Esempio n. 1
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def command_query(ns):
    """
    Command to query given BUFR files.
    """
    decoder = Decoder(definitions_dir=ns.definitions_directory,
                      tables_root_dir=ns.tables_root_directory,
                      compiled_template_cache_max=ns.compiled_template_cache_max)

    for filename in ns.filenames:
        with open(filename, 'rb') as ins:
            s = ins.read()

        if ns.query_string.strip()[0] == '%':
            bufr_message = decoder.process(s, file_path=filename, info_only=True)
            from pybufrkit.mdquery import MetadataExprParser, MetadataQuerent
            querent = MetadataQuerent(MetadataExprParser())
            value = querent.query(bufr_message, ns.query_string)
            print(filename)
            print(value)

        else:
            bufr_message = decoder.process(s, file_path=filename, wire_template_data=True,
                                           ignore_value_expectation=ns.ignore_value_expectation)
            from pybufrkit.dataquery import NodePathParser, DataQuerent
            querent = DataQuerent(NodePathParser())
            query_result = querent.query(bufr_message, ns.query_string)
            if ns.json:
                if ns.nested:
                    print(json.dumps(NestedJsonRenderer().render(query_result), **JSON_DUMPS_KWARGS))
                else:
                    print(json.dumps(FlatJsonRenderer().render(query_result), **JSON_DUMPS_KWARGS))
            else:
                print(filename)
                print(FlatTextRenderer().render(query_result))
Esempio n. 2
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def command_subset(ns):
    """
    Command to subset and save the given BUFR file.
    """
    decoder = Decoder(
        definitions_dir=ns.definitions_directory,
        tables_root_dir=ns.tables_root_directory,
        compiled_template_cache_max=ns.compiled_template_cache_max)
    encoder = Encoder(
        definitions_dir=ns.definitions_directory,
        tables_root_dir=ns.tables_root_directory,
        compiled_template_cache_max=ns.compiled_template_cache_max)

    subset_indices = [int(x) for x in ns.subset_indices.split(',')]
    with open(ns.filename, 'rb') as ins:
        s = ins.read()

    bufr_message = decoder.process(
        s,
        file_path=ns.filename,
        wire_template_data=False,
        ignore_value_expectation=ns.ignore_value_expectation)

    data = bufr_message.subset(subset_indices)
    nb = encoder.process(data,
                         file_path=ns.output_filename,
                         wire_template_data=False)

    with open(ns.output_filename, 'wb') as outs:
        outs.write(nb.serialized_bytes)
Esempio n. 3
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def command_compile(ns):
    """
    Command to compile the given descriptors.
    """
    from pybufrkit.templatecompiler import TemplateCompiler
    template_compiler = TemplateCompiler()

    if os.path.exists(ns.input):
        decoder = Decoder(definitions_dir=ns.definitions_directory,
                          tables_root_dir=ns.tables_root_directory)
        with open(ns.input, 'rb') as ins:
            bufr_message = decoder.process(ins.read(),
                                           file_path=ns.input,
                                           info_only=True)
            template, table_group = bufr_message.build_template(
                ns.tables_root_directory, normalize=1)
    else:
        table_group = TableGroupCacheManager.get_table_group(
            ns.tables_root_directory, ns.master_table_number,
            ns.originating_centre, ns.originating_subcentre,
            ns.master_table_version, ns.local_table_version)
        descriptor_ids = [x.strip() for x in ns.input.split(',')]
        template = table_group.template_from_ids(*descriptor_ids)

    compiled_template = template_compiler.process(template, table_group)
    print(json.dumps(compiled_template.to_dict()))
Esempio n. 4
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def main():
    BUFR_FILE = sys.argv[1]
    print("input: %s" % BUFR_FILE)
    basename  = os.path.basename(BUFR_FILE)
    fname     = basename.split(".")[0]
    gi        = "output/%s.txt" % fname
    print("output: %s" % gi)
    decoder = Decoder()
    with open(BUFR_FILE, 'rb') as ins:
        bufr_message = decoder.process(ins.read())
    slat  = query_1d(bufr_message,'005001')
    slon  = query_1d(bufr_message,'006001')

    #st   = query_1d(bufr_message,'001001')
    #id   = query_1d(bufr_message,'001002')
    #stid = str(st)+str("%0.3i"%id)

    time = np.array(query(bufr_message,'004086'))
    pres = np.array(query(bufr_message,'007004'),dtype=np.float)
    temp = np.array(query(bufr_message,'012101'),dtype=np.float)
    dewp = np.array(query(bufr_message,'012103'),dtype=np.float)
    geop = np.array(query(bufr_message,'010009'),dtype=np.float)
    wdir = np.array(query(bufr_message,'011001'),dtype=np.float)
    wspd = np.array(query(bufr_message,'011002'),dtype=np.float)
    dlat = np.array(query(bufr_message,'005015'),dtype=np.float)
    dlon = np.array(query(bufr_message,'006015'),dtype=np.float)

    lat  = slat+dlat
    lon  = slon+dlon
    columns = ["ptime","pres","temp","dewp","geop","wdir","wspd","lat","lon"]
    df = pd.DataFrame([time,pres,temp,dewp,geop,wdir,wspd,lat,lon])
    df2 = df.T
    df2.columns = columns
    df3 = df2[df2.ptime >= 0]
    df3.to_csv(gi,index=False,na_rep=np.nan,sep=",")
Esempio n. 5
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def command_info(ns):
    """
    Command to show metadata information of given files from command line.
    """
    flat_text_render = FlatTextRenderer()
    decoder = Decoder(definitions_dir=ns.definitions_directory,
                      tables_root_dir=ns.tables_root_directory)

    def show_message_info(m):
        bufr_template, table_group = m.build_template(
            ns.tables_root_directory, normalize=1)

        print(flat_text_render.render(m))
        if ns.template:
            print(flat_text_render.render(bufr_template))

    for filename in ns.filenames:
        with open(filename, 'rb') as ins:
            s = ins.read()

        if ns.multiple_messages:
            for bufr_message in generate_bufr_message(decoder, s,
                                                      file_path=filename, info_only=True):
                show_message_info(bufr_message)

        elif ns.count_only:
            count = 0
            for _ in generate_bufr_message(decoder, s, info_only=True):
                count += 1
            print('{}: {}'.format(filename, count))

        else:
            bufr_message = decoder.process(s, file_path=filename, info_only=True)
            show_message_info(bufr_message)
Esempio n. 6
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def command_script(ns):
    """
    Command to execute script against given BUFR files.
    """
    from pybufrkit.script import ScriptRunner

    if ns.from_file:
        with open(ns.input) as ins:
            script_string = ins.read()
    else:
        if ns.input == '-':
            script_string = sys.stdin.read()
        else:
            script_string = ns.input

    script_runner = ScriptRunner(
        script_string, data_values_nest_level=ns.data_values_nest_level)

    decoder = Decoder(
        definitions_dir=ns.definitions_directory,
        tables_root_dir=ns.tables_root_directory,
        compiled_template_cache_max=ns.compiled_template_cache_max)

    for filename in ns.filenames:
        with open(filename, 'rb') as ins:
            s = ins.read()

