155 lines
7.1 KiB
Python
155 lines
7.1 KiB
Python
"""
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This module contains the spatial lookup types, and the `get_geo_where_clause`
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routine for Oracle Spatial.
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Please note that WKT support is broken on the XE version, and thus
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this backend will not work on such platforms. Specifically, XE lacks
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support for an internal JVM, and Java libraries are required to use
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the WKT constructors.
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"""
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import re
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from decimal import Decimal
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from django.db import connection
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from django.contrib.gis.db.backend.util import SpatialFunction
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from django.contrib.gis.measure import Distance
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qn = connection.ops.quote_name
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# The GML, distance, transform, and union procedures.
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AREA = 'SDO_GEOM.SDO_AREA'
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ASGML = 'SDO_UTIL.TO_GMLGEOMETRY'
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CENTROID = 'SDO_GEOM.SDO_CENTROID'
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DIFFERENCE = 'SDO_GEOM.SDO_DIFFERENCE'
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DISTANCE = 'SDO_GEOM.SDO_DISTANCE'
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EXTENT = 'SDO_AGGR_MBR'
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INTERSECTION = 'SDO_GEOM.SDO_INTERSECTION'
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LENGTH = 'SDO_GEOM.SDO_LENGTH'
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NUM_GEOM = 'SDO_UTIL.GETNUMELEM'
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NUM_POINTS = 'SDO_UTIL.GETNUMVERTICES'
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POINT_ON_SURFACE = 'SDO_GEOM.SDO_POINTONSURFACE'
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SYM_DIFFERENCE = 'SDO_GEOM.SDO_XOR'
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TRANSFORM = 'SDO_CS.TRANSFORM'
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UNION = 'SDO_GEOM.SDO_UNION'
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UNIONAGG = 'SDO_AGGR_UNION'
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# We want to get SDO Geometries as WKT because it is much easier to
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# instantiate GEOS proxies from WKT than SDO_GEOMETRY(...) strings.
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# However, this adversely affects performance (i.e., Java is called
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# to convert to WKT on every query). If someone wishes to write a
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# SDO_GEOMETRY(...) parser in Python, let me know =)
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GEOM_SELECT = 'SDO_UTIL.TO_WKTGEOMETRY(%s)'
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#### Classes used in constructing Oracle spatial SQL ####
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class SDOOperation(SpatialFunction):
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"Base class for SDO* Oracle operations."
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def __init__(self, func, **kwargs):
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kwargs.setdefault('operator', '=')
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kwargs.setdefault('result', 'TRUE')
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kwargs.setdefault('end_subst', ") %s '%s'")
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super(SDOOperation, self).__init__(func, **kwargs)
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class SDODistance(SpatialFunction):
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"Class for Distance queries."
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def __init__(self, op, tolerance=0.05):
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super(SDODistance, self).__init__(DISTANCE, end_subst=', %s) %%s %%s' % tolerance,
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operator=op, result='%%s')
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class SDOGeomRelate(SpatialFunction):
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"Class for using SDO_GEOM.RELATE."
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def __init__(self, mask, tolerance=0.05):
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# SDO_GEOM.RELATE(...) has a peculiar argument order: column, mask, geom, tolerance.
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# Moreover, the runction result is the mask (e.g., 'DISJOINT' instead of 'TRUE').
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end_subst = "%s%s) %s '%s'" % (', %%s, ', tolerance, '=', mask)
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beg_subst = "%%s(%%s, '%s'" % mask
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super(SDOGeomRelate, self).__init__('SDO_GEOM.RELATE', beg_subst=beg_subst, end_subst=end_subst)
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class SDORelate(SpatialFunction):
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"Class for using SDO_RELATE."
