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419 lines
14 KiB
ReStructuredText
:mod:`statistics` --- Mathematical statistics functions
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=======================================================
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.. module:: statistics
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:synopsis: mathematical statistics functions
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.. moduleauthor:: Steven D'Aprano <steve+python@pearwood.info>
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.. sectionauthor:: Steven D'Aprano <steve+python@pearwood.info>
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.. versionadded:: 3.4
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.. testsetup:: *
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from statistics import *
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__name__ = '<doctest>'
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**Source code:** :source:`Lib/statistics.py`
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--------------
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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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These functions calculate an average or typical value from a population
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or sample.
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======================= =============================================
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:func:`mean` Arithmetic mean ("average") of data.
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:func:`median` Median (middle value) of data.
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:func:`median_low` Low median of data.
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:func:`median_high` High median of data.
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:func:`median_grouped` Median, or 50th percentile, of grouped data.
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:func:`mode` Mode (most common value) of discrete data.
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======================= =============================================
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Measures of spread
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------------------
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These functions calculate a measure of how much the population or sample
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tends to deviate from the typical or average values.
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======================= =============================================
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:func:`pstdev` Population standard deviation of data.
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:func:`pvariance` Population variance of data.
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:func:`stdev` Sample standard deviation of data.
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:func:`variance` Sample variance of data.
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======================= =============================================
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Function details
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----------------
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Note: The functions do not require the data given to them to be sorted.
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However, for reading convenience, most of the examples show sorted sequences.
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.. function:: mean(data)
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Return the sample arithmetic mean of *data*, a sequence or iterator of
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real-valued numbers.
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The arithmetic mean is the sum of the data divided by the number of data
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points. It is commonly called "the average", although it is only one of many
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different mathematical averages. It is a measure of the central location of
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the data.
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If *data* is empty, :exc:`StatisticsError` will be raised.
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Some examples of use:
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.. doctest::
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>>> mean([1, 2, 3, 4, 4])
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2.8
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>>> mean([-1.0, 2.5, 3.25, 5.75])
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2.625
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>>> from fractions import Fraction as F
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>>> mean([F(3, 7), F(1, 21), F(5, 3), F(1, 3)])
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Fraction(13, 21)
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>>> from decimal import Decimal as D
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>>> mean([D("0.5"), D("0.75"), D("0.625"), D("0.375")])
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Decimal('0.5625')
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.. note::
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The mean is strongly affected by outliers and is not a robust estimator
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for central location: the mean is not necessarily a typical example of the
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data points. For more robust, although less efficient, measures of
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central location, see :func:`median` and :func:`mode`. (In this case,
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"efficient" refers to statistical efficiency rather than computational
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efficiency.)
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The sample mean gives an unbiased estimate of the true population mean,
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which means that, taken on average over all the possible samples,
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``mean(sample)`` converges on the true mean of the entire population. If
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*data* represents the entire population rather than a sample, then
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``mean(data)`` is equivalent to calculating the true population mean μ.
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.. function:: median(data)
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Return the median (middle value) of numeric data, using the common "mean of
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middle two" method. If *data* is empty, :exc:`StatisticsError` is raised.
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The median is a robust measure of central location, and is less affected by
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the presence of outliers in your data. When the number of data points is
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odd, the middle data point is returned:
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.. doctest::
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>>> median([1, 3, 5])
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3
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When the number of data points is even, the median is interpolated by taking
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the average of the two middle values:
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.. doctest::
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>>> median([1, 3, 5, 7])
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4.0
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This is suited for when your data is discrete, and you don't mind that the
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median may not be an actual data point.
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.. seealso:: :func:`median_low`, :func:`median_high`, :func:`median_grouped`
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.. function:: median_low(data)
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Return the low median of numeric data. If *data* is empty,
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:exc:`StatisticsError` is raised.
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The low median is always a member of the data set. When the number of data
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points is odd, the middle value is returned. When it is even, the smaller of
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the two middle values is returned.
