from django.db.models import FloatField, IntegerField from django.db.models.aggregates import Aggregate __all__ = [ 'CovarPop', 'Corr', 'RegrAvgX', 'RegrAvgY', 'RegrCount', 'RegrIntercept', 'RegrR2', 'RegrSlope', 'RegrSXX', 'RegrSXY', 'RegrSYY', 'StatAggregate', ] class StatAggregate(Aggregate): def __init__(self, y, x, output_field=FloatField()): if not x or not y: raise ValueError('Both y and x must be provided.') super().__init__(y, x, output_field=output_field) def resolve_expression(self, query=None, allow_joins=True, reuse=None, summarize=False, for_save=False): return super().resolve_expression(query, allow_joins, reuse, summarize) class Corr(StatAggregate): function = 'CORR' class CovarPop(StatAggregate): def __init__(self, y, x, sample=False): self.function = 'COVAR_SAMP' if sample else 'COVAR_POP' super().__init__(y, x) class RegrAvgX(StatAggregate): function = 'REGR_AVGX' class RegrAvgY(StatAggregate): function = 'REGR_AVGY' class RegrCount(StatAggregate): function = 'REGR_COUNT' def __init__(self, y, x): super().__init__(y=y, x=x, output_field=IntegerField()) def convert_value(self, value, expression, connection, context): if value is None: return 0 return int(value) class RegrIntercept(StatAggregate): function = 'REGR_INTERCEPT' class RegrR2(StatAggregate): function = 'REGR_R2' class RegrSlope(StatAggregate): function = 'REGR_SLOPE' class RegrSXX(StatAggregate): function = 'REGR_SXX' class RegrSXY(StatAggregate): function = 'REGR_SXY' class RegrSYY(StatAggregate): function = 'REGR_SYY'