src/restraints/Restraints.hpp

/* This is a fun little patch to do molecular restraints for
   thermodynamic integration of solids.  Use only 
   if you really know what you are doing.
*/

#ifndef _RESTRAINTS_H_
#define _RESTRAINTS_H_

#include <stdlib.h>
#include <iostream>
#include <vector>

#include "primitives/Atom.hpp"
#include "brains/SimState.hpp"

//#include "brains/SimInfo.hpp"
//#include "io/ReadWrite.hpp"

class Restraints{

 public:
  Restraints(double lambdaVal, double lambdaExp);
  ~Restraints();

  void Calc_rVal(double position[3], int currentMol);
  void Calc_body_thetaVal(double matrix[3][3], int currentMol);
  void Calc_body_omegaVal(double matrix[3][3], double zAngle);
  double Calc_Restraint_Forces(vector<StuntDouble*> vecParticles);
  void Store_Init_Info(vector<StuntDouble*> vecParticles);
  void Write_zAngle_File(vector<StuntDouble*> vecParticles);
  double getVharm();

 private:
  char moleculeName[15];

  int i, j;

  double scaleLam;
  double delRx, delRy, delRz;
  double theta, omega;
  double vProj0[3];
  double vProjDist;
  double uTx, uTy, uTz, vTx, vTy, vTz;
  double ub0x, ub0y, ub0z, vb0x, vb0y, vb0z;
  double kTheta, kOmega, kDist;
  double restraintFrc[3];
  double restraintTrq[3];
  double normalize;
  double dVdrx, dVdry, dVdrz;
  double dVdux, dVduy, dVduz;
  double dVdvx, dVdvy, dVdvz;
  double harmPotent;
  double lambdaValue;
  double lambdaK;

  vector<double> cofmPosX;
  vector<double> cofmPosY;
  vector<double> cofmPosZ;
  vector<double> ubX0;
  vector<double> uX0;
  vector<double> ubY0;
  vector<double> uY0;
  vector<double> ubZ0;
  vector<double> uZ0;
  vector<double> vbX0;
  vector<double> vX0;
  vector<double> vbY0;
  vector<double> vY0;
  vector<double> vbZ0;
  vector<double> vZ0;

  //  SimInfo *info; // all the info we'll ever need
//   Atom **atoms; /* array of atom pointers */
//   DirectionalAtom* dAtom;
//  SimInfo *againInfo; // all the info we'll ever need

  char *token;
  char fileName[200];
  char angleName[200];
  char inLine[1000];
  char inValue[200];
  char springName[200];
};

#endif
Revision:	3
Committed:	Fri Sep 24 16:27:58 2004 UTC (20 years, 7 months ago) by tim
File size:	2053 byte(s)
Log Message:	change the #include in source files
#	User	Rev	Content
1	gezelter	2	/* This is a fun little patch to do molecular restraints for
2			thermodynamic integration of solids. Use only
3			if you really know what you are doing.
4			*/
5
6			#ifndef _RESTRAINTS_H_
7			#define _RESTRAINTS_H_
8
9			#include <stdlib.h>
10			#include <iostream>
11			#include <vector>
12
13	tim	3	#include "primitives/Atom.hpp"
14			#include "brains/SimState.hpp"
15	gezelter	2
16	tim	3	//#include "brains/SimInfo.hpp"
17			//#include "io/ReadWrite.hpp"
18	gezelter	2
19			class Restraints{
20
21			public:
22			Restraints(double lambdaVal, double lambdaExp);
23			~Restraints();
24
25			void Calc_rVal(double position[3], int currentMol);
26			void Calc_body_thetaVal(double matrix[3][3], int currentMol);
27			void Calc_body_omegaVal(double matrix[3][3], double zAngle);
28			double Calc_Restraint_Forces(vector<StuntDouble*> vecParticles);
29			void Store_Init_Info(vector<StuntDouble*> vecParticles);
30			void Write_zAngle_File(vector<StuntDouble*> vecParticles);
31			double getVharm();
32
33			private:
34			char moleculeName[15];
35
36			int i, j;
37
38			double scaleLam;
39			double delRx, delRy, delRz;
40			double theta, omega;
41			double vProj0[3];
42			double vProjDist;
43			double uTx, uTy, uTz, vTx, vTy, vTz;
44			double ub0x, ub0y, ub0z, vb0x, vb0y, vb0z;
45			double kTheta, kOmega, kDist;
46			double restraintFrc[3];
47			double restraintTrq[3];
48			double normalize;
49			double dVdrx, dVdry, dVdrz;
50			double dVdux, dVduy, dVduz;
51			double dVdvx, dVdvy, dVdvz;
52			double harmPotent;
53			double lambdaValue;
54			double lambdaK;
55
56			vector<double> cofmPosX;
57			vector<double> cofmPosY;
58			vector<double> cofmPosZ;
59			vector<double> ubX0;
60			vector<double> uX0;
61			vector<double> ubY0;
62			vector<double> uY0;
63			vector<double> ubZ0;
64			vector<double> uZ0;
65			vector<double> vbX0;
66			vector<double> vX0;
67			vector<double> vbY0;
68			vector<double> vY0;
69			vector<double> vbZ0;
70			vector<double> vZ0;
71
72			// SimInfo *info; // all the info we'll ever need
73			// Atom *atoms; / array of atom pointers */
74			// DirectionalAtom* dAtom;
75			// SimInfo *againInfo; // all the info we'll ever need
76
77			char *token;
78			char fileName[200];
79			char angleName[200];
80			char inLine[1000];
81			char inValue[200];
82			char springName[200];
83			};
84
85			#endif