| Tabs Page |
|---|
| | Code Block |
|---|
| language | none |
|---|
| title | bufr_read_synop.f90 |
|---|
| linenumbers | false |
|---|
| !
!Copyright 2005-20162017 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.
!
!
! FORTRAN 90 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 first to understand the structure of these messages.
!
!
program bufr_read_synop
use eccodes
implicit none
integer :: ifile
integer :: iret
integer :: ibufr
integer :: count=0
integer(kind=4) :: blockNumber,stationNumber
real(kind=8) :: lat,t2m,td2m,ws,wdir
integer(kind=4) :: cloudAmount,cloudBaseHeight,lowCloud,midCloud,highCloud
call codes_open_file(ifile,'../../data/bufr/syno_multi.bufr','r')
! theThe first bufr message is loaded from file,
! ibufr is the bufr id to be used in subsequent calls
call codes_bufr_new_from_file(ifile,ibufr,iret)
do while (iret/=CODES_END_OF_FILE)
write(*,*) 'message: ',count
! weWe need to instruct ecCodes to expand all the descriptors
! i.e. unpack the data values
call codes_set(ibufr,"unpack",1)
!read and print some data values. This example was written
! for a SYNOP BUFR file!
! wmo block number
call codes_get(ibufr,'blockNumber',blockNumber)
write(*,*) ' blockNumber:',blockNumber
! station number
call codes_get(ibufr,'stationNumber',stationNumber)
write(*,*) ' stationNumber:',stationNumber
! location
call codes_get(ibufr,'latitude',lat)
write(*,*) ' latitude:',lat
call codes_get(ibufr,'longitude',lat)
write(*,*) ' longitude:',lat
! 2m temperature
call codes_get(ibufr,'airTemperatureAt2M',t2m);
write(*,*) ' airTemperatureAt2M:',t2m
! 2m dewpoint temperature
call codes_get(ibufr,'dewpointTemperatureAt2M',td2m);
write(*,*) ' dewpointTemperatureAt2M:',td2m
! 10m wind
call codes_get(ibufr,'windSpeedAt10M',ws);
write(*,*) ' windSpeedAt10M:',ws
call codes_get(ibufr,'windDirectionAt10M',wdir);
write(*,*) ' windDirectionAt10M:',wdir
! 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)
call codes_get(ibufr,'#1#cloudAmount',cloudAmount)
write(*,*) ' cloudAmount (low and middle):',cloudAmount
! Height of cloud base
call codes_get(ibufr,'#1#heightOfBaseOfCloud',cloudBaseHeight)
write(*,*) ' heightOfBaseOfCloud:',cloudBaseHeight
! Cloud type (low clouds)
call codes_get(ibufr,'#1#cloudType',lowCloud)
write(*,*) ' cloudType (low):',lowCloud
! Cloud type (middle clouds)
call codes_get(ibufr,'#2#cloudType',midCloud)
write(*,*) ' cloudType (middle):',midCloud
! Cloud type (high clouds)
call codes_get(ibufr,'#3#cloudType',highCloud)
write(*,*) ' cloudType (high):',highCloud
! releaseRelease the bufr message
call codes_release(ibufr)
! loadLoad the next bufr message
call codes_bufr_new_from_file(ifile,ibufr,iret)
count=count+1
end do
! closeClose file
call codes_close_file(ifile)
end program bufr_read_synop
|
|
| Tabs Page |
|---|
| | Code Block |
|---|
| language | python |
|---|
| title | bufr_read_synop.py |
|---|
| linenumbers | false |
|---|
| # Copyright 2005-20162017 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.
#
# Python implementation: bufr_read_synop
#
# Description: how to read data values from 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.
import traceback
import sys
from eccodes import *
INPUT = '../../data/bufr/syno_multi.bufr'
VERBOSE = 1 # verbose error reporting
def example():
# open bufr file
f = open(INPUT)
# define the keys to be printed
keys = [
'blockNumber',
'stationNumber',
'latitude',
'longitude',
'airTemperatureAt2M',
'dewpointTemperatureAt2M',
'windSpeedAt10M',
'windDirectionAt10M',
'#1#cloudAmount', # cloud amount (low and mid level)
'#1#heightOfBaseOfCloud',
'#1#cloudType', # cloud type (low clouds)
'#2#cloudType', # cloud type (middle clouds)
'#3#cloudType' # cloud type (highclouds)
]
# 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 in the list above we used the # (occurrence) operator
# accordingly.
cnt = 0
# loop for the messages in the file
while 1:
# get handle for message
bufr = codes_bufr_new_from_file(f)
if bufr is None:
break
print "message: %s" % cnt
# we need to instruct ecCodes to expand all the descriptors
# i.e. unpack the data values
codes_set(bufr, 'unpack', 1)
# print the values for the selected keys from the message
for key in keys:
try:
print ' %s: %s' % (key, codes_get(bufr, key))
except CodesInternalError as err:
print 'Error with key="%s" : %s' % (key, err.msg)
cnt += 1
# delete handle
codes_release(bufr)
# close the file
f.close()
def main():
try:
example()
except CodesInternalError as err:
if VERBOSE:
traceback.print_exc(file=sys.stderr)
else:
sys.stderr.write(err.msg + '\n')
return 1
if __name__ == "__main__":
sys.exit(main())
|
|
| Tabs Page |
|---|
| | Code Block |
|---|
| language | cpp |
|---|
| title | bufr_read_synop.c |
|---|
| linenumbers | false |
|---|
| /*
* Copyright 2005-20162017 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"
void usage(char* prog) {
printf("usage: %s infile\n",prog);
exit(1);
}
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;
char* infile = "../../data/bufr/syno_multi.bufr";
in=fopen(infile,"r");
if (!in) {
printf("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) {
printf("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;
}
|
|
|