Py::Object wireFromSegment(const Py::Tuple& args) { PyObject *o, *m; if (!PyArg_ParseTuple(args.ptr(), "O!O!", &(Mesh::MeshPy::Type), &m,&PyList_Type,&o)) throw Py::Exception(); Py::List list(o); Mesh::MeshObject* mesh = static_cast<Mesh::MeshPy*>(m)->getMeshObjectPtr(); std::vector<unsigned long> segm; segm.reserve(list.size()); for (unsigned int i=0; i<list.size(); i++) { segm.push_back((int)Py::Int(list[i])); } std::list<std::vector<Base::Vector3f> > bounds; MeshCore::MeshAlgorithm algo(mesh->getKernel()); algo.GetFacetBorders(segm, bounds); Py::List wires; std::list<std::vector<Base::Vector3f> >::iterator bt; for (bt = bounds.begin(); bt != bounds.end(); ++bt) { BRepBuilderAPI_MakePolygon mkPoly; for (std::vector<Base::Vector3f>::reverse_iterator it = bt->rbegin(); it != bt->rend(); ++it) { mkPoly.Add(gp_Pnt(it->x,it->y,it->z)); } if (mkPoly.IsDone()) { PyObject* wire = new Part::TopoShapeWirePy(new Part::TopoShape(mkPoly.Wire())); wires.append(Py::Object(wire, true)); } } return wires; }
int OCCFace::createPolygonal(std::vector<OCCStruct3d> points) { try { BRepBuilderAPI_MakePolygon MP; for (unsigned i=0; i<points.size(); i++) { MP.Add(gp_Pnt(points[i].x, points[i].y, points[i].z)); } MP.Close(); if (!MP.IsDone()) { StdFail_NotDone::Raise("failed to create face");; } BRepBuilderAPI_MakeFace MF(MP.Wire(), false); this->setShape(MF.Face()); // possible fix shape if (!this->fixShape()) StdFail_NotDone::Raise("Shapes not valid"); } catch(Standard_Failure &err) { Handle_Standard_Failure e = Standard_Failure::Caught(); const Standard_CString msg = e->GetMessageString(); if (msg != NULL && strlen(msg) > 1) { setErrorMessage(msg); } else { setErrorMessage("Failed to create face"); } return 0; } return 1; }
App::DocumentObjectExecReturn *Part::Polygon::execute(void) { BRepBuilderAPI_MakePolygon poly; const std::vector<Base::Vector3d> nodes = Nodes.getValues(); for (std::vector<Base::Vector3d>::const_iterator it = nodes.begin(); it != nodes.end(); ++it) { gp_Pnt pnt(it->x, it->y, it->z); poly.Add(pnt); } if (Close.getValue()) poly.Close(); if (!poly.IsDone()) throw Base::CADKernelError("Cannot create polygon because less than two vertices are given"); TopoDS_Wire wire = poly.Wire(); this->Shape.setValue(wire); return App::DocumentObject::StdReturn; }
static PyObject * wireFromSegment(PyObject *self, PyObject *args) { PyObject *o, *m; if (!PyArg_ParseTuple(args, "O!O!", &(Mesh::MeshPy::Type), &m,&PyList_Type,&o)) return 0; Py::List list(o); Mesh::MeshObject* mesh = static_cast<Mesh::MeshPy*>(m)->getMeshObjectPtr(); std::vector<unsigned long> segm; segm.reserve(list.size()); for (unsigned int i=0; i<list.size(); i++) { segm.push_back((int)Py::Int(list[i])); } std::list<std::vector<Base::Vector3f> > bounds; MeshCore::MeshAlgorithm algo(mesh->getKernel()); algo.GetFacetBorders(segm, bounds); Py::List wires; std::list<std::vector<Base::Vector3f> >::iterator bt; try { for (bt = bounds.begin(); bt != bounds.end(); ++bt) { BRepBuilderAPI_MakePolygon mkPoly; for (std::vector<Base::Vector3f>::reverse_iterator it = bt->rbegin(); it != bt->rend(); ++it) { mkPoly.Add(gp_Pnt(it->x,it->y,it->z)); } if (mkPoly.IsDone()) { PyObject* wire = new Part::TopoShapeWirePy(new Part::TopoShape(mkPoly.Wire())); wires.append(Py::Object(wire, true)); } } } catch (Standard_Failure) { Handle_Standard_Failure e = Standard_Failure::Caught(); PyErr_SetString(Base::BaseExceptionFreeCADError, e->GetMessageString()); return 0; } return Py::new_reference_to(wires); }
