*3+2]);
						update_min_max(min, max, face.mPositions[j-min_idx]);
					}

					face.mExtents[0] = min;
					face.mExtents[1] = max;
				}
			}
		}

		if (strcmp(COMMON_PROFILE_INPUT_NORMAL, inputs[j]->getSemantic()) == 0)
		{
			//found normal array for this triangle list
			const domURIFragmentType& uri = inputs[j]->getSource();
			daeElementRef elem = uri.getElement();
			domSource* src = (domSource*) elem.cast();
			domListOfFloats& n = src->getFloat_array()->getValue();
			
			for (U32 j = min_idx; j <= max_idx; ++j)
			{
				LLVector4a* norm = (LLVector4a*) face.mNormals + (j-min_idx);
				norm->set(n[j*3+0], n[j*3+1], n[j*3+2]);
				norm->normalize3();
			}
		}
		else if (strcmp(COMMON_PROFILE_INPUT_TEXCOORD, inputs[j]->getSemantic()) == 0)
		{ //found texCoords
			const domURIFragmentType& uri = inputs[j]->getSource();
			daeElementRef elem = uri.getElement();
			domSource* src = (domSource*) elem.cast();
			domListOfFloats& u = src->getFloat_array()->getValue();
			
			for (U32 j = min_idx; j <= max_idx; ++j)
			{
				face.mTexCoords[j-min_idx].setVec(u[j*2+0], u[j*2+1]);
			}
		}
	}
}

void get_dom_sources(const domInputLocalOffset_Array& inputs, S32& pos_offset, S32& tc_offset, S32& norm_offset, S32 &idx_stride,
					 domSource* &pos_source, domSource* &tc_source, domSource* &norm_source)
{
	idx_stride = 0;

	for (U32 j = 0; j < inputs.getCount(); ++j)
	{
		idx_stride = llmax((S32) inputs[j]->getOffset(), idx_stride);

		if (strcmp(COMMON_PROFILE_INPUT_VERTEX, inputs[j]->getSemantic()) == 0)
		{ //found vertex array
			const domURIFragmentType& uri = inputs[j]->getSource();
			daeElementRef elem = uri.getElement();
			domVertices* vertices = (domVertices*) elem.cast();

			domInputLocal_Array& v_inp = vertices->getInput_array();
			
			
			for (U32 k = 0; k < v_inp.getCount(); ++k)
			{
				if (strcmp(COMMON_PROFILE_INPUT_POSITION, v_inp[k]->getSemantic()) == 0)
				{
					pos_offset = inputs[j]->getOffset();

					const domURIFragmentType& uri = v_inp[k]->getSource();
					daeElementRef elem = uri.getElement();
					pos_source = (domSource*) elem.cast();
				}
				
				if (strcmp(COMMON_PROFILE_INPUT_NORMAL, v_inp[k]->getSemantic()) == 0)
				{
					norm_offset = inputs[j]->getOffset();

					const domURIFragmentType& uri = v_inp[k]->getSource();
					daeElementRef elem = uri.getElement();
					norm_source = (domSource*) elem.cast();
				}
			}
		}

		if (strcmp(COMMON_PROFILE_INPUT_NORMAL, inputs[j]->getSemantic()) == 0)
		{
			//found normal array for this triangle list
			norm_offset = inputs[j]->getOffset();
			const domURIFragmentType& uri = inputs[j]->getSource();
			daeElementRef elem = uri.getElement();
			norm_source = (domSource*) elem.cast();
		}
		else if (strcmp(COMMON_PROFILE_INPUT_TEXCOORD, inputs[j]->getSemantic()) == 0)
		{ //found texCoords
			tc_offset = inputs[j]->getOffset();
			const domURIFragmentType& uri = inputs[j]->getSource();
			daeElementRef elem = uri.getElement();
			tc_source = (domSource*) elem.cast();
		}
	}

	idx_stride += 1;
}

void load_face_from_dom_triangles(std::vector<LLVolumeFace>& face_list, std::vector<std::string>& materials, domTrianglesRef& tri)
{
	LLVolumeFace face;
	std::vector<LLVolumeFace::VertexData> verts;
	std::vector<U16> indices;
	
	const domInputLocalOffset_Array& inputs = tri->getInput_array();

	S32 pos_offset = -1;
	S32 tc_offset = -1;
	S32 norm_offset = -1;

	domSource* pos_source = NULL;
	domSource* tc_source = NULL;
	domSource* norm_source = NULL;

	S32 idx_stride = 0;

	get_dom_sources(inputs, pos_offset, tc_offset, norm_offset, idx_stride, pos_source, tc_source, norm_source);

	domPRef p = tri->getP();
	domListOfUInts& idx = p->getValue();
	
	domListOfFloats v;
	domListOfFloats tc;
	domListOfFloats n;

	if (pos_source)
	{
		v = pos_source->getFloat_array()->getValue();
		face.mExtents[0].set(v[0], v[1], v[2]);
		face.mExtents[1].set(v[0], v[1], v[2]);
	}

	if (tc_source)
	{
		tc = tc_source->getFloat_array()->getValue();
	}

	if (norm_source)
	{
		n = norm_source->getFloat_array()->getValue();
	}

	
	LLVolumeFace::VertexMapData::PointMap point_map;
	
	for (U32 i = 0; i < idx.getCount(); i += idx_stride)
	{
		LLVolumeFace::VertexData cv;
		if (pos_source)
		{
			cv.setPosition(LLVector4a(v[idx[i+pos_offset]*3+0],
								v[idx[i+pos_offset]*3+1],
								v[idx[i+pos_offset]*3+2]));
		}

		if (tc_source)
		{
			cv.mTexCoord.setVec(tc[idx[i+tc_offset]*2+0],
								tc[idx[i+tc_offset]*2+1]);
		}

		if (norm_source)
		{
			cv.setNormal(LLVector4a(n[idx[i+norm_offset]*3+0],
								n[idx[i+norm_offset]*3+1],
								n[idx[i+norm_offset]*3+2]));
		}

		
		BOOL found = FALSE;
			
