// // Copyright (C) 2013 Paolo Tosco // // Copyright (C) 2004-2006 Rational Discovery LLC // // @@ All Rights Reserved @@ // This file is part of the RDKit. // The contents are covered by the terms of the BSD license // which is included in the file license.txt, found at the root // of the RDKit source tree. // #include #ifndef __RD_MMFFNONBONDED_H__ #define __RD_MMFFNONBONDED_H__ #include #include #include namespace ForceFields { namespace MMFF { class MMFFVdWCollection; class MMFFVdW; //! the van der Waals term for MMFF class RDKIT_FORCEFIELD_EXPORT VdWContrib : public ForceFieldContrib { public: VdWContrib() {} //! Constructor /*! \param owner pointer to the owning ForceField \param idx1 index of end1 in the ForceField's positions \param idx2 index of end2 in the ForceField's positions */ VdWContrib(ForceField *owner, unsigned int idx1, unsigned int idx2, const MMFFVdWRijstarEps *mmffVdWConstants); double getEnergy(double *pos) const override; void getGrad(double *pos, double *grad) const override; VdWContrib *copy() const override { return new VdWContrib(*this); } private: int d_at1Idx{-1}, d_at2Idx{-1}; double d_R_ij_star; //!< the preferred length of the contact double d_wellDepth; //!< the vdW well depth (strength of the interaction) }; //! the electrostatic term for MMFF class RDKIT_FORCEFIELD_EXPORT EleContrib : public ForceFieldContrib { public: EleContrib() {} //! Constructor /*! \param owner pointer to the owning ForceField \param idx1 index of end1 in the ForceField's positions \param idx2 index of end2 in the ForceField's positions */ EleContrib(ForceField *owner, unsigned int idx1, unsigned int idx2, double chargeTerm, std::uint8_t dielModel, bool is1_4); double getEnergy(double *pos) const override; void getGrad(double *pos, double *grad) const override; EleContrib *copy() const override { return new EleContrib(*this); } private: int d_at1Idx{-1}, d_at2Idx{-1}; double d_chargeTerm; //!< q1 * q2 / D std::uint8_t d_dielModel; //!< dielectric model (1: constant; 2: distance-dependent) bool d_is1_4; //!< flag set for atoms in a 1,4 relationship }; namespace Utils { //! calculates and returns the unscaled minimum distance (R*ij) for a MMFF VdW /// contact RDKIT_FORCEFIELD_EXPORT double calcUnscaledVdWMinimum( const MMFFVdWCollection *mmffVdW, const MMFFVdW *mmffVdWParamsAtom1, const MMFFVdW *mmffVdWParamsAtom2); //! calculates and returns the unscaled well depth (epsilon) for a MMFF VdW /// contact RDKIT_FORCEFIELD_EXPORT double calcUnscaledVdWWellDepth( double R_star_ij, const MMFFVdW *mmffVdWParamsIAtom, const MMFFVdW *mmffVdWParamsJAtom); //! scales the VdW parameters RDKIT_FORCEFIELD_EXPORT void scaleVdWParams(double &R_star_ij, double &wellDepth, const MMFFVdWCollection *mmffVdW, const MMFFVdW *mmffVdWParamsIAtom, const MMFFVdW *mmffVdWParamsJAtom); //! calculates and returns the Van der Waals MMFF energy RDKIT_FORCEFIELD_EXPORT double calcVdWEnergy(const double dist, const double R_star_ij, const double wellDepth); //! calculates and returns the electrostatic MMFF energy // FIX: idx1 and idx2 are not used RDKIT_FORCEFIELD_EXPORT double calcEleEnergy(unsigned int idx1, unsigned int idx2, double dist, double chargeTerm, std::uint8_t dielModel, bool is1_4); } // namespace Utils } // namespace MMFF } // namespace ForceFields #endif