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root/group/trunk/OOPSE/libmdtools/Integrator.hpp
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Comparing trunk/OOPSE/libmdtools/Integrator.hpp (file contents):
Revision 555 by mmeineke, Tue Jun 17 21:56:15 2003 UTC vs.
Revision 658 by tim, Thu Jul 31 15:35:07 2003 UTC

# Line 1 | Line 1
1   #ifndef _INTEGRATOR_H_
2   #define _INTEGRATOR_H_
3  
4 + #include <string>
5 + #include <vector>
6   #include "Atom.hpp"
7 + #include "Molecule.hpp"
8   #include "SRI.hpp"
9   #include "AbstractClasses.hpp"
10   #include "SimInfo.hpp"
11   #include "ForceFields.hpp"
12   #include "Thermo.hpp"
13   #include "ReadWrite.hpp"
14 + #include "ZConsWriter.hpp"
15  
16 < class Integrator : public BaseIntegrator {
16 > using namespace std;
17 > const double kB = 8.31451e-7;// boltzmann constant amu*Ang^2*fs^-2/K
18 > const double eConvert = 4.184e-4; // converts kcal/mol -> amu*A^2/fs^2
19 > const double p_convert = 1.63882576e8; //converts amu*fs^-2*Ang^-1 -> atm
20 > const int maxIteration = 300;
21 > const double tol = 1.0e-6;
22  
23 +
24 + template<typename T = BaseIntegrator> class Integrator : public T {
25 +
26   public:
27 <  Integrator( SimInfo &theInfo, ForceFields* the_ff );
27 >  Integrator( SimInfo *theInfo, ForceFields* the_ff );
28    virtual ~Integrator();
29    void integrate( void );
30  
31  
32   protected:
21
33    
34    virtual void integrateStep( int calcPot, int calcStress );
35    virtual void preMove( void );
# Line 26 | Line 37 | class Integrator : public BaseIntegrator { (protected)
37    virtual void moveB( void );
38    virtual void constrainA( void );
39    virtual void constrainB( void );
40 +  virtual int  readyCheck( void ) { return 1; }
41    
30  
42    void checkConstraints( void );
43    void rotate( int axes1, int axes2, double angle, double j[3],
44                 double A[3][3] );
# Line 51 | Line 62 | class Integrator : public BaseIntegrator { (protected)
62    
63    int* moving; // tells whether we are moving atom i
64    int* moved;  // tells whether we have moved atom i
65 <  double* prePos; // pre constrained positions
65 >  double* oldPos; // pre constrained positions
66  
67    short isFirst; /*boolean for the first time integrate is called */
68    
69    double dt;
70    double dt2;
60  const double eConvert = 4.184e-4; // converts kcal/mol -> amu*A^2/fs^2
71  
62  const int maxIteration = 300;
63  const double tol = 1.0e-6;
64
65  
66  double* pos;
67  double* vel;
68  double* frc;
69  double* trq;
70  double* Amat;
71  
72
73
72    Thermo *tStats;
73    StatWriter*  statOut;
74    DumpWriter*  dumpOut;
75    
76   };
77  
78 < class NVE : public Integrator{
78 > typedef Integrator<BaseIntegrator> RealIntegrator;
79  
80 <  NVE ( void ):
83 <    Integrator( theInfo, the_ff ){}
84 <  virtual ~NVE(){}
80 > template<typename T> class NVE : public T {
81  
82 + public:
83 +  NVE ( SimInfo *theInfo, ForceFields* the_ff ):
84 +    T( theInfo, the_ff ){}
85 +  virtual ~NVE(){}  
86 + };
87 +
88 +
89 + template<typename T> class NVT : public T {
90 +
91 + public:
92 +
93 +  NVT ( SimInfo *theInfo, ForceFields* the_ff);
94 +  virtual ~NVT() {}
95 +
96 +  void setTauThermostat(double tt) {tauThermostat = tt; have_tau_thermostat=1;}
97 +  void setTargetTemp(double tt) {targetTemp = tt; have_target_temp = 1;}
98 +
99 + protected:
100 +
101 +  virtual void moveA( void );
102 +  virtual void moveB( void );
103 +
104 +  virtual int readyCheck();
105 +
106 +  // chi is a propagated degree of freedom.
