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42 #include "visibility.h"
44 #include "types/force_flags.h"
56 static const char *sepdvdlformat=" %-30s V %12.5e dVdl %12.5e\n";
58 void calc_vir(FILE *fplog,int nxf,rvec x[],rvec f[],tensor vir,
59 gmx_bool bScrewPBC,matrix box);
60 /* Calculate virial for nxf atoms, and add it to vir */
62 void f_calc_vir(FILE *fplog,int i0,int i1,rvec x[],rvec f[],tensor vir,
63 t_graph *g,rvec shift_vec[]);
64 /* Calculate virial taking periodicity into account */
66 real RF_excl_correction(FILE *fplog,
67 const t_forcerec *fr,t_graph *g,
68 const t_mdatoms *mdatoms,const t_blocka *excl,
69 rvec x[],rvec f[],rvec *fshift,const t_pbc *pbc,
70 real lambda,real *dvdlambda);
71 /* Calculate the reaction-field energy correction for this node:
72 * epsfac q_i q_j (k_rf r_ij^2 - c_rf)
73 * and force correction for all excluded pairs, including self pairs.
76 void calc_rffac(FILE *fplog,int eel,real eps_r,real eps_rf,
79 real *kappa,real *krf,real *crf);
80 /* Determine the reaction-field constants */
82 void init_generalized_rf(FILE *fplog,
83 const gmx_mtop_t *mtop,const t_inputrec *ir,
85 /* Initialize the generalized reaction field parameters */
89 void make_wall_tables(FILE *fplog,const output_env_t oenv,
90 const t_inputrec *ir,const char *tabfn,
91 const gmx_groups_t *groups,
94 real do_walls(t_inputrec *ir,t_forcerec *fr,matrix box,t_mdatoms *md,
95 rvec x[],rvec f[],real lambda,real Vlj[],t_nrnb *nrnb);
98 t_forcerec *mk_forcerec(void);
100 #define GMX_MAKETABLES_FORCEUSER (1<<0)
101 #define GMX_MAKETABLES_14ONLY (1<<1)
103 t_forcetable make_tables(FILE *fp,const output_env_t oenv,
104 const t_forcerec *fr, gmx_bool bVerbose,
105 const char *fn, real rtab,int flags);
106 /* Return tables for inner loops. When bVerbose the tables are printed
110 bondedtable_t make_bonded_table(FILE *fplog,char *fn,int angle);
111 /* Return a table for bonded interactions,
112 * angle should be: bonds 0, angles 1, dihedrals 2
115 /* Return a table for GB calculations */
116 t_forcetable make_gb_table(FILE *out,const output_env_t oenv,
117 const t_forcerec *fr,
121 /* Read a table for AdResS Thermo Force calculations */
122 extern t_forcetable make_atf_table(FILE *out,const output_env_t oenv,
123 const t_forcerec *fr,
128 void pr_forcerec(FILE *fplog,t_forcerec *fr,t_commrec *cr);
131 forcerec_set_ranges(t_forcerec *fr,
132 int ncg_home,int ncg_force,
134 int natoms_force_constr,int natoms_f_novirsum);
135 /* Set the number of cg's and atoms for the force calculation */
138 gmx_bool can_use_allvsall(const t_inputrec *ir, const gmx_mtop_t *mtop,
139 gmx_bool bPrintNote,t_commrec *cr,FILE *fp);
140 /* Returns if we can use all-vs-all loops.
141 * If bPrintNote==TRUE, prints a note, if necessary, to stderr
142 * and fp (if !=NULL) on the master node.
146 gmx_bool uses_simple_tables(int cutoff_scheme,
147 nonbonded_verlet_t *nbv,
149 /* Returns whether simple tables (i.e. not for use with GPUs) are used
150 * with the type of kernel indicated.
154 void init_interaction_const_tables(FILE *fp,
155 interaction_const_t *ic,
156 gmx_bool bSimpleTable,
158 /* Initializes the tables in the interaction constant data structure.
159 * Setting verlet_kernel_type to -1 always initializes tables for
160 * use with group kernels.
163 void init_interaction_const(FILE *fp,
164 interaction_const_t **interaction_const,
165 const t_forcerec *fr,
167 /* Initializes the interaction constant data structure. Currently it
168 * uses forcerec as input.
172 void init_forcerec(FILE *fplog,
173 const output_env_t oenv,
176 const t_inputrec *ir,
177 const gmx_mtop_t *mtop,
185 const char *nbpu_opt,
188 /* The Force rec struct must be created with mk_forcerec
189 * The gmx_booleans have the following meaning:
190 * bSetQ: Copy the charges [ only necessary when they change ]
191 * bMolEpot: Use the free energy stuff per molecule
192 * print_force >= 0: print forces for atoms with force >= print_force
196 void forcerec_set_excl_load(t_forcerec *fr,
197 const gmx_localtop_t *top,const t_commrec *cr);
198 /* Set the exclusion load for the local exclusions and possibly threads */
201 void init_enerdata(int ngener,int n_lambda,gmx_enerdata_t *enerd);
202 /* Intializes the energy storage struct */
204 void destroy_enerdata(gmx_enerdata_t *enerd);
205 /* Free all memory associated with enerd */
207 void reset_foreign_enerdata(gmx_enerdata_t *enerd);
208 /* Resets only the foreign energy data */
210 void reset_enerdata(t_grpopts *opts,
211 t_forcerec *fr,gmx_bool bNS,
212 gmx_enerdata_t *enerd,
214 /* Resets the energy data, if bNS=TRUE also zeros the long-range part */
216 void sum_epot(t_grpopts *opts, gmx_grppairener_t *grpp, real *epot);
217 /* Locally sum the non-bonded potential energy terms */
220 void sum_dhdl(gmx_enerdata_t *enerd,real *lambda,t_lambda *fepvals);
221 /* Sum the free energy contributions */
223 void update_forcerec(FILE *fplog,t_forcerec *fr,matrix box);
224 /* Updates parameters in the forcerec that are time dependent */
226 /* Compute the average C6 and C12 params for LJ corrections */
227 void set_avcsixtwelve(FILE *fplog,t_forcerec *fr,
228 const gmx_mtop_t *mtop);
231 extern void do_force(FILE *log,t_commrec *cr,
232 t_inputrec *inputrec,
233 gmx_large_int_t step,t_nrnb *nrnb,gmx_wallcycle_t wcycle,
236 gmx_groups_t *groups,
237 matrix box,rvec x[],history_t *hist,
241 gmx_enerdata_t *enerd,t_fcdata *fcd,
242 real *lambda,t_graph *graph,
244 gmx_vsite_t *vsite,rvec mu_tot,
245 double t,FILE *field,gmx_edsam_t ed,
249 /* Communicate coordinates (if parallel).
250 * Do neighbor searching (if necessary).
252 * Communicate forces (if parallel).
253 * Spread forces for vsites (if present).
255 * f is always required.
263 gmx_groups_t *groups,
271 gmx_grppairener_t *grppener,
273 gmx_bool bDoLongRangeNS);
274 /* Call the neighborsearcher */
276 extern void do_force_lowlevel(FILE *fplog,
277 gmx_large_int_t step,
283 gmx_wallcycle_t wcycle,
290 gmx_enerdata_t *enerd,
305 /* Call all the force routines */
311 #endif /* _force_h */
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