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Commit 01199ddc authored by Mark Friedrichs's avatar Mark Friedrichs
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Name changes and minor mods to sync w/ new interface

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platforms/brook/src/BrookCalcPeriodicTorsionForceKernel.cpp 0 → 100644
View file @ 01199ddc
/* -------------------------------------------------------------------------- *
* OpenMM *
* -------------------------------------------------------------------------- *
* This is part of the OpenMM molecular simulation toolkit originating from *
* Simbios, the NIH National Center for Physics-Based Simulation of *
* Biological Structures at Stanford, funded under the NIH Roadmap for *
* Medical Research, grant U54 GM072970. See https://simtk.org. *
* *
* Portions copyright (c) 2008 Stanford University and the Authors. *
* Authors: Peter Eastman, Mark Friedrichs *
* Contributors: *
* *
* Permission is hereby granted, free of charge, to any person obtaining a *
* copy of this software and associated documentation files (the "Software"), *
* to deal in the Software without restriction, including without limitation *
* the rights to use, copy, modify, merge, publish, distribute, sublicense, *
* and/or sell copies of the Software, and to permit persons to whom the *
* Software is furnished to do so, subject to the following conditions: *
* *
* The above copyright notice and this permission notice shall be included in *
* all copies or substantial portions of the Software. *
* *
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR *
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, *
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL *
* THE AUTHORS, CONTRIBUTORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, *
* DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR *
* OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE *
* USE OR OTHER DEALINGS IN THE SOFTWARE. *
* -------------------------------------------------------------------------- */
#include "OpenMMException.h"
#include <sstream>
#include "BrookCalcPeriodicTorsionForceKernel.h"
using namespace OpenMM;
using namespace std;
const std::string BrookCalcPeriodicTorsionForceKernel::BondName = "ProperDihedral";
/**
* BrookCalcPeriodicTorsionForceKernel constructor
*
* @param name kernel name
* @param platform platform
* @param OpenMMBrookInterface OpenMM-Brook interface
* @param System System reference
*
*/
BrookCalcPeriodicTorsionForceKernel::BrookCalcPeriodicTorsionForceKernel( std::string name, const Platform& platform,
OpenMMBrookInterface& openMMBrookInterface, System& system ) :
CalcPeriodicTorsionForceKernel( name, platform ), _openMMBrookInterface( openMMBrookInterface ), _system( system ){
// ---------------------------------------------------------------------------------------
// static const std::string methodName = "BrookCalcPeriodicTorsionForceKernel::BrookCalcPeriodicTorsionForceKernel";
// static const int debug = 1;
// ---------------------------------------------------------------------------------------
_brookBondParameters = NULL;
_log = NULL;
const BrookPlatform brookPlatform = dynamic_cast<const BrookPlatform&> (platform);
if( brookPlatform.getLog() != NULL ){
setLog( brookPlatform.getLog() );
}
}
/**
* BrookCalcPeriodicTorsionForceKernel destructor
*
*/
BrookCalcPeriodicTorsionForceKernel::~BrookCalcPeriodicTorsionForceKernel( ){
// ---------------------------------------------------------------------------------------
// static const std::string methodName = "BrookCalcPeriodicTorsionForceKernel::BrookCalcPeriodicTorsionForceKernel";
// static const int debug = 1;
// ---------------------------------------------------------------------------------------
delete _brookBondParameters;
}
/**
* Get log file reference
*
* @return log file reference
*
*/
FILE* BrookCalcPeriodicTorsionForceKernel::getLog( void ) const {
return _log;
}
/**
* Set log file reference
*
* @param log file reference
*
* @return DefaultReturnValue
*
*/
int BrookCalcPeriodicTorsionForceKernel::setLog( FILE* log ){
_log = log;
return BrookCommon::DefaultReturnValue;
}
/**
* Initialize the kernel, setting up the values of all the force field parameters.
*
* @param system System reference
* @param force ProperDihedralForce reference
*
*/
void BrookCalcPeriodicTorsionForceKernel::initialize( const System& system, const PeriodicTorsionForce& force ){
// ---------------------------------------------------------------------------------------
static const std::string methodName = "BrookCalcPeriodicTorsionForceKernel::initialize";
// ---------------------------------------------------------------------------------------
FILE* log = getLog();
// ---------------------------------------------------------------------------------------
// create _brookBondParameters object containing atom indices/parameters
int numberOfBonds = force.getNumTorsions();
if( _brookBondParameters ){
delete _brookBondParameters;
}
_brookBondParameters = new BrookBondParameters( BondName, NumberOfAtomsInBond, NumberOfParametersInBond, numberOfBonds, getLog() );
for( int ii = 0; ii < numberOfBonds; ii++ ){
int particle1, particle2, particle3, particle4, periodicity;
double phase, k;
int particles[NumberOfAtomsInBond];
double parameters[NumberOfParametersInBond];
force.getTorsionParameters( ii, particle1, particle2, particle3, particle4, periodicity, phase, k );
particles[0] = particle1;
particles[1] = particle2;
particles[2] = particle3;
particles[3] = particle4;
parameters[0] = (double) periodicity;
parameters[1] = phase;
parameters[2] = k;
_brookBondParameters->setBond( ii, particles, parameters );
}
_openMMBrookInterface.setPeriodicTorsionForceParameters( _brookBondParameters );
_openMMBrookInterface.setTriggerForceKernel( this );
_openMMBrookInterface.setTriggerEnergyKernel( this );
if( log ){
std::string contents = _brookBondParameters->getContentsString( );
(void) fprintf( log, "%s brookGbsa::contents\n%s", methodName.c_str(), contents.c_str() );
(void) fflush( log );
}
// ---------------------------------------------------------------------------------------
}
/**
* Compute forces given atom coordinates
*
* @param context OpenMMContextImpl context
*
*/
void BrookCalcPeriodicTorsionForceKernel::executeForces( OpenMMContextImpl& context ){
// ---------------------------------------------------------------------------------------
//static const std::string methodName = "BrookCalcPeriodicTorsionForceKernel::executeForces";
// ---------------------------------------------------------------------------------------
if( _openMMBrookInterface.getTriggerForceKernel() == this ){
_openMMBrookInterface.computeForces( context );
}
return;
// ---------------------------------------------------------------------------------------
}
/**
* Execute the kernel to calculate the energy
*
* @param context OpenMMContextImpl context
*
* @return potential energy
*
*/
double BrookCalcPeriodicTorsionForceKernel::executeEnergy( OpenMMContextImpl& context ){
// ---------------------------------------------------------------------------------------
//static const std::string methodName = "BrookCalcPeriodicTorsionForceKernel::executeEnergy";
// ---------------------------------------------------------------------------------------
if( _openMMBrookInterface.getTriggerEnergyKernel() == this ){
return (double) _openMMBrookInterface.computeEnergy( context );
} else {
return 0.0;
}
}
platforms/brook/src/BrookCalcPeriodicTorsionForceKernel.h 0 → 100644
View file @ 01199ddc
#ifndef OPENMM_BROOK_CALC_PROPER_DIHEDRAL_FORCE_KERNEL_H_
#define OPENMM_BROOK_CALC_PROPER_DIHEDRAL_FORCE_KERNEL_H_
/* -------------------------------------------------------------------------- *
* OpenMM *
* -------------------------------------------------------------------------- *
* This is part of the OpenMM molecular simulation toolkit originating from *
* Simbios, the NIH National Center for Physics-Based Simulation of *
* Biological Structures at Stanford, funded under the NIH Roadmap for *
* Medical Research, grant U54 GM072970. See https://simtk.org. *
* *
* Portions copyright (c) 2008 Stanford University and the Authors. *
* Authors: Peter Eastman, Mark Friedrichs *
* Contributors: *
* *
* Permission is hereby granted, free of charge, to any person obtaining a *
* copy of this software and associated documentation files (the "Software"), *
* to deal in the Software without restriction, including without limitation *
* the rights to use, copy, modify, merge, publish, distribute, sublicense, *
* and/or sell copies of the Software, and to permit persons to whom the *
* Software is furnished to do so, subject to the following conditions: *
* *
* The above copyright notice and this permission notice shall be included in *
* all copies or substantial portions of the Software. *
* *
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR *
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, *
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL *
* THE AUTHORS, CONTRIBUTORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, *
* DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR *
* OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE *
* USE OR OTHER DEALINGS IN THE SOFTWARE. *
* -------------------------------------------------------------------------- */
#include "kernels.h"
#include "BrookPlatform.h"
#include "BrookBondParameters.h"
#include "OpenMMBrookInterface.h"
namespace OpenMM {
/**
* This kernel is invoked to calculate the periodic torsion forces acting on the system.
