""" This module contains the spatial lookup types, and the `get_geo_where_clause` routine for Oracle Spatial. Please note that WKT support is broken on the XE version, and thus this backend will not work on such platforms. Specifically, XE lacks support for an internal JVM, and Java libraries are required to use the WKT constructors. """ import re from decimal import Decimal from django.db.backends.oracle.base import DatabaseOperations from django.contrib.gis.db.backends.base import BaseSpatialOperations from django.contrib.gis.db.backends.oracle.adapter import OracleSpatialAdapter from django.contrib.gis.db.backends.util import SpatialFunction from django.contrib.gis.geometry.backend import Geometry from django.contrib.gis.measure import Distance class SDOOperation(SpatialFunction): "Base class for SDO* Oracle operations." sql_template = "%(function)s(%(geo_col)s, %(geometry)s) %(operator)s '%(result)s'" def __init__(self, func, **kwargs): kwargs.setdefault('operator', '=') kwargs.setdefault('result', 'TRUE') super(SDOOperation, self).__init__(func, **kwargs) class SDODistance(SpatialFunction): "Class for Distance queries." sql_template = ('%(function)s(%(geo_col)s, %(geometry)s, %(tolerance)s) ' '%(operator)s %(result)s') dist_func = 'SDO_GEOM.SDO_DISTANCE' def __init__(self, op, tolerance=0.05): super(SDODistance, self).__init__(self.dist_func, tolerance=tolerance, operator=op, result='%s') class SDODWithin(SpatialFunction): dwithin_func = 'SDO_WITHIN_DISTANCE' sql_template = "%(function)s(%(geo_col)s, %(geometry)s, %%s) = 'TRUE'" def __init__(self): super(SDODWithin, self).__init__(self.dwithin_func) class SDOGeomRelate(SpatialFunction): "Class for using SDO_GEOM.RELATE." relate_func = 'SDO_GEOM.RELATE' sql_template = ("%(function)s(%(geo_col)s, '%(mask)s', %(geometry)s, " "%(tolerance)s) %(operator)s '%(mask)s'") def __init__(self, mask, tolerance=0.05): # SDO_GEOM.RELATE(...) has a peculiar argument order: column, mask, geom, tolerance. # Moreover, the runction result is the mask (e.g., 'DISJOINT' instead of 'TRUE'). super(SDOGeomRelate, self).__init__(self.relate_func, operator='=', mask=mask, tolerance=tolerance) class SDORelate(SpatialFunction): "Class for using SDO_RELATE." masks = 'TOUCH|OVERLAPBDYDISJOINT|OVERLAPBDYINTERSECT|EQUAL|INSIDE|COVEREDBY|CONTAINS|COVERS|ANYINTERACT|ON' mask_regex = re.compile(r'^(%s)(\+(%s))*$' % (masks, masks), re.I) sql_template = "%(function)s(%(geo_col)s, %(geometry)s, 'mask=%(mask)s') = 'TRUE'" relate_func = 'SDO_RELATE' def __init__(self, mask): if not self.mask_regex.match(mask): raise ValueError('Invalid %s mask: "%s"' % (self.relate_func, mask)) super(SDORelate, self).__init__(self.relate_func, mask=mask) # Valid distance types and substitutions dtypes = (Decimal, Distance, float, int, long) class OracleOperations(DatabaseOperations, BaseSpatialOperations): compiler_module = "django.contrib.gis.db.backends.oracle.compiler" name = 'oracle' oracle = True valid_aggregates = dict([(a, None) for a in ('Union', 'Extent')]) Adapter = OracleSpatialAdapter Adaptor = Adapter # Backwards-compatibility alias. area = 'SDO_GEOM.SDO_AREA' gml= 'SDO_UTIL.TO_GMLGEOMETRY' centroid = 'SDO_GEOM.SDO_CENTROID' difference = 'SDO_GEOM.SDO_DIFFERENCE' distance = 'SDO_GEOM.SDO_DISTANCE' extent= 'SDO_AGGR_MBR' intersection= 'SDO_GEOM.SDO_INTERSECTION' length = 'SDO_GEOM.SDO_LENGTH' num_geom = 'SDO_UTIL.GETNUMELEM' num_points = 'SDO_UTIL.GETNUMVERTICES' perimeter = length