        bufr_message = decoder.process(
            s,
            file_path=filename,
            wire_template_data=True,
            ignore_value_expectation=ns.ignore_value_expectation,
            info_only=script_runner.metadata_only)

        script_runner.run(bufr_message)
Esempio n. 7
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    def test_compiled_vs_noncompiled(self):
        decoder_noncompiled = Decoder()
        decoder_compiled = Decoder(compiled_template_cache_max=200)
        benchmark_data_dir = os.path.join(BASE_DIR, 'benchmark_data')

        for filename in os.listdir(benchmark_data_dir):
            with open(os.path.join(benchmark_data_dir, filename), 'rb') as ins:
                s = ins.read()

                bufr_message_1 = decoder_noncompiled.process(s)
                bufr_message_2 = decoder_compiled.process(s)
                assert bufr_message_1.template_data.value.decoded_descriptors_all_subsets == \
                       bufr_message_2.template_data.value.decoded_descriptors_all_subsets

                assert bufr_message_1.template_data.value.decoded_values_all_subsets == \
                       bufr_message_2.template_data.value.decoded_values_all_subsets

                assert bufr_message_1.template_data.value.bitmap_links_all_subsets == \
                       bufr_message_2.template_data.value.bitmap_links_all_subsets
Esempio n. 8
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class BenchMarkTests(unittest.TestCase):
    def setUp(self):
        self.decoder = Decoder()

    def test(self):
        for filename in os.listdir(DATA_DIR):
            with open(os.path.join(DATA_DIR, filename), 'rb') as ins:
                print(filename)
                bufr_message = self.decoder.process(ins.read(),
                                                    wire_template_data=True)
                self.assertIsNotNone(bufr_message)
Esempio n. 9
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def command_decode(ns):
    """
    Command to decode given files from command line.
    """
    decoder = Decoder(
        definitions_dir=ns.definitions_directory,
        tables_root_dir=ns.tables_root_directory,
        compiled_template_cache_max=ns.compiled_template_cache_max)

    def show_message(m):
        if ns.attributed:
            m.wire()
            if ns.json:
                print(
                    json.dumps(NestedJsonRenderer().render(m),
                               **JSON_DUMPS_KWARGS))
            else:
                print(NestedTextRenderer().render(m))
        else:
            if ns.json:
                print(
                    json.dumps(FlatJsonRenderer().render(m),
                               **JSON_DUMPS_KWARGS))
            else:
                print(FlatTextRenderer().render(m))

    for filename in ns.filenames:
        if filename != '-':
            with open(filename, 'rb') as ins:
                s = ins.read()
        else:
            s = sys.stdin.read()

        if ns.multiple_messages:
            for bufr_message in generate_bufr_message(
                    decoder,
                    s,
                    continue_on_error=ns.continue_on_error,
                    file_path=filename,
                    wire_template_data=False,
                    ignore_value_expectation=ns.ignore_value_expectation,
                    filter_expr=ns.filter):
                show_message(bufr_message)
        else:

            bufr_message = decoder.process(
                s,
                file_path=filename,
                wire_template_data=False,
                ignore_value_expectation=ns.ignore_value_expectation)
            show_message(bufr_message)
Esempio n. 10
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class EncoderTests(unittest.TestCase):
    def setUp(self):
        self.encoder = Encoder(ignore_declared_length=True)
        self.decoder = Decoder()

        self.filename_stubs = [
            'IUSK73_AMMC_182300',
            'rado_250',  # uncompressed with 222000, 224000, 236000
            '207003',  # compressed with delayed replication
            'amv2_87',  # compressed with 222000
            'b005_89',  # compressed with 222000 and 224000 (1st order stats)
            'profiler_european',  # uncompressed with 204001 associated fields
            'jaso_214',  # compressed with 204001 associated fields
            'uegabe',  # uncompressed with 204004 associated fields
            'asr3_190',  # compressed with complex replication and 222000, 224000
            'b002_95',  # uncompressed with skipped local descriptors
            'g2nd_208',  # compressed with identical string values for all subsets
            'ISMD01_OKPR',  # compressed with different string values for subsets
            'mpco_217',
        ]

    def tearDown(self):
        pass

    def do_test(self, filename_stub):
        with open(os.path.join(DATA_DIR, filename_stub + '.json')) as ins:
            s = ins.read()
        bufr_message_encoded = self.encoder.process(s)
        bufr_message_decoded = self.decoder.process(bufr_message_encoded.serialized_bytes)

        assert len(bufr_message_encoded.template_data.value.decoded_values_all_subsets) == \
               len(bufr_message_decoded.template_data.value.decoded_values_all_subsets)

        for idx_subset in range(len(bufr_message_encoded.template_data.value.decoded_values_all_subsets)):
            encoder_values = bufr_message_encoded.template_data.value.decoded_values_all_subsets[idx_subset]
            decoder_values = bufr_message_decoded.template_data.value.decoded_values_all_subsets[idx_subset]
            assert len(encoder_values) == len(decoder_values)
            for idx_value in range(len(encoder_values)):
                if isinstance(encoder_values[idx_value], six.text_type):
                    encoder_value = encoder_values[idx_value].encode('latin-1')
                else:
                    encoder_value = encoder_values[idx_value]
                assert encoder_value == decoder_values[idx_value], \
                    '{!r} != {!r}'.format(encoder_value, decoder_values[idx_value])

    def test_encode(self):
        print()
        for filename_stub in self.filename_stubs:
            print(filename_stub)
            self.do_test(filename_stub)
Esempio n. 11
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class TemplateDataTests(unittest.TestCase):
    def setUp(self):
        self.decoder = Decoder()
        self.filename_stubs = [
            'IUSK73_AMMC_182300',
            'rado_250',  # uncompressed with 222000, 224000, 236000
            '207003',  # compressed with delayed replication
            'amv2_87',  # compressed with 222000
            'b005_89',  # compressed with 222000 and 224000 (1st order stats)
            'profiler_european',  # uncompressed with 204001 associated fields
            'jaso_214',  # compressed with 204001 associated fields
            'uegabe',  # uncompressed with 204004 associated fields
            'asr3_190',  # compressed with complex replication and 222000, 224000
            'b002_95',  # uncompressed with skipped local descriptors
            'g2nd_208',  # compressed with identical string values for all subsets
            'ISMD01_OKPR',  # compressed with different string values for subsets
            'mpco_217',
        ]

    def do_test(self, filename_stub):
        s = read_bufr_file(filename_stub + '.bufr')
        bufr_message = self.decoder.process(s, filename_stub)

        if filename_stub in ('207003', 'rado_250'):
            with open(os.path.join(DATA_DIR,
                                   '{}.datadump.cmp'.format(filename_stub))) as ins:
                cmp_str = ins.read()
            dump_str = NestedTextRenderer().render(bufr_message.template_data.value)
            # TODO: this is to fix the inconsistent int and long of bitstring on different OS
            dump_str = dump_str.replace(
                '005040 ORBIT NUMBER 5258\n', '005040 ORBIT NUMBER 5258L\n')
            assert dump_str == cmp_str, dump_str
        else:
            NestedTextRenderer().render(bufr_message.template_data.value)

    def test_template_data(self):
        print()
        for filename_stub in self.filename_stubs:
            print(filename_stub)
            self.do_test(filename_stub)
def ecmwf_data_process(Input_folder,filepatern):
    """
    preprocess ecmwf forecast data downloaded above
    """
 
