source: src/Potentials/CompoundPotential.hpp@ 7c1091

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Last change on this file since 7c1091 was 7c1091, checked in by Frederik Heber <heber@…>, 11 years ago

Extended CompoundPotential for multiple occurences of argument bunches.

  • added HomologyGraph::hasGreaterEqualTimesAtomicNumber() has model might have multiple matching arguments within a single fragment.
  • i.e. when there is more than one argument bunch for a given model. Hence, we check the stream whether upcoming arguments match current and next model. Note however that models are not necessarily sorted by particle_types' size. Hence, we must trick a little and need a specific map comparator.
  • Property mode set to 100644
File size: 5.5 KB
Line 
1/*
2 * CompoundPotential.hpp
3 *
4 * Created on: May 8, 2013
5 * Author: heber
6 */
7
8#ifndef COMPOUNDPOTENTIAL_HPP_
9#define COMPOUNDPOTENTIAL_HPP_
10
11// include config.h
12#ifdef HAVE_CONFIG_H
13#include <config.h>
14#endif
15
16#include "FunctionApproximation/FunctionModel.hpp"
17#include "Potentials/SerializablePotential.hpp"
18
19#include <vector>
20
21class CompoundPotentialTest;
22class HomologyGraph;
23class TrainingData;
24
25/** CompoundPotential combines several FunctionModel's as one to allow for
26 * simultaneous FunctionApproximation to a single fragment/graph.
27 *
28 * The CompoundPotential obtains a Graph as parameter to cstor and looks through
29 * the PotentialRegistry marking all potentials whose ParticleTypes_t signature
30 * matches. All of these are placed into an internal vector and used for
31 * fitting.
32 */
33class CompoundPotential :
34 public FunctionModel
35{
36 //!> grant unit test access to internal parts
37 friend class CompoundPotentialTest;
38 // some repeated typedefs to avoid ambiguities
39 typedef FunctionModel::arguments_t arguments_t;
40 typedef FunctionModel::result_t result_t;
41 typedef FunctionModel::results_t results_t;
42 typedef FunctionModel::parameters_t parameters_t;
43public:
44 /** Constructor for class CompoundPotential.
45 *
46 * \param graph graph to be checked against present ParticleTypes_t signatures
47 * of potentials in PotentialRegistry
48 */
49 CompoundPotential(const HomologyGraph &graph);
50
51 /** Destructor for class CompoundPotential.
52 *
53 */
54 virtual ~CompoundPotential();
55
56 /** Setter for parameters as required by FunctionModel interface.
57 *
58 * \param _params given set of parameters
59 */
60 void setParameters(const parameters_t &_params);
61
62 /** Getter for parameters as required by FunctionModel interface.
63 *
64 * \return set of parameters
65 */
66 parameters_t getParameters() const;
67
68 /** Sets the parameter randomly within the sensible range of each parameter.
69 *
70 * \param data container with training data for guesstimating range
71 */
72 void setParametersToRandomInitialValues(const TrainingData &data);
73
74 /** Getter for the number of parameters of this model function.
75 *
76 * \return number of parameters
77 */
78 size_t getParameterDimension() const;
79
80 /** Sets the magic triple function that we use for getting angle distances.
81 *
82 * @param _triplefunction function that returns a list of triples (i.e. the
83 * two remaining distances) to a given pair of points (contained as
84 * indices within the argument)
85 */
86 void setTriplefunction(triplefunction_t &_triplefunction);
87
88 /** Evaluates the harmonic potential function for the given arguments.
89 *
90 * @param arguments single distance
91 * @return value of the potential function
92 */
93 results_t operator()(const arguments_t &arguments) const;
94
95 /** Evaluates the derivative of the function with the given \a arguments
96 * with respect to a specific parameter indicated by \a index.
97 *
98 * \param arguments set of arguments as input variables to the function
99 * \param index derivative of which parameter
100 * \return result vector containing the derivative with respect to the given
101 * input
102 */
103 results_t parameter_derivative(const arguments_t &arguments, const size_t index) const;
104
105 /** States whether lower and upper boundaries should be used to constraint
106 * the parameter search for this function model.
107 *
108 * \return true - constraints should be used, false - else
109 */
110 bool isBoxConstraint() const;
111
112 /** Returns a vector which are the lower boundaries for each parameter_t
113 * of this FunctionModel.
114 *
115 * \return vector of parameter_t resembling lowest allowed values
116 */
117 parameters_t getLowerBoxConstraints() const;
118
119 /** Returns a vector which are the upper boundaries for each parameter_t
120 * of this FunctionModel.
121 *
122 * \return vector of parameter_t resembling highest allowed values
123 */
124 parameters_t getUpperBoxConstraints() const;
125
126 /** Returns a bound function to be used with TrainingData, extracting distances
127 * from a Fragment.
128 *
129 * \return bound function extracting distances from a fragment
130 */
131 FunctionModel::extractor_t getFragmentSpecificExtractor() const;
132
133private:
134 //!> typedef for split up arguments, each associated to a model
135 typedef std::vector< std::pair<FunctionModel *, arguments_t> > arguments_by_model_t;
136
137 /** Helper function to split up concatenated arguments for operator() calls.
138 *
139 * \param arguments arguments to split up
140 * \return vector of partial arguments with associated model
141 */
142 arguments_by_model_t splitUpArgumentsByModels(const arguments_t &arguments) const;
143
144 /** Helper function to check whether split up argument bunch matches with types.
145 *
146 * \param types types of potential to check whether args match
147 * \param args vector of argument whose types to check
148 */
149 bool areValidArguments(
150 const SerializablePotential::ParticleTypes_t &types,
151 const arguments_t &args) const;
152
153private:
154 //!> typedef for internal vector of simultaneously fitted models.
155 typedef std::vector<FunctionModel*> models_t;
156 //!> Internal vector of FunctionModels to fit simultaneously.
157 models_t models;
158
159 //!> typedef for storing internally the ParticleTypes of each model.
160 typedef std::vector<SerializablePotential::ParticleTypes_t> particletypes_per_model_t;
161 //!> Internal vector of ParticleTypes for each model to use when constructing extractor
162 particletypes_per_model_t particletypes_per_model;
163
164 //!> static token of this potential type
165 static const std::string potential_token;
166};
167
168#endif /* COMPOUNDPOTENTIAL_HPP_ */
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