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401 lines
10 KiB
C++
401 lines
10 KiB
C++
// NeL - MMORPG Framework <http://dev.ryzom.com/projects/nel/>
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// Copyright (C) 2010 Winch Gate Property Limited
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//
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// This program is free software: you can redistribute it and/or modify
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// it under the terms of the GNU Affero General Public License as
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// published by the Free Software Foundation, either version 3 of the
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// License, or (at your option) any later version.
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//
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// This program is distributed in the hope that it will be useful,
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// but WITHOUT ANY WARRANTY; without even the implied warranty of
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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// GNU Affero General Public License for more details.
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//
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// You should have received a copy of the GNU Affero General Public License
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// along with this program. If not, see <http://www.gnu.org/licenses/>.
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#include "std3d.h"
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#include "nel/3d/stripifier.h"
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// For now, don't use NVidia stripifier.
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//#include "nv_tri_strip_objects.h"
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#include <vector>
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#include <deque>
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using namespace std;
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namespace NL3D
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{
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// ***************************************************************************
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CStripifier::CStripifier()
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{
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}
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// ***************************************************************************
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/*
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NVidia(tm) 's method get better performance (8ms on 50K faces meshe, instead of 8.9ms), but
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precomputing is much slower (1'40 instead of 0'?? :) ).
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*/
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/*void CStripifier::optimizeTriangles(const CIndexBuffer &in, CIndexBuffer &out, uint cacheSize)
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{
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NvStripifier stripifier;
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WordVec inIndices;
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NvStripInfoVec outStrips;
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sint i;
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// prepare inIndices.
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inIndices.resize(in.getNumTri()*3);
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for(i=0;i< (sint)inIndices.size(); i++)
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{
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inIndices[i]= in.getPtr()[i];
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}
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// build strips.
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stripifier.Stripify(inIndices, cacheSize, outStrips);
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// build triangles from strips, and release memory
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out.setNumTri(0);
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out.reserveTri(in.getNumTri());
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for(i= 0;i< (sint)outStrips.size(); i++)
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{
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NvStripInfo *stripInfo= outStrips[i];
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// build triangle from the strip.
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for(uint j= 0;j< stripInfo->m_faces.size(); j++)
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{
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NvFaceInfo *face= stripInfo->m_faces[j];
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out.addTri(face->m_v0, face->m_v1, face->m_v2);
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// delete this face.
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delete face;
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}
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// delete this strip.
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// Unref first the edges touched by this strip.
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NvEdgeInfo *edgeInfo = stripInfo->m_startInfo.m_startEdge;
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while(edgeInfo)
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{
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NvEdgeInfo *edgeInfoNext= edgeInfo->m_nextV1;
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edgeInfo->Unref();
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edgeInfo= edgeInfoNext;
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}
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// delete
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delete stripInfo;
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}
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}*/
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// ***************************************************************************
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struct CVertexCache
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{
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CVertexCache(sint cacheSize, sint nbVerts)
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{
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_VertexInCache.resize(nbVerts, 0);
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_Cache.resize(cacheSize, 0xFFFFFFFF);
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}
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void touchVertex(uint vert)
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{
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if(isVertexInCache(vert))
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{
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// do nothing ?????? depends of vcache implementation
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}
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else
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{
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// pop front
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uint removed= _Cache.front();
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if(removed!=0xFFFFFFFF)
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_VertexInCache[removed]= 0;
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_Cache.pop_front();
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// push_back
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_VertexInCache[vert]= 3;
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_Cache.push_back(vert);
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}
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}
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bool isVertexInCache(uint vert)
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{
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return _VertexInCache[vert]==3;
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}
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// return which vertex is at which place in the cache. 0xFFFFFFFF if the entry is empty
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uint getVertexInCache(uint vertIdInCache)
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{
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return _Cache[vertIdInCache];
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}