    #ecmwf_data_download(Input_folder,filepatern)
    
    path_ecmwf=os.path.join(Input_folder,'ecmwf/')
    decoder = Decoder()
    #1=Storm Centre 4 = Location of the storm in the perturbed analysis
    #5 = Location of the storm in the analysis #3=Location of maximum wind
    ecmwf_files = [f for f in listdir(path_ecmwf) if isfile(join(path_ecmwf, f))]
    #ecmwf_files = [file_name for file_name in ecmwf_files if file_name.startswith('A_JSXX02ECEP')]
    list_df=[]
    for ecmwf_file in ecmwf_files:
        ecmwf_file=ecmwf_files[0]
        f_name='ECMWF_'+ ecmwf_file.split('_')[1]+'_'+ecmwf_file.split('_')[4]
        model_name=ecmwf_file.split('_')[1][6:10]
        typhoon_name=ecmwf_file.split('_')[-4] 
        with open(os.path.join(path_ecmwf,ecmwf_file), 'rb') as bin_file:
            bufr_message = decoder.process(bin_file.read())
            text_data = FlatTextRenderer().render(bufr_message)
        STORMNAME=typhoon_name #ecmwf_file.split('_')[8]  
        list1=[]
        with StringIO(text_data) as input_data:
            # Skips text before the beginning of the interesting block:
            for line in input_data:
                if line.startswith('<<<<<< section 4 >>>>>>'):  # Or whatever test is needed
                    break
            # Reads text until the end of the block:
            for line in input_data:  # This keeps reading the file
                if line.startswith('<<<<<< section 5 >>>>>>'):
                    break
                list1.append(line)
         
        list_var=["004024","004001","004002","004003","004004","004005","001092","011012","010051","005002","006002","001091",'001092',"008005"]  
        list2=[[int(li.split()[0]),li.split()[1],li.split()[-1]] for li in list1 if li.startswith(" ") and li.split()[1] in list_var]
        
        df = pd.DataFrame(list2,columns=['id','code','Data'])
        
        
        def label_en (row,co):
           if row['code'] == co :
              return int(row['Data'])
           return np.nan
        
        df['model_sgn'] = df.apply (lambda row: label_en(row,co='008005'), axis=1)
        df['ensamble_num'] = df.apply (lambda row: label_en(row,co='001091'), axis=1)
        df['frcst_type'] = df.apply (lambda row: label_en(row,co='001092'), axis=1)
        
        df['frcst_type'] =df['frcst_type'].fillna(method='ffill')
        df['frcst_type'] =df['frcst_type'].fillna(method='bfill')
        
        df['ensamble_num'] =df['ensamble_num'].fillna(method='ffill')
        df['model_sgn'] =df['model_sgn'].fillna(method='ffill')
        df['model_sgn'] =df['model_sgn'].fillna(method='bfill')
        
        df_time = df.query('code in ["004001","004002","004003","004004","004005"]')
        
        date_object ='%04d%02d%02d%02d'%(int(df_time['Data'].to_list()[0]),
                                         int(df_time['Data'].to_list()[1]),
                                         int(df_time['Data'].to_list()[2]),
                                         int(df_time['Data'].to_list()[3]))
        
        date_object=datetime.strptime(date_object, "%Y%m%d%H")
        #(date_object + timedelta(hours=x)).strftime("%Y%m%d%H%M")
                
        df_center = df.query('code in ["010051","005002","006002"] and model_sgn in [1]')
        df_center2 = df.query('code in ["010051","005002","006002"] and model_sgn in [4,5]')
        df_max = df.query('code in ["011012","005002","006002","004024"] and model_sgn in [3]')
         # 1 storm center and 3 maximum wind speed https://vocabulary-manager.eumetsat.int/vocabularies/BUFR/WMO/6/TABLE_CODE_FLAG/008005
        
            
        latc,lonc,pcen,frcst_type,ensambles=[],[],[],[],[]
        for names, group in df_center.groupby("ensamble_num"):
            latc.append(list(group[group.code=="005002"]['Data'].values))
            lonc.append(list(group[group.code=="006002"]['Data'].values))
            pcen.append(list(group[group.code=="010051"]['Data'].values))
            
        lat,lon,vmax,vhr=[],[],[],[]
        for names, group in df_max.groupby("ensamble_num"):
            lat.append(list(group[group.code=="005002"]['Data'].values))
            lon.append(list(group[group.code=="006002"]['Data'].values))
            vmax.append(list(group[group.code=="011012"]['Data'].values))
            vhr.append(list(group[group.code=="004024"]['Data'].values))
            frcst_type.append(list(np.unique(group.frcst_type.values))[0])
            ensambles.append(names)
        
        latc1,lonc1,pcen1=[],[],[]
        for names, group in df_center2.groupby("ensamble_num"):
            latc1.append(list(group[group.code=="005002"]['Data'].values))
            lonc1.append(list(group[group.code=="006002"]['Data'].values))
            pcen1.append(list(group[group.code=="010051"]['Data'].values))
            
        for i in range(len(pcen1)):
            pcen1[i].extend(pcen[i])
         
            
        vhr=['0','6', '12', '18', '24', '30', '36', '42', '48', '54', '60', '66', '72', '78', '84', '90', '96', '102', '108']
        for i in range(len(ensambles)):
            wind=[np.nan if value=='None' else float(value) for value in vmax[i]]
            pre=[np.nan if value=='None' else float(value)/100 for value in pcen1[i]]
            lon_=[np.nan if value=='None' else float(value) for value in lon[i]]
            lat_=[np.nan if value=='None' else float(value) for value in lat[i]]
            lon1_=[np.nan if value=='None' else float(value) for value in lonc[i]]
            lat1_=[np.nan if value=='None' else float(value) for value in latc[i]]
            max_radius=np.sqrt(np.square(np.array(lon_)-np.array(lon1_))+np.square(np.array(lat_)-np.array(lat1_)))*110
            timestamp=[(date_object + timedelta(hours=int(value))).strftime("%Y%m%d%H%M") for value in vhr]
            timestep_int=[int(value)  for value in vhr]
            ['TRUE' if frcst_type[i]==4 else 'False']    
            track = xr.Dataset(
                    data_vars={
                            'max_sustained_wind': ('time', wind),
                            'central_pressure': ('time', pre),
                            'ts_int': ('time', timestep_int),
                            'max_radius': ('time', max_radius),
                            'lat': ('time', lat_),
                            'lon': ('time', lon_),
                            },
                            coords={'time': timestamp,
                                    },
                                    attrs={
                                            'max_sustained_wind_unit': 'm/s',
                                            'central_pressure_unit': 'mb',
                                            'name': typhoon_name,
                                            'sid': 'NA',
                                            'orig_event_flag': False,
                                            'data_provider': 'ECMWF',
                                            'id_no': 'NA',
                                            'ensemble_number': ensambles[i],
                                            'is_ensemble': ['TRUE' if frcst_type[i]==4 else 'False'][0],
                                            'forecast_time': date_object.strftime("%Y%m%d%H%M"),
                                            'basin': 'WP',
                                            'category': 'NA',
                                            })
            track = track.set_coords(['lat', 'lon'])  
    list_df.append(track)
        
