/* * Copyright (c) 1998 Sandia Corporation. Under the terms of Contract * DE-AC04-94AL85000 with Sandia Corporation, the U.S. Governement * retains certain rights in this software. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are * met: * * * Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * * Redistributions in binary form must reproduce the above * copyright notice, this list of conditions and the following * disclaimer in the documentation and/or other materials provided * with the distribution. * * * Neither the name of Sandia Corporation nor the names of its * contributors may be used to endorse or promote products derived * from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * */ /*****************************************************************************/ /*****************************************************************************/ /* Function(s) contained in this file: * ex_get_loadbal_param() ***************************************************************************** * This function retrieves the load balance parameters. ***************************************************************************** * Variable Index: * exoid - The NetCDF ID of an already open NemesisI file. * num_int_nodes - The number of internal FEM nodes. * num_bor_nodes - The number of border FEM nodes. * num_ext_nodes - The number of external FEM nodes. * num_int_elems - The number of internal FEM elements. * num_bor_elems - The number of border FEM elements. * num_node_cmaps - The number of nodal communication maps. * num_elem_cmaps - The number of elemental communication maps. * processor - The processor the file being read was written for. */ /*****************************************************************************/ /*****************************************************************************/ /*****************************************************************************/ #include #include #include "exodusII.h" #include "exodusII_int.h" int ex_get_loadbal_param(int exoid, void_int *num_int_nodes, void_int *num_bor_nodes, void_int *num_ext_nodes, void_int *num_int_elems, void_int *num_bor_elems, void_int *num_node_cmaps, void_int *num_elem_cmaps, int processor ) { const char *func_name="ex_get_loadbal_param"; int dimid, varid, status; size_t start[1]; size_t nin, nbn, nen, nie, nbe, nncm, necm; int64_t varidx[2]; char ftype[2]; int nmstat; char errmsg[MAX_ERR_LENGTH]; /*-----------------------------Execution begins-----------------------------*/ if (ex_int64_status(exoid) & EX_BULK_INT64_API) { *(int64_t*)num_int_nodes = 0; *(int64_t*)num_bor_nodes = 0; *(int64_t*)num_ext_nodes = 0; *(int64_t*)num_int_elems = 0; *(int64_t*)num_bor_elems = 0; *(int64_t*)num_node_cmaps = 0; *(int64_t*)num_elem_cmaps = 0; } else { *(int*)num_int_nodes = 0; *(int*)num_bor_nodes = 0; *(int*)num_ext_nodes = 0; *(int*)num_int_elems = 0; *(int*)num_bor_elems = 0; *(int*)num_node_cmaps = 0; *(int*)num_elem_cmaps = 0; } exerrval = 0; /* clear error code */ /* Check the file version information */ if ((dimid=ne_check_file_version(exoid)) != EX_NOERR) return (dimid); /* Get the file type */ if (ex_get_file_type(exoid, ftype) != EX_NOERR) { exerrval = EX_MSG; sprintf(errmsg, "Error: unable to find file type for file ID %d", exoid); ex_err(func_name, errmsg, exerrval); return (EX_FATAL); } /* Get the status for this node map */ if ((status = nc_inq_varid(exoid, VAR_INT_N_STAT, &varid)) != NC_NOERR) { exerrval = status; sprintf(errmsg, "Error: failed to find variable ID for \"%s\" from file ID %d", VAR_INT_N_STAT, exoid); ex_err(func_name, errmsg, exerrval); return (EX_FATAL); } if (ftype[0] == 's') start[0] = processor; else start[0] = 0; if ((status = nc_get_var1_int(exoid, varid, start, &nmstat)) != NC_NOERR) { exerrval = status; sprintf(errmsg, "Error: failed to get status for \"%s\" from file ID %d", VAR_INT_N_STAT, exoid); ex_err(func_name, errmsg, exerrval); return (EX_FATAL); } if (nmstat == 1) { if (ex_get_idx(exoid, VAR_NODE_MAP_INT_IDX, varidx, processor) == -1) { exerrval = status; sprintf(errmsg, "Error: failed to find index variable, \"%s\", in file ID %d", VAR_NODE_MAP_INT_IDX, exoid); ex_err(func_name, errmsg, exerrval); return (EX_FATAL); } /* check if I need to get the dimension of the internal node map */ if (varidx[1] == -1) { /* Get the dimension ID for the number of internal nodes */ if ((status = nc_inq_dimid(exoid, DIM_NUM_INT_NODES, &dimid)) != NC_NOERR) { exerrval = status; sprintf(errmsg, "Error: failed to find dimension ID for \"%s\" in file ID %d", DIM_NUM_INT_NODES, exoid); ex_err(func_name, errmsg, exerrval); return (EX_FATAL); } /* * Get the value of the dimension representing the total number of * internal FEM nodes. */ if ((status = nc_inq_dimlen(exoid, dimid, &nin)) != NC_NOERR) { exerrval = status; sprintf(errmsg, "Error: failed to find length of dimension \"%s\" in file ID %d", DIM_NUM_INT_NODES, exoid); ex_err(func_name, errmsg, exerrval); return (EX_FATAL); } /* set the end value for the node map */ varidx[1] = nin; } /* End "if (varidx[1] = -1)" */ /* now get the number of nodes */ if (ex_int64_status(exoid) & EX_BULK_INT64_API) { *(int64_t*)num_int_nodes = varidx[1] - varidx[0]; } else { *(int*)num_int_nodes = varidx[1] - varidx[0]; } } /* Get the status for this node map */ if ((status = nc_inq_varid(exoid, VAR_BOR_N_STAT, &varid)) != NC_NOERR) { exerrval = status; sprintf(errmsg, "Error: failed to find variable ID for \"%s\" from file ID %d", VAR_BOR_N_STAT, exoid); ex_err(func_name, errmsg, exerrval); return (EX_FATAL); } if (ftype[0] == 's') start[0] = processor; else start[0] = 0; if ((status = nc_get_var1_int(exoid, varid, start, &nmstat)) != NC_NOERR) { exerrval = status; sprintf(errmsg, "Error: failed to get status for \"%s\" from file ID %d", VAR_BOR_N_STAT, exoid); ex_err(func_name, errmsg, exerrval); return (EX_FATAL); } if (nmstat == 1) { if (ex_get_idx(exoid, VAR_NODE_MAP_BOR_IDX, varidx, processor) == -1) { exerrval = status; sprintf(errmsg, "Error: failed to find index variable, \"%s\", in file ID %d", VAR_NODE_MAP_BOR_IDX, exoid); ex_err(func_name, errmsg, exerrval); return (EX_FATAL); } /* check if I need to get the dimension of the border node map */ if (varidx[1] == -1) { /* Get the dimension ID for the number of border nodes */ if ((status = nc_inq_dimid(exoid, DIM_NUM_BOR_NODES, &dimid)) != NC_NOERR) { exerrval = status; sprintf(errmsg, "Error: failed to find dimension ID for \"%s\" in file ID %d", DIM_NUM_BOR_NODES, exoid); ex_err(func_name, errmsg, exerrval); return (EX_FATAL); } /* * Get the value of the dimension representing the number of border * FEM nodes. */ if ((status = nc_inq_dimlen(exoid, dimid, &nbn)) != NC_NOERR) { exerrval = status; sprintf(errmsg, "Error: failed to find length of dimension \"%s\" in file ID %d", DIM_NUM_BOR_NODES, exoid); ex_err(func_name, errmsg, exerrval); return (EX_FATAL); } /* set the end value for the node map */ varidx[1] = nbn; } /* End "if (varidx[1] == -1)" */ /* now calculate the number of nodes */ if (ex_int64_status(exoid) & EX_BULK_INT64_API) { *(int64_t*)num_bor_nodes = varidx[1] - varidx[0]; } else { *(int*)num_bor_nodes = varidx[1] - varidx[0]; } } /* Get the status for this node map */ if ((status = nc_inq_varid(exoid, VAR_EXT_N_STAT, &varid)) != NC_NOERR) { exerrval = status; sprintf(errmsg, "Error: failed to find variable ID for \"%s\" from file ID %d", VAR_EXT_N_STAT, exoid); ex_err(func_name, errmsg, exerrval); return (EX_FATAL); } if (ftype[0] == 