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38 /*! \libinternal \file
41 * Declares functions to enforce rotational motion upon a group of particles.
43 * \author Carsten Kutzner <ckutzne@gwdg.de>
48 #ifndef GMX_PULLING_PULL_ROTATION_H
49 #define GMX_PULLING_PULL_ROTATION_H
55 #include "gromacs/math/vectypes.h"
56 #include "gromacs/utility/basedefinitions.h"
57 #include "gromacs/utility/classhelpers.h"
62 struct gmx_output_env_t;
71 enum class StartingBehavior;
72 class LocalAtomSetManager;
75 class EnforcedRotation
81 /*! \brief Getter for working data
83 * This is needed while the module is still under
85 gmx_enfrot* getLegacyEnfrot();
90 PrivateImplPointer<Impl> impl_;
95 /*! \brief Initializes the enforced rotation groups.
97 * This routine does the memory allocation for various helper arrays, opens
98 * the output files etc.
100 * \param fplog General output file, normally md.log.
101 * \param ir Struct containing MD input parameters, among those
102 * also the enforced rotation parameters.
103 * \param nfile Number of entries in the fnm structure.
104 * \param fnm The filenames struct containing also the names
105 * of the rotation output files.
106 * \param atomSets Tracks indices of atoms subject to enforced rotation for each DD rank.
107 * \param cr Pointer to MPI communication data.
108 * \param globalState The global state, only used on the master rank.
109 * \param mtop Molecular topology.
110 * \param oenv Needed to open the rotation output xvgr file.
111 * \param mdrunOptions Options for mdrun.
112 * \param startingBehavior Describes whether this is a restart appending to output files
113 * \return An enforced rotation module.
115 std::unique_ptr<gmx::EnforcedRotation> init_rot(FILE* fplog,
118 const t_filenm fnm[],
120 gmx::LocalAtomSetManager* atomSets,
121 const t_state* globalState,
123 const gmx_output_env_t* oenv,
124 const gmx::MdrunOptions& mdrunOptions,
125 gmx::StartingBehavior startingBehavior);
127 /*! \brief Calculates the enforced rotation potential(s).
129 * This is the main enforced rotation module which is called during every time
130 * step. Here the rotation potential as well as the resulting forces are
133 * \param cr Pointer to MPI communication data.
134 * \param er Pointer to the enforced rotation working data.
135 * \param box Simulation box, needed to make group whole.
136 * \param x The positions of all the local particles.
138 * \param step The time step.
139 * \param bNS After domain decomposition / neighbor searching several
140 * local arrays have to be updated (masses, shifts)
142 void do_rotation(const t_commrec* cr, gmx_enfrot* er, const matrix box, rvec x[], real t, int64_t step, gmx_bool bNS);
145 /*! \brief Add the enforced rotation forces to the official force array.
147 * Adds the forces from enforced rotation potential to the local forces and
148 * sums up the contributions to the rotation potential from all the nodes. Since
149 * this needs communication, this routine should be called after the short range
150 * forces have been evaluated (in order not to spoil cycle counts).
151 * This routine also outputs data to the rotation output files (e.g.
152 * the potential, the angle of the group(s), and torques).
154 * \param er Pointer to the enforced rotation working data.
155 * \param f The local forces to which the rotational forces have
157 * \param cr Pointer to MPI communication data.
158 * \param step The time step, used for output.
159 * \param t Time, used for output.
160 * \returns The potential energy of the rotation potentials.
162 real add_rot_forces(gmx_enfrot* er, rvec f[], const t_commrec* cr, int64_t step, real t);