Fixed some memory leaks.
[gromacs/qmmm-gamess-us.git] / include / force.h
blobf3defa771bcdc3f36e5a32f7a96422f2039bd21f
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36 #ifndef _force_h
37 #define _force_h
39 #ifdef HAVE_CONFIG_H
40 #include <config.h>
41 #endif
44 #include "typedefs.h"
45 #include "pbc.h"
46 #include "network.h"
47 #include "tgroup.h"
48 #include "vsite.h"
49 #include "genborn.h"
51 #ifdef __cplusplus
52 extern "C" {
53 #endif
55 static const char *sepdvdlformat=" %-30s V %12.5e dVdl %12.5e\n";
57 extern void calc_vir(FILE *fplog,int nxf,rvec x[],rvec f[],tensor vir,
58 bool bScrewPBC,matrix box);
59 /* Calculate virial for nxf atoms, and add it to vir */
61 extern void f_calc_vir(FILE *fplog,int i0,int i1,rvec x[],rvec f[],tensor vir,
62 t_graph *g,rvec shift_vec[]);
63 /* Calculate virial taking periodicity into account */
65 extern real RF_excl_correction(FILE *fplog,
66 const t_forcerec *fr,t_graph *g,
67 const t_mdatoms *mdatoms,const t_blocka *excl,
68 rvec x[],rvec f[],rvec *fshift,const t_pbc *pbc,
69 real lambda,real *dvdlambda);
70 /* Calculate the reaction-field energy correction for this node:
71 * epsfac q_i q_j (k_rf r_ij^2 - c_rf)
72 * and force correction for all excluded pairs, including self pairs.
75 extern void calc_rffac(FILE *fplog,int eel,real eps_r,real eps_rf,
76 real Rc,real Temp,
77 real zsq,matrix box,
78 real *kappa,real *krf,real *crf);
79 /* Determine the reaction-field constants */
81 extern void init_generalized_rf(FILE *fplog,
82 const gmx_mtop_t *mtop,const t_inputrec *ir,
83 t_forcerec *fr);
84 /* Initialize the generalized reaction field parameters */
87 /* In wall.c */
88 extern void make_wall_tables(FILE *fplog,const output_env_t oenv,
89 const t_inputrec *ir,const char *tabfn,
90 const gmx_groups_t *groups,
91 t_forcerec *fr);
93 extern real do_walls(t_inputrec *ir,t_forcerec *fr,matrix box,t_mdatoms *md,
94 rvec x[],rvec f[],real lambda,real Vlj[],t_nrnb *nrnb);
98 extern t_forcerec *mk_forcerec(void);
100 #define GMX_MAKETABLES_FORCEUSER (1<<0)
101 #define GMX_MAKETABLES_14ONLY (1<<1)
103 extern t_forcetable make_tables(FILE *fp,const output_env_t oenv,
104 const t_forcerec *fr, bool bVerbose,
105 const char *fn, real rtab,int flags);
106 /* Return tables for inner loops. When bVerbose the tables are printed
107 * to .xvg files
110 extern 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 extern t_forcetable make_gb_table(FILE *out,const output_env_t oenv,
117 const t_forcerec *fr,
118 const char *fn,
119 real rtab);
121 extern void pr_forcerec(FILE *fplog,t_forcerec *fr,t_commrec *cr);
123 extern void
124 forcerec_set_ranges(t_forcerec *fr,
125 int ncg_home,int ncg_force,
126 int natoms_force,int natoms_f_novirsum);
127 /* Set the number of cg's and atoms for the force calculation */
129 extern void init_forcerec(FILE *fplog,
130 const output_env_t oenv,
131 t_forcerec *fr,
132 t_fcdata *fcd,
133 const t_inputrec *ir,
134 const gmx_mtop_t *mtop,
135 const t_commrec *cr,
136 matrix box,
137 bool bMolEpot,
138 const char *tabfn,
139 const char *tabpfn,
140 const char *tabbfn,
141 bool bNoSolvOpt,
142 real print_force);
143 /* The Force rec struct must be created with mk_forcerec
144 * The booleans have the following meaning:
145 * bSetQ: Copy the charges [ only necessary when they change ]
146 * bMolEpot: Use the free energy stuff per molecule
147 * print_force >= 0: print forces for atoms with force >= print_force
150 extern void init_enerdata(int ngener,int n_flambda,gmx_enerdata_t *enerd);
151 /* Intializes the energy storage struct */
