mdtools/interface_implementation/LJ_FF.cpp

#include <cstdlib>
#include <cstdio>
#include <cstring>

#include <iostream>
using namespace std;

#include "ForceFields.hpp"
#include "SRI.hpp"
#include "simError.h"


// Declare the structures that will be passed by the parser and  MPI

typedef struct{
  char name[15];
  double mass;
  double epslon;
  double sigma;
  int ident;
  int last;      //  0  -> default
                 //  1  -> in MPI: tells nodes to stop listening
} atomStruct;

int parseAtomLJ( char *lineBuffer, int lineNum, atomStruct &info );

#ifdef IS_MPI

#include "mpiForceField.h"

MPI_Datatype mpiAtomStructType;

#endif


// declaration of functions needed to wrap the fortran module

extern "C" {
  void forcefactory_( char* forceName,
                      int* status,
                      void (*wrapFunction)( void (*p1)( int* ident, 
                                                        double* mass, 
                                                        double* epslon, 
                                                        double* sigma, 
                                                        int* status ),
                                            void (*p2)( int *nLocal,
                                                        int *identArray,
                                                        int *isError ),
                                            void (*p3)( double* positionArray,
                                                        double* forceArray,
                                                        double* potentialEnergy,
                                                        short int* doPotentialCalc )),
                      int forceNameLength );
}


void LJfunctionWrapper( void (*p1)( int* ident, double* mass, double* epslon, 
                                   double* sigma, int* status ),
                        void (*p2)( int *nLocal, int *identArray, int *isError ),
                        void (*p3)( double* positionArray,double* forceArray,
                                    double* potentialEnergy,
                                    short int* doPotentialCalc ) );

void (*newLJtype)( int* ident, double* mass, double* epslon, double* sigma,
                   int* status );

void (*initLJfortran) ( int *nLocal, int *identArray, int *isError )

LJ_FF* currentLJwrap;


//****************************************************************
// begins the actual forcefield stuff.  
//****************************************************************

LJ_FF::LJ_FF(){

  char fileName[200];
  char* ffPath_env = "FORCE_PARAM_PATH";
  char* ffPath;
  char temp[200];
  char errMsg[1000];

  // do the funtion wrapping
  currentLJwrap = this;
  wrapMe();

#ifdef IS_MPI
  int i;
  
   // **********************************************************************
  // Init the atomStruct mpi type

  atomStruct atomProto; // mpiPrototype
  int atomBC[3] = {15,3,2};  // block counts
  MPI_Aint atomDspls[3];           // displacements
  MPI_Datatype atomMbrTypes[3];    // member mpi types

  MPI_Address(&atomProto.name, &atomDspls[0]);
  MPI_Address(&atomProto.mass, &atomDspls[1]);
  MPI_Address(&atomProto.ident, &atomDspls[2]);
  
  atomMbrTypes[0] = MPI_CHAR;
  atomMbrTypes[1] = MPI_DOUBLE;
  atomMbrTypes[2] = MPI_INT;
  
  for (i=2; i >= 0; i--) atomDspls[i] -= atomDspls[0];
  
  MPI_Type_struct(3, atomBC, atomDspls, atomMbrTypes, &mpiAtomStructType);
  MPI_Type_commit(&mpiAtomStructType);

  // ***********************************************************************
  
  if( worldRank == 0 ){
#endif
    
    // generate the force file name
    
    strcpy( fileName, "LJ_FF.frc" ); 
    //    fprintf( stderr,"Trying to open %s\n", fileName );
    
    // attempt to open the file in the current directory first.
    
    frcFile = fopen( fileName, "r" );
    
    if( frcFile == NULL ){
      
      // next see if the force path enviorment variable is set
      
      ffPath = getenv( ffPath_env );
      if( ffPath == NULL ) {
        sprintf( painCave.errMsg,
                 "Error opening the force field parameter file: %s\n"
                 "Have you tried setting the FORCE_PARAM_PATH environment "
                 "vairable?\n",
                 fileName );
        painCave.isFatal = 1;
        simError();
      }
      
      
      strcpy( temp, ffPath );
      strcat( temp, "/" );
      strcat( temp, fileName );
      strcpy( fileName, temp );
      
      frcFile = fopen( fileName, "r" );
      
      if( frcFile == NULL ){
        
        sprintf( painCave.errMsg,
                 "Error opening the force field parameter file: %s\n"
                 "Have you tried setting the FORCE_PARAM_PATH environment "
                 "vairable?\n",
                 fileName );
        painCave.isFatal = 1;
        simError();
      }
    }
    
