Ejemplo n.º 1
0
static void par_fn(char *base, int ftp, const t_commrec *cr,
                   gmx_bool bAppendSimId, gmx_bool bAppendNodeId,
                   char buf[], int bufsize)
{
    if ((size_t)bufsize < (strlen(base)+10))
    {
        gmx_mem("Character buffer too small!");
    }

    /* Copy to buf, and strip extension */
    strcpy(buf, base);
    buf[strlen(base) - strlen(ftp2ext(fn2ftp(base))) - 1] = '\0';

    if (bAppendSimId)
    {
        sprintf(buf+strlen(buf), "%d", cr->ms->sim);
    }
    if (bAppendNodeId)
    {
        strcat(buf, "_rank");
        sprintf(buf+strlen(buf), "%d", cr->nodeid);
    }
    strcat(buf, ".");

    /* Add extension again */
    strcat(buf, (ftp == efTPX) ? "tpr" : (ftp == efEDR) ? "edr" : ftp2ext(ftp));
    if (debug)
    {
        fprintf(debug, "rank %d par_fn '%s'\n", cr->nodeid, buf);
        if (fn2ftp(buf) == efLOG)
        {
            fprintf(debug, "log\n");
        }
    }
}
Ejemplo n.º 2
0
static void par_fn(char *base,int ftp,const t_commrec *cr,
		   bool bUnderScore,
		   char buf[],int bufsize)
{
  int n;
  
  if(bufsize<(strlen(base)+4))
     gmx_mem("Character buffer too small!");

  /* Copy to buf, and strip extension */
  strcpy(buf,base);
  buf[strlen(base) - strlen(ftp2ext(fn2ftp(base))) - 1] = '\0';

  /* Add node info */
  if (bUnderScore)
    strcat(buf,"_");
  if (MULTISIM(cr) && !bUnderScore) {
    sprintf(buf+strlen(buf),"%d",cr->ms->sim);
  } else if (PAR(cr)) {
    sprintf(buf+strlen(buf),"%d",cr->nodeid);
  }
  strcat(buf,".");
  
  /* Add extension again */
  strcat(buf,(ftp == efTPX) ? "tpr" : (ftp == efEDR) ? "edr" : ftp2ext(ftp));
}
Ejemplo n.º 3
0
static void read_stx_conf(const char *infile, t_topology *top,
                          rvec x[], rvec *v, int *ePBC, matrix box)
{
    FILE       *in;
    t_trxframe  fr;
    int         ftp;
    char        g96_line[STRLEN+1];

    if (top->atoms.nr == 0)
    {
        fprintf(stderr, "Warning: Number of atoms in %s is 0\n", infile);
    }
    else if (top->atoms.atom == NULL)
    {
        gmx_mem("Uninitialized array atom");
    }

    if (ePBC)
    {
        *ePBC = -1;
    }

    ftp = fn2ftp(infile);
    switch (ftp)
    {
        case efGRO:
            gmx_gro_read_conf(infile, top, x, v, box);
            break;
        case efG96:
            fr.title  = NULL;
            fr.natoms = top->atoms.nr;
            fr.atoms  = &top->atoms;
            fr.x      = x;
            fr.v      = v;
            fr.f      = NULL;
            in        = gmx_fio_fopen(infile, "r");
            read_g96_conf(in, infile, &fr, &top->symtab, g96_line);
            gmx_fio_fclose(in);
            copy_mat(fr.box, box);
            top->name = put_symtab(&top->symtab, fr.title);
            sfree(const_cast<char *>(fr.title));
            break;
        case efPDB:
        case efBRK:
        case efENT:
            gmx_pdb_read_conf(infile, top, x, ePBC, box);
            break;
        case efESP:
            gmx_espresso_read_conf(infile, top, x, v, box);
            break;
        default:
            gmx_incons("Not supported in read_stx_conf");
    }
}
Ejemplo n.º 4
0
void read_stx_conf(const char *infile, char *title, t_atoms *atoms,
                   rvec x[], rvec *v, int *ePBC, matrix box)
{
    FILE       *in;
    char        buf[256];
    gmx_mtop_t *mtop;
    t_topology  top;
    t_trxframe  fr;
    int         i, ftp, natoms;
    real        d;
    char        g96_line[STRLEN+1];