		LLVolumeFace::VertexMapData::PointMap::iterator point_iter;
		point_iter = point_map.find(LLVector3(cv.getPosition().getF32ptr()));
		
		if (point_iter != point_map.end())
		{
			for (U32 j = 0; j < point_iter->second.size(); ++j)
			{
				if ((point_iter->second)[j] == cv)
				{
					found = TRUE;
					indices.push_back((point_iter->second)[j].mIndex);
					break;
				}
			}
		}

		if (!found)
		{
			update_min_max(face.mExtents[0], face.mExtents[1], cv.getPosition());
			verts.push_back(cv);
			if (verts.size() >= 65535)
			{
				llerrs << "Attempted to write model exceeding 16-bit index buffer limitation." << llendl;
			}
			U16 index = (U16) (verts.size()-1);
			indices.push_back(index);

			LLVolumeFace::VertexMapData d;
			d.setPosition(cv.getPosition());
			d.mTexCoord = cv.mTexCoord;
			d.setNormal(cv.getNormal());
			d.mIndex = index;
			if (point_iter != point_map.end())
			{
				point_iter->second.push_back(d);
			}
			else
			{
				point_map[LLVector3(d.getPosition().getF32ptr())].push_back(d);
			}
		}

		if (indices.size()%3 == 0 && verts.size() >= 65532)
		{
			face_list.push_back(face);
			face_list.rbegin()->fillFromLegacyData(verts, indices);
			face = LLVolumeFace();
			point_map.clear();
		}

	}

	if (!verts.empty())
	{
		std::string material;

		if (tri->getMaterial())
		{
			material = std::string(tri->getMaterial());
		}
		
		materials.push_back(material);
		face_list.push_back(face);

		face_list.rbegin()->fillFromLegacyData(verts, indices);
	}

}

void load_face_from_dom_polylist(std::vector<LLVolumeFace>& face_list, std::vector<std::string>& materials, domPolylistRef& poly)
{
	domPRef p = poly->getP();
	domListOfUInts& idx = p->getValue();

	if (idx.getCount() == 0)
	{
		return;
	}

	const domInputLocalOffset_Array& inputs = poly->getInput_array();


	domListOfUInts& vcount = poly->getVcount()->getValue();
	
	S32 pos_offset = -1;
	S32 tc_offset = -1;
	S32 norm_offset = -1;

	domSource* pos_source = NULL;
	domSource* tc_source = NULL;
	domSource* norm_source = NULL;

	S32 idx_stride = 0;

	get_dom_sources(inputs, pos_offset, tc_offset, norm_offset, idx_stride, pos_source, tc_source, norm_source);

	LLVolumeFace face;

	std::vector<U16> indices;
	std::vector<LLVolumeFace::VertexData> verts;

	domListOfFloats v;
	domListOfFloats tc;
	domListOfFloats n;

	if (pos_source)
	{
		v = pos_source->getFloat_array()->getValue();
		face.mExtents[0].set(v[0], v[1], v[2]);
		face.mExtents[1].set(v[0], v[1], v[2]);
	}

	if (tc_source)
	{
		tc = tc_source->getFloat_array()->getValue();
	}

	if (norm_source)
	{
		n = norm_source->getFloat_array()->getValue();
	}
	
	LLVolumeFace::VertexMapData::PointMap point_map;

	U32 cur_idx = 0;
	for (U32 i = 0; i < vcount.getCount(); ++i)
	{ //for each polygon
		U32 first_index = 0;
		U32 last_index = 0;
		for (U32 j = 0; j < vcount[i]; ++j)
		{ //for each vertex

			LLVolumeFace::VertexData cv;

			if (pos_source)
			{
				cv.getPosition().set(v[idx[cur_idx+pos_offset]*3+0],
									v[idx[cur_idx+pos_offset]*3+1],
									v[idx[cur_idx+pos_offset]*3+2]);
			}

			if (tc_source)
			{
				cv.mTexCoord.setVec(tc[idx[cur_idx+tc_offset]*2+0],
									tc[idx[cur_idx+tc_offset]*2+1]);
			}

			if (norm_source)
			{
				cv.getNormal().set(n[idx[cur_idx+norm_offset]*3+0],
									n[idx[cur_idx+norm_offset]*3+1],
									n[idx[cur_idx+norm_offset]*3+2]);
			}

			cur_idx += idx_stride;
			
			BOOL found = FALSE;
				
			LLVolumeFace::VertexMapData::PointMap::iterator point_iter;
			LLVector3 pos3(cv.getPosition().getF32ptr());
			point_iter = point_map.find(pos3);
			
			if (point_iter != point_map.end())
			{
				for (U32 k = 0; k < point_iter->second.size(); ++k)
				{
					if ((point_iter->second)[k] == cv)
					{
						found = TRUE;
						U32 index = (point_iter->second)[k].mIndex;
						if (j == 0)
						{
							first_index = index;
						}
						else if (j == 1)
						{
							last_index = index;
						}
						else
						{
							indices.push_back(first_index);
							indices.push_back(last_index);
							indices.push_back(index);
							last_index = index;
						}

						break;
					}
				}
			}

			if (!found)
			{
				update_min_max(face.mExtents[0], face.mExtents[1], cv.getPosition());
				verts.push_back(cv);
				if (verts.size() >= 65535)
				{
					llerrs << "Attempted to write model exceeding 16-bit index buffer limitation." << llendl;
				}
				U16 index = (U16) (verts.size()-1);
			
				if (j == 0)
				{
					first_index = index;
				}
				else if (j == 1)
				{
					last_index = index;
				}
				else
				{
					indices.push_back(first_index);
					indices.push_back(last_index);
					indices.push_back(index);
					last_index = index;
				}	

				LLVolumeFace::VertexMapData d;
				d.setPosition(cv.getPosition());
				d.mTexCoord = cv.mTexCoord;
				d.setNormal(cv.getNormal());
				d.mIndex = index;
				if (point_iter != point_map.end())
				{
					point_iter->second.push_back(d);
				}
				else
				{
					point_map[pos3].push_back(d);
				}
			}

			if (indices.size()%3 == 0 && indices.size() >= 65532)
			{
				face_list.push_back(face);
				face_list.rbegin()->fillFromLegacyData(verts, indices);
				face = LLVolumeFace();
				verts.clear();
				indices.clear();
				point_map.clear();
			}
		}
	}

	if (!verts.empty())
	{
		std::string material;

		if (poly->getMaterial())
		{
			material = std::string(poly->getMaterial());
		}
		
		materials.push_back(material);
		face_list.push_back(face);
		face_list.rbegin()->fillFromLegacyData(verts, indices);
	}
}

void load_face_from_dom_polygons(std::vector<LLVolumeFace>& face_list, std::vector<std::string>& materials, domPolygonsRef& poly)
{
	LLVolumeFace face;
	std::vector<U16> indices;
	std::vector<LLVolumeFace::VertexData> verts;

	const domInputLocalOffset_Array& inputs = poly->getInput_array();


