static PyObject* py_wall_setEmissivity(PyObject* self, PyObject* args) { int n; double epsilon; if (!PyArg_ParseTuple(args, "id:wall_setEmissivity", &n, &epsilon)) { return NULL; } int iok = wall_setEmissivity(n,epsilon); if (iok < 0) { return reportError(iok); } return Py_BuildValue("i",0); }
void wallmethods(int nlhs, mxArray* plhs[], int nrhs, const mxArray* prhs[]) { int m, iok = 0, n; int job = getInt(prhs[1]); int i = getInt(prhs[2]); double r = Undef; double v = Undef; if (nrhs > 3) { v = getDouble(prhs[3]); } // constructor if (job == 0) { n = wall_new(i); plhs[0] = mxCreateNumericMatrix(1,1,mxDOUBLE_CLASS,mxREAL); double* h = mxGetPr(plhs[0]); *h = double(n); if (n < 0) { reportError(); } return; } // options that do not return a value if (job < 20) { switch (job) { case 1: iok = wall_del(i); break; case 2: iok = wall_copy(i); break; case 4: m = getInt(prhs[4]); iok = wall_install(i, int(v), m); break; case 5: iok = wall_setArea(i, v); break; case 6: iok = wall_setThermalResistance(i, v); break; case 7: iok = wall_setHeatTransferCoeff(i, v); break; case 8: iok = wall_setHeatFlux(i, int(v)); break; case 9: iok = wall_setExpansionRateCoeff(i, v); break; case 10: iok = wall_setVelocity(i, int(v)); break; case 11: iok = wall_ready(i); break; case 12: n = getInt(prhs[3]); m = getInt(prhs[4]); iok = wall_setkinetics(i, n, m); break; case 13: iok = wall_setEmissivity(i, v); break; default: mexErrMsgTxt("unknown job parameter"); } plhs[0] = mxCreateNumericMatrix(1,1,mxDOUBLE_CLASS,mxREAL); double* h = mxGetPr(plhs[0]); *h = double(iok); if (iok < 0) { reportError(); } return; } else if (job < 40) { // options that return a value of type 'double' switch (job) { case 21: r = wall_vdot(i, v); break; case 22: r = wall_Q(i, v); break; case 23: r = wall_area(i); break; default: mexErrMsgTxt("unknown job parameter"); } plhs[0] = mxCreateNumericMatrix(1,1,mxDOUBLE_CLASS,mxREAL); double* h = mxGetPr(plhs[0]); *h = r; if (r == DERR) { reportError(); } return; } }