void ViewEdge::UpdateFEdges() { FEdge *currentEdge = _FEdgeA; do { currentEdge->setViewEdge(this); currentEdge = currentEdge->nextEdge(); } while ((currentEdge != NULL) && (currentEdge != _FEdgeB)); // last one _FEdgeB->setViewEdge(this); }
ViewEdge *ViewEdgeXBuilder::BuildSharpViewEdge(const OWXEdge& iWEdge) { // Start a new sharp chain edges ViewEdge *newVEdge = new ViewEdge; newVEdge->setId(_currentViewId); ++_currentViewId; unsigned size = 0; _pCurrentVShape->AddEdge(newVEdge); // Find first edge: OWXEdge firstWEdge = iWEdge; /* OWXEdge previousWEdge = firstWEdge; */ /* UNUSED */ OWXEdge currentWEdge = firstWEdge; list<OWXEdge> edgesChain; #if 0 /* TK 02-Sep-2012 Experimental fix for incorrect view edge visibility. */ // bidirectional chaining // first direction: while (!stopSharpViewEdge(currentWEdge.e)) { edgesChain.push_back(currentWEdge); ++size; currentWEdge.e->userdata = (void *)1; // processed // Find the next edge! currentWEdge = FindNextWEdge(currentWEdge); } OWXEdge endWEdge = edgesChain.back(); // second direction currentWEdge = FindPreviousWEdge(firstWEdge); while (!stopSharpViewEdge(currentWEdge.e)) { edgesChain.push_front(currentWEdge); ++size; currentWEdge.e->userdata = (void *)1; // processed // Find the previous edge! currentWEdge = FindPreviousWEdge(currentWEdge); } #else edgesChain.push_back(currentWEdge); ++size; currentWEdge.e->userdata = (void *)1; // processed OWXEdge endWEdge = edgesChain.back(); #endif firstWEdge = edgesChain.front(); // build FEdges FEdge *feprevious = NULL; FEdge *fefirst = NULL; FEdge *fe = NULL; for (list<OWXEdge>::iterator we = edgesChain.begin(), weend = edgesChain.end(); we != weend; ++we) { fe = BuildSharpFEdge(feprevious, (*we)); fe->setViewEdge(newVEdge); if (!fefirst) fefirst = fe; feprevious = fe; } // Store the chain starting edge: _pCurrentSShape->AddChain(fefirst); newVEdge->setNature(iWEdge.e->nature()); newVEdge->setFEdgeA(fefirst); newVEdge->setFEdgeB(fe); // is it a closed loop ? if ((firstWEdge == endWEdge) && (size != 1)) { fefirst->setPreviousEdge(fe); fe->setNextEdge(fefirst); newVEdge->setA(0); newVEdge->setB(0); } else { ViewVertex *vva = MakeViewVertex(fefirst->vertexA()); ViewVertex *vvb = MakeViewVertex(fe->vertexB()); ((NonTVertex *)vva)->AddOutgoingViewEdge(newVEdge); ((NonTVertex *)vvb)->AddIncomingViewEdge(newVEdge); newVEdge->setA(vva); newVEdge->setB(vvb); } return newVEdge; }
ViewEdge *ViewEdgeXBuilder::BuildSmoothViewEdge(const OWXFaceLayer& iFaceLayer) { // Find first edge: OWXFaceLayer first = iFaceLayer; OWXFaceLayer currentFace = first; // bidirectional chaining. // first direction list<OWXFaceLayer> facesChain; unsigned size = 0; while (!stopSmoothViewEdge(currentFace.fl)) { facesChain.push_back(currentFace); ++size; currentFace.fl->userdata = (void *)1; // processed // Find the next edge! currentFace = FindNextFaceLayer(currentFace); } OWXFaceLayer end = facesChain.back(); // second direction currentFace = FindPreviousFaceLayer(first); while (!stopSmoothViewEdge(currentFace.fl)) { facesChain.push_front(currentFace); ++size; currentFace.fl->userdata = (void *)1; // processed // Find the previous edge! currentFace = FindPreviousFaceLayer(currentFace); } first = facesChain.front(); if (iFaceLayer.fl->nature() & Nature::RIDGE) { if (size < 4) { return 0; } } // Start a new chain edges ViewEdge *newVEdge = new ViewEdge; newVEdge->setId(_currentViewId); ++_currentViewId; _pCurrentVShape->AddEdge(newVEdge); // build FEdges FEdge *feprevious = NULL; FEdge *fefirst = NULL; FEdge *fe = NULL; for (list<OWXFaceLayer>::iterator fl = facesChain.begin(), flend = facesChain.end(); fl != flend; ++fl) { fe = BuildSmoothFEdge(feprevious, (*fl)); if (feprevious && fe == feprevious) continue; fe->setViewEdge(newVEdge); if (!fefirst) fefirst = fe; feprevious = fe; } // Store the chain starting edge: _pCurrentSShape->AddChain(fefirst); newVEdge->setNature(iFaceLayer.fl->nature()); newVEdge->setFEdgeA(fefirst); newVEdge->setFEdgeB(fe); // is it a closed loop ? if ((first == end) && (size != 1)) { fefirst->setPreviousEdge(fe); fe->setNextEdge(fefirst); newVEdge->setA(0); newVEdge->setB(0); } else { ViewVertex *vva = MakeViewVertex(fefirst->vertexA()); ViewVertex *vvb = MakeViewVertex(fe->vertexB()); ((NonTVertex *)vva)->AddOutgoingViewEdge(newVEdge); ((NonTVertex *)vvb)->AddIncomingViewEdge(newVEdge); newVEdge->setA(vva); newVEdge->setB(vvb); } return newVEdge; }