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39 /* This file is completely threadsafe - please keep it that way! */
44 #include "gromacs/legacyheaders/typedefs.h"
45 #include "gromacs/legacyheaders/types/commrec.h"
46 #include "gromacs/legacyheaders/names.h"
47 #include "gromacs/legacyheaders/txtdump.h"
48 #include "gromacs/math/vec.h"
49 #include "gromacs/legacyheaders/macros.h"
51 #include "gromacs/utility/fatalerror.h"
52 #include "gromacs/utility/smalloc.h"
54 int pr_indent(FILE *fp, int n)
58 for (i = 0; i < n; i++)
60 (void) fprintf(fp, " ");
65 int available(FILE *fp, void *p, int indent, const char *title)
71 pr_indent(fp, indent);
73 (void) fprintf(fp, "%s: not available\n", title);
78 int pr_title(FILE *fp, int indent, const char *title)
80 (void) pr_indent(fp, indent);
81 (void) fprintf(fp, "%s:\n", title);
82 return (indent+INDENT);
85 int pr_title_n(FILE *fp, int indent, const char *title, int n)
87 (void) pr_indent(fp, indent);
88 (void) fprintf(fp, "%s (%d):\n", title, n);
89 return (indent+INDENT);
92 int pr_title_nxn(FILE *fp, int indent, const char *title, int n1, int n2)
94 (void) pr_indent(fp, indent);
95 (void) fprintf(fp, "%s (%dx%d):\n", title, n1, n2);
96 return (indent+INDENT);
99 void pr_ivec(FILE *fp, int indent, const char *title, int vec[], int n, gmx_bool bShowNumbers)
103 if (available(fp, vec, indent, title))
105 indent = pr_title_n(fp, indent, title, n);
106 for (i = 0; i < n; i++)
108 (void) pr_indent(fp, indent);
109 (void) fprintf(fp, "%s[%d]=%d\n", title, bShowNumbers ? i : -1, vec[i]);
114 void pr_ivec_block(FILE *fp, int indent, const char *title, int vec[], int n, gmx_bool bShowNumbers)
118 if (available(fp, vec, indent, title))
120 indent = pr_title_n(fp, indent, title, n);
125 while (j < n && vec[j] == vec[j-1]+1)
129 /* Print consecutive groups of 3 or more as blocks */
134 (void) pr_indent(fp, indent);
135 (void) fprintf(fp, "%s[%d]=%d\n",
136 title, bShowNumbers ? i : -1, vec[i]);
142 (void) pr_indent(fp, indent);
143 (void) fprintf(fp, "%s[%d,...,%d] = {%d,...,%d}\n",
145 bShowNumbers ? i : -1,
146 bShowNumbers ? j-1 : -1,
154 void pr_bvec(FILE *fp, int indent, const char *title, gmx_bool vec[], int n, gmx_bool bShowNumbers)
158 if (available(fp, vec, indent, title))
160 indent = pr_title_n(fp, indent, title, n);
161 for (i = 0; i < n; i++)
163 (void) pr_indent(fp, indent);
164 (void) fprintf(fp, "%s[%d]=%s\n", title, bShowNumbers ? i : -1,
170 void pr_ivecs(FILE *fp, int indent, const char *title, ivec vec[], int n, gmx_bool bShowNumbers)
174 if (available(fp, vec, indent, title))
176 indent = pr_title_nxn(fp, indent, title, n, DIM);
177 for (i = 0; i < n; i++)
179 (void) pr_indent(fp, indent);
180 (void) fprintf(fp, "%s[%d]={", title, bShowNumbers ? i : -1);
181 for (j = 0; j < DIM; j++)
185 (void) fprintf(fp, ", ");
187 fprintf(fp, "%d", vec[i][j]);
189 (void) fprintf(fp, "}\n");
194 void pr_rvec(FILE *fp, int indent, const char *title, real vec[], int n, gmx_bool bShowNumbers)
198 if (available(fp, vec, indent, title))
200 indent = pr_title_n(fp, indent, title, n);
201 for (i = 0; i < n; i++)
203 pr_indent(fp, indent);
204 fprintf(fp, "%s[%d]=%12.5e\n", title, bShowNumbers ? i : -1, vec[i]);
209 void pr_dvec(FILE *fp, int indent, const char *title, double vec[], int n, gmx_bool bShowNumbers)
213 if (available(fp, vec, indent, title))
215 indent = pr_title_n(fp, indent, title, n);
216 for (i = 0; i < n; i++)
218 pr_indent(fp, indent);
219 fprintf(fp, "%s[%d]=%12.5e\n", title, bShowNumbers ? i : -1, vec[i]);
226 void pr_mat(FILE *fp,int indent,char *title,matrix m)
230 if (available(fp,m,indent,title)) {
231 indent=pr_title_n(fp,indent,title,n);
233 pr_indent(fp,indent);
234 fprintf(fp,"%s[%d]=%12.5e %12.5e %12.5e\n",
235 title,bShowNumbers?i:-1,m[i][XX],m[i][YY],m[i][ZZ]);
241 void pr_rvecs_len(FILE *fp, int indent, const char *title, rvec vec[], int n)
245 if (available(fp, vec, indent, title))
247 indent = pr_title_nxn(fp, indent, title, n, DIM);
248 for (i = 0; i < n; i++)
250 (void) pr_indent(fp, indent);
251 (void) fprintf(fp, "%s[%5d]={", title, i);
252 for (j = 0; j < DIM; j++)
256 (void) fprintf(fp, ", ");
258 (void) fprintf(fp, "%12.5e", vec[i][j]);
260 (void) fprintf(fp, "} len=%12.5e\n", norm(vec[i]));
265 void pr_rvecs(FILE *fp, int indent, const char *title, rvec vec[], int n)
267 const char *fshort = "%12.5e";
268 const char *flong = "%15.8e";
272 if (getenv("GMX_PRINT_LONGFORMAT") != NULL)
281 if (available(fp, vec, indent, title))
283 indent = pr_title_nxn(fp, indent, title, n, DIM);
284 for (i = 0; i < n; i++)
286 (void) pr_indent(fp, indent);
287 (void) fprintf(fp, "%s[%5d]={", title, i);
288 for (j = 0; j < DIM; j++)
292 (void) fprintf(fp, ", ");
294 (void) fprintf(fp, format, vec[i][j]);
296 (void) fprintf(fp, "}\n");
302 void pr_rvecs_of_dim(FILE *fp, int indent, const char *title, rvec vec[], int n, int dim)
304 const char *fshort = "%12.5e";
305 const char *flong = "%15.8e";
309 if (getenv("GMX_PRINT_LONGFORMAT") != NULL)
318 if (available(fp, vec, indent, title))
320 indent = pr_title_nxn(fp, indent, title, n, dim);
321 for (i = 0; i < n; i++)
323 (void) pr_indent(fp, indent);
324 (void) fprintf(fp, "%s[%5d]={", title, i);
325 for (j = 0; j < dim; j++)
329 (void) fprintf(fp, ", ");
331 (void) fprintf(fp, format, vec[i][j]);
333 (void) fprintf(fp, "}\n");
338 void pr_reals(FILE *fp, int indent, const char *title, real *vec, int n)
342 if (available(fp, vec, indent, title))
344 (void) pr_indent(fp, indent);
345 (void) fprintf(fp, "%s:\t", title);
346 for (i = 0; i < n; i++)
348 fprintf(fp, " %10g", vec[i]);
350 (void) fprintf(fp, "\n");
354 void pr_doubles(FILE *fp, int indent, const char *title, double *vec, int n)
358 if (available(fp, vec, indent, title))
360 (void) pr_indent(fp, indent);
361 (void) fprintf(fp, "%s:\t", title);
362 for (i = 0; i < n; i++)
364 fprintf(fp, " %10g", vec[i]);
366 (void) fprintf(fp, "\n");
370 void pr_reals_of_dim(FILE *fp, int indent, const char *title, real *vec, int n, int dim)
373 const char *fshort = "%12.5e";
374 const char *flong = "%15.8e";
377 if (getenv("GMX_PRINT_LONGFORMAT") != NULL)
