src/brains/Stats.cpp

/*
 * Copyright (c) 2005 The University of Notre Dame. All Rights Reserved.
 *
 * The University of Notre Dame grants you ("Licensee") a
 * non-exclusive, royalty free, license to use, modify and
 * redistribute this software in source and binary code form, provided
 * that the following conditions are met:
 *
 * 1. Acknowledgement of the program authors must be made in any
 *    publication of scientific results based in part on use of the
 *    program.  An acceptable form of acknowledgement is citation of
 *    the article in which the program was described (Matthew
 *    A. Meineke, Charles F. Vardeman II, Teng Lin, Christopher
 *    J. Fennell and J. Daniel Gezelter, "OOPSE: An Object-Oriented
 *    Parallel Simulation Engine for Molecular Dynamics,"
 *    J. Comput. Chem. 26, pp. 252-271 (2005))
 *
 * 2. Redistributions of source code must retain the above copyright
 *    notice, this list of conditions and the following disclaimer.
 *
 * 3. Redistributions in binary form must reproduce the above copyright
 *    notice, this list of conditions and the following disclaimer in the
 *    documentation and/or other materials provided with the
 *    distribution.
 *
 * This software is provided "AS IS," without a warranty of any
 * kind. All express or implied conditions, representations and
 * warranties, including any implied warranty of merchantability,
 * fitness for a particular purpose or non-infringement, are hereby
 * excluded.  The University of Notre Dame and its licensors shall not
 * be liable for any damages suffered by licensee as a result of
 * using, modifying or distributing the software or its
 * derivatives. In no event will the University of Notre Dame or its
 * licensors be liable for any lost revenue, profit or data, or for
 * direct, indirect, special, consequential, incidental or punitive
 * damages, however caused and regardless of the theory of liability,
 * arising out of the use of or inability to use software, even if the
 * University of Notre Dame has been advised of the possibility of
 * such damages.
 */
  
/**
 * @file Stats.cpp
 * @author tlin
 * @date 11/04/2004
 * @time 14:26am
 * @version 1.0
 */

#include "brains/Stats.hpp"

namespace oopse {

  bool Stats::isInit_ = false;
  std::string Stats::title_[Stats::ENDINDEX - Stats::BEGININDEX];
  std::string Stats::units_[Stats::ENDINDEX - Stats::BEGININDEX];
  Stats::StatsMapType Stats::statsMap;
  Stats::Stats() {

    if (!isInit_) {
      init();
      isInit_ = true;
    }

  }

  void Stats::init() {

    Stats::title_[TIME] = "Time";
    Stats::title_[TOTAL_ENERGY] = "Total Energy";
    Stats::title_[POTENTIAL_ENERGY] = "Potential Energy";
    Stats::title_[KINETIC_ENERGY] = "Kinetic Energy";
    Stats::title_[TEMPERATURE] = "Temperature";
    Stats::title_[PRESSURE] = "Pressure";
    Stats::title_[VOLUME] = "Volume";
    Stats::title_[HULLVOLUME] = "Hull Volume";
    Stats::title_[GYRVOLUME] = "Gyrational Volume";
    Stats::title_[CONSERVED_QUANTITY] = "Conserved Quantity";             
    Stats::title_[TRANSLATIONAL_KINETIC] = "Translational Kinetic";
    Stats::title_[ROTATIONAL_KINETIC] = "Rotational Kinetic";
    Stats::title_[LONG_RANGE_POTENTIAL] = "Long Range Potential";
    Stats::title_[SHORT_RANGE_POTENTIAL] = "Short Range Potential";
    Stats::title_[VANDERWAALS_POTENTIAL] = "van der waals Potential";
    Stats::title_[ELECTROSTATIC_POTENTIAL] = "Electrostatic Potential";    
    Stats::title_[BOND_POTENTIAL] = "Bond Potential";
    Stats::title_[BEND_POTENTIAL] = "Bend Potential";
    Stats::title_[DIHEDRAL_POTENTIAL] = "Dihedral Potential";
    Stats::title_[INVERSION_POTENTIAL] = "Inversion Potential";
    Stats::title_[VRAW] = "Raw Potential";
    Stats::title_[VHARM] = "Harmonic Potential";
    Stats::title_[PRESSURE_TENSOR_XX] = "P_xx";
    Stats::title_[PRESSURE_TENSOR_XY] = "P_xy";
    Stats::title_[PRESSURE_TENSOR_XZ] = "P_xz";
    Stats::title_[PRESSURE_TENSOR_YX] = "P_yx";
    Stats::title_[PRESSURE_TENSOR_YY] = "P_yy";
    Stats::title_[PRESSURE_TENSOR_YZ] = "P_yz";
    Stats::title_[PRESSURE_TENSOR_ZX] = "P_zx";
    Stats::title_[PRESSURE_TENSOR_ZY] = "P_zy";
    Stats::title_[PRESSURE_TENSOR_ZZ] = "P_zz";
    Stats::title_[BOX_DIPOLE_X] = "box dipole x";
    Stats::title_[BOX_DIPOLE_Y] = "box dipole y";
    Stats::title_[BOX_DIPOLE_Z] = "box dipole z";
    Stats::title_[TAGGED_PAIR_DISTANCE] = "Tagged_Pair_Distance";
    Stats::title_[RNEMD_EXCHANGE_TOTAL] = "RNEMD_exchange_total";
    
