185 lines
6.9 KiB
Python
185 lines
6.9 KiB
Python
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#!/usr/bin/env python3
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# Copyright 2015 Jo Pol
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# This program is free software: you can redistribute it and/or modify
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# it under the terms of the GNU General Public License as published by
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# the Free Software Foundation, either version 3 of the License, or
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# (at your option) any later version.
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#
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# This program is distributed in the hope that it will be useful,
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# but WITHOUT ANY WARRANTY; without even the implied warranty of
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# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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# GNU General Public License for more details.
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#
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# You should have received a copy of the GNU General Public License
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# along with this program. If not, see http://www.gnu.org/licenses/.
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from __future__ import division
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from math import pi, sin, cos, tan, radians
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from lxml import etree
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# We will use the inkex module with the predefined
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# Effect base class.
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import inkex
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__author__ = 'Jo Pol'
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__credits__ = ['Veronika Irvine','Jo Pol','Mark Shafer']
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__license__ = 'GPLv3'
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class PolarGrid(inkex.Effect):
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def __init__(self):
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inkex.Effect.__init__(self)
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self.arg_parser.add_argument('-a', '--angle', type=float, default=45, help='grid angle (degrees)')
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self.arg_parser.add_argument('-d', '--dots', type=int, default=180, help='number of dots on a circle')
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self.arg_parser.add_argument('-o', '--outerDiameter', type=float, default=160, help='outer diameter (mm)')
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self.arg_parser.add_argument('-i', '--innerDiameter', type=float, default=100, help='minimum inner diameter (mm)')
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self.arg_parser.add_argument('-f', '--fill', type=inkex.Color, default='-6711040', help='dot color')
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self.arg_parser.add_argument('-A', '--alignment', default='outside', help='exact diameter on [inside|outside]')
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self.arg_parser.add_argument('-s', '--size', type=float, default=0.5, help='dot diameter (mm)')
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self.arg_parser.add_argument('-v', '--variant', default='', help='omit rows to get [|rectangle|hexagon1]')
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self.arg_parser.add_argument('-cu', '--circleDiameterUnits', default = 'mm', help = 'Circle diameter is measured in these units')
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self.arg_parser.add_argument('-du', '--dotUnits', default = 'px', help = 'Dot diameter is measured in these unites')
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def group(self, diameter):
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"""
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Create a group labeled with the diameter
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"""
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label = 'diameter: {0:.2f} mm'.format(diameter)
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attribs = {inkex.addNS('label', 'inkscape'):label}
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return etree.SubElement(self.gridContainer, inkex.addNS('g', 'svg'), attribs)
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def dots(self, diameter, circleNr, group):
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"""
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Draw dots on a grid circle
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"""
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offset = (circleNr % 2) * 0.5
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for dotNr in range (0, self.options.dots):
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a = (dotNr + offset) * self.alpha
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x = (diameter / 2.0) * cos(a)
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y = (diameter / 2.0) * sin(a)
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attribs = {'style':self.dotStyle, 'cx':str(x * self.circleScale), 'cy':str(y * self.circleScale), 'r':self.dotR}
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etree.SubElement(group, inkex.addNS('circle', 'svg'), attribs)
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def iterate(self, diameter, circleNr):
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"""
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Create a group with a ring of dots.
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Returns half of the arc length between the dots
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which becomes the distance to the next ring.
