[plotter] [snap] improve vector overlays
This commit is contained in:
Noe Brucy
+14
-41
@@ -946,18 +946,21 @@ class Plotter(Aggregator, BaseProcessor):
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self, name, ax_los, extent, unit=U.km_s, unit_coeff=1.0, reduce_res=1, kind="quiver", **kwargs
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self, name, ax_los, extent, unit=U.km_s, unit_coeff=1.0, reduce_res=1, kind="quiver", **kwargs
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):
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):
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"""
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"""
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Add an overlay : velocity vector field
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Add an overlay : vector field
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"""
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"""
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self.current_processor.process(f"{name}_h", ax_los)
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ax_h = self._axes_h[ax_los]
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self.current_processor.process(f"{name}_v", ax_los)
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ax_v = self._axes_v[ax_los]
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map_h = self.current_processor.get_value("/maps/speed_h_{}".format(ax_los))
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self.current_processor.process(f"slice_{name}{ax_h}", ax_los)
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map_v = self.current_processor.get_value("/maps/speed_v_{}".format(ax_los))
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self.current_processor.process(f"slice_{name}{ax_v}", ax_los)
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label, unit_old, unit = self._ax_label_unit(f"/maps/speed_h_{ax_los}", "", unit, unit_coeff)
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map_h = self.current_processor.get_value(f"/maps/slice_{name}{ax_h}_{ax_los}")
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map_v = self.current_processor.get_value(f"/maps/slice_{name}{ax_v}_{ax_los}")
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label, unit_old, unit = self._ax_label_unit(f"/maps/slice_{name}{ax_h}_{ax_los}", "", unit, unit_coeff)
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# take only a subset of velocities
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# take only a subset
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map_h = map_h[::reduce_res, ::reduce_res] * unit_old.express(unit)
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map_h = map_h[::reduce_res, ::reduce_res] * unit_old.express(unit)
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map_v = map_v[::reduce_res, ::reduce_res] * unit_old.express(unit)
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map_v = map_v[::reduce_res, ::reduce_res] * unit_old.express(unit)
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@@ -969,7 +972,7 @@ class Plotter(Aggregator, BaseProcessor):
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line_integral_convolution(plt.gca(), map_h, map_v, extent=extent, **kwargs)
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line_integral_convolution(plt.gca(), map_h, map_v, extent=extent, **kwargs)
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def _overlay_speed(self, ax_los, extent, **kwargs):
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def _overlay_speed(self, ax_los, extent, **kwargs):
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self._overlay_vector("speed", ax_los, extent, **kwargs)
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self._overlay_vector("vel", ax_los, extent, **kwargs)
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def _overlay_B(self, ax_los, extent, **kwargs):
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def _overlay_B(self, ax_los, extent, **kwargs):
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self._overlay_vector("B", ax_los, extent, **kwargs)
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self._overlay_vector("B", ax_los, extent, **kwargs)
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@@ -1453,31 +1456,7 @@ class Plotter(Aggregator, BaseProcessor):
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overlays=[self._overlay_speed],
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overlays=[self._overlay_speed],
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),
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),
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"Density slice with speed overlay",
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"Density slice with speed overlay",
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dependencies=["slice_rho", "speed_h", "speed_v"],
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dependencies=["slice_rho"],
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),
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"slice_rho_B": PlotRule(
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self,
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partial(
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self._plot_map,
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"slice_rho",
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label=r"$\rho$",
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unit=U.Msun_pc3,
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overlays=[self._overlay_B],
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),
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"Density slice with magnetic field overlay",
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dependencies=["slice_rho", "B_h", "B_v"],
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),
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"slice_rho_B_vel": PlotRule(
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self,
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partial(
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self._plot_map,
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"slice_rho",
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label=r"$\rho$",
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unit=U.Msun_pc3,
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overlays=[self._overlay_B, self._overlay_speed],
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),
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"Density slice with magnetic field and velocity overlay",
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dependencies=["slice_rho", "B_h", "B_v", "speed_h", "speed_v"],
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),
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),
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"jeans_ratio": PlotRule(
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"jeans_ratio": PlotRule(
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self,
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self,
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@@ -1548,14 +1527,6 @@ class Plotter(Aggregator, BaseProcessor):
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"P-PDF on a 2D slice ",
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"P-PDF on a 2D slice ",
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dependencies=["P_pdf"],
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dependencies=["P_pdf"],
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),
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),
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"B_int": PlotRule(
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self,
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partial(
