// // Write Fluent file // Johannes Gerstmayr, University Linz // #include #include #include #include #include namespace netgen { #include "writeuser.hpp" void WriteFluentFormat (const Mesh & mesh, const string & filename) { cout << "start writing fluent export" << endl; int np = mesh.GetNP(); int ne = mesh.GetNE(); int nse = mesh.GetNSE(); int i, j; ofstream outfile (filename.c_str()); char str[100]; outfile.precision(6); //outfile.setf (ios::fixed, ios::floatfield); //outfile.setf (ios::showpoint); outfile << "(0 \"Exported file from NETGEN \")" << endl; outfile << "(0 \"Dimension:\")" << endl; outfile << "(2 3)" << endl << endl; outfile << "(0 \"Nodes:\")" << endl; //number of nodes: sprintf(str,"(10 (0 1 %x 1))",np); //hexadecimal!!! outfile << str << endl; //nodes of zone 1: sprintf(str,"(10 (7 1 %x 1)(",np); //hexadecimal!!! outfile << str << endl; for (i = 1; i <= np; i++) { const Point3d & p = mesh.Point(i); //outfile.width(10); outfile << p.X() << " "; outfile << p.Y() << " "; outfile << p.Z() << "\n"; } outfile << "))" << endl << endl; //write faces with elements outfile << "(0 \"Faces:\")" << endl; Element2d face, face2; int i2, j2; ARRAY surfaceelp; ARRAY surfaceeli; ARRAY locels; //no cells=no tets //no faces=2*tets int noverbface = 2*ne-nse/2; sprintf(str,"(13 (0 1 %x 0))",(noverbface+nse)); //hexadecimal!!! outfile << str << endl; sprintf(str,"(13 (4 1 %x 2 3)(",noverbface); //hexadecimal!!! outfile << str << endl; const_cast (mesh).BuildElementSearchTree(); for (i = 1; i <= ne; i++) { if (ne > 2000) { if (i%2000 == 0) { cout << (double)i/(double)ne*100. << "%" << endl; } } Element el = mesh.VolumeElement(i); //if (inverttets) // el.Invert(); //outfile << el.GetIndex() << " "; if (el.GetNP() != 4) {cout << "only tet-meshes supported in write fluent!" << endl;} //faces: Box3d box; el.GetBox(mesh.Points(), box); box.IncreaseRel(1e-6); mesh.GetIntersectingVolEls(box.PMin(),box.PMax(),locels); int nel = locels.Size(); int locind; //cout << "nel=" << nel << endl; for (j = 1; j <= el.GetNFaces(); j++) { el.GetFace(j, face); face.Invert(); int eli2 = 0; int stopsig = 0; for (i2 = 1; i2 <= nel; i2++) { locind = locels.Get(i2); //cout << " locind=" << locind << endl; Element el2 = mesh.VolumeElement(locind); //if (inverttets) // el2.Invert(); for (j2 = 1; j2 <= el2.GetNFaces(); j2++) { el2.GetFace(j2, face2); if (face2.HasFace(face)) {eli2 = locind; stopsig = 1; break;} } if (stopsig) break; } if (eli2==i) cout << "error in WRITE_FLUENT!!!" << endl; if (eli2 > i) //dont write faces two times! { //i: left cell, eli: right cell outfile << hex << face.PNum(2) << " " << hex << face.PNum(1) << " " << hex << face.PNum(3) << " " << hex << i << " " << hex << eli2 << "\n"; } if (eli2 == 0) { surfaceelp.Append(INDEX_3(face.PNum(2),face.PNum(1),face.PNum(3))); surfaceeli.Append(i); } } } outfile << "))" << endl; sprintf(str,"(13 (2 %x %x 3 3)(",(noverbface+1),noverbface+nse); //hexadecimal!!! outfile << str << endl; for (i = 1; i <= surfaceelp.Size(); i++) { outfile << hex << surfaceelp.Get(i).I1() << " " << hex << surfaceelp.Get(i).I2() << " " << hex << surfaceelp.Get(i).I3() << " " << hex << surfaceeli.Get(i) << " " << 0 << "\n"; } outfile << "))" << endl << endl; outfile << "(0 \"Cells:\")" << endl; sprintf(str,"(12 (0 1 %x 0))",ne); //hexadecimal!!! outfile << str << endl; sprintf(str,"(12 (1 1 %x 1 2))",ne); //hexadecimal!!! outfile << str << endl << endl; outfile << "(0 \"Zones:\")\n" << "(45 (1 fluid fluid)())\n" // << "(45 (2 velocity-inlet velocity_inlet.1)())\n" // << "(45 (3 pressure-outlet pressure_outlet.2)())\n" << "(45 (2 wall wall)())\n" << "(45 (4 interior default-interior)())\n" << endl; cout << "done" << endl; } }