sample_statistics 0.0.8-nullsafety sample_statistics: ^0.0.8-nullsafety copied to clipboard
A Dart library for calculating sample statistics and creating histograms. Includes common probability distribution functions and random sample generators.
Sample Statistics #
Introduction #
The package sample_statistics
provides helpers for calculating statistics of
numerical samples and generating/exporting histograms. It includes common probability
distribution functions and simple random sample generators.
Usage #
To use this package include sample_statistics
as a dependency in your pubspec.yaml
file.
The package uses null-safety features and requires Dart SDK version >=2.10.0
.
Random Sample Statistics #
To access basis sample statistics use the class SampleStats
. It calculates most
sample statistics in a lazy fashion and caches results to avoid expensive calculations if the
same quantity is accessed repeatedly.
import 'package:sample_statistics/sample_statistics.dart'
void main() {
final sample = <num>[-10, 0, 1, 2, 3, 4, 5, 6, 20]
final stats = SampleStats(sample)
print('\nRunning statistic_example.dart ...')
print('Sample: $sample')
print('min: ${stats.min}')
print('max: ${stats.max}')
print('mean: ${stats.mean}')
print('median: ${stats.median}')
print('first quartile: ${stats.quartile1}')
print('third quartile: ${stats.quartile3}')
print('standard deviation: ${stats.stdDev}')
final outliers = sample.removeOutliers();
print('outliers: $outliers')
print('sample with outliers removed: $sample');
}
Click to show console output.
$ dart --enable-experiment=non-nullable sample_statistics_example.dart
Running sample_statistic_example.dart ...
Sample: [-10, 0, 1, 2, 3, 4, 5, 6, 20]
min: -10
max: 20
mean: 3.4444444444444446
median: 3
first quartile: 1
third quartile: 5
standard deviation: 7.779960011322538
outliers:[-10, 20]
sample with outliers removed: [0, 1, 2, 3, 4, 5, 6]
Random Sample Generators #
This package sample_statistics
includes functions that can be used to generate random samples.
The function samplePdf
is based on the rejection sampling method.
It expects a callback of type ProbabilityDensity
and can be used
to generate random samples that follow an arbitrary probability distribution function.
Additinally, the package includes random sample generators based on the
following probability distribution functions:
- normal distribution,
- truncated normal distribution,
- exponential distribution,
- uniform distribution,
- triangular distribution.
import 'package:sample_statistics/sample_statistics.dart';
void main(List<String> args) {
final min = 1.0;
final max = 9.0;
final mean = 5.0;
final stdDev = 2.0;
// Generating the random sample with 1000 entries.
final sample = sampleTruncatedNormalPdf(1000, min, max, mean, stdDev);
final stats = SampleStats(sample);
print(stats.mean);
print(stats.stdDev);
print(stats.min);
// Exporting a histogram.
sample.exportHistogram(
'../plots/truncated_normal.hist',
pdf: (x) =>
truncatedNormalPdf(x, stats.min, stats.max, stats.mean, stats.stdDev),
);
}
Histograms #
To generate a histogram the first step is to divide the random sample range max - min
into a suitable number of intervals.
The second step consists of counting how many sample entries fall into each
interval.
The method histogram
provided by the class SampleStats
returns an object of type List<List<num>>
(each list entry is a numerical list).
The first entry contains the left margins of the histogram intervals or bins.
The second entry contains a count of how many sample values fall into each interval. By default,
the count is normalized such that the total area under the histogram is equal to 1.0.
This is useful when comparing a histogram to a probability density function.
The method histogram
accepts the optional parameter probabilityDensity
,
a function of type ProbabilityDensity
. If this function is
specified it is used to
generate the values in the third list entry by evaluating the
probability density function for each interval.
The figure below shows the histograms obtained from two random samples following
a truncated normal distribution with min = 1.5
, max = 6.0
and parent distribution
with mean = 3.0
, and stdDev = 1.0
.
The samples were generated using the function sampleTruncatedNormalPdf
.
The figure on the left shows the histogram of a sample with size 1000. The figure on the right shows the histogram of a sample with size 6750. Increasing the random sample size leads to an increasingly closer match between the shape of the histogram and the underlying probability distribution.
Using the distribution parameters mentioned above with the function
meanTruncatedNormal
, one can determine
a theoretical mean of 3.134. It can be seen that in the limit of a large sample
size the sample mean approaches
the mean of the underlying probability distribution.
Examples #
For further examples on how to generate random samples, export histograms, and access sample statistics see folder example.
Features and bugs #
Please file feature requests and bugs at the issue tracker.