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41 /* This file is completely threadsafe - keep it that way! */
47 #include "gmx_fatal.h"
61 #include "mtop_util.h"
63 #define TPX_TAG_RELEASE "release"
65 /* This is the tag string which is stored in the tpx file.
66 * Change this if you want to change the tpx format in a feature branch.
67 * This ensures that there will not be different tpx formats around which
68 * can not be distinguished.
70 static const char *tpx_tag = TPX_TAG_RELEASE;
72 /* This number should be increased whenever the file format changes! */
73 static const int tpx_version = 93;
75 /* This number should only be increased when you edit the TOPOLOGY section
76 * or the HEADER of the tpx format.
77 * This way we can maintain forward compatibility too for all analysis tools
78 * and/or external programs that only need to know the atom/residue names,
79 * charges, and bond connectivity.
81 * It first appeared in tpx version 26, when I also moved the inputrecord
82 * to the end of the tpx file, so we can just skip it if we only
85 static const int tpx_generation = 25;
87 /* This number should be the most recent backwards incompatible version
88 * I.e., if this number is 9, we cannot read tpx version 9 with this code.
90 static const int tpx_incompatible_version = 9;
94 /* Struct used to maintain tpx compatibility when function types are added */
96 int fvnr; /* file version number in which the function type first appeared */
97 int ftype; /* function type */
101 * The entries should be ordered in:
102 * 1. ascending file version number
103 * 2. ascending function type number
105 /*static const t_ftupd ftupd[] = {
106 { 20, F_CUBICBONDS },
110 { 22, F_DISRESVIOL },
116 { 26, F_DIHRESVIOL },
117 { 30, F_CROSS_BOND_BONDS },
118 { 30, F_CROSS_BOND_ANGLES },
119 { 30, F_UREY_BRADLEY },
120 { 30, F_POLARIZATION },
124 * The entries should be ordered in:
125 * 1. ascending function type number
126 * 2. ascending file version number
128 /* question; what is the purpose of the commented code above? */
129 static const t_ftupd ftupd[] = {
130 { 20, F_CUBICBONDS },
135 { 43, F_TABBONDSNC },
136 { 70, F_RESTRBONDS },
137 { 76, F_LINEAR_ANGLES },
138 { 30, F_CROSS_BOND_BONDS },
139 { 30, F_CROSS_BOND_ANGLES },
140 { 30, F_UREY_BRADLEY },
141 { 34, F_QUARTIC_ANGLES },
151 { 72, F_NPSOLVATION },
153 { 41, F_LJC_PAIRS_NB },
156 { 32, F_COUL_RECIP },
159 { 30, F_POLARIZATION },
162 { 22, F_DISRESVIOL },
166 { 26, F_DIHRESVIOL },
171 { 46, F_ECONSERVED },
172 { 69, F_VTEMP_NOLONGERUSED},
174 { 54, F_DVDL_CONSTR },
175 { 76, F_ANHARM_POL },
178 { 79, F_DVDL_BONDED, },
179 { 79, F_DVDL_RESTRAINT },
180 { 79, F_DVDL_TEMPERATURE },
182 #define NFTUPD asize(ftupd)
184 /* Needed for backward compatibility */
187 static void _do_section(t_fileio *fio, int key, gmx_bool bRead, const char *src,
193 if (gmx_fio_getftp(fio) == efTPA)
197 gmx_fio_write_string(fio, itemstr[key]);
198 bDbg = gmx_fio_getdebug(fio);
199 gmx_fio_setdebug(fio, FALSE);
200 gmx_fio_write_string(fio, comment_str[key]);
201 gmx_fio_setdebug(fio, bDbg);
205 if (gmx_fio_getdebug(fio))
207 fprintf(stderr, "Looking for section %s (%s, %d)",
208 itemstr[key], src, line);
213 gmx_fio_do_string(fio, buf);
215 while ((gmx_strcasecmp(buf, itemstr[key]) != 0));
217 if (gmx_strcasecmp(buf, itemstr[key]) != 0)
219 gmx_fatal(FARGS, "\nCould not find section heading %s", itemstr[key]);
221 else if (gmx_fio_getdebug(fio))
223 fprintf(stderr, " and found it\n");
229 #define do_section(fio, key, bRead) _do_section(fio, key, bRead, __FILE__, __LINE__)
231 /**************************************************************
233 * Now the higer level routines that do io of the structures and arrays
235 **************************************************************/
236 static void do_pullgrp(t_fileio *fio, t_pullgrp *pgrp, gmx_bool bRead,
241 gmx_fio_do_int(fio, pgrp->nat);
244 snew(pgrp->ind, pgrp->nat);
246 gmx_fio_ndo_int(fio, pgrp->ind, pgrp->nat);
247 gmx_fio_do_int(fio, pgrp->nweight);
250 snew(pgrp->weight, pgrp->nweight);
252 gmx_fio_ndo_real(fio, pgrp->weight, pgrp->nweight);
253 gmx_fio_do_int(fio, pgrp->pbcatom);
254 gmx_fio_do_rvec(fio, pgrp->vec);
255 gmx_fio_do_rvec(fio, pgrp->init);
256 gmx_fio_do_real(fio, pgrp->rate);
257 gmx_fio_do_real(fio, pgrp->k);
258 if (file_version >= 56)
260 gmx_fio_do_real(fio, pgrp->kB);
268 static void do_expandedvals(t_fileio *fio, t_expanded *expand, t_lambda *fepvals, gmx_bool bRead, int file_version)
270 /* i is used in the ndo_double macro*/
274 int n_lambda = fepvals->n_lambda;
276 /* reset the lambda calculation window */
277 fepvals->lambda_start_n = 0;
278 fepvals->lambda_stop_n = n_lambda;
279 if (file_version >= 79)
285 snew(expand->init_lambda_weights, n_lambda);
287 gmx_fio_ndo_real(fio, expand->init_lambda_weights, n_lambda);
288 gmx_fio_do_gmx_bool(fio, expand->bInit_weights);
291 gmx_fio_do_int(fio, expand->nstexpanded);
292 gmx_fio_do_int(fio, expand->elmcmove);
293 gmx_fio_do_int(fio, expand->elamstats);
294 gmx_fio_do_int(fio, expand->lmc_repeats);
295 gmx_fio_do_int(fio, expand->gibbsdeltalam);
296 gmx_fio_do_int(fio, expand->lmc_forced_nstart);
297 gmx_fio_do_int(fio, expand->lmc_seed);
298 gmx_fio_do_real(fio, expand->mc_temp);
299 gmx_fio_do_int(fio, expand->bSymmetrizedTMatrix);
300 gmx_fio_do_int(fio, expand->nstTij);
301 gmx_fio_do_int(fio, expand->minvarmin);
302 gmx_fio_do_int(fio, expand->c_range);
303 gmx_fio_do_real(fio, expand->wl_scale);
304 gmx_fio_do_real(fio, expand->wl_ratio);
305 gmx_fio_do_real(fio, expand->init_wl_delta);
306 gmx_fio_do_gmx_bool(fio, expand->bWLoneovert);
307 gmx_fio_do_int(fio, expand->elmceq);
308 gmx_fio_do_int(fio, expand->equil_steps);
309 gmx_fio_do_int(fio, expand->equil_samples);
310 gmx_fio_do_int(fio, expand->equil_n_at_lam);
311 gmx_fio_do_real(fio, expand->equil_wl_delta);
312 gmx_fio_do_real(fio, expand->equil_ratio);
316 static void do_simtempvals(t_fileio *fio, t_simtemp *simtemp, int n_lambda, gmx_bool bRead,
319 if (file_version >= 79)
321 gmx_fio_do_int(fio, simtemp->eSimTempScale);
322 gmx_fio_do_real(fio, simtemp->simtemp_high);
323 gmx_fio_do_real(fio, simtemp->simtemp_low);
328 snew(simtemp->temperatures, n_lambda);
330 gmx_fio_ndo_real(fio, simtemp->temperatures, n_lambda);
335 static void do_fepvals(t_fileio *fio, t_lambda *fepvals, gmx_bool bRead, int file_version)
337 /* i is defined in the ndo_double macro; use g to iterate. */
342 /* free energy values */
344 if (file_version >= 79)
346 gmx_fio_do_int(fio, fepvals->init_fep_state);
347 gmx_fio_do_double(fio, fepvals->init_lambda);
348 gmx_fio_do_double(fio, fepvals->delta_lambda);
350 else if (file_version >= 59)
352 gmx_fio_do_double(fio, fepvals->init_lambda);
353 gmx_fio_do_double(fio, fepvals->delta_lambda);
357 gmx_fio_do_real(fio, rdum);
358 fepvals->init_lambda = rdum;
359 gmx_fio_do_real(fio, rdum);
360 fepvals->delta_lambda = rdum;
362 if (file_version >= 79)
364 gmx_fio_do_int(fio, fepvals->n_lambda);
367 snew(fepvals->all_lambda, efptNR);
369 for (g = 0; g < efptNR; g++)
371 if (fepvals->n_lambda > 0)
375 snew(fepvals->all_lambda[g], fepvals->n_lambda);
377 gmx_fio_ndo_double(fio, fepvals->all_lambda[g], fepvals->n_lambda);
378 gmx_fio_ndo_int(fio, fepvals->separate_dvdl, efptNR);
380 else if (fepvals->init_lambda >= 0)
382 fepvals->separate_dvdl[efptFEP] = TRUE;
386 else if (file_version >= 64)
388 gmx_fio_do_int(fio, fepvals->n_lambda);
393 snew(fepvals->all_lambda, efptNR);
394 /* still allocate the all_lambda array's contents. */
395 for (g = 0; g < efptNR; g++)
397 if (fepvals->n_lambda > 0)
399 snew(fepvals->all_lambda[g], fepvals->n_lambda);
403 gmx_fio_ndo_double(fio, fepvals->all_lambda[efptFEP],
405 if (fepvals->init_lambda >= 0)
409 fepvals->separate_dvdl[efptFEP] = TRUE;
413 /* copy the contents of the efptFEP lambda component to all
414 the other components */
415 for (g = 0; g < efptNR; g++)
417 for (h = 0; h < fepvals->n_lambda; h++)
421 fepvals->all_lambda[g][h] =
422 fepvals->all_lambda[efptFEP][h];
431 fepvals->n_lambda = 0;
432 fepvals->all_lambda = NULL;
433 if (fepvals->init_lambda >= 0)
435 fepvals->separate_dvdl[efptFEP] = TRUE;
438 if (file_version >= 13)
440 gmx_fio_do_real(fio, fepvals->sc_alpha);
444 fepvals->sc_alpha = 0;
446 if (file_version >= 38)
448 gmx_fio_do_int(fio, fepvals->sc_power);
452 fepvals->sc_power = 2;
454 if (file_version >= 79)
456 gmx_fio_do_real(fio, fepvals->sc_r_power);
460 fepvals->sc_r_power = 6.0;
462 if (file_version >= 15)
464 gmx_fio_do_real(fio, fepvals->sc_sigma);
468 fepvals->sc_sigma = 0.3;
472 if (file_version >= 71)
474 fepvals->sc_sigma_min = fepvals->sc_sigma;
478 fepvals->sc_sigma_min = 0;
481 if (file_version >= 79)
483 gmx_fio_do_int(fio, fepvals->bScCoul);
487 fepvals->bScCoul = TRUE;
489 if (file_version >= 64)
491 gmx_fio_do_int(fio, fepvals->nstdhdl);
495 fepvals->nstdhdl = 1;
498 if (file_version >= 73)
500 gmx_fio_do_int(fio, fepvals->separate_dhdl_file);
501 gmx_fio_do_int(fio, fepvals->dhdl_derivatives);
505 fepvals->separate_dhdl_file = esepdhdlfileYES;
506 fepvals->dhdl_derivatives = edhdlderivativesYES;
508 if (file_version >= 71)
510 gmx_fio_do_int(fio, fepvals->dh_hist_size);