point_on_surface = 'SDO_GEOM.SDO_POINTONSURFACE' reverse = 'SDO_UTIL.REVERSE_LINESTRING' sym_difference = 'SDO_GEOM.SDO_XOR' transform = 'SDO_CS.TRANSFORM' union = 'SDO_GEOM.SDO_UNION' unionagg = 'SDO_AGGR_UNION' # We want to get SDO Geometries as WKT because it is much easier to # instantiate GEOS proxies from WKT than SDO_GEOMETRY(...) strings. # However, this adversely affects performance (i.e., Java is called # to convert to WKT on every query). If someone wishes to write a # SDO_GEOMETRY(...) parser in Python, let me know =) select = 'SDO_UTIL.TO_WKTGEOMETRY(%s)' distance_functions = { 'distance_gt' : (SDODistance('>'), dtypes), 'distance_gte' : (SDODistance('>='), dtypes), 'distance_lt' : (SDODistance('<'), dtypes), 'distance_lte' : (SDODistance('<='), dtypes), 'dwithin' : (SDODWithin(), dtypes), } geometry_functions = { 'contains' : SDOOperation('SDO_CONTAINS'), 'coveredby' : SDOOperation('SDO_COVEREDBY'), 'covers' : SDOOperation('SDO_COVERS'), 'disjoint' : SDOGeomRelate('DISJOINT'), 'intersects' : SDOOperation('SDO_OVERLAPBDYINTERSECT'), # TODO: Is this really the same as ST_Intersects()? 'equals' : SDOOperation('SDO_EQUAL'), 'exact' : SDOOperation('SDO_EQUAL'), 'overlaps' : SDOOperation('SDO_OVERLAPS'), 'same_as' : SDOOperation('SDO_EQUAL'), 'relate' : (SDORelate, basestring), # Oracle uses a different syntax, e.g., 'mask=inside+touch' 'touches' : SDOOperation('SDO_TOUCH'), 'within' : SDOOperation('SDO_INSIDE'), } geometry_functions.update(distance_functions) gis_terms = ['isnull'] gis_terms += geometry_functions.keys() gis_terms = dict([(term, None) for term in gis_terms]) truncate_params = {'relate' : None} def __init__(self, connection): super(OracleOperations, self).__init__() self.connection = connection def convert_extent(self, clob): if clob: # Generally, Oracle returns a polygon for the extent -- however, # it can return a single point if there's only one Point in the # table. ext_geom = Geometry(clob.read()) gtype = str(ext_geom.geom_type) if gtype == 'Polygon': # Construct the 4-tuple from the coordinates in the polygon. shell = ext_geom.shell ll, ur = shell[0][:2], shell[2][:2] elif gtype == 'Point': ll = ext_geom.coords[:2] ur = ll else: raise Exception('Unexpected geometry type returned for extent: %s' % gtype) xmin, ymin = ll xmax, ymax = ur return (xmin, ymin, xmax, ymax) else: return None def convert_geom(self, clob, geo_field): if clob: return Geometry(clob.read(), geo_field.srid) else: return None def geo_db_type(self, f): """ Returns the geometry database type for Oracle. Unlike other spatial backends, no stored procedure is necessary and it's the same for all geometry types. """ return 'MDSYS.SDO_GEOMETRY' def get_distance(self, f, value, lookup_type): """ Returns the distance parameters given the value and the lookup type. On Oracle, geometry columns with a geodetic coordinate system behave implicitly like a geography column, and thus meters will be used as the distance parameter on them. """ if not value: return [] value = value[0] if isinstance(value, Distance): if f.geodetic(self.connection): dist_param = value.m else: dist_param = getattr(value, Distance.unit_attname(f.units_name(self.connection))) else: dist_param = value # dwithin lookups on oracle require a special string parameter # that starts with "distance=". if lookup_type == 'dwithin': dist_param = 'distance=%s' % dist_param return [dist_param] def get_geom_placeholder(self, f, value): """ Provides a proper substitution value for Geometries that are not in the SRID of the field. Specifically, this routine will substitute in the SDO_CS.TRANSFORM() function call. """ if value is None: return 'NULL' def transform_value(val, srid): return val.srid != srid if hasattr(value, 'expression'): if transform_value(value, f.srid): placeholder = '%s(%%s, %s)' % (self.transform, f.srid) else: placeholder = '%s' # No geometry value used for F expression, substitue in # the column name instead. return placeholder % '%s.