int ex_put_block_params( int         exoid,
			 size_t      block_count,
			 const struct ex_block *blocks)
{
  size_t i;
  int conn_int_type;
  int status;
  int arbitrary_polyhedra = 0; /* 1 if block is arbitrary 2d polyhedra type; 2 if 3d polyhedra */
  int att_name_varid = -1;
  int varid, dimid, dims[2], blk_id_ndx, blk_stat, strdim;
  size_t start[2];
  size_t num_blk;
  int cur_num_blk, numblkdim, numattrdim;
  int nnodperentdim = -1;
  int nedgperentdim = -1;
  int nfacperentdim = -1;
  int connid;
  int npeid;
  char errmsg[MAX_ERR_LENGTH];
  char entity_type1[5];
  char entity_type2[5];
  int* blocks_to_define = NULL;
  const char* dnumblk = NULL;
  const char* vblkids = NULL;
  const char* vblksta = NULL;
  const char* vnodcon = NULL;
  const char* vnpecnt = NULL;
  const char* vedgcon = NULL;
  const char* vfaccon = NULL;
  const char* vconn   = NULL;
  const char* vattnam = NULL;
  const char* vblkatt = NULL;
  const char* dneblk  = NULL;
  const char* dnape   = NULL;
  const char* dnnpe   = NULL;
  const char* dnepe   = NULL;
  const char* dnfpe   = NULL;

  exerrval  = 0; /* clear error code */

  blocks_to_define = malloc(block_count*sizeof(int));

  for (i=0; i < block_count; i++) {
    switch (blocks[i].type) {
    case EX_EDGE_BLOCK:
      dnumblk = DIM_NUM_ED_BLK;
      vblkids = VAR_ID_ED_BLK;
      vblksta = VAR_STAT_ED_BLK;
      break;
    case EX_FACE_BLOCK:
      dnumblk = DIM_NUM_FA_BLK;
      vblkids = VAR_ID_FA_BLK;
      vblksta = VAR_STAT_FA_BLK;
      break;
    case EX_ELEM_BLOCK:
      dnumblk = DIM_NUM_EL_BLK;
      vblkids = VAR_ID_EL_BLK;
      vblksta = VAR_STAT_EL_BLK;
      break;
    default:
      exerrval = EX_BADPARAM;
      sprintf( errmsg, "Error: Bad block type (%d) specified for entry %d file id %d",
	       blocks[i].type, (int)i, exoid );
      ex_err( "ex_put_block_params", errmsg, exerrval );
      free(blocks_to_define);
      return (EX_FATAL);
    }

    /* first check if any blocks of that type are specified */
    if ((status = ex_get_dimension(exoid, dnumblk, ex_name_of_object(blocks[i].type),
				   &num_blk, &dimid, "ex_put_block_params")) != NC_NOERR) {
      sprintf(errmsg,
	      "Error: No %ss defined in file id %d",
	      ex_name_of_object(blocks[i].type), exoid);
      ex_err("ex_put_block_params",errmsg,exerrval);
      free(blocks_to_define);
      return EX_FATAL;
    }

    /* Next: Make sure that there are not any duplicate block ids by
       searching the vblkids array.
       WARNING: This must be done outside of define mode because id_lkup accesses
       the database to determine the position
    */

    if ((status = nc_inq_varid(exoid, vblkids, &varid)) != NC_NOERR) {
      exerrval = status;
      sprintf(errmsg,
	      "Error: failed to locate %s ids in file id %d",
	      ex_name_of_object(blocks[i].type), exoid);
      ex_err("ex_put_block_params",errmsg,exerrval);
      free(blocks_to_define);
      return EX_FATAL;
    }

    ex_id_lkup(exoid,blocks[i].type,blocks[i].id); /* Error value used, but don't need return value */
    if (exerrval != EX_LOOKUPFAIL) {   /* found the element block id */
      exerrval = EX_FATAL;
      sprintf(errmsg,
	      "Error: %s id %"PRId64" already exists in file id %d",
	      ex_name_of_object(blocks[i].type), blocks[i].id,exoid);
      ex_err("ex_put_block_params",errmsg,exerrval);
      free(blocks_to_define);
      return (EX_FATAL);
    }

    /* Keep track of the total number of element blocks defined using a counter 
       stored in a linked list keyed by exoid.
       NOTE: ex_get_file_item  is a function that finds the number of element 
       blocks for a specific file and returns that value.
    */
    cur_num_blk=ex_get_file_item(exoid, ex_get_counter_list(blocks[i].type));
    if (cur_num_blk >= (int)num_blk) {
      exerrval = EX_FATAL;
      sprintf(errmsg,
	      "Error: exceeded number of %ss (%d) defined in file id %d",
	      ex_name_of_object(blocks[i].type), (int)num_blk,exoid);
      ex_err("ex_put_block_params",errmsg,exerrval);
      free(blocks_to_define);
      return (EX_FATAL);
    }

    /*   NOTE: ex_inc_file_item  is a function that finds the number of element
	 blocks for a specific file and returns that value incremented. */
    cur_num_blk=ex_inc_file_item(exoid, ex_get_counter_list(blocks[i].type));
    start[0] = cur_num_blk;

    /* write out block id to previously defined id array variable*/
    status = nc_put_var1_longlong(exoid, varid, start, (long long*)&blocks[i].id);

    if (status != NC_NOERR) {
      exerrval = status;
      sprintf(errmsg,
	      "Error: failed to store %s id to file id %d",
	      ex_name_of_object(blocks[i].type), exoid);
      ex_err("ex_put_block_params",errmsg,exerrval);
      free(blocks_to_define);
      return (EX_FATAL);
    }

    blocks_to_define[i] = start[0]+1; /* element id index into vblkids array*/

    if (blocks[i].num_entry == 0) /* Is this a NULL element block? */
      blk_stat = 0; /* change element block status to NULL */
    else
      blk_stat = 1; /* change element block status to EX_EX_TRUE */

    if ((status = nc_inq_varid (exoid, vblksta, &varid)) != NC_NOERR) {
      exerrval = status;
      sprintf(errmsg,
	      "Error: failed to locate %s status in file id %d",
	      ex_name_of_object(blocks[i].type), exoid);
      ex_err("ex_put_block_params",errmsg,exerrval);
      free(blocks_to_define);
      return (EX_FATAL);
    }

    if ((status = nc_put_var1_int(exoid, varid, start, &blk_stat)) != NC_NOERR) {
      exerrval = status;
      sprintf(errmsg,
	      "Error: failed to store %s id %"PRId64" status to file id %d",
	      ex_name_of_object(blocks[i].type), blocks[i].id, exoid);
      ex_err("ex_put_block_params",errmsg,exerrval);
      free(blocks_to_define);
      return (EX_FATAL);
    }
  }

  /* put netcdf file into define mode  */
  if ((status=nc_redef (exoid)) != NC_NOERR) {
    exerrval = status;
    sprintf(errmsg,"Error: failed to place file id %d into define mode",exoid);
    ex_err("ex_put_block_params",errmsg,exerrval);
    free(blocks_to_define);
    return (EX_FATAL);
  }


  for (i=0; i < block_count; i++) {
    if (blocks[i].num_entry == 0) {/* Is this a NULL element block? */
      continue;
    }

    blk_id_ndx = blocks_to_define[i];

    switch (blocks[i].type) {
    case EX_EDGE_BLOCK:
      dneblk = DIM_NUM_ED_IN_EBLK(blk_id_ndx);
      dnnpe = DIM_NUM_NOD_PER_ED(blk_id_ndx);
      dnepe = 0;
      dnfpe = 0;
      dnape = DIM_NUM_ATT_IN_EBLK(blk_id_ndx);
      vblkatt = VAR_EATTRIB(blk_id_ndx);
      vattnam = VAR_NAME_EATTRIB(blk_id_ndx);
      vnodcon = VAR_EBCONN(blk_id_ndx);
      vedgcon = 0;
      vfaccon = 0;
      break;
    case EX_FACE_BLOCK:
      dneblk = DIM_NUM_FA_IN_FBLK(blk_id_ndx);
      dnnpe = DIM_NUM_NOD_PER_FA(blk_id_ndx);
      dnepe = 0;
      dnfpe = 0;
      dnape = DIM_NUM_ATT_IN_FBLK(blk_id_ndx);
      vblkatt = VAR_FATTRIB(blk_id_ndx);
      vattnam = VAR_NAME_FATTRIB(blk_id_ndx);
      vnodcon = VAR_FBCONN(blk_id_ndx);
      vnpecnt = VAR_FBEPEC(blk_id_ndx);
      vedgcon = 0;
      vfaccon = 0;
      break;
    case EX_ELEM_BLOCK:
      dneblk = DIM_NUM_EL_IN_BLK(blk_id_ndx);
      dnnpe = DIM_NUM_NOD_PER_EL(blk_id_ndx);
      dnepe = DIM_NUM_EDG_PER_EL(blk_id_ndx);
      dnfpe = DIM_NUM_FAC_PER_EL(blk_id_ndx);
      dnape = DIM_NUM_ATT_IN_BLK(blk_id_ndx);
      vblkatt = VAR_ATTRIB(blk_id_ndx);
      vattnam = VAR_NAME_ATTRIB(blk_id_ndx);
      vnodcon = VAR_CONN(blk_id_ndx);
      vnpecnt = VAR_EBEPEC(blk_id_ndx);
      vedgcon = VAR_ECONN(blk_id_ndx);
      vfaccon = VAR_FCONN(blk_id_ndx);
      break;
    default:
      goto error_ret;
    }

    /* define some dimensions and variables*/
    if ((status = nc_def_dim(exoid,dneblk,blocks[i].num_entry, &numblkdim )) != NC_NOERR) {
      if (status == NC_ENAMEINUSE) {        /* duplicate entry */
	exerrval = status;
	sprintf(errmsg,
		"Error: %s %"PRId64" already defined in file id %d",
		ex_name_of_object(blocks[i].type), blocks[i].id,exoid);
	ex_err("ex_put_block_params",errmsg,exerrval);
      } else {
	exerrval = status;
	sprintf(errmsg,
		"Error: failed to define number of entities/block for %s %"PRId64" file id %d",
		ex_name_of_object(blocks[i].type), blocks[i].id,exoid);
	ex_err("ex_put_block_params",errmsg,exerrval);
      }
      goto error_ret;         /* exit define mode and return */
    }

    if ( dnnpe && blocks[i].num_nodes_per_entry > 0) {
      /* A nfaced block would not have any nodes defined... */
      if ((status = nc_def_dim(exoid,dnnpe,blocks[i].num_nodes_per_entry, &nnodperentdim)) != NC_NOERR) {
	exerrval = status;
	sprintf(errmsg,
		"Error: failed to define number of nodes/entity for %s %"PRId64" in file id %d",
		ex_name_of_object(blocks[i].type), blocks[i].id,exoid);
	ex_err("ex_put_block_params",errmsg,exerrval);
	goto error_ret;         /* exit define mode and return */
      }
    }

    if (dnepe && blocks[i].num_edges_per_entry > 0 ) {
      if ((status = nc_def_dim (exoid,dnepe,blocks[i].num_edges_per_entry, &nedgperentdim)) != NC_NOERR) {
	exerrval = status;
	sprintf(errmsg,
		"Error: failed to define number of edges/entity for %s %"PRId64" in file id %d",
		ex_name_of_object(blocks[i].type), blocks[i].id,exoid);
	ex_err("ex_put_block_params",errmsg,exerrval);
	goto error_ret;         /* exit define mode and return */
      }
    }

    if ( dnfpe && blocks[i].num_faces_per_entry > 0 ) {
      if ((status = nc_def_dim(exoid,dnfpe,blocks[i].num_faces_per_entry, &nfacperentdim)) != NC_NOERR) {
	exerrval = status;
	sprintf(errmsg,
		"Error: failed to define number of faces/entity for %s %"PRId64" in file id %d",
		ex_name_of_object(blocks[i].type), blocks[i].id,exoid);
	ex_err("ex_put_block_params",errmsg,exerrval);
	goto error_ret;         /* exit define mode and return */
      }
    }

    /* element attribute array */
    if (blocks[i].num_attribute > 0) {

      if ((status = nc_def_dim(exoid, dnape, blocks[i].num_attribute, &numattrdim)) != NC_NOERR) {
	exerrval = status;
	sprintf(errmsg,
		"Error: failed to define number of attributes in %s %"PRId64" in file id %d",
		ex_name_of_object(blocks[i].type), blocks[i].id,exoid);
	ex_err("ex_put_block_params",errmsg,exerrval);
	goto error_ret;         /* exit define mode and return */
      }

      dims[0] = numblkdim;
      dims[1] = numattrdim;

      if ((status = nc_def_var(exoid, vblkatt, nc_flt_code(exoid), 2, dims, &varid)) != NC_NOERR) {
	exerrval = status;
	sprintf(errmsg,
		"Error:  failed to define attributes for %s %"PRId64" in file id %d",
		ex_name_of_object(blocks[i].type), blocks[i].id,exoid);
	ex_err("ex_put_block_params",errmsg,exerrval);
	goto error_ret;         /* exit define mode and return */
      }
      ex_compress_variable(exoid, varid, 2);

      /* inquire previously defined dimensions  */
      if ((status = nc_inq_dimid(exoid, DIM_STR_NAME, &strdim)) != NC_NOERR) {
	exerrval = status;
	sprintf(errmsg,
		"Error: failed to get string length in file id %d",exoid);
	ex_err("ex_put_block_params",errmsg,exerrval);
	goto error_ret;
      }
     
      /* Attribute names... */
      dims[0] = numattrdim;
      dims[1] = strdim;
	    
      if ((status = nc_def_var(exoid, vattnam, NC_CHAR, 2, dims, &att_name_varid)) != NC_NOERR) {
	exerrval = status;
	sprintf(errmsg,
		"Error: failed to define %s attribute name array in file id %d",
		ex_name_of_object(blocks[i].type), exoid);
	ex_err("ex_put_block_params",errmsg,exerrval);
	goto error_ret;         /* exit define mode and return */
      }
    }

    conn_int_type = NC_INT;
    if (ex_int64_status(exoid) & EX_BULK_INT64_DB) {
      conn_int_type = NC_INT64;
    }

    /* See if storing an 'nsided' element block (arbitrary 2d polyhedra or super element) */
    if (strlen(blocks[i].topology) >= 3) {
      if ((blocks[i].topology[0] == 'n' || blocks[i].topology[0] == 'N') &&
	  (blocks[i].topology[1] == 's' || blocks[i].topology[1] == 'S') &&
	  (blocks[i].topology[2] == 'i' || blocks[i].topology[2] == 'I'))
	arbitrary_polyhedra = 1;
      else if ((blocks[i].topology[0] == 'n' || blocks[i].topology[0] == 'N') &&
	       (blocks[i].topology[1] == 'f' || blocks[i].topology[1] == 'F') &&
	       (blocks[i].topology[2] == 'a' || blocks[i].topology[2] == 'A'))
	/* If a FACE_BLOCK, then we are dealing with the faces of the nfaced blocks[i]. */
	arbitrary_polyhedra = blocks[i].type == EX_FACE_BLOCK ? 1 : 2;
    }

    /* element connectivity array */
    if (arbitrary_polyhedra > 0) {
      if (blocks[i].type != EX_FACE_BLOCK && blocks[i].type != EX_ELEM_BLOCK) {
	exerrval = EX_BADPARAM;
	sprintf( errmsg, "Error: Bad block type (%d) for nsided/nfaced block in file id %d",
		 blocks[i].type, exoid );
	ex_err( "ex_put_block_params", errmsg, exerrval );
	goto error_ret;
      }

      if (arbitrary_polyhedra == 1) {
	dims[0] = nnodperentdim;
	vconn = vnodcon;

	/* store entity types as attribute of npeid variable -- node/elem, node/face, face/elem*/
	strcpy(entity_type1, "NODE");
	if (blocks[i].type == EX_ELEM_BLOCK)
	  strcpy(entity_type2, "ELEM");
	else
	  strcpy(entity_type2, "FACE");
      } else if (arbitrary_polyhedra == 2) {
	dims[0] = nfacperentdim;
	vconn = vfaccon;

	/* store entity types as attribute of npeid variable -- node/elem, node/face, face/elem*/
	strcpy(entity_type1, "FACE");
	strcpy(entity_type2, "ELEM");
      }

      if ((status = nc_def_var(exoid, vconn, conn_int_type, 1, dims, &connid)) != NC_NOERR) {
	exerrval = status;
	sprintf(errmsg,
		"Error: failed to create connectivity array for %s %"PRId64" in file id %d",
		ex_name_of_object(blocks[i].type), blocks[i].id,exoid);
	ex_err("ex_put_block_params",errmsg,exerrval);
	goto error_ret;         /* exit define mode and return */
      }
    
      /* element face-per-element or node-per-element count array */
      dims[0] = numblkdim;
    
      if ((status = nc_def_var(exoid, vnpecnt, conn_int_type, 1, dims, &npeid)) != NC_NOERR) {
	exerrval = status;
	sprintf(errmsg,
		"Error: failed to create face- or node- per-entity count array for %s %"PRId64" in file id %d",
		ex_name_of_object(blocks[i].type), blocks[i].id, exoid);
	ex_err("ex_put_block_params",errmsg,exerrval);
	goto error_ret;         /* exit define mode and return */
      }

      if ((status = nc_put_att_text(exoid, npeid, "entity_type1", strlen(entity_type1)+1,
				    entity_type1)) != NC_NOERR) {
	exerrval = status;
	sprintf(errmsg,
		"Error: failed to store entity type attribute text for %s %"PRId64" in file id %d",
		ex_name_of_object(blocks[i].type), blocks[i].id, exoid);
	ex_err("ex_put_block_params",errmsg,exerrval);
	goto error_ret;         /* exit define mode and return */
      }
      if ((status = nc_put_att_text(exoid, npeid, "entity_type2", strlen(entity_type2)+1,
				    entity_type2)) != NC_NOERR) {
	exerrval = status;
	sprintf(errmsg,
		"Error: failed to store entity type attribute text for %s %"PRId64" in file id %d",
		ex_name_of_object(blocks[i].type), blocks[i].id, exoid);
	ex_err("ex_put_block_params",errmsg,exerrval);
	goto error_ret;         /* exit define mode and return */
      }
    } else {
      /* "Normal" (non-polyhedra) element block type */
      dims[0] = numblkdim;
      dims[1] = nnodperentdim;
    
      if ((status = nc_def_var(exoid, vnodcon, conn_int_type, 2, dims, &connid)) != NC_NOERR) {
	exerrval = status;
	sprintf(errmsg,
		"Error: failed to create connectivity array for %s %"PRId64" in file id %d",
		ex_name_of_object(blocks[i].type), blocks[i].id,exoid);
	ex_err("ex_put_block_params",errmsg,exerrval);
	goto error_ret;         /* exit define mode and return */
      }
      ex_compress_variable(exoid, connid, 1);
    }
    /* store element type as attribute of connectivity variable */
    if ((status = nc_put_att_text(exoid, connid, ATT_NAME_ELB, strlen(blocks[i].topology)+1, 
				  blocks[i].topology)) != NC_NOERR) {
      exerrval = status;
      sprintf(errmsg,
	      "Error: failed to store %s type name %s in file id %d",
	      ex_name_of_object(blocks[i].type), blocks[i].topology,exoid);
      ex_err("ex_put_block_params",errmsg,exerrval);
      goto error_ret;         /* exit define mode and return */
    }

    if (arbitrary_polyhedra == 0) {
      if (vedgcon && blocks[i].num_edges_per_entry ) {
	dims[0] = numblkdim;
	dims[1] = nedgperentdim;
      
	if ((status = nc_def_var(exoid, vedgcon, conn_int_type, 2, dims, &varid)) != NC_NOERR) {
	  exerrval = status;
	  sprintf(errmsg,
		  "Error: failed to create edge connectivity array for %s %"PRId64" in file id %d",
		  ex_name_of_object(blocks[i].type), blocks[i].id,exoid);
	  ex_err("ex_put_block_params",errmsg,exerrval);
	  goto error_ret;         /* exit define mode and return */
	}
      }
    
      if ( vfaccon && blocks[i].num_faces_per_entry ) {
	dims[0] = numblkdim;
	dims[1] = nfacperentdim;
      
	if ((status = nc_def_var(exoid, vfaccon, conn_int_type, 2, dims, &varid)) != NC_NOERR) {
	  exerrval = status;
	  sprintf(errmsg,
		  "Error: failed to create face connectivity array for %s %"PRId64" in file id %d",
		  ex_name_of_object(blocks[i].type), blocks[i].id,exoid);
	  ex_err("ex_put_block_params",errmsg,exerrval);
	  goto error_ret;         /* exit define mode and return */
	}
      }
    }
  }

  free(blocks_to_define);

  /* leave define mode  */
  if ((exerrval=nc_enddef (exoid)) != NC_NOERR) {
    sprintf(errmsg,
	    "Error: failed to complete %s definition in file id %d", 
	    ex_name_of_object(blocks[i].type), exoid);
    ex_err("ex_put_block_params",errmsg,exerrval);
    return (EX_FATAL);
  }


  for (i=0; i < block_count; i++) {
    switch (blocks[i].type) {
    case EX_EDGE_BLOCK:
      vblkids = VAR_ID_ED_BLK;
      break;
    case EX_FACE_BLOCK:
      vblkids = VAR_ID_FA_BLK;
      break;
    case EX_ELEM_BLOCK:
      vblkids = VAR_ID_EL_BLK;
      break;
    default:
      return (EX_FATAL); /* should have been handled earlier; quiet compiler here */
    }

    nc_inq_varid(exoid, vblkids, &att_name_varid);

    if (blocks[i].num_attribute > 0 && att_name_varid >= 0) {
      /* Output a dummy empty attribute name in case client code doesn't
	 write anything; avoids corruption in some cases.
      */
      size_t  count[2];
      char *text = "";
      size_t j;

      count[0] = 1;
      start[1] = 0;
      count[1] = strlen(text)+1;
  
      for (j = 0; j < blocks[i].num_attribute; j++) {
	start[0] = j;
	nc_put_vara_text(exoid, att_name_varid, start, count, text);
      }
    }
  }

  return (EX_NOERR);

  /* Fatal error: exit definition mode and return */
 error_ret:
  free(blocks_to_define);

  if (nc_enddef (exoid) != NC_NOERR) {    /* exit define mode */
    sprintf(errmsg,
	    "Error: failed to complete definition for file id %d",
	    exoid);
    ex_err("ex_put_block_params",errmsg,exerrval);
  }
  return (EX_FATAL);
}
Exemple #2
0
int ex_put_sets (int   exoid,
		 size_t set_count,
		 const struct ex_set *sets)
{
  size_t i;
  int needs_define = 0;
  int set_stat;
  int dimid, varid, status, dims[1];
  int set_id_ndx;
  size_t start[1]; 
  int cur_num_sets;
  char errmsg[MAX_ERR_LENGTH];
  int* sets_to_define = NULL;
  char* numentryptr 	= NULL;
  char* entryptr = NULL;
  char* extraptr = NULL;
  char* idsptr = NULL;
  char* statptr = NULL;
  char* numdfptr = NULL;
  char* factptr = NULL;

  size_t int_size;
  
  exerrval = 0; /* clear error code */

  sets_to_define = malloc(set_count*sizeof(int));
  
  /* Note that this routine can be called:
     1) just define the sets
     2) just output the set data (after a previous call to define)
     3) define and output the set data in one call.
  */
  for (i=0; i < set_count; i++) {
    /* first check if any sets are specified */
    if ((status = nc_inq_dimid(exoid, ex_dim_num_objects(sets[i].type), &dimid)) != NC_NOERR) {
      if (status == NC_EBADDIM) {
	exerrval = status;
	sprintf(errmsg,
		"Error: no %ss defined for file id %d", ex_name_of_object(sets[i].type), exoid);
	ex_err("ex_put_sets",errmsg,exerrval);
      } else {
	exerrval = status;
	sprintf(errmsg,
		"Error: failed to locate %ss defined in file id %d",
		ex_name_of_object(sets[i].type), exoid);
	ex_err("ex_put_sets",errmsg,exerrval);
      }
      return (EX_FATAL);
    }

    set_id_ndx = ex_id_lkup(exoid, sets[i].type, sets[i].id);
    if (exerrval != EX_LOOKUPFAIL) {  /* found the side set id, so set is already defined... */
      sets_to_define[i] = 0;
      continue;
    } else {
      needs_define++;
      sets_to_define[i] = 1;
    }
  }
    
  if (needs_define > 0) {
    /* put netcdf file into define mode  */
    if ((status = nc_redef (exoid)) != NC_NOERR) {
      exerrval = status;
      sprintf(errmsg,
	      "Error: failed to put file id %d into define mode",
	      exoid);
      ex_err("ex_put_sets",errmsg,exerrval);
      return (EX_FATAL);
    }
    
    for (i=0; i < set_count; i++) {
      if (sets_to_define[i] == 0)
	continue;
      
      /*   NOTE: ex_inc_file_item finds the current number of sets defined
	   for a specific file and returns that value incremented. */
      cur_num_sets=ex_inc_file_item(exoid, ex_get_counter_list(sets[i].type));
      set_id_ndx = cur_num_sets + 1;
      sets_to_define[i] = set_id_ndx;
      
      if (sets[i].num_entry == 0)
	continue;
      
      /* setup pointers based on set_type */
      if (sets[i].type == EX_NODE_SET) {
	numentryptr = DIM_NUM_NOD_NS(set_id_ndx);
	entryptr = VAR_NODE_NS(set_id_ndx);
	extraptr = NULL;
	/* note we are using DIM_NUM_NODE_NS instead of DIM_NUM_DF_NS */
	numdfptr = DIM_NUM_NOD_NS(set_id_ndx);
	factptr = VAR_FACT_NS(set_id_ndx);
      }
      else if (sets[i].type == EX_EDGE_SET) {
	numentryptr = DIM_NUM_EDGE_ES(set_id_ndx);
	entryptr = VAR_EDGE_ES(set_id_ndx);
	extraptr = VAR_ORNT_ES(set_id_ndx);
	numdfptr = DIM_NUM_DF_ES(set_id_ndx);
	factptr = VAR_FACT_ES(set_id_ndx);
      }
      else if (sets[i].type == EX_FACE_SET) {
	numentryptr = DIM_NUM_FACE_FS(set_id_ndx);
	entryptr = VAR_FACE_FS(set_id_ndx);
	extraptr = VAR_ORNT_FS(set_id_ndx);
	numdfptr = DIM_NUM_DF_FS(set_id_ndx);
	factptr = VAR_FACT_FS(set_id_ndx);
      }
      else if (sets[i].type == EX_SIDE_SET) {
	numentryptr = DIM_NUM_SIDE_SS(set_id_ndx);
	entryptr = VAR_ELEM_SS(set_id_ndx);
	extraptr = VAR_SIDE_SS(set_id_ndx);
	numdfptr = DIM_NUM_DF_SS(set_id_ndx);
	factptr = VAR_FACT_SS(set_id_ndx);
      }
      else if (sets[i].type == EX_ELEM_SET) {
	numentryptr = DIM_NUM_ELE_ELS(set_id_ndx);
	entryptr = VAR_ELEM_ELS(set_id_ndx);
	extraptr = NULL;
	numdfptr = DIM_NUM_DF_ELS(set_id_ndx);
	factptr = VAR_FACT_ELS(set_id_ndx);
      }

      /* define dimensions and variables */
      if ((status = nc_def_dim(exoid, numentryptr,
			       sets[i].num_entry, &dimid)) != NC_NOERR) {
	exerrval = status;
	if (status == NC_ENAMEINUSE) {
	  sprintf(errmsg,
		  "Error: %s %"PRId64" -- size already defined in file id %d",
		  ex_name_of_object(sets[i].type), sets[i].id,exoid);
	  ex_err("ex_put_sets",errmsg,exerrval);
	}
	else {
	  sprintf(errmsg,
		  "Error: failed to define number of entries in %s %"PRId64" in file id %d",
		  ex_name_of_object(sets[i].type), sets[i].id,exoid);
	  ex_err("ex_put_sets",errmsg,exerrval);
	}
	goto error_ret;
      }
      
      int_size = sizeof(int);
      if (ex_int64_status(exoid) & EX_BULK_INT64_DB) {
	int_size = sizeof(int64_t);
      }
      
      /* create variable array in which to store the entry lists */
      dims[0] = dimid;
      if ((status = nc_def_var(exoid, entryptr, int_size, 1, dims, &varid)) != NC_NOERR) {
	exerrval = status;
	if (status == NC_ENAMEINUSE) {
	  sprintf(errmsg,
		  "Error: entry list already exists for %s %"PRId64" in file id %d",
		  ex_name_of_object(sets[i].type), sets[i].id,exoid);
	  ex_err("ex_put_sets",errmsg,exerrval);
	} else {
	  sprintf(errmsg,
		  "Error: failed to create entry list for %s %"PRId64" in file id %d",
		  ex_name_of_object(sets[i].type), sets[i].id,exoid);
	  ex_err("ex_put_sets",errmsg,exerrval);
	}
	goto error_ret;            /* exit define mode and return */
      }
      ex_compress_variable(exoid, varid, 1);
      
      if (extraptr) {
	if ((status = nc_def_var(exoid, extraptr, int_size, 1, dims, &varid)) != NC_NOERR) {
	  exerrval = status;
	  if (status == NC_ENAMEINUSE) {
	    sprintf(errmsg,
		    "Error: extra list already exists for %s %"PRId64" in file id %d",
		    ex_name_of_object(sets[i].type), sets[i].id, exoid);
	    ex_err("ex_put_sets",errmsg,exerrval);
	  } else {
	    sprintf(errmsg,
		    "Error: failed to create extra list for %s %"PRId64" in file id %d",
		    ex_name_of_object(sets[i].type), sets[i].id,exoid);
	    ex_err("ex_put_sets",errmsg,exerrval);
	  }
	  goto error_ret;         /* exit define mode and return */
	}
	ex_compress_variable(exoid, varid, 1);
      }

      /* Create distribution factors variable if required */
      if (sets[i].num_distribution_factor > 0) {
	if (sets[i].type != EX_SIDE_SET) {
	  /* but sets[i].num_distribution_factor must equal number of nodes */
	  if (sets[i].num_distribution_factor != sets[i].num_entry) {
	    exerrval = EX_FATAL;
	    sprintf(errmsg,
		    "Error: # dist fact (%"PRId64") not equal to # nodes (%"PRId64") in node  set %"PRId64" file id %d",
		    sets[i].num_distribution_factor, sets[i].num_entry, sets[i].id, exoid);
	    ex_err("ex_put_sets",errmsg,exerrval);
	    goto error_ret;    /* exit define mode and return */
	  }
	} else {
	  /* resuse dimid from entry lists */
	  if ((status = nc_def_dim(exoid, numdfptr, 
				   sets[i].num_distribution_factor, &dimid)) != NC_NOERR) {
	    exerrval = status;
	    sprintf(errmsg,
		    "Error: failed to define number of dist factors in %s %"PRId64" in file id %d",
		    ex_name_of_object(sets[i].type), sets[i].id,exoid);
	    ex_err("ex_put_sets",errmsg,exerrval);
	    goto error_ret;          /* exit define mode and return */
	  }
	}
	
	/* create variable array in which to store the set distribution factors
	 */
	dims[0] = dimid;
	if ((status = nc_def_var(exoid, factptr, nc_flt_code(exoid), 1, dims, &varid)) != NC_NOERR) {
	  exerrval = status;
	  if (status == NC_ENAMEINUSE) {
	    sprintf(errmsg,
		    "Error: dist factors list already exists for %s %"PRId64" in file id %d",
		    ex_name_of_object(sets[i].type), sets[i].id,exoid);
	    ex_err("ex_put_sets",errmsg,exerrval);
	  } else {
	    sprintf(errmsg,
		    "Error: failed to create dist factors list for %s %"PRId64" in file id %d",
		    ex_name_of_object(sets[i].type), sets[i].id,exoid);
	    ex_err("ex_put_sets",errmsg,exerrval);
	  }
	  goto error_ret;            /* exit define mode and return */
	}
	ex_compress_variable(exoid, varid, 2);
      }
    }

    /* leave define mode  */
    if ((status = nc_enddef (exoid)) != NC_NOERR) {
      exerrval = status;
      sprintf(errmsg,
	      "Error: failed to complete definition in file id %d", exoid);
      ex_err("ex_put_sets",errmsg,exerrval);
      return (EX_FATAL);
    }

    /* Output the set ids and status... */
    for (i=0; i < set_count; i++) {
    /* setup pointers based on sets[i].type */
      if (sets[i].type == EX_NODE_SET) {
	idsptr = VAR_NS_IDS;
	statptr = VAR_NS_STAT;
      }
      else if (sets[i].type == EX_EDGE_SET) {
	idsptr = VAR_ES_IDS;
	statptr = VAR_ES_STAT;
      }
      else if (sets[i].type == EX_FACE_SET) {
	idsptr = VAR_FS_IDS;
	statptr = VAR_FS_STAT;
      }
      else if (sets[i].type == EX_SIDE_SET) {
	idsptr = VAR_SS_IDS;
	statptr = VAR_SS_STAT;
      }
      else if (sets[i].type == EX_ELEM_SET) {
	idsptr = VAR_ELS_IDS;
	statptr = VAR_ELS_STAT;
      }
      
      /* first: get id of set id variable */
      if ((status = nc_inq_varid(exoid, idsptr, &varid)) != NC_NOERR) {
	exerrval = status;
	sprintf(errmsg,
		"Error: failed to locate %s %"PRId64" in file id %d", ex_name_of_object(sets[i].type),
		sets[i].id, exoid);
	ex_err("ex_put_sets",errmsg,exerrval);
	return (EX_FATAL);
      }
      
      /* write out set id */
      start[0] = sets_to_define[i]-1;
      status = nc_put_var1_longlong(exoid, varid, start, (long long*)&sets[i].id);
    
      if (status != NC_NOERR) {
	exerrval = status;
	sprintf(errmsg,
		"Error: failed to store %s id %"PRId64" in file id %d", ex_name_of_object(sets[i].type),
		sets[i].id, exoid);
	ex_err("ex_put_sets",errmsg,exerrval);
	return (EX_FATAL);
      }
      
      set_stat = (sets[i].num_entry == 0) ? 0 : 1;
      
      if ((status = nc_inq_varid(exoid, statptr, &varid)) != NC_NOERR) {
	exerrval = status;
	sprintf(errmsg,
		"Error: failed to locate %s status in file id %d", ex_name_of_object(sets[i].type),
		exoid);
	ex_err("ex_put_sets",errmsg,exerrval);
	return (EX_FATAL);
      }
      
      if ((status = nc_put_var1_int(exoid, varid, start, &set_stat)) != NC_NOERR) {
	exerrval = status;
	sprintf(errmsg,
		"Error: failed to store %s %"PRId64" status to file id %d", ex_name_of_object(sets[i].type),
		sets[i].id, exoid);
	ex_err("ex_put_sets",errmsg,exerrval);
	return (EX_FATAL);
      }
    }
    free(sets_to_define);
  }
  
  /* Sets are now all defined; see if any set data needs to be output... */
  status = EX_NOERR;
  for (i=0; i < set_count; i++) {
    int stat;
    if (sets[i].entry_list != NULL || sets[i].extra_list != NULL) {
      /* NOTE: ex_put_set will write the warning/error message... */
      stat = ex_put_set(exoid, sets[i].type, sets[i].id, sets[i].entry_list, sets[i].extra_list);
      if (stat != EX_NOERR) status = EX_FATAL;
    }
    if (sets[i].distribution_factor_list != NULL) {
      /* NOTE: ex_put_set_dist_fact will write the warning/error message... */
      stat = ex_put_set_dist_fact(exoid, sets[i].type, sets[i].id, sets[i].distribution_factor_list);
      if (stat != EX_NOERR) status = EX_FATAL;
    }
  }  
  return (status);

  /* Fatal error: exit definition mode and return */
 error_ret:
  free(sets_to_define);
  
  if (nc_enddef (exoid) != NC_NOERR) {    /* exit define mode */
    sprintf(errmsg,
	    "Error: failed to complete definition for file id %d",
	    exoid);
    ex_err("ex_put_sets",errmsg,exerrval);
  }
  return (EX_FATAL);
}
Exemple #3
0
int
cpy_var_def(int in_id,int out_id,int rec_dim_id,char *var_nm)
/*
   int in_id: input netCDF input-file ID
   int out_id: input netCDF output-file ID
   int rec_dim_id: input input-file record dimension ID
   char *var_nm: input variable name
   int cpy_var_def(): output output-file variable ID
 */
{
  /* Routine to copy the variable metadata from an input netCDF file
   * to an output netCDF file. 
   */

  int *dim_in_id;
  int *dim_out_id;
  int idx;
  int nbr_dim;
  int var_in_id;
  int var_out_id;
  int temp;

  extern int ncopts;

  nc_type var_type;

  /* See if the requested variable is already in the output file. */
  temp = ncopts;
  ncopts=0;
  var_out_id=ncvarid(out_id,var_nm);
  ncopts = temp;
  if(var_out_id != -1) return var_out_id;

  /* See if the requested variable is in the input file. */
  var_in_id=ncvarid(in_id,var_nm);

  /* Get the type of the variable and the number of dimensions. */
  ncvarinq(in_id,var_in_id,(char *)NULL,&var_type,&nbr_dim,
        (int *)NULL,(int *)NULL);

  /* Recall:
     1. The dimensions must be defined before the variable.
     2. The variable must be defined before the attributes. */

  /* Allocate space to hold the dimension IDs */
  dim_in_id=malloc(nbr_dim*sizeof(int)); 
  dim_out_id=malloc(nbr_dim*sizeof(int));

