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root/group/trunk/OOPSE-4/src/integrators/VelocityVerletIntegrator.cpp
Revision: 2238
Committed: Sun May 22 21:05:15 2005 UTC (19 years, 1 month ago) by tim
File size: 7558 byte(s)
Log Message: 
adding keyword printPressureTensor

File Contents

# User Rev Content
1 gezelter 2204 /*
2 gezelter 1930 * Copyright (c) 2005 The University of Notre Dame. All Rights Reserved.
3     *
4     * The University of Notre Dame grants you ("Licensee") a
5     * non-exclusive, royalty free, license to use, modify and
6     * redistribute this software in source and binary code form, provided
7     * that the following conditions are met:
8     *
9     * 1. Acknowledgement of the program authors must be made in any
10     * publication of scientific results based in part on use of the
11     * program. An acceptable form of acknowledgement is citation of
12     * the article in which the program was described (Matthew
13     * A. Meineke, Charles F. Vardeman II, Teng Lin, Christopher
14     * J. Fennell and J. Daniel Gezelter, "OOPSE: An Object-Oriented
15     * Parallel Simulation Engine for Molecular Dynamics,"
16     * J. Comput. Chem. 26, pp. 252-271 (2005))
17     *
18     * 2. Redistributions of source code must retain the above copyright
19     * notice, this list of conditions and the following disclaimer.
20     *
21     * 3. Redistributions in binary form must reproduce the above copyright
22     * notice, this list of conditions and the following disclaimer in the
23     * documentation and/or other materials provided with the
24     * distribution.
25     *
26     * This software is provided "AS IS," without a warranty of any
27     * kind. All express or implied conditions, representations and
28     * warranties, including any implied warranty of merchantability,
29     * fitness for a particular purpose or non-infringement, are hereby
30     * excluded. The University of Notre Dame and its licensors shall not
31     * be liable for any damages suffered by licensee as a result of
32     * using, modifying or distributing the software or its
33     * derivatives. In no event will the University of Notre Dame or its
34     * licensors be liable for any lost revenue, profit or data, or for
35     * direct, indirect, special, consequential, incidental or punitive
36     * damages, however caused and regardless of the theory of liability,
37     * arising out of the use of or inability to use software, even if the
38     * University of Notre Dame has been advised of the possibility of
39     * such damages.
40     */
41    
42     /**
43     * @file VelocityVerletIntegrator.cpp
44     * @author tlin
45     * @date 11/09/2004
46     * @time 16:16am
47     * @version 1.0
48     */
49    
50     #include "integrators/VelocityVerletIntegrator.hpp"
51     #include "integrators/DLM.hpp"
52 tim 1960 #include "utils/StringUtils.hpp"
53 gezelter 1930
54     namespace oopse {
55 chrisfen 2101 VelocityVerletIntegrator::VelocityVerletIntegrator(SimInfo *info) : Integrator(info), rotAlgo(NULL) {
56 gezelter 1930 dt2 = 0.5 * dt;
57     rotAlgo = new DLM();
58     rattle = new Rattle(info);
59 chrisfen 2101 }
60    
61     VelocityVerletIntegrator::~VelocityVerletIntegrator() {
62 gezelter 1930 delete rotAlgo;
63     delete rattle;
64 chrisfen 2101 }
65    
66     void VelocityVerletIntegrator::initialize(){
67    
68 gezelter 1930 forceMan_->init();
69 chrisfen 2101
70 gezelter 1930 // remove center of mass drift velocity (in case we passed in a configuration
71     // that was drifting
72     velocitizer_->removeComDrift();
73 chrisfen 2101
74 gezelter 1930 // initialize the forces before the first step
75     calcForce(true, true);
76 chrisfen 2101
77 gezelter 1930 //execute constraint algorithm to make sure at the very beginning the system is constrained
78     if (info_->getNGlobalConstraints() > 0) {
79 chrisfen 2101 rattle->constraintA();
80     calcForce(true, true);
81     rattle->constraintB();
82     info_->getSnapshotManager()->advance();//copy the current snapshot to previous snapshot
83 gezelter 1930 }
84 chrisfen 2101
85 gezelter 1930 if (needVelocityScaling) {
86 chrisfen 2101 velocitizer_->velocitize(targetScalingTemp);
87 gezelter 1930 }
88    
89     dumpWriter = createDumpWriter();
90 chrisfen 2101
91 gezelter 1930 statWriter = createStatWriter();
92 chrisfen 2101
93     if (simParams->getUseSolidThermInt()) {
94     restWriter = createRestWriter();
95     restWriter->writeZangle();
96     }
97    
98 tim 2060 dumpWriter->writeDumpAndEor();
99 tim 1960
100 chrisfen 2101
101 gezelter 1930 //save statistics, before writeStat, we must save statistics
102     thermo.saveStat();
103     saveConservedQuantity();
104     statWriter->writeStat(currentSnapshot_->statData);
105 chrisfen 2101
106 gezelter 1930 currSample = sampleTime + currentSnapshot_->getTime();
107     currStatus = statusTime + currentSnapshot_->getTime();;
