Metadata-Version: 2.1
Name: pyzbar
Version: 0.1.8
Summary: Read one-dimensional barcodes and QR codes from Python 2 and 3.
Home-page: https://github.com/NaturalHistoryMuseum/pyzbar/
Author: Lawrence Hudson
Author-email: quicklizard@googlemail.com
License: MIT
Platform: UNKNOWN
Classifier: Development Status :: 4 - Beta
Classifier: License :: OSI Approved :: MIT License
Classifier: Topic :: Utilities
Classifier: Programming Language :: Python :: 2
Classifier: Programming Language :: Python :: 2.7
Classifier: Programming Language :: Python :: 3
Classifier: Programming Language :: Python :: 3.4
Classifier: Programming Language :: Python :: 3.5
Classifier: Programming Language :: Python :: 3.6
Classifier: Programming Language :: Python :: 3.7
Description-Content-Type: text/x-rst
Requires-Dist: enum34 (>=1.1.6) ; python_version=="2.7"
Requires-Dist: pathlib (>=1.0.1) ; python_version=="2.7"
Provides-Extra: scripts
Requires-Dist: Pillow (>=3.2.0) ; extra == 'scripts'

pyzbar
======

.. image:: https://img.shields.io/badge/python-2.7%2C%203.4%2C%203.5%2C%203.6%2C%203.7-blue.svg
    :target: https://github.com/NaturalHistoryMuseum/pyzbar

.. image:: https://badge.fury.io/py/pyzbar.svg
    :target: https://pypi.python.org/pypi/pyzbar

.. image:: https://travis-ci.org/NaturalHistoryMuseum/pyzbar.svg?branch=master
    :target: https://travis-ci.org/NaturalHistoryMuseum/pyzbar

.. image:: https://coveralls.io/repos/github/NaturalHistoryMuseum/pyzbar/badge.svg?branch=master
    :target: https://coveralls.io/github/NaturalHistoryMuseum/pyzbar?branch=master

Read one-dimensional barcodes and QR codes from Python 2 and 3 using the
`zbar <http://zbar.sourceforge.net/>`__ library.

-  Pure python
-  Works with PIL / Pillow images, OpenCV / numpy ``ndarray``\ s, and raw bytes
-  Decodes locations of barcodes
-  No dependencies, other than the zbar library itself
-  Tested on Python 2.7, and Python 3.4 to 3.6

The older `zbar <https://sourceforge.net/p/zbar/code/ci/default/tree/python/>`__
package is stuck in Python 2.x-land.
The `zbarlight <https://github.com/Polyconseil/zbarlight/>`__ package does not
provide support for Windows and depends upon Pillow.

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

The ``zbar`` ``DLL``\ s are included with the Windows Python wheels.
On other operating systems, you will need to install the ``zbar`` shared
library.

Mac OS X:

::

   brew install zbar

Linux:

::

   sudo apt-get install libzbar0

Install this Python wrapper; use the second form to install dependencies of the
command-line scripts:

::

   pip install pyzbar
   pip install pyzbar[scripts]

Example usage
-------------

The ``decode`` function accepts instances of ``PIL.Image``.

::

   >>> from pyzbar.pyzbar import decode
   >>> from PIL import Image
   >>> decode(Image.open('pyzbar/tests/code128.png'))
   [
       Decoded(
           data=b'Foramenifera', type='CODE128',
           rect=Rect(left=37, top=550, width=324, height=76),
           polygon=[
               Point(x=37, y=551), Point(x=37, y=625), Point(x=361, y=626),
               Point(x=361, y=550)
           ]
       )
       Decoded(
           data=b'Rana temporaria', type='CODE128',
           rect=Rect(left=4, top=0, width=390, height=76),
           polygon=[
               Point(x=4, y=1), Point(x=4, y=75), Point(x=394, y=76),
               Point(x=394, y=0)
           ]
       )
   ]

It also accepts instances of ``numpy.ndarray``, which might come from loading
images using `OpenCV <http://opencv.org/>`__.

::

   >>> import cv2
   >>> decode(cv2.imread('pyzbar/tests/code128.png'))
   [
       Decoded(
           data=b'Foramenifera', type='CODE128',
           rect=Rect(left=37, top=550, width=324, height=76),
           polygon=[
               Point(x=37, y=551), Point(x=37, y=625), Point(x=361, y=626),
               Point(x=361, y=550)
           ]
       )
       Decoded(
           data=b'Rana temporaria', type='CODE128',
           rect=Rect(left=4, top=0, width=390, height=76),
           polygon=[
               Point(x=4, y=1), Point(x=4, y=75), Point(x=394, y=76),
               Point(x=394, y=0)
           ]
       )
   ]

You can also provide a tuple ``(pixels, width, height)``, where the image data
is eight bits-per-pixel.