386 if (available(fp, vec, indent, title))
388 indent = pr_title_nxn(fp, indent, title, n, dim);
389 for (i = 0; i < n; i++)
391 (void) pr_indent(fp, indent);
392 (void) fprintf(fp, "%s[%5d]={", title, i);
393 for (j = 0; j < dim; j++)
397 (void) fprintf(fp, ", ");
399 (void) fprintf(fp, format, vec[i * dim + j]);
401 (void) fprintf(fp, "}\n");
406 static void pr_int(FILE *fp, int indent, const char *title, int i)
408 pr_indent(fp, indent);
409 fprintf(fp, "%-30s = %d\n", title, i);
412 static void pr_int64(FILE *fp, int indent, const char *title, gmx_int64_t i)
414 char buf[STEPSTRSIZE];
416 pr_indent(fp, indent);
417 fprintf(fp, "%-30s = %s\n", title, gmx_step_str(i, buf));
420 static void pr_real(FILE *fp, int indent, const char *title, real r)
422 pr_indent(fp, indent);
423 fprintf(fp, "%-30s = %g\n", title, r);
426 static void pr_double(FILE *fp, int indent, const char *title, double d)
428 pr_indent(fp, indent);
429 fprintf(fp, "%-30s = %g\n", title, d);
432 static void pr_str(FILE *fp, int indent, const char *title, const char *s)
434 pr_indent(fp, indent);
435 fprintf(fp, "%-30s = %s\n", title, s);
438 void pr_qm_opts(FILE *fp, int indent, const char *title, t_grpopts *opts)
442 fprintf(fp, "%s:\n", title);
444 pr_int(fp, indent, "ngQM", opts->ngQM);
447 pr_ivec(fp, indent, "QMmethod", opts->QMmethod, opts->ngQM, FALSE);
448 pr_ivec(fp, indent, "QMbasis", opts->QMbasis, opts->ngQM, FALSE);
449 pr_ivec(fp, indent, "QMcharge", opts->QMcharge, opts->ngQM, FALSE);
450 pr_ivec(fp, indent, "QMmult", opts->QMmult, opts->ngQM, FALSE);
451 pr_bvec(fp, indent, "SH", opts->bSH, opts->ngQM, FALSE);
452 pr_ivec(fp, indent, "CASorbitals", opts->CASorbitals, opts->ngQM, FALSE);
453 pr_ivec(fp, indent, "CASelectrons", opts->CASelectrons, opts->ngQM, FALSE);
454 pr_rvec(fp, indent, "SAon", opts->SAon, opts->ngQM, FALSE);
455 pr_rvec(fp, indent, "SAoff", opts->SAoff, opts->ngQM, FALSE);
456 pr_ivec(fp, indent, "SAsteps", opts->SAsteps, opts->ngQM, FALSE);
457 pr_bvec(fp, indent, "bOPT", opts->bOPT, opts->ngQM, FALSE);
458 pr_bvec(fp, indent, "bTS", opts->bTS, opts->ngQM, FALSE);
462 static void pr_grp_opts(FILE *out, int indent, const char *title, t_grpopts *opts,
469 fprintf(out, "%s:\n", title);
472 pr_indent(out, indent);
473 fprintf(out, "nrdf%s", bMDPformat ? " = " : ":");
474 for (i = 0; (i < opts->ngtc); i++)
476 fprintf(out, " %10g", opts->nrdf[i]);
480 pr_indent(out, indent);
481 fprintf(out, "ref-t%s", bMDPformat ? " = " : ":");
482 for (i = 0; (i < opts->ngtc); i++)
484 fprintf(out, " %10g", opts->ref_t[i]);
488 pr_indent(out, indent);
489 fprintf(out, "tau-t%s", bMDPformat ? " = " : ":");
490 for (i = 0; (i < opts->ngtc); i++)
492 fprintf(out, " %10g", opts->tau_t[i]);
496 /* Pretty-print the simulated annealing info */
497 fprintf(out, "annealing%s", bMDPformat ? " = " : ":");
498 for (i = 0; (i < opts->ngtc); i++)
500 fprintf(out, " %10s", EANNEAL(opts->annealing[i]));
504 fprintf(out, "annealing-npoints%s", bMDPformat ? " = " : ":");
505 for (i = 0; (i < opts->ngtc); i++)
507 fprintf(out, " %10d", opts->anneal_npoints[i]);
511 for (i = 0; (i < opts->ngtc); i++)
513 if (opts->anneal_npoints[i] > 0)
515 fprintf(out, "annealing-time [%d]:\t", i);
516 for (j = 0; (j < opts->anneal_npoints[i]); j++)
518 fprintf(out, " %10.1f", opts->anneal_time[i][j]);
521 fprintf(out, "annealing-temp [%d]:\t", i);
522 for (j = 0; (j < opts->anneal_npoints[i]); j++)
524 fprintf(out, " %10.1f", opts->anneal_temp[i][j]);
530 pr_indent(out, indent);
531 fprintf(out, "acc:\t");
532 for (i = 0; (i < opts->ngacc); i++)
534 for (m = 0; (m < DIM); m++)
536 fprintf(out, " %10g", opts->acc[i][m]);
541 pr_indent(out, indent);
542 fprintf(out, "nfreeze:");
543 for (i = 0; (i < opts->ngfrz); i++)
545 for (m = 0; (m < DIM); m++)
547 fprintf(out, " %10s", opts->nFreeze[i][m] ? "Y" : "N");
553 for (i = 0; (i < opts->ngener); i++)
555 pr_indent(out, indent);
556 fprintf(out, "energygrp-flags[%3d]:", i);
557 for (m = 0; (m < opts->ngener); m++)
559 fprintf(out, " %d", opts->egp_flags[opts->ngener*i+m]);
567 static void pr_matrix(FILE *fp, int indent, const char *title, rvec *m,
572 fprintf(fp, "%-10s = %g %g %g %g %g %g\n", title,
573 m[XX][XX], m[YY][YY], m[ZZ][ZZ], m[XX][YY], m[XX][ZZ], m[YY][ZZ]);
577 pr_rvecs(fp, indent, title, m, DIM);
581 static void pr_cosine(FILE *fp, int indent, const char *title, t_cosines *cos,
588 fprintf(fp, "%s = %d\n", title, cos->n);
592 indent = pr_title(fp, indent, title);
593 (void) pr_indent(fp, indent);
594 fprintf(fp, "n = %d\n", cos->n);
597 (void) pr_indent(fp, indent+2);
599 for (j = 0; (j < cos->n); j++)
601 fprintf(fp, " %e", cos->a[j]);
604 (void) pr_indent(fp, indent+2);
605 fprintf(fp, "phi =");
606 for (j = 0; (j < cos->n); j++)
608 fprintf(fp, " %e", cos->phi[j]);
615 #define PS(t, s) pr_str(fp, indent, t, s)
616 #define PI(t, s) pr_int(fp, indent, t, s)
617 #define PSTEP(t, s) pr_int64(fp, indent, t, s)
618 #define PR(t, s) pr_real(fp, indent, t, s)
619 #define PD(t, s) pr_double(fp, indent, t, s)
621 static void pr_pull_group(FILE *fp, int indent, int g, t_pull_group *pgrp)
623 pr_indent(fp, indent);
624 fprintf(fp, "pull-group %d:\n", g);
626 pr_ivec_block(fp, indent, "atom", pgrp->ind, pgrp->nat, TRUE);
627 pr_rvec(fp, indent, "weight", pgrp->weight, pgrp->nweight, TRUE);
628 PI("pbcatom", pgrp->pbcatom);
631 static void pr_pull_coord(FILE *fp, int indent, int c, t_pull_coord *pcrd)
633 pr_indent(fp, indent);
634 fprintf(fp, "pull-coord %d:\n", c);
635 PI("group[0]", pcrd->group[0]);
636 PI("group[1]", pcrd->group[1]);
637 pr_rvec(fp, indent, "origin", pcrd->origin, DIM, TRUE);
638 pr_rvec(fp, indent, "vec", pcrd->vec, DIM, TRUE);
639 PR("init", pcrd->init);
640 PR("rate", pcrd->rate);
645 static void pr_simtempvals(FILE *fp, int indent, t_simtemp *simtemp, int n_lambda)
647 PS("simulated-tempering-scaling", ESIMTEMP(simtemp->eSimTempScale));
648 PR("sim-temp-low", simtemp->simtemp_low);
649 PR("sim-temp-high", simtemp->simtemp_high);
650 pr_rvec(fp, indent, "simulated tempering temperatures", simtemp->temperatures, n_lambda, TRUE);
653 static void pr_expandedvals(FILE *fp, int indent, t_expanded *expand, int n_lambda)