  /* Get the dimension IDs */
  ncvarinq(in_id,var_in_id,(char *)NULL,(nc_type *)NULL,
                (int *)NULL,dim_in_id,(int *)NULL);

  /* Get the dimension sizes and names */
  for(idx=0;idx<nbr_dim;idx++){
    char dim_nm[MAX_NC_NAME];
    long dim_sz;

    ncdiminq(in_id,dim_in_id[idx],dim_nm,&dim_sz);

    /* See if the dimension has already been defined */
    temp = ncopts;
    ncopts = 0;
    dim_out_id[idx]=ncdimid(out_id,dim_nm);
    ncopts = temp;

    /* If the dimension hasn't been defined, copy it */
    if(dim_out_id[idx] == -1){
      if(dim_in_id[idx] != rec_dim_id){
        dim_out_id[idx]=ncdimdef(out_id,dim_nm,dim_sz);
      }else{
        dim_out_id[idx]=ncdimdef(out_id,dim_nm,NC_UNLIMITED);
      } /* end else */
    } /* end if */
  } /* end loop over dim */

  /* Define the variable in the output file */

  /* If variable is float or double, define it according to the EXODUS
     file's IO_word_size */

  if ((var_type == NC_FLOAT) || (var_type == NC_DOUBLE)) {
     var_out_id=ncvardef(out_id,var_nm,nc_flt_code(out_id),
                             nbr_dim,dim_out_id);
  } else {
     var_out_id=ncvardef(out_id,var_nm,var_type,nbr_dim,dim_out_id);
  }

  /* Free the space holding the dimension IDs */
  (void)free(dim_in_id);
  (void)free(dim_out_id);

  return var_out_id;
} /* end cpy_var_def() */
Exemple #4
0
/* -------------------- end of local defines -------------------- */
int ex_put_coordinate_frames( int exoid, int nframes, const int cf_ids[], 
                              void* pt_coordinates, const char* tags)
{
  int dim, dim9;                   /* dimension id for nframes, nframes*9 */
  char errmsg[MAX_ERR_LENGTH];     /* buffer for error messages      */
  int exerrval;                    /* returned error value           */
  int varcoords;                   /* variable id for the coordinates */
  int varids;                      /* variable id for the frame ids  */
  int vartags;                     /* variable id for the frame tags */
  long int start=0;                /* start value for varputs        */
  long int count=nframes;          /* number vars to put in varput   */
  long int count9=nframes*9;       /* ditto, but for coordinates     */
  int i;                           /* general indices */
  void* pt_c=0;                    /* pointer to size converted array */



  if ( exoid < 0 )
    return exoid;
  if ( nframes == 0 ) /* write nothing */
    return (EX_NOERR);
  if ( nframes<0 )
    return 1;
  assert( cf_ids!=0 );
  assert( pt_coordinates !=0 );
  assert( tags != 0 );

  /* make the definitions */
  /* go into define mode. define num_frames, num_frames9 */
  if (ncredef (exoid) == -1){
    exerrval = ncerr;
    sprintf(errmsg,"Error: failed to place file id %d into define mode",
            exoid);
    ex_err(PROCNAME,errmsg,exerrval);
    return (EX_FATAL);
  }

  if ( (dim=ncdimdef (exoid, NUM_CFRAMES, nframes)) == -1  ||
       (dim9=ncdimdef (exoid, NUM_CFRAME9, nframes*9))== -1 ){
    exerrval = ncerr;
    sprintf(errmsg,
         "Error: failed to define number of coordinate frames in file id %d",
            exoid);
    ex_err(PROCNAME,errmsg,exerrval);
    goto error_ret;
  }
 

  /* define the variables. coordinates, tags and ids */
  if ((varcoords=ncvardef (exoid, FRAME_COORDS,
                 nc_flt_code(exoid), 1, &dim9)) == -1  ||
      (varids=ncvardef (exoid, FRAME_IDS,NC_INT, 1, &dim)) == -1 ||
      (vartags=ncvardef(exoid, FRAME_TAGS,NC_CHAR,1,&dim)) == -1 ) {
    exerrval = ncerr;
    sprintf(errmsg,
            "Error:  failed to define coordinate frames in file id %d",
            exoid);
    ex_err(PROCNAME,errmsg,exerrval);
    goto error_ret;         /* exit define mode and return */
  }

  /* leave define mode */
  if (ncendef (exoid) == -1) {
    exerrval = ncerr;
    sprintf(errmsg,
        "Error: failed to complete coordinate frame definition in file id %d", 
         exoid);
    ex_err(PROCNAME,errmsg,exerrval);
    return (EX_FATAL);
  }

  /* check variables consistency */
  exerrval = EX_NOERR;
  for (i=0;i<nframes;i++)
    if ( strchr("RrCcSs",tags[i])==0 ){
      sprintf(errmsg,"Warning: Unrecognized coordinate frame tag: '%c'.",
              tags[i]);
      exerrval=2;
      ex_err(PROCNAME,errmsg,exerrval);
    }
  /* could also check vectors. Leave this up to the application */

  /* put the variables into the file */
  pt_c = ex_conv_array(exoid,RTN_ADDRESS,pt_coordinates,count9);
  if (  ncvarput (exoid, vartags, &start, &count, tags) == -1 ||
        ncvarput (exoid, varids, &start, &count, cf_ids) == -1  ||
        ncvarput (exoid, varcoords, &start, &count9, pt_c )==-1 ){
    exerrval = ncerr;
    sprintf(errmsg,
            "Error: failed writing frame data in file id %d",exoid);
    ex_err(PROCNAME,errmsg,exerrval);
    return (EX_FATAL);
  }



  return (EX_NOERR);


 
error_ret:
  if (ncendef (exoid) == -1)     /* exit define mode */
    {
      sprintf(errmsg,
              "Error: failed to complete frame definition for file id %d",
              exoid);
      ex_err(PROCNAME,errmsg,exerrval);
    }
  return (EX_FATAL);


}
Exemple #5
0
int ex_put_elem_block (int   exoid,
                       int   elem_blk_id,
                       const char *elem_type,
                       int   num_elem_this_blk,
                       int   num_nodes_per_elem,
                       int   num_attr)
{
   int varid, dimid, dims[2], elem_blk_id_ndx, elem_blk_stat, strdim;
   long start[2], num_elem_blk;
   nclong ldum;
   int cur_num_elem_blk, nelnoddim, numelbdim, numattrdim, connid;
   char *cdum;
   char errmsg[MAX_ERR_LENGTH];

   exerrval  = 0; /* clear error code */

   cdum = 0;

/* first check if any element blocks are specified */

   if ((dimid = (ncdimid (exoid, DIM_NUM_EL_BLK))) == -1 )
   {
     exerrval = ncerr;
     sprintf(errmsg,
            "Error: no element blocks defined in file id %d",
             exoid);
     ex_err("ex_put_elem_block",errmsg,exerrval);
     return (EX_FATAL);
   }

/* Get number of element blocks defined for this file */
   if ((ncdiminq (exoid,dimid,cdum,&num_elem_blk)) == -1)
   {
     exerrval = ncerr;
     sprintf(errmsg,
            "Error: failed to get number of element blocks in file id %d",
             exoid);
     ex_err("ex_put_elem_block",errmsg,exerrval);
     return (EX_FATAL);
   }

/* Next: Make sure that this is not a duplicate element block id by
         searching the VAR_ID_EL_BLK array.
   WARNING: This must be done outside of define mode because id_lkup accesses
            the database to determine the position
*/

   if ((varid = ncvarid (exoid, VAR_ID_EL_BLK)) == -1)
   {
     exerrval = ncerr;
     sprintf(errmsg,
            "Error: failed to locate element block ids in file id %d", exoid);
     ex_err("ex_put_elem_block",errmsg,exerrval);

   }

   elem_blk_id_ndx = ex_id_lkup(exoid,VAR_ID_EL_BLK,elem_blk_id);
   if (exerrval != EX_LOOKUPFAIL)   /* found the element block id */
   {
     exerrval = EX_FATAL;
     sprintf(errmsg,
            "Error: element block id %d already exists in file id %d",
             elem_blk_id,exoid);
     ex_err("ex_put_elem_block",errmsg,exerrval);
     return (EX_FATAL);
   }

/* Keep track of the total number of element blocks defined using a counter 
   stored in a linked list keyed by exoid.
   NOTE: ex_get_file_item  is a function that finds the number of element 
         blocks for a specific file and returns that value incremented.
*/
   cur_num_elem_blk=ex_get_file_item(exoid, &eb_ctr_list);
   if (cur_num_elem_blk >= num_elem_blk)
   {
     exerrval = EX_FATAL;
     sprintf(errmsg,
          "Error: exceeded number of element blocks (%ld) defined in file id %d",
             num_elem_blk,exoid);
     ex_err("ex_put_elem_block",errmsg,exerrval);
     return (EX_FATAL);
   }


/*   NOTE: ex_get_file_item  is a function that finds the number of element
         blocks for a specific file and returns that value incremented. */

   cur_num_elem_blk=ex_inc_file_item(exoid, &eb_ctr_list);
   start[0] = (long)cur_num_elem_blk;

/* write out element block id to previously defined id array variable*/

   ldum = (nclong)elem_blk_id;
   if (ncvarput1 (exoid, varid, start, &ldum) == -1)
   {
     exerrval = ncerr;
     sprintf(errmsg,
            "Error: failed to store element block id to file id %d",
             exoid);
     ex_err("ex_put_elem_block",errmsg,exerrval);
     return (EX_FATAL);
   }

   elem_blk_id_ndx = start[0]+1; /* element id index into VAR_ID_EL_BLK array*/

   if (num_elem_this_blk == 0) /* Is this a NULL element block? */
     elem_blk_stat = 0; /* change element block status to NULL */
   else
     elem_blk_stat = 1; /* change element block status to TRUE */

   if ((varid = ncvarid (exoid, VAR_STAT_EL_BLK)) == -1)
   {
     exerrval = ncerr;
     sprintf(errmsg,
           "Error: failed to locate element block status in file id %d", exoid);
     ex_err("ex_put_elem_block",errmsg,exerrval);
     return (EX_FATAL);
   }

   ldum = (nclong)elem_blk_stat;
   if (ncvarput1 (exoid, varid, start, &ldum) == -1)
   {
     exerrval = ncerr;
     sprintf(errmsg,
            "Error: failed to store element id %d status to file id %d",
             elem_blk_id, exoid);
     ex_err("ex_put_elem_block",errmsg,exerrval);
     return (EX_FATAL);
   }

   if (num_elem_this_blk == 0) /* Is this a NULL element block? */
   {
     return(EX_NOERR);
   }


   /*
    * Check that storage required for connectivity array is less
    * than 2GB which is maximum size permitted by netcdf
    * (in large file mode). 1<<29 == max number of integer items.
    */
   if (num_elem_this_blk * num_nodes_per_elem  > (1<<29)) {
     exerrval = EX_BADPARAM;
     sprintf(errmsg,
             "Error: Size to store connectivity for element block %d exceeds 2GB in file id %d",
             elem_blk_id, exoid);
     ex_err("ex_put_elem_block",errmsg,exerrval);
     return (EX_FATAL);
   }

   /* put netcdf file into define mode  */
   if (ncredef (exoid) == -1)
   {
     exerrval = ncerr;
     sprintf(errmsg,"Error: failed to place file id %d into define mode",exoid);
     ex_err("ex_put_elem_block",errmsg,exerrval);
     return (EX_FATAL);
   }


/* define some dimensions and variables*/

   if ((numelbdim = ncdimdef (exoid,
        DIM_NUM_EL_IN_BLK(elem_blk_id_ndx), (long)num_elem_this_blk)) == -1)
   {
     if (ncerr == NC_ENAMEINUSE)        /* duplicate entry */
     {
       exerrval = ncerr;
       sprintf(errmsg,
             "Error: element block %d already defined in file id %d",
              elem_blk_id,exoid);
       ex_err("ex_put_elem_block",errmsg,exerrval);
     }
     else
     {
       exerrval = ncerr;
       sprintf(errmsg,
    "Error: failed to define number of elements/block for block %d file id %d",
              elem_blk_id,exoid);
       ex_err("ex_put_elem_block",errmsg,exerrval);
     }
     goto error_ret;         /* exit define mode and return */
   }

   if ((nelnoddim = ncdimdef (exoid,
        DIM_NUM_NOD_PER_EL(elem_blk_id_ndx), (long)num_nodes_per_elem)) == -1)
   {
     exerrval = ncerr;
     sprintf(errmsg,
   "Error: failed to define number of nodes/element for block %d in file id %d",
             elem_blk_id,exoid);
     ex_err("ex_put_elem_block",errmsg,exerrval);
     goto error_ret;         /* exit define mode and return */
   }

/* element attribute array */

   if (num_attr > 0)
   {

     if ((numattrdim = ncdimdef (exoid, 
                DIM_NUM_ATT_IN_BLK(elem_blk_id_ndx), (long)num_attr)) == -1)
     {
       exerrval = ncerr;
       sprintf(errmsg,
      "Error: failed to define number of attributes in block %d in file id %d",
               elem_blk_id,exoid);
       ex_err("ex_put_elem_block",errmsg,exerrval);
       goto error_ret;         /* exit define mode and return */
     }

     dims[0] = numelbdim;
     dims[1] = numattrdim;

     if ((ncvardef (exoid, 
                VAR_ATTRIB(elem_blk_id_ndx), nc_flt_code(exoid), 2, dims)) == -1)
     {
       exerrval = ncerr;
       sprintf(errmsg,
       "Error:  failed to define attributes for element block %d in file id %d",
               elem_blk_id,exoid);
       ex_err("ex_put_elem_block",errmsg,exerrval);
       goto error_ret;         /* exit define mode and return */
     }

     /* inquire previously defined dimensions  */
     if ((strdim = ncdimid (exoid, DIM_STR)) < 0) {
       exerrval = ncerr;
       sprintf(errmsg,
	       "Error: failed to get string length in file id %d",exoid);
       ex_err("ex_put_elem_block",errmsg,exerrval);
       return (EX_FATAL);
     }
     
     /* Attribute names... */
     dims[0] = numattrdim;
     dims[1] = strdim;
	    
     if (ncvardef (exoid, VAR_NAME_ATTRIB(elem_blk_id_ndx), NC_CHAR, 2, dims) == -1) {
       exerrval = ncerr;
       sprintf(errmsg,
	       "Error: failed to define element attribute name array in file id %d",exoid);
       ex_err("ex_put_elem_block",errmsg,exerrval);
       goto error_ret;         /* exit define mode and return */
     }
     
   }

/* element connectivity array */

   dims[0] = numelbdim;
   dims[1] = nelnoddim;

   if ((connid = ncvardef (exoid, 
                VAR_CONN(elem_blk_id_ndx), NC_LONG, 2, dims)) == -1)
   {
     exerrval = ncerr;
     sprintf(errmsg,
        "Error: failed to create connectivity array for block %d in file id %d",
             elem_blk_id,exoid);
     ex_err("ex_put_elem_block",errmsg,exerrval);
     goto error_ret;         /* exit define mode and return */
   }

/* store element type as attribute of connectivity variable */

   if ((ncattput (exoid, connid, ATT_NAME_ELB, NC_CHAR, strlen(elem_type)+1, 
             (void*) elem_type)) == -1)
   {
     exerrval = ncerr;
     sprintf(errmsg,
            "Error: failed to store element type name %s in file id %d",
             elem_type,exoid);
     ex_err("ex_put_elem_block",errmsg,exerrval);
     goto error_ret;         /* exit define mode and return */
   }
 

/* leave define mode  */

   if (ncendef (exoid) == -1)
   {
     exerrval = ncerr;
     sprintf(errmsg,
       "Error: failed to complete element block definition in file id %d", 
        exoid);
     ex_err("ex_put_elem_block",errmsg,exerrval);
     return (EX_FATAL);
   }

   return (EX_NOERR);

/* Fatal error: exit definition mode and return */
error_ret:
       if (ncendef (exoid) == -1)     /* exit define mode */
       {
         sprintf(errmsg,
                "Error: failed to complete definition for file id %d",
                 exoid);
         ex_err("ex_put_elem_block",errmsg,exerrval);
       }
       return (EX_FATAL);
}
static int define_truth_table(ex_entity_type obj_type, int exoid, int num_ent, int num_var,
                              int *var_tab, int *status_tab, void_int *ids, const char *label)
{
  char errmsg[MAX_ERR_LENGTH];
  int  k = 0;
  int  i, j;
  int  time_dim;
  int  dims[2];
  int  varid;
  int  status;

  if ((status = nc_inq_dimid(exoid, DIM_TIME, &time_dim)) != NC_NOERR) {
    exerrval = status;
    snprintf(errmsg, MAX_ERR_LENGTH, "ERROR: failed to locate time dimension in file id %d", exoid);
    ex_err("ex_put_all_var_param_ext", errmsg, exerrval);
    return -1;
  }

  if (var_tab == NULL) {
    exerrval = EX_BADPARAM;
    snprintf(errmsg, MAX_ERR_LENGTH, "ERROR: %s variable truth table is NULL in file id %d", label,
             exoid);
    ex_err("ex_put_all_var_param_ext", errmsg, exerrval);
    return -1;
  }

  for (i = 0; i < num_ent; i++) {
    int64_t id;
    if (ex_int64_status(exoid) & EX_IDS_INT64_API) {
      id = ((int64_t *)ids)[i];
    }
    else {
      id = ((int *)ids)[i];
    }

    for (j = 1; j <= num_var; j++) {

      /* check if variables are to be put out for this block */
      if (var_tab[k] != 0) {
        if (status_tab[i] != 0) { /* only define variable if active */
          dims[0] = time_dim;

          /* Determine number of entities in entity */
          /* Need way to make this more generic... */
          status = nc_inq_dimid(exoid, ex_dim_num_entries_in_object(obj_type, i + 1), &dims[1]);
          if (status != NC_NOERR) {
            exerrval = status;
            snprintf(errmsg, MAX_ERR_LENGTH,
                     "ERROR: failed to locate number of entities in %s %" PRId64 " in file id %d",
                     label, id, exoid);
            ex_err("ex_put_all_var_param_ext", errmsg, exerrval);
            return status;
          }

          /* define netCDF variable to store variable values;
           * the j index cycles from 1 through the number of variables so
           * that the index of the EXODUS variable (which is part of
           * the name of the netCDF variable) will begin at 1 instead of 0
           */
          status = nc_def_var(exoid, ex_name_var_of_object(obj_type, j, i + 1), nc_flt_code(exoid),
                              2, dims, &varid);
          if (status != NC_NOERR) {
            if (status != NC_ENAMEINUSE) {
              exerrval = status;
              snprintf(errmsg, MAX_ERR_LENGTH,
                       "ERROR: failed to define %s variable for %s %" PRId64 " in file id %d",
                       label, label, id, exoid);
              ex_err("ex_put_all_var_param_ext", errmsg, exerrval);
              return status;
            }
          }
          ex_compress_variable(exoid, varid, 2);
        }
      }    /* if */
      k++; /* increment truth table pointer */
    }      /* for j */
  }        /* for i */
  return NC_NOERR;
}
Exemple #7
0
/*! \internal */
int cpy_coord_def(int in_id,int out_id,int rec_dim_id,char *var_nm,
		  int in_large, int out_large)
/*
   int in_id: input netCDF input-file ID
   int out_id: input netCDF output-file ID
   int rec_dim_id: input input-file record dimension ID
   char *var_nm: input variable name
   int in_large: large file setting for input file
   int out_large: large file setting for output file
   int cpy_var_def(): output output-file variable ID
 */
{
  const char *routine = NULL;
  int status;
  size_t spatial_dim;
  int nbr_dim;
  int temp;

  int dim_out_id[2];
  int var_out_id = -1;
  
  /* Handle easiest situation first: in_large matches out_large */
  if (in_large == out_large) {
    return cpy_var_def(in_id, out_id, rec_dim_id, var_nm);
  }

  /* At this point, know that in_large != out_large, so some change to
     the coord variable definition is needed. Also will need the
     spatial dimension, so get that now.*/
  ex_get_dimension(in_id, DIM_NUM_DIM, "dimension", &spatial_dim, &temp, routine);
  
  if (in_large == 0 && out_large == 1) {
    /* output file will have coordx, coordy, coordz (if 3d).  See if
       they are already defined in output file. Assume either all or
       none are defined. */

    {
      int var_out_idx, var_out_idy, var_out_idz;
      int status1 = nc_inq_varid(out_id, VAR_COORD_X, &var_out_idx);
      int status2 = nc_inq_varid(out_id, VAR_COORD_Y, &var_out_idy);
      int status3 = nc_inq_varid(out_id, VAR_COORD_Y, &var_out_idz);

      if (status1 == NC_NOERR && status2 == NC_NOERR &&
          (spatial_dim == 2 || status3 == NC_NOERR)) {
        return NC_NOERR; /* already defined in output file */
      }
    }

    /* Get dimid of the num_nodes dimension in output file... */
    (void)nc_inq_dimid(out_id, DIM_NUM_NODES, &dim_out_id[0]);

    /* Define the variables in the output file */
    
    /* Define according to the EXODUS file's IO_word_size */
    nbr_dim = 1;
    (void)nc_def_var(out_id, VAR_COORD_X, nc_flt_code(out_id), nbr_dim, dim_out_id, &var_out_id);
    ex_compress_variable(out_id, var_out_id, 2);
    if (spatial_dim > 1) {
      (void)nc_def_var(out_id, VAR_COORD_Y, nc_flt_code(out_id), nbr_dim, dim_out_id, &var_out_id);
      ex_compress_variable(out_id, var_out_id, 2);
    }
    if (spatial_dim > 2) {
      (void)nc_def_var(out_id, VAR_COORD_Z, nc_flt_code(out_id), nbr_dim, dim_out_id, &var_out_id);
      ex_compress_variable(out_id, var_out_id, 2);
    }
  }

  if (in_large == 1 && out_large == 0) {
    /* input file has coordx, coordy, coordz (if 3d); output will only
       have "coord".  See if is already defined in output file. */
    status = nc_inq_varid(out_id, VAR_COORD, &var_out_id);
    if (status == NC_NOERR)
      return NC_NOERR; /* already defined in output file */

    /* Get dimid of the spatial dimension and num_nodes dimensions in output file... */
    (void)nc_inq_dimid(out_id, DIM_NUM_DIM,   &dim_out_id[0]);
    (void)nc_inq_dimid(out_id, DIM_NUM_NODES, &dim_out_id[1]);

    /* Define the variable in the output file */
    
    /* Define according to the EXODUS file's IO_word_size */
    nbr_dim = 2;
    (void)nc_def_var(out_id, VAR_COORD, nc_flt_code(out_id), nbr_dim, dim_out_id, &var_out_id);
  }
  return var_out_id;
}
Exemple #8
0
/* -------------------- end of local defines -------------------- */
int ex_put_coordinate_frames( int exoid, int nframes, const int cf_ids[], 
                              void* pt_coordinates, const char* tags)
{
  int status;
  int dim, dim9;                   /* dimension id for nframes, nframes*9 */
  char errmsg[MAX_ERR_LENGTH];     /* buffer for error messages      */
  int varcoords;                   /* variable id for the coordinates */
  int varids;                      /* variable id for the frame ids  */
  int vartags;                     /* variable id for the frame tags */
  int i;                           /* general indices */

  if ( exoid < 0 )
    return exoid;

  if ( nframes == 0 ) /* write nothing */
    return (EX_NOERR);

  if ( nframes<0 )
    return 1;

  assert( cf_ids!=0 );
  assert( pt_coordinates !=0 );
  assert( tags != 0 );

  /* make the definitions */
  /* go into define mode. define num_frames, num_frames9 */
  if ((status = nc_redef (exoid)) != NC_NOERR) {
    exerrval = status;
    sprintf(errmsg,"Error: failed to place file id %d into define mode",
            exoid);
    ex_err(PROCNAME,errmsg,exerrval);
    return (EX_FATAL);
  }

  if ((status = nc_def_dim(exoid, NUM_CFRAMES, nframes, &dim)) != NC_NOERR  ||
      (nc_def_dim(exoid, NUM_CFRAME9, nframes*9, &dim9) != NC_NOERR)) {
    exerrval = status;
    sprintf(errmsg,
	    "Error: failed to define number of coordinate frames in file id %d",
	    exoid);
    ex_err(PROCNAME,errmsg,exerrval);
    goto error_ret;
  }
 
  /* define the variables. coordinates, tags and ids */
  if (nc_def_var (exoid, FRAME_COORDS,
		  nc_flt_code(exoid), 1, &dim9, &varcoords) != NC_NOERR ||
      (nc_def_var(exoid, FRAME_IDS,NC_INT, 1, &dim, &varids) != NC_NOERR) ||
      (nc_def_var(exoid, FRAME_TAGS,NC_CHAR,1,&dim, &vartags) != NC_NOERR) ) {
    exerrval = EX_FATAL;
    sprintf(errmsg,
	    "Error:  failed to define coordinate frames in file id %d",
	    exoid);
    ex_err(PROCNAME,errmsg,exerrval);
    goto error_ret;         /* exit define mode and return */
  }

  /* leave define mode */
  if ((status = nc_enddef (exoid)) != NC_NOERR) {
    exerrval = status;
    sprintf(errmsg,
	    "Error: failed to complete coordinate frame definition in file id %d", 
	    exoid);
    ex_err(PROCNAME,errmsg,exerrval);
    return (EX_FATAL);
  }

  /* check variables consistency */
  exerrval = EX_NOERR;
  for (i=0;i<nframes;i++)
    if ( strchr("RrCcSs",tags[i])==0 ){
      sprintf(errmsg,"Warning: Unrecognized coordinate frame tag: '%c'.",
	      tags[i]);
      exerrval=2;
      ex_err(PROCNAME,errmsg,exerrval);
    }
  /* could also check vectors. Leave this up to the application */

  /* put the variables into the file */
  if (  nc_put_var_text(exoid, vartags, tags) != NC_NOERR ||
	nc_put_var_int(exoid, varids, cf_ids) != NC_NOERR) {
    exerrval = status;
    sprintf(errmsg,
	    "Error: failed writing frame data in file id %d",exoid);
    ex_err(PROCNAME,errmsg,exerrval);
    return (EX_FATAL);
  }

  if (ex_comp_ws(exoid) == 4) {
    status = nc_put_var_float(exoid, varcoords, pt_coordinates);
  } else {
    status = nc_put_var_double(exoid, varcoords, pt_coordinates);
  }

  if (status != NC_NOERR) {
    exerrval = status;
    sprintf(errmsg,
	    "Error: failed writing frame data in file id %d",exoid);
    ex_err(PROCNAME,errmsg,exerrval);
    return (EX_FATAL);
  }
  return (EX_NOERR);
 
 error_ret:
  if (nc_enddef (exoid) != NC_NOERR) {    /* exit define mode */
    sprintf(errmsg,
	    "Error: failed to complete frame definition for file id %d",
	    exoid);
    ex_err(PROCNAME,errmsg,exerrval);
  }
  return (EX_FATAL);


}
Exemple #9
0
int ex_put_concat_side_sets (int   exoid,
                             const int  *side_set_ids,
                             const int  *num_elem_per_set,
                             const int  *num_dist_per_set,
                             const int  *side_sets_elem_index,
                             const int  *side_sets_dist_index,
                             const int  *side_sets_elem_list,
                             const int  *side_sets_side_list,
                             const void *side_sets_dist_fact)
{
  char *cdum;
  int i, num_side_sets, cur_num_side_sets, dimid, varid, dims[1], *ss_stat;
  int iresult;
  long start[1], count[1]; 
  nclong *lptr;
  float fdum;
  const float *flt_dist_fact;
  const double *dbl_dist_fact;
  char errmsg[MAX_ERR_LENGTH];

  exerrval = 0; /* clear error code */

  cdum = 0; /* initialize even though it is not used */

/* first check if any side sets are specified */

  if (ncdimid (exoid, DIM_NUM_SS) == -1)
  {
    if (ncerr == NC_EBADDIM)
    {
      exerrval = ncerr;
      sprintf(errmsg,
             "Error: no side sets defined for file id %d", exoid);
      ex_err("ex_put_concat_side_sets",errmsg,exerrval);
    }
    else
    {
      exerrval = ncerr;
      sprintf(errmsg,
             "Error: failed to locate side sets defined in file id %d", exoid);
      ex_err("ex_put_concat_side_sets",errmsg,exerrval);
    }
    return (EX_FATAL);
  }

/* inquire how many side sets are to be stored */

  if (ex_inquire(exoid, EX_INQ_SIDE_SETS, &num_side_sets, &fdum, cdum) == -1)
  {
    sprintf(errmsg,
           "Error: failed to get number of side sets defined for file id %d",
            exoid);
    /* use error val from inquire */
    ex_err("ex_put_concat_side_sets",errmsg,exerrval);
    return (EX_FATAL);
  }
/* fill out side set status array */

  /* First, allocate space for the side set status list */
  if (!(ss_stat= malloc(num_side_sets*sizeof(int))))
  {
    exerrval = EX_MEMFAIL;
    sprintf(errmsg,
    "Error: failed to allocate space for side set status array in file id %d",
            exoid);
    ex_err("ex_put_concat_side_sets",errmsg,exerrval);
    return (EX_FATAL);
  }

  for (i=0;i<num_side_sets;i++)
  {
    if (num_elem_per_set[i] == 0) /* Is this a NULL side set? */
      ss_stat[i] = 0; /* change side set status to NULL */
    else
      ss_stat[i] = 1; /* change side set status to TRUE */
  }

  /* Next, get variable id of status array */
  if ((varid = ncvarid (exoid, VAR_SS_STAT)) == -1)
  {
    exerrval = ncerr;
    sprintf(errmsg,
           "Error: failed to locate side set status in file id %d", exoid);
    ex_err("ex_put_concat_node_set",errmsg,exerrval);
    return (EX_FATAL);
  }

/* this contortion is necessary because netCDF is expecting nclongs; fortunately
   it's necessary only when ints and nclongs aren't the same size */

  start[0] = 0;
  count[0] = num_side_sets;

  if (sizeof(int) == sizeof(nclong)) {
     iresult = ncvarput (exoid, varid, start, count, ss_stat);
  } else {
     lptr = itol (ss_stat, num_side_sets);
     iresult = ncvarput (exoid, varid, start, count, lptr);
     free(lptr);
  }

  if (iresult == -1)
  {
    exerrval = ncerr;
    sprintf(errmsg,
           "Error: failed to store side set status array to file id %d",
            exoid);
    ex_err("ex_put_concat_side_set",errmsg,exerrval);
    return (EX_FATAL);
  }

  free(ss_stat);

/* put netcdf file into define mode  */

  if (ncredef (exoid) == -1)
  {
    exerrval = ncerr;
    sprintf(errmsg,
           "Error: failed to put file id %d into define mode",
            exoid);
    ex_err("ex_put_concat_side_sets",errmsg,exerrval);
    return (EX_FATAL);
  }

  /* create side set definitions */
  for (i=0; i<num_side_sets; i++)
  {
/* Keep track of the total number of side sets defined using a counter stored
   in a linked list keyed by exoid.
   NOTE: ex_get_file_item  is used to find the number of side sets
         for a specific file and returns that value.
*/
    cur_num_side_sets=ex_get_file_item(exoid, &ss_ctr_list );
    if (cur_num_side_sets >= num_side_sets)
    {
      exerrval = EX_FATAL;
      sprintf(errmsg,
             "Error: exceeded number of side sets (%d) defined in file id %d",
              num_side_sets,exoid);
      ex_err("ex_put_concat_side_sets",errmsg,exerrval);
      goto error_ret;
    }

/*   NOTE: ex_inc_file_item  is used to find the number of side sets
         for a specific file and returns that value incremented. */

    cur_num_side_sets=ex_inc_file_item(exoid, &ss_ctr_list );

/*  define dimension for number of sides/elements per side set */

    if (num_elem_per_set[i] == 0) /* Is this a NULL side set? */
      continue; /* Do not create anything for NULL side sets! */


    if ((dimid = ncdimdef (exoid, DIM_NUM_SIDE_SS(cur_num_side_sets+1),
                   (long)num_elem_per_set[i])) == -1)
    {
      if (ncerr == NC_ENAMEINUSE)
      {
        exerrval = ncerr;
        sprintf(errmsg,
               "Error: side set side count %d already defined in file id %d",
                side_set_ids[i],exoid);
        ex_err("ex_put_concat_side_sets",errmsg,exerrval);
      }
      else
      {
        exerrval = ncerr;
        sprintf(errmsg,
             "Error: failed to define number of sides for set %d in file id %d",
                side_set_ids[i],exoid);
        ex_err("ex_put_concat_side_sets",errmsg,exerrval);
      }
      goto error_ret;
    }

    /* create element list variable for side set */

    dims[0] = dimid;
    if (ncvardef (exoid,VAR_ELEM_SS(cur_num_side_sets+1),NC_LONG,1,dims) == -1)
    {
      if (ncerr == NC_ENAMEINUSE)
      {
        exerrval = ncerr;
        sprintf(errmsg,
             "Error: element list already exists for side set %d in file id %d",
                side_set_ids[i],exoid);
        ex_err("ex_put_concat_side_sets",errmsg,exerrval);
      }
      else
      {
        exerrval = ncerr;
        sprintf(errmsg,
           "Error: failed to create element list for side set %d in file id %d",
                side_set_ids[i],exoid);
        ex_err("ex_put_concat_side_sets",errmsg,exerrval);
      }
      goto error_ret;            /* exit define mode and return */
    }

    /* create side list variable for side set */

    if (ncvardef (exoid,VAR_SIDE_SS(cur_num_side_sets+1),NC_LONG,1,dims) == -1)
    {
      if (ncerr == NC_ENAMEINUSE)
      {
        exerrval = ncerr;
        sprintf(errmsg,
               "Error: side list already exists for side set %d in file id %d",
                side_set_ids[i],exoid);
        ex_err("ex_put_concat_side_sets",errmsg,exerrval);
      }
      else
      {
        exerrval = ncerr;
        sprintf(errmsg,
              "Error: failed to create side list for side set %d in file id %d",
                side_set_ids[i],exoid);
        ex_err("ex_put_concat_side_sets",errmsg,exerrval);
      }
      goto error_ret;         /* exit define mode and return */

     }

/*  define dimension for number of dist factors/nodes per side set */

/*  NOTE: only define df count if  the dist factors exist! */

    if (num_dist_per_set[i] > 0)
    {

      if ((dimid = ncdimdef (exoid, DIM_NUM_DF_SS(cur_num_side_sets+1),
                              (long)num_dist_per_set[i])) == -1)
      {
        if (ncerr == NC_ENAMEINUSE)
        {
          exerrval = ncerr;
          sprintf(errmsg,
                 "Error: side set df count %d already defined in file id %d",
                  side_set_ids[i],exoid);
          ex_err("ex_put_concat_side_sets",errmsg,exerrval);
        }
        else
        {
          exerrval = ncerr;
          sprintf(errmsg,
           "Error: failed to define side set df count for set %d in file id %d",
                  side_set_ids[i],exoid);
          ex_err("ex_put_concat_side_sets",errmsg,exerrval);
        }
        goto error_ret;
      }

      /* create distribution factor list variable for side set */

      dims[0] = dimid;
      if (ncvardef (exoid, VAR_FACT_SS(cur_num_side_sets+1),
                    nc_flt_code(exoid), 1, dims) == -1)
      {
        if (ncerr == NC_ENAMEINUSE)
        {
          exerrval = ncerr;
          sprintf(errmsg,
         "Error: dist factor list already exists for side set %d in file id %d",
                  side_set_ids[i],exoid);
          ex_err("ex_put_concat_side_sets",errmsg,exerrval);
        }
        else
        {
          exerrval = ncerr;
          sprintf(errmsg,
       "Error: failed to create dist factor list for side set %d in file id %d",
                  side_set_ids[i],exoid);
          ex_err("ex_put_concat_side_sets",errmsg,exerrval);
        }
        goto error_ret;            /* exit define mode and return */
      }
    } /* end define dist factors */
  }

/* leave define mode  */

  if (ncendef (exoid) == -1)
  {
    exerrval = ncerr;
    sprintf(errmsg,
           "Error: failed to complete definition in file id %d",
            exoid);
    ex_err("ex_put_concat_side_sets",errmsg,exerrval);
    return (EX_FATAL);
  }

/* Next, fill out side set ids array */

  /* first get id of side set ids array variable */

  if ((varid = ncvarid (exoid, VAR_SS_IDS)) == -1)
  {
    exerrval = ncerr;
    sprintf(errmsg,
           "Error: failed to locate side set ids array in file id %d",
            exoid);
    ex_err("ex_put_concat_side_sets",errmsg,exerrval);
    return (EX_FATAL);
  }

  /* then, write out side set id list */

/* this contortion is necessary because netCDF is expecting nclongs; fortunately
   it's necessary only when ints and nclongs aren't the same size */

  start[0] = 0;
  count[0] = num_side_sets;

  if (sizeof(int) == sizeof(nclong)) {
     iresult = ncvarput (exoid, varid, start, count, side_set_ids);
  } else {
     lptr = itol (side_set_ids, num_side_sets);
     iresult = ncvarput (exoid, varid, start, count, lptr);
     free(lptr);
  }

  if (iresult == -1)
  {
    exerrval = ncerr;
    sprintf(errmsg,
           "Error: failed to store side set id array in file id %d",
            exoid);
    ex_err("ex_put_concat_side_sets",errmsg,exerrval);
    return (EX_FATAL);
  }

  /* If the side_sets_elem_index is passed in as a NULL pointer, then
   *  the user only wants us to define the sidesets and not populate
   *  the data structures.
   */
  if (side_sets_elem_index == 0)
    return(EX_NOERR);
  
