def create_coords(self, filenames, usr_variable=None):
from cis.data_io.netcdf import read_many_files_individually, get_metadata
from cis.data_io.Coord import Coord, CoordList
from cis.data_io.ungridded_data import UngriddedCoordinates, UngriddedData
from cis.exceptions import InvalidVariableError
variables = [("lon", "x"), ("lat", "y")]
# if usr_variable is not None:
# variables.append((usr_variable, ''))
logging.info("Listing coordinates: " + str(variables))
coords = CoordList()
var_data = read_many_files_individually(filenames, [v[0] for v in variables])
for var, (name, axis) in zip(var_data.values(), variables):
try:
coords.append(Coord(var, get_metadata(var[0]), axis=axis))
except InvalidVariableError:
pass
# Note - We don't need to convert this time coord as it should have been written in our
# 'standard' time unit
if usr_variable is None:
res = UngriddedCoordinates(coords)
else:
usr_var_data = read_many_files_individually(filenames, usr_variable)[usr_variable]
res = UngriddedData(usr_var_data, get_metadata(usr_var_data[0]), coords)
return res
def create_coords(self, filenames, usr_variable=None):
from cis.data_io.netcdf import read_many_files_individually, get_metadata
from cis.data_io.Coord import Coord
from cis.exceptions import InvalidVariableError
variables = [("longitude", "x"), ("latitude", "y"), ("altitude", "z"), ("time", "t"), ("air_pressure", "p")]
logging.info("Listing coordinates: " + str(variables))
coords = CoordList()
for variable in variables:
try:
var_data = read_many_files_individually(filenames, variable[0])[variable[0]]
coords.append(Coord(var_data, get_metadata(var_data[0]), axis=variable[1]))
except InvalidVariableError:
pass
# Note - We don't need to convert this time coord as it should have been written in our
# 'standard' time unit
if usr_variable is None:
res = UngriddedCoordinates(coords)
else:
usr_var_data = read_many_files_individually(filenames, usr_variable)[usr_variable]
res = UngriddedData(usr_var_data, get_metadata(usr_var_data[0]), coords)
return res
def create_coords(self, filenames, usr_variable=None):
from cis.data_io.netcdf import read_many_files_individually, get_metadata
from cis.data_io.Coord import Coord, CoordList
from cis.data_io.ungridded_data import UngriddedCoordinates, UngriddedData
from cis.exceptions import InvalidVariableError
variables = [("longitude", "x"), ("latitude", "y")]
# if usr_variable is not None:
# variables.append((usr_variable, ''))
logging.info("Listing coordinates: " + str(variables))
coords = CoordList()
var_data = read_many_files_individually(filenames,
[v[0] for v in variables])
for var, (name, axis) in zip(var_data.values(), variables):
try:
coords.append(Coord(var, get_metadata(var[0]), axis=axis))
except InvalidVariableError:
pass
# Note - We don't need to convert this time coord as it should have been written in our
# 'standard' time unit
if usr_variable is None:
res = UngriddedCoordinates(coords)
else:
usr_var_data = read_many_files_individually(
filenames, usr_variable)[usr_variable]
res = UngriddedData(usr_var_data, get_metadata(usr_var_data[0]),
coords)
return res
def create_coords(self, filenames, variable=None):
"""
Reads the coordinates and data if required from the files
:param filenames: List of filenames to read coordinates from
:param variable: load a variable for the data
:return: Coordinates
"""
from cis.data_io.netcdf import read_many_files_individually
from cis.data_io.Coord import Coord, CoordList
from cis.exceptions import InvalidVariableError
variables = [("longitude", "x"), ("latitude", "y"), ("altitude", "z"), ("time", "t"), ("air_pressure", "p")]
dim_coords = CoordList()
for v in variables:
try:
var_data = read_many_files_individually(filenames, v[0])[v[0]]
dim_coords.append(Coord(var_data, get_metadata(var_data[0]), axis=v[1]))
except InvalidVariableError:
pass
if variable is None:
return UngriddedCoordinates(dim_coords)
else:
all_coords = self._add_aux_coordinate(dim_coords, filenames[0], 'DP_MID',
dim_coords.get_coord(standard_name='time').data.size)
usr_var_data = read_many_files_individually(filenames, variable)[variable]
return UngriddedData(usr_var_data, get_metadata(usr_var_data[0]), all_coords)
def create_coords(self, filenames, usr_variable=None):
from cis.data_io.netcdf import read_many_files_individually, get_metadata, get_netcdf_file_variables
from cis.data_io.Coord import Coord, CoordList
from cis.data_io.ungridded_data import UngriddedCoordinates, UngriddedData
from cis.exceptions import InvalidVariableError
# We have to read it once first to find out which variables are in there. We assume the set of coordinates in
# all the files are the same
file_variables = get_netcdf_file_variables(filenames[0])
def get_axis_std_name(var):
axis=None
lvar = var.lower()
if lvar.startswith('lon'):
axis = 'x', 'longitude'
if lvar.startswith('lat'):
axis = 'y', 'latitude'
if lvar == 'G_ALT' or lvar == 'altitude' or lvar == 'pressure_altitude':
axis = 'z', 'altitude'
if lvar == 'time':
axis = 't', 'time'
if lvar == 'p' or lvar == 'pressure' or lvar == 'static_pressure':
axis = 'p', 'air_pressure'
return axis
all_coord_variables = [(v, get_axis_std_name(v)) for v in file_variables if get_axis_std_name(v) is not None]
# Get rid of any duplicates
coord_variables = []
for v in all_coord_variables:
if v is None or v[1][1] not in [x[1][1] for x in coord_variables]:
coord_variables.append(v)
all_variables = coord_variables.copy()
if usr_variable is not None:
all_variables.append((usr_variable, ''))
logging.info("Listing coordinates: " + str(all_variables))
coords = CoordList()
var_data = read_many_files_individually(filenames, [v[0] for v in all_variables])
for name, axis_std_name in coord_variables:
try:
meta = get_metadata(var_data[name][0])
if meta.standard_name is None:
meta.standard_name = axis_std_name[1]
coord = Coord(var_data[name], meta, axis=axis_std_name[0])
if meta.standard_name == 'time':
# Converting units to CIS std time
coord.convert_to_std_time()
coords.append(coord)
except InvalidVariableError:
pass
if usr_variable is None:
res = UngriddedCoordinates(coords)
else:
res = UngriddedData(var_data[usr_variable], get_metadata(var_data[usr_variable][0]), coords)
return res
def create_coords(self, filenames, usr_variable=None):
