Metadata-Version: 1.1
Name: randomgen
Version: 1.18.0
Summary: Random generator supporting multiple PRNGs
Home-page: https://github.com/bashtage/randomgen
Author: Kevin Sheppard
Author-email: kevin.k.sheppard@gmail.com
License: NCSA
Description: RandomGen
        =========
        
        Random Number Generator using settable Basic RNG interface for future
        NumPy RandomState evolution.
        
        **Continuous Integration**
        
        |Travis Build Status| |Appveyor Build Status| |Build Status| |FreeBSD
        Status on Cirrus|
        
        **Coverage**
        
        |Coverage Status| |codecov|
        
        **Latest Release**
        
        |PyPI version| |Anacnoda Cloud|
        
        **License**
        
        |NCSA License| |BSD License| |DOI|
        
        This is a library and generic interface for alternative random
        generators in Python and NumPy.
        
        WARNINGS
        ========
        
        Changes in v1.18
        ----------------
        
        There are many changes between v1.16.x and v1.18.x. These reflect API
        decision taken in conjunction with NumPy in preparation of the core of
        ``randomgen`` being used as the preferred random number generator in
        NumPy. These all issue ``DeprecationWarning``\ s except for
        ``BasicRNG.generator`` which raises ``NotImplementedError``. The C-API
        has also changed to reflect the preferred naming the underlying
        Pseudo-RNGs, which are now known as bit generators (or
        ``BigGenerator``\ s).
        
        Future Plans
        ------------
        
        A substantial portion of randomgen has been merged into NumPy. Revamping
        NumPy’s random number generation was always the goal of this project
        (and its predecessor `NextGen NumPy
        RandomState <https://github.com/bashtage/ng-numpy-randomstate%3E>`__),
        and so it has succeeded.
        
        While I have no immediate plans to remove anything, after a 1.19 release
        I will:
        
        -  Remove ``Generator`` and ``RandomState``. These duplicate NumPy and
           will diverge over time. The versions in NumPy are authoritative.
        -  Preserve novel methods of ``Generator`` in a new class,
           ``ExtendedGenerator``.
        -  Add some distributions that are not supported in NumPy.
        -  Remove ``MT19937`` ``PCG64`` since these are duplicates of bit
           generators in NumPy.
        -  Add any interesting bit generators I come across.
        
        Python 2.7 Support
        ------------------
        
        v1.16 is the final major version that supports Python 2.7. Any bugs in
        v1.16 will be patched until the end of 2019. All future releases are
        Python 3, with an initial minimum version of 3.5.
        
        Compatibility Warning
        ---------------------
        
        ``Generator`` does not support Box-Muller normal variates and so it not
        100% compatible with NumPy (or randomstate). Box-Muller normals are slow
        to generate and all functions which previously relied on Box-Muller
        normals now use the faster Ziggurat implementation. If you require
        backward compatibility, a legacy generator, ``RandomState``, has been
        created which can fully reproduce the sequence produced by NumPy.
        
        Features
        ========
        
        -  Designed as a peplacement for NumPy’s 1.16’s RandomState
        
           .. code:: python
        
              from randomgen import Generator, MT19937
              rnd = Generator(MT19937())
              x = rnd.standard_normal(100)
              y = rnd.random(100)
              z = rnd.randn(10,10)
        
        -  Default random generator is a fast generator called Xoroshiro128plus
        -  Support for random number generators that support independent streams
           and jumping ahead so that sub-streams can be generated
        -  Faster random number generation, especially for normal, standard
           exponential and standard gamma using the Ziggurat method
        
           .. code:: python
        
              from randomgen import Generator
              # Default bit generator is Xoroshiro128
              rnd = Generator()
              w = rnd.standard_normal(10000)
              x = rnd.standard_exponential(10000)
              y = rnd.standard_gamma(5.5, 10000)
        
        -  Support for 32-bit floating randoms for core generators. Currently
           supported:
        
