system_assignation/venv/lib/python3.7/site-packages/shapely/strtree.py

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from shapely.geos import lgeos
import ctypes
class STRtree:
"""
STRtree is an R-tree that is created using the Sort-Tile-Recursive
algorithm. STRtree takes a sequence of geometry objects as initialization
parameter. After initialization the query method can be used to make a
spatial query over those objects.
>>> from shapely.geometry import Polygon
>>> polys = [ Polygon(((0, 0), (1, 0), (1, 1))), Polygon(((0, 1), (0, 0), (1, 0))), Polygon(((100, 100), (101, 100), (101, 101))) ]
>>> s = STRtree(polys)
>>> query_geom = Polygon(((-1, -1), (2, 0), (2, 2), (-1, 2)))
>>> result = s.query(query_geom)
>>> polys[0] in result
True
>>> polys[1] in result
True
>>> polys[2] in result
False
>>> # Test empty tree
>>> s = STRtree([])
>>> s.query(query_geom)
[]
>>> # Test tree with one object
>>> s = STRtree([polys[0]])
>>> result = s.query(query_geom)
>>> polys[0] in result
True
"""
def __init__(self, geoms):
# filter empty geometries out of the input
geoms = [geom for geom in geoms if not geom.is_empty]
self._n_geoms = len(geoms)
# GEOS STRtree capacity has to be > 1
self._tree_handle = lgeos.GEOSSTRtree_create(max(2, len(geoms)))
for geom in geoms:
lgeos.GEOSSTRtree_insert(self._tree_handle, geom._geom, ctypes.py_object(geom))
# Keep references to geoms.
self._geoms = list(geoms)
def __del__(self):
if self._tree_handle is not None:
lgeos.GEOSSTRtree_destroy(self._tree_handle)
self._tree_handle = None
def query(self, geom):
if self._n_geoms == 0:
return []
result = []
def callback(item, userdata):
geom = ctypes.cast(item, ctypes.py_object).value
result.append(geom)
lgeos.GEOSSTRtree_query(self._tree_handle, geom._geom, lgeos.GEOSQueryCallback(callback), None)
return result
def nearest(self, geom):
if self._n_geoms == 0:
return None
envelope = geom.envelope
def callback(item1, item2, distance, userdata):
try:
geom1 = ctypes.cast(item1, ctypes.py_object).value
geom2 = ctypes.cast(item2, ctypes.py_object).value
dist = ctypes.cast(distance, ctypes.POINTER(ctypes.c_double))
lgeos.GEOSDistance(geom1._geom, geom2._geom, dist)
return 1
except:
return 0
item = lgeos.GEOSSTRtree_nearest_generic(self._tree_handle, ctypes.py_object(geom), envelope._geom, \
lgeos.GEOSDistanceCallback(callback), None)
result = ctypes.cast(item, ctypes.py_object).value
return result
if __name__ == "__main__":
import doctest
doctest.testmod()