	S32 v_offset = -1;
	S32 n_offset = -1;
	S32 t_offset = -1;

	domListOfFloats* v = NULL;
	domListOfFloats* n = NULL;
	domListOfFloats* t = NULL;
	
	U32 stride = 0;
	for (U32 i = 0; i < inputs.getCount(); ++i)
	{
		stride = llmax((U32) inputs[i]->getOffset()+1, stride);

		if (strcmp(COMMON_PROFILE_INPUT_VERTEX, inputs[i]->getSemantic()) == 0)
		{ //found vertex array
			v_offset = inputs[i]->getOffset();

			const domURIFragmentType& uri = inputs[i]->getSource();
			daeElementRef elem = uri.getElement();
			domVertices* vertices = (domVertices*) elem.cast();

			domInputLocal_Array& v_inp = vertices->getInput_array();

			for (U32 k = 0; k < v_inp.getCount(); ++k)
			{
				if (strcmp(COMMON_PROFILE_INPUT_POSITION, v_inp[k]->getSemantic()) == 0)
				{
					const domURIFragmentType& uri = v_inp[k]->getSource();
					daeElementRef elem = uri.getElement();
					domSource* src = (domSource*) elem.cast();
					v = &(src->getFloat_array()->getValue());
				}
			}
		}
		else if (strcmp(COMMON_PROFILE_INPUT_NORMAL, inputs[i]->getSemantic()) == 0)
		{
			n_offset = inputs[i]->getOffset();
			//found normal array for this triangle list
			const domURIFragmentType& uri = inputs[i]->getSource();
			daeElementRef elem = uri.getElement();
			domSource* src = (domSource*) elem.cast();
			n = &(src->getFloat_array()->getValue());
		}
		else if (strcmp(COMMON_PROFILE_INPUT_TEXCOORD, inputs[i]->getSemantic()) == 0 && inputs[i]->getSet() == 0)
		{ //found texCoords
			t_offset = inputs[i]->getOffset();
			const domURIFragmentType& uri = inputs[i]->getSource();
			daeElementRef elem = uri.getElement();
			domSource* src = (domSource*) elem.cast();
			t = &(src->getFloat_array()->getValue());
		}
	}

	domP_Array& ps = poly->getP_array();

	//make a triangle list in <verts>
	for (U32 i = 0; i < ps.getCount(); ++i)
	{ //for each polygon
		domListOfUInts& idx = ps[i]->getValue();
		for (U32 j = 0; j < idx.getCount()/stride; ++j)
		{ //for each vertex
			if (j > 2)
			{
				U32 size = verts.size();
				LLVolumeFace::VertexData v0 = verts[size-3];
				LLVolumeFace::VertexData v1 = verts[size-1];

				verts.push_back(v0);
				verts.push_back(v1);
			}

			LLVolumeFace::VertexData vert;


			if (v)
			{
				U32 v_idx = idx[j*stride+v_offset]*3;
				vert.getPosition().set(v->get(v_idx),
								v->get(v_idx+1),
								v->get(v_idx+2));
			}
			
			if (n)
			{
				U32 n_idx = idx[j*stride+n_offset]*3;
				vert.getNormal().set(n->get(n_idx),
								n->get(n_idx+1),
								n->get(n_idx+2));
			}

			if (t)
			{
				U32 t_idx = idx[j*stride+t_offset]*2;
				vert.mTexCoord.setVec(t->get(t_idx),
								t->get(t_idx+1));								
			}
		
			
			verts.push_back(vert);
		}
	}

	if (verts.empty())
	{
		return;
	}

	face.mExtents[0] = verts[0].getPosition();
	face.mExtents[1] = verts[0].getPosition();
	
	//create a map of unique vertices to indices
	std::map<LLVolumeFace::VertexData, U32> vert_idx;

	U32 cur_idx = 0;
	for (U32 i = 0; i < verts.size(); ++i)
	{
		std::map<LLVolumeFace::VertexData, U32>::iterator iter = vert_idx.find(verts[i]);
		if (iter == vert_idx.end())
		{
			vert_idx[verts[i]] = cur_idx++;
		}
	}

	if (cur_idx != vert_idx.size())
	{
		llerrs << "WTF?" << llendl;
	}

	//build vertex array from map
	std::vector<LLVolumeFace::VertexData> new_verts;
	new_verts.resize(vert_idx.size());

	for (std::map<LLVolumeFace::VertexData, U32>::iterator iter = vert_idx.begin(); iter != vert_idx.end(); ++iter)
	{
		new_verts[iter->second] = iter->first;
		update_min_max(face.mExtents[0], face.mExtents[1], iter->first.getPosition());
	}

	//build index array from map
	indices.resize(verts.size());

	for (U32 i = 0; i < verts.size(); ++i)
	{
		indices[i] = vert_idx[verts[i]];
	}

	// DEBUG just build an expanded triangle list
	/*for (U32 i = 0; i < verts.size(); ++i)
	{
		indices.push_back((U16) i);
		update_min_max(face.mExtents[0], face.mExtents[1], verts[i].getPosition());
	}*/

    if (!new_verts.empty())
	{
		std::string material;

		if (poly->getMaterial())
		{
			material = std::string(poly->getMaterial());
		}

		materials.push_back(material);
		face_list.push_back(face);
		face_list.rbegin()->fillFromLegacyData(new_verts, indices);
	}
}

void LLModel::addVolumeFacesFromDomMesh(domMesh* mesh)
{
	domTriangles_Array& tris = mesh->getTriangles_array();
		
	for (U32 i = 0; i < tris.getCount(); ++i)
	{
		domTrianglesRef& tri = tris.get(i);