656 PI("nstexpanded", expand->nstexpanded);
657 PS("lmc-stats", elamstats_names[expand->elamstats]);
658 PS("lmc-move", elmcmove_names[expand->elmcmove]);
659 PS("lmc-weights-equil", elmceq_names[expand->elmceq]);
660 if (expand->elmceq == elmceqNUMATLAM)
662 PI("weight-equil-number-all-lambda", expand->equil_n_at_lam);
664 if (expand->elmceq == elmceqSAMPLES)
666 PI("weight-equil-number-samples", expand->equil_samples);
668 if (expand->elmceq == elmceqSTEPS)
670 PI("weight-equil-number-steps", expand->equil_steps);
672 if (expand->elmceq == elmceqWLDELTA)
674 PR("weight-equil-wl-delta", expand->equil_wl_delta);
676 if (expand->elmceq == elmceqRATIO)
678 PR("weight-equil-count-ratio", expand->equil_ratio);
680 PI("lmc-seed", expand->lmc_seed);
681 PR("mc-temperature", expand->mc_temp);
682 PI("lmc-repeats", expand->lmc_repeats);
683 PI("lmc-gibbsdelta", expand->gibbsdeltalam);
684 PI("lmc-forced-nstart", expand->lmc_forced_nstart);
685 PS("symmetrized-transition-matrix", EBOOL(expand->bSymmetrizedTMatrix));
686 PI("nst-transition-matrix", expand->nstTij);
687 PI("mininum-var-min", expand->minvarmin); /*default is reasonable */
688 PI("weight-c-range", expand->c_range); /* default is just C=0 */
689 PR("wl-scale", expand->wl_scale);
690 PR("wl-ratio", expand->wl_ratio);
691 PR("init-wl-delta", expand->init_wl_delta);
692 PS("wl-oneovert", EBOOL(expand->bWLoneovert));
694 pr_indent(fp, indent);
695 pr_rvec(fp, indent, "init-lambda-weights", expand->init_lambda_weights, n_lambda, TRUE);
696 PS("init-weights", EBOOL(expand->bInit_weights));
699 static void pr_fepvals(FILE *fp, int indent, t_lambda *fep, gmx_bool bMDPformat)
703 PR("init-lambda", fep->init_lambda);
704 PI("init-lambda-state", fep->init_fep_state);
705 PR("delta-lambda", fep->delta_lambda);
706 PI("nstdhdl", fep->nstdhdl);
710 PI("n-lambdas", fep->n_lambda);
712 if (fep->n_lambda > 0)
714 pr_indent(fp, indent);
715 fprintf(fp, "separate-dvdl%s\n", bMDPformat ? " = " : ":");
716 for (i = 0; i < efptNR; i++)
718 fprintf(fp, "%18s = ", efpt_names[i]);
719 if (fep->separate_dvdl[i])
721 fprintf(fp, " TRUE");
725 fprintf(fp, " FALSE");
729 fprintf(fp, "all-lambdas%s\n", bMDPformat ? " = " : ":");
730 for (i = 0; i < efptNR; i++)
732 fprintf(fp, "%18s = ", efpt_names[i]);
733 for (j = 0; j < fep->n_lambda; j++)
735 fprintf(fp, " %10g", fep->all_lambda[i][j]);
740 PI("calc-lambda-neighbors", fep->lambda_neighbors);
741 PS("dhdl-print-energy", edHdLPrintEnergy_names[fep->edHdLPrintEnergy]);
742 PR("sc-alpha", fep->sc_alpha);
743 PI("sc-power", fep->sc_power);
744 PR("sc-r-power", fep->sc_r_power);
745 PR("sc-sigma", fep->sc_sigma);
746 PR("sc-sigma-min", fep->sc_sigma_min);
747 PS("sc-coul", EBOOL(fep->bScCoul));
748 PI("dh-hist-size", fep->dh_hist_size);
749 PD("dh-hist-spacing", fep->dh_hist_spacing);
750 PS("separate-dhdl-file", SEPDHDLFILETYPE(fep->separate_dhdl_file));
751 PS("dhdl-derivatives", DHDLDERIVATIVESTYPE(fep->dhdl_derivatives));
754 static void pr_pull(FILE *fp, int indent, t_pull *pull)
758 PS("pull-geometry", EPULLGEOM(pull->eGeom));
759 pr_ivec(fp, indent, "pull-dim", pull->dim, DIM, TRUE);
760 PR("pull-r1", pull->cyl_r1);
761 PR("pull-r0", pull->cyl_r0);
762 PR("pull-constr-tol", pull->constr_tol);
763 PS("pull-print-reference", EBOOL(pull->bPrintRef));
764 PI("pull-nstxout", pull->nstxout);
765 PI("pull-nstfout", pull->nstfout);
766 PI("pull-ngroups", pull->ngroup);
767 for (g = 0; g < pull->ngroup; g++)
769 pr_pull_group(fp, indent, g, &pull->group[g]);
771 PI("pull-ncoords", pull->ncoord);
772 for (g = 0; g < pull->ncoord; g++)
774 pr_pull_coord(fp, indent, g, &pull->coord[g]);
778 static void pr_rotgrp(FILE *fp, int indent, int g, t_rotgrp *rotg)
780 pr_indent(fp, indent);
781 fprintf(fp, "rot-group %d:\n", g);
783 PS("rot-type", EROTGEOM(rotg->eType));
784 PS("rot-massw", EBOOL(rotg->bMassW));
785 pr_ivec_block(fp, indent, "atom", rotg->ind, rotg->nat, TRUE);
786 pr_rvecs(fp, indent, "x-ref", rotg->x_ref, rotg->nat);
787 pr_rvec(fp, indent, "rot-vec", rotg->vec, DIM, TRUE);
788 pr_rvec(fp, indent, "rot-pivot", rotg->pivot, DIM, TRUE);
789 PR("rot-rate", rotg->rate);
790 PR("rot-k", rotg->k);
791 PR("rot-slab-dist", rotg->slab_dist);
792 PR("rot-min-gauss", rotg->min_gaussian);
793 PR("rot-eps", rotg->eps);
794 PS("rot-fit-method", EROTFIT(rotg->eFittype));
795 PI("rot_potfit_nstep", rotg->PotAngle_nstep);
796 PR("rot_potfit_step", rotg->PotAngle_step);
799 static void pr_rot(FILE *fp, int indent, t_rot *rot)
803 PI("rot-nstrout", rot->nstrout);
804 PI("rot-nstsout", rot->nstsout);
805 PI("rot-ngroups", rot->ngrp);
806 for (g = 0; g < rot->ngrp; g++)
808 pr_rotgrp(fp, indent, g, &rot->grp[g]);
813 static void pr_swap(FILE *fp, int indent, t_swapcoords *swap)
819 PI("swap-frequency", swap->nstswap);
820 for (j = 0; j < 2; j++)
822 sprintf(str, "massw_split%d", j);
823 PS(str, EBOOL(swap->massw_split[j]));
824 sprintf(str, "split atoms group %d", j);
825 pr_ivec_block(fp, indent, str, swap->ind_split[j], swap->nat_split[j], TRUE);
827 pr_ivec_block(fp, indent, "swap atoms", swap->ind, swap->nat, TRUE);
828 pr_ivec_block(fp, indent, "solvent atoms", swap->ind_sol, swap->nat_sol, TRUE);
829 PR("cyl0-r", swap->cyl0r);
830 PR("cyl0-up", swap->cyl0u);
831 PR("cyl0-down", swap->cyl0l);
832 PR("cyl1-r", swap->cyl1r);
833 PR("cyl1-up", swap->cyl1u);
834 PR("cyl1-down", swap->cyl1l);
835 PI("coupl-steps", swap->nAverage);
836 for (j = 0; j < 2; j++)
838 sprintf(str, "anions%c", j+'A');
839 PI(str, swap->nanions[j]);
840 sprintf(str, "cations%c", j+'A');
841 PI(str, swap->ncations[j]);
843 PR("threshold", swap->threshold);
847 static void pr_imd(FILE *fp, int indent, t_IMD *imd)
849 PI("IMD-atoms", imd->nat);
850 pr_ivec_block(fp, indent, "atom", imd->ind, imd->nat, TRUE);
854 void pr_inputrec(FILE *fp, int indent, const char *title, t_inputrec *ir,
857 const char *infbuf = "inf";
860 if (available(fp, ir, indent, title))
864 indent = pr_title(fp, indent, title);
866 /* Try to make this list appear in the same order as the
867 * options are written in the default mdout.mdp, and with
868 * the same user-exposed names to facilitate debugging.
