diff options
Diffstat (limited to 'indra/llmath/llvolume.cpp')
| -rw-r--r-- | indra/llmath/llvolume.cpp | 694 |
1 files changed, 650 insertions, 44 deletions
diff --git a/indra/llmath/llvolume.cpp b/indra/llmath/llvolume.cpp index 34348230b6..5ffc61ce9c 100644 --- a/indra/llmath/llvolume.cpp +++ b/indra/llmath/llvolume.cpp @@ -46,6 +46,7 @@ #include "lldarray.h" #include "llvolume.h" #include "llstl.h" +#include "llsdserialize.h" #define DEBUG_SILHOUETTE_BINORMALS 0 #define DEBUG_SILHOUETTE_NORMALS 0 // TomY: Use this to display normals using the silhouette @@ -86,6 +87,8 @@ const F32 SKEW_MAX = 0.95f; const F32 SCULPT_MIN_AREA = 0.002f; const S32 SCULPT_MIN_AREA_DETAIL = 1; +#define GEN_TRI_STRIP 0 + BOOL check_same_clock_dir( const LLVector3& pt1, const LLVector3& pt2, const LLVector3& pt3, const LLVector3& norm) { LLVector3 test = (pt2-pt1)%(pt3-pt2); @@ -1673,7 +1676,9 @@ LLVolume::LLVolume(const LLVolumeParams ¶ms, const F32 detail, const BOOL ge mFaceMask = 0x0; mDetail = detail; mSculptLevel = -2; - + mIsTetrahedron = FALSE; + mLODScaleBias.setVec(1,1,1); + // set defaults if (mParams.getPathParams().getCurveType() == LL_PCODE_PATH_FLEXIBLE) { @@ -1688,7 +1693,8 @@ LLVolume::LLVolume(const LLVolumeParams ¶ms, const F32 detail, const BOOL ge mGenerateSingleFace = generate_single_face; generate(); - if (mParams.getSculptID().isNull()) + + if (mParams.getSculptID().isNull() && mParams.getSculptType() == LL_SCULPT_TYPE_NONE) { createVolumeFaces(); } @@ -1839,6 +1845,444 @@ BOOL LLVolume::generate() return FALSE; } +bool LLVolumeFace::VertexData::operator<(const LLVolumeFace::VertexData& rhs)const +{ + const U8* l = (const U8*) this; + const U8* r = (const U8*) &rhs; + + for (U32 i = 0; i < sizeof(VertexData); ++i) + { + if (l[i] != r[i]) + { + return r[i] < l[i]; + } + } + + return false; +} + +bool LLVolumeFace::VertexData::operator==(const LLVolumeFace::VertexData& rhs)const +{ + const U8* l = (const U8*) this; + const U8* r = (const U8*) &rhs; + + for (U32 i = 0; i < sizeof(VertexData); ++i) + { + if (l[i] != r[i]) + { + return false; + } + } + + return true; +} + +bool LLVolumeFace::VertexData::compareNormal(const LLVolumeFace::VertexData& rhs, F32 angle_cutoff) const +{ + bool retval = false; + if (rhs.mPosition == mPosition && rhs.mTexCoord == mTexCoord) + { + if (angle_cutoff > 1.f) + { + retval = (mNormal == rhs.mNormal); + } + else + { + F32 cur_angle = rhs.mNormal*mNormal; + retval = cur_angle > angle_cutoff; + } + } + + return retval; +} + +BOOL LLVolume::createVolumeFacesFromFile(const std::string& file_name) +{ + std::ifstream is; + + is.open(file_name.c_str(), std::ifstream::in | std::ifstream::binary); + + BOOL success = createVolumeFacesFromStream(is); + + is.close(); + + return success; +} + +BOOL LLVolume::createVolumeFacesFromStream(std::istream& is) +{ + mSculptLevel = -1; // default is an error occured + + LLSD header; + { + if (!LLSDSerialize::deserialize(header, is, 1024*1024*1024)) + { + llwarns << "Mesh header parse error. Not a valid mesh asset!" << llendl; + return FALSE; + } + } + + std::string nm[] = + { + "lowest_lod", + "low_lod", + "medium_lod", + "high_lod" + }; + + S32 lod = llclamp((S32) mDetail, 0, 3); + + while (lod < 4 && + (header[nm[lod]]["offset"].asInteger() == -1 || + header[nm[lod]]["size"].asInteger() == 0 )) + { + ++lod; + } + + if (lod >= 4) + { + lod = llclamp((S32) mDetail, 0, 3); + + while (lod >= 0 && + (header[nm[lod]]["offset"].asInteger() == -1 || + header[nm[lod]]["size"].asInteger() == 0) ) + { + --lod; + } + + if (lod < 0) + { + llwarns << "Mesh header missing LOD offsets. Not a valid mesh asset!" << llendl; + return FALSE; + } + } + + is.seekg(header[nm[lod]]["offset"].asInteger(), std::ios_base::cur); + + return unpackVolumeFaces(is, header[nm[lod]]["size"].asInteger()); +} + +bool LLVolume::unpackVolumeFaces(std::istream& is, S32 size) +{ + //input stream is now pointing at a zlib compressed block of LLSD + //decompress block + LLSD mdl; + if (!unzip_llsd(mdl, is, size)) + { + llwarns << "not a valid mesh asset!" << llendl; + return false; + } + + { + U32 face_count = mdl.size(); + + if (face_count == 0) + { + llerrs << "WTF?" << llendl; + } + + mVolumeFaces.resize(face_count); + + for (U32 i = 0; i < face_count; ++i) + { + LLSD::Binary pos = mdl[i]["Position"]; + LLSD::Binary norm = mdl[i]["Normal"]; + LLSD::Binary tc = mdl[i]["TexCoord0"]; + LLSD::Binary idx = mdl[i]["TriangleList"]; + + LLVolumeFace& face = mVolumeFaces[i]; + + face.mHasBinormals = false; + + //copy out indices + face.mIndices.resize(idx.size()/2); + if (idx.empty() || face.mIndices.size() < 3) + { //why is there an empty index list? + llerrs <<"WTF?" << llendl; + continue; + } + + U16* indices = (U16*) &(idx[0]); + for (U32 j = 0; j < idx.size()/2; ++j) + { + face.mIndices[j] = indices[j]; + } + + //copy out vertices + U32 num_verts = pos.size()/(3*2); + face.mVertices.resize(num_verts); + + if (mdl[i].has("Weights")) + { + face.mWeights.resize(num_verts); + + LLSD::Binary weights = mdl[i]["Weights"]; + + U32 idx = 0; + + U32 cur_vertex = 0; + while (idx < weights.size() && cur_vertex < num_verts) + { + const U8 END_INFLUENCES = 0xFF; + U8 joint = weights[idx++]; + + U32 cur_influence = 0; + while (joint != END_INFLUENCES) + { + U16 influence = weights[idx++]; + influence |= ((U16) weights[idx++] << 8); + + F32 w = llmin((F32) influence / 65535.f, 0.99999f); + face.mWeights[cur_vertex].mV[cur_influence++] = (F32) joint + w; + + if (cur_influence >= 4) + { + joint = END_INFLUENCES; + } + else + { + joint = weights[idx++]; + } + } + + cur_vertex++; + } + + if (cur_vertex != num_verts || idx != weights.size()) + { + llwarns << "Vertex weight count does not match vertex count!" << llendl; + } + + } + + LLVector3 min_pos; + LLVector3 max_pos; + LLVector2 min_tc; + LLVector2 max_tc; + + + min_pos.setValue(mdl[i]["PositionDomain"]["Min"]); + max_pos.setValue(mdl[i]["PositionDomain"]["Max"]); + min_tc.setValue(mdl[i]["TexCoord0Domain"]["Min"]); + max_tc.setValue(mdl[i]["TexCoord0Domain"]["Max"]); + + LLVector3 pos_range = max_pos - min_pos; + LLVector2 tc_range = max_tc - min_tc; + + LLVector3& min = face.mExtents[0]; + LLVector3& max = face.mExtents[1]; + + min = max = LLVector3(0,0,0); + + for (U32 j = 0; j < num_verts; ++j) + { + U16* v = (U16*) &(pos[j*3*2]); + + face.mVertices[j].mPosition.setVec( + (F32) v[0] / 65535.f * pos_range.mV[0] + min_pos.mV[0], + (F32) v[1] / 