"""Update local copies of NOAA WW3 global wave forecast. D. Howe 2019-12-13 """ import os import netCDF4 import pandas as pd import xarray as xr LON = 151.25 LAT = -34 VAR_NAMES = ['htsgwsfc', 'perpwsfc', 'dirpwsfc'] INPUT_DIR = 'csv' TIMEZONE = 'Australia/Sydney' DT = pd.Timedelta('6h') # Time between forecasts def get_ww3_forecast(lon, lat, var_names, t): """Get NOAA WaveWatch III (WW3) global wave model forecast. Args: lon (float): longitude in degrees. lat (float): latitude in degrees. var_names (list): variable names. t (datetime): timezone-aware local datetime. Returns: time series dataframe. Available variables: dirpwsfc primary wave direction [deg] dirswsfc secondary wave direction [deg] htsgwsfc significant height of combined wind waves and swell [m] perpwsfc primary wave mean period [s] perswsfc secondary wave mean period [s] ugrdsfc u-component of wind [m/s] vgrdsfc v-component of wind [m/s] wdirsfc wind direction (from which blowing) [deg] windsfc wind speed [m/s] wvdirsfc direction of wind waves [deg] wvpersfc mean period of wind waves [s] """ base_url = 'https://nomads.ncep.noaa.gov:9090/dods/wave/nww3' # Convert to UTC time, and round to nearest 6 hours t_utc = t.tz_convert('UTC').floor('6h') dirname = t_utc.strftime('nww3%Y%m%d') filename = t_utc.strftime('nww3%Y%m%d_%Hz') url = f'{base_url}/{dirname}/{filename}' # Try to load dataset ds = xr.open_dataset(url) # Extract variables from dataset ds = ds.sel(lon=lon, lat=lat, method='nearest') df = ds[var_names].to_dataframe() # Drop lat and lon columns df = df.drop(columns=['lat', 'lon']) # Convert timestamps to local timezone df = df.tz_localize('UTC') df = df.tz_convert(t.tz) return df, filename # Get current time t_now = pd.Timestamp.now(tz=TIMEZONE) for v in VAR_NAMES: csv_name = v + '.csv' try: # Load local copy of variable time series master = pd.read_csv(os.path.join(INPUT_DIR, csv_name), index_col=[0, 1], parse_dates=[1]) master.columns = master.columns.astype(int) # Get start time of most recent forecast t = master.index.get_level_values(level=1)[-1] except FileNotFoundError: index = pd.MultiIndex(levels=[[], []], codes=[[], []], names=['filename', 'start_time']) master = pd.DataFrame(index=index) # Use start time of 5 days hours before present t = t_now - pd.Timedelta('5d') while t < t_now: t += DT try: # Get next forecast df, filename = get_ww3_forecast(LON, LAT, [v], t) except OSError: # Stop if next forecast is not available break # Use filename as column name df = df.rename(columns={v: filename}) # Convert timestamps to relative hours from start of model run start_time = df.index[0] df.index = ((df.index - start_time).total_seconds() / 3600).astype(int) df.index.name = None # Transpose to run time series along rows df.columns = [[filename], [start_time]] df = df.T # Add to master dataframe df.index.names = ['filename', 'start_time'] master = master.append(df) if master.shape[0] > 0: master.to_csv(os.path.join(INPUT_DIR, csv_name), float_format='%g')