Make the sidebar dynamic depending on the user's rights
This is done by doing the usual access checks that are also called
when the user actually visits the page.
"""
The GDAL/OGR library uses an Envelope structure to hold the bounding
box information for a geometry. The envelope (bounding box) contains
two pairs of coordinates, one for the lower left coordinate and one
for the upper right coordinate:
+----------o Upper right; (max_x, max_y)
| |
| |
| |
Lower left (min_x, min_y) o----------+
"""
from ctypes import Structure, c_double
from types import TupleType, ListType
from django.contrib.gis.gdal.error import OGRException
# The OGR definition of an Envelope is a C structure containing four doubles.
# See the 'ogr_core.h' source file for more information:
# http://www.gdal.org/ogr/ogr__core_8h-source.html
class OGREnvelope(Structure):
"Represents the OGREnvelope C Structure."
_fields_ = [("MinX", c_double),
("MaxX", c_double),
("MinY", c_double),
("MaxY", c_double),
]
class Envelope(object):
"""
The Envelope object is a C structure that contains the minimum and
maximum X, Y coordinates for a rectangle bounding box. The naming
of the variables is compatible with the OGR Envelope structure.
"""
def __init__(self, *args):
"""
The initialization function may take an OGREnvelope structure, 4-element
tuple or list, or 4 individual arguments.
"""
if len(args) == 1:
if isinstance(args[0], OGREnvelope):
# OGREnvelope (a ctypes Structure) was passed in.
self._envelope = args[0]
elif isinstance(args[0], (TupleType, ListType)):
# A tuple was passed in.
if len(args[0]) != 4:
raise OGRException('Incorrect number of tuple elements (%d).' % len(args[0]))
else:
self._from_sequence(args[0])
else:
raise TypeError('Incorrect type of argument: %s' % str(type(args[0])))
elif len(args) == 4:
# Individiual parameters passed in.
# Thanks to ww for the help
self._from_sequence(map(float, args))
else:
raise OGRException('Incorrect number (%d) of arguments.' % len(args))
# Checking the x,y coordinates
if self.min_x >= self.max_x:
raise OGRException('Envelope minimum X >= maximum X.')
if self.min_y >= self.max_y:
raise OGRException('Envelope minimum Y >= maximum Y.')
def __eq__(self, other):
"""
Returns True if the envelopes are equivalent; can compare against
other Envelopes and 4-tuples.
"""
if isinstance(other, Envelope):
return (self.min_x == other.min_x) and (self.min_y == other.min_y) and \
(self.max_x == other.max_x) and (self.max_y == other.max_y)
elif isinstance(other, TupleType) and len(other) == 4:
return (self.min_x == other[0]) and (self.min_y == other[1]) and \
(self.max_x == other[2]) and (self.max_y == other[3])
else:
raise OGRException('Equivalence testing only works with other Envelopes.')
def __str__(self):
"Returns a string representation of the tuple."
return str(self.tuple)
def _from_sequence(self, seq):
"Initializes the C OGR Envelope structure from the given sequence."
self._envelope = OGREnvelope()
self._envelope.MinX = seq[0]
self._envelope.MinY = seq[1]
self._envelope.MaxX = seq[2]
self._envelope.MaxY = seq[3]
@property
def min_x(self):
"Returns the value of the minimum X coordinate."
return self._envelope.MinX
@property
def min_y(self):
"Returns the value of the minimum Y coordinate."
return self._envelope.MinY
@property
def max_x(self):
"Returns the value of the maximum X coordinate."
return self._envelope.MaxX
@property
def max_y(self):
"Returns the value of the maximum Y coordinate."
return self._envelope.MaxY
@property
def ur(self):
"Returns the upper-right coordinate."
return (self.max_x, self.max_y)
@property
def ll(self):
"Returns the lower-left coordinate."
return (self.min_x, self.min_y)
@property
def tuple(self):
"Returns a tuple representing the envelope."
return (self.min_x, self.min_y, self.max_x, self.max_y)
@property
def wkt(self):
"Returns WKT representing a Polygon for this envelope."
# TODO: Fix significant figures.
return 'POLYGON((%s %s,%s %s,%s %s,%s %s,%s %s))' % \
(self.min_x, self.min_y, self.min_x, self.max_y,
self.max_x, self.max_y, self.max_x, self.min_y,
self.min_x, self.min_y)