%s' % tuple(map(self.quote_name, value.cols[value.expression])) else: if transform_value(value, f.srid): return '%s(SDO_GEOMETRY(%%s, %s), %s)' % (self.transform, value.srid, f.srid) else: return 'SDO_GEOMETRY(%%s, %s)' % f.srid def spatial_lookup_sql(self, lvalue, lookup_type, value, field, qn): "Returns the SQL WHERE clause for use in Oracle spatial SQL construction." alias, col, db_type = lvalue # Getting the quoted table name as `geo_col`. geo_col = '%s.%s' % (qn(alias), qn(col)) # See if a Oracle Geometry function matches the lookup type next lookup_info = self.geometry_functions.get(lookup_type, False) if lookup_info: # Lookup types that are tuples take tuple arguments, e.g., 'relate' and # 'dwithin' lookup types. if isinstance(lookup_info, tuple): # First element of tuple is lookup type, second element is the type # of the expected argument (e.g., str, float) sdo_op, arg_type = lookup_info geom = value[0] # Ensuring that a tuple _value_ was passed in from the user if not isinstance(value, tuple): raise ValueError('Tuple required for `%s` lookup type.' % lookup_type) if len(value) != 2: raise ValueError('2-element tuple required for %s lookup type.' % lookup_type) # Ensuring the argument type matches what we expect. if not isinstance(value[1], arg_type): raise ValueError('Argument type should be %s, got %s instead.' % (arg_type, type(value[1]))) if lookup_type == 'relate': # The SDORelate class handles construction for these queries, # and verifies the mask argument. return sdo_op(value[1]).as_sql(geo_col, self.get_geom_placeholder(field, geom)) else: # Otherwise, just call the `as_sql` method on the SDOOperation instance. return sdo_op.as_sql(geo_col, self.get_geom_placeholder(field, geom)) else: # Lookup info is a SDOOperation instance, whose `as_sql` method returns # the SQL necessary for the geometry function call. For example: # SDO_CONTAINS("geoapp_country"."poly", SDO_GEOMTRY('POINT(5 23)', 4326)) = 'TRUE' return lookup_info.as_sql(geo_col, self.get_geom_placeholder(field, value)) elif lookup_type == 'isnull': # Handling 'isnull' lookup type return "%s IS %sNULL" % (geo_col, (not value and 'NOT ' or '')) raise TypeError("Got invalid lookup_type: %s" % repr(lookup_type)) def spatial_aggregate_sql(self, agg): """ Returns the spatial aggregate SQL template and function for the given Aggregate instance. """ agg_name = agg.__class__.__name__.lower() if agg_name == 'union' : agg_name += 'agg' if agg.is_extent: sql_template = '%(function)s(%(field)s)' else: sql_template = '%(function)s(SDOAGGRTYPE(%(field)s,%(tolerance)s))' sql_function = getattr(self, agg_name) return self.select % sql_template, sql_function # Routines for getting the OGC-compliant models. def geometry_columns(self): from django.contrib.gis.db.backends.oracle.models import GeometryColumns return GeometryColumns def spatial_ref_sys(self): from django.contrib.gis.db.backends.oracle.models import SpatialRefSys return SpatialRefSys