pygplates.ResolvedTopologicalNetwork¶

class
pygplates.
ResolvedTopologicalNetwork
¶ Bases:
pygplates.ReconstructionGeometry
The geometry of a topological network feature resolved to a geological time.
The
resolve_topologies()
function can be used to generate ResolvedTopologicalNetwork instances.
__init__
()¶ Raises an exception This class cannot be instantiated from Python
Methods
__init__
Raises an exception This class cannot be instantiated from Python get_boundary_sub_segments
()Returns the subsegments
that make up the boundary of this resolved topological network.get_feature
()Returns the feature associated with this ResolvedTopologicalNetwork
.get_property
()Returns the feature property containing the topological network property associated with this ResolvedTopologicalNetwork
.get_reconstruction_time
()Returns the reconstruction time that this instance was created at. get_resolved_boundary
()Returns the resolved boundary of this network. get_resolved_feature
()Returns a feature containing the resolved boundary geometry. get_resolved_geometry
()Same as get_resolved_boundary()
.
get_boundary_sub_segments
()¶ Returns the
subsegments
that make up the boundary of this resolved topological network.Return type: list of ResolvedTopologicalSubSegment
To get a list of the unreversed boundary subsegment geometries:
sub_segment_geometries = [] for sub_segment in resolved_topological_network.get_boundary_sub_segments(): sub_segment_geometries.append(sub_segment.get_resolved_geometry())
To get a list of subsegment geometries with points in the same order as this topological network boundary:
sub_segment_geometries = [] for sub_segment in resolved_topological_network.get_boundary_sub_segments(): sub_segment_geometry = sub_segment.get_resolved_geometry() if sub_segment.was_geometry_reversed_in_topology(): # Create a new subsegment polyline with points in reverse order. sub_segment_geometry = pygplates.PolylineOnSphere(sub_segment_geometry[::1]) sub_segment_geometries.append(sub_segment_geometry)
The following is essentially equivalent to
get_resolved_boundary (except rubber banding points, if any, between adjacent subsegments are included below but not in :meth:`get_resolved_boundary()
):def get_resolved_boundary(resolved_topological_network): resolved_boundary_points = [] for sub_segment in resolved_topological_network.get_boundary_sub_segments(): sub_segment_points = sub_segment.get_resolved_geometry().get_points() if sub_segment.was_geometry_reversed_in_topology(): # Reverse the subsegment points. sub_segment_points = sub_segment_points[::1] resolved_boundary_points.extend(sub_segment_points) return pygplates.PolygonOnSphere(resolved_boundary_points)

get_feature
()¶ Returns the feature associated with this
ResolvedTopologicalNetwork
.Return type: Feature
Note
The returned feature is what was used to generate this
ResolvedTopologicalNetwork
viaresolve_topologies()
.See also

get_property
()¶ Returns the feature property containing the topological network property associated with this
ResolvedTopologicalNetwork
.Return type: Property
This is the
Property
that theget_resolved_boundary()
is obtained from.

get_resolved_boundary
()¶ Returns the resolved boundary of this network.
Return type: PolygonOnSphere

get_resolved_feature
()¶ Returns a feature containing the resolved boundary geometry.
Return type: Feature
The returned feature contains the static
resolved geometry
. Unlikeget_feature()
it cannot be used to generate aResolvedTopologicalNetwork
viaresolve_topologies()
.Note
The returned feature does not contain presentday geometry as is typical of most GPlates features.In this way the returned feature is similar to a GPlates reconstruction export.Note
The returned feature should not be
reverse reconstructed
to present day because topologies are resolved (not reconstructed).See also

get_resolved_geometry
()¶ Same as
get_resolved_boundary()
.
