OOPSE/libmdtools/OOPSEMinimizerBase.cpp

#include "Integrator.hpp"

OOPSEMinimizerBase::OOPSEMinimizerBase(SimInfo* theInfo, ForceFields* the_ff)
                           : RealIntegrator( theInfo, the_ff ){
  tStats = new Thermo(info);
  dumpOut = new DumpWriter(info);
  statOut = new StatWriter(info);
  calcDim();
}

OOPSEMinimizerBase::~OOPSEMinimizerBase(){
  delete tStats;
  delete dumpOut;
  delete statOut;
}

/**
 *
 */


double OOPSEMinimizerBase::calcGradient(vector<double>& x, vector<double>& grad){
  Atom** atoms;  
  DirectionalAtom* dAtom;
  int index;
  double force[3];
  double dAtomGrad[6];

  setCoor(x);
  calcForce(1, 1);
  
  atoms = info->atoms;
  index = 0;

  for(int i = 0; i < nAtoms; i++){

    if(atoms[i]->isDirectional()){
      dAtom = (DirectionalAtom*) atoms[i];
      dAtom->getGrad(dAtomGrad);

      //gradient = du/dx = -f
      grad[index++] = -dAtomGrad[0];
      grad[index++] = -dAtomGrad[1];
      grad[index++] = -dAtomGrad[2];
      grad[index++] = -dAtomGrad[3];
      grad[index++] = -dAtomGrad[4];
      grad[index++] = -dAtomGrad[5];

    }
    else{
      atoms[i]->getFrc(force);

      grad[index++] = -force[0];
      grad[index++] = -force[1];
      grad[index++] = -force[2];

    }
    
  }
 
  return tStats->getPotential();
  
}

/**
 *
 */

void OOPSEMinimizerBase::setCoor(vector<double>& x){
  Atom** atoms;  
  DirectionalAtom* dAtom;
  int index;
  double position[3];
  double eulerAngle[3];

  atoms = info->atoms;
  index = 0;
  
  for(int i = 0; i < nAtoms; i++){
    
    position[0] = x[index++];
    position[1] = x[index++];
    position[2] = x[index++];

    atoms[i]->setPos(position);

    if (atoms[i]->isDirectional()){
      dAtom = (DirectionalAtom*) atoms[i];
 
      eulerAngle[0] = x[index++];
      eulerAngle[1] = x[index++];
      eulerAngle[2] = x[index++];

       dAtom->setEuler(eulerAngle[0], eulerAngle[1], eulerAngle[2]);

    }
    
  }
  
}

/**
 *
 */
vector<double> OOPSEMinimizerBase::getCoor(){
  Atom** atoms;  
  DirectionalAtom* dAtom;
  int index;
  double position[3];
  double eulerAngle[3];
  vector<double> x;

  x.resize(getDim());
  atoms = info->atoms;
  index = 0;
  
  for(int i = 0; i < nAtoms; i++){
    atoms[i]->getPos(position);

    x[index++] = position[0];
    x[index++] = position[1];
    x[index++] = position[2];

    if (atoms[i]->isDirectional()){
      dAtom = (DirectionalAtom*) atoms[i];
      dAtom->getEulerAngles(eulerAngle);

      x[index++] = eulerAngle[0];
      x[index++] = eulerAngle[1];
      x[index++] = eulerAngle[2];
       
    }
    
  }

  return x;

}
         
void OOPSEMinimizerBase::calcDim(){
  Atom** atoms;  
  DirectionalAtom* dAtom;

  dim = 0;

  atoms = info->atoms;
  
  for(int i = 0; i < nAtoms; i++){
    dim += 3;
    if (atoms[i]->isDirectional())
      dim += 3;      
  }

