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Comparing trunk/OOPSE/libmdtools/Integrator.hpp (file contents):
Revision 574 by gezelter, Tue Jul 8 20:56:10 2003 UTC vs.
Revision 1161 by tim, Tue May 11 21:44:05 2004 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 "StuntDouble.hpp"
8 + #include "Molecule.hpp"
9   #include "SRI.hpp"
10   #include "AbstractClasses.hpp"
11   #include "SimInfo.hpp"
12   #include "ForceFields.hpp"
13   #include "Thermo.hpp"
14   #include "ReadWrite.hpp"
15 + #include "ZConsWriter.hpp"
16  
17 + using namespace std;
18   const double kB = 8.31451e-7;// boltzmann constant amu*Ang^2*fs^-2/K
19   const double eConvert = 4.184e-4; // converts kcal/mol -> amu*A^2/fs^2
20 + const double p_convert = 1.63882576e8; //converts amu*fs^-2*Ang^-1 -> atm
21   const int maxIteration = 300;
22   const double tol = 1.0e-6;
23  
24 < class Integrator : public BaseIntegrator {
24 > template<typename T = BaseIntegrator> class Integrator : public T {
25  
26   public:
27    Integrator( SimInfo *theInfo, ForceFields* the_ff );
28    virtual ~Integrator();
29    void integrate( void );
30 +  virtual double  getConservedQuantity(void);
31 +  virtual string getAdditionalParameters(void);
32  
24
33   protected:
34 <  
34 >
35    virtual void integrateStep( int calcPot, int calcStress );
36    virtual void preMove( void );
37    virtual void moveA( void );
# Line 31 | Line 39 | class Integrator : public BaseIntegrator { (protected)
39    virtual void constrainA( void );
40    virtual void constrainB( void );
41    virtual int  readyCheck( void ) { return 1; }
34  
35  void checkConstraints( void );
36  void rotate( int axes1, int axes2, double angle, double j[3],
37               double A[9] );
42  
43 +  virtual void resetIntegrator( void ) { }
44  
45 +  virtual void calcForce( int calcPot, int calcStress );
46 +  virtual void thermalize();
47 +
48 +  virtual bool stopIntegrator() {return false;}
49 +
50 +  virtual void rotationPropagation( StuntDouble* sd, double ji[3] );
51 +
52 +  void checkConstraints( void );
53 +  void rotate( int axes1, int axes2, double angle, double j[3],
54 +         double A[3][3] );
55 +
56    ForceFields* myFF;
57  
58    SimInfo *info; // all the info we'll ever need
59 +  vector<StuntDouble*> integrableObjects;
60    int nAtoms;  /* the number of atoms */
61    int oldAtoms;
62    Atom **atoms; /* array of atom pointers */
# Line 47 | Line 64 | class Integrator : public BaseIntegrator { (protected)
64    int nMols;
65  
66    int isConstrained; // boolean to know whether the systems contains
67 <                     // constraints.
68 <  int nConstrained;  // counter for number of constraints
69 <  int *constrainedA; // the i of a constraint pair
70 <  int *constrainedB; // the j of a constraint pair
71 <  double *constrainedDsqr; // the square of the constraint distance
72 <  
67 >         // constraints.
