/usr/lib/python2.7/dist-packages/pyresample/plot.py is in python-pyresample 1.1.0-1.
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def ellps2axis(ellps_name):
"""Get semi-major and semi-minor axis from ellipsis definition
:Parameters:
ellps_name : str
Standard name of ellipsis
:Returns:
(a, b) : semi-major and semi-minor axis
"""
ellps = {'helmert': {'a': 6378200.0, 'b': 6356818.1696278909},
'intl': {'a': 6378388.0, 'b': 6356911.9461279465},
'merit': {'a': 6378137.0, 'b': 6356752.2982159676},
'wgs72': {'a': 6378135.0, 'b': 6356750.5200160937},
'sphere': {'a': 6370997.0, 'b': 6370997.0},
'clrk66': {'a': 6378206.4000000004, 'b': 6356583.7999999998},
'nwl9d': {'a': 6378145.0, 'b': 6356759.7694886839},
'lerch': {'a': 6378139.0, 'b': 6356754.2915103417},
'evrstss': {'a': 6377298.5559999999, 'b': 6356097.5503008962},
'evrst30': {'a': 6377276.3449999997, 'b': 6356075.4131402401},
'mprts': {'a': 6397300.0, 'b': 6363806.2827225132},
'krass': {'a': 6378245.0, 'b': 6356863.0187730473},
'walbeck': {'a': 6376896.0, 'b': 6355834.8466999996},
'kaula': {'a': 6378163.0, 'b': 6356776.9920869097},
'wgs66': {'a': 6378145.0, 'b': 6356759.7694886839},
'evrst56': {'a': 6377301.2429999998, 'b': 6356100.2283681016},
'new_intl': {'a': 6378157.5, 'b': 6356772.2000000002},
'airy': {'a': 6377563.3959999997, 'b': 6356256.9100000001},
'bessel': {'a': 6377397.1550000003, 'b': 6356078.9628181886},
'seasia': {'a': 6378155.0, 'b': 6356773.3205000004},
'aust_sa': {'a': 6378160.0, 'b': 6356774.7191953054},
'wgs84': {'a': 6378137.0, 'b': 6356752.3142451793},
'hough': {'a': 6378270.0, 'b': 6356794.3434343431},
'wgs60': {'a': 6378165.0, 'b': 6356783.2869594367},
'engelis': {'a': 6378136.0499999998, 'b': 6356751.3227215428},
'apl4.9': {'a': 6378137.0, 'b': 6356751.796311819},
'andrae': {'a': 6377104.4299999997, 'b': 6355847.4152333336},
'sgs85': {'a': 6378136.0, 'b': 6356751.301568781},
'delmbr': {'a': 6376428.0, 'b': 6355957.9261637237},
'fschr60m': {'a': 6378155.0, 'b': 6356773.3204827355},
'iau76': {'a': 6378140.0, 'b': 6356755.2881575283},
'plessis': {'a': 6376523.0, 'b': 6355863.0},
'cpm': {'a': 6375738.7000000002, 'b': 6356666.221912113},
'fschr68': {'a': 6378150.0, 'b': 6356768.3372443849},
'mod_airy': {'a': 6377340.1890000002, 'b': 6356034.4460000005},
'grs80': {'a': 6378137.0, 'b': 6356752.3141403561},
'bess_nam': {'a': 6377483.8650000002, 'b': 6356165.3829663256},
'fschr60': {'a': 6378166.0, 'b': 6356784.2836071067},
'clrk80': {'a': 6378249.1449999996, 'b': 6356514.9658284895},
'evrst69': {'a': 6377295.6639999999, 'b': 6356094.6679152036},
'grs67': {'a': 6378160.0, 'b': 6356774.5160907144},
'evrst48': {'a': 6377304.0630000001, 'b': 6356103.0389931547}}
try:
ellps_axis = ellps[ellps_name.lower()]
a = ellps_axis['a']
b = ellps_axis['b']
except KeyError, e:
raise ValueError(('Could not determine semi-major and semi-minor axis '
'of specified ellipsis %s') % ellps_name)
return a, b
def area_def2basemap(area_def, **kwargs):
"""Get Basemap object from AreaDefinition
:Parameters:
area_def : object
geometry.AreaDefinition object
**kwargs: Keyword arguments
Additional initialization arguments for Basemap
:Returns:
bmap : Basemap object
"""
from mpl_toolkits.basemap import Basemap
try:
a, b = ellps2axis(area_def.proj_dict['ellps'])
rsphere = (a, b)
except KeyError:
try:
a = float(area_def.proj_dict['a'])
try:
b = float(area_def.proj_dict['b'])
rsphere = (a, b)
except KeyError:
rsphere = a
except KeyError:
# Default to WGS84 ellipsoid
a, b = ellps2axis('wgs84')
rsphere = (a, b)
# Add projection specific basemap args to args passed to function
basemap_args = kwargs
basemap_args['rsphere'] = rsphere