from cis.data_io.netcdf import read_many_files_individually, get_metadata, get_netcdf_file_variables
from cis.data_io.Coord import Coord, CoordList
from cis.data_io.ungridded_data import UngriddedCoordinates, UngriddedData
from cis.exceptions import InvalidVariableError
# We have to read it once first to find out which variables are in there. We assume the set of coordinates in
# all the files are the same
file_variables = get_netcdf_file_variables(filenames[0])
def get_axis_std_name(var):
axis=None
lvar = var.lower()
if lvar == 'longitude':
axis = 'x', 'longitude'
if lvar == 'latitude':
axis = 'y', 'latitude'
if lvar == 'G_ALT' or lvar == 'altitude' or lvar == 'pressure_altitude':
axis = 'z', 'altitude'
if lvar == 'time':
axis = 't', 'time'
if lvar == 'p' or lvar == 'pressure' or lvar == 'static_pressure':
axis = 'p', 'air_pressure'
return axis
all_coord_variables = [(v, get_axis_std_name(v)) for v in file_variables if get_axis_std_name(v) is not None]
# Get rid of any duplicates
coord_variables = []
for v in all_coord_variables:
if v is None or v[1][1] not in [x[1][1] for x in coord_variables]:
coord_variables.append(v)
all_variables = coord_variables.copy()
if usr_variable is not None:
all_variables.append((usr_variable, ''))
logging.info("Listing coordinates: " + str(all_variables))
coords = CoordList()
var_data = read_many_files_individually(filenames, [v[0] for v in all_variables])
for name, axis_std_name in coord_variables:
try:
meta = get_metadata(var_data[name][0])
if meta.standard_name is None:
meta.standard_name = axis_std_name[1]
coords.append(Coord(var_data[name], meta, axis=axis_std_name[0]))
except InvalidVariableError:
pass
# Note - We don't need to convert this time coord as it should have been written in our
# 'standard' time unit
if usr_variable is None:
res = UngriddedCoordinates(coords)
else:
res = UngriddedData(var_data[usr_variable], get_metadata(var_data[usr_variable][0]), coords)
return res
def create_coords(self, filenames, usr_variable=None):
from cis.data_io.netcdf import read_many_files_individually, get_metadata, get_netcdf_file_variables
from cis.data_io.Coord import Coord, CoordList
from cis.data_io.ungridded_data import UngriddedCoordinates, UngriddedData
from cis.exceptions import InvalidVariableError
# We have to read it once first to find out which variables are in there. We assume the set of coordinates in
# all the files are the same
file_variables = get_netcdf_file_variables(filenames[0])
def get_axis_std_name(lvar):
axis=None
if lvar == 'LON_JAVAD' or lvar == 'LON_OXTS':
axis = 'x', 'longitude'
if lvar == 'LAT_JAVAD' or lvar == 'LAT_OXTS':
axis = 'y', 'latitude'
if lvar == 'ALT_JAVAD' or lvar == 'ALT_OXTS':
axis = 'z', 'altitude'
if lvar == 'Time':
axis = 't', 'time'
if lvar == 'PS_AIR':
axis = 'p', 'air_pressure'
return axis
all_coord_variables = [(v, get_axis_std_name(v)) for v in file_variables if get_axis_std_name(v) is not None]
# Get rid of any duplicates
coord_variables = []
for v in all_coord_variables:
if v is None or v[1][1] not in [x[1][1] for x in coord_variables]:
coord_variables.append(v)
all_variables = coord_variables.copy()
if usr_variable is not None:
all_variables.append((usr_variable, ''))
logging.info("Listing coordinates: " + str(all_variables))
coords = CoordList()
var_data = read_many_files_individually(filenames, [v[0] for v in all_variables])
for name, axis_std_name in coord_variables:
try:
meta = get_metadata(var_data[name][0])
if meta.standard_name is None:
meta.standard_name = axis_std_name[1]
coords.append(Coord(var_data[name], meta, axis=axis_std_name[0]))
except InvalidVariableError:
pass
# Note - We don't need to convert this time coord as it should have been written in our
# 'standard' time unit
if usr_variable is None:
res = UngriddedCoordinates(coords)
else:
res = UngriddedData(var_data[usr_variable], get_metadata(var_data[usr_variable][0]), coords)
return res
def _create_coord_list(self, filenames):
import numpy as np
from cis.time_util import calculate_mid_time, cis_standard_time_unit
variables = ["XDim", "YDim"]
logging.info("Listing coordinates: " + str(variables))
sdata, vdata = hdf.read(filenames, variables)
lat = sdata["YDim"]
lat_metadata = hdf.read_metadata(lat, "SD")
lon = sdata["XDim"]
lon_metadata = hdf.read_metadata(lon, "SD")
# expand lat and lon data array so that they have the same shape
lat_data = utils.expand_1d_to_2d_array(
hdf.read_data(lat, "SD"), lon_metadata.shape, axis=1
) # expand latitude column wise
lon_data = utils.expand_1d_to_2d_array(
hdf.read_data(lon, "SD"), lat_metadata.shape, axis=0
) # expand longitude row wise
lat_metadata.shape = lat_data.shape
lon_metadata.shape = lon_data.shape
# to make sure "Latitude" and "Longitude", i.e. the standard_name is displayed instead of "YDim"and "XDim"
lat_metadata.standard_name = "latitude"
lat_metadata._name = ""
lon_metadata.standard_name = "longitude"
lon_metadata._name = ""
# create arrays for time coordinate using the midpoint of the time delta between the start date and the end date
time_data_array = []
for filename in filenames:
mid_datetime = calculate_mid_time(self._get_start_date(filename), self._get_end_date(filename))
logging.debug("Using " + str(mid_datetime) + " as datetime for file " + str(filename))
# Only use part of the full lat shape as it has already been concatenated
time_data = np.empty((lat_metadata.shape[0] / len(filenames), lat_metadata.shape[1]), dtype="float64")
time_data.fill(mid_datetime)
time_data_array.append(time_data)
time_data = utils.concatenate(time_data_array)
time_metadata = Metadata(
name="DateTime",
standard_name="time",
shape=time_data.shape,
units=str(cis_standard_time_unit),
calendar=cis_standard_time_unit.calendar,
)
coords = CoordList()
coords.append(Coord(lon_data, lon_metadata, "X"))
coords.append(Coord(lat_data, lat_metadata, "Y"))
coords.append(Coord(time_data, time_metadata, "T"))
return coords
def _create_one_dimensional_coord_list(self, filenames, index_offset=1):
"""
Create a set of coordinates appropriate for a ond-dimensional (column integrated) variable
:param filenames:
:param int index_offset: For 5km products this will choose the coordinates which represent the start (0),
middle (1) and end (2) of the 15 shots making up each column retrieval.
