has_get_plot_classes
if event.depth is None: event.depth = 0.
base_source = gf.DoubleDCSource.from_pyrocko_event(event) base_source.stf = gf.HalfSinusoidSTF(duration=event.duration or 0.0)
subs = dict( event_name=event.name, event_time=util.time_to_str(event.time))
problem = DoubleDCProblem( name=expand_template(self.name_template, subs), base_source=base_source, target_groups=target_groups, targets=targets, ranges=self.ranges, distance_min=self.distance_min, norm_exponent=self.norm_exponent, nthreads=self.nthreads)
return problem
Parameter('time', 's', label='Time'), Parameter('north_shift', 'm', label='Northing', **as_km), Parameter('east_shift', 'm', label='Easting', **as_km), Parameter('depth', 'm', label='Depth', **as_km), Parameter('magnitude', label='Magnitude'), Parameter('strike1', 'deg', label='Strike 1'), Parameter('dip1', 'deg', label='Dip 1'), Parameter('rake1', 'deg', label='Rake 1'), Parameter('strike2', 'deg', label='Strike 2'), Parameter('dip2', 'deg', label='Dip 2'), Parameter('rake2', 'deg', label='Rake 2'), Parameter('delta_time', 's', label='$\\Delta$ Time'), Parameter('delta_depth', 'm', label='$\\Delta$ Depth'), Parameter('azimuth', 'deg', label='Azimuth'), Parameter('distance', 'm', label='Distance'), Parameter('mix', label='Mix'), Parameter('duration1', 's', label='Duration 1'), Parameter('duration2', 's', label='Duration 2')]
d = self.get_parameter_dict(x) p = {} for k in self.base_source.keys(): if k in d: p[k] = float( self.ranges[k].make_relative(self.base_source[k], d[k]))
stf1 = gf.HalfSinusoidSTF(duration=float(d.duration1)) stf2 = gf.HalfSinusoidSTF(duration=float(d.duration2))
source = self.base_source.clone(stf1=stf1, stf2=stf2, **p) return source
if xs.ndim == 1: return self.make_dependant(xs[num.newaxis, :], pname)[0]
raise KeyError(pname)
arr = self.get_parameter_array(source) for ip, p in enumerate(self.parameters): if p.name == 'time': arr[ip] -= self.base_source.time if p.name == 'duration1': arr[ip] = source.stf1.duration if source.stf1 else 0.0 if p.name == 'duration2': arr[ip] = source.stf2.duration if source.stf2 else 0.0 return arr
x = num.zeros(self.nparameters) for i in range(self.nparameters): x[i] = rstate.uniform(xbounds[i, 0], xbounds[i, 1])
if fixed_magnitude is not None: x[4] = fixed_magnitude
return x.tolist()
source = self.get_source(x) if any(self.distance_min > source.distance_to(t) for t in self.targets): raise Forbidden()
return num.array(x, dtype=num.float)
def get_plot_classes(cls): plot.MTLocationPlot])
DoubleDCProblem DoubleDCProblemConfig '''.split() |