}

void OOPSEMinimizerBase::output(vector<double>& x, int iteration){
  setCoor(x);
  calcForce(1, 1);
  dumpOut->writeDump(iteration);
  statOut->writeStat(iteration);
}
Revision:	1046
Committed:	Tue Feb 10 21:33:44 2004 UTC (21 years, 2 months ago) by tim
File size:	3136 byte(s)
Log Message:	single version of energy minimization is working.
#	Content
1	#include "Integrator.hpp"
2
3	OOPSEMinimizerBase::OOPSEMinimizerBase(SimInfo* theInfo, ForceFields* the_ff)
4	: RealIntegrator( theInfo, the_ff ){
5	tStats = new Thermo(info);
6	dumpOut = new DumpWriter(info);
7	statOut = new StatWriter(info);
8	calcDim();
9	}
10
11	OOPSEMinimizerBase::~OOPSEMinimizerBase(){
12	delete tStats;
13	delete dumpOut;
14	delete statOut;
15	}
16
17	/**
18	*
19	*/
20
21
22	double OOPSEMinimizerBase::calcGradient(vector<double>& x, vector<double>& grad){
23	Atom** atoms;
24	DirectionalAtom* dAtom;
25	int index;
26	double force[3];
27	double dAtomGrad[6];
28
29	setCoor(x);
30	calcForce(1, 1);
31
32	atoms = info->atoms;
33	index = 0;
34
35	for(int i = 0; i < nAtoms; i++){
36
37	if(atoms[i]->isDirectional()){
38	dAtom = (DirectionalAtom*) atoms[i];
39	dAtom->getGrad(dAtomGrad);
40
41	//gradient = du/dx = -f
42	grad[index++] = -dAtomGrad[0];
43	grad[index++] = -dAtomGrad[1];
44	grad[index++] = -dAtomGrad[2];
45	grad[index++] = -dAtomGrad[3];
46	grad[index++] = -dAtomGrad[4];
47	grad[index++] = -dAtomGrad[5];
48
49	}
50	else{
51	atoms[i]->getFrc(force);
52
53	grad[index++] = -force[0];
54	grad[index++] = -force[1];
55	grad[index++] = -force[2];
56
57	}
58
59	}
60
61	return tStats->getPotential();
62
63	}
64
65	/**
66	*
67	*/
68
69	void OOPSEMinimizerBase::setCoor(vector<double>& x){
70	Atom** atoms;
71	DirectionalAtom* dAtom;
72	int index;
73	double position[3];
74	double eulerAngle[3];
75
76	atoms = info->atoms;
77	index = 0;
78
79	for(int i = 0; i < nAtoms; i++){
80
81	position[0] = x[index++];
82	position[1] = x[index++];
83	position[2] = x[index++];
84
85	atoms[i]->setPos(position);
86
87	if (atoms[i]->isDirectional()){
88	dAtom = (DirectionalAtom*) atoms[i];
89
90	eulerAngle[0] = x[index++];
91	eulerAngle[1] = x[index++];
92	eulerAngle[2] = x[index++];
93
94	dAtom->setEuler(eulerAngle[0], eulerAngle[1], eulerAngle[2]);
95
96	}
97
98	}
99
100	}
101
102	/**
103	*
104	*/
105	vector<double> OOPSEMinimizerBase::getCoor(){
106	Atom** atoms;
107	DirectionalAtom* dAtom;
108	int index;
109	double position[3];
110	double eulerAngle[3];
111	vector<double> x;
112
113	x.resize(getDim());
114	atoms = info->atoms;
115	index = 0;
116
117	for(int i = 0; i < nAtoms; i++){
118	atoms[i]->getPos(position);
119
120	x[index++] = position[0];
121	x[index++] = position[1];
122	x[index++] = position[2];
123
124	if (atoms[i]->isDirectional()){
125	dAtom = (DirectionalAtom*) atoms[i];
126	dAtom->getEulerAngles(eulerAngle);
127
128	x[index++] = eulerAngle[0];
129	x[index++] = eulerAngle[1];
130	x[index++] = eulerAngle[2];
131
132	}
133
134	}
135
136	return x;
137
138	}
139
140	void OOPSEMinimizerBase::calcDim(){
141	Atom** atoms;
142	DirectionalAtom* dAtom;
143
144	dim = 0;
145
146	atoms = info->atoms;
147
148	for(int i = 0; i < nAtoms; i++){
149	dim += 3;
150	if (atoms[i]->isDirectional())
151	dim += 3;
152	}
153
154	}
155
156	void OOPSEMinimizerBase::output(vector<double>& x, int iteration){
157	setCoor(x);
158	calcForce(1, 1);
159	dumpOut->writeDump(iteration);
160	statOut->writeStat(iteration);
161	}