:return:
"""
from pyhdf.error import HDF4Error
from cis.data_io import hdf_sd
import datetime as dt
from cis.time_util import convert_sec_since_to_std_time, cis_standard_time_unit
variables = ['Latitude', 'Longitude', "Profile_Time"]
logging.info("Listing coordinates: " + str(variables))
# reading data from files
sdata = {}
for filename in filenames:
try:
sds_dict = hdf_sd.read(filename, variables)
except HDF4Error as e:
raise IOError(str(e))
for var in list(sds_dict.keys()):
utils.add_element_to_list_in_dict(sdata, var, sds_dict[var])
# latitude
lat_data = hdf.read_data(sdata['Latitude'], self._get_calipso_data)[:, index_offset]
lat_metadata = hdf.read_metadata(sdata['Latitude'], "SD")
lat_coord = Coord(lat_data, lat_metadata, 'Y')
# longitude
lon = sdata['Longitude']
lon_data = hdf.read_data(lon, self._get_calipso_data)[:, index_offset]
lon_metadata = hdf.read_metadata(lon, "SD")
lon_coord = Coord(lon_data, lon_metadata, 'X')
# profile time, x
time = sdata['Profile_Time']
time_data = hdf.read_data(time, self._get_calipso_data)[:, index_offset]
time_data = convert_sec_since_to_std_time(time_data, dt.datetime(1993, 1, 1, 0, 0, 0))
time_coord = Coord(time_data, Metadata(name='Profile_Time', standard_name='time', shape=time_data.shape,
units=cis_standard_time_unit), "T")
# create the object containing all coordinates
coords = CoordList()
coords.append(lat_coord)
coords.append(lon_coord)
coords.append(time_coord)
return coords
def create_coords(self, filenames, usr_variable=None):
from cis.data_io.netcdf import read_many_files_individually, get_metadata, get_netcdf_file_variables
from cis.data_io.Coord import Coord, CoordList
from cis.data_io.ungridded_data import UngriddedCoordinates, UngriddedData
from cis.exceptions import InvalidVariableError
# We have to read it once first to find out which variables are in there. We assume the set of coordinates in
# all the files are the same
file_variables = get_netcdf_file_variables(filenames[0])
axis_lookup = {
"longitude": "x",
'latitude': 'y',
'altitude': 'z',
'time': 't',
'air_pressure': 'p'
}
coord_variables = [(v, axis_lookup[v]) for v in file_variables
if v in axis_lookup]
# Create a copy to contain all the variables to read
all_variables = list(coord_variables)
if usr_variable is not None:
all_variables.append((usr_variable, ''))
logging.info("Listing coordinates: " + str(all_variables))
coords = CoordList()
var_data = read_many_files_individually(filenames,
[v[0] for v in all_variables])
for name, axis in coord_variables:
try:
coords.append(
Coord(var_data[name],
get_metadata(var_data[name][0]),
axis=axis))
except InvalidVariableError:
pass
# Note - We don't need to convert this time coord as it should have been written in our
# 'standard' time unit
if usr_variable is None:
res = UngriddedCoordinates(coords)
else:
res = UngriddedData(var_data[usr_variable],
get_metadata(var_data[usr_variable][0]),
coords)
return res
def _create_coord_list(self, filename):
import numpy as np
coords = CoordList()
time_data = read(filename, 'time')['time']
try:
alt_data = read(filename, 'altitude')['altitude']
except InvalidVariableError:
alt_data = read(filename, 'range')['range']
len_y = alt_data.shape[1]
time_arr = utils.expand_1d_to_2d_array(time_data[:], len_y, axis=1)
t_coord = Coord(time_arr, get_metadata(time_data), axis='x')
t_coord.convert_to_std_time()
coords.append(t_coord)
#alt_arr = utils.expand_1d_to_2d_array(alt_data[:], len_x, axis=0)
alt_arr = alt_data[:, :, 0] #eliminate "angle" axis
#alt_arr = alt_data #eliminate "angle" axis
coords.append(Coord(alt_arr, get_metadata(alt_data), axis='y'))
lat_data = read(filename, 'latitude')['latitude']
lat_arr = np.ones(alt_arr.shape) * lat_data[:]
coords.append(Coord(lat_arr, get_metadata(lat_data)))
lon_data = read(filename, 'longitude')['longitude']
lon_arr = np.ones(alt_arr.shape) * lon_data[:]
coords.append(Coord(lon_arr, get_metadata(lon_data)))
return coords
def _create_coord_list(self, filenames, data=None):
from cis.data_io.ungridded_data import Metadata
from cis.time_util import cis_standard_time_unit as ct
if data is None:
data_all = load_multiple_hysplit(filenames)
# TODO only using first trajectory
data = data_all[list(data_all.keys())[0]]
coords = CoordList()
latM = Metadata(name="Latitude", shape=(len(data),), units="degrees_north",
range=(-90,90), standard_name='latitude')
lonM = Metadata(name="Longitude", shape=(len(data),), units="degrees_east",
range=(-180,180), standard_name='longitude')
altM = Metadata(name="Altitude", shape=(len(data),), units="meters", standard_name='altitude')
presM = Metadata(name="Pressure", shape=(len(data),), units="hPa", standard_name='air_pressure')
timeM = Metadata(name="DateTime", standard_name="time", shape=(len(data),), units=str(ct))
coords.append(Coord(data['LAT'], latM))
coords.append(Coord(data['LON'], lonM))
coords.append(Coord(data['ALT'], altM))
coords.append(Coord(data['PRESSURE'], presM))
coords.append(Coord(data['DATETIMES'], timeM, "X")) # TODO Why X axis?