#ifdef IS_MPI
  }
  
  sprintf( checkPointMsg, "LJ_FF file opened sucessfully." );
  MPIcheckPoint();
  
#endif // is_mpi
}


LJ_FF::~LJ_FF(){

#ifdef IS_MPI
  if( worldRank == 0 ){
#endif // is_mpi
    
    fclose( frcFile );
    
#ifdef IS_MPI
  }
#endif // is_mpi
}


void LJ_FF::wrapMe( void ){
  
  char* currentFF = "LJ";
  int isError = 0;
  
  forcefactory_( currentFF, &isError, LJfunctionWrapper, strlen(currentFF) );

  if( isError ){
    
    sprintf( painCave.errMsg,
             "LJ_FF error: an error was returned from fortran when the "
             "the functions were being wrapped.\n" );
    painCave.isFatal = 1;
    simError();
  }

#ifdef IS_MPI
  sprintf( checkPointMsg, "LJ_FF functions succesfully wrapped." );
  MPIcheckPoint();
#endif // is_mpi
}
  

void LJfunctionWrapper( void (*p1)( int* ident, double* mass, double* epslon, 
                                   double* sigma, int* status ),
                        void (*p2)( void ),
                        void (*p3)( double* positionArray,double* forceArray,
                                    double* potentialEnergy,
                                    short int* doPotentialCalc ) ){
  
  
  p1 = newLJtype;
  p2 = initLJfortran;
  this->setLJfortran( p3 );
}


void LJ_FF::initializeAtoms( void ){
  
  class LinkedType {
  public:
    LinkedType(){ 
      next = NULL;
      name[0] = '\0';
    }
    ~LinkedType(){ if( next != NULL ) delete next; }

    LinkedType* find(char* key){ 
      if( !strcmp(name, key) ) return this;
      if( next != NULL ) return next->find(key);
      return NULL;
    }
    

    void add( atomStruct &info ){
    
      // check for duplicates
      
      if( !strcmp( info.name, name ) ){
        sprintf( simError.painCave,
                 "Duplicate LJ atom type \"%s\" found in "
                 "the LJ_FF param file./n",
                 name );
        painCave.isFatal = 1;
        simError();
      }
      
      if( next != NULL ) next->add(info);
      else{
        next = new LinkedType();
        strcpy(next->name, info.name);
        next->mass     = info.mass;
        next->epslon   = info.epslon;
        next->sigma    = info.sigma;
        next->ident    = info.ident;
      }
    }
    

#ifdef IS_MPI
    
    void duplicate( atomStruct &info ){
      strcpy(info.name, name);
      info.mass     = mass;
      info.epslon   = epslon;
      info.sigma    = sigma;
      info.ident    = ident;
      info.last     = 0;
    }


#endif

    char name[15];
    double mass;
    double epslon;
    double sigma;
    int ident;
    LinkedType* next;
  };
  
  LinkedType* headAtomType; 
  LinkedType* currentAtomType;
  atomStruct info;
  info.last = 1; // initialize last to have the last set. 
                 // if things go well, last will be set to 0

  int i;
  int identNum;
  
  Atom** the_atoms;
  int nAtoms;
  the_atoms = entry_plug->atoms;
  nAtoms = entry_plug->n_atoms;
  
  
#ifdef IS_MPI
  if( worldRank == 0 ){
#endif
    
    // read in the atom types.

    headAtomType = new LinkedType;
    
    fastFoward( "AtomTypes", "initializeAtoms" );

    // we are now at the AtomTypes section.
    
    eof_test = fgets( readLine, sizeof(readLine), frcFile );
    lineNum++;
    
    
    // read a line, and start parseing out the atom types 

    if( eof_test == NULL ){
      sprintf( painCave.errMsg, 
               "Error in reading Atoms from force file at line %d.\n",
               lineNum );
      painCave.isFatal = 1;
      simError();
    }
    
    identNum = 1;
    // stop reading at end of file, or at next section
    while( readLine[0] != '#' && eof_test != NULL ){

      // toss comment lines
      if( readLine[0] != '!' ){
        
        // the parser returns 0 if the line was blank
        if( parseAtomLJ( readLine, lineNum, info ) ){
          info.ident = identNum;
          headAtomType->add( info );;
          identNum++;
        }
      }
      eof_test = fgets( readLine, sizeof(readLine), frcFile );
      lineNum++;
    }

#ifdef IS_MPI
    
    // send out the linked list to all the other processes

    sprintf( checkPointMsg,
             "LJ_FF atom structures read successfully." );
    MPIcheckPoint();

    currentAtomType = headAtomType;
    while( currentAtomType != NULL ){
      currentAtomType->duplicate( info );
      sendFrcStruct( &info, mpiAtomStructType );
      currentAtomType = currentAtomType->next;
    }
    info.last = 1;
    sendFrcStruct( &info, mpiAtomStructType );
    