's') start[0] = processor; else start[0] = 0; if ((status = nc_get_var1_int(exoid, varid, start, &nmstat)) != NC_NOERR) { exerrval = status; sprintf(errmsg, "Error: failed to get status for \"%s\" from file ID %d", VAR_EXT_N_STAT, exoid); ex_err(func_name, errmsg, exerrval); return (EX_FATAL); } if (nmstat == 1) { if (ex_get_idx(exoid, VAR_NODE_MAP_EXT_IDX, varidx, processor) == -1) { exerrval = status; sprintf(errmsg, "Error: failed to find index variable, \"%s\", in file ID %d", VAR_NODE_MAP_EXT_IDX, exoid); ex_err(func_name, errmsg, exerrval); return (EX_FATAL); } /* check if I need to get the dimension of the external node map */ if (varidx[1] == -1) { /* Get the dimension ID for the number of external nodes */ if ((status = nc_inq_dimid(exoid, DIM_NUM_EXT_NODES, &dimid)) != NC_NOERR) { exerrval = status; sprintf(errmsg, "Error: failed to find dimension ID for \"%s\" in file ID %d", DIM_NUM_EXT_NODES, exoid); ex_err(func_name, errmsg, exerrval); return (EX_FATAL); } /* * Get the value of the dimension representing the number of external * FEM nodes. */ if ((status = nc_inq_dimlen(exoid, dimid, &nen)) != NC_NOERR) { exerrval = status; sprintf(errmsg, "Error: failed to find length of dimension \"%s\" in file ID %d", DIM_NUM_EXT_NODES, exoid); ex_err(func_name, errmsg, exerrval); return (EX_FATAL); } /* set the end value for the node map */ varidx[1] = nen; } /* End "if (varidx[1] == -1)" */ /* now get the number of nodes */ if (ex_int64_status(exoid) & EX_BULK_INT64_API) { *(int64_t*)num_ext_nodes = varidx[1] - varidx[0]; } else { *(int*)num_ext_nodes = varidx[1] - varidx[0]; } } /* Get the status for this element map */ if ((status = nc_inq_varid(exoid, VAR_INT_E_STAT, &varid)) != NC_NOERR) { exerrval = status; sprintf(errmsg, "Error: failed to find variable ID for \"%s\" from file ID %d", VAR_INT_E_STAT, exoid); ex_err(func_name, errmsg, exerrval); return (EX_FATAL); } if (ftype[0] == 's') start[0] = processor; else start[0] = 0; if ((status = nc_get_var1_int(exoid, varid, start, &nmstat)) != NC_NOERR) { exerrval = status; sprintf(errmsg, "Error: failed to get status for \"%s\" from file ID %d", VAR_INT_E_STAT, exoid); ex_err(func_name, errmsg, exerrval); return (EX_FATAL); } if (nmstat == 1) { if (ex_get_idx(exoid, VAR_ELEM_MAP_INT_IDX, varidx, processor) == -1) { exerrval = status; sprintf(errmsg, "Error: failed to find index variable, \"%s\", in file ID %d", VAR_ELEM_MAP_INT_IDX, exoid); ex_err(func_name, errmsg, exerrval); return (EX_FATAL); } /* check if I need to get the dimension of the internal element map */ if (varidx[1] == -1) { /* Get the dimension ID for the number of internal elements */ if ((status = nc_inq_dimid(exoid, DIM_NUM_INT_ELEMS, &dimid)) != NC_NOERR) { exerrval = status; sprintf(errmsg, "Error: failed to find dimension ID for \"%s\" from file ID %d", DIM_NUM_INT_ELEMS, exoid); ex_err(func_name, errmsg, exerrval); return (EX_FATAL); } /* * Get the value of the dimension representing the number of internal * FEM elements. */ if ((status = nc_inq_dimlen(exoid, dimid, &nie)) != NC_NOERR) { exerrval = status; sprintf(errmsg, "Error: failed to find length of dimesion \"%s\" in file ID %d", DIM_NUM_INT_ELEMS, exoid); ex_err(func_name, errmsg, exerrval); return (EX_FATAL); } /* set the end value for the node map */ varidx[1] = nie; } /* End "if (varidx[1] == -1)" */ /* now get the number of elements */ if (ex_int64_status(exoid) & EX_BULK_INT64_API) { *(int64_t*)num_int_elems = varidx[1] - varidx[0]; } else { *(int*)num_int_elems = varidx[1] - varidx[0]; } } /* Get the status for this element map */ if ((status = nc_inq_varid(exoid, VAR_BOR_E_STAT, &varid)) != NC_NOERR) { exerrval = status; sprintf(errmsg, "Error: failed to find variable ID for \"%s\" from file