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/* |
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/* |
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* Copyright (c) 2005 The University of Notre Dame. All Rights Reserved. |
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* |
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* The University of Notre Dame grants you ("Licensee") a |
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* such damages. |
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*/ |
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/** |
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* @file Stats.cpp |
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* @author tlin |
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* @date 11/04/2004 |
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* @time 14:26am |
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* @version 1.0 |
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*/ |
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/** |
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* @file Stats.cpp |
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* @author tlin |
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* @date 11/04/2004 |
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* @time 14:26am |
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* @version 1.0 |
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*/ |
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#include "brains/Stats.hpp" |
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namespace oopse { |
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bool Stats::isInit_ = false; |
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std::string Stats::title_[Stats::ENDINDEX - Stats::BEGININDEX]; |
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std::string Stats::units_[Stats::ENDINDEX - Stats::BEGININDEX]; |
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bool Stats::isInit_ = false; |
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std::string Stats::title_[Stats::ENDINDEX - Stats::BEGININDEX]; |
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std::string Stats::units_[Stats::ENDINDEX - Stats::BEGININDEX]; |
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Stats::StatsMapType Stats::statsMap; |
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Stats::Stats() { |
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Stats::Stats() { |
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if (!isInit_) { |
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init(); |
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isInit_ = true; |
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init(); |
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isInit_ = true; |
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} |
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} |
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} |
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void Stats::init() { |
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void Stats::init() { |
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Stats::title_[TIME] = "Time"; |
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Stats::title_[TOTAL_ENERGY] = "Total Energy"; |
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Stats::title_[LONG_RANGE_POTENTIAL] = "Long Range Potential"; |
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Stats::title_[SHORT_RANGE_POTENTIAL] = "Short Range Potential"; |
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Stats::title_[VANDERWAALS_POTENTIAL] = "van der waals Potential"; |
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Stats::title_[ELECTROSTATIC_POTENTIAL] = "Electrostatic Potential"; |
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Stats::title_[BOND_POTENTIAL] = "Bond Potential"; |
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Stats::title_[BEND_POTENTIAL] = "Bend Potential"; |
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Stats::title_[DIHEDRAL_POTENTIAL] = "Dihedral Potential"; |
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Stats::title_[IMPROPER_POTENTIAL] = "Improper Potential"; |
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Stats::title_[VRAW] = "Raw Potential"; |
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Stats::title_[VHARM] = "Harmonic Potential"; |
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Stats::title_[PRESSURE_TENSOR_X] = "pressure tensor x"; |
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Stats::title_[PRESSURE_TENSOR_Y] = "pressure tensor y"; |
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Stats::title_[PRESSURE_TENSOR_Z] = "pressure tensor z"; |
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Stats::title_[BOX_DIPOLE_X] = "box dipole x"; |
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Stats::title_[BOX_DIPOLE_Y] = "box dipole y"; |
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Stats::title_[BOX_DIPOLE_Z] = "box dipole z"; |
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Stats::units_[TIME] = "fs"; |
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Stats::units_[TOTAL_ENERGY] = "kcal/mol"; |
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Stats::units_[LONG_RANGE_POTENTIAL] = "kcal/mol"; |
