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runstats 2.0.0
RunStats is an Apache2 licensed Python module for online statistics and
online regression. Statistics and regression summaries are computed in a single
pass. Previous values are not recorded in summaries.
Long running systems often generate numbers summarizing performance. It could
be the latency of a response or the time between requests. It’s often useful to
use these numbers in summary statistics like the arithmetic mean, minimum,
standard deviation, etc. When many values are generated, computing these
summaries can be computationally intensive. It may even be infeasible to keep
every recorded value. In such cases computing online statistics and online
regression is necessary.
In other cases, you may only have one opportunity to observe all the recorded
values. Python’s generators work exactly this way. Traditional methods for
calculating the variance and other higher moments requires multiple passes over
the data. With generators, this is not possible and so computing statistics in
a single pass is necessary.
There are also scenarios where a user is not interested in a complete summary
of the entire stream of data but rather wants to observe the current state of
the system based on the recent past. In these cases exponential statistics are
used. Instead of weighting all values uniformly in the statistics computation,
an exponential decay weight is applied to older values. The decay rate is
configurable and provides a mechanism for balancing recent values with past
values.
The Python RunStats module was designed for these cases by providing classes
for computing online summary statistics and online linear regression in a
single pass. Summary objects work on sequences which may be larger than memory
or disk space permit. They may also be efficiently combined together to create
aggregate summaries.
Features
Pure-Python
Fully Documented
100% Test Coverage
Numerically Stable
Optional Cython-optimized Extension (5-100 times faster)
Statistics summary computes mean, variance, standard deviation, skewness,
kurtosis, minimum and maximum.
Regression summary computes slope, intercept and correlation.
Developed on Python 3.9
Tested on CPython 3.6, 3.7, 3.8, 3.9
Tested on Linux, Mac OS X, and Windows
Tested using GitHub Actions
Quickstart
Installing RunStats is simple with pip:
$ pip install runstats
You can access documentation in the interpreter with Python’s built-in help
function:
>>> import runstats
>>> help(runstats) # doctest: +SKIP
>>> help(runstats.Statistics) # doctest: +SKIP
>>> help(runstats.Regression) # doctest: +SKIP
>>> help(runstats.ExponentialStatistics) # doctest: +SKIP
Tutorial
The Python RunStats module provides three types for computing running
statistics: Statistics, ExponentialStatistics and Regression.The Regression
object leverages Statistics internally for its calculations. Each can be
initialized without arguments:
>>> from runstats import Statistics, Regression, ExponentialStatistics
>>> stats = Statistics()
>>> regr = Regression()
>>> exp_stats = ExponentialStatistics()
Statistics objects support four methods for modification. Use push to add
values to the summary, clear to reset the summary, sum to combine Statistics
summaries and multiply to weight summary Statistics by a scalar.
>>> for num in range(10):
... stats.push(float(num))
>>> stats.mean()
4.5
>>> stats.maximum()
9.0
>>> stats += stats
>>> stats.mean()
4.5
>>> stats.variance()
8.68421052631579
>>> len(stats)
20
>>> stats *= 2
>>> len(stats)
40
>>> stats.clear()
>>> len(stats)
0
>>> stats.minimum()
nan
Use the Python built-in len for the number of pushed values. Unfortunately
the Python min and max built-ins may not be used for the minimum and
maximum as sequences are expected instead. Therefore, there are minimum and
maximum methods provided for that purpose:
>>> import random
>>> random.seed(0)
>>> for __ in range(1000):
... stats.push(random.random())
>>> len(stats)
1000
>>> min(stats)
Traceback (most recent call last):
...
TypeError: ...
>>> stats.minimum()
0.00024069652516689466
>>> stats.maximum()
0.9996851255769114
Statistics summaries provide five measures of a series: mean, variance,
standard deviation, skewness and kurtosis:
>>> stats = Statistics([1, 2, 5, 12, 5, 2, 1])
>>> stats.mean()
4.0
>>> stats.variance()
15.33333333333333
>>> stats.stddev()
3.915780041490243
>>> stats.skewness()
1.33122127314735
>>> stats.kurtosis()
0.5496219281663506
All internal calculations use Python’s float type.
