Operator: added H-field/current excitation
parent
8787d793aa
commit
b1b1e71126
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@ -157,6 +157,15 @@ void Engine::UpdateCurrents()
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void Engine::ApplyCurrentExcite()
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{
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int exc_pos;
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//soft current excitation here (H-field excite)
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for (unsigned int n=0;n<Op->Curr_Exc_Count;++n)
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{
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exc_pos = (int)numTS - (int)Op->Curr_Exc_delay[n];
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exc_pos *= (exc_pos>0 && exc_pos<=(int)Op->ExciteLength);
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// if (n==0) cerr << numTS << " => " << Op->ExciteSignal[exc_pos] << endl;
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curr[Op->Curr_Exc_dir[n]][Op->Curr_Exc_index[0][n]][Op->Curr_Exc_index[1][n]][Op->Curr_Exc_index[2][n]] += Op->Curr_Exc_amp[n]*Op->ExciteSignal[exc_pos];
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}
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}
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bool Engine::IterateTS(unsigned int iterTS)
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@ -51,12 +51,16 @@ void Operator::Init()
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E_Exc_dir=NULL;
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vv=NULL;
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vi=NULL;
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Curr_Exc_delay = NULL;
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Curr_Exc_amp=NULL;
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Curr_Exc_dir=NULL;
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iv=NULL;
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ii=NULL;
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for (int n=0;n<3;++n)
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{
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discLines[n]=NULL;
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E_Exc_index[n]=NULL;
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Curr_Exc_index[n]=NULL;
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}
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MainOp=NULL;
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@ -80,6 +84,9 @@ void Operator::Reset()
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delete[] E_Exc_delay;
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delete[] E_Exc_dir;
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delete[] E_Exc_amp;
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delete[] Curr_Exc_delay;
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delete[] Curr_Exc_dir;
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delete[] Curr_Exc_amp;
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Delete_N_3DArray(vv,numLines);
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Delete_N_3DArray(vi,numLines);
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Delete_N_3DArray(iv,numLines);
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@ -88,6 +95,7 @@ void Operator::Reset()
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{
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delete[] discLines[n];
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delete[] E_Exc_index[n];
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delete[] Curr_Exc_index[n];
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}
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delete MainOp;
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delete DualOp;
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@ -894,15 +902,22 @@ double Operator::CalcTimestep()
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bool Operator::CalcFieldExcitation()
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{
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if (dT==0) return false;
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vector<unsigned int> vIndex[3];
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vector<FDTD_FLOAT> vExcit;
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vector<unsigned int> vDelay;
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vector<unsigned int> vDir;
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unsigned int pos[3];
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double volt_coord[3];
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double delta[3];
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double amp=0;
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vector<unsigned int> volt_vIndex[3];
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vector<FDTD_FLOAT> volt_vExcit;
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vector<unsigned int> volt_vDelay;
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vector<unsigned int> volt_vDir;
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double volt_coord[3];
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vector<unsigned int> curr_vIndex[3];
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vector<FDTD_FLOAT> curr_vExcit;
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vector<unsigned int> curr_vDelay;
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vector<unsigned int> curr_vDir;
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double curr_coord[3];
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for (pos[2]=0;pos[2]<numLines[2];++pos[2])
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{
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delta[2]=fabs(MainOp->GetIndexDelta(2,pos[2]));
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@ -912,6 +927,8 @@ bool Operator::CalcFieldExcitation()
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for (pos[0]=0;pos[0]<numLines[0];++pos[0])
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{
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delta[0]=fabs(MainOp->GetIndexDelta(0,pos[0]));
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//electric field excite
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for (int n=0;n<3;++n)
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{
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volt_coord[0] = discLines[0][pos[0]];
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@ -929,12 +946,12 @@ bool Operator::CalcFieldExcitation()
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amp = elec->GetWeightedExcitation(n,volt_coord)*GetMeshDelta(n,pos);// delta[n]*gridDelta;
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if (amp!=0)
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{
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vExcit.push_back(amp);
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vDelay.push_back((unsigned int)(elec->GetDelay()/dT));
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vDir.push_back(n);
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vIndex[0].push_back(pos[0]);
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vIndex[1].push_back(pos[1]);
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vIndex[2].push_back(pos[2]);
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volt_vExcit.push_back(amp);
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volt_vDelay.push_back((unsigned int)(elec->GetDelay()/dT));
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volt_vDir.push_back(n);
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volt_vIndex[0].push_back(pos[0]);
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volt_vIndex[1].push_back(pos[1]);
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volt_vIndex[2].push_back(pos[2]);
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}
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if (elec->GetExcitType()==1) //hard excite
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{
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@ -945,6 +962,45 @@ bool Operator::CalcFieldExcitation()
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}
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}
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}
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//magnetic field excite
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for (int n=0;n<3;++n)
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{
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int nP = (n+1)%3;
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int nPP = (n+2)%3;
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curr_coord[0] = discLines[0][pos[0]];
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curr_coord[1] = discLines[1][pos[1]];
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curr_coord[2] = discLines[2][pos[2]];
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curr_coord[nP] +=delta[nP]*0.5;
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curr_coord[nPP] +=delta[nPP]*0.5;
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CSProperties* prop = CSX->GetPropertyByCoordPriority(curr_coord,(CSProperties::PropertyType)(CSProperties::ELECTRODE));
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if (prop)
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{
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CSPropElectrode* elec = prop->ToElectrode();
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if (elec!=NULL)
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{
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if ((elec->GetActiveDir(n)) && ( (elec->GetExcitType()==2) || (elec->GetExcitType()==3) ))//&& (pos[n]<numLines[n]-1))