870 PS("integrator", EI(ir->eI));
871 PR("tinit", ir->init_t);
872 PR("dt", ir->delta_t);
873 PSTEP("nsteps", ir->nsteps);
874 PSTEP("init-step", ir->init_step);
875 PI("simulation-part", ir->simulation_part);
876 PS("comm-mode", ECOM(ir->comm_mode));
877 PI("nstcomm", ir->nstcomm);
879 /* Langevin dynamics */
880 PR("bd-fric", ir->bd_fric);
881 PSTEP("ld-seed", ir->ld_seed);
883 /* Energy minimization */
884 PR("emtol", ir->em_tol);
885 PR("emstep", ir->em_stepsize);
886 PI("niter", ir->niter);
887 PR("fcstep", ir->fc_stepsize);
888 PI("nstcgsteep", ir->nstcgsteep);
889 PI("nbfgscorr", ir->nbfgscorr);
891 /* Test particle insertion */
892 PR("rtpi", ir->rtpi);
895 PI("nstxout", ir->nstxout);
896 PI("nstvout", ir->nstvout);
897 PI("nstfout", ir->nstfout);
898 PI("nstlog", ir->nstlog);
899 PI("nstcalcenergy", ir->nstcalcenergy);
900 PI("nstenergy", ir->nstenergy);
901 PI("nstxout-compressed", ir->nstxout_compressed);
902 PR("compressed-x-precision", ir->x_compression_precision);
904 /* Neighborsearching parameters */
905 PS("cutoff-scheme", ECUTSCHEME(ir->cutoff_scheme));
906 PI("nstlist", ir->nstlist);
907 PS("ns-type", ENS(ir->ns_type));
908 PS("pbc", EPBC(ir->ePBC));
909 PS("periodic-molecules", EBOOL(ir->bPeriodicMols));
910 PR("verlet-buffer-tolerance", ir->verletbuf_tol);
911 PR("rlist", ir->rlist);
912 PR("rlistlong", ir->rlistlong);
913 PR("nstcalclr", ir->nstcalclr);
915 /* Options for electrostatics and VdW */
916 PS("coulombtype", EELTYPE(ir->coulombtype));
917 PS("coulomb-modifier", INTMODIFIER(ir->coulomb_modifier));
918 PR("rcoulomb-switch", ir->rcoulomb_switch);
919 PR("rcoulomb", ir->rcoulomb);
920 if (ir->epsilon_r != 0)
922 PR("epsilon-r", ir->epsilon_r);
926 PS("epsilon-r", infbuf);
928 if (ir->epsilon_rf != 0)
930 PR("epsilon-rf", ir->epsilon_rf);
934 PS("epsilon-rf", infbuf);
936 PS("vdw-type", EVDWTYPE(ir->vdwtype));
937 PS("vdw-modifier", INTMODIFIER(ir->vdw_modifier));
938 PR("rvdw-switch", ir->rvdw_switch);
939 PR("rvdw", ir->rvdw);
940 PS("DispCorr", EDISPCORR(ir->eDispCorr));
941 PR("table-extension", ir->tabext);
943 PR("fourierspacing", ir->fourier_spacing);
944 PI("fourier-nx", ir->nkx);
945 PI("fourier-ny", ir->nky);
946 PI("fourier-nz", ir->nkz);
947 PI("pme-order", ir->pme_order);
948 PR("ewald-rtol", ir->ewald_rtol);
949 PR("ewald-rtol-lj", ir->ewald_rtol_lj);
950 PS("lj-pme-comb-rule", ELJPMECOMBNAMES(ir->ljpme_combination_rule));
951 PR("ewald-geometry", ir->ewald_geometry);
952 PR("epsilon-surface", ir->epsilon_surface);
954 /* Implicit solvent */
955 PS("implicit-solvent", EIMPLICITSOL(ir->implicit_solvent));
957 /* Generalized born electrostatics */
958 PS("gb-algorithm", EGBALGORITHM(ir->gb_algorithm));
959 PI("nstgbradii", ir->nstgbradii);
960 PR("rgbradii", ir->rgbradii);
961 PR("gb-epsilon-solvent", ir->gb_epsilon_solvent);
962 PR("gb-saltconc", ir->gb_saltconc);
963 PR("gb-obc-alpha", ir->gb_obc_alpha);
964 PR("gb-obc-beta", ir->gb_obc_beta);
965 PR("gb-obc-gamma", ir->gb_obc_gamma);
966 PR("gb-dielectric-offset", ir->gb_dielectric_offset);
967 PS("sa-algorithm", ESAALGORITHM(ir->gb_algorithm));
968 PR("sa-surface-tension", ir->sa_surface_tension);
970 /* Options for weak coupling algorithms */
971 PS("tcoupl", ETCOUPLTYPE(ir->etc));
972 PI("nsttcouple", ir->nsttcouple);
973 PI("nh-chain-length", ir->opts.nhchainlength);
974 PS("print-nose-hoover-chain-variables", EBOOL(ir->bPrintNHChains));
976 PS("pcoupl", EPCOUPLTYPE(ir->epc));
977 PS("pcoupltype", EPCOUPLTYPETYPE(ir->epct));
978 PI("nstpcouple", ir->nstpcouple);
979 PR("tau-p", ir->tau_p);
980 pr_matrix(fp, indent, "compressibility", ir->compress, bMDPformat);
981 pr_matrix(fp, indent, "ref-p", ir->ref_p, bMDPformat);
982 PS("refcoord-scaling", EREFSCALINGTYPE(ir->refcoord_scaling));
986 fprintf(fp, "posres-com = %g %g %g\n", ir->posres_com[XX],
987 ir->posres_com[YY], ir->posres_com[ZZ]);
988 fprintf(fp, "posres-comB = %g %g %g\n", ir->posres_comB[XX],
989 ir->posres_comB[YY], ir->posres_comB[ZZ]);
993 pr_rvec(fp, indent, "posres-com", ir->posres_com, DIM, TRUE);
994 pr_rvec(fp, indent, "posres-comB", ir->posres_comB, DIM, TRUE);
998 PS("QMMM", EBOOL(ir->bQMMM));
999 PI("QMconstraints", ir->QMconstraints);
1000 PI("QMMMscheme", ir->QMMMscheme);
1001 PR("MMChargeScaleFactor", ir->scalefactor);
1002 pr_qm_opts(fp, indent, "qm-opts", &(ir->opts));
1004 /* CONSTRAINT OPTIONS */
1005 PS("constraint-algorithm", ECONSTRTYPE(ir->eConstrAlg));
1006 PS("continuation", EBOOL(ir->bContinuation));
1008 PS("Shake-SOR", EBOOL(ir->bShakeSOR));
1009 PR("shake-tol", ir->shake_tol);
1010 PI("lincs-order", ir->nProjOrder);
1011 PI("lincs-iter", ir->nLincsIter);
1012 PR("lincs-warnangle", ir->LincsWarnAngle);
1015 PI("nwall", ir->nwall);
1016 PS("wall-type", EWALLTYPE(ir->wall_type));
1017 PR("wall-r-linpot", ir->wall_r_linpot);
1019 PI("wall-atomtype[0]", ir->wall_atomtype[0]);
1020 PI("wall-atomtype[1]", ir->wall_atomtype[1]);
1022 PR("wall-density[0]", ir->wall_density[0]);
1023 PR("wall-density[1]", ir->wall_density[1]);
1024 PR("wall-ewald-zfac", ir->wall_ewald_zfac);
1027 PS("pull", EPULLTYPE(ir->ePull));
1028 if (ir->ePull != epullNO)
1030 pr_pull(fp, indent, ir->pull);
1033 /* ENFORCED ROTATION */
1034 PS("rotation", EBOOL(ir->bRot));
1037 pr_rot(fp, indent, ir->rot);
1040 /* INTERACTIVE MD */
1041 PS("interactiveMD", EBOOL(ir->bIMD));
1044 pr_imd(fp, indent, ir->imd);
1047 /* NMR refinement stuff */
1048 PS("disre", EDISRETYPE(ir->eDisre));
1049 PS("disre-weighting", EDISREWEIGHTING(ir->eDisreWeighting));
1050 PS("disre-mixed", EBOOL(ir->bDisreMixed));
1051 PR("dr-fc", ir->dr_fc);
1052 PR("dr-tau", ir->dr_tau);
1053 PR("nstdisreout", ir->nstdisreout);
1055 PR("orire-fc", ir->orires_fc);
1056 PR("orire-tau", ir->orires_tau);
1057 PR("nstorireout", ir->nstorireout);
1059 /* FREE ENERGY VARIABLES */
1060 PS("free-energy", EFEPTYPE(ir->efep));
1061 if (ir->efep != efepNO || ir->bSimTemp)
1063 pr_fepvals(fp, indent, ir->fepvals, bMDPformat);
1067 pr_expandedvals(fp, indent, ir->expandedvals, ir->fepvals->n_lambda);
