from ctypes import c_uint
from django.contrib.gis.geos.error import GEOSException
from django.contrib.gis.geos.geometry import GEOSGeometry
from django.contrib.gis.geos import prototypes as capi
from django.utils import six
from django.utils.six.moves import xrange
class Point(GEOSGeometry):
_minlength = 2
_maxlength = 3
def __init__(self, x, y=None, z=None, srid=None):
"""
The Point object may be initialized with either a tuple, or individual
parameters.
For Example:
>>> p = Point((5, 23)) # 2D point, passed in as a tuple
>>> p = Point(5, 23, 8) # 3D point, passed in with individual parameters
"""
if isinstance(x, (tuple, list)):
# Here a tuple or list was passed in under the `x` parameter.
ndim = len(x)
coords = x
elif isinstance(x, six.integer_types + (float,)) and isinstance(y, six.integer_types + (float,)):
# Here X, Y, and (optionally) Z were passed in individually, as parameters.
if isinstance(z, six.integer_types + (float,)):
ndim = 3
coords = [x, y, z]
else:
ndim = 2
coords = [x, y]
else:
raise TypeError('Invalid parameters given for Point initialization.')
point = self._create_point(ndim, coords)
# Initializing using the address returned from the GEOS
# createPoint factory.
super(Point, self).__init__(point, srid=srid)
def _create_point(self, ndim, coords):
"""
Create a coordinate sequence, set X, Y, [Z], and create point
"""
if ndim < 2 or ndim > 3:
raise TypeError('Invalid point dimension: %s' % str(ndim))
cs = capi.create_cs(c_uint(1), c_uint(ndim))
i = iter(coords)
capi.cs_setx(cs, 0, next(i))
capi.cs_sety(cs, 0, next(i))
if ndim == 3:
capi.cs_setz(cs, 0, next(i))
return capi.create_point(cs)
def _set_list(self, length, items):
ptr = self._create_point(length, items)
if ptr:
capi.destroy_geom(self.ptr)
self._ptr = ptr
self._set_cs()
else:
# can this happen?
raise GEOSException('Geometry resulting from slice deletion was invalid.')
def _set_single(self, index, value):
self._cs.setOrdinate(index, 0, value)
def __iter__(self):
"Allows iteration over coordinates of this Point."
for i in xrange(len(self)):
yield self[i]
def __len__(self):
"Returns the number of dimensions for this Point (either 0, 2 or 3)."
if self.empty:
return 0
if self.hasz:
return 3
else:
return 2
def _get_single_external(self, index):
if index == 0:
return self.x
elif index == 1:
return self.y
elif index == 2:
return self.z
_get_single_internal = _get_single_external
def get_x(self):
"Returns the X component of the Point."
return self._cs.getOrdinate(0, 0)
def set_x(self, value):
"Sets the X component of the Point."
self._cs.setOrdinate(0, 0, value)
def get_y(self):
"Returns the Y component of the Point."
return self._cs.getOrdinate(1, 0)
def set_y(self, value):
"Sets the Y component of the Point."
self._cs.setOrdinate(1, 0, value)
def get_z(self):
"Returns the Z component of the Point."
if self.hasz:
return self._cs.getOrdinate(2, 0)
else:
return None
def set_z(self, value):
"Sets the Z component of the Point."
if self.hasz:
self._cs.setOrdinate(2, 0, value)
else:
raise GEOSException('Cannot set Z on 2D Point.')
# X, Y, Z properties
x = property(get_x, set_x)
y = property(get_y, set_y)
z = property(get_z, set_z)
### Tuple setting and retrieval routines. ###
def get_coords(self):
"Returns a tuple of the point."
return self._cs.tuple
def set_coords(self, tup):
"Sets the coordinates of the point with the given tuple."
self._cs[0] = tup
# The tuple and coords properties
tuple = property(get_coords, set_coords)
coords = tuple