198 lines
6.1 KiB
Python
198 lines
6.1 KiB
Python
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#
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# ReportLab QRCode widget
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#
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# Ported from the Javascript library QRCode for Javascript by Sam Curren
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#
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# URL: http://www.d-project.com/
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# http://d-project.googlecode.com/svn/trunk/misc/qrcode/js/qrcode.js
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# qrcode.js is copyright (c) 2009 Kazuhiko Arase
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#
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# Original ReportLab module by German M. Bravo
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#
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# modified and improved by Anders Hammarquist <iko@openend.se>
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# and used with permission under the ReportLab License
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#
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# The word "QR Code" is registered trademark of
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# DENSO WAVE INCORPORATED
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# http://www.denso-wave.com/qrcode/faqpatent-e.html
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__all__ = ('QrCodeWidget')
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import itertools
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from reportlab.platypus.flowables import Flowable
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from reportlab.graphics.shapes import Group, Rect
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from reportlab.lib import colors
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from reportlab.lib.validators import isNumber, isNumberOrNone, isColor, Validator
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from reportlab.lib.attrmap import AttrMap, AttrMapValue
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from reportlab.graphics.widgetbase import Widget
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from reportlab.lib.units import mm
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from reportlab.lib.utils import asUnicodeEx, isUnicode
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from reportlab.graphics.barcode import qrencoder
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class isLevel(Validator):
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def test(self, x):
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return x in ['L', 'M', 'Q', 'H']
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isLevel = isLevel()
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class isUnicodeOrQRList(Validator):
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def _test(self, x):
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if isUnicode(x):
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return True
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if all(isinstance(v, qrencoder.QR) for v in x):
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return True
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return False
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def test(self, x):
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return self._test(x) or self.normalizeTest(x)
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def normalize(self, x):
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if self._test(x):
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return x
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try:
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return asUnicodeEx(x)
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except UnicodeError:
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raise ValueError("Can't convert to unicode: %r" % x)
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isUnicodeOrQRList = isUnicodeOrQRList()
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class SRect(Rect):
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def __init__(self, x, y, width, height, fillColor=colors.black):
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Rect.__init__(self, x, y, width, height, fillColor=fillColor,
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strokeColor=None, strokeWidth=0)
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class QrCodeWidget(Widget):
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codeName = "QR"
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_attrMap = AttrMap(
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BASE = Widget,
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value = AttrMapValue(isUnicodeOrQRList, desc='QRCode data'),
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x = AttrMapValue(isNumber, desc='x-coord'),
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y = AttrMapValue(isNumber, desc='y-coord'),
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barFillColor = AttrMapValue(isColor, desc='bar color'),
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barWidth = AttrMapValue(isNumber, desc='Width of bars.'), # maybe should be named just width?
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barHeight = AttrMapValue(isNumber, desc='Height of bars.'), # maybe should be named just height?
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barBorder = AttrMapValue(isNumber, desc='Width of QR border.'), # maybe should be named qrBorder?
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barLevel = AttrMapValue(isLevel, desc='QR Code level.'), # maybe should be named qrLevel
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qrVersion = AttrMapValue(isNumberOrNone, desc='QR Code version. None for auto'),
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# Below are ignored, they make no sense
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barStrokeWidth = AttrMapValue(isNumber, desc='Width of bar borders.'),
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barStrokeColor = AttrMapValue(isColor, desc='Color of bar borders.'),
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)
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x = 0
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y = 0
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barFillColor = colors.black
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barStrokeColor = None
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barStrokeWidth = 0
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barHeight = 32*mm
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barWidth = 32*mm
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barBorder = 4
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barLevel = 'L'
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qrVersion = None
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value = None
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def __init__(self, value='Hello World', **kw):
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self.value = isUnicodeOrQRList.normalize(value)
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for k, v in kw.items():
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setattr(self, k, v)
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ec_level = getattr(qrencoder.QRErrorCorrectLevel, self.barLevel)
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self.__dict__['qr'] = qrencoder.QRCode(self.qrVersion, ec_level)
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if isUnicode(self.value):
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self.addData(self.value)
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elif self.value:
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for v in self.value:
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self.addData(v)
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def addData(self, value):
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self.qr.addData(value)
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def draw(self):
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self.qr.make()
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g = Group()
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color = self.barFillColor
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border = self.barBorder
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width = self.barWidth
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height = self.barHeight
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x = self.x
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y = self.y
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g.add(SRect(x, y, width, height, fillColor=None))
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moduleCount = self.qr.getModuleCount()
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minwh = float(min(width, height))
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boxsize = minwh / (moduleCount + border * 2.0)
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offsetX = x + (width - minwh) / 2.0
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offsetY = y + (minwh - height) / 2.0
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for r, row in enumerate(self.qr.modules):
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row = map(bool, row)
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c = 0
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for t, tt in itertools.groupby(row):
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isDark = t
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count = len(list(tt))
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if isDark:
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x = (c + border) * boxsize
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y = (r + border + 1) * boxsize
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s = SRect(offsetX + x, offsetY + height - y, count * boxsize, boxsize,
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fillColor=color)
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g.add(s)
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c += count
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return g
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# Flowable version
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class QrCode(Flowable):
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height = 32*mm
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width = 32*mm
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qrBorder = 4
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qrLevel = 'L'
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qrVersion = None
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value = None
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def __init__(self, value=None, **kw):
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self.value = isUnicodeOrQRList.normalize(value)
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for k, v in kw.items():
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setattr(self, k, v)
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ec_level = getattr(qrencoder.QRErrorCorrectLevel, self.qrLevel)
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self.qr = qrencoder.QRCode(self.qrVersion, ec_level)
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if isUnicode(self.value):
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self.addData(self.value)
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elif self.value:
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for v in self.value:
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self.addData(v)
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def addData(self, value):
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self.qr.addData(value)
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def draw(self):
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self.qr.make()
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moduleCount = self.qr.getModuleCount()
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border = self.qrBorder
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xsize = self.width / (moduleCount + border * 2.0)
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ysize = self.height / (moduleCount + border * 2.0)
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for r, row in enumerate(self.qr.modules):
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row = map(bool, row)
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c = 0
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for t, tt in itertools.groupby(row):
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isDark = t
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count = len(list(tt))
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if isDark:
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x = (c + border) * xsize
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y = self.height - (r + border + 1) * ysize
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self.rect(x, y, count * xsize, ysize * 1.05)
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c += count
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def rect(self, x, y, w, h):
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self.canv.rect(x, y, w, h, stroke=0, fill=1)
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