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#include "Thermo.hpp" |
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#include "ReadWrite.hpp" |
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const double kB = 8.31451e-7;// boltzmann constant amu*Ang^2*fs^-2/K |
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const double eConvert = 4.184e-4; // converts kcal/mol -> amu*A^2/fs^2 |
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const int maxIteration = 300; |
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const double tol = 1.0e-6; |
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class Integrator : public BaseIntegrator { |
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public: |
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Symplectic( SimInfo &theInfo, ForceFields* the_ff ); |
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virtual ~Symplectic(); |
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Integrator( SimInfo *theInfo, ForceFields* the_ff ); |
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virtual ~Integrator(); |
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void integrate( void ); |
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protected: |
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virtual void integrateStep( int calcPot, int calcStress ); |
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virtual void preMove( void ); |
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virtual void moveA( void ); |
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virtual void moveB( void ); |
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virtual void constrainA( void ); |
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virtual void constrainB( void ); |
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virtual int readyCheck( void ) { return 1; } |
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void checkConstraints( void ); |
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void rotate( int axes1, int axes2, double angle, double j[3], |
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double A[3][3] ); |
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double A[9] ); |
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ForceFields* myFF; |
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SimInfo *info; // all the info we'll ever need |
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int nAtoms; /* the number of atoms */ |
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int oldAtoms; |
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Atom **atoms; /* array of atom pointers */ |
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Molecule* molecules; |
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int nMols; |
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int isConstrained; /*boolean to know whether the systems contains |
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constraints. */ |
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int nConstrained; /*counter for number of constraints */ |
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int *constrainedI; /* the i of a constraint pair */ |
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int *constrainedJ; /* the j of a constraint pair */ |
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double *constrainedDsqr; /* the square of the constraint distance */ |
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int isConstrained; // boolean to know whether the systems contains |
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// constraints. |
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int nConstrained; // counter for number of constraints |
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int *constrainedA; // the i of a constraint pair |
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int *constrainedB; // the j of a constraint pair |
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double *constrainedDsqr; // the square of the constraint distance |
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int* moving; // tells whether we are moving atom i |
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int* moved; // tells whether we have moved atom i |
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double* oldPos; // pre constrained positions |
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short isFirst; /*boolean for the first time integrate is called */ |
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double dt; |
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double dt2; |
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const double eConvert = 4.184e-4; // converts kcal/mol -> amu*A^2/fs^2 |
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double* pos; |
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double* vel; |
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double* frc; |
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double* trq; |
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double* Amat; |
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Thermo *tStats; |
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StatWriter* statOut; |
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DumpWriter* dumpOut; |
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}; |
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class NVE : public Integrator{ |
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public: |
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NVE ( SimInfo *theInfo, ForceFields* the_ff ): |
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Integrator( theInfo, the_ff ){} |
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virtual ~NVE(){} |
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}; |
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class NVT : public Integrator{ |
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NVT ( void ); |
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virtual ~NVT(); |
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public: |
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NVT ( SimInfo *theInfo, ForceFields* the_ff); |
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virtual ~NVT() {} |
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void setTauThermostat(double tt) {tauThermostat = tt; have_tau_thermostat=1;} |
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void setTargetTemp(double tt) {targetTemp = tt; have_target_temp = 1;} |
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protected: |
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virtual moveA( void ); |
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virtual moveB( void ); |
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}; |
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virtual void moveA( void ); |
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virtual void moveB( void ); |
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virtual int readyCheck(); |
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// chi is a propagated degree of freedom. |
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double chi; |
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// targetTemp must be set. tauThermostat must also be set; |
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double targetTemp; |
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double tauThermostat; |
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short int have_tau_thermostat, have_target_temp; |
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}; |
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class NPTi : public Integrator{ |
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public: |
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NPTi ( SimInfo *theInfo, ForceFields* the_ff); |
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virtual ~NPTi() {}; |
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void setTauThermostat(double tt) {tauThermostat = tt; have_tau_thermostat=1;} |
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void setTauBarostat(double tb) {tauBarostat = tb; have_tau_barostat=1;} |
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void setTargetTemp(double tt) {targetTemp = tt; have_target_temp = 1;} |
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void setTargetPressure(double tp) {targetPressure = tp; have_target_pressure = 1;} |
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protected: |
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virtual void moveA( void ); |
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virtual void moveB( void ); |
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virtual int readyCheck(); |
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// chi and eta are the propagated degrees of freedom |
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double chi; |
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double eta; |
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double NkBT; |
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// targetTemp, targetPressure, and tauBarostat must be set. |
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// One of qmass or tauThermostat must be set; |
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double targetTemp; |
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double targetPressure; |
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double tauThermostat; |
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double tauBarostat; |
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short int have_tau_thermostat, have_tau_barostat, have_target_temp; |
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short int have_target_pressure; |
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}; |
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#endif |