// *=*=*=*=*=*=*=*=*=*=*=*=*=*=*=*=*=*=*=*=*=*=*=*=*=*=*=*=*=*=*=*=*=*=*=*=* // ** Copyright UCAR (c) 1990 - 2016 // ** University Corporation for Atmospheric Research (UCAR) // ** National Center for Atmospheric Research (NCAR) // ** Boulder, Colorado, USA // ** BSD licence applies - redistribution and use in source and binary // ** forms, with or without modification, are permitted provided that // ** the following conditions are met: // ** 1) If the software is modified to produce derivative works, // ** such modified software should be clearly marked, so as not // ** to confuse it with the version available from UCAR. // ** 2) Redistributions of source code must retain the above copyright // ** notice, this list of conditions and the following disclaimer. // ** 3) 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. // ** 4) Neither the name of UCAR nor the names of its contributors, // ** if any, may be used to endorse or promote products derived from // ** this software without specific prior written permission. // ** DISCLAIMER: THIS SOFTWARE IS PROVIDED "AS IS" AND WITHOUT ANY EXPRESS // ** OR IMPLIED WARRANTIES, INCLUDING, WITHOUT LIMITATION, THE IMPLIED // ** WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. // *=*=*=*=*=*=*=*=*=*=*=*=*=*=*=*=*=*=*=*=*=*=*=*=*=*=*=*=*=*=*=*=*=*=*=*=* /********************************************************************* * MaxStatCalc: Class for calculating the maximum statistic. * * RAP, NCAR, Boulder CO * * July 2004 * * Nancy Rehak * *********************************************************************/ #include #include using namespace std; /********************************************************************** * Constructor */ MaxStatCalc::MaxStatCalc(const bool debug_flag, const bool check_z_levels) : StatCalc(debug_flag, check_z_levels) { } /********************************************************************** * Destructor */ MaxStatCalc::~MaxStatCalc(void) { } /********************************************************************** * calcStatistic() - Calculate the statistic field using the given * information. */ MdvxField *MaxStatCalc::calcStatistic(const DsMdvx &climo_file, const MdvxField &data_field, const DateTime &climo_time) { // Construct the statistic field name string stat_field_name = data_field.getFieldHeader().field_name_long; // Extract the existing maximum field from the climatolog file, if // there is one. If there is an existing field, we will update // the running maximum. If there isn't an existing field, we will // create a new one. string climo_field_name = StatNamer::getStatFieldName(Mdvx::CLIMO_TYPE_MAX, stat_field_name).substr(0, MDV_LONG_FIELD_LEN); MdvxField *curr_max_field = climo_file.getField(climo_field_name.c_str()); MdvxField *new_max_field = 0; if (curr_max_field == 0) { if (_debug) cerr << " Creating " << climo_field_name << " statistic" << endl; new_max_field = _createField(data_field, climo_time); } else { if (_debug) cerr << " Updating " << climo_field_name << " statistic" << endl; new_max_field = _updateField(climo_file, data_field, *curr_max_field); } return new_max_field; } /********************************************************************** * Private Member Functions * **********************************************************************/ /********************************************************************* * _createField() - Create a new maximum climatology field from the * given data field. * * Return the newly created field on success, 0 on failure. */ MdvxField *MaxStatCalc::_createField(const MdvxField &data_field, const DateTime &climo_time) const { static const string method_name = "MaxStatCalc::_createField()"; // Create the field header Mdvx::field_header_t field_hdr = data_field.getFieldHeader();; field_hdr.forecast_delta = 0; field_hdr.forecast_time = climo_time.utime(); field_hdr.compression_type = Mdvx::COMPRESSION_NONE; STRcopy(field_hdr.field_name_long, StatNamer::getStatFieldName(Mdvx::CLIMO_TYPE_MAX, field_hdr.field_name_long).c_str(), MDV_LONG_FIELD_LEN); STRcopy(field_hdr.field_name, StatNamer::getStatFieldName(Mdvx::CLIMO_TYPE_MAX, field_hdr.field_name).c_str(), MDV_SHORT_FIELD_LEN); return new MdvxField(field_hdr, data_field.getVlevelHeader(), data_field.getVol()); } /********************************************************************* * _updateField() - Create a new maximum climatology field that is an * update of the current maximum field using the given * information. * * Return the newly created field on success, 0 on failure. */ MdvxField *MaxStatCalc::_updateField(const DsMdvx &climo_file, const MdvxField &data_field, const MdvxField &curr_max_field) const { static const string method_name = "MaxStatCalc::_updateField()"; // Make sure the fields match so we can update the climos if (!_fieldsMatch(data_field, curr_max_field)) return 0; // Create the new field as a copy of the original field MdvxField *new_max_field = new MdvxField(curr_max_field); // Loop through the new field values, updating the stat value // wherever we have new data. Mdvx::field_header_t max_field_hdr = new_max_field->getFieldHeader(); Mdvx::field_header_t data_field_hdr = data_field.getFieldHeader(); fl32 *max_data = (fl32 *)new_max_field->getVol(); fl32 *data = (fl32 *)data_field.getVol(); int volume_size = max_field_hdr.nx * max_field_hdr.ny * max_field_hdr.nz; for (int i = 0; i < volume_size; ++i) { if (data[i] == data_field_hdr.missing_data_value || data[i] == data_field_hdr.bad_data_value) continue; if (max_data[i] == max_field_hdr.missing_data_value || max_data[i] == max_field_hdr.bad_data_value) { max_data[i] = data[i]; } else { if (data[i] > max_data[i]) max_data[i] = data[i]; } } /* endfor - i */ return new_max_field; }