*/
class BrookCalcPeriodicTorsionForceKernel : public CalcPeriodicTorsionForceKernel {
public:
/**
* BrookCalcPeriodicTorsionForceKernel constructor
*/
BrookCalcPeriodicTorsionForceKernel( std::string name, const Platform& platform, OpenMMBrookInterface& openMMBrookInterface, System& system );
/**
* BrookCalcPeriodicTorsionForceKernel destructor
*/
~BrookCalcPeriodicTorsionForceKernel();
/**
* Initialize the kernel, setting up the values to calculate harmonic bond force & energy
*
* @param system System reference
* @param force ProperDihedralForce reference
*
*/
void initialize( const System& system, const PeriodicTorsionForce& force );
/**
* Execute the kernel to calculate the forces.
*
* @param positions atom coordiantes
* @param forces output forces
*
*/
void executeForces( OpenMMContextImpl& context );
/**
* Execute the kernel to calculate the energy.
*
* @param context the context in which to execute this kernel
*
* @return potential energy associated with the harmonic angle force
*
*/
double executeEnergy( OpenMMContextImpl& context );
/**
* Set log file reference
*
* @param log file reference
*
* @return DefaultReturnValue
*
*/
int setLog( FILE* log );
/*
* Get contents of object
*
* @param level of dump
*
* @return string containing contents
*
* */
std::string getContents( int level ) const;
/**
* Get log file reference
*
* @return log file reference
*
*/
FILE* getLog( void ) const;
/**
* Get number of bonds
*
* @return number of bonds
*
*/
int getNumberOfBonds( void ) const;
/**
* Get indices/parameters
*
* @return BrookBondParameters containing atom indices/parameters
*
*/
BrookBondParameters* getBrookBondParameters( void ) const;
private:
static const int NumberOfAtomsInBond = 4;
static const int NumberOfParametersInBond = 3;
// bond name
static const std::string BondName;
// log file reference
FILE* _log;
// Brook bond parameters
BrookBondParameters* _brookBondParameters;
// interface
OpenMMBrookInterface& _openMMBrookInterface;
// System reference
System& _system;
};
} // namespace OpenMM
#endif /* OPENMM_BROOK_CALC_PROPER_DIHEDRAL_FORCE_KERNEL_H_ */
platforms/brook/src/BrookCalcRBTorsionForceKernel.cpp 0 → 100644
View file @ 01199ddc
/* -------------------------------------------------------------------------- *
* OpenMM *
* -------------------------------------------------------------------------- *
* This is part of the OpenMM molecular simulation toolkit originating from *
* Simbios, the NIH National Center for Physics-Based Simulation of *
* Biological Structures at Stanford, funded under the NIH Roadmap for *
* Medical Research, grant U54 GM072970. See https://simtk.org. *
* *
* Portions copyright (c) 2008 Stanford University and the Authors. *
* Authors: Peter Eastman, Mark Friedrichs *
* Contributors: *
* *
* Permission is hereby granted, free of charge, to any person obtaining a *
* copy of this software and associated documentation files (the "Software"), *
* to deal in the Software without restriction, including without limitation *
* the rights to use, copy, modify, merge, publish, distribute, sublicense, *
* and/or sell copies of the Software, and to permit persons to whom the *
* Software is furnished to do so, subject to the following conditions: *
* *
* The above copyright notice and this permission notice shall be included in *
* all copies or substantial portions of the Software. *
* *
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR *
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, *
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL *
* THE AUTHORS, CONTRIBUTORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, *
* DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR *
* OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE *
* USE OR OTHER DEALINGS IN THE SOFTWARE. *
* -------------------------------------------------------------------------- */
#include "OpenMMException.h"
#include <sstream>
#include "BrookCalcRBTorsionForceKernel.h"
using namespace OpenMM;
using namespace std;
const std::string BrookCalcRBTorsionForceKernel::BondName = "RbDihedral";
/**
* BrookCalcRBTorsionForceKernel constructor
*
* @param name kernel name
* @param platform platform
* @param OpenMMBrookInterface OpenMM-Brook interface
* @param System System reference
*
*/
BrookCalcRBTorsionForceKernel::BrookCalcRBTorsionForceKernel( std::string name, const Platform& platform,
OpenMMBrookInterface& openMMBrookInterface, System& system ) :
CalcRBTorsionForceKernel( name, platform ), _openMMBrookInterface( openMMBrookInterface ), _system( system ){
// ---------------------------------------------------------------------------------------
// static const std::string methodName = "BrookCalcRBTorsionForceKernel::BrookCalcRBTorsionForceKernel";
// static const int debug = 1;
// ---------------------------------------------------------------------------------------
_brookBondParameters = NULL;
_log = NULL;
const BrookPlatform brookPlatform = dynamic_cast<const BrookPlatform&> (platform);
if( brookPlatform.getLog() != NULL ){
setLog( brookPlatform.getLog() );
}
}
/**
* BrookCalcRBTorsionForceKernel destructor
*
*/
BrookCalcRBTorsionForceKernel::~BrookCalcRBTorsionForceKernel( ){
// ---------------------------------------------------------------------------------------
// static const std::string methodName = "BrookCalcRBTorsionForceKernel::BrookCalcRBTorsionForceKernel";
// static const int debug = 1;
// ---------------------------------------------------------------------------------------
delete _brookBondParameters;
}
/**
* Get log file reference
*
* @return log file reference
*
*/
FILE* BrookCalcRBTorsionForceKernel::getLog( void ) const {
return _log;
}
/**
* Set log file reference
*
* @param log file reference
*
* @return DefaultReturnValue
*
*/
int BrookCalcRBTorsionForceKernel::setLog( FILE* log ){
_log = log;
return BrookCommon::DefaultReturnValue;
}
/**
* Initialize the kernel, setting up the values of all the force field parameters.