107 +
108 +  double chi;
109 +
110 +  // targetTemp must be set.  tauThermostat must also be set;
111 +
112 +  double targetTemp;
113 +  double tauThermostat;
114    
115 +  short int have_tau_thermostat, have_target_temp;
116  
117   };
118  
90 class NVT : public Integrator{
119  
92  NVT ( SimInfo &theInfo, ForceFields* the_ff ) :
93    Integrator( theInfo, the_ff );
94  virtual ~NVT();
120  
121 + template<typename T> class NPTi : public T{
122 +
123 + public:
124 +
125 +  NPTi ( SimInfo *theInfo, ForceFields* the_ff);
126 +  virtual ~NPTi() {};
127 +
128 +  virtual void integrateStep( int calcPot, int calcStress ){
129 +    calcStress = 1;
130 +    T::integrateStep( calcPot, calcStress );
131 +  }
132 +
133 +  void setTauThermostat(double tt) {tauThermostat = tt; have_tau_thermostat=1;}
134 +  void setTauBarostat(double tb) {tauBarostat = tb; have_tau_barostat=1;}
135 +  void setTargetTemp(double tt) {targetTemp = tt; have_target_temp = 1;}
136 +  void setTargetPressure(double tp) {targetPressure = tp; have_target_pressure = 1;}
137 +
138   protected:
97  virtual moveA( void );
98  virtual moveB( void );
139  
140 +  virtual void  moveA( void );
141 +  virtual void moveB( void );
142 +
143 +  virtual int readyCheck();
144 +
145 +  // chi and eta are the propagated degrees of freedom
146 +
147 +  double chi;
148 +  double eta;
149 +  double NkBT;
150 +
151 +  // targetTemp, targetPressure, and tauBarostat must be set.  
152 +  // One of qmass or tauThermostat must be set;
153 +
154 +  double targetTemp;
155 +  double targetPressure;
156 +  double tauThermostat;
157 +  double tauBarostat;
158 +
159 +  short int have_tau_thermostat, have_tau_barostat, have_target_temp;
160 +  short int have_target_pressure;
161 +
162   };
163  
164 + template<typename T> class NPTim : public T{
165 +
166 + public:
167 +
168 +  NPTim ( SimInfo *theInfo, ForceFields* the_ff);
169 +  virtual ~NPTim() {};
170 +
171 +  virtual void integrateStep( int calcPot, int calcStress ){
172 +    calcStress = 1;
173 +    T::integrateStep( calcPot, calcStress );
174 +  }
175 +
176 +  void setTauThermostat(double tt) {tauThermostat = tt; have_tau_thermostat=1;}
177 +  void setTauBarostat(double tb) {tauBarostat = tb; have_tau_barostat=1;}
178 +  void setTargetTemp(double tt) {targetTemp = tt; have_target_temp = 1;}
179 +  void setTargetPressure(double tp) {targetPressure = tp; have_target_pressure = 1;}
180 +
181 + protected:
182 +
183 +  virtual void moveA( void );
184 +  virtual void moveB( void );
185 +
186 +  virtual int readyCheck();
187 +
188 +  Molecule* myMolecules;
189 +  Atom** myAtoms;
190 +
191 +  // chi and eta are the propagated degrees of freedom
192 +
193 +  double chi;
194 +  double eta;
195 +  double NkBT;
196 +
197 +  // targetTemp, targetPressure, and tauBarostat must be set.  
198 +  // One of qmass or tauThermostat must be set;
199 +
200 +  double targetTemp;
201 +  double targetPressure;
202 +  double tauThermostat;
203 +  double tauBarostat;
204 +
205 +  short int have_tau_thermostat, have_tau_barostat, have_target_temp;
206 +  short int have_target_pressure;
207 +
208 + };
209 +
210 + template<typename T> class NPTf : public T{
211 +
212 + public:
213 +
214 +  NPTf ( SimInfo *theInfo, ForceFields* the_ff);
215 +  virtual ~NPTf() {};
216 +
217 +  virtual void integrateStep( int calcPot, int calcStress ){
218 +    calcStress = 1;
219 +    T::integrateStep( calcPot, calcStress );
220 +  }
221 +
222 +  void setTauThermostat(double tt) {tauThermostat = tt; have_tau_thermostat=1;}
223 +  void setTauBarostat(double tb) {tauBarostat = tb; have_tau_barostat=1;}
224 +  void setTargetTemp(double tt) {targetTemp = tt; have_target_temp = 1;}
225 +  void setTargetPressure(double tp) {targetPressure = tp; have_target_pressure = 1;}
226 +
227 + protected:
228 +
229 +  virtual void  moveA( void );
230 +  virtual void moveB( void );
231 +
232 +  virtual int readyCheck();
233 +
234 +  // chi and eta are the propagated degrees of freedom
235 +
236 +  double chi;
237 +  double eta[3][3];
238 +  double NkBT;
239 +
240 +  // targetTemp, targetPressure, and tauBarostat must be set.  
