/* * Copyright (C) 2010 Thorsten Liebig (Thorsten.Liebig@gmx.de) * * This program is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include "tools/global.h" #include "processcurrent.h" #include ProcessCurrent::ProcessCurrent(Operator* op, Engine* eng) : Processing(op, eng) { } ProcessCurrent::~ProcessCurrent() { } void ProcessCurrent::DefineStartStopCoord(double* dstart, double* dstop) { if (Op->SnapToMesh(dstart,start,true,m_start_inside)==false) cerr << "ProcessCurrent::DefineStartStopCoord: Warning: Snapped line outside field domain!!" << endl; if (Op->SnapToMesh(dstop,stop,true,m_stop_inside)==false) cerr << "ProcessCurrent::DefineStartStopCoord: Warning: Snapped line outside field domain!!" << endl; if (g_settings.showProbeDiscretization()) { cerr << m_filename << ": snapped coords: (" << Op->GetDiscLine( 0, start[0], true ) << "," << Op->GetDiscLine( 1, start[1], true ) << "," << Op->GetDiscLine( 2, start[2], true ) << ") -> (" << Op->GetDiscLine( 0, stop[0], true ) << ","<< Op->GetDiscLine( 1, stop[1], true ) << "," << Op->GetDiscLine( 2, stop[2], true ) << ")"; cerr << " [" << start[0] << "," << start[1] << "," << start[2] << "] -> [" << stop[0] << "," << stop[1] << "," << stop[2] << "]" << endl; } } int ProcessCurrent::Process() { if (Enabled==false) return -1; if (CheckTimestep()==false) return GetNextInterval(); FDTD_FLOAT current=0; int Dump_Dim = 0; int NormDir = 0; for (int n=0;n<3;++n) { if (start[n]>stop[n]) { unsigned int help=start[n]; start[n]=stop[n]; stop[n]=help; bool b_help=m_start_inside[n]; m_start_inside[n] = m_stop_inside[n]; m_stop_inside[n] = b_help; } if (m_stop_inside[n]==false) // integrate up to the wall, Operator::SnapToMesh would give numLines[n]-2 stop[n]=Op->GetNumberOfLines(n)-1; if (stop[n]>start[n]) ++Dump_Dim; if (stop[n] == start[n]) NormDir = n; } if (Dump_Dim!=2) { cerr << "ProcessCurrent::Process(): Warning Current Integration Box \"" << m_filename << "\" is not a surface (found dimension: " << Dump_Dim << ") --> i = 0" << endl; current = 0; return -1; } switch (NormDir) { case 0: //y-current if (m_stop_inside[0] && m_start_inside[2]) for (unsigned int i=start[1]+1;i<=stop[1];++i) current+=Eng->GetCurr(1,stop[0],i,start[2]); //z-current if (m_stop_inside[0] && m_stop_inside[1]) for (unsigned int i=start[2]+1;i<=stop[2];++i) current+=Eng->GetCurr(2,stop[0],stop[1],i); //y-current if (m_start_inside[0] && m_stop_inside[2]) for (unsigned int i=start[1]+1;i<=stop[1];++i) current-=Eng->GetCurr(1,start[0],i,stop[2]); //z-current if (m_start_inside[0] && m_start_inside[1]) for (unsigned int i=start[2]+1;i<=stop[2];++i) current-=Eng->GetCurr(2,start[0],start[1],i); break; case 1: //z-current if (m_start_inside[0] && m_start_inside[1]) for (unsigned int i=start[2]+1;i<=stop[2];++i) current+=Eng->GetCurr(2,start[0],start[1],i); //x-current if (m_stop_inside[1] && m_stop_inside[2]) for (unsigned int i=start[0]+1;i<=stop[0];++i) current+=Eng->GetCurr(0,i,stop[1],stop[2]); //z-current if (m_stop_inside[0] && m_stop_inside[1]) for (unsigned int i=start[2]+1;i<=stop[2];++i) current-=Eng->GetCurr(2,stop[0],stop[1],i); //x-current if (m_start_inside[1] && m_start_inside[2]) for (unsigned int i=start[0]+1;i<=stop[0];++i) current-=Eng->GetCurr(0,i,start[1],start[2]); break; case 2: //x-current if (m_start_inside[1] && m_start_inside[2]) for (unsigned int i=start[0]+1;i<=stop[0];++i) current+=Eng->GetCurr(0,i,start[1],start[2]); //y-current if (m_stop_inside[0] && m_start_inside[2]) for (unsigned int i=start[1]+1;i<=stop[1];++i) current+=Eng->GetCurr(1,stop[0],i,start[2]); //x-current if (m_stop_inside[1] && m_stop_inside[2]) for (unsigned int i=start[0]+1;i<=stop[0];++i) current-=Eng->GetCurr(0,i,stop[1],stop[2]); //y-current if (m_start_inside[0] && m_stop_inside[2]) for (unsigned int i=start[1]+1;i<=stop[1];++i) current-=Eng->GetCurr(1,start[0],i,stop[2]); break; default: //this cannot happen... return -2; break; } // cerr << "ts: " << Eng->numTS << " i: " << current << endl; current*=m_weight; v_current.push_back(current); //current is sampled half a timestep later then the voltages file << setprecision(m_precision) << (0.5 + (double)Eng->GetNumberOfTimesteps())*Op->GetTimestep() << "\t" << current << endl; return GetNextInterval(); } void ProcessCurrent::DumpBox2File( string vtkfilenameprefix, bool /*dualMesh*/ ) const { Processing::DumpBox2File( vtkfilenameprefix, true ); }