/* * 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 "engine_ext_upml.h" #include "operator_ext_upml.h" #include "engine.h" #include "engine_sse.h" #include "tools/array_ops.h" #include "tools/useful.h" Engine_Ext_UPML::Engine_Ext_UPML(Operator_Ext_UPML* op_ext) : Engine_Extension(op_ext) { m_Op_UPML = op_ext; //this ABC extension should be executed first! m_Priority = 1e6; volt = Create_N_3DArray(m_Op_UPML->m_numLines); volt_flux = Create_N_3DArray(m_Op_UPML->m_numLines); curr = Create_N_3DArray(m_Op_UPML->m_numLines); curr_flux = Create_N_3DArray(m_Op_UPML->m_numLines); SetNumberOfThreads(1); } Engine_Ext_UPML::~Engine_Ext_UPML() { Delete_N_3DArray(volt,m_Op_UPML->m_numLines); volt=NULL; Delete_N_3DArray(volt_flux,m_Op_UPML->m_numLines); volt_flux=NULL; Delete_N_3DArray(curr,m_Op_UPML->m_numLines); curr=NULL; Delete_N_3DArray(curr_flux,m_Op_UPML->m_numLines); curr_flux=NULL; } void Engine_Ext_UPML::SetNumberOfThreads(int nrThread) { Engine_Extension::SetNumberOfThreads(nrThread); m_numX = AssignJobs2Threads(m_Op_UPML->m_numLines[0],m_NrThreads,false); m_start.resize(m_NrThreads,0); m_start.at(0)=0; for (size_t n=1;n=m_NrThreads) return; unsigned int pos[3]; unsigned int loc_pos[3]; switch (m_Eng->GetType()) { case Engine::BASIC: { for (unsigned int lineX=0;lineXm_StartPos[0]; for (loc_pos[1]=0;loc_pos[1]m_numLines[1];++loc_pos[1]) { pos[1] = loc_pos[1] + m_Op_UPML->m_StartPos[1]; for (loc_pos[2]=0;loc_pos[2]m_numLines[2];++loc_pos[2]) { pos[2] = loc_pos[2] + m_Op_UPML->m_StartPos[2]; volt[0][loc_pos[0]][loc_pos[1]][loc_pos[2]] = m_Op_UPML->vv[0][loc_pos[0]][loc_pos[1]][loc_pos[2]] * m_Eng->Engine::GetVolt(0,pos) - m_Op_UPML->vvfo[0][loc_pos[0]][loc_pos[1]][loc_pos[2]] * volt_flux[0][loc_pos[0]][loc_pos[1]][loc_pos[2]]; m_Eng->Engine::SetVolt(0,pos, volt_flux[0][loc_pos[0]][loc_pos[1]][loc_pos[2]]); volt[1][loc_pos[0]][loc_pos[1]][loc_pos[2]] = m_Op_UPML->vv[1][loc_pos[0]][loc_pos[1]][loc_pos[2]] * m_Eng->Engine::GetVolt(1,pos) - m_Op_UPML->vvfo[1][loc_pos[0]][loc_pos[1]][loc_pos[2]] * volt_flux[1][loc_pos[0]][loc_pos[1]][loc_pos[2]]; m_Eng->Engine::SetVolt(1,pos, volt_flux[1][loc_pos[0]][loc_pos[1]][loc_pos[2]]); volt[2][loc_pos[0]][loc_pos[1]][loc_pos[2]] = m_Op_UPML->vv[2][loc_pos[0]][loc_pos[1]][loc_pos[2]] * m_Eng->Engine::GetVolt(2,pos) - m_Op_UPML->vvfo[2][loc_pos[0]][loc_pos[1]][loc_pos[2]] * volt_flux[2][loc_pos[0]][loc_pos[1]][loc_pos[2]]; m_Eng->Engine::SetVolt(2,pos, volt_flux[2][loc_pos[0]][loc_pos[1]][loc_pos[2]]); } } } break; } case