65535.f * pos_range.mV[1] + min_pos.mV[1], + (F32) v[2] / 65535.f * pos_range.mV[2] + min_pos.mV[2]); + + if (j == 0) + { + min = max = face.mVertices[j].mPosition; + } + else + { + update_min_max(min,max,face.mVertices[j].mPosition); + } + + U16* n = (U16*) &(norm[j*3*2]); + + face.mVertices[j].mNormal.setVec( + (F32) n[0] / 65535.f * 2.f - 1.f, + (F32) n[1] / 65535.f * 2.f - 1.f, + (F32) n[2] / 65535.f * 2.f - 1.f); + + U16* t = (U16*) &(tc[j*2*2]); + + face.mVertices[j].mTexCoord.setVec( + (F32) t[0] / 65535.f * tc_range.mV[0] + min_tc.mV[0], + (F32) t[1] / 65535.f * tc_range.mV[1] + min_tc.mV[1]); + } + + + // modifier flags? + bool do_mirror = (mParams.getSculptType() & LL_SCULPT_FLAG_MIRROR); + bool do_invert = (mParams.getSculptType() &LL_SCULPT_FLAG_INVERT); + + + // translate to actions: + bool do_reflect_x = false; + bool do_reverse_triangles = false; + bool do_invert_normals = false; + + if (do_mirror) + { + do_reflect_x = true; + do_reverse_triangles = !do_reverse_triangles; + } + + if (do_invert) + { + do_invert_normals = true; + do_reverse_triangles = !do_reverse_triangles; + } + + // now do the work + + if (do_reflect_x) + { + for (S32 i = 0; i < face.mVertices.size(); i++) + { + face.mVertices[i].mPosition.mV[VX] *= -1.0f; + face.mVertices[i].mNormal.mV[VX] *= -1.0f; + } + } + + if (do_invert_normals) + { + for (S32 i = 0; i < face.mVertices.size(); i++) + { + face.mVertices[i].mNormal *= -1.0f; + } + } + + if (do_reverse_triangles) + { + for (U32 j = 0; j < face.mIndices.size(); j += 3) + { + // swap the 2nd and 3rd index + S32 swap = face.mIndices[j+1]; + face.mIndices[j+1] = face.mIndices[j+2]; + face.mIndices[j+2] = swap; + } + } + + } + } + + mSculptLevel = 0; // success! + return true; +} + +void tetrahedron_set_normal(LLVolumeFace::VertexData* cv) +{ + LLVector3 nrm = (cv[1].mPosition-cv[0].mPosition)%(cv[2].mPosition-cv[0].mPosition); + + nrm.normVec(); + + cv[0].mNormal = nrm; + cv[1].mNormal = nrm; + cv[2].mNormal = nrm; +} + +BOOL LLVolume::isTetrahedron() +{ + return mIsTetrahedron; +} + +void LLVolume::makeTetrahedron() +{ + mVolumeFaces.clear(); + + LLVolumeFace face; + + F32 x = 0.25f; + LLVector3 p[] = + { //unit tetrahedron corners + LLVector3(x,x,x), + LLVector3(-x,-x,x), + LLVector3(-x,x,-x), + LLVector3(x,-x,-x) + }; + + face.mExtents[0].setVec(-x,-x,-x); + face.mExtents[1].setVec(x,x,x); + + LLVolumeFace::VertexData cv[3]; + + //set texture coordinates + cv[0].mTexCoord = LLVector2(0,0); + cv[1].mTexCoord = LLVector2(1,0); + cv[2].mTexCoord = LLVector2(0.5f, 0.5f*F_SQRT3); + + + //side 1 + cv[0].mPosition = p[1]; + cv[1].mPosition = p[0]; + cv[2].mPosition = p[2]; + + tetrahedron_set_normal(cv); + + face.mVertices.push_back(cv[0]); + face.mVertices.push_back(cv[1]); + face.mVertices.push_back(cv[2]); + + //side 2 + cv[0].mPosition = p[3]; + cv[1].mPosition = p[0]; + cv[2].mPosition = p[1]; + + tetrahedron_set_normal(cv); + + face.mVertices.push_back(cv[0]); + face.mVertices.push_back(cv[1]); + face.mVertices.push_back(cv[2]); + + //side 3 + cv[0].mPosition = p[3]; + cv[1].mPosition = p[1]; + cv[2].mPosition = p[2]; + + tetrahedron_set_normal(cv); + + face.mVertices.push_back(cv[0]); + face.mVertices.push_back(cv[1]); + face.mVertices.push_back(cv[2]); + + //side 