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masks = 'TOUCH|OVERLAPBDYDISJOINT|OVERLAPBDYINTERSECT|EQUAL|INSIDE|COVEREDBY|CONTAINS|COVERS|ANYINTERACT|ON'
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mask_regex = re.compile(r'^(%s)(\+(%s))*$' % (masks, masks), re.I)
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def __init__(self, mask):
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func = 'SDO_RELATE'
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if not self.mask_regex.match(mask):
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raise ValueError('Invalid %s mask: "%s"' % (func, mask))
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super(SDORelate, self).__init__(func, end_subst=", 'mask=%s') = 'TRUE'" % mask)
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#### Lookup type mapping dictionaries of Oracle spatial operations ####
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# Valid distance types and substitutions
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dtypes = (Decimal, Distance, float, int, long)
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DISTANCE_FUNCTIONS = {
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'distance_gt' : (SDODistance('>'), dtypes),
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'distance_gte' : (SDODistance('>='), dtypes),
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'distance_lt' : (SDODistance('<'), dtypes),
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'distance_lte' : (SDODistance('<='), dtypes),
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'dwithin' : (SDOOperation('SDO_WITHIN_DISTANCE',
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beg_subst="%s(%s, %%s, 'distance=%%s'"), dtypes),
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}
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ORACLE_GEOMETRY_FUNCTIONS = {
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'contains' : SDOOperation('SDO_CONTAINS'),
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'coveredby' : SDOOperation('SDO_COVEREDBY'),
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'covers' : SDOOperation('SDO_COVERS'),
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'disjoint' : SDOGeomRelate('DISJOINT'),
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'intersects' : SDOOperation('SDO_OVERLAPBDYINTERSECT'), # TODO: Is this really the same as ST_Intersects()?
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'equals' : SDOOperation('SDO_EQUAL'),
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'exact' : SDOOperation('SDO_EQUAL'),
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'overlaps' : SDOOperation('SDO_OVERLAPS'),
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'same_as' : SDOOperation('SDO_EQUAL'),
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'relate' : (SDORelate, basestring), # Oracle uses a different syntax, e.g., 'mask=inside+touch'
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'touches' : SDOOperation('SDO_TOUCH'),
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'within' : SDOOperation('SDO_INSIDE'),
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}
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ORACLE_GEOMETRY_FUNCTIONS.update(DISTANCE_FUNCTIONS)
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# This lookup type does not require a mapping.
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MISC_TERMS = ['isnull']
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# Acceptable lookup types for Oracle spatial.
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ORACLE_SPATIAL_TERMS = ORACLE_GEOMETRY_FUNCTIONS.keys()
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ORACLE_SPATIAL_TERMS += MISC_TERMS
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ORACLE_SPATIAL_TERMS = dict((term, None) for term in ORACLE_SPATIAL_TERMS) # Making dictionary for fast lookups
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#### The `get_geo_where_clause` function for Oracle ####
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def get_geo_where_clause(table_alias, name, lookup_type, geo_annot):
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"Returns the SQL WHERE clause for use in Oracle spatial SQL construction."
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# Getting the quoted table name as `geo_col`.
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geo_col = '%s.%s' % (qn(table_alias), qn(name))
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# See if a Oracle Geometry function matches the lookup type next
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lookup_info = ORACLE_GEOMETRY_FUNCTIONS.get(lookup_type, False)
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if lookup_info:
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# Lookup types that are tuples take tuple arguments, e.g., 'relate' and
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# 'dwithin' lookup types.
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if isinstance(lookup_info, tuple):
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# First element of tuple is lookup type, second element is the type
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# of the expected argument (e.g., str, float)
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sdo_op, arg_type = lookup_info
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# Ensuring that a tuple _value_ was passed in from the user
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if not isinstance(geo_annot.value, tuple):
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raise TypeError('Tuple required for `%s` lookup type.' % lookup_type)
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if len(geo_annot.value) != 2:
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raise ValueError('2-element tuple required for %s lookup type.' % lookup_type)
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# Ensuring the argument type matches what we expect.
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if not isinstance(geo_annot.value[1], arg_type):
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raise TypeError('Argument type should be %s, got %s instead.' % (arg_type, type(geo_annot.value[1])))
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if lookup_type == 'relate':
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# The SDORelate class handles construction for these queries,
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# and verifies the mask argument.
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return sdo_op(geo_annot.value[1]).as_sql(geo_col)
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else:
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# Otherwise, just call the `as_sql` method on the SDOOperation instance.
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return sdo_op.as_sql(geo_col)
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else:
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# Lookup info is a SDOOperation instance, whose `as_sql` method returns
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# the SQL necessary for the geometry function call. For example:
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# SDO_CONTAINS("geoapp_country"."poly", SDO_GEOMTRY('POINT(5 23)', 4326)) = 'TRUE'
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return lookup_info.as_sql(geo_col)
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elif lookup_type == 'isnull':
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# Handling 'isnull' lookup type
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return "%s IS %sNULL" % (geo_col, (not geo_annot.value and 'NOT ' or ''))
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raise TypeError("Got invalid lookup_type: %s" % repr(lookup_type))
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