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#!/usr/bin/env python3
import matplotlib.pyplot as plt
import matplotlib as mpl
from matplotlib.colors import LinearSegmentedColormap
import xarray as xr
from metpy.interpolate import cross_section
import metpy.calc as mpcalc
from metpy.units import units
clcov_cmap = {
'red': (
(0.0, 0.0, 0.0),
(0.1, 0.9, 0.9),
(1.0, 0.3, 0.3),
),
'green': (
(0.0, 0.5, 0.5),
(0.1, 0.9, 0.9),
(1.0, 0.3, 0.3),
),
'blue': (
(0.0, 0.9, 0.9),
(0.1, 0.9, 0.9),
(1.0, 0.3, 0.3),
),
}
mpl.colormaps.register(LinearSegmentedColormap('clcov', clcov_cmap))
# backend_kwargs={'filter_by_keys':{'typeOfLevel': 'heightAboveGround','level':2}}
data = xr.load_dataset('dwd_icon-eu/combined.grib2', engine='cfgrib')
lat, lon = (47.96, 11.99)
data = data.sel(latitude=lat, longitude = lon, method='nearest')
#data = data.assign_coords(step=(data.step / (10**9 * 3600)))
data = data.assign_coords(step=(data.step.values.astype(float) * units('ns')).to('hour'))
print(data)
fig = plt.figure(figsize=(5, 5), layout="constrained")
# start figure and set axis
ax = fig.add_subplot(5,1,(1,2))
ax.set_ylabel('Pressure level [hPa]')
#clc = ax.plot(data.step.values.astype('float64'), data.isobaricInhPa, data.ccl.transpose())
#clc = ax.imshow(data.ccl.transpose(), extent=(data.step.values.astype(float).min(), data.step.values.astype(float).max(), data.isobaricInhPa.min(), data.isobaricInhPa.max()), aspect='auto', cmap='Blues_r', vmin=0, vmax=100)
#plt.colorbar(clc, label='clcov')
# Blues_r
clc = ax.contourf(data.step, data.isobaricInhPa, data.ccl.transpose(), cmap='clcov', vmin=0, vmax=100, levels=9)
# use Format parameter for n/8
plt.colorbar(clc, label='cloudcov', extendfrac=None, ticks=[100*n/8 for n in range(9)], format=lambda x,_: f'{int(x/12.5)}/8', pad=0.0, fraction=0.015)
cf = ax.contour(data.step, data.isobaricInhPa, data.t.metpy.convert_units('degC').transpose())
ax.clabel(cf, inline=True, fontsize=10)
#plt.colorbar(cf, pad=0, aspect=50)
#plt.colorbar(cf)
barbs = ax.barbs(data.step, data.isobaricInhPa, data.u.transpose(), data.v.transpose())
#ax.barbs(data.u, data.v, color='black', length=5, alpha=0.5)
ax.invert_yaxis()
### Second plot
ax2 = fig.add_subplot(5,1,3,sharex=ax)
ax2.plot(data.step, data.t2m.metpy.convert_units('degC').transpose(), color='red', label='Temperature (2m)')
ax2.plot(data.step, mpcalc.dewpoint_from_relative_humidity(data.t2m, data.r2).transpose(), color='blue', label='Dewpoint (2m)')
ax2.set_ylabel('Temperature [degC]')
ax2.legend(loc='lower right')
plt.show()
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