511 gmx_fio_do_double(fio, fepvals->dh_hist_spacing);
515 fepvals->dh_hist_size = 0;
516 fepvals->dh_hist_spacing = 0.1;
518 if (file_version >= 79)
520 gmx_fio_do_int(fio, fepvals->bPrintEnergy);
524 fepvals->bPrintEnergy = FALSE;
527 /* handle lambda_neighbors */
528 if ((file_version >= 83 && file_version < 90) || file_version >= 92)
530 gmx_fio_do_int(fio, fepvals->lambda_neighbors);
531 if ( (fepvals->lambda_neighbors >= 0) && (fepvals->init_fep_state >= 0) &&
532 (fepvals->init_lambda < 0) )
534 fepvals->lambda_start_n = (fepvals->init_fep_state -
535 fepvals->lambda_neighbors);
536 fepvals->lambda_stop_n = (fepvals->init_fep_state +
537 fepvals->lambda_neighbors + 1);
538 if (fepvals->lambda_start_n < 0)
540 fepvals->lambda_start_n = 0;;
542 if (fepvals->lambda_stop_n >= fepvals->n_lambda)
544 fepvals->lambda_stop_n = fepvals->n_lambda;
549 fepvals->lambda_start_n = 0;
550 fepvals->lambda_stop_n = fepvals->n_lambda;
555 fepvals->lambda_start_n = 0;
556 fepvals->lambda_stop_n = fepvals->n_lambda;
560 static void do_pull(t_fileio *fio, t_pull *pull, gmx_bool bRead, int file_version)
564 gmx_fio_do_int(fio, pull->ngrp);
565 gmx_fio_do_int(fio, pull->eGeom);
566 gmx_fio_do_ivec(fio, pull->dim);
567 gmx_fio_do_real(fio, pull->cyl_r1);
568 gmx_fio_do_real(fio, pull->cyl_r0);
569 gmx_fio_do_real(fio, pull->constr_tol);
570 gmx_fio_do_int(fio, pull->nstxout);
571 gmx_fio_do_int(fio, pull->nstfout);
574 snew(pull->grp, pull->ngrp+1);
576 for (g = 0; g < pull->ngrp+1; g++)
578 do_pullgrp(fio, &pull->grp[g], bRead, file_version);
583 static void do_rotgrp(t_fileio *fio, t_rotgrp *rotg, gmx_bool bRead)
587 gmx_fio_do_int(fio, rotg->eType);
588 gmx_fio_do_int(fio, rotg->bMassW);
589 gmx_fio_do_int(fio, rotg->nat);
592 snew(rotg->ind, rotg->nat);
594 gmx_fio_ndo_int(fio, rotg->ind, rotg->nat);
597 snew(rotg->x_ref, rotg->nat);
599 gmx_fio_ndo_rvec(fio, rotg->x_ref, rotg->nat);
600 gmx_fio_do_rvec(fio, rotg->vec);
601 gmx_fio_do_rvec(fio, rotg->pivot);
602 gmx_fio_do_real(fio, rotg->rate);
603 gmx_fio_do_real(fio, rotg->k);
604 gmx_fio_do_real(fio, rotg->slab_dist);
605 gmx_fio_do_real(fio, rotg->min_gaussian);
606 gmx_fio_do_real(fio, rotg->eps);
607 gmx_fio_do_int(fio, rotg->eFittype);
608 gmx_fio_do_int(fio, rotg->PotAngle_nstep);
609 gmx_fio_do_real(fio, rotg->PotAngle_step);
612 static void do_rot(t_fileio *fio, t_rot *rot, gmx_bool bRead)
616 gmx_fio_do_int(fio, rot->ngrp);
617 gmx_fio_do_int(fio, rot->nstrout);
618 gmx_fio_do_int(fio, rot->nstsout);
621 snew(rot->grp, rot->ngrp);
623 for (g = 0; g < rot->ngrp; g++)
625 do_rotgrp(fio, &rot->grp[g], bRead);
630 static void do_inputrec(t_fileio *fio, t_inputrec *ir, gmx_bool bRead,
631 int file_version, real *fudgeQQ)
633 int i, j, k, *tmp, idum = 0;
637 real zerotemptime, finish_t, init_temp, finish_temp;
639 if (file_version != tpx_version)
641 /* Give a warning about features that are not accessible */
642 fprintf(stderr, "Note: file tpx version %d, software tpx version %d\n",
643 file_version, tpx_version);
651 if (file_version == 0)
656 /* Basic inputrec stuff */
657 gmx_fio_do_int(fio, ir->eI);
658 if (file_version >= 62)
660 gmx_fio_do_gmx_large_int(fio, ir->nsteps);
664 gmx_fio_do_int(fio, idum);
667 if (file_version > 25)
669 if (file_version >= 62)
671 gmx_fio_do_gmx_large_int(fio, ir->init_step);
675 gmx_fio_do_int(fio, idum);
676 ir->init_step = idum;
684 if (file_version >= 58)
686 gmx_fio_do_int(fio, ir->simulation_part);
690 ir->simulation_part = 1;
693 if (file_version >= 67)
695 gmx_fio_do_int(fio, ir->nstcalcenergy);
699 ir->nstcalcenergy = 1;
701 if (file_version < 53)
703 /* The pbc info has been moved out of do_inputrec,
704 * since we always want it, also without reading the inputrec.
706 gmx_fio_do_int(fio, ir->ePBC);
707 if ((file_version <= 15) && (ir->ePBC == 2))
711 if (file_version >= 45)
713 gmx_fio_do_int(fio, ir->bPeriodicMols);
720 ir->bPeriodicMols = TRUE;
724 ir->bPeriodicMols = FALSE;
728 if (file_version >= 81)
730 gmx_fio_do_int(fio, ir->cutoff_scheme);
734 ir->cutoff_scheme = ecutsGROUP;
736 gmx_fio_do_int(fio, ir->ns_type);
737 gmx_fio_do_int(fio, ir->nstlist);
738 gmx_fio_do_int(fio, ir->ndelta);
739 if (file_version < 41)
741 gmx_fio_do_int(fio, idum);
742 gmx_fio_do_int(fio, idum);
744 if (file_version >= 45)
746 gmx_fio_do_real(fio, ir->rtpi);
752 gmx_fio_do_int(fio, ir->nstcomm);
753 if (file_version > 34)
755 gmx_fio_do_int(fio, ir->comm_mode);
757 else if (ir->nstcomm < 0)
759 ir->comm_mode = ecmANGULAR;
763 ir->comm_mode = ecmLINEAR;
765 ir->nstcomm = abs(ir->nstcomm);
767 if (file_version > 25)
769 gmx_fio_do_int(fio, ir->nstcheckpoint);
773 ir->nstcheckpoint = 0;
776 gmx_fio_do_int(fio, ir->nstcgsteep);
778 if (file_version >= 30)
780 gmx_fio_do_int(fio, ir->nbfgscorr);
787 gmx_fio_do_int(fio, ir->nstlog);
788 gmx_fio_do_int(fio, ir->nstxout);
789 gmx_fio_do_int(fio, ir->nstvout);
790 gmx_fio_do_int(fio, ir->nstfout);
791 gmx_fio_do_int(fio, ir->nstenergy);
792 gmx_fio_do_int(fio, ir->nstxtcout);
793 if (file_version >= 59)
795 gmx_fio_do_double(fio, ir->init_t);
796 gmx_fio_do_double(fio, ir->delta_t);
800 gmx_fio_do_real(fio, rdum);
802 gmx_fio_do_real(fio, rdum);
805 gmx_fio_do_real(fio, ir->xtcprec);
806 if (file_version < 19)
808 gmx_fio_do_int(fio, idum);
809 gmx_fio_do_int(fio, idum);
811 if (file_version < 18)
813 gmx_fio_do_int(fio, idum);
815 if (file_version >= 81)
817 gmx_fio_do_real(fio, ir->verletbuf_drift);
821 ir->verletbuf_drift = 0;
823 gmx_fio_do_real(fio, ir->rlist);
824 if (file_version >= 67)
826 gmx_fio_do_real(fio, ir->rlistlong);
828 if (file_version >= 82 && file_version != 90)
830 gmx_fio_do_int(fio, ir->nstcalclr);
834 /* Calculate at NS steps */
835 ir->nstcalclr = ir->nstlist;
837 gmx_fio_do_int(fio, ir->coulombtype);
838 if (file_version < 32 && ir->coulombtype == eelRF)
840 ir->coulombtype = eelRF_NEC;
842 if (file_version >= 81)
844 gmx_fio_do_int(fio, ir->coulomb_modifier);
848 ir->coulomb_modifier = (ir->cutoff_scheme == ecutsVERLET ? eintmodPOTSHIFT : eintmodNONE);
850 gmx_fio_do_real(fio, ir->rcoulomb_switch);
851 gmx_fio_do_real(fio, ir->rcoulomb);
852 gmx_fio_do_int(fio, ir->vdwtype);
853 if (file_version >= 81)
855 gmx_fio_do_int(fio, ir->vdw_modifier);
859 ir->vdw_modifier = (ir->cutoff_scheme == ecutsVERLET ? eintmodPOTSHIFT : eintmodNONE);
861 gmx_fio_do_real(fio, ir->rvdw_switch);
862 gmx_fio_do_real(fio, ir->rvdw);
863 if (file_version < 67)
865 ir->rlistlong = max_cutoff(ir->rlist, max_cutoff(ir->rvdw, ir->rcoulomb));
867 gmx_fio_do_int(fio, ir->eDispCorr);
868 gmx_fio_do_real(fio, ir->epsilon_r);
869 if (file_version >= 37)
871 gmx_fio_do_real(fio, ir->epsilon_rf);
875 if (EEL_RF(ir->coulombtype))
877 ir->epsilon_rf = ir->epsilon_r;
882 ir->epsilon_rf = 1.0;
885 if (file_version >= 29)
887 gmx_fio_do_real(fio, ir->tabext);
894 if (file_version > 25)
896 gmx_fio_do_int(fio, ir->gb_algorithm);
897 gmx_fio_do_int(fio, ir->nstgbradii);
898 gmx_fio_do_real(fio, ir->rgbradii);
899 gmx_fio_do_real(fio, ir->gb_saltconc);
900 gmx_fio_do_int(fio, ir->implicit_solvent);
904 ir->gb_algorithm = egbSTILL;
908 ir->implicit_solvent = eisNO;
910 if (file_version >= 55)
912 gmx_fio_do_real(fio, ir->gb_epsilon_solvent);
913 gmx_fio_do_real(fio, ir->gb_obc_alpha);
914 gmx_fio_do_real(fio, ir->gb_obc_beta);
915 gmx_fio_do_real(fio, ir->gb_obc_gamma);
916 if (file_version >= 60)
918 gmx_fio_do_real(fio, ir->gb_dielectric_offset);
919 gmx_fio_do_int(fio, ir->sa_algorithm);
923 ir->gb_dielectric_offset = 0.009;
924 ir->sa_algorithm = esaAPPROX;
926 gmx_fio_do_real(fio, ir->sa_surface_tension);
928 /* Override sa_surface_tension if it is not changed in the mpd-file */
929 if (ir->sa_surface_tension < 0)
931 if (ir->gb_algorithm == egbSTILL)
933 ir->sa_surface_tension = 0.0049 * 100 * CAL2JOULE;
935 else if (ir->gb_algorithm == egbHCT || ir->gb_algorithm == egbOBC)
937 ir->sa_surface_tension = 0.0054 * 100 * CAL2JOULE;
944 /* Better use sensible values than insane (0.0) ones... */
945 ir->gb_epsilon_solvent = 80;
946 ir->gb_obc_alpha = 1.0;
947 ir->gb_obc_beta = 0.8;
948 ir->gb_obc_gamma = 4.85;
949 ir->sa_surface_tension = 2.092;
953 if (file_version >= 81)
955 gmx_fio_do_real(fio, ir->fourier_spacing);
959 ir->fourier_spacing = 0.0;
961 gmx_fio_do_int(fio, ir->nkx);
962 gmx_fio_do_int(fio, ir->nky);
963 gmx_fio_do_int(fio, ir->nkz);
964 gmx_fio_do_int(fio, ir->pme_order);
965 gmx_fio_do_real(fio, ir->ewald_rtol);
967 if (file_version >= 93)
969 gmx_fio_do_real(fio, ir->ewald_rtol_lj);
973 ir->ewald_rtol_lj = ir->ewald_rtol;
976 if (file_version >= 24)
978 gmx_fio_do_int(fio, ir->ewald_geometry);
982 ir->ewald_geometry = eewg3D;
985 if (file_version <= 17)
987 ir->epsilon_surface = 0;
988 if (file_version == 17)
990 gmx_fio_do_int(fio, idum);
995 gmx_fio_do_real(fio, ir->epsilon_surface);
998 gmx_fio_do_gmx_bool(fio, ir->bOptFFT);
1000 if (file_version >= 93)
1002 gmx_fio_do_int(fio, ir->ljpme_combination_rule);
1004 gmx_fio_do_gmx_bool(fio, ir->bContinuation);
1005 gmx_fio_do_int(fio, ir->etc);
1006 /* before version 18, ir->etc was a gmx_bool (ir->btc),
1007 * but the values 0 and 1 still mean no and
1008 * berendsen temperature coupling, respectively.