108     currThermal = thermalTime + + currentSnapshot_->getTime();
109     needPotential = false;
110     needStress = false;
111 chrisfen 2101
112 gezelter 2204 }
113 chrisfen 2101
114 gezelter 2204 void VelocityVerletIntegrator::doIntegrate() {
115 chrisfen 2101
116    
117 gezelter 2204 initialize();
118 chrisfen 2101
119 gezelter 2204 while (currentSnapshot_->getTime() < runTime) {
120 gezelter 1930
121 gezelter 2204 preStep();
122 chrisfen 2101
123 gezelter 2204 integrateStep();
124 chrisfen 2101
125 gezelter 2204 postStep();
126 chrisfen 2101
127 gezelter 2204 }
128 chrisfen 2101
129 gezelter 2204 finalize();
130 chrisfen 2101
131 gezelter 2204 }
132 gezelter 1930
133    
134 gezelter 2204 void VelocityVerletIntegrator::preStep() {
135     double difference = currentSnapshot_->getTime() + dt - currStatus;
136 chrisfen 2101
137 gezelter 2204 if (difference > 0 || fabs(difference) < oopse::epsilon) {
138     needPotential = true;
139     needStress = true;
140     }
141    
142 chrisfen 2101 }
143 gezelter 1930
144 gezelter 2204 void VelocityVerletIntegrator::postStep() {
145 chrisfen 2101
146 gezelter 2204 //save snapshot
147     info_->getSnapshotManager()->advance();
148 chrisfen 2101
149 gezelter 2204 //increase time
150     currentSnapshot_->increaseTime(dt);
151 chrisfen 2101
152 gezelter 2204 if (needVelocityScaling) {
153     if (currentSnapshot_->getTime() >= currThermal) {
154     velocitizer_->velocitize(targetScalingTemp);
155     currThermal += thermalTime;
156     }
157 chrisfen 2101 }
158    
159 gezelter 2204 if (currentSnapshot_->getTime() >= currSample) {
160     dumpWriter->writeDumpAndEor();
161 chrisfen 2101
162 gezelter 2204 if (simParams->getUseSolidThermInt())
163     restWriter->writeZangle();
164 chrisfen 2101
165 gezelter 2204 currSample += sampleTime;
166     }
167 chrisfen 2101
168 gezelter 2204 if (currentSnapshot_->getTime() >= currStatus) {
169     //save statistics, before writeStat, we must save statistics
170     thermo.saveStat();
171     saveConservedQuantity();
172     statWriter->writeStat(currentSnapshot_->statData);
173 chrisfen 2101
174 gezelter 2204 needPotential = false;
175     needStress = false;
176     currStatus += statusTime;
177     }
178 chrisfen 2101
179    
180 gezelter 2204 }
181 gezelter 1930
182    
183 gezelter 2204 void VelocityVerletIntegrator::finalize() {
184     dumpWriter->writeEor();
185 chrisfen 2101
186 gezelter 2204 if (simParams->getUseSolidThermInt()) {
187     restWriter->writeZangle();
188     delete restWriter;
189     restWriter = NULL;
190     }
191 chrisfen 2101
192 gezelter 2204 delete dumpWriter;
193     delete statWriter;
194 chrisfen 2101
195 gezelter 2204 dumpWriter = NULL;
196     statWriter = NULL;
197 chrisfen 2101
198 gezelter 2204 }
199 gezelter 1930
200 gezelter 2204 void VelocityVerletIntegrator::integrateStep() {
201 chrisfen 2101
202 gezelter 2204 moveA();
203     calcForce(needPotential, needStress);
204     moveB();
205     }
206 gezelter 1930
207    
208 gezelter 2204 void VelocityVerletIntegrator::calcForce(bool needPotential,
209     bool needStress) {
210     forceMan_->calcForces(needPotential, needStress);
211     }
212 gezelter 1930
213 gezelter 2204 DumpWriter* VelocityVerletIntegrator::createDumpWriter() {
214     return new DumpWriter(info_);
215     }
216 gezelter 1930
217 gezelter 2204 StatWriter* VelocityVerletIntegrator::createStatWriter() {
218     // if solidThermInt is true, add extra information to the statfile
219     if (simParams->getUseSolidThermInt()){
220     StatsBitSet mask;
221     mask.set(Stats::TIME);
222     mask.set(Stats::TOTAL_ENERGY);
223     mask.set(Stats::POTENTIAL_ENERGY);
224     mask.set(Stats::KINETIC_ENERGY);
225     mask.set(Stats::TEMPERATURE);
226     mask.set(Stats::PRESSURE);
227     mask.set(Stats::VOLUME);
228     mask.set(Stats::CONSERVED_QUANTITY);
229     mask.set(Stats::VRAW);
230     mask.set(Stats::VHARM);
231     return new StatWriter(info_->getStatFileName(), mask);
232     }
233 tim 2238
234     if (simParams->havePrintPresureTensor() && simParams->getPrintPressureTensor()){
235     mask.set(Stats::TIME);
236     mask.set(Stats::TOTAL_ENERGY);
237     mask.set(Stats::POTENTIAL_ENERGY);
238     mask.set(Stats::KINETIC_ENERGY);
239     mask.set(Stats::TEMPERATURE);
240     mask.set(Stats::PRESSURE);
241     mask.set(Stats::VOLUME);
242     mask.set(Stats::CONSERVED_QUANTITY);
243     mask.set(Stats::PRESSURE_TENSOR_X);
244     mask.set(Stats::PRESSURE_TENSOR_Y);
245     mask.set(Stats::PRESSURE_TENSOR_Z);
246     return new StatWriter(info_->getStatFileName(), mask);
247     }
248    
249 gezelter 2204 return new StatWriter(info_->getStatFileName());
250 chrisfen 2101 }
251 gezelter 1930
252 gezelter 2204 RestWriter* VelocityVerletIntegrator::createRestWriter(){
253     return new RestWriter(info_);
254     }
255 gezelter 1930
256 chrisfen 2101
257 gezelter 1930 } //end namespace oopse

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svn:executable *