#!/usr/bin/env python
# -*- coding: utf-8 -*-
# Copyright (c) 2019 Satpy developers
#
# This file is part of satpy.
#
# satpy is free software: you can redistribute it and/or modify it under the
# terms of the GNU General Public License as published by the Free Software
# Foundation, either version 3 of the License, or (at your option) any later
# version.
#
# satpy is distributed in the hope that it will be useful, but WITHOUT ANY
# WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR
# A PARTICULAR PURPOSE. See the GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License along with
# satpy. If not, see <http://www.gnu.org/licenses/>.
"""Base HDF-EOS reader."""
from __future__ import annotations
import re
import logging
from datetime import datetime
import xarray as xr
import numpy as np
from pyhdf.error import HDF4Error
from pyhdf.SD import SD
from satpy import CHUNK_SIZE, DataID
from satpy.readers.file_handlers import BaseFileHandler
logger = logging.getLogger(__name__)
[docs]def interpolate(clons, clats, csatz, src_resolution, dst_resolution):
"""Interpolate two parallel datasets jointly."""
if csatz is None:
return _interpolate_no_angles(clons, clats, src_resolution, dst_resolution)
return _interpolate_with_angles(clons, clats, csatz, src_resolution, dst_resolution)
def _interpolate_with_angles(clons, clats, csatz, src_resolution, dst_resolution):
from geotiepoints.modisinterpolator import modis_1km_to_250m, modis_1km_to_500m, modis_5km_to_1km
# (src_res, dst_res, is satz not None) -> interp function
interpolation_functions = {
(5000, 1000): modis_5km_to_1km,
(1000, 500): modis_1km_to_500m,
(1000, 250): modis_1km_to_250m
}
return _find_and_run_interpolation(interpolation_functions, src_resolution, dst_resolution,
(clons, clats, csatz))
def _interpolate_no_angles(clons, clats, src_resolution, dst_resolution):
interpolation_functions = {}
try:
from geotiepoints.simple_modis_interpolator import (
modis_1km_to_250m as simple_1km_to_250m,
modis_1km_to_500m as simple_1km_to_500m)
except ImportError:
raise NotImplementedError(
f"Interpolation from {src_resolution}m to {dst_resolution}m "
"without satellite zenith angle information is not "
"implemented. Try updating your version of "
"python-geotiepoints.")
else:
interpolation_functions[(1000, 500)] = simple_1km_to_500m
interpolation_functions[(1000, 250)] = simple_1km_to_250m
return _find_and_run_interpolation(interpolation_functions, src_resolution, dst_resolution,
(clons, clats))
def _find_and_run_interpolation(interpolation_functions, src_resolution, dst_resolution, args):
try:
interpolation_function = interpolation_functions[(src_resolution, dst_resolution)]
except KeyError:
error_message = "Interpolation from {}m to {}m not implemented".format(
src_resolution, dst_resolution)
raise NotImplementedError(error_message)
logger.debug("Interpolating from {} to {}".format(src_resolution, dst_resolution))
return interpolation_function(*args)
[docs]class HDFEOSBaseFileReader(BaseFileHandler):
"""Base file handler for HDF EOS data for both L1b and L2 products."""
def __init__(self, filename, filename_info, filetype_info):
"""Initialize the base reader."""
BaseFileHandler.__init__(self, filename, filename_info, filetype_info)
try:
self.sd = SD(self.filename)
except HDF4Error as err:
error_message = "Could not load data from file {}: {}".format(self.filename, err)
raise ValueError(error_message)
self.metadata = self._load_all_metadata_attributes()
def _load_all_metadata_attributes(self):
metadata = {}
attrs = self.sd.attributes()
for md_key in ("CoreMetadata.0", "StructMetadata.0", "ArchiveMetadata.0"):
try:
str_val = attrs[md_key]
except KeyError:
continue
else:
metadata.update(self.read_mda(str_val))
return metadata
[docs] @staticmethod
def read_mda(attribute):
"""Read the EOS metadata."""
lines = attribute.split('\n')
mda = {}
current_dict = mda
path = []
prev_line = None
for line in lines:
if not line:
continue
if line == 'END':
break
if prev_line:
line = prev_line + line
key, val = line.split('=')
key = key.strip()
val = val.strip()
try:
val = eval(val)
except NameError:
pass
except SyntaxError:
prev_line = line
continue
prev_line = None
if key in ['GROUP', 'OBJECT']:
new_dict = {}
path.append(val)
current_dict[val] = new_dict
current_dict = new_dict
elif key in ['END_GROUP', 'END_OBJECT']:
if val != path[-1]:
raise SyntaxError
path = path[:-1]
current_dict = mda
for item in path:
current_dict = current_dict[item]
elif key in ['CLASS', 'NUM_VAL']:
pass
else:
current_dict[key] = val
return mda
@property
def metadata_platform_name(self):
"""Platform name from the internal file metadata."""
