// // Write Abaqus file // // #include #include #include #include #include namespace netgen { #include "writeuser.hpp" void WriteAbaqusFormat (const Mesh & mesh, const string & filename) { cout << "\nWrite Abaqus Volume Mesh" << endl; ofstream outfile (filename.c_str()); outfile << "*Heading" << endl; outfile << " " << filename << endl; outfile.precision(8); outfile << "*Node" << endl; int np = mesh.GetNP(); int ne = mesh.GetNE(); int i, j, k; for (i = 1; i <= np; i++) { outfile << i << ", "; outfile << mesh.Point(i)(0) << ", "; outfile << mesh.Point(i)(1) << ", "; outfile << mesh.Point(i)(2) << "\n"; } int elemcnt = 0; //element counter int finished = 0; int indcnt = 1; //index counter while (!finished) { int actcnt = 0; const Element & el1 = mesh.VolumeElement(1); int non = el1.GetNP(); if (non == 4) { outfile << "*Element, type=C3D4, ELSET=PART" << indcnt << endl; } else if (non == 10) { outfile << "*Element, type=C3D10, ELSET=PART" << indcnt << endl; } else { cout << "unsupported Element type!!!" << endl; } for (i = 1; i <= ne; i++) { const Element & el = mesh.VolumeElement(i); if (el.GetIndex() == indcnt) { actcnt++; if (el.GetNP() != non) { cout << "different element-types in a subdomain are not possible!!!" << endl; continue; } elemcnt++; outfile << elemcnt << ", "; if (non == 4) { outfile << el.PNum(1) << ", "; outfile << el.PNum(2) << ", "; outfile << el.PNum(4) << ", "; outfile << el.PNum(3) << "\n"; } else if (non == 10) { outfile << el.PNum(1) << ", "; outfile << el.PNum(2) << ", "; outfile << el.PNum(4) << ", "; outfile << el.PNum(3) << ", "; outfile << el.PNum(5) << ", "; outfile << el.PNum(9) << ", "; outfile << el.PNum(7) << ", " << "\n"; outfile << el.PNum(6) << ", "; outfile << el.PNum(8) << ", "; outfile << el.PNum(10) << "\n"; } else { cout << "unsupported Element type!!!" << endl; for (j = 1; j <= el.GetNP(); j++) { outfile << el.PNum(j); if (j != el.GetNP()) outfile << ", "; } outfile << "\n"; } } } indcnt++; if (elemcnt == ne) {finished = 1; cout << "all elements found by Index!" << endl;} if (actcnt == 0) {finished = 1;} } if (mesh.GetIdentifications().GetMaxNr()) { // periodic identification, implementation for // Helmut J. Boehm, TU Vienna char cfilename[255]; strcpy (cfilename, filename.c_str()); char mpcfilename[255]; strcpy (mpcfilename, cfilename); size_t len = strlen (cfilename); if (len >= 4 && (strcmp (mpcfilename+len-4, ".inp") == 0)) strcpy (mpcfilename+len-4, ".mpc"); else strcat (mpcfilename, ".mpc"); ofstream mpc (mpcfilename); int masternode(0); ARRAY pairs; BitArray master(np), help(np); master.Set(); for (i = 1; i <= 3; i++) { mesh.GetIdentifications().GetPairs (i, pairs); help.Clear(); for (j = 1; j <= pairs.Size(); j++) { help.Set (pairs.Get(j).I1()); } master.And (help); } for (i = 1; i <= np; i++) if (master.Test(i)) masternode = i; cout << "masternode = " << masternode << " = " << mesh.Point(masternode) << endl; ARRAY slaves(3); for (i = 1; i <= 3; i++) { mesh.GetIdentifications().GetPairs (i, pairs); for (j = 1; j <= pairs.Size(); j++) { if (pairs.Get(j).I1() == masternode) slaves.Elem(i) = pairs.Get(j).I2(); } cout << "slave(" << i << ") = " << slaves.Get(i) << " = " << mesh.Point(slaves.Get(i)) << endl; } outfile << "**\n" << "*NSET,NSET=CTENODS\n" << slaves.Get(1) << ", " << slaves.Get(2) << ", " << slaves.Get(3) << endl; outfile << "**\n" << "**POINT_fixed\n" << "**\n" << "*BOUNDARY, OP=NEW\n"; for (j = 1; j <= 3; j++) outfile << masternode << ", " << j << ",, 0.\n"; outfile << "**\n" << "*BOUNDARY, OP=NEW\n"; for (j = 1; j <= 3; j++) { Vec3d v(mesh.Point(masternode), mesh.Point(slaves.Get(j))); double vlen = v.Length(); int dir = 0; if (fabs (v.X()) > 0.9 * vlen) dir = 2; if (fabs (v.Y()) > 0.9 * vlen) dir = 3; if (fabs (v.Z()) > 0.9 * vlen) dir = 1; if (!dir) cout << "ERROR: Problem with rigid body constraints" << endl; outfile << slaves.Get(j) << ", " << dir << ",, 0.\n"; } outfile << "**\n" << "*EQUATION, INPUT=" << mpcfilename << endl; BitArray eliminated(np); eliminated.Clear(); for (i = 1; i <= mesh.GetIdentifications().GetMaxNr(); i++) { mesh.GetIdentifications().GetPairs (i, pairs); if (!pairs.Size()) continue; for (j = 1; j <= pairs.Size(); j++) if (pairs.Get(j).I1() != masternode && !eliminated.Test(pairs.Get(j).I2())) { eliminated.Set (pairs.Get(j).I2()); for (k = 1; k <= 3; k++) { mpc << "4" << "\n"; mpc << pairs.Get(j).I2() << "," << k << ", -1.0, "; mpc << pairs.Get(j).I1() << "," << k << ", 1.0, "; mpc << slaves.Get(i) << "," << k << ", 1.0, "; mpc << masternode << "," << k << ", -1.0 \n"; } } } } cout << "done" << endl; } }