Engine::SSE: { Engine_sse* eng_sse = (Engine_sse*) m_Eng; for (unsigned int lineX=0;lineXm_StartPos[0]; for (loc_pos[1]=0;loc_pos[1]m_numLines[1];++loc_pos[1]) { pos[1] = loc_pos[1] + m_Op_UPML->m_StartPos[1]; for (loc_pos[2]=0;loc_pos[2]m_numLines[2];++loc_pos[2]) { pos[2] = loc_pos[2] + m_Op_UPML->m_StartPos[2]; volt[0][loc_pos[0]][loc_pos[1]][loc_pos[2]] = m_Op_UPML->vv[0][loc_pos[0]][loc_pos[1]][loc_pos[2]] * eng_sse->Engine_sse::GetVolt(0,pos) - m_Op_UPML->vvfo[0][loc_pos[0]][loc_pos[1]][loc_pos[2]] * volt_flux[0][loc_pos[0]][loc_pos[1]][loc_pos[2]]; eng_sse->Engine_sse::SetVolt(0,pos, volt_flux[0][loc_pos[0]][loc_pos[1]][loc_pos[2]]); volt[1][loc_pos[0]][loc_pos[1]][loc_pos[2]] = m_Op_UPML->vv[1][loc_pos[0]][loc_pos[1]][loc_pos[2]] * eng_sse->Engine_sse::GetVolt(1,pos) - m_Op_UPML->vvfo[1][loc_pos[0]][loc_pos[1]][loc_pos[2]] * volt_flux[1][loc_pos[0]][loc_pos[1]][loc_pos[2]]; eng_sse->Engine_sse::SetVolt(1,pos, volt_flux[1][loc_pos[0]][loc_pos[1]][loc_pos[2]]); volt[2][loc_pos[0]][loc_pos[1]][loc_pos[2]] = m_Op_UPML->vv[2][loc_pos[0]][loc_pos[1]][loc_pos[2]] * eng_sse->Engine_sse::GetVolt(2,pos) - m_Op_UPML->vvfo[2][loc_pos[0]][loc_pos[1]][loc_pos[2]] * volt_flux[2][loc_pos[0]][loc_pos[1]][loc_pos[2]]; eng_sse->Engine_sse::SetVolt(2,pos, volt_flux[2][loc_pos[0]][loc_pos[1]][loc_pos[2]]); } } } break; } default: { for (unsigned int lineX=0;lineXm_StartPos[0]; for (loc_pos[1]=0;loc_pos[1]m_numLines[1];++loc_pos[1]) { pos[1] = loc_pos[1] + m_Op_UPML->m_StartPos[1]; for (loc_pos[2]=0;loc_pos[2]m_numLines[2];++loc_pos[2]) { pos[2] = loc_pos[2] + m_Op_UPML->m_StartPos[2]; volt[0][loc_pos[0]][loc_pos[1]][loc_pos[2]] = m_Op_UPML->vv[0][loc_pos[0]][loc_pos[1]][loc_pos[2]] * m_Eng->GetVolt(0,pos) - m_Op_UPML->vvfo[0][loc_pos[0]][loc_pos[1]][loc_pos[2]] * volt_flux[0][loc_pos[0]][loc_pos[1]][loc_pos[2]]; volt[1][loc_pos[0]][loc_pos[1]][loc_pos[2]] = m_Op_UPML->vv[1][loc_pos[0]][loc_pos[1]][loc_pos[2]] * m_Eng->GetVolt(1,pos) - m_Op_UPML->vvfo[1][loc_pos[0]][loc_pos[1]][loc_pos[2]] * volt_flux[1][loc_pos[0]][loc_pos[1]][loc_pos[2]]; volt[2][loc