calendar_average_example.py

This script illustrates the following concepts:
  • Usage of geocat-comp’s calendar_average function.

  • Usage of geocat-datafiles for accessing NetCDF files

  • Creating a figure with stacked subplots

See following GitHub repositories to see further information about the function and how to access data:

Dependencies:
  • geocat.comp

  • geocat.datafiles (for accessing data file only)

  • geocat.viz

  • cftime (installed with geocat.comp)

  • matplotlib (installed with geocat.viz)

  • xarray (installed with geocat.comp)

Figure Description: The top subplot is raw surface temperature data from a model run with a temporal resolution of 6-hours.

The second subplot shows the output of the raw data being aggregated using the calendar_average function with the freq argument set to ‘daily’. This function averages all data points within each 24-hour period.

The third subplot shows the output of calendar_average with the freq argument set to monthly. This works much the same as for the middle plot; however, the data is now grouped by month which yeilds a smoother curve.

The bottom subplot shows the output of calendar_average with the freq argument set to season. This averages all data points in each meteorological season. Those seasons are each comprised of three month periods with the first consisting of December, January, and February for meteorological winter.

Import packages

import cftime
import matplotlib.pyplot as plt
import xarray as xr

from geocat.comp import calendar_average
import geocat.datafiles as gdf
from geocat.viz import util as gvutil

Read in data:

ds = xr.open_dataset(gdf.get('netcdf_files/atm.20C.hourly6-1990-1995-TS.nc'))
ds = ds.isel(member_id=0)  # select one model from the ensemble

temp = ds.TS  # surface temperature data

Calculate daily, monthly, and seasonal averages using calendar_average

daily = calendar_average(temp, 'day')
monthly = calendar_average(temp, 'month')
season = calendar_average(temp, 'season')

# Convert datetimes to number of hours since 1990-01-01 00:00:00
# This must be done in order to use the time for the x axis
time_num_raw = cftime.date2num(temp.time, 'hours since 1990-01-01 00:00:00')
time_num_day = cftime.date2num(daily.time, 'hours since 1990-01-01 00:00:00')
time_num_month = cftime.date2num(monthly.time,
                                 'hours since 1990-01-01 00:00:00')
time_num_season = cftime.date2num(season.time,
                                  'hours since 1990-01-01 00:00:00')

# Start and end time for axes limits in units of hours since 1990-01-01 00:00:00
tstart = time_num_raw[0]
tend = time_num_raw[-1]

Plot:

# Make three subplots with shared axes
fig, ax = plt.subplots(4,
                       1,
                       figsize=(8, 10),
                       sharex=True,
                       sharey=True,
                       constrained_layout=True)

# Plot data
ax[0].plot(time_num_raw, temp.data)
ax[1].plot(time_num_day, daily.data)
ax[2].plot(time_num_month, monthly.data)
ax[3].plot(time_num_season, season.data)

# Use geocat.viz.util convenience function to set axes parameters without
# calling several matplotlib functions
gvutil.set_axes_limits_and_ticks(ax[0],
                                 xlim=(tstart, tend + 1),
                                 xticks=range(tstart, tend + 1, 365 * 24),
                                 xticklabels=range(1990, 1997),
                                 ylim=(297, 304))

# Use geocat.viz.util convenience function to set titles and labels
gvutil.set_titles_and_labels(ax[0],
                             ylabel='Raw Data (6-hourly)',
                             lefttitle=temp.long_name,
                             lefttitlefontsize=14,
                             righttitle=temp.units,
                             righttitlefontsize=14)

gvutil.set_titles_and_labels(ax[1], ylabel='Daily Average')

gvutil.set_titles_and_labels(ax[2], ylabel='Monthly Average')

gvutil.set_titles_and_labels(ax[3],
                             ylabel='Season Average',
                             xlabel=temp.time.long_name)

# Add title manually to control spacing
fig.suptitle('Calendar Average on 6-hourly Data', fontsize=20)

plt.show()
Calendar Average on 6-hourly Data, Surface temperature (radiative), K

Total running time of the script: ( 0 minutes 2.211 seconds)

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