4 + cv[0].mPosition = p[2]; + cv[1].mPosition = p[0]; + cv[2].mPosition = p[3]; + + tetrahedron_set_normal(cv); + + face.mVertices.push_back(cv[0]); + face.mVertices.push_back(cv[1]); + face.mVertices.push_back(cv[2]); + + //set index buffer + for (U32 i = 0; i < 12; i++) + { + face.mIndices.push_back(i); + } + + mVolumeFaces.push_back(face); + mSculptLevel = 0; + mIsTetrahedron = TRUE; +} + +void LLVolume::copyVolumeFaces(LLVolume* volume) +{ + mVolumeFaces = volume->mVolumeFaces; + mSculptLevel = 0; + mIsTetrahedron = FALSE; +} + + +S32 LLVolume::getNumFaces() const +{ + U8 sculpt_type = (mParams.getSculptType() & LL_SCULPT_TYPE_MASK); + + if (sculpt_type == LL_SCULPT_TYPE_MESH) + { + return LL_SCULPT_MESH_MAX_FACES; + } + + return (S32)mProfilep->mFaces.size(); +} + void LLVolume::createVolumeFaces() { @@ -1864,6 +2308,11 @@ void LLVolume::createVolumeFaces() LLProfile::Face& face = mProfilep->mFaces[i]; vf.mBeginS = face.mIndex; vf.mNumS = face.mCount; + if (vf.mNumS < 0) + { + llerrs << "Volume face corruption detected." << llendl; + } + vf.mBeginT = 0; vf.mNumT= getPath().mPath.size(); vf.mID = i; @@ -1907,6 +2356,10 @@ void LLVolume::createVolumeFaces() if (face.mFlat && vf.mNumS > 2) { //flat inner faces have to copy vert normals vf.mNumS = vf.mNumS*2; + if (vf.mNumS < 0) + { + llerrs << "Volume face corruption detected." << llendl; + } } } else @@ -2198,6 +2651,11 @@ void LLVolume::sculpt(U16 sculpt_width, U16 sculpt_height, S8 sculpt_components, LLMemType m1(LLMemType::MTYPE_VOLUME); U8 sculpt_type = mParams.getSculptType(); + if (sculpt_type & LL_SCULPT_TYPE_MASK == LL_SCULPT_TYPE_MESH) + { + llerrs << "WTF?" << llendl; + } + BOOL data_is_empty = FALSE; if (sculpt_width == 0 || sculpt_height == 0 || sculpt_components < 3 || sculpt_data == NULL) @@ -2309,7 +2767,6 @@ bool LLVolumeParams::operator<(const LLVolumeParams ¶ms) const return mSculptID < params.mSculptID; } - return mSculptType < params.mSculptType; @@ -3367,6 +3824,20 @@ S32 LLVolume::getNumTriangleIndices() const return count; } + +S32 LLVolume::getNumTriangles() const +{ + U32 triangle_count = 0; + + for (S32 i = 0; i < getNumVolumeFaces(); ++i) + { + triangle_count += getVolumeFace(i).mIndices.size()/3; + } + + return triangle_count; +} + + //----------------------------------------------------------------------------- // generateSilhouetteVertices() //----------------------------------------------------------------------------- @@ -3379,22 +3850,29 @@ void LLVolume::generateSilhouetteVertices(std::vector<LLVector3> &vertices, S32 face_mask) { LLMemType m1(LLMemType::MTYPE_VOLUME); - + vertices.clear(); normals.clear(); segments.clear(); + if ((mParams.getSculptType() & LL_SCULPT_TYPE_MASK) == LL_SCULPT_TYPE_MESH) + { + return; + } + S32 cur_index = 0; //for each face for (face_list_t::iterator iter = mVolumeFaces.begin(); iter != mVolumeFaces.end(); ++iter) { - const LLVolumeFace& face = *iter; + LLVolumeFace& face = *iter; - if (!(face_mask & (0x1 << cur_index++))) + if (!