_pos[0]][loc_pos[1]][loc_pos[2]] = m_Op_UPML->vv[2][loc_pos[0]][loc_pos[1]][loc_pos[2]] * m_Eng->GetVolt(2,pos) - m_Op_UPML->vvfo[2][loc_pos[0]][loc_pos[1]][loc_pos[2]] * volt_flux[2][loc_pos[0]][loc_pos[1]][loc_pos[2]]; m_Eng->SetVolt(0,pos, volt_flux[0][loc_pos[0]][loc_pos[1]][loc_pos[2]]); m_Eng->SetVolt(1,pos, volt_flux[1][loc_pos[0]][loc_pos[1]][loc_pos[2]]); m_Eng->SetVolt(2,pos, volt_flux[2][loc_pos[0]][loc_pos[1]][loc_pos[2]]); } } } break; } } } void Engine_Ext_UPML::DoPostVoltageUpdates(int threadID) { if (m_Eng==NULL) return; if (threadID>=m_NrThreads) return; unsigned int pos[3]; unsigned int loc_pos[3]; switch (m_Eng->GetType()) { case Engine::BASIC: { for (unsigned int lineX=0;lineXm_StartPos[0]; for (loc_pos[1]=0;loc_pos[1]m_numLines[1];++loc_pos[1]) { pos[1] = loc_pos[1] + m_Op_UPML->m_StartPos[1]; for (loc_pos[2]=0;loc_pos[2]m_numLines[2];++loc_pos[2]) { pos[2] = loc_pos[2] + m_Op_UPML->m_StartPos[2]; volt_flux[0][loc_pos[0]][loc_pos[1]][loc_pos[2]] = m_Eng->Engine::GetVolt(0,pos); m_Eng->Engine::SetVolt(0,pos, volt[0][loc_pos[0]][loc_pos[1]][loc_pos[2]] + m_Op_UPML->vvfn[0][loc_pos[0]][loc_pos[1]][loc_pos[2]] * volt_flux[0][loc_pos[0]][loc_pos[1]][loc_pos[2]]); volt_flux[1][loc_pos[0]][loc_pos[1]][loc_pos[2]] = m_Eng->Engine::GetVolt(1,pos); m_Eng->Engine::SetVolt(1,pos, volt[1][loc_pos[0]][loc_pos[1]][loc_pos[2]] + m_Op_UPML->vvfn[1][loc_pos[0]][loc_pos[1]][loc_pos[2]] * volt_flux[1][loc_pos[0]][loc_pos[1]][loc_pos[2]]); volt_flux[2][loc_pos[0]][loc_pos[1]][loc_pos[2]] = m_Eng->Engine::GetVolt(2,pos); m_Eng->Engine::SetVolt(2,pos, volt[2][loc_pos[0]][loc_pos[1]][loc_pos[2]] + m_Op_UPML->vvfn[2][loc_pos[0]][loc_pos[1]][loc_pos[2]] * volt_flux[2][loc_pos[0]][loc_pos[1]][loc_pos[2]]); } } } break; } case Engine::SSE: { Engine_sse* eng_sse = (Engine_sse*) m_Eng; for (unsigned int lineX=0;lineXm_StartPos[0]; for (loc_pos[1]=0;loc_pos[1]m_numLines[1];++loc_pos[1]) { pos[1] = loc_pos[1] + m_Op_UPML->m_StartPos[1]; for (loc_pos[2]=0;loc_pos[2]m_numLines[2];++loc_pos[2]) { pos[2] = loc_pos[2] + m_Op_UPML->m_StartPos[2]; volt_flux[0][loc_pos[0]][loc_pos[1]][loc_pos[2]] = eng_sse->Engine_sse::GetVolt(0,pos); eng_sse->Engine_sse::SetVolt(0,pos, volt[0][loc_pos[0]][loc_pos[1]][loc_pos[2]] + m_Op_UPML->vvfn[0][loc_pos[0]][loc_pos[1]][loc_pos[2]] * volt_flux[0][loc_pos[0]][loc_pos[1]][loc_pos[2]]); volt_flux[1][loc_pos[0]][loc_pos[1]][loc_pos[2]] = eng_sse->Engine_sse::GetVolt(1,pos); eng_sse->Engine_sse::SetVolt(1,pos, volt[1][loc_pos[0]][loc_pos[1]][loc_pos[2]] + m_Op_UPML->vvfn[1][loc_pos[0]][loc_pos[1]][loc_pos[2]] * volt_flux[1][loc_pos[0]][loc_pos[1]][loc_pos[2]]); volt_flux[2][loc_pos[0]][loc_pos[1]][loc_pos[2]] = eng_sse->Engine_sse::GetVolt(2,pos); eng_sse->Engine_sse::SetVolt(2,pos, volt[2][loc_pos[0]][loc_pos[1]][loc_pos[2]] + m_Op_UPML->vvfn[2][loc_pos[0]][loc_pos[1]][loc_pos[2]] * volt_flux[2][loc_pos[0]][loc_pos[1]][loc_pos[2]]); } } } break; } default: { for (unsigned int lineX=0;lineXm_StartPos[0]; for (loc_pos[1]=0;loc_pos[1]m_numLines[1];++loc_pos[1]) { pos[1] = loc_pos[1] + m_Op_UPML->m_StartPos[1]; for (loc_pos[2]=0;loc_pos[2]m_numLines[2];++loc_pos[2]) { pos[2] = loc_pos[2] + m_Op_UPML->m_StartPos[2]; volt_flux[0][loc_pos[0]][loc_pos[1]][loc_pos[2]] = m_Eng->GetVolt(0,pos); volt_flux[1][loc_pos[0]][loc_pos[1]][loc_pos[2]] = m_Eng->GetVolt(1,pos); volt_flux[2][loc_pos[0]][loc_pos[1]][loc_pos[2]] = m_Eng->GetVolt(2,pos); m_Eng->SetVolt(0,pos, volt[0][loc_pos[0]][loc_pos[1]][loc_pos[2]] + m_Op_UPML->vvfn[0][loc_pos[0]][loc_pos[1]][loc_pos[2]] * volt_flux[0][loc_pos[0]][loc_pos[1]][loc_pos[2]]); m_Eng->SetVolt(1,pos, volt[1][loc_pos[0]][loc_pos[1]][loc_pos[2]] + m_Op_UPML->vvfn[1][loc_pos[0]][loc_pos[1]][loc_pos[2]] * volt_flux[1][loc_pos[0]][loc_pos[1]][loc_pos[2]]); m_Eng->SetVolt(2,pos, volt[2][loc_pos[0]][loc_pos[1]][loc_pos[2]] + m_Op_UPML->vvfn[2][loc_pos[0]][loc_pos[1]][loc_pos[2]] * volt_flux[2][loc_pos[0]][loc_pos[1]][loc_pos[2]]); } } } break; } } } void Engine_Ext_UPML::DoPreCurrentUpdates(int threadID) { if (m_Eng==NULL) return; if (threadID>=m_NrThreads) return; unsigned int pos[3]; unsigned int loc_pos[3]; switch (m_Eng->GetType()) { case Engine::BASIC: { for (unsigned int lineX=0;lineXm_StartPos[0]; for (loc_pos[1]=0;loc_pos[1]m_numLines[1];++loc_pos[1]) { pos[1] = loc_pos[1] + m_Op_UPML->m_StartPos[1]; for (loc_pos[2]=0;loc_pos[2]m_numLines[2];++loc_pos[2]) { pos[2] = loc_pos[2] + m_Op_UPML->m_StartPos[2]; curr[0][loc_pos[0]][loc_pos[1]][loc_pos[2]] = m_Op_UPML->ii[0][loc_pos[0]][loc_pos[1]][loc_pos[2]] * m_Eng->Engine::GetCurr(0,pos) - m_Op_UPML->iifo[0][loc_pos[0]][loc_pos[1]][loc_pos[2]] * curr_flux[0][loc_pos[0]][loc_pos[1]][loc_pos[2]]; m_Eng->Engine::SetCurr(0,pos, curr_flux[0][loc_pos[0]][loc_pos[1]][loc_pos[2]]); curr[1][loc_pos[0]][loc_pos[1]][loc_pos[2]] = m_Op_UPML->ii[1][loc_pos[0]][loc_pos[1]][loc_pos[2]] * m_Eng->Engine::GetCurr(1,pos) - m_Op_UPML->iifo[1][loc_pos[0]][loc_pos[1]][loc_pos[2]] * curr_flux[1][loc_pos[0]][loc_pos[1]][loc_pos[2]]; m_Eng->Engine::SetCurr(1,pos, curr_flux[1][loc_pos[0]][loc_pos[1]][loc_pos[2]]); curr[2][loc_pos[0]][loc_pos[1]][loc_pos[2]] = m_Op_UPML->ii[2][loc_pos[0]][loc_pos[1]][loc_pos[2]] * m_Eng->Engine::GetCurr(2,pos) - m_Op_UPML->iifo[2][loc_pos[0]][loc_pos[1]][loc_pos[2]] * curr_flux[2][loc_pos[0]][loc_pos[1]][loc_pos[2]]; m_Eng->Engine::SetCurr(2,pos, curr_flux[2][loc_pos[0]][loc_pos[1]][loc_pos[2]]); } } } break; } case Engine::SSE: { Engine_sse* eng_sse = (Engine_sse*) m_Eng; for (unsigned int lineX=0;lineXm_StartPos[0]; for (loc_pos[1]=0;loc_pos[1]m_numLines[1];++loc_pos[1]) { pos[1] = loc_pos[1] + m_Op_UPML->m_StartPos[1]; for (loc_pos[2]=0;loc_pos[2]m_numLines[2];++loc_pos[2]) { pos[2] = loc_pos[2] + m_Op_UPML->m_StartPos[2]; curr[0][loc_pos[0]][loc_pos[1]][loc_pos[2]] = m_Op_UPML->ii[0][loc_pos[0]][loc_pos[1]][loc_pos[2]] * eng_sse->Engine_sse::GetCurr(0,pos) - m_Op_UPML->iifo[0][loc_pos[0]][loc_pos[1]][loc_pos[2]] * curr_flux[0][loc_pos[0]][loc_pos[1]][loc_pos[2]]; eng_sse->Engine_sse::SetCurr(0,pos, curr_flux[0][loc_pos[0]][loc_pos[1]][loc_pos[2]]); curr[1][loc_pos[0]][loc_pos[1]][loc_pos[2]] = m_Op_UPML->ii[1][loc_pos[0]][loc_pos[1]][loc_pos[2]] * eng_sse->Engine_sse::GetCurr(1,pos) - m_Op_UPML->iifo[1][loc_pos[0]][loc_pos[1]][loc_pos[2]] * curr_flux[1][loc_pos[0]][loc_pos[1]][loc_pos[2]]; eng_sse->Engine_sse::SetCurr(1,pos, curr_flux[1][loc_pos[0]][loc_pos[1]][loc_pos[2]]); curr[2][loc_pos[0]][loc_pos[1]][loc_pos[2]] = m_Op_UPML->ii[2][loc_pos[0]][loc_pos[1]][loc_pos[2]] * eng_sse->Engine_sse::GetCurr(2,pos) - m_Op_UPML->iifo[2][loc_pos[0]][loc_pos[1]][loc_pos[2]] * curr_flux[2][loc_pos[0]][loc_pos[1]][loc_pos[2]]; eng_sse->Engine_sse::SetCurr(2,pos, curr_flux[2][loc_pos[0]][loc_pos[1]][loc_pos[2]]); } } } break; } default: { for (unsigned int lineX=0;lineXm_StartPos[0]; for (loc_pos[1]=0;loc_pos[1]m_numLines[1];++loc_pos[1]) { pos[1] = loc_pos[1] + m_Op_UPML->m_StartPos[1]; for (loc_pos[2]=0;loc_pos[2]m_numLines[2];++loc_pos[2]) { pos[2] = loc_pos[2] + m_Op_UPML->m_StartPos[2]; curr[0][loc_pos[0]][loc_pos[1]][loc_pos[2]] = m_Op_UPML->ii[0][loc_pos[0]][loc_pos[1]][loc_pos[2]] * m_Eng->GetCurr(0,pos) - m_Op_UPML->iifo[0][loc_pos[0]][loc_pos[1]][loc_pos[2]] * curr_flux[0][loc_pos[0]][loc_pos[1]][loc_pos[2]]; curr[1][loc_pos[0]][loc_pos[1]][loc_pos[2]] = m_Op_UPML->ii[1][loc_pos[0]][loc_pos[1]][loc_pos[2]] * m_Eng->GetCurr(1,pos) - m_Op_UPML->iifo[1][loc_pos[0]][loc_pos[1]][loc_pos[2]] * curr_flux[1][loc_pos[0]][loc_pos[1]][loc_pos[2]]; curr[2][loc_pos[0]][loc_pos[1]][loc_pos[2]] = m_Op_UPML->ii[2][loc_pos[0]][loc_pos[1]][loc_pos[2]] * m_Eng->GetCurr(2,pos) - m_Op_UPML->iifo[2][loc_pos[0]][loc_pos[1]][loc_pos[2]] * curr_flux[2][loc_pos[0]][loc_pos[1]][loc_pos[2]]; m_Eng->SetCurr(0,pos, curr_flux[0][loc_pos[0]][loc_pos[1]][loc_pos[2]]); m_Eng->SetCurr(1,pos, curr_flux[1][loc_pos[0]][loc_pos[1]][loc_pos[2]]); m_Eng->SetCurr(2,pos, curr_flux[2][loc_pos[0]][loc_pos[1]][loc_pos[2]]); } } } break; } } } void Engine_Ext_UPML::DoPostCurrentUpdates(int threadID) { if (m_Eng==NULL) return; if (threadID>=m_NrThreads) return; unsigned int pos[3]; unsigned int loc_pos[3]; switch (m_Eng->GetType()) { case Engine::BASIC: { for (unsigned int lineX=0;lineXm_StartPos[0]; for (loc_pos[1]=0;loc_pos[1]m_numLines[1];++loc_pos[1]) { pos[1] = loc_pos[1] + m_Op_UPML->m_StartPos[1]; for (loc_pos[2]=0;loc_pos[2]m_numLines[2];++loc_pos[2]) { pos[2] = loc_pos[2] + m_Op_UPML->m_StartPos[2]; curr_flux[0][loc_pos[0]][loc_pos[1]][loc_pos[2]] = m_Eng->Engine::GetCurr(0,pos); m_Eng->Engine::SetCurr(0,pos, curr[0][loc_pos[0]][loc_pos[1]][loc_pos[2]] + m_Op_UPML->iifn[0][loc_pos[0]][loc_pos[1]][loc_pos[2]] * curr_flux[0][loc_pos[0]][loc_pos[1]][loc_pos[2]]); curr_flux[1][loc_pos[0]][loc_pos[1]][loc_pos[2]] = m_Eng->Engine::GetCurr(1,pos); m_Eng->Engine::SetCurr(1,pos, curr[1][loc_pos[0]][loc_pos[1]][loc_pos[2]] + m_Op_UPML->iifn[1][loc_pos[0]][loc_pos[1]][loc_pos[2]] * curr_flux[1][loc_pos[0]][loc_pos[1]][loc_pos[2]]); curr_flux[2][loc_pos[0]][loc_pos[1]][loc_pos[2]] = m_Eng->Engine::GetCurr(2,pos); m_Eng->Engine::SetCurr(2,pos, curr[2][loc_pos[0]][loc_pos[1]][loc_pos[2]] + m_Op_UPML->iifn[2][loc_pos[0]][loc_pos[1]][loc_pos[2]] * curr_flux[2][loc_pos[0]][loc_pos[1]][loc_pos[2]]); } } } break; } case