def split_region(region):
west, east, south, north = topo.positive_region(region)
if east > 180:
return [(west, 180., south, north),
(-180., east-360., south, north)]
else:
return [region]
def split_region(region):
west, east, south, north = topo.positive_region(region)
if east > 180:
return [(west, 180., south, north),
(-180., east-360., south, north)]
else:
return [region]
def extent(lon, lat, w, h, n):
x = num.linspace(-0.5 * w, 0.5 * w, n)
y = num.linspace(-0.5 * h, 0.5 * h, n)
slats, slons = od.ne_to_latlon(lat, lon, y[0], x)
nlats, nlons = od.ne_to_latlon(lat, lon, y[-1], x)
south = slats.min()
north = nlats.max()
wlats, wlons = od.ne_to_latlon(lat, lon, y, x[0])
elats, elons = od.ne_to_latlon(lat, lon, y, x[-1])
elons = num.where(elons < wlons, elons + 360.0, elons)
if elons.max() - elons.min() > 180 or wlons.max() - wlons.min() > 180.0:
west = -180.0
east = 180.0
else:
west = wlons.min()
east = elons.max()
return topo.positive_region((west, east, south, north))
def extent(lon, lat, w, h, n):
x = num.linspace(-0.5 * w, 0.5 * w, n)
y = num.linspace(-0.5 * h, 0.5 * h, n)
slats, slons = od.ne_to_latlon(lat, lon, y[0], x)
nlats, nlons = od.ne_to_latlon(lat, lon, y[-1], x)
south = slats.min()
north = nlats.max()
wlats, wlons = od.ne_to_latlon(lat, lon, y, x[0])
elats, elons = od.ne_to_latlon(lat, lon, y, x[-1])
elons = num.where(elons < wlons, elons + 360., elons)
if elons.max() - elons.min() > 180 or wlons.max() - wlons.min() > 180.:
west = -180.
east = 180.
else:
west = wlons.min()
east = elons.max()
return topo.positive_region((west, east, south, north))