1010 if (file_version >= 79)
1012 gmx_fio_do_gmx_bool(fio, ir->bPrintNHChains);
1014 if (file_version >= 71)
1016 gmx_fio_do_int(fio, ir->nsttcouple);
1020 ir->nsttcouple = ir->nstcalcenergy;
1022 if (file_version <= 15)
1024 gmx_fio_do_int(fio, idum);
1026 if (file_version <= 17)
1028 gmx_fio_do_int(fio, ir->epct);
1029 if (file_version <= 15)
1033 ir->epct = epctSURFACETENSION;
1035 gmx_fio_do_int(fio, idum);
1038 /* we have removed the NO alternative at the beginning */
1042 ir->epct = epctISOTROPIC;
1046 ir->epc = epcBERENDSEN;
1051 gmx_fio_do_int(fio, ir->epc);
1052 gmx_fio_do_int(fio, ir->epct);
1054 if (file_version >= 71)
1056 gmx_fio_do_int(fio, ir->nstpcouple);
1060 ir->nstpcouple = ir->nstcalcenergy;
1062 gmx_fio_do_real(fio, ir->tau_p);
1063 if (file_version <= 15)
1065 gmx_fio_do_rvec(fio, vdum);
1066 clear_mat(ir->ref_p);
1067 for (i = 0; i < DIM; i++)
1069 ir->ref_p[i][i] = vdum[i];
1074 gmx_fio_do_rvec(fio, ir->ref_p[XX]);
1075 gmx_fio_do_rvec(fio, ir->ref_p[YY]);
1076 gmx_fio_do_rvec(fio, ir->ref_p[ZZ]);
1078 if (file_version <= 15)
1080 gmx_fio_do_rvec(fio, vdum);
1081 clear_mat(ir->compress);
1082 for (i = 0; i < DIM; i++)
1084 ir->compress[i][i] = vdum[i];
1089 gmx_fio_do_rvec(fio, ir->compress[XX]);
1090 gmx_fio_do_rvec(fio, ir->compress[YY]);
1091 gmx_fio_do_rvec(fio, ir->compress[ZZ]);
1093 if (file_version >= 47)
1095 gmx_fio_do_int(fio, ir->refcoord_scaling);
1096 gmx_fio_do_rvec(fio, ir->posres_com);
1097 gmx_fio_do_rvec(fio, ir->posres_comB);
1101 ir->refcoord_scaling = erscNO;
1102 clear_rvec(ir->posres_com);
1103 clear_rvec(ir->posres_comB);
1105 if ((file_version > 25) && (file_version < 79))
1107 gmx_fio_do_int(fio, ir->andersen_seed);
1111 ir->andersen_seed = 0;
1113 if (file_version < 26)
1115 gmx_fio_do_gmx_bool(fio, bSimAnn);
1116 gmx_fio_do_real(fio, zerotemptime);
1119 if (file_version < 37)
1121 gmx_fio_do_real(fio, rdum);
1124 gmx_fio_do_real(fio, ir->shake_tol);
1125 if (file_version < 54)
1127 gmx_fio_do_real(fio, *fudgeQQ);
1130 gmx_fio_do_int(fio, ir->efep);
1131 if (file_version <= 14 && ir->efep != efepNO)
1135 do_fepvals(fio, ir->fepvals, bRead, file_version);
1137 if (file_version >= 79)
1139 gmx_fio_do_gmx_bool(fio, ir->bSimTemp);
1142 ir->bSimTemp = TRUE;
1147 ir->bSimTemp = FALSE;
1151 do_simtempvals(fio, ir->simtempvals, ir->fepvals->n_lambda, bRead, file_version);
1154 if (file_version >= 79)
1156 gmx_fio_do_gmx_bool(fio, ir->bExpanded);
1159 ir->bExpanded = TRUE;
1163 ir->bExpanded = FALSE;
1168 do_expandedvals(fio, ir->expandedvals, ir->fepvals, bRead, file_version);
1170 if (file_version >= 57)
1172 gmx_fio_do_int(fio, ir->eDisre);
1174 gmx_fio_do_int(fio, ir->eDisreWeighting);
1175 if (file_version < 22)
1177 if (ir->eDisreWeighting == 0)
1179 ir->eDisreWeighting = edrwEqual;
1183 ir->eDisreWeighting = edrwConservative;
1186 gmx_fio_do_gmx_bool(fio, ir->bDisreMixed);
1187 gmx_fio_do_real(fio, ir->dr_fc);
1188 gmx_fio_do_real(fio, ir->dr_tau);
1189 gmx_fio_do_int(fio, ir->nstdisreout);
1190 if (file_version >= 22)
1192 gmx_fio_do_real(fio, ir->orires_fc);
1193 gmx_fio_do_real(fio, ir->orires_tau);
1194 gmx_fio_do_int(fio, ir->nstorireout);
1200 ir->nstorireout = 0;
1202 if (file_version >= 26 && file_version < 79)
1204 gmx_fio_do_real(fio, ir->dihre_fc);
1205 if (file_version < 56)
1207 gmx_fio_do_real(fio, rdum);
1208 gmx_fio_do_int(fio, idum);
1216 gmx_fio_do_real(fio, ir->em_stepsize);
1217 gmx_fio_do_real(fio, ir->em_tol);
1218 if (file_version >= 22)
1220 gmx_fio_do_gmx_bool(fio, ir->bShakeSOR);
1224 ir->bShakeSOR = TRUE;
1226 if (file_version >= 11)
1228 gmx_fio_do_int(fio, ir->niter);
1233 fprintf(stderr, "Note: niter not in run input file, setting it to %d\n",
1236 if (file_version >= 21)
1238 gmx_fio_do_real(fio, ir->fc_stepsize);
1242 ir->fc_stepsize = 0;
1244 gmx_fio_do_int(fio, ir->eConstrAlg);
1245 gmx_fio_do_int(fio, ir->nProjOrder);
1246 gmx_fio_do_real(fio, ir->LincsWarnAngle);
1247 if (file_version <= 14)
1249 gmx_fio_do_int(fio, idum);
1251 if (file_version >= 26)
1253 gmx_fio_do_int(fio, ir->nLincsIter);
1258 fprintf(stderr, "Note: nLincsIter not in run input file, setting it to %d\n",
1261 if (file_version < 33)
1263 gmx_fio_do_real(fio, bd_temp);
1265 gmx_fio_do_real(fio, ir->bd_fric);
1266 gmx_fio_do_int(fio, ir->ld_seed);
1267 if (file_version >= 33)
1269 for (i = 0; i < DIM; i++)
1271 gmx_fio_do_rvec(fio, ir->deform[i]);
1276 for (i = 0; i < DIM; i++)
1278 clear_rvec(ir->deform[i]);
1281 if (file_version >= 14)
1283 gmx_fio_do_real(fio, ir->cos_accel);
1289 gmx_fio_do_int(fio, ir->userint1);
1290 gmx_fio_do_int(fio, ir->userint2);
1291 gmx_fio_do_int(fio, ir->userint3);
1292 gmx_fio_do_int(fio, ir->userint4);
1293 gmx_fio_do_real(fio, ir->userreal1);
1294 gmx_fio_do_real(fio, ir->userreal2);
1295 gmx_fio_do_real(fio, ir->userreal3);
1296 gmx_fio_do_real(fio, ir->userreal4);
1299 if (file_version >= 77)
1301 gmx_fio_do_gmx_bool(fio, ir->bAdress);
1306 snew(ir->adress, 1);
1308 gmx_fio_do_int(fio, ir->adress->type);
1309 gmx_fio_do_real(fio, ir->adress->const_wf);
1310 gmx_fio_do_real(fio, ir->adress->ex_width);
1311 gmx_fio_do_real(fio, ir->adress->hy_width);
1312 gmx_fio_do_int(fio, ir->adress->icor);
1313 gmx_fio_do_int(fio, ir->adress->site);
1314 gmx_fio_do_rvec(fio, ir->adress->refs);
1315 gmx_fio_do_int(fio, ir->adress->n_tf_grps);
1316 gmx_fio_do_real(fio, ir->adress->ex_forcecap);
1317 gmx_fio_do_int(fio, ir->adress->n_energy_grps);
1318 gmx_fio_do_int(fio, ir->adress->do_hybridpairs);
1322 snew(ir->adress->tf_table_index, ir->adress->n_tf_grps);
1324 if (ir->adress->n_tf_grps > 0)
1326 gmx_fio_ndo_int(fio, ir->adress->tf_table_index, ir->adress->n_tf_grps);
1330 snew(ir->adress->group_explicit, ir->adress->n_energy_grps);
1332 if (ir->adress->n_energy_grps > 0)
1334 gmx_fio_ndo_int(fio, ir->adress->group_explicit, ir->adress->n_energy_grps);
1340 ir->bAdress = FALSE;
1344 if (file_version >= 48)
1346 gmx_fio_do_int(fio, ir->ePull);
1347 if (ir->ePull != epullNO)
1353 do_pull(fio, ir->pull, bRead, file_version);
1358 ir->ePull = epullNO;
1361 /* Enforced rotation */
1362 if (file_version >= 74)
1364 gmx_fio_do_int(fio, ir->bRot);
1365 if (ir->bRot == TRUE)
1371 do_rot(fio, ir->rot, bRead);
1380 gmx_fio_do_int(fio, ir->opts.ngtc);
1381 if (file_version >= 69)
1383 gmx_fio_do_int(fio, ir->opts.nhchainlength);
1387 ir->opts.nhchainlength = 1;
1389 gmx_fio_do_int(fio, ir->opts.ngacc);
1390 gmx_fio_do_int(fio, ir->opts.ngfrz);
1391 gmx_fio_do_int(fio, ir->opts.ngener);
1395 snew(ir->opts.nrdf, ir->opts.ngtc);
1396 snew(ir->opts.ref_t, ir->opts.ngtc);
1397 snew(ir->opts.annealing, ir->opts.ngtc);
1398 snew(ir->opts.anneal_npoints, ir->opts.ngtc);
1399 snew(ir->opts.anneal_time, ir->opts.ngtc);
1400 snew(ir->opts.anneal_temp, ir->opts.ngtc);
1401 snew(ir->opts.tau_t, ir->opts.ngtc);
1402 snew(ir->opts.nFreeze, ir->opts.ngfrz);
1403 snew(ir->opts.acc, ir->opts.ngacc);
1404 snew(ir->opts.egp_flags, ir->opts.ngener*ir->opts.ngener);
1406 if (ir->opts.ngtc > 0)
1408 if (bRead && file_version < 13)
1410 snew(tmp, ir->opts.ngtc);
1411 gmx_fio_ndo_int(fio, tmp, ir->opts.ngtc);
1412 for (i = 0; i < ir->opts.ngtc; i++)
1414 ir->opts.nrdf[i] = tmp[i];
1420 gmx_fio_ndo_real(fio, ir->opts.nrdf, ir->opts.ngtc);
1422 gmx_fio_ndo_real(fio, ir->opts.ref_t, ir->opts.ngtc);
