257 lines
12 KiB
Python
257 lines
12 KiB
Python
#!/usr/bin/env python3
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'''
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Copyright (C) 2017 Artem Synytsyn a.synytsyn@gmail.com
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#TODO: Code cleaning and refactoring
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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 2 of the License, or
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(at your option) any later version.
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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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You should have received a copy of the GNU General Public License
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along with this program; if not, write to the Free Software
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Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
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'''
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import inkex
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from lxml import etree
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from math import *
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class KnobScale(inkex.EffectExtension):
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def add_arguments(self, pars):
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# General settings
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pars.add_argument("--x", type=float, default=0.0, help="Center X")
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pars.add_argument("--y", type=float, default=0.0, help="Center Y")
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pars.add_argument("--radius", type=float, default=100.0, help="Knob radius")
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pars.add_argument("--linewidth", type=float, default=1)
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pars.add_argument("--angle", type=float, default=260.0, help="Angle of the knob scale in degrees")
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pars.add_argument("--angle_shifting", type=float, default=0.0, help="Angle shifting")
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pars.add_argument("--draw_arc", type=inkex.Boolean, default='True')
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pars.add_argument("--draw_centering_circle", type=inkex.Boolean, default='False')
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pars.add_argument("--logarithmic_scale", type=inkex.Boolean, default='False', help="")
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pars.add_argument("--invert", type=inkex.Boolean, default='False', help="")
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pars.add_argument("-u", "--units", default="px", help="units to measure size of knob")
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# Tick settings
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pars.add_argument("--n_ticks", type=int, default=5)
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pars.add_argument("--ticksize", type=float, default=10)
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pars.add_argument("--n_subticks", type=int, default=10)
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pars.add_argument("--subticksize", type=float, default=5)
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pars.add_argument("--style", default='marks_outwards', help="Style of marks")
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# Label settings
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pars.add_argument("--labels_enabled", type=inkex.Boolean, default='False')
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pars.add_argument("--rounding_level", type=int, default=0)
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pars.add_argument("--text_size", type=float, default=1)
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pars.add_argument("--text_offset", type=float, default=20)
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pars.add_argument("--start_value", type=float, default=0)
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pars.add_argument("--stop_value", type=float, default=10)
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# Dummy
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pars.add_argument("--tab")
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def draw_text(self, textvalue, radius, angular_position, text_size, parent):
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# Create text element
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text = etree.Element(inkex.addNS('text','svg'))
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text.text = textvalue
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# Set text position to center of document.
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text.set('x', str(self.x_offset + radius*cos(angular_position)))
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text.set('y', str(self.y_offset + radius*sin(angular_position) + text_size/2))
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# Center text horizontally with CSS style.
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style = {
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'text-align' : 'center',
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'text-anchor': 'middle',
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'alignment-baseline' : 'central',
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'font-size' : str(text_size),
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'vertical-align' : 'middle'
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}
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text.set('style', str(inkex.Style(style)))
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parent.append(text)
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def draw_knob_arc(self, radius, parent, angle, angle_shifting, transform='' ):
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start_point_angle = angle_shifting + (angle - pi)/2.0
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end_point_angle = pi - start_point_angle + angle_shifting*2
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style = { 'stroke' : '#000000',
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'stroke-width' : str(self.options.linewidth),
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'fill' : 'none' }
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ell_attribs = {'style': str(inkex.Style(style)),
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inkex.addNS('cx','sodipodi') :str(self.x_offset),
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inkex.addNS('cy','sodipodi') :str(self.y_offset),
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inkex.addNS('rx','sodipodi') :str(radius),
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inkex.addNS('ry','sodipodi') :str(radius),
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inkex.addNS('start','sodipodi') :str(end_point_angle),
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inkex.addNS('end','sodipodi') :str(start_point_angle),
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inkex.addNS('open','sodipodi') :'true', #all ellipse sectors we will draw are open
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inkex.addNS('type','sodipodi') :'arc',
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'transform' :transform
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}
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ell = etree.SubElement(parent, inkex.addNS('path','svg'), ell_attribs )
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def draw_centering_circle(self, radius, parent):
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style = { 'stroke' : '#000000',
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'stroke-width' : '1',
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'fill' : 'none' }
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ell_attribs = {'style':str(inkex.Style(style)),
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inkex.addNS('cx','sodipodi') :str(self.x_offset),
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inkex.addNS('cy','sodipodi') :str(self.y_offset),
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inkex.addNS('rx','sodipodi') :str(radius),
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inkex.addNS('ry','sodipodi') :str(radius),
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inkex.addNS('type','sodipodi') :'arc'
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}
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ell = etree.SubElement(parent, inkex.addNS('path','svg'), ell_attribs )
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def draw_circle_mark(self, x_offset, y_offset, radius, mark_angle, mark_length, parent):
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cx = x_offset + radius*cos(mark_angle)
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cy = y_offset + radius*sin(mark_angle)
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r = mark_length / 2.0
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style = {
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'stroke': '#000000',
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'stroke-width':'0',
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'fill': '#000000'
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}
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circ_attribs = {
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'style':str(inkex.Style(style)),
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'cx':str(cx),