		load_face_from_dom_triangles(mVolumeFaces, mMaterialList, tri);
	}

	domPolylist_Array& polys = mesh->getPolylist_array();
	for (U32 i = 0; i < polys.getCount(); ++i)
	{
		domPolylistRef& poly = polys.get(i);

		load_face_from_dom_polylist(mVolumeFaces, mMaterialList, poly);
	}

	domPolygons_Array& polygons = mesh->getPolygons_array();
	for (U32 i = 0; i < polygons.getCount(); ++i)
	{
		domPolygonsRef& poly = polygons.get(i);

		load_face_from_dom_polygons(mVolumeFaces, mMaterialList, poly);
	}

}

BOOL LLModel::createVolumeFacesFromDomMesh(domMesh* mesh)
{
	if (mesh)
	{
		mVolumeFaces.clear();
		mMaterialList.clear();

		addVolumeFacesFromDomMesh(mesh);

		if (getNumVolumeFaces() > 0)
		{
			optimizeVolumeFaces();
			normalizeVolumeFaces();

			if (getNumVolumeFaces() > 0)
			{
				return TRUE;
			}
		}
	}
	else
	{	
		llwarns << "no mesh found" << llendl;
	}
	
	return FALSE;
}


BOOL LLModel::createVolumeFacesFromFile(const std::string& file_name)
{
	DAE dae;
	domCOLLADA* dom = dae.open(file_name);
	if (dom)
	{
		daeDatabase* db = dae.getDatabase();

		daeInt count = db->getElementCount(NULL, COLLADA_TYPE_MESH);
		
		mVolumeFaces.clear();
		mMaterialList.clear();

		for (daeInt idx = 0; idx < count; ++idx)
		{
			domMesh* mesh = NULL;

			db->getElement((daeElement**) &mesh, idx, NULL, COLLADA_TYPE_MESH);
			
			if (mesh)
			{
				addVolumeFacesFromDomMesh(mesh);
			}
		}

		if (getNumVolumeFaces() > 0)
		{
			optimizeVolumeFaces();
			normalizeVolumeFaces();
			return TRUE;
		}
	}

	return FALSE;
}


void LLModel::optimizeVolumeFaces()
{
#if 0 //VECTORIZE ?
	for (std::vector<LLVolumeFace>::iterator iter = mVolumeFaces.begin(); iter != mVolumeFaces.end(); )
	{
		std::vector<LLVolumeFace>::iterator cur_iter = iter++;
		LLVolumeFace& face = *cur_iter;

		for (S32 i = 0; i < (S32) face.mNumIndices; i += 3)
		{ //remove zero area triangles
			U16 i0 = face.mIndices[i+0];
			U16 i1 = face.mIndices[i+1];
			U16 i2 = face.mIndices[i+2];

			if (i0 == i1 || 
				i1 == i2 || 
				i0 == i2)
			{ //duplicate index in triangle, remove triangle
				face.mIndices.erase(face.mIndices.begin()+i, face.mIndices.begin()+i+3);
				i -= 3;
			}
			else
			{ 
				LLVolumeFace::VertexData& v0 = face.mVertices[i0];
				LLVolumeFace::VertexData& v1 = face.mVertices[i1];
				LLVolumeFace::VertexData& v2 = face.mVertices[i2];

				if (v0.mPosition == v1.mPosition ||
					v1.mPosition == v2.mPosition ||
					v2.mPosition == v0.mPosition)
				{ //zero area triangle, delete
					face.mIndices.erase(face.mIndices.begin()+i, face.mIndices.begin()+i+3);
					i-=3;
				}
			}
		}

		//remove unreference vertices
		std::vector<bool> ref;
		ref.resize(face.mNumVertices);

		for (U32 i = 0; i < ref.size(); ++i)
		{
			ref[i] = false;
		}

		for (U32 i = 0; i < face.mNumIndices; ++i)
		{ 
			ref[face.mIndices[i]] = true;
		}

		U32 unref_count = 0;
		for (U32 i = 0; i < ref.size(); ++i)
		{
			if (!ref[i])
			{
				//vertex is unreferenced
				face.mVertices.erase(face.mVertices.begin()+(i-unref_count));
				U16 idx = (U16) (i-unref_count);

				for (U32 j = 0; j < face.mNumIndices; ++j)
				{ //decrement every index array value greater than idx
					if (face.mIndices[j] > idx)
					{
						--face.mIndices[j];
					}
				}
				++unref_count;
			}
		}

		if (face.mVertices.empty() || face.mIndices.empty())
		{ //face is empty, remove it
			iter = mVolumeFaces.erase(cur_iter);
		}
	}
#endif
}

void LLModel::normalizeVolumeFaces()
{

	// ensure we don't have too many faces
	if (mVolumeFaces.size() > LL_SCULPT_MESH_MAX_FACES)
		mVolumeFaces.resize(LL_SCULPT_MESH_MAX_FACES);
	
	if (!mVolumeFaces.empty())
	{
		LLVector4a min, max;
		
		if (mVolumeFaces[0].mNumVertices <= 0)
		{
			llerrs << "WTF?" << llendl;
		}

		min = mVolumeFaces[0].mExtents[0];
		max = mVolumeFaces[0].mExtents[1];

		for (U32 i = 1; i < mVolumeFaces.size(); ++i)
		{
			LLVolumeFace& face = mVolumeFaces[i];

			if (face.mNumVertices <= 0)
			{
				llerrs << "WTF?" << llendl;
			}

			update_min_max(min, max, face.mExtents[0]);
			update_min_max(min, max, face.mExtents[1]);
		}

		LLVector4a trans;
		trans.setAdd(min, max);
		trans.mul(-0.5f);
		LLVector4a size;
		size.setSub(max, min);

		F32 scale = 1.f/llmax(llmax(size[0], size[1]), size[2]);

		for (U32 i = 0; i < mVolumeFaces.size(); ++i)
		{
			LLVolumeFace& face = mVolumeFaces[i];
				
			face.mExtents[0].add(trans);
			face.mExtents[0].mul(scale);

			face.mExtents[1].add(trans);
			face.mExtents[1].mul(scale);