1423 gmx_fio_ndo_real(fio, ir->opts.tau_t, ir->opts.ngtc);
1424 if (file_version < 33 && ir->eI == eiBD)
1426 for (i = 0; i < ir->opts.ngtc; i++)
1428 ir->opts.tau_t[i] = bd_temp;
1432 if (ir->opts.ngfrz > 0)
1434 gmx_fio_ndo_ivec(fio, ir->opts.nFreeze, ir->opts.ngfrz);
1436 if (ir->opts.ngacc > 0)
1438 gmx_fio_ndo_rvec(fio, ir->opts.acc, ir->opts.ngacc);
1440 if (file_version >= 12)
1442 gmx_fio_ndo_int(fio, ir->opts.egp_flags,
1443 ir->opts.ngener*ir->opts.ngener);
1446 if (bRead && file_version < 26)
1448 for (i = 0; i < ir->opts.ngtc; i++)
1452 ir->opts.annealing[i] = eannSINGLE;
1453 ir->opts.anneal_npoints[i] = 2;
1454 snew(ir->opts.anneal_time[i], 2);
1455 snew(ir->opts.anneal_temp[i], 2);
1456 /* calculate the starting/ending temperatures from reft, zerotemptime, and nsteps */
1457 finish_t = ir->init_t + ir->nsteps * ir->delta_t;
1458 init_temp = ir->opts.ref_t[i]*(1-ir->init_t/zerotemptime);
1459 finish_temp = ir->opts.ref_t[i]*(1-finish_t/zerotemptime);
1460 ir->opts.anneal_time[i][0] = ir->init_t;
1461 ir->opts.anneal_time[i][1] = finish_t;
1462 ir->opts.anneal_temp[i][0] = init_temp;
1463 ir->opts.anneal_temp[i][1] = finish_temp;
1467 ir->opts.annealing[i] = eannNO;
1468 ir->opts.anneal_npoints[i] = 0;
1474 /* file version 26 or later */
1475 /* First read the lists with annealing and npoints for each group */
1476 gmx_fio_ndo_int(fio, ir->opts.annealing, ir->opts.ngtc);
1477 gmx_fio_ndo_int(fio, ir->opts.anneal_npoints, ir->opts.ngtc);
1478 for (j = 0; j < (ir->opts.ngtc); j++)
1480 k = ir->opts.anneal_npoints[j];
1483 snew(ir->opts.anneal_time[j], k);
1484 snew(ir->opts.anneal_temp[j], k);
1486 gmx_fio_ndo_real(fio, ir->opts.anneal_time[j], k);
1487 gmx_fio_ndo_real(fio, ir->opts.anneal_temp[j], k);
1491 if (file_version >= 45)
1493 gmx_fio_do_int(fio, ir->nwall);
1494 gmx_fio_do_int(fio, ir->wall_type);
1495 if (file_version >= 50)
1497 gmx_fio_do_real(fio, ir->wall_r_linpot);
1501 ir->wall_r_linpot = -1;
1503 gmx_fio_do_int(fio, ir->wall_atomtype[0]);
1504 gmx_fio_do_int(fio, ir->wall_atomtype[1]);
1505 gmx_fio_do_real(fio, ir->wall_density[0]);
1506 gmx_fio_do_real(fio, ir->wall_density[1]);
1507 gmx_fio_do_real(fio, ir->wall_ewald_zfac);
1513 ir->wall_atomtype[0] = -1;
1514 ir->wall_atomtype[1] = -1;
1515 ir->wall_density[0] = 0;
1516 ir->wall_density[1] = 0;
1517 ir->wall_ewald_zfac = 3;
1519 /* Cosine stuff for electric fields */
1520 for (j = 0; (j < DIM); j++)
1522 gmx_fio_do_int(fio, ir->ex[j].n);
1523 gmx_fio_do_int(fio, ir->et[j].n);
1526 snew(ir->ex[j].a, ir->ex[j].n);
1527 snew(ir->ex[j].phi, ir->ex[j].n);
1528 snew(ir->et[j].a, ir->et[j].n);
1529 snew(ir->et[j].phi, ir->et[j].n);
1531 gmx_fio_ndo_real(fio, ir->ex[j].a, ir->ex[j].n);
1532 gmx_fio_ndo_real(fio, ir->ex[j].phi, ir->ex[j].n);
1533 gmx_fio_ndo_real(fio, ir->et[j].a, ir->et[j].n);
1534 gmx_fio_ndo_real(fio, ir->et[j].phi, ir->et[j].n);
1538 if (file_version >= 39)
1540 gmx_fio_do_gmx_bool(fio, ir->bQMMM);
1541 gmx_fio_do_int(fio, ir->QMMMscheme);
1542 gmx_fio_do_real(fio, ir->scalefactor);
1543 gmx_fio_do_int(fio, ir->opts.ngQM);
1546 snew(ir->opts.QMmethod, ir->opts.ngQM);
1547 snew(ir->opts.QMbasis, ir->opts.ngQM);
1548 snew(ir->opts.QMcharge, ir->opts.ngQM);
1549 snew(ir->opts.QMmult, ir->opts.ngQM);
1550 snew(ir->opts.bSH, ir->opts.ngQM);
1551 snew(ir->opts.CASorbitals, ir->opts.ngQM);
1552 snew(ir->opts.CASelectrons, ir->opts.ngQM);
1553 snew(ir->opts.SAon, ir->opts.ngQM);
1554 snew(ir->opts.SAoff, ir->opts.ngQM);
1555 snew(ir->opts.SAsteps, ir->opts.ngQM);
1556 snew(ir->opts.bOPT, ir->opts.ngQM);
1557 snew(ir->opts.bTS, ir->opts.ngQM);
1559 if (ir->opts.ngQM > 0)
1561 gmx_fio_ndo_int(fio, ir->opts.QMmethod, ir->opts.ngQM);
1562 gmx_fio_ndo_int(fio, ir->opts.QMbasis, ir->opts.ngQM);
1563 gmx_fio_ndo_int(fio, ir->opts.QMcharge, ir->opts.ngQM);
1564 gmx_fio_ndo_int(fio, ir->opts.QMmult, ir->opts.ngQM);
1565 gmx_fio_ndo_gmx_bool(fio, ir->opts.bSH, ir->opts.ngQM);
1566 gmx_fio_ndo_int(fio, ir->opts.CASorbitals, ir->opts.ngQM);
1567 gmx_fio_ndo_int(fio, ir->opts.CASelectrons, ir->opts.ngQM);
1568 gmx_fio_ndo_real(fio, ir->opts.SAon, ir->opts.ngQM);
1569 gmx_fio_ndo_real(fio, ir->opts.SAoff, ir->opts.ngQM);
1570 gmx_fio_ndo_int(fio, ir->opts.SAsteps, ir->opts.ngQM);
1571 gmx_fio_ndo_gmx_bool(fio, ir->opts.bOPT, ir->opts.ngQM);
1572 gmx_fio_ndo_gmx_bool(fio, ir->opts.bTS, ir->opts.ngQM);
1574 /* end of QMMM stuff */
1579 static void do_harm(t_fileio *fio, t_iparams *iparams)
1581 gmx_fio_do_real(fio, iparams->harmonic.rA);
1582 gmx_fio_do_real(fio, iparams->harmonic.krA);
1583 gmx_fio_do_real(fio, iparams->harmonic.rB);
1584 gmx_fio_do_real(fio, iparams->harmonic.krB);
1587 void do_iparams(t_fileio *fio, t_functype ftype, t_iparams *iparams,
1588 gmx_bool bRead, int file_version)
1595 gmx_fio_set_comment(fio, interaction_function[ftype].name);
1605 do_harm(fio, iparams);
1606 if ((ftype == F_ANGRES || ftype == F_ANGRESZ) && bRead)
1608 /* Correct incorrect storage of parameters */
1609 iparams->pdihs.phiB = iparams->pdihs.phiA;
1610 iparams->pdihs.cpB = iparams->pdihs.cpA;
1613 case F_LINEAR_ANGLES:
1614 gmx_fio_do_real(fio, iparams->linangle.klinA);
1615 gmx_fio_do_real(fio, iparams->linangle.aA);
1616 gmx_fio_do_real(fio, iparams->linangle.klinB);
1617 gmx_fio_do_real(fio, iparams->linangle.aB);
1620 gmx_fio_do_real(fio, iparams->fene.bm);
1621 gmx_fio_do_real(fio, iparams->fene.kb);
1624 gmx_fio_do_real(fio, iparams->restraint.lowA);
1625 gmx_fio_do_real(fio, iparams->restraint.up1A);
1626 gmx_fio_do_real(fio, iparams->restraint.up2A);
1627 gmx_fio_do_real(fio, iparams->restraint.kA);
1628 gmx_fio_do_real(fio, iparams->restraint.lowB);
1629 gmx_fio_do_real(fio, iparams->restraint.up1B);
1630 gmx_fio_do_real(fio, iparams->restraint.up2B);
1631 gmx_fio_do_real(fio, iparams->restraint.kB);
1637 gmx_fio_do_real(fio, iparams->tab.kA);
1638 gmx_fio_do_int(fio, iparams->tab.table);
1639 gmx_fio_do_real(fio, iparams->tab.kB);
1641 case F_CROSS_BOND_BONDS:
1642 gmx_fio_do_real(fio, iparams->cross_bb.r1e);
1643 gmx_fio_do_real(fio, iparams->cross_bb.r2e);
1644 gmx_fio_do_real(fio, iparams->cross_bb.krr);
1646 case F_CROSS_BOND_ANGLES:
1647 gmx_fio_do_real(fio, iparams->cross_ba.r1e);
1648 gmx_fio_do_real(fio, iparams->cross_ba.r2e);
1649 gmx_fio_do_real(fio, iparams->cross_ba.r3e);
1650 gmx_fio_do_real(fio, iparams->cross_ba.krt);
1652 case F_UREY_BRADLEY:
1653 gmx_fio_do_real(fio, iparams->u_b.thetaA);
1654 gmx_fio_do_real(fio, iparams->u_b.kthetaA);
1655 gmx_fio_do_real(fio, iparams->u_b.r13A);
1656 gmx_fio_do_real(fio, iparams->u_b.kUBA);
1657 if (file_version >= 79)
1659 gmx_fio_do_real(fio, iparams->u_b.thetaB);
1660 gmx_fio_do_real(fio, iparams->u_b.kthetaB);
1661 gmx_fio_do_real(fio, iparams->u_b.r13B);
1662 gmx_fio_do_real(fio, iparams->u_b.kUBB);
1666 iparams->u_b.thetaB = iparams->u_b.thetaA;
1667 iparams->u_b.kthetaB = iparams->u_b.kthetaA;
1668 iparams->u_b.r13B = iparams->u_b.r13A;
1669 iparams->u_b.kUBB = iparams->u_b.kUBA;
1672 case F_QUARTIC_ANGLES:
1673 gmx_fio_do_real(fio, iparams->qangle.theta);
1674 gmx_fio_ndo_real(fio, iparams->qangle.c, 5);
1677 gmx_fio_do_real(fio, iparams->bham.a);
1678 gmx_fio_do_real(fio, iparams->bham.b);
1679 gmx_fio_do_real(fio, iparams->bham.c);
1682 gmx_fio_do_real(fio, iparams->morse.b0A);
1683 gmx_fio_do_real(fio, iparams->morse.cbA);
