source: src/Dynamics/VerletForceIntegration.hpp@ 6ff62c

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Last change on this file since 6ff62c was 4882d5, checked in by Frederik Heber <heber@…>, 12 years ago

Rewrote VerletIntegrationAction to diminish dependence on ForceMatrix.

  • atom::VelocityVerletUpdate() now works on the forces stored in AtomicForces.
  • ThermoStatContainer::getActive() getter for the currently active thermostat.
  • VerletForceIntegration::operator() split up into several smaller functions.
  • Property mode set to 100644
File size: 7.1 KB
Line 
1/*
2 * VerletForceIntegration.hpp
3 *
4 * Created on: Feb 23, 2011
5 * Author: heber
6 */
7
8#ifndef VERLETFORCEINTEGRATION_HPP_
9#define VERLETFORCEINTEGRATION_HPP_
10
11// include config.h
12#ifdef HAVE_CONFIG_H
13#include <config.h>
14#endif
15
16#include "Atom/atom.hpp"
17#include "Atom/AtomSet.hpp"
18#include "CodePatterns/Assert.hpp"
19#include "CodePatterns/Info.hpp"
20#include "CodePatterns/Log.hpp"
21#include "CodePatterns/Verbose.hpp"
22#include "Dynamics/MinimiseConstrainedPotential.hpp"
23#include "Fragmentation/ForceMatrix.hpp"
24#include "Helpers/helpers.hpp"
25#include "Helpers/defs.hpp"
26#include "LinearAlgebra/Vector.hpp"
27#include "Thermostats/ThermoStatContainer.hpp"
28#include "Thermostats/Thermostat.hpp"
29#include "World.hpp"
30
31template <class T>
32class VerletForceIntegration
33{
34public:
35 /** Constructor of class VerletForceIntegration.
36 *
37 * \param _atoms set of atoms to integrate
38 * \param _Deltat time step width in atomic units
39 * \param _IsAngstroem whether length units are in angstroem or bohr radii
40 */
41 VerletForceIntegration(AtomSetMixin<T> &_atoms, double _Deltat, bool _IsAngstroem) :
42 Deltat(_Deltat),
43 IsAngstroem(_IsAngstroem),
44 atoms(_atoms)
45 {}
46 /** Destructor of class VerletForceIntegration.
47 *
48 */
49 ~VerletForceIntegration()
50 {}
51
52 /** Parses nuclear forces from file.
53 * Forces are stored in the time step \a TimeStep in the atomicForces in \a atoms.
54 * \param *file filename
55 * \param TimeStep time step to parse forces file into
56 * \return true - file parsed, false - file not found or imparsable
57 */
58 bool parseForcesFile(const char *file, const int TimeStep)
59 {
60 Info FunctionInfo(__func__);
61 ForceMatrix Force;
62
63 // parse file into ForceMatrix
64 std::ifstream input(file);
65 if ((input.good()) && (!Force.ParseMatrix(input, 0,0,0))) {
66 ELOG(0, "Could not parse Force Matrix file " << file << ".");
67 return false;
68 }
69 input.close();
70 if (Force.RowCounter[0] != (int)atoms.size()) {
71 ELOG(0, "Mismatch between number of atoms in file " << Force.RowCounter[0] << " and in molecule " << atoms.size() << ".");
72 return false;
73 }
74
75 addForceMatrixToAtomicForce(Force, TimeStep, 1);
76 return true;
77 }
78
79 /** Performs Verlet integration.
80 * Note that we assume the parsed forces to be in atomic units (hence, if coordinates are in angstroem, we
81 * have to transform them).
82 * This adds a new MD step \f$ t + \Delta t \f$ to the config file.
83 * \param NextStep current time step (i.e. \f$ t + \Delta t \f$ in the sense of the velocity verlet)
84 * \param offset offset in matrix file to the first force component
85 * \param DoConstrainedMD whether a constrained MD shall be done
86 * \param FixedCenterOfMass whether forces and velocities are correct to have fixed center of mass
87 * \return true - file found and parsed, false - no atoms, file not found or imparsable
88 * \todo This is not yet checked if it is correctly working with DoConstrainedMD set >0.
89 */
90 bool operator()(const int NextStep, const size_t offset, const int DoConstrainedMD, const bool FixedCenterOfMass)
91 {
92 Info FunctionInfo(__func__);
93
94 // check that atoms are present at all
95 if (atoms.size() == 0) {
96 ELOG(2, "VerletForceIntegration::operator() - no atoms to integrate.");
97 return false;
98 }
99
100 // make sum of forces equal zero
101 if (FixedCenterOfMass)
102 correctForceMatrixForFixedCenterOfMass(offset,NextStep);
