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- /* This file is part of Lemma, a geophysical modelling and inversion API */
-
- /* 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
- @author Trevor Irons
- @date 05/18/2012
- **/
-
- #ifndef KERNELEM1DREFLSPEC_INC
- #define KERNELEM1DREFLSPEC_INC
-
- #include "DipoleSource.h"
- #include "KernelEM1DReflBase.h"
- #include "LayeredEarthEM.h"
-
- namespace Lemma {
-
- // forward declaration for friend
- //template<EMMODE Mode, int Ikernel, DIPOLE_LOCATION Isource, DIPOLE_LOCATION Irecv>
- //class KernelEM1DSpec;
-
- // ===================================================================
- // Class: KernelEM1DReflSpec
- /**
- @class
- \ingroup FDEM1D
- \brief Specialized version of KernelEM1DReflBase
- \details Through use of template specialisations, this KernelEm1D
- class delivers much better performance. This class is internal
- to Lemma, you should never need to instantiate it. The constructors
- are public to allow make_shared. Additonally, this class is not
- serializable.
- */
- // ===================================================================
- template<EMMODE Mode, DIPOLE_LOCATION Isource, DIPOLE_LOCATION Irecv>
- class KernelEM1DReflSpec : public KernelEM1DReflBase {
-
- public:
-
- //template<EMMODE Mode2, int Ikernel2, DIPOLE_LOCATION Isource2, DIPOLE_LOCATION Irecv2>
- //friend class KernelEM1DSpec;
-
- friend class KernelEM1DManager;
-
- // ==================== LIFECYCLE =======================
-
- /// Default locked constructor.
- explicit KernelEM1DReflSpec ( const ctor_key& key ) : KernelEM1DReflBase( key ) {
- }
-
- /// Default protected constructor.
- ~KernelEM1DReflSpec () {
- }
-
- static std::shared_ptr<KernelEM1DReflSpec<Mode, Isource, Irecv> > NewSP() {
- return std::make_shared<KernelEM1DReflSpec<Mode, Isource, Irecv> >( ctor_key() );
- }
-
- // ==================== OPERATORS =======================
-
- // ==================== OPERATIONS =======================
-
- // ==================== ACCESS =======================
-
- // ==================== INQUIRY =======================
-
- virtual std::string GetName() {
- return CName;
- }
-
- protected:
- private:
-
- // ==================== LIFECYCLE =======================
-
- // ==================== OPERATIONS =======================
-
- /** Computes reflection coefficients. Depending on the
- * specialisation, this will either be TM or TE mode.
- */
- void ComputeReflectionCoeffs(const Real &lambda);
-
- /* Computes reflection coefficients. Depending on the
- * specialisation, this will either be TM or TE mode. This method
- * stores previous results in a struct. For a given index, and
- * lambda, the result will be the same. Turned out to be of limited utility.
- */
- //void ComputeReflectionCoeffs(const Real &lambda, const int& idx);
-
- /** Precomputes expensive calculations that are reused by insances
- * of KernelEM1DSpec in the calculation of Related potentials. This
- * method is specialised based on template parameters
- */
- void PreComputePotentialTerms();
-
- /*
- * Sets the cache in CACHE to use. Somewhat expensive, avoid calling in tight loops
- */
- //void SetTCache(const Real& rho0);
-
- // ==================== DATA MEMBERS =========================
-
- static constexpr auto CName = "KernelEM1DSpec";
-
- }; // ----- end of class KernelEM1DReflSpec -----
-
- //template<EMMODE Mode, DIPOLE_LOCATION Isource, DIPOLE_LOCATION Irecv>
- //std::unordered_map<Real, cache> KernelEM1DReflSpec<Mode, Isource, Irecv>::CACHE;
-
- //template<EMMODE Mode, DIPOLE_LOCATION Isource, DIPOLE_LOCATION Irecv>
- //cache* KernelEM1DReflSpec<Mode, Isource, Irecv>::tcache;
-
- ///////////////////////////////////////////////
- // Declarations of specialisations
-
- template<>
- void KernelEM1DReflSpec<TM, INAIR, INAIR>::ComputeReflectionCoeffs(const Real& lambda);
-
- template<>
- void KernelEM1DReflSpec<TE, INAIR, INAIR>::ComputeReflectionCoeffs(const Real& lambda);
-
- template<>
