.. currentmodule:: geocat.comp .. _mini-example: Basic Examples ============== For more comprehensive examples, go check out :ref:`examples` Calculate saturation vapor pressure from ``Numpy`` Data:: >>> import numpy as np >>> from geocat.comp import saturation_vapor_pressure >>> temp = np.array([50, 60, 70]) >>> saturation_vapor_pressure(temp) array([1.22796262, 1.76730647, 2.50402976]) Calculate daily climate averages from NetCDF Data:: >>> import xarray as xr >>> from geocat.comp import calendar_average >>> import geocat.datafiles as gdf >>> # get data from geocat.datafiles repo or use your own data >>> file = gdf.get('netcdf_files/atm.20C.hourly6-1990-1995-TS.nc') >>> ds = xr.open_dataset(file) # open NetCDF file using xarray >>> temp = ds.TS >>> temp [350440 values with dtype=float32] Coordinates: lat float64 ... lon float64 ... * member_id (member_id) int64 1 2 3 4 5 6 7 8 ... 34 35 101 102 103 104 105 * time (time) object 1990-01-01 00:00:00 ... 1996-01-01 00:00:00 Attributes: long_name: Surface temperature (radiative) units: K >>> calendar_average(temp, 'day') array([[301.88226, 301.9291 , 302.0053 , ..., 302.24304, 302.31415, 302.33292], [300.3797 , 300.3421 , 300.28976, ..., 299.82782, 299.83026, 299.8336 ], [300.31702, 300.29077, 300.28403, ..., 300.08377, 300.02185, 300.0073 ], ..., [302.60565, 302.48895, 302.3853 , ..., 300.181 , 300.16293, 300.15826], [299.1427 , 299.12122, 299.06543, ..., 302.36343, 302.35126, 302.35077], [297.99374, 298.0177 , 298.03265, ..., 300.71463, 300.68396, 300.67422]], dtype=float32) Coordinates: lat float64 ... lon float64 ... * member_id (member_id) int64 1 2 3 4 5 6 7 8 ... 34 35 101 102 103 104 105 * time (time) object 1990-01-01 12:00:00 ... 1996-01-01 12:00:00 Attributes: long_name: Surface temperature (radiative) units: K