/* Portions copyright (c) 2009-2018 Stanford University and Simbios. * Contributors: Peter Eastman * * 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. */ #ifndef __ReferenceCustomCentroidBondIxn_H__ #define __ReferenceCustomCentroidBondIxn_H__ #include "ReferenceBondIxn.h" #include "openmm/internal/CompiledExpressionSet.h" #include "lepton/ParsedExpression.h" #include #include namespace OpenMM { class ReferenceCustomCentroidBondIxn : public ReferenceBondIxn { private: class PositionTermInfo; class DistanceTermInfo; class AngleTermInfo; class DihedralTermInfo; std::vector > groupAtoms; std::vector > normalizedWeights; std::vector > bondGroups; CompiledExpressionSet expressionSet; Lepton::CompiledExpression energyExpression; std::vector energyParamDerivExpressions; std::vector bondParamIndex; std::vector positionTerms; std::vector distanceTerms; std::vector angleTerms; std::vector dihedralTerms; int numParameters; bool usePeriodic; Vec3 boxVectors[3]; /**--------------------------------------------------------------------------------------- Calculate custom interaction for one bond @param bond the index of the bond @param groupCenters group center coordinates @param forces force array (forces added) @param totalEnergy total energy --------------------------------------------------------------------------------------- */ void calculateOneIxn(int bond, std::vector& groupCenters, std::vector& forces, double* totalEnergy, double* energyParamDerivs); void computeDelta(int group1, int group2, double* delta, std::vector& groupCenters) const; static double computeAngle(double* vec1, double* vec2); public: /**--------------------------------------------------------------------------------------- Constructor --------------------------------------------------------------------------------------- */ ReferenceCustomCentroidBondIxn(int numGroupsPerBond, const std::vector >& groupAtoms, const std::vector >& normalizedWeights, const std::vector >& bondGroups, const Lepton::ParsedExpression& energyExpression, const std::vector& bondParameterNames, const std::map >& distances, const std::map >& angles, const std::map >& dihedrals, const std::vector energyParamDerivExpressions); /**--------------------------------------------------------------------------------------- Destructor --------------------------------------------------------------------------------------- */ ~ReferenceCustomCentroidBondIxn(); /**--------------------------------------------------------------------------------------- Set the force to use periodic boundary conditions. @param vectors the vectors defining the periodic box --------------------------------------------------------------------------------------- */ void setPeriodic(OpenMM::Vec3* vectors); /**--------------------------------------------------------------------------------------- Get the list of groups in each bond. --------------------------------------------------------------------------------------- */ const std::vector >& getBondGroups() const { return bondGroups; } /**--------------------------------------------------------------------------------------- Calculate custom compound bond interaction @param atomCoordinates atom coordinates @param bondParameters bond parameters values bondParameters[bondIndex][parameterIndex] @param globalParameters the values of global parameters @param forces force array (forces added) @param totalEnergy total energy --------------------------------------------------------------------------------------- */ void calculatePairIxn(std::vector& atomCoordinates, std::vector >& bondParameters, const std::map& globalParameters, std::vector& forces, double* totalEnergy, double* energyParamDerivs); // --------------------------------------------------------------------------------------- }; class ReferenceCustomCentroidBondIxn::PositionTermInfo { public: std::string name; int group, component, index; Lepton::CompiledExpression forceExpression; PositionTermInfo(const std::string& name, int group, int component, const Lepton::CompiledExpression& forceExpression) : name(name), group(group), component(component), forceExpression(forceExpression) { } }; class ReferenceCustomCentroidBondIxn::DistanceTermInfo { public: std::string name; int g1, g2, index; Lepton::CompiledExpression forceExpression; mutable double delta[ReferenceForce::LastDeltaRIndex]; DistanceTermInfo(const std::string& name, const std::vector& groups, const Lepton::CompiledExpression& forceExpression) : name(name), g1(groups[0]), g2(groups[1]), forceExpression(forceExpression) { } }; class ReferenceCustomCentroidBondIxn::AngleTermInfo { public: std::string name; int g1, g2, g3, index; Lepton::CompiledExpression forceExpression; mutable double delta1[ReferenceForce::LastDeltaRIndex]; mutable double delta2[ReferenceForce::LastDeltaRIndex]; AngleTermInfo(const std::string& name, const std::vector& groups, const Lepton::CompiledExpression& forceExpression) : name(name), g1(groups[0]), g2(groups[1]), g3(groups[2]), forceExpression(forceExpression) { } }; class ReferenceCustomCentroidBondIxn::DihedralTermInfo { public: std::string name; int g1, g2, g3, g4, index; Lepton::CompiledExpression forceExpression; mutable double delta1[ReferenceForce::LastDeltaRIndex]; mutable double delta2[ReferenceForce::LastDeltaRIndex]; mutable double delta3[ReferenceForce::LastDeltaRIndex]; mutable double cross1[3]; mutable double cross2[3]; DihedralTermInfo(const std::string& name, const std::vector& groups, const Lepton::CompiledExpression& forceExpression) : name(name), g1(groups[0]), g2(groups[1]), g3(groups[2]), g4(groups[3]), forceExpression(forceExpression) { } }; } // namespace OpenMM #endif // __ReferenceCustomCentroidBondIxn_H__