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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 12/02/2009
- @version $Id: receiverpoints.h 199 2014-12-29 19:25:20Z tirons $
- **/
-
- #ifndef __FIELDPOINTS_H
- #define __FIELDPOINTS_H
-
- #ifdef LEMMAUSEVTK
- #include "vtkPointData.h"
- #include "vtkFieldData.h"
- #include "vtkGlyph3D.h"
- #include "vtkArrowSource.h"
- #include "vtkActor.h"
- #include "vtkPolyDataMapper.h"
- #include "vtkPoints.h"
- #include "vtkPolyData.h"
- #include "vtkDoubleArray.h"
- #include "vtkDataObject.h"
- #endif
-
- #include "LemmaObject.h"
- //#include "dipolesource.h"
-
- namespace Lemma {
-
- // Forward Declarations
- class DipoleSource;
-
- // =======================================================================
- // Class: FieldPoints
- /**
- * \brief Points in the subsurface where 1D EM calculations are made
- * \details These are the points where Hankel transform calculations are
- * made.
- * \note In previous versions of Lemma, this class was called ReceiverPoints,
- * the functionality remains roughly the same, but the name is more
- * appropriate.
- */
- // =======================================================================
- class FieldPoints : public LemmaObject {
-
- /**
- * Stream operator printing out information about this class.
- */
- friend std::ostream &operator<<(std::ostream &stream, const FieldPoints &ob);
-
- struct ctor_key {};
-
- public:
-
- // ==================== FRIENDS ===========================
-
- //friend class EMEarth1D;
- //friend class DipoleSource;
-
- // ==================== LIFECYCLE ===========================
-
- /** Default locked constructor. */
- explicit FieldPoints ( const ctor_key& );
-
- /** Locked deserializing constructor. */
- FieldPoints (const YAML::Node& node, const ctor_key&);
-
- /** Default destructor. */
- ~FieldPoints ();
-
- /**
- * Factory method for generating concrete class.
- * @return a std::shared_ptr of type FieldPoints
- */
- static std::shared_ptr<FieldPoints> NewSP();
-
- /**
- * Uses YAML to serialize this object.
- * @note The actual calculation results are not serialized, currently.
- * @return a YAML::Node
- */
- YAML::Node Serialize() const;
-
- /**
- * Constructs an object from a YAML::Node.
- * @param[in] node is a YAML node containing the serialized class information
- * @return a std::shared_ptr object of FieldPoints
- */
- static std::shared_ptr<FieldPoints> DeSerialize(const YAML::Node& node);
-
- // ==================== OPERATORS ===========================
-
- // ==================== OPERATIONS ===========================
-
- // ==================== ACCESS ===========================
-
- /** Sets the number of receivers */
- virtual void SetNumberOfPoints(const int &nrec);
-
- /** Returns the location of a single receiver as an Eigen Vector */
- void SetLocation(const int& nrec, const Vector3r& loc);
-
- /// Returns the location of a single receiver as an Eigen Vector
- void SetLocation(const int& nrec, const Real& xp, const Real& yp,
- const Real& zp);
-
- // ==================== INQUIRY ===========================
-
- /** Returns the name of the underlying class, similiar to Python's type */
- virtual inline std::string GetName() const {
- return CName;
- }
-
- /// Returns the number of receiverpoints.
