def test_thick_elev_bands():
fig, ax = plt.subplots()
gdir = init_columbia_eb(dir_name='test_thick_eb')
workflow.inversion_tasks(utils.tolist(gdir))
inversion.distribute_thickness_per_altitude(gdir)
graphics.plot_distributed_thickness(gdir, ax=ax)
fig.tight_layout()
return fig
def test_thick_interp():
fig, ax = plt.subplots()
gdir = init_hef()
graphics.plot_distributed_thickness(gdir, ax=ax, varname_suffix='_interp')
fig.tight_layout()
return fig
if do_itmix:
done = False
# V1
distrib = partial(distribute_thickness, how='per_altitude',
add_slope=True,
smooth=True)
execute_entity_task(distrib, gdirs)
pdir = os.path.join(PLOTS_DIR, 'out_dis') + '/'
if not os.path.exists(pdir):
os.mkdir(pdir)
for gd in gdirs:
itmix.write_itmix_ascii(gd, 1)
graphics.plot_distributed_thickness(gd)
plt.savefig(pdir + gd.name + '_' + gd.rgi_id + '_d1.png')
plt.close()
# V2
distrib = partial(distribute_thickness, how='per_altitude',
add_slope=False,
smooth=True)
execute_entity_task(distrib, gdirs)
for gd in gdirs:
itmix.write_itmix_ascii(gd, 2)
graphics.plot_distributed_thickness(gd)
plt.savefig(pdir + gd.name + '_' + gd.rgi_id + '_d2.png')
plt.close()
def test_thick_interp():
fig, ax = plt.subplots()
gdir = init_hef()
graphics.plot_distributed_thickness(gdir, ax=ax, how='per_interpolation')
fig.tight_layout()
return fig
def test_thick_alt():
fig, ax = plt.subplots()
gdir = init_hef()
graphics.plot_distributed_thickness(gdir, ax=ax, how='per_altitude')
fig.tight_layout()
return fig
_addt = addt if 'Columbia' in gd.name else ''
graphics.plot_inversion(gd, add_title_comment=_addt)
plt.savefig(pdir + gd.name + '_' + gd.rgi_id + '_inv.png')
plt.close()
# V1
distrib = partial(distribute_thickness, how='per_altitude',
add_slope=True,
smooth=True)
execute_entity_task(distrib, gdirs)
pdir = os.path.join(PLOTS_DIR, 'out_dis') + '/'
if not os.path.exists(pdir):
os.mkdir(pdir)
for gd in gdirs:
itmix.write_itmix_ascii(gd, 1)
graphics.plot_distributed_thickness(gd)
plt.savefig(pdir + gd.name + '_' + gd.rgi_id + '_d1.png')
plt.close()
# V2
distrib = partial(distribute_thickness, how='per_altitude',
add_slope=False,
smooth=True)
execute_entity_task(distrib, gdirs)
for gd in gdirs:
itmix.write_itmix_ascii(gd, 2)
graphics.plot_distributed_thickness(gd)
plt.savefig(pdir + gd.name + '_' + gd.rgi_id + '_d2.png')
plt.close()
# Columbia
def test_plot_distrib():
gdir = init_hef()
graphics.plot_distributed_thickness(gdir, how='per_altitude')
graphics.plot_distributed_thickness(gdir, how='per_interpolation')
def test_plot_distrib():
gdir = init_hef()
graphics.plot_distributed_thickness(gdir, how='per_altitude')
graphics.plot_distributed_thickness(gdir, how='per_interpolation')
def test_thick_interp():
fig, ax = plt.subplots()
gdir = init_hef()
graphics.plot_distributed_thickness(gdir, ax=ax, how='per_interpolation')
fig.tight_layout()
return fig
def test_thick_alt():
fig, ax = plt.subplots()
gdir = init_hef()
graphics.plot_distributed_thickness(gdir, ax=ax, how='per_altitude')
fig.tight_layout()
return fig