- void KernelEM1DReflSpec<TM, INAIR, INGROUND>::ComputeReflectionCoeffs(const Real& lambda);
-
- template<>
- void KernelEM1DReflSpec<TE, INAIR, INGROUND>::ComputeReflectionCoeffs(const Real& lambda);
-
- template<>
- void KernelEM1DReflSpec<TM, INAIR, INAIR>::PreComputePotentialTerms( );
-
- template<>
- void KernelEM1DReflSpec<TE, INAIR, INAIR>::PreComputePotentialTerms( );
-
- template<>
- void KernelEM1DReflSpec<TM, INAIR, INGROUND>::PreComputePotentialTerms( );
-
- template<>
- void KernelEM1DReflSpec<TE, INAIR, INGROUND>::PreComputePotentialTerms( );
-
- ///////////////////////////////////////////////
- // Default mode definitions
- template<EMMODE Mode, DIPOLE_LOCATION Isource, DIPOLE_LOCATION Irecv>
- void KernelEM1DReflSpec<Mode, Isource, Irecv>::ComputeReflectionCoeffs(const Real& lambda) {
- static bool called = false;
- if (!called) {
- std::cout << "unspecialised Reflection function KernelEM1DReflSpec<"
- << Mode << ", " << Isource << ", "
- << Irecv << " >::ComputeReflectionCoeffs( const Real& lambda ) --> SLOW PERFORMANCE EXPECTED\n";
- called = true;
- }
-
- rams = lambda*lambda;
- //////////////////////////////////////////
- // Compute TEM stuff
-
- // This call to sqrt takes ~ 15% of execution time
- u = (rams-kk.array()).sqrt();
- uk = u(lays);
- um = u(layr);
-
- switch (Mode) {
-
- // TM mode
- case (TM):
- Zyu(1) = -u(0)/yh(0);
- Zyi = u.array() / yh.array();
- break;
-
- // TE mode
- case (TE):
- Zyu(1) = -u(0)/zh(0);
- Zyi = u.array() / zh.array();
- break;
-
- default:
- throw 11; //IllegalMode(this);
- }
-
- Zyd.tail<1>() = Zyi.tail<1>();
-
- for (int ilay=1; ilay<nlay-1; ++ilay) {
- cf(ilay) =
- std::exp(-(Real)(2.)*u(ilay)*LayerThickness(ilay));
- th(ilay) = ((Real)(1.)-cf(ilay)) / ((Real)(1.)+cf(ilay));
- }
-
- // Can't use blocks, b/c recursive
- for (int N=1; N<lays; ++N){
- Zyu(N+1)=Zyi(N)*(Zyu(N)-Zyi(N)*th(N)) /
- (Zyi(N)-Zyu(N)*th(N)) ;
- }
-
- int ne = nlay-2;
- for (int N=ne; N >=lays+1; --N) {
- Zyd(N) = Zyi(N)*(Zyd(N+1)+Zyi(N)*th(N)) /
- (Zyi(N)+Zyd(N+1)*th(N)) ;
- }
-
- rtd(nlay-1) = 0;
-
- if (layr < lays) {
- // Receiver above source layer
- int ls = layr;
- if (ls == 0) {
- ls = layr+1;
- }
- for (int N=ls; N<=lays; ++N) {
- rtu(N)= (Zyi(N)+Zyu(N)) /
- (Zyi(N)-Zyu(N)) ;
- }
- if (lays < nlay-1) {
- rtd(lays) = (Zyi(lays)-Zyd(lays+1)) /
- (Zyi(lays)+Zyd(lays+1)) ;
- }
- } else {
- // RECEIVER IN OR BELOW THE SOURCE LAYER
- if (lays == layr) { // Rx In source Layer
- if (layr == 0) {
- rtd(0) = (Zyu(1)+Zyd(1)) /
- (Zyu(1)-Zyd(1)) ;
- } else if (layr == nlay-1) {
- rtu(nlay-1) = (Zyi(nlay-1)+Zyu(nlay-1)) /
- (Zyi(nlay-1)-Zyu(nlay-1)) ;
- } else {
- rtu(layr) = (Zyi(layr)+Zyu(layr)) /
- (Zyi(layr)-Zyu(layr)) ;
- rtd(layr) = (Zyi(layr)-Zyd(layr+1)) /
- (Zyi(layr)+Zyd(layr+1)) ;
- }
- } else { // receiver below source layer
- if (lays == 0) {
- rtd(0) = (Zyu(1)+Zyd(1)) /
- (Zyu(1)-Zyd(1)) ;
- } else {
- rtu(lays) = (Zyi(lays)+Zyu(lays)) /
- (Zyi(lays)-Zyu(lays)) ;
- }
- int le = layr;
- if (le == nlay-1) --le;
- int ls = lays;
- if (lays == 0 ) ++ls;
-
- // TODO use blocks to vectorize maybe?
- // This works but gives same to slightly worse
- // performance as loop.
- // int nn = le-ls+1;
- // rtd.segment(ls, nn) =
- // (Zyi.segment(ls , nn).array() -
- // Zyd.segment(ls+1, nn).array()).array() /
- // (Zyi.segment(ls , nn).array() +
- // Zyd.segment(ls+1, nn).array()).array() ;
- for (int N=ls; N<=le; ++N) {
- rtd(N) = (Zyi(N)-Zyd(N+1)) /
- (Zyi(N)+Zyd(N+1)) ;
- }
- }
- } // End in or below source layer
- return;
- }
-
- template<EMMODE Mode, DIPOLE_LOCATION Isource, DIPOLE_LOCATION Irecv>
- void KernelEM1DReflSpec<Mode, Isource, Irecv>::PreComputePotentialTerms( ) {
- static bool called = false;
- if (!called) {
- std::cerr << "unspecialised function KernelEM1DReflSpec<"
- << Mode << ", " << Isource << ", "
- << Irecv << " >::PreComputePotentialTerms\n";
- called = true;
- }
- }
-
-
- } // ----- end of Lemma name -----
-
- #endif // ----- #ifndef KERNELEM1DREFLSPEC_INC -----
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