			LLVector4a* pos = (LLVector4a*) face.mPositions;
			for (U32 j = 0; j < face.mNumVertices; ++j)
			{
				pos[j].add(trans);
				pos[j].mul(scale);
			}
		}

		mNormalizedScale = LLVector3(1,1,1) / scale;
		mNormalizedTranslation.set(trans.getF32ptr());
		mNormalizedTranslation *= -1.f; 
	}
}

void LLModel::getNormalizedScaleTranslation(LLVector3& scale_out, LLVector3& translation_out)
{
	scale_out = mNormalizedScale;
	translation_out = mNormalizedTranslation;
}

void LLModel::setNumVolumeFaces(S32 count)
{
	mVolumeFaces.resize(count);
}

void LLModel::setVolumeFaceData(S32 f, 
								LLStrider<LLVector3> pos, 
								LLStrider<LLVector3> norm, 
								LLStrider<LLVector2> tc, 
								LLStrider<U16> ind, 
								U32 num_verts, 
								U32 num_indices)
{
	LLVolumeFace& face = mVolumeFaces[f];

	face.resizeVertices(num_verts);
	face.resizeIndices(num_indices);

	LLVector4a::memcpyNonAliased16((F32*) face.mPositions, (F32*) pos.get(), num_verts*4*sizeof(F32));
	LLVector4a::memcpyNonAliased16((F32*) face.mNormals, (F32*) norm.get(), num_verts*4*sizeof(F32));
	LLVector4a::memcpyNonAliased16((F32*) face.mTexCoords, (F32*) tc.get(), num_verts*2*sizeof(F32));
	U32 size = (num_indices*2+0xF)&~0xF;
	LLVector4a::memcpyNonAliased16((F32*) face.mIndices, (F32*) ind.get(), size);
}

void LLModel::appendFaces(LLModel *model, LLMatrix4 &transform, LLMatrix4& norm_mat)
{
	if (mVolumeFaces.empty())
	{
		setNumVolumeFaces(1);
	}

	LLVolumeFace& face = mVolumeFaces[mVolumeFaces.size()-1];


	for (S32 i = 0; i < model->getNumFaces(); ++i)
	{
		face.appendFace(model->getVolumeFace(i), transform, norm_mat);
	}

}

void LLModel::appendFace(const LLVolumeFace& src_face, std::string src_material, LLMatrix4& mat, LLMatrix4& norm_mat)
{
	S32 rindex = getNumVolumeFaces()-1; 
	if (rindex == -1 || 
		mVolumeFaces[rindex].mNumVertices + src_face.mNumVertices >= 65536)
	{ //empty or overflow will occur, append new face
		LLVolumeFace cur_face;
		cur_face.appendFace(src_face, mat, norm_mat);
		addFace(cur_face);
		mMaterialList.push_back(src_material);
	}
	else
	{ //append to existing end face
		mVolumeFaces.rbegin()->appendFace(src_face, mat, norm_mat);
	}
}

void LLModel::addFace(const LLVolumeFace& face)
{
	if (face.mNumVertices == 0)
	{
		llerrs << "Cannot add empty face." << llendl;
	}

	mVolumeFaces.push_back(face);

	if (mVolumeFaces.size() > MAX_MODEL_FACES)
	{
		llerrs << "Model prims cannot have more than " << MAX_MODEL_FACES << " faces!" << llendl;
	}
}


void LLModel::smoothNormals(F32 angle_cutoff)
{
	//smooth normals for all faces by:
	// 1 - Create faceted copy of face with no texture coordinates
	// 2 - Weld vertices in faceted copy that are shared between triangles with less than "angle_cutoff" difference between normals
	// 3 - Generate smoothed set of normals based on welding results
	// 4 - Create faceted copy of face with texture coordinates
	// 5 - Copy smoothed normals to faceted copy, using closest normal to triangle normal where more than one normal exists for a given position
	// 6 - Remove redundant vertices from new faceted (now smooth) copy

	angle_cutoff = cosf(angle_cutoff);
	for (U32 j = 0; j < mVolumeFaces.size(); ++j)
	{
		LLVolumeFace& vol_face = mVolumeFaces[j];

		if (vol_face.mNumIndices > 65535)
		{
			llwarns << "Too many vertices for normal generation to work." << llendl;
			continue;
		}

		//create faceted copy of current face with no texture coordinates (step 1)
		LLVolumeFace faceted;

		LLVector4a* src_pos = (LLVector4a*) vol_face.mPositions;
		//LLVector4a* src_norm = (LLVector4a*) vol_face.mNormals;


		faceted.resizeVertices(vol_face.mNumIndices);
		faceted.resizeIndices(vol_face.mNumIndices);
		//bake out triangles into temporary face, clearing texture coordinates
		for (U32 i = 0; i < vol_face.mNumIndices; ++i)
		{
			U32 idx = vol_face.mIndices[i];
		
			faceted.mPositions[i] = src_pos[idx];
			faceted.mTexCoords[i] = LLVector2(0,0);
			faceted.mIndices[i] = i;
		}

		//generate normals for temporary face
		for (U32 i = 0; i < faceted.mNumIndices; i += 3)
		{ //for each triangle
			U16 i0 = faceted.mIndices[i+0];
			U16 i1 = faceted.mIndices[i+1];
			U16 i2 = faceted.mIndices[i+2];
			
			LLVector4a& p0 = faceted.mPositions[i0];
			LLVector4a& p1 = faceted.mPositions[i1];
			LLVector4a& p2 = faceted.mPositions[i2];

			LLVector4a& n0 = faceted.mNormals[i0];
			LLVector4a& n1 = faceted.mNormals[i1];
			LLVector4a& n2 = faceted.mNormals[i2];

			LLVector4a lhs, rhs;
			lhs.setSub(p1, p0);
			rhs.setSub(p2, p0);

			n0.setCross3(lhs, rhs);
			n0.normalize3();
			n1 = n0;
			n2 = n0;
		}

		//weld vertices in temporary face, respecting angle_cutoff (step 2)
		faceted.optimize(angle_cutoff);

		//generate normals for welded face based on new topology (step 3)

		for (U32 i = 0; i < faceted.mNumVertices; i++)
		{
			faceted.mNormals[i].clear();
		}

		for (U32 i = 0; i < faceted.mNumIndices; i += 3)
		{ //for each triangle
			U16 i0 = faceted.mIndices[i+0];
			U16 i1 = faceted.mIndices[i+1];
			U16 i2 = faceted.mIndices[i+2];
			