           -  Uniforms (``random``)
           -  Exponentials (``standard_exponential``, both Inverse CDF and
              Ziggurat)
           -  Normals (``standard_normal``)
           -  Standard Gammas (via ``standard_gamma``)
        
           **WARNING**: The 32-bit generators are **experimental** and subject
           to change.
        
           **Note**: There are *no* plans to extend the alternative precision
           generation to all distributions.
        
        -  Support for filling existing arrays using ``out`` keyword argument.
           Currently supported in (both 32- and 64-bit outputs)
        
           -  Uniforms (``random``)
           -  Exponentials (``standard_exponential``)
           -  Normals (``standard_normal``)
           -  Standard Gammas (via ``standard_gamma``)
        
        -  Support for Lemire’s method of generating uniform integers on an
           arbitrary interval by setting ``use_masked=True``.
        
        Included Pseudo Random Number Generators
        ----------------------------------------
        
        This module includes a number of alternative random number generators in
        addition to the MT19937 that is included in NumPy. The RNGs include:
        
        -  Cryptographic cipher-based random number generator based on AES,
           ChaCha20, HC128 and Speck128.
        -  `MT19937 <https://github.com/numpy/numpy/blob/master/numpy/random/mtrand/>`__,
           the NumPy rng
        -  `dSFMT <http://www.math.sci.hiroshima-u.ac.jp/~m-mat/MT/SFMT/>`__ a
           SSE2-aware version of the MT19937 generator that is especially fast
           at generating doubles
        -  `xoroshiro128+ <http://xoroshiro.di.unimi.it/>`__,
           `xorshift1024*φ <http://xorshift.di.unimi.it/>`__,
           `xoshiro256*\* <http://xorshift.di.unimi.it/>`__, and
           `xoshiro512*\* <http://xorshift.di.unimi.it/>`__
        -  `PCG64 <http://www.pcg-random.org/>`__
        -  ThreeFry and Philox from
           `Random123 <https://www.deshawresearch.com/resources_random123.html>`__
        
        Differences from ``numpy.random.RandomState``
        ---------------------------------------------
        
        Note
        ~~~~
        
        These comparrisons are relative to NumPy 1.16. The project has been
        substantially merged into NumPy 1.17+.
        
        New Features relative to NumPy 1.16
        ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
        
        -  ``standard_normal``, ``normal``, ``randn`` and
           ``multivariate_normal`` all use the much faster (100%+) Ziggurat
           method.
        -  ``standard_gamma`` and ``gamma`` both use the much faster Ziggurat
           method.
        -  ``standard_exponential`` ``exponential`` both support an additional
           ``method`` keyword argument which can be ``inv`` or ``zig`` where
           ``inv`` corresponds to the current method using the inverse CDF and
           ``zig`` uses the much faster (100%+) Ziggurat method.
        -  Core random number generators can produce either single precision
           (``np.float32``) or double precision (``np.float64``, the default)
           using the optional keyword argument ``dtype``
        -  Core random number generators can fill existing arrays using the
           ``out`` keyword argument
        -  Standardizes integer-values random values as int64 for all platforms.
        -  ``randint`` supports generating using rejection sampling on masked
           values (the default) or Lemire’s method. Lemire’s method can be much
           faster when the required interval length is much smaller than the
           closes power of 2.
        
        New Functions
        ~~~~~~~~~~~~~
        
        -  ``random_entropy`` - Read from the system entropy provider, which is
           commonly used in cryptographic applications
        -  ``random_raw`` - Direct access to the values produced by the
           underlying PRNG. The range of the values returned depends on the
           specifics of the PRNG implementation.
        -  ``random_uintegers`` - unsigned integers, either 32-
           (``[0, 2**32-1]``) or 64-bit (``[0, 2**64-1]``)
        -  ``jump`` - Jumps RNGs that support it. ``jump`` moves the state a
           great distance. *Only available if supported by the RNG.*
        -  ``advance`` - Advanced the RNG ‘as-if’ a number of draws were made,
           without actually drawing the numbers. *Only available if supported by
           the RNG.*
        
