OOPSE/libmdtools/Rattle.cpp

#include "Rattle.hpp"
#include <cmath>
#include "SimInfo.hpp"
#include "MatVec3.h"
////////////////////////////////////////////////////////////////////////////////
//Implementation of DCShakeFunctor
////////////////////////////////////////////////////////////////////////////////
int DCRattleAFunctor::operator()(ConstraintAtom* consAtom1, ConstraintAtom* consAtom2){
  double posA[3];
  double posB[3];
  double oldPosA[3];
  double oldPosB[3];
  double velA[3];
  double velB[3];
  double pab[3];
  double rab[3];
  double rma, rmb;
  double dx, dy, dz;
  double rpab;
  double rabsq, pabsq, rpabsq;
  double diffsq;
  double gab;
  double dt;
  
  dt = info->dt;
  
  consAtom1->getPos(posA);
  consAtom2->getPos(posB);

   
  pab[0] = posA[0] - posB[0];
  pab[1] = posA[1] - posB[1];
  pab[2] = posA[2] - posB[2];

  //periodic boundary condition

  info->wrapVector(pab);

  pabsq = pab[0] * pab[0] + pab[1] * pab[1] + pab[2] * pab[2];

  rabsq = curPair->getBondLength2();
  diffsq = rabsq - pabsq;

  // the original rattle code from alan tidesley
  if (fabs(diffsq) > (consTolerance * rabsq * 2)){
    
    consAtom1->getOldPos(oldPosA);
    consAtom2->getOldPos(oldPosB);      
    
    rab[0] = oldPosA[0] - oldPosB[0];
    rab[1] = oldPosA[1] - oldPosB[1];
    rab[2] = oldPosA[2] - oldPosB[2];

    info->wrapVector(rab);

    rpab = rab[0] * pab[0] + rab[1] * pab[1] + rab[2] * pab[2];

    rpabsq = rpab * rpab;


    if (rpabsq < (rabsq * -diffsq)){
      return consFail;
    }

    rma = 1.0 / consAtom1->getMass();
    rmb = 1.0 / consAtom2->getMass();

    gab = diffsq / (2.0 * (rma + rmb) * rpab);

    dx = rab[0] * gab;
    dy = rab[1] * gab;
    dz = rab[2] * gab;

    //set atom1's position
    posA[0] += rma * dx;
    posA[1] += rma * dy;
    posA[2] += rma * dz;
    consAtom1->setPos(posA);

    //set atom2's position
    posB[0] -= rmb * dx;
    posB[1] -= rmb * dy;
    posB[2] -= rmb * dz;
    consAtom2->setPos(posB);

    dx = dx / dt;
    dy = dy / dt;
    dz = dz / dt;

    //set atom1's velocity
    consAtom1->getVel(velA);
    velA[0] += rma * dx;
    velA[1] += rma * dy;
    velA[2] += rma * dz;
    consAtom1->setVel(velA);

    //set atom2's velocity
    consAtom2->getVel(velB);
    velB[0] -= rmb * dx;
    velB[1] -= rmb * dy;
    velB[2] -= rmb * dz;
    consAtom2->setVel(velB);

    return consSuccess;
  }
  else
    return consAlready;
  
}


int DCRattleAFunctor::operator()(ConstraintAtom* consAtom,ConstraintRigidBody* consRB){
  return consElemHandlerFail;
} 

int DCRattleAFunctor::operator()(ConstraintRigidBody* consRB1, ConstraintRigidBody* consRB2){
  //calculate lamda

  //integrate

  //
  return consElemHandlerFail;
}
////////////////////////////////////////////////////////////////////////////////
//Implementation of JCShakeFunctor
////////////////////////////////////////////////////////////////////////////////
int JCRattleAFunctor::operator()(ConstraintAtom* consAtom1, ConstraintAtom* consAtom2){
  return consElemHandlerFail;
}

int JCRattleAFunctor::operator()(ConstraintAtom* consAtom,ConstraintRigidBody* consRB){
  return consElemHandlerFail;

}
 
int JCRattleAFunctor::operator()(ConstraintRigidBody* consRB1, ConstraintRigidBody* consRB2){
  //calculate lamda,
  //integrate
  //
  return consElemHandlerFail;
}


