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- """
- Classes to represent the default SQL aggregate functions
- """
- import copy
- import warnings
-
- from django.db.models.fields import FloatField, IntegerField
- from django.db.models.query_utils import RegisterLookupMixin
- from django.utils.deprecation import RemovedInDjango110Warning
- from django.utils.functional import cached_property
-
- __all__ = ['Aggregate', 'Avg', 'Count', 'Max', 'Min', 'StdDev', 'Sum', 'Variance']
-
-
- warnings.warn(
- "django.db.models.sql.aggregates is deprecated. Use "
- "django.db.models.aggregates instead.",
- RemovedInDjango110Warning, stacklevel=2)
-
-
- class Aggregate(RegisterLookupMixin):
- """
- Default SQL Aggregate.
- """
- is_ordinal = False
- is_computed = False
- sql_template = '%(function)s(%(field)s)'
-
- def __init__(self, col, source=None, is_summary=False, **extra):
- """Instantiate an SQL aggregate
-
- * col is a column reference describing the subject field
- of the aggregate. It can be an alias, or a tuple describing
- a table and column name.
- * source is the underlying field or aggregate definition for
- the column reference. If the aggregate is not an ordinal or
- computed type, this reference is used to determine the coerced
- output type of the aggregate.
- * extra is a dictionary of additional data to provide for the
- aggregate definition
-
- Also utilizes the class variables:
- * sql_function, the name of the SQL function that implements the
- aggregate.
- * sql_template, a template string that is used to render the
- aggregate into SQL.
- * is_ordinal, a boolean indicating if the output of this aggregate
- is an integer (e.g., a count)
- * is_computed, a boolean indicating if this output of this aggregate
- is a computed float (e.g., an average), regardless of the input
- type.
- """
- self.col = col
- self.source = source
- self.is_summary = is_summary
- self.extra = extra
-
- # Follow the chain of aggregate sources back until you find an
- # actual field, or an aggregate that forces a particular output
- # type. This type of this field will be used to coerce values
- # retrieved from the database.
- tmp = self
-
- while tmp and isinstance(tmp, Aggregate):
- if getattr(tmp, 'is_ordinal', False):
- tmp = self._ordinal_aggregate_field
- elif getattr(tmp, 'is_computed', False):
- tmp = self._computed_aggregate_field
- else:
- tmp = tmp.source
-
- self.field = tmp
-
- # Two fake fields used to identify aggregate types in data-conversion operations.
- @cached_property
- def _ordinal_aggregate_field(self):
- return IntegerField()
-
- @cached_property
- def _computed_aggregate_field(self):
- return FloatField()
-
- def relabeled_clone(self, change_map):
- clone = copy.copy(self)
- if isinstance(self.col, (list, tuple)):
- clone.col = (change_map.get(self.col[0], self.col[0]), self.col[1])
- return clone
-
- def as_sql(self, compiler, connection):
- "Return the aggregate, rendered as SQL with parameters."
- params = []
-
- if hasattr(self.col, 'as_sql'):
- field_name, params = self.col.as_sql(compiler, connection)
- elif isinstance(self.col, (list, tuple)):
- field_name = '.'.join(compiler(c) for c in self.col)
- else:
- field_name = compiler(self.col)
-
- substitutions = {
- 'function': self.sql_function,
- 'field': field_name
- }
- substitutions.update(self.extra)
-
- return self.sql_template % substitutions, params
-
- def get_group_by_cols(self):
- return []
-
- @property
- def output_field(self):
- return self.field
-
-
- class Avg(Aggregate):
- is_computed = True
- sql_function = 'AVG'
-
-
- class Count(Aggregate):
- is_ordinal = True
- sql_function = 'COUNT'
- sql_template = '%(function)s(%(distinct)s%(field)s)'
-
- def __init__(self, col, distinct=False, **extra):
- super(Count, self).__init__(col, distinct='DISTINCT ' if distinct else '', **extra)
-
-
- class Max(Aggregate):
- sql_function = 'MAX'
-
-
- class Min(Aggregate):
- sql_function = 'MIN'
-
-
- class StdDev(Aggregate):
- is_computed = True
-
- def __init__(self, col, sample=False, **extra):
- super(StdDev, self).__init__(col, **extra)
- self.sql_function = 'STDDEV_SAMP' if sample else 'STDDEV_POP'
-
-
- class Sum(Aggregate):
- sql_function = 'SUM'
-
-
- class Variance(Aggregate):
- is_computed = True
-
- def __init__(self, col, sample=False, **extra):
- super(Variance, self).__init__(col, **extra)
- self.sql_function = 'VAR_SAMP' if sample else 'VAR_POP'
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