/* * (C) Copyright 2005- ECMWF. * * This software is licensed under the terms of the Apache Licence Version 2.0 * which can be obtained at http://www.apache.org/licenses/LICENSE-2.0. * * In applying this licence, ECMWF does not waive the privileges and immunities granted to it by * virtue of its status as an intergovernmental organisation nor does it submit to any jurisdiction. */ /* * C Implementation: bufr_read_synop * * Description: how to read SYNOP BUFR messages. * */ /* * Please note that SYNOP reports can be encoded in various ways in BUFR. Therefore the code * below might not work directly for other types of SYNOP messages than the one used in the * example. It is advised to use bufr_dump to understand the structure of the messages. */ #include "eccodes.h" int main(int argc, char* argv[]) { FILE* in = NULL; /* message handle. Required in all the eccodes calls acting on a message.*/ codes_handle* h = NULL; long longVal; double doubleVal; int err = 0; int cnt = 0; const char* infile = "../../data/bufr/syno_multi.bufr"; in = fopen(infile, "rb"); if (!in) { fprintf(stderr, "Error: unable to open file %s\n", infile); return 1; } /* loop over the messages in the BUFR file */ while ((h = codes_handle_new_from_file(NULL, in, PRODUCT_BUFR, &err)) != NULL || err != CODES_SUCCESS) { if (h == NULL) { fprintf(stderr, "Error: unable to create handle for message %d\n", cnt); cnt++; continue; } printf("message: %d\n", cnt); /* we need to instruct ecCodes to unpack the data values */ CODES_CHECK(codes_set_long(h, "unpack", 1), 0); /* station id*/ CODES_CHECK(codes_get_long(h, "blockNumber", &longVal), 0); printf(" blockNumber: %ld\n", longVal); CODES_CHECK(codes_get_long(h, "stationNumber", &longVal), 0); printf(" stationNumber: %ld\n", longVal); /* location*/ CODES_CHECK(codes_get_double(h, "latitude", &doubleVal), 0); printf(" latitude: %f\n", doubleVal); CODES_CHECK(codes_get_double(h, "longitude", &doubleVal), 0); printf(" longitude: %f\n", doubleVal); /* 2m temperature */ CODES_CHECK(codes_get_double(h, "airTemperatureAt2M", &doubleVal), 0); printf(" airTemperatureAt2M: %f\n", doubleVal); /* 2m dewpoint temperature */ CODES_CHECK(codes_get_double(h, "dewpointTemperatureAt2M", &doubleVal), 0); printf(" dewpointTemperatureAt2M: %f\n", doubleVal); /* 10 wind */ CODES_CHECK(codes_get_double(h, "windSpeedAt10M", &doubleVal), 0); printf(" windSpeedAt10M: %f\n", doubleVal); CODES_CHECK(codes_get_double(h, "windDirectionAt10M", &doubleVal), 0); printf(" windDirectionAt10M: %f\n", doubleVal); /* The cloud information is stored in several blocks in the * SYNOP message and the same key means a different thing in different * parts of the message. In this example we will read the first * cloud block introduced by the key * verticalSignificanceSurfaceObservations=1. * We know that this is the first occurrence of the keys we want to * read so we will use the # (occurrence) operator accordingly. */ /* Cloud amount (low and middleclouds) */ CODES_CHECK(codes_get_long(h, "#1#cloudAmount", &longVal), 0); printf(" cloudAmount (low and middle): %ld\n", longVal); /* Height of cloud base */ CODES_CHECK(codes_get_long(h, "#1#heightOfBaseOfCloud", &longVal), 0); printf(" heightOfBaseOfCloud: %ld\n", longVal); /* Cloud type (low clouds) */ CODES_CHECK(codes_get_long(h, "#1#cloudType", &longVal), 0); printf(" cloudType (low): %ld\n", longVal); /* Cloud type (middle clouds) */ CODES_CHECK(codes_get_long(h, "#2#cloudType", &longVal), 0); printf(" cloudType (middle): %ld\n", longVal); /* Cloud type (high clouds) */ CODES_CHECK(codes_get_long(h, "#3#cloudType", &longVal), 0); printf(" cloudType (high): %ld\n", longVal); /* delete handle */ codes_handle_delete(h); cnt++; } fclose(in); return 0; }