153 extern void destroy_enerdata(gmx_enerdata_t *enerd);
154 /* Free all memory associated with enerd */
156 extern void reset_enerdata(t_grpopts *opts,
157 t_forcerec *fr,bool bNS,
158 gmx_enerdata_t *enerd,
159 bool bMaster);
160 /* Resets the energy data, if bNS=TRUE also zeros the long-range part */
162 extern void sum_epot(t_grpopts *opts,gmx_enerdata_t *enerd);
163 /* Locally sum the non-bonded potential energy terms */
165 extern void sum_dhdl(gmx_enerdata_t *enerd,double lambda,t_inputrec *ir);
166 /* Sum the free energy contributions */
168 extern void update_forcerec(FILE *fplog,t_forcerec *fr,matrix box);
169 /* Updates parameters in the forcerec that are time dependent */
171 /* Compute the average C6 and C12 params for LJ corrections */
172 extern void set_avcsixtwelve(FILE *fplog,t_forcerec *fr,
173 const gmx_mtop_t *mtop);
175 /* The state has changed */
176 #define GMX_FORCE_STATECHANGED (1<<0)
177 /* The box might have changed */
178 #define GMX_FORCE_DYNAMICBOX (1<<1)
179 /* Do neighbor searching */
180 #define GMX_FORCE_NS (1<<2)
181 /* Calculate bonded energies/forces */
182 #define GMX_FORCE_DOLR (1<<3)
183 /* Calculate long-range energies/forces */
184 #define GMX_FORCE_BONDED (1<<4)
185 /* Store long-range forces in a separate array */
186 #define GMX_FORCE_SEPLRF (1<<5)
187 /* Calculate non-bonded energies/forces */
188 #define GMX_FORCE_NONBONDED (1<<6)
189 /* Calculate forces (not only energies) */
190 #define GMX_FORCE_FORCES (1<<7)
191 /* Calculate the virial */
192 #define GMX_FORCE_VIRIAL (1<<8)
193 /* Calculate dHdl */
194 #define GMX_FORCE_DHDL (1<<9)
195 /* Normally one want all energy terms and forces */
196 #define GMX_FORCE_ALLFORCES (GMX_FORCE_BONDED | GMX_FORCE_NONBONDED | GMX_FORCE_FORCES)
198 extern void do_force(FILE *log,t_commrec *cr,
199 t_inputrec *inputrec,
200 gmx_large_int_t step,t_nrnb *nrnb,gmx_wallcycle_t wcycle,
201 gmx_localtop_t *top,
202 gmx_mtop_t *mtop,
203 gmx_groups_t *groups,
204 matrix box,rvec x[],history_t *hist,
205 rvec f[],
206 tensor vir_force,
207 t_mdatoms *mdatoms,
208 gmx_enerdata_t *enerd,t_fcdata *fcd,
209 real lambda,t_graph *graph,
210 t_forcerec *fr,gmx_vsite_t *vsite,rvec mu_tot,
211 double t,FILE *field,gmx_edsam_t ed,
212 bool bBornRadii,
213 int flags);
214 /* Communicate coordinates (if parallel).
215 * Do neighbor searching (if necessary).
216 * Calculate forces.
217 * Communicate forces (if parallel).
218 * Spread forces for vsites (if present).
220 * f is always required.
223 extern void ns(FILE *fplog,
224 t_forcerec *fr,
225 rvec x[],
226 matrix box,
227 gmx_groups_t *groups,
228 t_grpopts *opts,
229 gmx_localtop_t *top,
230 t_mdatoms *md,
231 t_commrec *cr,
232 t_nrnb *nrnb,
233 real lambda,
234 real *dvdlambda,
235 gmx_grppairener_t *grppener,
236 bool bFillGrid,
237 bool bDoLongRange,
238 bool bDoForces,
239 rvec *f);
240 /* Call the neighborsearcher */
242 extern void do_force_lowlevel(FILE *fplog,
243 gmx_large_int_t step,
244 t_forcerec *fr,
245 t_inputrec *ir,
246 t_idef *idef,
247 t_commrec *cr,
248 t_nrnb *nrnb,
249 gmx_wallcycle_t wcycle,
250 t_mdatoms *md,
251 t_grpopts *opts,
252 rvec x[],
253 history_t *hist,
254 rvec f[],
255 gmx_enerdata_t *enerd,
256 t_fcdata *fcd,
257 gmx_mtop_t *mtop,
258 gmx_localtop_t *top,
259 gmx_genborn_t *born,
260 t_atomtypes *atype,
261 bool bBornRadii,
262 matrix box,
263 real lambda,
264 t_graph *graph,
265 t_blocka *excl,
266 rvec mu_tot[2],
267 int flags,
268 float *cycles_pme);
269 /* Call all the force routines */
271 #ifdef __cplusplus
273 #endif
275 #endif /* _force_h */