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{
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amp = elec->GetWeightedExcitation(n,curr_coord)*GetMeshDelta(n,pos,true);// delta[n]*gridDelta;
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if (amp!=0)
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{
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curr_vExcit.push_back(amp);
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curr_vDelay.push_back((unsigned int)(elec->GetDelay()/dT));
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curr_vDir.push_back(n);
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curr_vIndex[0].push_back(pos[0]);
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curr_vIndex[1].push_back(pos[1]);
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curr_vIndex[2].push_back(pos[2]);
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}
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if (elec->GetExcitType()==3) //hard excite
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{
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ii[n][pos[0]][pos[1]][pos[2]] = 0;
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iv[n][pos[0]][pos[1]][pos[2]] = 0;
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}
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}
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}
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}
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}
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}
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}
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}
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@ -992,12 +1048,12 @@ bool Operator::CalcFieldExcitation()
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amp = elec->GetWeightedExcitation(n,volt_coord)*deltaN*gridDelta;
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if (amp!=0)
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{
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vExcit.push_back(amp);
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vDelay.push_back((unsigned int)(elec->GetDelay()/dT));
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vDir.push_back(n);
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vIndex[0].push_back(pos[0]);
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vIndex[1].push_back(pos[1]);
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vIndex[2].push_back(pos[2]);
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volt_vExcit.push_back(amp);
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volt_vDelay.push_back((unsigned int)(elec->GetDelay()/dT));
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volt_vDir.push_back(n);
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volt_vIndex[0].push_back(pos[0]);
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volt_vIndex[1].push_back(pos[1]);
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volt_vIndex[2].push_back(pos[2]);
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}
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if (elec->GetExcitType()==1) //hard excite
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{
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@ -1012,16 +1068,18 @@ bool Operator::CalcFieldExcitation()
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}
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}
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E_Exc_Count = vExcit.size();
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cerr << "Operator::CalcEFieldExcitation: Found number of excitations points: " << E_Exc_Count << endl;
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// set voltage excitations
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E_Exc_Count = volt_vExcit.size();
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cerr << "Operator::CalcFieldExcitation: Number of voltage excitation points: " << E_Exc_Count << endl;
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if (E_Exc_Count==0)
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cerr << "No E-Field excitation found!" << endl;
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cerr << "No E-Field/voltage excitation found!" << endl;
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for (int n=0;n<3;++n)
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{
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delete[] E_Exc_index[n];
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E_Exc_index[n] = new unsigned int[E_Exc_Count];
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for (unsigned int i=0;i<E_Exc_Count;++i)
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E_Exc_index[n][i]=vIndex[n].at(i);
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E_Exc_index[n][i]=volt_vIndex[n].at(i);
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}
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delete[] E_Exc_delay;
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E_Exc_delay = new unsigned int[E_Exc_Count];
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@ -1031,10 +1089,37 @@ bool Operator::CalcFieldExcitation()
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E_Exc_dir = new unsigned short[E_Exc_Count];
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for (unsigned int i=0;i<E_Exc_Count;++i)
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{
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E_Exc_delay[i]=vDelay.at(i);
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E_Exc_amp[i]=vExcit.at(i);
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E_Exc_dir[i]=vDir.at(i);
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E_Exc_delay[i]=volt_vDelay.at(i);
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E_Exc_amp[i]=volt_vExcit.at(i);
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E_Exc_dir[i]=volt_vDir.at(i);
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}
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// set current excitations
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Curr_Exc_Count = curr_vExcit.size();
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cerr << "Operator::CalcFieldExcitation: Number of current excitation points: " << Curr_Exc_Count << endl;
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if (Curr_Exc_Count==0)
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cerr << "No H-Field/current excitation found!" << endl;
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for (int n=0;n<3;++n)
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{
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delete[] Curr_Exc_index[n];
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Curr_Exc_index[n] = new unsigned int[Curr_Exc_Count];
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for (unsigned int i=0;i<Curr_Exc_Count;++i)
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Curr_Exc_index[n][i]=curr_vIndex[n].at(i);
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}
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delete[] Curr_Exc_delay;
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Curr_Exc_delay = new unsigned int[Curr_Exc_Count];
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delete[] Curr_Exc_amp;
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Curr_Exc_amp = new FDTD_FLOAT[Curr_Exc_Count];
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delete[] Curr_Exc_dir;
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Curr_Exc_dir = new unsigned short[Curr_Exc_Count];
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for (unsigned int i=0;i<Curr_Exc_Count;++i)
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{
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Curr_Exc_delay[i]=curr_vDelay.at(i);
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Curr_Exc_amp[i]=curr_vExcit.at(i);
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Curr_Exc_dir[i]=curr_vDir.at(i);
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}
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return true;
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}
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@ -149,12 +149,19 @@ public:
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unsigned int ExciteLength;
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FDTD_FLOAT* ExciteSignal;
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//E-Field Excitation
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//E-Field/voltage Excitation
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unsigned int E_Exc_Count;
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unsigned int* E_Exc_index[3];
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unsigned short* E_Exc_dir;
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FDTD_FLOAT* E_Exc_amp; //represented as edge-voltages!!
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unsigned int* E_Exc_delay;
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//H-Field/current Excitation
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unsigned int Curr_Exc_Count;
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unsigned int* Curr_Exc_index[3];
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unsigned short* Curr_Exc_dir;
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FDTD_FLOAT* Curr_Exc_amp; //represented as edge-currents!!
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unsigned int* Curr_Exc_delay;
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};
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#endif // OPERATOR_H
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