""" Classes to represent the definitions of aggregate functions. """ from django.core.exceptions import FieldError from django.db.models.expressions import Case, Func, Star, When from django.db.models.fields import DecimalField, FloatField, IntegerField from django.db.models.query_utils import Q __all__ = [ 'Aggregate', 'Avg', 'Count', 'Max', 'Min', 'StdDev', 'Sum', 'Variance', ] class Aggregate(Func): contains_aggregate = True name = None filter_template = '%s FILTER (WHERE %%(filter)s)' def __init__(self, *args, filter=None, **kwargs): self.filter = filter super().__init__(*args, **kwargs) def get_source_fields(self): # Don't return the filter expression since it's not a source field. return [e._output_field_or_none for e in super().get_source_expressions()] def get_source_expressions(self): source_expressions = super().get_source_expressions() if self.filter: source_expressions += [self.filter] return source_expressions def set_source_expressions(self, exprs): if self.filter: self.filter = exprs.pop() return super().set_source_expressions(exprs) def resolve_expression(self, query=None, allow_joins=True, reuse=None, summarize=False, for_save=False): # Aggregates are not allowed in UPDATE queries, so ignore for_save c = super().resolve_expression(query, allow_joins, reuse, summarize) if c.filter: c.filter = c.filter.resolve_expression(query, allow_joins, reuse, summarize) if not summarize: # Call Aggregate.get_source_expressions() to avoid # returning self.filter and including that in this loop. expressions = super(Aggregate, c).get_source_expressions() for index, expr in enumerate(expressions): if expr.contains_aggregate: before_resolved = self.get_source_expressions()[index] name = before_resolved.name if hasattr(before_resolved, 'name') else repr(before_resolved) raise FieldError("Cannot compute %s('%s'): '%s' is an aggregate" % (c.name, name, name)) return c @property def default_alias(self): expressions = self.get_source_expressions() if len(expressions) == 1 and hasattr(expressions[0], 'name'): return '%s__%s' % (expressions[0].name, self.name.lower()) raise TypeError("Complex expressions require an alias") def get_group_by_cols(self): return [] def as_sql(self, compiler, connection, **extra_context): if self.filter: if connection.features.supports_aggregate_filter_clause: filter_sql, filter_params = self.filter.as_sql(compiler, connection) template = self.filter_template % extra_context.get('template', self.template) sql, params = super().as_sql(compiler, connection, template=template, filter=filter_sql) return sql, params + filter_params else: copy = self.copy() copy.filter = None condition = When(Q()) source_expressions = copy.get_source_expressions() condition.set_source_expressions([self.filter, source_expressions[0]]) copy.set_source_expressions([Case(condition)] + source_expressions[1:]) return super(Aggregate, copy).as_sql(compiler, connection, **extra_context) return super().as_sql(compiler, connection, **extra_context) def _get_repr_options(self): options = super()._get_repr_options() if self.filter: options.update({'filter': self.filter}) return options class Avg(Aggregate): function = 'AVG' name = 'Avg' def _resolve_output_field(self): source_field = self.get_source_fields()[0] if isinstance(source_field, (IntegerField, DecimalField)): return FloatField() return super()._resolve_output_field() def as_oracle(self, compiler, connection): if self.output_field.get_internal_type() == 'DurationField': expression = self.get_source_expressions()[0] from django.db.backends.oracle.functions import IntervalToSeconds, SecondsToInterval return compiler.compile( SecondsToInterval(Avg(IntervalToSeconds(expression), filter=self.filter)) ) return super().as_sql(compiler, connection) class Count(Aggregate): function = 'COUNT' name = 'Count' template = '%(function)s(%(distinct)s%(expressions)s)' def __init__(self, expression, distinct=False, filter=None, **extra): if expression == '*': expression = Star() if isinstance(expression, Star) and filter is not None: raise ValueError('Star cannot be used with filter. Please specify a field.') super().__init__( expression, distinct='DISTINCT ' if distinct else '', output_field=IntegerField(), filter=filter, **extra ) def _get_repr_options(self): options = super()._get_repr_options() return dict(options, distinct=self.extra['distinct'] != '') def convert_value(self, value, expression, connection): return 0 if value is None else value class Max(Aggregate): function = 'MAX' name = 'Max' class Min(Aggregate): function = 'MIN' name = 'Min' class StdDev(Aggregate): name = 'StdDev' def __init__(self, expression, sample=False, **extra): self.function = 'STDDEV_SAMP' if sample else 'STDDEV_POP' super().__init__(expression, output_field=FloatField(), **extra) def _get_repr_options(self): options = super()._get_repr_options() return dict(options, sample=self.function == 'STDDEV_SAMP') class Sum(Aggregate): function = 'SUM' name = 'Sum' def as_oracle(self, compiler, connection): if self.output_field.get_internal_type() == 'DurationField': expression = self.get_source_expressions()[0] from django.db.backends.oracle.functions import IntervalToSeconds, SecondsToInterval return compiler.compile( SecondsToInterval(Sum(IntervalToSeconds(expression))) ) return super().as_sql(compiler, connection) class Variance(Aggregate): name = 'Variance' def __init__(self, expression, sample=False, **extra): self.function = 'VAR_SAMP' if sample else 'VAR_POP' super().__init__(expression, output_field=FloatField(), **extra) def _get_repr_options(self): options = super()._get_repr_options() return dict(options, sample=self.function == 'VAR_SAMP')