return coords
def _create_coord_list(self, filename):
import numpy as np
coords = CoordList()
time_data = read(filename, 'time')['time']
len_x = time_data.shape[0]
try:
alt_data = read(filename, 'altitude')['altitude']
except InvalidVariableError:
alt_data = read(filename, 'range')['range']
len_y = alt_data.shape[0]
time_arr = utils.expand_1d_to_2d_array(time_data[:], len_y, axis=1)
t_coord = Coord(time_arr, get_metadata(time_data), axis='x')
t_coord.convert_to_std_time()
coords.append(t_coord)
alt_arr = utils.expand_1d_to_2d_array(alt_data[:], len_x, axis=0)
coords.append(Coord(alt_arr, get_metadata(alt_data), axis='y'))
lat_data = read(filename, 'latitude')['latitude']
lat_arr = np.ones(alt_arr.shape) * lat_data[:]
coords.append(Coord(lat_arr, get_metadata(lat_data)))
lon_data = read(filename, 'longitude')['longitude']
lon_arr = np.ones(alt_arr.shape) * lon_data[:]
coords.append(Coord(lon_arr, get_metadata(lon_data)))
return coords
def _create_coordinates_list(self, data_variables, variable_selector):
"""
Create a co-ordinate list for the data
:param data_variables: the load data
:param variable_selector: the variable selector for the data
:return: a list of coordinates
"""
coords = CoordList()
# Time
time_coord = self._create_time_coord(
variable_selector.time_stamp_info,
variable_selector.time_variable_name, data_variables)
coords.append(time_coord)
# Lat and Lon
# Multiple points counts for multiple files
points_count = [
np.product(var.shape)
for var in data_variables[variable_selector.time_variable_name]
]
if variable_selector.station:
lat_coord = self._create_fixed_value_coord(
"Y", variable_selector.station_latitude, "degrees_north",
points_count, "latitude")
lon_coord = self._create_fixed_value_coord(
"X", variable_selector.station_longitude, "degrees_east",
points_count, "longitude")
else:
lat_coord = self._create_coord(
"Y", variable_selector.latitude_variable_name, data_variables,
"latitude")
lon_coord = self._create_coord(
"X", variable_selector.longitude_variable_name, data_variables,
"longitude")
coords.append(lat_coord)
coords.append(lon_coord)
# Altitude
if variable_selector.altitude is None:
altitude_coord = self._create_coord(
"Z", variable_selector.altitude_variable_name, data_variables,
"altitude")
else:
altitude_coord = self._create_fixed_value_coord(
"Z", variable_selector.altitude, "meters", points_count,
"altitude")
coords.append(altitude_coord)
# Pressure
if variable_selector.pressure_variable_name is not None:
coords.append(
self._create_coord("P",
variable_selector.pressure_variable_name,
data_variables, "air_pressure"))
return coords
def _create_one_dimensional_coord_list(self, filenames):
from cis.time_util import cis_standard_time_unit
# list of coordinate variables we are interested in
variables = [
'MODIS_latitude', 'MODIS_longitude', 'TAI_start', 'Profile_time'
]
# reading the various files
logging.info("Listing coordinates: " + str(variables))
sdata, vdata = hdf.read(filenames, variables)
# latitude
lat = sdata['MODIS_latitude']
lat_data = hdf.read_data(lat, self._get_cloudsat_sds_data)
lat_metadata = hdf.read_metadata(lat, "SD")
lat_metadata.shape = lat_data.shape
lat_metadata.standard_name = 'latitude'
lat_coord = Coord(lat_data, lat_metadata)
# longitude
lon = sdata['MODIS_longitude']
lon_data = hdf.read_data(lon, self._get_cloudsat_sds_data)
lon_metadata = hdf.read_metadata(lon, "SD")
lon_metadata.shape = lon_data.shape
lon_metadata.standard_name = 'longitude'
lon_coord = Coord(lon_data, lon_metadata)
# time coordinate
time_data = self._generate_time_array(vdata)
time_coord = Coord(
time_data,
Metadata(name='Profile_time',
standard_name='time',
shape=time_data.shape,
units=cis_standard_time_unit), "X")
# create object containing list of coordinates
coords = CoordList()
coords.append(lat_coord)
coords.append(lon_coord)
coords.append(time_coord)
return coords
def create_coords(self, filenames, usr_variable=None):
from cis.data_io.netcdf import read_many_files_individually, get_metadata
from cis.data_io.ungridded_data import UngriddedCoordinates, UngriddedData
from cis.data_io.Coord import Coord, CoordList
from cis.exceptions import InvalidVariableError
variables = [("lon", "x", 'longitude'), ("lat", "y", 'latitude'),
("alt", "z", 'altitude'), ("time", "t", 'time'),
("p", "p", 'air_pressure')]
logging.info("Listing coordinates: " + str(variables))
coords = CoordList()
for variable in variables:
try:
var_data = read_many_files_individually(
filenames, variable[0])[variable[0]]
meta = get_metadata(var_data[0])
meta.standard_name = variable[2]
# Some of the variables have an illegal name attribute...
meta.misc.pop('name', None)
c = Coord(var_data, meta, axis=variable[1])
if variable[1] == 'z':
c.convert_units('m')
coords.append(c)
except InvalidVariableError:
pass
# Note - We don't need to convert this time coord as it should have been written in our
# 'standard' time unit
if usr_variable is None:
res = UngriddedCoordinates(coords)
else:
usr_var_data = read_many_files_individually(
filenames, usr_variable)[usr_variable]
meta = get_metadata(usr_var_data[0])
# Some of the variables have an illegal name attribute...
meta.misc.pop('name', None)
res = UngriddedData(usr_var_data, meta, coords)
return res
def _create_coord_list(self, filenames):
from cis.data_io.netcdf import read_many_files_individually, get_metadata
from cis.data_io.Coord import Coord
variables = ["lat", "lon", "time"]
logging.info("Listing coordinates: " + str(variables))
var_data = read_many_files_individually(filenames, variables)
coords = CoordList()
coords.append(Coord(var_data['lat'], get_metadata(var_data['lat'][0]), 'Y'))
coords.append(Coord(var_data['lon'], get_metadata(var_data['lon'][0]), 'X'))
time_coord = Coord(var_data['time'], get_metadata(var_data['time'][0]))
