Metadata-Version: 2.1
Name: hexahexacontadecimal
Version: 2.2
Summary: Encode and decode hexahexacontadecimal numbers, a compact number representation for URLs.
Home-page: https://github.com/aljungberg/hexahexacontadecimal
Author: Alexander Ljungberg
Author-email: aljungberg@slevenbits.com
License: UNKNOWN
Keywords: base64,hexahexacontadecimal,hhc,base66,url
Platform: UNKNOWN
Classifier: Programming Language :: Python
Classifier: Development Status :: 5 - Production/Stable
Classifier: Intended Audience :: Developers
Classifier: Topic :: Software Development :: Libraries
Classifier: License :: OSI Approved :: BSD License
Classifier: Operating System :: POSIX

Hexahexacontadecimal
====================

**The most compact way to encode a number into a URL.**

Hexahexacontadecimal is a compact format to express a number or binary
data in a URL. It uses all characters allowed in a URL – the `unreserved
characters <http://tools.ietf.org/html/rfc3986#section-2.3>`__ – making
it the most concise way to express a positive integer in a URL.

Note that ``urllib.quote`` `escapes the tilde character
(~) <http://bugs.python.org/issue16285>`__, which is not necessary as of
RFC3986, so if you use this on HHC data you’ll waste bytes. Use the
provided ``hhc_url_quote`` function instead if you must. By definition
though HHC values don’t need any URL quoting.

Usage
-----

::

   >>> from hexahexacontadecimal import hhc, hhc_to_int
   >>> print(hhc(302231454903657293676544))
   iFsGUkO.0tsxw
   >>> print(hhc_to_int('iFsGUkO.0tsxw'))
   302231454903657293676544

Hexahexacontadecimal vs Base64 in URLs
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~

::

   >>> n = 292231454903657293676544
   >>> import base64
   >>> print(hhc_url_quote(base64.urlsafe_b64encode(long_to_binary(n))))
   PeHmHzZFTcAAAA%3D%3D
   >>> print(hhc_url_quote(hhc(n)))
   gpE4Xoy7fw5AO

Base64 vs HHC in a bad case for Base64:

::

   >>> n = 64 ** 5 + 1
   >>> print(hhc_url_quote(base64.urlsafe_b64encode(long_to_binary(n))))
   QAAAAQ%3D%3D
   >>> print(hhc(n))
   ucrDZ

Base64 vs HHC in a bad case for HHC:

::

   >>> n = 66 ** 5 + 1
   >>> print(hhc_url_quote(base64.urlsafe_b64encode(long_to_binary(n))))
   SqUUIQ%3D%3D
   >>> print(hhc(n))
   100001

That big SHA-512 you always wanted to write in a URL:

::

   >>> n = 2 ** 512
   >>> print(hhc_url_quote(base64.urlsafe_b64encode(long_to_binary(n))))
   AQAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA%3D
   >>> print(hhc(n))
   JK84xqGD9FMXPNubPghADlRhBUzlqRscC2h~8xmi99PvuQsUCIB2CHGhMUQR8FLm72.Hbbctkqi89xspay~y4

Massive savings!

Are the savings really significant?
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~

If you’re currently doing your Base64 encoding the naive way, then yes.
Encoding all numbers up to 100000, HHC will lead to much shorter total
length of URLs.

::

   >>> sum(len(hhc_url_quote(base64.urlsafe_b64encode(long_to_binary(n)))) for n in range(10 ** 5))
   531584
   >>> sum(len(hhc_url_quote(hhc(n))) for n in range(10 ** 5))
   295578

What if I use Base64 without padding?
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^

Then the savings are much less significant. Yet they are still savings.
If you’re a perfectionist this is the kind of thing you might care
about.

Let’s test it using the code from `this StackOverFlow
question <http://stackoverflow.com/a/561704/76900>`__:

::

   >>> from hexahexacontadecimal.num_encode_base64 import num_encode as num_encode_base64
   >>> n = 64 ** 5 + 1
   >>> print(hhc_url_quote(num_encode_base64(n)))
   BAAAAB
   >>> from hexahexacontadecimal.num_encode_base64 import num_decode as num_decode_base64
   >>> num_decode_base64(hhc_url_quote(num_encode_base64(n))) == n
   True

   >>> print(hhc(n))
   ucrDZ
   >>> hhc_to_int(hhc(n)) == n
   True

   >>> n = 66 ** 5 + 1
   >>> print(hhc_url_quote(num_encode_base64(n)))
   BKpRQh
   >>> print(hhc_url_quote(hhc(n)))
   100001

   >>> n = 2 ** 512
   >>> hhc_url_quote(num_encode_base64(n))
   'EAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA'
   >>> print(hhc_url_quote(hhc(n)))
   JK84xqGD9FMXPNubPghADlRhBUzlqRscC2h~8xmi99PvuQsUCIB2CHGhMUQR8FLm72.Hbbctkqi89xspay~y4

   >>> sum(len(hhc_url_quote(num_encode_base64(n))) for n in range(10 ** 5))
   295840
   >>> sum(len(hhc_url_quote(hhc(n))) for n in range(10 ** 5))
   295578

Why settle for less than perfect?

Sorting
~~~~~~~

If you wish to be able to sort a list of HHC values numerically there is
a variant of HHC that allows this. See ``sortable_hhc``.

::

   >>> hhc(67) < hhc(128)
   False
   >>> sortable_hhc(67, width=2) < sortable_hhc(128, width=2)
   True

Negative Numbers
~~~~~~~~~~~~~~~~

HHC expresses negative numbers by prefixing the number with ``,`` (since
minus is taken). This is not a URL safe character so if you URL encode a
negative number with HHC you end up with ``%2C`` which takes up 2 extra
characters. For this reason HHC is not necessarily the shortest
representation of a negative number.

The sortable variant also supports negative numbers and will yield the
natural sort order (small to large), like -2, -1, 0, 1, 2.

Installation
------------

::

   pip install hexahexacontadecimal

Documentation
-------------

This file and docstrings.

Tests
-----

`Build Status <https://travis-ci.org/aljungberg/hexahexacontadecimal>`__

To run the unit tests:

::

   nosetests --with-doctest

Changelog
---------

2.2
~~~

-  Python 3 support (backwards compatible with Python 2.7).

.. _section-1:

2.1
~~~

-  Fixed: ``hhc(-1)`` would cause an infinite loop.
-  New: support for negative values.

.. _section-2:

2.0
~~~

-  New: sortable HHC. This variant of HHC sorts the same alphabetically
   as numerically for equal length strings.
-  Shorter, more Pythonic method names. The main function is now simply
   called ``hhc``, styled after Python’s built in ``hex`` function. To
   decode the same, ``hhc_to_int`` is now used.
-  ``import * from hexahexacontadecimal`` now only imports the main
   functions.
-  ``urlquote`` was renamed to ``hhc_url_quote`` to make it easier to
   differentiate from the standard library method.

.. _section-3:

1.0
~~~

Initial release.

On the command line
-------------------

With `pyle <https://github.com/aljungberg/pyle>`__ you can easily use
hexahexacontadecimal on the command line.

::

   $ wc -c LICENSE MANIFEST setup.py | pyle -m hexahexacontadecimal -e "'%-10s Hexhexconta bytes:' % words[1], hexahexacontadecimal.hhc(int(words[0]))"
   LICENSE    Hexhexconta bytes: MV
   MANIFEST   Hexhexconta bytes: 1z
   setup.py   Hexhexconta bytes: GI
   total      Hexhexconta bytes: ei

License
-------

Free to use and modify under the terms of the BSD open source license.

Author
------

Alexander Ljungberg