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'cy':str(cy),
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'r':str(r)
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}
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circle = etree.SubElement(parent, inkex.addNS('circle','svg'), circ_attribs )
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def draw_knob_line_mark(self, x_offset, y_offset, radius, mark_angle, mark_length, parent):
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x1 = x_offset + radius*cos(mark_angle)
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y1 = y_offset + radius*sin(mark_angle)
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x2 = x_offset + (radius + mark_length)*cos(mark_angle)
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y2 = y_offset + (radius + mark_length)*sin(mark_angle)
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line_style = { 'stroke': '#000000',
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'stroke-width': str(self.options.linewidth),
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'fill': 'none'
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}
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line_attribs = {'style' : str(inkex.Style(line_style)),
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inkex.addNS('label','inkscape') : "none",
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'd' : 'M '+str(x1) +',' +
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str(y1) +' L '+str(x2)
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+','+str(y2) }
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line = etree.SubElement(parent, inkex.addNS('path','svg'), line_attribs )
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def draw_tick(self, radius, mark_angle, mark_size, parent):
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if (self.options.style == 'marks_inwards') or (self.options.style == 'marks_outwards'):
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self.draw_knob_line_mark(self.x_offset, self.y_offset, radius, mark_angle, mark_size, parent)
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elif self.options.style == 'marks_circles':
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self.draw_circle_mark(self.x_offset, self.y_offset, radius, mark_angle, mark_size, parent)
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def effect(self):
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parent = self.svg.get_current_layer()
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radius = self.svg.unittouu(str(self.options.radius) + self.options.units)
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self.x_offset = self.svg.unittouu(str(self.options.x) + self.options.units)
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self.y_offset = self.svg.unittouu(str(self.options.y) + self.options.units)
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angle = self.options.angle*pi/180.0
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angle_shifting = self.options.angle_shifting*pi/180.0
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n_ticks = self.options.n_ticks
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n_subticks = self.options.n_subticks
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is_outer = True
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if self.options.style == 'marks_inwards':
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is_outer = False
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tick_length = self.svg.unittouu(str(self.options.ticksize) + self.options.units)
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subtick_length = self.svg.unittouu(str(self.options.subticksize) + self.options.units)
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arc_radius = radius
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# Labeling settings
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if self.options.invert is True:
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end_num = self.options.start_value
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start_num = self.options.stop_value
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else:
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start_num = self.options.start_value
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end_num = self.options.stop_value
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text_spacing = self.svg.unittouu(str(self.options.text_offset) + self.options.units)
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text_size = self.svg.unittouu(str(self.options.text_size) + self.options.units)
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if not is_outer:
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subtick_radius = radius + tick_length - subtick_length
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arc_radius = radius + tick_length
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else:
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subtick_radius = radius
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arc_radius = radius
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if self.options.draw_arc:
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self.draw_knob_arc(arc_radius, parent, angle, angle_shifting)
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if self.options.draw_centering_circle:
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self.draw_centering_circle(arc_radius + tick_length + text_size + text_spacing, parent)
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if self.options.logarithmic_scale:
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start_ticks_angle = 1.5*pi - 0.5*angle + angle_shifting
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for tick in range(n_ticks):
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self.draw_tick(radius, start_ticks_angle + angle*log(tick+1)/log(n_ticks),
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tick_length, parent)
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if self.options.labels_enabled:
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if self.options.rounding_level > 0:
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tick_text = str(round(start_num +
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float(tick) * (end_num - start_num) / (n_ticks - 1),
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self.options.rounding_level))
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else:
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tick_text = str(int(start_num + float(tick) * (end_num - start_num) / (n_ticks - 1)))
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self.draw_text(tick_text, radius + tick_length + text_spacing,
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start_ticks_angle + angle*log(tick+1)/log(n_ticks),
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text_size,
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parent)
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if tick == (n_ticks - 1):
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break
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for subtick in range(n_subticks):
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self.draw_tick(subtick_radius, start_ticks_angle + angle*log(tick+1+(subtick+1)/(n_subticks+1))/log(n_ticks),
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subtick_length, parent)
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else:
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ticks_delta = angle / (n_ticks - 1)
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start_ticks_angle = 1.5*pi - 0.5*angle + angle_shifting
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for tick in range(n_ticks):
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self.draw_tick(radius, start_ticks_angle + ticks_delta*tick,
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tick_length, parent)
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if self.options.labels_enabled:
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if self.options.rounding_level > 0:
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tick_text = str(round(start_num +
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float(tick) * (end_num - start_num) / (n_ticks - 1),
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self.options.rounding_level))
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else:
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tick_text = str(int(start_num + float(tick) * (end_num - start_num) / (n_ticks - 1)))
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self.draw_text(tick_text, radius + tick_length + text_spacing,
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start_ticks_angle + ticks_delta*tick,
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text_size,
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parent)
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if tick == (n_ticks - 1):
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break
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subticks_delta = ticks_delta / (n_subticks + 1)
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subtick_start_angle = start_ticks_angle + ticks_delta*tick + subticks_delta
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for subtick in range(n_subticks):
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self.draw_tick(subtick_radius, subtick_start_angle + subticks_delta*subtick,
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subtick_length, parent)
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if __name__ == '__main__':
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e = KnobScale().run() |