1070 /* NON-equilibrium MD stuff */
1071 PR("cos-acceleration", ir->cos_accel);
1072 pr_matrix(fp, indent, "deform", ir->deform, bMDPformat);
1074 /* SIMULATED TEMPERING */
1075 PS("simulated-tempering", EBOOL(ir->bSimTemp));
1078 pr_simtempvals(fp, indent, ir->simtempvals, ir->fepvals->n_lambda);
1081 /* ELECTRIC FIELDS */
1082 pr_cosine(fp, indent, "E-x", &(ir->ex[XX]), bMDPformat);
1083 pr_cosine(fp, indent, "E-xt", &(ir->et[XX]), bMDPformat);
1084 pr_cosine(fp, indent, "E-y", &(ir->ex[YY]), bMDPformat);
1085 pr_cosine(fp, indent, "E-yt", &(ir->et[YY]), bMDPformat);
1086 pr_cosine(fp, indent, "E-z", &(ir->ex[ZZ]), bMDPformat);
1087 pr_cosine(fp, indent, "E-zt", &(ir->et[ZZ]), bMDPformat);
1089 /* ION/WATER SWAPPING FOR COMPUTATIONAL ELECTROPHYSIOLOGY */
1090 PS("swapcoords", ESWAPTYPE(ir->eSwapCoords));
1091 if (ir->eSwapCoords != eswapNO)
1093 pr_swap(fp, indent, ir->swap);
1096 /* AdResS PARAMETERS */
1097 PS("adress", EBOOL(ir->bAdress));
1100 PS("adress-type", EADRESSTYPE(ir->adress->type));
1101 PR("adress-const-wf", ir->adress->const_wf);
1102 PR("adress-ex-width", ir->adress->ex_width);
1103 PR("adress-hy-width", ir->adress->hy_width);
1104 PR("adress-ex-forcecap", ir->adress->ex_forcecap);
1105 PS("adress-interface-correction", EADRESSICTYPE(ir->adress->icor));
1106 PS("adress-site", EADRESSSITETYPE(ir->adress->site));
1107 pr_rvec(fp, indent, "adress-reference-coords", ir->adress->refs, DIM, TRUE);
1108 PS("adress-do-hybridpairs", EBOOL(ir->adress->do_hybridpairs));
1111 /* USER-DEFINED THINGIES */
1112 PI("userint1", ir->userint1);
1113 PI("userint2", ir->userint2);
1114 PI("userint3", ir->userint3);
1115 PI("userint4", ir->userint4);
1116 PR("userreal1", ir->userreal1);
1117 PR("userreal2", ir->userreal2);
1118 PR("userreal3", ir->userreal3);
1119 PR("userreal4", ir->userreal4);
1121 pr_grp_opts(fp, indent, "grpopts", &(ir->opts), bMDPformat);
1128 static void pr_harm(FILE *fp, t_iparams *iparams, const char *r, const char *kr)
1130 fprintf(fp, "%sA=%12.5e, %sA=%12.5e, %sB=%12.5e, %sB=%12.5e\n",
1131 r, iparams->harmonic.rA, kr, iparams->harmonic.krA,
1132 r, iparams->harmonic.rB, kr, iparams->harmonic.krB);
1135 void pr_iparams(FILE *fp, t_functype ftype, t_iparams *iparams)
1138 real VA[4], VB[4], *rbcA, *rbcB;
1144 pr_harm(fp, iparams, "th", "ct");
1146 case F_CROSS_BOND_BONDS:
1147 fprintf(fp, "r1e=%15.8e, r2e=%15.8e, krr=%15.8e\n",
1148 iparams->cross_bb.r1e, iparams->cross_bb.r2e,
1149 iparams->cross_bb.krr);
1151 case F_CROSS_BOND_ANGLES:
1152 fprintf(fp, "r1e=%15.8e, r1e=%15.8e, r3e=%15.8e, krt=%15.8e\n",
1153 iparams->cross_ba.r1e, iparams->cross_ba.r2e,
1154 iparams->cross_ba.r3e, iparams->cross_ba.krt);
1156 case F_LINEAR_ANGLES:
1157 fprintf(fp, "klinA=%15.8e, aA=%15.8e, klinB=%15.8e, aB=%15.8e\n",
1158 iparams->linangle.klinA, iparams->linangle.aA,
1159 iparams->linangle.klinB, iparams->linangle.aB);
1161 case F_UREY_BRADLEY:
1162 fprintf(fp, "thetaA=%15.8e, kthetaA=%15.8e, r13A=%15.8e, kUBA=%15.8e, thetaB=%15.8e, kthetaB=%15.8e, r13B=%15.8e, kUBB=%15.8e\n", iparams->u_b.thetaA, iparams->u_b.kthetaA, iparams->u_b.r13A, iparams->u_b.kUBA, iparams->u_b.thetaB, iparams->u_b.kthetaB, iparams->u_b.r13B, iparams->u_b.kUBB);
1164 case F_QUARTIC_ANGLES:
1165 fprintf(fp, "theta=%15.8e", iparams->qangle.theta);
1166 for (i = 0; i < 5; i++)
1168 fprintf(fp, ", c%c=%15.8e", '0'+i, iparams->qangle.c[i]);
1173 fprintf(fp, "a=%15.8e, b=%15.8e, c=%15.8e\n",
1174 iparams->bham.a, iparams->bham.b, iparams->bham.c);
1179 pr_harm(fp, iparams, "b0", "cb");
1182 pr_harm(fp, iparams, "xi", "cx");
1185 fprintf(fp, "b0A=%15.8e, cbA=%15.8e, betaA=%15.8e, b0B=%15.8e, cbB=%15.8e, betaB=%15.8e\n",
1186 iparams->morse.b0A, iparams->morse.cbA, iparams->morse.betaA,
1187 iparams->morse.b0B, iparams->morse.cbB, iparams->morse.betaB);
1190 fprintf(fp, "b0=%15.8e, kb=%15.8e, kcub=%15.8e\n",
1191 iparams->cubic.b0, iparams->cubic.kb, iparams->cubic.kcub);
1197 fprintf(fp, "bm=%15.8e, kb=%15.8e\n", iparams->fene.bm, iparams->fene.kb);
1200 fprintf(fp, "lowA=%15.8e, up1A=%15.8e, up2A=%15.8e, kA=%15.8e, lowB=%15.8e, up1B=%15.8e, up2B=%15.8e, kB=%15.8e,\n",
1201 iparams->restraint.lowA, iparams->restraint.up1A,
1202 iparams->restraint.up2A, iparams->restraint.kA,
1203 iparams->restraint.lowB, iparams->restraint.up1B,
1204 iparams->restraint.up2B, iparams->restraint.kB);
1210 fprintf(fp, "tab=%d, kA=%15.8e, kB=%15.8e\n",
1211 iparams->tab.table, iparams->tab.kA, iparams->tab.kB);
1213 case F_POLARIZATION:
1214 fprintf(fp, "alpha=%15.8e\n", iparams->polarize.alpha);
1217 fprintf(fp, "alpha=%15.8e drcut=%15.8e khyp=%15.8e\n",
1218 iparams->anharm_polarize.alpha,
1219 iparams->anharm_polarize.drcut,
1220 iparams->anharm_polarize.khyp);
1223 fprintf(fp, "a=%15.8e, alpha1=%15.8e, alpha2=%15.8e, rfac=%15.8e\n",
1224 iparams->thole.a, iparams->thole.alpha1, iparams->thole.alpha2,
1225 iparams->thole.rfac);
1228 fprintf(fp, "al_x=%15.8e, al_y=%15.8e, al_z=%15.8e, rOH=%9.6f, rHH=%9.6f, rOD=%9.6f\n",
1229 iparams->wpol.al_x, iparams->wpol.al_y, iparams->wpol.al_z,
1230 iparams->wpol.rOH, iparams->wpol.rHH, iparams->wpol.rOD);
1233 fprintf(fp, "c6=%15.8e, c12=%15.8e\n", iparams->lj.c6, iparams->lj.c12);
1236 fprintf(fp, "c6A=%15.8e, c12A=%15.8e, c6B=%15.8e, c12B=%15.8e\n",
1237 iparams->lj14.c6A, iparams->lj14.c12A,
1238 iparams->lj14.c6B, iparams->lj14.c12B);
1241 fprintf(fp, "fqq=%15.8e, qi=%15.8e, qj=%15.8e, c6=%15.8e, c12=%15.8e\n",
1243 iparams->ljc14.qi, iparams->ljc14.qj,
1244 iparams->ljc14.c6, iparams->ljc14.c12);
1246 case F_LJC_PAIRS_NB:
1247 fprintf(fp, "qi=%15.8e, qj=%15.8e, c6=%15.8e, c12=%15.8e\n",
1248 iparams->ljcnb.qi, iparams->ljcnb.qj,
1249 iparams->ljcnb.c6, iparams->ljcnb.c12);
1255 fprintf(fp, "phiA=%15.8e, cpA=%15.8e, phiB=%15.8e, cpB=%15.8e, mult=%d\n",
1256 iparams->pdihs.phiA, iparams->pdihs.cpA,
1257 iparams->pdihs.phiB, iparams->pdihs.cpB,
1258 iparams->pdihs.mult);
1261 fprintf(fp, "label=%4d, type=%1d, low=%15.8e, up1=%15.8e, up2=%15.8e, fac=%15.8e)\n",
1262 iparams->disres.label, iparams->disres.type,