68 >  int nConstrained;  // counter for number of constraints
69 >  int *constrainedA; // the i of a constraint pair
70 >  int *constrainedB; // the j of a constraint pair
71 >  double *constrainedDsqr; // the square of the constraint distance
72 >
73    int* moving; // tells whether we are moving atom i
74    int* moved;  // tells whether we have moved atom i
75 <  double* oldPos; // pre constrained positions
75 >  double* oldPos; // pre constrained positions
76  
77    short isFirst; /*boolean for the first time integrate is called */
78 <  
78 >
79    double dt;
80    double dt2;
81  
65  double* pos;
66  double* vel;
67  double* frc;
68  double* trq;
69  double* Amat;
70
82    Thermo *tStats;
83    StatWriter*  statOut;
84    DumpWriter*  dumpOut;
85 <  
85 >
86   };
87  
88 < class NVE : public Integrator{
88 > typedef Integrator<BaseIntegrator> RealIntegrator;
89  
90 + // ansi instantiation
91 + template class Integrator<BaseIntegrator>;
92 +
93 + template<typename T> class NVE : public T {
94 +
95   public:
96    NVE ( SimInfo *theInfo, ForceFields* the_ff ):
97 <    Integrator( theInfo, the_ff ){}
97 >    T( theInfo, the_ff ){}
98    virtual ~NVE(){}
83
84  
85
99   };
100  
88 class NVT : public Integrator{
101  
102 + template<typename T> class NVT : public T {
103 +
104   public:
105  
106    NVT ( SimInfo *theInfo, ForceFields* the_ff);
107 <  virtual ~NVT() {}
107 >  virtual ~NVT();
108  
109    void setTauThermostat(double tt) {tauThermostat = tt; have_tau_thermostat=1;}
110    void setTargetTemp(double tt) {targetTemp = tt; have_target_temp = 1;}
111 +  void setChiTolerance(double tol) {chiTolerance = tol;}
112 +  virtual double  getConservedQuantity(void);
113 +  virtual string getAdditionalParameters(void);
114  
115   protected:
116  
# Line 102 | Line 119 | class NVT : public Integrator{ (protected)
119  
120    virtual int readyCheck();
121  
122 +  virtual void resetIntegrator( void );
123 +
124    // chi is a propagated degree of freedom.
125  
126    double chi;
127  
128 +  //integral of chi(t)dt
129 +  double integralOfChidt;
130 +
131    // targetTemp must be set.  tauThermostat must also be set;
132  
133    double targetTemp;
134    double tauThermostat;
135 <  
135 >
136    short int have_tau_thermostat, have_target_temp;
137  
138 +  double *oldVel;
139 +  double *oldJi;
140 +
141 +  double chiTolerance;
142 +  short int have_chi_tolerance;
143 +
144   };
145  
146  
119 class NPTi : public Integrator{
147  
148 + template<typename T> class NPT : public T{
149 +
150   public:
151  
152 <  NPTi ( SimInfo *theInfo, ForceFields* the_ff);
153 <  virtual ~NPTi() {};
152 >  NPT ( SimInfo *theInfo, ForceFields* the_ff);
153 >  virtual ~NPT();
154  
155 +  virtual void integrateStep( int calcPot, int calcStress ){
156 +    calcStress = 1;
157 +    T::integrateStep( calcPot, calcStress );
158 +  }
159 +
160 +  virtual double getConservedQuantity(void) = 0;
161 +  virtual string getAdditionalParameters(void) = 0;
162 +  
163 +  double myTauThermo( void ) { return tauThermostat; }
164 +  double myTauBaro( void ) { return tauBarostat; }
165 +
166    void setTauThermostat(double tt) {tauThermostat = tt; have_tau_thermostat=1;}
167    void setTauBarostat(double tb) {tauBarostat = tb; have_tau_barostat=1;}
168    void setTargetTemp(double tt) {targetTemp = tt; have_target_temp = 1;}
169    void setTargetPressure(double tp) {targetPressure = tp; have_target_pressure = 1;}
170 +  void setChiTolerance(double tol) {chiTolerance = tol; have_chi_tolerance = 1;}
171 +  void setPosIterTolerance(double tol) {posIterTolerance = tol; have_pos_iter_tolerance = 1;}
172 +  void setEtaTolerance(double tol) {etaTolerance = tol; have_eta_tolerance = 1;}
173  
174   protected:
175  
# Line 135 | Line 178 | class NPTi : public Integrator{ (protected)
178  
179    virtual int readyCheck();
180  
181 +  virtual void resetIntegrator( void );
182 +
183 +  virtual void getVelScaleA( double sc[3], double vel[3] ) = 0;
184 +  virtual void getVelScaleB( double sc[3], int index ) = 0;
185 +  virtual void getPosScale(double pos[3], double COM[3],
186 +                           int index, double sc[3]) = 0;
187 +
188 +  virtual void calcVelScale( void ) = 0;
189 +
190 +  virtual bool chiConverged( void );
191 +  virtual bool etaConverged( void ) = 0;
192 +
193 +  virtual void evolveChiA( void );
194 +  virtual void evolveEtaA( void ) = 0;
195 +  virtual void evolveChiB( void );
196 +  virtual void evolveEtaB( void ) = 0;
197 +
198 +  virtual void scaleSimBox( void ) = 0;
199 +
200 +  void accIntegralOfChidt(void) { integralOfChidt += dt * chi;}
201 +
202    // chi and eta are the propagated degrees of freedom
203  
204 +  double oldChi;
205 +  double prevChi;
206    double chi;
141  double eta;
207    double NkBT;
208 +  double fkBT;
209  
210 <  // targetTemp, targetPressure, and tauBarostat must be set.  