    Stats::units_[TIME] = "fs";
    Stats::units_[TOTAL_ENERGY] = "kcal/mol";
    Stats::units_[POTENTIAL_ENERGY] = "kcal/mol";
    Stats::units_[KINETIC_ENERGY] = "kcal/mol";
    Stats::units_[TEMPERATURE] = "K";
    Stats::units_[PRESSURE] = "atm";
    Stats::units_[VOLUME] = "A^3";
    Stats::units_[HULLVOLUME] = "A^3";
    Stats::units_[GYRVOLUME] = "A^3";
    Stats::units_[CONSERVED_QUANTITY] = "kcal/mol";             
    Stats::units_[TRANSLATIONAL_KINETIC] = "kcal/mol";
    Stats::units_[ROTATIONAL_KINETIC] = "kcal/mol";
    Stats::units_[LONG_RANGE_POTENTIAL] = "kcal/mol";
    Stats::units_[SHORT_RANGE_POTENTIAL] = "kcal/mol";
    Stats::units_[VANDERWAALS_POTENTIAL] = "kcal/mol";
    Stats::units_[ELECTROSTATIC_POTENTIAL] = "kcal/mol";
    Stats::units_[BOND_POTENTIAL] = "kcal/mol";
    Stats::units_[BEND_POTENTIAL] = "kcal/mol";
    Stats::units_[DIHEDRAL_POTENTIAL] = "kcal/mol";
    Stats::units_[INVERSION_POTENTIAL] = "kcal/mol";
    Stats::units_[VRAW] = "kcal/mol";
    Stats::units_[VHARM] = "kcal/mol";
    Stats::units_[PRESSURE_TENSOR_XX] = "amu*fs^-2*Ang^-1";
    Stats::units_[PRESSURE_TENSOR_XY] = "amu*fs^-2*Ang^-1";
    Stats::units_[PRESSURE_TENSOR_XZ] = "amu*fs^-2*Ang^-1";
    Stats::units_[PRESSURE_TENSOR_YX] = "amu*fs^-2*Ang^-1";
    Stats::units_[PRESSURE_TENSOR_YY] = "amu*fs^-2*Ang^-1";
    Stats::units_[PRESSURE_TENSOR_YZ] = "amu*fs^-2*Ang^-1";
    Stats::units_[PRESSURE_TENSOR_ZX] = "amu*fs^-2*Ang^-1";
    Stats::units_[PRESSURE_TENSOR_ZY] = "amu*fs^-2*Ang^-1";
    Stats::units_[PRESSURE_TENSOR_ZZ] = "amu*fs^-2*Ang^-1";
    Stats::units_[BOX_DIPOLE_X] = "C*m";
    Stats::units_[BOX_DIPOLE_Y] = "C*m";
    Stats::units_[BOX_DIPOLE_Z] = "C*m";
    Stats::units_[TAGGED_PAIR_DISTANCE] = "Ang";
    Stats::units_[RNEMD_EXCHANGE_TOTAL] = "Variable";