Like Statistics, the Regression type supports some methods for modification:
push, clear and sum:
>>> regr.clear()
>>> len(regr)
0
>>> for num in range(10):
... regr.push(num, num + 5)
>>> len(regr)
10
>>> regr.slope()
1.0
>>> more = Regression((num, num + 5) for num in range(10, 20))
>>> total = regr + more
>>> len(total)
20
>>> total.slope()
1.0
>>> total.intercept()
5.0
>>> total.correlation()
1.0
Regression summaries provide three measures of a series of pairs: slope,
intercept and correlation. Note that, as a regression, the points need not
exactly lie on a line:
>>> regr = Regression([(1.2, 1.9), (3, 5.1), (4.9, 8.1), (7, 11)])
>>> regr.slope()
1.5668320150154176
>>> regr.intercept()
0.21850113956294415
>>> regr.correlation()
0.9983810791694997
Both constructors accept an optional iterable that is consumed and pushed into
the summary. Note that you may pass a generator as an iterable and the
generator will be entirely consumed.
The ExponentialStatistics are constructed by providing a decay rate, initial
mean, and initial variance. The decay rate has default 0.9 and must be between
0 and 1. The initial mean and variance default to zero.
>>> exp_stats = ExponentialStatistics()
>>> exp_stats.decay
0.9
>>> exp_stats.mean()
0.0
>>> exp_stats.variance()
0.0
The decay rate is the weight by which the current statistics are discounted
by. Consequently, (1 - decay) is the weight of the new value. Like the Statistics class,
there are four methods for modification: push, clear, sum and
multiply.
>>> for num in range(10):
... exp_stats.push(num)
>>> exp_stats.mean()
3.486784400999999
>>> exp_stats.variance()
11.593430921943071
>>> exp_stats.stddev()
3.4049127627507683
The decay of the exponential statistics can also be changed. The value must be
between 0 and 1.
>>> exp_stats.decay
0.9
>>> exp_stats.decay = 0.5
>>> exp_stats.decay
0.5
>>> exp_stats.decay = 10
Traceback (most recent call last):
...
ValueError: decay must be between 0 and 1
The clear method allows to optionally set a new mean, new variance and new
decay. If none are provided mean and variance reset to zero, while the decay is
not changed.
>>> exp_stats.clear()
>>> exp_stats.decay
0.5
>>> exp_stats.mean()
0.0
>>> exp_stats.variance()
0.0
Combining ExponentialStatistics is done by adding them together. The mean and
variance are simply added to create a new object. To weight each
ExponentialStatistics, multiply them by a constant factor. If two
ExponentialStatistics are added then the leftmost decay is used for the new
object. The len method is not supported.
>>> alpha_stats = ExponentialStatistics(iterable=range(10))
>>> beta_stats = ExponentialStatistics(decay=0.1)
>>> for num in range(10):
... beta_stats.push(num)
>>> exp_stats = beta_stats * 0.5 + alpha_stats * 0.5
>>> exp_stats.decay
0.1
>>> exp_stats.mean()
6.187836645
All internal calculations of the Statistics and Regression classes are based
entirely on the C++ code by John Cook as posted in a couple of articles:
Computing Skewness and Kurtosis in One Pass
Computing Linear Regression in One Pass
The ExponentialStatistics implementation is based on:
Finch, 2009, Incremental Calculation of Weighted Mean and Variance
The pure-Python version of RunStats is directly available if preferred.
>>> import runstats.core # Pure-Python
>>> runstats.core.Statistics
<class 'runstats.core.Statistics'>
When importing from runstats the Cython-optimized version _core is
preferred and the core version is used as fallback. Micro-benchmarking
Statistics and Regression by calling push repeatedly shows the
Cython-optimized extension as 20-40 times faster than the pure-Python
extension.
Reference and Indices
RunStats Documentation
RunStats API Reference
RunStats at PyPI
RunStats at GitHub
RunStats Issue Tracker
License
Copyright 2013-2021 Grant Jenks
Licensed under the Apache License, Version 2.0 (the “License”); you may not use
this file except in compliance with the License. You may obtain a copy of the
License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software distributed
under the License is distributed on an “AS IS” BASIS, WITHOUT WARRANTIES OR
CONDITIONS OF ANY KIND, either express or implied. See the License for the
specific language governing permissions and limitations under the License.
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