Close #20481: Disallow mixed type input in statistics
The most appropriate coercion rules are not yet clear, so simply disallowing mixed type input for 3.4. (Committed on Steven's behalf)
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@ -20,6 +20,16 @@
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This module provides functions for calculating mathematical statistics of
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numeric (:class:`Real`-valued) data.
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.. note::
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Unless explicitly noted otherwise, these functions support :class:`int`,
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:class:`float`, :class:`decimal.Decimal` and :class:`fractions.Fraction`.
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Behaviour with other types (whether in the numeric tower or not) is
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currently unsupported. Mixed types are also undefined and
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implementation-dependent. If your input data consists of mixed types,
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you may be able to use :func:`map` to ensure a consistent result, e.g.
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``map(float, input_data)``.
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Averages and measures of central location
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-----------------------------------------
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@ -144,19 +144,31 @@ def _sum(data, start=0):
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>>> _sum(data)
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Decimal('0.6963')
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Mixed types are currently treated as an error, except that int is
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allowed.
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"""
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# We fail as soon as we reach a value that is not an int or the type of
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# the first value which is not an int. E.g. _sum([int, int, float, int])
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# is okay, but sum([int, int, float, Fraction]) is not.
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allowed_types = set([int, type(start)])
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n, d = _exact_ratio(start)
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T = type(start)
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partials = {d: n} # map {denominator: sum of numerators}
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# Micro-optimizations.
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coerce_types = _coerce_types
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exact_ratio = _exact_ratio
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partials_get = partials.get
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# Add numerators for each denominator, and track the "current" type.
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# Add numerators for each denominator.
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for x in data:
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T = _coerce_types(T, type(x))
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_check_type(type(x), allowed_types)
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n, d = exact_ratio(x)
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partials[d] = partials_get(d, 0) + n
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# Find the expected result type. If allowed_types has only one item, it
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# will be int; if it has two, use the one which isn't int.
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assert len(allowed_types) in (1, 2)
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if len(allowed_types) == 1:
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assert allowed_types.pop() is int
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T = int
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else:
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T = (allowed_types - set([int])).pop()
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if None in partials:
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assert issubclass(T, (float, Decimal))
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assert not math.isfinite(partials[None])
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@ -172,6 +184,15 @@ def _sum(data, start=0):
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return T(total)
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def _check_type(T, allowed):
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if T not in allowed:
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if len(allowed) == 1:
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allowed.add(T)
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else:
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types = ', '.join([t.__name__ for t in allowed] + [T.__name__])
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raise TypeError("unsupported mixed types: %s" % types)
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def _exact_ratio(x):
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"""Convert Real number x exactly to (numerator, denominator) pair.
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@ -228,44 +249,6 @@ def _decimal_to_ratio(d):
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return (num, den)
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def _coerce_types(T1, T2):
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"""Coerce types T1 and T2 to a common type.
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>>> _coerce_types(int, float)
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<class 'float'>
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Coercion is performed according to this table, where "N/A" means
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that a TypeError exception is raised.
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+----------+-----------+-----------+-----------+----------+
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| | int | Fraction | Decimal | float |
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+----------+-----------+-----------+-----------+----------+
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| int | int | Fraction | Decimal | float |
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| Fraction | Fraction | Fraction | N/A | float |
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| Decimal | Decimal | N/A | Decimal | float |
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| float | float | float | float | float |
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+----------+-----------+-----------+-----------+----------+
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Subclasses trump their parent class; two subclasses of the same
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base class will be coerced to the second of the two.
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"""
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# Get the common/fast cases out of the way first.
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if T1 is T2: return T1
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if T1 is int: return T2
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if T2 is int: return T1
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# Subclasses trump their parent class.
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if issubclass(T2, T1): return T2
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if issubclass(T1, T2): return T1
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# Floats trump everything else.
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if issubclass(T2, float): return T2
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if issubclass(T1, float): return T1
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# Subclasses of the same base class give priority to the second.
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if T1.__base__ is T2.__base__: return T2
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# Otherwise, just give up.
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raise TypeError('cannot coerce types %r and %r' % (T1, T2))
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def _counts(data):
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# Generate a table of sorted (value, frequency) pairs.
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table = collections.Counter(iter(data)).most_common()
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@ -687,6 +687,26 @@ class DecimalToRatioTest(unittest.TestCase):
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self.assertRaises(ValueError, statistics._decimal_to_ratio, d)
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class CheckTypeTest(unittest.TestCase):
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# Test _check_type private function.
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def test_allowed(self):
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# Test that a type which should be allowed is allowed.
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allowed = set([int, float])
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statistics._check_type(int, allowed)
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statistics._check_type(float, allowed)
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def test_not_allowed(self):
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# Test that a type which should not be allowed raises.
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allowed = set([int, float])
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self.assertRaises(TypeError, statistics._check_type, Decimal, allowed)
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def test_add_to_allowed(self):
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# Test that a second type will be added to the allowed set.
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allowed = set([int])
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statistics._check_type(float, allowed)
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self.assertEqual(allowed, set([int, float]))
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# === Tests for public functions ===
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@ -881,40 +901,11 @@ class TestSum(NumericTestCase, UnivariateCommonMixin, UnivariateTypeMixin):
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self.assertRaises(TypeError, self.func, [1, 2, 3, b'999'])
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def test_mixed_sum(self):
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# Mixed sums are allowed.
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# Careful here: order matters. Can't mix Fraction and Decimal directly,
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# only after they're converted to float.
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data = [1, 2, Fraction(1, 2), 3.0, Decimal("0.25")]
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self.assertEqual(self.func(data), 6.75)
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class SumInternalsTest(NumericTestCase):
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# Test internals of the sum function.
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def test_ignore_instance_float_method(self):
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# Test that __float__ methods on data instances are ignored.
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# Python typically calls __dunder__ methods on the class, not the
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# instance. The ``sum`` implementation calls __float__ directly. To
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# better match the behaviour of Python, we call it only on the class,
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# not the instance. This test will fail if somebody "fixes" that code.
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# Create a fake __float__ method.
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def __float__(self):
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raise AssertionError('test fails')
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# Inject it into an instance.
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class MyNumber(Fraction):
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pass
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x = MyNumber(3)
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x.__float__ = types.MethodType(__float__, x)
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# Check it works as expected.
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self.assertRaises(AssertionError, x.__float__)
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self.assertEqual(float(x), 3.0)
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# And now test the function.
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self.assertEqual(statistics._sum([1.0, 2.0, x, 4.0]), 10.0)
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# Mixed input types are not (currently) allowed.
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# Check that mixed data types fail.
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self.assertRaises(TypeError, self.func, [1, 2.0, Fraction(1, 2)])
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# And so does mixed start argument.
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self.assertRaises(TypeError, self.func, [1, 2.0], Decimal(1))
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class SumTortureTest(NumericTestCase):
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@ -24,6 +24,12 @@ Core and Builtins
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Library
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-------
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- Issue #20481: For at least Python 3.4, the statistics module will require
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that all inputs for a single operation be of a single consistent type, or
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else a mixed of ints and a single other consistent type. This avoids
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some interoperability issues that arose with the previous approach of
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coercing to a suitable common type.
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- Issue #20478: the statistics module now treats collections.Counter inputs
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like any other iterable.
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