Metadata-Version: 2.4
Name: PyQRCodeNG
Version: 1.3.6
Summary: PyQRCode New Generation -- A QR code generator written purely in Python with SVG, EPS, PNG and terminal output.
Home-page: https://github.com/pyqrcode/pyqrcodeNG
Author: Lars Heuer
Author-email: heuer@semagia.com
License: BSD
Keywords: qrcode,qr
Classifier: Development Status :: 4 - Beta
Classifier: Environment :: Console
Classifier: Intended Audience :: Developers
Classifier: License :: OSI Approved :: BSD License
Classifier: Topic :: Software Development :: Libraries :: Python Modules
Classifier: Natural Language :: English
Classifier: Operating System :: OS Independent
Classifier: Operating System :: POSIX
Classifier: Operating System :: Microsoft :: Windows
Classifier: Programming Language :: Python :: 3
Classifier: Programming Language :: Python :: 2.7
License-File: LICENSE
Provides-Extra: png
Requires-Dist: pypng>=0.0.13; extra == "png"
Dynamic: author
Dynamic: author-email
Dynamic: classifier
Dynamic: description
Dynamic: home-page
Dynamic: keywords
Dynamic: license
Dynamic: license-file
Dynamic: provides-extra
Dynamic: summary

PyQRCodeNG
==========

The PyQRCodeNG module is a QR code generator that is simple to use and written
in pure Python. The module automates most of the building process for
creating QR codes. Most codes can be created using only two lines of code!

Unlike other generators, all of the helpers can be controlled manually. You are
free to set any or all of the properties of your QR code.

QR codes can be saved as SVG, XBM, EPS, PNG (by using the
`PyPNG <https://pypi.org/project/pypng/>` module), or plain text. They can
also be displayed directly in most Linux terminal emulators and Tkinter. PIL
or Pillow are not used to render the image files.

The PyQRCodeNG module attempts to follow the QR code standard as closely as
possible. The terminology and the encodings used in PyQRCodeNG come directly
from the standard. This module also follows the algorithm laid out in the
standard.

Requirements
------------

PyQRCodeNG only requires Python 2.7 or Python 3. You may want to install
``PyPNG`` in order to render PNG files, but it is optional.

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

Installation is simple. It can be installed from pip using the following
command::

    $ pip install -U pyqrcodeng


Replacing PyQRCode with PyQRCodeNG
----------------------------------

PyQRCodeNG is a fork of PyQRCode since the latter seems to be unmaintained.
The API is mainly compatible to PyQRCode. In your code you can use the following
import without changing the QR Code generation code.

.. code-block:: python

    >>> import pyqrcodeng as pyqrcode


Usage
-----

This is the only import you need. The heart of the module is the QRCode class.
You can construct the class normally, or use the *create* wrapper function.

.. code-block:: python

    >>> import pyqrcodeng
    >>> qr = pyqrcodeng.create('Unladden swallow')
    >>> qr.png('famous-joke.png', scale=5)


Encoding Data
-------------

This module supports all four encodings for data: numeric, alphanumeric, kanji,
and binary.

The numeric type is the most efficient way to encode digits. As the
name implies it is designed to encode integers. Some numbers might be too
large, the object can use a string containing only digits instead of an
actual number.

.. code-block:: python

    >>> number = pyqrcodeng.create(123456789012345)


The alphanumeric type is very limited in that it can only encode some ASCII
characters. It encodes: uppercase letters, 0-9, the horizontal space, and eight
punctuation characters. The available characters will let you encode a URL 

.. code-block:: python

    >>> url = pyqrcodeng.create('http://uca.edu')


When all else fails the data can be encoded in pure binary. The quotation below
must be encoded in binary because of the lower-cased characters, the apostrophe
and the new line character.


.. code-block:: python

    >>> life = pyqrcodeng.create('''MR. CREOSOTE: Better get a bucket. I'm going to throw up.
        MAITRE D: Uh, Gaston! A bucket for monsieur. There you are, monsieur.''')


The only unimplemented encoding is ECI mode which allows for multiple encodings in one QR
code (this will be implemented in a future version).

Manually Setting The QR Code's Properties
-----------------------------------------

There are many situation where you might wish to have more fine grained control
over how the QR Code is generated. You can specify all the properties of your
QR code through the *create* function. There are three main properties to a
QR code.

The *error* parameter sets the error correction level of the code. Each level
has an associated name given by a letter: L, M, Q, or H; each level can
correct up to 7, 15, 25, or 30 percent of the data respectively. There are
several ways to specify the level, see pyqrcodeng.tables.modes for all the
possible values. By default this parameter is set to 'H' which is the highest
possible error correction, but it has the smallest available data
capacity.

The *version* parameter specifies the size and data capacity of the
code. Versions are any integer between 1 and 40, where version 1 is
the smallest QR code, and version 40 is the largest. By default, the object
uses the data's encoding and error correction level to calculate the smallest
possible version. You may want to specify this parameter for consistency when
generating several QR codes with varying amounts of data. That way all of the
generated codes would have the same size.

Finally, the *mode* parameter sets how the contents will be encoded. As
mentioned above, three of the five possible encodings have been written. By
default the object uses the most efficient encoding for the contents. You can
change this though. See qrcode.tables.modes for a list of possible values
for this parameter.

The code below constructs a QR code with 25% error correction, size 27, and
forces the encoding to be binary (rather than numeric).