			LLVector4a& p0 = faceted.mPositions[i0];
			LLVector4a& p1 = faceted.mPositions[i1];
			LLVector4a& p2 = faceted.mPositions[i2];

			LLVector4a& n0 = faceted.mNormals[i0];
			LLVector4a& n1 = faceted.mNormals[i1];
			LLVector4a& n2 = faceted.mNormals[i2];

			LLVector4a lhs, rhs;
			lhs.setSub(p1, p0);
			rhs.setSub(p2, p0);

			LLVector4a n;
			n.setCross3(lhs, rhs);

			n0.add(n);
			n1.add(n);
			n2.add(n);
		}

		//normalize normals and build point map
		LLVolumeFace::VertexMapData::PointMap point_map;

		for (U32 i = 0; i < faceted.mNumVertices; ++i)
		{
			faceted.mNormals[i].normalize3();

			LLVolumeFace::VertexMapData v;
			v.setPosition(faceted.mPositions[i]);
			v.setNormal(faceted.mNormals[i]);

			point_map[LLVector3(v.getPosition().getF32ptr())].push_back(v);
		}

		//create faceted copy of current face with texture coordinates (step 4)
		LLVolumeFace new_face;

		//bake out triangles into new face
		new_face.resizeIndices(vol_face.mNumIndices);
		new_face.resizeVertices(vol_face.mNumIndices);
		
		for (U32 i = 0; i < vol_face.mNumIndices; ++i)
		{
			U32 idx = vol_face.mIndices[i];
			LLVolumeFace::VertexData v;
			new_face.mPositions[i] = vol_face.mPositions[idx];
			new_face.mNormals[i].clear();
			new_face.mTexCoords[i] = vol_face.mTexCoords[idx];
			new_face.mIndices[i] = i;
		}

		//generate normals for new face
		for (U32 i = 0; i < new_face.mNumIndices; i += 3)
		{ //for each triangle
			U16 i0 = new_face.mIndices[i+0];
			U16 i1 = new_face.mIndices[i+1];
			U16 i2 = new_face.mIndices[i+2];
			
			LLVector4a& p0 = new_face.mPositions[i0];
			LLVector4a& p1 = new_face.mPositions[i1];
			LLVector4a& p2 = new_face.mPositions[i2];

			LLVector4a& n0 = new_face.mNormals[i0];
			LLVector4a& n1 = new_face.mNormals[i1];
			LLVector4a& n2 = new_face.mNormals[i2];

			LLVector4a lhs, rhs;
			lhs.setSub(p1, p0);
			rhs.setSub(p2, p0);

			n0.setCross3(lhs, rhs);
			n0.normalize3();
			n1 = n0;
			n2 = n0;
		}

		//swap out normals in new_face with best match from point map (step 5)
		for (U32 i = 0; i < new_face.mNumVertices; ++i)
		{
			//LLVolumeFace::VertexData v = new_face.mVertices[i];

			LLVector4a ref_norm = new_face.mNormals[i];

			LLVolumeFace::VertexMapData::PointMap::iterator iter = point_map.find(LLVector3(new_face.mPositions[i].getF32ptr()));

			if (iter != point_map.end())
			{
				F32 best = -2.f;
				for (U32 k = 0; k < iter->second.size(); ++k)
				{
					LLVector4a& n = iter->second[k].getNormal();

					if (!iter->second[k].getPosition().equals3(new_face.mPositions[i]))
					{
						llerrs << "WTF?" << llendl;
					}

					F32 cur = n.dot3(ref_norm).getF32();

					if (cur > best)
					{
						best = cur;
						new_face.mNormals[i] = n;
					}
				}
			}
		}
		
		//remove redundant vertices from new face (step 6)
		new_face.optimize();

		mVolumeFaces[j] = new_face;
	}
}

//static
std::string LLModel::getElementLabel(daeElement *element)
{ // try to get a decent label for this element
	// if we have a name attribute, use it
	std::string name = element->getAttribute("name");
	if (name.length())
	{
		return name;
	}

	// if we have an ID attribute, use it
	if (element->getID())
	{
		return std::string(element->getID());
	}

	// if we have a parent, use it
	daeElement* parent = element->getParent();
	if (parent)
	{
		// if parent has a name, use it
		std::string name = parent->getAttribute("name");
		if (name.length())
		{
			return name;
		}

		// if parent has an ID, use it
		if (parent->getID())
		{
			return std::string(parent->getID());
		}
	}

	// try to use our type
	daeString element_name = element->getElementName();
	if (element_name)
	{
		return std::string(element_name);
	}

	// if all else fails, use "object"
	return std::string("object");
}

//static 
LLModel* LLModel::loadModelFromDae(std::string filename)
{
	LLVolumeParams volume_params;
	volume_params.setType(LL_PCODE_PROFILE_SQUARE, LL_PCODE_PATH_LINE);
	LLModel* ret = new LLModel(volume_params, 0.f); 
	ret->createVolumeFacesFromFile(filename);
	return ret;
}

//static 
LLModel* LLModel::loadModelFromDomMesh(domMesh *mesh)
{
	LLVolumeParams volume_params;
	volume_params.setType(LL_PCODE_PROFILE_SQUARE, LL_PCODE_PATH_LINE);
	LLModel* ret = new LLModel(volume_params, 0.f); 
	ret->createVolumeFacesFromDomMesh(mesh);
	ret->mLabel = getElementLabel(mesh);
	return ret;
}

//static 
LLSD LLModel::writeModel(std::string filename, LLModel* physics, LLModel* high, LLModel* medium, LLModel* low, LLModel* impostor, LLModel::physics_shape& decomp, bool upload_skin, bool upload_joints, bool nowrite)
{
	std::ofstream os(filename.c_str(), std::ofstream::out | std::ofstream::binary);

	LLSD header = writeModel(os, physics, high, medium, low, impostor, decomp, upload_skin, upload_joints, nowrite);

	os.close();

	return header;
}

//static
LLSD LLModel::writeModel(std::ostream& ostr, LLModel* physics, LLModel* high, LLModel* medium, LLModel* low, LLModel* impostor, LLModel::physics_shape& decomp, bool upload_skin, bool upload_joints, bool nowrite)
{
	LLSD mdl;