# TODO: Is this really julian?
time_coord.convert_julian_to_std_time()
coords.append(time_coord)
return coords
def _create_coord_list(self, filenames):
from cis.data_io.netcdf import read_many_files, get_metadata
from cis.data_io.Coord import Coord
import datetime
# FIXME: when reading an existing file variables might be "latitude", "longitude"
variables = ["lat", "lon", "time"]
logging.info("Listing coordinates: " + str(variables))
data = read_many_files(filenames, variables, dim="pixel_number")
coords = CoordList()
coords.append(Coord(data["lon"], get_metadata(data["lon"]), "X"))
coords.append(Coord(data["lat"], get_metadata(data["lat"]), "Y"))
time_coord = Coord(data["time"], get_metadata(data["time"]), "T")
time_coord.convert_TAI_time_to_std_time(datetime.datetime(1970, 1, 1))
coords.append(time_coord)
return coords
def _create_coord_list(self, filenames):
from cis.data_io.netcdf import read_many_files_individually, get_metadata
from cis.data_io.Coord import Coord
from cis.exceptions import InvalidVariableError
try:
variables = ["lon", "lat", "time"]
data = read_many_files_individually(filenames, variables)
except InvalidVariableError:
variables = ["longitude", "latitude", "time"]
data = read_many_files_individually(filenames, variables)
logging.info("Listing coordinates: " + str(variables))
coords = CoordList()
coords.append(Coord(data[variables[0]], get_metadata(data[variables[0]][0]), "X"))
coords.append(Coord(data[variables[1]], get_metadata(data[variables[1]][0]), "Y"))
coords.append(self._fix_time(Coord(data[variables[2]], get_metadata(data[variables[2]][0]), "T")))
return coords
def _create_coord_list(self, filenames):
from cis.time_util import cis_standard_time_unit
# list of coordinate variables we are interested in
variables = ['Latitude', 'Longitude', 'TAI_start', 'Profile_time', 'Height']
# reading the various files
try:
logging.info("Listing coordinates: " + str(variables))
sdata, vdata = hdf.read(filenames, variables)
# altitude coordinate
height = sdata['Height']
height_data = hdf.read_data(height, "SD")
height_metadata = hdf.read_metadata(height, "SD")
height_coord = Coord(height_data, height_metadata, "Y")
except InvalidVariableError:
# This means we are reading a Cloudsat file without height, so remove height from the variables list
variables.remove('Height')
logging.info("Listing coordinates: " + str(variables))
sdata, vdata = hdf.read(filenames, variables)
height_data = None
height_coord = None
# latitude
lat = vdata['Latitude']
lat_data = hdf.read_data(lat, "VD")
if height_data is not None:
lat_data = utils.expand_1d_to_2d_array(lat_data, len(height_data[0]), axis=1)
lat_metadata = hdf.read_metadata(lat, "VD")
lat_metadata.shape = lat_data.shape
lat_coord = Coord(lat_data, lat_metadata)
# longitude
lon = vdata['Longitude']
lon_data = hdf.read_data(lon, "VD")
if height_data is not None:
lon_data = utils.expand_1d_to_2d_array(lon_data, len(height_data[0]), axis=1)
lon_metadata = hdf.read_metadata(lon, "VD")
lon_metadata.shape = lon_data.shape
lon_coord = Coord(lon_data, lon_metadata)
# time coordinate
time_data = self._generate_time_array(vdata)
if height_data is not None:
time_data = utils.expand_1d_to_2d_array(time_data, len(height_data[0]), axis=1)
time_coord = Coord(time_data, Metadata(name='Profile_time', standard_name='time', shape=time_data.shape,
units=str(cis_standard_time_unit),
calendar=cis_standard_time_unit.calendar), "X")
# create object containing list of coordinates
coords = CoordList()
coords.append(lat_coord)
coords.append(lon_coord)
if height_coord is not None:
coords.append(height_coord)
coords.append(time_coord)
return coords
def _create_coord_list(self, filenames):
from cis.data_io.netcdf import read_many_files_individually, get_metadata
from cis.data_io.Coord import Coord
from cis.exceptions import InvalidVariableError
try:
variables = ["lon", "lat", "time"]
data = read_many_files_individually(filenames, variables)
except InvalidVariableError:
variables = ["longitude", "latitude", "time"]
data = read_many_files_individually(filenames, variables)
logging.info("Listing coordinates: " + str(variables))
coords = CoordList()
coords.append(
Coord(data[variables[0]], get_metadata(data[variables[0]][0]),
"X"))
coords.append(
Coord(data[variables[1]], get_metadata(data[variables[1]][0]),
"Y"))
coords.append(
self._fix_time(
Coord(data[variables[2]], get_metadata(data[variables[2]][0]),
"T")))
return coords
def create_coords(self, filenames, usr_variable=None):
from cis.data_io.netcdf import read_many_files_individually, get_metadata, get_netcdf_file_variables
from cis.data_io.Coord import Coord, CoordList
from cis.data_io.ungridded_data import UngriddedCoordinates, UngriddedData
from cis.exceptions import InvalidVariableError
# We have to read it once first to find out which variables are in there. We assume the set of coordinates in
# all the files are the same
file_variables = get_netcdf_file_variables(filenames[0])
axis_lookup = {"longitude": "x", 'latitude': 'y', 'altitude': 'z', 'time': 't', 'air_pressure': 'p'}
coord_variables = [(v, axis_lookup[v]) for v in file_variables if v in axis_lookup]
# Create a copy to contain all the variables to read
all_variables = list(coord_variables)
if usr_variable is not None:
all_variables.append((usr_variable, ''))
logging.info("Listing coordinates: " + str(all_variables))
coords = CoordList()
var_data = read_many_files_individually(filenames, [v[0] for v in all_variables])
for name, axis in coord_variables:
try:
coords.append(Coord(var_data[name], get_metadata(var_data[name][0]), axis=axis))
except InvalidVariableError:
pass
# Note - We don't need to convert this time coord as it should have been written in our
# 'standard' time unit
if usr_variable is None:
res = UngriddedCoordinates(coords)
else:
res = UngriddedData(var_data[usr_variable], get_metadata(var_data[usr_variable][0]), coords)
return res
def _create_one_dimensional_coord_list(self, filenames):
from cis.time_util import cis_standard_time_unit
# list of coordinate variables we are interested in
variables = ['MODIS_latitude', 'MODIS_longitude', 'TAI_start', 'Profile_time']
# reading the various files
logging.info("Listing coordinates: " + str(variables))
