337 lines
10 KiB
Python
337 lines
10 KiB
Python
from __future__ import unicode_literals
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import re
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from django.core.exceptions import FieldDoesNotExist
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from django.db.models.constants import LOOKUP_SEP
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from django.db.models.expressions import Col, ExpressionNode
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from django.db.models.lookups import Lookup
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from django.utils import six
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gis_lookups = {}
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class GISLookup(Lookup):
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sql_template = None
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transform_func = None
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distance = False
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@classmethod
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def _check_geo_field(cls, opts, lookup):
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"""
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Utility for checking the given lookup with the given model options.
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The lookup is a string either specifying the geographic field, e.g.
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'point, 'the_geom', or a related lookup on a geographic field like
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'address__point'.
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If a GeometryField exists according to the given lookup on the model
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options, it will be returned. Otherwise returns None.
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"""
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from django.contrib.gis.db.models.fields import GeometryField
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# This takes into account the situation where the lookup is a
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# lookup to a related geographic field, e.g., 'address__point'.
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field_list = lookup.split(LOOKUP_SEP)
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# Reversing so list operates like a queue of related lookups,
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# and popping the top lookup.
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field_list.reverse()
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fld_name = field_list.pop()
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try:
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geo_fld = opts.get_field(fld_name)
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# If the field list is still around, then it means that the
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# lookup was for a geometry field across a relationship --
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# thus we keep on getting the related model options and the
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# model field associated with the next field in the list
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# until there's no more left.
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while len(field_list):
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opts = geo_fld.rel.to._meta
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geo_fld = opts.get_field(field_list.pop())
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except (FieldDoesNotExist, AttributeError):
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return False
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# Finally, make sure we got a Geographic field and return.
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if isinstance(geo_fld, GeometryField):
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return geo_fld
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else:
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return False
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def get_db_prep_lookup(self, value, connection):
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# get_db_prep_lookup is called by process_rhs from super class
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if isinstance(value, (tuple, list)):
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# First param is assumed to be the geometric object
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params = [connection.ops.Adapter(value[0])] + list(value)[1:]
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else:
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params = [connection.ops.Adapter(value)]
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return ('%s', params)
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def process_rhs(self, compiler, connection):
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rhs, rhs_params = super(GISLookup, self).process_rhs(compiler, connection)
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if hasattr(self.rhs, '_as_sql'):
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# If rhs is some QuerySet, don't touch it
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return rhs, rhs_params
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geom = self.rhs
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if isinstance(self.rhs, Col):
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# Make sure the F Expression destination field exists, and
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# set an `srid` attribute with the same as that of the
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# destination.
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geo_fld = self.rhs.output_field
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if not hasattr(geo_fld, 'srid'):
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raise ValueError('No geographic field found in expression.')
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self.rhs.srid = geo_fld.srid
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elif isinstance(self.rhs, ExpressionNode):
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raise ValueError('Complex expressions not supported for GeometryField')
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elif isinstance(self.rhs, (list, tuple)):
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geom = self.rhs[0]
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rhs = connection.ops.get_geom_placeholder(self.lhs.output_field, geom, compiler)
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return rhs, rhs_params
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def as_sql(self, compiler, connection):
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lhs_sql, sql_params = self.process_lhs(compiler, connection)
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rhs_sql, rhs_params = self.process_rhs(compiler, connection)
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sql_params.extend(rhs_params)
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template_params = {'lhs': lhs_sql, 'rhs': rhs_sql}
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backend_op = connection.ops.gis_operators[self.lookup_name]
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return backend_op.as_sql(connection, self, template_params, sql_params)
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# ------------------
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# Geometry operators
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# ------------------
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class OverlapsLeftLookup(GISLookup):
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"""
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The overlaps_left operator returns true if A's bounding box overlaps or is to the
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left of B's bounding box.
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"""
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lookup_name = 'overlaps_left'
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gis_lookups['overlaps_left'] = OverlapsLeftLookup
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class OverlapsRightLookup(GISLookup):
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"""
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The 'overlaps_right' operator returns true if A's bounding box overlaps or is to the
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right of B's bounding box.
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"""
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lookup_name = 'overlaps_right'
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gis_lookups['overlaps_right'] = OverlapsRightLookup
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class OverlapsBelowLookup(GISLookup):
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"""
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The 'overlaps_below' operator returns true if A's bounding box overlaps or is below
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B's bounding box.
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"""
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lookup_name = 'overlaps_below'
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gis_lookups['overlaps_below'] = OverlapsBelowLookup
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class OverlapsAboveLookup(GISLookup):
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"""
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The 'overlaps_above' operator returns true if A's bounding box overlaps or is above
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B's bounding box.
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"""
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lookup_name = 'overlaps_above'
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gis_lookups['overlaps_above'] = OverlapsAboveLookup
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class LeftLookup(GISLookup):
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"""
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The 'left' operator returns true if A's bounding box is strictly to the left
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of B's bounding box.
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"""
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lookup_name = 'left'
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gis_lookups['left'] = LeftLookup
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class RightLookup(GISLookup):
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"""
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The 'right' operator returns true if A's bounding box is strictly to the right
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of B's bounding box.
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"""
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lookup_name = 'right'
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gis_lookups['right'] = RightLookup
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class StrictlyBelowLookup(GISLookup):
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"""
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The 'strictly_below' operator returns true if A's bounding box is strictly below B's
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bounding box.
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"""
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lookup_name = 'strictly_below'
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gis_lookups['strictly_below'] = StrictlyBelowLookup
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class StrictlyAboveLookup(GISLookup):
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"""
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The 'strictly_above' operator returns true if A's bounding box is strictly above B's
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bounding box.