103
104 // solve a constrained potential if we are meant to
105 if (DoConstrainedMD) {
106 performConstraintMinimization(DoConstrainedMD,NextStep);
107 }
108
109 //std::cout << "Force before velocity verlet, " << Force << std::endl;
110 // and perform Verlet integration for each atom with position, velocity and force vector
111 // check size of vectors
112 for(typename AtomSetMixin<T>::iterator iter = atoms.begin(); iter != atoms.end(); ++iter) {
113 //std::cout << "Id of atom is " << (*iter)->getId() << std::endl;
114 (*iter)->VelocityVerletUpdate((*iter)->getId(), NextStep, Deltat, IsAngstroem);
115 }
116
117 // make sum of velocities equal zero
118 if (FixedCenterOfMass)
119 correctVelocitiesForFixedCenterOfMass(NextStep);
120
121 // thermostat
122 performThermostatControl(NextStep);
123
124 // exit
125 return true;
126 };
127
128private:
129 void addForceMatrixToAtomicForce(const ForceMatrix &Force, const int &TimeStep, const int offset)
130 {
131 // place forces from matrix into atoms
132 Vector tempVector;
133 size_t i=0;
134 for(typename AtomSetMixin<T>::iterator iter = atoms.begin(); iter != atoms.end(); ++iter,++i) {
135 for(size_t d=0;d<NDIM;d++) {
136 tempVector[d] = Force.Matrix[0][i][d+offset]*(IsAngstroem ? AtomicLengthToAngstroem : 1.);
137 }
138 tempVector += (*iter)->getAtomicForceAtStep(TimeStep);
139 (*iter)->setAtomicForceAtStep(TimeStep, tempVector);
140 }
141 }
142
143 void correctForceMatrixForFixedCenterOfMass(const size_t offset, const int &TimeStep) {
144 Vector ForceVector;
145 // correct Forces
146 //std::cout << "Force before correction, " << Force << std::endl;
147 ForceVector.Zero();
148 for(typename AtomSetMixin<T>::iterator iter = atoms.begin(); iter != atoms.end(); ++iter) {
149 ForceVector += (*iter)->getAtomicForceAtStep(TimeStep);
150 }
151 ForceVector.Scale(1./(double)atoms.size());
152 //std::cout << "Force before second correction, " << Force << std::endl;
153 for(typename AtomSetMixin<T>::iterator iter = atoms.begin(); iter != atoms.end(); ++iter) {
154 const Vector tempVector = (*iter)->getAtomicForceAtStep(TimeStep) - ForceVector;
155 (*iter)->setAtomicForceAtStep(TimeStep, tempVector);
156 }
157 LOG(3, "INFO: forces correct by " << ForceVector << "each.");
158 }
159
160 void correctVelocitiesForFixedCenterOfMass(const int &TimeStep) {
161 Vector Velocity;
162 double IonMass;
163 // correct velocities (rather momenta) so that center of mass remains motionless
164 Velocity = atoms.totalMomentumAtStep(TimeStep);
165 IonMass = atoms.totalMass();
166
167 // correct velocities (rather momenta) so that center of mass remains motionless
168 Velocity *= 1./IonMass;
169 atoms.addVelocityAtStep(-1.*Velocity,TimeStep);
170
171 LOG(3, "INFO: Velocities corrected by " << Velocity << " each.");
172 }
173
174 void performConstraintMinimization(const int &DoConstrainedMD, const int &TimeStep) {
175 // calculate forces and potential
176 ForceMatrix Force;
177 std::map<atom *, atom*> PermutationMap;
178 MinimiseConstrainedPotential Minimiser(atoms, PermutationMap);
179 //double ConstrainedPotentialEnergy =
180 Minimiser(DoConstrainedMD, 0, IsAngstroem);
181 Minimiser.EvaluateConstrainedForces(&Force);
182 addForceMatrixToAtomicForce(Force, TimeStep, 1);
183 }
184
185 void performThermostatControl(const int &TimeStep) {
186 double ActualTemp;
187
188 // calculate current temperature
189 ActualTemp = atoms.totalTemperatureAtStep(TimeStep);
190 LOG(3, "INFO: Current temperature is " << ActualTemp);
191
192 // rescale to desired value
193 double ekin = World::getInstance().getThermostats()->getActive()->scaleAtoms(TimeStep,ActualTemp,atoms);
194 ActualTemp = atoms.totalTemperatureAtStep(TimeStep);
195 LOG(3, "INFO: New temperature after thermostat is " << ActualTemp);
196 LOG(1, "Kinetic energy is " << ekin << ".");
197 }
198
199private:
200 double Deltat;
201 bool IsAngstroem;
202 AtomSetMixin<T> atoms;
203};
204
205#endif /* VERLETFORCEINTEGRATION_HPP_ */
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