  /* Now, use ExodusII call to store side sets */
  for (i=0; i<num_side_sets; i++)
  {

    if (num_elem_per_set[i] == 0) /* Is this a NULL side set? */
      continue; /* Do not create anything for NULL side sets! */

    if (ex_comp_ws(exoid) == sizeof(float))
    {
      flt_dist_fact = side_sets_dist_fact;
      if (ex_put_side_set(exoid, side_set_ids[i], 
                         &(side_sets_elem_list[side_sets_elem_index[i]]),
                         &(side_sets_side_list[side_sets_elem_index[i]])) == -1)
         return(EX_FATAL); /* error will be reported by subroutine */
      if (num_dist_per_set[i] > 0)      /* store dist factors if required */
      {
        if (ex_put_side_set_dist_fact(exoid, side_set_ids[i],
                         &(flt_dist_fact[side_sets_dist_index[i]])) == -1)
        {
          sprintf(errmsg,
               "Error: failed to store side set %d dist factors for file id %d",
                  side_set_ids[i],exoid);
          /* use error val from exodusII routine */
          ex_err("ex_put_concat_side_sets",errmsg,exerrval);
          return (EX_FATAL);
        }
      }
    }
    else if (ex_comp_ws(exoid) == sizeof(double))
    {
      dbl_dist_fact = side_sets_dist_fact;
      if (ex_put_side_set(exoid, side_set_ids[i], 
                         &(side_sets_elem_list[side_sets_elem_index[i]]),
                         &(side_sets_side_list[side_sets_elem_index[i]])) == -1)
        return(EX_FATAL); /* error will be reported by subroutine */
      if (num_dist_per_set[i] > 0)             /* only store if they exist */
      {
        if (ex_put_side_set_dist_fact(exoid, side_set_ids[i],
                        &(dbl_dist_fact[side_sets_dist_index[i]])) == -1)
        {
          sprintf(errmsg,
               "Error: failed to store side set %d dist factors for file id %d",
                  side_set_ids[i],exoid);
          /* use error val from exodusII routine */
          ex_err("ex_put_concat_side_sets",errmsg,exerrval);
          return (EX_FATAL);
        }
      }
    }
    else
    {
      /* unknown floating point word size */
      exerrval = EX_BADPARAM;
      sprintf(errmsg,
             "Error: unsupported floating point word size %d for file id %d",
              ex_comp_ws(exoid), exoid);
      ex_err("ex_put_concat_side_sets", errmsg, exerrval);
      return (EX_FATAL);
    }
  }

  return(EX_NOERR);


/* Fatal error: exit definition mode and return */
error_ret:
  if (ncendef (exoid) == -1)     /* exit define mode */
  {
    sprintf(errmsg,
           "Error: failed to complete definition for file id %d",
            exoid);
    ex_err("ex_put_concat_side_sets",errmsg,exerrval);
  }
  return (EX_FATAL);
}
Exemple #10
0
int ex_create_int (const char *path,
		   int   cmode,
		   int  *comp_ws,
		   int  *io_ws,
		   int   run_version)
{
  int exoid, time_dim, dims[1];
  int status;
  int dimid;
  int old_fill;
  int lio_ws;
  int filesiz;
  float vers;
  char errmsg[MAX_ERR_LENGTH];
  char *mode_name;
  int mode = 0;
#if defined(NC_NETCDF4)
  static int netcdf4_mode = -1;
  char *option;
#endif /* NC_NETCDF4 */
   
  exerrval = 0; /* clear error code */

  if (run_version != EX_API_VERS_NODOT) {
    int run_version_major = run_version / 100;
    int run_version_minor = run_version % 100;
    int lib_version_major = EX_API_VERS_NODOT / 100;
    int lib_version_minor = EX_API_VERS_NODOT % 100;
    fprintf(stderr, "EXODUSII: Warning: This code was compiled with exodusII version %d.%02d,\n          but was linked with exodusII library version %d.%02d\n          This is probably an error in the build process of this code.\n",
	    run_version_major, run_version_minor, lib_version_major, lib_version_minor);
  }
#if defined(NC_NETCDF4)
  if (cmode & EX_NETCDF4) {
    mode |= (NC_NETCDF4|NC_CLASSIC_MODEL);
  } else {
    if (netcdf4_mode == -1) {
      option = getenv("EXODUS_NETCDF4");
      if (option != NULL) {
	fprintf(stderr, "EXODUSII: Using netcdf version 4 selected via EXODUS_NETCDF4 environment variable\n");
	netcdf4_mode = NC_NETCDF4|NC_CLASSIC_MODEL;
      } else {
	netcdf4_mode = 0;
      }
    }
    mode |= netcdf4_mode;
  }
#endif

  /*
   * See if "large file" mode was specified in a ex_create cmode. If
   * so, then pass the NC_64BIT_OFFSET flag down to netcdf.
   * If netcdf4 mode specified, don't use NC_64BIT_OFFSET mode.
   */
  if ( (cmode & EX_LARGE_MODEL) && (cmode & EX_NORMAL_MODEL)) {
    exerrval = EX_BADPARAM;
    sprintf(errmsg,
	    "Warning: conflicting mode specification for file %s, mode %d. Using normal",
	    path, cmode);
    ex_err("ex_create",errmsg,exerrval);
  }
  if ((cmode & EX_NORMAL_MODEL) != 0)
    filesiz = 0;
#if defined(NC_NETCDF4)
  else if ((mode & NC_NETCDF4) != 0)
    filesiz = 1;
#endif
  else 
    filesiz = (int)(((cmode & EX_LARGE_MODEL) != 0) || (ex_large_model(-1) == 1));

  if (
#if defined(NC_NETCDF4)
      !(mode & NC_NETCDF4) &&
#endif
      filesiz == 1) {
    mode |= NC_64BIT_OFFSET;
  }

  if (cmode & EX_SHARE) {
    mode |= NC_SHARE;
  }

  /*
   * set error handling mode to no messages, non-fatal errors
   */
  ex_opts(exoptval);    /* call required to set ncopts first time through */

  if (cmode & EX_CLOBBER) {
    mode |= NC_CLOBBER;
    mode_name = "CLOBBER";
  } else {
    mode |= NC_NOCLOBBER;
    mode_name = "NOCLOBBER";
  }

  if ((status = nc_create (path, mode, &exoid)) != NC_NOERR) {
    exerrval = status;
    sprintf(errmsg,
	    "Error: file create failed for %s, mode: %s",
	    path, mode_name);
    ex_err("ex_create",errmsg,exerrval);
    return (EX_FATAL);
  }

  /* turn off automatic filling of netCDF variables
   */

  if ((status = nc_set_fill (exoid, NC_NOFILL, &old_fill)) != NC_NOERR) {
    exerrval = status;
    sprintf(errmsg,
	    "Error: failed to set nofill mode in file id %d",
	    exoid);
    ex_err("ex_create", errmsg, exerrval);
    return (EX_FATAL);
  }

  /* initialize floating point size conversion.  since creating new file, 
   * i/o wordsize attribute from file is zero.
   */

  if (ex_conv_ini( exoid, comp_ws, io_ws, 0 ) != EX_NOERR) {
    exerrval = EX_FATAL;
    sprintf(errmsg,
	    "Error: failed to init conversion routines in file id %d",
            exoid);
    ex_err("ex_create", errmsg, exerrval);
    return (EX_FATAL);
  }

  /* put the EXODUS version number, and i/o floating point word size as
   * netcdf global attributes
   */

  /* store Exodus API version # as an attribute */
  vers = EX_API_VERS;
  if ((status=nc_put_att_float(exoid, NC_GLOBAL, ATT_API_VERSION,
			       NC_FLOAT, 1, &vers)) != NC_NOERR) {
    exerrval = status;
    sprintf(errmsg,
	    "Error: failed to store Exodus II API version attribute in file id %d",
	    exoid);
    ex_err("ex_create",errmsg, exerrval);
    return (EX_FATAL);
  }
   
  /* store Exodus file version # as an attribute */
  vers = EX_VERS;
  if ((status=nc_put_att_float(exoid, NC_GLOBAL, ATT_VERSION, NC_FLOAT, 1, &vers)) != NC_NOERR) {
    exerrval = status;
    sprintf(errmsg,
	    "Error: failed to store Exodus II file version attribute in file id %d",
	    exoid);
    ex_err("ex_create",errmsg, exerrval);
    return (EX_FATAL);
  }

  /* store Exodus file float word size  as an attribute */
  lio_ws = (int)(*io_ws);
  if ((status=nc_put_att_int (exoid, NC_GLOBAL, ATT_FLT_WORDSIZE, NC_INT, 1, &lio_ws)) != NC_NOERR) {
    exerrval = status;
    sprintf(errmsg,
	    "Error: failed to store Exodus II file float word size attribute in file id %d",
	    exoid);
    ex_err("ex_create",errmsg, exerrval);
    return (EX_FATAL);
  }

  /* store Exodus file size (1=large, 0=normal) as an attribute */
  if ((status = nc_put_att_int (exoid, NC_GLOBAL, ATT_FILESIZE, NC_INT, 1, &filesiz)) != NC_NOERR) {
    exerrval = status;
    sprintf(errmsg,
	    "Error: failed to store Exodus II file size attribute in file id %d",
	    exoid);
    ex_err("ex_create",errmsg, exerrval);
    return (EX_FATAL);
  }
  
  /* define some dimensions and variables
   */
  
  /* create string length dimension */
  if ((status=nc_def_dim (exoid, DIM_STR, (MAX_STR_LENGTH+1), &dimid)) != NC_NOERR) {
    exerrval = status;
    sprintf(errmsg,
	    "Error: failed to define string length in file id %d",exoid);
    ex_err("ex_create",errmsg,exerrval);
    return (EX_FATAL);
  }


  /* create line length dimension */
  if ((status = nc_def_dim(exoid, DIM_LIN, (MAX_LINE_LENGTH+1), &dimid)) != NC_NOERR) {
    exerrval = status;
    sprintf(errmsg,
	    "Error: failed to define line length in file id %d",exoid);
    ex_err("ex_create",errmsg,exerrval);
    return (EX_FATAL);
  }

  /* create number "4" dimension; must be of type long */
  if ((status = nc_def_dim(exoid, DIM_N4, 4L, &dimid)) != NC_NOERR) {
    exerrval = status;
    sprintf(errmsg,
	    "Error: failed to define number \"4\" dimension in file id %d",exoid);
    ex_err("ex_create",errmsg,exerrval);
    return (EX_FATAL);
  }


  if ((status = nc_def_dim(exoid, DIM_TIME, NC_UNLIMITED, &time_dim)) != NC_NOERR) {
    exerrval = status;
    sprintf(errmsg,
	    "Error: failed to define time dimension in file id %d", exoid);
    ex_err("ex_create",errmsg,exerrval);
    return (EX_FATAL);
  }

  dims[0] = time_dim;
  if ((status = nc_def_var(exoid, VAR_WHOLE_TIME, nc_flt_code(exoid), 1, dims, &dimid)) != NC_NOERR) {
    exerrval = status;
    sprintf(errmsg,
	    "Error: failed to define whole time step variable in file id %d",
	    exoid);
    ex_err("ex_create",errmsg,exerrval);
    return (EX_FATAL);
  }

  if ((status = nc_enddef (exoid)) != NC_NOERR) {
    exerrval = status;
    sprintf(errmsg,
	    "Error: failed to complete definition for file id %d", exoid);
    ex_err("ex_create",errmsg,exerrval);
    return (EX_FATAL);
  }

  return (exoid);
}
Exemple #11
0
int ex_put_concat_sets (int   exoid,
			ex_entity_type set_type,
			const struct ex_set_specs* set_specs)
{
  int status;
  int temp;
  const void_int  *num_entries_per_set = set_specs->num_entries_per_set;
  const void_int  *num_dist_per_set = set_specs->num_dist_per_set;
  const void_int  *sets_entry_index = set_specs->sets_entry_index;
  const void_int  *sets_dist_index = set_specs->sets_dist_index;
  const void *sets_dist_fact = set_specs->sets_dist_fact;
  size_t i, num_df, num_entry;
  int cur_num_sets, num_sets;
  int dimid, varid, set_id_ndx, dims[1];
  int  *set_stat = NULL;
  int set_int_type, int_size;

  const float *flt_dist_fact = NULL;
  const double *dbl_dist_fact = NULL;
  char errmsg[MAX_ERR_LENGTH];
  char* idsptr = NULL;
  char* statptr = NULL;
  char* numdfptr = NULL;
  char* factptr = NULL;
  char* elemptr = NULL;
  char* extraptr = NULL;
  ex_inquiry ex_inq_val;

  exerrval = 0; /* clear error code */

  int_size = sizeof(int);
  if (ex_int64_status(exoid) & EX_BULK_INT64_API) {
    int_size = sizeof(int64_t);
  }
  
  /* setup pointers based on set_type 
     NOTE: there is another block that sets more stuff later ... */

  if (set_type == EX_NODE_SET) {
    ex_inq_val = EX_INQ_NODE_SETS;
    idsptr = VAR_NS_IDS;
    statptr = VAR_NS_STAT;
  }
  else if (set_type == EX_EDGE_SET) {
    ex_inq_val = EX_INQ_EDGE_SETS;
    idsptr = VAR_ES_IDS;
    statptr = VAR_ES_STAT;
  }
  else if (set_type == EX_FACE_SET) {
    ex_inq_val = EX_INQ_FACE_SETS;
    idsptr = VAR_FS_IDS;
    statptr = VAR_FS_STAT;
  }
  else if (set_type == EX_SIDE_SET) {
    ex_inq_val = EX_INQ_SIDE_SETS;
    idsptr = VAR_SS_IDS;
    statptr = VAR_SS_STAT;
  }
  else if (set_type == EX_ELEM_SET) {
    ex_inq_val = EX_INQ_ELEM_SETS;
    idsptr = VAR_ELS_IDS;
    statptr = VAR_ELS_STAT;
  }
  else {
    exerrval = EX_FATAL;
    sprintf(errmsg,
	    "Error: invalid set type (%d)", set_type);
    ex_err("ex_put_set_param",errmsg,exerrval);
    return (EX_FATAL);
  }

  /* first check if any sets are specified */
  if ((status = nc_inq_dimid(exoid, ex_dim_num_objects(set_type), &temp)) != NC_NOERR) {
    if (status == NC_EBADDIM) {
      exerrval = status;
      sprintf(errmsg,
	      "Error: no %ss defined for file id %d", ex_name_of_object(set_type), exoid);
      ex_err("ex_put_concat_sets",errmsg,exerrval);
    } else {
      exerrval = status;
      sprintf(errmsg,
	      "Error: failed to locate %ss defined in file id %d",
	      ex_name_of_object(set_type), exoid);
      ex_err("ex_put_concat_sets",errmsg,exerrval);
    }
    return (EX_FATAL);
  }
   
  /* inquire how many sets are to be stored */
  num_sets = ex_inquire_int(exoid, ex_inq_val);
  if (num_sets < 0) {
    sprintf(errmsg,
	    "Error: failed to get number of %ss defined for file id %d",
	    ex_name_of_object(set_type), exoid);
    /* use error val from inquire */
    ex_err("ex_put_concat_sets",errmsg,exerrval);
    return (EX_FATAL);
  }

  /* Fill out set status array */

  /* First, allocate space for the status list */
  if (!(set_stat= malloc(num_sets*sizeof(int)))) {
    exerrval = EX_MEMFAIL;
    sprintf(errmsg,
	    "Error: failed to allocate space for %s status array in file id %d",
	    ex_name_of_object(set_type), exoid);
    ex_err("ex_put_concat_sets",errmsg,exerrval);
    return (EX_FATAL);
  }

  if (int_size == sizeof(int64_t)) {
    for (i=0;i<num_sets;i++)  {
      set_stat[i] = (((int64_t*)num_entries_per_set)[i] == 0) ? 0 : 1;
    }
  } else {
    for (i=0;i<num_sets;i++)  {
      set_stat[i] = (((int*)num_entries_per_set)[i] == 0) ? 0 : 1;
    }
  }

  /* Next, get variable id of status array */
  if ((status = nc_inq_varid(exoid, statptr, &varid)) != NC_NOERR) {
    exerrval = status;
    sprintf(errmsg,
	    "Error: failed to locate %s status in file id %d", 
	    ex_name_of_object(set_type), exoid);
    ex_err("ex_put_concat_sets",errmsg,exerrval);
    ex_safe_free(set_stat);
    return (EX_FATAL);
  }

  status = nc_put_var_int(exoid, varid, set_stat);

  if (status != NC_NOERR) {
    exerrval = status;
    sprintf(errmsg,
	    "Error: failed to store %s status array to file id %d",
	    ex_name_of_object(set_type), exoid);
    ex_err("ex_put_concat_set",errmsg,exerrval);
    ex_safe_free(set_stat);
    return (EX_FATAL);
  }

  /* put netcdf file into define mode  */
  if ((status = nc_redef (exoid)) != NC_NOERR) {
    exerrval = status;
    sprintf(errmsg,
	    "Error: failed to put file id %d into define mode",
	    exoid);
    ex_err("ex_put_concat_sets",errmsg,exerrval);
    ex_safe_free(set_stat);
    return (EX_FATAL);
  }

  /* create set definitions */
  for (i=0; i<num_sets; i++) {
    int64_t set_id;
    if (ex_int64_status(exoid) & EX_IDS_INT64_API) {
      set_id = ((int64_t*)set_specs->sets_ids)[i];
    } else {
      set_id = ((int*)set_specs->sets_ids)[i];
    }

    /* Keep track of the total number of sets defined using a counter stored
       in a linked list keyed by exoid.
       NOTE: ex_get_file_item  is used to find the number of sets of type
       for a specific file and returns that value.
    */
    cur_num_sets=ex_get_file_item(exoid, ex_get_counter_list(set_type));
    if (cur_num_sets >= num_sets) {
      exerrval = EX_FATAL;
      sprintf(errmsg,
	      "Error: exceeded number of %ss (%d) defined in file id %d",
	      ex_name_of_object(set_type), num_sets,exoid);
      ex_err("ex_put_concat_sets",errmsg,exerrval);
      goto error_ret;
    }

    /*   NOTE: ex_inc_file_item  is used to find the number of sets
	 for a specific file and returns that value incremented. */

    cur_num_sets=ex_inc_file_item(exoid, ex_get_counter_list(set_type));
    set_id_ndx = cur_num_sets + 1;
    
    /* setup more pointers based on set_type */
    if (set_type == EX_NODE_SET) {
      elemptr = VAR_NODE_NS(set_id_ndx);
      extraptr = NULL;
      /* note we are using DIM_NUM_NODE_NS instead of DIM_NUM_DF_NS */
      numdfptr = DIM_NUM_NOD_NS(set_id_ndx);
      factptr = VAR_FACT_NS(set_id_ndx);
    }
    else if (set_type == EX_EDGE_SET) {
      elemptr = VAR_EDGE_ES(set_id_ndx);
      extraptr = VAR_ORNT_ES(set_id_ndx);
      numdfptr = DIM_NUM_DF_ES(set_id_ndx);
      factptr = VAR_FACT_ES(set_id_ndx);
    }
    else if (set_type == EX_FACE_SET) {
      elemptr = VAR_FACE_FS(set_id_ndx);
      extraptr = VAR_ORNT_FS(set_id_ndx);
      numdfptr = DIM_NUM_DF_FS(set_id_ndx);
      factptr = VAR_FACT_FS(set_id_ndx);
    }
    else if (set_type == EX_SIDE_SET) {
      elemptr = VAR_ELEM_SS(set_id_ndx);
      extraptr = VAR_SIDE_SS(set_id_ndx);
      numdfptr = DIM_NUM_DF_SS(set_id_ndx);
      factptr = VAR_FACT_SS(set_id_ndx);
    }
    if (set_type == EX_ELEM_SET) {
      elemptr = VAR_ELEM_ELS(set_id_ndx);
      extraptr = NULL;
      numdfptr = DIM_NUM_DF_ELS(set_id_ndx);
      factptr = VAR_FACT_ELS(set_id_ndx);
    }

    /*  define dimension for number of entries per set */
    if (set_stat[i] == 0) /* Is this a NULL set? */
      continue; /* Do not create anything for NULL sets! */

    if (int_size == sizeof(int)) {
      status = nc_def_dim(exoid, ex_dim_num_entries_in_object(set_type, set_id_ndx),
			  ((int*)num_entries_per_set)[i], &dimid);
    } else {
      status = nc_def_dim(exoid, ex_dim_num_entries_in_object(set_type, set_id_ndx),
			  ((int64_t*)num_entries_per_set)[i], &dimid);
    }
    
    if (status != NC_NOERR) {
      if (status == NC_ENAMEINUSE) {
	exerrval = status;
	sprintf(errmsg,
		"Error: %s entry count %"PRId64" already defined in file id %d",
		ex_name_of_object(set_type), set_id,exoid);
	ex_err("ex_put_concat_sets",errmsg,exerrval);
      } else {
	exerrval = status;
	sprintf(errmsg,
		"Error: failed to define number of entries for %s %"PRId64" in file id %d",
		ex_name_of_object(set_type), set_id,exoid);
	ex_err("ex_put_concat_sets",errmsg,exerrval);
      }
      goto error_ret;
    }

    /* create element list variable for set */
    set_int_type = NC_INT;
    if (ex_int64_status(exoid) & EX_BULK_INT64_DB) {
      set_int_type = NC_INT64;
    }

    dims[0] = dimid;
    if ((status = nc_def_var(exoid,elemptr,set_int_type,1,dims, &temp)) != NC_NOERR) {
      if (status == NC_ENAMEINUSE) {
	exerrval = status;
	sprintf(errmsg,
		"Error: element list already exists for %s %"PRId64" in file id %d",
		ex_name_of_object(set_type), set_id,exoid);
	ex_err("ex_put_concat_sets",errmsg,exerrval);
      } else {
	exerrval = status;
	sprintf(errmsg,
		"Error: failed to create element list for %s %"PRId64" in file id %d",
		ex_name_of_object(set_type), set_id,exoid);
	ex_err("ex_put_concat_sets",errmsg,exerrval);
      }
      goto error_ret;            /* exit define mode and return */
    }
    ex_compress_variable(exoid, temp, 1);

    /* create extra list variable for set  (only for edge, face and side sets) */
    if (extraptr) {
      if ((status = nc_def_var(exoid,extraptr,set_int_type,1,dims, &temp)) != NC_NOERR) { 
	if (status == NC_ENAMEINUSE) {
	  exerrval = status;
	  sprintf(errmsg,
		  "Error: extra list already exists for %s %"PRId64" in file id %d",
		  ex_name_of_object(set_type), set_id,exoid);
	  ex_err("ex_put_concat_sets",errmsg,exerrval);
	} else {
	  exerrval = status;
	  sprintf(errmsg,
		  "Error: failed to create extra list for %s %"PRId64" in file id %d",
		  ex_name_of_object(set_type), set_id,exoid);
	  ex_err("ex_put_concat_sets",errmsg,exerrval);
	}
	goto error_ret;         /* exit define mode and return */
      }
      ex_compress_variable(exoid, temp, 1);
    }

    /*  define dimension for number of dist factors per set */
    /*  NOTE: only define df count if the dist factors exist! */
    if (int_size == sizeof(int64_t)) {
      num_df = ((int64_t*)num_dist_per_set)[i];
      num_entry = ((int64_t*)num_entries_per_set)[i];
    } else {
      num_df = ((int*)num_dist_per_set)[i];
      num_entry = ((int*)num_entries_per_set)[i];
    }

    if (num_df > 0) {
      
      if (set_type == EX_NODE_SET) {
	if (num_df != num_entry) {
	  exerrval = EX_FATAL;
	  sprintf(errmsg,
		  "Error: # dist fact (%"ST_ZU") not equal to # nodes (%"ST_ZU") in node set %"PRId64" file id %d",
		  num_df, num_entry, set_id,exoid);
	  ex_err("ex_put_concat_sets",errmsg,exerrval);
	  goto error_ret;          /* exit define mode and return */
	}

	/* resuse dimid from entry lists */
      } else  {
	if ((status = nc_def_dim(exoid, numdfptr,
				 num_df, &dimid)) != NC_NOERR) {
	  if (status == NC_ENAMEINUSE) {
	    exerrval = status;
	    sprintf(errmsg,
		    "Error: %s df count %"PRId64" already defined in file id %d",
		    ex_name_of_object(set_type), set_id,exoid);
	    ex_err("ex_put_concat_sets",errmsg,exerrval);
	  } else {
	    exerrval = status;
	    sprintf(errmsg,
		    "Error: failed to define %s df count for set %"PRId64" in file id %d",
		    ex_name_of_object(set_type), set_id,exoid);
	    ex_err("ex_put_concat_sets",errmsg,exerrval);
	  }
	  goto error_ret;
	}
      }

      /* create distribution factor list variable for set */
      dims[0] = dimid;
      if ((status = nc_def_var(exoid, factptr, nc_flt_code(exoid), 1, dims, &temp)) != NC_NOERR) {
	if (status == NC_ENAMEINUSE) {
	  exerrval = status;
	  sprintf(errmsg,
		  "Error: dist factor list already exists for %s %"PRId64" in file id %d",
		  ex_name_of_object(set_type), set_id,exoid);
	  ex_err("ex_put_concat_sets",errmsg,exerrval);
	} else {
	  exerrval = status;
	  sprintf(errmsg,
		  "Error: failed to create dist factor list for %s %"PRId64" in file id %d",
		  ex_name_of_object(set_type), set_id,exoid);
	  ex_err("ex_put_concat_sets",errmsg,exerrval);
	}
	goto error_ret;            /* exit define mode and return */
      }
      ex_compress_variable(exoid, temp, 2);
    } /* end define dist factors */
  }

  /* leave define mode  */
  if ((status = nc_enddef (exoid)) != NC_NOERR) {
    exerrval = status;
    sprintf(errmsg,
	    "Error: failed to complete definition in file id %d",
	    exoid);
    ex_err("ex_put_concat_sets",errmsg,exerrval);
    ex_safe_free(set_stat);
    return (EX_FATAL);
  }

  /* Next, fill out set ids array */

  /* first get id of set ids array variable */
  if ((status = nc_inq_varid(exoid, idsptr, &varid)) != NC_NOERR) {
    exerrval = status;
    sprintf(errmsg,
	    "Error: failed to locate %s ids array in file id %d",
	    ex_name_of_object(set_type), exoid);
    ex_err("ex_put_concat_sets",errmsg,exerrval);
    ex_safe_free(set_stat);
    return (EX_FATAL);
  }

  /* then, write out set id list */
  if (ex_int64_status(exoid) & EX_IDS_INT64_API) {
    status = nc_put_var_longlong(exoid, varid, set_specs->sets_ids);
  } else {
    status = nc_put_var_int(exoid, varid, set_specs->sets_ids);
  }

  if (status != NC_NOERR) {
    exerrval = status;
    sprintf(errmsg,
	    "Error: failed to store %s id array in file id %d",
	    ex_name_of_object(set_type), exoid);
    ex_err("ex_put_concat_sets",errmsg,exerrval);
    ex_safe_free(set_stat);
    return (EX_FATAL);
  }

  /* If the sets_entry_index is passed in as a NULL pointer, then
   *  the user only wants us to define the sets and not populate
   *  the data structures.
   */
  if (sets_entry_index == 0) {
    ex_safe_free(set_stat);
    return(EX_NOERR);
  }
  
  /* Now, use ExodusII call to store sets */
  for (i=0; i<num_sets; i++) {
    int64_t set_id;
    size_t df_ndx;
    
    if (set_stat[i] == 0) /* Is this a NULL set? */
      continue; /* Do not create anything for NULL sets! */

    if (ex_int64_status(exoid) & EX_IDS_INT64_API) {
      set_id = ((int64_t*)set_specs->sets_ids)[i];
    } else {
      set_id = ((int*)set_specs->sets_ids)[i];
    }

    if (ex_int64_status(exoid) & EX_BULK_INT64_API) {
      int64_t* extra_list = NULL;
      /* set extra list */
      if (set_type == EX_EDGE_SET || set_type == EX_FACE_SET || set_type == EX_SIDE_SET)
	extra_list = &(((int64_t*)set_specs->sets_extra_list)[((int64_t*)sets_entry_index)[i]]);
      
      status = ex_put_set(exoid, set_type, set_id, 
			  &(((int64_t*)set_specs->sets_entry_list)[((int64_t*)sets_entry_index)[i]]),
			  extra_list);
    } else {
      int* extra_list = NULL;
      /* set extra list */
      if (set_type == EX_EDGE_SET || set_type == EX_FACE_SET || set_type == EX_SIDE_SET)
	extra_list = &(((int*)set_specs->sets_extra_list)[((int*)sets_entry_index)[i]]);
      
      status = ex_put_set(exoid, set_type, set_id, 
			  &(((int*)set_specs->sets_entry_list)[((int*)sets_entry_index)[i]]),
			  extra_list);
    }
    if (status != NC_NOERR) {
      ex_safe_free(set_stat);
      return(EX_FATAL); /* error will be reported by subroutine */
    }

    if (int_size == sizeof(int)) {
      num_df = ((int*)num_dist_per_set)[i];
      df_ndx = ((int*)sets_dist_index)[i];
    } else {
      num_df = ((int64_t*)num_dist_per_set)[i];
      df_ndx = ((int64_t*)sets_dist_index)[i];
    }

    if (ex_comp_ws(exoid) == sizeof(float)) {
      flt_dist_fact = sets_dist_fact;
      if (num_df > 0) {     /* store dist factors if required */
	if (ex_put_set_dist_fact(exoid, set_type, set_id,
				 &(flt_dist_fact[df_ndx])) == -1) {
	  sprintf(errmsg,
		  "Error: failed to store %s %"PRId64" dist factors for file id %d",
		  ex_name_of_object(set_type), set_id,exoid);
	  /* use error val from exodusII routine */
	  ex_err("ex_put_concat_sets",errmsg,exerrval);
	  ex_safe_free(set_stat);
	  return (EX_FATAL);
	}
      }
    } else if (ex_comp_ws(exoid) == sizeof(double)) {
      dbl_dist_fact = sets_dist_fact;
      if (num_df) {             /* only store if they exist */
	if (ex_put_set_dist_fact(exoid, set_type, set_id,
				 &(dbl_dist_fact[df_ndx])) == -1) {
	  sprintf(errmsg,
		  "Error: failed to store %s %"PRId64" dist factors for file id %d",
		  ex_name_of_object(set_type), set_id,exoid);
	  /* use error val from exodusII routine */
	  ex_err("ex_put_concat_sets",errmsg,exerrval);
	  ex_safe_free(set_stat);
	  return (EX_FATAL);
	}
      }
    } else {
      /* unknown floating point word size */
      exerrval = EX_BADPARAM;
      sprintf(errmsg,
	      "Error: unsupported floating point word size %d for file id %d",
	      ex_comp_ws(exoid), exoid);
      ex_err("ex_put_concat_sets", errmsg, exerrval);
      ex_safe_free(set_stat);
      return (EX_FATAL);
    }
  }
  ex_safe_free(set_stat);
  return(EX_NOERR);


  /* Fatal error: exit definition mode and return */
 error_ret:
  ex_safe_free(set_stat);

  if (nc_enddef (exoid) != NC_NOERR)     /* exit define mode */
    {
      sprintf(errmsg,
	      "Error: failed to complete definition for file id %d",
	      exoid);
      ex_err("ex_put_concat_sets",errmsg,exerrval);
    }
  return (EX_FATAL);
}
int ex_put_variable_param (int exoid,
			   ex_entity_type obj_type,
			   int num_vars)
{
  int time_dim, num_nod_dim, dimid, strdim, varid;
  int dims[3];
  char errmsg[MAX_ERR_LENGTH];
  int status;
  
  exerrval = 0; /* clear error code */

  /* if no variables are to be stored, return with warning */
  if (num_vars == 0) {
    exerrval = EX_MSG;
    sprintf(errmsg,
	    "Warning: zero %s variables specified for file id %d",
	    ex_name_of_object(obj_type),exoid);
    ex_err("ex_put_variable_param",errmsg,exerrval);

    return (EX_WARN);
  }
  
  if ( obj_type != EX_NODAL      &&
       obj_type != EX_NODE_SET   &&
       obj_type != EX_EDGE_BLOCK &&
       obj_type != EX_EDGE_SET   &&
       obj_type != EX_FACE_BLOCK &&
       obj_type != EX_FACE_SET   &&
       obj_type != EX_ELEM_BLOCK &&
       obj_type != EX_ELEM_SET   &&
       obj_type != EX_SIDE_SET   &&
       obj_type != EX_GLOBAL) {
    exerrval = EX_BADPARAM;
    sprintf(errmsg,
	    "Error: Invalid variable type %d specified in file id %d",
	    obj_type, exoid);
    ex_err("ex_put_variable_param",errmsg,exerrval);
    return (EX_WARN);
  }

  /* inquire previously defined dimensions  */
  if ((status = nc_inq_dimid (exoid, DIM_TIME, &time_dim)) != NC_NOERR) {
    exerrval = status;
    sprintf(errmsg,
	    "Error: failed to locate time dimension in file id %d", exoid);
    ex_err("ex_put_variable_param",errmsg,exerrval);
    return (EX_FATAL);
  }

  if ((status = nc_inq_dimid (exoid, DIM_NUM_NODES, &num_nod_dim)) != NC_NOERR) {
    if (obj_type == EX_NODAL) {
      exerrval = status;
      sprintf(errmsg,
              "Error: failed to locate number of nodes in file id %d", exoid);
      ex_err("ex_put_variable_param",errmsg,exerrval);
      return (EX_FATAL);
    }
  }

  if ((status = nc_inq_dimid (exoid, DIM_STR, &strdim)) < 0) {
    exerrval = status;
    sprintf(errmsg,
	    "Error: failed to get string length in file id %d",exoid);
    ex_err("ex_put_variable_param",errmsg,exerrval);
    return (EX_FATAL);
  }

  /* put file into define mode  */
  if ((status = nc_redef (exoid)) != NC_NOERR) {
    exerrval = status;
    sprintf(errmsg,
	    "Error: failed to put file id %d into define mode", exoid);
    ex_err("ex_get_var_param",errmsg,exerrval);
    return (EX_FATAL);
  }


  /* define dimensions and variables */
  if (obj_type == EX_GLOBAL) {
    EX_PREPARE_RESULT_VAR("global",DIM_NUM_GLO_VAR,VAR_NAME_GLO_VAR);

    dims[0] = time_dim;
    dims[1] = dimid;
    if ((status = nc_def_var (exoid, VAR_GLO_VAR, 
			      nc_flt_code(exoid), 2, dims, &varid)) != NC_NOERR)
      {
	exerrval = status;
	sprintf(errmsg,
		"Error: failed to define global variables in file id %d",
		exoid);
	ex_err("ex_put_variable_param",errmsg,exerrval);
	goto error_ret;          /* exit define mode and return */
      }
  }

  else if (obj_type == EX_NODAL) {
    /*
     * There are two ways to store the nodal variables. The old way *
     * was a blob (#times,#vars,#nodes), but that was exceeding the
     * netcdf maximum dataset size for large models. The new way is
     * to store #vars separate datasets each of size (#times,#nodes)
     *
     * We want this routine to be capable of storing both formats
     * based on some external flag.  Since the storage format of the
     * coordinates have also been changed, we key off of their
     * storage type to decide which method to use for nodal
     * variables. If the variable 'coord' is defined, then store old
     * way; otherwise store new.
     */
    if ((status = nc_def_dim(exoid, DIM_NUM_NOD_VAR, num_vars, &dimid)) != NC_NOERR) {
      if (status == NC_ENAMEINUSE) {
	exerrval = status;
	sprintf(errmsg,
		"Error: nodal variable name parameters are already defined in file id %d",
		exoid);
	ex_err("ex_put_variable_param",errmsg,exerrval);
      } else {
	exerrval = status;
	sprintf(errmsg,
		"Error: failed to define number of nodal variables in file id %d",
		exoid);
	ex_err("ex_put_variable_param",errmsg,exerrval);
      }
      goto error_ret;          /* exit define mode and return */
    }

    if (ex_large_model(exoid) == 0) { /* Old way */
      dims[0] = time_dim;
      dims[1] = dimid;
      dims[2] = num_nod_dim;
      if ((status = nc_def_var(exoid, VAR_NOD_VAR,
			       nc_flt_code(exoid), 3, dims, &varid)) != NC_NOERR) {
	exerrval = status;
	sprintf(errmsg,
		"Error: failed to define nodal variables in file id %d",
		exoid);
	ex_err("ex_put_variable_param",errmsg,exerrval);
	goto error_ret;          /* exit define mode and return */
      }
    } else { /* New way */
      int i;
      for (i = 1; i <= num_vars; i++) {
	dims[0] = time_dim;
	dims[1] = num_nod_dim;
	if ((status = nc_def_var (exoid, VAR_NOD_VAR_NEW(i),
				  nc_flt_code(exoid), 2, dims, &varid)) != NC_NOERR) {
	  exerrval = status;
	  sprintf(errmsg,
		  "Error: failed to define nodal variable %d in file id %d",
		  i, exoid);
	  ex_err("ex_put_variable_param",errmsg,exerrval);
	  goto error_ret;          /* exit define mode and return */
	}
      }
    }

    /* Now define nodal variable name variable */
    dims[0] = dimid;
    dims[1] = strdim;
    if ((status = nc_def_var(exoid, VAR_NAME_NOD_VAR, NC_CHAR, 2, dims, &varid)) != NC_NOERR) {
      if (status == NC_ENAMEINUSE) {
	exerrval = status;
	sprintf(errmsg,
		"Error: nodal variable names are already defined in file id %d",
		exoid);
	ex_err("ex_put_variable_param",errmsg,exerrval);
      } else {
	exerrval = status;
	sprintf(errmsg,
		"Error: failed to define nodal variable names in file id %d",
		exoid);
	ex_err("ex_put_variable_param",errmsg,exerrval);
      }
      goto error_ret;          /* exit define mode and return */
    }
  }

