/* * 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 "tools/useful.h" #include "processing.h" #include #include Processing::Processing(Operator* op, Engine* eng) { Op=op; Eng=eng; Enabled = true; m_PS_pos = 0; SetPrecision(12); ProcessInterval=0; m_FD_SampleCount=0; m_FD_Interval=0; m_weight=1; m_Flush = false; } Processing::~Processing() { file.close(); } void Processing::Reset() { m_PS_pos=0; } bool Processing::CheckTimestep() { if (m_ProcessSteps.size()>m_PS_pos) { if (m_ProcessSteps.at(m_PS_pos)==Eng->GetNumberOfTimesteps()) { ++m_PS_pos; return true; } } if (ProcessInterval) { if (Eng->GetNumberOfTimesteps()%ProcessInterval==0) return true; } if (m_FD_Interval) { if (Eng->GetNumberOfTimesteps()%m_FD_Interval==0) return true; } return false; } int Processing::GetNextInterval() const { if (Enabled==false) return -1; int next=INT_MAX; if (m_ProcessSteps.size()>m_PS_pos) { next = (int)m_ProcessSteps.at(m_PS_pos)-(int)Eng->GetNumberOfTimesteps(); } if (ProcessInterval!=0) { int next_Interval = (int)ProcessInterval - (int)Eng->GetNumberOfTimesteps()%ProcessInterval; if (next_IntervalGetNumberOfTimesteps()%m_FD_Interval; if (next_Interval steps) { for (size_t n=0;nGetTimestep()); if (nyquistTS == 0) { cerr << "Processing::AddFrequency: Requested frequency " << freq << " is too high for the current timestep used... skipping..." << endl; return; } else if (nyquistTSExc->GetNyquistNum()) { cerr << "Processing::AddFrequency: Warning: Requested frequency " << freq << " is higher than maximum excited frequency..." << endl; } if (m_FD_Interval==0) m_FD_Interval = Op->Exc->GetNyquistNum(); if (m_FD_Interval>nyquistTS) m_FD_Interval = nyquistTS; m_FD_Samples.push_back(freq); } void Processing::AddFrequency(vector freqs) { for (size_t n=0;nSnapToMesh(dstart,start)==false) cerr << "Processing::DefineStartStopCoord: Warning: Snapped line outside field domain!!" << endl; if (Op->SnapToMesh(dstop,stop)==false) cerr << "Processing::DefineStartStopCoord: Warning: Snapped line outside field domain!!" << endl; if (g_settings.showProbeDiscretization()) { cerr << m_filename << ": snapped coords: (" << Op->GetDiscLine( 0, start[0], false ) << "," << Op->GetDiscLine( 1, start[1], false ) << "," << Op->GetDiscLine( 2, start[2], false ) << ") -> (" << Op->GetDiscLine( 0, stop[0], false ) << ","<< Op->GetDiscLine( 1, stop[1], false ) << "," << Op->GetDiscLine( 2, stop[2], false ) << ")"; cerr << " [" << start[0] << "," << start[1] << "," << start[2] << "] -> [" << stop[0] << "," << stop[1] << "," << stop[2] << "]" << endl; } } double Processing::CalcLineIntegral(unsigned int* start, unsigned int* stop, int field) const { switch (field) { case 0: return CalcLineIntegral_V( start, stop ); case 1: return CalcLineIntegral_I( start, stop ); } return 0; } double Processing::CalcLineIntegral_I(unsigned int* start, unsigned int* stop) const { double result=0; for (int n=0;n<3;++n) { if (start[n]GetCurr(n,pos[0],pos[1],pos[2]); } else { unsigned int pos[3]={stop[0],stop[1],stop[2]}; for (;pos[n]GetCurr(n,pos[0],pos[1],pos[2]); } } return result; } double Processing::CalcLineIntegral_V(unsigned int* start, unsigned int* stop) const { double result=0; for (int n=0;n<3;++n) { if (start[n]GetVolt(n,pos[0],pos[1],pos[2]); } else { unsigned int pos[3]={stop[0],stop[1],stop[2]}; for (;pos[n]GetVolt(n,pos[0],pos[1],pos[2]); } } return result; } void Processing::OpenFile( string outfile ) { if (file.is_open()) file.close(); file.open( outfile.c_str() ); if (!file.is_open()) cerr << "Can't open file: " << outfile << endl; m_filename = outfile; } void Processing::DumpBox2File( string vtkfilenameprefix, bool dualMesh ) const { string vtkfilename = vtkfilenameprefix + m_filename + ".vtk"; ofstream file( vtkfilename.c_str() ); if (!file.is_open()) { cerr << "Processing::DumpBoxes2File(): Can't open file: " << vtkfilename << endl; return; } // normalize coordinates double s1[3], s2[3]; for (int i=0; i<3; i++) { s1[i] = min(Op->GetDiscLine(i,start[i],dualMesh),Op->GetDiscLine(i,stop[i],dualMesh)); s2[i] = max(Op->GetDiscLine(i,start[i],dualMesh),Op->GetDiscLine(i,stop[i],dualMesh)); } // fix degenerate box/plane -> line (paraview display problem) if (((s1[0] == s2[0]) && (s1[1] == s2[1])) || ((s1[0] == s2[0]) && (s1[2] == s2[2])) || ((s1[2] == s2[2]) && (s1[1] == s2[1]))) { // line are not displayed correctly -> enlarge for (int i=0; i<3; i++) { double delta = min( Op->GetMeshDelta( i, start,dualMesh ), Op->GetMeshDelta( i, stop,dualMesh ) ) / Op->GetGridDelta() / 4.0; s1[i] -= delta; s2[i] += delta; } } file << "# vtk DataFile Version 2.0" << endl; file << "" << endl; file << "ASCII" << endl; file << "DATASET POLYDATA" << endl; file << "POINTS 8 float" << endl; file << s1[0] << " " << s1[1] << " " << s1[2] << endl; file << s2[0] << " " << s1[1] << " " << s1[2] << endl; file << s2[0] << " " << s2[1] << " " << s1[2] << endl; file << s1[0] << " " << s2[1] << " " << s1[2] << endl; file << s1[0] << " " << s1[1] << " " << s2[2] << endl; file << s2[0] << " " << s1[1] << " " << s2[2] << endl; file << s2[0] << " " << s2[1] << " " << s2[2] << endl; file << s1[0] << " " << s2[1] << " " << s2[2] << endl; file << "POLYGONS 6 30" << endl; file << "4 0 1 2 3" << endl; file << "4 4 5 6 7" << endl; file << "4 7 6 2 3" << endl; file << "4 4 5 1 0" << endl; file << "4 0 4 7 3" << endl; file << "4 5 6 2 1" << endl; file.close(); } void Processing::Dump_FD_Data(vector<_Complex double> value, double factor, string filename) { if (value.size()==0) return; if (value.size()!=m_FD_Samples.size()) { cerr << "Processing::Dump_FD_Data: Error: Complex value and frequency vector have different size! This should never happend!!!" << endl; return; } ofstream file; file.open( filename.c_str() ); if (!file.is_open()) cerr << "Can't open file: " << filename << endl; time_t rawTime; time(&rawTime); file << "%dump by openEMS @" << ctime(&rawTime) << "%frequency\treal\timag\n"; for (size_t n=0;nFlushNext(); } } void ProcessingArray::Reset() { for (size_t i=0;iReset(); } } void ProcessingArray::DeleteAll() { for (size_t i=0;iProcess(); if ((step>0) && (stepDumpBox2File( vtkfilenameprefix ); }