src/primitives/Molecule.cpp

#include <stdlib.h>


#include "primitives/Molecule.hpp"
#include "utils/simError.h"


Molecule::Molecule( void ){

  myAtoms = NULL;
  myBonds = NULL;
  myBends = NULL;
  myTorsions = NULL;
}

Molecule::~Molecule( void ){
  int i;
  CutoffGroup* cg;
  vector<CutoffGroup*>::iterator iter;
  
  if( myAtoms != NULL ){
    for(i=0; i<nAtoms; i++) if(myAtoms[i] != NULL ) delete myAtoms[i];
    delete[] myAtoms;
  }

  if( myBonds != NULL ){
    for(i=0; i<nBonds; i++) if(myBonds[i] != NULL ) delete myBonds[i];
    delete[] myBonds;
  }

  if( myBends != NULL ){
    for(i=0; i<nBends; i++) if(myBends[i] != NULL ) delete myBends[i];
    delete[] myBends;
  }

  if( myTorsions != NULL ){
    for(i=0; i<nTorsions; i++) if(myTorsions[i] != NULL ) delete myTorsions[i];
    delete[] myTorsions;
  }

  for(cg = beginCutoffGroup(iter);  cg != NULL; cg = nextCutoffGroup(iter))
    delete cg;
  myCutoffGroups.clear();
  
}


void Molecule::initialize( molInit &theInit ){

  CutoffGroup* curCutoffGroup;
  vector<CutoffGroup*>::iterator iterCutoff;
  Atom* cutoffAtom;
  vector<Atom*>::iterator iterAtom;
  int atomIndex;
  
  nAtoms = theInit.nAtoms;
  nMembers = nAtoms;
  nBonds = theInit.nBonds;
  nBends = theInit.nBends;
  nTorsions = theInit.nTorsions;
  nRigidBodies = theInit.nRigidBodies;
  nOriented = theInit.nOriented;

  myAtoms = theInit.myAtoms;
  myBonds = theInit.myBonds;
  myBends = theInit.myBends;
  myTorsions = theInit.myTorsions;
  myRigidBodies = theInit.myRigidBodies;

  myIntegrableObjects = theInit.myIntegrableObjects;

  for (int i = 0; i < myRigidBodies.size(); i++) 
      myRigidBodies[i]->calcRefCoords();

  myCutoffGroups = theInit.myCutoffGroups;
  nCutoffGroups = myCutoffGroups.size();

}

void Molecule::calcForces( void ){
  
  int i;
  double com[3];

  for(i=0; i<myRigidBodies.size(); i++) {
    myRigidBodies[i]->updateAtoms();
  }

  for(i=0; i<nBonds; i++){
    myBonds[i]->calc_forces();
  }

  for(i=0; i<nBends; i++){
    myBends[i]->calc_forces();
  }

  for(i=0; i<nTorsions; i++){
    myTorsions[i]->calc_forces();
  }

  // Rigid Body forces and torques are done after the fortran force loop

}


double Molecule::getPotential( void ){
  
  int i;
  double myPot = 0.0;

  for(i=0; i<myRigidBodies.size(); i++) {
    myRigidBodies[i]->updateAtoms();
  }
   
  for(i=0; i<nBonds; i++){
    myPot += myBonds[i]->get_potential();
  }

  for(i=0; i<nBends; i++){
    myPot += myBends[i]->get_potential();
  }

  for(i=0; i<nTorsions; i++){
    myPot += myTorsions[i]->get_potential();
  }

  return myPot;
}

void Molecule::printMe( void ){
  
  int i;

  for(i=0; i<nBonds; i++){
    myBonds[i]->printMe();
  }

  for(i=0; i<nBends; i++){
    myBends[i]->printMe();
  }

  for(i=0; i<nTorsions; i++){
    myTorsions[i]->printMe();
  }

}

void Molecule::moveCOM(double delta[3]){
  double aPos[3];
  int i, j;

  for(i=0; i<myIntegrableObjects.size(); i++) {
    if(myIntegrableObjects[i] != NULL ) {
      
      myIntegrableObjects[i]->getPos( aPos );
      
      for (j=0; j< 3; j++) 
        aPos[j] += delta[j];

      myIntegrableObjects[i]->setPos( aPos );
    }
  }

  for(i=0; i<myRigidBodies.size(); i++) {

      myRigidBodies[i]->getPos( aPos );

      for (j=0; j< 3; j++) 
        aPos[j] += delta[j];
      