*
* @param system System reference
* @param force RbDihedralForce reference
*
*/
void BrookCalcRBTorsionForceKernel::initialize( const System& system, const RBTorsionForce& force ){
// ---------------------------------------------------------------------------------------
static const std::string methodName = "BrookCalcRBTorsionForceKernel::initialize";
// ---------------------------------------------------------------------------------------
FILE* log = getLog();
// ---------------------------------------------------------------------------------------
// create _brookBondParameters object containing atom indices/parameters
int numberOfBonds = force.getNumTorsions();
if( _brookBondParameters ){
delete _brookBondParameters;
}
_brookBondParameters = new BrookBondParameters( BondName, NumberOfAtomsInBond, NumberOfParametersInBond, numberOfBonds, getLog() );
for( int ii = 0; ii < numberOfBonds; ii++ ){
int particle1, particle2, particle3, particle4;
double c0, c1, c2, c3, c4, c5;
int particles[NumberOfAtomsInBond];
double parameters[NumberOfParametersInBond];
force.getTorsionParameters( ii, particle1, particle2, particle3, particle4, c0, c1, c2, c3, c4, c5 );
particles[0] = particle1;
particles[1] = particle2;
particles[2] = particle3;
particles[3] = particle4;
parameters[0] = c0;
parameters[1] = c1;
parameters[2] = c2;
parameters[3] = c3;
parameters[4] = c4;
parameters[5] = c5;
_brookBondParameters->setBond( ii, particles, parameters );
}
_openMMBrookInterface.setRBTorsionForceParameters( _brookBondParameters );
_openMMBrookInterface.setTriggerForceKernel( this );
_openMMBrookInterface.setTriggerEnergyKernel( this );
if( log ){
std::string contents = _brookBondParameters->getContentsString( );
(void) fprintf( log, "%s brookGbsa::contents\n%s", methodName.c_str(), contents.c_str() );
(void) fflush( log );
}
// ---------------------------------------------------------------------------------------
}
/**
* Compute forces given atom coordinates
*
* @param context OpenMMContextImpl context
*
*/
void BrookCalcRBTorsionForceKernel::executeForces( OpenMMContextImpl& context ){
// ---------------------------------------------------------------------------------------
//static const std::string methodName = "BrookCalcRBTorsionForceKernel::executeForces";
// ---------------------------------------------------------------------------------------
if( _openMMBrookInterface.getTriggerForceKernel() == this ){
_openMMBrookInterface.computeForces( context );
}
return;
// ---------------------------------------------------------------------------------------
}
/**
* Execute the kernel to calculate the energy
*
* @param context OpenMMContextImpl context
*
* @return potential energy
*
*/
double BrookCalcRBTorsionForceKernel::executeEnergy( OpenMMContextImpl& context ){
// ---------------------------------------------------------------------------------------
//static const std::string methodName = "BrookCalcRBTorsionForceKernel::executeEnergy";
// ---------------------------------------------------------------------------------------
if( _openMMBrookInterface.getTriggerEnergyKernel() == this ){
return (double) _openMMBrookInterface.computeEnergy( context );
} else {
return 0.0;
}
}
platforms/brook/src/BrookCalcRBTorsionForceKernel.h 0 → 100644
View file @ 01199ddc
#ifndef OPENMM_BROOK_CALC_RB_TORSION_FORCE_KERNEL_H_
#define OPENMM_BROOK_CALC_RB_TORSION_FORCE_KERNEL_H_
/* -------------------------------------------------------------------------- *
* OpenMM *
* -------------------------------------------------------------------------- *
* This is part of the OpenMM molecular simulation toolkit originating from *
* Simbios, the NIH National Center for Physics-Based Simulation of *
* Biological Structures at Stanford, funded under the NIH Roadmap for *
* Medical Research, grant U54 GM072970. See https://simtk.org. *
* *
* Portions copyright (c) 2008 Stanford University and the Authors. *
* Authors: Peter Eastman, Mark Friedrichs *
* Contributors: *
* *
* Permission is hereby granted, free of charge, to any person obtaining a *
* copy of this software and associated documentation files (the "Software"), *
* to deal in the Software without restriction, including without limitation *
* the rights to use, copy, modify, merge, publish, distribute, sublicense, *
* and/or sell copies of the Software, and to permit persons to whom the *
* Software is furnished to do so, subject to the following conditions: *
* *
* The above copyright notice and this permission notice shall be included in *
* all copies or substantial portions of the Software. *
* *
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR *
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, *
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL *
* THE AUTHORS, CONTRIBUTORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, *
* DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR *
* OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE *
* USE OR OTHER DEALINGS IN THE SOFTWARE. *
* -------------------------------------------------------------------------- */
#include "kernels.h"
#include "BrookPlatform.h"
#include "BrookBondParameters.h"
#include "OpenMMBrookInterface.h"
namespace OpenMM {
/**
* This kernel is invoked to calculate the RB torsion forces acting on the system.
*/
class BrookCalcRBTorsionForceKernel : public CalcRBTorsionForceKernel {
public:
/**
* BrookCalcRBTorsionForceKernel constructor
*/
BrookCalcRBTorsionForceKernel( std::string name, const Platform& platform, OpenMMBrookInterface& openMMBrookInterface, System& system );
/**
* BrookCalcRBTorsionForceKernel destructor
*/
~BrookCalcRBTorsionForceKernel();
/**
* Initialize the kernel, setting up the values to calculate harmonic bond force & energy
*
* @param system System reference
* @param force RbDihedralForce reference
*
*/
void initialize( const System& system, const RBTorsionForce& force );
/**
* Execute the kernel to calculate the forces.
*
* @param positions atom coordiantes
* @param forces output forces
*
*/
void executeForces( OpenMMContextImpl& context );
/**
* Execute the kernel to calculate the energy.
*
* @param context the context in which to execute this kernel
*
* @return potential energy associated with the harmonic angle force
*
*/
double executeEnergy( OpenMMContextImpl& context );
/**
* Set log file reference
*
* @param log file reference
*
* @return DefaultReturnValue
*
*/
int setLog( FILE* log );
/*
* Get contents of object
*
* @param level of dump
*
* @return string containing contents
*
* */
std::string getContents( int level ) const;
/**
* Get log file reference
*
* @return log file reference
*
*/
FILE* getLog( void ) const;
/**
* Get number of bonds
*
* @return number of bonds
*
*/
int getNumberOfBonds( void ) const;
/**
* Get indices/parameters
*
* @return BrookBondParameters containing atom indices/parameters
*
*/
BrookBondParameters* getBrookBondParameters( void ) const;
private:
static const int NumberOfAtomsInBond = 4;
static const int NumberOfParametersInBond = 6;
// bond name
static const std::string BondName;
// log file reference
FILE* _log;
// Brook bond parameters
BrookBondParameters* _brookBondParameters;
// interface
OpenMMBrookInterface& _openMMBrookInterface;
// System reference
System& _system;
};
} // namespace OpenMM
#endif /* OPENMM_BROOK_CALC_RB_TORSION_FORCE_KERNEL_H_ */
platforms/brook/src/OpenMMBrookInterface.cpp 0 → 100644
View file @ 01199ddc
/* -------------------------------------------------------------------------- *
* OpenMM *
* -------------------------------------------------------------------------- *
* This is part of the OpenMM molecular simulation toolkit originating from *
* Simbios, the NIH National Center for Physics-Based Simulation of *
* Biological Structures at Stanford, funded under the NIH Roadmap for *
* Medical Research, grant U54 GM072970. See https://simtk.org. *
* *
* Portions copyright (c) 2008 Stanford University and the Authors. *
* Authors: Peter Eastman, Mark Friedrichs *
* Contributors: *
* *