1263 iparams->disres.low, iparams->disres.up1,
1264 iparams->disres.up2, iparams->disres.kfac);
1267 fprintf(fp, "ex=%4d, label=%d, power=%4d, c=%15.8e, obs=%15.8e, kfac=%15.8e)\n",
1268 iparams->orires.ex, iparams->orires.label, iparams->orires.power,
1269 iparams->orires.c, iparams->orires.obs, iparams->orires.kfac);
1272 fprintf(fp, "phiA=%15.8e, dphiA=%15.8e, kfacA=%15.8e, phiB=%15.8e, dphiB=%15.8e, kfacB=%15.8e\n",
1273 iparams->dihres.phiA, iparams->dihres.dphiA, iparams->dihres.kfacA,
1274 iparams->dihres.phiB, iparams->dihres.dphiB, iparams->dihres.kfacB);
1277 fprintf(fp, "pos0A=(%15.8e,%15.8e,%15.8e), fcA=(%15.8e,%15.8e,%15.8e), pos0B=(%15.8e,%15.8e,%15.8e), fcB=(%15.8e,%15.8e,%15.8e)\n",
1278 iparams->posres.pos0A[XX], iparams->posres.pos0A[YY],
1279 iparams->posres.pos0A[ZZ], iparams->posres.fcA[XX],
1280 iparams->posres.fcA[YY], iparams->posres.fcA[ZZ],
1281 iparams->posres.pos0B[XX], iparams->posres.pos0B[YY],
1282 iparams->posres.pos0B[ZZ], iparams->posres.fcB[XX],
1283 iparams->posres.fcB[YY], iparams->posres.fcB[ZZ]);
1286 fprintf(fp, "pos0=(%15.8e,%15.8e,%15.8e), geometry=%d, r=%15.8e, k=%15.8e\n",
1287 iparams->fbposres.pos0[XX], iparams->fbposres.pos0[YY],
1288 iparams->fbposres.pos0[ZZ], iparams->fbposres.geom,
1289 iparams->fbposres.r, iparams->fbposres.k);
1292 for (i = 0; i < NR_RBDIHS; i++)
1294 fprintf(fp, "%srbcA[%d]=%15.8e", i == 0 ? "" : ", ", i, iparams->rbdihs.rbcA[i]);
1297 for (i = 0; i < NR_RBDIHS; i++)
1299 fprintf(fp, "%srbcB[%d]=%15.8e", i == 0 ? "" : ", ", i, iparams->rbdihs.rbcB[i]);
1304 /* Use the OPLS -> Ryckaert-Bellemans formula backwards to get the
1305 * OPLS potential constants back.
1307 rbcA = iparams->rbdihs.rbcA;
1308 rbcB = iparams->rbdihs.rbcB;
1310 VA[3] = -0.25*rbcA[4];
1311 VA[2] = -0.5*rbcA[3];
1312 VA[1] = 4.0*VA[3]-rbcA[2];
1313 VA[0] = 3.0*VA[2]-2.0*rbcA[1];
1315 VB[3] = -0.25*rbcB[4];
1316 VB[2] = -0.5*rbcB[3];
1317 VB[1] = 4.0*VB[3]-rbcB[2];
1318 VB[0] = 3.0*VB[2]-2.0*rbcB[1];
1320 for (i = 0; i < NR_FOURDIHS; i++)
1322 fprintf(fp, "%sFourA[%d]=%15.8e", i == 0 ? "" : ", ", i, VA[i]);
1325 for (i = 0; i < NR_FOURDIHS; i++)
1327 fprintf(fp, "%sFourB[%d]=%15.8e", i == 0 ? "" : ", ", i, VB[i]);
1334 fprintf(fp, "dA=%15.8e, dB=%15.8e\n", iparams->constr.dA, iparams->constr.dB);
1337 fprintf(fp, "doh=%15.8e, dhh=%15.8e\n", iparams->settle.doh,
1338 iparams->settle.dhh);
1341 fprintf(fp, "a=%15.8e\n", iparams->vsite.a);
1346 fprintf(fp, "a=%15.8e, b=%15.8e\n", iparams->vsite.a, iparams->vsite.b);
1351 fprintf(fp, "a=%15.8e, b=%15.8e, c=%15.8e\n",
1352 iparams->vsite.a, iparams->vsite.b, iparams->vsite.c);
1355 fprintf(fp, "n=%2d, a=%15.8e\n", iparams->vsiten.n, iparams->vsiten.a);
1360 fprintf(fp, "sar=%15.8e, st=%15.8e, pi=%15.8e, gbr=%15.8e, bmlt=%15.8e\n", iparams->gb.sar, iparams->gb.st, iparams->gb.pi, iparams->gb.gbr, iparams->gb.bmlt);
1363 fprintf(fp, "cmapA=%1d, cmapB=%1d\n", iparams->cmap.cmapA, iparams->cmap.cmapB);
1366 pr_harm(fp, iparams, "ktheta", "costheta0");
1369 fprintf(fp, "phiA=%15.8e, cpA=%15.8e",
1370 iparams->pdihs.phiA, iparams->pdihs.cpA);
1373 fprintf(fp, "kphi=%15.8e", iparams->cbtdihs.cbtcA[0]);
1374 for (i = 1; i < NR_CBTDIHS; i++)
1376 fprintf(fp, ", cbtcA[%d]=%15.8e", i-1, iparams->cbtdihs.cbtcA[i]);
1381 gmx_fatal(FARGS, "unknown function type %d (%s) in %s line %d",
1382 ftype, interaction_function[ftype].name, __FILE__, __LINE__);
1386 void pr_ilist(FILE *fp, int indent, const char *title,
1387 t_functype *functype, t_ilist *ilist, gmx_bool bShowNumbers)
1389 int i, j, k, type, ftype;
1392 if (available(fp, ilist, indent, title) && ilist->nr > 0)
1394 indent = pr_title(fp, indent, title);
1395 (void) pr_indent(fp, indent);
1396 fprintf(fp, "nr: %d\n", ilist->nr);
1399 (void) pr_indent(fp, indent);
1400 fprintf(fp, "iatoms:\n");
1401 iatoms = ilist->iatoms;
1402 for (i = j = 0; i < ilist->nr; )
1405 (void) pr_indent(fp, indent+INDENT);
1407 ftype = functype[type];
1408 (void) fprintf(fp, "%d type=%d (%s)",
1409 bShowNumbers ? j : -1, bShowNumbers ? type : -1,
1410 interaction_function[ftype].name);
1412 for (k = 0; k < interaction_function[ftype].nratoms; k++)
1414 (void) fprintf(fp, " %u", *(iatoms++));
1416 (void) fprintf(fp, "\n");
1417 i += 1+interaction_function[ftype].nratoms;
1419 fprintf(fp, "%5d%5d\n", i, iatoms[i]);
1427 static void pr_cmap(FILE *fp, int indent, const char *title,
1428 gmx_cmap_t *cmap_grid, gmx_bool bShowNumbers)
1433 dx = 360.0 / cmap_grid->grid_spacing;
1434 nelem = cmap_grid->grid_spacing*cmap_grid->grid_spacing;
1436 if (available(fp, cmap_grid, indent, title))
1438 fprintf(fp, "%s\n", title);
1440 for (i = 0; i < cmap_grid->ngrid; i++)
1443 fprintf(fp, "%8s %8s %8s %8s\n", "V", "dVdx", "dVdy", "d2dV");
1445 fprintf(fp, "grid[%3d]={\n", bShowNumbers ? i : -1);
1447 for (j = 0; j < nelem; j++)
1449 if ( (j%cmap_grid->grid_spacing) == 0)
1451 fprintf(fp, "%8.1f\n", idx);
1455 fprintf(fp, "%8.3f ", cmap_grid->cmapdata[i].cmap[j*4]);
1456 fprintf(fp, "%8.3f ", cmap_grid->cmapdata[i].cmap[j*4+1]);
1457 fprintf(fp, "%8.3f ", cmap_grid->cmapdata[i].cmap[j*4+2]);
1458 fprintf(fp, "%8.3f\n", cmap_grid->cmapdata[i].cmap[j*4+3]);
1466 void pr_ffparams(FILE *fp, int indent, const char *title,
1467 gmx_ffparams_t *ffparams,
1468 gmx_bool bShowNumbers)
1472 indent = pr_title(fp, indent, title);
1473 (void) pr_indent(fp, indent);
1474 (void) fprintf(fp, "atnr=%d\n", ffparams->atnr);
1475 (void) pr_indent(fp, indent);
1476 (void) fprintf(fp, "ntypes=%d\n", ffparams->ntypes);
1477 for (i = 0; i < ffparams->ntypes; i++)
1479 (void) pr_indent(fp, indent+INDENT);
1480 (void) fprintf(fp, "functype[%d]=%s, ",
1481 bShowNumbers ? i : -1,
1482 interaction_function[ffparams->functype[i]].name);
1483 pr_iparams(fp, ffparams->functype[i], &ffparams->iparams[i]);
1485 (void) pr_double(fp, indent, "reppow", ffparams->reppow);
1486 (void) pr_real(fp, indent, "fudgeQQ", ffparams->fudgeQQ);
1487 pr_cmap(fp, indent, "cmap", &ffparams->cmap_grid, bShowNumbers);
1490 void pr_idef(FILE *fp, int indent, const char *title, t_idef *idef, gmx_bool bShowNumbers)