  }

  else{
    
    // listen for node 0 to send out the force params
    
    MPIcheckPoint();

    headAtomType = new LinkedType;
    recieveFrcStruct( &info, mpiAtomStructType );
    while( !info.last ){

      headAtomType->add( info );
      recieveFrcStruct( &info, mpiAtomStructType );
    }
  }
#endif // is_mpi

  // call new A_types in fortran
  
  int isError;
  currentAtomType = headAtomType;
  while( currentAtomType != NULL ){
    
    if( currentAtomType->name[0] != '\0' ){
      isError = 0;
      newLJtype( &(currentAtomType->ident),
                 &(currentAtomType->mass),
                 &(currentAtomType->epslon),
                 &(currentAtomType->sigma),
                 &isError );
      if( isError ){
        sprintf( painCave.errMsg,
                 "Error initializing the \"%s\" atom type in fortran\n",
                 currentAtomType->name );
        painCave.isFatal = 1;
        simError();
      }
    }
    currentAtomType = currentAtomType->next;
  }
      
#ifdef IS_MPI
  sprintf( checkPointMsg,
           "LJ_FF atom structures successfully sent to fortran\n" );
  MPIcheckPoint();
#endif // is_mpi

  
  // initialize the atoms
  
  double bigSigma = 0.0;
  Atom* thisAtom;

  for( i=0; i<nAtoms; i++ ){
    
    currentAtomType = headAtomType->find( the_atoms[i]->getType() );
    if( currentAtomType == NULL ){
      sprintf( painCave.errMsg, 
               "AtomType error, %s not found in force file.\n",
               the_atoms[i]->getType() );
      painCave.isFatal = 1;
      simError();
    }
    
    the_atoms[i]->setMass( currentAtomType->mass );
    the_atoms[i]->setEpslon( currentAtomType->epslon );
    the_atoms[i]->setSigma( currentAtomType->sigma );
    the_atoms[i]->setIdent( currentAtomType->ident );
    the_atoms[i]->setLJ();

    if( bigSigma < currentAtomType->sigma ) bigSigma = currentAtomType->sigma;
  }

  
#ifdef IS_MPI
  double tempBig = bigSigma;
  MPI::COMM_WORLD::Allreduce( &tempBig, &bigSigma, 1, MPI_DOUBLE, MPI_MAX );
#endif  //is_mpi

  //calc rCut and rList

  entry_plug->rCut = 2.5 * bigSigma;
  if(entry_plug->rCut > (entry_plug->box_x / 2.0)) entry_plug->rCut = entry_plug->box_x / 2.0;
  if(entry_plug->rCut > (entry_plug->box_y / 2.0)) entry_plug->rCut = entry_plug->box_y / 2.0;
  if(entry_plug->rCut > (entry_plug->box_z / 2.0)) entry_plug->rCut = entry_plug->box_z / 2.0;

  entry_plug->rList = entry_plug->rCut + 1.0;

  // clean up the memory
  
  delete headAtomType;

#ifdef IS_MPI
  sprintf( checkPointMsg, "LJ_FF atoms initialized succesfully" );
  MPIcheckPoint();
#endif // is_mpi

  initFortran();
  entry_plug->refreshSim();

}

void LJ_FF::initializeBonds( bond_pair* the_bonds ){
  
    if( entry_plug->n_bonds ){
      sprintf( painCave.errMsg,
               "LJ_FF does not support bonds.\n" );
      painCave.isFatal = 1;
      simError();
    }
#ifdef IS_MPI
  MPIcheckPoint();
#endif // is_mpi

}

void LJ_FF::initializeBends( bend_set* the_bends ){

    if( entry_plug->n_bends ){
      sprintf( painCave.errMsg,
               "LJ_FF does not support bends.\n" );
      painCave.isFatal = 1;
      simError();
    }
#ifdef IS_MPI
  MPIcheckPoint();
#endif // is_mpi

}

void LJ_FF::initializeTorsions( torsion_set* the_torsions ){

    if( entry_plug->n_torsions ){
      sprintf( painCave.errMsg,
               "LJ_FF does not support torsions.\n" );
      painCave.isFatal = 1;
      simError();
    }
#ifdef IS_MPI
  MPIcheckPoint();
#endif // is_mpi