* Permission is hereby granted, free of charge, to any person obtaining a *
* copy of this software and associated documentation files (the "Software"), *
* to deal in the Software without restriction, including without limitation *
* the rights to use, copy, modify, merge, publish, distribute, sublicense, *
* and/or sell copies of the Software, and to permit persons to whom the *
* Software is furnished to do so, subject to the following conditions: *
* *
* The above copyright notice and this permission notice shall be included in *
* all copies or substantial portions of the Software. *
* *
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR *
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, *
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL *
* THE AUTHORS, CONTRIBUTORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, *
* DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR *
* OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE *
* USE OR OTHER DEALINGS IN THE SOFTWARE. *
* -------------------------------------------------------------------------- */
#include <cmath>
#include <limits>
#include "OpenMMException.h"
#include <sstream>
#include "BrookStreamImpl.h"
#include "OpenMMBrookInterface.h"
#include "gpu/kforce.h"
#include "gpu/kinvmap_gather.h"
#include "NonbondedForce.h"
using namespace OpenMM;
using namespace std;
/**
* OpenMMBrookInterface constructor
*
*/
OpenMMBrookInterface::OpenMMBrookInterface( void ){
// ---------------------------------------------------------------------------------------
// static const std::string methodName = "OpenMMBrookInterface::OpenMMBrookInterface";
// ---------------------------------------------------------------------------------------
_numberOfAtoms = 0;
_brookBonded = NULL;
_brookNonBonded = NULL;
_refForceField = NULL;
_log = NULL;
_refForceField = NULL;
_refSystem = NULL;
_refOpenMMContext = NULL;
_referencePlatform = NULL;
_refVerletIntegrator = NULL;
}
/**
* OpenMMBrookInterface destructor
*
*/
OpenMMBrookInterface::~OpenMMBrookInterface( ){
// ---------------------------------------------------------------------------------------
// static const std::string methodName = "OpenMMBrookInterface::OpenMMBrookInterface";
// ---------------------------------------------------------------------------------------
delete _brookBonded;
delete _brookNonBonded;
// deleted w/ kernel delete? If activated, program crashes
//delete _refForceField;
/*
delete _refSystem;
delete _refOpenMMContext;
delete _referencePlatform;
delete _refVerletIntegrator;
*/
}
/**
* Get log file reference
*
* @return log file reference
*
*/
FILE* OpenMMBrookInterface::getLog( void ) const {
return _log;
}
/**
* Set log file reference
*
* @param log file reference
*
* @return DefaultReturnValue
*
*/
int OpenMMBrookInterface::setLog( FILE* log ){
_log = log;
return BrookCommon::DefaultReturnValue;
}
/**
* Set BrookBondParameters at specified index
*
* @param index
* @param brookBondParameters brookBondParameters for BrookBondParameters
*
* @return DefaultReturnValue
*
*/
int OpenMMBrookInterface::_setBondParameters( BondParameterIndices index, BrookBondParameters* brookBondParameters ){
_bondParameters[index] = brookBondParameters;
return BrookCommon::DefaultReturnValue;
}
/**
* Set BrookBondParameters for harmonic bond force
*
* @param brookBondParameters brookBondParameters for harmonic bond force
*
* @return DefaultReturnValue
*
*/
int OpenMMBrookInterface::setHarmonicBondForceParameters( BrookBondParameters* brookBondParameters ){
return _setBondParameters( HarmonicAngleIndex, brookBondParameters );
}
/**
* Set BrookBondParameters for harmonic angle force
*
* @param brookBondParameters brookBondParameters for harmonic angle force
*
* @return DefaultReturnValue
*
*/
int OpenMMBrookInterface::setHarmonicAngleForceParameters( BrookBondParameters* brookBondParameters ){
return _setBondParameters( HarmonicAngleIndex, brookBondParameters );
}
/**
* Set BrookBondParameters for proper dihedral force
*
* @param brookBondParameters brookBondParameters for proper dihedral force
*
* @return DefaultReturnValue
*
*/
int OpenMMBrookInterface::setPeriodicTorsionForceParameters( BrookBondParameters* brookBondParameters ){
return _setBondParameters( PeriodicTorsionForceIndex, brookBondParameters );
}
/**
* Set BrookBondParameters for RB dihedral force
*
* @param brookBondParameters brookBondParameters for RB force
*
* @return DefaultReturnValue
*
*/
int OpenMMBrookInterface::setRBTorsionForceParameters( BrookBondParameters* brookBondParameters ){
return _setBondParameters( RbTorsionForceIndex, brookBondParameters );
}
/**
* Set BrookBondParameters for LJ 14 force
*
* @param brookBondParameters brookBondParameters for LJ 14 force
*
* @return DefaultReturnValue
*
*/
int OpenMMBrookInterface::setLJ14( BrookBondParameters* brookBondParameters ){
return _setBondParameters( LJ14Index, brookBondParameters );
}
/**
* Initialize the kernel, setting up the values of all the force field parameters.
*
* @param bondIndices the two atoms connected by each bond term
* @param bondParameters the force parameters (length, k) for each bond term
* @param angleIndices the three atoms connected by each angle term
* @param angleParameters the force parameters (angle, k) for each angle term
* @param periodicTorsionIndices the four atoms connected by each periodic torsion term
* @param periodicTorsionParameters the force parameters (k, phase, periodicity) for each periodic torsion term
* @param rbTorsionIndices the four atoms connected by each Ryckaert-Bellemans torsion term
* @param rbTorsionParameters the coefficients (in order of increasing powers) for each Ryckaert-Bellemans torsion term
* @param bonded14Indices each element contains the indices of two atoms whose nonbonded interactions should be reduced since
* they form a bonded 1-4 pair
* @param lj14Scale the factor by which van der Waals interactions should be reduced for bonded 1-4 pairs
* @param coulomb14Scale the factor by which Coulomb interactions should be reduced for bonded 1-4 pairs
* @param exclusions the i'th element lists the indices of all atoms with which the i'th atom should not interact through
* nonbonded forces. Bonded 1-4 pairs are also included in this list, since they should be omitted from
* the standard nonbonded calculation.
* @param nonbondedParameters the nonbonded force parameters (charge, sigma, epsilon) for each atom
* @param nonbondedMethod the method to use for handling long range nonbonded interactions
* @param nonbondedCutoff the cutoff distance for nonbonded interactions (if nonbondedMethod involves a cutoff)
* @param periodicBoxSize the size of the periodic box (if nonbondedMethod involves a periodic boundary conditions)
*/
void OpenMMBrookInterface::initialize(
const vector<vector<int> >& bondIndices, const vector<vector<double> >& bondParameters,
const vector<vector<int> >& angleIndices, const vector<vector<double> >& angleParameters,
const vector<vector<int> >& periodicTorsionIndices, const vector<vector<double> >& periodicTorsionParameters,
const vector<vector<int> >& rbTorsionIndices, const vector<vector<double> >& rbTorsionParameters,
const vector<vector<int> >& bonded14Indices, double lj14Scale, double coulomb14Scale,
const vector<set<int> >& exclusions, const vector<vector<double> >& nonbondedParameters,
//NonbondedMethod nonbondedMethod,
double nonbondedCutoff, double periodicBoxSize[3] ){
// ---------------------------------------------------------------------------------------
static const std::string methodName = "OpenMMBrookInterface::initialize";
// ---------------------------------------------------------------------------------------
FILE* log = getLog();
/*
_numberOfAtoms = nonbondedParameters.size();
// ---------------------------------------------------------------------------------------
// bonded
if( _brookBonded ){
delete _brookBonded;
}
_brookBonded = new BrookBonded();
_brookBonded->setLog( log );
_brookBonded->setup( _numberOfAtoms,
bondIndices, bondParameters,
angleIndices, angleParameters,
periodicTorsionIndices, periodicTorsionParameters,
