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- /* 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 22/04/19 14:06:32
- * @version $Id$
- * @author Trevor Irons (ti)
- * @email Trevor.Irons@utah.edu
- * @copyright Copyright (c) 2019, University of Utah
- * @copyright Copyright (c) 2019, Lemma Software, LLC
- */
-
- #include <pybind11/pybind11.h>
- #include <pybind11/iostream.h>
- #include <pybind11/stl.h>
- #include <pybind11/complex.h>
- #include <pybind11/eigen.h>
- #include "Merlin"
-
- namespace py = pybind11;
-
- PYBIND11_MODULE(Merlin, m) {
-
- py::add_ostream_redirect(m, "ostream_redirect");
-
- m.doc() = "Python binding of Lemma::Merlin, additional details can be found at https://lemmasoftware.org";
-
- py::class_<Lemma::KernelV0, std::shared_ptr<Lemma::KernelV0> > KernelV0(m, "KernelV0");
-
- // lifecycle
- KernelV0.def(py::init(&Lemma::KernelV0::NewSP))
- .def_static("DeSerialize", py::overload_cast<const std::string&>(&Lemma::KernelV0::DeSerialize),
- "Construct object from yaml representation")
-
- // print
- .def("Serialize", &Lemma::KernelV0::Print, "YAML representation of the class")
- .def("__repr__", &Lemma::KernelV0::Print)
-
- // modifiers
- .def("PushCoil", &Lemma::KernelV0::PushCoil, "Adds a coil to the sNMR instrument")
- .def("SetLayeredEarthEM", &Lemma::KernelV0::SetLayeredEarthEM, "Sets the EM model used in kernel calculation")
- .def("SetIntegrationSize", &Lemma::KernelV0::SetIntegrationSize, "Sets the size of the volume to integrate the kernel")
- .def("SetIntegrationOrigin", &Lemma::KernelV0::SetIntegrationOrigin, "Sets the origin of the integration volume")
- .def("SetPulseCurrent", &Lemma::KernelV0::SetPulseCurrent, "Sets the current of the pulses")
- .def("SetTemperature", &Lemma::KernelV0::SetTemperature, "Sets the temperature, in K")
- .def("SetTolerance", &Lemma::KernelV0::SetTolerance, "Sets the tolerance used in octree splitting")
- .def("SetPulseDuration", &Lemma::KernelV0::SetPulseDuration, "Sets the duration of the pulse")
- .def("SetDepthLayerInterfaces", &Lemma::KernelV0::SetDepthLayerInterfaces, "Sets the layer depth interfaces")
-
- // accessors
- .def("GetName", &Lemma::KernelV0::GetName, "Returns the name of the class")
- .def("GetSigmaModel", &Lemma::KernelV0::GetSigmaModel, "Returns the conductivity model")
- .def("GetKernel", &Lemma::KernelV0::GetKernel, "Returns the imaging kernel in matrix form")
- .def("GetTolerance", &Lemma::KernelV0::GetTolerance, "Returns the tolerance which was used to construct the kernel")
- .def("GetInterfaces", &Lemma::KernelV0::GetInterfaces, "Returns the layer interfaces")
- .def("GetPulseCurrent", &Lemma::KernelV0::GetPulseCurrent, "Returns the pulse current")
- .def("GetPulseDuration", &Lemma::KernelV0::GetPulseDuration, "Returns the length of the pulse moment")
-
- // operations
- .def("CalculateK0", &Lemma::KernelV0::CalculateK0, "Calculates an intial amplitude kernel")
-
- //.def("AlignWithAkvoDataset", &Lemma::KernelV0::AlignWithAkvoDataset, "Aligns the kernel parameters with a dataset")
-
-
-
- ;
- //
- // py::class_<Lemma::PolygonalWireAntenna, std::shared_ptr<Lemma::PolygonalWireAntenna> > PolygonalWireAntenna(m,
- // "PolygonalWireAntenna", KernelV0);
- //
- // // lifecycle
- // PolygonalWireAntenna.def(py::init(&Lemma::PolygonalWireAntenna::NewSP))
- // .def_static("DeSerialize", py::overload_cast<const std::string&>(&Lemma::PolygonalWireAntenna::DeSerialize),
- // "Construct object from yaml representation")
- //
- // // print
- // .def("__repr__", &Lemma::PolygonalWireAntenna::Print)
- // .def("Serialize", &Lemma::PolygonalWireAntenna::Print, "YAML representation of the class")
- //
- // // accessors
- // .def("GetName", &Lemma::PolygonalWireAntenna::GetName, "Returns the name of the class")
- //
- // // operations
- // .def("ApproximateWithElectricDipoles", &Lemma::PolygonalWireAntenna::ApproximateWithElectricDipoles,
- // "Approximates loop with series of electric dipoles around loop")
- //
- // // modifiers