1494 if (available(fp, idef, indent, title))
1496 indent = pr_title(fp, indent, title);
1497 (void) pr_indent(fp, indent);
1498 (void) fprintf(fp, "atnr=%d\n", idef->atnr);
1499 (void) pr_indent(fp, indent);
1500 (void) fprintf(fp, "ntypes=%d\n", idef->ntypes);
1501 for (i = 0; i < idef->ntypes; i++)
1503 (void) pr_indent(fp, indent+INDENT);
1504 (void) fprintf(fp, "functype[%d]=%s, ",
1505 bShowNumbers ? i : -1,
1506 interaction_function[idef->functype[i]].name);
1507 pr_iparams(fp, idef->functype[i], &idef->iparams[i]);
1509 (void) pr_real(fp, indent, "fudgeQQ", idef->fudgeQQ);
1511 for (j = 0; (j < F_NRE); j++)
1513 pr_ilist(fp, indent, interaction_function[j].longname,
1514 idef->functype, &idef->il[j], bShowNumbers);
1519 static int pr_block_title(FILE *fp, int indent, const char *title, t_block *block)
1523 if (available(fp, block, indent, title))
1525 indent = pr_title(fp, indent, title);
1526 (void) pr_indent(fp, indent);
1527 (void) fprintf(fp, "nr=%d\n", block->nr);
1532 static int pr_blocka_title(FILE *fp, int indent, const char *title, t_blocka *block)
1536 if (available(fp, block, indent, title))
1538 indent = pr_title(fp, indent, title);
1539 (void) pr_indent(fp, indent);
1540 (void) fprintf(fp, "nr=%d\n", block->nr);
1541 (void) pr_indent(fp, indent);
1542 (void) fprintf(fp, "nra=%d\n", block->nra);
1547 static void low_pr_blocka(FILE *fp, int indent, const char *title, t_blocka *block, gmx_bool bShowNumbers)
1551 if (available(fp, block, indent, title))
1553 indent = pr_blocka_title(fp, indent, title, block);
1554 for (i = 0; i <= block->nr; i++)
1556 (void) pr_indent(fp, indent+INDENT);
1557 (void) fprintf(fp, "%s->index[%d]=%d\n",
1558 title, bShowNumbers ? i : -1, block->index[i]);
1560 for (i = 0; i < block->nra; i++)
1562 (void) pr_indent(fp, indent+INDENT);
1563 (void) fprintf(fp, "%s->a[%d]=%d\n",
1564 title, bShowNumbers ? i : -1, block->a[i]);
1569 void pr_block(FILE *fp, int indent, const char *title, t_block *block, gmx_bool bShowNumbers)
1571 int i, j, ok, size, start, end;
1573 if (available(fp, block, indent, title))
1575 indent = pr_block_title(fp, indent, title, block);
1578 if ((ok = (block->index[start] == 0)) == 0)
1580 (void) fprintf(fp, "block->index[%d] should be 0\n", start);
1584 for (i = 0; i < block->nr; i++)
1586 end = block->index[i+1];
1587 size = pr_indent(fp, indent);
1590 size += fprintf(fp, "%s[%d]={}\n", title, i);
1594 size += fprintf(fp, "%s[%d]={%d..%d}\n",
1595 title, bShowNumbers ? i : -1,
1596 bShowNumbers ? start : -1, bShowNumbers ? end-1 : -1);
1604 void pr_blocka(FILE *fp, int indent, const char *title, t_blocka *block, gmx_bool bShowNumbers)
1606 int i, j, ok, size, start, end;
1608 if (available(fp, block, indent, title))
1610 indent = pr_blocka_title(fp, indent, title, block);
1613 if ((ok = (block->index[start] == 0)) == 0)
1615 (void) fprintf(fp, "block->index[%d] should be 0\n", start);
1619 for (i = 0; i < block->nr; i++)
1621 end = block->index[i+1];
1622 size = pr_indent(fp, indent);
1625 size += fprintf(fp, "%s[%d]={", title, i);
1629 size += fprintf(fp, "%s[%d][%d..%d]={",
1630 title, bShowNumbers ? i : -1,
1631 bShowNumbers ? start : -1, bShowNumbers ? end-1 : -1);
1633 for (j = start; j < end; j++)
1637 size += fprintf(fp, ", ");
1639 if ((size) > (USE_WIDTH))
1641 (void) fprintf(fp, "\n");
1642 size = pr_indent(fp, indent+INDENT);
1644 size += fprintf(fp, "%d", block->a[j]);
1646 (void) fprintf(fp, "}\n");
1650 if ((end != block->nra) || (!ok))
1652 (void) pr_indent(fp, indent);
1653 (void) fprintf(fp, "tables inconsistent, dumping complete tables:\n");
1654 low_pr_blocka(fp, indent, title, block, bShowNumbers);
1659 static void pr_strings(FILE *fp, int indent, const char *title, char ***nm, int n, gmx_bool bShowNumbers)
1663 if (available(fp, nm, indent, title))
1665 indent = pr_title_n(fp, indent, title, n);
1666 for (i = 0; i < n; i++)
1668 (void) pr_indent(fp, indent);
1669 (void) fprintf(fp, "%s[%d]={name=\"%s\"}\n",
1670 title, bShowNumbers ? i : -1, *(nm[i]));
1675 static void pr_strings2(FILE *fp, int indent, const char *title,
1676 char ***nm, char ***nmB, int n, gmx_bool bShowNumbers)
1680 if (available(fp, nm, indent, title))
1682 indent = pr_title_n(fp, indent, title, n);
1683 for (i = 0; i < n; i++)
1685 (void) pr_indent(fp, indent);
1686 (void) fprintf(fp, "%s[%d]={name=\"%s\",nameB=\"%s\"}\n",
1687 title, bShowNumbers ? i : -1, *(nm[i]), *(nmB[i]));
1692 static void pr_resinfo(FILE *fp, int indent, const char *title, t_resinfo *resinfo, int n, gmx_bool bShowNumbers)
1696 if (available(fp, resinfo, indent, title))
1698 indent = pr_title_n(fp, indent, title, n);
1699 for (i = 0; i < n; i++)
1701 (void) pr_indent(fp, indent);
1702 (void) fprintf(fp, "%s[%d]={name=\"%s\", nr=%d, ic='%c'}\n",
1703 title, bShowNumbers ? i : -1,
1704 *(resinfo[i].name), resinfo[i].nr,
1705 (resinfo[i].ic == '\0') ? ' ' : resinfo[i].ic);
1710 static void pr_atom(FILE *fp, int indent, const char *title, t_atom *atom, int n)
1714 if (available(fp, atom, indent, title))
1716 indent = pr_title_n(fp, indent, title, n);
1717 for (i = 0; i < n; i++)
1719 (void) pr_indent(fp, indent);
1720 fprintf(fp, "%s[%6d]={type=%3d, typeB=%3d, ptype=%8s, m=%12.5e, "
1721 "q=%12.5e, mB=%12.5e, qB=%12.5e, resind=%5d, atomnumber=%3d}\n",
1722 title, i, atom[i].type, atom[i].typeB, ptype_str[atom[i].ptype],
1723 atom[i].m, atom[i].q, atom[i].mB, atom[i].qB,
1724 atom[i].resind, atom[i].atomnumber);
1729 static void pr_grps(FILE *fp, const char *title, t_grps grps[], char **grpname[])
1733 for (i = 0; (i < egcNR); i++)
1735 fprintf(fp, "%s[%-12s] nr=%d, name=[", title, gtypes[i], grps[i].nr);
1736 for (j = 0; (j < grps[i].nr); j++)
1738 fprintf(fp, " %s", *(grpname[grps[i].nm_ind[j]]));
1744 static void pr_groups(FILE *fp, int indent,
1745 gmx_groups_t *groups,
1746 gmx_bool bShowNumbers)
1751 pr_grps(fp, "grp", groups->grps, groups->grpname);
1752 pr_strings(fp, indent, "grpname", groups->grpname, groups->ngrpname, bShowNumbers);
1754 (void) pr_indent(fp, indent);
