// clang-format off /* ---------------------------------------------------------------------- LAMMPS - Large-scale Atomic/Molecular Massively Parallel Simulator https://www.lammps.org/, Sandia National Laboratories LAMMPS development team: developers@lammps.org Copyright (2003) Sandia Corporation. Under the terms of Contract DE-AC04-94AL85000 with Sandia Corporation, the U.S. Government retains certain rights in this software. This software is distributed under the GNU General Public License. See the README file in the top-level LAMMPS directory. ------------------------------------------------------------------------- */ #include "fix_temp_rescale.h" #include "atom.h" #include "comm.h" #include "compute.h" #include "error.h" #include "force.h" #include "group.h" #include "input.h" #include "modify.h" #include "update.h" #include "variable.h" #include #include using namespace LAMMPS_NS; using namespace FixConst; enum{NOBIAS,BIAS}; enum{CONSTANT,EQUAL}; /* ---------------------------------------------------------------------- */ FixTempRescale::FixTempRescale(LAMMPS *lmp, int narg, char **arg) : Fix(lmp, narg, arg), tstr(nullptr), id_temp(nullptr), tflag(0) { if (narg < 8) utils::missing_cmd_args(FLERR, "fix temp/rescale", error); nevery = utils::inumeric(FLERR,arg[3],false,lmp); if (nevery <= 0) error->all(FLERR, "Invalid fix temp/rescale every argument: {}", nevery); restart_global = 1; scalar_flag = 1; global_freq = nevery; extscalar = 1; ecouple_flag = 1; dynamic_group_allow = 1; tstr = nullptr; if (utils::strmatch(arg[4],"^v_")) { tstr = utils::strdup(arg[4]+2); tstyle = EQUAL; } else { t_start = utils::numeric(FLERR,arg[4],false,lmp); t_target = t_start; tstyle = CONSTANT; } t_stop = utils::numeric(FLERR,arg[5],false,lmp); t_window = utils::numeric(FLERR,arg[6],false,lmp); fraction = utils::numeric(FLERR,arg[7],false,lmp); if (t_stop < 0) error->all(FLERR, "Invalid fix temp/rescale Tstop argument: {}", t_stop); if (t_window < 0) error->all(FLERR, "Invalid fix temp/rescale window argument: {}", t_window); if (fraction <= 0) error->all(FLERR, "Invalid fix temp/rescale fraction argument: {}", fraction); // create a new compute temp // id = fix-ID + temp, compute group = fix group id_temp = utils::strdup(std::string(id) + "_temp"); modify->add_compute(fmt::format("{} {} temp",id_temp,group->names[igroup])); tflag = 1; energy = 0.0; } /* ---------------------------------------------------------------------- */ FixTempRescale::~FixTempRescale() { delete[] tstr; // delete temperature if fix created it if (tflag) modify->delete_compute(id_temp); delete[] id_temp; } /* ---------------------------------------------------------------------- */ int FixTempRescale::setmask() { int mask = 0; mask |= END_OF_STEP; return mask; } /* ---------------------------------------------------------------------- */ void FixTempRescale::init() { // check variable if (tstr) { tvar = input->variable->find(tstr); if (tvar < 0) error->all(FLERR,"Variable name {} for fix temp/rescale does not exist", tstr); if (input->variable->equalstyle(tvar)) tstyle = EQUAL; else error->all(FLERR,"Variable {} for fix temp/rescale is invalid style", tstr); } temperature = modify->get_compute_by_id(id_temp); if (!temperature) error->all(FLERR,"Temperature ID {} for fix temp/rescale does not exist", id_temp); if (temperature->tempbias) which = BIAS; else which = NOBIAS; } /* ---------------------------------------------------------------------- */ void FixTempRescale::end_of_step() { double t_current = temperature->compute_scalar(); // there is nothing to do, if there are no degrees of freedom if (temperature->dof < 1) return; // protect against division by zero if (t_current == 0.0) error->all(FLERR,"Computed temperature for fix temp/rescale cannot be 0.0"); double delta = update->ntimestep - update->beginstep; if (delta != 0.0) delta /= update->endstep - update->beginstep; // set current t_target // if variable temp, evaluate variable, wrap with clear/add if (tstyle == CONSTANT) t_target = t_start + delta * (t_stop-t_start); else { modify->clearstep_compute(); t_target = input->variable->compute_equal(tvar); if (t_target < 0.0) error->one(FLERR, "Fix temp/rescale variable returned negative temperature"); modify->addstep_compute(update->ntimestep + nevery); } // rescale velocity of appropriate atoms if outside window // for BIAS: // temperature is current, so do not need to re-compute // OK to not test returned v = 0, since factor is multiplied by v if (fabs(t_current-t_target) > t_window) { t_target = t_current - fraction*(t_current-t_target); double factor = sqrt(t_target/t_current); double efactor = 0.5 * force->boltz * temperature->dof; double **v = atom->v; int *mask = atom->mask; int nlocal = atom->nlocal; energy += (t_current-t_target) * efactor; if (which == NOBIAS) { for (int i = 0; i < nlocal; i++) { if (mask[i] & groupbit) { v[i][0] *= factor; v[i][1] *= factor; v[i][2] *= factor; } } } else { for (int i = 0; i < nlocal; i++) { if (mask[i] & groupbit) { temperature->remove_bias(i,v[i]); v[i][0] *= factor; v[i][1] *= factor; v[i][2] *= factor; temperature->restore_bias(i,v[i]); } } } } } /* ---------------------------------------------------------------------- */ int FixTempRescale::modify_param(int narg, char **arg) { if (strcmp(arg[0],"temp") == 0) { if (narg < 2) utils::missing_cmd_args(FLERR, "fix_modify temp", error); if (tflag) { modify->delete_compute(id_temp); tflag = 0; } delete[] id_temp; id_temp = utils::strdup(arg[1]); temperature = modify->get_compute_by_id(id_temp); if (!temperature) error->all(FLERR,"Could not find fix_modify temperature compute {}", id_temp); if (temperature->tempflag == 0) error->all(FLERR, "Fix_modify temperature compute {} does not compute temperature", id_temp); if (temperature->igroup != igroup && comm->me == 0) error->warning(FLERR, "Group for fix_modify temp != fix group: {} vs {}", group->names[igroup], group->names[temperature->igroup]); return 2; } return 0; } /* ---------------------------------------------------------------------- */ void FixTempRescale::reset_target(double t_new) { t_target = t_start = t_stop = t_new; } /* ---------------------------------------------------------------------- */ double FixTempRescale::compute_scalar() { return energy; } /* ---------------------------------------------------------------------- pack entire state of Fix into one write ------------------------------------------------------------------------- */ void FixTempRescale::write_restart(FILE *fp) { int n = 0; double list[1]; list[n++] = energy; if (comm->me == 0) { int size = n * sizeof(double); fwrite(&size,sizeof(int),1,fp); fwrite(list,sizeof(double),n,fp); } } /* ---------------------------------------------------------------------- use state info from restart file to restart the Fix ------------------------------------------------------------------------- */ void FixTempRescale::restart(char *buf) { int n = 0; auto list = (double *) buf; energy = list[n++]; } /* ---------------------------------------------------------------------- extract thermostat properties ------------------------------------------------------------------------- */ void *FixTempRescale::extract(const char *str, int &dim) { if (strcmp(str,"t_target") == 0) { dim = 0; return &t_target; } return nullptr; }