}


void LJ_FF::fastForward( char* stopText, char* searchOwner ){

  int foundText = 0;
  char* the_token;

  rewind( frcFile );
  lineNum = 0;

  eof_test = fgets( readLine, sizeof(readLine), frcFile );
  lineNum++;
  if( eof_test == NULL ){
    sprintf( painCave.errMsg, "Error fast forwarding force file for %s: "
             " file is empty.\n",
             searchOwner );
    painCave.isFatal = 1;
    simError();
  }
  
  
  while( !foundText ){
    while( eof_test != NULL && readLine[0] != '#' ){
      eof_test = fgets( readLine, sizeof(readLine), frcFile );
      lineNum++;
    }
    if( eof_test == NULL ){
      sprintf( painCave.errMsg,
               "Error fast forwarding force file for %s at "
               "line %d: file ended unexpectedly.\n",
               searchOwner,
               lineNum );
      painCave.isFatal = 1;
      simError();
    }
    
    the_token = strtok( readLine, " ,;\t#\n" );
    foundText = !strcmp( stopText, the_token );
    
    if( !foundText ){
      eof_test = fgets( readLine, sizeof(readLine), frcFile );
      lineNum++;
      
      if( eof_test == NULL ){
        sprintf( painCave.errMsg, 
                 "Error fast forwarding force file for %s at "
                 "line %d: file ended unexpectedly.\n",
                 searchOwner,
                 lineNum );
        painCave.isFatal = 1;
        simError();
      } 
    }
  }  
}


int parseAtomLJ( char *lineBuffer, int lineNum,  atomStruct &info ){

  char* the_token;
  
  the_token = strtok( lineBuffer, " \n\t,;" );
  if( the_token != NULL ){
    
    strcpy( info.name, the_token );
          
    if( ( the_token = strtok( NULL, " \n\t,;" ) ) == NULL ){
      sprintf( painCave.errMsg, 
               "Error parseing AtomTypes: line %d\n", lineNum );
      painCave.isFatal = 1;
      simError();
    }
    
    info.mass = atof( the_token );
    
    if( ( the_token = strtok( NULL, " \n\t,;" ) ) == NULL ){
      sprintf( painCave.errMsg, 
               "Error parseing AtomTypes: line %d\n", lineNum );
      painCave.isFatal = 1;
      simError();
    }
        
    info.epslon = atof( the_token );
          
    if( ( the_token = strtok( NULL, " \n\t,;" ) ) == NULL ){
      sprintf( painCave.errMsg, 
               "Error parseing AtomTypes: line %d\n", lineNum );
      painCave.isFatal = 1;
      simError();
    }
        
    info.sigma = atof( the_token );
    
    return 1;
  }
  else return 0;
}


void LJ_FF::doForces( void ){

  int i;
  double* frc;
  double* pos;
  double potE;
  short int calcPot = 0;

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

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

  frc = Atom::getFrcArray();
  pos = Atom::getPosArray();

  doLJfortran( pos, frc, potE, calcPot );
}
  
void LJ_FF::initFortran( void ){
  
  int nLocal = entry_plug->n_atoms;
  int *ident;
  int isError;
  int i;

  ident = new int[nLocal];

  for(i=0; i<nLocal; i++){
    ident[i] = entryplug->atoms[i]->getIdent();
  }

  isError = 0;
  initLJfortran( &nLocal, ident, &isError );
  
  if(isError){
    sprintf( painCave.errMsg,
             "LJ_FF error: There was an error initializing the component list in fortran.\n" );
    painCave.isFatal = 1;
    simError();
  }

  
#ifdef IS_MPI
  sprintf( checkPointMsg, "LJ_FF successfully initialized the fortran component list.\n" );
  MPIcheckPoint();
#endif // is_mpi
  
  delete[] ident;

