from django.db import connection from django.db.backends.util import truncate_name from django.db.models.fields import Field # Django base Field class from django.contrib.gis.db.backend.util import gqn from django.contrib.gis.db.backend.oracle.query import TRANSFORM # Quotename & geographic quotename, respectively. qn = connection.ops.quote_name class OracleSpatialField(Field): """ The backend-specific geographic field for Oracle Spatial. """ empty_strings_allowed = False def __init__(self, extent=(-180.0, -90.0, 180.0, 90.0), tolerance=0.05, **kwargs): """ Oracle Spatial backend needs to have the extent -- for projected coordinate systems _you must define the extent manually_, since the coordinates are for geodetic systems. The `tolerance` keyword specifies the tolerance for error (in meters), and defaults to 0.05 (5 centimeters). """ # Oracle Spatial specific keyword arguments. self._extent = extent self._tolerance = tolerance # Calling the Django field initialization. super(OracleSpatialField, self).__init__(**kwargs) def _add_geom(self, style, db_table): """ Adds this geometry column into the Oracle USER_SDO_GEOM_METADATA table. """ # Checking the dimensions. # TODO: Add support for 3D geometries. if self._dim != 2: raise Exception('3D geometries not yet supported on Oracle Spatial backend.') # Constructing the SQL that will be used to insert information about # the geometry column into the USER_GSDO_GEOM_METADATA table. meta_sql = style.SQL_KEYWORD('INSERT INTO ') + \ style.SQL_TABLE('USER_SDO_GEOM_METADATA') + \ ' (%s, %s, %s, %s)\n ' % tuple(map(qn, ['TABLE_NAME', 'COLUMN_NAME', 'DIMINFO', 'SRID'])) + \ style.SQL_KEYWORD(' VALUES ') + '(\n ' + \ style.SQL_TABLE(gqn(db_table)) + ',\n ' + \ style.SQL_FIELD(gqn(self.column)) + ',\n ' + \ style.SQL_KEYWORD("MDSYS.SDO_DIM_ARRAY") + '(\n ' + \ style.SQL_KEYWORD("MDSYS.SDO_DIM_ELEMENT") + \ ("('LONG', %s, %s, %s),\n " % (self._extent[0], self._extent[2], self._tolerance)) + \ style.SQL_KEYWORD("MDSYS.SDO_DIM_ELEMENT") + \ ("('LAT', %s, %s, %s)\n ),\n" % (self._extent[1], self._extent[3], self._tolerance)) + \ ' %s\n );' % self._srid return meta_sql def _geom_index(self, style, db_table): "Creates an Oracle Geometry index (R-tree) for this geometry field." # Getting the index name, Oracle doesn't allow object # names > 30 characters. idx_name = truncate_name('%s_%s_id' % (db_table, self.column), 30) sql = style.SQL_KEYWORD('CREATE INDEX ') + \ style.SQL_TABLE(qn(idx_name)) + \ style.SQL_KEYWORD(' ON ') + \ style.SQL_TABLE(qn(db_table)) + '(' + \ style.SQL_FIELD(qn(self.column)) + ') ' + \ style.SQL_KEYWORD('INDEXTYPE IS ') + \ style.SQL_TABLE('MDSYS.SPATIAL_INDEX') + ';' return sql def post_create_sql(self, style, db_table): """ Returns SQL that will be executed after the model has been created. """ # Getting the meta geometry information. post_sql = self._add_geom(style, db_table) # Getting the geometric index for this Geometry column. if self._index: return (post_sql, self._geom_index(style, db_table)) else: return (post_sql,) def db_type(self): "The Oracle geometric data type is MDSYS.SDO_GEOMETRY." return 'MDSYS.SDO_GEOMETRY' def get_placeholder(self, 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 '%s' elif value.srid != self._srid: # Adding Transform() to the SQL placeholder. return '%s(SDO_GEOMETRY(%%s, %s), %s)' % (TRANSFORM, value.srid, self._srid) else: return 'SDO_GEOMETRY(%%s, %s)' % self._srid