OOPSE/libmdtools/ForceFields.cpp

#include <iostream>

using namespace std;


#include <cstdlib>

#ifdef IS_MPI
#include <mpi.h>
#endif // is_mpi


#include "simError.h"
#include "ForceFields.hpp"
#include "Atom.hpp"
#include "fortranWrappers.hpp"


void ForceFields::calcRcut( void ){

#ifdef IS_MPI
  double tempBig = bigSigma;
  MPI_Allreduce( &tempBig, &bigSigma, 1, MPI_DOUBLE, MPI_MAX,
                 MPI_COMM_WORLD);
#endif  //is_mpi

  //calc rCut and rList

  entry_plug->rCut = 2.5 * bigSigma;
  if(entry_plug->rCut > (entry_plug->boxLx / 2.0)) 
    entry_plug->rCut = entry_plug->boxLx / 2.0;
  if(entry_plug->rCut > (entry_plug->boxLy / 2.0)) 
    entry_plug->rCut = entry_plug->boxLy / 2.0;
  if(entry_plug->rCut > (entry_plug->boxLz / 2.0)) 
    entry_plug->rCut = entry_plug->boxLz / 2.0;
  
  entry_plug->rList = entry_plug->rCut + 1.0;
  
}

void ForceFields::doForces( int calcPot, int calcStress ){

  int i, isError;
  double* frc;
  double* pos;
  double* trq;
  double* A;
  double* u_l;;
  DirectionalAtom* dAtom;

  short int passedCalcPot = (short int)calcPot;
  short int passedCalcStress = (short int)calcStress;

  // forces are zeroed here, before any are accumulated.
  // NOTE: do not rezero the forces in Fortran.

  for(i=0; i<entry_plug->n_atoms; i++){
    entry_plug->atoms[i]->zeroForces();    
  }

  for(i=0; i<entry_plug->n_mol; i++ ){
    entry_plug->molecules[i].calcForces();
  }

  frc = Atom::getFrcArray();
  pos = Atom::getPosArray();
  trq = Atom::getTrqArray();
  A   = Atom::getAmatArray();
  u_l = Atom::getUlArray();

  isError = 0;
  entry_plug->lrPot = 0.0;

  for (i=0; i<9; i++) {
    entry_plug->tau[i] = 0.0;
  }

  fortranForceLoop( pos,
                    A,
                    u_l,
                    frc,
                    trq,
                    entry_plug->tau,
                    &(entry_plug->lrPot), 
                    &passedCalcPot,
                    &passedCalcStress,
                    &isError );

  if( isError ){
    sprintf( painCave.errMsg,
             "Error returned from the fortran force calculation.\n" );
    painCave.isFatal = 1;
    simError();
  }

#ifdef IS_MPI
  sprintf( checkPointMsg,
           "returned from the force calculation.\n" );
  MPIcheckPoint();
#endif // is_mpi

}


void ForceFields::initFortran(int ljMixPolicy, int useReactionField ){
  
  int isError;
  
  isError = 0;
  initFortranFF( &ljMixPolicy, &useReactionField, &isError );
  
  if(isError){
    sprintf( painCave.errMsg,
             "ForceField error: There was an error initializing the forceField in fortran.\n" );
    painCave.isFatal = 1;
    simError();
  }

  
#ifdef IS_MPI
  sprintf( checkPointMsg, "ForceField successfully initialized the fortran component list.\n" );
  MPIcheckPoint();
#endif // is_mpi
  
}
Revision:	572
Committed:	Wed Jul 2 21:26:55 2003 UTC (22 years, 3 months ago) by mmeineke
File size:	2606 byte(s)
Log Message:	fixed the bugs introduced by switching the periodic box to a matrix
#	Content
1	#include <iostream>
2
3	using namespace std;
4
5
6	#include <cstdlib>
7
8	#ifdef IS_MPI
9	#include <mpi.h>
10	#endif // is_mpi
11
12
13	#include "simError.h"
14	#include "ForceFields.hpp"
15	#include "Atom.hpp"
16	#include "fortranWrappers.hpp"
17
18
19	void ForceFields::calcRcut( void ){
20
21	#ifdef IS_MPI
22	double tempBig = bigSigma;
23	MPI_Allreduce( &tempBig, &bigSigma, 1, MPI_DOUBLE, MPI_MAX,
24	MPI_COMM_WORLD);
25	#endif //is_mpi
26
27	//calc rCut and rList
28
29	entry_plug->rCut = 2.5 * bigSigma;
30	if(entry_plug->rCut > (entry_plug->boxLx / 2.0))
31	entry_plug->rCut = entry_plug->boxLx / 2.0;
32	if(entry_plug->rCut > (entry_plug->boxLy / 2.0))
33	entry_plug->rCut = entry_plug->boxLy / 2.0;
34	if(entry_plug->rCut > (entry_plug->boxLz / 2.0))
35	entry_plug->rCut = entry_plug->boxLz / 2.0;
36
37	entry_plug->rList = entry_plug->rCut + 1.0;
38
39	}
40
41	void ForceFields::doForces( int calcPot, int calcStress ){
42
43	int i, isError;
44	double* frc;
45	double* pos;
46	double* trq;
47	double* A;
48	double* u_l;;
49	DirectionalAtom* dAtom;
50
51	short int passedCalcPot = (short int)calcPot;
52	short int passedCalcStress = (short int)calcStress;
53
54	// forces are zeroed here, before any are accumulated.
55	// NOTE: do not rezero the forces in Fortran.
56
57	for(i=0; i<entry_plug->n_atoms; i++){
58	entry_plug->atoms[i]->zeroForces();
59	}
60
61	for(i=0; i<entry_plug->n_mol; i++ ){
62	entry_plug->molecules[i].calcForces();
63	}
64
65	frc = Atom::getFrcArray();
66	pos = Atom::getPosArray();
67	trq = Atom::getTrqArray();
68	A = Atom::getAmatArray();
69	u_l = Atom::getUlArray();
70
71	isError = 0;
72	entry_plug->lrPot = 0.0;
73
74	for (i=0; i<9; i++) {
75	entry_plug->tau[i] = 0.0;
76	}
77
78	fortranForceLoop( pos,
79	A,
80	u_l,
81	frc,
82	trq,
83	entry_plug->tau,
84	&(entry_plug->lrPot),
85	&passedCalcPot,
86	&passedCalcStress,
87	&isError );
88
89	if( isError ){
90	sprintf( painCave.errMsg,
91	"Error returned from the fortran force calculation.\n" );
92	painCave.isFatal = 1;
93	simError();
94	}
95
96	#ifdef IS_MPI
97	sprintf( checkPointMsg,
98	"returned from the force calculation.\n" );
99	MPIcheckPoint();
100	#endif // is_mpi
101
102	}
103
104
105	void ForceFields::initFortran(int ljMixPolicy, int useReactionField ){
106
107	int isError;
108
109	isError = 0;
110	initFortranFF( &ljMixPolicy, &useReactionField, &isError );
111
112	if(isError){
113	sprintf( painCave.errMsg,
114	"ForceField error: There was an error initializing the forceField in fortran.\n" );
115	painCave.isFatal = 1;
116	simError();
117	}
118
119
120	#ifdef IS_MPI
121	sprintf( checkPointMsg, "ForceField successfully initialized the fortran component list.\n" );
122	MPIcheckPoint();
123	#endif // is_mpi
124
125	}