if area_def.proj_dict['proj'] in ('ortho', 'geos', 'nsper'):
llcrnrx, llcrnry, urcrnrx, urcrnry = area_def.area_extent
basemap_args['llcrnrx'] = llcrnrx
basemap_args['llcrnry'] = llcrnry
basemap_args['urcrnrx'] = urcrnrx
basemap_args['urcrnry'] = urcrnry
else:
llcrnrlon, llcrnrlat, urcrnrlon, urcrnrlat = area_def.area_extent_ll
basemap_args['llcrnrlon'] = llcrnrlon
basemap_args['llcrnrlat'] = llcrnrlat
basemap_args['urcrnrlon'] = urcrnrlon
basemap_args['urcrnrlat'] = urcrnrlat
if area_def.proj_dict['proj'] == 'eqc':
basemap_args['projection'] = 'cyl'
else:
basemap_args['projection'] = area_def.proj_dict['proj']
# Try adding potentially remaining args
for key in ('lon_0', 'lat_0', 'lon_1', 'lat_1', 'lon_2', 'lat_2',
'lat_ts'):
try:
basemap_args[key] = float(area_def.proj_dict[key])
except KeyError:
pass
return Basemap(**basemap_args)
def _get_quicklook(area_def, data, vmin=None, vmax=None,
label='Variable (units)', num_meridians=45,
num_parallels=10, coast_res='c'):
"""Get default Basemap matplotlib plot
"""
if area_def.shape != data.shape:
raise ValueError('area_def shape %s does not match data shape %s' %
(list(area_def.shape), list(data.shape)))
import matplotlib.pyplot as plt
bmap = area_def2basemap(area_def, resolution=coast_res)
bmap.drawcoastlines()
if num_meridians > 0:
bmap.drawmeridians(np.arange(-180, 180, num_meridians))
if num_parallels > 0:
bmap.drawparallels(np.arange(-90, 90, num_parallels))
if not (np.ma.isMaskedArray(data) and data.mask.all()):
col = bmap.imshow(data, origin='upper', vmin=vmin, vmax=vmax)
plt.colorbar(col, shrink=0.5, pad=0.05).set_label(label)
return plt
def show_quicklook(area_def, data, vmin=None, vmax=None,
label='Variable (units)', num_meridians=45,
num_parallels=10, coast_res='c'):
"""Display default quicklook plot
:Parameters:
area_def : object
geometry.AreaDefinition object
data : numpy array | numpy masked array
2D array matching area_def. Use masked array for transparent values
vmin : float, optional
Min value for luminescence scaling
vmax : float, optional
Max value for luminescence scaling
label : str, optional
Label for data
num_meridians : int, optional
Number of meridians to plot on the globe
num_parallels : int, optional
Number of parallels to plot on the globe
coast_res : {'c', 'l', 'i', 'h', 'f'}, optional
Resolution of coastlines
:Returns:
bmap : Basemap object
"""
plt = _get_quicklook(area_def, data, vmin=vmin, vmax=vmax,
label=label, num_meridians=num_meridians,
num_parallels=num_parallels, coast_res=coast_res)
plt.show()
plt.close()
def save_quicklook(filename, area_def, data, vmin=None, vmax=None,
label='Variable (units)', num_meridians=45,
num_parallels=10, coast_res='c', backend='AGG'):
"""Display default quicklook plot
:Parameters:
filename : str
path to output file
area_def : object
geometry.AreaDefinition object
data : numpy array | numpy masked array
2D array matching area_def. Use masked array for transparent values
vmin : float, optional
Min value for luminescence scaling
vmax : float, optional
Max value for luminescence scaling
label : str, optional
Label for data
num_meridians : int, optional
Number of meridians to plot on the globe
num_parallels : int, optional
Number of parallels to plot on the globe
coast_res : {'c', 'l', 'i', 'h', 'f'}, optional
Resolution of coastlines
backend : str, optional
matplotlib backend to use'
"""
import matplotlib
matplotlib.use(backend, warn=False)
plt = _get_quicklook(area_def, data, vmin=vmin, vmax=vmax,
label=label, num_meridians=num_meridians,
num_parallels=num_parallels, coast_res=coast_res)
plt.savefig(filename, bbox_inches='tight')
plt.close()
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