rbTorsionIndices, rbTorsionParameters,
bonded14Indices, nonbondedParameters,
lj14Scale, coulomb14Scale, getPlatform() );
// echo contents
if( log ){
std::string contents = _brookBonded->getContentsString( );
(void) fprintf( log, "%s brookBonded::contents\n%s", methodName.c_str(), contents.c_str() );
(void) fflush( log );
}
// ---------------------------------------------------------------------------------------
// nonbonded
if( _brookNonBonded ){
delete _brookNonBonded;
}
_brookNonBonded = new BrookNonBonded();
_brookNonBonded->setLog( log );
_brookNonBonded->setup( _numberOfAtoms, nonbondedParameters, exclusions, getPlatform() );
// echo contents
if( log ){
std::string contents = _brookNonBonded->getContentsString( );
(void) fprintf( log, "%s brookNonBonded::contents\n%s", methodName.c_str(), contents.c_str() );
(void) fflush( log );
}
// ---------------------------------------------------------------------------------------
// used for calculating energy
_referenceCalcNonbondedForceKernel = new ReferenceCalcNonbondedForceKernel( getName(), getPlatform() );
_referenceCalcNonbondedForceKernel->initialize( bondIndices, bondParameters,
angleIndices, angleParameters,
periodicTorsionIndices, periodicTorsionParameters,
rbTorsionIndices, rbTorsionParameters,
bonded14Indices, lj14Scale, coulomb14Scale,
exclusions, nonbondedParameters,
nonbondedMethod, nonbondedCutoff, periodicBoxSize );
_refForceField = new NonbondedForce( _numberOfAtoms, bondIndices.size(), angleIndices.size(),
periodicTorsionIndices.size(), rbTorsionIndices.size() );
// bonds
vector<vector<int> >::const_iterator bondI_it = bondIndices.begin();
vector<vector<double> >::const_iterator bondP_it = bondParameters.begin();
for( unsigned int ii = 0; ii < bondIndices.size(); ii++, bondI_it++, bondP_it++ ){
const vector<int> bondInd = *bondI_it;
const vector<double> bondPrm = *bondP_it;
_refForceField->setBondParameters( ii, bondInd[0], bondInd[1], bondPrm[0], bondPrm[1] );
printf( "%s Bond: [%d %d] [%.5e %.5e ]\n", methodName.c_str(),
bondInd[0], bondInd[1], bondPrm[0], bondPrm[1] ); fflush( stdout );
}
// angles
vector<vector<int> >::const_iterator angleI_it = angleIndices.begin();
vector<vector<double> >::const_iterator angleP_it = angleParameters.begin();
for( unsigned int ii = 0; ii < angleIndices.size(); ii++, angleI_it++, angleP_it++ ){
const vector<int> angleInd = *angleI_it;
const vector<double> anglePrm = *angleP_it;
_refForceField->setAngleParameters( ii, angleInd[0], angleInd[1], angleInd[2], anglePrm[0], anglePrm[1] );
}
// periodicTorsions
vector<vector<int> >::const_iterator periodicTorsionI_it = periodicTorsionIndices.begin();
vector<vector<double> >::const_iterator periodicTorsionP_it = periodicTorsionParameters.begin();
for( unsigned int ii = 0; ii < periodicTorsionIndices.size(); ii++, periodicTorsionI_it++, periodicTorsionP_it++ ){
const vector<int> periodicTorsionInd = *periodicTorsionI_it;
const vector<double> periodicTorsionPrm = *periodicTorsionP_it;
_refForceField->setPeriodicTorsionParameters( ii, periodicTorsionInd[0], periodicTorsionInd[1], periodicTorsionInd[2], periodicTorsionInd[3],
(int) (periodicTorsionPrm[2] + 0.001), periodicTorsionPrm[1], periodicTorsionPrm[0] );
printf( "PeriodicTor: [%d %d %d %d] [%.5e %.5e %.5e]\n", periodicTorsionInd[0], periodicTorsionInd[1], periodicTorsionInd[2], periodicTorsionInd[3],
periodicTorsionPrm[2], periodicTorsionPrm[1], periodicTorsionPrm[0] ); fflush( stdout );
}
// rbTorsions
vector<vector<int> >::const_iterator rbTorsionI_it = rbTorsionIndices.begin();
vector<vector<double> >::const_iterator rbTorsionP_it = rbTorsionParameters.begin();
for( unsigned int ii = 0; ii < rbTorsionIndices.size(); ii++, rbTorsionI_it++, rbTorsionP_it++ ){
const vector<int> rbTorsionInd = *rbTorsionI_it;
const vector<double> rbTorsionPrm = *rbTorsionP_it;
_refForceField->setRBTorsionParameters( ii, rbTorsionInd[0], rbTorsionInd[1], rbTorsionInd[2], rbTorsionInd[3],
rbTorsionPrm[0], rbTorsionPrm[1], rbTorsionPrm[2], rbTorsionPrm[3],
rbTorsionPrm[4], rbTorsionPrm[5] );
*/
/*
printf( "RbTor: [%d %d %d %d] [%.5e %.5e %.5e %.5e %.5e %.5e]\n", rbTorsionInd[0], rbTorsionInd[1], rbTorsionInd[2], rbTorsionInd[3],
rbTorsionPrm[0], rbTorsionPrm[1], rbTorsionPrm[2], rbTorsionPrm[3], rbTorsionPrm[4], rbTorsionPrm[5] ); fflush( stdout );
}
*/
// nonbonded
/*
for( unsigned int ii = 0; ii < nonbondedParameters.size(); ii++ ){
vector<double> nonbondedParameterVector
= nonbondedParameters[ii];
double c6 = nonbondedParameterVector[1];
double c12 = nonbondedParameterVector[2];
double charge = nonbondedParameterVector[0];
// int index, double charge, double radius, double depth
_refForceField->setAtomParameters( ii, charge, c6, c12 );
}
*/
// ---------------------------------------------------------------------------------------
return;
}
/**
* Execute the kernel to calculate the bonded & nonbonded forces
*
* @param positions stream of type Double3 containing the position (x, y, z) of each atom
* @param forces stream of type Double3 containing the force (x, y, z) on each atom. On entry, this contains the forces that
* have been calculated so far. The kernel should add its own forces to the values already in the stream.
*/
void OpenMMBrookInterface::executeForces( const Stream& positions, Stream& forces ){
// ---------------------------------------------------------------------------------------
static const std::string methodName = "OpenMMBrookInterface::executeForces";
static const int I_Stream = 0;
static const int J_Stream = 1;
static const int K_Stream = 2;
static const int L_Stream = 3;
static const int PrintOn = 0;
static const int MaxErrorMessages = 2;
static int ErrorMessages = 0;
static const float4 dummyParameters( 0.0, 0.0, 0.0, 0.0 );
// static const int debug = 1;
// ---------------------------------------------------------------------------------------
const BrookStreamImpl& positionStreamC = dynamic_cast<const BrookStreamImpl&> (positions.getImpl());
BrookStreamImpl& positionStream = const_cast<BrookStreamImpl&> (positionStreamC);
BrookStreamImpl& forceStream = dynamic_cast<BrookStreamImpl&> (forces.getImpl());
// nonbonded forces
// added charge stream to knbforce_CDLJ4
// libs generated from ~/src/gmxgpu-nsqOpenMM
BrookFloatStreamInternal** nonbondedForceStreams = _brookNonBonded->getForceStreams();
float epsfac = 138.935485f;
knbforce_CDLJ4(
(float) _brookNonBonded->getNumberOfAtoms(),
(float) _brookNonBonded->getAtomSizeCeiling(),
(float) _brookNonBonded->getDuplicationFactor(),
(float) _brookNonBonded->getAtomStreamHeight( ),
(float) _brookNonBonded->getAtomStreamWidth( ),
(float) _brookNonBonded->getJStreamWidth( ),
(float) _brookNonBonded->getPartialForceStreamWidth( ),
epsfac,
dummyParameters,
positionStream.getBrookStream(),
_brookNonBonded->getChargeStream()->getBrookStream(),
_brookNonBonded->getOuterVdwStream()->getBrookStream(),
_brookNonBonded->getInnerSigmaStream()->getBrookStream(),
_brookNonBonded->getInnerEpsilonStream()->getBrookStream(),
_brookNonBonded->getExclusionStream()->getBrookStream(),
nonbondedForceStreams[0]->getBrookStream(),
nonbondedForceStreams[1]->getBrookStream(),
nonbondedForceStreams[2]->getBrookStream(),
nonbondedForceStreams[3]->getBrookStream()
);
/*
float zerof = 0.0f;
nonbondedForceStreams[0]->fillWithValue( &zerof );
nonbondedForceStreams[1]->fillWithValue( &zerof );
nonbondedForceStreams[2]->fillWithValue( &zerof );
nonbondedForceStreams[3]->fillWithValue( &zerof );
*/
// diagnostics
if( 1 && PrintOn ){
(void) fprintf( getLog(), "\nPost knbforce_CDLJ4: atoms=%6d ceiling=%3d dupFac=%3d", _brookNonBonded->getNumberOfAtoms(),
_brookNonBonded->getAtomSizeCeiling(),
_brookNonBonded->getDuplicationFactor() );
(void) fprintf( getLog(), "\n hght=%6d width=%3d jWid=%3d", _brookNonBonded->getAtomStreamHeight( ),
_brookNonBonded->getAtomStreamWidth( ),
_brookNonBonded->getJStreamWidth( ) );
(void) fprintf( getLog(), "\n pFrc=%6d eps=%12.5e\n", _brookNonBonded->getPartialForceStreamWidth( ), epsfac );
(void) fprintf( getLog(), "\nOuterVdwStreamd\n" );