      myRigidBodies[i]->setPos( aPos );
    }
}

void Molecule::atoms2rigidBodies( void ) {
  int i;
  for (i = 0; i < myRigidBodies.size(); i++) {
    myRigidBodies[i]->calcForcesAndTorques();   
  }
}

void Molecule::getCOM( double COM[3] ) {

  double mass, mtot;
  double aPos[3];
  int i, j;

  for (j=0; j<3; j++) 
    COM[j] = 0.0;

  mtot   = 0.0;

  for (i=0; i < myIntegrableObjects.size(); i++) {
    if (myIntegrableObjects[i] != NULL) {

      mass = myIntegrableObjects[i]->getMass();
      mtot   += mass;
      
      myIntegrableObjects[i]->getPos( aPos );

      for( j = 0; j < 3; j++) 
        COM[j] += aPos[j] * mass;

    }
  }

  for (j = 0; j < 3; j++) 
    COM[j] /= mtot; 
}

double Molecule::getCOMvel( double COMvel[3] ) {

  double mass, mtot;
  double aVel[3];
  int i, j;


  for (j=0; j<3; j++) 
    COMvel[j] = 0.0;

  mtot   = 0.0;

  for (i=0; i < myIntegrableObjects.size(); i++) {
    if (myIntegrableObjects[i] != NULL) {

      mass = myIntegrableObjects[i]->getMass();
      mtot   += mass;

      myIntegrableObjects[i]->getVel(aVel);

      for (j=0; j<3; j++) 
        COMvel[j] += aVel[j]*mass;

    }
  }

  for (j=0; j<3; j++) 
    COMvel[j] /= mtot;
 
  return mtot;

}

double Molecule::getTotalMass()
{

  double totalMass;
  
  totalMass = 0;
  for(int i =0; i < myIntegrableObjects.size(); i++){
    totalMass += myIntegrableObjects[i]->getMass();
  }