210 >  double tt2, tb2;
211 >  double instaTemp, instaPress, instaVol;
212 >  double press[3][3];
213 >
214 >  int Nparticles;
215 >
216 >  double integralOfChidt;
217 >
218 >  // targetTemp, targetPressure, and tauBarostat must be set.
219    // One of qmass or tauThermostat must be set;
220  
221    double targetTemp;
# Line 151 | Line 225 | class NPTi : public Integrator{ (protected)
225  
226    short int have_tau_thermostat, have_tau_barostat, have_target_temp;
227    short int have_target_pressure;
228 +
229 +  double *oldPos;
230 +  double *oldVel;
231 +  double *oldJi;
232 +
233 +  double chiTolerance;
234 +  short int have_chi_tolerance;
235 +  double posIterTolerance;
236 +  short int have_pos_iter_tolerance;
237 +  double etaTolerance;
238 +  short int have_eta_tolerance;
239 +
240 + };
241 +
242 + template<typename T> class NPTi : public T{
243 +
244 + public:
245 +  NPTi( SimInfo *theInfo, ForceFields* the_ff);
246 +  ~NPTi();
247 +
248 +  virtual double getConservedQuantity(void);
249 +  virtual void resetIntegrator(void);
250 +  virtual string getAdditionalParameters(void);
251 + protected:
252 +
253 +
254 +
255 +  virtual void evolveEtaA(void);
256 +  virtual void evolveEtaB(void);
257 +
258 +  virtual bool etaConverged( void );
259 +
260 +  virtual void scaleSimBox( void );
261 +
262 +  virtual void getVelScaleA( double sc[3], double vel[3] );
263 +  virtual void getVelScaleB( double sc[3], int index );
264 +  virtual void getPosScale(double pos[3], double COM[3],
265 +                           int index, double sc[3]);
266 +
267 +  virtual void calcVelScale( void );
268 +
269 +  double eta, oldEta, prevEta;
270 +  double vScale;
271 + };
272 +
273 + template<typename T> class NPTf : public T{
274 +
275 + public:
276 +
277 +  NPTf ( SimInfo *theInfo, ForceFields* the_ff);
278 +  virtual ~NPTf();
279 +
280 +  virtual double getConservedQuantity(void);
281 +  virtual string getAdditionalParameters(void);
282 +  virtual void resetIntegrator(void);
283 +
284 + protected:
285 +
286 +  virtual void evolveEtaA(void);
287 +  virtual void evolveEtaB(void);
288 +
289 +  virtual bool etaConverged( void );
290 +
291 +  virtual void scaleSimBox( void );
292 +
293 +  virtual void getVelScaleA( double sc[3], double vel[3] );
294 +  virtual void getVelScaleB( double sc[3], int index );
295 +  virtual void getPosScale(double pos[3], double COM[3],
296 +                           int index, double sc[3]);
297 +
298 +  virtual void calcVelScale( void );
299 +
300 +  double eta[3][3];
301 +  double oldEta[3][3];
302 +  double prevEta[3][3];
303 +  double vScale[3][3];
304 + };
305 +
306 + template<typename T> class NPTxyz : public T{
307 +
308 + public:
309 +
310 +  NPTxyz ( SimInfo *theInfo, ForceFields* the_ff);
311 +  virtual ~NPTxyz();
312 +
313 +  virtual double getConservedQuantity(void);
314 +  virtual string getAdditionalParameters(void);
315 +  virtual void resetIntegrator(void);
316  
317 + protected:
318 +
319 +  virtual void evolveEtaA(void);
320 +  virtual void evolveEtaB(void);
321 +
322 +  virtual bool etaConverged( void );
323 +
324 +  virtual void scaleSimBox( void );
325 +
326 +  virtual void getVelScaleA( double sc[3], double vel[3] );
327 +  virtual void getVelScaleB( double sc[3], int index );
328 +  virtual void getPosScale(double pos[3], double COM[3],
329 +                           int index, double sc[3]);
330 +
331 +  virtual void calcVelScale( void );
332 +
333 +  double eta[3][3];
334 +  double oldEta[3][3];
335 +  double prevEta[3][3];