        
        
        
        
        
        
#%%        
        
        
        
        
        
        
        
        
        
        
        
        
        
        
        date_object ='%04d%02d%02d%02d'%(int([line.split()[-1] for line in StringIO(text_data) if line[6:17].upper=="004001 YEAR" ][0]),
                             int([line.split()[-1] for line in StringIO(text_data) if line[6:18].upper=="004002 MONTH" ][0]),
                             int([line.split()[-1] for line in StringIO(text_data) if line[6:16].upper=="004003 DAY" ][0]),
                             int([line.split()[-1] for line in StringIO(text_data) if line[6:17].upper=="004004 HOUR" ][0]))

        date_object=datetime.strptime(date_object, "%Y%m%d%H%M")
        

        val_t = [int(line.split()[-1]) for num, line in enumerate(StringIO(text_data), 1) if line[6:40].upper=="004024 TIME PERIOD OR DISPLACEMENT"]# and link.endswith(('.html', '.xml'))]
        val_wind = [line.split()[-1] for num, line in enumerate(StringIO(text_data), 1) if line[6:12].upper=="011012" ]#and num > ind_x[0]]# and link.endswith(('.html', '.xml'))]
        val_pre = [line.split()[-1] for num, line in enumerate(StringIO(text_data), 1) if line[6:12].upper=="010051" ]#and num > ind_x[0]]# and link.endswith(('.html', '.xml'))]
        val_lat = [line.split()[-1] for num, line in enumerate(StringIO(text_data), 1) if line[6:12].upper=="005002" ]#and num > ind_x[0]]# and link.endswith(('.html', '.xml'))]
        val_lon = [line.split()[-1] for num, line in enumerate(StringIO(text_data), 1) if line[6:12].upper=="006002" ]#and num > ind_x[0]]# and link.endswith(('.html', '.xml'))]
        val_ens = [line.split()[-1] for num, line in enumerate(StringIO(text_data), 1) if line[6:12].upper=="001091" ]#and num > ind_x[0]]# and link.endswith(('.html', '.xml'))]
        val_dis = [line.split()[-1]  for num, line in enumerate(StringIO(text_data), 1) if line[6:12].upper=="008005" ]#and num > ind_x[0]]# and link.endswith(('.html', '.xml'))]

        if len(val_ens) >1:
            val_t=val_t[0:int(len(val_t)/len(val_ens))]
            val_t.insert(0, 0)
            val_ensamble=duplicate(val_ens, int(len(val_wind)/len(val_ens)))
            val_time=val_t* len(val_ens) #52
        else:
            val_ensamble='NA'
            val_t.insert(0, 0)
            val_time=val_t           
        ecmwf_df=pd.DataFrame({'lon': val_lon,'lat': val_lat,'met_dis': val_dis })
        ecmwf_center=ecmwf_df[ecmwf_df['met_dis']=='1']
        ecmwf_df2=pd.DataFrame({'STORMNAME':STORMNAME,
                                'time':val_time,
                                'lon':ecmwf_center['lon'].values,
                                'lat':ecmwf_center['lat'].values,
                                'windsped':val_wind, 
                                'pressure':val_pre, 
                                'ens': val_ensamble})
        ecmwf_df2['YYYYMMDDHH']=ecmwf_df2['time'].apply(lambda x: (date_object + timedelta(hours=x)).strftime("%Y%m%d%H%M") )
        dict1=[]
        ecmwf_df2=ecmwf_df2.replace(['None'],np.nan)

        typhoon_df=pd.DataFrame()
        typhoon_df[['YYYYMMDDHH','LAT','LON','VMAX','PRESSURE','STORMNAME','ENSAMBLE']]=ecmwf_df2[['YYYYMMDDHH','lat','lon','windsped','pressure','STORMNAME','ens']]
        typhoon_df[['LAT','LON','VMAX']] = typhoon_df[['LAT','LON','VMAX']].apply(pd.to_numeric)
        typhoon_df['VMAX'] = typhoon_df['VMAX'].apply(lambda x: x*1.94384449*1.05) #convert to knotes
        typhoon_df.to_csv(os.path.join(Input_folder,'ECMWF_%s_%s_%s.csv'%(Input_folder.split('/')[-3],STORMNAME,model_name)),index=False) 
Esempio n. 13
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class DecoderTests(unittest.TestCase):
    def setUp(self):
        self.decoder = Decoder()
        self.filename_stubs = [
            'IUSK73_AMMC_182300',
            'rado_250',  # uncompressed with 222000, 224000, 236000
            '207003',  # compressed with delayed replication
            'amv2_87',  # compressed with 222000
            'b005_89',  # compressed with 222000 and 224000 (1st order stats)
            'profiler_european',  # uncompressed with 204001 associated fields
            'jaso_214',  # compressed with 204001 associated fields
            'uegabe',  # uncompressed with 204004 associated fields
            'asr3_190',  # compressed with complex replication and 222000, 224000
            'b002_95',  # uncompressed with skipped local descriptors
            'g2nd_208',  # compressed with identical string values for all subsets
            'ISMD01_OKPR',  # compressed with different string values for subsets
            'mpco_217',
        ]

    def tearDown(self):
        pass

    def _compare(self, bufr_message, cmp_file_name):
        with open(os.path.join(DATA_DIR, cmp_file_name)) as ins:
            lines = ins.readlines()

        next_line = functools.partial(next, iter(lines))
        for idx_subset in range(
                len(bufr_message.template_data.value.decoded_values_all_subsets
                    )):
            for idx, value in enumerate(
                    bufr_message.template_data.value.
                    decoded_values_all_subsets[idx_subset]):
                cmp_line = next_line().strip()
                if value is None:
                    line = '{} {}'.format(idx + 1, repr(value))
                    assert line == cmp_line, \
                        'At line {}: {} != {}'.format(idx + 1, line, cmp_line)
                elif isinstance(value, (binary_type, text_type)):
                    # TODO: better to decode all ascii bytes to unicode string
                    if isinstance(value, binary_type) and PY3:
                        line = '{} {}'.format(idx + 1, repr(value)[1:])
                    else:
                        line = '{} {}'.format(idx + 1, repr(value))
                    assert line == cmp_line, \
                        'At line {}: {} != {}'.format(idx + 1, line, cmp_line)
                else:
                    field = cmp_line.split()[1]
                    if field.endswith('L'):
                        field = field[:-1]
                    cmp_value = eval(field)
                    assert abs(value - cmp_value) < 1.0e6, \
                        'At line {}: {} != {}'.format(idx + 1, value, cmp_value)

    def _print_values(self, bufr_message):
        for idx_subset in range(
                len(bufr_message.template_data.value.decoded_values_all_subsets
                    )):
            for idx, value in enumerate(
                    bufr_message.template_data.value.
                    decoded_values_all_subsets[idx_subset]):
                print(idx + 1, repr(value))

    def do_test(self, filename_stub):
        s = read_bufr_file(filename_stub + '.bufr')
        bufr_message = self.decoder.process(s, filename_stub)
        self._compare(bufr_message, filename_stub + '.values.cmp')

    def test_decode(self):
        print()
        for filename_stub in self.filename_stubs:
            print(filename_stub)
            self.do_test(filename_stub)
Esempio n. 14
0
dd = '07'
mm = '09'
yy = '18'
hh = '12'
name = 'FLORENCE'
latf = '-51p4degW'
lonf = '25degN'
s1 = 'A_JSXX01ECEP{}{}00'.format(dd, hh)
s2 = '_C_ECMP_20{}{}{}{}0000_tropical_cyclone_track_'.format(yy, mm, dd, hh)
s3 = '{}_{}_{}_bufr4.bin'.format(name, latf, lonf)
fn = s1 + s2 + s3