sdata, vdata = hdf.read(filenames, variables)
# latitude
lat = sdata['MODIS_latitude']
lat_data = hdf.read_data(lat, self._get_cloudsat_sds_data)
lat_metadata = hdf.read_metadata(lat, "SD")
lat_metadata.shape = lat_data.shape
lat_metadata.standard_name = 'latitude'
lat_coord = Coord(lat_data, lat_metadata)
# longitude
lon = sdata['MODIS_longitude']
lon_data = hdf.read_data(lon, self._get_cloudsat_sds_data)
lon_metadata = hdf.read_metadata(lon, "SD")
lon_metadata.shape = lon_data.shape
lon_metadata.standard_name = 'longitude'
lon_coord = Coord(lon_data, lon_metadata)
# time coordinate
time_data = self._generate_time_array(vdata)
time_coord = Coord(time_data, Metadata(name='Profile_time', standard_name='time', shape=time_data.shape,
units=cis_standard_time_unit), "X")
# create object containing list of coordinates
coords = CoordList()
coords.append(lat_coord)
coords.append(lon_coord)
coords.append(time_coord)
return coords
def create_coords(self, filenames, usr_variable=None):
from cis.data_io.Coord import Coord, CoordList
from cis.data_io.ungridded_data import UngriddedCoordinates
from cis.exceptions import InvalidVariableError
variables = [("longitude", "x"), ("latitude", "y"), ("altitude", "z"),
("time", "t"), ("relative_humidity", "RH"),
("surface_air_pressure", "Pa"), ("air_temprature", "K"),
("wind_speed"), ("Wind Diretion"), ("rainfall_rate")]
logging.info("Listing coordinates: " + str(variables))
coords = CoordList()
for variable in variables:
try:
var_data = read_many_files_individually(
filenames, variable[0])[variable[0]]
coords.append(
Coord(var_data,
get_metadata(var_data[0]),
axis=variable[1]))
except InvalidVariableError:
pass
return UngriddedCoordinates(coords)
def create_coords(self, filenames, usr_variable=None):
from cis.data_io.Coord import Coord, CoordList
from cis.data_io.ungridded_data import UngriddedCoordinates
from cis.exceptions import InvalidVariableError
variables = [("longitude", "x"), ("latitude", "y"), ("altitude", "z"),
("time", "t"),
("aerosol_backscatter_coefficient", "m-1 sr-1")]
logging.info("Listing coordinates: " + str(variables))
coords = CoordList()
for variable in variables:
try:
var_data = read_many_files_individually(
filenames, variable[0])[variable[0]]
coords.append(
Coord(var_data,
get_metadata(var_data[0]),
axis=variable[1]))
except InvalidVariableError:
pass
return UngriddedCoordinates(coords)
def _create_coord_list(self, filenames, data=None):
from cis.data_io.ungridded_data import Metadata
from cis.data_io.aeronet import load_multiple_aeronet
from cis.time_util import cis_standard_time_unit as ct
if data is None:
data = load_multiple_aeronet(filenames)
coords = CoordList()
coords.append(Coord(data['longitude'], Metadata(name="Longitude", shape=(len(data),),
units="degrees_east", range=(-180, 180))))
coords.append(Coord(data['latitude'], Metadata(name="Latitude", shape=(len(data),),
units="degrees_north", range=(-90, 90))))
coords.append(Coord(data['altitude'], Metadata(name="Altitude", shape=(len(data),), units="meters")))
coords.append(Coord(data["datetime"], Metadata(name="DateTime", standard_name='time', shape=(len(data),),
units=str(ct)), "X"))
return coords
def _create_coord_list(self, filenames, data=None):
from cis.data_io.ungridded_data import Metadata
from cis.data_io.aeronet import load_multiple_aeronet
from cis.time_util import cis_standard_time_unit as ct
if data is None:
data = load_multiple_aeronet(filenames)
coords = CoordList()
coords.append(Coord(data['longitude'], Metadata(name="Longitude", shape=(len(data),),
units="degrees_east", range=(-180, 180))))
coords.append(Coord(data['latitude'], Metadata(name="Latitude", shape=(len(data),),
units="degrees_north", range=(-90, 90))))
coords.append(Coord(data['altitude'], Metadata(name="Altitude", shape=(len(data),), units="meters")))
coords.append(Coord(data["datetime"], Metadata(name="DateTime", standard_name='time', shape=(len(data),),
units=ct), "X"))
return coords
def create_coords(self, filenames, variable=None):
from cis.data_io.ungridded_data import Metadata
from numpy import genfromtxt, NaN
from cis.exceptions import InvalidVariableError
from cis.time_util import convert_datetime_to_std_time
import dateutil.parser as du
array_list = []
for filename in filenames:
try:
array_list.append(genfromtxt(filename, dtype="f8,f8,f8,O,f8",
names=['latitude', 'longitude', 'altitude', 'time', 'value'],
delimiter=',', missing_values='', usemask=True, invalid_raise=True,
converters={"time": du.parse}))
except:
raise IOError('Unable to read file ' + filename)
data_array = utils.concatenate(array_list)
n_elements = len(data_array['latitude'])
coords = CoordList()
coords.append(Coord(data_array["latitude"],
Metadata(standard_name="latitude", shape=(n_elements,), units="degrees_north")))
coords.append(Coord(data_array["longitude"],
Metadata(standard_name="longitude", shape=(n_elements,), units="degrees_east")))
coords.append(
Coord(data_array["altitude"], Metadata(standard_name="altitude", shape=(n_elements,), units="meters")))
time_arr = convert_datetime_to_std_time(data_array["time"])
time = Coord(time_arr,
Metadata(standard_name="time", shape=(n_elements,), units="days since 1600-01-01 00:00:00"))
coords.append(time)
if variable:
try:
data = UngriddedData(data_array['value'], Metadata(name="value", shape=(n_elements,), units="unknown",
missing_value=NaN), coords)
except:
InvalidVariableError("Value column does not exist in file " + filenames)
return data
else:
return UngriddedCoordinates(coords)
def create_coords(self, filenames, variable=None):
from cis.data_io.ungridded_data import Metadata
from numpy import genfromtxt, NaN
from cis.exceptions import InvalidVariableError
from cis.time_util import convert_datetime_to_std_time
import dateutil.parser as du
array_list = []
for filename in filenames:
try:
array_list.append(genfromtxt(filename, dtype="f8,f8,f8,O,f8",
names=['latitude', 'longitude', 'altitude', 'time', 'value'],
delimiter=',', missing_values='', usemask=True, invalid_raise=True,
converters={"time": du.parse}))
except:
raise IOError('Unable to read file ' + filename)
data_array = utils.concatenate(array_list)
n_elements = len(data_array['latitude'])
coords = CoordList()
coords.append(Coord(data_array["latitude"],
