Package pygeodesy :: Module hausdorff :: Class HausdorffRadians
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Class HausdorffRadians

  object --+        
           |        
named._Named --+    
               |    
       Hausdorff --+
                   |
                  HausdorffRadians
Known Subclasses:

Hausdorff base class for distances from LatLon points converted from degrees to radians.

Instance Methods
 
__init__(self, points, seed=None, name='', units='', **wrap_adjust)
New Hausdorff... calculator.
 
directed(self, points, early=True)
Compute only the forward Hausdorff distance.
 
symmetric(self, points, early=True)
Compute the combined forward and reverse Hausdorff distance.
 
point(self, point)
Convert (lat, lon) point in degrees to (a, b) in radians.

Inherited from Hausdorff: distance

Inherited from named._Named: _DOT_, __repr__, __str__, attrs, classof, copy, dup, rename, toRepr, toStr, toStr2

Inherited from object: __delattr__, __format__, __getattribute__, __hash__, __new__, __reduce__, __reduce_ex__, __setattr__, __sizeof__, __subclasshook__

Properties

Inherited from Hausdorff: adjust, datum, seed, units, wrap

Inherited from named._Named: classname, classnaming, name, named, named2, named3, named4

Inherited from object: __class__

Method Details

__init__ (self, points, seed=None, name='', units='', **wrap_adjust)
(Constructor)

 

New Hausdorff... calculator.

Arguments:
  • points - Initial set of points, aka the model or template (LatLon[], Numpy2LatLon[], Tuple2LatLon[] or other[]).
  • seed - Random sampling seed (any) or None, 0 or False for no random sampling.
  • name - Optional name for this interpolator (str).
  • units - Optional, the distance units (Unit or str).
  • wrap_adjust - Optionally, wrap and unroll longitudes, iff applicable (bool) and adjust wrapped, unrolled longitudinal delta by the cosine of the mean latitude, iff applicable.
Raises:
  • HausdorffError - Insufficient number of points or an invalid point, seed or wrap or ajust not applicable.
Overrides: object.__init__

directed (self, points, early=True)

 

Compute only the forward Hausdorff distance.

Arguments:
  • points - Second set of points, aka the target (LatLon[], Numpy2LatLon[], Tuple2LatLon[] or other[]).
  • early - Enable or disable early breaking (bool).
Returns:
A Hausdorff6Tuple(hd, i, j, mn, md, units).
Raises:
Overrides: Hausdorff.directed

Note: See points note at HausdorffDistanceTo.

symmetric (self, points, early=True)

 

Compute the combined forward and reverse Hausdorff distance.

Arguments:
  • points - Second set of points, aka the target (LatLon[], Numpy2LatLon[], Tuple2LatLon[] or other[]).
  • early - Enable or disable early breaking (bool).
Returns:
A Hausdorff6Tuple(hd, i, j, mn, md, units).
Raises:
Overrides: Hausdorff.symmetric

Note: See points note at HausdorffDistanceTo.

point (self, point)

 

Convert (lat, lon) point in degrees to (a, b) in radians.

Returns:
An PhiLam2Tuple(phi, lam).
Overrides: Hausdorff.point