1684 gmx_fio_do_real(fio, iparams->morse.betaA);
1685 if (file_version >= 79)
1687 gmx_fio_do_real(fio, iparams->morse.b0B);
1688 gmx_fio_do_real(fio, iparams->morse.cbB);
1689 gmx_fio_do_real(fio, iparams->morse.betaB);
1693 iparams->morse.b0B = iparams->morse.b0A;
1694 iparams->morse.cbB = iparams->morse.cbA;
1695 iparams->morse.betaB = iparams->morse.betaA;
1699 gmx_fio_do_real(fio, iparams->cubic.b0);
1700 gmx_fio_do_real(fio, iparams->cubic.kb);
1701 gmx_fio_do_real(fio, iparams->cubic.kcub);
1705 case F_POLARIZATION:
1706 gmx_fio_do_real(fio, iparams->polarize.alpha);
1709 gmx_fio_do_real(fio, iparams->anharm_polarize.alpha);
1710 gmx_fio_do_real(fio, iparams->anharm_polarize.drcut);
1711 gmx_fio_do_real(fio, iparams->anharm_polarize.khyp);
1714 if (file_version < 31)
1716 gmx_fatal(FARGS, "Old tpr files with water_polarization not supported. Make a new.");
1718 gmx_fio_do_real(fio, iparams->wpol.al_x);
1719 gmx_fio_do_real(fio, iparams->wpol.al_y);
1720 gmx_fio_do_real(fio, iparams->wpol.al_z);
1721 gmx_fio_do_real(fio, iparams->wpol.rOH);
1722 gmx_fio_do_real(fio, iparams->wpol.rHH);
1723 gmx_fio_do_real(fio, iparams->wpol.rOD);
1726 gmx_fio_do_real(fio, iparams->thole.a);
1727 gmx_fio_do_real(fio, iparams->thole.alpha1);
1728 gmx_fio_do_real(fio, iparams->thole.alpha2);
1729 gmx_fio_do_real(fio, iparams->thole.rfac);
1732 gmx_fio_do_real(fio, iparams->lj.c6);
1733 gmx_fio_do_real(fio, iparams->lj.c12);
1736 gmx_fio_do_real(fio, iparams->lj14.c6A);
1737 gmx_fio_do_real(fio, iparams->lj14.c12A);
1738 gmx_fio_do_real(fio, iparams->lj14.c6B);
1739 gmx_fio_do_real(fio, iparams->lj14.c12B);
1742 gmx_fio_do_real(fio, iparams->ljc14.fqq);
1743 gmx_fio_do_real(fio, iparams->ljc14.qi);
1744 gmx_fio_do_real(fio, iparams->ljc14.qj);
1745 gmx_fio_do_real(fio, iparams->ljc14.c6);
1746 gmx_fio_do_real(fio, iparams->ljc14.c12);
1748 case F_LJC_PAIRS_NB:
1749 gmx_fio_do_real(fio, iparams->ljcnb.qi);
1750 gmx_fio_do_real(fio, iparams->ljcnb.qj);
1751 gmx_fio_do_real(fio, iparams->ljcnb.c6);
1752 gmx_fio_do_real(fio, iparams->ljcnb.c12);
1758 gmx_fio_do_real(fio, iparams->pdihs.phiA);
1759 gmx_fio_do_real(fio, iparams->pdihs.cpA);
1760 if ((ftype == F_ANGRES || ftype == F_ANGRESZ) && file_version < 42)
1762 /* Read the incorrectly stored multiplicity */
1763 gmx_fio_do_real(fio, iparams->harmonic.rB);
1764 gmx_fio_do_real(fio, iparams->harmonic.krB);
1765 iparams->pdihs.phiB = iparams->pdihs.phiA;
1766 iparams->pdihs.cpB = iparams->pdihs.cpA;
1770 gmx_fio_do_real(fio, iparams->pdihs.phiB);
1771 gmx_fio_do_real(fio, iparams->pdihs.cpB);
1772 gmx_fio_do_int(fio, iparams->pdihs.mult);
1776 gmx_fio_do_int(fio, iparams->disres.label);
1777 gmx_fio_do_int(fio, iparams->disres.type);
1778 gmx_fio_do_real(fio, iparams->disres.low);
1779 gmx_fio_do_real(fio, iparams->disres.up1);
1780 gmx_fio_do_real(fio, iparams->disres.up2);
1781 gmx_fio_do_real(fio, iparams->disres.kfac);
1784 gmx_fio_do_int(fio, iparams->orires.ex);
1785 gmx_fio_do_int(fio, iparams->orires.label);
1786 gmx_fio_do_int(fio, iparams->orires.power);
1787 gmx_fio_do_real(fio, iparams->orires.c);
1788 gmx_fio_do_real(fio, iparams->orires.obs);
1789 gmx_fio_do_real(fio, iparams->orires.kfac);
1792 if (file_version < 82)
1794 gmx_fio_do_int(fio, idum);
1795 gmx_fio_do_int(fio, idum);
1797 gmx_fio_do_real(fio, iparams->dihres.phiA);
1798 gmx_fio_do_real(fio, iparams->dihres.dphiA);
1799 gmx_fio_do_real(fio, iparams->dihres.kfacA);
1800 if (file_version >= 82)
1802 gmx_fio_do_real(fio, iparams->dihres.phiB);
1803 gmx_fio_do_real(fio, iparams->dihres.dphiB);
1804 gmx_fio_do_real(fio, iparams->dihres.kfacB);
1808 iparams->dihres.phiB = iparams->dihres.phiA;
1809 iparams->dihres.dphiB = iparams->dihres.dphiA;
1810 iparams->dihres.kfacB = iparams->dihres.kfacA;
1814 gmx_fio_do_rvec(fio, iparams->posres.pos0A);
1815 gmx_fio_do_rvec(fio, iparams->posres.fcA);
1816 if (bRead && file_version < 27)
1818 copy_rvec(iparams->posres.pos0A, iparams->posres.pos0B);
1819 copy_rvec(iparams->posres.fcA, iparams->posres.fcB);
1823 gmx_fio_do_rvec(fio, iparams->posres.pos0B);
1824 gmx_fio_do_rvec(fio, iparams->posres.fcB);
1828 gmx_fio_do_int(fio, iparams->fbposres.geom);
1829 gmx_fio_do_rvec(fio, iparams->fbposres.pos0);
1830 gmx_fio_do_real(fio, iparams->fbposres.r);
1831 gmx_fio_do_real(fio, iparams->fbposres.k);
1834 gmx_fio_ndo_real(fio, iparams->rbdihs.rbcA, NR_RBDIHS);
1835 if (file_version >= 25)
1837 gmx_fio_ndo_real(fio, iparams->rbdihs.rbcB, NR_RBDIHS);
1841 /* Fourier dihedrals are internally represented
1842 * as Ryckaert-Bellemans since those are faster to compute.
1844 gmx_fio_ndo_real(fio, iparams->rbdihs.rbcA, NR_RBDIHS);
1845 gmx_fio_ndo_real(fio, iparams->rbdihs.rbcB, NR_RBDIHS);
1849 gmx_fio_do_real(fio, iparams->constr.dA);
1850 gmx_fio_do_real(fio, iparams->constr.dB);
1853 gmx_fio_do_real(fio, iparams->settle.doh);
1854 gmx_fio_do_real(fio, iparams->settle.dhh);
1857 gmx_fio_do_real(fio, iparams->vsite.a);
1862 gmx_fio_do_real(fio, iparams->vsite.a);
1863 gmx_fio_do_real(fio, iparams->vsite.b);
1868 gmx_fio_do_real(fio, iparams->vsite.a);
1869 gmx_fio_do_real(fio, iparams->vsite.b);
1870 gmx_fio_do_real(fio, iparams->vsite.c);
1873 gmx_fio_do_int(fio, iparams->vsiten.n);
1874 gmx_fio_do_real(fio, iparams->vsiten.a);
1879 /* We got rid of some parameters in version 68 */
1880 if (bRead && file_version < 68)
1882 gmx_fio_do_real(fio, rdum);
1883 gmx_fio_do_real(fio, rdum);
1884 gmx_fio_do_real(fio, rdum);
1885 gmx_fio_do_real(fio, rdum);
1887 gmx_fio_do_real(fio, iparams->gb.sar);
1888 gmx_fio_do_real(fio, iparams->gb.st);
1889 gmx_fio_do_real(fio, iparams->gb.pi);
1890 gmx_fio_do_real(fio, iparams->gb.gbr);
1891 gmx_fio_do_real(fio, iparams->gb.bmlt);
1894 gmx_fio_do_int(fio, iparams->cmap.cmapA);
1895 gmx_fio_do_int(fio, iparams->cmap.cmapB);
1898 gmx_fatal(FARGS, "unknown function type %d (%s) in %s line %d",
1899 ftype, interaction_function[ftype].name, __FILE__, __LINE__);
1903 gmx_fio_unset_comment(fio);
1907 static void do_ilist(t_fileio *fio, t_ilist *ilist, gmx_bool bRead, int file_version,
1914 gmx_fio_set_comment(fio, interaction_function[ftype].name);
1916 if (file_version < 44)
1918 for (i = 0; i < MAXNODES; i++)
1920 gmx_fio_do_int(fio, idum);
1923 gmx_fio_do_int(fio, ilist->nr);
1926 snew(ilist->iatoms, ilist->nr);
1928 gmx_fio_ndo_int(fio, ilist->iatoms, ilist->nr);
1931 gmx_fio_unset_comment(fio);
1935 static void do_ffparams(t_fileio *fio, gmx_ffparams_t *ffparams,
1936 gmx_bool bRead, int file_version)
1941 gmx_fio_do_int(fio, ffparams->atnr);
1942 if (file_version < 57)
1944 gmx_fio_do_int(fio, idum);
1946 gmx_fio_do_int(fio, ffparams->ntypes);
1949 fprintf(debug, "ffparams->atnr = %d, ntypes = %d\n",
1950 ffparams->atnr, ffparams->ntypes);
1954 snew(ffparams->functype, ffparams->ntypes);
1955 snew(ffparams->iparams, ffparams->ntypes);
1957 /* Read/write all the function types */
1958 gmx_fio_ndo_int(fio, ffparams->functype, ffparams->ntypes);
1961 pr_ivec(debug, 0, "functype", ffparams->functype, ffparams->ntypes, TRUE);
1964 if (file_version >= 66)
1966 gmx_fio_do_double(fio, ffparams->reppow);
1970 ffparams->reppow = 12.0;
1973 if (file_version >= 57)
1975 gmx_fio_do_real(fio, ffparams->fudgeQQ);
1978 /* Check whether all these function types are supported by the code.
