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); }
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]; EX_FUNC_ENTER(); int rootid = exoid & EX_FILE_ID_MASK; ex_check_valid_file_id(exoid, __func__); if (rootid == exoid && nc_inq_dimid(exoid, DIM_NUM_DIM, &temp) == NC_NOERR) { snprintf(errmsg, MAX_ERR_LENGTH, "ERROR: initialization already done for file id %d", exoid); ex_err(__func__, errmsg, EX_MSG); EX_FUNC_LEAVE(EX_FATAL); } /* put file into define mode */ if ((status = nc_redef(exoid)) != NC_NOERR) { snprintf(errmsg, MAX_ERR_LENGTH, "ERROR: failed to put file id %d into define mode", exoid); ex_err(__func__, errmsg, status); EX_FUNC_LEAVE(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) { snprintf(errmsg, MAX_ERR_LENGTH, "ERROR: failed to define model->title attribute to file id %d", rootid); ex_err(__func__, errmsg, status); 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) { if ((status = nc_def_dim(rootid, DIM_STR_NAME, NC_MAX_NAME, &dim_str_name)) != NC_NOERR) { snprintf(errmsg, MAX_ERR_LENGTH, "ERROR: failed to define name string length in file id %d", rootid); ex_err(__func__, errmsg, status); goto error_ret; } } if ((status = nc_def_dim(exoid, DIM_TIME, NC_UNLIMITED, &timedim)) != NC_NOERR) { snprintf(errmsg, MAX_ERR_LENGTH, "ERROR: failed to define time dimension in file id %d", exoid); ex_err(__func__, errmsg, status); goto error_ret; } dim[0] = timedim; if ((status = nc_def_var(exoid, VAR_WHOLE_TIME, nc_flt_code(exoid), 1, dim, &temp)) != NC_NOERR) { snprintf(errmsg, MAX_ERR_LENGTH, "ERROR: failed to define whole time step variable in file id %d", exoid); ex_err(__func__, errmsg, status); goto error_ret; } { struct ex_file_item *file = ex_find_file_item(exoid); file->time_varid = temp; } ex_compress_variable(exoid, temp, 2); if ((status = nc_def_dim(exoid, DIM_NUM_DIM, model->num_dim, &numdimdim)) != NC_NOERR) { snprintf(errmsg, MAX_ERR_LENGTH, "ERROR: failed to define number of dimensions in file id %d", exoid); ex_err(__func__, errmsg, status); 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) { snprintf(errmsg, MAX_ERR_LENGTH, "ERROR: failed to define number of nodes in file id %d", exoid); ex_err(__func__, errmsg, status); goto error_ret; /* exit define mode and return */ } } if (model->num_elem > 0) { if (model->num_nodes <= 0) { snprintf(errmsg, MAX_ERR_LENGTH, "ERROR: Cannot have non-zero element count if node count " "is zero.in file id %d", exoid); ex_err(__func__, errmsg, EX_BADPARAM); goto error_ret; /* exit define mode and return */ } if ((status = nc_def_dim(exoid, DIM_NUM_ELEM, model->num_elem, &temp)) != NC_NOERR) { snprintf(errmsg, MAX_ERR_LENGTH, "ERROR: failed to define number of elements in file id %d", exoid); ex_err(__func__, errmsg, status); goto error_ret; /* exit define mode and return */ } } if (model->num_edge > 0) { if (model->num_nodes <= 0) { snprintf(errmsg, MAX_ERR_LENGTH, "ERROR: Cannot have non-zero edge count if node count is " "zero.in file id %d", exoid); ex_err(__func__, errmsg, EX_BADPARAM); goto error_ret; /* exit define mode and return */ } if ((status = nc_def_dim(exoid, DIM_NUM_EDGE, model->num_edge, &temp)) != NC_NOERR) { snprintf(errmsg, MAX_ERR_LENGTH, "ERROR: failed to define number of edges in file id %d", exoid); ex_err(__func__, errmsg, status); goto error_ret; /* exit define mode and return */ } } if (model->num_face > 0) { if (model->num_nodes <= 0) { snprintf(errmsg, MAX_ERR_LENGTH, "ERROR: Cannot have non-zero face count if node count is " "zero.in file id %d", exoid); ex_err(__func__, errmsg, EX_BADPARAM); goto error_ret; /* exit define mode and return */ } if ((status = nc_def_dim(exoid, DIM_NUM_FACE, model->num_face, &temp)) != NC_NOERR) { snprintf(errmsg, MAX_ERR_LENGTH, "ERROR: failed to define number of faces in file id %d", exoid); ex_err(__func__, errmsg, status); 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; } if (model->num_nodes > 0) { 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) { snprintf(errmsg, MAX_ERR_LENGTH, "ERROR: failed to define node x coordinate array in file id %d", exoid); ex_err(__func__, errmsg, status); 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) { snprintf(errmsg, MAX_ERR_LENGTH, "ERROR: failed to define node y coordinate array in file id %d", exoid); ex_err(__func__, errmsg, status); 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) { snprintf(errmsg, MAX_ERR_LENGTH, "ERROR: failed to define node z coordinate array in file id %d", exoid); ex_err(__func__, errmsg, status); goto error_ret; /* exit define mode and return */ } ex_compress_variable(exoid, temp, 2); } } 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) { snprintf(errmsg, MAX_ERR_LENGTH, "ERROR: failed to complete variable definitions in file id %d", exoid); ex_err(__func__, errmsg, status); EX_FUNC_LEAVE(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)))) { snprintf(errmsg, MAX_ERR_LENGTH, "ERROR: failed to allocate memory for id/status array for file id %d", exoid); ex_err(__func__, errmsg, EX_MEMFAIL); EX_FUNC_LEAVE(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 */ write_dummy_names(exoid, EX_ELEM_BLOCK, model->num_elem_blk); write_dummy_names(exoid, EX_EDGE_BLOCK, model->num_edge_blk); write_dummy_names(exoid, EX_FACE_BLOCK, model->num_face_blk); write_dummy_names(exoid, EX_NODE_SET, model->num_node_sets); write_dummy_names(exoid, EX_EDGE_SET, model->num_edge_sets); write_dummy_names(exoid, EX_FACE_SET, model->num_face_sets); write_dummy_names(exoid, EX_SIDE_SET, model->num_side_sets); write_dummy_names(exoid, EX_ELEM_SET, model->num_elem_sets); write_dummy_names(exoid, EX_NODE_MAP, model->num_node_maps); write_dummy_names(exoid, EX_EDGE_MAP, model->num_edge_maps); write_dummy_names(exoid, EX_FACE_MAP, model->num_face_maps); write_dummy_names(exoid, EX_ELEM_MAP, model->num_elem_maps); EX_FUNC_LEAVE(EX_NOERR); /* Fatal error: exit definition mode and return */ error_ret: if ((status = 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(__func__, errmsg, status); } EX_FUNC_LEAVE(EX_FATAL); }