(face_mask & (0x1 << cur_index++)) || + face.mIndices.empty() || face.mEdge.empty()) { continue; } + if (face.mTypeMask & (LLVolumeFace::CAP_MASK)) { } @@ -3594,6 +4072,8 @@ S32 LLVolume::lineSegmentIntersect(const LLVector3& start, const LLVector3& end, F32 closest_t = 2.f; // must be larger than 1 + end_face = llmin(end_face, getNumVolumeFaces()-1); + for (S32 i = start_face; i <= end_face; i++) { const LLVolumeFace &face = getVolumeFace((U32)i); @@ -4104,11 +4584,28 @@ BOOL LLVolumeParams::exportLegacyStream(std::ostream& output_stream) const return TRUE; } +LLSD LLVolumeParams::sculptAsLLSD() const +{ + LLSD sd = LLSD(); + sd["id"] = getSculptID(); + sd["type"] = getSculptType(); + + return sd; +} + +bool LLVolumeParams::sculptFromLLSD(LLSD& sd) +{ + setSculptID(sd["id"].asUUID(), (U8)sd["type"].asInteger()); + return true; +} + LLSD LLVolumeParams::asLLSD() const { LLSD sd = LLSD(); sd["path"] = mPathParams; sd["profile"] = mProfileParams; + sd["sculpt"] = sculptAsLLSD(); + return sd; } @@ -4116,6 +4613,8 @@ bool LLVolumeParams::fromLLSD(LLSD& sd) { mPathParams.fromLLSD(sd["path"]); mProfileParams.fromLLSD(sd["profile"]); + sculptFromLLSD(sd["sculpt"]); + return true; } @@ -4158,6 +4657,12 @@ const F32 MIN_CONCAVE_PATH_WEDGE = 0.111111f; // 1/9 unity // for collison purposes BOOL LLVolumeParams::isConvex() const { + if (!getSculptID().isNull()) + { + // can't determine, be safe and say no: + return FALSE; + } + F32 path_length = mPathParams.getEnd() - mPathParams.getBegin(); F32 hollow = mProfileParams.getHollow(); @@ -4416,6 +4921,61 @@ BOOL LLVolumeFace::create(LLVolume* volume, BOOL partial_build) } } +void LLVolumeFace::optimize(F32 angle_cutoff) +{ + LLVolumeFace new_face; + + VertexMapData::PointMap point_map; + + //remove redundant vertices + for (U32 i = 0; i < mIndices.size(); ++i) + { + U16 index = mIndices[i]; + + LLVolumeFace::VertexData cv = mVertices[index]; + + BOOL found = FALSE; + VertexMapData::PointMap::iterator point_iter = point_map.find(cv.mPosition); + if (point_iter != point_map.end()) + { //duplicate point might exist + for (U32 j = 0; j < point_iter->second.size(); ++j) + { + LLVolumeFace::VertexData& tv = (point_iter->second)[j]; + if (tv.compareNormal(cv, angle_cutoff)) + { + found = TRUE; + new_face.mIndices.push_back((point_iter->second)[j].mIndex); + break; + } + } + } + + if (!found) + { + new_face.mVertices.push_back(cv); + U16 index = (U16) new_face.mVertices.size()-1; + new_face.mIndices.push_back(index); + + VertexMapData d; + d.mPosition = cv.mPosition; + d.mTexCoord = cv.mTexCoord; + d.mNormal = cv.mNormal; + d.mIndex = index; + if (point_iter != point_map.end()) + { + point_iter->second.push_back(d); + } + else + { + point_map[d.mPosition].push_back(d); + } + } + } + + mVertices = new_face.mVertices; + mIndices = new_face.mIndices; +} + void LerpPlanarVertex(LLVolumeFace::VertexData& v0, LLVolumeFace::VertexData& v1, LLVolumeFace::VertexData& v2, @@ -4521,7 +5081,9 @@ BOOL LLVolumeFace::createUnCutCubeCap(LLVolume* volume, BOOL partial_build) if (!partial_build) { +#if GEN_TRI_STRIP mTriStrip.clear(); +#endif S32 idxs[] = {0,1,(grid_size+1)+1,(grid_size+1)+1,(grid_size+1),0}; for(S32 gx = 0;gx<grid_size;gx++) { @@ -4535,6 +5097,7 @@ BOOL LLVolumeFace::createUnCutCubeCap(LLVolume* volume, BOOL partial_build) mIndices.push_back(vtop+(gy*(grid_size+1))+gx+idxs[i]); } +#if