    Stats::statsMap.insert(StatsMapType::value_type("TIME", TIME));
    Stats::statsMap.insert(StatsMapType::value_type("TOTAL_ENERGY", TOTAL_ENERGY));
    Stats::statsMap.insert(StatsMapType::value_type("POTENTIAL_ENERGY", POTENTIAL_ENERGY));
    Stats::statsMap.insert(StatsMapType::value_type("KINETIC_ENERGY", KINETIC_ENERGY));
    Stats::statsMap.insert(StatsMapType::value_type("TEMPERATURE", TEMPERATURE));
    Stats::statsMap.insert(StatsMapType::value_type("PRESSURE", PRESSURE));
    Stats::statsMap.insert(StatsMapType::value_type("VOLUME", VOLUME));
    Stats::statsMap.insert(StatsMapType::value_type("HULLVOLUME", HULLVOLUME));
    Stats::statsMap.insert(StatsMapType::value_type("GYRVOLUME", GYRVOLUME));
    Stats::statsMap.insert(StatsMapType::value_type("CONSERVED_QUANTITY", CONSERVED_QUANTITY));
    Stats::statsMap.insert(StatsMapType::value_type("TRANSLATIONAL_KINETIC", TRANSLATIONAL_KINETIC));
    Stats::statsMap.insert(StatsMapType::value_type("ROTATIONAL_KINETIC", ROTATIONAL_KINETIC));
    Stats::statsMap.insert(StatsMapType::value_type("LONG_RANGE_POTENTIAL", LONG_RANGE_POTENTIAL));
    Stats::statsMap.insert(StatsMapType::value_type("SHORT_RANGE_POTENTIAL", SHORT_RANGE_POTENTIAL));
    Stats::statsMap.insert(StatsMapType::value_type("VANDERWAALS_POTENTIAL", VANDERWAALS_POTENTIAL));
    Stats::statsMap.insert(StatsMapType::value_type("ELECTROSTATIC_POTENTIAL", ELECTROSTATIC_POTENTIAL));
    Stats::statsMap.insert(StatsMapType::value_type("BOND_POTENTIAL", BOND_POTENTIAL));
    Stats::statsMap.insert(StatsMapType::value_type("BEND_POTENTIAL", BEND_POTENTIAL));
    Stats::statsMap.insert(StatsMapType::value_type("DIHEDRAL_POTENTIAL", DIHEDRAL_POTENTIAL));
    Stats::statsMap.insert(StatsMapType::value_type("INVERSION_POTENTIAL", INVERSION_POTENTIAL));
    Stats::statsMap.insert(StatsMapType::value_type("VRAW", VRAW));    
    Stats::statsMap.insert(StatsMapType::value_type("VHARM", VHARM));    
    Stats::statsMap.insert(StatsMapType::value_type("PRESSURE_TENSOR_XX", PRESSURE_TENSOR_XX));    
    Stats::statsMap.insert(StatsMapType::value_type("PRESSURE_TENSOR_XY", PRESSURE_TENSOR_XY));    
    Stats::statsMap.insert(StatsMapType::value_type("PRESSURE_TENSOR_XZ", PRESSURE_TENSOR_XZ));    
    Stats::statsMap.insert(StatsMapType::value_type("PRESSURE_TENSOR_YX", PRESSURE_TENSOR_YX));    
    Stats::statsMap.insert(StatsMapType::value_type("PRESSURE_TENSOR_YY", PRESSURE_TENSOR_YY));    
    Stats::statsMap.insert(StatsMapType::value_type("PRESSURE_TENSOR_YZ", PRESSURE_TENSOR_YZ));    
    Stats::statsMap.insert(StatsMapType::value_type("PRESSURE_TENSOR_ZX", PRESSURE_TENSOR_ZX));    
    Stats::statsMap.insert(StatsMapType::value_type("PRESSURE_TENSOR_ZY", PRESSURE_TENSOR_ZY));    
    Stats::statsMap.insert(StatsMapType::value_type("PRESSURE_TENSOR_ZZ", PRESSURE_TENSOR_ZZ));    
    Stats::statsMap.insert(StatsMapType::value_type("BOX_DIPOLE_X", BOX_DIPOLE_X));    
    Stats::statsMap.insert(StatsMapType::value_type("BOX_DIPOLE_Y", BOX_DIPOLE_Y));    
    Stats::statsMap.insert(StatsMapType::value_type("BOX_DIPOLE_Z", BOX_DIPOLE_Z));    
    Stats::statsMap.insert(StatsMapType::value_type("TAGGED_PAIR_DISTANCE", TAGGED_PAIR_DISTANCE));    
    Stats::statsMap.insert(StatsMapType::value_type("RNEMD_EXCHANGE_TOTAL", RNEMD_EXCHANGE_TOTAL));    
  }