- // .def("SetMinDipoleRatio", &Lemma::PolygonalWireAntenna::SetMinDipoleRatio,
- // "Sets the minimum dipole ratio use, smaller values increase precision")
- // .def("SetMinDipoleMoment", &Lemma::PolygonalWireAntenna::SetMinDipoleMoment,
- // "Sets the minimum dipole moment which will be used, smaller values increase precision and computational time")
- // .def("SetMaxDipoleMoment", &Lemma::PolygonalWireAntenna::SetMaxDipoleMoment,
- // "Sets the maximum dipole moment which will be used, smaller values increase precision and computational time")
- // ;
- //
- // py::class_<Lemma::DipoleSource, std::shared_ptr<Lemma::DipoleSource> > DipoleSource(m, "DipoleSource");
- //
- // // lifecycle
- // DipoleSource.def(py::init(&Lemma::DipoleSource::NewSP))
- // .def_static("DeSerialize", py::overload_cast<const std::string&>(&Lemma::DipoleSource::DeSerialize),
- // "Construct object from yaml representation")
- //
- // // print
- // .def("Serialize", &Lemma::DipoleSource::Print, "YAML representation of the class")
- // .def("__repr__", &Lemma::DipoleSource::Print)
- //
- // // accessors
- // .def("GetName", &Lemma::DipoleSource::GetName, "Returns the name of the class")
- // .def("GetNumberOfFrequencies", &Lemma::DipoleSource::GetNumberOfFrequencies,
- // "Returns the number of frequencies")
- // .def("GetFrequencies", &Lemma::DipoleSource::GetFrequencies, "Returns an array of frequencies")
- // .def("GetFrequency", &Lemma::DipoleSource::GetFrequency, "Returns the frequency of the argument index")
- // .def("GetAngularFrequency", &Lemma::DipoleSource::GetAngularFrequency,
- // "Returns the angular frequency of the argument index")
- // .def("GetPhase", &Lemma::DipoleSource::GetPhase, "Returns the phase of the dipole")
- // .def("GetMoment", &Lemma::DipoleSource::GetMoment, "Returns the moment of the dipole")
- // .def("GetLocation", py::overload_cast< >(&Lemma::DipoleSource::GetLocation), "Returns the location of the dipole")
- // .def("GetPolarisation", &Lemma::DipoleSource::GetPolarisation, "Returns the polarisation of the dipole")
- //
- // // modifiers
- // .def("SetLocation", py::overload_cast<const Lemma::Vector3r&> (&Lemma::DipoleSource::SetLocation),
- // "Sets the location of the dipole")
- // .def("SetPolarisation", py::overload_cast<const Lemma::Vector3r&> (&Lemma::DipoleSource::SetPolarisation),
- // "Sets the polarisation of the dipole")
- // .def("SetType", &Lemma::DipoleSource::SetType, "Sets the type")
- // .def("SetMoment", &Lemma::DipoleSource::SetMoment, "Sets the moment of the dipole")
- // .def("SetPhase", &Lemma::DipoleSource::SetPhase, "Sets the phase of the dipole")
- // .def("SetNumberOfFrequencies", &Lemma::DipoleSource::SetNumberOfFrequencies,
- // "Sets the number of frequencies to calculate for the dipole")
- // .def("SetFrequency", &Lemma::DipoleSource::SetFrequency,
- // "Sets a single frequency, first argument is index, second argument is frequency")
- // .def("SetFrequencies", &Lemma::DipoleSource::SetFrequencies,
- // "Sets all frequencies, argument is numpy array of frequencies")
- // ;
- //
- // py::class_<Lemma::LayeredEarthEM, std::shared_ptr<Lemma::LayeredEarthEM> >
- // LayeredEarthEM(m, "LayeredEarthEM");
- //
- // // lifecycle
- // LayeredEarthEM.def(py::init(&Lemma::LayeredEarthEM::NewSP))
- // .def_static("DeSerialize", py::overload_cast<const std::string&>
- // (&Lemma::LayeredEarthEM::DeSerialize),"Construct object from yaml representation")
- //
- // // print
- // .def("Serialize", &Lemma::LayeredEarthEM::Print, "YAML representation of the class")
- // .def("__repr__", &Lemma::LayeredEarthEM::Print)
- //
- // // accessors
- // .def("GetName", &Lemma::LayeredEarthEM::GetName, "Returns the name of the class")
- //
- // .def("GetLayerConductivity", py::overload_cast<>(&Lemma::LayeredEarthEM::GetLayerConductivity),
- // "Returns the conductivity of all layers")
- // .def("GetLayerConductivity1", py::overload_cast<const int&>(&Lemma::LayeredEarthEM::GetLayerConductivity),
- // "Returns the conductivity of the specified layer")
- //