336 +  double vScale[3][3];
337   };
338  
339 +
340 + template<typename T> class ZConstraint : public T {
341 +
342 +  public:
343 +  class ForceSubtractionPolicy{
344 +    public:
345 +      ForceSubtractionPolicy(ZConstraint<T>* integrator) {zconsIntegrator = integrator;}
346 +
347 +      virtual void update() = 0;
348 +      virtual double getZFOfFixedZMols(Molecule* mol, Atom* atom, double totalForce) = 0;
349 +      virtual double getZFOfMovingMols(Atom* atom, double totalForce) = 0;
350 +      virtual double getHFOfFixedZMols(Molecule* mol, Atom* atom, double totalForce) = 0;
351 +      virtual double getHFOfUnconsMols(Atom* atom, double totalForce) = 0;
352 +
353 +   protected:
354 +     ZConstraint<T>* zconsIntegrator;
355 +  };
356 +
357 +  class PolicyByNumber : public ForceSubtractionPolicy{
358 +
359 +    public:
360 +      PolicyByNumber(ZConstraint<T>* integrator) :ForceSubtractionPolicy(integrator) {}
361 +      virtual void update();
362 +      virtual double getZFOfFixedZMols(Molecule* mol, Atom* atom, double totalForce) ;
363 +      virtual double getZFOfMovingMols(Atom* atom, double totalForce) ;
364 +      virtual double getHFOfFixedZMols(Molecule* mol, Atom* atom, double totalForce);
365 +      virtual double getHFOfUnconsMols(Atom* atom, double totalForce);
366 +
367 +    private:
368 +      int totNumOfMovingAtoms;
369 +  };
370 +
371 +  class PolicyByMass : public ForceSubtractionPolicy{
372 +
373 +    public:
374 +      PolicyByMass(ZConstraint<T>* integrator) :ForceSubtractionPolicy(integrator) {}
375 +
376 +      virtual void update();
377 +      virtual double getZFOfFixedZMols(Molecule* mol, Atom* atom, double totalForce) ;
378 +      virtual double getZFOfMovingMols(Atom* atom, double totalForce) ;
379 +      virtual double getHFOfFixedZMols(Molecule* mol, Atom* atom, double totalForce);
380 +      virtual double getHFOfUnconsMols(Atom* atom, double totalForce);
381 +
382 +   private:
383 +     double totMassOfMovingAtoms;
384 +  };
385 +
386 + public:
387 +
388 +  ZConstraint( SimInfo *theInfo, ForceFields* the_ff);
389 +  ~ZConstraint();
390 +
391 +  void setZConsTime(double time)                  {this->zconsTime = time;}
392 +  void getZConsTime()                             {return zconsTime;}
393 +
394 +  void setIndexOfAllZConsMols(vector<int> index) {indexOfAllZConsMols = index;}
395 +  void getIndexOfAllZConsMols()                  {return indexOfAllZConsMols;}
396 +
397 +  void setZConsOutput(const char * fileName)          {zconsOutput = fileName;}
398 +  string getZConsOutput()                         {return zconsOutput;}
399 +
400 +  virtual void integrate();
401 +
402 +
403 + #ifdef IS_MPI
404 +  virtual void update();                      //which is called to indicate the molecules' migration
405   #endif
406 +
407 +  enum ZConsState {zcsMoving, zcsFixed};
408 +
409 +  vector<Molecule*> zconsMols;              //z-constraint molecules array
410 +  vector<ZConsState> states;                 //state of z-constraint molecules
411 +
412 +
413 +
414 +  int totNumOfUnconsAtoms;              //total number of uncontraint atoms
415 +  double totalMassOfUncons;                //total mas of unconstraint molecules
416 +
417 +
418 + protected:
419 +
420 +
421 +
422 +  virtual void calcForce( int calcPot, int calcStress );
423 +  virtual void thermalize(void);
424 +
425 +  void zeroOutVel();
426 +  void doZconstraintForce();
427 +  void doHarmonic(vector<double>& resPos);
428 +  bool checkZConsState();
429 +
430 +  bool haveFixedZMols();
