/* This file is part of Lemma, a geophysical modelling and inversion API. * More information is available at http://lemmasoftware.org */ /* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ /** * @file * @date 11/11/2016 01:47:34 PM * @author Trevor Irons (ti) * @email tirons@egi.utah.edu * @copyright Copyright (c) 2016, University of Utah * @copyright Copyright (c) 2016, Lemma Software, LLC * @copyright Copyright (c) 2008, Colorado School of Mines */ #ifndef KERNELV0_INC #define KERNELV0_INC #pragma once #include "LemmaObject.h" #include "LayeredEarthEM.h" #include "PolygonalWireAntenna.h" #include "EMEarth1D.h" #ifdef LEMMAUSEVTK #include "vtkHyperOctree.h" #include "vtkHyperOctreeCursor.h" #include "vtkXMLHyperOctreeWriter.h" #include "vtkDoubleArray.h" #endif namespace Lemma { struct EllipticB { Vector3r bhat; Vector3r bhatp; Real alpha; Real beta; Complex eizt; Real zeta; }; template int sgn(T val) { return (val > T(0)) - (val < T(0)); } /** * \ingroup Merlin * \brief * \details */ class KernelV0 : public LemmaObject { friend std::ostream &operator<<(std::ostream &stream, const KernelV0 &ob); protected: /* * This key is used to lock the constructor. It is protected so that inhereted * classes also have the key to contruct their base class. */ struct ctor_key {}; public: // ==================== LIFECYCLE ======================= /** * Default constructor. * @note This method is locked, and cannot be called directly. * The reason that the method is public is to enable the use * of make_shared whilst enforcing the use of shared_ptr, * in c++-17, this curiosity may be resolved. * @see KernelV0::NewSP */ explicit KernelV0 ( const ctor_key& ); /** * DeSerializing constructor. * @note This method is locked, and cannot be called directly. * The reason that the method is public is to enable the use * of make_shared whilst enforcing the use of shared_ptr, * in c++-17, this curiosity may be resolved. * @see KernelV0::DeSerialize */ KernelV0 ( const YAML::Node& node, const ctor_key& ); /** * Default destructor. * @note This method should never be called due to the mandated * use of smart pointers. It is necessary to keep the method * public in order to allow for the use of the more efficient * make_shared constructor. */ virtual ~KernelV0 (); /** * Uses YAML to serialize this object. * @return a YAML::Node * @see KernelV0::DeSerialize */ virtual YAML::Node Serialize() const; /* * Factory method for generating concrete class. * @return a std::shared_ptr of type KernelV0 */ static std::shared_ptr< KernelV0 > NewSP(); /** * Constructs an KernelV0 object from a YAML::Node. * @see KernelV0::Serialize */ static std::shared_ptr DeSerialize(const YAML::Node& node); // ==================== OPERATORS ======================= // ==================== OPERATIONS ======================= /** * @return std::shared_ptr */ inline std::shared_ptr GetSigmaModel ( ) { return SigmaModel; } // ----- end of method KernelV0::get_SigmaModel ----- /** * @param[in] value the 1D-EM model used for calculations */ inline void SetLayeredEarthEM ( std::shared_ptr< LayeredEarthEM > value ) { SigmaModel = value; return ; } // ----- end of method KernelV0::set_SigmaModel ----- /** * */ inline void SetIntegrationSize ( const Vector3r& size ) { Size = size; return ; } // ----- end of method KernelV0::SetIntegrationSize ----- /** * */ inline void SetIntegrationOrigin ( const Vector3r& origin ) { Origin = origin; return ; } // ----- end of method KernelV0::SetIntegrationOrigin ----- /** * */ inline void SetPulseCurrent ( const VectorXr& Amps ) { PulseI = Amps; return ; } // ----- end of method KernelV0::SetIntegrationOrigin ----- /** * Assign transmiter coils */ inline void PushCoil( const std::string& label, std::shared_ptr ant ) { TxRx[label] = ant; } /** * Calculates a single imaging kernel, however, phased arrays are supported * so that more than one transmitter and/or receiver can be specified. * @param[in] tx is the list of transmitters to use for a kernel, use the same labels as * used in