A userland PHP implementation of a number of tools for working with statistical distributions in PHP.

Compatibility: PHP 5.4 and above. Tested and supported on 5.4 through 7.1 as well as nightly. We do not currently support hhvm.

This package is available in Packagist/Composer as gburtini/distributions. For noncomposer uses, clone the repository and require files directly.

The name given here is the name of the class.

• Normal(location μ ∈ R, squared scale σ² > 0)
• Binomial(number of trials, probability of success per trial in [0,1])
• Bernoulli(fraction in [0,1])
• Beta(shape α > 0, shape β > 0)
• Gamma(shape α > 0, rate β > 0)
• T(degrees of freedom v > 0)
• Dirichlet(array of concentration parameters α > 0)
• Poisson(mean λ > 0)
• Weibull(shape k > 0, scale lambda > 0)

All supported distributions are in the namespace gburtini\Distributions and implement the following interface. Implementing new distributions is as easy as extending gburtini\Distributions\Distribution or one of the existing implementations.

• Constructor - takes in the parameters of the distribution and returns an instance.
• public function pdf($x) - returns the density or mass at a given discretized point.
• public function pmf($x) - alias for pdf.
• public function cdf($x) - returns the cumulatfive density from -∞ to $x.
• public function icdf($y) - inverse CDF function, for a given density, returns a point.
• public function quantile($y) - alias for icdf.
• public function rand() - draws a sample from this distribution.
• public function rands($n) - draws a sample of length $n from this distribution.
• public static function draw(...) - draws a sample from the distribution given by the parameters passed in, a static alternative to rand.

gburtini\Distributions contains the distribution classes as indicated above. gburtini\Distributions\Accessories contains BetaFunction and GammaFunction, two classes containing accessory functions for computing complete, incomplete and inverse beta and gamma functions numerically.

Examples are provided in a comment at the top of most of the implementation files. In general, you should be able to use the parametrization listed above under "Supported Distributions" to create classes that implement the methods under "Interfaces".

use gburtini\Distributions\Beta;
$beta = new Beta(1, 100);
$draw = $beta->rand();
if($draw > 0.5) {
  echo "We drew a number bigger than 0.5 from a Beta(1,100).\n";
}

// $beta->pdf($x) = [0,1]
// $beta->cdf($x) = [0,1] non-decreasing
// $beta::quantile($y in [0,1]) = [0,1] (aliased Beta::icdf)
// $beta->rand() = [0,1]

// for BetaICDF there is optional paramerer maxIterations = 100, to change default value type
// $beta->icdf($x, ["maxIterations" => 30])

There is a Statistics Functions package in PECL called stats which I have never been able to get to work and has been very quiet since 2006. There is plenty of code for individual distributions around the web, StackOverflow, etc., but in my experience it is hit and miss. To whatever extent possible, I would be happy to (but have not yet) wrap the stats_ functions (if function_exists) where they have functionality that this package does not.

• First, implement the interface for all distributions!
• Add mean, median, mode, variance calculators.
• Implement more univariate distributions. For example, any of: Cauchy, chi-squared, exponential, F, geometric, hypergeometric, Laplace, log-normal, Maxwell–Boltzmann, Pareto, Rademacher, Rayleigh, uniform, Wakeby, Zipf, Zipf-Mandelbrot. Producing more distributions may be aided by the cool relational diagram on John D. Cook's website.
• Implement support for multivariate distributions, especially the multivariate normal, but also: multinomial, etc.
• Generalization of distributions' implementation where appropriate, such as an elliptical distributions approach to implementing the normal or a categorical distribution implementation of the Bernoulli.
• Design a good interface for alternative parameterizations (for example, precision-denoted normal, mode and concentration denoted beta, and shape and rate denoted gamma).
• Toolkit for performing auxiliary probability-related tasks such as method of moments fitting.
• Add moment-generating and characteristic functions to distributions where they are meaningful and tractable. Generalize concepts like expectation and variance out of them with a clean interface.

I will happily merge any new distributions (ideally with tests, but I'm even happy to write the tests), improvements to my code, etc. Please submit a pull request or send me an email.

Fork repository, clone to your own computer and install dependencies:

composer install

Run tests

./vendor/bin/phpunit

MIT licensed. Please contact me if this does not work for your use-case.