try:
# Example: 'Terra' or 'Aqua'
return self.metadata['INVENTORYMETADATA']['ASSOCIATEDPLATFORMINSTRUMENTSENSOR'][
'ASSOCIATEDPLATFORMINSTRUMENTSENSORCONTAINER']['ASSOCIATEDPLATFORMSHORTNAME']['VALUE']
except KeyError:
return self._platform_name_from_filename()
def _platform_name_from_filename(self):
platform_indicator = self.filename_info["platform_indicator"]
if platform_indicator in ("t", "O"):
# t1.* or MOD*
return "Terra"
# a1.* or MYD*
return "Aqua"
@property
def start_time(self):
"""Get the start time of the dataset."""
try:
date = (self.metadata['INVENTORYMETADATA']['RANGEDATETIME']['RANGEBEGINNINGDATE']['VALUE'] + ' ' +
self.metadata['INVENTORYMETADATA']['RANGEDATETIME']['RANGEBEGINNINGTIME']['VALUE'])
return datetime.strptime(date, '%Y-%m-%d %H:%M:%S.%f')
except KeyError:
return self._start_time_from_filename()
def _start_time_from_filename(self):
for fn_key in ("start_time", "acquisition_time"):
if fn_key in self.filename_info:
return self.filename_info[fn_key]
raise RuntimeError("Could not determine file start time")
@property
def end_time(self):
"""Get the end time of the dataset."""
try:
date = (self.metadata['INVENTORYMETADATA']['RANGEDATETIME']['RANGEENDINGDATE']['VALUE'] + ' ' +
self.metadata['INVENTORYMETADATA']['RANGEDATETIME']['RANGEENDINGTIME']['VALUE'])
return datetime.strptime(date, '%Y-%m-%d %H:%M:%S.%f')
except KeyError:
return self.start_time
def _read_dataset_in_file(self, dataset_name):
if dataset_name not in self.sd.datasets():
error_message = "Dataset name {} not included in available datasets {}".format(
dataset_name, self.sd.datasets()
)
raise KeyError(error_message)
dataset = self.sd.select(dataset_name)
return dataset
[docs] def load_dataset(self, dataset_name, is_category=False):
"""Load the dataset from HDF EOS file."""
from satpy.readers.hdf4_utils import from_sds
dataset = self._read_dataset_in_file(dataset_name)
dask_arr = from_sds(dataset, chunks=CHUNK_SIZE)
dims = ('y', 'x') if dask_arr.ndim == 2 else None
data = xr.DataArray(dask_arr, dims=dims,
attrs=dataset.attributes())
data = self._scale_and_mask_data_array(data, is_category=is_category)
return data
def _scale_and_mask_data_array(self, data, is_category=False):
good_mask, new_fill = self._get_good_data_mask(data, is_category=is_category)
scale_factor = data.attrs.pop('scale_factor', None)
add_offset = data.attrs.pop('add_offset', None)
# don't scale category products, even though scale_factor may equal 1
# we still need to convert integers to floats
if scale_factor is not None and not is_category:
data = data * np.float32(scale_factor)
if add_offset is not None and add_offset != 0:
data = data + add_offset
if good_mask is not None:
data = data.where(good_mask, new_fill)
return data
def _get_good_data_mask(self, data_arr, is_category=False):
try:
fill_value = data_arr.attrs["_FillValue"]
except KeyError:
return None, None
# preserve integer data types if possible
if is_category and np.issubdtype(data_arr.dtype, np.integer):
# no need to mask, the fill value is already what it needs to be
return None, None
new_fill = np.nan
data_arr.attrs.pop('_FillValue', None)
good_mask = data_arr != fill_value
return good_mask, new_fill
def _add_satpy_metadata(self, data_id: DataID, data_arr: xr.DataArray):
"""Add metadata that is specific to Satpy."""
new_attrs = {
'platform_name': 'EOS-' + self.metadata_platform_name,
'sensor': 'modis',
}
res = data_id["resolution"]
rps = self._resolution_to_rows_per_scan(res)
new_attrs["rows_per_scan"] = rps
data_arr.attrs.update(new_attrs)
def _resolution_to_rows_per_scan(self, resolution: int) -> int:
known_rps = {
5000: 2,
1000: 10,
500: 20,
250: 40,
}
return known_rps.get(resolution, 10)
[docs]class HDFEOSGeoReader(HDFEOSBaseFileReader):
"""Handler for the geographical datasets."""
# list of geographical datasets handled by the georeader
# mapping to the default variable name if not specified in YAML
DATASET_NAMES = {
'longitude': 'Longitude',
'latitude': 'Latitude',
'satellite_azimuth_angle': ('SensorAzimuth', 'Sensor_Azimuth'),
'satellite_zenith_angle': ('SensorZenith', 'Sensor_Zenith'),
'solar_azimuth_angle': ('SolarAzimuth', 'SolarAzimuth'),
'solar_zenith_angle': ('SolarZenith', 'Solar_Zenith'),
}
def __init__(self, filename, filename_info, filetype_info):
"""Initialize the geographical reader."""