1979 * In practice the code is backwards compatible, which means that the
1980 * numbering may have to be altered from old numbering to new numbering
1982 for (i = 0; (i < ffparams->ntypes); i++)
1986 /* Loop over file versions */
1987 for (k = 0; (k < NFTUPD); k++)
1989 /* Compare the read file_version to the update table */
1990 if ((file_version < ftupd[k].fvnr) &&
1991 (ffparams->functype[i] >= ftupd[k].ftype))
1993 ffparams->functype[i] += 1;
1996 fprintf(debug, "Incrementing function type %d to %d (due to %s)\n",
1997 i, ffparams->functype[i],
1998 interaction_function[ftupd[k].ftype].longname);
2005 do_iparams(fio, ffparams->functype[i], &ffparams->iparams[i], bRead,
2009 pr_iparams(debug, ffparams->functype[i], &ffparams->iparams[i]);
2014 static void add_settle_atoms(t_ilist *ilist)
2018 /* Settle used to only store the first atom: add the other two */
2019 srenew(ilist->iatoms, 2*ilist->nr);
2020 for (i = ilist->nr/2-1; i >= 0; i--)
2022 ilist->iatoms[4*i+0] = ilist->iatoms[2*i+0];
2023 ilist->iatoms[4*i+1] = ilist->iatoms[2*i+1];
2024 ilist->iatoms[4*i+2] = ilist->iatoms[2*i+1] + 1;
2025 ilist->iatoms[4*i+3] = ilist->iatoms[2*i+1] + 2;
2027 ilist->nr = 2*ilist->nr;
2030 static void do_ilists(t_fileio *fio, t_ilist *ilist, gmx_bool bRead,
2033 int i, j, renum[F_NRE];
2037 for (j = 0; (j < F_NRE); j++)
2042 for (k = 0; k < NFTUPD; k++)
2044 if ((file_version < ftupd[k].fvnr) && (j == ftupd[k].ftype))
2053 ilist[j].iatoms = NULL;
2057 do_ilist(fio, &ilist[j], bRead, file_version, j);
2058 if (file_version < 78 && j == F_SETTLE && ilist[j].nr > 0)
2060 add_settle_atoms(&ilist[j]);
2064 if (bRead && gmx_debug_at)
2065 pr_ilist(debug,0,interaction_function[j].longname,
2066 functype,&ilist[j],TRUE);
2071 static void do_idef(t_fileio *fio, gmx_ffparams_t *ffparams, gmx_moltype_t *molt,
2072 gmx_bool bRead, int file_version)
2074 do_ffparams(fio, ffparams, bRead, file_version);
2076 if (file_version >= 54)
2078 gmx_fio_do_real(fio, ffparams->fudgeQQ);
2081 do_ilists(fio, molt->ilist, bRead, file_version);
2084 static void do_block(t_fileio *fio, t_block *block, gmx_bool bRead, int file_version)
2086 int i, idum, dum_nra, *dum_a;
2088 if (file_version < 44)
2090 for (i = 0; i < MAXNODES; i++)
2092 gmx_fio_do_int(fio, idum);
2095 gmx_fio_do_int(fio, block->nr);
2096 if (file_version < 51)
2098 gmx_fio_do_int(fio, dum_nra);
2102 if ((block->nalloc_index > 0) && (NULL != block->index))
2104 sfree(block->index);
2106 block->nalloc_index = block->nr+1;
2107 snew(block->index, block->nalloc_index);
2109 gmx_fio_ndo_int(fio, block->index, block->nr+1);
2111 if (file_version < 51 && dum_nra > 0)
2113 snew(dum_a, dum_nra);
2114 gmx_fio_ndo_int(fio, dum_a, dum_nra);
2119 static void do_blocka(t_fileio *fio, t_blocka *block, gmx_bool bRead,
2124 if (file_version < 44)
2126 for (i = 0; i < MAXNODES; i++)
2128 gmx_fio_do_int(fio, idum);
2131 gmx_fio_do_int(fio, block->nr);
2132 gmx_fio_do_int(fio, block->nra);
2135 block->nalloc_index = block->nr+1;
2136 snew(block->index, block->nalloc_index);
2137 block->nalloc_a = block->nra;
2138 snew(block->a, block->nalloc_a);
2140 gmx_fio_ndo_int(fio, block->index, block->nr+1);
2141 gmx_fio_ndo_int(fio, block->a, block->nra);
2144 static void do_atom(t_fileio *fio, t_atom *atom, int ngrp, gmx_bool bRead,
2145 int file_version, gmx_groups_t *groups, int atnr)
2149 gmx_fio_do_real(fio, atom->m);
2150 gmx_fio_do_real(fio, atom->q);
2151 gmx_fio_do_real(fio, atom->mB);
2152 gmx_fio_do_real(fio, atom->qB);
2153 gmx_fio_do_ushort(fio, atom->type);
2154 gmx_fio_do_ushort(fio, atom->typeB);
2155 gmx_fio_do_int(fio, atom->ptype);
2156 gmx_fio_do_int(fio, atom->resind);
2157 if (file_version >= 52)
2159 gmx_fio_do_int(fio, atom->atomnumber);
2163 atom->atomnumber = NOTSET;
2165 if (file_version < 23)
2169 else if (file_version < 39)
2178 if (file_version < 57)
2180 unsigned char uchar[egcNR];
2181 gmx_fio_ndo_uchar(fio, uchar, myngrp);
2182 for (i = myngrp; (i < ngrp); i++)
2186 /* Copy the old data format to the groups struct */
2187 for (i = 0; i < ngrp; i++)
2189 groups->grpnr[i][atnr] = uchar[i];
2194 static void do_grps(t_fileio *fio, int ngrp, t_grps grps[], gmx_bool bRead,
2199 if (file_version < 23)
2203 else if (file_version < 39)
2212 for (j = 0; (j < ngrp); j++)
2216 gmx_fio_do_int(fio, grps[j].nr);
2219 snew(grps[j].nm_ind, grps[j].nr);
2221 gmx_fio_ndo_int(fio, grps[j].nm_ind, grps[j].nr);
2226 snew(grps[j].nm_ind, grps[j].nr);
2231 static void do_symstr(t_fileio *fio, char ***nm, gmx_bool bRead, t_symtab *symtab)
2237 gmx_fio_do_int(fio, ls);
2238 *nm = get_symtab_handle(symtab, ls);
2242 ls = lookup_symtab(symtab, *nm);
2243 gmx_fio_do_int(fio, ls);
2247 static void do_strstr(t_fileio *fio, int nstr, char ***nm, gmx_bool bRead,
2252 for (j = 0; (j < nstr); j++)
2254 do_symstr(fio, &(nm[j]), bRead, symtab);
2258 static void do_resinfo(t_fileio *fio, int n, t_resinfo *ri, gmx_bool bRead,
2259 t_symtab *symtab, int file_version)
2263 for (j = 0; (j < n); j++)
2265 do_symstr(fio, &(ri[j].name), bRead, symtab);
2266 if (file_version >= 63)
2268 gmx_fio_do_int(fio, ri[j].nr);
2269 gmx_fio_do_uchar(fio, ri[j].ic);
2279 static void do_atoms(t_fileio *fio, t_atoms *atoms, gmx_bool bRead, t_symtab *symtab,
2281 gmx_groups_t *groups)
2285 gmx_fio_do_int(fio, atoms->nr);
2286 gmx_fio_do_int(fio, atoms->nres);
2287 if (file_version < 57)
2289 gmx_fio_do_int(fio, groups->ngrpname);
2290 for (i = 0; i < egcNR; i++)
2292 groups->ngrpnr[i] = atoms->nr;
2293 snew(groups->grpnr[i], groups->ngrpnr[i]);
2298 snew(atoms->atom, atoms->nr);
2299 snew(atoms->atomname, atoms->nr);
2300 snew(atoms->atomtype, atoms->nr);
2301 snew(atoms->atomtypeB, atoms->nr);
2302 snew(atoms->resinfo, atoms->nres);
2303 if (file_version < 57)
2305 snew(groups->grpname, groups->ngrpname);
2307 atoms->pdbinfo = NULL;
2309 for (i = 0; (i < atoms->nr); i++)
2311 do_atom(fio, &atoms->atom[i], egcNR, bRead, file_version, groups, i);
2313 do_strstr(fio, atoms->nr, atoms->atomname, bRead, symtab);
2314 if (bRead && (file_version <= 20))
2316 for (i = 0; i < atoms->nr; i++)
2318 atoms->atomtype[i] = put_symtab(symtab, "?");
2319 atoms->atomtypeB[i] = put_symtab(symtab, "?");
2324 do_strstr(fio, atoms->nr, atoms->atomtype, bRead, symtab);
2325 do_strstr(fio, atoms->nr, atoms->atomtypeB, bRead, symtab);
2327 do_resinfo(fio, atoms->nres, atoms->resinfo, bRead, symtab, file_version);
2329 if (file_version < 57)
2331 do_strstr(fio, groups->ngrpname, groups->grpname, bRead, symtab);
2333 do_grps(fio, egcNR, groups->grps, bRead, file_version);
2337 static void do_groups(t_fileio *fio, gmx_groups_t *groups,
2338 gmx_bool bRead, t_symtab *symtab,
2343 do_grps(fio, egcNR, groups->grps, bRead, file_version);
2344 gmx_fio_do_int(fio, groups->ngrpname);
2347 snew(groups->grpname, groups->ngrpname);
2349 do_strstr(fio, groups->ngrpname, groups->grpname, bRead, symtab);
2350 for (g = 0; g < egcNR; g++)
2352 gmx_fio_do_int(fio, groups->ngrpnr[g]);
2353 if (groups->ngrpnr[g] == 0)
2357 groups->grpnr[g] = NULL;
2364 snew(groups->grpnr[g], groups->ngrpnr[g]);
2366 gmx_fio_ndo_uchar(fio, groups->grpnr[g], groups->ngrpnr[g]);
2371 static void do_atomtypes(t_fileio *fio, t_atomtypes *atomtypes, gmx_bool bRead,
2376 if (file_version > 25)
2378 gmx_fio_do_int(fio, atomtypes->nr);
2382 snew(atomtypes->radius, j);
2383 snew(atomtypes->vol, j);
2384 snew(atomtypes->surftens, j);
2385 snew(atomtypes->atomnumber, j);
2386 snew(atomtypes->gb_radius, j);
2387 snew(atomtypes->S_hct, j);
2389 gmx_fio_ndo_real(fio, atomtypes->radius, j);
2390 gmx_fio_ndo_real(fio, atomtypes->vol, j);
2391 gmx_fio_ndo_real(fio, atomtypes->surftens, j);
2392 if (file_version >= 40)
2394 gmx_fio_ndo_int(fio, atomtypes->atomnumber, j);
2396 if (file_version >= 60)
2398 gmx_fio_ndo_real(fio, atomtypes->gb_radius, j);
2399 gmx_fio_ndo_real(fio, atomtypes->S_hct, j);
2404 /* File versions prior to 26 cannot do GBSA,
2405 * so they dont use this structure
2408 atomtypes->radius = NULL;
2409 atomtypes->vol = NULL;
2410 atomtypes->surftens = NULL;
2411 atomtypes->atomnumber = NULL;
2412 atomtypes->gb_radius = NULL;
2413 atomtypes->S_hct = NULL;
2417 static void do_symtab(t_fileio *fio, t_symtab *symtab, gmx_bool bRead)
2423 gmx_fio_do_int(fio, symtab->nr);
2427 snew(symtab->symbuf, 1);
2428 symbuf = symtab->symbuf;
2429 symbuf->bufsize = nr;
2430 snew(symbuf->buf, nr);
2431 for (i = 0; (i < nr); i++)
2433 gmx_fio_do_string(fio, buf);
2434 symbuf->buf[i] = strdup(buf);
2439 symbuf = symtab->symbuf;
2440 while (symbuf != NULL)
2442 for (i = 0; (i < symbuf->bufsize) && (i < nr); i++)
2444 gmx_fio_do_string(fio, symbuf->buf[i]);
2447 symbuf = symbuf->next;
2451 gmx_fatal(FARGS, "nr of symtab strings left: %d", nr);
2456 static void do_cmap(t_fileio *fio, gmx_cmap_t *cmap_grid, gmx_bool bRead)
2458 int i, j, ngrid, gs, nelem;
2460 gmx_fio_do_int(fio, cmap_grid->ngrid);
2461 gmx_fio_do_int(fio, cmap_grid->grid_spacing);
2463 ngrid = cmap_grid->ngrid;
2464 gs = cmap_grid->grid_spacing;
2469 snew(cmap_grid->cmapdata, ngrid);
2471 for (i = 0; i < cmap_grid->ngrid; i++)
2473 snew(cmap_grid->cmapdata[i].cmap, 4*nelem);
2477 for (i = 0; i < cmap_grid->ngrid; i++)
2479 for (j = 0; j < nelem; j++)
2481 gmx_fio_do_real(fio, cmap_grid->cmapdata[i].cmap[j*4]);
2482 gmx_fio_do_real(fio, cmap_grid->cmapdata[i].cmap[j*4+1]);
2483 gmx_fio_do_real(fio, cmap_grid->cmapdata[i].cmap[j*4+2]);
2484 gmx_fio_do_real(fio, cmap_grid->cmapdata[i].cmap[j*4+3]);
2490 void tpx_make_chain_identifiers(t_atoms *atoms, t_block *mols)
2492 int m, a, a0, a1, r;
2496 /* We always assign a new chain number, but save the chain id characters
2497 * for larger molecules.