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.. doctest::
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>>> median_low([1, 3, 5])
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3
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>>> median_low([1, 3, 5, 7])
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3
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Use the low median when your data are discrete and you prefer the median to
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be an actual data point rather than interpolated.
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.. function:: median_high(data)
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Return the high median of data. If *data* is empty, :exc:`StatisticsError`
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is raised.
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The high median is always a member of the data set. When the number of data
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points is odd, the middle value is returned. When it is even, the larger of
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the two middle values is returned.
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.. doctest::
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>>> median_high([1, 3, 5])
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3
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>>> median_high([1, 3, 5, 7])
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5
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Use the high median when your data are discrete and you prefer the median to
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be an actual data point rather than interpolated.
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.. function:: median_grouped(data, interval=1)
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Return the median of grouped continuous data, calculated as the 50th
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percentile, using interpolation. If *data* is empty, :exc:`StatisticsError`
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is raised.
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.. doctest::
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>>> median_grouped([52, 52, 53, 54])
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52.5
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In the following example, the data are rounded, so that each value represents
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the midpoint of data classes, e.g. 1 is the midpoint of the class 0.5-1.5, 2
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is the midpoint of 1.5-2.5, 3 is the midpoint of 2.5-3.5, etc. With the data
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given, the middle value falls somewhere in the class 3.5-4.5, and
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interpolation is used to estimate it:
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.. doctest::
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>>> median_grouped([1, 2, 2, 3, 4, 4, 4, 4, 4, 5])
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3.7
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Optional argument *interval* represents the class interval, and defaults
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to 1. Changing the class interval naturally will change the interpolation:
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.. doctest::
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>>> median_grouped([1, 3, 3, 5, 7], interval=1)
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3.25
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>>> median_grouped([1, 3, 3, 5, 7], interval=2)
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3.5
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This function does not check whether the data points are at least
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*interval* apart.
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.. impl-detail::
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Under some circumstances, :func:`median_grouped` may coerce data points to
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floats. This behaviour is likely to change in the future.
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.. seealso::
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* "Statistics for the Behavioral Sciences", Frederick J Gravetter and
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Larry B Wallnau (8th Edition).
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* Calculating the `median <http://www.ualberta.ca/~opscan/median.html>`_.
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* The `SSMEDIAN
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<https://help.gnome.org/users/gnumeric/stable/gnumeric.html#gnumeric-function-SSMEDIAN>`_
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function in the Gnome Gnumeric spreadsheet, including `this discussion
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<https://mail.gnome.org/archives/gnumeric-list/2011-April/msg00018.html>`_.
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.. function:: mode(data)
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Return the most common data point from discrete or nominal *data*. The mode
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(when it exists) is the most typical value, and is a robust measure of
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central location.
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If *data* is empty, or if there is not exactly one most common value,
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:exc:`StatisticsError` is raised.
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``mode`` assumes discrete data, and returns a single value. This is the
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standard treatment of the mode as commonly taught in schools:
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.. doctest::
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>>> mode([1, 1, 2, 3, 3, 3, 3, 4])
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3
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The mode is unique in that it is the only statistic which also applies
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to nominal (non-numeric) data:
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.. doctest::
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>>> mode(["red", "blue", "blue", "red", "green", "red", "red"])
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'red'
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.. function:: pstdev(data, mu=None)
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Return the population standard deviation (the square root of the population
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variance). See :func:`pvariance` for arguments and other details.
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.. doctest::
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>>> pstdev([1.5, 2.5, 2.5, 2.75, 3.25, 4.75])
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0.986893273527251
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.. function:: pvariance(data, mu=None)
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Return the population variance of *data*, a non-empty iterable of real-valued
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numbers. Variance, or second moment about the mean, is a measure of the
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variability (spread or dispersion) of data. A large variance indicates that
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the data is spread out; a small variance indicates it is clustered closely
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around the mean.
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If the optional second argument *mu* is given, it should be the mean of
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*data*. If it is missing or ``None`` (the default), the mean is
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automatically calculated.
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Use this function to calculate the variance from the entire population. To
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estimate the variance from a sample, the :func:`variance` function is usually
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a better choice.
