source: src/Potentials/Specifics/PairPotential_Angle.cpp@ 1e565c

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Last change on this file since 1e565c was fdd23a, checked in by Frederik Heber <heber@…>, 12 years ago

EmpiricalPotential now inherits/combines FunctionModel, SerializablePotential.
  • Property mode set to 100644
File size: 7.5 KB
Line 
1/*
2 * Project: MoleCuilder
3 * Description: creates and alters molecular systems
4 * Copyright (C) 2012 University of Bonn. All rights reserved.
5 * Please see the COPYING file or "Copyright notice" in builder.cpp for details.
6 *
7 *
8 * This file is part of MoleCuilder.
9 *
10 * MoleCuilder is free software: you can redistribute it and/or modify
11 * it under the terms of the GNU General Public License as published by
12 * the Free Software Foundation, either version 2 of the License, or
13 * (at your option) any later version.
14 *
15 * MoleCuilder is distributed in the hope that it will be useful,
16 * but WITHOUT ANY WARRANTY; without even the implied warranty of
17 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
18 * GNU General Public License for more details.
19 *
20 * You should have received a copy of the GNU General Public License
21 * along with MoleCuilder. If not, see <http://www.gnu.org/licenses/>.
22 */
23
24/*
25 * PairPotential_Angle.cpp
26 *
27 * Created on: Oct 11, 2012
28 * Author: heber
29 */
30
31
32// include config.h
33#ifdef HAVE_CONFIG_H
34#include <config.h>
35#endif
36
37#include "CodePatterns/MemDebug.hpp"
38
39#include "PairPotential_Angle.hpp"
40
41#include <boost/assign/list_of.hpp> // for 'map_list_of()'
42#include <boost/bind.hpp>
43#include <boost/lambda/lambda.hpp>
44#include <string>
45
46#include "CodePatterns/Assert.hpp"
47
48#include "FunctionApproximation/Extractors.hpp"
49#include "FunctionApproximation/TrainingData.hpp"
50#include "Potentials/helpers.hpp"
51#include "Potentials/ParticleTypeCheckers.hpp"
52
53class Fragment;
54
55// static definitions
56const PairPotential_Angle::ParameterNames_t
57PairPotential_Angle::ParameterNames =
58 boost::assign::list_of<std::string>
59 ("spring_constant")
60 ("equilibrium_distance")
61 ("") //energy_offset
62 ;
63const std::string PairPotential_Angle::potential_token("harmonic_angle");
64
65PairPotential_Angle::PairPotential_Angle(
66 const ParticleTypes_t &_ParticleTypes
67 ) :
68 EmpiricalPotential(_ParticleTypes),
69 params(parameters_t(MAXPARAMS, 0.))
70{
71 // have some decent defaults for parameter_derivative checking
72 params[spring_constant] = 1.;
73 params[equilibrium_distance] = 0.1;
74 params[energy_offset] = 0.1;
75}
76
77PairPotential_Angle::PairPotential_Angle(
78 const ParticleTypes_t &_ParticleTypes,
79 const double _spring_constant,
80 const double _equilibrium_distance,
81 const double _energy_offset) :
82 EmpiricalPotential(_ParticleTypes),
83 params(parameters_t(MAXPARAMS, 0.))
84{
85 params[spring_constant] = _spring_constant;
86 params[equilibrium_distance] = _equilibrium_distance;
87 params[energy_offset] = _energy_offset;
88}
89
90void PairPotential_Angle::setParameters(const parameters_t &_params)
91{
92 const size_t paramsDim = _params.size();
93 ASSERT( paramsDim <= getParameterDimension(),
94 "PairPotential_Angle::setParameters() - we need not more than "
95 +toString(getParameterDimension())+" parameters.");
96 for(size_t i=0;i<paramsDim;++i)
97 params[i] = _params[i];
98
99#ifndef NDEBUG
100 parameters_t check_params(getParameters());
101 check_params.resize(paramsDim); // truncate to same size
102 ASSERT( check_params == _params,
103 "PairPotential_Angle::setParameters() - failed, mismatch in to be set "
104 +toString(_params)+" and set "+toString(check_params)+" params.");
105#endif
106}
107
108PairPotential_Angle::result_t
109PairPotential_Angle::function_theta(
110 const double &r_ij,
111 const double &r_jk,
112 const double &r_ik
113 ) const
114{
115// Info info(__func__);
116 const double angle = Helpers::pow(r_ij,2) + Helpers::pow(r_jk,2) - Helpers::pow(r_ik,2);
117 const double divisor = 2.* r_ij * r_jk;
118
119// LOG(2, "DEBUG: cos(theta)= " << angle/divisor);
120 if (divisor == 0.)