}
Revision:	3542
Committed:	Mon Oct 19 13:40:11 2009 UTC (14 years, 8 months ago) by skuang
File size:	9609 byte(s)
Log Message:	RNEMD temperature and exchange reporting
#	Content
1	/*
2	* Copyright (c) 2005 The University of Notre Dame. All Rights Reserved.
3	*
4	* The University of Notre Dame grants you ("Licensee") a
5	* non-exclusive, royalty free, license to use, modify and
6	* redistribute this software in source and binary code form, provided
7	* that the following conditions are met:
8	*
9	* 1. Acknowledgement of the program authors must be made in any
10	* publication of scientific results based in part on use of the
11	* program. An acceptable form of acknowledgement is citation of
12	* the article in which the program was described (Matthew
13	* A. Meineke, Charles F. Vardeman II, Teng Lin, Christopher
14	* J. Fennell and J. Daniel Gezelter, "OOPSE: An Object-Oriented
15	* Parallel Simulation Engine for Molecular Dynamics,"
16	* J. Comput. Chem. 26, pp. 252-271 (2005))
17	*
18	* 2. Redistributions of source code must retain the above copyright
19	* notice, this list of conditions and the following disclaimer.
20	*
21	* 3. Redistributions in binary form must reproduce the above copyright
22	* notice, this list of conditions and the following disclaimer in the
23	* documentation and/or other materials provided with the
24	* distribution.
25	*
26	* This software is provided "AS IS," without a warranty of any
27	* kind. All express or implied conditions, representations and
28	* warranties, including any implied warranty of merchantability,
29	* fitness for a particular purpose or non-infringement, are hereby
30	* excluded. The University of Notre Dame and its licensors shall not
31	* be liable for any damages suffered by licensee as a result of
32	* using, modifying or distributing the software or its
33	* derivatives. In no event will the University of Notre Dame or its
34	* licensors be liable for any lost revenue, profit or data, or for
35	* direct, indirect, special, consequential, incidental or punitive
36	* damages, however caused and regardless of the theory of liability,
37	* arising out of the use of or inability to use software, even if the
38	* University of Notre Dame has been advised of the possibility of
39	* such damages.
40	*/
41
42	/**
43	* @file Stats.cpp
44	* @author tlin
45	* @date 11/04/2004
46	* @time 14:26am
47	* @version 1.0
48	*/
49
50	#include "brains/Stats.hpp"
51
52	namespace oopse {
53
54	bool Stats::isInit_ = false;
55	std::string Stats::title_[Stats::ENDINDEX - Stats::BEGININDEX];
56	std::string Stats::units_[Stats::ENDINDEX - Stats::BEGININDEX];
57	Stats::StatsMapType Stats::statsMap;
58	Stats::Stats() {
59
60	if (!isInit_) {
61	init();
62	isInit_ = true;
63	}
64
65	}
66
67	void Stats::init() {
68
69	Stats::title_[TIME] = "Time";
70	Stats::title_[TOTAL_ENERGY] = "Total Energy";
71	Stats::title_[POTENTIAL_ENERGY] = "Potential Energy";
72	Stats::title_[KINETIC_ENERGY] = "Kinetic Energy";
73	Stats::title_[TEMPERATURE] = "Temperature";
74	Stats::title_[PRESSURE] = "Pressure";
75	Stats::title_[VOLUME] = "Volume";
76	Stats::title_[HULLVOLUME] = "Hull Volume";
77	Stats::title_[GYRVOLUME] = "Gyrational Volume";
78	Stats::title_[CONSERVED_QUANTITY] = "Conserved Quantity";