2499 #define CHAIN_MIN_ATOMS 15
2503 for (m = 0; m < mols->nr; m++)
2505 a0 = mols->index[m];
2506 a1 = mols->index[m+1];
2507 if ((a1-a0 >= CHAIN_MIN_ATOMS) && (chainid <= 'Z'))
2516 for (a = a0; a < a1; a++)
2518 atoms->resinfo[atoms->atom[a].resind].chainnum = chainnum;
2519 atoms->resinfo[atoms->atom[a].resind].chainid = c;
2524 /* Blank out the chain id if there was only one chain */
2527 for (r = 0; r < atoms->nres; r++)
2529 atoms->resinfo[r].chainid = ' ';
2534 static void do_moltype(t_fileio *fio, gmx_moltype_t *molt, gmx_bool bRead,
2535 t_symtab *symtab, int file_version,
2536 gmx_groups_t *groups)
2540 if (file_version >= 57)
2542 do_symstr(fio, &(molt->name), bRead, symtab);
2545 do_atoms(fio, &molt->atoms, bRead, symtab, file_version, groups);
2547 if (bRead && gmx_debug_at)
2549 pr_atoms(debug, 0, "atoms", &molt->atoms, TRUE);
2552 if (file_version >= 57)
2554 do_ilists(fio, molt->ilist, bRead, file_version);
2556 do_block(fio, &molt->cgs, bRead, file_version);
2557 if (bRead && gmx_debug_at)
2559 pr_block(debug, 0, "cgs", &molt->cgs, TRUE);
2563 /* This used to be in the atoms struct */
2564 do_blocka(fio, &molt->excls, bRead, file_version);
2567 static void do_molblock(t_fileio *fio, gmx_molblock_t *molb, gmx_bool bRead)
2571 gmx_fio_do_int(fio, molb->type);
2572 gmx_fio_do_int(fio, molb->nmol);
2573 gmx_fio_do_int(fio, molb->natoms_mol);
2574 /* Position restraint coordinates */
2575 gmx_fio_do_int(fio, molb->nposres_xA);
2576 if (molb->nposres_xA > 0)
2580 snew(molb->posres_xA, molb->nposres_xA);
2582 gmx_fio_ndo_rvec(fio, molb->posres_xA, molb->nposres_xA);
2584 gmx_fio_do_int(fio, molb->nposres_xB);
2585 if (molb->nposres_xB > 0)
2589 snew(molb->posres_xB, molb->nposres_xB);
2591 gmx_fio_ndo_rvec(fio, molb->posres_xB, molb->nposres_xB);
2596 static t_block mtop_mols(gmx_mtop_t *mtop)
2602 for (mb = 0; mb < mtop->nmolblock; mb++)
2604 mols.nr += mtop->molblock[mb].nmol;
2606 mols.nalloc_index = mols.nr + 1;
2607 snew(mols.index, mols.nalloc_index);
2612 for (mb = 0; mb < mtop->nmolblock; mb++)
2614 for (mol = 0; mol < mtop->molblock[mb].nmol; mol++)
2616 a += mtop->molblock[mb].natoms_mol;
2625 static void add_posres_molblock(gmx_mtop_t *mtop)
2630 gmx_molblock_t *molb;
2633 /* posres reference positions are stored in ip->posres (if present) and
2634 in ip->fbposres (if present). If normal and flat-bottomed posres are present,
2635 posres.pos0A are identical to fbposres.pos0. */
2636 il = &mtop->moltype[0].ilist[F_POSRES];
2637 ilfb = &mtop->moltype[0].ilist[F_FBPOSRES];
2638 if (il->nr == 0 && ilfb->nr == 0)
2644 for (i = 0; i < il->nr; i += 2)
2646 ip = &mtop->ffparams.iparams[il->iatoms[i]];
2647 am = max(am, il->iatoms[i+1]);
2648 if (ip->posres.pos0B[XX] != ip->posres.pos0A[XX] ||
2649 ip->posres.pos0B[YY] != ip->posres.pos0A[YY] ||
2650 ip->posres.pos0B[ZZ] != ip->posres.pos0A[ZZ])
2655 /* This loop is required if we have only flat-bottomed posres:
2657 - bFE == FALSE (no B-state for flat-bottomed posres) */
2660 for (i = 0; i < ilfb->nr; i += 2)
2662 ip = &mtop->ffparams.iparams[ilfb->iatoms[i]];
2663 am = max(am, ilfb->iatoms[i+1]);
2666 /* Make the posres coordinate block end at a molecule end */
2668 while (am >= mtop->mols.index[mol+1])
2672 molb = &mtop->molblock[0];
2673 molb->nposres_xA = mtop->mols.index[mol+1];
2674 snew(molb->posres_xA, molb->nposres_xA);
2677 molb->nposres_xB = molb->nposres_xA;
2678 snew(molb->posres_xB, molb->nposres_xB);
2682 molb->nposres_xB = 0;
2684 for (i = 0; i < il->nr; i += 2)
2686 ip = &mtop->ffparams.iparams[il->iatoms[i]];
2687 a = il->iatoms[i+1];
2688 molb->posres_xA[a][XX] = ip->posres.pos0A[XX];
2689 molb->posres_xA[a][YY] = ip->posres.pos0A[YY];
2690 molb->posres_xA[a][ZZ] = ip->posres.pos0A[ZZ];
2693 molb->posres_xB[a][XX] = ip->posres.pos0B[XX];
2694 molb->posres_xB[a][YY] = ip->posres.pos0B[YY];
2695 molb->posres_xB[a][ZZ] = ip->posres.pos0B[ZZ];
2700 /* If only flat-bottomed posres are present, take reference pos from them.
2701 Here: bFE == FALSE */
2702 for (i = 0; i < ilfb->nr; i += 2)
2704 ip = &mtop->ffparams.iparams[ilfb->iatoms[i]];
2705 a = ilfb->iatoms[i+1];
2706 molb->posres_xA[a][XX] = ip->fbposres.pos0[XX];
2707 molb->posres_xA[a][YY] = ip->fbposres.pos0[YY];
2708 molb->posres_xA[a][ZZ] = ip->fbposres.pos0[ZZ];
2713 static void set_disres_npair(gmx_mtop_t *mtop)
2720 ip = mtop->ffparams.iparams;
2722 for (mt = 0; mt < mtop->nmoltype; mt++)
2724 il = &mtop->moltype[mt].ilist[F_DISRES];
2729 for (i = 0; i < il->nr; i += 3)
2732 if (i+3 == il->nr || ip[a[i]].disres.label != ip[a[i+3]].disres.label)
2734 ip[a[i]].disres.npair = npair;
2742 static void do_mtop(t_fileio *fio, gmx_mtop_t *mtop, gmx_bool bRead,
2752 do_symtab(fio, &(mtop->symtab), bRead);
2755 pr_symtab(debug, 0, "symtab", &mtop->symtab);
2758 do_symstr(fio, &(mtop->name), bRead, &(mtop->symtab));
2760 if (file_version >= 57)
2762 do_ffparams(fio, &mtop->ffparams, bRead, file_version);
2764 gmx_fio_do_int(fio, mtop->nmoltype);
2772 snew(mtop->moltype, mtop->nmoltype);
2773 if (file_version < 57)
2775 mtop->moltype[0].name = mtop->name;
2778 for (mt = 0; mt < mtop->nmoltype; mt++)
2780 do_moltype(fio, &mtop->moltype[mt], bRead, &mtop->symtab, file_version,
2784 if (file_version >= 57)
2786 gmx_fio_do_int(fio, mtop->nmolblock);
2790 mtop->nmolblock = 1;
2794 snew(mtop->molblock, mtop->nmolblock);
2796 if (file_version >= 57)
2798 for (mb = 0; mb < mtop->nmolblock; mb++)
2800 do_molblock(fio, &mtop->molblock[mb], bRead);
2802 gmx_fio_do_int(fio, mtop->natoms);
2806 mtop->molblock[0].type = 0;
2807 mtop->molblock[0].nmol = 1;
2808 mtop->molblock[0].natoms_mol = mtop->moltype[0].atoms.nr;
2809 mtop->molblock[0].nposres_xA = 0;
2810 mtop->molblock[0].nposres_xB = 0;
2813 do_atomtypes (fio, &(mtop->atomtypes), bRead, file_version);
2816 pr_atomtypes(debug, 0, "atomtypes", &mtop->atomtypes, TRUE);
2819 if (file_version < 57)
2821 /* Debug statements are inside do_idef */
2822 do_idef (fio, &mtop->ffparams, &mtop->moltype[0], bRead, file_version);
2823 mtop->natoms = mtop->moltype[0].atoms.nr;
2826 if (file_version >= 65)
2828 do_cmap(fio, &mtop->ffparams.cmap_grid, bRead);
2832 mtop->ffparams.cmap_grid.ngrid = 0;
2833 mtop->ffparams.cmap_grid.grid_spacing = 0;
2834 mtop->ffparams.cmap_grid.cmapdata = NULL;
2837 if (file_version >= 57)
2839 do_groups(fio, &mtop->groups, bRead, &(mtop->symtab), file_version);
2842 if (file_version < 57)
2844 do_block(fio, &mtop->moltype[0].cgs, bRead, file_version);
2845 if (bRead && gmx_debug_at)
2847 pr_block(debug, 0, "cgs", &mtop->moltype[0].cgs, TRUE);
2849 do_block(fio, &mtop->mols, bRead, file_version);
2850 /* Add the posres coordinates to the molblock */
2851 add_posres_molblock(mtop);
2855 if (file_version >= 57)
2857 done_block(&mtop->mols);
2858 mtop->mols = mtop_mols(mtop);
2862 pr_block(debug, 0, "mols", &mtop->mols, TRUE);
2866 if (file_version < 51)
2868 /* Here used to be the shake blocks */
2869 do_blocka(fio, &dumb, bRead, file_version);
2882 close_symtab(&(mtop->symtab));
2886 /* If TopOnlyOK is TRUE then we can read even future versions
2887 * of tpx files, provided the file_generation hasn't changed.
2888 * If it is FALSE, we need the inputrecord too, and bail out
2889 * if the file is newer than the program.
2891 * The version and generation if the topology (see top of this file)
2892 * are returned in the two last arguments.
2894 * If possible, we will read the inputrec even when TopOnlyOK is TRUE.
2896 static void do_tpxheader(t_fileio *fio, gmx_bool bRead, t_tpxheader *tpx,
2897 gmx_bool TopOnlyOK, int *file_version,
2898 int *file_generation)
2901 char file_tag[STRLEN];
2908 gmx_fio_checktype(fio);
2909 gmx_fio_setdebug(fio, bDebugMode());
2911 /* NEW! XDR tpb file */
2912 precision = sizeof(real);
2915 gmx_fio_do_string(fio, buf);
2916 if (strncmp(buf, "VERSION", 7))
2918 gmx_fatal(FARGS, "Can not read file %s,\n"
2919 " this file is from a Gromacs version which is older than 2.0\n"
2920 " Make a new one with grompp or use a gro or pdb file, if possible",
2921 gmx_fio_getname(fio));
2923 gmx_fio_do_int(fio, precision);
2924 bDouble = (precision == sizeof(double));
2925 if ((precision != sizeof(float)) && !bDouble)
2927 gmx_fatal(FARGS, "Unknown precision in file %s: real is %d bytes "
2928 "instead of %d or %d",
2929 gmx_fio_getname(fio), precision, sizeof(float), sizeof(double));
2931 gmx_fio_setprecision(fio, bDouble);
2932 fprintf(stderr, "Reading file %s, %s (%s precision)\n",
2933 gmx_fio_getname(fio), buf, bDouble ? "double" : "single");
2937 gmx_fio_write_string(fio, GromacsVersion());
2938 bDouble = (precision == sizeof(double));
2939 gmx_fio_setprecision(fio, bDouble);
2940 gmx_fio_do_int(fio, precision);
2942 sprintf(file_tag, "%s", tpx_tag);
2943 fgen = tpx_generation;
2946 /* Check versions! */
2947 gmx_fio_do_int(fio, fver);
2949 /* This is for backward compatibility with development versions 77-79
2950 * where the tag was, mistakenly, placed before the generation,
2951 * which would cause a segv instead of a proper error message
2952 * when reading the topology only from tpx with <77 code.
2954 if (fver >= 77 && fver <= 79)
2956 gmx_fio_do_string(fio, file_tag);
2961 gmx_fio_do_int(fio, fgen);
2970 gmx_fio_do_string(fio, file_tag);
2976 /* Versions before 77 don't have the tag, set it to release */
2977 sprintf(file_tag, "%s", TPX_TAG_RELEASE);
2980 if (strcmp(file_tag, tpx_tag) != 0)
2982 fprintf(stderr, "Note: file tpx tag '%s', software tpx tag '%s'\n",
2985 /* We only support reading tpx files with the same tag as the code
2986 * or tpx files with the release tag and with lower version number.