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void tempTouchVertex(uint vert, bool inCache)
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{
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if( _VertexInCache[vert]&1 )
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{
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if(inCache)
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_VertexInCache[vert]|= 2;
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else
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_VertexInCache[vert]&= 1;
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}
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}
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private:
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// 0 if not in the cache
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vector<uint8> _VertexInCache;
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deque<uint32> _Cache;
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};
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// ***************************************************************************
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struct COrderFace
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{
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sint v[3];
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bool Inserted;
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void insertInPB(CIndexBuffer &out, CVertexCache &vertexCache)
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{
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uint index = out.getNumIndexes ();
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out.setNumIndexes (index+3);
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CIndexBufferReadWrite ibaWrite;
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out.lock (ibaWrite);
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ibaWrite.setTri(index, v[0], v[1], v[2]);
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vertexCache.touchVertex(v[0]);
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vertexCache.touchVertex(v[1]);
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vertexCache.touchVertex(v[2]);
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Inserted= true;
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}
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sint countCacheMiss(CVertexCache &vertexCache)
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{
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sint ret=0 ;
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if(!vertexCache.isVertexInCache(v[0])) ret++;
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if(!vertexCache.isVertexInCache(v[1])) ret++;
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if(!vertexCache.isVertexInCache(v[2])) ret++;
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return ret;
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}
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};
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// ***************************************************************************
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struct CCornerNode
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{
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// next in the list
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CCornerNode *Next;
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// corner == tuple face/vertex.
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uint FaceId;
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uint VertexId;
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};
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// ***************************************************************************
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void CStripifier::optimizeTriangles(const CIndexBuffer &in, CIndexBuffer &out, uint cacheSize)
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{
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vector<COrderFace> inFaces;
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sint i;
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sint numTris= in.getNumIndexes()/3;
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// TestYoyo: All the same tri => perfect vertex caching...
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/*out.setNumTri(numTris);
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for(i=0;i< numTris; i++)
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{
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uint32 v0= *(in.getPtr()+0);
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uint32 v1= *(in.getPtr()+1);
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uint32 v2= *(in.getPtr()+2);
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out.setTri(i, v0, v1, v2);
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}
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return;*/
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// prepare inIndices.
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//--------------------
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{
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CIndexBufferRead ibaRead;
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in.lock (ibaRead);
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inFaces.resize(numTris);
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if (ibaRead.getFormat() == CIndexBuffer::Indices32)
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{
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for(i=0;i< numTris; i++)
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{
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const uint32 *ibaPtr = (const uint32 *) ibaRead.getPtr();
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inFaces[i].v[0]= ibaPtr[i*3 + 0];
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inFaces[i].v[1]= ibaPtr[i*3 + 1];
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inFaces[i].v[2]= ibaPtr[i*3 + 2];
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inFaces[i].Inserted= false;
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}
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}
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else
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{
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nlassert(ibaRead.getFormat() == CIndexBuffer::Indices16);
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for(i=0;i< numTris; i++)
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{
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const uint16 *ibaPtr = (const uint16 *) ibaRead.getPtr();
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inFaces[i].v[0]= ibaPtr[i*3 + 0];
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inFaces[i].v[1]= ibaPtr[i*3 + 1];
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inFaces[i].v[2]= ibaPtr[i*3 + 2];
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inFaces[i].Inserted= false;
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}
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}
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}
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// build our cache, and compute max number of vertices.
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//--------------------
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int numVerts=0;
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for (i = 0; i < numTris; i++)
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{
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numVerts= max(numVerts, (int)inFaces[i].v[0]);
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numVerts= max(numVerts, (int)inFaces[i].v[1]);
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numVerts= max(numVerts, (int)inFaces[i].v[2]);
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}
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numVerts++;
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CVertexCache vertexCache(cacheSize, numVerts);
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// Compute vertex connectivity.
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//--------------------
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vector<CCornerNode*> vertexConnectivity;
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vector<CCornerNode> cornerAllocator;
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cornerAllocator.resize(numTris * 3);
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vertexConnectivity.resize(numVerts, NULL);
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// For all triangles.