        Status
        ------
        
        -  Builds and passes all tests on:
        
           -  Linux 32/64 bit, Python 2.7, 3.5, 3.6, 3.7
           -  Linux (ARM/ARM64), Python 3.7
           -  OSX 64-bit, Python 2.7, 3.5, 3.6, 3.7
           -  Windows 32/64 bit, Python 2.7, 3.5, 3.6, 3.7
           -  PC-BSD (FreeBSD) 64-bit, Python 2.7 *(Occasional, no CI)*
        
        Version
        -------
        
        The package version matches the latest version of NumPy where
        ``RandomState(MT19937())`` passes all NumPy test.
        
        Documentation
        -------------
        
        Documentation for the latest release is available on `my GitHub
        pages <http://bashtage.github.io/randomgen/>`__. Documentation for the
        latest commit (unreleased) is available under
        `devel <http://bashtage.github.io/randomgen/devel/>`__.
        
        Requirements
        ------------
        
        Building requires:
        
        -  Python (3.5, 3.6, 3.7, 3.8)
        -  NumPy (1.13, 1.14, 1.15, 1.16, 1.17, 1.18)
        -  Cython (0.26+)
        -  tempita (0.5+), if not provided by Cython
        
        Testing requires pytest (4.0+).
        
        **Note:** it might work with other versions but only tested with these
        versions.
        
        Development and Testing
        -----------------------
        
        All development has been on 64-bit Linux, and it is regularly tested on
        Travis-CI (Linux/OSX), Appveyor (Windows), Cirrus (FreeBSD) and Drone.io
        (ARM/ARM64 Linux).
        
        Tests are in place for all RNGs. The MT19937 is tested against NumPy’s
        implementation for identical results. It also passes NumPy’s test suite
        where still relevant.
        
        Installing
        ----------
        
        Either install from PyPi using
        
        .. code:: bash
        
           pip install randomgen
        
        or, if you want the latest version,
        
        .. code:: bash
        
           pip install git+https://github.com/bashtage/randomgen.git
        
        or from a cloned repo,
        
        .. code:: bash
        
           python setup.py install
        
        SSE2
        ~~~~
        
        ``dSFTM`` makes use of SSE2 by default. If you have a very old computer
        or are building on non-x86, you can install using:
        
        .. code:: bash
        
           python setup.py install --no-sse2
        
        Windows
        ~~~~~~~
        
        Either use a binary installer, or if building from scratch, use Python
        3.6/3.7 with Visual Studio 2015/2017 Community Edition. It can also be
        build using Microsoft Visual C++ Compiler for Python 2.7 and Python 2.7.
        
        Using
        -----
        
        The separate generators are importable from ``randomgen``
        
        .. code:: python
        
           from randomgen import Generator, ThreeFry, PCG64, MT19937
           rg = Generator(ThreeFry())
           rg.random(100)
        
           rg = Generator(PCG64())
           rg.random(100)
        
           # Identical to NumPy
           rg = Generator(MT19937())
           rg.random(100)
        
        License
        -------
        
        Dual: BSD 3-Clause and NCSA, plus sub licenses for components.
        
        Performance
        -----------
        
        Performance is promising, and even the mt19937 seems to be faster than
        NumPy’s mt19937.
        