.. code-block:: python

    >>> big_code = pyqrcodeng.create('0987654321', error='L', version=27, mode='binary')


Rendering
---------

There are many possible formats for rendering the QR Code. The first is
to render it as a string of 1's and 0's. This is method is used to help end
users create their own renderer. It is also possible to print the
code such that it is directly displayable in most Linux terminals.
There are several image based renderers.

The terminal renderer outputs a string of ASCII escape codes that when
displayed in a compatible terminal, will display a valid QR code. The
background and module colors are settable (although as with any time you display
colors in the terminal, there are several caveats).

.. code-block:: python

    >>> url.term()


The SVG renderer outputs the QR Code as a scalable vector graphic. This
renderer does not require any external modules. Instead it hand draws the
QR code as a set paths.

.. code-block:: python

    >>> url.svg(sys.stdout, scale=1)
    >>> url.svg('uca.svg', scale=4, module_color="#7D007D")


Alternatively, if you install the pypng module, you can render the QR Code
to a PNG file. Colors should be specified as RGB or RGBA if you want to
take advantage of transparency.

.. code-block:: python

    >>> number.png('big-number.png')
    >>> life.png('sketch.png', scale=6, module_color=(0, 0, 0, 128), background=(0xff, 0xff, 0xcc))


Finally, there is a text based renderer. This will output the QR code as a
string of 1's and 0's, with each row of the code on a new line.

.. code-block:: python

    >>> print(number.text())


Documentation
-------------
Read the online documentation at <https://pyqrcodeng.readthedocs.io/>

Changes
=======

1.3.6 - 2020-01-01
------------------
* Code improvements / refactorings
* Optimized generation of numerical QR Codes
* MUCH faster PNG writing (approx. twice as fast)


1.3.5 - 2020-01-01
------------------
* Don't raise a UnicodeError if the user provided binary data and sets
  the mode explicitly to 'binary'.
  Fixed by Mathieu <https://github.com/albatros69> (PR #13)
* The builder raises more specific exceptions like ``VersionError``, ``MaskError``,
  ``DataOverflowError``. This change is backwards compatible since all
  exceptions are inherited from ``ValueError``.
* Added "designator" property to QRCode. This encodes the version number and
  error correction level, i.e. "1-H"
* Fixed alphanumeric encoding. The bug was introduced in the 1.3.4 release
* Added more test cases


1.3.4 - 2019-07-07
------------------
* Improved documentation
* Internal code refactoring
* Added CLI docs
* (Deprecated) QRCode.terminal() did not work. Fixed.


1.3.3 - 2019-06-30
------------------
* Improved documentation
* Internal code refactoring
* Performance improvements


1.3.2 - 2019-06-29
------------------
* Initial release of PyQRCode NG (PyQRCode Next Generation)


1.3.0 - 2018-06-26
------------------
* Added support for meCards etc. contributed by Riccardo Metere
  Fixed <https://github.com/mnooner256/pyqrcode/pull/45>
* Skip detecting content type if constructor mode is given to constructor.
  Contributed by Martijn van Rheenen.
  Fixed <https://github.com/mnooner256/pyqrcode/issues/50>
* Moved tests from nose to pytest since nose is deprecated,
  see <https://github.com/heuer/pyqrcode/issues/2>
* Updated test environment: Added PyPy, PyPy3 and Python 3.6
* QRCode.get_png_size() is deprecated, use QRCode.symbol_size(). The latter
  returns a (width, height) tuple, not an integer.
* Deprecated QRCode.png_as_base64_str(), use QRCode.png_data_uri() which returns
  a valid URI instead of a Base64 encoded string
* Faster PNG generation, fixed <https://github.com/mnooner256/pyqrcode/pull/47>
* Added CLI
  Fixed #4 and <https://github.com/mnooner256/pyqrcode/pull/53>
* Added term() method to QRCode which prints the QR Code to the terminal.
  This works with Windows and Unix.
* Deprecated QRCode.terminal() in favor of QRCode.term()
* Added "scale" parameter to QRCode.text


1.2.1 - 2016-06-20
------------------
* Fixed issue #43. A debug print statement got left in by mistake. I altered
  The distribution script to check and make sure it does not happen again.


1.2 - 2016-05-20
----------------
* Added Kanji support.
* Added ability to output PNG QR codes as a base64 string. Allows coded to be
  created for web services without the need to create intermediary files.
  Thanks to [Fábio C. Barrionuevo da Luz (luzfcb)](https://github.com/luzfcb)
* Added renderer for XBM. Displaying QR codes in Tkinter is now extremely
  simple. Thanks to [Seth VanHeulen (svanheulen)](https://github.com/svanheulen)


1.1.1 - 2016-02-27
------------------
* Fix for issue #38, where numeric encodings got broken by added unicode support.


1.1 - 2016-04-15
----------------
* Added support for Python 2.6
* All renderers now have a **quiet zone of four**. This value is settable via a
  parameter.
* Fixed issue where file streams were not being closed correctly
* **Special thanks goes to [Lars (heuer)](https://github.com/heuer) who 
  contributed a massive amount of improvements in this version.**

  * Enormously improved SVG implementation. Now uses paths instead of lines.
    Also allows for SVG fragments instead of entire documents.
  * We now have unit tests!! He wrote over 100 unit tests for
    all of the various parts of the library.
  * A new EPS renderer.
  * A mechanism for showing QR codes directly from within your code.


1.0 - 2014-12-04
----------------
* Fixed issue where terminal bits were being added in the wrong location.
* Added ability to output QR code to a Linux terminal.
* Added support for Python 2.7