bool DrawingLineWallCtrller::UpdateMesh() { if ( !NeedUpdateMesh_ ) { return true; } if ( Pnts_.size() > 1 ) { {//Triangle Mesh BRepBuilderAPI_MakePolygon mp; for ( const auto& curPnt : Pnts_ ) { mp.Add(gp_Pnt(curPnt.X, curPnt.Y, curPnt.Z)); } assert(mp.IsDone()); auto wallPath = mp.Wire(); assert(!wallPath.IsNull()); auto& wallPnt1 = Pnts_[0]; auto& wallPnt2 = Pnts_[1]; auto beginThickPnt = (wallPnt2 - wallPnt1).normalize().crossProduct(s_PntNormal) * WallThickness_; beginThickPnt = wallPnt1 + beginThickPnt; auto thickEdge = BRepBuilderAPI_MakeEdge(gp_Pnt(wallPnt1.X,wallPnt1.Y, wallPnt1.Z), gp_Pnt(beginThickPnt.X,beginThickPnt.Y, beginThickPnt.Z) ).Edge(); BRepBuilderAPI_MakeWire dirWireMaker(thickEdge); TopoDS_Wire dirWire = dirWireMaker.Wire(); BRepOffsetAPI_MakePipeShell pipeMaker(wallPath); pipeMaker.SetTransitionMode(BRepBuilderAPI_RightCorner);//延切线方向缝合 pipeMaker.Add(dirWire); pipeMaker.Build(); FaceShape_ = pipeMaker.Shape(); if ( wallPath.Closed() ) { State_ = EDWLS_FINISH; return false; } if ( MeshBuf_ ) { MeshBuf_->drop(); } auto mesh = ODLTools::CreateMesh(FaceShape_); assert(mesh); MeshBuf_ = mesh->getMeshBuffer(0); MeshBuf_->grab(); auto tex = GetRenderContextSPtr()->Smgr_->getVideoDriver()->getTexture("../Data/Resource/3D/wallLine.png"); MeshBuf_->getMaterial().setTexture(0, tex); float uLen = 200; float vLen = 200; irr::core::matrix4 scaleMat,rotateMat; scaleMat.setScale(irr::core::vector3df(1/uLen, 1/vLen, 1)); rotateMat.setTextureRotationCenter(static_cast<float>(M_PI/4)); MeshBuf_->getMaterial().setTextureMatrix(0, rotateMat*scaleMat); MeshBuf_->getMaterial().Lighting = false; MeshBuf_->getMaterial().ZWriteEnable = false; MeshBuf_->getMaterial().BackfaceCulling = false; mesh->drop(); } {//Line Mesh if ( LineMeshBuf_ ) { LineMeshBuf_->drop(); } auto newSmesh = new SMeshBuffer; for ( TopExp_Explorer exp(FaceShape_, TopAbs_EDGE); exp.More(); exp.Next() ) { auto& curEdge = TopoDS::Edge(exp.Current()); auto& v1 = TopExp::FirstVertex(curEdge); auto& v2 = TopExp::LastVertex(curEdge); auto p1 = BRep_Tool::Pnt(v1); auto p2 = BRep_Tool::Pnt(v2); S3DVertex sv1(irr::core::vector3df(static_cast<float>(p1.X()), static_cast<float>(p1.Y()), static_cast<float>(p1.Z())), s_PntNormal, s_LineColor, s_PntCoord); S3DVertex sv2(irr::core::vector3df(static_cast<float>(p2.X()), static_cast<float>(p2.Y()), static_cast<float>(p2.Z())), s_PntNormal, s_LineColor, s_PntCoord); newSmesh->Vertices.push_back(sv1); newSmesh->Vertices.push_back(sv2); newSmesh->Indices.push_back(newSmesh->getIndexCount()); newSmesh->Indices.push_back(newSmesh->getIndexCount()); } LineMeshBuf_ = newSmesh; LineMeshBuf_->getMaterial().Lighting = false; LineMeshBuf_->getMaterial().ZWriteEnable = false; LineMeshBuf_->getMaterial().BackfaceCulling = false; LineMeshBuf_->getMaterial().Thickness = 3; LineMeshBuf_->getMaterial().MaterialType = IrrEngine::GetInstance()->GetShaderType(EST_LINE); LineMeshBuf_->getMaterial().DiffuseColor = s_LineColor; } } {//Path Mesh auto smeshBuf = static_cast<irr::scene::SMeshBuffer*>(PathMeshBuf_); smeshBuf->Vertices.clear(); smeshBuf->Indices.clear(); auto curCount = PathMeshBuf_->getIndexCount(); for ( const auto& curPnt : Pnts_ ) { smeshBuf->Vertices.push_back(irr::video::S3DVertex(curPnt, s_PntNormal, s_PathColor, s_PntCoord)); smeshBuf->Indices.push_back(curCount++); } } NeedUpdateMesh_ = false; return true; }