}
  
Revision:	248
Committed:	Mon Jan 27 19:28:21 2003 UTC (22 years, 3 months ago) by chuckv
File size:	14824 byte(s)
Log Message:	final version before the single processor build
#	Content
1	#include <cstdlib>
2	#include <cstdio>
3	#include <cstring>
4
5	#include <iostream>
6	using namespace std;
7
8	#include "ForceFields.hpp"
9	#include "SRI.hpp"
10	#include "simError.h"
11
12
13	// Declare the structures that will be passed by the parser and MPI
14
15	typedef struct{
16	char name[15];
17	double mass;
18	double epslon;
19	double sigma;
20	int ident;
21	int last; // 0 -> default
22	// 1 -> in MPI: tells nodes to stop listening
23	} atomStruct;
24
25	int parseAtomLJ( char *lineBuffer, int lineNum, atomStruct &info );
26
27	#ifdef IS_MPI
28
29	#include "mpiForceField.h"
30
31	MPI_Datatype mpiAtomStructType;
32
33	#endif
34
35
36	// declaration of functions needed to wrap the fortran module
37
38	extern "C" {
39	void forcefactory_( char* forceName,
40	int* status,
41	void (wrapFunction)( void (p1)( int* ident,
42	double* mass,
43	double* epslon,
44	double* sigma,
45	int* status ),
46	void (p2)( int nLocal,
47	int *identArray,
48	int *isError ),
49	void (p3)( double positionArray,
50	double* forceArray,
51	double* potentialEnergy,
52	short int* doPotentialCalc )),
53	int forceNameLength );
54	}
55
56
57	void LJfunctionWrapper( void (p1)( int ident, double* mass, double* epslon,
58	double* sigma, int* status ),
59	void (p2)( int nLocal, int identArray, int isError ),
60	void (p3)( double positionArray,double* forceArray,
61	double* potentialEnergy,
62	short int* doPotentialCalc ) );
63
64	void (newLJtype)( int ident, double* mass, double* epslon, double* sigma,
65	int* status );
66
67	void (initLJfortran) ( int nLocal, int identArray, int isError )
68
69	LJ_FF* currentLJwrap;
70
71
72	//****************************************************************
73	// begins the actual forcefield stuff.
74	//****************************************************************
75
76	LJ_FF::LJ_FF(){
77
78	char fileName[200];
79	char* ffPath_env = "FORCE_PARAM_PATH";
80	char* ffPath;
81	char temp[200];
82	char errMsg[1000];
83
84	// do the funtion wrapping
85	currentLJwrap = this;
86	wrapMe();
87
88	#ifdef IS_MPI
89	int i;
90
91	// **********************************************************************
92	// Init the atomStruct mpi type
93
94	atomStruct atomProto; // mpiPrototype
95	int atomBC[3] = {15,3,2}; // block counts
96	MPI_Aint atomDspls[3]; // displacements
97	MPI_Datatype atomMbrTypes[3]; // member mpi types
98
99	MPI_Address(&atomProto.name, &atomDspls[0]);
100	MPI_Address(&atomProto.mass, &atomDspls[1]);
101	MPI_Address(&atomProto.ident, &atomDspls[2]);
102
103	atomMbrTypes[0] = MPI_CHAR;
104	atomMbrTypes[1] = MPI_DOUBLE;
105	atomMbrTypes[2] = MPI_INT;
106
107	for (i=2; i >= 0; i--) atomDspls[i] -= atomDspls[0];
108
109	MPI_Type_struct(3, atomBC, atomDspls, atomMbrTypes, &mpiAtomStructType);
110	MPI_Type_commit(&mpiAtomStructType);
111
112	// ***********************************************************************
113
114	if( worldRank == 0 ){
115	#endif
116
117	// generate the force file name
118
119	strcpy( fileName, "LJ_FF.frc" );
120	// fprintf( stderr,"Trying to open %s\n", fileName );
121
122	// attempt to open the file in the current directory first.
123
124	frcFile = fopen( fileName, "r" );
125
126	if( frcFile == NULL ){
127
128	// next see if the force path enviorment variable is set
129
130	ffPath = getenv( ffPath_env );
131	if( ffPath == NULL ) {
132	sprintf( painCave.errMsg,
133	"Error opening the force field parameter file: %s\n"
134	"Have you tried setting the FORCE_PARAM_PATH environment "
135	"vairable?\n",
136	fileName );
137	painCave.isFatal = 1;
138	simError();
139	}
140
141
142	strcpy( temp, ffPath );
143	strcat( temp, "/" );
144	strcat( temp, fileName );
145	strcpy( fileName, temp );