- // .def("GetLayerSusceptibility", py::overload_cast<>(&Lemma::LayeredEarthEM::GetLayerSusceptibility),
- // "Returns the susceptibility of all layers")
- // .def("GetLayerSusceptibility1", py::overload_cast<const int&>(&Lemma::LayeredEarthEM::GetLayerSusceptibility),
- // "Returns the susceptibilty of the specified layer")
- // .def("GetLayerLowFreqSusceptibility", py::overload_cast<>(&Lemma::LayeredEarthEM::GetLayerLowFreqSusceptibility),
- // "Returns the low frequqncy permitivity of all layers")
- // .def("GetLayerLowFreqSusceptibility1", py::overload_cast<const int&>(&Lemma::LayeredEarthEM::GetLayerLowFreqSusceptibility),
- // "Returns the low frequency permitivity of the specified layer")
- // .def("GetLayerHighFreqSusceptibility", py::overload_cast<>(&Lemma::LayeredEarthEM::GetLayerHighFreqSusceptibility),
- // "Returns the low frequency permitivity of all layers")
- // .def("GetLayerHighFreqSusceptibility1", py::overload_cast<const int&>(&Lemma::LayeredEarthEM::GetLayerHighFreqSusceptibility),
- // "Returns the low frequency permitivity of the specified layer")
- // .def("GetLayerTauSusceptibility", py::overload_cast<>(&Lemma::LayeredEarthEM::GetLayerTauSusceptibility),
- // "Returns the tau permitivity of all layers")
- // .def("GetLayerTauSusceptibility1", py::overload_cast<const int&>(&Lemma::LayeredEarthEM::GetLayerTauSusceptibility),
- // "Returns the tau permitivity of the specified layer")
- // .def("GetLayerBreathSusceptibility", py::overload_cast<>(&Lemma::LayeredEarthEM::GetLayerBreathSusceptibility),
- // "Returns the breth permitivity of all layers")
- // .def("GetLayerBreathSusceptibility1", py::overload_cast<const int&>(&Lemma::LayeredEarthEM::GetLayerBreathSusceptibility),
- // "Returns the breath permitivity of the specified layer")
- //
- // .def("GetLayerPermitivity", py::overload_cast<>(&Lemma::LayeredEarthEM::GetLayerPermitivity),
- // "Returns the permitivity of all layers")
- // .def("GetLayerPermitivity1", py::overload_cast<const int&>(&Lemma::LayeredEarthEM::GetLayerPermitivity),
- // "Returns the permitivity of the specified layer")
- // .def("GetLayerLowFreqPermitivity", py::overload_cast<>(&Lemma::LayeredEarthEM::GetLayerLowFreqPermitivity),
- // "Returns the low frequqncy permitivity of all layers")
- // .def("GetLayerLowFreqPermitivity1", py::overload_cast<const int&>(&Lemma::LayeredEarthEM::GetLayerLowFreqPermitivity),
- // "Returns the low frequency permitivity of the specified layer")
- // .def("GetLayerHighFreqPermitivity", py::overload_cast<>(&Lemma::LayeredEarthEM::GetLayerHighFreqPermitivity),
- // "Returns the low frequency permitivity of all layers")
- // .def("GetLayerHighFreqPermitivity1", py::overload_cast<const int&>(&Lemma::LayeredEarthEM::GetLayerHighFreqPermitivity),
- // "Returns the low frequency permitivity of the specified layer")
- // .def("GetLayerTauPermitivity", py::overload_cast<>(&Lemma::LayeredEarthEM::GetLayerTauPermitivity),
- // "Returns the tau permitivity of all layers")
- // .def("GetLayerTauPermitivity1", py::overload_cast<const int&>(&Lemma::LayeredEarthEM::GetLayerTauPermitivity),
- // "Returns the tau permitivity of the specified layer")
- // .def("GetLayerBreathPermitivity", py::overload_cast<>(&Lemma::LayeredEarthEM::GetLayerBreathPermitivity),
- // "Returns the breth permitivity of all layers")
- // .def("GetLayerBreathPermitivity1", py::overload_cast<const int&>(&Lemma::LayeredEarthEM::GetLayerBreathPermitivity),
- // "Returns the breath permitivity of the specified layer")
- //
- //
- // // modifiers
- // .def("SetNumberOfLayers", &Lemma::LayeredEarthEM::SetNumberOfLayers,
- // "Sets the number of layers in the model")
- // .def("SetLayerConductivity", py::overload_cast< const Lemma::VectorXcr& >(&Lemma::LayeredEarthEM::SetLayerConductivity),
- // "Sets the conductivity of the layers, the input is a complex array of conductivity")
- // .def("SetLayerConductivity1", py::overload_cast< const int&, const Lemma::Complex& >(&Lemma::LayeredEarthEM::SetLayerConductivity),