App::DocumentObjectExecReturn *Fractal::execute(void) { faces.clear(); //Appel de la fonction de generation avec des valeurs prereglees(taille) et la valeur de l'utilisateur //sierpin([-7, -4, 0], [0, 8, 0], [7, -4, 0], [0, 0, 11], 6) //sierpin(Base::Vector3d(-5, -5, -5), Base::Vector3d(5, 5, -5), Base::Vector3d(-5, 5, 5), Base::Vector3d(5, -5, 5), 1, Nodes.getValues()); sierpin(Base::Vector3d(-Length.getValue(), -Width.getValue(), -Height.getValue()), Base::Vector3d(Length.getValue(), Width.getValue(), -Height.getValue()), Base::Vector3d(-Length.getValue(), Width.getValue(), Height.getValue()), Base::Vector3d(Length.getValue(), -Width.getValue(), Height.getValue()), Depth.getValue(), Nodes.getValues()); //Sponge(); /*//Creation du shell avec la liste des faces myShell = Part.makeShell(partFaces); // Creation du polygon avec le shell mySolid = Part.makeSolid(myShell); // Mise a jour de l'orientation des faces mySolidRev = mySolid.copy(); mySolidRev.reverse(); //Affichage du solide Part.show(mySolidRev);*/ BRepBuilderAPI_MakePolygon poly; //const std::vector<Base::Vector3d> nodes = Nodes; /*_nodes.push_back(Base::Vector3d(0, 0, 0)); _nodes.push_back(Base::Vector3d(0, 0, 1)); _nodes.push_back(Base::Vector3d(0, 0, 3)); _nodes.push_back(Base::Vector3d(0, 0, 5)); _nodes.push_back(Base::Vector3d(0, 5, 0)); _nodes.push_back(Base::Vector3d(0, 0, 8));*/ /*std::string s = std::to_string(_nodes.size()); char const *pchar = s.c_str(); Base::Console().Message(pchar); Base::Console().Log(pchar);*/ for (std::vector<Base::Vector3d>::const_iterator it = _nodes.begin(); it != _nodes.end(); ++it) { gp_Pnt pnt(it->x, it->y, it->z); poly.Add(pnt); } if (!poly.IsDone()) throw Base::Exception("Cannot create polygon because less than two vetices are given"); //TopoDS_Wire wire = poly.Wire(); //BRepBuilderAPI_MakeFace makeFace(poly.Wire()); /*gp_Pnt point1 = gp_Pnt(1,0,0); gp_Pnt point2 = gp_Pnt(1,1,0); gp_Pnt point3 = gp_Pnt(1,0,1);*/ //TopoDS_Wire wire = BRepBuilderAPI_MakePolygon(, Standard_True); //TopoDS_Face face = BRepBuilderAPI_MakeFace(wire, Standard_True); //TopoDS_Shape s; /*if (makeFace.Error() == BRepBuilderAPI_FaceDone) { TopoDS_Face faceCurrent = makeFace.Face(); } BRepBuilderAPI_MakeFace makeFace(faceCurrent); makeFace.Add(MP.Wire()); if (makeFace.Error() == BRepBuilderAPI_FaceDone) { faceCurrent = makeFace.Face(); }*/ //this->Shape.setValue(); //TopoDS_Face tf; //BRepBuilderAPI_MakeFace mkFace(TopoDS::Wire(sh)); //Handle_Geom_Surface gs; //Handle<Geom_Surface> dd; //gs.Access = 0; /*RepOffsetAPI_MakeOffsetShape mkOffset(this->_Shape, offset, tol, BRepOffset_Mode(offsetMode), intersection ? Standard_True : Standard_False, selfInter ? Standard_True : Standard_False, GeomAbs_JoinType(join)); if (!fill) return res; #if 1 //s=Part.makePlane(10,10) //s.makeOffsetShape(1.0,0.01,False,False,0,0,True)*/ //BRepOffsetAPI_MakeOffsetShape myOffsetShape; //TopoShape ts; //myOffsetShape = ts.makeOffsetShape(1.0, 0.01, False, False, 0, 0, True); //const TopoDS_Shape& res = myOffsetShape.Shape(); BRep_Builder builder; TopoDS_Shell shell; builder.MakeShell(shell); /*s = std::to_string(faces.size()); pchar = s.c_str(); Base::Console().Message(pchar); Base::Console().Log(pchar);*/ for (int i = 0; i < faces.size(); i++) { builder.Add(shell, faces[i]); //this->Shape.setValue(shell); } //this->Shape.setValue(builder.sh); //BRepBuilderAPI_MakeShell myShell(gs); //const TopoDS_Shell& td = gs.sh; /*TopoDS_Solid mysolid; builder.MakeSolid(mysolid); builder.Add(mysolid, shell);*/ BRepBuilderAPI_MakeSolid mySolid(shell); this->Shape.setValue(mySolid.Shape()); return App::DocumentObject::StdReturn; }