  /* netCDF variables in which to store the EXODUS obj_type variable values will
   * be defined in ex_put_*_var_tab or ex_put_*_var; at this point, we 
   * don't know what obj_type variables are valid for which obj_type blocks 
   * (the info that is stored in the obj_type variable truth table)
   */
  else if (obj_type == EX_ELEM_BLOCK)  {
    EX_PREPARE_RESULT_VAR("element",DIM_NUM_ELE_VAR,VAR_NAME_ELE_VAR);
  }
  else if (obj_type == EX_NODE_SET) {
    EX_PREPARE_RESULT_VAR("nodeset",DIM_NUM_NSET_VAR,VAR_NAME_NSET_VAR);
  }
  else if (obj_type == EX_SIDE_SET) {
    EX_PREPARE_RESULT_VAR("sideset",DIM_NUM_SSET_VAR,VAR_NAME_SSET_VAR);
  }
  else if (obj_type == EX_EDGE_BLOCK) {
    EX_PREPARE_RESULT_VAR("edge",DIM_NUM_EDG_VAR,VAR_NAME_EDG_VAR);
  }
  else if (obj_type == EX_FACE_BLOCK) {
    EX_PREPARE_RESULT_VAR("face",DIM_NUM_FAC_VAR,VAR_NAME_FAC_VAR);
  }
  else if (obj_type == EX_EDGE_SET) {
    EX_PREPARE_RESULT_VAR("edgeset",DIM_NUM_ESET_VAR,VAR_NAME_ESET_VAR);
  }
  else if (obj_type == EX_FACE_SET) {
    EX_PREPARE_RESULT_VAR("faceset",DIM_NUM_FSET_VAR,VAR_NAME_FSET_VAR);
  }
  else if (obj_type == EX_ELEM_SET) {
    EX_PREPARE_RESULT_VAR("elementset",DIM_NUM_ELSET_VAR,VAR_NAME_ELSET_VAR);
  }

  /* leave define mode  */
  if ((status = nc_enddef (exoid)) != NC_NOERR) {
    exerrval = status;
    sprintf(errmsg,
	    "Error: failed to complete definition in file id %d",
	    exoid);
    ex_err("ex_put_variable_param",errmsg,exerrval);
    return (EX_FATAL);
  }

  return(EX_NOERR);

  /* Fatal error: exit definition mode and return */
 error_ret:
  if ((status = nc_enddef(exoid)) != NC_NOERR) {    /* exit define mode */
    sprintf(errmsg,
	    "Error: failed to complete definition for file id %d",
	    exoid);
    ex_err("ex_put_variable_param",errmsg,exerrval);
  }
  return (EX_FATAL);
}
int ex_put_init_ext (int   exoid,
                     const ex_init_params *model)
{
  int numdimdim, numnoddim, elblkdim, edblkdim, fablkdim, esetdim,
    fsetdim, elsetdim, nsetdim, ssetdim, dim_str_name, dim[2], temp;
  int nmapdim,edmapdim,famapdim,emapdim,timedim;
  int status;
  int title_len;
#if 0
  /* used for header size calculations which are turned off for now */
  int header_size, fixed_var_size, iows;
#endif  
  char errmsg[MAX_ERR_LENGTH];

  int rootid = exoid & EX_FILE_ID_MASK;

  exerrval = 0; /* clear error code */
  
  if (rootid == exoid && nc_inq_dimid (exoid, DIM_NUM_DIM, &temp) == NC_NOERR)
    {
      exerrval = EX_MSG;
      sprintf(errmsg,
              "Error: initialization already done for file id %d",exoid);
      ex_err("ex_put_init_ext",errmsg,exerrval);
      return (EX_FATAL);
    }


  /* put file into define mode */
  if ((status = nc_redef (exoid)) != NC_NOERR)
    {
      exerrval = status;
      sprintf(errmsg,
              "Error: failed to put file id %d into define mode", exoid);
      ex_err("ex_put_init_ext",errmsg,exerrval);
      return (EX_FATAL);
    }

  /* define some attributes... */
  title_len = strlen(model->title) < MAX_LINE_LENGTH ? strlen(model->title) : MAX_LINE_LENGTH;
  if ((status = nc_put_att_text(rootid, NC_GLOBAL, (const char*)ATT_TITLE, 
				title_len+1, model->title)) != NC_NOERR)
    {
      exerrval = status;
      sprintf(errmsg,
              "Error: failed to define model->title attribute to file id %d", rootid);
      ex_err("ex_put_init_ext",errmsg,exerrval);
      goto error_ret;         /* exit define mode and return */
    }

  /* ...and some dimensions... */

  /* create name string length dimension */
  if (nc_inq_dimid (rootid, DIM_STR_NAME, &dim_str_name) != NC_NOERR) {
    int max_name = ex_inquire_int(exoid, EX_INQ_MAX_READ_NAME_LENGTH);
    if (max_name < ex_default_max_name_length) { max_name = ex_default_max_name_length;
}

    if ((status=nc_def_dim (rootid, DIM_STR_NAME, max_name+1, &dim_str_name)) != NC_NOERR) {
      exerrval = status;
      sprintf(errmsg,
	      "Error: failed to define name string length in file id %d",rootid);
      ex_err("ex_put_init_ext",errmsg,exerrval);
      goto error_ret;
    }
  }
  
  if ((status = nc_def_dim(exoid, DIM_TIME, NC_UNLIMITED, &timedim)) != NC_NOERR) {
    exerrval = status;
    sprintf(errmsg,
	    "Error: failed to define time dimension in file id %d", exoid);
    ex_err("ex_create",errmsg,exerrval);
    return (EX_FATAL);
  }

  dim[0] = timedim;
  if ((status = nc_def_var(exoid, VAR_WHOLE_TIME, nc_flt_code(exoid), 1, dim, &temp)) != NC_NOERR) {
    exerrval = status;
    sprintf(errmsg,
	    "Error: failed to define whole time step variable in file id %d",
	    exoid);
    ex_err("ex_create",errmsg,exerrval);
    return (EX_FATAL);
  }
  ex_compress_variable(exoid, temp, 2);

  if ((status = nc_def_dim(exoid, DIM_NUM_DIM, model->num_dim, &numdimdim)) != NC_NOERR)
    {
      exerrval = status;
      sprintf(errmsg,
              "Error: failed to define number of dimensions in file id %d",exoid);
      ex_err("ex_put_init_ext",errmsg,exerrval);
      goto error_ret;         /* exit define mode and return */
    }

  /*
   * Need to handle "empty file" that may be the result of a strange
   * load balance or some other strange run.  Note that if num_node
   * == 0, then model->num_elem must be zero since you cannot have elements
   * with no nodes. It *is* permissible to have zero elements with
   * non-zero node count.
   */
     
  if (model->num_nodes > 0) {
    if ((status = nc_def_dim(exoid, DIM_NUM_NODES, model->num_nodes, &numnoddim)) != NC_NOERR)
      {
        exerrval = status;
        sprintf(errmsg,
                "Error: failed to define number of nodes in file id %d",exoid);
        ex_err("ex_put_init_ext",errmsg,exerrval);
        goto error_ret;         /* exit define mode and return */
      }
  }
  
  if (model->num_elem > 0) {
    if (model->num_nodes <=  0) {
      exerrval = EX_MSG;
      sprintf(errmsg,
              "Error: Cannot have non-zero element count if node count is zero.in file id %d",exoid);
      ex_err("ex_put_init_ext",errmsg,exerrval);
      goto error_ret;         /* exit define mode and return */
    }
    
    if ((status = nc_def_dim(exoid, DIM_NUM_ELEM, model->num_elem, &temp)) != NC_NOERR)
      {
        exerrval = status;
        sprintf(errmsg,
                "Error: failed to define number of elements in file id %d",exoid);
        ex_err("ex_put_init_ext",errmsg,exerrval);
        goto error_ret;         /* exit define mode and return */
      }
  }

  if (model->num_edge > 0) {
    if (model->num_nodes <=  0) {
      exerrval = EX_MSG;
      sprintf(errmsg,
              "Error: Cannot have non-zero edge count if node count is zero.in file id %d",exoid);
      ex_err("ex_put_init_ext",errmsg,exerrval);
      goto error_ret;         /* exit define mode and return */
    }
    
    if ((status = nc_def_dim(exoid, DIM_NUM_EDGE, model->num_edge, &temp)) != NC_NOERR)
      {
        exerrval = status;
        sprintf(errmsg,
                "Error: failed to define number of edges in file id %d",exoid);
        ex_err("ex_put_init_ext",errmsg,exerrval);
        goto error_ret;         /* exit define mode and return */
      }
  }

  if (model->num_face > 0) {
    if (model->num_nodes <=  0) {
      exerrval = EX_MSG;
      sprintf(errmsg,
              "Error: Cannot have non-zero face count if node count is zero.in file id %d",exoid);
      ex_err("ex_put_init_ext",errmsg,exerrval);
      goto error_ret;         /* exit define mode and return */
    }
    
    if ((status = nc_def_dim(exoid, DIM_NUM_FACE, model->num_face, &temp)) != NC_NOERR)
      {
        exerrval = status;
        sprintf(errmsg,
                "Error: failed to define number of faces in file id %d",exoid);
        ex_err("ex_put_init_ext",errmsg,exerrval);
        goto error_ret;         /* exit define mode and return */
      }
  }

  if (ex_write_object_params(exoid, "element block", DIM_NUM_EL_BLK, VAR_STAT_EL_BLK, VAR_ID_EL_BLK, model->num_elem_blk, &elblkdim)) { goto error_ret;
}
  if (ex_write_object_params(exoid, "edge block",    DIM_NUM_ED_BLK, VAR_STAT_ED_BLK, VAR_ID_ED_BLK, model->num_edge_blk, &edblkdim)) { goto error_ret;
}
  if (ex_write_object_params(exoid, "face block",    DIM_NUM_FA_BLK, VAR_STAT_FA_BLK, VAR_ID_FA_BLK, model->num_face_blk, &fablkdim)) { goto error_ret;
}
  
  if (ex_write_object_params(exoid, "node set", DIM_NUM_NS,  VAR_NS_STAT,  VAR_NS_IDS, model->num_node_sets,  &nsetdim)) { goto error_ret;
}
  if (ex_write_object_params(exoid, "edge set", DIM_NUM_ES,  VAR_ES_STAT,  VAR_ES_IDS, model->num_edge_sets,  &esetdim)) { goto error_ret;
}
  if (ex_write_object_params(exoid, "face set", DIM_NUM_FS,  VAR_FS_STAT,  VAR_FS_IDS, model->num_face_sets,  &fsetdim)) { goto error_ret;
}
  if (ex_write_object_params(exoid, "side set", DIM_NUM_SS,  VAR_SS_STAT,  VAR_SS_IDS, model->num_side_sets,  &ssetdim)) { goto error_ret;
}
  if (ex_write_object_params(exoid, "elem set", DIM_NUM_ELS, VAR_ELS_STAT, VAR_ELS_IDS, model->num_elem_sets, &elsetdim)) { goto error_ret;
}

  if (ex_write_map_params(exoid,   "node map",  DIM_NUM_NM,  VAR_NM_PROP(1),  model->num_node_maps, &nmapdim)  != NC_NOERR) { goto error_ret;
}
  if (ex_write_map_params(exoid,   "edge map",  DIM_NUM_EDM, VAR_EDM_PROP(1), model->num_edge_maps, &edmapdim) != NC_NOERR) { goto error_ret;
}
  if (ex_write_map_params(exoid,   "face map",  DIM_NUM_FAM, VAR_FAM_PROP(1), model->num_face_maps, &famapdim) != NC_NOERR) { goto error_ret;
}
  if (ex_write_map_params(exoid, "element map", DIM_NUM_EM,  VAR_EM_PROP(1),  model->num_elem_maps, &emapdim)  != NC_NOERR) { goto error_ret;
}

  /*
   * To reduce the maximum dataset sizes, the storage of the nodal
   * coordinates and the nodal variables was changed from a single
   * dataset to a dataset per component or variable.  However, we
   * want to maintain some form of compatability with the old
   * exodusII version.  It is easy to do this on read; however, we
   * also want to be able to store in the old format using the new
   * library. 
   *
   * The mode is set in the ex_create call. The setting can be checked
   * via the ATT_FILESIZE attribute in the file (1=large,
   * 0=normal). Also handle old files that do not contain this
   * attribute.
   */

  if (model->num_nodes > 0) {
    if (ex_large_model(exoid) == 1) {
      /* node coordinate arrays -- separate storage... */

      dim[0] = numnoddim;
      if (model->num_dim > 0) {
        if ((status = nc_def_var (exoid, VAR_COORD_X, nc_flt_code(exoid), 1, dim, &temp)) != NC_NOERR)
          {
            exerrval = status;
            sprintf(errmsg,
                    "Error: failed to define node x coordinate array in file id %d",exoid);
            ex_err("ex_put_init_ext",errmsg,exerrval);
            goto error_ret;         /* exit define mode and return */
          }
	ex_compress_variable(exoid, temp, 2);
      }
    
      if (model->num_dim > 1) {
        if ((status = nc_def_var(exoid, VAR_COORD_Y, nc_flt_code(exoid), 1, dim, &temp)) != NC_NOERR)
          {
            exerrval = status;
            sprintf(errmsg,
                    "Error: failed to define node y coordinate array in file id %d",exoid);
            ex_err("ex_put_init_ext",errmsg,exerrval);
            goto error_ret;         /* exit define mode and return */
          }
	ex_compress_variable(exoid, temp, 2);
      }

      if (model->num_dim > 2) {
        if ((status = nc_def_var(exoid, VAR_COORD_Z, nc_flt_code(exoid), 1, dim, &temp)) != NC_NOERR)
          {
            exerrval = status;
            sprintf(errmsg,
                    "Error: failed to define node z coordinate array in file id %d",exoid);
            ex_err("ex_put_init_ext",errmsg,exerrval);
            goto error_ret;         /* exit define mode and return */
          }
	ex_compress_variable(exoid, temp, 2);
      }
    } else {
      /* node coordinate arrays: -- all stored together (old method) */

      dim[0] = numdimdim;
      dim[1] = numnoddim;
      if ((status = nc_def_var(exoid, VAR_COORD, nc_flt_code(exoid), 2, dim, &temp)) != NC_NOERR)
        {
          exerrval = status;
          sprintf(errmsg,
                  "Error: failed to define node coordinate array in file id %d",exoid);
          ex_err("ex_put_init_ext",errmsg,exerrval);
          goto error_ret;         /* exit define mode and return */
        }
    }
  }
  
  if (ex_write_object_names(exoid, "element block",VAR_NAME_EL_BLK,elblkdim, dim_str_name, model->num_elem_blk) != NC_NOERR) { goto error_ret;
}
  if (ex_write_object_names(exoid, "edge block",   VAR_NAME_ED_BLK,edblkdim, dim_str_name, model->num_edge_blk) != NC_NOERR) { goto error_ret;
}
  if (ex_write_object_names(exoid, "face block",   VAR_NAME_FA_BLK,fablkdim, dim_str_name, model->num_face_blk) != NC_NOERR) { goto error_ret;
}
  if (ex_write_object_names(exoid, "node set",     VAR_NAME_NS,    nsetdim,  dim_str_name, model->num_node_sets) != NC_NOERR) { goto error_ret;
}
  if (ex_write_object_names(exoid, "edge set",     VAR_NAME_ES,    esetdim,  dim_str_name, model->num_edge_sets) != NC_NOERR) { goto error_ret;
}
  if (ex_write_object_names(exoid, "face set",     VAR_NAME_FS,    fsetdim,  dim_str_name, model->num_face_sets) != NC_NOERR) { goto error_ret;
}
  if (ex_write_object_names(exoid, "side set",     VAR_NAME_SS,    ssetdim,  dim_str_name, model->num_side_sets) != NC_NOERR) { goto error_ret;
}
  if (ex_write_object_names(exoid, "element set",  VAR_NAME_ELS,   elsetdim, dim_str_name, model->num_elem_sets) != NC_NOERR) { goto error_ret;
}
  if (ex_write_object_names(exoid, "node map",     VAR_NAME_NM,    nmapdim,  dim_str_name, model->num_node_maps) != NC_NOERR) { goto error_ret;
}
  if (ex_write_object_names(exoid, "edge map",     VAR_NAME_EDM,   edmapdim, dim_str_name, model->num_edge_maps) != NC_NOERR) { goto error_ret;
}
  if (ex_write_object_names(exoid, "face map",     VAR_NAME_FAM,   famapdim, dim_str_name, model->num_face_maps) != NC_NOERR) { goto error_ret;
}
  if (ex_write_object_names(exoid, "element map",  VAR_NAME_EM,    emapdim,  dim_str_name, model->num_elem_maps) != NC_NOERR) { goto error_ret;
}
  if (ex_write_object_names(exoid, "coordinate",   VAR_NAME_COOR,  numdimdim,dim_str_name, model->num_dim) != NC_NOERR) { goto error_ret;
}

  /* leave define mode */
  if ((status = nc_enddef (exoid)) != NC_NOERR) {
    exerrval = status;
    sprintf(errmsg,
	    "Error: failed to complete variable definitions in file id %d",exoid);
    ex_err("ex_put_init_ext",errmsg,exerrval);
    return (EX_FATAL);
  }
  
  /* Fill the id and status arrays with EX_INVALID_ID */
  {
    int *invalid_ids = NULL;
    int maxset = model->num_elem_blk;
    if (maxset < model->num_edge_blk) {  maxset = model->num_edge_blk;
}
    if (maxset < model->num_face_blk) {  maxset = model->num_face_blk;
}
    if (maxset < model->num_node_sets) { maxset = model->num_node_sets;
}
    if (maxset < model->num_edge_sets) { maxset = model->num_edge_sets;
}
    if (maxset < model->num_face_sets) { maxset = model->num_face_sets;
}
    if (maxset < model->num_side_sets) { maxset = model->num_side_sets;
}
    if (maxset < model->num_elem_sets) { maxset = model->num_elem_sets;
}
    if (maxset < model->num_node_maps) { maxset = model->num_node_maps;
}
    if (maxset < model->num_edge_maps) { maxset = model->num_edge_maps;
}
    if (maxset < model->num_face_maps) { maxset = model->num_face_maps;
}
    if (maxset < model->num_elem_maps) { maxset = model->num_elem_maps;
}

    /* allocate space for id/status array */
    if (!(invalid_ids = malloc(maxset*sizeof(int)))) {
      exerrval = EX_MEMFAIL;
      sprintf(errmsg,
	      "Error: failed to allocate memory for id/status array for file id %d", exoid);
      ex_err("ex_put_init_ext",errmsg,exerrval);
      return (EX_FATAL);
    }
    
    invalidate_id_status(exoid, VAR_STAT_EL_BLK, VAR_ID_EL_BLK,
			 model->num_elem_blk, invalid_ids);
    invalidate_id_status(exoid, VAR_STAT_ED_BLK, VAR_ID_ED_BLK,
			 model->num_edge_blk, invalid_ids);
    invalidate_id_status(exoid, VAR_STAT_FA_BLK, VAR_ID_FA_BLK,
			 model->num_face_blk, invalid_ids);
    invalidate_id_status(exoid, VAR_NS_STAT,  VAR_NS_IDS,
			 model->num_node_sets, invalid_ids);
    invalidate_id_status(exoid, VAR_ES_STAT,  VAR_ES_IDS,
			 model->num_edge_sets, invalid_ids);
    invalidate_id_status(exoid, VAR_FS_STAT,  VAR_FS_IDS,
			 model->num_face_sets, invalid_ids);
    invalidate_id_status(exoid, VAR_SS_STAT,  VAR_SS_IDS,
			 model->num_side_sets, invalid_ids);
    invalidate_id_status(exoid, VAR_ELS_STAT, VAR_ELS_IDS,
			 model->num_elem_sets, invalid_ids);

    invalidate_id_status(exoid, 0, VAR_NM_PROP(1),  model->num_node_maps, invalid_ids);
    invalidate_id_status(exoid, 0, VAR_EDM_PROP(1), model->num_edge_maps, invalid_ids);
    invalidate_id_status(exoid, 0, VAR_FAM_PROP(1), model->num_face_maps, invalid_ids);
    invalidate_id_status(exoid, 0, VAR_EM_PROP(1),  model->num_elem_maps, invalid_ids);

    if (invalid_ids != NULL) {
      free(invalid_ids);
      invalid_ids = NULL;
    }
  }

  /* Write dummy values to the names arrays to avoid corruption issues on some platforms */
  if (model->num_elem_blk > 0) { write_dummy_names(exoid, EX_ELEM_BLOCK);
}
  if (model->num_edge_blk > 0) { write_dummy_names(exoid, EX_EDGE_BLOCK);
}
  if (model->num_face_blk > 0) { write_dummy_names(exoid, EX_FACE_BLOCK);
}
  if (model->num_node_sets> 0) { write_dummy_names(exoid, EX_NODE_SET);
}
  if (model->num_edge_sets> 0) { write_dummy_names(exoid, EX_EDGE_SET);
}
  if (model->num_face_sets> 0) { write_dummy_names(exoid, EX_FACE_SET);
}
  if (model->num_side_sets> 0) { write_dummy_names(exoid, EX_SIDE_SET);
}
  if (model->num_elem_sets> 0) { write_dummy_names(exoid, EX_ELEM_SET);
}
  if (model->num_node_maps> 0) { write_dummy_names(exoid, EX_NODE_MAP);
}
  if (model->num_edge_maps> 0) { write_dummy_names(exoid, EX_EDGE_MAP);
}
  if (model->num_face_maps> 0) { write_dummy_names(exoid, EX_FACE_MAP);
}
  if (model->num_elem_maps> 0) { write_dummy_names(exoid, EX_ELEM_MAP);
}

  return (EX_NOERR);
  
  /* Fatal error: exit definition mode and return */
 error_ret:
  if (nc_enddef (exoid) != NC_NOERR)     /* exit define mode */
    {
      sprintf(errmsg,
              "Error: failed to complete definition for file id %d",
              exoid);
      ex_err("ex_put_init_ext",errmsg,exerrval);
    }
  return (EX_FATAL);
}
Exemple #14
0
int ex_put_sset_var (int   exoid,
                     int   time_step,
                     int   sset_var_index,
                     int   sset_id,
                     int   num_faces_this_sset,
                     const void *sset_var_vals)
{
  int varid, dimid,time_dim, numelbdim, dims[2], sset_id_ndx;
  long num_ssets, num_sset_var, start[2], count[2];
  nclong *sset_var_tab;
  char errmsg[MAX_ERR_LENGTH];

  exerrval = 0; /* clear error code */

  /* Determine index of sset_id in VAR_SS_ID array */
  sset_id_ndx = ex_id_lkup(exoid,VAR_SS_IDS,sset_id);
  if (exerrval != 0) 
  {
    if (exerrval == EX_NULLENTITY)
    {
      sprintf(errmsg,
              "Warning: no variables allowed for NULL sideset %d in file id %d",
              sset_id,exoid);
      ex_err("ex_put_sset_var",errmsg,EX_MSG);
      return (EX_WARN);
    }
    else
    {
    sprintf(errmsg,
        "Error: failed to locate sideset id %d in %s array in file id %d",
            sset_id, VAR_SS_IDS, exoid);
    ex_err("ex_put_sset_var",errmsg,exerrval);
    return (EX_FATAL);
    }
  }

  if ((varid = ncvarid (exoid,
                        VAR_SS_VAR(sset_var_index,sset_id_ndx))) == -1)
  {
    if (ncerr == NC_ENOTVAR) /* variable doesn't exist, create it! */
    {

/*    inquire previously defined dimensions */

      /* check for the existance of an sideset variable truth table */
      if ((varid = ncvarid (exoid, VAR_SSET_TAB)) != -1)
      {
        /* find out number of sidesets and sideset variables */
        if ((dimid = ncdimid (exoid, DIM_NUM_SS)) == -1)
        {
          exerrval = ncerr;
          sprintf(errmsg,
               "Error: failed to locate number of sidesets in file id %d",
                  exoid);
          ex_err("ex_put_sset_var",errmsg,exerrval);
          return (EX_FATAL);
        }

        if (ncdiminq (exoid, dimid, (char *) 0, &num_ssets) == -1)
        {
          exerrval = ncerr;
          sprintf(errmsg,
                 "Error: failed to get number of sidesets in file id %d",
                  exoid);
          ex_err("ex_put_sset_var",errmsg,exerrval);
          return (EX_FATAL);
        }

        if ((dimid = ncdimid (exoid, DIM_NUM_SSET_VAR)) == -1)
        {
          exerrval = EX_BADPARAM;
          sprintf(errmsg,
               "Error: no sideset variables stored in file id %d",
                  exoid);
          ex_err("ex_put_sset_var",errmsg,exerrval);
          return (EX_FATAL);
        }

        if (ncdiminq (exoid, dimid, (char *) 0, &num_sset_var) == -1)
        {
          exerrval = ncerr;
          sprintf(errmsg,
               "Error: failed to get number of sideset variables in file id %d",
                  exoid);
          ex_err("ex_put_sset_var",errmsg,exerrval);
          return (EX_FATAL);
        }

        if (!(sset_var_tab = malloc(num_ssets*num_sset_var*sizeof(nclong))))
        {
          exerrval = EX_MEMFAIL;
          sprintf(errmsg,
                 "Error: failed to allocate memory for sideset variable truth table in file id %d",
                  exoid);
          ex_err("ex_put_sset_var",errmsg,exerrval);
          return (EX_FATAL);
        }

        /*   read in the sideset variable truth table */

        start[0] = 0;
        start[1] = 0;

        count[0] = num_ssets;
        count[1] = num_sset_var;

        if (ncvarget (exoid, varid, start, count, sset_var_tab) == -1)
        {
          exerrval = ncerr;
          sprintf(errmsg,
                 "Error: failed to get truth table from file id %d", exoid);
          ex_err("ex_put_sset_var",errmsg,exerrval);
          return (EX_FATAL);
        }

        if(sset_var_tab[num_sset_var*(sset_id_ndx-1)+sset_var_index-1] 
           == 0L)
        {
          free(sset_var_tab);
          exerrval = EX_BADPARAM;
          sprintf(errmsg,
              "Error: Invalid sideset variable %d, sideset %d in file id %d",
                  sset_var_index, sset_id, exoid);
          ex_err("ex_put_sset_var",errmsg,exerrval);
          return (EX_FATAL);
        }
        free(sset_var_tab);
      }

      if ((time_dim = ncdimid (exoid, DIM_TIME)) == -1)
      {
        exerrval = ncerr;
        sprintf(errmsg,
               "Error: failed to locate time dimension in file id %d", exoid);
        ex_err("ex_put_sset_var",errmsg,exerrval);
        goto error_ret;         /* exit define mode and return */
      }

      if ((numelbdim=ncdimid(exoid, DIM_NUM_SIDE_SS(sset_id_ndx))) == -1)
      {
        if (ncerr == NC_EBADDIM)
        {
          exerrval = ncerr;
          sprintf(errmsg,
      "Error: number of faces in sideset %d not defined in file id %d",
                  sset_id, exoid);
          ex_err("ex_put_sset_var",errmsg,exerrval);
        }
        else
        {
          exerrval = ncerr;
          sprintf(errmsg,
 "Error: failed to locate number of sides in sideset %d in file id %d",
                  sset_id, exoid);
          ex_err("ex_put_sset_var",errmsg,exerrval);
        }
        goto error_ret;
      }

/*    variable doesn't exist so put file into define mode  */

      if (ncredef (exoid) == -1)
      {
        exerrval = ncerr;
        sprintf(errmsg,
               "Error: failed to put file id %d into define mode", exoid);
        ex_err("ex_put_sset_var",errmsg,exerrval);
        return (EX_FATAL);
      }


/*    define netCDF variable to store sideset variable values */

      dims[0] = time_dim;
      dims[1] = numelbdim;
      if ((varid = ncvardef(exoid,VAR_SS_VAR(sset_var_index,sset_id_ndx),
                            nc_flt_code(exoid), 2, dims)) == -1)
      {
        exerrval = ncerr;
        sprintf(errmsg,
               "Error: failed to define sideset variable %d in file id %d",
                sset_var_index,exoid);
        ex_err("ex_put_sset_var",errmsg,exerrval);
        goto error_ret;
      }


/*    leave define mode  */

      if (ncendef (exoid) == -1)
      {
        exerrval = ncerr;
        sprintf(errmsg,
       "Error: failed to complete sideset variable %s definition to file id %d",
                VAR_SS_VAR(sset_var_index,sset_id_ndx), exoid);
        ex_err("ex_put_sset_var",errmsg,exerrval);
        return (EX_FATAL);
      }
    }
    else
    {
      exerrval = ncerr;
      sprintf(errmsg,
             "Error: failed to locate sideset variable %s in file id %d",
              VAR_SS_VAR(sset_var_index,sset_id_ndx),exoid);
      ex_err("ex_put_sset_var",errmsg,exerrval);
      return (EX_FATAL);
    }
  }

/* store sideset variable values */

  start[0] = --time_step;
  start[1] = 0;

  count[0] = 1;
  count[1] = num_faces_this_sset;

  if (ncvarput (exoid, varid, start, count, 
                ex_conv_array(exoid,WRITE_CONVERT,sset_var_vals,
                num_faces_this_sset)) == -1)
  {
    exerrval = ncerr;
    sprintf(errmsg,
           "Error: failed to store sideset variable %d in file id %d", 
            sset_var_index,exoid);
    ex_err("ex_put_sset_var",errmsg,exerrval);
    return (EX_FATAL);
  }

  return (EX_NOERR);

/* Fatal error: exit definition mode and return */
error_ret:
  if (ncendef (exoid) == -1)     /* exit define mode */
  {
    sprintf(errmsg,
           "Error: failed to complete definition for file id %d",
            exoid);
    ex_err("ex_put_sset_var",errmsg,exerrval);
  }
  return (EX_FATAL);
}
Exemple #15
0
int ex_add_attr(int exoid, ex_entity_type obj_type, ex_entity_id obj_id, int64_t num_attr_per_entry)
{
  int    status;
  int    dims[2];
  int    strdim, varid, att_name_varid;
  size_t num_obj;

  char        errmsg[MAX_ERR_LENGTH];
  const char *dnumobjent;
  const char *dnumobjatt;
  const char *vobjatt;
  const char *vattnam;
  int         numobjentdim;
  int         obj_id_ndx;
  int         numattrdim;

  exerrval = 0; /* clear error code */

  if (num_attr_per_entry <= 0) {
    return (EX_NOERR);
  }

  /* Determine index of obj_id in obj_type id array */
  if (obj_type == EX_NODAL) {
    obj_id_ndx = 0;
  }
  else {
    obj_id_ndx = ex_id_lkup(exoid, obj_type, obj_id);

    if (exerrval != 0) {
      if (exerrval == EX_NULLENTITY) {
        snprintf(errmsg, MAX_ERR_LENGTH,
                 "Warning: no attributes found for NULL %s %" PRId64 " in file id %d",
                 ex_name_of_object(obj_type), obj_id, exoid);
        ex_err("ex_add_attr", errmsg, EX_NULLENTITY);
        return (EX_WARN); /* no attributes for this object */
      }
      snprintf(errmsg, MAX_ERR_LENGTH,
               "Warning: failed to locate %s id %" PRId64 " in id array in file id %d",
               ex_name_of_object(obj_type), obj_id, exoid);
      ex_err("ex_add_attr", errmsg, exerrval);
      return (EX_WARN);
    }
  }

  switch (obj_type) {
  case EX_SIDE_SET:
    dnumobjent = DIM_NUM_SIDE_SS(obj_id_ndx);
    dnumobjatt = DIM_NUM_ATT_IN_SS(obj_id_ndx);
    vobjatt    = VAR_SSATTRIB(obj_id_ndx);
    vattnam    = VAR_NAME_SSATTRIB(obj_id_ndx);
    break;
  case EX_NODE_SET:
    dnumobjent = DIM_NUM_NOD_NS(obj_id_ndx);
    dnumobjatt = DIM_NUM_ATT_IN_NS(obj_id_ndx);
    vobjatt    = VAR_NSATTRIB(obj_id_ndx);
    vattnam    = VAR_NAME_NSATTRIB(obj_id_ndx);
    break;
  case EX_EDGE_SET:
    dnumobjent = DIM_NUM_EDGE_ES(obj_id_ndx);
    dnumobjatt = DIM_NUM_ATT_IN_ES(obj_id_ndx);
    vobjatt    = VAR_ESATTRIB(obj_id_ndx);
    vattnam    = VAR_NAME_ESATTRIB(obj_id_ndx);
    break;
  case EX_FACE_SET:
    dnumobjent = DIM_NUM_FACE_FS(obj_id_ndx);
    dnumobjatt = DIM_NUM_ATT_IN_FS(obj_id_ndx);
    vobjatt    = VAR_FSATTRIB(obj_id_ndx);
    vattnam    = VAR_NAME_FSATTRIB(obj_id_ndx);
    break;
  case EX_ELEM_SET:
    dnumobjent = DIM_NUM_ELE_ELS(obj_id_ndx);
    dnumobjatt = DIM_NUM_ATT_IN_ELS(obj_id_ndx);
    vobjatt    = VAR_ELSATTRIB(obj_id_ndx);
    vattnam    = VAR_NAME_ELSATTRIB(obj_id_ndx);
    break;
  case EX_NODAL:
    dnumobjent = DIM_NUM_NODES;
    dnumobjatt = DIM_NUM_ATT_IN_NBLK;
    vobjatt    = VAR_NATTRIB;
    vattnam    = VAR_NAME_NATTRIB;
    break;
  case EX_EDGE_BLOCK:
    dnumobjent = DIM_NUM_ED_IN_EBLK(obj_id_ndx);
    dnumobjatt = DIM_NUM_ATT_IN_EBLK(obj_id_ndx);
    vobjatt    = VAR_EATTRIB(obj_id_ndx);
    vattnam    = VAR_NAME_EATTRIB(obj_id_ndx);
    break;
  case EX_FACE_BLOCK:
    dnumobjent = DIM_NUM_FA_IN_FBLK(obj_id_ndx);
    dnumobjatt = DIM_NUM_ATT_IN_FBLK(obj_id_ndx);
    vobjatt    = VAR_FATTRIB(obj_id_ndx);
    vattnam    = VAR_NAME_FATTRIB(obj_id_ndx);
    break;
  case EX_ELEM_BLOCK:
    dnumobjent = DIM_NUM_EL_IN_BLK(obj_id_ndx);
    dnumobjatt = DIM_NUM_ATT_IN_BLK(obj_id_ndx);
    vobjatt    = VAR_ATTRIB(obj_id_ndx);
    vattnam    = VAR_NAME_ATTRIB(obj_id_ndx);
    break;
  default:
    exerrval = EX_BADPARAM;
    snprintf(errmsg, MAX_ERR_LENGTH, "ERROR: Bad block type (%d) specified for file id %d",
             obj_type, exoid);
    ex_err("ex_put_attr_param", errmsg, exerrval);
    return (EX_FATAL);
  }

  /* element attribute array */
  /* put netcdf file into define mode  */
  if ((status = nc_redef(exoid)) != NC_NOERR) {
    exerrval = status;
    snprintf(errmsg, MAX_ERR_LENGTH, "ERROR: failed to place file id %d into define mode", exoid);
    ex_err("ex_add_attr", errmsg, exerrval);
    return (EX_FATAL);
  }

  if ((status = nc_def_dim(exoid, dnumobjatt, num_attr_per_entry, &numattrdim)) != NC_NOERR) {
    exerrval = status;
    snprintf(errmsg, MAX_ERR_LENGTH,
             "ERROR: failed to define number of attributes in %s %" PRId64 " in file id %d",
             ex_name_of_object(obj_type), obj_id, exoid);
    ex_err("ex_add_attr", errmsg, exerrval);
    goto error_ret; /* exit define mode and return */
  }

  ex_get_dimension(exoid, dnumobjent, ex_name_of_object(obj_type), &num_obj, &numobjentdim,
                   "ex_add_attr");
  dims[0] = numobjentdim;
  dims[1] = numattrdim;

  if ((status = nc_def_var(exoid, vobjatt, nc_flt_code(exoid), 2, dims, &varid)) != NC_NOERR) {
    exerrval = status;
    snprintf(errmsg, MAX_ERR_LENGTH,
             "ERROR:  failed to define attributes for %s %" PRId64 " in file id %d",
             ex_name_of_object(obj_type), obj_id, exoid);
    ex_err("ex_add_attr", errmsg, exerrval);
    goto error_ret; /* exit define mode and return */
  }
  ex_compress_variable(exoid, varid, 2);

  /* inquire previously defined dimensions  */
  if ((status = nc_inq_dimid(exoid, DIM_STR_NAME, &strdim)) != NC_NOERR) {
    exerrval = status;
    snprintf(errmsg, MAX_ERR_LENGTH, "ERROR: failed to get string length in file id %d", exoid);
    ex_err("ex_add_attr", errmsg, exerrval);
    return (EX_FATAL);
  }

  /* Attribute names... */
  dims[0] = numattrdim;
  dims[1] = strdim;

  if ((status = nc_def_var(exoid, vattnam, NC_CHAR, 2, dims, &att_name_varid)) != NC_NOERR) {
    exerrval = status;
    snprintf(errmsg, MAX_ERR_LENGTH,
             "ERROR: failed to define %s attribute name array in file id %d",
             ex_name_of_object(obj_type), exoid);
    ex_err("ex_add_attr", errmsg, exerrval);
    goto error_ret; /* exit define mode and return */
  }