146
147	frcFile = fopen( fileName, "r" );
148
149	if( frcFile == NULL ){
150
151	sprintf( painCave.errMsg,
152	"Error opening the force field parameter file: %s\n"
153	"Have you tried setting the FORCE_PARAM_PATH environment "
154	"vairable?\n",
155	fileName );
156	painCave.isFatal = 1;
157	simError();
158	}
159	}
160
161	#ifdef IS_MPI
162	}
163
164	sprintf( checkPointMsg, "LJ_FF file opened sucessfully." );
165	MPIcheckPoint();
166
167	#endif // is_mpi
168	}
169
170
171	LJ_FF::~LJ_FF(){
172
173	#ifdef IS_MPI
174	if( worldRank == 0 ){
175	#endif // is_mpi
176
177	fclose( frcFile );
178
179	#ifdef IS_MPI
180	}
181	#endif // is_mpi
182	}
183
184
185	void LJ_FF::wrapMe( void ){
186
187	char* currentFF = "LJ";
188	int isError = 0;
189
190	forcefactory_( currentFF, &isError, LJfunctionWrapper, strlen(currentFF) );
191
192	if( isError ){
193
194	sprintf( painCave.errMsg,
195	"LJ_FF error: an error was returned from fortran when the "
196	"the functions were being wrapped.\n" );
197	painCave.isFatal = 1;
198	simError();
199	}
200
201	#ifdef IS_MPI
202	sprintf( checkPointMsg, "LJ_FF functions succesfully wrapped." );
203	MPIcheckPoint();
204	#endif // is_mpi
205	}
206
207
208	void LJfunctionWrapper( void (p1)( int ident, double* mass, double* epslon,
209	double* sigma, int* status ),
210	void (*p2)( void ),
211	void (p3)( double positionArray,double* forceArray,
212	double* potentialEnergy,
213	short int* doPotentialCalc ) ){
214
215
216	p1 = newLJtype;
217	p2 = initLJfortran;
218	this->setLJfortran( p3 );
219	}
220
221
222
223	void LJ_FF::initializeAtoms( void ){
224
225	class LinkedType {
226	public:
227	LinkedType(){
228	next = NULL;
229	name[0] = '\0';
230	}
231	~LinkedType(){ if( next != NULL ) delete next; }
232
233	LinkedType* find(char* key){
234	if( !strcmp(name, key) ) return this;
235	if( next != NULL ) return next->find(key);
236	return NULL;
237	}
238
239
240	void add( atomStruct &info ){
241
242	// check for duplicates
243
244	if( !strcmp( info.name, name ) ){
245	sprintf( simError.painCave,
246	"Duplicate LJ atom type \"%s\" found in "
247	"the LJ_FF param file./n",
248	name );
249	painCave.isFatal = 1;
250	simError();
251	}
252
253	if( next != NULL ) next->add(info);
254	else{
255	next = new LinkedType();
256	strcpy(next->name, info.name);
257	next->mass = info.mass;
258	next->epslon = info.epslon;
259	next->sigma = info.sigma;
260	next->ident = info.ident;
261	}
262	}
263
264
265	#ifdef IS_MPI
266
267	void duplicate( atomStruct &info ){
268	strcpy(info.name, name);
269	info.mass = mass;
270	info.epslon = epslon;
271	info.sigma = sigma;
272	info.ident = ident;
273	info.last = 0;
274	}
275
276
277	#endif
278
279	char name[15];
280	double mass;
281	double epslon;
282	double sigma;
283	int ident;
284	LinkedType* next;
285	};
286
287	LinkedType* headAtomType;
288	LinkedType* currentAtomType;
289	atomStruct info;
290	info.last = 1; // initialize last to have the last set.
291	// if things go well, last will be set to 0
292
293	int i;
294	int identNum;
295
296	Atom** the_atoms;
297	int nAtoms;
298	the_atoms = entry_plug->atoms;
299	nAtoms = entry_plug->n_atoms;
300
301
302	#ifdef IS_MPI
303	if( worldRank == 0 ){
304	#endif
305
306	// read in the atom types.
307
308	headAtomType = new LinkedType;
309
310	fastFoward( "AtomTypes", "initializeAtoms" );
311
312	// we are now at the AtomTypes section.
313
314	eof_test = fgets( readLine, sizeof(readLine), frcFile );
315	lineNum++;
316
317
318	// read a line, and start parseing out the atom types
319
320	if( eof_test == NULL ){
321	sprintf( painCave.errMsg,
322	"Error in reading Atoms from force file at line %d.\n",
323	lineNum );
324	painCave.isFatal = 1;
325	simError();
326	}
327
328	identNum = 1;
329	// stop reading at end of file, or at next section
330	while( readLine[0] != '#' && eof_test != NULL ){
331
332	// toss comment lines