2988 if (!strcmp(file_tag, TPX_TAG_RELEASE) == 0 && fver < tpx_version)
2990 gmx_fatal(FARGS, "tpx tag/version mismatch: reading tpx file (%s) version %d, tag '%s' with program for tpx version %d, tag '%s'",
2991 gmx_fio_getname(fio), fver, file_tag,
2992 tpx_version, tpx_tag);
2997 if (file_version != NULL)
2999 *file_version = fver;
3001 if (file_generation != NULL)
3003 *file_generation = fgen;
3007 if ((fver <= tpx_incompatible_version) ||
3008 ((fver > tpx_version) && !TopOnlyOK) ||
3009 (fgen > tpx_generation) ||
3010 tpx_version == 80) /*80 was used by both 5.0-dev and 4.6-dev*/
3012 gmx_fatal(FARGS, "reading tpx file (%s) version %d with version %d program",
3013 gmx_fio_getname(fio), fver, tpx_version);
3016 do_section(fio, eitemHEADER, bRead);
3017 gmx_fio_do_int(fio, tpx->natoms);
3020 gmx_fio_do_int(fio, tpx->ngtc);
3028 gmx_fio_do_int(fio, idum);
3029 gmx_fio_do_real(fio, rdum);
3031 /*a better decision will eventually (5.0 or later) need to be made
3032 on how to treat the alchemical state of the system, which can now
3033 vary through a simulation, and cannot be completely described
3034 though a single lambda variable, or even a single state
3035 index. Eventually, should probably be a vector. MRS*/
3038 gmx_fio_do_int(fio, tpx->fep_state);
3040 gmx_fio_do_real(fio, tpx->lambda);
3041 gmx_fio_do_int(fio, tpx->bIr);
3042 gmx_fio_do_int(fio, tpx->bTop);
3043 gmx_fio_do_int(fio, tpx->bX);
3044 gmx_fio_do_int(fio, tpx->bV);
3045 gmx_fio_do_int(fio, tpx->bF);
3046 gmx_fio_do_int(fio, tpx->bBox);
3048 if ((fgen > tpx_generation))
3050 /* This can only happen if TopOnlyOK=TRUE */
3055 static int do_tpx(t_fileio *fio, gmx_bool bRead,
3056 t_inputrec *ir, t_state *state, rvec *f, gmx_mtop_t *mtop,
3057 gmx_bool bXVallocated)
3063 int file_version, file_generation;
3067 gmx_bool bPeriodicMols;
3071 tpx.natoms = state->natoms;
3072 tpx.ngtc = state->ngtc; /* need to add nnhpres here? */
3073 tpx.fep_state = state->fep_state;
3074 tpx.lambda = state->lambda[efptFEP];
3075 tpx.bIr = (ir != NULL);
3076 tpx.bTop = (mtop != NULL);
3077 tpx.bX = (state->x != NULL);
3078 tpx.bV = (state->v != NULL);
3079 tpx.bF = (f != NULL);
3083 TopOnlyOK = (ir == NULL);
3085 do_tpxheader(fio, bRead, &tpx, TopOnlyOK, &file_version, &file_generation);
3090 /* state->lambda = tpx.lambda;*/ /*remove this eventually? */
3091 /* The init_state calls initialize the Nose-Hoover xi integrals to zero */
3096 init_state(state, 0, tpx.ngtc, 0, 0, 0); /* nose-hoover chains */ /* eventually, need to add nnhpres here? */
3097 state->natoms = tpx.natoms;
3098 state->nalloc = tpx.natoms;
3104 init_state(state, tpx.natoms, tpx.ngtc, 0, 0, 0); /* nose-hoover chains */
3108 #define do_test(fio, b, p) if (bRead && (p != NULL) && !b) gmx_fatal(FARGS, "No %s in %s",#p, gmx_fio_getname(fio))
3110 do_test(fio, tpx.bBox, state->box);
3111 do_section(fio, eitemBOX, bRead);
3114 gmx_fio_ndo_rvec(fio, state->box, DIM);
3115 if (file_version >= 51)
3117 gmx_fio_ndo_rvec(fio, state->box_rel, DIM);
3121 /* We initialize box_rel after reading the inputrec */
3122 clear_mat(state->box_rel);
3124 if (file_version >= 28)
3126 gmx_fio_ndo_rvec(fio, state->boxv, DIM);
3127 if (file_version < 56)
3130 gmx_fio_ndo_rvec(fio, mdum, DIM);
3135 if (state->ngtc > 0 && file_version >= 28)
3138 /*ndo_double(state->nosehoover_xi,state->ngtc,bDum);*/
3139 /*ndo_double(state->nosehoover_vxi,state->ngtc,bDum);*/
3140 /*ndo_double(state->therm_integral,state->ngtc,bDum);*/
3141 snew(dumv, state->ngtc);
3142 if (file_version < 69)
3144 gmx_fio_ndo_real(fio, dumv, state->ngtc);
3146 /* These used to be the Berendsen tcoupl_lambda's */
3147 gmx_fio_ndo_real(fio, dumv, state->ngtc);
3151 /* Prior to tpx version 26, the inputrec was here.
3152 * I moved it to enable partial forward-compatibility
3153 * for analysis/viewer programs.
3155 if (file_version < 26)
3157 do_test(fio, tpx.bIr, ir);
3158 do_section(fio, eitemIR, bRead);
3163 do_inputrec(fio, ir, bRead, file_version,
3164 mtop ? &mtop->ffparams.fudgeQQ : NULL);
3167 pr_inputrec(debug, 0, "inputrec", ir, FALSE);
3172 do_inputrec(fio, &dum_ir, bRead, file_version,
3173 mtop ? &mtop->ffparams.fudgeQQ : NULL);
3176 pr_inputrec(debug, 0, "inputrec", &dum_ir, FALSE);
3178 done_inputrec(&dum_ir);
3184 do_test(fio, tpx.bTop, mtop);
3185 do_section(fio, eitemTOP, bRead);
3190 do_mtop(fio, mtop, bRead, file_version);
3194 do_mtop(fio, &dum_top, bRead, file_version);
3195 done_mtop(&dum_top, TRUE);
3198 do_test(fio, tpx.bX, state->x);
3199 do_section(fio, eitemX, bRead);
3204 state->flags |= (1<<estX);
3206 gmx_fio_ndo_rvec(fio, state->x, state->natoms);
3209 do_test(fio, tpx.bV, state->v);
3210 do_section(fio, eitemV, bRead);
3215 state->flags |= (1<<estV);
3217 gmx_fio_ndo_rvec(fio, state->v, state->natoms);
3220 do_test(fio, tpx.bF, f);
3221 do_section(fio, eitemF, bRead);
3224 gmx_fio_ndo_rvec(fio, f, state->natoms);
3227 /* Starting with tpx version 26, we have the inputrec
3228 * at the end of the file, so we can ignore it
3229 * if the file is never than the software (but still the
3230 * same generation - see comments at the top of this file.
3235 bPeriodicMols = FALSE;
3236 if (file_version >= 26)
3238 do_test(fio, tpx.bIr, ir);
3239 do_section(fio, eitemIR, bRead);
3242 if (file_version >= 53)
3244 /* Removed the pbc info from do_inputrec, since we always want it */
3248 bPeriodicMols = ir->bPeriodicMols;
3250 gmx_fio_do_int(fio, ePBC);
3251 gmx_fio_do_gmx_bool(fio, bPeriodicMols);
3253 if (file_generation <= tpx_generation && ir)
3255 do_inputrec(fio, ir, bRead, file_version, mtop ? &mtop->ffparams.fudgeQQ : NULL);
3258 pr_inputrec(debug, 0, "inputrec", ir, FALSE);
3260 if (file_version < 51)
3262 set_box_rel(ir, state);
3264 if (file_version < 53)
3267 bPeriodicMols = ir->bPeriodicMols;
3270 if (bRead && ir && file_version >= 53)
3272 /* We need to do this after do_inputrec, since that initializes ir */
3274 ir->bPeriodicMols = bPeriodicMols;
3283 if (state->ngtc == 0)
3285 /* Reading old version without tcoupl state data: set it */
3286 init_gtc_state(state, ir->opts.ngtc, 0, ir->opts.nhchainlength);
3288 if (tpx.bTop && mtop)
3290 if (file_version < 57)
3292 if (mtop->moltype[0].ilist[F_DISRES].nr > 0)
3294 ir->eDisre = edrSimple;
3298 ir->eDisre = edrNone;
3301 set_disres_npair(mtop);
3305 if (tpx.bTop && mtop)
3307 gmx_mtop_finalize(mtop);
3310 if (file_version >= 57)
3314 env = getenv("GMX_NOCHARGEGROUPS");
3317 sscanf(env, "%d", &ienv);
3318 fprintf(stderr, "\nFound env.var. GMX_NOCHARGEGROUPS = %d\n",
3323 "Will make single atomic charge groups in non-solvent%s\n",
3324 ienv > 1 ? " and solvent" : "");
3325 gmx_mtop_make_atomic_charge_groups(mtop, ienv == 1);
3327 fprintf(stderr, "\n");
3335 /************************************************************
3337 * The following routines are the exported ones
3339 ************************************************************/
3341 t_fileio *open_tpx(const char *fn, const char *mode)
3343 return gmx_fio_open(fn, mode);
3346 void close_tpx(t_fileio *fio)
3351 void read_tpxheader(const char *fn, t_tpxheader *tpx, gmx_bool TopOnlyOK,
3352 int *file_version, int *file_generation)
3356 fio = open_tpx(fn, "r");
3357 do_tpxheader(fio, TRUE, tpx, TopOnlyOK, file_version, file_generation);
3361 void write_tpx_state(const char *fn,
3362 t_inputrec *ir, t_state *state, gmx_mtop_t *mtop)
3366 fio = open_tpx(fn, "w");
3367 do_tpx(fio, FALSE, ir, state, NULL, mtop, FALSE);
3371 void read_tpx_state(const char *fn,
3372 t_inputrec *ir, t_state *state, rvec *f, gmx_mtop_t *mtop)
3376 fio = open_tpx(fn, "r");
3377 do_tpx(fio, TRUE, ir, state, f, mtop, FALSE);
3381 int read_tpx(const char *fn,
3382 t_inputrec *ir, matrix box, int *natoms,
3383 rvec *x, rvec *v, rvec *f, gmx_mtop_t *mtop)
3391 fio = open_tpx(fn, "r");
3392 ePBC = do_tpx(fio, TRUE, ir, &state, f, mtop, TRUE);
3394 *natoms = state.natoms;
3397 copy_mat(state.box, box);
3406 int read_tpx_top(const char *fn,
3407 t_inputrec *ir, matrix box, int *natoms,
3408 rvec *x, rvec *v, rvec *f, t_topology *top)
3414 ePBC = read_tpx(fn, ir, box, natoms, x, v, f, &mtop);
3416 *top = gmx_mtop_t_to_t_topology(&mtop);
3421 gmx_bool fn2bTPX(const char *file)
3423 switch (fn2ftp(file))
3434 static void done_gmx_groups_t(gmx_groups_t *g)
3438 for (i = 0; (i < egcNR); i++)
3440 if (NULL != g->grps[i].nm_ind)
3442 sfree(g->grps[i].nm_ind);
3443 g->grps[i].nm_ind = NULL;
3445 if (NULL != g->grpnr[i])
3451 /* The contents of this array is in symtab, don't free it here */
3455 gmx_bool read_tps_conf(const char *infile, char *title, t_topology *top, int *ePBC,
3456 rvec **x, rvec **v, matrix box, gmx_bool bMass)
3459 int natoms, i, version, generation;
3460 gmx_bool bTop, bXNULL = FALSE;
3462 t_topology *topconv;
3465 bTop = fn2bTPX(infile);
3469 read_tpxheader(infile, &header, TRUE, &version, &generation);
3472 snew(*x, header.natoms);
3476 snew(*v, header.natoms);
3479 *ePBC = read_tpx(infile, NULL, box, &natoms,
3480 (x == NULL) ? NULL : *x, (v == NULL) ? NULL : *v, NULL, mtop);
3481 *top = gmx_mtop_t_to_t_topology(mtop);
3482 /* In this case we need to throw away the group data too */
3483 done_gmx_groups_t(&mtop->groups);
3485 strcpy(title, *top->name);
3486 tpx_make_chain_identifiers(&top->atoms, &top->mols);
3490 get_stx_coordnum(infile, &natoms);
3491 init_t_atoms(&top->atoms, natoms, (fn2ftp(infile) == efPDB));
3502 read_stx_conf(infile, title, &top->atoms, *x, (v == NULL) ? NULL : *v, ePBC, box);
3510 aps = gmx_atomprop_init();
3511 for (i = 0; (i < natoms); i++)
3513 if (!gmx_atomprop_query(aps, epropMass,
3514 *top->atoms.resinfo[top->atoms.atom[i].resind].name,
3515 *top->atoms.atomname[i],
3516 &(top->atoms.atom[i].m)))
3520 fprintf(debug, "Can not find mass for atom %s %d %s, setting to 1\n",
3521 *top->atoms.resinfo[top->atoms.atom[i].resind].name,
3522 top->atoms.resinfo[top->atoms.atom[i].resind].nr,
3523 *top->atoms.atomname[i]);
3527 gmx_atomprop_destroy(aps);
3529 top->idef.ntypes = -1;