    if (atoms->nr == 0)
    {
        fprintf(stderr, "Warning: Number of atoms in %s is 0\n", infile);
    }
    else if (atoms->atom == NULL)
    {
        gmx_mem("Uninitialized array atom");
    }

    if (ePBC)
    {
        *ePBC = -1;
    }

    ftp = fn2ftp(infile);
    switch (ftp)
    {
        case efGRO:
            read_whole_conf(infile, title, atoms, x, v, box);
            break;
        case efG96:
            fr.title  = NULL;
            fr.natoms = atoms->nr;
            fr.atoms  = atoms;
            fr.x      = x;
            fr.v      = v;
            fr.f      = NULL;
            in        = gmx_fio_fopen(infile, "r");
            read_g96_conf(in, infile, &fr, g96_line);
            gmx_fio_fclose(in);
            copy_mat(fr.box, box);
            strncpy(title, fr.title, STRLEN);
            break;
        case efPDB:
        case efBRK:
        case efENT:
            read_pdb_conf(infile, title, atoms, x, ePBC, box, TRUE, NULL);
            break;
        case efESP:
            read_espresso_conf(infile, atoms, x, v, box);
            break;
        case efTPR:
        case efTPB:
        case efTPA:
            snew(mtop, 1);
            i = read_tpx(infile, NULL, box, &natoms, x, v, NULL, mtop);
            if (ePBC)
            {
                *ePBC = i;
            }

            strcpy(title, *(mtop->name));

            /* Free possibly allocated memory */
            done_atom(atoms);

            *atoms = gmx_mtop_global_atoms(mtop);
            top    = gmx_mtop_t_to_t_topology(mtop);
            tpx_make_chain_identifiers(atoms, &top.mols);

            sfree(mtop);
            /* The strings in the symtab are still in use in the returned t_atoms
             * structure, so we should not free them. But there is no place to put the
             * symbols; the only choice is to leak the memory...
             * So we clear the symbol table before freeing the topology structure. */
            free_symtab(&top.symtab);
            done_top(&top);

            break;
        default:
            gmx_incons("Not supported in read_stx_conf");
    }
}
Ejemplo n.º 5
0
void read_stx_conf(char *infile, char *title,t_atoms *atoms, 
		   rvec x[],rvec *v,int *ePBC,matrix box)
{
  FILE       *in;
  char       buf[256];
  gmx_mtop_t *mtop;
  t_topology top;
  t_trxframe fr;
  int        i,ftp,natoms,i1;
  real       d,r1,r2;

  if (atoms->nr == 0)
    fprintf(stderr,"Warning: Number of atoms in %s is 0\n",infile);
  else if (atoms->atom == NULL)
    gmx_mem("Uninitialized array atom");
  
  if (ePBC)
    *ePBC = -1;

  ftp=fn2ftp(infile);
  switch (ftp) {
  case efGRO:
    read_whole_conf(infile, title, atoms, x, v, box);
    break;
  case efG96:
    fr.title = title;
    fr.natoms = atoms->nr;
    fr.atoms = atoms;
    fr.x = x;
    fr.v = v;
    fr.f = NULL;
    in = gmx_fio_fopen(infile,"r");
    read_g96_conf(in, infile, &fr);
    gmx_fio_fclose(in);
    copy_mat(fr.box,box);
    break;
  case efPDB:
  case efBRK:
  case efENT:
    read_pdb_conf(infile, title, atoms, x, ePBC, box, TRUE, NULL);
    break;
  case efESP:
    read_espresso_conf(infile,atoms,x,v,box);
    break;
  case efTPR:
  case efTPB:
  case efTPA: 
    snew(mtop,1);
    i = read_tpx(infile,&i1,&r1,&r2,NULL,box,&natoms,x,v,NULL,mtop);
    if (ePBC)
      *ePBC = i;
    
    strcpy(title,*(mtop->name));
    
    /* Free possibly allocated memory */
    done_atom(atoms);
    
    *atoms = gmx_mtop_global_atoms(mtop);
    top = gmx_mtop_t_to_t_topology(mtop);
    tpx_make_chain_identifiers(atoms,&top.mols);
		
    sfree(mtop);
    done_top(&top);
		  
    break;
  default:
    gmx_incons("Not supported in read_stx_conf");
  }
}