  return totalMass;
}
Revision:	3
Committed:	Fri Sep 24 16:27:58 2004 UTC (21 years, 1 month ago) by tim
File size:	4704 byte(s)
Log Message:	change the #include in source files
#	Content
1	#include <stdlib.h>
2
3
4	#include "primitives/Molecule.hpp"
5	#include "utils/simError.h"
6
7
8
9	Molecule::Molecule( void ){
10
11	myAtoms = NULL;
12	myBonds = NULL;
13	myBends = NULL;
14	myTorsions = NULL;
15	}
16
17	Molecule::~Molecule( void ){
18	int i;
19	CutoffGroup* cg;
20	vector<CutoffGroup*>::iterator iter;
21
22	if( myAtoms != NULL ){
23	for(i=0; i<nAtoms; i++) if(myAtoms[i] != NULL ) delete myAtoms[i];
24	delete[] myAtoms;
25	}
26
27	if( myBonds != NULL ){
28	for(i=0; i<nBonds; i++) if(myBonds[i] != NULL ) delete myBonds[i];
29	delete[] myBonds;
30	}
31
32	if( myBends != NULL ){
33	for(i=0; i<nBends; i++) if(myBends[i] != NULL ) delete myBends[i];
34	delete[] myBends;
35	}
36
37	if( myTorsions != NULL ){
38	for(i=0; i<nTorsions; i++) if(myTorsions[i] != NULL ) delete myTorsions[i];
39	delete[] myTorsions;
40	}
41
42	for(cg = beginCutoffGroup(iter); cg != NULL; cg = nextCutoffGroup(iter))
43	delete cg;
44	myCutoffGroups.clear();
45
46	}
47
48
49	void Molecule::initialize( molInit &theInit ){
50
51	CutoffGroup* curCutoffGroup;
52	vector<CutoffGroup*>::iterator iterCutoff;
53	Atom* cutoffAtom;
54	vector<Atom*>::iterator iterAtom;
55	int atomIndex;
56
57	nAtoms = theInit.nAtoms;
58	nMembers = nAtoms;
59	nBonds = theInit.nBonds;
60	nBends = theInit.nBends;
61	nTorsions = theInit.nTorsions;
62	nRigidBodies = theInit.nRigidBodies;
63	nOriented = theInit.nOriented;
64
65	myAtoms = theInit.myAtoms;
66	myBonds = theInit.myBonds;
67	myBends = theInit.myBends;
68	myTorsions = theInit.myTorsions;
69	myRigidBodies = theInit.myRigidBodies;
70
71	myIntegrableObjects = theInit.myIntegrableObjects;
72
73	for (int i = 0; i < myRigidBodies.size(); i++)
74	myRigidBodies[i]->calcRefCoords();
75
76	myCutoffGroups = theInit.myCutoffGroups;
77	nCutoffGroups = myCutoffGroups.size();
78
79	}
80
81	void Molecule::calcForces( void ){
82
83	int i;
84	double com[3];
85
86	for(i=0; i<myRigidBodies.size(); i++) {
87	myRigidBodies[i]->updateAtoms();
88	}
89
90	for(i=0; i<nBonds; i++){
91	myBonds[i]->calc_forces();
92	}
93
94	for(i=0; i<nBends; i++){
95	myBends[i]->calc_forces();
96	}
97
98	for(i=0; i<nTorsions; i++){
99	myTorsions[i]->calc_forces();
100	}
101
102	// Rigid Body forces and torques are done after the fortran force loop
103
104	}
105
106
107	double Molecule::getPotential( void ){
108
109	int i;
110	double myPot = 0.0;
111
112	for(i=0; i<myRigidBodies.size(); i++) {
113	myRigidBodies[i]->updateAtoms();
114	}
115
116	for(i=0; i<nBonds; i++){
117	myPot += myBonds[i]->get_potential();
118	}
119
120	for(i=0; i<nBends; i++){
121	myPot += myBends[i]->get_potential();
122	}
123
124	for(i=0; i<nTorsions; i++){
125	myPot += myTorsions[i]->get_potential();
126	}
127
128	return myPot;
129	}
130
131	void Molecule::printMe( void ){
132
133	int i;
134
135	for(i=0; i<nBonds; i++){
136	myBonds[i]->printMe();
137	}
138
139	for(i=0; i<nBends; i++){
140	myBends[i]->printMe();
141	}
142
143	for(i=0; i<nTorsions; i++){
144	myTorsions[i]->printMe();
145	}
146
147	}
148
149	void Molecule::moveCOM(double delta[3]){
150	double aPos[3];
151	int i, j;
152
153	for(i=0; i<myIntegrableObjects.size(); i++) {
154	if(myIntegrableObjects[i] != NULL ) {
155
156	myIntegrableObjects[i]->getPos( aPos );
157
158	for (j=0; j< 3; j++)
159	aPos[j] += delta[j];
160
161	myIntegrableObjects[i]->setPos( aPos );
162	}
163	}
164
165	for(i=0; i<myRigidBodies.size(); i++) {
166
167	myRigidBodies[i]->getPos( aPos );
168
169	for (j=0; j< 3; j++)
170	aPos[j] += delta[j];
171
172	myRigidBodies[i]->setPos( aPos );
173	}
174	}
175
176	void Molecule::atoms2rigidBodies( void ) {
177	int i;
178	for (i = 0; i < myRigidBodies.size(); i++) {
179	myRigidBodies[i]->calcForcesAndTorques();
180	}
181	}
182
183	void Molecule::getCOM( double COM[3] ) {
184
185	double mass, mtot;
186	double aPos[3];
187	int i, j;
188
189	for (j=0; j<3; j++)
190	COM[j] = 0.0;
191
192	mtot = 0.0;
193
194	for (i=0; i < myIntegrableObjects.size(); i++) {
195	if (myIntegrableObjects[i] != NULL) {
196
197	mass = myIntegrableObjects[i]->getMass();
198	mtot += mass;
199
200	myIntegrableObjects[i]->getPos( aPos );
201
202	for( j = 0; j < 3; j++)
203	COM[j] += aPos[j] * mass;
204
205	}
206	}
207
208	for (j = 0; j < 3; j++)
209	COM[j] /= mtot;
210	}
211
212	double Molecule::getCOMvel( double COMvel[3] ) {
213
214	double mass, mtot;
215	double aVel[3];
216	int i, j;
217
218
219	for (j=0; j<3; j++)
220	COMvel[j] = 0.0;
221
222	mtot = 0.0;
223
224	for (i=0; i < myIntegrableObjects.size(); i++) {
225	if (myIntegrableObjects[i] != NULL) {
226
227	mass = myIntegrableObjects[i]->getMass();
228	mtot += mass;
229
230	myIntegrableObjects[i]->getVel(aVel);
231
232	for (j=0; j<3; j++)
233	COMvel[j] += aVel[j]*mass;
234
235	}
236	}
237
238	for (j=0; j<3; j++)
239	COMvel[j] /= mtot;
240
241	return mtot;
242
243	}
244
245	double Molecule::getTotalMass()
246	{
247
248	double totalMass;
249
250	totalMass = 0;
251	for(int i =0; i < myIntegrableObjects.size(); i++){
252	totalMass += myIntegrableObjects[i]->getMass();
253	}
254
255	return totalMass;
256	}