# read in file
print 'opening file...'
with open(fn, 'rb') as ins:
    bufr_message = dec.process(ins.read())

# convert to json
print 'conver to json...'
json_data = FlatJsonRenderer().render(bufr_message)
nj = len(json_data)
jd = [None] * nj
for i, j in enumerate(json_data):
    jd[i] = j

# put ensemble data into a dictionary
ens_data = jd[4][2]
nens = len(ens_data)
ens_tc_arr = [None] * nens

print 'making dictionary...'
Esempio n. 15
0
class DataQueryTests(unittest.TestCase):
    def setUp(self):
        self.decoder = Decoder()
        self.querent = DataQuerent(NodePathParser())

    def test_query_jaso_214(self):
        s = read_bufr_file('jaso_214.bufr')
        bufr_message = self.decoder.process(s)

        r1 = self.querent.query(bufr_message, '/301011/004001')
        assert r1.subset_indices() == list(range(128))
        assert r1.all_values(flat=True) == [[2012] for _ in range(128)]
        assert r1.all_values() == [[2012] for _ in range(128)]

        r2 = self.querent.query(bufr_message, '@[0]/301011/004001')
        assert r2.subset_indices() == [0]
        assert r2.all_values(flat=True) == [[2012]]
        assert r2.all_values() == [[2012]]

        r3 = self.querent.query(bufr_message, '@[::10]/301011/004001')
        assert r3.subset_indices() == [
            0, 10, 20, 30, 40, 50, 60, 70, 80, 90, 100, 110, 120
        ]
        assert r3.all_values(flat=True) == [[2012] for _ in range(13)]

        r4 = self.querent.query(bufr_message, '@[1]/123002/021062')
        assert r4.subset_indices() == [1]
        assert r4.all_values(flat=True) == [[11.28, 0.02, 14.78, 0.03]]
        assert r4.all_values() == [[[[11.28, 0.02], [14.78, 0.03]]]]

        r5 = self.querent.query(bufr_message, '@[2:7:2]/123002/021062[0]')
        assert r5.subset_indices() == [2, 4, 6]
        assert r5.all_values(flat=True) == [[11.32, 14.77], [11.54, 14.95],
                                            [11.65, 15.24]]
        assert r5.all_values() == [
            [  # 1st subset
                [  # replication envelope
                    [11.32],  # replication block 1
                    [14.77]  # replication block 2
                ]
            ],
            [  # 2nd subset
                [[11.54], [14.95]]
            ],
            [  # 3rd subset
                [[11.65], [15.24]]
            ]
        ]

        r6 = self.querent.query(bufr_message, '@[-1]/123002/021062')
        assert r6.subset_indices() == [127]
        assert r6.all_values(flat=True) == [[12.8, 0.06, 16.4, 0.05]]
        assert r6.all_values() == [[[[12.8, 0.06], [16.4, 0.05]]]]

        r7 = self.querent.query(bufr_message,
                                '/123002/021062[0].A21062.031021')
        assert r7.subset_indices() == list(range(128))
        assert r7.all_values(flat=True) == [[1, 1] for _ in range(128)]
        assert r7.all_values() == [[[[1], [1]]] for _ in range(128)]

        r8 = self.querent.query(bufr_message, '/002173.A02173')
        assert r8.subset_indices() == list(range(128))
        assert r8.all_values(flat=True) == [[0] for _ in range(128)]
        assert r8.all_values() == [[0] for _ in range(128)]

    def test_query_207003(self):
        s = read_bufr_file('207003.bufr')
        bufr_message = self.decoder.process(s)

        r1 = self.querent.query(bufr_message, '/310060/301021/006001')
        assert r1.subset_indices() == [0, 1]
        assert r1.all_values() == [[24.54144], [24.3926]]

        r2 = self.querent.query(bufr_message, '/310060/104000.031002')
        assert r2.subset_indices() == [0, 1]
        assert r2.all_values() == [[5], [5]]

        r3 = self.querent.query(bufr_message, '@[-1]/310060/104000/005042')
        assert r3.subset_indices() == [1]
        assert r3.all_values(flat=True) == [[1, 2, 3, 4, 5]]
        assert r3.all_values() == [[[[1], [2], [3], [4], [5]]]]

    def test_query_ISMD01_OKPR(self):
        s = read_bufr_file('ISMD01_OKPR.bufr')
        bufr_message = self.decoder.process(s)

        r1 = self.querent.query(bufr_message, '/307080/301090/301004/001015')
        assert r1.subset_indices() == list(range(7))
        values = [
            [b'Primda              '],
            [b'Kocelovice          '],
            [b'Praha-Ruzyne        '],
            [b'Liberec             '],
            [b'Pribyslav           '],
            [b'Brno-Turany         '],
            [b'Ostrava-Mosnov      '],
        ]
        assert r1.all_values(flat=True) == values
        assert r1.all_values() == values

    def test_query_amv2_87(self):
        s = read_bufr_file('amv2_87.bufr')
        bufr_message = self.decoder.process(s)