Engine::SSE: { Engine_sse* eng_sse = (Engine_sse*) m_Eng; for (unsigned int lineX=0;lineXm_StartPos[0]; for (loc_pos[1]=0;loc_pos[1]m_numLines[1];++loc_pos[1]) { pos[1] = loc_pos[1] + m_Op_UPML->m_StartPos[1]; for (loc_pos[2]=0;loc_pos[2]m_numLines[2];++loc_pos[2]) { pos[2] = loc_pos[2] + m_Op_UPML->m_StartPos[2]; curr_flux[0][loc_pos[0]][loc_pos[1]][loc_pos[2]] = eng_sse->Engine_sse::GetCurr(0,pos); eng_sse->Engine_sse::SetCurr(0,pos, curr[0][loc_pos[0]][loc_pos[1]][loc_pos[2]] + m_Op_UPML->iifn[0][loc_pos[0]][loc_pos[1]][loc_pos[2]] * curr_flux[0][loc_pos[0]][loc_pos[1]][loc_pos[2]]); curr_flux[1][loc_pos[0]][loc_pos[1]][loc_pos[2]] = eng_sse->Engine_sse::GetCurr(1,pos); eng_sse->Engine_sse::SetCurr(1,pos, curr[1][loc_pos[0]][loc_pos[1]][loc_pos[2]] + m_Op_UPML->iifn[1][loc_pos[0]][loc_pos[1]][loc_pos[2]] * curr_flux[1][loc_pos[0]][loc_pos[1]][loc_pos[2]]); curr_flux[2][loc_pos[0]][loc_pos[1]][loc_pos[2]] = eng_sse->Engine_sse::GetCurr(2,pos); eng_sse->Engine_sse::SetCurr(2,pos, curr[2][loc_pos[0]][loc_pos[1]][loc_pos[2]] + m_Op_UPML->iifn[2][loc_pos[0]][loc_pos[1]][loc_pos[2]] * curr_flux[2][loc_pos[0]][loc_pos[1]][loc_pos[2]]); } } } break; } default: { for (unsigned int lineX=0;lineXm_StartPos[0]; for (loc_pos[1]=0;loc_pos[1]m_numLines[1];++loc_pos[1]) { pos[1] = loc_pos[1] + m_Op_UPML->m_StartPos[1]; for (loc_pos[2]=0;loc_pos[2]m_numLines[2];++loc_pos[2]) { pos[2] = loc_pos[2] + m_Op_UPML->m_StartPos[2]; curr_flux[0][loc_pos[0]][loc_pos[1]][loc_pos[2]] = m_Eng->GetCurr(0,pos); curr_flux[1][loc_pos[0]][loc_pos[1]][loc_pos[2]] = m_Eng->GetCurr(1,pos); curr_flux[2][loc_pos[0]][loc_pos[1]][loc_pos[2]] = m_Eng->GetCurr(2,pos); m_Eng->SetCurr(0,pos, curr[0][loc_pos[0]][loc_pos[1]][loc_pos[2]] + m_Op_UPML->iifn[0][loc_pos[0]][loc_pos[1]][loc_pos[2]] * curr_flux[0][loc_pos[0]][loc_pos[1]][loc_pos[2]]); m_Eng->SetCurr(1,pos, curr[1][loc_pos[0]][loc_pos[1]][loc_pos[2]] + m_Op_UPML->iifn[1][loc_pos[0]][loc_pos[1]][loc_pos[2]] * curr_flux[1][loc_pos[0]][loc_pos[1]][loc_pos[2]]); m_Eng->SetCurr(2,pos, curr[2][loc_pos[0]][loc_pos[1]][loc_pos[2]] + m_Op_UPML->iifn[2][loc_pos[0]][loc_pos[1]][loc_pos[2]] * curr_flux[2][loc_pos[0]][loc_pos[1]][loc_pos[2]]); } } } break; } } }