  /* leave define mode  */

  if ((exerrval = nc_enddef(exoid)) != NC_NOERR) {
    snprintf(errmsg, MAX_ERR_LENGTH, "ERROR: failed to complete %s definition in file id %d",
             ex_name_of_object(obj_type), exoid);
    ex_err("ex_add_attr", errmsg, exerrval);
    return (EX_FATAL);
  }

  /* Output a dummy empty attribute name in case client code doesn't
     write anything; avoids corruption in some cases.
  */
  if (att_name_varid >= 0) {
    size_t count[2];
    size_t start[2];
    char * text = "";
    size_t i;

    count[0] = 1;
    start[1] = 0;
    count[1] = strlen(text) + 1;

    for (i = 0; i < num_attr_per_entry; i++) {
      start[0] = i;
      nc_put_vara_text(exoid, att_name_varid, start, count, text);
    }
  }

  return (EX_NOERR);

/* Fatal error: exit definition mode and return */
error_ret:
  if (nc_enddef(exoid) != NC_NOERR) { /* exit define mode */
    snprintf(errmsg, MAX_ERR_LENGTH, "ERROR: failed to complete definition for file id %d", exoid);
    ex_err("ex_add_attr", errmsg, exerrval);
  }
  return (EX_FATAL);
}
Exemple #16
0
int ex_put_block( int         exoid,
                  ex_entity_type blk_type,
                  int         blk_id,
                  const char* entry_descrip,
                  int         num_entries_this_blk,
                  int         num_nodes_per_entry,
                  int         num_edges_per_entry,
                  int         num_faces_per_entry,
                  int         num_attr_per_entry )
{
  int status;
  int arbitrary_polyhedra = 0; /* 1 if block is arbitrary 2d polyhedra type; 2 if 3d polyhedra */
  int varid, dimid, dims[2], blk_id_ndx, blk_stat, strdim;
  size_t start[2];
  int num_blk;
  size_t temp;
  int cur_num_blk, numblkdim, numattrdim;
  int nnodperentdim, nedgperentdim, nfacperentdim;
  int connid;
  int npeid;
  char errmsg[MAX_ERR_LENGTH];
  char entity_type1[5];
  char entity_type2[5];
  const char* dnumblk = NULL;
  const char* vblkids = NULL;
  const char* vblksta = NULL;
  const char* vnodcon = NULL;
  const char* vnpecnt = NULL;
  const char* vedgcon = NULL;
  const char* vfaccon = NULL;
  const char* vconn   = NULL;
  const char* vattnam = NULL;
  const char* vblkatt = NULL;
  const char* dneblk  = NULL;
  const char* dnape   = NULL;
  const char* dnnpe   = NULL;
  const char* dnepe   = NULL;
  const char* dnfpe   = NULL;

  exerrval  = 0; /* clear error code */

  switch (blk_type) {
  case EX_EDGE_BLOCK:
    dnumblk = DIM_NUM_ED_BLK;
    vblkids = VAR_ID_ED_BLK;
    vblksta = VAR_STAT_ED_BLK;
    break;
  case EX_FACE_BLOCK:
    dnumblk = DIM_NUM_FA_BLK;
    vblkids = VAR_ID_FA_BLK;
    vblksta = VAR_STAT_FA_BLK;
    break;
  case EX_ELEM_BLOCK:
    dnumblk = DIM_NUM_EL_BLK;
    vblkids = VAR_ID_EL_BLK;
    vblksta = VAR_STAT_EL_BLK;
    break;
  default:
    exerrval = EX_BADPARAM;
    sprintf( errmsg, "Error: Bad block type (%d) specified for file id %d",
             blk_type, exoid );
    ex_err( "ex_put_block", errmsg, exerrval );
    return (EX_FATAL);
  }

  /* first check if any element blocks are specified */

  if ((status = ex_get_dimension(exoid, dnumblk, ex_name_of_object(blk_type),
                                 &temp, &dimid, "ex_put_block")) != NC_NOERR) {
    return EX_FATAL;
  }
  num_blk = (int)temp;
  
  /* Next: Make sure that this is not a duplicate element block id by
     searching the vblkids array.
     WARNING: This must be done outside of define mode because id_lkup accesses
     the database to determine the position
  */

  if ((status = nc_inq_varid(exoid, vblkids, &varid)) != NC_NOERR) {
    exerrval = status;
    sprintf(errmsg,
            "Error: failed to locate %s ids in file id %d",
            ex_name_of_object(blk_type), exoid);
    ex_err("ex_put_block",errmsg,exerrval);
  }

  blk_id_ndx = ex_id_lkup(exoid,blk_type,blk_id);
  if (exerrval != EX_LOOKUPFAIL) {   /* found the element block id */
    exerrval = EX_FATAL;
    sprintf(errmsg,
            "Error: %s id %d already exists in file id %d",
            ex_name_of_object(blk_type), blk_id,exoid);
    ex_err("ex_put_block",errmsg,exerrval);
    return (EX_FATAL);
  }

  /* Keep track of the total number of element blocks defined using a counter 
     stored in a linked list keyed by exoid.
     NOTE: ex_get_file_item  is a function that finds the number of element 
     blocks for a specific file and returns that value incremented.
  */
  cur_num_blk=ex_get_file_item(exoid, ex_get_counter_list(blk_type));
  if (cur_num_blk >= num_blk) {
    exerrval = EX_FATAL;
    sprintf(errmsg,
            "Error: exceeded number of %ss (%d) defined in file id %d",
            ex_name_of_object(blk_type), num_blk,exoid);
    ex_err("ex_put_block",errmsg,exerrval);
    return (EX_FATAL);
  }


  /*   NOTE: ex_get_file_item  is a function that finds the number of element
       blocks for a specific file and returns that value incremented. */
  cur_num_blk=ex_inc_file_item(exoid, ex_get_counter_list(blk_type));
  start[0] = cur_num_blk;

  /* write out element block id to previously defined id array variable*/
  if ((status = nc_put_var1_int(exoid, varid, start, &blk_id)) != NC_NOERR) {
    exerrval = status;
    sprintf(errmsg,
            "Error: failed to store %s id to file id %d",
            ex_name_of_object(blk_type), exoid);
    ex_err("ex_put_block",errmsg,exerrval);
    return (EX_FATAL);
  }

  blk_id_ndx = ((int)start[0])+1; /* element id index into vblkids array*/

  if (num_entries_this_blk == 0) /* Is this a NULL element block? */
    blk_stat = 0; /* change element block status to NULL */
  else
    blk_stat = 1; /* change element block status to TRUE */

  if ((status = nc_inq_varid (exoid, vblksta, &varid)) != NC_NOERR) {
    exerrval = status;
    sprintf(errmsg,
            "Error: failed to locate %s status in file id %d",
            ex_name_of_object(blk_type), exoid);
    ex_err("ex_put_block",errmsg,exerrval);
    return (EX_FATAL);
  }

  if ((status = nc_put_var1_int(exoid, varid, start, &blk_stat)) != NC_NOERR) {
    exerrval = status;
    sprintf(errmsg,
            "Error: failed to store %s id %d status to file id %d",
            ex_name_of_object(blk_type), blk_id, exoid);
    ex_err("ex_put_block",errmsg,exerrval);
    return (EX_FATAL);
  }

  if (num_entries_this_blk == 0) {/* Is this a NULL element block? */
    return(EX_NOERR);
  }


  /* put netcdf file into define mode  */
  if ((status=nc_redef (exoid)) != NC_NOERR) {
    exerrval = status;
    sprintf(errmsg,"Error: failed to place file id %d into define mode",exoid);
    ex_err("ex_put_block",errmsg,exerrval);
    return (EX_FATAL);
  }

  switch (blk_type) {
  case EX_EDGE_BLOCK:
    dneblk = DIM_NUM_ED_IN_EBLK(blk_id_ndx);
    dnnpe = DIM_NUM_NOD_PER_ED(blk_id_ndx);
    dnepe = 0;
    dnfpe = 0;
    dnape = DIM_NUM_ATT_IN_EBLK(blk_id_ndx);
    vblkatt = VAR_EATTRIB(blk_id_ndx);
    vattnam = VAR_NAME_EATTRIB(blk_id_ndx);
    vnodcon = VAR_EBCONN(blk_id_ndx);
    vedgcon = 0;
    vfaccon = 0;
    break;
  case EX_FACE_BLOCK:
    dneblk = DIM_NUM_FA_IN_FBLK(blk_id_ndx);
    dnnpe = DIM_NUM_NOD_PER_FA(blk_id_ndx);
    dnepe = 0;
    dnfpe = 0;
    dnape = DIM_NUM_ATT_IN_FBLK(blk_id_ndx);
    vblkatt = VAR_FATTRIB(blk_id_ndx);
    vattnam = VAR_NAME_FATTRIB(blk_id_ndx);
    vnodcon = VAR_FBCONN(blk_id_ndx);
    vnpecnt = VAR_FBEPEC(blk_id_ndx);
    vedgcon = 0;
    vfaccon = 0;
    break;
  case EX_ELEM_BLOCK:
    dneblk = DIM_NUM_EL_IN_BLK(blk_id_ndx);
    dnnpe = DIM_NUM_NOD_PER_EL(blk_id_ndx);
    dnepe = DIM_NUM_EDG_PER_EL(blk_id_ndx);
    dnfpe = DIM_NUM_FAC_PER_EL(blk_id_ndx);
    dnape = DIM_NUM_ATT_IN_BLK(blk_id_ndx);
    vblkatt = VAR_ATTRIB(blk_id_ndx);
    vattnam = VAR_NAME_ATTRIB(blk_id_ndx);
    vnodcon = VAR_CONN(blk_id_ndx);
    vnpecnt = VAR_EBEPEC(blk_id_ndx);
    vedgcon = VAR_ECONN(blk_id_ndx);
    vfaccon = VAR_FCONN(blk_id_ndx);
    break;
  default:
    exerrval = 1005;
    sprintf(errmsg,
            "Internal Error: unrecognized block type in switch: %d in file id %d",
            blk_type,exoid);
    ex_err("ex_put_block",errmsg,EX_MSG);
    return (EX_FATAL);              /* number of attributes not defined */
  }
  /* define some dimensions and variables*/

  if ((status = nc_def_dim(exoid,dneblk,num_entries_this_blk, &numblkdim )) != NC_NOERR) {
    if (status == NC_ENAMEINUSE) {        /* duplicate entry */
      exerrval = status;
      sprintf(errmsg,
              "Error: %s %d already defined in file id %d",
              ex_name_of_object(blk_type), blk_id,exoid);
      ex_err("ex_put_block",errmsg,exerrval);
    } else {
      exerrval = status;
      sprintf(errmsg,
              "Error: failed to define number of entities/block for %s %d file id %d",
              ex_name_of_object(blk_type), blk_id,exoid);
      ex_err("ex_put_block",errmsg,exerrval);
    }
    goto error_ret;         /* exit define mode and return */
  }

  if ( dnnpe && num_nodes_per_entry > 0) {
    /* A nfaced block would not have any nodes defined... */
    if ((status = nc_def_dim(exoid,dnnpe,num_nodes_per_entry, &nnodperentdim)) != NC_NOERR) {
      exerrval = status;
      sprintf(errmsg,
              "Error: failed to define number of nodes/entity for %s %d in file id %d",
              ex_name_of_object(blk_type), blk_id,exoid);
      ex_err("ex_put_block",errmsg,exerrval);
      goto error_ret;         /* exit define mode and return */
    }
  }

  if (dnepe && num_edges_per_entry > 0 ) {
    if ((status = nc_def_dim (exoid,dnepe,num_edges_per_entry, &nedgperentdim)) != NC_NOERR) {
      exerrval = status;
      sprintf(errmsg,
              "Error: failed to define number of edges/entity for %s %d in file id %d",
              ex_name_of_object(blk_type), blk_id,exoid);
      ex_err("ex_put_block",errmsg,exerrval);
      goto error_ret;         /* exit define mode and return */
    }
  }

  if ( dnfpe && num_faces_per_entry > 0 ) {
    if ((status = nc_def_dim(exoid,dnfpe,num_faces_per_entry, &nfacperentdim)) != NC_NOERR) {
      exerrval = status;
      sprintf(errmsg,
              "Error: failed to define number of faces/entity for %s %d in file id %d",
              ex_name_of_object(blk_type), blk_id,exoid);
      ex_err("ex_put_block",errmsg,exerrval);
      goto error_ret;         /* exit define mode and return */
    }
  }

  /* element attribute array */
  if (num_attr_per_entry > 0) {

    if ((status = nc_def_dim(exoid, dnape, num_attr_per_entry, &numattrdim)) != NC_NOERR) {
      exerrval = status;
      sprintf(errmsg,
              "Error: failed to define number of attributes in %s %d in file id %d",
              ex_name_of_object(blk_type), blk_id,exoid);
      ex_err("ex_put_block",errmsg,exerrval);
      goto error_ret;         /* exit define mode and return */
    }

    dims[0] = numblkdim;
    dims[1] = numattrdim;

    if ((status = nc_def_var(exoid, vblkatt, nc_flt_code(exoid), 2, dims, &varid)) != NC_NOERR) {
      exerrval = status;
      sprintf(errmsg,
              "Error:  failed to define attributes for %s %d in file id %d",
              ex_name_of_object(blk_type), blk_id,exoid);
      ex_err("ex_put_block",errmsg,exerrval);
      goto error_ret;         /* exit define mode and return */
    }

    /* inquire previously defined dimensions  */
    if ((status = nc_inq_dimid(exoid, DIM_STR, &strdim)) != NC_NOERR) {
      exerrval = status;
      sprintf(errmsg,
              "Error: failed to get string length in file id %d",exoid);
      ex_err("ex_put_block",errmsg,exerrval);
      return (EX_FATAL);
    }
     
    /* Attribute names... */
    dims[0] = numattrdim;
    dims[1] = strdim;
            
    if ((status = nc_def_var(exoid, vattnam, NC_CHAR, 2, dims, &varid)) != NC_NOERR) {
      exerrval = status;
      sprintf(errmsg,
              "Error: failed to define %s attribute name array in file id %d",
              ex_name_of_object(blk_type), exoid);
      ex_err("ex_put_block",errmsg,exerrval);
      goto error_ret;         /* exit define mode and return */
    }
  }

  /* See if storing an 'nsided' element block (arbitrary 2d polyhedra or super element) */
  if (strlen(entry_descrip) >= 3) {
    if ((entry_descrip[0] == 'n' || entry_descrip[0] == 'N') &&
        (entry_descrip[1] == 's' || entry_descrip[1] == 'S') &&
        (entry_descrip[2] == 'i' || entry_descrip[2] == 'I'))
      arbitrary_polyhedra = 1;
    else if ((entry_descrip[0] == 'n' || entry_descrip[0] == 'N') &&
             (entry_descrip[1] == 'f' || entry_descrip[1] == 'F') &&
             (entry_descrip[2] == 'a' || entry_descrip[2] == 'A'))
      /* If a FACE_BLOCK, then we are dealing with the faces of the nfaced block. */
      arbitrary_polyhedra = blk_type == EX_FACE_BLOCK ? 1 : 2;
  }

  /* element connectivity array */
  if (arbitrary_polyhedra > 0) {
    if (blk_type != EX_FACE_BLOCK && blk_type != EX_ELEM_BLOCK) {
      exerrval = EX_BADPARAM;
      sprintf( errmsg, "Error: Bad block type (%d) for nsided/nfaced block in file id %d",
               blk_type, exoid );
      ex_err( "ex_put_block", errmsg, exerrval );
      return (EX_FATAL);
    }

    if (arbitrary_polyhedra == 1) {
      dims[0] = nnodperentdim;
      vconn = vnodcon;

      /* store entity types as attribute of npeid variable -- node/elem, node/face, face/elem*/
      strcpy(entity_type1, "NODE");
      if (blk_type == EX_ELEM_BLOCK)
        strcpy(entity_type2, "ELEM");
      else
        strcpy(entity_type2, "FACE");
    } else if (arbitrary_polyhedra == 2) {
      dims[0] = nfacperentdim;
      vconn = vfaccon;

      /* store entity types as attribute of npeid variable -- node/elem, node/face, face/elem*/
      strcpy(entity_type1, "FACE");
      strcpy(entity_type2, "ELEM");
    }

    if ((status = nc_def_var(exoid, vconn, NC_INT, 1, dims, &connid)) != NC_NOERR) {
      exerrval = status;
      sprintf(errmsg,
              "Error: failed to create connectivity array for %s %d in file id %d",
              ex_name_of_object(blk_type), blk_id,exoid);
      ex_err("ex_put_block",errmsg,exerrval);
      goto error_ret;         /* exit define mode and return */
    }
    
    /* element face-per-element or node-per-element count array */
    dims[0] = numblkdim;
    
    if ((status = nc_def_var(exoid, vnpecnt, NC_INT, 1, dims, &npeid)) != NC_NOERR) {
      exerrval = status;
      sprintf(errmsg,
              "Error: failed to create face- or node- per-entity count array for %s %d in file id %d",
              ex_name_of_object(blk_type), blk_id, exoid);
      ex_err("ex_put_block",errmsg,exerrval);
      goto error_ret;         /* exit define mode and return */
    }

    if ((status = nc_put_att_text(exoid, npeid, "entity_type1", strlen(entity_type1)+1,
                                  entity_type1)) != NC_NOERR) {
      exerrval = status;
      sprintf(errmsg,
              "Error: failed to store entity type attribute text for %s %d in file id %d",
              ex_name_of_object(blk_type), blk_id, exoid);
      ex_err("ex_put_block",errmsg,exerrval);
      goto error_ret;         /* exit define mode and return */
    }
    if ((status = nc_put_att_text(exoid, npeid, "entity_type2", strlen(entity_type2)+1,
                                  entity_type2)) != NC_NOERR) {
      exerrval = status;
      sprintf(errmsg,
              "Error: failed to store entity type attribute text for %s %d in file id %d",
              ex_name_of_object(blk_type), blk_id, exoid);
      ex_err("ex_put_block",errmsg,exerrval);
      goto error_ret;         /* exit define mode and return */
    }
  } else {
    /* "Normal" (non-polyhedra) element block type */
    dims[0] = numblkdim;
    dims[1] = nnodperentdim;
    
    if ((status = nc_def_var(exoid, vnodcon, NC_INT, 2, dims, &connid)) != NC_NOERR) {
      exerrval = status;
      sprintf(errmsg,
              "Error: failed to create connectivity array for %s %d in file id %d",
              ex_name_of_object(blk_type), blk_id,exoid);
      ex_err("ex_put_block",errmsg,exerrval);
      goto error_ret;         /* exit define mode and return */
    }
  }
  /* store element type as attribute of connectivity variable */
  if ((status = nc_put_att_text(exoid, connid, ATT_NAME_ELB, strlen(entry_descrip)+1, 
                                entry_descrip)) != NC_NOERR) {
    exerrval = status;
    sprintf(errmsg,
            "Error: failed to store %s type name %s in file id %d",
            ex_name_of_object(blk_type), entry_descrip,exoid);
    ex_err("ex_put_block",errmsg,exerrval);
    goto error_ret;         /* exit define mode and return */
  }

  if (arbitrary_polyhedra == 0) {
    if (vedgcon && num_edges_per_entry ) {
      dims[0] = numblkdim;
      dims[1] = nedgperentdim;
      
      if ((status = nc_def_var(exoid, vedgcon, NC_INT, 2, dims, &varid)) != NC_NOERR) {
        exerrval = status;
        sprintf(errmsg,
                "Error: failed to create edge connectivity array for %s %d in file id %d",
                ex_name_of_object(blk_type), blk_id,exoid);
        ex_err("ex_put_block",errmsg,exerrval);
        goto error_ret;         /* exit define mode and return */
      }
    }
    
    if ( vfaccon && num_faces_per_entry ) {
      dims[0] = numblkdim;
      dims[1] = nfacperentdim;
      
      if ((status = nc_def_var(exoid, vfaccon, NC_INT, 2, dims, &varid)) != NC_NOERR) {
        exerrval = status;
        sprintf(errmsg,
                "Error: failed to create face connectivity array for %s %d in file id %d",
                ex_name_of_object(blk_type), blk_id,exoid);
        ex_err("ex_put_block",errmsg,exerrval);
        goto error_ret;         /* exit define mode and return */
      }
    }
  }
  /* leave define mode  */

  if ((exerrval=nc_enddef (exoid)) != NC_NOERR) {
    sprintf(errmsg,
            "Error: failed to complete %s definition in file id %d", 
            ex_name_of_object(blk_type), exoid);
    ex_err("ex_put_block",errmsg,exerrval);
    return (EX_FATAL);
  }

  return (EX_NOERR);

  /* Fatal error: exit definition mode and return */
 error_ret:
  if (nc_enddef (exoid) != NC_NOERR) {    /* exit define mode */
    sprintf(errmsg,
            "Error: failed to complete definition for file id %d",
            exoid);
    ex_err("ex_put_block",errmsg,exerrval);
  }
  return (EX_FATAL);
}
Exemple #17
0
int ex_put_block( int         exoid,
                  int         blk_type,
                  int         blk_id,
                  const char* entry_descrip,
                  int         num_entries_this_blk,
                  int         num_nodes_per_entry,
                  int         num_edges_per_entry,
                  int         num_faces_per_entry,
                  int         num_attr_per_entry )
{
   int varid, dimid, dims[2], blk_id_ndx, blk_stat, strdim;
   long start[2], num_blk;
   nclong ldum;
   int cur_num_blk, numblkdim, numattrdim;
   int nnodperentdim, nedgperentdim = -1, nfacperentdim = -1;
   int connid, econnid, fconnid;
   char *cdum;
   char errmsg[MAX_ERR_LENGTH];
   const char* tname;
   const char* dnumblk;
   const char* vblkids;
   const char* vblksta;
   const char* vnodcon = 0;
   const char* vedgcon = 0;
   const char* vfaccon = 0;
   const char* vattnam = 0;
   const char* vblkatt = 0;
   const char* dneblk = 0;
   const char* dnape = 0;
   const char* dnnpe = 0;
   const char* dnepe = 0;
   const char* dnfpe = 0;
   struct list_item** ctr_list;

   exerrval  = 0; /* clear error code */

   cdum = 0;

   switch (blk_type) {
   case EX_EDGE_BLOCK:
     tname = "edge";
     dnumblk = DIM_NUM_ED_BLK;
     vblkids = VAR_ID_ED_BLK;
     vblksta = VAR_STAT_ED_BLK;
     ctr_list = &ed_ctr_list;
     break;
   case EX_FACE_BLOCK:
     tname = "face";
     dnumblk = DIM_NUM_FA_BLK;
     vblkids = VAR_ID_FA_BLK;
     vblksta = VAR_STAT_FA_BLK;
     ctr_list = &fa_ctr_list;
     break;
   case EX_ELEM_BLOCK:
     tname = "element";
     dnumblk = DIM_NUM_EL_BLK;
     vblkids = VAR_ID_EL_BLK;
     vblksta = VAR_STAT_EL_BLK;
     ctr_list = &eb_ctr_list;
     break;
   default:
     exerrval = EX_BADPARAM;
     sprintf( errmsg, "Error: Bad block type (%d) specified for file id %d",
       blk_type, exoid );
     ex_err( "ex_put_block", errmsg, exerrval );
     return (EX_FATAL);
   }

/* first check if any element blocks are specified */

   if ((dimid = (ncdimid (exoid, dnumblk))) == -1 )
   {
     exerrval = ncerr;
     sprintf(errmsg,
            "Error: no element blocks defined in file id %d",
             exoid);
     ex_err("ex_put_elem_block",errmsg,exerrval);
     return (EX_FATAL);
   }

/* Get number of element blocks defined for this file */
   if ((ncdiminq (exoid,dimid,cdum,&num_blk)) == -1)
   {
     exerrval = ncerr;
     sprintf(errmsg,
            "Error: failed to get number of element blocks in file id %d",
             exoid);
     ex_err("ex_put_elem_block",errmsg,exerrval);
     return (EX_FATAL);
   }

/* Next: Make sure that this is not a duplicate element block id by
         searching the vblkids array.
   WARNING: This must be done outside of define mode because id_lkup accesses
            the database to determine the position
*/

   if ((varid = ncvarid (exoid, vblkids)) == -1)
   {
     exerrval = ncerr;
     sprintf(errmsg,
            "Error: failed to locate element block ids in file id %d", exoid);
     ex_err("ex_put_elem_block",errmsg,exerrval);

   }

   blk_id_ndx = ex_id_lkup(exoid,vblkids,blk_id);
   if (exerrval != EX_LOOKUPFAIL)   /* found the element block id */
   {
     exerrval = EX_FATAL;
     sprintf(errmsg,
            "Error: element block id %d already exists in file id %d",
             blk_id,exoid);
     ex_err("ex_put_elem_block",errmsg,exerrval);
     return (EX_FATAL);
   }

/* Keep track of the total number of element blocks defined using a counter 
   stored in a linked list keyed by exoid.
   NOTE: ex_get_file_item  is a function that finds the number of element 
         blocks for a specific file and returns that value incremented.
*/
   cur_num_blk=ex_get_file_item(exoid, ctr_list);
   if (cur_num_blk >= num_blk)
   {
     exerrval = EX_FATAL;
     sprintf(errmsg,
          "Error: exceeded number of element blocks (%ld) defined in file id %d",
             num_blk,exoid);
     ex_err("ex_put_elem_block",errmsg,exerrval);
     return (EX_FATAL);
   }


/*   NOTE: ex_get_file_item  is a function that finds the number of element
         blocks for a specific file and returns that value incremented. */

   cur_num_blk=ex_inc_file_item(exoid, ctr_list);
   start[0] = (long)cur_num_blk;

/* write out element block id to previously defined id array variable*/

   ldum = (nclong)blk_id;
   if (ncvarput1 (exoid, varid, start, &ldum) == -1)
   {
     exerrval = ncerr;
     sprintf(errmsg,
            "Error: failed to store element block id to file id %d",
             exoid);
     ex_err("ex_put_elem_block",errmsg,exerrval);
     return (EX_FATAL);
   }

   blk_id_ndx = start[0]+1; /* element id index into vblkids array*/

   if (num_entries_this_blk == 0) /* Is this a NULL element block? */
     blk_stat = 0; /* change element block status to NULL */
   else
     blk_stat = 1; /* change element block status to TRUE */

   if ((varid = ncvarid (exoid, vblksta)) == -1)
   {
     exerrval = ncerr;
     sprintf(errmsg,
           "Error: failed to locate element block status in file id %d", exoid);
     ex_err("ex_put_elem_block",errmsg,exerrval);
     return (EX_FATAL);
   }

   ldum = (nclong)blk_stat;
   if (ncvarput1 (exoid, varid, start, &ldum) == -1)
   {
     exerrval = ncerr;
     sprintf(errmsg,
            "Error: failed to store element id %d status to file id %d",
             blk_id, exoid);
     ex_err("ex_put_elem_block",errmsg,exerrval);
     return (EX_FATAL);
   }

   if (num_entries_this_blk == 0) /* Is this a NULL element block? */
   {
     return(EX_NOERR);
   }


   /*
    * Check that storage required for connectivity array is less
    * than 2GB which is maximum size permitted by netcdf
    * (in large file mode). 1<<29 == max number of integer items.
    */
   if (num_entries_this_blk * num_nodes_per_entry  > (1<<29)) {
     exerrval = EX_BADPARAM;
     sprintf(errmsg,
             "Error: Size to store connectivity for element block %d exceeds 2GB in file id %d",
             blk_id, exoid);
     ex_err("ex_put_elem_block",errmsg,exerrval);
     return (EX_FATAL);
   }

   /* put netcdf file into define mode  */
   if (ncredef (exoid) == -1)
   {
     exerrval = ncerr;
     sprintf(errmsg,"Error: failed to place file id %d into define mode",exoid);
     ex_err("ex_put_elem_block",errmsg,exerrval);
     return (EX_FATAL);
   }


   switch (blk_type) {
   case EX_EDGE_BLOCK:
     dneblk = DIM_NUM_ED_IN_EBLK(blk_id_ndx);
     dnnpe = DIM_NUM_NOD_PER_ED(blk_id_ndx);
     dnepe = 0;
     dnfpe = 0;
     dnape = DIM_NUM_ATT_IN_EBLK(blk_id_ndx);
     vblkatt = VAR_EATTRIB(blk_id_ndx);
     vattnam = VAR_NAME_EATTRIB(blk_id_ndx);
     vnodcon = VAR_EBCONN(blk_id_ndx);
     vedgcon = 0;
     vfaccon = 0;
     break;
   case EX_FACE_BLOCK:
     dneblk = DIM_NUM_FA_IN_FBLK(blk_id_ndx);
     dnnpe = DIM_NUM_NOD_PER_FA(blk_id_ndx);
     dnepe = 0;
     dnfpe = 0;
     dnape = DIM_NUM_ATT_IN_FBLK(blk_id_ndx);
     vblkatt = VAR_FATTRIB(blk_id_ndx);
     vattnam = VAR_NAME_FATTRIB(blk_id_ndx);
     vnodcon = VAR_FBCONN(blk_id_ndx);
     vedgcon = 0;
     vfaccon = 0;
     break;
   case EX_ELEM_BLOCK:
     dneblk = DIM_NUM_EL_IN_BLK(blk_id_ndx);
     dnnpe = DIM_NUM_NOD_PER_EL(blk_id_ndx);
     dnepe = DIM_NUM_EDG_PER_EL(blk_id_ndx);
     dnfpe = DIM_NUM_FAC_PER_EL(blk_id_ndx);
     dnape = DIM_NUM_ATT_IN_BLK(blk_id_ndx);
     vblkatt = VAR_ATTRIB(blk_id_ndx);
     vattnam = VAR_NAME_ATTRIB(blk_id_ndx);
     vnodcon = VAR_CONN(blk_id_ndx);
     vedgcon = VAR_ECONN(blk_id_ndx);
     vfaccon = VAR_FCONN(blk_id_ndx);
     break;
   }
/* define some dimensions and variables*/

   if ((numblkdim = ncdimdef (exoid,dneblk,(long)num_entries_this_blk)) == -1)
   {
     if (ncerr == NC_ENAMEINUSE)        /* duplicate entry */
     {
       exerrval = ncerr;
       sprintf(errmsg,
             "Error: element block %d already defined in file id %d",
              blk_id,exoid);
       ex_err("ex_put_elem_block",errmsg,exerrval);
     }
     else
     {
       exerrval = ncerr;
       sprintf(errmsg,
    "Error: failed to define number of elements/block for block %d file id %d",
              blk_id,exoid);
       ex_err("ex_put_elem_block",errmsg,exerrval);
     }
     goto error_ret;         /* exit define mode and return */
   }

   if ((nnodperentdim = ncdimdef (exoid,dnnpe,(long)num_nodes_per_entry)) == -1)
   {
     exerrval = ncerr;
     sprintf(errmsg,
   "Error: failed to define number of nodes/element for block %d in file id %d",
             blk_id,exoid);
     ex_err("ex_put_elem_block",errmsg,exerrval);
     goto error_ret;         /* exit define mode and return */
   }

   if ( dnepe && num_edges_per_entry > 0 ) {
     if ((nedgperentdim = ncdimdef (exoid,dnepe,(long)num_edges_per_entry)) == -1) {
       exerrval = ncerr;
       sprintf(errmsg,
         "Error: failed to define number of edges/element for block %d in file id %d",
         blk_id,exoid);
       ex_err("ex_put_elem_block",errmsg,exerrval);
       goto error_ret;         /* exit define mode and return */
     }
   }

   if ( dnfpe && num_faces_per_entry > 0 ) {
     if ((nfacperentdim = ncdimdef (exoid,dnfpe,(long)num_faces_per_entry)) == -1) {
       exerrval = ncerr;
       sprintf(errmsg,
         "Error: failed to define number of faces/element for block %d in file id %d",
         blk_id,exoid);
       ex_err("ex_put_elem_block",errmsg,exerrval);
       goto error_ret;         /* exit define mode and return */
     }
   }

/* element attribute array */

   if (num_attr_per_entry > 0)
   {

     if ((numattrdim = ncdimdef (exoid, dnape, (long)num_attr_per_entry)) == -1)
     {
       exerrval = ncerr;
       sprintf(errmsg,
      "Error: failed to define number of attributes in block %d in file id %d",
               blk_id,exoid);
       ex_err("ex_put_elem_block",errmsg,exerrval);
       goto error_ret;         /* exit define mode and return */
     }

     dims[0] = numblkdim;
     dims[1] = numattrdim;

     if ((ncvardef (exoid, vblkatt, nc_flt_code(exoid), 2, dims)) == -1)
     {
       exerrval = ncerr;
       sprintf(errmsg,
       "Error:  failed to define attributes for element block %d in file id %d",
               blk_id,exoid);
       ex_err("ex_put_elem_block",errmsg,exerrval);
       goto error_ret;         /* exit define mode and return */
     }

     /* inquire previously defined dimensions  */
     if ((strdim = ncdimid (exoid, DIM_STR)) < 0) {
       exerrval = ncerr;
       sprintf(errmsg,
         "Error: failed to get string length in file id %d",exoid);
       ex_err("ex_put_elem_block",errmsg,exerrval);
       return (EX_FATAL);
     }
     
     /* Attribute names... */
     dims[0] = numattrdim;
     dims[1] = strdim;
      
     if (ncvardef (exoid, vattnam, NC_CHAR, 2, dims) == -1) {
       exerrval = ncerr;
       sprintf(errmsg,
         "Error: failed to define element attribute name array in file id %d",exoid);
       ex_err("ex_put_elem_block",errmsg,exerrval);
       goto error_ret;         /* exit define mode and return */
     }
     
   }

/* element connectivity array */

   dims[0] = numblkdim;
   dims[1] = nnodperentdim;

   if ((connid = ncvardef (exoid, vnodcon, NC_LONG, 2, dims)) == -1)
   {
     exerrval = ncerr;
     sprintf(errmsg,
        "Error: failed to create connectivity array for block %d in file id %d",
             blk_id,exoid);
     ex_err("ex_put_elem_block",errmsg,exerrval);
     goto error_ret;         /* exit define mode and return */
   }

/* store element type as attribute of connectivity variable */

   if ((ncattput (exoid, connid, ATT_NAME_ELB, NC_CHAR, strlen(entry_descrip)+1, 
             (void*) entry_descrip)) == -1)
   {
     exerrval = ncerr;
     sprintf(errmsg,
            "Error: failed to store element type name %s in file id %d",
             entry_descrip,exoid);
     ex_err("ex_put_elem_block",errmsg,exerrval);
     goto error_ret;         /* exit define mode and return */
   }

   if ( vedgcon && num_edges_per_entry ) {
     dims[0] = numblkdim;
     dims[1] = nedgperentdim;

     if ((econnid = ncvardef (exoid, vedgcon, NC_LONG, 2, dims)) == -1) {
       exerrval = ncerr;
       sprintf(errmsg,
         "Error: failed to create edge connectivity array for block %d in file id %d",
         blk_id,exoid);
       ex_err("ex_put_elem_block",errmsg,exerrval);
       goto error_ret;         /* exit define mode and return */
     }
   }

   if ( vfaccon && num_faces_per_entry ) {
     dims[0] = numblkdim;
     dims[1] = nfacperentdim;

     if ((fconnid = ncvardef (exoid, vfaccon, NC_LONG, 2, dims)) == -1) {
       exerrval = ncerr;
       sprintf(errmsg,
         "Error: failed to create face connectivity array for block %d in file id %d",
         blk_id,exoid);
       ex_err("ex_put_elem_block",errmsg,exerrval);
       goto error_ret;         /* exit define mode and return */
     }
   }

/* leave define mode  */

   if (ncendef (exoid) == -1)
   {
     exerrval = ncerr;
     sprintf(errmsg,
       "Error: failed to complete element block definition in file id %d", 
        exoid);
     ex_err("ex_put_elem_block",errmsg,exerrval);
     return (EX_FATAL);
   }

   return (EX_NOERR);

/* Fatal error: exit definition mode and return */
error_ret:
       if (ncendef (exoid) == -1)     /* exit define mode */
       {
         sprintf(errmsg,
                "Error: failed to complete definition for file id %d",
                 exoid);
         ex_err("ex_put_elem_block",errmsg,exerrval);
       }
       return (EX_FATAL);
}
Exemple #18
0
int ex_put_truth_table (int  exoid,
			ex_entity_type obj_type,
			int  num_blk,
			int  num_var,
			int *var_tab)
{
  int numelblkdim, numelvardim, timedim, dims[2], varid;
  char *sta_type, *tab_type;
  size_t num_entity = 0;
  size_t num_var_db = 0;
  int *stat_vals;
  int i, j, k;
  int status;
  char errmsg[MAX_ERR_LENGTH];
  const char* routine = "ex_put_truth_table";
  