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Stats::units_[SHORT_RANGE_POTENTIAL] = "kcal/mol"; |
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Stats::units_[VANDERWAALS_POTENTIAL] = "kcal/mol"; |
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Stats::units_[ELECTROSTATIC_POTENTIAL] = "kcal/mol"; |
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Stats::units_[BOND_POTENTIAL] = "kcal/mol"; |
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Stats::units_[BEND_POTENTIAL] = "kcal/mol"; |
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Stats::units_[DIHEDRAL_POTENTIAL] = "kcal/mol"; |
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Stats::units_[IMPROPER_POTENTIAL] = "kcal/mol"; |
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Stats::units_[VRAW] = "kcal/mol"; |
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Stats::units_[VHARM] = "kcal/mol"; |
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} |
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Stats::units_[PRESSURE_TENSOR_X] = "amu*fs^-2*Ang^-1"; |
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Stats::units_[PRESSURE_TENSOR_Y] = "amu*fs^-2*Ang^-1"; |
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Stats::units_[PRESSURE_TENSOR_Z] = "amu*fs^-2*Ang^-1"; |
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Stats::units_[BOX_DIPOLE_X] = "C*m"; |
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Stats::units_[BOX_DIPOLE_Y] = "C*m"; |
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Stats::units_[BOX_DIPOLE_Z] = "C*m"; |
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Stats::statsMap.insert(StatsMapType::value_type("TIME", TIME)); |
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Stats::statsMap.insert(StatsMapType::value_type("TOTAL_ENERGY", TOTAL_ENERGY)); |
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Stats::statsMap.insert(StatsMapType::value_type("POTENTIAL_ENERGY", POTENTIAL_ENERGY)); |
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Stats::statsMap.insert(StatsMapType::value_type("KINETIC_ENERGY", KINETIC_ENERGY)); |
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Stats::statsMap.insert(StatsMapType::value_type("TEMPERATURE", TEMPERATURE)); |
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Stats::statsMap.insert(StatsMapType::value_type("PRESSURE", PRESSURE)); |
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Stats::statsMap.insert(StatsMapType::value_type("VOLUME", VOLUME)); |
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Stats::statsMap.insert(StatsMapType::value_type("CONSERVED_QUANTITY", CONSERVED_QUANTITY)); |
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Stats::statsMap.insert(StatsMapType::value_type("TRANSLATIONAL_KINETIC", TRANSLATIONAL_KINETIC)); |
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Stats::statsMap.insert(StatsMapType::value_type("ROTATIONAL_KINETIC", ROTATIONAL_KINETIC)); |
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Stats::statsMap.insert(StatsMapType::value_type("LONG_RANGE_POTENTIAL", LONG_RANGE_POTENTIAL)); |
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Stats::statsMap.insert(StatsMapType::value_type("SHORT_RANGE_POTENTIAL", SHORT_RANGE_POTENTIAL)); |
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Stats::statsMap.insert(StatsMapType::value_type("VANDERWAALS_POTENTIAL", VANDERWAALS_POTENTIAL)); |
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Stats::statsMap.insert(StatsMapType::value_type("ELECTROSTATIC_POTENTIAL", ELECTROSTATIC_POTENTIAL)); |
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Stats::statsMap.insert(StatsMapType::value_type("BOND_POTENTIAL", BOND_POTENTIAL)); |
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Stats::statsMap.insert(StatsMapType::value_type("BEND_POTENTIAL", BEND_POTENTIAL)); |
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Stats::statsMap.insert(StatsMapType::value_type("DIHEDRAL_POTENTIAL", DIHEDRAL_POTENTIAL)); |
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Stats::statsMap.insert(StatsMapType::value_type("IMPROPER_POTENTIAL", IMPROPER_POTENTIAL)); |
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Stats::statsMap.insert(StatsMapType::value_type("VRAW", VRAW)); |
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Stats::statsMap.insert(StatsMapType::value_type("VHARM", VHARM)); |
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Stats::statsMap.insert(StatsMapType::value_type("PRESSURE_TENSOR_X", PRESSURE_TENSOR_X)); |
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Stats::statsMap.insert(StatsMapType::value_type("PRESSURE_TENSOR_Y", PRESSURE_TENSOR_Y)); |
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Stats::statsMap.insert(StatsMapType::value_type("PRESSURE_TENSOR_Z", PRESSURE_TENSOR_Z)); |
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Stats::statsMap.insert(StatsMapType::value_type("BOX_DIPOLE_X", BOX_DIPOLE_X)); |
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Stats::statsMap.insert(StatsMapType::value_type("BOX_DIPOLE_Y", BOX_DIPOLE_Y)); |
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Stats::statsMap.insert(StatsMapType::value_type("BOX_DIPOLE_Z", BOX_DIPOLE_Z)); |
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} |
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} |