        r1 = self.querent.query(bufr_message, '/310195/303250/011001.033007')
        values = [
            [48, 35, 0],
            [54, 47, 0],
            [59, 68, 0],
            [56, 49, 0],
            [32, 37, 0],
            [48, 46, 0],
            [25, 31, 0],
            [49, 50, 0],
            [78, 75, 0],
            [84, 83, 0],
            [27, 34, 0],
            [60, 73, 0],
            [25, 31, 0],
            [26, 32, 0],
            [54, 68, 0],
            [32, 40, 0],
            [47, 49, 0],
            [31, 31, 0],
            [96, 95, 0],
            [91, 89, 0],
            [92, 98, 0],
            [82, 80, 0],
            [55, 62, 0],
            [50, 38, 0],
            [52, 54, 0],
            [89, 89, 0],
            [88, 86, 0],
            [94, 97, 0],
            [46, 42, 0],
            [65, 71, 0],
            [58, 49, 0],
            [67, 70, 0],
            [69, 73, 0],
            [60, 54, 0],
            [30, 37, 0],
            [36, 40, 0],
            [36, 40, 0],
            [30, 32, 0],
            [74, 91, 0],
            [73, 69, 0],
            [54, 56, 0],
            [93, 95, 0],
            [80, 87, 0],
            [88, 92, 0],
            [85, 83, 0],
            [50, 57, 0],
            [94, 97, 0],
            [25, 31, 0],
            [32, 40, 0],
            [49, 61, 0],
            [29, 37, 0],
            [26, 33, 0],
            [42, 53, 0],
            [34, 43, 0],
            [38, 47, 0],
            [33, 40, 0],
            [71, 79, 0],
            [43, 50, 0],
            [46, 57, 0],
            [49, 58, 0],
            [64, 79, 0],
            [70, 84, 0],
            [76, 94, 0],
            [74, 91, 0],
            [94, 98, 0],
            [67, 72, 0],
            [64, 76, 0],
            [82, 80, 0],
            [97, 98, 0],
            [82, 79, 0],
            [57, 48, 0],
            [68, 65, 0],
            [75, 69, 0],
            [67, 66, 0],
            [85, 91, 0],
            [68, 72, 0],
            [82, 86, 0],
            [38, 46, 0],
            [72, 79, 0],
            [43, 49, 0],
            [32, 34, 0],
            [39, 45, 0],
            [37, 43, 0],
            [78, 89, 0],
            [91, 98, 0],
            [92, 98, 0],
            [95, 96, 0],
            [90, 88, 0],
            [69, 69, 0],
            [64, 66, 0],
            [40, 49, 0],
            [54, 66, 0],
            [31, 35, 0],
            [76, 90, 0],
            [70, 82, 0],
            [60, 72, 0],
            [58, 71, 0],
            [41, 51, 0],
            [58, 59, 0],
            [57, 56, 0],
            [74, 82, 0],
            [75, 93, 0],
            [76, 93, 0],
            [82, 96, 0],
            [90, 97, 0],
            [96, 98, 0],
            [90, 98, 0],
            [89, 97, 0],
            [90, 97, 0],
            [89, 94, 0],
            [97, 98, 0],
            [80, 75, 0],
            [92, 92, 0],
            [83, 84, 0],
            [66, 66, 0],
            [34, 36, 0],
            [83, 88, 0],
            [87, 88, 0],
            [67, 69, 0],
            [85, 89, 0],
            [36, 44, 0],
            [40, 48, 0],
            [24, 30, 0],
            [58, 66, 0],
            [71, 65, 0],
            [91, 98, 0],
            [91, 97, 0],
            [97, 98, 0],
        ]
        assert r1.all_values(flat=True) == values
        assert r1.all_values() == values

        r2 = self.querent.query(bufr_message,
                                '/310195/303250/011001.033007[1]')
        values = [[35], [47], [68], [49], [37], [46], [31], [50], [75], [83],
                  [34], [73], [31], [32], [68], [40], [49], [31], [95], [89],
                  [98], [80], [62], [38], [54], [89], [86], [97], [42], [71],
                  [49], [70], [73], [54], [37], [40], [40], [32], [91], [69],
                  [56], [95], [87], [92], [83], [57], [97], [31], [40], [61],
                  [37], [33], [53], [43], [47], [40], [79], [50], [57], [58],
                  [79], [84], [94], [91], [98], [72], [76], [80], [98], [79],
                  [48], [65], [69], [66], [91], [72], [86], [46], [79], [49],
                  [34], [45], [43], [89], [98], [98], [96], [88], [69], [66],
                  [49], [66], [35], [90], [82], [72], [71], [51], [59], [56],
                  [82], [93], [93], [96], [97], [98], [98], [97], [97], [94],
                  [98], [75], [92], [84], [66], [36], [88], [88], [69], [89],
                  [44], [48], [30], [66], [65], [98], [97], [98]]
        assert r2.all_values(flat=True) == values
        assert r2.all_values() == values

    def test_query_asr3_190(self):
        s = read_bufr_file('asr3_190.bufr')
        bufr_message = self.decoder.process(s)

        r1 = self.querent.query(bufr_message,
                                '@[-1]/310028/101011/304037/012063.F12063')
        assert r1.subset_indices() == [127]
        assert r1.all_values(flat=True) == [[
            None, None, None, None, None, None, None, None, None, None, None,
            None, None, None, None, None, None, None, 17.3, None, 17.3, None,
            None, 17.3, 4.4, None, 4.3, None, None, 4.3, 7.7, None, 7.6, None,
            None, 7.6, 13.2, None, 13.2, None, None, 13.2, 8.4, None, 8.4,
            None, None, 8.4, 11.9, None, 11.9, None, None, 11.9, 10.5, None,
            10.4, None, None, 10.4, 6.7, None, 6.6, None, None, 6.6
        ]]
        assert r1.all_values() == [[[
            [None, None, None, None, None, None],
            [None, None, None, None, None, None],
            [None, None, None, None, None, None],
            [17.3, None, 17.3, None, None, 17.3],
            [4.4, None, 4.3, None, None, 4.3],
            [7.7, None, 7.6, None, None, 7.6],
            [13.2, None, 13.2, None, None, 13.2],
            [8.4, None, 8.4, None, None, 8.4],
            [11.9, None, 11.9, None, None, 11.9],
            [10.5, None, 10.4, None, None, 10.4],
            [6.7, None, 6.6, None, None, 6.6],
        ]]]

        r2 = self.querent.query(
            bufr_message, '@[-2]/310028/101011/304037/012063.F12063.008023')
        assert r2.subset_indices() == [126]
        assert r2.all_values(flat=True) == [[10] * 66]
        assert r2.all_values() == [[[[10] * 6] * 11]]

    def test_query_mpco_217(self):
        s = read_bufr_file('mpco_217.bufr')
        bufr_message = self.decoder.process(s)

        r1 = self.querent.query(bufr_message, '@[-3:]/116000/106000/010004')
        assert r1.subset_indices() == [125, 126, 127]
        assert r1.all_values(flat=True) == [
            [
                10000.0, 20000.0, 30000.0, 40000.0, 50000.0, 60000.0, 70000.0,
                80000.0, 90000.0, 101109.2
            ],
            [
                10000.0, 20000.0, 30000.0, 40000.0, 50000.0, 60000.0, 70000.0,
                80000.0, 90000.0, 101099.8
            ],
            [
                10000.0, 20000.0, 30000.0, 40000.0, 50000.0, 60000.0, 70000.0,
                80000.0, 90000.0, 101090.1
            ],
        ]
        assert r1.all_values() == [
            [[[[[10000.0], [20000.0], [30000.0], [40000.0], [50000.0],
                [60000.0], [70000.0], [80000.0], [90000.0], [101109.2]]]]],
            [[[[[10000.0], [20000.0], [30000.0], [40000.0], [50000.0],
                [60000.0], [70000.0], [80000.0], [90000.0], [101099.8]]]]],
            [[[[[10000.0], [20000.0], [30000.0], [40000.0], [50000.0],
                [60000.0], [70000.0], [80000.0], [90000.0], [101090.1]]]]],
        ]

    def test_query_rado_250(self):
        s = read_bufr_file('rado_250.bufr')
        bufr_message = self.decoder.process(s)

        r1 = self.querent.query(bufr_message,
                                '/310226/107000/103000/015037.F15037.008023')
        assert r1.all_values(flat=True) == [[13] * 247]
        assert r1.all_values() == [[[[[[13]]]] * 247]]