- // "Sets the conductivity of a single layer, the first input is the layer index, and the secondinput is a complex conductivity")
- // .def("SetLayerThickness", &Lemma::LayeredEarthEM::SetLayerThickness,
- // "Sets the thickness of layers, excluding the air and bottom which are infinite")
- //
- // .def("SetLayerHighFreqSusceptibility", &Lemma::LayeredEarthEM::SetLayerHighFreqSusceptibility,
- // "Sets the high frequency susceptibility for Cole-COle model")
- // .def("SetLayerLowFreqSusceptibility", &Lemma::LayeredEarthEM::SetLayerLowFreqSusceptibility,
- // "Sets the low frequency susceptibility for Cole-COle model")
- // .def("SetLayerBreathSusceptibility", &Lemma::LayeredEarthEM::SetLayerBreathSusceptibility,
- // "Sets thesusceptibility breath for Cole-COle model")
- //
- // .def("SetLayerHighFreqPermitivity", &Lemma::LayeredEarthEM::SetLayerHighFreqPermitivity,
- // "Sets the high frequency permitivity for Cole-COle model")
- // .def("SetLayerLowFreqPermitivity", &Lemma::LayeredEarthEM::SetLayerLowFreqPermitivity,
- // "Sets the low frequency permitivity for Cole-COle model")
- // .def("SetLayerBreathPermitivity", &Lemma::LayeredEarthEM::SetLayerBreathPermitivity,
- // "Sets the permitivity breath for Cole-COle model")
- //
- //
- // // methods
- // .def("EvaluateColeColeModel", &Lemma::LayeredEarthEM::EvaluateColeColeModel,
- // "Calculates complex resistivity based on cole-cole parameters")
- // ;
- //
- // py::class_<Lemma::EMEarth1D, std::shared_ptr<Lemma::EMEarth1D> >
- // EMEarth1D(m, "EMEarth1D");
- //
- // // lifecycle
- // EMEarth1D.def(py::init(&Lemma::EMEarth1D::NewSP))
- // //.def_static("DeSerialize", py::overload_cast<const std::string&>
- // // (&Lemma::EMEarth1D::DeSerialize),"Construct object from yaml representation")
- //
- // // print
- // .def("Serialize", &Lemma::EMEarth1D::Print, "YAML representation of the class")
- // .def("__repr__", &Lemma::EMEarth1D::Print)
- //
- // // accessors
- // .def("GetName", &Lemma::EMEarth1D::GetName, "Returns the name of the class")
- // .def("GetFieldPoints", &Lemma::EMEarth1D::GetFieldPoints, "Returns the FieldPoint class")
- //
- // // modifiers
- // .def("AttachWireAntenna", &Lemma::EMEarth1D::AttachWireAntenna,
- // "Sets the wire antenna to use for calculations")
- // .def("AttachDipoleSOurce", &Lemma::EMEarth1D::AttachDipoleSource,
- // "Sets a DipoleSource to use for calculations")
- // .def("AttachFieldPoints", &Lemma::EMEarth1D::AttachFieldPoints,
- // "Sets the FieldPoints to use for calculations")
- // .def("AttachLayeredEarthEM", &Lemma::EMEarth1D::AttachLayeredEarthEM,
- // "Sets the LayeredEarthEM to use for calculations")
- //
- // .def("SetFieldToCalculate", &Lemma::EMEarth1D::SetFieldsToCalculate,
- // "Sets which fields to calculate")
- // .def("SetHankelTransformMethod", &Lemma::EMEarth1D::SetHankelTransformMethod,
- // "Sets which Hankel transform to use")
- // .def("SetTxRxMode", &Lemma::EMEarth1D::SetTxRxMode,
- // "Sets the TxRx mode flag")
- //
- // //methods
- // #ifdef KIHALEE_EM1D
- // .def("MakeCalc", &Lemma::EMEarth1D::MakeCalc, "Calls KiHa Lee's EM1D FORTRAN77 code")
- // #endif
- //
- // .def("MakeCalc3", &Lemma::EMEarth1D::MakeCalc3, "Native Lemma EM calculation")
- // .def("CalculateWireAntennaFields", &Lemma::EMEarth1D::CalculateWireAntennaFields,
- // "Native Lemma calculation of a wire antenna")
- // ;
- //
- // py::class_<Lemma::FieldPoints, std::shared_ptr<Lemma::FieldPoints> >
- // FieldPoints(m, "FieldPoints");
- //
- // // lifecycle
- // FieldPoints.def(py::init(&Lemma::FieldPoints::NewSP))
- // .def_static("DeSerialize", py::overload_cast<const std::string&>
- // (&Lemma::FieldPoints::DeSerialize),"Construct object from yaml representation")
- //
- // // print
- // .def("Serialize", &Lemma::FieldPoints::Print, "YAML representation of the class")
- // .def("__repr__", &Lemma::FieldPoints::Print)
- //
- // // modifiers
- // .def("SetNumberOfPoints", &Lemma::FieldPoints::SetNumberOfPoints,
- // "Sets the number of locations to make calculations on.")