_brookNonBonded->getOuterVdwStream()->printToFile( getLog() );
(void) fprintf( getLog(), "\nInnerSigmaStream\n" );
_brookNonBonded->getInnerSigmaStream()->printToFile( getLog() );
(void) fprintf( getLog(), "\nInnerEpsilonStream\n" );
_brookNonBonded->getInnerEpsilonStream()->printToFile( getLog() );
(void) fprintf( getLog(), "\nExclusionStream\n" );
_brookNonBonded->getExclusionStream()->printToFile( getLog() );
(void) fprintf( getLog(), "\nChargeStream\n" );
_brookNonBonded->getChargeStream()->printToFile( getLog() );
for( int ii = 0; ii < 4; ii++ ){
(void) fprintf( getLog(), "\nForce stream %d\n", ii );
nonbondedForceStreams[ii]->printToFile( getLog() );
}
}
// ---------------------------------------------------------------------------------------
// gather forces
kMergeFloat3_4_nobranch( (float) _brookNonBonded->getDuplicationFactor(),
(float) _brookNonBonded->getAtomStreamWidth(),
(float) _brookNonBonded->getPartialForceStreamWidth(),
(float) _brookNonBonded->getNumberOfAtoms(),
(float) _brookNonBonded->getAtomSizeCeiling(),
(float) _brookNonBonded->getOuterLoopUnroll(),
nonbondedForceStreams[0]->getBrookStream(),
nonbondedForceStreams[1]->getBrookStream(),
nonbondedForceStreams[2]->getBrookStream(),
nonbondedForceStreams[3]->getBrookStream(),
forceStream.getBrookStream() );
// diagnostics
if( 0 && PrintOn ){
(void) fprintf( getLog(), "\nNB forces" );
BrookStreamInternal* brookStreamInternalF = forceStream.getBrookStreamImpl();
brookStreamInternalF->printToFile( getLog() );
}
// ---------------------------------------------------------------------------------------
// bonded
epsfac = (float) (_brookBonded->getLJ_14Scale()*_brookBonded->getCoulombFactor());
float width = (float) (_brookBonded->getInverseMapStreamWidth());
// bonded forces
BrookFloatStreamInternal** bondedParameters = _brookBonded->getBondedParameterStreams();
BrookFloatStreamInternal** bondedForceStreams = _brookBonded->getBondedForceStreams();
BrookFloatStreamInternal** inverseStreamMaps[4];
inverseStreamMaps[0] = _brookBonded->getInverseStreamMapsStreams( 0 );
inverseStreamMaps[1] = _brookBonded->getInverseStreamMapsStreams( 1 );
inverseStreamMaps[2] = _brookBonded->getInverseStreamMapsStreams( 2 );
inverseStreamMaps[3] = _brookBonded->getInverseStreamMapsStreams( 3 );
kbonded_CDLJ( epsfac,
(float) bondedForceStreams[0]->getStreamWidth(),
dummyParameters,
positionStream.getBrookStream(),
_brookBonded->getChargeStream()->getBrookStream(),
_brookBonded->getAtomIndicesStream()->getBrookStream(),
bondedParameters[0]->getBrookStream(),
bondedParameters[1]->getBrookStream(),
bondedParameters[2]->getBrookStream(),
bondedParameters[3]->getBrookStream(),
bondedParameters[4]->getBrookStream(),
bondedForceStreams[0]->getBrookStream(),
bondedForceStreams[1]->getBrookStream(),
bondedForceStreams[2]->getBrookStream(),
bondedForceStreams[3]->getBrookStream() );
// diagnostics
if( 1 && PrintOn ){
int countPrintInvMap[4] = { 3, 5, 2, 4 };
(void) fprintf( getLog(), "\nPost kbonded_CDLJ: epsFac=%.6f %.6f %.6f", epsfac, _brookBonded->getLJ_14Scale(), _brookBonded->getCoulombFactor());
(void) fprintf( getLog(), "\nAtom indices stream\n" );
_brookBonded->getAtomIndicesStream()->printToFile( getLog() );
(void) fprintf( getLog(), "\nCharge stream\n" );
_brookBonded->getChargeStream()->printToFile( getLog() );
for( int ii = 0; ii < 5; ii++ ){
(void) fprintf( getLog(), "\nParam stream %d\n", ii );
bondedParameters[ii]->printToFile( getLog() );
}
for( int ii = 0; ii < 4; ii++ ){
(void) fprintf( getLog(), "\nForce stream %d\n", ii );
bondedForceStreams[ii]->printToFile( getLog() );
}
/*
(void) fprintf( getLog(), "\nNB1 forces" );
BrookStreamInternal* brookStreamInternalF = forceStream.getBrookStreamImpl();
brookStreamInternalF->printToFile( getLog() );
*/
(void) fprintf( getLog(), "\nInverse map streams -- K_Stream cnt=%d\n", _brookBonded->getInverseMapStreamCount( K_Stream ) );
for( int ii = 0; ii < 4; ii++ ){
for( int jj = 0; jj < countPrintInvMap[ii]; jj++ ){
(void) fprintf( getLog(), "\n Inverse map streams index=%d %d\n", ii, jj );
inverseStreamMaps[ii][jj]->printToFile( getLog() );
}
}
}
// gather forces
if( _brookBonded->getInverseMapStreamCount( I_Stream ) == 3 && _brookBonded->getInverseMapStreamCount( K_Stream ) == 3 ){
kinvmap_gather3_3( width,
inverseStreamMaps[I_Stream][0]->getBrookStream(),
inverseStreamMaps[I_Stream][1]->getBrookStream(),
inverseStreamMaps[I_Stream][2]->getBrookStream(),
bondedForceStreams[I_Stream]->getBrookStream(),
inverseStreamMaps[K_Stream][0]->getBrookStream(),
inverseStreamMaps[K_Stream][1]->getBrookStream(),
inverseStreamMaps[K_Stream][2]->getBrookStream(),
bondedForceStreams[K_Stream]->getBrookStream(),
forceStream.getBrookStream(), forceStream.getBrookStream() );
} else if( _brookBonded->getInverseMapStreamCount( I_Stream ) == 3 && _brookBonded->getInverseMapStreamCount( K_Stream ) == 4 ){
kinvmap_gather3_4( width,
inverseStreamMaps[I_Stream][0]->getBrookStream(),
inverseStreamMaps[I_Stream][1]->getBrookStream(),
inverseStreamMaps[I_Stream][2]->getBrookStream(),
bondedForceStreams[I_Stream]->getBrookStream(),
inverseStreamMaps[K_Stream][0]->getBrookStream(),
inverseStreamMaps[K_Stream][1]->getBrookStream(),
inverseStreamMaps[K_Stream][2]->getBrookStream(),
inverseStreamMaps[K_Stream][3]->getBrookStream(),
bondedForceStreams[K_Stream]->getBrookStream(),
forceStream.getBrookStream(), forceStream.getBrookStream() );
} else if( _brookBonded->getInverseMapStreamCount( I_Stream ) == 3 && _brookBonded->getInverseMapStreamCount( K_Stream ) == 5 ){
kinvmap_gather3_5( width,
inverseStreamMaps[I_Stream][0]->getBrookStream(),
inverseStreamMaps[I_Stream][1]->getBrookStream(),
inverseStreamMaps[I_Stream][2]->getBrookStream(),
bondedForceStreams[I_Stream]->getBrookStream(),
inverseStreamMaps[K_Stream][0]->getBrookStream(),
inverseStreamMaps[K_Stream][1]->getBrookStream(),
inverseStreamMaps[K_Stream][2]->getBrookStream(),
inverseStreamMaps[K_Stream][3]->getBrookStream(),
inverseStreamMaps[K_Stream][4]->getBrookStream(),
bondedForceStreams[K_Stream]->getBrookStream(),
forceStream.getBrookStream(), forceStream.getBrookStream() );
} else {
// case not handled -- throw an exception
if( _brookBonded->getLog() && ErrorMessages++ < MaxErrorMessages ){
(void) fprintf( _brookBonded->getLog(), "%s case: I-map=%d K-map=%d -- not handled.\n",
methodName.c_str(), _brookBonded->getInverseMapStreamCount( I_Stream ),
_brookBonded->getInverseMapStreamCount( K_Stream ) );
(void) fflush( _brookBonded->getLog() );
}
kinvmap_gather3_3( width,
inverseStreamMaps[I_Stream][0]->getBrookStream(),
inverseStreamMaps[I_Stream][1]->getBrookStream(),
inverseStreamMaps[I_Stream][2]->getBrookStream(),
bondedForceStreams[I_Stream]->getBrookStream(),
inverseStreamMaps[K_Stream][0]->getBrookStream(),
inverseStreamMaps[K_Stream][1]->getBrookStream(),
inverseStreamMaps[K_Stream][2]->getBrookStream(),
bondedForceStreams[K_Stream]->getBrookStream(),
forceStream.getBrookStream(), forceStream.getBrookStream() );
/*
std::stringstream message;
message << methodName << "I-maps=" << _brookBonded->getInverseMapStreamCount( I_Stream ) << " and " <<
"K-maps=" << _brookBonded->getInverseMapStreamCount( K_Stream ) << " not handled.";
throw OpenMMException( message.str() );
*/
}
// diagnostics
if( 0 && PrintOn ){
(void) fprintf( getLog(), "\nPost 3_4/3_5 && NB forces" );
BrookStreamInternal* brookStreamInternalF = forceStream.getBrookStreamImpl();
brookStreamInternalF->printToFile( getLog() );
}
if( _brookBonded->getInverseMapStreamCount( J_Stream ) == 5 && _brookBonded->getInverseMapStreamCount( L_Stream ) == 2 ){
kinvmap_gather5_2( width,
inverseStreamMaps[J_Stream][0]->getBrookStream(),
inverseStreamMaps[J_Stream][1]->getBrookStream(),
inverseStreamMaps[J_Stream][2]->getBrookStream(),
inverseStreamMaps[J_Stream][3]->getBrookStream(),
inverseStreamMaps[J_Stream][4]->getBrookStream(),
bondedForceStreams[J_Stream]->getBrookStream(),
inverseStreamMaps[L_Stream][0]->getBrookStream(),
inverseStreamMaps[L_Stream][1]->getBrookStream(),
bondedForceStreams[L_Stream]->getBrookStream(),
forceStream.getBrookStream(), forceStream.getBrookStream() );