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self._plot_map, "B_int", label=r"$\mid \mathrm{B} \mid$", unit=U.T
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),
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"Magnetic intensity map",
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dependencies=["B_int"],
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),
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"Brho": PlotRule(
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"Brho": PlotRule(
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self,
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self,
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partial(
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partial(
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@@ -1902,7 +1873,9 @@ class Plotter(Aggregator, BaseProcessor):
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# Dict of overlays
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# Dict of overlays
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self.overlays = {
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self.overlays = {
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"g": partial(self._overlay_vector, "g"),
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"B": self._overlay_B,
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"B": self._overlay_B,
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"vel": self._overlay_speed,
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"speed": self._overlay_speed,
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"speed": self._overlay_speed,
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"levels": self._overlay_levels,
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"levels": self._overlay_levels,
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"contour": self._overlay_contour,
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"contour": self._overlay_contour,
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@@ -910,34 +910,6 @@ class SnapshotProcessor(HDF5Container):
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datamap = self._rt.process(self._cam[ax_los], surf_qty=True)
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datamap = self._rt.process(self._cam[ax_los], surf_qty=True)
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return datamap.map.T
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return datamap.map.T
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def _vector_h(self, name, unit, ax_los, z=0.0):
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h_op = ScalarOperator(
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lambda dset: dset[name][:, self._ax_nb[self._axes_h[ax_los]]],
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self._ro.info[unit],
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)
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dmap_h = slicing.SliceMap(self._amr, self._cam[ax_los], h_op, z=z).map.T
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return dmap_h
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def _vector_v(self, name, unit, ax_los, z=0.0):
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v_op = ScalarOperator(
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lambda dset: dset[name][:, self._ax_nb[self._axes_v[ax_los]]],
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self._ro.info[unit],
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)
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dmap_v = slicing.SliceMap(self._amr, self._cam[ax_los], v_op, z=z).map.T
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return dmap_v
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def _speed_h(self, ax_los, z=0.0):
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return self._vector_h("vel", "unit_velocity", ax_los, z)
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def _speed_v(self, ax_los, z=0.0):
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return self._vector_v("vel", "unit_velocity", ax_los, z)
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def _B_h(self, ax_los, z=0.0):
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return self._vector_h("Br", "unit_mag", ax_los, z)
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def _B_v(self, ax_los, z=0.0):
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return self._vector_v("Br", "unit_mag", ax_los, z)
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def _B_int(self, ax_los, z=0.0):
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def _B_int(self, ax_los, z=0.0):
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"""
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"""
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Slice ont the intensity of the magnetic field
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Slice ont the intensity of the magnetic field
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@@ -1595,34 +1567,6 @@ class SnapshotProcessor(HDF5Container):
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unit=U.none,
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unit=U.none,
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dependencies=["avg_map_coldens", "avg_map_T_mwavg"],
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dependencies=["avg_map_coldens", "avg_map_T_mwavg"],
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),
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),
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"speed_h": Rule(
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self,
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self._speed_h,
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"Horizontal speed slice wrt the line of sight",
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"/maps",
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unit=self.info["unit_velocity"],
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),
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"speed_v": Rule(
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self,
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self._speed_v,
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"Vertical speed slice wrt the line of sight",
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"/maps",
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unit=self.info["unit_velocity"],
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),
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"B_h": Rule(
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self,
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self._B_h,
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"Horizontal slice of the magnetic field wrt the line of sight",
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"/maps",
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unit=self.info["unit_mag"],
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),
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"B_v": Rule(
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self,
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self._B_v,
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"Vertical slice of the magnetic field wrt the line of sight",
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"/maps",
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unit=self.info["unit_mag"],
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),
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"T": Rule(
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"T": Rule(
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self,
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self,
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self._temperature,
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self._temperature,
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