333	if( readLine[0] != '!' ){
334
335	// the parser returns 0 if the line was blank
336	if( parseAtomLJ( readLine, lineNum, info ) ){
337	info.ident = identNum;
338	headAtomType->add( info );;
339	identNum++;
340	}
341	}
342	eof_test = fgets( readLine, sizeof(readLine), frcFile );
343	lineNum++;
344	}
345
346	#ifdef IS_MPI
347
348	// send out the linked list to all the other processes
349
350	sprintf( checkPointMsg,
351	"LJ_FF atom structures read successfully." );
352	MPIcheckPoint();
353
354	currentAtomType = headAtomType;
355	while( currentAtomType != NULL ){
356	currentAtomType->duplicate( info );
357	sendFrcStruct( &info, mpiAtomStructType );
358	currentAtomType = currentAtomType->next;
359	}
360	info.last = 1;
361	sendFrcStruct( &info, mpiAtomStructType );
362
363	}
364
365	else{
366
367	// listen for node 0 to send out the force params
368
369	MPIcheckPoint();
370
371	headAtomType = new LinkedType;
372	recieveFrcStruct( &info, mpiAtomStructType );
373	while( !info.last ){
374
375	headAtomType->add( info );
376	recieveFrcStruct( &info, mpiAtomStructType );
377	}
378	}
379	#endif // is_mpi
380
381	// call new A_types in fortran
382
383	int isError;
384	currentAtomType = headAtomType;
385	while( currentAtomType != NULL ){
386
387	if( currentAtomType->name[0] != '\0' ){
388	isError = 0;
389	newLJtype( &(currentAtomType->ident),
390	&(currentAtomType->mass),
391	&(currentAtomType->epslon),
392	&(currentAtomType->sigma),
393	&isError );
394	if( isError ){
395	sprintf( painCave.errMsg,
396	"Error initializing the \"%s\" atom type in fortran\n",
397	currentAtomType->name );
398	painCave.isFatal = 1;
399	simError();
400	}
401	}
402	currentAtomType = currentAtomType->next;
403	}
404
405	#ifdef IS_MPI
406	sprintf( checkPointMsg,
407	"LJ_FF atom structures successfully sent to fortran\n" );
408	MPIcheckPoint();
409	#endif // is_mpi
410
411
412
413	// initialize the atoms
414
415	double bigSigma = 0.0;
416	Atom* thisAtom;
417
418	for( i=0; i<nAtoms; i++ ){
419
420	currentAtomType = headAtomType->find( the_atoms[i]->getType() );
421	if( currentAtomType == NULL ){
422	sprintf( painCave.errMsg,
423	"AtomType error, %s not found in force file.\n",
424	the_atoms[i]->getType() );
425	painCave.isFatal = 1;
426	simError();
427	}
428
429	the_atoms[i]->setMass( currentAtomType->mass );
430	the_atoms[i]->setEpslon( currentAtomType->epslon );
431	the_atoms[i]->setSigma( currentAtomType->sigma );
432	the_atoms[i]->setIdent( currentAtomType->ident );
433	the_atoms[i]->setLJ();
434
435	if( bigSigma < currentAtomType->sigma ) bigSigma = currentAtomType->sigma;
436	}
437
438
439	#ifdef IS_MPI
440	double tempBig = bigSigma;
441	MPI::COMM_WORLD::Allreduce( &tempBig, &bigSigma, 1, MPI_DOUBLE, MPI_MAX );
442	#endif //is_mpi
443
444	//calc rCut and rList
445
446	entry_plug->rCut = 2.5 * bigSigma;
447	if(entry_plug->rCut > (entry_plug->box_x / 2.0)) entry_plug->rCut = entry_plug->box_x / 2.0;
448	if(entry_plug->rCut > (entry_plug->box_y / 2.0)) entry_plug->rCut = entry_plug->box_y / 2.0;
449	if(entry_plug->rCut > (entry_plug->box_z / 2.0)) entry_plug->rCut = entry_plug->box_z / 2.0;
450
451	entry_plug->rList = entry_plug->rCut + 1.0;
452
453	// clean up the memory
454
455	delete headAtomType;
456
457	#ifdef IS_MPI
458	sprintf( checkPointMsg, "LJ_FF atoms initialized succesfully" );
459	MPIcheckPoint();
460	#endif // is_mpi
461
462	initFortran();
463	entry_plug->refreshSim();
464
465	}
466
467	void LJ_FF::initializeBonds( bond_pair* the_bonds ){
468
469	if( entry_plug->n_bonds ){
470	sprintf( painCave.errMsg,
471	"LJ_FF does not support bonds.\n" );
472	painCave.isFatal = 1;
473	simError();
474	}
475	#ifdef IS_MPI
476	MPIcheckPoint();
477	#endif // is_mpi
478
479	}
480
481	void LJ_FF::initializeBends( bend_set* the_bends ){
482
483	if( entry_plug->n_bends ){
484	sprintf( painCave.errMsg,
485	"LJ_FF does not support bends.\n" );
