hub/venv/lib/python3.7/site-packages/shapely/prepared.py

100 lines
3.0 KiB
Python

"""
Support for GEOS prepared geometry operations.
"""
from shapely.geos import lgeos
from shapely.impl import DefaultImplementation, delegated
from pickle import PicklingError
class PreparedGeometry(object):
"""
A geometry prepared for efficient comparison to a set of other geometries.
Example:
>>> from shapely.geometry import Point, Polygon
>>> triangle = Polygon(((0.0, 0.0), (1.0, 1.0), (1.0, -1.0)))
>>> p = prep(triangle)
>>> p.intersects(Point(0.5, 0.5))
True
"""
impl = DefaultImplementation
def __init__(self, context):
if isinstance(context, PreparedGeometry):
self.context = context.context
else:
self.context = context
self.__geom__ = lgeos.GEOSPrepare(self.context._geom)
self.prepared = True
def __del__(self):
if self.__geom__ is not None:
try:
lgeos.GEOSPreparedGeom_destroy(self.__geom__)
except AttributeError:
pass # lgeos might be empty on shutdown.
self.__geom__ = None
self.context = None
self.prepared = False
@property
def _geom(self):
return self.__geom__
@delegated
def contains(self, other):
"""Returns True if the geometry contains the other, else False"""
return bool(self.impl['prepared_contains'](self, other))
@delegated
def contains_properly(self, other):
"""Returns True if the geometry properly contains the other, else False"""
return bool(self.impl['prepared_contains_properly'](self, other))
@delegated
def covers(self, other):
"""Returns True if the geometry covers the other, else False"""
return bool(self.impl['prepared_covers'](self, other))
@delegated
def crosses(self, other):
"""Returns True if the geometries cross, else False"""
return bool(self.impl['prepared_crosses'](self, other))
@delegated
def disjoint(self, other):
"""Returns True if geometries are disjoint, else False"""
return bool(self.impl['prepared_disjoint'](self, other))
@delegated
def intersects(self, other):
"""Returns True if geometries intersect, else False"""
return bool(self.impl['prepared_intersects'](self, other))
@delegated
def overlaps(self, other):
"""Returns True if geometries overlap, else False"""
return bool(self.impl['prepared_overlaps'](self, other))
@delegated
def touches(self, other):
"""Returns True if geometries touch, else False"""
return bool(self.impl['prepared_touches'](self, other))
@delegated
def within(self, other):
"""Returns True if geometry is within the other, else False"""
return bool(self.impl['prepared_within'](self, other))
def __reduce__(self):
raise PicklingError("Prepared geometries cannot be pickled.")
def prep(ob):
"""Creates and returns a prepared geometric object."""
return PreparedGeometry(ob)