1755 fprintf(fp, "groups ");
1756 for (g = 0; g < egcNR; g++)
1758 printf(" %5.5s", gtypes[g]);
1762 (void) pr_indent(fp, indent);
1763 fprintf(fp, "allocated ");
1765 for (g = 0; g < egcNR; g++)
1767 printf(" %5d", groups->ngrpnr[g]);
1768 nat_max = max(nat_max, groups->ngrpnr[g]);
1774 (void) pr_indent(fp, indent);
1775 fprintf(fp, "groupnr[%5s] =", "*");
1776 for (g = 0; g < egcNR; g++)
1778 fprintf(fp, " %3d ", 0);
1784 for (i = 0; i < nat_max; i++)
1786 (void) pr_indent(fp, indent);
1787 fprintf(fp, "groupnr[%5d] =", i);
1788 for (g = 0; g < egcNR; g++)
1790 fprintf(fp, " %3d ",
1791 groups->grpnr[g] ? groups->grpnr[g][i] : 0);
1798 void pr_atoms(FILE *fp, int indent, const char *title, t_atoms *atoms,
1799 gmx_bool bShownumbers)
1801 if (available(fp, atoms, indent, title))
1803 indent = pr_title(fp, indent, title);
1804 pr_atom(fp, indent, "atom", atoms->atom, atoms->nr);
1805 pr_strings(fp, indent, "atom", atoms->atomname, atoms->nr, bShownumbers);
1806 pr_strings2(fp, indent, "type", atoms->atomtype, atoms->atomtypeB, atoms->nr, bShownumbers);
1807 pr_resinfo(fp, indent, "residue", atoms->resinfo, atoms->nres, bShownumbers);
1812 void pr_atomtypes(FILE *fp, int indent, const char *title, t_atomtypes *atomtypes,
1813 gmx_bool bShowNumbers)
1816 if (available(fp, atomtypes, indent, title))
1818 indent = pr_title(fp, indent, title);
1819 for (i = 0; i < atomtypes->nr; i++)
1821 pr_indent(fp, indent);
1823 "atomtype[%3d]={radius=%12.5e, volume=%12.5e, gb_radius=%12.5e, surftens=%12.5e, atomnumber=%4d, S_hct=%12.5e)}\n",
1824 bShowNumbers ? i : -1, atomtypes->radius[i], atomtypes->vol[i],
1825 atomtypes->gb_radius[i],
1826 atomtypes->surftens[i], atomtypes->atomnumber[i], atomtypes->S_hct[i]);
1831 static void pr_moltype(FILE *fp, int indent, const char *title,
1832 gmx_moltype_t *molt, int n,
1833 gmx_ffparams_t *ffparams,
1834 gmx_bool bShowNumbers)
1838 indent = pr_title_n(fp, indent, title, n);
1839 (void) pr_indent(fp, indent);
1840 (void) fprintf(fp, "name=\"%s\"\n", *(molt->name));
1841 pr_atoms(fp, indent, "atoms", &(molt->atoms), bShowNumbers);
1842 pr_block(fp, indent, "cgs", &molt->cgs, bShowNumbers);
1843 pr_blocka(fp, indent, "excls", &molt->excls, bShowNumbers);
1844 for (j = 0; (j < F_NRE); j++)
1846 pr_ilist(fp, indent, interaction_function[j].longname,
1847 ffparams->functype, &molt->ilist[j], bShowNumbers);
1851 static void pr_molblock(FILE *fp, int indent, const char *title,
1852 gmx_molblock_t *molb, int n,
1853 gmx_moltype_t *molt)
1855 indent = pr_title_n(fp, indent, title, n);
1856 (void) pr_indent(fp, indent);
1857 (void) fprintf(fp, "%-20s = %d \"%s\"\n",
1858 "moltype", molb->type, *(molt[molb->type].name));
1859 pr_int(fp, indent, "#molecules", molb->nmol);
1860 pr_int(fp, indent, "#atoms_mol", molb->natoms_mol);
1861 pr_int(fp, indent, "#posres_xA", molb->nposres_xA);
1862 if (molb->nposres_xA > 0)
1864 pr_rvecs(fp, indent, "posres_xA", molb->posres_xA, molb->nposres_xA);
1866 pr_int(fp, indent, "#posres_xB", molb->nposres_xB);
1867 if (molb->nposres_xB > 0)
1869 pr_rvecs(fp, indent, "posres_xB", molb->posres_xB, molb->nposres_xB);
1873 void pr_mtop(FILE *fp, int indent, const char *title, gmx_mtop_t *mtop,
1874 gmx_bool bShowNumbers)
1878 if (available(fp, mtop, indent, title))
1880 indent = pr_title(fp, indent, title);
1881 (void) pr_indent(fp, indent);
1882 (void) fprintf(fp, "name=\"%s\"\n", *(mtop->name));
1883 pr_int(fp, indent, "#atoms", mtop->natoms);
1884 pr_int(fp, indent, "#molblock", mtop->nmolblock);
1885 for (mb = 0; mb < mtop->nmolblock; mb++)
1887 pr_molblock(fp, indent, "molblock", &mtop->molblock[mb], mb, mtop->moltype);
1889 pr_ffparams(fp, indent, "ffparams", &(mtop->ffparams), bShowNumbers);
1890 pr_atomtypes(fp, indent, "atomtypes", &(mtop->atomtypes), bShowNumbers);
1891 for (mt = 0; mt < mtop->nmoltype; mt++)
1893 pr_moltype(fp, indent, "moltype", &mtop->moltype[mt], mt,
1894 &mtop->ffparams, bShowNumbers);
1896 pr_groups(fp, indent, &mtop->groups, bShowNumbers);
1900 void pr_top(FILE *fp, int indent, const char *title, t_topology *top, gmx_bool bShowNumbers)
1902 if (available(fp, top, indent, title))
1904 indent = pr_title(fp, indent, title);
1905 (void) pr_indent(fp, indent);
1906 (void) fprintf(fp, "name=\"%s\"\n", *(top->name));
1907 pr_atoms(fp, indent, "atoms", &(top->atoms), bShowNumbers);
1908 pr_atomtypes(fp, indent, "atomtypes", &(top->atomtypes), bShowNumbers);
1909 pr_block(fp, indent, "cgs", &top->cgs, bShowNumbers);
1910 pr_block(fp, indent, "mols", &top->mols, bShowNumbers);
1911 pr_blocka(fp, indent, "excls", &top->excls, bShowNumbers);
1912 pr_idef(fp, indent, "idef", &top->idef, bShowNumbers);
1916 void pr_header(FILE *fp, int indent, const char *title, t_tpxheader *sh)
1920 if (available(fp, sh, indent, title))
1922 indent = pr_title(fp, indent, title);
1923 pr_indent(fp, indent);
1924 fprintf(fp, "bIr = %spresent\n", sh->bIr ? "" : "not ");
1925 pr_indent(fp, indent);
1926 fprintf(fp, "bBox = %spresent\n", sh->bBox ? "" : "not ");
1927 pr_indent(fp, indent);
1928 fprintf(fp, "bTop = %spresent\n", sh->bTop ? "" : "not ");
1929 pr_indent(fp, indent);
1930 fprintf(fp, "bX = %spresent\n", sh->bX ? "" : "not ");
1931 pr_indent(fp, indent);
1932 fprintf(fp, "bV = %spresent\n", sh->bV ? "" : "not ");
1933 pr_indent(fp, indent);
1934 fprintf(fp, "bF = %spresent\n", sh->bF ? "" : "not ");
1936 pr_indent(fp, indent);
1937 fprintf(fp, "natoms = %d\n", sh->natoms);
1938 pr_indent(fp, indent);
1939 fprintf(fp, "lambda = %e\n", sh->lambda);
1943 void pr_commrec(FILE *fp, int indent, t_commrec *cr)
1945 pr_indent(fp, indent);
1946 fprintf(fp, "commrec:\n");
1948 pr_indent(fp, indent);
1949 fprintf(fp, "rank = %d\n", cr->nodeid);
1950 pr_indent(fp, indent);
1951 fprintf(fp, "number of ranks = %d\n", cr->nnodes);
1952 pr_indent(fp, indent);
1953 fprintf(fp, "PME-only ranks = %d\n", cr->npmenodes);
1955 pr_indent(fp,indent);
1956 fprintf(fp,"threadid = %d\n",cr->threadid);
1957 pr_indent(fp,indent);
1958 fprintf(fp,"nthreads = %d\n",cr->nthreads);