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Raises :exc:`StatisticsError` if *data* is empty.
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Examples:
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.. doctest::
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>>> data = [0.0, 0.25, 0.25, 1.25, 1.5, 1.75, 2.75, 3.25]
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>>> pvariance(data)
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1.25
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If you have already calculated the mean of your data, you can pass it as the
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optional second argument *mu* to avoid recalculation:
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.. doctest::
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>>> mu = mean(data)
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>>> pvariance(data, mu)
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1.25
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This function does not attempt to verify that you have passed the actual mean
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as *mu*. Using arbitrary values for *mu* may lead to invalid or impossible
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results.
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Decimals and Fractions are supported:
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.. doctest::
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>>> from decimal import Decimal as D
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>>> pvariance([D("27.5"), D("30.25"), D("30.25"), D("34.5"), D("41.75")])
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Decimal('24.815')
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>>> from fractions import Fraction as F
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>>> pvariance([F(1, 4), F(5, 4), F(1, 2)])
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Fraction(13, 72)
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.. note::
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When called with the entire population, this gives the population variance
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σ². When called on a sample instead, this is the biased sample variance
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s², also known as variance with N degrees of freedom.
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If you somehow know the true population mean μ, you may use this function
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to calculate the variance of a sample, giving the known population mean as
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the second argument. Provided the data points are representative
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(e.g. independent and identically distributed), the result will be an
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unbiased estimate of the population variance.
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.. function:: stdev(data, xbar=None)
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Return the sample standard deviation (the square root of the sample
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variance). See :func:`variance` for arguments and other details.
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.. doctest::
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>>> stdev([1.5, 2.5, 2.5, 2.75, 3.25, 4.75])
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1.0810874155219827
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.. function:: variance(data, xbar=None)
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Return the sample variance of *data*, an iterable of at least two real-valued
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numbers. Variance, or second moment about the mean, is a measure of the
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variability (spread or dispersion) of data. A large variance indicates that
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the data is spread out; a small variance indicates it is clustered closely
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around the mean.
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If the optional second argument *xbar* is given, it should be the mean of
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*data*. If it is missing or ``None`` (the default), the mean is
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automatically calculated.
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Use this function when your data is a sample from a population. To calculate
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the variance from the entire population, see :func:`pvariance`.
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Raises :exc:`StatisticsError` if *data* has fewer than two values.
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Examples:
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.. doctest::
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>>> data = [2.75, 1.75, 1.25, 0.25, 0.5, 1.25, 3.5]
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>>> variance(data)
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1.3720238095238095
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If you have already calculated the mean of your data, you can pass it as the
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optional second argument *xbar* to avoid recalculation:
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.. doctest::
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>>> m = mean(data)
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>>> variance(data, m)
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1.3720238095238095
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This function does not attempt to verify that you have passed the actual mean
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as *xbar*. Using arbitrary values for *xbar* can lead to invalid or
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impossible results.
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Decimal and Fraction values are supported:
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.. doctest::
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>>> from decimal import Decimal as D
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>>> variance([D("27.5"), D("30.25"), D("30.25"), D("34.5"), D("41.75")])
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Decimal('31.01875')
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>>> from fractions import Fraction as F
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>>> variance([F(1, 6), F(1, 2), F(5, 3)])
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Fraction(67, 108)
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.. note::
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This is the sample variance s² with Bessel's correction, also known as
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variance with N-1 degrees of freedom. Provided that the data points are
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representative (e.g. independent and identically distributed), the result
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should be an unbiased estimate of the true population variance.
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If you somehow know the actual population mean μ you should pass it to the
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:func:`pvariance` function as the *mu* parameter to get the variance of a
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sample.
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Exceptions
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----------
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A single exception is defined:
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.. exception:: StatisticsError
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Subclass of :exc:`ValueError` for statistics-related exceptions.
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..
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# This modelines must appear within the last ten lines of the file.
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kate: indent-width 3; remove-trailing-space on; replace-tabs on; encoding utf-8;
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