- // .def("SetLocation", py::overload_cast< const int&, const Lemma::Vector3r& >
- // (&Lemma::FieldPoints::SetLocation), "Sets the location of the index-specified point." )
- // .def("SetLocation", py::overload_cast< const int&,
- // const Lemma::Real&, const Lemma::Real&, const Lemma::Real& >
- // (&Lemma::FieldPoints::SetLocation),
- // "Sets the location of the index-specified point with the three coordinates")
- //
- // // accessors
- // .def("GetNumberOfPoints", &Lemma::FieldPoints::GetNumberOfPoints,
- // "Returns the number of locations to make calculations on.")
- // .def("GetLocations", &Lemma::FieldPoints::GetLocations,
- // "Returns the locations which calculations are made on.")
- // .def("GetLocationsMat", &Lemma::FieldPoints::GetLocationsMat,
- // "Returns a matrix of the locations which calculations are made on.")
- // .def("GetLocation", &Lemma::FieldPoints::GetLocation,
- // "Returns the location of the specified index.")
- // .def("GetLocationX", &Lemma::FieldPoints::GetLocationX,
- // "Returns the northing (x) location of the specified index.")
- // .def("GetLocationY", &Lemma::FieldPoints::GetLocationY,
- // "Returns the easting (y) location of the specified index.")
- // .def("GetLocationZ", &Lemma::FieldPoints::GetLocationZ,
- // "Returns the altitude/depth (z) location of the specified index.")
- // .def("GetEfield", py::overload_cast< > (&Lemma::FieldPoints::GetEfield),
- // "Returns the electric field for all frequencies.")
- // .def("GetEfield", py::overload_cast< const int& > (&Lemma::FieldPoints::GetEfield),
- // "Returns the electric field for the specified frequency index.")
- // .def("GetEfield", py::overload_cast< const int&, const int& > (&Lemma::FieldPoints::GetEfield),
- // "Returns the electric field for the specified frequency and location index.")
- // .def("GetEfieldMat", &Lemma::FieldPoints::GetEfieldMat,
- // "Returns the electric field for the specified frequency.")
- // .def("GetHfield", py::overload_cast< > (&Lemma::FieldPoints::GetHfield),
- // "Returns the H field for all frequencies.")
- // .def("GetHfield", py::overload_cast< const int& > (&Lemma::FieldPoints::GetHfield),
- // "Returns the H field for the specified frequency index.")
- // .def("GetHfield", py::overload_cast< const int&, const int& > (&Lemma::FieldPoints::GetHfield),
- // "Returns the H field for the specified frequency and location index.")
- // //.def("GetBfield", py::overload_cast< const int&, const int& > (&Lemma::FieldPoints::GetBfield),
- // // "Returns the magnetic (B) field for the specified frequency and location index.")
- // .def("GetHfieldMat", &Lemma::FieldPoints::GetHfieldMat,
- // "Returns the H field for the specified frequency.")
- // .def("GetMask", &Lemma::FieldPoints::MaskPoint, "Return the mask boolean value for the specified index")
- //
- // // methods
- // .def("ClearFields", &Lemma::FieldPoints::ClearFields, "Clears calculated fields")
- // .def("MaskPoint", &Lemma::FieldPoints::MaskPoint, "Masks the index resulting in no calculation")
- // .def("UnMaskPoint", &Lemma::FieldPoints::UnMaskPoint, "Unmasks the index resulting in a calculation")
- //
- // ;
- }
-
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