def set_simple_fault_3D_geometry(w, src):
"""
Set simple fault surface coordinates as shapefile geometry.
:parameter w:
Writer
:parameter src:
NRML source object
"""
# Create an oq object for the source
hc = HC(1., 10., 0.1, 50.)
converter = sss.NrmlHazardlibConverter(hc)
src_oq = converter._nrml_source_to_hazardlib(src)
lon, lat = \
SimpleFaultSurface.get_surface_vertexes(src_oq.fault_trace,
src_oq.upper_seismogenic_depth,
src_oq.lower_seismogenic_depth,
src_oq.dip)
# Reorder the vertexes
print lon, lat
lons = numpy.concatenate([lon[::2], numpy.flipud(lon[1::2])])
lats = numpy.concatenate([lat[::2], numpy.flipud(lat[1::2])])
depths = numpy.concatenate([numpy.ones_like(lon[::2]) *
src_oq.upper_seismogenic_depth,
numpy.ones_like(lon[::2]) *
src_oq.lower_seismogenic_depth])
# Create the 3D polygon
w.poly(parts=[[[tlon, tlat, tdep] for tlon, tlat, tdep
in zip(list(lons), list(lats), list(depths))]])
def set_simple_fault_3D_geometry(w, src):
"""
Set simple fault surface coordinates as shapefile geometry.
:parameter w:
Writer
:parameter src:
NRML source object
"""
# Create an oq object for the source
converter = sss.NrmlHazardlibConverter(
investigation_time=50.0, rupture_mesh_spacing=1.0, width_of_mfd_bin=0.1, area_source_discretization=10.0
)
src_oq = converter(src)
lon, lat = SimpleFaultSurface.get_surface_vertexes(
src_oq.fault_trace, src_oq.upper_seismogenic_depth, src_oq.lower_seismogenic_depth, src_oq.dip
)
# Reorder the vertexes
lons = numpy.concatenate([lon[::2], numpy.flipud(lon[1::2])])
lats = numpy.concatenate([lat[::2], numpy.flipud(lat[1::2])])
depths = numpy.concatenate(
[
numpy.ones_like(lon[::2]) * src_oq.upper_seismogenic_depth,
numpy.ones_like(lon[::2]) * src_oq.lower_seismogenic_depth,
]
)
# Create the 3D polygon
w.poly(parts=[[[tlon, tlat, tdep] for tlon, tlat, tdep in zip(list(lons), list(lats), list(depths))]])