HDFEOSBaseFileReader.__init__(self, filename, filename_info, filetype_info)
self.cache = {}
[docs] @staticmethod
def is_geo_loadable_dataset(dataset_name: str) -> bool:
"""Determine if this dataset should be loaded as a Geo dataset."""
return dataset_name in HDFEOSGeoReader.DATASET_NAMES
[docs] @staticmethod
def read_geo_resolution(metadata):
"""Parse metadata to find the geolocation resolution."""
# level 1 files
try:
return HDFEOSGeoReader._geo_resolution_for_l1b(metadata)
except KeyError:
try:
return HDFEOSGeoReader._geo_resolution_for_l2_l1b(metadata)
except (AttributeError, KeyError):
raise RuntimeError("Could not determine resolution from file metadata")
@staticmethod
def _geo_resolution_for_l1b(metadata):
ds = metadata['INVENTORYMETADATA']['COLLECTIONDESCRIPTIONCLASS']['SHORTNAME']['VALUE']
if ds.endswith('D03') or ds.endswith('HKM') or ds.endswith('QKM'):
return 1000
# 1km files have 5km geolocation usually
return 5000
@staticmethod
def _geo_resolution_for_l2_l1b(metadata):
# data files probably have this level 2 files
# this does not work for L1B 1KM data files because they are listed
# as 1KM data but the geo data inside is at 5km
latitude_dim = metadata['SwathStructure']['SWATH_1']['DimensionMap']['DimensionMap_2']['GeoDimension']
resolution_regex = re.compile(r'(?P<resolution>\d+)(km|KM)')
resolution_match = resolution_regex.search(latitude_dim)
return int(resolution_match.group('resolution')) * 1000
@property
def geo_resolution(self):
"""Resolution of the geographical data retrieved in the metadata."""
return self.read_geo_resolution(self.metadata)
def _load_ds_by_name(self, ds_name):
"""Attempt loading using multiple common names."""
var_names = self.DATASET_NAMES[ds_name]
if isinstance(var_names, (list, tuple)):
try:
return self.load_dataset(var_names[0])
except KeyError:
return self.load_dataset(var_names[1])
return self.load_dataset(var_names)
[docs] def get_interpolated_dataset(self, name1, name2, resolution, offset=0):
"""Load and interpolate datasets."""
try:
result1 = self.cache[(name1, resolution)]
result2 = self.cache[(name2, resolution)]
except KeyError:
result1 = self._load_ds_by_name(name1)
result2 = self._load_ds_by_name(name2) - offset
try:
sensor_zenith = self._load_ds_by_name('satellite_zenith_angle')
except KeyError:
# no sensor zenith angle, do "simple" interpolation
sensor_zenith = None
result1, result2 = interpolate(
result1, result2, sensor_zenith,
self.geo_resolution, resolution
)
self.cache[(name1, resolution)] = result1
self.cache[(name2, resolution)] = result2 + offset
[docs] def get_dataset(self, dataset_id: DataID, dataset_info: dict) -> xr.DataArray:
"""Get the geolocation dataset."""
# Name of the dataset as it appears in the HDF EOS file
in_file_dataset_name = dataset_info.get('file_key')
# Name of the dataset in the YAML file
dataset_name = dataset_id['name']
# Resolution asked
resolution = dataset_id['resolution']
if in_file_dataset_name is not None:
# if the YAML was configured with a specific name use that
data = self.load_dataset(in_file_dataset_name)
else:
# otherwise use the default name for this variable
data = self._load_ds_by_name(dataset_name)
if resolution != self.geo_resolution:
if in_file_dataset_name is not None:
# they specified a custom variable name but
# we don't know how to interpolate this yet
raise NotImplementedError(
"Interpolation for variable '{}' is not "
"configured".format(dataset_name))
# The data must be interpolated
logger.debug("Loading %s", dataset_name)
if dataset_name in ['longitude', 'latitude']:
self.get_interpolated_dataset('longitude', 'latitude',
resolution)
elif dataset_name in ['satellite_azimuth_angle', 'satellite_zenith_angle']:
# Sensor dataset names differs between L1b and L2 products
self.get_interpolated_dataset('satellite_azimuth_angle', 'satellite_zenith_angle',
resolution, offset=90)
elif dataset_name in ['solar_azimuth_angle', 'solar_zenith_angle']:
# Sensor dataset names differs between L1b and L2 products
self.get_interpolated_dataset('solar_azimuth_angle', 'solar_zenith_angle',
resolution, offset=90)
data = self.cache[dataset_name, resolution]
for key in ('standard_name', 'units'):
if key in dataset_info:
data.attrs[key] = dataset_info[key]
self._add_satpy_metadata(dataset_id, data)
return data