/* * 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 "operator_cylindermultigrid.h" #include "engine_cylindermultigrid.h" #include "operator_ext_cylinder.h" #include "tools/useful.h" Operator_CylinderMultiGrid::Operator_CylinderMultiGrid(vector Split_Radii) : Operator_Cylinder() { m_Split_Radii = Split_Radii; m_Split_Rad = m_Split_Radii.back(); m_Split_Radii.pop_back(); } Operator_CylinderMultiGrid::~Operator_CylinderMultiGrid() { } Operator_CylinderMultiGrid* Operator_CylinderMultiGrid::New(vector Split_Radii, unsigned int numThreads) { cout << "Create cylindrical multi grid FDTD operator " << endl; Operator_CylinderMultiGrid* op = new Operator_CylinderMultiGrid(Split_Radii); op->setNumThreads(numThreads); op->Init(); return op; } Engine* Operator_CylinderMultiGrid::CreateEngine() const { Engine_CylinderMultiGrid* eng = Engine_CylinderMultiGrid::New(this,m_numThreads); return eng; } double Operator_CylinderMultiGrid::GetNumberCells() const { if (numLines) return (numLines[0]-m_Split_Pos)*(numLines[1])*(numLines[2]) + m_InnerOp->GetNumberCells(); return 0; } bool Operator_CylinderMultiGrid::SetGeometryCSX(ContinuousStructure* geo) { if (Operator_Cylinder::SetGeometryCSX(geo)==false) return false; if (numLines[1]%2 != 1) { cerr << "Operator_CylinderMultiGrid::SetGeometryCSX: Error, number of line in alpha direction must be odd... found: " << numLines[1] << endl; exit(0); } //check if mesh is homogenous in alpha-direction double diff=discLines[1][1]-discLines[1][0]; for (unsigned int n=2;n 1e-10) { cerr << "Operator_CylinderMultiGrid::SetGeometryCSX: Error, mesh has to be homogenous in alpha direction for multi grid engine, violation found at: " << n << endl; exit(0); } } m_Split_Pos = 0; for (unsigned int n=0;nnumLines[0]-4)) { cerr << "Operator_CylinderMultiGrid::SetGeometryCSX: Error, split invalid..." << endl; return false; } CSRectGrid* grid = geo->GetGrid(); grid->ClearLines(0); grid->ClearLines(1); for (unsigned int n=0; nAddDiscLine(0,discLines[0][n]); for (unsigned int n=0; nAddDiscLine(1,discLines[1][n]); if (m_InnerOp->SetGeometryCSX(CSX)==false) return false; //restore grid to original mesh grid->ClearLines(0); grid->ClearLines(1); for (unsigned int n=0; nAddDiscLine(0,discLines[0][n]); for (unsigned int n=0; nAddDiscLine(1,discLines[1][n]); return true; } void Operator_CylinderMultiGrid::Init() { Operator_Cylinder::Init(); if (m_Split_Radii.empty()) m_InnerOp = Operator_Cylinder::New(m_numThreads); else m_InnerOp = Operator_CylinderMultiGrid::New(m_Split_Radii,m_numThreads); } void Operator_CylinderMultiGrid::CalcStartStopLines(unsigned int &numThreads, vector &start, vector &stop) const { vector jpt = AssignJobs2Threads(numLines[0]- m_Split_Pos + 1, numThreads, true); numThreads = jpt.size(); start.resize(numThreads); stop.resize(numThreads); start.at(0)= m_Split_Pos-1; stop.at(0)= jpt.at(0)-1 + m_Split_Pos-1; for (unsigned int n=1; nSetTimestep(dT); //calc inner child first m_InnerOp->CalcECOperator(); dT = m_InnerOp->GetTimestep(); retCode = Operator_Cylinder::CalcECOperator(); if (GetTimestepValid()==false) { cerr << "Operator_CylinderMultiGrid::CalcECOperator(): Warning, timestep invalid... resetting..." << endl; dT = opt_dT; m_InnerOp->SetTimestep(dT); m_InnerOp->CalcECOperator(); return Operator_Cylinder::CalcECOperator(); } return retCode; } bool Operator_CylinderMultiGrid::SetupExcitation(TiXmlElement* Excite, unsigned int maxTS) { if (!m_InnerOp->SetupExcitation(Excite,maxTS)) return false; return Exc->setupExcitation(Excite,maxTS); } void Operator_CylinderMultiGrid::Reset() { Operator_Cylinder::Reset(); m_InnerOp->Reset(); } void Operator_CylinderMultiGrid::SetBoundaryCondition(int* BCs) { Operator_Cylinder::SetBoundaryCondition(BCs); int oldBC = BCs[1]; BCs[1] = 0; //always PEC in +r-direction m_InnerOp->SetBoundaryCondition(BCs); BCs[1] = oldBC; } void Operator_CylinderMultiGrid::AddExtension(Operator_Extension* op_ext) { //check whether extension is save to use in multi-grid if (op_ext->IsCylindricalMultiGridSave(false)==false) { cerr << "Operator_CylinderMultiGrid::AddExtension: Warning: Operator extension \"" << op_ext->GetExtensionName() << "\" is not compatible with cylindrical multi-grids!! skipping...!" << endl; return; } Operator_Cylinder::AddExtension(op_ext); // cylinder extension does not need to be cloned, it will be created by each operator of its own... if (dynamic_cast(op_ext)) return; //check whether extension is save to use in child multi-grid if (op_ext->IsCylindricalMultiGridSave(true)) { Operator_Extension* child_Ext = op_ext->Clone(m_InnerOp); if (child_Ext==NULL) { cerr << "Operator_CylinderMultiGrid::AddExtension: Warning, extension: " << op_ext->GetExtensionName() << " can not be cloned for the child operator. Skipping Extension... " << endl; return; } //give the copy to child m_InnerOp->AddExtension(child_Ext); } } void Operator_CylinderMultiGrid::ShowStat() const { m_InnerOp->ShowStat(); m_InnerOp->ShowExtStat(); Operator_Cylinder::ShowStat(); }