} else {
// case not handled -- throw an exception
if( _brookBonded->getLog() && ErrorMessages++ < MaxErrorMessages ){
(void) fprintf( _brookBonded->getLog(), "%s case: J-map=%d L-map=%d -- not handled.\n",
methodName.c_str(), _brookBonded->getInverseMapStreamCount( J_Stream ),
_brookBonded->getInverseMapStreamCount( L_Stream ) );
(void) fflush( _brookBonded->getLog() );
}
kinvmap_gather5_2( width,
inverseStreamMaps[J_Stream][0]->getBrookStream(),
inverseStreamMaps[J_Stream][1]->getBrookStream(),
inverseStreamMaps[J_Stream][2]->getBrookStream(),
inverseStreamMaps[J_Stream][3]->getBrookStream(),
inverseStreamMaps[J_Stream][4]->getBrookStream(),
bondedForceStreams[J_Stream]->getBrookStream(),
inverseStreamMaps[L_Stream][0]->getBrookStream(),
inverseStreamMaps[L_Stream][1]->getBrookStream(),
bondedForceStreams[L_Stream]->getBrookStream(),
forceStream.getBrookStream(), forceStream.getBrookStream() );
/*
std::stringstream message;
message << methodName << "J-maps=" << _brookBonded->getInverseMapStreamCount( J_Stream ) << " and " <<
"L-maps=" << _brookBonded->getInverseMapStreamCount( L_Stream ) << " not handled.";
throw OpenMMException( message.str() );
*/
}
// diagnostics
if( 1 && PrintOn ){
(void) fprintf( getLog(), "\nFinal NB & bonded forces" );
BrookStreamInternal* brookStreamInternalF = forceStream.getBrookStreamImpl();
brookStreamInternalF->printToFile( getLog() );
/*
void* dataV = brookStreamInternalF->getData(1);
float* data = (float*) dataV;
(void) fprintf( getLog(), "\nFinal NB & bonded forces RAW\n" );
for( int ii = 0; ii < _brookNonBonded->getNumberOfAtoms()*3; ii += 3 ){
(void) fprintf( getLog(), "%d [%.6e %.6e %.6e]\n", ii, data[ii], data[ii+1], data[ii+2] );
}
*/
}
// ---------------------------------------------------------------------------------------
}
/**
* Execute the kernel to calculate the energy.
*
* @param positions atom positions
*
* @return potential energy due to the NonbondedForce
* Currently always return 0.0 since energies not calculated on gpu
*
*/
double OpenMMBrookInterface::executeEnergy( const Stream& atomPositions ){
// ---------------------------------------------------------------------------------------
//static const std::string methodName = "OpenMMBrookInterface::executeEnergy";
// ---------------------------------------------------------------------------------------
const BrookStreamImpl& positionStreamC = dynamic_cast<const BrookStreamImpl&> (atomPositions.getImpl());
BrookStreamImpl& positionStream = const_cast<BrookStreamImpl&> (positionStreamC);
BrookOpenMMFloat* positionsF = (BrookOpenMMFloat*) positionStream.getData();
OpenMMContext* context = getReferenceOpenMMContext( atomPositions.getSize() );
vector<Vec3> positions( positionStream.getSize() );
int index = 0;
for( int ii = 0; ii < positionStream.getSize(); ii++, index += 3 ){
positions[ii] = Vec3( positionsF[index], positionsF[index+1], positionsF[index+2] );
}
context->setPositions(positions);
State state = context->getState( State::Energy );
double energy = state.getPotentialEnergy();
(void) fprintf( stdout, "BrookCalcStandardMMForceFieldKernel::executeEnergy E=%.5e\n", energy );
for( int ii = 0; ii < positionStream.getSize(); ii++, index += 3 ){
(void) fprintf( stdout, " %5d Pos[%.5f %.5f %.5f]\n", ii, positions[ii][0], positions[ii][1], positions[ii][2] );
}
fflush( stdout );
return energy;
}
/**
* Get reference Context
*
* @param numberOfAtoms number of atoms
*
* @return OpenMMContext
*
*/
OpenMMContext* OpenMMBrookInterface::getReferenceOpenMMContext( int numberOfAtoms ){
// ---------------------------------------------------------------------------------------
//static const std::string methodName = "OpenMMBrookInterface::getReferenceOpenMMContext";
// ---------------------------------------------------------------------------------------
if( _refOpenMMContext == NULL ){
_referencePlatform = new ReferencePlatform();
_refSystem = new System( numberOfAtoms, 0 );
_refVerletIntegrator = new VerletIntegrator( 0.01 );
_refSystem->addForce( _refForceField );
_refOpenMMContext = new OpenMMContext( *_refSystem, *_refVerletIntegrator, *_referencePlatform );
}
return _refOpenMMContext;
}
/**
* Execute the kernel to calculate the energy.
*
* @param positions atom positions
*
* @return potential energy due to the NonbondedForce
* Currently always return 0.0 since energies not calculated on gpu
*
*/
double OpenMMBrookInterface::executeEnergyOld( const Stream& atomPositions ){
// ---------------------------------------------------------------------------------------
//static const std::string methodName = "OpenMMBrookInterface::executeEnergy";
// ---------------------------------------------------------------------------------------
const BrookStreamImpl& positionStreamC = dynamic_cast<const BrookStreamImpl&> (atomPositions.getImpl());
BrookStreamImpl& positionStream = const_cast<BrookStreamImpl&> (positionStreamC);
BrookOpenMMFloat* positionsF = (BrookOpenMMFloat*) positionStream.getData();
ReferencePlatform refPlatform;
System system( atomPositions.getSize(), 0);
VerletIntegrator integrator( 0.01 );
system.addForce( _refForceField );
OpenMMContext context( system, integrator, refPlatform );
vector<Vec3> positions( positionStream.getSize() );
int index = 0;
for( int ii = 0; ii < positionStream.getSize(); ii++, index += 3 ){
positions[ii] = Vec3( positionsF[index], positionsF[index+1], positionsF[index+2] );
}
context.setPositions(positions);
State state = context.getState( State::Energy );
double energy = state.getPotentialEnergy();
//delete forceField;
// (void) fprintf( stdout, "OpenMMBrookInterface::executeEnergy E=%.5e\n", energy ); fflush( stdout );
return energy;
}
platforms/brook/src/OpenMMBrookInterface.h 0 → 100644
View file @ 01199ddc
#ifndef OPENMM_BROOK_INTERFACE_H_
#define OPENMM_BROOK_INTERFACE_H_
/* -------------------------------------------------------------------------- *
* OpenMM *
* -------------------------------------------------------------------------- *
* This is part of the OpenMM molecular simulation toolkit originating from *
* Simbios, the NIH National Center for Physics-Based Simulation of *
* Biological Structures at Stanford, funded under the NIH Roadmap for *
* Medical Research, grant U54 GM072970. See https://simtk.org. *
* *
* Portions copyright (c) 2008 Stanford University and the Authors. *
* Authors: Peter Eastman, Mark Friedrichs *
* Contributors: *
* *
* Permission is hereby granted, free of charge, to any person obtaining a *
* copy of this software and associated documentation files (the "Software"), *
* to deal in the Software without restriction, including without limitation *
* the rights to use, copy, modify, merge, publish, distribute, sublicense, *
* and/or sell copies of the Software, and to permit persons to whom the *
* Software is furnished to do so, subject to the following conditions: *
* *
* The above copyright notice and this permission notice shall be included in *
* all copies or substantial portions of the Software. *
* *
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR *
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, *
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL *
* THE AUTHORS, CONTRIBUTORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, *
* DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR *
* OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE *
* USE OR OTHER DEALINGS IN THE SOFTWARE. *
* -------------------------------------------------------------------------- */
#include "kernels.h"
#include "../../reference/src/SimTKUtilities/SimTKOpenMMRealType.h"
#include "BrookBonded.h"
#include "BrookNonBonded.h"
#include "NonbondedForce.h"
#include "OpenMMContext.h"
#include "System.h"
#include "ReferencePlatform.h"
#include "VerletIntegrator.h"
class BrookBondParameters;
namespace OpenMM {
/**
* OpenMM-Brook interface methods
*/
class OpenMMBrookInterface {
public:
OpenMMBrookInterface( void );
~OpenMMBrookInterface();
/**
* Initialize the kernel, setting up the values of all the force field parameters.