Metadata(standard_name="latitude", shape=(n_elements,), units="degrees_north")))
coords.append(Coord(data_array["longitude"],
Metadata(standard_name="longitude", shape=(n_elements,), units="degrees_east")))
coords.append(
Coord(data_array["altitude"], Metadata(standard_name="altitude", shape=(n_elements,), units="meters")))
time_arr = convert_datetime_to_std_time(data_array["time"])
time = Coord(time_arr,
Metadata(standard_name="time", shape=(n_elements,), units="days since 1600-01-01 00:00:00"))
coords.append(time)
if variable:
try:
data = UngriddedData(data_array['value'], Metadata(name="value", shape=(n_elements,), units="unknown",
missing_value=NaN), coords)
except:
InvalidVariableError("Value column does not exist in file " + filenames)
return data
else:
return UngriddedCoordinates(coords)
def _create_coordinates_list(self, data_variables, variable_selector):
"""
Create a co-ordinate list for the data
:param data_variables: the load data
:param variable_selector: the variable selector for the data
:return: a list of coordinates
"""
coords = CoordList()
# Time
time_coord = self._create_time_coord(variable_selector.time_stamp_info, variable_selector.time_variable_name,
data_variables)
coords.append(time_coord)
# Lat and Lon
# Multiple points counts for multiple files
points_count = [np.product(var.shape) for var in data_variables[variable_selector.time_variable_name]]
if variable_selector.station:
lat_coord = self._create_fixed_value_coord("Y", variable_selector.station_latitude, "degrees_north",
points_count, "latitude")
lon_coord = self._create_fixed_value_coord("X", variable_selector.station_longitude, "degrees_east",
points_count, "longitude")
else:
lat_coord = self._create_coord("Y", variable_selector.latitude_variable_name, data_variables, "latitude")
lon_coord = self._create_coord("X", variable_selector.longitude_variable_name, data_variables, "longitude")
coords.append(lat_coord)
coords.append(lon_coord)
# Altitude
if variable_selector.altitude is None:
altitude_coord = self._create_coord("Z", variable_selector.altitude_variable_name, data_variables,
"altitude")
else:
altitude_coord = self._create_fixed_value_coord("Z", variable_selector.altitude, "meters", points_count,
"altitude")
coords.append(altitude_coord)
# Pressure
if variable_selector.pressure_variable_name is not None:
coords.append(
self._create_coord("P", variable_selector.pressure_variable_name, data_variables, "air_pressure"))
return coords
def _create_coord_list(self, filenames, data=None):
if data is None:
data = {} #initialise data dictionary
inData = netCDF4.Dataset(filenames[0]) #open netCDF file
data['longitude'] = np.array(
inData.variables['longitude']) #extract longitudes
data['latitude'] = np.array(
inData.variables['latitude']) #extract latitudes
origTimes = np.array(inData.variables['time']) #extract times
#convert to days since 1600-01-01 (cis col doesn't work otherwise - not sure why...):
niceDateTime = cf_units.num2date(origTimes,
'days since 1990-01-01 00:00:00',
'gregorian')
data['time'] = cf_units.date2num(niceDateTime,
'days since 1600-01-01 00:00:00',
'gregorian')
inData.close() #close netCDF file
coords = CoordList() #initialise coordinate list
#Append latitudes and longitudes to coordinate list:
coords.append(
Coord(
data['longitude'],
Metadata(name="longitude",
long_name='longitude',
standard_name='longitude',
shape=(len(data), ),
missing_value=-999.0,
units="degrees_east",
range=(-180, 180)), "x"))
coords.append(
Coord(
data['latitude'],
Metadata(name="latitude",
long_name='latitude',
standard_name='latitude',
shape=(len(data), ),
missing_value=-999.0,
units="degrees_north",
range=(-90, 90)), "y"))
coords.append(
Coord(
data['time'],
Metadata(name="time",
long_name='time',
standard_name='time',
shape=(len(data), ),
missing_value=-999.0,
units="days since 1600-01-01 00:00:00"), "t"))
return coords
def _create_coord_list(self, filenames, data=None):
if data is None:
data = {} #initialise data dictionary
inData = netCDF4.Dataset(filenames[0]) #open netCDF file
data['longitude'] = np.array(inData.variables['lon']) #extract longitudes
data['latitude'] = np.array(inData.variables['lat']) #extract latitudes
origTimes = np.array(inData.variables['time_counter']) #extract times
#Convert time to days since
niceDateTime = cf_units.num2date(origTimes,'seconds since 1999-01-01 00:00:00', 'gregorian')
data['time_counter'] = cf_units.date2num(niceDateTime,'days since 1600-01-01 00:00:00', 'gregorian')
inData.close() #close netCDF file
coords = CoordList() #initialise coordinate list
#Append latitudes and longitudes to coordinate list:
coords.append(Coord(data['longitude'],Metadata(name="longitude",long_name='longitude',standard_name='longitude',shape=(len(data),),missing_value=-999.0,units="degrees_east",range=(-180, 180)),"x"))
coords.append(Coord(data['latitude'],Metadata(name="latitude",long_name='latitude',standard_name='latitude',shape=(len(data),),missing_value=-999.0,units="degrees_north",range=(-90, 90)),"y"))
coords.append(Coord(data['time'],Metadata(name="time",long_name='time',standard_name='time',shape=(len(data),),missing_value=-999.0,units="days since 1600-01-01 00:00:00"),"t"))
return coords
def _create_coord_list(self, filenames, data=None):
from cis.data_io.ungridded_data import Metadata
from cis.time_util import cis_standard_time_unit as ct
import numpy as np
if data is None:
data = load_multiple_hysplit(filenames) # TODO error handling
coords = CoordList()
#print(data['DATETIMES'])
latM = Metadata(standard_name="latitude",
shape=(len(data['LAT']), ),
units="degrees_north",
range=(-90, 90))
lonM = Metadata(standard_name="longitude",
shape=(len(data['LON']), ),
units="degrees_east",
range=(-180, 180))
altM = Metadata(standard_name="altitude",
shape=(len(data['ALT']), ),
units="m")
timeM = Metadata(standard_name="time",
shape=(len(data['DATETIMES']), ),
units=str(ct))
#timeM = Metadata(name="DateTime", standard_name="time", shape=(len(data['DATETIMES']),), units=str(ct))
pressM = Metadata(standard_name="air_pressure",
shape=(len(data['PRESSURE']), ),
units="Pa")
#start_timeM = Metadata(name="start_time", standard_name="forecast_reference_time", shape=(len(data['STARTING_TIME']),), units=str(ct))