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for (i = 0; i < numTris; i++)
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{
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COrderFace *ordFace= &inFaces[i];
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// For each corner, allocate and fill
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for(sint j=0; j<3;j++)
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{
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sint vertexId= ordFace->v[j];
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// allocate a corner
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CCornerNode *corner= &cornerAllocator[i*3 + j];
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// fill it.
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corner->FaceId= i;
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corner->VertexId= vertexId;
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// Link it to the vertex list of faces.
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corner->Next= vertexConnectivity[vertexId];
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vertexConnectivity[vertexId]= corner;
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}
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}
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// build output optimized triangles
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//--------------------
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out.setFormat(in.getFormat());
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out.setNumIndexes(0);
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out.reserve(3*numTris);
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for(i=0; i<numTris; i++)
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{
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// force insertion of the ith face.
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sint nextToInsert= i;
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bool nextToInsertFound= true;
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while( nextToInsertFound )
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{
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nextToInsertFound= false;
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// if the face is not yet inserted.
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if(!inFaces[nextToInsert].Inserted)
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{
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// must insert this face.
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inFaces[nextToInsert].insertInPB(out, vertexCache);
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sint minC= 3;
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// look only for faces which use vertices in VertexCache, to get a face with at least one vertex.
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for(uint j=0; j<cacheSize; j++)
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{
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// get a vertex from the vertex cache.
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uint vertexId= vertexCache.getVertexInCache(j);
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// if empty entry
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if(vertexId==0xFFFFFFFF)
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continue;
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// parse list of faces which use this vertex.
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CCornerNode *corner= vertexConnectivity[vertexId];
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while(corner)
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{
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uint faceId= corner->FaceId;
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// if the face is not yet inserted.
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if(!inFaces[faceId].Inserted)
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{
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sint c= inFaces[faceId].countCacheMiss(vertexCache);
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// insert first any face which don't add any vertex in the cache.
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if(c==0)
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{
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inFaces[faceId].insertInPB(out, vertexCache);
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}
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// else the one which add the minimum of vertex possible: nextToInsert
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else
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{
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// Add cost of faces that use vertices pushed out (better results...)
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uint numVOut= c;
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uint k;
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for(k=cacheSize-numVOut; k<cacheSize; k++)
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{
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uint vertexOutId= vertexCache.getVertexInCache(k);
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if(vertexOutId==0xFFFFFFFF)
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continue;
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// TempRemove the vertex from the cache
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vertexCache.tempTouchVertex(vertexOutId, false);
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}
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// parse all faces that still use those out vertices.
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for(k=cacheSize-numVOut; k<cacheSize; k++)
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{
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uint vertexOutId= vertexCache.getVertexInCache(k);
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if(vertexOutId==0xFFFFFFFF)
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continue;
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CCornerNode *cornerOut= vertexConnectivity[vertexOutId];
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while(cornerOut)
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{
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uint faceOutId= cornerOut->FaceId;
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// if the face is not yet inserted AND not the one treated
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if(!inFaces[faceOutId].Inserted && faceOutId!=faceId)
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{
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// Add cache miss of this face
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c+= inFaces[faceOutId].countCacheMiss(vertexCache);
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}
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// next corner
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cornerOut= cornerOut->Next;
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}
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}
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// reset touch
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for(k=cacheSize-numVOut; k<cacheSize; k++)
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{
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uint vertexOutId= vertexCache.getVertexInCache(k);
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if(vertexOutId==0xFFFFFFFF)
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continue;
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// restore TempTouch the vertex from the cache
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vertexCache.tempTouchVertex(vertexOutId, true);
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}
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// take the minimum cost
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if(c<minC)
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{
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nextToInsert= faceId;
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nextToInsertFound= true;
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minC= c;
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}
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}
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}
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// next corner
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corner= corner->Next;
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}
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}
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// if nextToInsertFound, then nextToInsert has the face which add the minimum of vertex possible in the cache
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}
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}
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}
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}
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} // NL3D
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