  /*
   * The ent_type and the var_name are used to build the netcdf
   * variables name.  Normally this is done via a macro defined in
   * exodusII_int.h
   */
  const char* ent_type = NULL;
  const char* var_name = NULL;
  const char* ent_size = NULL;
  exerrval = 0; /* clear error code */
   
  ex_get_dimension(exoid, ex_dim_num_objects(obj_type),
		   ex_name_of_object(obj_type), &num_entity, &numelblkdim, routine);

  if (obj_type == EX_ELEM_BLOCK) {
    ex_get_dimension(exoid, DIM_NUM_ELE_VAR,  "element variables",
		     &num_var_db, &numelvardim, routine);
    var_name = "vals_elem_var";
    ent_type = "eb";
    ent_size = "num_el_in_blk";
    sta_type = VAR_STAT_EL_BLK;
    tab_type = VAR_ELEM_TAB;
  }
  else if (obj_type == EX_EDGE_BLOCK) {
    ex_get_dimension(exoid, DIM_NUM_EDG_VAR, "edge block variables",
		     &num_var_db, &numelvardim, routine);
    var_name = "vals_edge_var";
    ent_type = "eb";
    ent_size = "num_ed_in_blk";
    sta_type = VAR_STAT_ED_BLK;
    tab_type = VAR_EBLK_TAB;
  }
  else if (obj_type  == EX_FACE_BLOCK) {
    ex_get_dimension(exoid, DIM_NUM_FAC_VAR, "face block variables",
		     &num_var_db, &numelvardim, routine);
    var_name = "vals_face_var";
    ent_type = "fb";
    ent_size = "num_fa_in_blk";
    sta_type = VAR_STAT_FA_BLK;
    tab_type = VAR_FBLK_TAB;
  }
  else if (obj_type == EX_SIDE_SET) {
    ex_get_dimension(exoid, DIM_NUM_SSET_VAR, "sideset variables",
		     &num_var_db, &numelvardim, routine);
    var_name = "vals_sset_var";
    ent_type = "ss";
    ent_size = "num_side_ss";
    sta_type = VAR_SS_STAT;
    tab_type = VAR_SSET_TAB;
  }
  else if (obj_type == EX_NODE_SET) {
    ex_get_dimension(exoid, DIM_NUM_NSET_VAR, "nodeset variables",
		     &num_var_db, &numelvardim, routine);
    var_name = "vals_nset_var";
    ent_type = "ns";
    ent_size = "num_nod_ns";
    sta_type = VAR_NS_STAT;
    tab_type = VAR_NSET_TAB;
  }
  else if (obj_type == EX_EDGE_SET) {
    ex_get_dimension(exoid, DIM_NUM_ESET_VAR, "edge set variables",
		     &num_var_db, &numelvardim, routine);
    var_name = "vals_eset_var";
    ent_type = "es";
    ent_size = "num_edge_es";
    sta_type = VAR_ES_STAT;
    tab_type = VAR_ESET_TAB;
  }
  else if (obj_type == EX_FACE_SET) {
    ex_get_dimension(exoid, DIM_NUM_FSET_VAR, "face set variables",
		     &num_var_db, &numelvardim, routine);
    var_name = "vals_fset_var";
    ent_type = "fs";
    ent_size = "num_face_fs";
    sta_type = VAR_FS_STAT;
    tab_type = VAR_FSET_TAB;
  }
  else if (obj_type == EX_ELEM_SET) {
    ex_get_dimension(exoid, DIM_NUM_ELSET_VAR, "element set variables",
		     &num_var_db, &numelvardim, routine);
    var_name = "vals_elset_var";
    ent_type = "es";
    ent_size = "num_ele_els";
    sta_type = VAR_ELS_STAT;
    tab_type = VAR_ELSET_TAB;
  }

  else {       /* invalid variable type */
    exerrval = EX_BADPARAM;
    sprintf(errmsg,
	    "Error: Invalid variable type %d specified in file id %d",
	    obj_type, exoid);
    ex_err("ex_get_varid",errmsg,exerrval);
    return (EX_WARN);
  }
       
  if ((int)num_entity != num_blk) {
    exerrval = EX_FATAL;
    sprintf(errmsg,
	    "Error: # of %s doesn't match those defined in file id %d",
	    ex_name_of_object(obj_type), exoid);
    ex_err("ex_get_var_tab",errmsg,exerrval);
    return (EX_FATAL);
  }

  if ((int)num_var_db != num_var) {
    exerrval = EX_FATAL;
    sprintf(errmsg,
	    "Error: # of %s variables doesn't match those defined in file id %d",
	    ex_name_of_object(obj_type), exoid);
    ex_err("ex_get_var_tab",errmsg,exerrval);
    return (EX_FATAL);
  }

  /* Get status array for later use */
  if (!(stat_vals = malloc(num_blk*sizeof(int)))) {
    exerrval = EX_MEMFAIL;
    sprintf(errmsg,
	    "Error: failed to allocate memory for %s status array for file id %d",
            ex_name_of_object(obj_type), exoid);
    ex_err(routine,errmsg,exerrval);
    return (EX_FATAL);
  }

  status = nc_inq_varid (exoid, sta_type, &varid);

  /* get variable id of status array */
  if (status == NC_NOERR) {
    /* if status array exists (V 2.01+), use it, otherwise assume
       object exists to be backward compatible */

    if ((status = nc_get_var_int (exoid, varid, stat_vals)) != NC_NOERR) {
      exerrval = status;
      free(stat_vals);
      sprintf(errmsg,
	      "Error: failed to get %s status array from file id %d",
              ex_name_of_object(obj_type), exoid);
      ex_err("put_var_tab",errmsg,exerrval);
      return (EX_FATAL);
    }
  } else {
    /* status array doesn't exist (V2.00), dummy one up for later checking */
    for(i=0;i<num_blk;i++)
      stat_vals[i] = 1;
  }

  /* put netcdf file into define mode  */
  if ((status = nc_redef (exoid)) != NC_NOERR) {
    free(stat_vals);
    exerrval = status;
    sprintf(errmsg,
            "Error: failed to put file id %d into define mode",
	    exoid);
    ex_err(routine,errmsg,exerrval);
    return (EX_FATAL);
  }

  /* inquire previously defined dimensions */
  if ((status = nc_inq_dimid (exoid, DIM_TIME, &timedim)) != NC_NOERR) {
    exerrval = status;
    free(stat_vals);
    sprintf(errmsg,
	    "Error: failed to locate time variable in file id %d",
	    exoid);
    ex_err(routine,errmsg,exerrval);
    goto error_ret;          /* exit define mode and return */
  }
  
  /* define netCDF variables in which to store EXODUS II element
   * variable values
   */

  k = 0;
  for (i=0; i<num_blk; i++) {
    for (j=1; j<=num_var; j++) {

      /* check if variables are to be put out for this entity */
      if (var_tab[k] != 0) {
	if (stat_vals[i] != 0) {/* check for NULL entity */
	  /* NOTE: This code used to zero out the var_tab entry
	     if the stat_vals[i] value was zero. However, in some
	     cases it is good to know that a variable was assigned to
	     an entity even if that entity is empty. The code was
	     changed to not modify the truth table.
	  */
	  dims[0] = timedim;
	  
	  /* Determine number of entities in block */
	  if ((status = nc_inq_dimid(exoid, ex_catstr(ent_size, (i+1)), &dims[1])) != NC_NOERR) {
	    exerrval = status;
	    free(stat_vals);
	    sprintf(errmsg,
		    "Error: failed to locate number of entities in %d'th %s in file id %d",
		    i+1, ex_name_of_object(obj_type), exoid);
	    ex_err(routine,errmsg,exerrval);
	    goto error_ret;          /* exit define mode and return */
	    }


	  /* define netCDF variable to store variable values; the j
	   * index cycles from 1 through the number of variables so
	   * that the index of the EXODUS II variable (which is part
	   * of the name of the netCDF variable) will begin at 1
	   * instead of 0
	   */

	  if ((status = nc_def_var(exoid, ex_catstr2(var_name, j, ent_type, i+1),
				  nc_flt_code(exoid), 2, dims, &varid)) != NC_NOERR) {
	    if (status != NC_ENAMEINUSE) {
	      exerrval = status;
	      free(stat_vals);
	      sprintf(errmsg,
		      "Error: failed to define variable for %d'th %s in file id %d",
		      i+1, ex_name_of_object(obj_type), exoid);
	      ex_err(routine,errmsg,exerrval);
	      goto error_ret;  /* exit define mode and return */
	    }
	    ex_compress_variable(exoid, varid, 2);
	  }
	}
      }  /* if */
      k++; /* increment element truth table pointer */
    }  /* for j */
  }  /* for i */

  free (stat_vals);

  /* create a variable array in which to store the truth table
   */

  dims[0] = numelblkdim;
  dims[1] = numelvardim;
  status = nc_def_var (exoid, tab_type, NC_INT, 2, dims, &varid);
  
  if (status != NC_NOERR) {
    exerrval = status;
    sprintf(errmsg,
	    "Error: failed to define %s variable truth table in file id %d",
	    ex_name_of_object(obj_type), exoid);
    ex_err(routine,errmsg,exerrval);
    goto error_ret;          /* exit define mode and return */
  }

  /* leave define mode  */
  if ((status = nc_enddef (exoid)) != NC_NOERR) {
    exerrval = status;
    sprintf(errmsg,
	    "Error: failed to complete definitions in file id %d",
	    exoid);
    ex_err(routine,errmsg,exerrval);
    return (EX_FATAL);
  }

  /* write out the element variable truth table */
  status = nc_put_var_int(exoid, varid, var_tab);

  if (status != NC_NOERR) {
    exerrval = status;
    sprintf(errmsg,
	    "Error: failed to store variable truth table in file id %d",
	    exoid);
    ex_err(routine,errmsg,exerrval);
    return (EX_FATAL);
  }


  return (EX_NOERR);

  /* Fatal error: exit definition mode and return */
 error_ret:
  if (nc_enddef (exoid) != NC_NOERR)     /* exit define mode */
    {
      sprintf(errmsg,
	      "Error: failed to complete definition for file id %d",
	      exoid);
      ex_err(routine,errmsg,exerrval);
    }
  return (EX_FATAL);
}
int ex_put_all_var_param_ext(int exoid, const ex_var_params *vp)
{
  int    in_define = 0;
  int    status;
  int    temp;
  int    time_dim, num_nod_dim, dimid;
  size_t num_elem_blk, num_edge_blk, num_face_blk;
  size_t num_nset, num_eset, num_fset, num_sset, num_elset;
  int    numelblkdim, numelvardim, numedvardim, numedblkdim, numfavardim, numfablkdim, numnsetdim,
      nsetvardim, numesetdim, esetvardim, numfsetdim, fsetvardim, numssetdim, ssetvardim,
      numelsetdim, elsetvardim;
  int i;

  int edblk_varid, fablk_varid, eblk_varid, nset_varid, eset_varid, fset_varid, sset_varid,
      elset_varid, varid;

  void_int *eblk_ids  = NULL;
  void_int *edblk_ids = NULL;
  void_int *fablk_ids = NULL;
  void_int *nset_ids  = NULL;
  void_int *eset_ids  = NULL;
  void_int *fset_ids  = NULL;
  void_int *sset_ids  = NULL;
  void_int *elset_ids = NULL;

  int *eblk_stat  = NULL;
  int *edblk_stat = NULL;
  int *fablk_stat = NULL;
  int *nset_stat  = NULL;
  int *eset_stat  = NULL;
  int *fset_stat  = NULL;
  int *sset_stat  = NULL;
  int *elset_stat = NULL;

  int         dims[3];
  char        errmsg[MAX_ERR_LENGTH];
  const char *routine = "ex_put_all_var_param_ext";

  ex_check_valid_file_id(exoid);

  exerrval = 0; /* clear error code */

  /* inquire previously defined dimensions  */

  if ((status = nc_inq_dimid(exoid, DIM_TIME, &time_dim)) != NC_NOERR) {
    exerrval = status;
    snprintf(errmsg, MAX_ERR_LENGTH, "ERROR: failed to locate time dimension in file id %d", exoid);
    ex_err("ex_put_all_var_param_ext", errmsg, exerrval);
    goto error_ret;
  }

  if ((status = nc_inq_dimid(exoid, DIM_NUM_NODES, &num_nod_dim)) != NC_NOERR) {
    num_nod_dim = -1; /* There is probably no nodes on this file */
  }

  /* Check this now so we can use it later without checking for errors */
  if ((status = nc_inq_dimid(exoid, DIM_STR_NAME, &temp)) != NC_NOERR) {
    exerrval = status;
    snprintf(errmsg, MAX_ERR_LENGTH, "ERROR: failed to get string length in file id %d", exoid);
    ex_err("ex_put_all_var_param_ext", errmsg, exerrval);
    goto error_ret;
  }

  EX_GET_IDS_STATUS("edge block", vp->num_edge, DIM_NUM_ED_BLK, numedblkdim, num_edge_blk,
                    edblk_ids, EX_EDGE_BLOCK, VAR_STAT_ED_BLK, edblk_stat);
  EX_GET_IDS_STATUS("face block", vp->num_face, DIM_NUM_FA_BLK, numfablkdim, num_face_blk,
                    fablk_ids, EX_FACE_BLOCK, VAR_STAT_FA_BLK, fablk_stat);
  EX_GET_IDS_STATUS("element block", vp->num_elem, DIM_NUM_EL_BLK, numelblkdim, num_elem_blk,
                    eblk_ids, EX_ELEM_BLOCK, VAR_STAT_EL_BLK, eblk_stat);
  EX_GET_IDS_STATUS("node set", vp->num_nset, DIM_NUM_NS, numnsetdim, num_nset, nset_ids,
                    EX_NODE_SET, VAR_NS_STAT, nset_stat);
  EX_GET_IDS_STATUS("edge set", vp->num_eset, DIM_NUM_ES, numesetdim, num_eset, eset_ids,
                    EX_EDGE_SET, VAR_ES_STAT, eset_stat);
  EX_GET_IDS_STATUS("face set", vp->num_fset, DIM_NUM_FS, numfsetdim, num_fset, fset_ids,
                    EX_FACE_SET, VAR_FS_STAT, fset_stat);
  EX_GET_IDS_STATUS("side set", vp->num_sset, DIM_NUM_SS, numssetdim, num_sset, sset_ids,
                    EX_SIDE_SET, VAR_SS_STAT, sset_stat);
  EX_GET_IDS_STATUS("element set", vp->num_elset, DIM_NUM_ELS, numelsetdim, num_elset, elset_ids,
                    EX_ELEM_SET, VAR_ELS_STAT, elset_stat);

  /* put file into define mode  */
  if ((status = nc_redef(exoid)) != NC_NOERR) {
    exerrval = status;
    snprintf(errmsg, MAX_ERR_LENGTH, "ERROR: failed to put file id %d into define mode", exoid);
    ex_err("ex_put_all_var_param_ext", errmsg, exerrval);
    goto error_ret;
  }
  in_define = 1;

  /* define dimensions and variables */
  if (vp->num_glob > 0) {
    if (define_dimension(exoid, DIM_NUM_GLO_VAR, vp->num_glob, "global", &dimid) != NC_NOERR) {
      goto error_ret;
    }

    dims[0] = time_dim;
    dims[1] = dimid;
    if ((status = nc_def_var(exoid, VAR_GLO_VAR, nc_flt_code(exoid), 2, dims, &varid)) !=
        NC_NOERR) {
      exerrval = status;
      snprintf(errmsg, MAX_ERR_LENGTH, "ERROR: failed to define global variables in file id %d",
               exoid);
      ex_err("ex_put_all_var_param_ext", errmsg, exerrval);
      goto error_ret; /* exit define mode and return */
    }
    ex_compress_variable(exoid, varid, 2);

    /* Now define global variable name variable */
    if (define_variable_name_variable(exoid, VAR_NAME_GLO_VAR, dimid, "global") != NC_NOERR) {
      goto error_ret;
    }
  }

  if (vp->num_node > 0) {
    /*
     * There are two ways to store the nodal variables. The old way *
     * was a blob (#times,#vars,#nodes), but that was exceeding the
     * netcdf maximum dataset size for large models. The new way is
     * to store #vars separate datasets each of size (#times,#nodes)
     *
     * We want this routine to be capable of storing both formats
     * based on some external flag.  Since the storage format of the
     * coordinates have also been changed, we key off of their
     * storage type to decide which method to use for nodal
     * variables. If the variable 'coord' is defined, then store old
     * way; otherwise store new.
     */
    if (define_dimension(exoid, DIM_NUM_NOD_VAR, vp->num_node, "nodal", &dimid) != NC_NOERR) {
      goto error_ret;
    }

    if (num_nod_dim > 0) {
      if (ex_large_model(exoid) == 0) { /* Old way */
        dims[0] = time_dim;
        dims[1] = dimid;
        dims[2] = num_nod_dim;
        if ((status = nc_def_var(exoid, VAR_NOD_VAR, nc_flt_code(exoid), 3, dims, &varid)) !=
            NC_NOERR) {
          exerrval = status;
          snprintf(errmsg, MAX_ERR_LENGTH, "ERROR: failed to define nodal variables in file id %d",
                   exoid);
          ex_err("ex_put_all_var_param_ext", errmsg, exerrval);
          goto error_ret; /* exit define mode and return */
        }
      }
      else { /* Store new way */
        for (i = 1; i <= vp->num_node; i++) {
          dims[0] = time_dim;
          dims[1] = num_nod_dim;
          if ((status = nc_def_var(exoid, VAR_NOD_VAR_NEW(i), nc_flt_code(exoid), 2, dims,
                                   &varid)) != NC_NOERR) {
            exerrval = status;
            snprintf(errmsg, MAX_ERR_LENGTH,
                     "ERROR: failed to define nodal variable %d in file id %d", i, exoid);
            ex_err("ex_put_var_param", errmsg, exerrval);
            goto error_ret; /* exit define mode and return */
          }
          ex_compress_variable(exoid, varid, 2);
        }
      }
    }

    /* Now define nodal variable name variable */
    if (define_variable_name_variable(exoid, VAR_NAME_NOD_VAR, dimid, "nodal") != NC_NOERR) {
      goto error_ret;
    }
  }

#define EX_DEFINE_VARS(TID, STNAME, TNAME, NUMVAR, DNAME, DID1, DID2, DVAL, VIDS, VNOV, VTV,       \
                       VSTATVAL, VTABVAL, VTABVAR)                                                 \
  if (NUMVAR > 0) {                                                                                \
    status = define_dimension(exoid, DNAME, NUMVAR, STNAME, &DID2);                                \
    if (status != NC_NOERR)                                                                        \
      goto error_ret;                                                                              \
                                                                                                   \
    /* Now define STNAME variable name variable */                                                 \
    if (define_variable_name_variable(exoid, VNOV, DID2, STNAME) != NC_NOERR)                      \
      goto error_ret;                                                                              \
                                                                                                   \
    if (define_truth_table(TID, exoid, DVAL, NUMVAR, VTABVAL, VSTATVAL, VIDS, TNAME) != NC_NOERR)  \
      goto error_ret;                                                                              \
                                                                                                   \
    free(VSTATVAL);                                                                                \
    VSTATVAL = NULL;                                                                               \
    free(VIDS);                                                                                    \
    VIDS = NULL;                                                                                   \
                                                                                                   \
    /* create a variable array in which to store the STNAME variable truth                         \
     * table                                                                                       \
     */                                                                                            \
                                                                                                   \
    dims[0] = DID1;                                                                                \
    dims[1] = DID2;                                                                                \
                                                                                                   \
    if ((status = nc_def_var(exoid, VTV, NC_INT, 2, dims, &VTABVAR)) != NC_NOERR) {                \
      exerrval = status;                                                                           \
      snprintf(errmsg, MAX_ERR_LENGTH,                                                             \
               "ERROR: failed to define " STNAME " variable truth table in file id %d", exoid);    \
      ex_err("ex_put_all_var_param_ext", errmsg, exerrval);                                        \
      goto error_ret; /* exit define mode and return */                                            \
    }                                                                                              \
  }
  EX_DEFINE_VARS(EX_EDGE_BLOCK, "edge", "edge block", vp->num_edge, DIM_NUM_EDG_VAR, numedblkdim,
                 numedvardim, num_edge_blk, edblk_ids, VAR_NAME_EDG_VAR, VAR_EBLK_TAB, edblk_stat,
                 vp->edge_var_tab, edblk_varid);
  EX_DEFINE_VARS(EX_FACE_BLOCK, "face", "face block", vp->num_face, DIM_NUM_FAC_VAR, numfablkdim,
                 numfavardim, num_face_blk, fablk_ids, VAR_NAME_FAC_VAR, VAR_FBLK_TAB, fablk_stat,
                 vp->face_var_tab, fablk_varid);
  EX_DEFINE_VARS(EX_ELEM_BLOCK, "element", "element block", vp->num_elem, DIM_NUM_ELE_VAR,
                 numelblkdim, numelvardim, num_elem_blk, eblk_ids, VAR_NAME_ELE_VAR, VAR_ELEM_TAB,
                 eblk_stat, vp->elem_var_tab, eblk_varid);
  EX_DEFINE_VARS(EX_NODE_SET, "nodeset", "node set", vp->num_nset, DIM_NUM_NSET_VAR, numnsetdim,
                 nsetvardim, num_nset, nset_ids, VAR_NAME_NSET_VAR, VAR_NSET_TAB, nset_stat,
                 vp->nset_var_tab, nset_varid);
  EX_DEFINE_VARS(EX_EDGE_SET, "edgeset", "edge set", vp->num_eset, DIM_NUM_ESET_VAR, numesetdim,
                 esetvardim, num_eset, eset_ids, VAR_NAME_ESET_VAR, VAR_ESET_TAB, eset_stat,
                 vp->eset_var_tab, eset_varid);
  EX_DEFINE_VARS(EX_FACE_SET, "faceset", "face set", vp->num_fset, DIM_NUM_FSET_VAR, numfsetdim,
                 fsetvardim, num_fset, fset_ids, VAR_NAME_FSET_VAR, VAR_FSET_TAB, fset_stat,
                 vp->fset_var_tab, fset_varid);
  EX_DEFINE_VARS(EX_SIDE_SET, "sideset", "side set", vp->num_sset, DIM_NUM_SSET_VAR, numssetdim,
                 ssetvardim, num_sset, sset_ids, VAR_NAME_SSET_VAR, VAR_SSET_TAB, sset_stat,
                 vp->sset_var_tab, sset_varid);
  EX_DEFINE_VARS(EX_ELEM_SET, "elemset", "element set", vp->num_elset, DIM_NUM_ELSET_VAR,
                 numelsetdim, elsetvardim, num_elset, elset_ids, VAR_NAME_ELSET_VAR, VAR_ELSET_TAB,
                 elset_stat, vp->elset_var_tab, elset_varid);

  /* leave define mode  */

  in_define = 0;
  if ((status = nc_enddef(exoid)) != NC_NOERR) {
    exerrval = status;
    snprintf(errmsg, MAX_ERR_LENGTH, "ERROR: failed to complete definition in file id %d", exoid);
    ex_err("ex_put_all_var_param_ext", errmsg, exerrval);
    goto error_ret;
  }

  /* write out the variable truth tables */
  if (vp->num_edge > 0) {
    if (put_truth_table(exoid, edblk_varid, vp->edge_var_tab, "edge") != NC_NOERR) {
      goto error_ret;
    }
  }

  if (vp->num_face > 0) {
    if (put_truth_table(exoid, fablk_varid, vp->face_var_tab, "face") != NC_NOERR) {
      goto error_ret;
    }
  }

  if (vp->num_elem > 0) {
    if (put_truth_table(exoid, eblk_varid, vp->elem_var_tab, "element") != NC_NOERR) {
      goto error_ret;
    }
  }

  if (vp->num_nset > 0) {
    if (put_truth_table(exoid, nset_varid, vp->nset_var_tab, "nodeset") != NC_NOERR) {
      goto error_ret;
    }
  }

  if (vp->num_eset > 0) {
    if (put_truth_table(exoid, eset_varid, vp->eset_var_tab, "edgeset") != NC_NOERR) {
      goto error_ret;
    }
  }

  if (vp->num_fset > 0) {
    if (put_truth_table(exoid, fset_varid, vp->fset_var_tab, "faceset") != NC_NOERR) {
      goto error_ret;
    }
  }

  if (vp->num_sset > 0) {
    if (put_truth_table(exoid, sset_varid, vp->sset_var_tab, "sideset") != NC_NOERR) {
      goto error_ret;
    }
  }

  if (vp->num_elset > 0) {
    if (put_truth_table(exoid, elset_varid, vp->elset_var_tab, "elemset") != NC_NOERR) {
      goto error_ret;
    }
  }

  return (EX_NOERR);

/* Fatal error: exit definition mode and return */
error_ret:
  if (in_define == 1) {
    if (nc_enddef(exoid) != NC_NOERR) /* exit define mode */
    {
      snprintf(errmsg, MAX_ERR_LENGTH, "ERROR: failed to complete definition for file id %d",
               exoid);
      ex_err("ex_put_all_var_param_ext", errmsg, exerrval);
    }
  }
  free(eblk_ids);
  free(edblk_ids);
  free(fablk_ids);
  free(nset_ids);
  free(eset_ids);
  free(fset_ids);
  free(sset_ids);
  free(elset_ids);

  free(eblk_stat);
  free(edblk_stat);
  free(fablk_stat);
  free(nset_stat);
  free(eset_stat);
  free(fset_stat);
  free(sset_stat);
  free(elset_stat);
  return (EX_FATAL);
}
Exemple #20
0
static int
ex_look_up_var(int exoid, ex_entity_type var_type, int var_index, ex_entity_id obj_id, 
	       const char *VOBJID, const char *VOBJTAB, const char *DNUMOBJ,
	       const char *DNUMOBJVAR, int *varid)
{
  int status;
  int obj_id_ndx;
  int dimid,time_dim, numobjdim, dims[2];

  size_t num_obj;
  size_t num_obj_var;
  size_t num_entity;

  int *obj_var_truth_tab;
  char errmsg[MAX_ERR_LENGTH];

  /* Determine index of obj_id in VOBJID array */
  obj_id_ndx = ex_id_lkup(exoid,var_type,obj_id);
  if (exerrval != 0) {
    if (exerrval == EX_NULLENTITY) {
      sprintf(errmsg,
	      "Warning: no variables allowed for NULL block %"PRId64" in file id %d",
	      obj_id,exoid);
      ex_err("ex_put_var",errmsg,EX_MSG);
      return (EX_WARN);
    }
    else {
      sprintf(errmsg,
	      "Error: failed to locate %s id %"PRId64" in %s array in file id %d",
	      ex_name_of_object(var_type), obj_id, VOBJID, exoid);
      ex_err("ex_put_var",errmsg,exerrval);
      return (EX_FATAL);
    }
  }

  if ((status = nc_inq_varid (exoid, ex_name_var_of_object(var_type, var_index, obj_id_ndx), varid)) != NC_NOERR) {
    if (status == NC_ENOTVAR) {/* variable doesn't exist, create it! */
      /* check for the existance of an TNAME variable truth table */
      if (nc_inq_varid(exoid, VOBJTAB, varid) == NC_NOERR) {
	/* find out number of TNAMEs and TNAME variables */
	status = ex_get_dimension(exoid, DNUMOBJ, ex_name_of_object(var_type), &num_obj, &dimid, "ex_put_var");
	if (status != NC_NOERR) return status;

	status = ex_get_dimension(exoid, DNUMOBJVAR, ex_name_of_object(var_type), &num_obj_var, &dimid, "ex_put_var");
	if (status != NC_NOERR) return status;

	if (!(obj_var_truth_tab = malloc(num_obj*num_obj_var*sizeof(int)))) {
	  exerrval = EX_MEMFAIL;
	  sprintf(errmsg,
		  "Error: failed to allocate memory for %s variable truth table in file id %d",
		  ex_name_of_object(var_type), exoid);
	  ex_err("ex_put_var",errmsg,exerrval);
	  return (EX_FATAL);
	}

	/*   read in the TNAME variable truth table */
	if ((status = nc_get_var_int (exoid, *varid, obj_var_truth_tab)) != NC_NOERR) {
	  exerrval = status;
	  sprintf(errmsg,
		  "Error: failed to get truth table from file id %d", exoid);
	  ex_err("ex_put_var",errmsg,exerrval);
	  return (EX_FATAL);
	}

	if(obj_var_truth_tab[num_obj_var*(obj_id_ndx-1)+var_index-1] == 0L) {
	  free(obj_var_truth_tab);
	  exerrval = EX_BADPARAM;
	  sprintf(errmsg,
		  "Error: Invalid %s variable %d, %s %"PRId64" in file id %d",
		  ex_name_of_object(var_type), var_index, ex_name_of_object(var_type), obj_id, exoid);
	  ex_err("ex_put_var",errmsg,exerrval);
	  return (EX_FATAL);
	}
	free(obj_var_truth_tab);
      }

      if ((status = nc_inq_dimid(exoid, DIM_TIME, &time_dim)) != NC_NOERR) {
	exerrval = status;
	sprintf(errmsg,
		"Error: failed to locate time dimension in file id %d", exoid);
	ex_err("ex_put_var",errmsg,exerrval);
	goto error_ret;         /* exit define mode and return */
      }

      ex_get_dimension(exoid, ex_dim_num_entries_in_object(var_type, obj_id_ndx),
		       ex_name_of_object(var_type), &num_entity, &numobjdim,  "ex_put_var");

      /*    variable doesn't exist so put file into define mode  */
      if ((status = nc_redef (exoid)) != NC_NOERR) {
	exerrval = status;
	sprintf(errmsg,
		"Error: failed to put file id %d into define mode", exoid);
	ex_err("ex_put_var",errmsg,exerrval);
	return (EX_FATAL);
      }

      /* define netCDF variable to store TNAME variable values */
      dims[0] = time_dim;
      dims[1] = numobjdim;
      if ((status = nc_def_var(exoid, ex_name_var_of_object(var_type, var_index, obj_id_ndx),
			       nc_flt_code(exoid), 2, dims, varid)) != NC_NOERR) {
	exerrval = status;
	sprintf(errmsg,
		"Error: failed to define %s variable %d in file id %d",
		ex_name_of_object(var_type), var_index,exoid);
	ex_err("ex_put_var",errmsg,exerrval);
	goto error_ret;
      }
      ex_compress_variable(exoid, *varid, 2);

      /*    leave define mode  */
      if ((status = nc_enddef (exoid)) != NC_NOERR) {
	exerrval = status;
	sprintf(errmsg,
		"Error: failed to complete %s variable %s definition to file id %d",
		ex_name_of_object(var_type), ex_name_var_of_object(var_type, var_index, obj_id_ndx), exoid);
	ex_err("ex_put_var",errmsg,exerrval);
	return (EX_FATAL);
      }
    }
    else {
      exerrval = status;
      sprintf(errmsg,
	      "Error: failed to locate %s variable %s in file id %d",
	      ex_name_of_object(var_type), ex_name_var_of_object(var_type, var_index, obj_id_ndx), exoid);
      ex_err("ex_put_var",errmsg,exerrval);
      return (EX_FATAL);
    }
  }
  return (EX_NOERR);

  /* Fatal error: exit definition mode and return */
 error_ret:
  if (nc_enddef (exoid) != NC_NOERR) {    /* exit define mode */
    sprintf(errmsg,
	    "Error: failed to complete definition for file id %d",
	    exoid);
    ex_err("ex_put_var",errmsg,exerrval);
  }
  return (EX_FATAL);
}
Exemple #21
0
/*! \internal */
int cpy_var_def(int in_id,int out_id,int rec_dim_id,char *var_nm)
/*
   int in_id: input netCDF input-file ID
   int out_id: input netCDF output-file ID
   int rec_dim_id: input input-file record dimension ID
   char *var_nm: input variable name
   int cpy_var_def(): output output-file variable ID
 */
{
  /* Routine to copy the variable metadata from an input netCDF file
   * to an output netCDF file. 
   */

  int status;
  int *dim_in_id;
  int *dim_out_id;
  int idx;
  int nbr_dim;
  int var_in_id;
  int var_out_id;

  nc_type var_type;

  /* See if the requested variable is already in the output file. */
  status = nc_inq_varid(out_id, var_nm, &var_out_id);
  if(status == NC_NOERR)
    return var_out_id;

  /* See if the requested variable is in the input file. */
  (void)nc_inq_varid(in_id, var_nm, &var_in_id);

  /* Get the type of the variable and the number of dimensions. */
  (void)nc_inq_vartype (in_id, var_in_id, &var_type);
  (void)nc_inq_varndims(in_id, var_in_id, &nbr_dim);

  /* Recall:
     1. The dimensions must be defined before the variable.
     2. The variable must be defined before the attributes. */

  /* Allocate space to hold the dimension IDs */
  dim_in_id=malloc(nbr_dim*sizeof(int)); 
  dim_out_id=malloc(nbr_dim*sizeof(int));

  /* Get the dimension IDs */
  (void)nc_inq_vardimid(in_id, var_in_id, dim_in_id);

  /* Get the dimension sizes and names */
  for(idx=0;idx<nbr_dim;idx++){
    char dim_nm[NC_MAX_NAME];
    size_t dim_sz;

    (void)nc_inq_dim(in_id, dim_in_id[idx], dim_nm, &dim_sz);

    /* See if the dimension has already been defined */
    status = nc_inq_dimid(out_id, dim_nm, &dim_out_id[idx]);

    /* If the dimension hasn't been defined, copy it */
    if (status != NC_NOERR) {
      if (dim_in_id[idx] != rec_dim_id) {
        (void)nc_def_dim(out_id, dim_nm, dim_sz, &dim_out_id[idx]);
      } else {
        (void)nc_def_dim(out_id, dim_nm, NC_UNLIMITED, &dim_out_id[idx]);
      } 
    } 
  } 

  /* Define the variable in the output file */

  /* If variable is float or double, define it according to the EXODUS
     file's IO_word_size */

  if ((var_type == NC_FLOAT) || (var_type == NC_DOUBLE)) {
    (void)nc_def_var(out_id, var_nm, nc_flt_code(out_id), nbr_dim, dim_out_id, &var_out_id);
    ex_compress_variable(out_id, var_out_id, 2);
  } else {
    (void)nc_def_var(out_id, var_nm, var_type,            nbr_dim, dim_out_id, &var_out_id);
    ex_compress_variable(out_id, var_out_id, 1);
  }

  /* Free the space holding the dimension IDs */
  (void)free(dim_in_id);
  (void)free(dim_out_id);

  return var_out_id;
} /* end cpy_var_def() */
Exemple #22
0
/*! Calculate the number of words of storage required to store the
 * header information.  Total bytes can be obtained by multiplying
 * words by 4.  Size is slightly underestimated since it only
 * considers the bulk data storage...
 */
size_t ex_header_size(int exoid)
{
  const char *routine = NULL;
  int iows = 0;
  size_t ndim = 0;
  size_t num_nodes = 0;
  size_t num_elem = 0;
  size_t num_eblk = 0;
  size_t num_map  = 0;
  size_t num_nset = 0;
  size_t num_sset = 0;
  int mapid;
  int temp;
  
  size_t size = 0;
  /* Get word size (2 = 8-byte reals, 1 = 4-byte reals */
  
  if (nc_flt_code(exoid) == NC_DOUBLE) 
    iows = 2;
  else
    iows = 1;
  
  /* coordinates = (ndim * numnp)*iows + maps  */
  ex_get_dimension(exoid, DIM_NUM_DIM,   "dimension", &ndim,      &temp, routine);
  ex_get_dimension(exoid, DIM_NUM_NODES, "nodes",     &num_nodes, &temp, routine);
  size += iows * ndim * num_nodes;

  /* node maps */
  if (nc_inq_varid(exoid, VAR_NODE_NUM_MAP, &mapid) != -1)
    size += num_nodes;

  ex_get_dimension(exoid, DIM_NUM_NM,   "node maps", &num_map, &temp, routine);
  size += num_map * num_nodes;

  /* Element Data */
  ex_get_dimension(exoid, DIM_NUM_ELEM, "elements",  &num_elem, &temp, routine);
  
  /* Element order map */
  if (nc_inq_varid (exoid, VAR_MAP, &mapid) != -1)
    size += num_elem;
   
  if (nc_inq_varid (exoid, VAR_ELEM_NUM_MAP, &mapid) != -1)
    size += num_elem;

  /* Element map(s) */
  ex_get_dimension(exoid, DIM_NUM_EM,     "element maps",   &num_map, &temp, routine);
  size += num_map * num_elem;

  /* Element Blocks... */
  ex_get_dimension(exoid, DIM_NUM_EL_BLK, "element blocks", &num_eblk, &temp, routine);
  if (num_eblk > 0) {
    /* Allocate storage for element block parameters... */
    int *ids = malloc(num_eblk * sizeof(int));
    size_t i;

    size += 2*num_eblk; /* status + ids */
    
    ex_get_ids(exoid, EX_ELEM_BLOCK, ids);
    for (i=0; i < num_eblk; i++) {
      int num_elem_this_blk = 0;
      int num_nodes_per_elem = 0;
      int num_attr = 0;
      char elem_type[MAX_STR_LENGTH+1];
      ex_get_elem_block(exoid, ids[i], elem_type, &num_elem_this_blk,
                        &num_nodes_per_elem, &num_attr);
      size += num_elem_this_blk * num_nodes_per_elem;
      size += num_elem_this_blk * num_attr * iows;
    }
    free(ids);
  }
  
  /* Nodesets */
  ex_get_dimension(exoid, DIM_NUM_NS, "nodesets", &num_nset, &temp, routine);
  if (num_nset > 0) {
    /* Allocate storage for nodeset parameters... */
    int *ids = malloc(num_nset * sizeof(int));
    size_t i;

    size += 2*num_nset; /* Status + ids */
    ex_get_ids(exoid, EX_NODE_SET, ids);
    for (i=0; i < num_nset; i++) {
      int num_nodes_in_set = 0;
      int num_df_in_set = 0;
      ex_get_node_set_param(exoid, ids[i], &num_nodes_in_set, &num_df_in_set);
      size += num_nodes_in_set;
      size += num_df_in_set * iows;
    }
    free(ids);
  }