        r2 = self.querent.query(bufr_message, '/310226/107000.031002')
        assert r2.all_values(flat=True) == [[247]]
        assert r2.all_values() == [[247]]

        r3 = self.querent.query(bufr_message, '/310226/107000/103000.031001')
        assert r3.all_values(flat=True) == [[1] * 247]
        assert r3.all_values() == [[[[1]] * 247]]

    def test_descendant_ISMD01_OKPR(self):
        s = read_bufr_file('ISMD01_OKPR.bufr')
        bufr_message = self.decoder.process(s)

        r1 = self.querent.query(bufr_message, '020012')
        assert r1.all_values(flat=True) == [
            [62, 61, 60, 59, None, None],
            [36, 61, 60, 7, None, None],
            [36, 61, 60, 7, None, None],
            [36, 61, 60, 7, None, None],
            [36, 61, 60, 7, None, None],
            [36, 61, 60, 7, None, None],
            [30, 20, 11, 0, None, None],
        ]
        assert r1.all_values() == [
            [62, 61, 60, [[59]], [[None]], None],
            [36, 61, 60, [[7]], [[None]], None],
            [36, 61, 60, [[7]], [[None]], None],
            [36, 61, 60, [[7]], [[None]], None],
            [36, 61, 60, [[7]], [[None]], None],
            [36, 61, 60, [[7]], [[None]], None],
            [30, 20, 11, [[0]], [[None]], None],
        ]

        r2 = self.querent.query(bufr_message, '302035 > 020012')
        assert r2.all_values(flat=True) == [
            [62, 61, 60, 59],
            [36, 61, 60, 7],
            [36, 61, 60, 7],
            [36, 61, 60, 7],
            [36, 61, 60, 7],
            [36, 61, 60, 7],
            [30, 20, 11, 0],
        ]
        assert r2.all_values() == [
            [62, 61, 60, [[59]]],
            [36, 61, 60, [[7]]],
            [36, 61, 60, [[7]]],
            [36, 61, 60, [[7]]],
            [36, 61, 60, [[7]]],
            [36, 61, 60, [[7]]],
            [30, 20, 11, [[0]]],
        ]

        r3 = self.querent.query(bufr_message, '@[0] > 302035 > 020012')
        assert r3.all_values(flat=True) == [[62, 61, 60, 59]]
        assert r3.all_values() == [[62, 61, 60, [[59]]]]

        r4 = self.querent.query(bufr_message, '@[-3] > 302035/302004 > 020012')
        assert r4.all_values(flat=True) == [[36, 61, 60]]
        assert r4.all_values() == [[36, 61, 60]]

        r5 = self.querent.query(bufr_message, '008002')
        assert r5.all_values(flat=True) == [
            [5, 5, 11, 7, 8, 9, None],
            [7, 1, 12, 7, 8, 9, None],
            [7, 1, 12, 7, 8, 9, None],
            [7, 1, 12, 7, 8, 9, None],
            [7, 1, 12, 7, 8, 9, None],
            [7, 1, 12, 7, 8, 9, None],
            [0, 1, 12, 7, 8, 9, None],
        ]
        assert r5.all_values() == [
            [5, [[5]], [[11]], [[7], [8], [9]], None],
            [7, [[1]], [[12]], [[7], [8], [9]], None],
            [7, [[1]], [[12]], [[7], [8], [9]], None],
            [7, [[1]], [[12]], [[7], [8], [9]], None],
            [7, [[1]], [[12]], [[7], [8], [9]], None],
            [7, [[1]], [[12]], [[7], [8], [9]], None],
            [0, [[1]], [[12]], [[7], [8], [9]], None],
        ]

        r6 = self.querent.query(bufr_message, '@[4] > 302047 > 008002')
        assert r6.all_values(flat=True) == [[7, 8, 9]]
        assert r6.all_values() == [[[[7], [8], [9]]]]

    def test_descendant_mpco_217(self):
        s = read_bufr_file('mpco_217.bufr')
        bufr_message = self.decoder.process(s)

        r1 = self.querent.query(bufr_message, '@[0] > 010004')
        assert r1.all_values(flat=True) == [[
            10000.0, 20000.0, 30000.0, 40000.0, 50000.0, 60000.0, 70000.0,
            80000.0, 90000.0, 101025.2, 10000.0, 20000.0, 30000.0, 40000.0,
            50000.0, 60000.0, 70000.0, 80000.0, 90000.0, 101025.2
        ]]
        assert r1.all_values() == [[[[10000.0], [20000.0], [30000.0
                                                            ], [40000.0],
                                     [50000.0], [60000.0], [70000.0],
                                     [80000.0], [90000.0], [101025.2]],
                                    [[[[10000.0], [20000.0], [30000.0],
                                       [40000.0], [50000.0], [60000.0],
                                       [70000.0], [80000.0], [90000.0],
                                       [101025.2]]]]]]

        r2 = self.querent.query(bufr_message, '@[0]/116000 > 010004')
        assert r2.all_values(flat=True) == [[
            10000.0, 20000.0, 30000.0, 40000.0, 50000.0, 60000.0, 70000.0,
            80000.0, 90000.0, 101025.2
        ]]
        assert r2.all_values() == [[[[[[10000.0], [20000.0], [30000.0],
                                       [40000.0], [50000.0], [60000.0],
                                       [70000.0], [80000.0], [90000.0],
                                       [101025.2]]]]]]

        r2 = self.querent.query(bufr_message, '@[0] > 010004[::10]')
        assert r2.all_values(flat=True) == [[
            10000.0, 20000.0, 30000.0, 40000.0, 50000.0, 60000.0, 70000.0,
            80000.0, 90000.0, 101025.2, 10000.0, 20000.0, 30000.0, 40000.0,
            50000.0, 60000.0, 70000.0, 80000.0, 90000.0, 101025.2
        ]]
        assert r2.all_values() == [[[[10000.0], [20000.0], [30000.0
                                                            ], [40000.0],
                                     [50000.0], [60000.0], [70000.0],
                                     [80000.0], [90000.0], [101025.2]],
                                    [[[[10000.0], [20000.0], [30000.0],
                                       [40000.0], [50000.0], [60000.0],
                                       [70000.0], [80000.0], [90000.0],
                                       [101025.2]]]]]]

    def test_contrived(self):
        s = read_bufr_file('contrived.bufr')
        bufr_message = self.decoder.process(s)

        r1 = self.querent.query(bufr_message, '/105002/102000/020011')
        assert r1.all_values(flat=True) == [[2, 4, 6, 8, 10], [11, 9, 7, 5, 3]]
        assert r1.all_values() == [[[[[[2], [4]]], [[[6], [8], [10]]]]],
                                   [[[[[11], [9], [7]]], [[[5], [3]]]]]]

        r2 = self.querent.query(bufr_message, '020011')
        assert r2.all_values(flat=True) == [[2, 4, 6, 8, 10, 1],
                                            [11, 9, 7, 5, 3, 2]]
        assert r2.all_values() == [[[[[[2], [4]]], [[[6], [8], [10]]]], 1],
                                   [[[[[11], [9], [7]]], [[[5], [3]]]], 2]]

