from django.db.models.sql import aggregates from django.db.models.sql.aggregates import * # NOQA from django.contrib.gis.db.models.fields import GeometryField __all__ = ['Collect', 'Extent', 'Extent3D', 'MakeLine', 'Union'] + aggregates.__all__ class GeoAggregate(Aggregate): # Default SQL template for spatial aggregates. sql_template = '%(function)s(%(field)s)' # Conversion class, if necessary. conversion_class = None # Flags for indicating the type of the aggregate. is_extent = False def __init__(self, col, source=None, is_summary=False, tolerance=0.05, **extra): super(GeoAggregate, self).__init__(col, source, is_summary, **extra) # Required by some Oracle aggregates. self.tolerance = tolerance # Can't use geographic aggregates on non-geometry fields. if not isinstance(self.source, GeometryField): raise ValueError('Geospatial aggregates only allowed on geometry fields.') def as_sql(self, qn, connection): "Return the aggregate, rendered as SQL with parameters." if connection.ops.oracle: self.extra['tolerance'] = self.tolerance params = [] if hasattr(self.col, 'as_sql'): field_name, params = self.col.as_sql(qn, connection) elif isinstance(self.col, (list, tuple)): field_name = '.'.join(qn(c) for c in self.col) else: field_name = self.col sql_template, sql_function = connection.ops.spatial_aggregate_sql(self) substitutions = { 'function': sql_function, 'field': field_name } substitutions.update(self.extra) return sql_template % substitutions, params class Collect(GeoAggregate): pass class Extent(GeoAggregate): is_extent = '2D' class Extent3D(GeoAggregate): is_extent = '3D' class MakeLine(GeoAggregate): pass class Union(GeoAggregate): pass