pyinterp.core.RTree3DFloat64

class pyinterp.core.RTree3DFloat64

Bases: pybind11_builtins.pybind11_object

RTree spatial index for geodetic scalar values

__init__(self: pyinterp.core.RTree3DFloat64, system: Optional[pyinterp.core.geodetic.System]) None

Default constructor

Parameters

system (pyinterp.core.geodetic.System, optional) – WGS of the coordinate system used to transform equatorial spherical positions (longitudes, latitudes, altitude) into ECEF coordinates. If not set the geodetic system used is WGS-84.

Methods

RTree3DFloat64.bounds(self)

Returns the box able to contain all values stored in the container.

RTree3DFloat64.clear(self)

Removes all values stored in the container.

RTree3DFloat64.insert(self, coordinates, values)

Insert new data into the search tree.

RTree3DFloat64.inverse_distance_weighting(...)

Interpolation of the value at the requested position by inverse distance weighting method.

RTree3DFloat64.packing(self, coordinates, values)

The tree is created using packing algorithm (The old data is erased before construction.)

RTree3DFloat64.query(self, coordinates[, k, ...])

Search for the nearest K nearest neighbors of a given point.

RTree3DFloat64.radial_basis_function(self, ...)

Interpolation of the value at the requested position by radial basis function interpolation.

RTree3DFloat64.window_function(self, ...)

Interpolation of the value at the requested position by window function.

RTree3DFloat64.__bool__(self)

Called to implement truth value testing and the built-in operation bool().

RTree3DFloat64.__getstate__(self)

RTree3DFloat64.__len__(self)

Called to implement the built-in function len()

RTree3DFloat64.__setstate__(self, arg0)