        r3 = self.querent.query(bufr_message, '008002')
        assert r3.all_values(flat=True) == [[1, 3, 21, 5, 7, 9, 22],
                                            [12, 10, 8, 22, 6, 4, 21]]
        assert r3.all_values() == [[[[[[1], [3]], 21], [[[5], [7], [9]], 22]]],
                                   [[[[[12], [10], [8]], 22], [[[6], [4]],
                                                               21]]]]

        r4 = self.querent.query(bufr_message, '102000/008002')
        assert r4.all_values(flat=True) == [[1, 3, 5, 7, 9], [12, 10, 8, 6, 4]]
        assert r4.all_values() == [[[[[[1], [3]]], [[[5], [7], [9]]]]],
                                   [[[[[12], [10], [8]]], [[[6], [4]]]]]]
def main(days=1, solo_file=0, add_in_bd=1, find_file=0):

    files = get_list_file(days=days)
    if find_file:
        path = os.getcwd()
        list_file = {find_file:[],'path':path}
    if solo_file:
        files = [solo_file]
    if not files:
        print('Не получены файлы для проверки')
        exit()
    meta_in_bd = set()
    tele_in_bd = set()
    last_H_in_bd = set()
    bar = IncrementalBar('decode_bufr', max = len(files)) 

    temp_check_files_get_index = {file:[] for file in files}

    for file_name in files:
        bar.next()

        try:
            decoder = Decoder()
            with open(file_name, 'rb') as ins: #
                bufr_message = decoder.process(ins.read())
            # декодируем телеграмму в текстовый файл
            text_bufr = NestedTextRenderer().render(bufr_message)
        except:
            ex = 'misk'
            logging(file_name, ex)
            continue



        # делим телеграмму на разделы
        pattern = r'<<<<<< section [0-9] >>>>>>'
        list_decod_bufr = re.split(pattern, text_bufr)
        words = ['year','month','day','hour','minute','second']
        date_list = [int(re.search(r'{} = \d{}'.format(word, '{0,5}'),
            list_decod_bufr[2]).group().split(' = ')[-1]) for word in words]
        date_srok = '{:04d}-{:02d}-{:02d} {:02d}:{:02d}:{:02d}'.format(date_list[0],
                date_list[1], date_list[2], date_list[3], date_list[4], date_list[5])

        # если в бафре несколько телеграмм
        pettern_split_some_telegram = r'###### subset \d{1,1000} of \d{1,1000} ######'
        list_telegrams_in_bufr = re.split(pettern_split_some_telegram, list_decod_bufr[4])

        # получаем данные из телеграмм
        for telegram in list_telegrams_in_bufr:
            meta_info = get_metadate(file_name, telegram, date_srok)
            if not meta_info:
                continue


            # делим телеграмму на разделы
            pattern = r'<<<<<< section [0-9] >>>>>>'
            list_decod_bufr = re.split(pattern, text_bufr)
            words = ['year','month','day','hour','minute','second']
            date_list = [int(re.search(r'{} = \d{}'.format(word, '{0,5}'),
                list_decod_bufr[2]).group().split(' = ')[-1]) for word in words]
            date_srok = '{:04d}-{:02d}-{:02d} {:02d}:{:02d}:{:02d}'.format(date_list[0],
                    date_list[1], date_list[2], date_list[3], date_list[4], date_list[5])

            # если в бафре несколько телеграмм
            pettern_split_some_telegram = r'###### subset \d{1,1000} of \d{1,1000} ######'
            list_telegrams_in_bufr = re.split(pettern_split_some_telegram, list_decod_bufr[4])

            # получаем данные из телеграмм
            for telegram in list_telegrams_in_bufr:
                meta_info = get_metadate(file_name, telegram, date_srok)
                if not meta_info:
                    continue

                if '25042' in meta_info:
                    print('\n',meta_info[:5], '\n', file_name, '\n')
                meta_in_bd.add(meta_info)
                temp_check_files_get_index[file_name].append(f'{meta_info[0]} - {meta_info[1]}')

                index_station = meta_info[0]
                telemetry_info = get_telemetria(index_station, date_srok, telegram)
                if  telemetry_info:
                    last_H = (telemetry_info[-1][0],telemetry_info[-1][1], get_last_h(telemetry_info))
                    if last_H not in last_H_in_bd:
                        tele_in_bd.add(tuple(telemetry_info))
                        last_H_in_bd.add(last_H)
                # для поиска файлов 
                if find_file == meta_info[0]:
                    list_file[find_file].append(file_name)



    bar.finish()
#удаляем дубли образованые первой и второй частью телеграмм
#    del_duble(meta_in_bd)
    with open('/home/bufr/bufr_work/telegram_BUFR/temp_check_files_get_index.txt', 'w') as f:
#        res = '\n'.join(files)  + '\n' + '#'*50 + '\n'
        res = ''
        for file in files:
            res += f'{file}: {", ".join(temp_check_files_get_index[file][:5])}\n'
        res = res + '#'*50 + '\n'
        res += ''.join([f"{i[0]} - {i[1]} \n" for i in meta_in_bd])
        f.write(res)
    if add_in_bd:
        set_in_bd(meta_in_bd, tele_in_bd,last_H_in_bd)

    if find_file:
        return list_file

    if solo_file: #для теста отдельных файлов
        return meta_in_bd

    return meta_in_bd
Esempio n. 17
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if len(named_storm_files)==0:
    
    sys.exit("No named storms, exiting")

composite_storm_files = [named_storm_files[x:x+2] for x in range(0, len(named_storm_files),2)]

for storm in composite_storm_files:
    
    ens_path = storm[0]
    
    det_path = storm[1]
    
    # Decode ensemble bufr file
    decoder = Decoder()
    with open(ens_path, 'rb') as ins:
        bufr_message = decoder.process(ins.read())
    
    text_data = FlatTextRenderer().render(bufr_message)
    
    text_array = np.array(text_data.splitlines())
    
    for line in text_array:
        
        if "WMO LONG STORM NAME" in line:
            
            storm_name = line.split()[-1][:-1]
    
    section4 = text_array[np.where(text_array=="<<<<<< section 4 >>>>>>")[0][0]:np.where(text_array=="<<<<<< section 5 >>>>>>")[0][0]]
    
    list = []
    ens_subset = 0
Esempio n. 18
0
infilename  = args.infile
outfilename = args.infile+'_ncepbufr' if args.outfile is None else args.outfile
bufrtable   = args.bufrtable
append      = args.append

print('Converting ',infilename,' to ',outfilename)

_nmaxseq = 255 # max size of sequence in message

#---------------------------------------------------------------------------------#
# Open files
#---------------------------------------------------------------------------------#
#** Open WMO bufr file 
decoder = Decoder()
with open(infilename,'rb') as ins:
  bufr_message = decoder.process(s=ins.read(),file_path=infilename)

#** open NCEP bufr file
if append:
  bufr = ncepbufr.open(outfilename,'a')
else:
  bufr = ncepbufr.open(outfilename,'w',table=bufrtable)

#---------------------------------------------------------------------------------#
# Read WMO Standard BUFR
#---------------------------------------------------------------------------------#
#** get whole data
data = FlatJsonRenderer().render(bufr_message)[3][2][0]

#** get header
hdr = bufr.missing_value*np.ones((44),np.float)