79	Stats::title_[TRANSLATIONAL_KINETIC] = "Translational Kinetic";
80	Stats::title_[ROTATIONAL_KINETIC] = "Rotational Kinetic";
81	Stats::title_[LONG_RANGE_POTENTIAL] = "Long Range Potential";
82	Stats::title_[SHORT_RANGE_POTENTIAL] = "Short Range Potential";
83	Stats::title_[VANDERWAALS_POTENTIAL] = "van der waals Potential";
84	Stats::title_[ELECTROSTATIC_POTENTIAL] = "Electrostatic Potential";
85	Stats::title_[BOND_POTENTIAL] = "Bond Potential";
86	Stats::title_[BEND_POTENTIAL] = "Bend Potential";
87	Stats::title_[DIHEDRAL_POTENTIAL] = "Dihedral Potential";
88	Stats::title_[INVERSION_POTENTIAL] = "Inversion Potential";
89	Stats::title_[VRAW] = "Raw Potential";
90	Stats::title_[VHARM] = "Harmonic Potential";
91	Stats::title_[PRESSURE_TENSOR_XX] = "P_xx";
92	Stats::title_[PRESSURE_TENSOR_XY] = "P_xy";
93	Stats::title_[PRESSURE_TENSOR_XZ] = "P_xz";
94	Stats::title_[PRESSURE_TENSOR_YX] = "P_yx";
95	Stats::title_[PRESSURE_TENSOR_YY] = "P_yy";
96	Stats::title_[PRESSURE_TENSOR_YZ] = "P_yz";
97	Stats::title_[PRESSURE_TENSOR_ZX] = "P_zx";
98	Stats::title_[PRESSURE_TENSOR_ZY] = "P_zy";
99	Stats::title_[PRESSURE_TENSOR_ZZ] = "P_zz";
100	Stats::title_[BOX_DIPOLE_X] = "box dipole x";
101	Stats::title_[BOX_DIPOLE_Y] = "box dipole y";
102	Stats::title_[BOX_DIPOLE_Z] = "box dipole z";
103	Stats::title_[TAGGED_PAIR_DISTANCE] = "Tagged_Pair_Distance";
104	Stats::title_[RNEMD_EXCHANGE_TOTAL] = "RNEMD_exchange_total";
105
106	Stats::units_[TIME] = "fs";
107	Stats::units_[TOTAL_ENERGY] = "kcal/mol";
108	Stats::units_[POTENTIAL_ENERGY] = "kcal/mol";
109	Stats::units_[KINETIC_ENERGY] = "kcal/mol";
110	Stats::units_[TEMPERATURE] = "K";
111	Stats::units_[PRESSURE] = "atm";
112	Stats::units_[VOLUME] = "A^3";
113	Stats::units_[HULLVOLUME] = "A^3";
114	Stats::units_[GYRVOLUME] = "A^3";
115	Stats::units_[CONSERVED_QUANTITY] = "kcal/mol";
116	Stats::units_[TRANSLATIONAL_KINETIC] = "kcal/mol";
117	Stats::units_[ROTATIONAL_KINETIC] = "kcal/mol";
118	Stats::units_[LONG_RANGE_POTENTIAL] = "kcal/mol";
119	Stats::units_[SHORT_RANGE_POTENTIAL] = "kcal/mol";
120	Stats::units_[VANDERWAALS_POTENTIAL] = "kcal/mol";
121	Stats::units_[ELECTROSTATIC_POTENTIAL] = "kcal/mol";
122	Stats::units_[BOND_POTENTIAL] = "kcal/mol";
123	Stats::units_[BEND_POTENTIAL] = "kcal/mol";
124	Stats::units_[DIHEDRAL_POTENTIAL] = "kcal/mol";
125	Stats::units_[INVERSION_POTENTIAL] = "kcal/mol";
126	Stats::units_[VRAW] = "kcal/mol";
127	Stats::units_[VHARM] = "kcal/mol";
128	Stats::units_[PRESSURE_TENSOR_XX] = "amufs^-2Ang^-1";
129	Stats::units_[PRESSURE_TENSOR_XY] = "amufs^-2Ang^-1";
130	Stats::units_[PRESSURE_TENSOR_XZ] = "amufs^-2Ang^-1";
131	Stats::units_[PRESSURE_TENSOR_YX] = "amufs^-2Ang^-1";
132	Stats::units_[PRESSURE_TENSOR_YY] = "amufs^-2Ang^-1";
133	Stats::units_[PRESSURE_TENSOR_YZ] = "amufs^-2Ang^-1";
134	Stats::units_[PRESSURE_TENSOR_ZX] = "amufs^-2Ang^-1";
135	Stats::units_[PRESSURE_TENSOR_ZY] = "amufs^-2Ang^-1";
136	Stats::units_[PRESSURE_TENSOR_ZZ] = "amufs^-2Ang^-1";
137	Stats::units_[BOX_DIPOLE_X] = "C*m";
138	Stats::units_[BOX_DIPOLE_Y] = "C*m";
139	Stats::units_[BOX_DIPOLE_Z] = "C*m";
140	Stats::units_[TAGGED_PAIR_DISTANCE] = "Ang";
141	Stats::units_[RNEMD_EXCHANGE_TOTAL] = "Variable";
142
