def main2():
ax = plt.axes(projection=ccrs.PlateCarree())
elev, crs, extent = io_srtm.srtm_composite(-6, 50, 4, 3)
elev = np.ma.masked_less_equal(elev, 0, copy=False)
ax.imshow(np.ma.log(elev**2),
extent=extent,
transform=crs,
cmap='Greens',
)
plt.show()
def main2():
ax = plt.axes(projection=ccrs.PlateCarree())
elev, crs, extent = io_srtm.srtm_composite(-6, 50, 4, 3)
elev = np.ma.masked_less_equal(elev, 0, copy=False)
ax.imshow(
np.ma.log(elev**2),
extent=extent,
transform=crs,
cmap='Greens',
)
plt.show()
def main3():
ax = plt.axes(projection=ccrs.PlateCarree())
elev, crs, extent = io_srtm.srtm_composite(-5, 52, 2, 2)
elev = np.ma.masked_less_equal(elev, 0, copy=False)
use_mpl_light_source = False
if use_mpl_light_source:
from matplotlib.colors import LightSource
ls = LightSource(
azdeg=90,
altdeg=80,
hsv_min_val=0.6,
hsv_min_sat=0.9,
hsv_max_val=0.8,
hsv_max_sat=1,
)
rgb = ls.shade(elev, plt.get_cmap('Greens', 3))
else:
import matplotlib.colors as mcolors
rgb = set_shade(elev,
cmap=mcolors.ListedColormap(
[plt.get_cmap('Greens', 3)(0.5)]))
ax.imshow(rgb, extent=extent, transform=crs)
x = np.linspace(extent[0], extent[1], elev.shape[0])
y = np.linspace(extent[2], extent[3], elev.shape[1])
#
# ax.contour(x, y, elev, 100,
# linestyles='-',
# colors='blue',
# linewidths=0.3,
# alpha=0.4,
# transform=crs,
# )
plt.show()
def main3():
ax = plt.axes(projection=ccrs.PlateCarree())
elev, crs, extent = io_srtm.srtm_composite(-5, 52, 2, 2)
elev = np.ma.masked_less_equal(elev, 0, copy=False)
use_mpl_light_source = False
if use_mpl_light_source:
from matplotlib.colors import LightSource
ls = LightSource(azdeg=90, altdeg=80,
hsv_min_val=0.6, hsv_min_sat=0.9,
hsv_max_val=0.8, hsv_max_sat=1,
)
rgb = ls.shade(elev, plt.get_cmap('Greens', 3))
else:
import matplotlib.colors as mcolors
rgb = set_shade(elev,
cmap=mcolors.ListedColormap([plt.get_cmap('Greens', 3)(0.5)])
)
ax.imshow(rgb,
extent=extent,
transform=crs
)
x = np.linspace(extent[0], extent[1], elev.shape[0])
y = np.linspace(extent[2], extent[3], elev.shape[1])
#
# ax.contour(x, y, elev, 100,
# linestyles='-',
# colors='blue',
# linewidths=0.3,
# alpha=0.4,
# transform=crs,
# )
plt.show()
def main():
ax = plt.axes(projection=ccrs.PlateCarree())
# Get the 1x1 degree SRTM tile for 12E, 47N
elev, crs, extent = srtm.srtm_composite(12, 47, 1, 1)
# Fill the gaps present in the elevation data
elev_filled = srtm.fill_gaps(elev, 15)
# Add shading simulating the Sun at 10am (South-East)
# and with a low angle (15 degrees above horizon)
shaded = srtm.add_shading(elev_filled, 135.0, 15.0)
# The plot the result :
plt.imshow(shaded, extent=extent, transform=crs,
cmap='Greys', origin='lower')
plt.title("SRTM Shaded Relief Map")
gl = ax.gridlines(draw_labels=True)
gl.xlabels_top = False
gl.ylabels_left = False
plt.show()
def main():
ax = plt.axes(projection=ccrs.PlateCarree())
# Get the 1x1 degree SRTM tile for 12E, 47N
elev, crs, extent = srtm.srtm_composite(12, 47, 1, 1)
# Fill the gaps present in the elevation data
elev_filled = srtm.fill_gaps(elev, 15)
# Add shading simulating the Sun at 10am (South-East)
# and with a low angle (15 degrees above horizon)
shaded = srtm.add_shading(elev_filled, 135.0, 15.0)
# The plot the result :
plt.imshow(shaded, extent=extent, transform=crs,
cmap='Greys', origin='lower')
plt.title("SRTM Shaded Relief Map")
gl = ax.gridlines(draw_labels=True,)
gl.xlabels_top = False
gl.ylabels_left = False
plt.show()
ccrs.Geodetic
# In[ ]:
import cartopy.crs as ccrs
from cartopy.io import srtm
import matplotlib.pyplot as plt
#def main():
ax = plt.axes(projection=ccrs.PlateCarree())
# Get the 1x1 degree SRTM tile for 12E, 47N
elev, crs, extent = srtm.srtm_composite(12, 47, 1, 1)
# Fill the gaps present in the elevation data
#elev_filled = srtm.fill_gaps(elev, 15)
# Add shading simulating the Sun at 10am (South-East)
# and with a low angle (15 degrees above horizon)
#shaded = srtm.add_shading(elev_filled, 135.0, 15.0)
# The plot the result :
plt.imshow(elev, extent=extent, transform=crs,
cmap='Greys', origin='lower')
plt.title("SRTM Shaded Relief Map")
gl = ax.gridlines(draw_labels=True)