////////////////////////////////////////////////////////////////////////////////
//Implementation of DCRattleBFunctor
////////////////////////////////////////////////////////////////////////////////
int DCRattleBFunctor::operator()(ConstraintAtom* consAtom1, ConstraintAtom* consAtom2){
  double posA[3], posB[3];
  double velA[3], velB[3];
  double vxab, vyab, vzab;
  double rab[3];
  double rma, rmb;
  double dx, dy, dz;
  double rvab;
  double gab;
  
    consAtom1->getVel(velA);
    consAtom2->getVel(velB);

    vxab = velA[0] - velB[0];
    vyab = velA[1] - velB[1];
    vzab = velA[2] - velB[2];

    consAtom1->getPos(posA);
    consAtom2->getPos(posB);

    rab[0] = posA[0] - posB[0];
    rab[1] = posA[1] - posB[1];
    rab[2] = posA[2] - posB[2];

    info->wrapVector(rab);

    rma = 1.0 / consAtom1->getMass();
    rmb = 1.0 / consAtom2->getMass();

    rvab = rab[0] * vxab + rab[1] * vyab + rab[2] * vzab;

    gab = -rvab / ((rma + rmb) * curPair->getBondLength2());

    if (fabs(gab) > consTolerance){
      dx = rab[0] * gab;
      dy = rab[1] * gab;
      dz = rab[2] * gab;

      velA[0] += rma * dx;
      velA[1] += rma * dy;
      velA[2] += rma * dz;

      consAtom1->setVel(velA);

      velB[0] -= rmb * dx;
      velB[1] -= rmb * dy;
      velB[2] -= rmb * dz;

      consAtom2->setVel(velB);
      return consSuccess;
    }
    else
      return consAlready;

}


int DCRattleBFunctor::operator()(ConstraintAtom* consAtom,ConstraintRigidBody* consRB){
  return consElemHandlerFail;
}
 
int DCRattleBFunctor::operator()(ConstraintRigidBody* consRB1, ConstraintRigidBody* consRB2){
  return consElemHandlerFail;
}

////////////////////////////////////////////////////////////////////////////////
//Implementation of JCRattleBFunctor
////////////////////////////////////////////////////////////////////////////////
int JCRattleBFunctor::operator()(ConstraintAtom* consAtom1, ConstraintAtom* consAtom2){
  return consElemHandlerFail;
}


int JCRattleBFunctor::operator()(ConstraintAtom* consAtom,ConstraintRigidBody* consRB){
  return consElemHandlerFail;
}
 