241 +  // One of qmass or tauThermostat must be set;
242 +
243 +  double targetTemp;
244 +  double targetPressure;
245 +  double tauThermostat;
246 +  double tauBarostat;
247 +
248 +  short int have_tau_thermostat, have_tau_barostat, have_target_temp;
249 +  short int have_target_pressure;
250 +
251 + };
252 +
253 + template<typename T> class NPTfm : public T{
254 +
255 + public:
256 +
257 +  NPTfm ( SimInfo *theInfo, ForceFields* the_ff);
258 +  virtual ~NPTfm() {};
259 +
260 +  virtual void integrateStep( int calcPot, int calcStress ){
261 +    calcStress = 1;
262 +    T::integrateStep( calcPot, calcStress );
263 +  }
264 +
265 +  void setTauThermostat(double tt) {tauThermostat = tt; have_tau_thermostat=1;}
266 +  void setTauBarostat(double tb) {tauBarostat = tb; have_tau_barostat=1;}
267 +  void setTargetTemp(double tt) {targetTemp = tt; have_target_temp = 1;}
268 +  void setTargetPressure(double tp) {targetPressure = tp; have_target_pressure = 1;}
269 +
270 + protected:
271 +
272 +  virtual void  moveA( void );
273 +  virtual void moveB( void );
274 +
275 +  virtual int readyCheck();
276 +
277 +  Molecule* myMolecules;
278 +  Atom** myAtoms;
279 +
280 +  // chi and eta are the propagated degrees of freedom
281 +
282 +  double chi;
283 +  double eta[3][3];
284 +  double NkBT;
285 +
286 +  // targetTemp, targetPressure, and tauBarostat must be set.  
287 +  // One of qmass or tauThermostat must be set;
288 +
289 +  double targetTemp;
290 +  double targetPressure;
291 +  double tauThermostat;
292 +  double tauBarostat;
293 +
294 +  short int have_tau_thermostat, have_tau_barostat, have_target_temp;
295 +  short int have_target_pressure;
296 +
297 + };
298 +
299 + template<typename T> class ZConstraint : public T {
300 +
301 + public:
302 +
303 +  ZConstraint( SimInfo *theInfo, ForceFields* the_ff);
304 +  ~ZConstraint();
305 +
306 +  virtual void integrateStep( int calcPot, int calcStress );
307    
308 +  
309 +  void setZConsTime(double time)                  {this->zconsTime = time;}
310 +  void getZConsTime()                             {return zconsTime;}
311 +  
312 +  void setIndexOfAllZConsMols(vector<int> index)  {indexOfAllZConsMols = index;}
313 +  void getIndexOfAllZConsMols()                   {return indexOfAllZConsMols;}
314 +  
315 +  void setZConsOutput(const char * fileName)      {zconsOutput = fileName;}
316 +  string getZConsOutput()                         {return zconsOutput;}
317  
318 + #ifdef IS_MPI
319 +  virtual void update(); //which is called to indicate the molecules' migration
320 + #endif
321  
322 + protected:
323 +
324 +  double zconsTime;
325 +  
326 +  void resetZ(void);
327 +  
328 +  vector<Molecule*> zconsMols;
329 +  vector<double> massOfZConsMols;
330 +  
331 +  vector<Molecule*> unconsMols;
332 +  vector<double> massOfUnconsMols;
333 +  double totalMassOfUncons;
334 +
335 +  vector<double> allRefZ;    
336 +  vector<double> refZ;
337 +  
338 +  vector<int> indexOfAllZConsMols;     //index of All Z-Constraint Molecuels
339 +  int* indexOfZConsMols;               //index of local Z-Constraint Molecules
340 +    
341 +  double* fz;
342 +  
343 + private:
344 +
345 +  int isZConstraintMol(Molecule* mol);
346 +  string zconsOutput;
347 +  ZConsWriter* fzOut;
348 + };
349 +
350   #endif

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