486	painCave.isFatal = 1;
487	simError();
488	}
489	#ifdef IS_MPI
490	MPIcheckPoint();
491	#endif // is_mpi
492
493	}
494
495	void LJ_FF::initializeTorsions( torsion_set* the_torsions ){
496
497	if( entry_plug->n_torsions ){
498	sprintf( painCave.errMsg,
499	"LJ_FF does not support torsions.\n" );
500	painCave.isFatal = 1;
501	simError();
502	}
503	#ifdef IS_MPI
504	MPIcheckPoint();
505	#endif // is_mpi
506
507	}
508
509
510	void LJ_FF::fastForward( char* stopText, char* searchOwner ){
511
512	int foundText = 0;
513	char* the_token;
514
515	rewind( frcFile );
516	lineNum = 0;
517
518	eof_test = fgets( readLine, sizeof(readLine), frcFile );
519	lineNum++;
520	if( eof_test == NULL ){
521	sprintf( painCave.errMsg, "Error fast forwarding force file for %s: "
522	" file is empty.\n",
523	searchOwner );
524	painCave.isFatal = 1;
525	simError();
526	}
527
528
529	while( !foundText ){
530	while( eof_test != NULL && readLine[0] != '#' ){
531	eof_test = fgets( readLine, sizeof(readLine), frcFile );
532	lineNum++;
533	}
534	if( eof_test == NULL ){
535	sprintf( painCave.errMsg,
536	"Error fast forwarding force file for %s at "
537	"line %d: file ended unexpectedly.\n",
538	searchOwner,
539	lineNum );
540	painCave.isFatal = 1;
541	simError();
542	}
543
544	the_token = strtok( readLine, " ,;\t#\n" );
545	foundText = !strcmp( stopText, the_token );
546
547	if( !foundText ){
548	eof_test = fgets( readLine, sizeof(readLine), frcFile );
549	lineNum++;
550
551	if( eof_test == NULL ){
552	sprintf( painCave.errMsg,
553	"Error fast forwarding force file for %s at "
554	"line %d: file ended unexpectedly.\n",
555	searchOwner,
556	lineNum );
557	painCave.isFatal = 1;
558	simError();
559	}
560	}
561	}
562	}
563
564
565
566	int parseAtomLJ( char *lineBuffer, int lineNum, atomStruct &info ){
567
568	char* the_token;
569
570	the_token = strtok( lineBuffer, " \n\t,;" );
571	if( the_token != NULL ){
572
573	strcpy( info.name, the_token );
574
575	if( ( the_token = strtok( NULL, " \n\t,;" ) ) == NULL ){
576	sprintf( painCave.errMsg,
577	"Error parseing AtomTypes: line %d\n", lineNum );
578	painCave.isFatal = 1;
579	simError();
580	}
581
582	info.mass = atof( the_token );
583
584	if( ( the_token = strtok( NULL, " \n\t,;" ) ) == NULL ){
585	sprintf( painCave.errMsg,
586	"Error parseing AtomTypes: line %d\n", lineNum );
587	painCave.isFatal = 1;
588	simError();
589	}
590
591	info.epslon = atof( the_token );
592
593	if( ( the_token = strtok( NULL, " \n\t,;" ) ) == NULL ){
594	sprintf( painCave.errMsg,
595	"Error parseing AtomTypes: line %d\n", lineNum );
596	painCave.isFatal = 1;
597	simError();
598	}
599
600	info.sigma = atof( the_token );
601
602	return 1;
603	}
604	else return 0;
605	}
606
607
608	void LJ_FF::doForces( void ){
609
610	int i;
611	double* frc;
612	double* pos;
613	double potE;
614	short int calcPot = 0;
615
616	// forces are zeroed here, before any are acumulated.
617	// NOTE: do not rezero the forces in Fortran.
618
619	for(i=0; i<entry_plug->n_atoms; i++){
620	entry_plug->atoms[i]->zeroForces();
621	}
622
623	frc = Atom::getFrcArray();
624	pos = Atom::getPosArray();
625
626	doLJfortran( pos, frc, potE, calcPot );
627	}
628
629	void LJ_FF::initFortran( void ){
630
631	int nLocal = entry_plug->n_atoms;
632	int *ident;
633	int isError;
634	int i;
635
636	ident = new int[nLocal];
637
638	for(i=0; i<nLocal; i++){
639	ident[i] = entryplug->atoms[i]->getIdent();
640	}
641
642	isError = 0;
643	initLJfortran( &nLocal, ident, &isError );
644
645	if(isError){
646	sprintf( painCave.errMsg,
647	"LJ_FF error: There was an error initializing the component list in fortran.\n" );
648	painCave.isFatal = 1;
649	simError();
650	}
651
652
653	#ifdef IS_MPI
654	sprintf( checkPointMsg, "LJ_FF successfully initialized the fortran component list.\n" );
655	MPIcheckPoint();
656	#endif // is_mpi
657
658	delete[] ident;
659
660	}
661