def translation_pathway(N, vt=2., Ric=1221):
fig, ax = plt.subplots(1)
fig2, ax2 = plt.subplots(1)
# use low resolution coastlines.
map = Basemap(projection='moll',lat_0=0,lon_0=0,resolution='l')
# draw coastlines, country boundaries, fill continents.
map.drawcoastlines(linewidth=0.25)
map.drawcountries(linewidth=0.25)
map.fillcontinents(color='coral',lake_color='aqua')
# draw the edge of the map projection region (the projection limb)
map.drawmapboundary(fill_color='aqua')
# draw lat/lon grid lines every 30 degrees.
map.drawmeridians(np.arange(0,360,30))
map.drawparallels(np.arange(-90,90,30))
for i in range(N):
Point = seismo.random_points(seismo="surface")
pos_1, pos_2 = seismo.bottom_point_zeta(Point, Ric=1221)
x_, y_, z_ = seismo.from_seismo_to_cartesian(Ric-Point['depth'],
Point['longitude'], Point['latitude'])
Age = geodyn.translation(x_/Ric, y_/Ric, z_/Ric, vt, 1.)
age_x, age_y = map(Point['longitude'], Point['latitude'])
map.scatter(age_x, age_y, s=Age*100, zorder=10)
#print Age, Ric-Point['depth'], Point['longitude'], Point['longitude']
Nd = 20
x, y, z, d, dx = seismo.raypath_straight(pos_1, pos_2, Nd, coordinate_type="spherical")
r, theta, phi = seismo.from_cartesian_to_seismo(x, y, z)
A = geodyn.translation(x/Ric, y/Ric, z/Ric, vt, 1.)
Age_average = np.sum(A)/Nd
map.scatter(age_x, age_y, s=Age*100, zorder=20)
ax.scatter(Point['longitude'], Age_average)
map.drawgreatcircle(pos_1['longitude'], pos_1['latitude'], pos_2['longitude'], pos_2['latitude'])
for i, xtheta in enumerate(theta[0:-1]):
map.drawgreatcircle(phi[i], theta[i], phi[i+1], theta[i+1])
def test_translation(N, vt=2., Ric=1221):
""" Test pure translation
N : number of points (randomly distributed)
Ric : radius of IC (km)
"""
fig, ax = plt.subplots(1,3)
ax[1] = plt.subplot(132, projection='polar')
for i in range(N):
pathway = seismo.random_points(seismo="surface")
## pathway['depth'] = 0.
x, y, z = seismo.from_seismo_to_cartesian(Ric-pathway['depth'],
pathway['longitude'], pathway['longitude'])
age = geodyn.translation(x/Ric, y/Ric, z/Ric, vt, 1.)
ax[0].scatter(pathway['longitude'], age)#, s=age*10)#pathway['depth'])
ax[1].scatter(pathway['longitude']*2*np.pi/360, 1221-pathway['depth'], s=age*100)#, s=age*50)
ax[2].scatter(x, y, s=age*200)
## print x/Ric, y/Ric, z/Ric, pathway['depth'], pathway['longitude'], pathway['longitude']
print age, Ric-pathway['depth'], pathway['longitude'], pathway['longitude']