- int GetNumberOfPoints();
-
- /// Returns all the receiver locations as a 3 X matrix
- Vector3Xr GetLocations();
-
- /// Returns all the receiver locations as a general matrix, useful for python wrapper
- MatrixXr GetLocationsMat();
-
- /// Returns the E field for all locations
- /// nfreq is the freqency desired
- Vector3Xcr GetEfield(const int &nfreq);
-
- /// Returns the E field for all locations
- /// nfreq is the freqency desired, cast to general dynamic matrix, for python interoperability
- MatrixXcr GetEfieldMat(const int &nfreq);
-
- /// Returns the H field for all locations
- /// nfreq is the freqency desired, cast to general dynamic matrix, for python interoperability
- MatrixXcr GetHfieldMat(const int &nfreq);
-
- /// Returns the H field for all locations
- /// nfreq is the freqency desired
- Vector3Xcr GetHfield(const int &nfreq);
-
- /// Returns all of the computed H fields. Every frequency
- std::vector<Vector3Xcr> GetHfield( );
-
- /// Returns all of the computed E fields. Every frequency
- std::vector<Vector3Xcr> GetEfield( );
-
- /// Returns the E field of a single receiver as an Eigen Vector
- /// nfreq is the freqency desired
- Vector3cr GetEfield(const int &nfreq, const int& loc);
-
- /// Returns the H field of a single receiver as an Eigen Vector
- /// nfreq is the freqency desired
- Vector3cr GetHfield(const int &nfreq, const int& loc);
-
- /// Returns the B field of a single receiver as an Eigen Vector
- /// nfreq is the freqency desired
- Vector3cr GetBfield(const int &nfreq, const int& loc);
-
- #ifdef LEMMAUSEVTK
- /// Returns vtk Glyph actor that can be placed into scenes
- vtkActor* GetVtkGlyphActor(const FIELDTYPE &ftype,
- const Real& clip, const Real &scale,
- const int &nfreq);
-
- /// Returns a vtk Data Object that can easily be plotted
- vtkDataObject * GetVtkDataObject(const FIELDTYPE &ftype,
- const int& nbin,
- const int& start, const int& end,
- const FIELDCOMPONENT& fcomp,
- const SPATIALCOORDINANT& scord);
-
- /// Returns a vtk Data Object that can easily be plotted
- vtkDataObject * GetVtkDataObjectFreq(const FIELDTYPE &ftype,
- const int& nrec,
- const int& fstart, const int& fend,
- const FIELDCOMPONENT& fcomp,
- const VectorXr& Freqs);
- #endif
-
- /// Returns the location of a single receiver as an Eigen Vector
- Vector3r GetLocation(const int& loc);
-
- /// Returns the x component of the location
- Real GetLocationX(const int& loc);
-
- /// Returns the y component of the location
- Real GetLocationY(const int& loc);
-
- /// Returns the z component of the location
- Real GetLocationZ(const int& loc);
-
- /// Resets fields
- void ClearFields();
-
- /// Sets the mask variable to true for this point.
- void MaskPoint(const int& i);
-
- /// Turns the mask off for this point.
- void UnMaskPoint(const int& i);
-
- /// Removes making on all points
- void UnMaskAllPoints();
-
- /// Returns the mask for this point
- int GetMask(const int& i);
-
- protected:
-
- // ==================== OPERATIONS ===========================
-
- /// Sets the number of H bins. These bins are often frequencies.
- void SetNumberOfBinsH(const int& nbins);
-
- /// Sets the number of E bins. These bins are often frequencies.
- void SetNumberOfBinsE(const int& nbins);
-
- /** Internal function that resizes the EField data structure */
- void ResizeEField();
-
- /** Internal function that resizes the HField data structure */
- void ResizeHField();
-
- /// Sets the value of the E field
- void SetEfield(const int &nfreq, const int& loc,
- const Complex &ex, const Complex &ey, const Complex &ez);
-
- /// Sets the value of the H field
- void SetHfield(const int &nfreq, const int& loc,
- const Complex &hx, const Complex &hy, const Complex &hz);
-
- /// Appends the value of the E field. This method is not
- /// thread safe.
- void AppendEfield(const int&nfreq, const int& loc,
- const Complex &ex, const Complex &ey, const Complex &ez);
-
- /// Appends the value of the H field. This method is not
- /// thread safe.
- void AppendHfield(const int &nfreq, const int& loc,
- const Complex &hx, const Complex &hy, const Complex &hz);
-
- // ==================== DATA MEMBERS ===========================
-
- private:
-
- /// Number of receivers
- int NumberOfPoints;
-
- /// Number of fields
- int NumberOfBinsE;
-
- /// Number of fields
- int NumberOfBinsH;
-
- /// Used to mask this point so no computation is made at
- /// this point.
- VectorXi Mask;
-
- /// Locations of receivers
- Vector3Xr Locations;
-
- // NOTE, these are not serialized in output!
- /// Electric field at receiver locations
- std::vector<Vector3Xcr> Efield;
-
- /// H field at receiver locations
- std::vector<Vector3Xcr> Hfield;
-
- /** ASCII string representation of the class name */
- static constexpr auto CName = "FieldPoints";
-
- }; // ----- end of class FieldPoints -----
- }
-
- #endif // __FIELDPOINTS
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