	LLModel* model[] = 
	{
		impostor,
		low,
		medium,
		high,
		physics
	};

	bool skinning = upload_skin && high && !high->mSkinWeights.empty();

	if (skinning)
	{ //write skinning block
		if (high->mJointList.size() != high->mInvBindMatrix.size())
		{
			llerrs << "WTF?" << llendl;
		}

		for (U32 i = 0; i < high->mJointList.size(); ++i)
		{
			mdl["skin"]["joint_names"][i] = high->mJointList[i];

			for (U32 j = 0; j < 4; j++)
			{
				for (U32 k = 0; k < 4; k++)
				{
					mdl["skin"]["inverse_bind_matrix"][i][j*4+k] = high->mInvBindMatrix[i].mMatrix[j][k]; 
				}
			}
		}

		for (U32 i = 0; i < 4; i++)
		{
			for (U32 j = 0; j < 4; j++)
			{
				mdl["skin"]["bind_shape_matrix"][i*4+j] = high->mBindShapeMatrix.mMatrix[i][j];
			}
		}
		
		if ( upload_joints && high->mAlternateBindMatrix.size() > 0 )
		{
			for (U32 i = 0; i < high->mJointList.size(); ++i)
			{
				for (U32 j = 0; j < 4; j++)
				{
					for (U32 k = 0; k < 4; k++)
					{
						mdl["skin"]["alt_inverse_bind_matrix"][i][j*4+k] = high->mAlternateBindMatrix[i].mMatrix[j][k]; 
					}
				}
			}
		}
		
	}

	if (!decomp.empty())
	{
		//write decomposition block
		// ["decomposition"]["HullList"] -- list of 8 bit integers, each entry represents a hull with specified number of points
		// ["decomposition"]["PositionDomain"]["Min"/"Max"]
		// ["decomposition"]["Position"] -- list of 16-bit integers to be decoded to given domain, encoded 3D points
	
		//get minimum and maximum
		LLVector3 min = decomp[0][0];
		LLVector3 max = min;

		LLSD::Binary hulls(decomp.size());

		U32 total = 0;

		for (U32 i = 0; i < decomp.size(); ++i)
		{
			U32 size = decomp[i].size();
			total += size;
			hulls[i] = (U8) size;

			for (U32 j = 0; j < decomp[i].size(); ++j)
			{
				update_min_max(min, max, decomp[i][j]);
			}
		}

		mdl["decomposition"]["Min"] = min.getValue();
		mdl["decomposition"]["Max"] = max.getValue();
		mdl["decomposition"]["HullList"] = hulls;
		
		LLSD::Binary p(total*3*2);

		LLVector3 range = max-min;

		U32 vert_idx = 0;
		for (U32 i = 0; i < decomp.size(); ++i)
		{
			for (U32 j = 0; j < decomp[i].size(); ++j)
			{
				for (U32 k = 0; k < 3; k++)
				{
					//convert to 16-bit normalized across domain
					U16 val = (U16) (((decomp[i][j].mV[k]-min.mV[k])/range.mV[k])*65535);

					U8* buff = (U8*) &val;
					//write to binary buffer
					p[vert_idx++] = buff[0];
					p[vert_idx++] = buff[1];

					if (vert_idx > p.size())
					{
						llerrs << "WTF?" << llendl;
					}
				}
			}
		}

		mdl["decomposition"]["Position"] = p;
	}

	for (U32 idx = 0; idx < MODEL_NAMES_LENGTH; ++idx)
	{
		if (model[idx] && model[idx]->getNumVolumeFaces() > 0)
		{
			LLVector3 min_pos = LLVector3(model[idx]->getVolumeFace(0).mPositions[0].getF32ptr());
			LLVector3 max_pos = min_pos;

			//find position domain
			for (S32 i = 0; i < model[idx]->getNumVolumeFaces(); ++i)
			{ //for each face
				const LLVolumeFace& face = model[idx]->getVolumeFace(i);
				for (U32 j = 0; j < face.mNumVertices; ++j)
				{
					update_min_max(min_pos, max_pos, face.mPositions[j].getF32ptr());
				}
			}

			LLVector3 pos_range = max_pos - min_pos;

			for (S32 i = 0; i < model[idx]->getNumVolumeFaces(); ++i)
			{ //for each face
				const LLVolumeFace& face = model[idx]->getVolumeFace(i);
				if (!face.mNumVertices)
				{ //don't export an empty face
					continue;
				}
				LLSD::Binary verts(face.mNumVertices*3*2);
				LLSD::Binary tc(face.mNumVertices*2*2);
				LLSD::Binary normals(face.mNumVertices*3*2);
				LLSD::Binary indices(face.mNumIndices*2);

				U32 vert_idx = 0;
				U32 norm_idx = 0;
				U32 tc_idx = 0;
			
				LLVector2* ftc = (LLVector2*) face.mTexCoords;
				LLVector2 min_tc = ftc[0];
				LLVector2 max_tc = min_tc;
	
				//get texture coordinate domain
				for (U32 j = 0; j < face.mNumVertices; ++j)
				{
					update_min_max(min_tc, max_tc, ftc[j]);
				}

				LLVector2 tc_range = max_tc - min_tc;

				for (U32 j = 0; j < face.mNumVertices; ++j)
				{ //for each vert
		
					F32* pos = face.mPositions[j].getF32ptr();
					F32* norm = face.mNormals[j].getF32ptr();

					//position + normal
					for (U32 k = 0; k < 3; ++k)
					{ //for each component

						//convert to 16-bit normalized across domain
						U16 val = (U16) (((pos[k]-min_pos.mV[k])/pos_range.mV[k])*65535);

						U8* buff = (U8*) &val;
						//write to binary buffer
						verts[vert_idx++] = buff[0];
						verts[vert_idx++] = buff[1];
						
						//convert to 16-bit normalized
						val = (U16) ((norm[k]+1.f)*0.5f*65535);

						//write to binary buffer
						normals[norm_idx++] = buff[0];
						normals[norm_idx++] = buff[1];
					}

					F32* src_tc = (F32*) face.mTexCoords[j].mV;

