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Le Roux Erwan authoredf662f7b9
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import os
import os.path as op
from collections import OrderedDict
from typing import List, Dict
import matplotlib.pyplot as plt
import pandas as pd
from netCDF4 import Dataset
from experiment.meteo_france_SCM_study.abstract_variable import AbstractVariable
from experiment.meteo_france_SCM_study.massif import safran_massif_names_from_datasets
from spatio_temporal_dataset.coordinates.abstract_coordinates import AbstractCoordinates
from spatio_temporal_dataset.coordinates.spatial_coordinates.abstract_spatial_coordinates import \
AbstractSpatialCoordinates
from spatio_temporal_dataset.spatio_temporal_observations.annual_maxima_observations import AnnualMaxima
from utils import get_full_path, cached_property
class AbstractStudy(object):
ALTITUDES = [1800, 2400]
def __init__(self, variable_class: type, altitude: int = 1800):
assert altitude in self.ALTITUDES
self.altitude = altitude
self.model_name = None
self.variable_class = variable_class
def write_to_file(self, df: pd.DataFrame):
if not op.exists(self.result_full_path):
os.makedirs(self.result_full_path, exist_ok=True)
df.to_csv(op.join(self.result_full_path, 'merged_array_{}_altitude.csv'.format(self.altitude)))
""" Data """
@property
def df_all_snowfall_concatenated(self) -> pd.DataFrame:
df_list = [pd.DataFrame(time_serie, columns=self.safran_massif_names) for time_serie in
self.year_to_daily_time_serie.values()]
df_concatenated = pd.concat(df_list)
return df_concatenated
@property
def observations_annual_maxima(self) -> AnnualMaxima:
return AnnualMaxima(df_maxima_gev=pd.DataFrame(self.year_to_annual_maxima, index=self.safran_massif_names))
""" Load some attributes only once """
@cached_property
def year_to_dataset_ordered_dict(self) -> OrderedDict:
# Map each year to the correspond netCDF4 Dataset
year_to_dataset = OrderedDict()
nc_files = [(int(f.split('_')[-2][:4]), f) for f in os.listdir(self.safran_full_path) if f.endswith('.nc')]
for year, nc_file in sorted(nc_files, key=lambda t: t[0]):
year_to_dataset[year] = Dataset(op.join(self.safran_full_path, nc_file))
return year_to_dataset
@cached_property
def year_to_daily_time_serie(self) -> OrderedDict:
return self._year_to_daily_time_serie
@cached_property
def year_to_annual_maxima(self) -> OrderedDict:
# Map each year to an array of size nb_massif
year_to_annual_maxima = OrderedDict()
for year, time_serie in self._year_to_max_daily_time_serie.items():
year_to_annual_maxima[year] = time_serie.max(axis=0)
return year_to_annual_maxima
def instantiate_variable_object(self, dataset) -> AbstractVariable:
return self.variable_class(dataset, self.altitude)
""" Private methods to be overwritten """
@property
def _year_to_daily_time_serie(self) -> OrderedDict:
# Map each year to a matrix of size 365-nb_days_consecutive+1 x nb_massifs
year_to_variable = {year: self.instantiate_variable_object(dataset) for year, dataset in
self.year_to_dataset_ordered_dict.items()}
year_to_daily_time_serie = OrderedDict()
for year in self.year_to_dataset_ordered_dict.keys():
year_to_daily_time_serie[year] = year_to_variable[year].daily_time_serie
return year_to_daily_time_serie
@property
def _year_to_max_daily_time_serie(self) -> OrderedDict:
return self._year_to_daily_time_serie
##########
@property
def safran_massif_names(self) -> List[str]:
return self.original_safran_massif_names
@property
def original_safran_massif_names(self) -> List[str]:
# Load the names of the massif as defined by SAFRAN
return safran_massif_names_from_datasets(list(self.year_to_dataset_ordered_dict.values()), self.altitude)
@property
def original_safran_massif_id_to_massif_name(self) -> Dict[int, str]:
return {massif_id: massif_name for massif_id, massif_name in enumerate(self.original_safran_massif_names)}
@cached_property
def massifs_coordinates(self) -> AbstractSpatialCoordinates:
# Coordinate object that represents the massif coordinates in Lambert extended
df_centroid = self.load_df_centroid()
for coord_column in [AbstractCoordinates.COORDINATE_X, AbstractCoordinates.COORDINATE_Y]:
df_centroid.loc[:, coord_column] = df_centroid[coord_column].str.replace(',', '.').astype(float)
# Build coordinate object from df_centroid
return AbstractSpatialCoordinates.from_df(df_centroid)
def load_df_centroid(self) -> pd.DataFrame:
df_centroid = pd.read_csv(op.join(self.map_full_path, 'coordonnees_massifs_alpes.csv'))
df_centroid.set_index('NOM', inplace=True)
df_centroid = df_centroid.loc[self.original_safran_massif_names]
return df_centroid
@property
def coordinate_id_to_massif_name(self) -> Dict[int, str]:
df_centroid = self.load_df_centroid()
return dict(zip(df_centroid['id'], df_centroid.index))
""" Visualization methods """
def visualize(self, ax=None, massif_name_to_fill_kwargs=None, show=True, fill=True):
if ax is None:
ax = plt.gca()
df_massif = pd.read_csv(op.join(self.map_full_path, 'massifsalpes.csv'))
coord_tuples = [(row_massif['idx'], row_massif[AbstractCoordinates.COORDINATE_X],
row_massif[AbstractCoordinates.COORDINATE_Y])
for _, row_massif in df_massif.iterrows()]
for coordinate_id in set([tuple[0] for tuple in coord_tuples]):
l = [coords for idx, *coords in coord_tuples if idx == coordinate_id]
l = list(zip(*l))
ax.plot(*l, color='black')
if fill:
massif_name = self.coordinate_id_to_massif_name[coordinate_id]
fill_kwargs = massif_name_to_fill_kwargs[massif_name] if massif_name_to_fill_kwargs is not None else {}
ax.fill(*l, **fill_kwargs)
ax.scatter(self.massifs_coordinates.x_coordinates, self.massifs_coordinates.y_coordinates)
ax.axis('off')
if show:
plt.show()
""" Some properties """
@property
def title(self):
return "{} at altitude {}m".format(self.variable_name, self.altitude)
@property
def variable_name(self):
return self.variable_class.NAME
@property
def relative_path(self) -> str:
return r'local/spatio_temporal_datasets'
@property
def full_path(self) -> str:
return get_full_path(relative_path=self.relative_path)
@property
def safran_full_path(self) -> str:
assert self.model_name in ['Safran', 'Crocus']
return op.join(self.full_path, 'safran-crocus_{}'.format(self.altitude), self.model_name)
@property
def map_full_path(self) -> str:
return op.join(self.full_path, 'map')
@property
def result_full_path(self) -> str:
return op.join(self.full_path, 'results')