143	Stats::statsMap.insert(StatsMapType::value_type("TIME", TIME));
144	Stats::statsMap.insert(StatsMapType::value_type("TOTAL_ENERGY", TOTAL_ENERGY));
145	Stats::statsMap.insert(StatsMapType::value_type("POTENTIAL_ENERGY", POTENTIAL_ENERGY));
146	Stats::statsMap.insert(StatsMapType::value_type("KINETIC_ENERGY", KINETIC_ENERGY));
147	Stats::statsMap.insert(StatsMapType::value_type("TEMPERATURE", TEMPERATURE));
148	Stats::statsMap.insert(StatsMapType::value_type("PRESSURE", PRESSURE));
149	Stats::statsMap.insert(StatsMapType::value_type("VOLUME", VOLUME));
150	Stats::statsMap.insert(StatsMapType::value_type("HULLVOLUME", HULLVOLUME));
151	Stats::statsMap.insert(StatsMapType::value_type("GYRVOLUME", GYRVOLUME));
152	Stats::statsMap.insert(StatsMapType::value_type("CONSERVED_QUANTITY", CONSERVED_QUANTITY));
153	Stats::statsMap.insert(StatsMapType::value_type("TRANSLATIONAL_KINETIC", TRANSLATIONAL_KINETIC));
154	Stats::statsMap.insert(StatsMapType::value_type("ROTATIONAL_KINETIC", ROTATIONAL_KINETIC));
155	Stats::statsMap.insert(StatsMapType::value_type("LONG_RANGE_POTENTIAL", LONG_RANGE_POTENTIAL));
156	Stats::statsMap.insert(StatsMapType::value_type("SHORT_RANGE_POTENTIAL", SHORT_RANGE_POTENTIAL));
157	Stats::statsMap.insert(StatsMapType::value_type("VANDERWAALS_POTENTIAL", VANDERWAALS_POTENTIAL));
158	Stats::statsMap.insert(StatsMapType::value_type("ELECTROSTATIC_POTENTIAL", ELECTROSTATIC_POTENTIAL));
159	Stats::statsMap.insert(StatsMapType::value_type("BOND_POTENTIAL", BOND_POTENTIAL));
160	Stats::statsMap.insert(StatsMapType::value_type("BEND_POTENTIAL", BEND_POTENTIAL));
161	Stats::statsMap.insert(StatsMapType::value_type("DIHEDRAL_POTENTIAL", DIHEDRAL_POTENTIAL));
162	Stats::statsMap.insert(StatsMapType::value_type("INVERSION_POTENTIAL", INVERSION_POTENTIAL));
163	Stats::statsMap.insert(StatsMapType::value_type("VRAW", VRAW));
164	Stats::statsMap.insert(StatsMapType::value_type("VHARM", VHARM));
165	Stats::statsMap.insert(StatsMapType::value_type("PRESSURE_TENSOR_XX", PRESSURE_TENSOR_XX));
166	Stats::statsMap.insert(StatsMapType::value_type("PRESSURE_TENSOR_XY", PRESSURE_TENSOR_XY));
167	Stats::statsMap.insert(StatsMapType::value_type("PRESSURE_TENSOR_XZ", PRESSURE_TENSOR_XZ));
168	Stats::statsMap.insert(StatsMapType::value_type("PRESSURE_TENSOR_YX", PRESSURE_TENSOR_YX));
169	Stats::statsMap.insert(StatsMapType::value_type("PRESSURE_TENSOR_YY", PRESSURE_TENSOR_YY));
170	Stats::statsMap.insert(StatsMapType::value_type("PRESSURE_TENSOR_YZ", PRESSURE_TENSOR_YZ));
171	Stats::statsMap.insert(StatsMapType::value_type("PRESSURE_TENSOR_ZX", PRESSURE_TENSOR_ZX));
172	Stats::statsMap.insert(StatsMapType::value_type("PRESSURE_TENSOR_ZY", PRESSURE_TENSOR_ZY));
173	Stats::statsMap.insert(StatsMapType::value_type("PRESSURE_TENSOR_ZZ", PRESSURE_TENSOR_ZZ));
174	Stats::statsMap.insert(StatsMapType::value_type("BOX_DIPOLE_X", BOX_DIPOLE_X));
175	Stats::statsMap.insert(StatsMapType::value_type("BOX_DIPOLE_Y", BOX_DIPOLE_Y));
176	Stats::statsMap.insert(StatsMapType::value_type("BOX_DIPOLE_Z", BOX_DIPOLE_Z));
177	Stats::statsMap.insert(StatsMapType::value_type("TAGGED_PAIR_DISTANCE", TAGGED_PAIR_DISTANCE));
178	Stats::statsMap.insert(StatsMapType::value_type("RNEMD_EXCHANGE_TOTAL", RNEMD_EXCHANGE_TOTAL));
179	}
180
181	}