					//texcoord
					for (U32 k = 0; k < 2; ++k)
					{ //for each component
						//convert to 16-bit normalized
						U16 val = (U16) ((src_tc[k]-min_tc.mV[k])/tc_range.mV[k]*65535);

						U8* buff = (U8*) &val;
						//write to binary buffer
						tc[tc_idx++] = buff[0];
						tc[tc_idx++] = buff[1];
					}
					
				}

				U32 idx_idx = 0;
				for (U32 j = 0; j < face.mNumIndices; ++j)
				{
					U8* buff = (U8*) &(face.mIndices[j]);
					indices[idx_idx++] = buff[0];
					indices[idx_idx++] = buff[1];
				}

				//write out face data
				mdl[model_names[idx]][i]["PositionDomain"]["Min"] = min_pos.getValue();
				mdl[model_names[idx]][i]["PositionDomain"]["Max"] = max_pos.getValue();

				mdl[model_names[idx]][i]["TexCoord0Domain"]["Min"] = min_tc.getValue();
				mdl[model_names[idx]][i]["TexCoord0Domain"]["Max"] = max_tc.getValue();

				mdl[model_names[idx]][i]["Position"] = verts;
				mdl[model_names[idx]][i]["Normal"] = normals;
				mdl[model_names[idx]][i]["TexCoord0"] = tc;
				mdl[model_names[idx]][i]["TriangleList"] = indices;

				if (skinning)
				{
					//write out skin weights

					//each influence list entry is up to 4 24-bit values
					// first 8 bits is bone index
					// last 16 bits is bone influence weight
					// a bone index of 0xFF signifies no more influences for this vertex

					std::stringstream ostr;

					for (U32 j = 0; j < face.mNumVertices; ++j)
					{
						LLVector3 pos(face.mPositions[j].getF32ptr());

						weight_list& weights = high->getJointInfluences(pos);

						if (weights.size() > 4)
						{
							llerrs << "WTF?" << llendl;
						}

						S32 count = 0;
						for (weight_list::iterator iter = weights.begin(); iter != weights.end(); ++iter)
						{
							if (iter->mJointIdx < 255 && iter->mJointIdx >= 0)
							{
								U8 idx = (U8) iter->mJointIdx;
								ostr.write((const char*) &idx, 1);

								U16 influence = (U16) (iter->mWeight*65535);
								ostr.write((const char*) &influence, 2);

								++count;
							}		
						}
						U8 end_list = 0xFF;
						if (count < 4)
						{
							ostr.write((const char*) &end_list, 1);
						}
					}

					//copy ostr to binary buffer
					std::string data = ostr.str();
					const U8* buff = (U8*) data.data();
					U32 bytes = data.size();

					LLSD::Binary w(bytes);
					for (U32 j = 0; j < bytes; ++j)
					{
						w[j] = buff[j];
					}

					mdl[model_names[idx]][i]["Weights"] = w;
				}
			}
		}
	}
	
	return writeModelToStream(ostr, mdl, nowrite);
}

LLSD LLModel::writeModelToStream(std::ostream& ostr, LLSD& mdl, BOOL nowrite)
{
	U32 bytes = 0;
	
	std::string::size_type cur_offset = 0;

	LLSD header;

	std::string skin;

	if (mdl.has("skin"))
	{ //write out skin block
		skin = zip_llsd(mdl["skin"]);

		U32 size = skin.size();
		if (size > 0)
		{
			header["skin"]["offset"] = (LLSD::Integer) cur_offset;
			header["skin"]["size"] = (LLSD::Integer) size;
			cur_offset += size;
			bytes += size;
		}
		else
		{
			llerrs << "WTF?" << llendl;
		}
	}

	std::string decomposition;

	if (mdl.has("decomposition"))
	{ //write out convex decomposition
		decomposition = zip_llsd(mdl["decomposition"]);

		U32 size = decomposition.size();
		if (size > 0)
		{
			header["decomposition"]["offset"] = (LLSD::Integer) cur_offset;
			header["decomposition"]["size"] = (LLSD::Integer) size;
			cur_offset += size;
			bytes += size;
		}
	}

	std::string out[MODEL_NAMES_LENGTH];

	for (S32 i = 0; i < MODEL_NAMES_LENGTH; i++)
	{
		if (mdl.has(model_names[i]))
		{
			out[i] = zip_llsd(mdl[model_names[i]]);

			U32 size = out[i].size();

			header[model_names[i]]["offset"] = (LLSD::Integer) cur_offset;
			header[model_names[i]]["size"] = (LLSD::Integer) size;
			cur_offset += size;
			bytes += size;
		}
		else
		{
			header[model_names[i]]["offset"] = -1;
			header[model_names[i]]["size"] = 0;
		}
	}

	if (!nowrite)
	{
		LLSDSerialize::toBinary(header, ostr);

		if (!skin.empty())
		{ //write skin block
			ostr.write((const char*) skin.data(), header["skin"]["size"].asInteger());
		}

		if (!decomposition.empty())
		{ //write decomposition block
			ostr.write((const char*) decomposition.data(), header["decomposition"]["size"].asInteger());
		}

		for (S32 i = 0; i < MODEL_NAMES_LENGTH; i++)
		{
			if (!out[i].empty())
			{
				ostr.write((const char*) out[i].data(), header[model_names[i]]["size"].asInteger());
			}
		}
	}
	
	return header;
}

//static 
LLModel* LLModel::loadModelFromAsset(std::string filename, S32 lod)
{
	return NULL;
}

LLModel::weight_list& LLModel::getJointInfluences(const LLVector3& pos)
{
	weight_map::iterator iter = mSkinWeights.find(pos);
	
	if (iter != mSkinWeights.end())
	{
		if ((iter->first - pos).magVec() > 0.1f)
		{
			llerrs << "WTF?" << llendl;
		}

		return iter->second;
	}
	else
	{  //no exact match found, get closest point
		iter = mSkinWeights.begin();
		weight_map::iterator best = iter;

		F32 min_dist = (iter->first - pos).magVecSquared();

		while (++iter != mSkinWeights.end())
		{
			F32 dist = (iter->first - pos).magVecSquared();
			if (dist < min_dist)
			{
				best = iter;
				min_dist = dist;
			}
		}

		return best->second;
	}					
}