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"""
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lookup_name = 'strictly_above'
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gis_lookups['strictly_above'] = StrictlyAboveLookup
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class SameAsLookup(GISLookup):
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"""
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The "~=" operator is the "same as" operator. It tests actual geometric
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equality of two features. So if A and B are the same feature,
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vertex-by-vertex, the operator returns true.
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"""
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lookup_name = 'same_as'
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gis_lookups['same_as'] = SameAsLookup
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class ExactLookup(SameAsLookup):
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# Alias of same_as
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lookup_name = 'exact'
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gis_lookups['exact'] = ExactLookup
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class BBContainsLookup(GISLookup):
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"""
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The 'bbcontains' operator returns true if A's bounding box completely contains
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by B's bounding box.
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"""
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lookup_name = 'bbcontains'
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gis_lookups['bbcontains'] = BBContainsLookup
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class BBOverlapsLookup(GISLookup):
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"""
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The 'bboverlaps' operator returns true if A's bounding box overlaps B's bounding box.
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"""
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lookup_name = 'bboverlaps'
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gis_lookups['bboverlaps'] = BBOverlapsLookup
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class ContainedLookup(GISLookup):
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"""
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The 'contained' operator returns true if A's bounding box is completely contained
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by B's bounding box.
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"""
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lookup_name = 'contained'
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gis_lookups['contained'] = ContainedLookup
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# ------------------
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# Geometry functions
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# ------------------
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class ContainsLookup(GISLookup):
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lookup_name = 'contains'
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gis_lookups['contains'] = ContainsLookup
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class ContainsProperlyLookup(GISLookup):
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lookup_name = 'contains_properly'
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gis_lookups['contains_properly'] = ContainsProperlyLookup
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class CoveredByLookup(GISLookup):
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lookup_name = 'coveredby'
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gis_lookups['coveredby'] = CoveredByLookup
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class CoversLookup(GISLookup):
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lookup_name = 'covers'
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gis_lookups['covers'] = CoversLookup
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class CrossesLookup(GISLookup):
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lookup_name = 'crosses'
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gis_lookups['crosses'] = CrossesLookup
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class DisjointLookup(GISLookup):
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lookup_name = 'disjoint'
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gis_lookups['disjoint'] = DisjointLookup
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class EqualsLookup(GISLookup):
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lookup_name = 'equals'
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gis_lookups['equals'] = EqualsLookup
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class IntersectsLookup(GISLookup):
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lookup_name = 'intersects'
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gis_lookups['intersects'] = IntersectsLookup
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class OverlapsLookup(GISLookup):
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lookup_name = 'overlaps'
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gis_lookups['overlaps'] = OverlapsLookup
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class RelateLookup(GISLookup):
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lookup_name = 'relate'
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sql_template = '%(func)s(%(lhs)s, %(rhs)s, %%s)'
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pattern_regex = re.compile(r'^[012TF\*]{9}$')
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def get_db_prep_lookup(self, value, connection):
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if len(value) != 2:
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raise ValueError('relate must be passed a two-tuple')
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# Check the pattern argument
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backend_op = connection.ops.gis_operators[self.lookup_name]
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if hasattr(backend_op, 'check_relate_argument'):
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backend_op.check_relate_argument(value[1])
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else:
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pattern = value[1]
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if not isinstance(pattern, six.string_types) or not self.pattern_regex.match(pattern):
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raise ValueError('Invalid intersection matrix pattern "%s".' % pattern)
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return super(RelateLookup, self).get_db_prep_lookup(value, connection)
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gis_lookups['relate'] = RelateLookup
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class TouchesLookup(GISLookup):
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lookup_name = 'touches'
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gis_lookups['touches'] = TouchesLookup
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class WithinLookup(GISLookup):
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lookup_name = 'within'
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gis_lookups['within'] = WithinLookup
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class DistanceLookupBase(GISLookup):
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distance = True
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sql_template = '%(func)s(%(lhs)s, %(rhs)s) %(op)s %%s'
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def get_db_prep_lookup(self, value, connection):
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if isinstance(value, (tuple, list)):
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if not 2 <= len(value) <= 3:
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raise ValueError("2 or 3-element tuple required for '%s' lookup." % self.lookup_name)
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params = [connection.ops.Adapter(value[0])]
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# Getting the distance parameter in the units of the field.
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params += connection.ops.get_distance(self.lhs.output_field, value[1:], self.lookup_name)
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return ('%s', params)
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else:
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return super(DistanceLookupBase, self).get_db_prep_lookup(value, connection)
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class DWithinLookup(DistanceLookupBase):
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lookup_name = 'dwithin'
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sql_template = '%(func)s(%(lhs)s, %(rhs)s, %%s)'
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gis_lookups['dwithin'] = DWithinLookup
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class DistanceGTLookup(DistanceLookupBase):
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lookup_name = 'distance_gt'
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gis_lookups['distance_gt'] = DistanceGTLookup
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class DistanceGTELookup(DistanceLookupBase):
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lookup_name = 'distance_gte'
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gis_lookups['distance_gte'] = DistanceGTELookup
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class DistanceLTLookup(DistanceLookupBase):
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lookup_name = 'distance_lt'
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gis_lookups['distance_lt'] = DistanceLTLookup
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class DistanceLTELookup(DistanceLookupBase):
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lookup_name = 'distance_lte'
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gis_lookups['distance_lte'] = DistanceLTELookup
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