  /* Sidesets */
  ex_get_dimension(exoid, DIM_NUM_SS, "sidesets", &num_sset, &temp, routine);
  if (num_sset > 0) {
    /* Allocate storage for sideset parameters... */
    int *ids = malloc(num_sset * sizeof(int));
    size_t i;

    size += 2*num_sset; /* Status + ids */
    ex_get_ids(exoid, EX_SIDE_SET, ids);
    for (i=0; i < num_sset; i++) {
      int num_sides_in_set = 0;
      int num_df_in_set = 0;
      ex_get_side_set_param(exoid, ids[i], &num_sides_in_set, &num_df_in_set);
      size += num_sides_in_set * 2;
      size += num_df_in_set * iows;
    }
    free(ids);
  }

  if (ex_large_model(exoid) == 0 && size > (1<<29)) {

    fprintf(stderr, "ERROR: Size to store header information exceeds 2GB in file id %d\n       File is probably corrupt, rerun with environment variable EXODUS_LARGE_MODEL set.\n", exoid);
  }
  return size;
}
Exemple #23
0
int ex_put_node_set_param (int exoid,
                           int node_set_id,
                           int num_nodes_in_set,
                           int num_dist_in_set)
{
   int dimid, varid, dims[1];
   long start[1]; 
   nclong ldum;
   long num_node_sets;
   int cur_num_node_sets, node_set_stat;
   char *cdum;
   char errmsg[MAX_ERR_LENGTH];

   exerrval = 0; /* clear error code */

   cdum = 0;

/* first check if any node sets are specified */

   if ((dimid = (ncdimid (exoid, DIM_NUM_NS))) == -1 )
   {
     exerrval = ncerr;
     sprintf(errmsg,
            "Error: no node sets specified in file id %d",
             exoid);
     ex_err("ex_put_node_set_param",errmsg,exerrval);
     return (EX_FATAL);
   }

/* Check for duplicate node set id entry */
   ex_id_lkup(exoid,VAR_NS_IDS,node_set_id);
   if (exerrval != EX_LOOKUPFAIL)   /* found the node set id */
   {
     exerrval = ncerr;
     sprintf(errmsg,
            "Error: node set %d already defined in file id %d",
             node_set_id,exoid);
     ex_err("ex_put_node_set_param",errmsg,exerrval);
     return(EX_FATAL);
   }

/* Get number of node sets initialized for this file */
   if ((ncdiminq (exoid,dimid,cdum,&num_node_sets)) == -1)
   {
     exerrval = ncerr;
     sprintf(errmsg,
            "Error: failed to get number of node sets in file id %d",
             exoid);
     ex_err("ex_put_node_set_param",errmsg,exerrval);
     return (EX_FATAL);
   }


/* Keep track of the total number of node sets defined using a counter stored
   in a linked list keyed by exoid.
   NOTE: ex_get_file_item  is used to find the number of node sets
         for a specific file and returns that value.
*/
   cur_num_node_sets=ex_get_file_item(exoid, &ns_ctr_list );
   if (cur_num_node_sets >= num_node_sets)
   {
     exerrval = EX_FATAL;
     sprintf(errmsg,
           "Error: exceeded number of node sets (%ld) specified in file id %d",
             num_node_sets,exoid);
     ex_err("ex_put_node_set_param",errmsg,exerrval);
     return (EX_FATAL);
   }

/*   NOTE: ex_inc_file_item  is used to find the number of node sets
         for a specific file and returns that value incremented. */

   cur_num_node_sets=ex_inc_file_item(exoid, &ns_ctr_list );

/* write out information to previously defined variable */

   /* first get id of variable */

   if ((varid = ncvarid (exoid, VAR_NS_IDS)) == -1)
   {
     exerrval = ncerr;
     sprintf(errmsg,
            "Error: failed to locate node set ids in file id %d",
             exoid);
     ex_err("ex_put_node_set_param",errmsg,exerrval);
     return (EX_FATAL);
   }

   /* then, write out node set id */

   start[0] = cur_num_node_sets;

   ldum = (nclong)node_set_id;
   if (ncvarput1 (exoid, varid, start, &ldum) == -1)
   {
     exerrval = ncerr;
     sprintf(errmsg,
            "Error: failed to store node set id %d in file id %d",
             node_set_id,exoid);
     ex_err("ex_put_node_set_param",errmsg,exerrval);
     return (EX_FATAL);
   }

   if (num_nodes_in_set == 0) /* Is this a NULL side set? */
     node_set_stat = 0; /* change node set status to NULL */
   else
     node_set_stat = 1; /* change node set status to TRUE */

   if ((varid = ncvarid (exoid, VAR_NS_STAT)) == -1)
   {
     exerrval = ncerr;
     sprintf(errmsg,
           "Error: failed to locate node set status in file id %d", exoid);
     ex_err("ex_put_node_set_param",errmsg,exerrval);
     return (EX_FATAL);
   }

   ldum = (nclong)node_set_stat;
   if (ncvarput1 (exoid, varid, start, &ldum) == -1)
   {
     exerrval = ncerr;
     sprintf(errmsg,
            "Error: failed to store node set %d status to file id %d",
             node_set_id, exoid);
     ex_err("ex_put_node_set_param",errmsg,exerrval);
     return (EX_FATAL);
   }

   if (num_nodes_in_set == 0) /* Is this a NULL side set? */
   {
     return(EX_NOERR);
   }


/* put netcdf file into define mode  */

   if (ncredef (exoid) == -1)
   {
     exerrval = ncerr;
     sprintf(errmsg,
            "Error: failed to put file id %d into define mode",
             exoid);
     ex_err("ex_put_node_set_param",errmsg,exerrval);
     return (EX_FATAL);
   }


   if ((dimid = ncdimdef (exoid, DIM_NUM_NOD_NS(cur_num_node_sets+1),
                 (long)num_nodes_in_set)) == -1)
   {
     if (ncerr == NC_ENAMEINUSE)
     {
       exerrval = ncerr;
       sprintf(errmsg,
              "Error: node set %d size already defined in file id %d",
               node_set_id,exoid);
       ex_err("ex_put_node_set_param",errmsg,exerrval);
     }
     else
     {
       exerrval = ncerr;
       sprintf(errmsg,
             "Error: failed to define number of nodes for set %d in file id %d",
               node_set_id,exoid);
       ex_err("ex_put_node_set_param",errmsg,exerrval);
     }
     goto error_ret;
   }


/* create variable array in which to store the node set node list */

   dims[0] = dimid;

   if (ncvardef(exoid, VAR_NODE_NS(cur_num_node_sets+1), NC_LONG,1,dims) == -1)
   {
     if (ncerr == NC_ENAMEINUSE)
     {
       exerrval = ncerr;
       sprintf(errmsg,
              "Error: node set %d node list already defined in file id %d",
               node_set_id,exoid);
       ex_err("ex_put_node_set_param",errmsg,exerrval);
     }
     else
     {
       exerrval = ncerr;
       sprintf(errmsg,
              "Error: failed to create node set %d node list in file id %d",
               node_set_id,exoid);
       ex_err("ex_put_node_set_param",errmsg,exerrval);
     }
     goto error_ret;          /* exit define mode and return */
   }

/* Create distribution factors variable if required */

   if (num_dist_in_set > 0)
   {

     /* num_dist_in_set should equal num_nodes_in_set */
     if (num_dist_in_set != num_nodes_in_set)
     {
       exerrval = EX_FATAL;
       sprintf(errmsg, 
"Error: # dist fact (%d) not equal to # nodes (%d) in node set %d file id %d",
                 num_dist_in_set, num_nodes_in_set, node_set_id,exoid);
       ex_err("ex_put_node_set_param",errmsg,exerrval);
       goto error_ret;          /* exit define mode and return */
     }
     else
     {
/* create variable for distribution factors */

       if (ncvardef (exoid, VAR_FACT_NS(cur_num_node_sets+1),
                       nc_flt_code(exoid), 1, dims) == -1)
       {
         if (ncerr == NC_ENAMEINUSE)
         {
           exerrval = ncerr;
           sprintf(errmsg,
                  "Error: node set %d dist factors already exist in file id %d",
                   node_set_id,exoid);
           ex_err("ex_put_node_set_param",errmsg,exerrval);
         }
         else
         {
           exerrval = ncerr;
           sprintf(errmsg,
               "Error: failed to create node set %d dist factors in file id %d",
                node_set_id,exoid);
           ex_err("ex_put_node_set_param",errmsg,exerrval);
         }
         goto error_ret;            /* exit define mode and return */
       }
     }
   }

/* leave define mode  */

   if (ncendef (exoid) == -1)
   {
     exerrval = ncerr;
     sprintf(errmsg,
            "Error: failed to complete definition in file id %d",
             exoid);
     ex_err("ex_put_node_set_param",errmsg,exerrval);
     return (EX_FATAL);
   }


   return (EX_NOERR);


/* Fatal error: exit definition mode and return */
error_ret:
   if (ncendef (exoid) == -1)     /* exit define mode */
   {
     sprintf(errmsg,
            "Error: failed to complete definition for file id %d",
             exoid);
     ex_err("ex_put_node_set_param",errmsg,exerrval);
   }
   return (EX_FATAL);
}
Exemple #24
0
/*!
 * writes the parameters used to describe an element block
 * \param    exoid                   exodus file id
 * \param    elem_blk_id             element block id
 * \param    elem_type               element type string
 * \param    num_elem_this_blk       number of elements in the element blk
 * \param    num_nodes_per_elem      number of nodes per element block
 * \param    num_attr                number of attributes
 * \param    define_maps             if != 0, write maps, else don't
 */
int ex_put_concat_elem_block (int    exoid,
                              const int*   elem_blk_id,
                              char *elem_type[],
                              const int*   num_elem_this_blk,
                              const int*   num_nodes_per_elem,
                              const int*   num_attr,
                              int    define_maps)
{
  int i, varid, dimid, dims[2], strdim, *eb_array;
  int temp;
  int iblk;
  int status;
  int num_elem_blk;
  size_t length;
  int cur_num_elem_blk, nelnoddim, numelbdim, numattrdim, connid, numelemdim, numnodedim;
  char errmsg[MAX_ERR_LENGTH];

  exerrval  = 0; /* clear error code */

  /* first check if any element blocks are specified
   * OK if zero...
   */
  if (nc_inq_dimid(exoid, DIM_NUM_EL_BLK, &dimid) != NC_NOERR) {
    return (EX_NOERR);
  }

  /* Get number of element blocks defined for this file */
  if ((status = nc_inq_dimlen(exoid,dimid,&length)) != NC_NOERR) {
    exerrval = status;
    sprintf(errmsg,
	    "Error: failed to get number of element blocks in file id %d",
	    exoid);
    ex_err("ex_put_concat_elem_block",errmsg,exerrval);
    return (EX_FATAL);
  }
  num_elem_blk = length;
  
  /* Fill out the element block status array */
  if (!(eb_array = malloc(num_elem_blk*sizeof(int)))) {
    exerrval = EX_MEMFAIL;
    sprintf(errmsg,
	    "Error: failed to allocate space for element block status array in file id %d",
	    exoid);
    ex_err("ex_put_concat_elem_block",errmsg,exerrval);
    return (EX_FATAL);
  }

  for (i=0;i<num_elem_blk;i++) {
    if (num_elem_this_blk[i] == 0) /* Is this a NULL element block? */
      eb_array[i] = 0; /* change element block status to NULL */
    else
      eb_array[i] = 1; /* change element block status to TRUE */
  }

  /* Next, get variable id of status array */
  if ((status = nc_inq_varid(exoid, VAR_STAT_EL_BLK, &varid)) != NC_NOERR) {
    exerrval = status;
    sprintf(errmsg,
	    "Error: failed to locate element block status in file id %d",
	    exoid);
    ex_err("ex_put_concat_elem_block",errmsg,exerrval);
    return (EX_FATAL);
  }

  status = nc_put_var_int(exoid, varid, eb_array);

  if (status != NC_NOERR) {
    exerrval = status;
    sprintf(errmsg,
	    "Error: failed to store element block status array to file id %d",
            exoid);
    ex_err("ex_put_concat_elem_block",errmsg,exerrval);
    return (EX_FATAL);
  }

  /* Next, fill out ids array */
  /* first get id of ids array variable */
  if ((status = nc_inq_varid(exoid, VAR_ID_EL_BLK, &varid)) != NC_NOERR) {
    exerrval = status;
    sprintf(errmsg,
	    "Error: failed to locate element block ids array in file id %d",
            exoid);
    ex_err("ex_put_concat_elem_block",errmsg,exerrval);
    return (EX_FATAL);
  }

  /* then, write out id list */
  status = nc_put_var_int(exoid, varid, elem_blk_id);

  if (status != NC_NOERR) {
    exerrval = status;
    sprintf(errmsg,
	    "Error: failed to store element block id array in file id %d",
            exoid);
    ex_err("ex_put_concat_elem_block",errmsg,exerrval);
    return (EX_FATAL);
  }

  /* inquire previously defined dimensions  */
  if ((status = nc_inq_dimid(exoid, DIM_STR, &strdim)) != NC_NOERR) {
    exerrval = status;
    sprintf(errmsg,
	    "Error: failed to get string length in file id %d",exoid);
    ex_err("ex_put_concat_elem_block",errmsg,exerrval);
    return (EX_FATAL);
  }

  /* put netcdf file into define mode  */
  if ((status = nc_redef (exoid)) != NC_NOERR)  {
    exerrval = status;
    sprintf(errmsg,"Error: failed to place file id %d into define mode",exoid);
    ex_err("ex_put_concat_elem_block",errmsg,exerrval);
    return (EX_FATAL);
  }

  /* Iterate over element blocks ... */
  for (iblk = 0; iblk < num_elem_blk; iblk++) {

    cur_num_elem_blk=ex_get_file_item(exoid, ex_get_counter_list(EX_ELEM_BLOCK));
    if (cur_num_elem_blk >= num_elem_blk) {
      exerrval = EX_FATAL;
      sprintf(errmsg,
	      "Error: exceeded number of element blocks (%d) defined in file id %d",
              num_elem_blk,exoid);
      ex_err("ex_put_concat_elem_block",errmsg,exerrval);
      goto error_ret;
    }

    /* NOTE: ex_inc_file_item  is used to find the number of element blocks
       for a specific file and returns that value incremented. */
    cur_num_elem_blk=ex_inc_file_item(exoid, ex_get_counter_list(EX_ELEM_BLOCK));

    if (num_elem_this_blk[iblk] == 0) /* Is this a NULL element block? */
      continue;

    /* define some dimensions and variables*/
    if ((status = nc_def_dim(exoid,
			     DIM_NUM_EL_IN_BLK(cur_num_elem_blk+1),
			     num_elem_this_blk[iblk], &numelbdim)) != NC_NOERR) {
      exerrval = status;
      if (status == NC_ENAMEINUSE) {     /* duplicate entry */
	sprintf(errmsg,
		"Error: element block %d already defined in file id %d",
		elem_blk_id[iblk],exoid);
      } else {
	sprintf(errmsg,
		"Error: failed to define number of elements/block for block %d file id %d",
		elem_blk_id[iblk],exoid);
      }
      ex_err("ex_put_concat_elem_block",errmsg,exerrval);
      goto error_ret;         /* exit define mode and return */
    }

    if ((status = nc_def_dim(exoid,
			     DIM_NUM_NOD_PER_EL(cur_num_elem_blk+1),
			     num_nodes_per_elem[iblk], &nelnoddim)) != NC_NOERR) {
      exerrval = status;
      sprintf(errmsg,
	      "Error: failed to define number of nodes/element for block %d in file id %d",
	      elem_blk_id[iblk],exoid);
      ex_err("ex_put_concat_elem_block",errmsg,exerrval);
      goto error_ret;         /* exit define mode and return */
    }

    /* element connectivity array */
    dims[0] = numelbdim;
    dims[1] = nelnoddim;

    if ((status = nc_def_var (exoid, VAR_CONN(cur_num_elem_blk+1),
			      NC_INT, 2, dims, &connid)) != NC_NOERR) {
      exerrval = status;
      sprintf(errmsg,
	      "Error: failed to create connectivity array for block %d in file id %d",
	      elem_blk_id[iblk],exoid);
      ex_err("ex_put_concat_elem_block",errmsg,exerrval);
      goto error_ret;         /* exit define mode and return */
    }

    /* store element type as attribute of connectivity variable */
    if ((status = nc_put_att_text(exoid, connid, ATT_NAME_ELB, strlen(elem_type[iblk])+1, 
				  (void*)elem_type[iblk])) != NC_NOERR) {
      exerrval = status;
      sprintf(errmsg,
	      "Error: failed to store element type name %s in file id %d",
	      elem_type[iblk],exoid);
      ex_err("ex_put_concat_elem_block",errmsg,exerrval);
      goto error_ret;         /* exit define mode and return */
    }

    /* element attribute array */
    if (num_attr[iblk] > 0) {
      if ((status = nc_def_dim (exoid, 
				DIM_NUM_ATT_IN_BLK(cur_num_elem_blk+1),
				num_attr[iblk], &numattrdim)) != NC_NOERR) {
	exerrval = status;
	sprintf(errmsg,
		"Error: failed to define number of attributes in block %d in file id %d",
		elem_blk_id[iblk],exoid);
	ex_err("ex_put_concat_elem_block",errmsg,exerrval);
	goto error_ret;         /* exit define mode and return */
      }
      
      /* Attribute names... */
      dims[0] = numattrdim;
      dims[1] = strdim;
      
      if ((status = nc_def_var(exoid, VAR_NAME_ATTRIB(cur_num_elem_blk+1),
			       NC_CHAR, 2, dims, &temp)) != NC_NOERR) {
	exerrval = status;
	sprintf(errmsg,
		"Error: failed to define element attribute name array in file id %d",exoid);
	ex_err("ex_put_concat_elem_block",errmsg,exerrval);
	goto error_ret;         /* exit define mode and return */
      }
      eb_array[iblk] = temp;

      dims[0] = numelbdim;
      dims[1] = numattrdim;
      
      if ((status = nc_def_var(exoid, VAR_ATTRIB(cur_num_elem_blk+1),
			       nc_flt_code(exoid), 2, dims, &temp)) != NC_NOERR) {
	exerrval = status;
	sprintf(errmsg,
		"Error:  failed to define attributes for element block %d in file id %d",
		elem_blk_id[iblk],exoid);
	ex_err("ex_put_concat_elem_block",errmsg,exerrval);
	goto error_ret;         /* exit define mode and return */
      }

    }
    
  }

  /* Define the element map here to avoid a later redefine call */
  if (define_maps != 0) {
    if (nc_inq_varid(exoid, VAR_ELEM_NUM_MAP, &temp) != NC_NOERR) {
      /* Map does not exist */
      /* Possible to have zero elements but >0 element blocks.
       * Only define map if there are nonzero elements
       */
      if (nc_inq_dimid(exoid, DIM_NUM_ELEM, &numelemdim) == NC_NOERR) {
	dims[0] = numelemdim;
	
	if ((status = nc_def_var(exoid, VAR_ELEM_NUM_MAP, NC_INT, 1, dims, &temp)) != NC_NOERR) {
	  exerrval = status;
	  if (status == NC_ENAMEINUSE) {
	    sprintf(errmsg,
		    "Error: element numbering map already exists in file id %d",
		    exoid);
	  } else {
	    sprintf(errmsg,
		    "Error: failed to create element numbering map in file id %d",
		    exoid);
	  }
	  ex_err("ex_put_concat_elem_block",errmsg,exerrval);
	  goto error_ret;         /* exit define mode and return */
	}
      }
    }

    /* Do the same for the node numbering map */
    if (nc_inq_varid(exoid, VAR_NODE_NUM_MAP, &temp) != NC_NOERR) {
      /* Map does not exist */
      if ((nc_inq_dimid(exoid, DIM_NUM_NODES, &numnodedim)) == NC_NOERR) {
	dims[0] = numnodedim;
	if ((status = nc_def_var(exoid, VAR_NODE_NUM_MAP, NC_INT, 1, dims, &temp)) != NC_NOERR) {
	  exerrval = status;
	  if (status == NC_ENAMEINUSE) {
	    sprintf(errmsg,
		    "Error: node numbering map already exists in file id %d",
		    exoid);
	  } else {
	    sprintf(errmsg,
		    "Error: failed to create node numbering map array in file id %d",
		    exoid);
	  }
	  ex_err("ex_put_concat_elem_block",errmsg,exerrval);
	  goto error_ret;         /* exit define mode and return */
	}
      }
    }
  }

  /* leave define mode  */
  if ((status = nc_enddef(exoid)) != NC_NOERR) {
    exerrval = status;
    sprintf(errmsg,
	    "Error: failed to complete element block definition in file id %d", 
	    exoid);
    ex_err("ex_put_concat_elem_block",errmsg,exerrval);
    return (EX_FATAL);
  }

  {
  /* Write dummy attribute name. Without this we get corruption in the
   * attribute name.
   */
    size_t  start[2], count[2];
    char *text = "";
    count[0] = 1;
    start[1] = 0;
    count[1] = strlen(text)+1;
    
    for (iblk = 0; iblk < num_elem_blk; iblk++) {
      if (num_elem_this_blk[iblk] == 0) /* Is this a NULL element block? */
	continue;
      for (i = 0; i < num_attr[iblk]; i++) {
	start[0] = i;
	nc_put_vara_text(exoid, eb_array[iblk], start, count, text);
      }
    }
  }
  free(eb_array);
  
  return (EX_NOERR);
  
  /* Fatal error: exit definition mode and return */
 error_ret:
  if (nc_enddef (exoid) != NC_NOERR) {     /* exit define mode */
    sprintf(errmsg,
	    "Error: failed to complete definition for file id %d",
	    exoid);
    ex_err("ex_put_concat_elem_block",errmsg,exerrval);
  }
  return (EX_FATAL);
}
int ex_put_elem_var_slab (int   exoid,
		          int   time_step,
		          int   elem_var_index,
		          ex_entity_id   elem_blk_id,
                          int64_t   start_pos,
		          int64_t   num_vals,
		          void *elem_var_vals)
{
  int status;
  int varid, dimid,time_dim, numelbdim, dims[2], elem_blk_id_ndx;
  size_t num_elem_blk, num_elem_var, start[2], count[2];
  int *elem_var_tab;
  char errmsg[MAX_ERR_LENGTH];

  exerrval = 0; /* clear error code */

  /* Determine index of elem_blk_id in VAR_ID_EL_BLK array */
  if ((elem_blk_id_ndx = ex_id_lkup(exoid, EX_ELEM_BLOCK, elem_blk_id)) < 0) {
    if (exerrval == EX_NULLENTITY) {
      sprintf(errmsg,
	      "Warning: no variables allowed for NULL block %"PRId64" in file id %d",
	      elem_blk_id, exoid);
      ex_err("ex_put_elem_var_slab", errmsg, EX_NULLENTITY);
      return (EX_WARN);
    } 
      sprintf(errmsg,
	      "Error: failed to locate element block id %"PRId64" in %s array in file id %d",
	      elem_blk_id, VAR_ID_EL_BLK, exoid);
      ex_err("ex_put_elem_var_slab", errmsg, exerrval);
      return (EX_FATAL);
    
  }

  if ((status = nc_inq_varid (exoid,
			      VAR_ELEM_VAR(elem_var_index, elem_blk_id_ndx), &varid)) != NC_NOERR) {
    if (status == NC_ENOTVAR) { /* variable doesn't exist, create it! */

      /*    inquire previously defined dimensions */

      /* check for the existance of an element variable truth table */
      if ((status = nc_inq_varid (exoid, VAR_ELEM_TAB, &varid)) == NC_NOERR) {
	/* find out number of element blocks and element variables */
	if ((status = nc_inq_dimid (exoid, DIM_NUM_EL_BLK, &dimid)) != NC_NOERR) {
	  exerrval = status;
	  sprintf(errmsg,
		  "Error: failed to locate number of element blocks in file id %d",
		  exoid);
	  ex_err("ex_put_elem_var_slab", errmsg, exerrval);
	  return (EX_FATAL);
	}

	if ((status = nc_inq_dimlen(exoid, dimid, &num_elem_blk)) != NC_NOERR) {
	  exerrval = status;
	  sprintf(errmsg,
		  "Error: failed to get number of element blocks in file id %d",
		  exoid);
	  ex_err("ex_put_elem_var_slab", errmsg, exerrval);
	  return (EX_FATAL);
	}

	if ((status = nc_inq_dimid (exoid, DIM_NUM_ELE_VAR, &dimid)) != NC_NOERR) {
	  exerrval = EX_BADPARAM;
	  sprintf(errmsg,
		  "Error: no element variables stored in file id %d",
		  exoid);
	  ex_err("ex_put_elem_var_slab", errmsg, exerrval);
	  return (EX_FATAL);
	}

	if ((status = nc_inq_dimlen(exoid, dimid, &num_elem_var)) != NC_NOERR) {
	  exerrval = status;
	  sprintf(errmsg,
		  "Error: failed to get number of element variables in file id %d",
		  exoid);
	  ex_err("ex_put_elem_var_slab", errmsg, exerrval);
	  return (EX_FATAL);
	}

	if (!(elem_var_tab =
	      (int *)malloc(num_elem_blk*num_elem_var*sizeof(int)))) {
	  exerrval = EX_MEMFAIL;
	  sprintf(errmsg,
		  "Error: failed to allocate memory for element variable truth table in file id %d",
		  exoid);
	  ex_err("ex_put_elem_var_slab", errmsg, exerrval);
	  return (EX_FATAL);
	}

	/*   read in the element variable truth table */
	if ((status = nc_get_var_int(exoid, varid, elem_var_tab)) != NC_NOERR) {
	  exerrval = status;
	  sprintf(errmsg,
		  "Error: failed to get truth table from file id %d", exoid);
	  ex_err("ex_put_elem_var_slab", errmsg, exerrval);
	  return (EX_FATAL);
	}

	if (elem_var_tab[num_elem_var*(elem_blk_id_ndx-1)+elem_var_index-1] == 0L) {
	  free(elem_var_tab);
	  exerrval = EX_BADPARAM;
	  sprintf(errmsg,
		  "Error: Invalid element variable %d, block %"PRId64" in file id %d",
		  elem_var_index, elem_blk_id, exoid);
	  ex_err("ex_put_elem_var_slab", errmsg, exerrval);
	  return (EX_FATAL);
	}
	free(elem_var_tab);
      }

      if ((status = nc_inq_dimid (exoid, DIM_TIME, &time_dim)) != NC_NOERR) {
	exerrval = status;
	sprintf(errmsg,
		"Error: failed to locate time dimension in file id %d", exoid);
	ex_err("ex_put_elem_var_slab", errmsg, exerrval);
	goto error_ret;		/* exit define mode and return */
      }

      if ((status = nc_inq_dimid(exoid, DIM_NUM_EL_IN_BLK(elem_blk_id_ndx), &numelbdim)) != NC_NOERR) {
	if (status == NC_EBADDIM) {
	  exerrval = status;
	  sprintf(errmsg,
		  "Error: number of elements in element block %"PRId64" not defined in file id %d",
		  elem_blk_id, exoid);
	  ex_err("ex_put_elem_var_slab", errmsg, exerrval);
	} else {
	  exerrval = status;
	  sprintf(errmsg,
		  "Error: failed to locate number of elements in element block %"PRId64" in file id %d",
		  elem_blk_id, exoid);
	  ex_err("ex_put_elem_var_slab", errmsg, exerrval);
	}
	goto error_ret;
      }

      /*    variable doesn't exist so put file into define mode  */
      if ((status = nc_redef (exoid)) != NC_NOERR) {
	exerrval = status;
	sprintf(errmsg,
		"Error: failed to put file id %d into define mode", exoid);
	ex_err("ex_put_elem_var_slab", errmsg, exerrval);
	return (EX_FATAL);
      }


      /*    define netCDF variable to store element variable values */
      dims[0] = time_dim;
      dims[1] = numelbdim;
      if ((status = nc_def_var(exoid, VAR_ELEM_VAR(elem_var_index, elem_blk_id_ndx),
			       nc_flt_code(exoid), 2, dims, &varid)) != NC_NOERR) {
	exerrval = status;
	sprintf(errmsg,
		"Error: failed to define element variable %d in file id %d",
		elem_var_index, exoid);
	ex_err("ex_put_elem_var_slab", errmsg, exerrval);
	goto error_ret;
      }
      ex_compress_variable(exoid, varid, 2);


      /*    leave define mode  */
      if ((status = nc_enddef(exoid)) != NC_NOERR) {
	exerrval = status;
	sprintf(errmsg,
		"Error: failed to complete element variable %s definition to file id %d",
		VAR_ELEM_VAR(elem_var_index, elem_blk_id_ndx), exoid);
	ex_err("ex_put_elem_var_slab", errmsg, exerrval);
	return (EX_FATAL);
      }
    } else {
      exerrval = status;
      sprintf(errmsg,
	      "Error: failed to locate element variable %s in file id %d",
	      VAR_ELEM_VAR(elem_var_index, elem_blk_id_ndx),exoid);
      ex_err("ex_put_elem_var_slab", errmsg, exerrval);
      return (EX_FATAL);
    }
  }

  /* store element variable values */
  start[0] = --time_step;
  start[1] = --start_pos;

  count[0] = 1;
  count[1] = num_vals;

  if (ex_comp_ws(exoid) == 4) {
    status = nc_put_vara_float(exoid, varid, start, count, elem_var_vals);
  } else {
    status = nc_put_vara_double(exoid, varid, start, count, elem_var_vals);
  }

  if (status != NC_NOERR) {
    exerrval = status;
    sprintf(errmsg,
	    "Error: failed to store element variable %d in file id %d", 
	    elem_var_index, exoid);
    ex_err("ex_put_elem_var_slab", errmsg, exerrval);
    return (EX_FATAL);
  }

  return (EX_NOERR);

  /* Fatal error: exit definition mode and return */
 error_ret:
  if (nc_enddef (exoid) != NC_NOERR)     /* exit define mode */
    {
      sprintf(errmsg,
	      "Error: failed to complete definition for file id %d", exoid);
      ex_err("ex_put_elem_var_slab", errmsg, exerrval);
    }
  return (EX_FATAL);
}
Exemple #26
0
int ex_put_coord (int   exoid,
                  const void *x_coor,
                  const void *y_coor,
                  const void *z_coor)
{
  int coordid;
  int coordidx, coordidy, coordidz;

  int numnoddim, ndimdim, i;
  long num_nod, num_dim, start[2], count[2];
  char errmsg[MAX_ERR_LENGTH];

  exerrval = 0; /* clear error code */

  /* inquire id's of previously defined dimensions  */

  if ((numnoddim = ncdimid (exoid, DIM_NUM_NODES)) == -1)
    {
      /* If not found, then this file is storing 0 nodes.
         Return immediately */
      return (EX_NOERR);
    }

  if (ncdiminq (exoid, numnoddim, NULL, &num_nod) == -1)
    {
      exerrval = ncerr;
      sprintf(errmsg,
              "Error: inquire failed to return number of nodes in file id %d",
              exoid);
      ex_err("ex_put_coord",errmsg,exerrval);
      return (EX_FATAL);
    }

  if ((ndimdim = ncdimid (exoid, DIM_NUM_DIM)) == -1)
    {
      exerrval = ncerr;
      sprintf(errmsg,
              "Error: failed to locate number of dimensions in file id %d",
              exoid);
      ex_err("ex_put_coord",errmsg,exerrval);
      return (EX_FATAL);
    }

  if (ncdiminq (exoid, ndimdim, NULL, &num_dim) == -1)
    {
      exerrval = ncerr;
      sprintf(errmsg,
              "Error: failed to get number of dimensions in file id %d",
              exoid);
      ex_err("ex_put_coord",errmsg,exerrval);
      return (EX_FATAL);
    }

  /* write out the coordinates  */
  if (ex_large_model(exoid) == 0) {
    if ((coordid = ncvarid (exoid, VAR_COORD)) == -1) {
      exerrval = ncerr;
      sprintf(errmsg,
              "Error: failed to locate nodal coordinates in file id %d", exoid);
      ex_err("ex_put_coord",errmsg,exerrval);
      return (EX_FATAL);
    } 

    for (i=0; i<num_dim; i++)
      {
        start[0] = i;
        start[1] = 0;

        count[0] = 1;
        count[1] = num_nod;

        if (i == 0 && x_coor != NULL)
          {
            if (ncvarput (exoid, coordid, start, count,
                          ex_conv_array(exoid,WRITE_CONVERT,x_coor,(int)num_nod)) == -1)
              {
                exerrval = ncerr;
                sprintf(errmsg,
                        "Error: failed to put X coord array in file id %d", exoid);
                ex_err("ex_put_coord",errmsg,exerrval);
                return (EX_FATAL);
              }
          }

        else if (i == 1 && y_coor != NULL)
          {
            if (ncvarput (exoid, coordid, start, count,
                          ex_conv_array(exoid,WRITE_CONVERT,y_coor,(int)num_nod)) == -1)
              {
                exerrval = ncerr;
                sprintf(errmsg,
                        "Error: failed to put Y coord array in file id %d", exoid);
                ex_err("ex_put_coord",errmsg,exerrval);
                return (EX_FATAL);
              }
          }

        else if (i == 2 && z_coor != NULL)
          {
            if (ncvarput (exoid, coordid, start, count,
                          ex_conv_array(exoid,WRITE_CONVERT,z_coor,(int)num_nod)) == -1)
              {
                exerrval = ncerr;
                sprintf(errmsg,
                        "Error: failed to put Z coord array in file id %d", exoid);
                ex_err("ex_put_coord",errmsg,exerrval);
                return (EX_FATAL);
              }
          }
      }
  } else {
    if ((coordidx = ncvarid (exoid, VAR_COORD_X)) == -1)
      {
        exerrval = ncerr;
        sprintf(errmsg,
                "Error: failed to locate x nodal coordinates in file id %d", exoid);
        ex_err("ex_put_coord",errmsg,exerrval);
        return (EX_FATAL);
      }

    if (num_dim > 1) {
      if ((coordidy = ncvarid (exoid, VAR_COORD_Y)) == -1)
        {
          exerrval = ncerr;
          sprintf(errmsg,
                  "Error: failed to locate y nodal coordinates in file id %d", exoid);
          ex_err("ex_put_coord",errmsg,exerrval);
          return (EX_FATAL);
        }
    } else {
      coordidy = 0;
    }
    if (num_dim > 2) {
      if ((coordidz = ncvarid (exoid, VAR_COORD_Z)) == -1)
        {
          exerrval = ncerr;
          sprintf(errmsg,
                  "Error: failed to locate z nodal coordinates in file id %d", exoid);
          ex_err("ex_put_coord",errmsg,exerrval);
          return (EX_FATAL);
        }
    } else {
      coordidz = 0;
    }
    /* write out the coordinates  */
    for (i=0; i<num_dim; i++)
      {
        const void *coor;
        char *which;
        int status;
       
        if (i == 0) {
          coor = x_coor;
          which = "X";
          coordid = coordidx;
        } else if (i == 1) {
          coor = y_coor;
          which = "Y";
          coordid = coordidy;
        } else if (i == 2) {
          coor = z_coor;
          which = "Z";
          coordid = coordidz;
        }

        if (coor != NULL) {
        if (nc_flt_code(exoid) == NC_FLOAT) {
          status = nc_put_var_float(exoid, coordid, 
                                    ex_conv_array(exoid,WRITE_CONVERT,
                                                  coor,(int)num_nod));
        } else {
          status = nc_put_var_double(exoid, coordid, 
                                     ex_conv_array(exoid,WRITE_CONVERT,
                                                   coor,(int)num_nod));
        }

        if (status == -1)
          {
            exerrval = ncerr;
            sprintf(errmsg,
                    "Error: failed to put %s coord array in file id %d", which, exoid);
            ex_err("ex_put_coord",errmsg,exerrval);
            return (EX_FATAL);
          }
        }
      }
  }
  return (EX_NOERR);
}
Exemple #27
0
int
cpy_coord_def(int in_id,int out_id,int rec_dim_id,char *var_nm,
              int in_large, int out_large)
/*
   int in_id: input netCDF input-file ID
   int out_id: input netCDF output-file ID
   int rec_dim_id: input input-file record dimension ID
   char *var_nm: input variable name
   int in_large: large file setting for input file
   int out_large: large file setting for output file
   int cpy_var_def(): output output-file variable ID
 */
{
  const char *routine = NULL;
  long spatial_dim;
  int nbr_dim;
  int temp;

  int dim_out_id[2];
  int var_out_id = -1;
  
  /* Handle easiest situation first: in_large matches out_large */
  if (in_large == out_large) {
    return cpy_var_def(in_id, out_id, rec_dim_id, var_nm);
  }

  /* At this point, know that in_large != out_large, so some change to
     the coord variable definition is needed. Also will need the
     spatial dimension, so get that now.*/
  ex_get_dimension(in_id, DIM_NUM_DIM, "dimension", &spatial_dim, routine);
  
  if (in_large == 0 && out_large == 1) {
    /* output file will have coordx, coordy, coordz (if 3d).  See if
       they are already defined in output file. Assume either all or
       none are defined. */
    temp = ncopts;
    ncopts=0;

    {
      int var_out_idx = ncvarid(out_id, VAR_COORD_X);
      int var_out_idy = ncvarid(out_id, VAR_COORD_Y);
      int var_out_idz = ncvarid(out_id, VAR_COORD_Z);
      ncopts = temp;
      if (var_out_idx != -1 && var_out_idy != -1 &&
          (spatial_dim == 2 || var_out_idz != -1)) {
        return var_out_idx;
      }
    }

    /* Get dimid of the num_nodes dimension in output file... */
    dim_out_id[0]=ncdimid(out_id,DIM_NUM_NODES);

    /* Define the variables in the output file */
    
    /* Define according to the EXODUS file's IO_word_size */
    nbr_dim = 1;
    var_out_id=ncvardef(out_id,VAR_COORD_X,nc_flt_code(out_id),
                        nbr_dim, dim_out_id);
    var_out_id=ncvardef(out_id,VAR_COORD_Y,nc_flt_code(out_id),
                        nbr_dim, dim_out_id);
    if (spatial_dim == 3)
      var_out_id=ncvardef(out_id,VAR_COORD_Z,nc_flt_code(out_id),
                          nbr_dim, dim_out_id);
    