int JCRattleBFunctor::operator()(ConstraintRigidBody* consRB1, ConstraintRigidBody* consRB2){
  return consElemHandlerFail;
}
Revision:	1284
Committed:	Mon Jun 21 18:52:21 2004 UTC (20 years, 10 months ago) by tim
File size:	5515 byte(s)
Log Message:	roll in progress
#	Content
1	#include "Rattle.hpp"
2	#include <cmath>
3	#include "SimInfo.hpp"
4	#include "MatVec3.h"
5	////////////////////////////////////////////////////////////////////////////////
6	//Implementation of DCShakeFunctor
7	////////////////////////////////////////////////////////////////////////////////
8	int DCRattleAFunctor::operator()(ConstraintAtom* consAtom1, ConstraintAtom* consAtom2){
9	double posA[3];
10	double posB[3];
11	double oldPosA[3];
12	double oldPosB[3];
13	double velA[3];
14	double velB[3];
15	double pab[3];
16	double rab[3];
17	double rma, rmb;
18	double dx, dy, dz;
19	double rpab;
20	double rabsq, pabsq, rpabsq;
21	double diffsq;
22	double gab;
23	double dt;
24
25	dt = info->dt;
26
27	consAtom1->getPos(posA);
28	consAtom2->getPos(posB);
29
30
31	pab[0] = posA[0] - posB[0];
32	pab[1] = posA[1] - posB[1];
33	pab[2] = posA[2] - posB[2];
34
35	//periodic boundary condition
36
37	info->wrapVector(pab);
38
39	pabsq = pab[0] * pab[0] + pab[1] * pab[1] + pab[2] * pab[2];
40
41	rabsq = curPair->getBondLength2();
42	diffsq = rabsq - pabsq;
43
44	// the original rattle code from alan tidesley
45	if (fabs(diffsq) > (consTolerance * rabsq * 2)){
46
47	consAtom1->getOldPos(oldPosA);
48	consAtom2->getOldPos(oldPosB);
49
50	rab[0] = oldPosA[0] - oldPosB[0];
51	rab[1] = oldPosA[1] - oldPosB[1];
52	rab[2] = oldPosA[2] - oldPosB[2];
53
54	info->wrapVector(rab);
55
56	rpab = rab[0] * pab[0] + rab[1] * pab[1] + rab[2] * pab[2];
57
58	rpabsq = rpab * rpab;
59
60
61	if (rpabsq < (rabsq * -diffsq)){
62	return consFail;
63	}
64
65	rma = 1.0 / consAtom1->getMass();
66	rmb = 1.0 / consAtom2->getMass();
67
68	gab = diffsq / (2.0 * (rma + rmb) * rpab);
69
70	dx = rab[0] * gab;
71	dy = rab[1] * gab;
72	dz = rab[2] * gab;
73
74	//set atom1's position
75	posA[0] += rma * dx;
76	posA[1] += rma * dy;
77	posA[2] += rma * dz;
78	consAtom1->setPos(posA);
79
80	//set atom2's position
81	posB[0] -= rmb * dx;
82	posB[1] -= rmb * dy;
83	posB[2] -= rmb * dz;
84	consAtom2->setPos(posB);
85
86	dx = dx / dt;
87	dy = dy / dt;
88	dz = dz / dt;
89
90	//set atom1's velocity
91	consAtom1->getVel(velA);
92	velA[0] += rma * dx;
93	velA[1] += rma * dy;
94	velA[2] += rma * dz;
95	consAtom1->setVel(velA);
96
97	//set atom2's velocity
98	consAtom2->getVel(velB);
99	velB[0] -= rmb * dx;
100	velB[1] -= rmb * dy;
101	velB[2] -= rmb * dz;
102	consAtom2->setVel(velB);
103
104	return consSuccess;
105	}
106	else
107	return consAlready;
108
109	}
110
111
112	int DCRattleAFunctor::operator()(ConstraintAtom* consAtom,ConstraintRigidBody* consRB){
113	return consElemHandlerFail;
114	}
115
116	int DCRattleAFunctor::operator()(ConstraintRigidBody* consRB1, ConstraintRigidBody* consRB2){
117	//calculate lamda
118
119	//integrate
120
121	//
122	return consElemHandlerFail;
123	}
124	////////////////////////////////////////////////////////////////////////////////
125	//Implementation of JCShakeFunctor
126	////////////////////////////////////////////////////////////////////////////////
127	int JCRattleAFunctor::operator()(ConstraintAtom* consAtom1, ConstraintAtom* consAtom2){
128	return consElemHandlerFail;
129	}
130
131	int JCRattleAFunctor::operator()(ConstraintAtom* consAtom,ConstraintRigidBody* consRB){
132	return consElemHandlerFail;
133
134	}
135
136	int JCRattleAFunctor::operator()(ConstraintRigidBody* consRB1, ConstraintRigidBody* consRB2){
137	//calculate lamda,
138	//integrate
139	//
140	return consElemHandlerFail;
141	}
142
143
144	////////////////////////////////////////////////////////////////////////////////
145	//Implementation of DCRattleBFunctor
146	////////////////////////////////////////////////////////////////////////////////
147	int DCRattleBFunctor::operator()(ConstraintAtom* consAtom1, ConstraintAtom* consAtom2){
148	double posA[3], posB[3];
149	double velA[3], velB[3];
150	double vxab, vyab, vzab;
151	double rab[3];
152	double rma, rmb;
153	double dx, dy, dz;
154	double rvab;
155	double gab;
156
157	consAtom1->getVel(velA);
158	consAtom2->getVel(velB);
159
160	vxab = velA[0] - velB[0];
161	vyab = velA[1] - velB[1];
162	vzab = velA[2] - velB[2];
163
164	consAtom1->getPos(posA);
165	consAtom2->getPos(posB);
166
167	rab[0] = posA[0] - posB[0];
168	rab[1] = posA[1] - posB[1];
169	rab[2] = posA[2] - posB[2];
170
171	info->wrapVector(rab);
172
173	rma = 1.0 / consAtom1->getMass();
174	rmb = 1.0 / consAtom2->getMass();
175
176	rvab = rab[0] * vxab + rab[1] * vyab + rab[2] * vzab;
177
178	gab = -rvab / ((rma + rmb) * curPair->getBondLength2());
179
180	if (fabs(gab) > consTolerance){
181	dx = rab[0] * gab;
182	dy = rab[1] * gab;
183	dz = rab[2] * gab;
184
185	velA[0] += rma * dx;
186	velA[1] += rma * dy;
187	velA[2] += rma * dz;
188
189	consAtom1->setVel(velA);
190
191	velB[0] -= rmb * dx;
192	velB[1] -= rmb * dy;
193	velB[2] -= rmb * dz;
194
195	consAtom2->setVel(velB);
196	return consSuccess;
197	}
198	else
199	return consAlready;
200
201	}
202
203
204
205	int DCRattleBFunctor::operator()(ConstraintAtom* consAtom,ConstraintRigidBody* consRB){
206	return consElemHandlerFail;
207	}
208
209	int DCRattleBFunctor::operator()(ConstraintRigidBody* consRB1, ConstraintRigidBody* consRB2){
210	return consElemHandlerFail;
211	}
212
213	////////////////////////////////////////////////////////////////////////////////
214	//Implementation of JCRattleBFunctor
215	////////////////////////////////////////////////////////////////////////////////
216	int JCRattleBFunctor::operator()(ConstraintAtom* consAtom1, ConstraintAtom* consAtom2){
217	return consElemHandlerFail;
218	}
219
220
221
222	int JCRattleBFunctor::operator()(ConstraintAtom* consAtom,ConstraintRigidBody* consRB){
223	return consElemHandlerFail;
224	}
225
226	int JCRattleBFunctor::operator()(ConstraintRigidBody* consRB1, ConstraintRigidBody* consRB2){
227	return consElemHandlerFail;
228	}