        ::
        
           Speed-up relative to NumPy (Uniform Doubles)
           ************************************************************
           DSFMT                 184.9%
           MT19937                17.3%
           PCG32                  83.3%
           PCG64                 108.3%
           Philox                 -4.9%
           ThreeFry              -12.0%
           Xoroshiro128          159.5%
           Xorshift1024          150.4%
           Xoshiro256            145.7%
           Xoshiro512            113.1%
        
           Speed-up relative to NumPy (64-bit unsigned integers)
           ************************************************************
           DSFMT                  17.4%
           MT19937                 7.8%
           PCG32                  60.3%
           PCG64                  73.5%
           Philox                -25.5%
           ThreeFry              -30.5%
           Xoroshiro128          124.0%
           Xorshift1024          109.4%
           Xoshiro256            100.3%
           Xoshiro512             63.5%
        
           Speed-up relative to NumPy (Standard normals)
           ************************************************************
           DSFMT                 183.0%
           MT19937               169.0%
           PCG32                 240.7%
           PCG64                 231.6%
           Philox                131.3%
           ThreeFry              118.3%
           Xoroshiro128          332.1%
           Xorshift1024          232.4%
           Xoshiro256            306.6%
           Xoshiro512            274.6%
        
        .. |Travis Build Status| image:: https://travis-ci.org/bashtage/randomgen.svg?branch=master
           :target: https://travis-ci.org/bashtage/randomgen
        .. |Appveyor Build Status| image:: https://ci.appveyor.com/api/projects/status/odc5c4ukhru5xicl/branch/master?svg=true
           :target: https://ci.appveyor.com/project/bashtage/randomgen/branch/master
        .. |Build Status| image:: https://cloud.drone.io/api/badges/bashtage/randomgen/status.svg
           :target: https://cloud.drone.io/bashtage/randomgen
        .. |FreeBSD Status on Cirrus| image:: https://api.cirrus-ci.com/github/bashtage/randomgen.svg
           :target: https://cirrus-ci.com/github/bashtage/randomgen
        .. |Coverage Status| image:: https://coveralls.io/repos/github/bashtage/randomgen/badge.svg
           :target: https://coveralls.io/github/bashtage/randomgen
        .. |codecov| image:: https://codecov.io/gh/bashtage/randomgen/branch/master/graph/badge.svg
           :target: https://codecov.io/gh/bashtage/randomgen
        .. |PyPI version| image:: https://badge.fury.io/py/randomgen.svg
           :target: https://pypi.org/project/randomgen/
        .. |Anacnoda Cloud| image:: https://anaconda.org/bashtage/randomgen/badges/version.svg
           :target: https://anaconda.org/bashtage/randomgen
        .. |NCSA License| image:: https://img.shields.io/badge/License-NCSA-blue.svg
           :target: https://opensource.org/licenses/NCSA
        .. |BSD License| image:: https://img.shields.io/badge/License-BSD%203--Clause-blue.svg
           :target: https://opensource.org/licenses/BSD-3-Clause
        .. |DOI| image:: https://zenodo.org/badge/122181085.svg
           :target: https://zenodo.org/badge/latestdoi/122181085
        
Keywords: pseudo random numbers,PRNG,RNG,RandomState,random,random numbers,parallel random numbers,PCG,XorShift,dSFMT,MT19937,Random123,ThreeFry,Philox,ChaCha,AES,SPECK,RDRAND
Platform: UNKNOWN
Classifier: Development Status :: 5 - Production/Stable
Classifier: Environment :: Console
Classifier: Intended Audience :: End Users/Desktop
Classifier: Intended Audience :: Financial and Insurance Industry
Classifier: Intended Audience :: Information Technology
Classifier: Intended Audience :: Science/Research
Classifier: License :: OSI Approved
Classifier: Operating System :: MacOS :: MacOS X
Classifier: Operating System :: Microsoft :: Windows
Classifier: Operating System :: POSIX :: Linux
Classifier: Operating System :: Unix
Classifier: Programming Language :: C
Classifier: Programming Language :: Cython
Classifier: Programming Language :: Python :: 2.7
Classifier: Programming Language :: Python :: 3.5
Classifier: Programming Language :: Python :: 3.6
Classifier: Programming Language :: Python :: 3.7
Classifier: Topic :: Adaptive Technologies
Classifier: Topic :: Artistic Software
Classifier: Topic :: Office/Business :: Financial
Classifier: Topic :: Scientific/Engineering
Classifier: Topic :: Security :: Cryptography
