134 lines
4.0 KiB
Python
134 lines
4.0 KiB
Python
""" Image format handling class
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This module contains the image format handler :py:class:`EscposImage`.
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:author: `Michael Billington <michael.billington@gmail.com>`_
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:organization: `python-escpos <https://github.com/python-escpos>`_
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:copyright: Copyright (c) 2016 Michael Billington <michael.billington@gmail.com>
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:license: MIT
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"""
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from __future__ import absolute_import
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from __future__ import division
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from __future__ import print_function
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from __future__ import unicode_literals
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import math
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from PIL import Image, ImageOps
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class EscposImage(object):
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"""
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Load images in, and output ESC/POS formats.
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The class is designed to efficiently delegate image processing to
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PIL, rather than spend CPU cycles looping over pixels.
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"""
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def __init__(self, img_source):
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"""
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Load in an image
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:param img_source: PIL.Image, or filename to load one from.
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"""
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if isinstance(img_source, Image.Image):
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img_original = img_source
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else:
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img_original = Image.open(img_source)
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# store image for eventual further processing (splitting)
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self.img_original = img_original
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# Convert to white RGB background, paste over white background
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# to strip alpha.
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img_original = img_original.convert('RGBA')
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im = Image.new("RGB", img_original.size, (255, 255, 255))
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im.paste(img_original, mask=img_original.split()[3])
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# Convert down to greyscale
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im = im.convert("L")
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# Invert: Only works on 'L' images
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im = ImageOps.invert(im)
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# Pure black and white
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self._im = im.convert("1")
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@property
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def width(self):
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"""
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Width of image in pixels
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"""
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width_pixels, _ = self._im.size
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return width_pixels
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@property
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def width_bytes(self):
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"""
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Width of image if you use 8 pixels per byte and 0-pad at the end.
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"""
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return (self.width + 7) >> 3
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@property
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def height(self):
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"""
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Height of image in pixels
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"""
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_, height_pixels = self._im.size
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return height_pixels
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def to_column_format(self, high_density_vertical=True):
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"""
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Extract slices of an image as equal-sized blobs of column-format data.
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:param high_density_vertical: Printed line height in dots
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"""
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im = self._im.transpose(Image.ROTATE_270).transpose(Image.FLIP_LEFT_RIGHT)
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line_height = 24 if high_density_vertical else 8
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width_pixels, height_pixels = im.size
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top = 0
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left = 0
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while left < width_pixels:
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box = (left, top, left + line_height, top + height_pixels)
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im_slice = im.transform((line_height, height_pixels), Image.EXTENT, box)
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im_bytes = im_slice.tobytes()
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yield(im_bytes)
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left += line_height
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def to_raster_format(self):
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"""
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Convert image to raster-format binary
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"""
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return self._im.tobytes()
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def split(self, fragment_height):
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"""
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Split an image into multiple fragments after fragment_height pixels
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:param fragment_height: height of fragment
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:return: list of PIL objects
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"""
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passes = int(math.ceil(self.height/fragment_height))
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fragments = []
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for n in range(0, passes):
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left = 0
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right = self.width
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upper = n * fragment_height
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lower = min((n + 1) * fragment_height, self.height)
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box = (left, upper, right, lower)
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fragments.append(self.img_original.crop(box))
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return fragments
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def center(self, max_width):
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"""In-place image centering
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:param: Maximum width in order to deduce x offset for centering
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:return: None
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"""
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old_width, height = self._im.size
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new_size = (max_width, height)
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new_im = Image.new("1", new_size)
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paste_x = int((max_width - old_width) / 2)
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new_im.paste(self._im, (paste_x, 0))
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self._im = new_im
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