ID %d", VAR_BOR_E_STAT, exoid); ex_err(func_name, errmsg, exerrval); return (EX_FATAL); } if (ftype[0] == 's') start[0] = processor; else start[0] = 0; if ((status = nc_get_var1_int(exoid, varid, start, &nmstat)) != NC_NOERR) { exerrval = status; sprintf(errmsg, "Error: failed to get status for \"%s\" from file ID %d", VAR_BOR_E_STAT, exoid); ex_err(func_name, errmsg, exerrval); return (EX_FATAL); } if (nmstat == 1) { if (ex_get_idx(exoid, VAR_ELEM_MAP_BOR_IDX, varidx, processor) == -1) { exerrval = status; sprintf(errmsg, "Error: failed to find index variable, \"%s\", in file ID %d", VAR_ELEM_MAP_BOR_IDX, exoid); ex_err(func_name, errmsg, exerrval); return (EX_FATAL); } /* check if I need to get the dimension of the border element map */ if (varidx[1] == -1) { /* Get the dimension ID for the number of border elements */ if ((status = nc_inq_dimid(exoid, DIM_NUM_BOR_ELEMS, &dimid)) != NC_NOERR) { exerrval = status; sprintf(errmsg, "Error: failed to find dimension ID for \"%s\" from file ID %d", DIM_NUM_BOR_ELEMS, exoid); ex_err(func_name, errmsg, exerrval); return (EX_FATAL); } /* * Get the value of the dimension representing the number of border * FEM elements. */ if ((status = nc_inq_dimlen(exoid, dimid, &nbe)) != NC_NOERR) { exerrval = status; sprintf(errmsg, "Error: failed to find length of dimesion \"%s\" in file ID %d", DIM_NUM_BOR_ELEMS, exoid); ex_err(func_name, errmsg, exerrval); return (EX_FATAL); } /* set the end value for the node map */ varidx[1] = nbe; } /* End "if (varidx[1] == -1)" */ /* now get the number of nodes */ if (ex_int64_status(exoid) & EX_BULK_INT64_API) { *(int64_t*)num_bor_elems = varidx[1] - varidx[0]; } else { *(int*)num_bor_elems = varidx[1] - varidx[0]; } } /* End "if (nmstat == 1)" */ if (ex_get_idx(exoid, VAR_N_COMM_INFO_IDX, varidx, processor) == -1) { exerrval = status; sprintf(errmsg, "Error: failed to find index variable, \"%s\", in file ID %d", VAR_N_COMM_INFO_IDX, exoid); ex_err(func_name, errmsg, exerrval); return (EX_FATAL); } /* check if I need to get the dimension of the nodal comm map */ if (varidx[1] == -1) { /* Get the nodal comm map information */ if ((status = nc_inq_dimid(exoid, DIM_NUM_N_CMAPS, &dimid)) != NC_NOERR) varidx[1] = 0; else { if ((status = nc_inq_dimlen(exoid, dimid, &nncm)) != NC_NOERR) { exerrval = status; sprintf(errmsg, "Error: failed to find length of dimension \"%s\" in file ID %d", DIM_NUM_N_CMAPS, exoid); ex_err(func_name, errmsg, exerrval); return (EX_FATAL); } /* set the end value for the node map */ varidx[1] = nncm; } } /* End "if (varidx[1] == -1)" */ if (ex_int64_status(exoid) & EX_BULK_INT64_API) { *(int64_t*)num_node_cmaps = varidx[1] - varidx[0]; } else { *(int*)num_node_cmaps = varidx[1] - varidx[0]; } if (ex_get_idx(exoid, VAR_E_COMM_INFO_IDX, varidx, processor) == -1) { exerrval = status; sprintf(errmsg, "Error: failed to find index variable, \"%s\", in file ID %d", VAR_E_COMM_INFO_IDX, exoid); ex_err(func_name, errmsg, exerrval); return (EX_FATAL); } /* check if I need to get the dimension of the elemental comm map */ if (varidx[1] == -1) { /* Get the elemental comm map information */ if ((status = nc_inq_dimid(exoid, DIM_NUM_E_CMAPS, &dimid)) != NC_NOERR) varidx[1] = 0; else { if ((status = nc_inq_dimlen(exoid, dimid, &necm)) != NC_NOERR) { exerrval = status; sprintf(errmsg, "Error: failed to find length of dimension \"%s\" in file ID %d", DIM_NUM_E_CMAPS, exoid); ex_err(func_name, errmsg, exerrval); return (EX_FATAL); } /* set the end value for the node map */ varidx[1] = necm; } } /* End "if (varidx[1] == -1)" */ if (ex_int64_status(exoid) & EX_BULK_INT64_API) { *(int64_t*)num_elem_cmaps = varidx[1] - varidx[0]; } else { *(int*)num_elem_cmaps = varidx[1] - varidx[0]; } return (EX_NOERR); }