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"""
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group = self.group(diameter)
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self.dots(diameter, circleNr, group)
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self.generatedCircles.append(group)
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return diameter * self.change
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def generate(self):
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"""
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Generate rings with dots, either inside out or outside in
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"""
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circleNr = 0
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flag_error = False
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minimum = 2 * self.options.size * self.options.dots /pi
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if minimum < self.options.innerDiameter:
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minimum = self.options.innerDiameter
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else:
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flag_error = True
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if self.options.alignment == 'outside':
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diameter = self.options.outerDiameter
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while diameter > minimum:
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diameter -= self.iterate(diameter, circleNr)
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circleNr += 1
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else:
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diameter = minimum
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while diameter < self.options.outerDiameter:
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diameter += self.iterate(diameter, circleNr)
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circleNr += 1
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# Display message
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if flag_error:
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# Leave message on top
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font_height = 8
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text_style = { 'font-size': str(font_height),
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'font-family': 'sans-serif',
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'text-anchor': 'middle',
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'text-align': 'center',
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'fill': '#000000' }
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text_atts = {'style':str(inkex.Style(text_style)),
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'x': '0', 'y': '0'}
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text = etree.SubElement(self.gridContainer, 'text', text_atts)
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text.text = "Dots overlap. inner changed to %4.1f" % (minimum)
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def removeGroups(self, start, increment):
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"""
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Remove complete rings with dots
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"""
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for i in range(start, len(self.generatedCircles), increment):
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self.svg.get_current_layer().remove(self.generatedCircles[i])
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def removeDots(self, i, offset, step):
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"""
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Remove dots from one circle
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"""
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group = self.generatedCircles[i]
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dots = list(group)
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start = len(dots) - 1 - offset
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for j in range(start, -1, 0-step):
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group.remove(dots[j])
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def computations(self, angle):
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self.alpha = radians(360.0 / self.options.dots)
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correction = pi / (4 * self.options.dots)
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correction *= tan(angle*0.93)
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self.change = tan(angle - correction) * pi / self.options.dots
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def effect(self):
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"""
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Effect behaviour.
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Overrides base class' method and draws something.
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"""
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# constants
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self.dotStyle = str(inkex.Style({'fill': self.options.fill.to_rgb(),'stroke':'none'}))
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self.dotScale = self.svg.unittouu("1" + self.options.dotUnits)
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self.dotR = str(self.options.size * (self.dotScale/2))
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self.circleScale = self.svg.unittouu("1" + self.options.circleDiameterUnits)
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self.computations(radians(self.options.angle))
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# processing variables
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self.generatedCircles = []
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self.gridContainer = self.svg.get_current_layer()
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self.generate()
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if self.options.variant == 'rectangle':
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self.removeGroups(1, 2)
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elif self.options.variant == 'hexagon1':
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self.removeGroups(0, 3)
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elif self.options.variant == 'hexagon2' or self.options.variant == 'snow2':
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for i in range(0, len(self.generatedCircles), 1):
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self.removeDots(i, (((i%2)+1)*2)%3, 3)
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elif self.options.variant == 'hexagon3':
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for i in range(0, len(self.generatedCircles), 2):
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self.removeDots(i, (i//2+1)%2, 2)
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elif self.options.variant == 'hexagon4':
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self.removeGroups(0, 4)
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elif self.options.variant == 'hexagon5' or self.options.variant == 'snow1':
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for i in range(0, len(self.generatedCircles), 2):
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self.removeDots(i, 1, 2)
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self.dotStyle = str(inkex.Style({'fill': 'none','stroke':self.options.fill.to_rgb(),'stroke-width':0.7}))
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self.dotR = str((((self.options.innerDiameter * pi) / self.options.dots) / 2) * self.dotScale)
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self.generatedCircles = []
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if self.options.variant == 'snow2':
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self.options.dots = self.options.dots // 3
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self.computations(radians(self.options.angle))
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self.generate()
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elif self.options.variant == 'snow1':
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self.generate()
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self.removeGroups(1, 2)
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for i in range(0, len(self.generatedCircles), 2):
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self.removeDots(i, i%4, 2)
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for i in range(0, len(self.generatedCircles), 2):
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self.removeDots(i, (i+1)%2, 2)
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for i in range(2, len(self.generatedCircles), 4):
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self.removeDots(i, 0, self.options.dots)
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# Create effect instance and apply it.
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if __name__ == '__main__':
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PolarGrid().run()
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