source: src/Potentials/PartialNucleiChargeFitter.hpp@ a44d70

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Last change on this file since a44d70 was f60d95, checked in by Frederik Heber <heber@…>, 11 years ago

PartialNucleiChargeFitter writes potential, solution, and residuum to CSV files in DEBUG.

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1/*
2 * PartialNucleiChargeFitter.hpp
3 *
4 * Created on: 12.05.2013
5 * Author: heber
6 */
7
8#ifndef PARTIALNUCLEICHARGEFITTER_HPP_
9#define PARTIALNUCLEICHARGEFITTER_HPP_
10
11// include config.h
12#ifdef HAVE_CONFIG_H
13#include <config.h>
14#endif
15
16#include <vector>
17
18#include "LinearAlgebra/Vector.hpp"
19#include "LinearAlgebra/VectorContent.hpp"
20
21#include "Fragmentation/Summation/SetValues/SamplingGridProperties.hpp"
22
23class PartialNucleiChargeFitterTest;
24class SamplingGrid;
25
26/** This class is a functor that fits the magnitudes of a give number of
27 * point charges to a sampled electrostatic potential distribution by
28 * solving an over-determined system of equations.
29 *
30 * We require thus a sampled potential and the spatial positions of the
31 * charges. As a result we offer the partial point charge at each position.
32 *
33 * Note that we fit to the potential of both nuclei and electrons.
34 * And also note that open boundary conditions should be used as we compare
35 * to the potential of spherical point charges and we do not do any Wolf
36 * or Ewald summation.
37 */
38class PartialNucleiChargeFitter
39{
40 //!> grant unit test access to private parts.
41 friend class PartialNucleiChargeFitterTest;
42public:
43 //!> typedef for the charge type to fit
44 typedef double charge_t;
45 //!> typedef for the number of charges to fit at the same time
46 typedef std::vector<charge_t> charges_t;
47 //!> typedef for specifying a position in 3D
48 typedef Vector position_t;
49 //!> typedef for specifying positions of all nuclei whose charges to fit
50 typedef std::vector< position_t > positions_t;
51 typedef size_t dimension_t;
52 typedef std::vector<dimension_t> dimensions_t;
53
54 /** Constructor for class PartialNucleiChargeFitter.
55 *
56 * \note Copies given parameters as it does not impact on overall
57 * performance significantly.
58 *
59 * \warning the \a threshold parameter is important! Core electrons are very
60 * strongly localized and can in the general case not be properly sampled on
61 * a grid. As for the partial charges we are not interested in modelling the
62 * potential around the nuclei but around the molecule as a whole, with this
63 * parameter the inner potential is masked and excluded from the fit. This does
64 * not mask any charge, it just avoids the strongly peaked electrons along with
65 * "in short-range falsely" smeared-out nuclei charges. We recommend a value of
66 * e.\,g. 1 or more. This should stabilize of finer grids and larger thresholds.
67 *
68 * \param grid grid with sampled (long-range) potential to match
69 * \param _positions vector of positions
70 * \param _threshold radius of spherical mask around nuclei
71 */
72 PartialNucleiChargeFitter(
73 const SamplingGrid &grid,
74 const positions_t &_positions,
75 const double _threshold = 0.);
76
77 /** Destructor for class PartialNucleiChargeFitter.
78 *
79 */
80 ~PartialNucleiChargeFitter();
81
82 /** Function to evaluate the over-determined system given by the
83 * desired sampled potential and a number of charges at given positions.
84 *
85 * \return L_2-Fehler des Residuums (Ax-b)
86 */
87 double operator()();
88
89 /** Getter for the problem matrix A.
90 *
91 * The matrix represents the sampled potential per charge/column vector
92 * with unit charge.
93 *
94 * \return matrix A in system Ax=b or NLL if not constructed yet.
95 */
96 const MatrixContent &getMatrix() const
97 {
98 return *PotentialFromCharges;
99 }
100
101 /** Getter for solution as charges_t
102 *
103 * \return solution vector x as type charges_t
104 */
105 charges_t getSolutionAsCharges_t() const;
106
107 void writeMatrix();
108
109private:
110 /** Helper function to construct the problem Matrix A.
111 *
112 */
113 void constructMatrix();
114
115 /** Internal function to calculate the discrete grid dimension per axis.
116 *
117 * \param grid grid whose dimensions are to be determind
118 * \return vector of 3 grid dimensions
119 */
120 dimensions_t getGridDimensions(const SamplingGrid &grid) const;
121
122 /** Helper function to mask out regions around nuclei.
123 *
124 * The electronic potential is too peaked around the nuclei, i.e.
125 * cannot be sanely modelled by the partial point charges. Hence,
126 * we mask out these regions
127 *
128 * \return true - point is at least threshold away from any nuclei, false - else
129 */
130 bool isGridPointSettable(
131 const positions_t &_positions,
132 const Vector &grid_position) const;
133
134private:
135 //!> grid dimensions per axis for internal use
136 const dimensions_t total;
137 //!> sampled potential as right hand side for Ax=b
138 const VectorContent SampledPotential;
139 //!> properties of grid for calculating potential on same grid
140 const SamplingGridProperties grid_properties;
141 //!> positions of nuclei whose charges are to be fitted
142 const positions_t positions;
143 //!> internal matrix representing potential by spherical charges (we use MatrixContent as there is only a 3x3 RealSpaceMatrix, no generic one)
144 MatrixContent *PotentialFromCharges;
145 //!> internal representation of solution vector x
146 VectorContent *PartialCharges;
147 //!> threshold for minimum distance to any nuclei in fitting
148 const double threshold;
149};
150
151#endif /* PARTIALNUCLEICHARGEFITTER_HPP_ */
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