431 +  bool haveMovingZMols();
432 +
433 +  double calcZSys();
434 +
435 +  int isZConstraintMol(Molecule* mol);
436 +
437 +
438 +  double zconsTime;                              //sample time
439 +  double zconsTol;                                 //tolerance of z-contratint
440 +  double zForceConst;                           //base force constant term
441 +                                                          //which is estimate by OOPSE
442 +
443 +
444 +  vector<double> massOfZConsMols;       //mass of z-constraint molecule
445 +  vector<double> kz;                              //force constant array
446 +
447 +  vector<double> zPos;                          //
448 +
449 +
450 +  vector<Molecule*> unconsMols;           //unconstraint molecules array
451 +  vector<double> massOfUnconsMols;    //mass array of unconstraint molecules
452 +
453 +
454 +  vector<ZConsParaItem>* parameters; //
455 +
456 +  vector<int> indexOfAllZConsMols;     //index of All Z-Constraint Molecuels
457 +
458 +  vector<int> indexOfZConsMols;                   //index of local Z-Constraint Molecules
459 +  vector<double> fz;
460 +  vector<double> curZPos;
461 +
462 +  bool usingSMD;
463 +  vector<double> prevCantPos;
464 +  vector<double> cantPos;
465 +  vector<double> cantVel;
466 +
467 +  double zconsFixTime;  
468 +  double zconsGap;
469 +  bool hasZConsGap;
470 +  vector<double> endFixTime;
471 +  
472 +  int whichDirection;                           //constraint direction
473 +
474 + private:
475 +
476 +  string zconsOutput;                         //filename of zconstraint output
477 +  ZConsWriter* fzOut;                         //z-constraint writer
478 +
479 +  double curZconsTime;
480 +
481 +  double calcMovingMolsCOMVel();
482 +  double calcSysCOMVel();
483 +  double calcTotalForce();
484 +  void updateZPos();
485 +  void updateCantPos();
486 +  
487 +  ForceSubtractionPolicy* forcePolicy; //force subtraction policy
488 +  friend class ForceSubtractionPolicy;
489 +
490 + };
491 +
492 + /*
493 + template<typename T> class SingleZConstrain : public T{
494 +
495 +
496 + };
497 + */
498 +
499 + template<typename T> class NonEquMD : public T {
500 +  public:
501 +    
502 +
503 +
504 + };
505 +
506 +
507 + //
508 + template<typename T> class SingleZConstraint : public T{
509 +  public:
510 +    SingleZConstraint(SimInfo *theInfo, ForceFields* the_ff);
511 +    ~SingleZConstraint();
512 +    
513 +    bool stopIntegrator();
514 +    
515 +  protected:
516 +    
517 + };
518 +
519 + //Steered Molecular Dynamics, curret implement only support one steered molecule
520 + template<typename T> class SMD : public T{
521 +  public:
522 +    SMD( SimInfo *theInfo, ForceFields* the_ff);
523 +    ~SMD();
524 +  
525 +    virtual void integrate();
526 +    virtual void calcForce( int calcPot, int calcStress );  
527 +    bool stopIntegrator();
528 +  private:
529 +    
530 + };
531 +
532 + //By using state pattern, Coordinate Drive is responsible for switching back and forth between
533 + //Driven Molecular Dynamics and ZConstraint Method.
534 + template<typename T> class CoordinateDriver : public T {
535 +  public:
536 +    typedef T ParentIntegrator;
537 +
538 +    CoordinateDriver(SimInfo*, ForceFields*, BaseIntegrator*, BaseIntegrator*);
539 +    ~CoordinateDriver();
540 +    
541 +    virtual void integrate();
542 +
543 +  private:    
544 +    BaseIntegrator* zconsIntegrator;
545 +    BaseIntegrator* drivenIntegrator;
546 +    
547 + };
548 +
549 + #endif

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