#start_heightM = Metadata(name="start_height", shape=(len(data['STARTING_HEIGHT']),), units="meters")
#station_noM = Metadata(name="station_no", standard_name="institution", shape=(len(data['STATION_NO']),))
coords.append(Coord(data['DATETIMES'], timeM))
coords.append(Coord(data['PRESSURE'], pressM))
coords.append(Coord(data['LAT'], latM))
coords.append(Coord(data['LON'], lonM))
coords.append(Coord(data['ALT'], altM))
#coords.append(Coord(data['STARTING_TIME'], start_timeM))
#coords.append(Coord(data['STARTING_HEIGHT'], start_heightM))
#coords.append(Coord(data['STATION_NO'], station_noM))
return coords
def _create_coord_list(self, filenames):
from cis.time_util import cis_standard_time_unit
# list of coordinate variables we are interested in
variables = [
'Latitude', 'Longitude', 'TAI_start', 'Profile_time', 'Height'
]
# reading the various files
try:
logging.info("Listing coordinates: " + str(variables))
sdata, vdata = hdf.read(filenames, variables)
# altitude coordinate
height = sdata['Height']
height_data = hdf.read_data(height, self._get_cloudsat_sds_data)
height_metadata = hdf.read_metadata(height, "SD")
height_coord = Coord(height_data, height_metadata, "Y")
except InvalidVariableError:
# This means we are reading a Cloudsat file without height, so remove height from the variables list
variables.remove('Height')
logging.info("Listing coordinates: " + str(variables))
sdata, vdata = hdf.read(filenames, variables)
height_data = None
height_coord = None
# latitude
lat = vdata['Latitude']
lat_data = hdf.read_data(lat, self._get_cloudsat_vds_data)
if height_data is not None:
lat_data = utils.expand_1d_to_2d_array(lat_data,
len(height_data[0]),
axis=1)
lat_metadata = hdf.read_metadata(lat, "VD")
lat_metadata.shape = lat_data.shape
lat_coord = Coord(lat_data, lat_metadata)
# longitude
lon = vdata['Longitude']
lon_data = hdf.read_data(lon, self._get_cloudsat_vds_data)
if height_data is not None:
lon_data = utils.expand_1d_to_2d_array(lon_data,
len(height_data[0]),
axis=1)
lon_metadata = hdf.read_metadata(lon, "VD")
lon_metadata.shape = lon_data.shape
lon_coord = Coord(lon_data, lon_metadata)
# time coordinate
time_data = self._generate_time_array(vdata)
if height_data is not None:
time_data = utils.expand_1d_to_2d_array(time_data,
len(height_data[0]),
axis=1)
time_coord = Coord(
time_data,
Metadata(name='Profile_time',
standard_name='time',
shape=time_data.shape,
units=cis_standard_time_unit), "X")
# create object containing list of coordinates
coords = CoordList()
coords.append(lat_coord)
coords.append(lon_coord)
if height_coord is not None:
coords.append(height_coord)
coords.append(time_coord)
return coords
def _create_coord_list(self, filenames, index_offset=0):
import logging
from cis.data_io import hdf as hdf
from cis.data_io.Coord import Coord, CoordList
from cis.data_io.ungridded_data import Metadata
import cis.utils as utils
from cis.data_io.hdf_vd import VDS
from pyhdf.error import HDF4Error
from cis.data_io import hdf_sd
import datetime as dt
from cis.time_util import convert_sec_since_to_std_time, cis_standard_time_unit
variables = ['Latitude', 'Longitude', "Profile_Time", "Pressure"]
logging.info("Listing coordinates: " + str(variables))
# reading data from files
sdata = {}
for filename in filenames:
try:
sds_dict = hdf_sd.read(filename, variables)
except HDF4Error as e:
raise IOError(str(e))
for var in list(sds_dict.keys()):
utils.add_element_to_list_in_dict(sdata, var, sds_dict[var])
alt_name = "altitude"
logging.info("Additional coordinates: '" + alt_name + "'")
# work out size of data arrays
# the coordinate variables will be reshaped to match that.
# NOTE: This assumes that all Caliop_L1 files have the same altitudes.
# If this is not the case, then the following line will need to be changed
# to concatenate the data from all the files and not just arbitrarily pick
# the altitudes from the first file.
alt_data = get_data(VDS(filenames[0], "Lidar_Data_Altitudes"), True)
alt_data *= 1000.0 # Convert to m
len_x = alt_data.shape[0]
lat_data = hdf.read_data(sdata['Latitude'], self._get_calipso_data)
len_y = lat_data.shape[0]
new_shape = (len_x, len_y)
# altitude
alt_data = utils.expand_1d_to_2d_array(alt_data, len_y, axis=0)
alt_metadata = Metadata(name=alt_name, standard_name=alt_name, shape=new_shape)
alt_coord = Coord(alt_data, alt_metadata)
# pressure
if self.include_pressure:
pres_data = hdf.read_data(sdata['Pressure'], self._get_calipso_data)
pres_metadata = hdf.read_metadata(sdata['Pressure'], "SD")
# Fix badly formatted units which aren't CF compliant and will break if they are aggregated
if str(pres_metadata.units) == "hPA":
pres_metadata.units = "hPa"
pres_metadata.shape = new_shape
pres_coord = Coord(pres_data, pres_metadata, 'P')
# latitude
lat_data = utils.expand_1d_to_2d_array(lat_data[:, index_offset], len_x, axis=1)
lat_metadata = hdf.read_metadata(sdata['Latitude'], "SD")
lat_metadata.shape = new_shape
lat_coord = Coord(lat_data, lat_metadata, 'Y')
# longitude
lon = sdata['Longitude']
lon_data = hdf.read_data(lon, self._get_calipso_data)
lon_data = utils.expand_1d_to_2d_array(lon_data[:, index_offset], len_x, axis=1)
lon_metadata = hdf.read_metadata(lon, "SD")
lon_metadata.shape = new_shape
lon_coord = Coord(lon_data, lon_metadata, 'X')
# profile time, x
time = sdata['Profile_Time']
time_data = hdf.read_data(time, self._get_calipso_data)
time_data = convert_sec_since_to_std_time(time_data, dt.datetime(1993, 1, 1, 0, 0, 0))
time_data = utils.expand_1d_to_2d_array(time_data[:, index_offset], len_x, axis=1)
time_coord = Coord(time_data, Metadata(name='Profile_Time', standard_name='time', shape=time_data.shape,
units=cis_standard_time_unit), "T")
# create the object containing all coordinates
coords = CoordList()
coords.append(lat_coord)
coords.append(lon_coord)
coords.append(time_coord)
coords.append(alt_coord)
if self.include_pressure and (pres_data.shape == alt_data.shape):
# For MODIS L1 this may is not be true, so skips the air pressure reading. If required for MODIS L1 then
# some kind of interpolation of the air pressure would be required, as it is on a different (smaller) grid
# than for the Lidar_Data_Altitudes.
coords.append(pres_coord)
return coords