::

   >>> image = cv2.imread('pyzbar/tests/code128.png')
   >>> height, width = image.shape[:2]

   >>> # 8 bpp by considering just the blue channel
   >>> decode((image[:, :, 0].astype('uint8').tobytes(), width, height))
   [
       Decoded(
           data=b'Foramenifera', type='CODE128',
           rect=Rect(left=37, top=550, width=324, height=76),
           polygon=[
               Point(x=37, y=551), Point(x=37, y=625), Point(x=361, y=626),
               Point(x=361, y=550)
           ]
       )
       Decoded(
           data=b'Rana temporaria', type='CODE128',
           rect=Rect(left=4, top=0, width=390, height=76),
           polygon=[
               Point(x=4, y=1), Point(x=4, y=75), Point(x=394, y=76),
               Point(x=394, y=0)
           ]
       )
   ]

   >>> # 8 bpp by converting image to greyscale
   >>> grey = cv2.cvtColor(image, cv2.COLOR_BGR2GRAY)
   >>> decode((grey.tobytes(), width, height))
   [
       Decoded(
           data=b'Foramenifera', type='CODE128',
           rect=Rect(left=37, top=550, width=324, height=76),
           polygon=[
               Point(x=37, y=551), Point(x=37, y=625), Point(x=361, y=626),
               Point(x=361, y=550)
           ]
       )
       Decoded(
           data=b'Rana temporaria', type='CODE128',
           rect=Rect(left=4, top=0, width=390, height=76),
           polygon=[
               Point(x=4, y=1), Point(x=4, y=75), Point(x=394, y=76),
               Point(x=394, y=0)
           ]
       )
   ]

   >>> # If you don't provide 8 bpp
   >>> decode((image.tobytes(), width, height))
   Traceback (most recent call last):
     File "<stdin>", line 1, in <module>
     File "/Users/lawh/projects/pyzbar/pyzbar/pyzbar.py", line 102, in decode
       raise PyZbarError('Unsupported bits-per-pixel [{0}]'.format(bpp))
   pyzbar.pyzbar_error.PyZbarError: Unsupported bits-per-pixel [24]

The default behaviour is to decode all symbol types. You can look for just your
symbol types

::

   >>> from pyzbar.pyzbar import ZBarSymbol
   >>> # Look for just qrcode
   >>> decode(Image.open('pyzbar/tests/qrcode.png'), symbols=[ZBarSymbol.QRCODE])
   [
       Decoded(
           data=b'Thalassiodracon', type='QRCODE',
           rect=Rect(left=27, top=27, width=145, height=145),
           polygon=[
               Point(x=27, y=27), Point(x=27, y=172), Point(x=172, y=172),
               Point(x=172, y=27)
           ]
       )
   ]


   >>> # If we look for just code128, the qrcodes in the image will not be detected
   >>> decode(Image.open('pyzbar/tests/qrcode.png'), symbols=[ZBarSymbol.CODE128])
   []

Bounding boxes and polygons
---------------------------

The blue and pink boxes show ``rect`` and ``polygon``, respectively, for
barcodes in ``pyzbar/tests/qrcode.png`` (see
`bounding_box_and_polygon.py <https://github.com/NaturalHistoryMuseum/pyzbar/blob/master/bounding_box_and_polygon.py>`__).

.. figure:: https://github.com/NaturalHistoryMuseum/pyzbar/raw/master/bounding_box_and_polygon.png
   :alt: Two barcodes with bounding boxes and polygons

Windows error message
---------------------

If you see an ugly ``ImportError`` when importing ``pyzbar`` on Windows
you will most likely need the `Visual C++ Redistributable Packages for Visual
Studio 2013
<https://www.microsoft.com/en-US/download/details.aspx?id=40784>`__.
Install ``vcredist_x64.exe`` if using 64-bit Python, ``vcredist_x86.exe`` if
using 32-bit Python.

Contributors
------------

-  Alex (@globophobe) - first implementation of barcode locations

License
-------

``pyzbar`` is distributed under the MIT license (see ``LICENCE.txt``).
The ``zbar`` shared library is distributed under the GNU Lesser General
Public License, version 2.1 (see ``zbar-LICENCE.txt``).