mdtools/libmdCode/SimInfo.cpp

#include <cstdlib>
#include <cstring>


#include "SimInfo.hpp"
#define __C
#include "fSimulation.h"
#include "simError.h"

extern "C"{
  void wrapsimmod_( void (*wrapFunction)(void (*fSub)( simtype*, int* )));
}

void wrapSimInfo(void (*fSub)( simtype*, int* ));

SimInfo* currentInfo;

SimInfo::SimInfo(){
  excludes = NULL;
  n_constraints = 0;
  n_oriented = 0;
  n_dipoles = 0;
  the_integrator = NULL;
  setTemp = 0;
  thermalTime = 0.0;

  currentInfo = this;
  wrapMe();
}


void SimInfo::wrapMe(){

  wrapsimmod_( wrapSimInfo );
}


void SimInfo::refreshSim(){

  simtype fInfo;
  int isError;

  fInfo.box[0] = box_x;
  fInfo.box[1] = box_y;
  fInfo.box[2] = box_z;

  fInfo.rlist = rList;
  fInfo.rcut = rCut;
  fInfo.rlistsq = rlist * rlist;
  fInfo.rcutsq = rCut * rCut;
  fInfo.rcut6 = fInfo.rcutsq * fInfo.rcutsq * fInfo.rcutsq;
  fInfo.natoms = n_atoms;
  fInfo.usePBC = usePBC;
  strcpy( fInfo.ensemble, ensemble );
  strcpy( fInfo.mixingRule, mixingRule );

  isError = 0;
  setFsimulation( &fInfo, &isError );

  if( isError ){

    sprintf( painCave.errMsg,
             "There was an error setting the simulation information in fortran.\n" );
    painCave.isFatal = 1;
    simError();
  }

#ifdef IS_MPI
  sprintf( checkPointMsg,
           "succesfully sent the simulation information to fortran.\n");
  MPIcheckPoint();
#endif // is_mpi
}

void wrapSimInfo(void (*fSub)( simtype*, int* )){
  
  currentInfo->setInternal(fSub);
}
Revision:	290
Committed:	Thu Feb 27 21:25:47 2003 UTC (22 years, 9 months ago) by chuckv
File size:	1437 byte(s)
Log Message:	Made changes to lj_FF.cpp to pass stress tensor.
#	Content
1	#include <cstdlib>
2	#include <cstring>
3
4
5	#include "SimInfo.hpp"
6	#define __C
7	#include "fSimulation.h"
8	#include "simError.h"
9
10	extern "C"{
11	void wrapsimmod_( void (wrapFunction)(void (fSub)( simtype, int )));
12	}
13
14	void wrapSimInfo(void (fSub)( simtype, int* ));
15
16	SimInfo* currentInfo;
17
18	SimInfo::SimInfo(){
19	excludes = NULL;
20	n_constraints = 0;
21	n_oriented = 0;
22	n_dipoles = 0;
23	the_integrator = NULL;
24	setTemp = 0;
25	thermalTime = 0.0;
26
27	currentInfo = this;
28	wrapMe();
29	}
30
31
32	void SimInfo::wrapMe(){
33
34	wrapsimmod_( wrapSimInfo );
35	}
36
37
38	void SimInfo::refreshSim(){
39
40	simtype fInfo;
41	int isError;
42
43	fInfo.box[0] = box_x;
44	fInfo.box[1] = box_y;
45	fInfo.box[2] = box_z;
46
47	fInfo.rlist = rList;
48	fInfo.rcut = rCut;
49	fInfo.rlistsq = rlist * rlist;
50	fInfo.rcutsq = rCut * rCut;
51	fInfo.rcut6 = fInfo.rcutsq * fInfo.rcutsq * fInfo.rcutsq;
52	fInfo.natoms = n_atoms;
53	fInfo.usePBC = usePBC;
54	strcpy( fInfo.ensemble, ensemble );
55	strcpy( fInfo.mixingRule, mixingRule );
56
57	isError = 0;
58	setFsimulation( &fInfo, &isError );
59
60	if( isError ){
61
62	sprintf( painCave.errMsg,
63	"There was an error setting the simulation information in fortran.\n" );
64	painCave.isFatal = 1;
65	simError();
66	}
67
68	#ifdef IS_MPI
69	sprintf( checkPointMsg,
70	"succesfully sent the simulation information to fortran.\n");
71	MPIcheckPoint();
72	#endif // is_mpi
73	}
74
75	void wrapSimInfo(void (fSub)( simtype, int* )){
76
77	currentInfo->setInternal(fSub);
78	}