GEN_TRI_STRIP if (gy == 0) { mTriStrip.push_back((gx+1)*(grid_size+1)); @@ -4550,6 +5113,7 @@ BOOL LLVolumeFace::createUnCutCubeCap(LLVolume* volume, BOOL partial_build) { mTriStrip.push_back(gy+1+gx*(grid_size+1)); } +#endif } else { @@ -4558,6 +5122,7 @@ BOOL LLVolumeFace::createUnCutCubeCap(LLVolume* volume, BOOL partial_build) mIndices.push_back(vtop+(gy*(grid_size+1))+gx+idxs[i]); } +#if GEN_TRI_STRIP if (gy == 0) { mTriStrip.push_back(gx*(grid_size+1)); @@ -4572,15 +5137,18 @@ BOOL LLVolumeFace::createUnCutCubeCap(LLVolume* volume, BOOL partial_build) { mTriStrip.push_back(gy+1+(gx+1)*(grid_size+1)); } +#endif } } } +#if GEN_TRI_STRIP if (mTriStrip.size()%2 == 1) { mTriStrip.push_back(mTriStrip[mTriStrip.size()-1]); } +#endif } return TRUE; @@ -4950,6 +5518,7 @@ BOOL LLVolumeFace::createCap(LLVolume* volume, BOOL partial_build) mIndices[3*i+v2] = i + 1; } +#if GEN_TRI_STRIP //make tri strip if (mTypeMask & OPEN_MASK) { @@ -4992,6 +5561,7 @@ BOOL LLVolumeFace::createCap(LLVolume* volume, BOOL partial_build) mTriStrip.push_back(mTriStrip[mTriStrip.size()-1]); } } +#endif } return TRUE; @@ -4999,6 +5569,7 @@ BOOL LLVolumeFace::createCap(LLVolume* volume, BOOL partial_build) void LLVolumeFace::makeTriStrip() { +#if GEN_TRI_STRIP for (U32 i = 0; i < mIndices.size(); i+=3) { U16 i0 = mIndices[i]; @@ -5027,6 +5598,7 @@ void LLVolumeFace::makeTriStrip() { mTriStrip.push_back(mTriStrip[mTriStrip.size()-1]); } +#endif } void LLVolumeFace::createBinormals() @@ -5074,6 +5646,42 @@ void LLVolumeFace::createBinormals() } } +void LLVolumeFace::appendFace(const LLVolumeFace& face, LLMatrix4& mat, LLMatrix4& norm_mat) +{ + U16 offset = mVertices.size(); + + if (face.mVertices.size() + mVertices.size() > 65536) + { + llerrs << "Cannot append face -- 16-bit overflow will occur." << llendl; + } + + for (U32 i = 0; i < face.mVertices.size(); ++i) + { + VertexData v = face.mVertices[i]; + v.mPosition = v.mPosition*mat; + v.mNormal = v.mNormal * norm_mat; + + v.mNormal.normalize(); + + mVertices.push_back(v); + + if (offset == 0 && i == 0) + { + mExtents[0] = mExtents[1] = v.mPosition; + } + else + { + update_min_max(mExtents[0], mExtents[1], v.mPosition); + } + } + + + for (U32 i = 0; i < face.mIndices.size(); ++i) + { + mIndices.push_back(face.mIndices[i]+offset); + } +} + BOOL LLVolumeFace::createSide(LLVolume* volume, BOOL partial_build) { LLMemType m1(LLMemType::MTYPE_VOLUME); @@ -5105,19 +5713,17 @@ BOOL LLVolumeFace::createSide(LLVolume* volume, BOOL partial_build) if (!partial_build) { mIndices.resize(num_indices); - mEdge.resize(num_indices); + + if ((volume->getParams().getSculptType() & LL_SCULPT_TYPE_MASK) != LL_SCULPT_TYPE_MESH) + { + mEdge.resize(num_indices); + } } else { mHasBinormals = FALSE; } - - LLVector3& face_min = mExtents[0]; - LLVector3& face_max = mExtents[1]; - - mCenter.clearVec(); - S32 begin_stex = llfloor( profile[mBeginS].mV[2] ); S32 num_s = ((mTypeMask & INNER_MASK) && (mTypeMask & FLAT_MASK) && mNumS > 2) ? mNumS/2 : mNumS; @@ -5173,15 +5779,6 @@ BOOL LLVolumeFace::createSide(LLVolume* volume, BOOL partial_build) mVertices[cur_vertex].mNormal = LLVector3(0,0,0); mVertices[cur_vertex].mBinormal = LLVector3(0,0,0); - - if (cur_vertex == 0) - { - face_min = face_max = mesh[i].mPos; - } - else - { - update_min_max(face_min, face_max, mesh[i].mPos); - } cur_vertex++; @@ -5215,12 +5812,22 @@ BOOL LLVolumeFace::createSide(LLVolume* volume, BOOL partial_build) mVertices[cur_vertex].mNormal = LLVector3(0,0,0); mVertices[cur_vertex].mBinormal = LLVector3(0,0,0); - update_min_max(face_min,face_max,mesh[i].mPos); - cur_vertex++; } } + + //get bounding box for this side + LLVector3& face_min = mExtents[0]; + LLVector3& face_max = mExtents[1]; + mCenter.clearVec(); + + face_min = face_max = mVertices[0].mPosition; + for (U32 i = 1; i < mVertices.size(); ++i) + { + update_min_max(face_min, face_max, mVertices[i].mPosition); + } + mCenter = (face_min + face_max) * 0.5f; S32 cur_index = 0; @@ -5229,13 +5836,17 @@ BOOL LLVolumeFace::createSide(LLVolume* volume, BOOL partial_build) if (!partial_build) { +#if GEN_TRI_STRIP mTriStrip.clear(); +#endif // Now we generate the indices. for (t = 0; t < (mNumT-1); t++) { +#if GEN_TRI_STRIP //prepend terminating index to strip mTriStrip.push_back(mNumS*t); +#endif for (s = 0; s < (mNumS-1); s++) { @@ -5246,6 +5857,7 @@ BOOL LLVolumeFace::createSide(LLVolume* volume, BOOL partial_build) mIndices[cur_index++] = s+1 + mNumS*t; //bottom right mIndices[cur_index++] = s+1 + mNumS*(t+1); //top right +#if GEN_TRI_STRIP if (s == 0) { mTriStrip.push_back(s+mNumS*t); @@ -5253,6 +5865,7 @@ BOOL LLVolumeFace::createSide(LLVolume* volume, BOOL partial_build) } mTriStrip.push_back(s+1+mNumS*t); mTriStrip.push_back(s+1+mNumS*(t+1)); +#endif mEdge[cur_edge++] = (mNumS-1)*2*t+s*2+1; //bottom left/top right neighbor face if (t < mNumT-2) { //top right/top left neighbor face @@ -5294,44 +5907,37 @@ BOOL LLVolumeFace::createSide(LLVolume* volume, BOOL partial_build) } mEdge[cur_edge++] = (mNumS-1)*2*t+s*2; //top right/bottom left neighbor face } +#if GEN_TRI_STRIP //append terminating vertex to strip mTriStrip.push_back(mNumS-1+mNumS*(t+1)); +#endif } +#if GEN_TRI_STRIP if (mTriStrip.size()%2 == 1) { mTriStrip.push_back(mTriStrip[mTriStrip.size()-1]); } +#endif } //generate normals for (U32 i = 0; i < mIndices.size()/3; i++) //for each triangle { - const S32 i0 = mIndices[i*3+0]; - const S32 i1 = mIndices[i*3+1]; - const S32 i2 = mIndices[i*3+2]; - const VertexData& v0 = mVertices[i0]; - const VertexData& v1 = mVertices[i1]; - const VertexData& v2 = mVertices[i2]; + const U16* idx = &(mIndices[i*3]); + + VertexData* v[] = + { &mVertices[idx[0]], &mVertices[idx[1]], &mVertices[idx[2]] }; //calculate triangle normal - LLVector3 norm = (v0.mPosition-v1.mPosition) % (v0.mPosition-v2.mPosition); + LLVector3 norm = (v[0]->mPosition-v[1]->mPosition) % (v[0]->mPosition-v[2]->mPosition); - for (U32 j = 0; j < 3; j++) - { //add triangle normal to vertices - const S32 idx = mIndices[i*3+j]; - mVertices[idx].mNormal += norm; // * (weight_sum - d[j])/weight_sum; - } + v[0]->mNormal += norm; + v[1]->mNormal += norm; + v[2]->mNormal += norm; //even out quad contributions - if ((i & 1) == 0) - { - mVertices[i2].mNormal += norm; - } - else - { - mVertices[i1].mNormal += norm; - } + v[i%2+1]->mNormal += norm; } // adjust normals based on wrapping and stitching |