121 return 0.;
122 else
123 return angle/divisor;
124}
125
126PairPotential_Angle::results_t
127PairPotential_Angle::operator()(
128 const arguments_t &arguments
129 ) const
130{
131 ASSERT( arguments.size() == 3,
132 "PairPotential_Angle::operator() - requires exactly three arguments.");
133 ASSERT( ParticleTypeChecker::checkArgumentsAgainstParticleTypes(
134 arguments, getParticleTypes()),
135 "PairPotential_Angle::operator() - types don't match with ones in arguments.");
136 const argument_t &r_ij = arguments[0]; // 01
137 const argument_t &r_jk = arguments[2]; // 12
138 const argument_t &r_ik = arguments[1]; // 02
139 const result_t result =
140 params[spring_constant]
141 * Helpers::pow( function_theta(r_ij.distance, r_jk.distance, r_ik.distance) - params[equilibrium_distance], 2 )
142 + params[energy_offset];
143 return std::vector<result_t>(1, result);
144}
145
146PairPotential_Angle::derivative_components_t
147PairPotential_Angle::derivative(
148 const arguments_t &arguments
149 ) const
150{
151 ASSERT( arguments.size() == 3,
152 "PairPotential_Angle::operator() - requires exactly three arguments.");
153 ASSERT( ParticleTypeChecker::checkArgumentsAgainstParticleTypes(
154 arguments, getParticleTypes()),
155 "PairPotential_Angle::operator() - types don't match with ones in arguments.");
156 derivative_components_t result;
157 const argument_t &r_ij = arguments[0]; //01
158 const argument_t &r_jk = arguments[2]; //12
159 const argument_t &r_ik = arguments[1]; //02
160 result.push_back( 2. * params[spring_constant] * ( function_theta(r_ij.distance, r_jk.distance, r_ik.distance) - params[equilibrium_distance]) );
161 ASSERT( result.size() == 1,
162 "PairPotential_Angle::operator() - we did not create exactly one component.");
163 return result;
164}
165
166PairPotential_Angle::results_t
167PairPotential_Angle::parameter_derivative(
168 const arguments_t &arguments,
169 const size_t index
170 ) const
171{
172 ASSERT( arguments.size() == 3,
173 "PairPotential_Angle::parameter_derivative() - requires exactly three arguments.");
174 ASSERT( ParticleTypeChecker::checkArgumentsAgainstParticleTypes(
175 arguments, getParticleTypes()),
176 "PairPotential_Angle::operator() - types don't match with ones in arguments.");
177 const argument_t &r_ij = arguments[0]; //01
178 const argument_t &r_jk = arguments[2]; //12
179 const argument_t &r_ik = arguments[1]; //02
180 switch (index) {
181 case spring_constant:
182 {
183 const result_t result =
184 Helpers::pow( function_theta(r_ij.distance, r_jk.distance, r_ik.distance) - params[equilibrium_distance], 2 );
185 return std::vector<result_t>(1, result);
186 break;
187 }
188 case equilibrium_distance:
189 {
190 const result_t result =
191 -2. * params[spring_constant]
192 * ( function_theta(r_ij.distance, r_jk.distance, r_ik.distance) - params[equilibrium_distance]);
193 return std::vector<result_t>(1, result);
194 break;
195 }
196 case energy_offset:
197 {
198 const result_t result = +1.;
199 return std::vector<result_t>(1, result);
200 break;
201 }
202 default:
203 return PairPotential_Angle::results_t(1, 0.);
204 break;
205 }
206}
207
208FunctionModel::extractor_t
209PairPotential_Angle::getFragmentSpecificExtractor() const
210{
211 Fragment::charges_t charges;
212 charges.resize(getParticleTypes().size());
213 std::transform(getParticleTypes().begin(), getParticleTypes().end(),
214 charges.begin(), boost::lambda::_1);
215 FunctionModel::extractor_t returnfunction =
216 boost::bind(&Extractors::gatherDistancesFromFragment,
217 boost::bind(&Fragment::getPositions, _1),
218 boost::bind(&Fragment::getCharges, _1),
219 charges,
220 _2);
221 return returnfunction;
222}
223
224void
225PairPotential_Angle::setParametersToRandomInitialValues(
226 const TrainingData &data)
227{
228 params[PairPotential_Angle::energy_offset] =
229 data.getTrainingOutputAverage()[0];// -1.;
230 params[PairPotential_Angle::spring_constant] = 1e+0*rand()/(double)RAND_MAX;// 0.2;
231 params[PairPotential_Angle::equilibrium_distance] = -0.3;//2e+0*rand()/(double)RAND_MAX - 1.;// 1.;
232}
233
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