PushCoil. * @param[in] rx is the list of receivers to use for a kernel, use the same labels as * used in PushCoil. @see PushCoil * @param[in] vtkOutput generates a VTK hyperoctree file as well, useful for visualization. * requires compilation of Lemma with VTK. */ void CalculateK0 (const std::vector< std::string >& tx, const std::vector< std::string >& rx, bool vtkOutput=false ); /** * Sets the temperature, which has implications in calculation of \f$ M_N^{(0)}\f$. Units in * Kelvin. */ inline void SetTemperature(const Real& tempK) { Temperature = tempK; } /** * Sets the tolerance to use for making the adaptive mesh * */ inline void SetTolerance(const Real& ttol) { tol = ttol; } inline void SetPulseDuration(const Real& taup) { Taup = taup; } inline void SetDepthLayerInterfaces( const VectorXr& iface ){ Interfaces = iface; } // ==================== INQUIRY ======================= /** * Returns the name of the underlying class, similiar to Python's type * @return string of class name */ virtual inline std::string GetName() const { return CName; } protected: // ==================== LIFECYCLE ======================= /** Copy is disabled */ KernelV0( const KernelV0& ) = delete; private: /** * Returns the kernel value for an input prism */ VectorXcr f( const Vector3r& r, const Real& volume , const Vector3cr& Ht, const Vector3cr& Hr); // Complex ComputeV0Cell(const EllipticB& EBT, const EllipticB& EBR, // const Real& sintheta, const Real& phase, const Real& Mn0Abs, // const Real& vol); EllipticB EllipticFieldRep (const Vector3cr& B, const Vector3r& B0hat); Vector3r ComputeMn0(const Real& Porosity, const Vector3r& B0); void IntegrateOnOctreeGrid( bool vtkOutput=false ); /** * Recursive call to integrate a function on an adaptive Octree Grid. * For efficiency's sake the octree grid is not stored, as only the * integral (sum) is of interest. The logic for grid refinement is based * on an Octree representation of the domain. If an Octree representation * of the kernel is desired, call alternative version @see EvaluateKids2 * @param[in] size gives the domain size, in metres * @param[in] level gives the current level of the octree grid, call with 0 initially * @param[in] cpos is the centre position of the parent cuboid */ void EvaluateKids( const Vector3r& size, const int& level, const Vector3r& cpos, const VectorXcr& parentVal ); #ifdef LEMMAUSEVTK /** * Same functionality as @see EvaluateKids, but includes generation of a VTK * HyperOctree, which is useful for visualization. */ void EvaluateKids2( const Vector3r& size, const int& level, const Vector3r& cpos, const VectorXcr& parentVal, vtkHyperOctree* octree, vtkHyperOctreeCursor* curse ); void GetPosition( vtkHyperOctreeCursor* Cursor, Real* p ); #endif // ==================== DATA MEMBERS ========================= int ilay; int nleaves; int minLevel=4; int maxLevel=8; Real VOLSUM; Real tol=1e-11; Real Temperature=283.; Real Taup = .020; // Sec Real Larmor; Vector3r Size; Vector3r Origin; VectorXr PulseI; VectorXr Interfaces; MatrixXcr Kern; std::shared_ptr< LayeredEarthEM > SigmaModel = nullptr; std::shared_ptr< FieldPoints > cpoints; std::map< std::string , std::shared_ptr< PolygonalWireAntenna > > TxRx; std::map< std::string , std::shared_ptr< EMEarth1D > > EMEarths; #ifdef LEMMAUSEVTK std::map< int, VectorXcr > LeafDict; std::map< int, int > LeafDictIdx; std::map< int, Real > LeafDictErr; #endif // Physical constants and conversion factors static constexpr Real GAMMA = 2.67518e8; // MKS units static constexpr Real INVSQRT2 = 0.70710678118654746; static constexpr Real HBAR = 1.05457148e-34; // m2 kg / s static constexpr Real NH2O = 6.692e28; // [m^3] static constexpr Real KB = 1.3805e-23; // m^2 kg s-2 K-1 static constexpr Real CHI_N = 3.29e-3; // MKS units /** ASCII string representation of the class name */ static constexpr auto CName = "KernelV0"; }; // ----- end of class KernelV0 ----- } // ----- end of namespace Lemma ---- /* vim: set tabstop=4 expandtab */ /* vim: set filetype=cpp */ #endif // ----- #ifndef KERNELV0_INC -----