  }

  if (in_large == 1 && out_large == 0) {
    /* input file has coordx, coordy, coordz (if 3d); output will only
       have "coord".  See if is already defined in output file. */
    temp = ncopts;
    ncopts=0;
    var_out_id = ncvarid(out_id, VAR_COORD);
    ncopts = temp;
    
    if (var_out_id != -1)
      return var_out_id;

    /* Get dimid of the spatial dimension and num_nodes dimensions in output file... */
    dim_out_id[0]=ncdimid(out_id,DIM_NUM_DIM);
    dim_out_id[1]=ncdimid(out_id,DIM_NUM_NODES);

    /* Define the variable in the output file */
    
    /* Define according to the EXODUS file's IO_word_size */
    nbr_dim = 2;
    var_out_id=ncvardef(out_id,VAR_COORD,nc_flt_code(out_id),
                        nbr_dim, dim_out_id);
  }
  return var_out_id;
}
Exemple #28
0
int ex_create (const char *path,
               int   cmode,
               int  *comp_ws,
               int  *io_ws)
{
   int exoid, time_dim, dims[1];
   nclong lio_ws;
   nclong filesiz;
   float vers;
   char errmsg[MAX_ERR_LENGTH];
   char *mode_name;
   int mode = 0;
   
   exerrval = 0; /* clear error code */

   /*
    * See if "large file" mode was specified in a ex_create cmode. If
    * so, then pass the NC_64BIT_OFFSET flag down to netcdf.
    */
   if (cmode & EX_LARGE_MODEL || ex_large_model(-1) == 1) {
     mode |= NC_64BIT_OFFSET;
   }

/*
 * set error handling mode to no messages, non-fatal errors
 */
  ex_opts(exoptval);    /* call required to set ncopts first time through */

   if (cmode & EX_NOCLOBBER) {
     mode |= NC_NOCLOBBER;
     mode_name = "NOCLOBBER";
   } else if (cmode & EX_CLOBBER) {
     mode |= NC_CLOBBER;
     mode_name = "CLOBBER";
   } else {
     exerrval = EX_BADFILEMODE;
     sprintf(errmsg,"Error: invalid file create mode: %d, for file %s",
             cmode,path);
     ex_err("ex_create",errmsg,exerrval);
     return (EX_FATAL);
   }

#ifndef TFLOP
   mode |= NC_SHARE;
#endif
   
   if ((exoid = nccreate (path, mode)) == -1) {
     exerrval = ncerr;
     sprintf(errmsg,
             "Error: file create failed for %s, mode: %s",
             path, mode_name);
     ex_err("ex_create",errmsg,exerrval);
     return (EX_FATAL);
   }

/* turn off automatic filling of netCDF variables
 */

  if (ncsetfill (exoid, NC_NOFILL) == -1)
  {
    exerrval = ncerr;
    sprintf(errmsg,
           "Error: failed to set nofill mode in file id %d",
            exoid);
    ex_err("ex_create", errmsg, exerrval);
    return (EX_FATAL);
  }

/* initialize floating point size conversion.  since creating new file, 
 * i/o wordsize attribute from file is zero.
 */

   if (ex_conv_ini( exoid, comp_ws, io_ws, 0 ) != EX_NOERR) {
     exerrval = EX_FATAL;
     sprintf(errmsg,
           "Error: failed to init conversion routines in file id %d",
            exoid);
     ex_err("ex_create", errmsg, exerrval);
     return (EX_FATAL);
   }

/* put the EXODUS version number, and i/o floating point word size as
 * netcdf global attributes
 */

/* store Exodus API version # as an attribute */
  vers = (float)(EX_API_VERS);
  if (ncattput (exoid, NC_GLOBAL, ATT_API_VERSION, NC_FLOAT, 1, &vers) == -1)
  {
    exerrval = ncerr;
    sprintf(errmsg,
         "Error: failed to store Exodus II API version attribute in file id %d",
            exoid);
    ex_err("ex_create",errmsg, exerrval);
    return (EX_FATAL);
  }

/* store Exodus file version # as an attribute */
  vers = (float)(EX_VERS);
  if (ncattput (exoid, NC_GLOBAL, ATT_VERSION, NC_FLOAT, 1, &vers) == -1)
  {
    exerrval = ncerr;
    sprintf(errmsg,
        "Error: failed to store Exodus II file version attribute in file id %d",
            exoid);
    ex_err("ex_create",errmsg, exerrval);
    return (EX_FATAL);
  }

/* store Exodus file float word size  as an attribute */
  lio_ws = (nclong)(*io_ws);
  if (ncattput (exoid, NC_GLOBAL, ATT_FLT_WORDSIZE, NC_LONG, 1, &lio_ws) == -1)
  {
    exerrval = ncerr;
    sprintf(errmsg,
 "Error: failed to store Exodus II file float word size attribute in file id %d",
           exoid);
    ex_err("ex_create",errmsg, exerrval);
    return (EX_FATAL);
  }

  /* store Exodus file size (1=large, 0=normal) as an attribute */
  filesiz = (nclong)(((cmode & EX_LARGE_MODEL) != 0) || (ex_large_model(-1) == 1));
  if (ncattput (exoid, NC_GLOBAL, ATT_FILESIZE, NC_LONG, 1, &filesiz) == -1)
    {
      exerrval = ncerr;
      sprintf(errmsg,
              "Error: failed to store Exodus II file size attribute in file id %d",
              exoid);
      ex_err("ex_create",errmsg, exerrval);
      return (EX_FATAL);
    }
  
  /* define some dimensions and variables
   */
  
  /* create string length dimension */
  if (ncdimdef (exoid, DIM_STR, (MAX_STR_LENGTH+1)) == -1)
  {
    exerrval = ncerr;
    sprintf(errmsg,
           "Error: failed to define string length in file id %d",exoid);
    ex_err("ex_create",errmsg,exerrval);
    return (EX_FATAL);
  }


  /* create line length dimension */
  if (ncdimdef (exoid, DIM_LIN, (MAX_LINE_LENGTH+1)) == -1)
  {
    exerrval = ncerr;
    sprintf(errmsg,
           "Error: failed to define line length in file id %d",exoid);
    ex_err("ex_create",errmsg,exerrval);
    return (EX_FATAL);
  }

  /* create number "4" dimension; must be of type long */
  if (ncdimdef (exoid, DIM_N4, 4L) == -1)
  {
    exerrval = ncerr;
    sprintf(errmsg,
           "Error: failed to define number \"4\" dimension in file id %d",exoid);
    ex_err("ex_create",errmsg,exerrval);
    return (EX_FATAL);
  }


  if ((time_dim = ncdimdef (exoid, DIM_TIME, NC_UNLIMITED)) == -1)
  {
    exerrval = ncerr;
    sprintf(errmsg,
           "Error: failed to define time dimension in file id %d", exoid);
    ex_err("ex_create",errmsg,exerrval);
    return (EX_FATAL);
  }

  dims[0] = time_dim;
  if ((ncvardef (exoid, VAR_WHOLE_TIME, nc_flt_code(exoid), 1, dims)) == -1)
  {
    exerrval = ncerr;
    sprintf(errmsg,
           "Error: failed to define whole time step variable in file id %d",
            exoid);
    ex_err("ex_create",errmsg,exerrval);
    return (EX_FATAL);
  }

  if (ncendef (exoid) == -1)
  {
    exerrval = ncerr;
    sprintf(errmsg,
           "Error: failed to complete definition for file id %d", exoid);
    ex_err("ex_create",errmsg,exerrval);
    return (EX_FATAL);
  }

  return (exoid);
}
Exemple #29
0
int ex_put_set_param (int exoid,
                      ex_entity_type set_type,
                      int set_id,
                      int num_entries_in_set,
                      int num_dist_fact_in_set)
{
  int status;
  size_t temp;
  int dimid, varid, set_id_ndx, dims[1]; 
  size_t start[1]; 
  int num_sets;
  int ldum;
  int cur_num_sets, set_stat;
  char *cdum;
  char errmsg[MAX_ERR_LENGTH];
  char* dimptr;
  char* idsptr;
  char* statptr;
  char* numentryptr = NULL;
  char* numdfptr = NULL;
  char* factptr = NULL;
  char* entryptr = NULL;
  char* extraptr = NULL;

  exerrval = 0; /* clear error code */

  cdum = 0;

  /* setup pointers based on set_type 
     NOTE: there is another block that sets more stuff later ... */
  if (set_type == EX_NODE_SET) {
    dimptr = DIM_NUM_NS;
    idsptr = VAR_NS_IDS;
    statptr = VAR_NS_STAT;
  }
  else if (set_type == EX_EDGE_SET) {
    dimptr = DIM_NUM_ES;
    idsptr = VAR_ES_IDS;
    statptr = VAR_ES_STAT;
  }
  else if (set_type == EX_FACE_SET) {
    dimptr = DIM_NUM_FS;
    idsptr = VAR_FS_IDS;
    statptr = VAR_FS_STAT;
  }
  else if (set_type == EX_SIDE_SET) {
    dimptr = DIM_NUM_SS;
    idsptr = VAR_SS_IDS;
    statptr = VAR_SS_STAT;
  }
  else if (set_type == EX_ELEM_SET) {
    dimptr = DIM_NUM_ELS;
    idsptr = VAR_ELS_IDS;
    statptr = VAR_ELS_STAT;
  }
  else {
    exerrval = EX_FATAL;
    sprintf(errmsg,
	    "Error: invalid set type (%d)", set_type);
    ex_err("ex_put_set_param",errmsg,exerrval);
    return (EX_FATAL);
  }

  /* first check if any of that set type is specified */

  if ((status = nc_inq_dimid(exoid, dimptr, &dimid)) != NC_NOERR) {
    exerrval = status;
    sprintf(errmsg,
	    "Error: no %ss specified in file id %d", ex_name_of_object(set_type),
	    exoid);
    ex_err("ex_put_set_param",errmsg,exerrval);
    return (EX_FATAL);
  }

  /* Check for duplicate set id entry */
  ex_id_lkup(exoid, set_type, set_id);
  if (exerrval != EX_LOOKUPFAIL) {  /* found the side set id */
    sprintf(errmsg,
	    "Error: %s %d already defined in file id %d", ex_name_of_object(set_type),
	    set_id,exoid);
    ex_err("ex_put_set_param",errmsg,exerrval);
    return(EX_FATAL);
  }

  /* Get number of sets specified for this file */
  if ((status = nc_inq_dimlen(exoid,dimid,&temp)) != NC_NOERR) {
    exerrval = status;
    sprintf(errmsg,
            "Error: failed to get number of %ss in file id %d",
	    ex_name_of_object(set_type), exoid);
    ex_err("ex_put_set_param",errmsg,exerrval);
    return (EX_FATAL);
  }
  num_sets = temp;


  /* Keep track of the total number of sets defined using a counter stored
     in a linked list keyed by exoid.
     NOTE: ex_get_file_item finds the maximum number of sets defined
     for a specific file and returns that value.
  */
  cur_num_sets=ex_get_file_item(exoid, ex_get_counter_list(set_type));
  if (cur_num_sets >= num_sets) {
    exerrval = EX_FATAL;
    sprintf(errmsg,
	    "Error: exceeded number of %ss (%d) defined in file id %d",
	    ex_name_of_object(set_type), num_sets,exoid);
    ex_err("ex_put_set_param",errmsg,exerrval);
    return (EX_FATAL);
  }

  /*   NOTE: ex_inc_file_item finds the current number of sets defined
       for a specific file and returns that value incremented. */

  cur_num_sets=ex_inc_file_item(exoid, ex_get_counter_list(set_type));
  set_id_ndx = cur_num_sets + 1;

  /* setup more pointers based on set_type */
  if (set_type == EX_NODE_SET) {
    numentryptr = DIM_NUM_NOD_NS(set_id_ndx);
    entryptr = VAR_NODE_NS(set_id_ndx);
    extraptr = NULL;
    /* note we are using DIM_NUM_NODE_NS instead of DIM_NUM_DF_NS */
    numdfptr = DIM_NUM_NOD_NS(set_id_ndx);
    factptr = VAR_FACT_NS(set_id_ndx);
  }
  else if (set_type == EX_EDGE_SET) {
    numentryptr = DIM_NUM_EDGE_ES(set_id_ndx);
    entryptr = VAR_EDGE_ES(set_id_ndx);
    extraptr = VAR_ORNT_ES(set_id_ndx);
    numdfptr = DIM_NUM_DF_ES(set_id_ndx);
    factptr = VAR_FACT_ES(set_id_ndx);
  }
  else if (set_type == EX_FACE_SET) {
    numentryptr = DIM_NUM_FACE_FS(set_id_ndx);
    entryptr = VAR_FACE_FS(set_id_ndx);
    extraptr = VAR_ORNT_FS(set_id_ndx);
    numdfptr = DIM_NUM_DF_FS(set_id_ndx);
    factptr = VAR_FACT_FS(set_id_ndx);
  }
  else if (set_type == EX_SIDE_SET) {
    numentryptr = DIM_NUM_SIDE_SS(set_id_ndx);
    entryptr = VAR_ELEM_SS(set_id_ndx);
    extraptr = VAR_SIDE_SS(set_id_ndx);
    numdfptr = DIM_NUM_DF_SS(set_id_ndx);
    factptr = VAR_FACT_SS(set_id_ndx);
  }
  if (set_type == EX_ELEM_SET) {
    numentryptr = DIM_NUM_ELE_ELS(set_id_ndx);
    entryptr = VAR_ELEM_ELS(set_id_ndx);
    extraptr = NULL;
    numdfptr = DIM_NUM_DF_ELS(set_id_ndx);
    factptr = VAR_FACT_ELS(set_id_ndx);
  }

  /* write out information to previously defined variable */

  /* first: get id of set id variable */
  if ((status = nc_inq_varid(exoid, idsptr, &varid)) != NC_NOERR) {
    exerrval = status;
    sprintf(errmsg,
	    "Error: failed to locate %s %d in file id %d", ex_name_of_object(set_type),
	    set_id, exoid);
    ex_err("ex_put_set_param",errmsg,exerrval);
    return (EX_FATAL);
  }

  /* write out set id */
  start[0] = cur_num_sets;

  ldum = (int)set_id;
  if ((status = nc_put_var1_int(exoid, varid, start, &ldum)) != NC_NOERR) {
    exerrval = status;
    sprintf(errmsg,
	    "Error: failed to store %s id %d in file id %d", ex_name_of_object(set_type),
	    set_id, exoid);
    ex_err("ex_put_set_param",errmsg,exerrval);
    return (EX_FATAL);
  }

  if (num_entries_in_set == 0) /* Is this a NULL  set? */
    set_stat = 0; /* change set status to NULL */
  else
    set_stat = 1; /* change set status to TRUE */

  if ((status = nc_inq_varid(exoid, statptr, &varid)) != NC_NOERR) {
    exerrval = status;
    sprintf(errmsg,
	    "Error: failed to locate %s status in file id %d", ex_name_of_object(set_type),
	    exoid);
    ex_err("ex_put_set_param",errmsg,exerrval);
    return (EX_FATAL);
  }

  ldum = (int)set_stat;
  if ((status = nc_put_var1_int(exoid, varid, start, &ldum)) != NC_NOERR) {
    exerrval = status;
    sprintf(errmsg,
	    "Error: failed to store %s %d status to file id %d", ex_name_of_object(set_type),
	    set_id, exoid);
    ex_err("ex_put_set_param",errmsg,exerrval);
    return (EX_FATAL);
  }

  if (num_entries_in_set == 0) {/* Is this a NULL set? */
    return(EX_NOERR);
  }

  /* put netcdf file into define mode  */
  if ((status = nc_redef (exoid)) != NC_NOERR) {
    exerrval = status;
    sprintf(errmsg,
	    "Error: failed to put file id %d into define mode",
	    exoid);
    ex_err("ex_put_set_param",errmsg,exerrval);
    return (EX_FATAL);
  }


  /* define dimensions and variables */
  if ((status = nc_def_dim(exoid, numentryptr,
			   num_entries_in_set, &dimid)) != NC_NOERR) {
    exerrval = status;
    if (status == NC_ENAMEINUSE)
      {
	sprintf(errmsg,
		"Error: %s %d size already defined in file id %d",
		ex_name_of_object(set_type), set_id,exoid);
	ex_err("ex_put_set_param",errmsg,exerrval);
      }
    else {
      sprintf(errmsg,
	      "Error: failed to define number of entries in %s %d in file id %d",
	      ex_name_of_object(set_type), set_id,exoid);
      ex_err("ex_put_set_param",errmsg,exerrval);
    }
    goto error_ret;
  }

  /* create variable array in which to store the entry lists */

  dims[0] = dimid;
  if ((status = nc_def_var(exoid, entryptr, NC_INT, 1, dims, &varid)) != NC_NOERR) {
    exerrval = status;
    if (status == NC_ENAMEINUSE) {
      sprintf(errmsg,
	      "Error: entry list already exists for %s %d in file id %d",
	      ex_name_of_object(set_type), set_id,exoid);
      ex_err("ex_put_set_param",errmsg,exerrval);
    } else {
      sprintf(errmsg,
	      "Error: failed to create entry list for %s %d in file id %d",
	      ex_name_of_object(set_type), set_id,exoid);
      ex_err("ex_put_set_param",errmsg,exerrval);
    }
    goto error_ret;            /* exit define mode and return */
  }

  if (extraptr) {
    if ((status = nc_def_var(exoid, extraptr, NC_INT, 1, dims, &varid)) != NC_NOERR) {
      exerrval = status;
      if (status == NC_ENAMEINUSE) {
	sprintf(errmsg,
		"Error: extra list already exists for %s %d in file id %d",
		ex_name_of_object(set_type), set_id, exoid);
	ex_err("ex_put_set_param",errmsg,exerrval);
      } else {
	sprintf(errmsg,
		"Error: failed to create extra list for %s %d in file id %d",
		ex_name_of_object(set_type), set_id,exoid);
	ex_err("ex_put_set_param",errmsg,exerrval);
      }
      goto error_ret;         /* exit define mode and return */
           
    }
  }

  /* Create distribution factors variable if required */

  if (num_dist_fact_in_set > 0) {

    if (set_type == EX_NODE_SET) {
      /* but num_dist_fact_in_set must equal number of nodes */
      if (num_dist_fact_in_set != num_entries_in_set) {
	exerrval = EX_FATAL;
	sprintf(errmsg,
		"Error: # dist fact (%d) not equal to # nodes (%d) in node  set %d file id %d",
		num_dist_fact_in_set, num_entries_in_set, set_id, exoid);
	ex_err("ex_put_set_param",errmsg,exerrval);
	goto error_ret;    /* exit define mode and return */
      }

      /* resuse dimid from entry lists */

    } else {
      if ((status = nc_def_dim(exoid, numdfptr, 
			       num_dist_fact_in_set, &dimid)) != NC_NOERR) {
	exerrval = status;
	sprintf(errmsg,
		"Error: failed to define number of dist factors in %s %d in file id %d",
		ex_name_of_object(set_type), set_id,exoid);
	ex_err("ex_put_set_param",errmsg,exerrval);
	goto error_ret;          /* exit define mode and return */
      }
    }

    /* create variable array in which to store the set distribution factors
     */
    dims[0] = dimid;
    if ((status = nc_def_var(exoid, factptr, nc_flt_code(exoid), 1, dims, &varid)) != NC_NOERR) {
      exerrval = status;
      if (status == NC_ENAMEINUSE) {
	sprintf(errmsg,
		"Error: dist factors list already exists for %s %d in file id %d",
		ex_name_of_object(set_type), set_id,exoid);
	ex_err("ex_put_set_param",errmsg,exerrval);
      } else {
	sprintf(errmsg,
		"Error: failed to create dist factors list for %s %d in file id %d",
		ex_name_of_object(set_type), set_id,exoid);
	ex_err("ex_put_set_param",errmsg,exerrval);
      }
      goto error_ret;            /* exit define mode and return */
    }
  }

  /* leave define mode  */
  if ((status = nc_enddef (exoid)) != NC_NOERR) {
    exerrval = status;
    sprintf(errmsg,
	    "Error: failed to complete definition in file id %d", exoid);
    ex_err("ex_put_set_param",errmsg,exerrval);
    return (EX_FATAL);
  }

  return (EX_NOERR);

  /* Fatal error: exit definition mode and return */
 error_ret:
  if (nc_enddef (exoid) != NC_NOERR) {    /* exit define mode */
    sprintf(errmsg,
	    "Error: failed to complete definition for file id %d",
	    exoid);
    ex_err("ex_put_set_param",errmsg,exerrval);
  }
  return (EX_FATAL);
}
Exemple #30
0
int ex_put_init (int   exoid,
                 const char *title,
                 int   num_dim,
                 int   num_nodes,
                 int   num_elem,
                 int   num_elem_blk,
                 int   num_node_sets,
                 int   num_side_sets)
{
  int numdimdim, numnoddim, elblkdim, nsetdim, ssetdim, strdim, dim[2], varid;
#if 0
  /* used for header size calculations which are turned off for now */
  int header_size, fixed_var_size, iows;
#endif  
  char errmsg[MAX_ERR_LENGTH];

  exerrval = 0; /* clear error code */

  if ((ncdimid (exoid, DIM_NUM_DIM)) != -1)
    {
      exerrval = EX_MSG;
      sprintf(errmsg,
              "Error: initialization already done for file id %d",exoid);
      ex_err("ex_put_init",errmsg,exerrval);
      return (EX_FATAL);
    }


  /* put file into define mode */

  if (ncredef (exoid) == -1)
    {
      exerrval = ncerr;
      sprintf(errmsg,
              "Error: failed to put file id %d into define mode", exoid);
      ex_err("ex_put_init",errmsg,exerrval);
      return (EX_FATAL);
    }


  /* define some attributes... */

  if (ncattput (exoid, NC_GLOBAL, (const char*) ATT_TITLE, 
                NC_CHAR, strlen(title)+1, (void *)title) == -1)
    {
      exerrval = ncerr;
      sprintf(errmsg,
              "Error: failed to define title attribute to file id %d", exoid);
      ex_err("ex_put_init",errmsg,exerrval);
      goto error_ret;         /* exit define mode and return */
    }

  /* ...and some dimensions... */

  if ((numdimdim = ncdimdef (exoid, DIM_NUM_DIM, (long)num_dim)) == -1)
    {
      exerrval = ncerr;
      sprintf(errmsg,
              "Error: failed to define number of dimensions in file id %d",exoid);
      ex_err("ex_put_init",errmsg,exerrval);
      goto error_ret;         /* exit define mode and return */
    }

  /*
   * Need to handle "empty file" that may be the result of a strange
   * load balance or some other strange run.  Note that if num_node
   * == 0, then num_elem must be zero since you cannot have elements
   * with no nodes. It *is* permissible to have zero elements with
   * non-zero node count.
   */
     
  if (num_nodes > 0) {
    if ((numnoddim = ncdimdef (exoid, DIM_NUM_NODES, (long)num_nodes)) == -1)
      {
        exerrval = ncerr;
        sprintf(errmsg,
                "Error: failed to define number of nodes in file id %d",exoid);
        ex_err("ex_put_init",errmsg,exerrval);
        goto error_ret;         /* exit define mode and return */
      }
  }
  
  if (num_elem > 0) {
    if (num_nodes <=  0) {
      exerrval = EX_MSG;
      sprintf(errmsg,
              "Error: Cannot have non-zero element count if node count is zero.in file id %d",exoid);
      ex_err("ex_put_init",errmsg,exerrval);
      goto error_ret;         /* exit define mode and return */
    }
    
    if ((ncdimdef (exoid, DIM_NUM_ELEM, (long)num_elem)) == -1)
      {
        exerrval = ncerr;
        sprintf(errmsg,
                "Error: failed to define number of elements in file id %d",exoid);
        ex_err("ex_put_init",errmsg,exerrval);
        goto error_ret;         /* exit define mode and return */
      }
  }

  /* Can have nonzero num_elem_blk even if num_elem == 0 */
  if (num_elem_blk > 0) {
    if ((elblkdim = ncdimdef (exoid, DIM_NUM_EL_BLK, (long)num_elem_blk)) == -1)
      {
        exerrval = ncerr;
        sprintf(errmsg,
                "Error: failed to define number of element blocks in file id %d",
                exoid);
        ex_err("ex_put_init",errmsg,exerrval);
        goto error_ret;         /* exit define mode and return */
      }
    
    /* ...and some variables */
    
    /* element block id status array */
    
    dim[0] = elblkdim;
    if ((varid = ncvardef (exoid, VAR_STAT_EL_BLK, NC_LONG, 1, dim)) == -1)
      {
        exerrval = ncerr;
        sprintf(errmsg,
                "Error: failed to define element block status array in file id %d",exoid);
        ex_err("ex_put_init",errmsg,exerrval);
        goto error_ret;         /* exit define mode and return */
      }
    
#if 0
    /*   store property name as attribute of property array variable */
    if ((ncattput (exoid, varid, ATT_PROP_NAME, NC_CHAR, 7, "STATUS")) == -1)
      {
        exerrval = ncerr;
        sprintf(errmsg,
                "Error: failed to store element block property name %s in file id %d",
                "STATUS",exoid);
        ex_err("ex_put_init",errmsg,exerrval);
        return (EX_FATAL);
      }
#endif
    
    /* element block id array */
    
    if ((varid = ncvardef (exoid, VAR_ID_EL_BLK, NC_LONG, 1, dim)) == -1)
      {
        exerrval = ncerr;
        sprintf(errmsg,
                "Error: failed to define element block id array in file id %d",exoid);
        ex_err("ex_put_init",errmsg,exerrval);
        goto error_ret;         /* exit define mode and return */
      }
    
    /*   store property name as attribute of property array variable */
    if ((ncattput (exoid, varid, ATT_PROP_NAME, NC_CHAR, 3, "ID")) == -1)
      {
        exerrval = ncerr;
        sprintf(errmsg,
                "Error: failed to store element block property name %s in file id %d",
                "ID",exoid);
        ex_err("ex_put_init",errmsg,exerrval);
        return (EX_FATAL);
      }
  }

  /* node set id array: */

  nsetdim = 0;
  if (num_node_sets > 0) {

    if ((nsetdim = ncdimdef (exoid, DIM_NUM_NS, (long)num_node_sets)) == -1)
      {
        exerrval = ncerr;
        sprintf(errmsg,
                "Error: failed to define number of node sets in file id %d",exoid);
        ex_err("ex_put_init",errmsg,exerrval);
        goto error_ret;         /* exit define mode and return */
      }

    /* node set id status array: */

    dim[0] = nsetdim;
    if ((varid = ncvardef (exoid, VAR_NS_STAT, NC_LONG, 1, dim)) == -1)
      {
        exerrval = ncerr;
        sprintf(errmsg,
                "Error: failed to create node sets status array in file id %d",exoid);
        ex_err("ex_put_init",errmsg,exerrval);
        goto error_ret;         /* exit define mode and return */
      }


#if 0
    /*   store property name as attribute of property array variable */
    if ((ncattput (exoid, varid, ATT_PROP_NAME, NC_CHAR, 7, "STATUS")) == -1)
      {
        exerrval = ncerr;
        sprintf(errmsg,
                "Error: failed to store node set property name %s in file id %d",
                "ID",exoid);
        ex_err("ex_put_init",errmsg,exerrval);
        return (EX_FATAL);
      }
#endif

    /* node set id array: */

    dim[0] = nsetdim;
    if ((varid = ncvardef (exoid, VAR_NS_IDS, NC_LONG, 1, dim)) == -1)
      {
        exerrval = ncerr;
        sprintf(errmsg,
                "Error: failed to create node sets property array in file id %d",exoid);
        ex_err("ex_put_init",errmsg,exerrval);
        goto error_ret;         /* exit define mode and return */
      }


    /*   store property name as attribute of property array variable */
    if ((ncattput (exoid, varid, ATT_PROP_NAME, NC_CHAR, 3, "ID")) == -1)
      {
        exerrval = ncerr;
        sprintf(errmsg,
                "Error: failed to store node set property name %s in file id %d",
                "ID",exoid);
        ex_err("ex_put_init",errmsg,exerrval);
        return (EX_FATAL);
      }


  }

  /* side set id array: */

  ssetdim = 0;
  if (num_side_sets > 0) {

    if ((ssetdim = ncdimdef (exoid, DIM_NUM_SS, (long)num_side_sets)) == -1)
      {
        exerrval = ncerr;
        sprintf(errmsg,
                "Error: failed to define number of side sets in file id %d",exoid);
        ex_err("ex_put_init",errmsg,exerrval);
        goto error_ret;         /* exit define mode and return */
      }

    /* side set id status array: */

    dim[0] = ssetdim;
    if ((varid = ncvardef (exoid, VAR_SS_STAT, NC_LONG, 1, dim)) == -1)
      {
        exerrval = ncerr;
        sprintf(errmsg,
                "Error: failed to define side set status in file id %d",exoid);
        ex_err("ex_put_init",errmsg,exerrval);
        goto error_ret;         /* exit define mode and return */
      }

#if 0
    /*   store property name as attribute of property array variable */
    if ((ncattput (exoid, varid, ATT_PROP_NAME, NC_CHAR, 7, "STATUS")) == -1)
      {
        exerrval = ncerr;
        sprintf(errmsg,
                "Error: failed to store side set property name %s in file id %d",
                "ID",exoid);
        ex_err("ex_put_init",errmsg,exerrval);
        return (EX_FATAL);
      }
#endif
    
    /* side set id array: */

    if ((varid = ncvardef (exoid, VAR_SS_IDS, NC_LONG, 1, dim)) == -1) 
      {
        exerrval = ncerr;
        sprintf(errmsg,
                "Error: failed to define side set property in file id %d",exoid);
        ex_err("ex_put_init",errmsg,exerrval);
        goto error_ret;         /* exit define mode and return */
      }

    /*   store property name as attribute of property array variable */
    if ((ncattput (exoid, varid, ATT_PROP_NAME, NC_CHAR, 3, "ID")) == -1)
      {
        exerrval = ncerr;
        sprintf(errmsg,
                "Error: failed to store side set property name %s in file id %d",
                "ID",exoid);
        ex_err("ex_put_init",errmsg,exerrval);
        return (EX_FATAL);
      }

  }

  /*
   * To reduce the maximum dataset sizes, the storage of the nodal
   * coordinates and the nodal variables was changed from a single
   * dataset to a dataset per component or variable.  However, we
   * want to maintain some form of compatability with the old
   * exodusII version.  It is easy to do this on read; however, we
   * also want to be able to store in the old format using the new
   * library. 
   *
   * The mode is set in the ex_create call. The setting can be checked
   * via the ATT_FILESIZE attribute in the file (1=large,
   * 0=normal). Also handle old files that do not contain this
   * attribute.
   */

  if (num_nodes > 0) {
    if (ex_large_model(exoid) == 1) {
      /* node coordinate arrays -- separate storage... */

      /*
       * Check that storage required for coordinates  is less
       * than 2GB which is maximum size permitted by netcdf
       * (in large file mode). 1<<29 == max number of integer items.
       */
      int shift = nc_flt_code(exoid) == NC_DOUBLE ? 28 : 29; 
      if (num_nodes  > (1<<shift)) {
        exerrval = EX_BADPARAM;
        sprintf(errmsg,
                "Error: Size to store nodal coordinates exceeds 2GB in file id %d",
                exoid);
        ex_err("ex_put_init",errmsg,exerrval);
        return (EX_FATAL);
      }
    
      dim[0] = numnoddim;
      if (num_dim > 0) {
        if (ncvardef (exoid, VAR_COORD_X, nc_flt_code(exoid), 1, dim) == -1)
          {
            exerrval = ncerr;
            sprintf(errmsg,
                    "Error: failed to define node x coordinate array in file id %d",exoid);
            ex_err("ex_put_init",errmsg,exerrval);
            goto error_ret;         /* exit define mode and return */
          }
      }
    
      if (num_dim > 1) {
        if (ncvardef (exoid, VAR_COORD_Y, nc_flt_code(exoid), 1, dim) == -1)
          {
            exerrval = ncerr;
            sprintf(errmsg,
                    "Error: failed to define node y coordinate array in file id %d",exoid);
            ex_err("ex_put_init",errmsg,exerrval);
            goto error_ret;         /* exit define mode and return */
          }
      }

      if (num_dim > 2) {
        if (ncvardef (exoid, VAR_COORD_Z, nc_flt_code(exoid), 1, dim) == -1)
          {
            exerrval = ncerr;
            sprintf(errmsg,
                    "Error: failed to define node z coordinate array in file id %d",exoid);
            ex_err("ex_put_init",errmsg,exerrval);
            goto error_ret;         /* exit define mode and return */
          }
      }
    } else {
      /* node coordinate arrays: -- all stored together (old method) */

      dim[0] = numdimdim;
      dim[1] = numnoddim;
      if (ncvardef (exoid, VAR_COORD, nc_flt_code(exoid), 2, dim) == -1)
        {
          exerrval = ncerr;
          sprintf(errmsg,
                  "Error: failed to define node coordinate array in file id %d",exoid);
          ex_err("ex_put_init",errmsg,exerrval);
          goto error_ret;         /* exit define mode and return */
        }
    }
  }
  
  /* inquire previously defined dimensions  */
  if ((strdim = ncdimid (exoid, DIM_STR)) < 0)
    {
      exerrval = ncerr;
      sprintf(errmsg,
              "Error: failed to get string length in file id %d",exoid);
      ex_err("ex_put_init",errmsg,exerrval);
      goto error_ret;         /* exit define mode and return */
    }

  /* coordinate names array */

  dim[0] = numdimdim;
  dim[1] = strdim;

  if (ncvardef (exoid, VAR_NAME_COOR, NC_CHAR, 2, dim) == -1)
    {
      exerrval = ncerr;
      sprintf(errmsg,
              "Error: failed to define coordinate name array in file id %d",exoid);
      ex_err("ex_put_init",errmsg,exerrval);
      goto error_ret;         /* exit define mode and return */
    }
  

  /* Element block names... */
  if (num_elem_blk > 0) {
    dim[0] = elblkdim;
    dim[1] = strdim;
    
    if (ncvardef (exoid, VAR_NAME_EL_BLK, NC_CHAR, 2, dim) == -1) {
      exerrval = ncerr;
      sprintf(errmsg,
	      "Error: failed to define element block name array in file id %d",exoid);
      ex_err("ex_put_init",errmsg,exerrval);
      goto error_ret;         /* exit define mode and return */
    }
  }
  
  /* Nodeset names... */
  if (num_node_sets > 0) {
    dim[0] = nsetdim;
    dim[1] = strdim;
    
    if (ncvardef (exoid, VAR_NAME_NS, NC_CHAR, 2, dim) == -1) {
      exerrval = ncerr;
      sprintf(errmsg,
	      "Error: failed to define nodeset name array in file id %d",exoid);
      ex_err("ex_put_init",errmsg,exerrval);
      goto error_ret;         /* exit define mode and return */
    }
  }
  
  /* Sideset names... */
  if (num_side_sets > 0) {
    dim[0] = ssetdim;
    dim[1] = strdim;
    
    if (ncvardef (exoid, VAR_NAME_SS, NC_CHAR, 2, dim) == -1) {
      exerrval = ncerr;
      sprintf(errmsg,
	      "Error: failed to define sideset name array in file id %d",exoid);
      ex_err("ex_put_init",errmsg,exerrval);
      goto error_ret;         /* exit define mode and return */
    }
  }
  
  
  /* leave define mode */
#if 1
  if (ncendef (exoid) == -1)
    {
      exerrval = ncerr;
      sprintf(errmsg,
              "Error: failed to complete variable definitions in file id %d",exoid);
      ex_err("ex_put_init",errmsg,exerrval);
      return (EX_FATAL);
    }
  
#else
  /* estimate (guess) size of header of netCDF file */
  header_size = 1200 + 
    num_elem_blk * 800 + 
    num_node_sets * 220 + 
    num_side_sets * 300;

  if (header_size > MAX_HEADER_SIZE) header_size = MAX_HEADER_SIZE;

  /* estimate (guess) size of fixed size variable section of netCDF file */

  if (nc_flt_code(exoid) == NC_DOUBLE) 
    iows = 8;
  else
    iows = 4;

  fixed_var_size = num_dim * num_nodes * iows +
    num_nodes * sizeof(int) +
    num_elem * 16 * sizeof(int) +
    num_elem_blk * sizeof(int) +
    num_node_sets * num_nodes/100 * sizeof(int) +
    num_node_sets * num_nodes/100 * iows +
    num_node_sets * sizeof(int) +
    num_side_sets * num_elem/100 * 2 * sizeof(int) +
    num_side_sets * num_elem/100 * iows +
    num_side_sets * sizeof(int);



  /* With netcdf-3.4, this produces very large files on the
   * SGI.  Also with netcdf-3.5beta3
   */
  /*
   * This is also causing other problems on other systems .. disable for now
   */
  if (nc__enddef (exoid, 
                  header_size, NC_ALIGN_CHUNK, 
                  fixed_var_size, NC_ALIGN_CHUNK) == -1)
    {
      exerrval = ncerr;
      sprintf(errmsg,
              "Error: failed to complete variable definitions in file id %d",exoid);
      ex_err("ex_put_init",errmsg,exerrval);
      return (EX_FATAL);
    }

#endif
  return (EX_NOERR);

  /* Fatal error: exit definition mode and return */
 error_ret:
  if (ncendef (exoid) == -1)     /* exit define mode */
    {
      sprintf(errmsg,
              "Error: failed to complete definition for file id %d",
              exoid);
      ex_err("ex_put_init",errmsg,exerrval);
    }
  return (EX_FATAL);
}