Merge branch 'master' of github.com:python-escpos/python-escpos

This commit is contained in:
Patrick Kanzler 2016-08-10 01:31:56 +02:00
commit a38c124bb1
7 changed files with 105 additions and 1 deletions

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@ -34,3 +34,7 @@ before_install:
script: script:
- tox - tox
- codecov - codecov
notifications:
email:
on_success: never
on_failure: change

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@ -204,6 +204,37 @@ Here you can download an example, that will print a set of common barcodes:
* :download:`barcode.bin </download/barcode.bin>` by `@mike42 <https://github.com/mike42>`_ * :download:`barcode.bin </download/barcode.bin>` by `@mike42 <https://github.com/mike42>`_
Hint: preprocess printing
-------------------------
Printing images directly to the printer is rather slow.
One factor that slows down the process is the transmission over e.g. serial port.
Apart from configuring your printer to use the maximum baudrate (in the case of serial-printers), there is not much
that you can do.
However you could use the :py:class:`escpos.printer.Dummy`-printer to preprocess your image.
This is probably best explained by an example:
.. code-block:: Python
from escpos.printer import Serial, Dummy
p = Serial()
d = Dummy()
# create ESC/POS for the print job, this should go really fast
d.text("This is my image:\n")
d.image("funny_cat.png")
d.cut()
# send code to printer
p._raw(d.output)
This way you could also store the code in a file and print later.
You could then for example print the code from another process than your main-program and thus reduce the waiting time.
(Of course this will not make the printer print faster.)
How to update your code for USB printers How to update your code for USB printers
---------------------------------------- ----------------------------------------

7
readthedocs.yml Normal file
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@ -0,0 +1,7 @@
formats:
- pdf
- epub
requirements_file: doc/requirements.txt
python:
version: 2
setup_py_install: true

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@ -56,7 +56,8 @@ class Escpos(object):
""" """
pass pass
def image(self, img_source, high_density_vertical=True, high_density_horizontal=True, impl="bitImageRaster"): def image(self, img_source, high_density_vertical=True, high_density_horizontal=True, impl="bitImageRaster",
fragment_height=1024):
""" Print an image """ Print an image
You can select whether the printer should print in high density or not. The default value is high density. You can select whether the printer should print in high density or not. The default value is high density.
@ -76,9 +77,20 @@ class Escpos(object):
:param high_density_vertical: print in high density in vertical direction *default:* True :param high_density_vertical: print in high density in vertical direction *default:* True
:param high_density_horizontal: print in high density in horizontal direction *default:* True :param high_density_horizontal: print in high density in horizontal direction *default:* True
:param impl: choose image printing mode between `bitImageRaster`, `graphics` or `bitImageColumn` :param impl: choose image printing mode between `bitImageRaster`, `graphics` or `bitImageColumn`
:param fragment_height: Images larger than this will be split into multiple fragments *default:* 1024
""" """
im = EscposImage(img_source) im = EscposImage(img_source)
if im.height > fragment_height:
fragments = im.split(fragment_height)
for fragment in fragments:
self.image(fragment,
high_density_vertical=high_density_vertical,
high_density_horizontal=high_density_horizontal,
impl=impl,
fragment_height=fragment_height)
return
if impl == "bitImageRaster": if impl == "bitImageRaster":
# GS v 0, raster format bit image # GS v 0, raster format bit image

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@ -8,6 +8,12 @@ This module contains the image format handler :py:class:`EscposImage`.
:license: GNU GPL v3 :license: GNU GPL v3
""" """
from __future__ import absolute_import
from __future__ import division
from __future__ import print_function
from __future__ import unicode_literals
import math
from PIL import Image, ImageOps from PIL import Image, ImageOps
@ -30,6 +36,9 @@ class EscposImage(object):
else: else:
img_original = Image.open(img_source) img_original = Image.open(img_source)
# store image for eventual further processing (splitting)
self.img_original = img_original
# Convert to white RGB background, paste over white background # Convert to white RGB background, paste over white background
# to strip alpha. # to strip alpha.
img_original = img_original.convert('RGBA') img_original = img_original.convert('RGBA')
@ -88,3 +97,21 @@ class EscposImage(object):
Convert image to raster-format binary Convert image to raster-format binary
""" """
return self._im.tobytes() return self._im.tobytes()
def split(self, fragment_height):
"""
Split an image into multiple fragments after fragment_height pixels
:param fragment_height: height of fragment
:return: list of PIL objects
"""
passes = int(math.ceil(self.height/fragment_height))
fragments = []
for n in range(0, passes):
left = 0
right = self.width
upper = n * fragment_height
lower = min((n + 1) * fragment_height, self.height)
box = (left, upper, right, lower)
fragments.append(self.img_original.crop(box))
return fragments

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@ -130,3 +130,12 @@ def test_graphics_transparent():
instance = printer.Dummy() instance = printer.Dummy()
instance.image('test/resources/black_transparent.png', impl="graphics") instance.image('test/resources/black_transparent.png', impl="graphics")
assert(instance.output == b'\x1d(L\x0c\x000p0\x01\x011\x02\x00\x02\x00\xc0\x00\x1d(L\x02\x0002') assert(instance.output == b'\x1d(L\x0c\x000p0\x01\x011\x02\x00\x02\x00\xc0\x00\x1d(L\x02\x0002')
def test_large_graphics():
"""
Test whether 'large' graphics that induce a fragmentation are handled correctly.
"""
instance = printer.Dummy()
instance.image('test/resources/black_white.png', impl="bitImageRaster", fragment_height=1)
assert(instance.output == b'\x1dv0\x00\x01\x00\x01\x00\xc0\x1dv0\x00\x01\x00\x01\x00\x00')

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@ -43,6 +43,20 @@ def test_image_white():
_load_and_check_img('canvas_white.' + img_format, 1, 1, b'\x00', [b'\x00']) _load_and_check_img('canvas_white.' + img_format, 1, 1, b'\x00', [b'\x00'])
def test_split():
"""
test whether the split-function works as expected
"""
im = EscposImage('test/resources/black_white.png')
(upper_part, lower_part) = im.split(1)
upper_part = EscposImage(upper_part)
lower_part = EscposImage(lower_part)
assert(upper_part.width == lower_part.width == 2)
assert(upper_part.height == lower_part.height == 1)
assert(upper_part.to_raster_format() == b'\xc0')
assert(lower_part.to_raster_format() == b'\x00')
def _load_and_check_img(filename, width_expected, height_expected, raster_format_expected, column_format_expected): def _load_and_check_img(filename, width_expected, height_expected, raster_format_expected, column_format_expected):
""" """
Load an image, and test whether raster & column formatted output, sizes, etc match expectations. Load an image, and test whether raster & column formatted output, sizes, etc match expectations.