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# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation; either version 2 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program; if not, write to the Free Software
# Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston,
# MA 02110-1301, USA.
# last change: 2017, Jan 4.
import pcbnew
import FootprintWizardBase
# Additional import for QRCode
# see https://github.com/kazuhikoarase/qrcode-generator/blob/master/python/qrcode.py
import qrcode
class QRCodeWizard(FootprintWizardBase.FootprintWizard):
GetName = lambda self: '2D Barcode QRCode'
GetDescription = lambda self: 'QR Code barcode generator'
GetReferencePrefix = lambda self: 'QR***'
GetValue = lambda self: self.module.Value().GetText()
def GenerateParameterList(self):
self.AddParam("Barcode", "Pixel Width", self.uMM, 0.5, min_value=0.4)
self.AddParam("Barcode", "Border", self.uInteger, 1)
self.AddParam("Barcode", "Contents", self.uString, 'Example')
self.AddParam("Barcode", "Negative", self.uBool, True)
self.AddParam("Barcode", "Use SilkS layer", self.uBool, True)
self.AddParam("Barcode", "Use Cu layer", self.uBool, False)
self.AddParam("Barcode", "TypeNumber", self.uInteger, 1)
self.AddParam("Caption", "Enabled", self.uBool, True)
self.AddParam("Caption", "Height", self.uMM, 1.2)
self.AddParam("Caption", "Width", self.uMM, 1.2)
self.AddParam("Caption", "Thickness", self.uMM, 0.12)
def CheckParameters(self):
self.Barcode = str(self.parameters['Barcode']['Contents'])
self.X = self.parameters['Barcode']['Pixel Width']
self.negative = self.parameters['Barcode']['Negative']
self.UseSilkS = self.parameters['Barcode']['Use SilkS layer']
self.UseCu = self.parameters['Barcode']['Use Cu layer']
self.border = int(self.parameters['Barcode']['Border'])
self.textHeight = int(self.parameters['Caption']['Height'])
self.textThickness = int(self.parameters['Caption']['Thickness'])
self.textWidth = int(self.parameters['Caption']['Width'])
self.module.Value().SetText(str(self.Barcode))
self.typeNumber = int( self.parameters['Barcode']['TypeNumber'] )
# Build Qrcode
self.qr = qrcode.QRCode()
self.qr.setTypeNumber(self.typeNumber)
# ErrorCorrectLevel: L = 7%, M = 15% Q = 25% H = 30%
self.qr.setErrorCorrectLevel(qrcode.ErrorCorrectLevel.M)
self.qr.addData(str(self.Barcode))
self.qr.make()
def drawSquareArea( self, layer, size, xposition, yposition):
# creates a EDGE_MODULE of polygon type. The polygon is a square
polygon = pcbnew.EDGE_MODULE(self.module)
polygon.SetShape(pcbnew.S_POLYGON)
polygon.SetWidth( 0 )
polygon.SetLayer(layer)
halfsize = size/2
polygon.GetPolyShape().NewOutline();
polygon.GetPolyShape().Append( halfsize+xposition, halfsize+yposition )
polygon.GetPolyShape().Append( halfsize+xposition, -halfsize+yposition )
polygon.GetPolyShape().Append( -halfsize+xposition, -halfsize+yposition )
polygon.GetPolyShape().Append( -halfsize+xposition, halfsize+yposition )
return polygon
def _drawPixel(self, xposition, yposition):
# build a rectangular pad as a dot on copper layer,
# and a polygon (a square) on silkscreen
if self.UseCu:
pad = pcbnew.D_PAD(self.module)
pad.SetSize(pcbnew.wxSize(self.X, self.X))
pad.SetPosition(pcbnew.wxPoint(xposition,yposition))
pad.SetShape(pcbnew.PAD_SHAPE_RECT)
pad.SetAttribute(pcbnew.PAD_ATTRIB_SMD)
pad.SetName("")
layerset = pcbnew.LSET()
layerset.AddLayer(pcbnew.F_Cu)
layerset.AddLayer(pcbnew.F_Mask)
pad.SetLayerSet( layerset )
self.module.Add(pad)
if self.UseSilkS:
polygon=self.drawSquareArea(pcbnew.F_SilkS, self.X, xposition, yposition)
self.module.Add(polygon)
def BuildThisFootprint(self):
if self.border >= 0:
# Adding border: Create a new array larger than the self.qr.modules
sz = self.qr.modules.__len__() + (self.border * 2)
arrayToDraw = [ [ 0 for a in range(sz) ] for b in range(sz) ]
lineposition = self.border
for i in self.qr.modules:
columnposition = self.border
for j in i:
arrayToDraw[lineposition][columnposition] = j
columnposition += 1
lineposition += 1
else:
# No border: using array as is
arrayToDraw = self.qr.modules
# used many times...
half_number_of_elements = arrayToDraw.__len__() / 2
# Center position of QrCode
yposition = - int(half_number_of_elements * self.X)
for line in arrayToDraw:
xposition = - int(half_number_of_elements * self.X)
for pixel in line:
# Trust table for drawing a pixel
# Negative is a boolean;
# each pixel is a boolean (need to draw of not)
# Negative | Pixel | Result
# 0 | 0 | 0
# 0 | 1 | 1
# 1 | 0 | 1
# 1 | 1 | 0
# => Draw as Xor
if self.negative != pixel: # Xor...
self._drawPixel(xposition, yposition)
xposition += self.X
yposition += self.X
#int((5 + half_number_of_elements) * self.X))
textPosition = int((self.textHeight) + ((1 + half_number_of_elements) * self.X))
self.module.Value().SetPosition(pcbnew.wxPoint(0, - textPosition))
self.module.Value().SetTextHeight(self.textHeight)
self.module.Value().SetTextWidth(self.textWidth)
self.module.Value().SetThickness(self.textThickness)
self.module.Reference().SetPosition(pcbnew.wxPoint(0, textPosition))
self.module.Reference().SetTextHeight(self.textHeight)
self.module.Reference().SetTextWidth(self.textWidth)
self.module.Reference().SetThickness(self.textThickness)
self.module.Value().SetLayer(pcbnew.F_SilkS)
self.module.Value().SetVisible(False)
self.module.Reference().SetVisible(False)
QRCodeWizard().register()
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