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SwRI can revise these Terms at any time * without notice by updating this posting. * * Trademarks * * The SwRI logo is a trademark of SwRI in the United States and other countries. * */ #ident "@(#) def_sen.c 1.21 05/08/19 SwRI" #include #include "ret_codes.h" #include "gen_defs.h" #include "user_defs.h" #include "libtrec_idfs.h" /******************************************************************************* * * * IR_DEFAULT_FILL_SEN SUBROUTINE * * * * DESCRIPTION * * This routine is called to check to see if prior call(s) to the * * FILL_SENSOR_INFO routine have been made for the current data set being * * processed by the FILL_DATA routine. The FILL_SENSOR_INFO routine saves * * information that is pertinent to the FILL_DATA routine, such as the number * * of different data levels being processed, the table application/table * * order values and the minimum/maximum data values to include when processing* * the sensor of interest. If prior calls have not been made, a default call * * for each sensor that is to be processed is made to return SENSOR data in * * raw units, including all data between VALID_MIN and VALID_MAX. In * * addition, a check is made to ensure that there was a call to * * FILL_SENSOR_INFO for EACH sensor that is being processed.(user may have * * called for only some of the sensors). If a sensor is found to be missing, * * a call is made to return SENSOR data in raw units, including all data * * between VALID_MIN and VALID_MAX. * * * * INPUT VARIABLES * * None * * * * USAGE * * x = ir_default_fill_sen () * * * * NECESSARY SUBPROGRAMS * * fill_sensor_info () saves information for use by the FILL_DATA * * routine * * * * EXTERNAL VARIABLES * * struct general_info ginfo structure that holds information concerning * * the experiment that is being processed * * * * INTERNAL VARIABLES * * struct experiment_info *ex a pointer to the structure that holds * * specific experiment information * * struct fill_sensor *sptr pointer to the fill_sensor structure being * * processed * * register SDDAS_SHORT i looping variable * * register SDDAS_SHORT sensor variable used to loop over all sensors * * SDDAS_ULONG data_key key which uniquely identifies the data set * * being processed * * SDDAS_USHORT vnum version number to be associated with this * * combination (allows for multiple opens) * * SDDAS_FLOAT sen_min the lower cutoff value for data values * * SDDAS_FLOAT sen_max the upper cutoff value for data values * * SDDAS_SHORT ret_val holds value returned by called routine * * SDDAS_LONG *tbl_oper array of operations to be applied to tables * * SDDAS_CHAR *tbls_to_apply array of tables to be applied * * SDDAS_CHAR exten[] filename extension for the data to be used * * char match flag used to determine if all sensor info * * is available * * * * SUBSYSTEM * * Display Level * * * ******************************************************************************/ SDDAS_SHORT ir_default_fill_sen (void) { extern struct general_info ginfo; struct experiment_info *ex; struct fill_sensor *sptr; register SDDAS_SHORT sensor, i; SDDAS_ULONG data_key; SDDAS_USHORT vnum; SDDAS_FLOAT sen_min, sen_max; SDDAS_LONG *tbl_oper = NO_MEMORY; SDDAS_SHORT ret_val; SDDAS_CHAR *tbls_to_apply = NO_MEMORY, exten[3]; char match; /*******************************************************************/ /* A call to FILL_SENSOR_INFO was not made for this combination. */ /* If the data_name is an empty string, the data base did not */ /* have data for the virtual and experiment in question. */ /*******************************************************************/ ex = ginfo.expt; data_key = ex->data_key; vnum = ex->version; strcpy (exten, ex->exten); if (ex->num_fill_sensor == 0 && ex->data_name[0] != '\0') { /*****************************************************************/ /* For all sensors to be processed, call FILL_SENSOR_INFO, */ /* selecting SENSOR data to be returned in raw units, including */ /* all values between VALID_MIN and VALID_MAX. Pass in variables*/ /* instead of define stmts to avoid rounding. */ /*****************************************************************/ sen_min = VALID_MIN; sen_max = VALID_MAX; for (sensor = 0; sensor < ex->num_sensor; ++sensor) if (ex->sensors_needed[sensor] != 0) { ret_val = fill_sensor_info (data_key, exten, vnum, sensor, sen_min, sen_max, 0, tbls_to_apply, tbl_oper, SENSOR, 0); if (ret_val != ALL_OKAY) return (ret_val); } } /********************************************************************/ /* Check to make sure that FILL_SENSOR_INFO was called for all */ /* sensors that are to be processed. */ /********************************************************************/ else if (ex->num_fill_sensor != 0) { /*****************************************************************/ /* Loop over all defined sensors. */ /*****************************************************************/ for (sensor = 0; sensor < ex->num_sensor; ++sensor) if (ex->sensors_needed[sensor] != 0) { /**************************************************************/ /* Find the sensor being checked to see if FILL_SENSOR_INFO */ /* was called for this sensor. */ /**************************************************************/ for (match = 0, i = 0; i < ex->num_fill_sensor; ++i) { sptr = ex->fill_sen_ptr + i; if (sensor == sptr->sensor_num) { match = 1; break; } } /**************************************************************/ /* FILL_SENSOR_INFO was not called for this sensor so a call */ /* is made to ask for raw units for this sensor. Pass in */ /* variables instead of define stmts to avoid rounding. */ /**************************************************************/ if (!match) { sen_min = VALID_MIN; sen_max = VALID_MAX; ret_val = fill_sensor_info (data_key, exten, vnum, sensor, sen_min, sen_max, 0, tbls_to_apply, tbl_oper, SENSOR, 0); if (ret_val != ALL_OKAY) return (ret_val); } } } return (ALL_OKAY); }