*
* @param bondIndices the two atoms connected by each bond term
* @param bondParameters the force parameters (length, k) for each bond term
* @param angleIndices the three atoms connected by each angle term
* @param angleParameters the force parameters (angle, k) for each angle term
* @param periodicTorsionIndices the four atoms connected by each periodic torsion term
* @param periodicTorsionParameters the force parameters (k, phase, periodicity) for each periodic torsion term
* @param rbTorsionIndices the four atoms connected by each Ryckaert-Bellemans torsion term
* @param rbTorsionParameters the coefficients (in order of increasing powers) for each Ryckaert-Bellemans torsion term
* @param bonded14Indices each element contains the indices of two atoms whose nonbonded interactions should be reduced since
* they form a bonded 1-4 pair
* @param lj14Scale the factor by which van der Waals interactions should be reduced for bonded 1-4 pairs
* @param coulomb14Scale the factor by which Coulomb interactions should be reduced for bonded 1-4 pairs
* @param exclusions the i'th element lists the indices of all atoms with which the i'th atom should not interact through
* nonbonded forces. Bonded 1-4 pairs are also included in this list, since they should be omitted from
* the standard nonbonded calculation.
* @param nonbondedParameters the nonbonded force parameters (charge, sigma, epsilon) for each atom
* @param nonbondedMethod the method to use for handling long range nonbonded interactions
* @param nonbondedCutoff the cutoff distance for nonbonded interactions (if nonbondedMethod involves a cutoff)
* @param periodicBoxSize the size of the periodic box (if nonbondedMethod involves a periodic boundary conditions)
*
*/
void initialize( const std::vector<std::vector<int> >& bondIndices, const std::vector<std::vector<double> >& bondParameters,
const std::vector<std::vector<int> >& angleIndices, const std::vector<std::vector<double> >& angleParameters,
const std::vector<std::vector<int> >& periodicTorsionIndices, const std::vector<std::vector<double> >& periodicTorsionParameters,
const std::vector<std::vector<int> >& rbTorsionIndices, const std::vector<std::vector<double> >& rbTorsionParameters,
const std::vector<std::vector<int> >& bonded14Indices, double lj14Scale, double coulomb14Scale,
const std::vector<std::set <int> >& exclusions, const std::vector<std::vector<double> >& nonbondedParameters,
//NonbondedMethod nonbondedMethod,
double nonbondedCutoff, double periodicBoxSize[3] );
/**
* Execute the kernel to calculate the forces.
*
* @param positions a Stream of type Double3 containing the position (x, y, z) of each atom
* @param forces a Stream of type Double3 containing the force (x, y, z) on each atom. On entry, this contains the forces that
* have been calculated so far. The kernel should add its own forces to the values already in the stream.
*/
void executeForces( const Stream& positions, Stream& forces );
/**
* Execute the kernel to calculate the energy.
*
* @param positions a Stream of type Double3 containing the position (x, y, z) of each atom
*
* @return the potential energy due to the NonbondedForce
*
* Currently always return 0.0 since energies not calculated on gpu
*/
double executeEnergy( const Stream& positions );
double executeEnergyOld( const Stream& positions );
/**
* Get reference Context
*
* @param numberOfAtoms number of atoms
*
* @return OpenMMContext
*
*/
OpenMMContext* getReferenceOpenMMContext( int numberOfAtoms );
/**
* Set log file reference
*
* @param log file reference
*
* @return DefaultReturnValue
*
*/
int setLog( FILE* log );
/*
* Get contents of object
*
* @param level of dump
*
* @return string containing contents
*
* */
std::string getContents( int level ) const;
/**
* Get log file reference
*
* @return log file reference
*
*/
FILE* getLog( void ) const;
/**
* Compute forces
*
* @param context OpenMMContextImpl context
*
*/
void computeForces( OpenMMContextImpl& context );
/**
* Compute energy
*
* @param context OpenMMContextImpl context
*
*/
float computeEnergy( OpenMMContextImpl& context );
/**
* Set trigger Force Kernel
*
* @param triggerForceKernel kernel to calculate force
*
*/
void setTriggerForceKernel( KernelImpl* triggerForceKernel );
/**
* Set trigger Energy Kernel
*
* @param triggerEnergyKernel kernel to calculate energy
*
*/
void setTriggerEnergyKernel( KernelImpl* triggerForceKernel );
/**
* Get trigger Force Kernel
*
* @return triggerForceKernel kernel to calculate force
*
*/
KernelImpl* getTriggerForceKernel( void ) const;
/**
* Get trigger Energy Kernel
*
* @return triggerEnergyKernel kernel to calculate energy
*
*/
KernelImpl* getTriggerEnergyKernel( void ) const;
/**
* Set BrookBondParameters for harmonic angle force
*
* @param brookBondParameters brookBondParameters for BrookBondParameters for harmonic angle force
*
* @return DefaultReturnValue
*
*/
int setHarmonicBondForceParameters( BrookBondParameters* brookBondParameters );
/**
* Set BrookBondParameters for harmonic angle force
*
* @param brookBondParameters brookBondParameters for BrookBondParameters for harmonic angle force
*
* @return DefaultReturnValue
*
*/
int setHarmonicAngleForceParameters( BrookBondParameters* brookBondParameters );
/**
* Set BrookBondParameters for proper dihedral force
*
* @param brookBondParameters brookBondParameters for proper dihedral force
*
* @return DefaultReturnValue
*
*/
int setPeriodicTorsionForceParameters( BrookBondParameters* brookBondParameters );
/**
* Set BrookBondParameters for RB dihedral force
*
* @param brookBondParameters brookBondParameters for RB force
*
* @return DefaultReturnValue
*
*/
int setRBTorsionForceParameters( BrookBondParameters* brookBondParameters );
/**
* Set BrookBondParameters for LJ 14 force
*
* @param brookBondParameters brookBondParameters for LJ 14 force
*
* @return DefaultReturnValue
*
*/
int setLJ14( BrookBondParameters* brookBondParameters );
private:
enum BondParameterIndices { HarmonicBondIndex, HarmonicAngleIndex, PeriodicTorsionForceIndex, RbTorsionForceIndex, LJ14Index, LastBondForce };
// log file reference
FILE* _log;
// number of atoms
int _numberOfAtoms;
// Brook bonded & nonbonded
BrookBonded* _brookBonded;
BrookNonBonded* _brookNonBonded;
BrookBondParameters* _bondParameters[LastBondForce];
// used to calculate energy
NonbondedForce* _refForceField;
System* _refSystem;
OpenMMContext* _refOpenMMContext;
ReferencePlatform* _referencePlatform;
VerletIntegrator* _refVerletIntegrator;
/**
* Set BrookBondParameters
*
* @param index
* @param brookBondParameters brookBondParameters for BrookBondParameters
*
* @return DefaultReturnValue
*
*/
int _setBondParameters( BondParameterIndices index, BrookBondParameters* brookBondParameters );
};
} // namespace OpenMM
#endif /* OPENMM_BROOK_INTERFACE_H_ */
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