from django.contrib.gis.gdal import OGRGeomType from django.db.backends.sqlite3.introspection import ( DatabaseIntrospection, FlexibleFieldLookupDict, ) class GeoFlexibleFieldLookupDict(FlexibleFieldLookupDict): """ Subclass that includes updates the `base_data_types_reverse` dict for geometry field types. """ base_data_types_reverse = { **FlexibleFieldLookupDict.base_data_types_reverse, "point": "GeometryField", "linestring": "GeometryField", "polygon": "GeometryField", "multipoint": "GeometryField", "multilinestring": "GeometryField", "multipolygon": "GeometryField", "geometrycollection": "GeometryField", } class SpatiaLiteIntrospection(DatabaseIntrospection): data_types_reverse = GeoFlexibleFieldLookupDict() def get_geometry_type(self, table_name, description): with self.connection.cursor() as cursor: # Querying the `geometry_columns` table to get additional metadata. cursor.execute( "SELECT coord_dimension, srid, geometry_type " "FROM geometry_columns " "WHERE f_table_name=%s AND f_geometry_column=%s", (table_name, description.name), ) row = cursor.fetchone() if not row: raise Exception( 'Could not find a geometry column for "%s"."%s"' % (table_name, description.name) ) # OGRGeomType does not require GDAL and makes it easy to convert # from OGC geom type name to Django field. ogr_type = row[2] if isinstance(ogr_type, int) and ogr_type > 1000: # SpatiaLite uses SFSQL 1.2 offsets 1000 (Z), 2000 (M), and # 3000 (ZM) to indicate the presence of higher dimensional # coordinates (M not yet supported by Django). ogr_type = ogr_type % 1000 + OGRGeomType.wkb25bit field_type = OGRGeomType(ogr_type).django # Getting any GeometryField keyword arguments that are not the default. dim = row[0] srid = row[1] field_params = {} if srid != 4326: field_params["srid"] = srid if (isinstance(dim, str) and "Z" in dim) or dim == 3: field_params["dim"] = 3 return field_type, field_params def get_constraints(self, cursor, table_name): constraints = super().get_constraints(cursor, table_name) cursor.execute( "SELECT f_geometry_column " "FROM geometry_columns " "WHERE f_table_name=%s AND spatial_index_enabled=1", (table_name,), ) for row in cursor.fetchall(): constraints["%s__spatial__index" % row[0]] = { "columns": [row[0]], "primary_key": False, "unique": False, "foreign_key": None, "check": False, "index": True, } return constraints