2020-08-12 20:02:01 +02:00
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#!/usr/bin/env python 3
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'''
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Copyright (C) 2013 Carl Sorensen carl.d.sorensen@gmail.com
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Derived from grid_cartesion.py copyright (C) 2007 John Beard john.j.beard@gmail.com
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##This extension allows you to draw a Triangular grid in Inkscape.
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##There is a wide range of options including subdivision, subsubdivions
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##and angles of the triangular axes.
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##Custom line widths are also possible.
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##All elements are grouped with similar elements (eg all x-subdivs)
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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., 59 Temple Place, Suite 330, Boston, MA 02111-1307 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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def draw_SVG_line(x1, y1, x2, y2, width, stroke, name, parent):
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style = { 'stroke': stroke, 'stroke-width':str(width), 'fill': 'none' }
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line_attribs = {'style':str(inkex.Style(style)),
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inkex.addNS('label','inkscape'):name,
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'd':'M '+str(x1)+','+ str(y1) +' L '+ str(x2) + ',' + str(y2)}
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etree.SubElement(parent, inkex.addNS('path','svg'), line_attribs )
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def draw_SVG_rect(x,y,w,h, width, stroke, fill, name, parent):
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style = { 'stroke': stroke, 'stroke-width':str(width), 'fill':fill}
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rect_attribs = {'style':str(inkex.Style(style)),
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inkex.addNS('label','inkscape'):name,
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'x':str(x), 'y':str(y), 'width':str(w), 'height':str(h)}
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etree.SubElement(parent, inkex.addNS('rect','svg'), rect_attribs )
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def colorString(pickerColor):
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longcolor = int(pickerColor) & 0xFFFFFF00
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return '#' + format(longcolor >> 8, '06X')
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2021-04-16 14:41:12 +02:00
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class Grid_Triangular(inkex.EffectExtension):
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def add_arguments(self, pars):
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pars.add_argument("--tabs")
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pars.add_argument("--size_unit", default="mm", help="Unit for grid size")
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pars.add_argument("--y_divs", type=int, default=3, help="Major vertical divisions")
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pars.add_argument("--x_divs", type=int, default=3, help="Major horizontal divisions")
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pars.add_argument("--grid_angle", type=float, default=30.0, help="Angle between X axis and triangular grid lines")
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pars.add_argument("--dm", type=float, default=100.0, help="Major grid division spacing")
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pars.add_argument("--subdivs", type=int, default=5, help="Subdivisions per major grid division")
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pars.add_argument("--subsubdivs", type=int, default=2, help="Subsubdivisions per minor grid subdivision")
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pars.add_argument("--border_th", type=float, default=3.0, help="Border Line thickness")
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pars.add_argument("--border_color", type=int, help="Border line color")
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pars.add_argument("--major_th", type=float, default=2.0, help="Major grid division line thickness")
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pars.add_argument("--major_color", type=int, help="Major grid division line color")
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pars.add_argument("--subdiv_th", type=float, default=1.0, help="Minor grid subdivision line thickness")
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pars.add_argument("--subdiv_color", type=int, help="Minor grid subdivision line color")
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pars.add_argument("--subsubdiv_th", type=float, default=1.0, help="Subminor grid division line thickness")
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pars.add_argument("--subsubdiv_color", type=int, help="Subminor grid division line color")
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2020-08-12 20:02:01 +02:00
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def EdgePoints(self,x0, y0, theta):
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# find the intersection points of the line with the extended
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# grid bounding box.
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# Note that y is positive DOWN, not up
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theta_r = radians(theta)
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r_bot = (self.ymax-y0)/sin(theta_r)
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r_top = -y0/sin(theta_r)
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r_left = -x0/cos(theta_r)
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r_right = (self.xmax-x0)/cos(theta_r)
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return [[x0+r_left*cos(theta_r),y0+r_left*sin(theta_r)],
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[x0+r_right*cos(theta_r), y0+r_right*sin(theta_r)],
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[x0+r_bot*cos(theta_r), y0+r_bot*sin(theta_r)],
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[x0+r_top*cos(theta_r), y0+r_top*sin(theta_r)]]
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def trimmed_coords(self, x1, y1, theta):
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#find the start and end coordinates for a grid line
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#starting at (x1, y1) with an angle of theta
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border_points = self.EdgePoints(x1, y1, theta)
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left = 0
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right = 1
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top = 3
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bottom = 2
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x=0
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y=1
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if theta > 0:
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if border_points[left][y] < 0:
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start_x = border_points[top][x]
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start_y = border_points[top][y]
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else:
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start_x = border_points[left][x]
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start_y = border_points[left][y]
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if border_points[right][y] > self.ymax:
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end_x = border_points[bottom][x]
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end_y = border_points[bottom][y]
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else:
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end_x = border_points[right][x]
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end_y = border_points[right][y]
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else:
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if border_points[left][y] > self.ymax:
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start_x = border_points[bottom][x]
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start_y = border_points[bottom][y]
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else:
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start_x = border_points[left][x]
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start_y = border_points[left][y]
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if border_points[right][y] < 0:
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end_x = border_points[top][x]
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end_y = border_points[top][y]
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else:
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end_x = border_points[right][x]
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end_y = border_points[right][y]
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return [[start_x,start_y],[end_x, end_y]]
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def drawAngledGridLine (self, x1, y1, theta, thickness, color,
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label, groupName):
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end_points = self.trimmed_coords(x1, y1, theta)
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x_start = end_points[0][0]
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y_start = end_points[0][1]
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x_end = end_points[1][0]
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y_end = end_points[1][1]
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2020-08-30 11:39:36 +02:00
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if (x_end >= 0 and x_end <= self.xmax and
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y_end >= 0 and y_end <= self.ymax and
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(y_start != y_end and x_start != x_end)):
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2020-08-12 20:02:01 +02:00
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draw_SVG_line(x_start, y_start,
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x_end, y_end,
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thickness, colorString(color), label, groupName)
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2020-08-30 11:39:36 +02:00
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2020-08-12 20:02:01 +02:00
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def effect(self):
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#find the pixel dimensions of the overall grid
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dm = self.svg.unittouu(str(self.options.dm) + self.options.size_unit)
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self.ymax = dm * self.options.y_divs #grid spacing defined along vertical
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dx = dm / (2.0 * tan(radians(self.options.grid_angle)))
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self.xmax = dx * self.options.x_divs
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dy = dm
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# Embed grid in group
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#Put in in the centre of the current view
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t = 'translate(' + str( self.svg.namedview.center[0]- self.xmax/2.0) + ',' + \
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str( self.svg.namedview.center[1]- self.ymax/2.0) + ')'
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g_attribs = {inkex.addNS('label','inkscape'):'Grid_Triangular:Size' + \
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str( self.options.x_divs)+'x'+str(self.options.y_divs) +
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':Angle'+str( self.options.grid_angle ),
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'transform':t }
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grid = etree.SubElement(self.svg.get_current_layer(), 'g', g_attribs)
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#Group for major x gridlines
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g_attribs = {inkex.addNS('label','inkscape'):'MajorXGridlines'}
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majglx = etree.SubElement(grid, 'g', g_attribs)
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#Group for major positive theta gridlines
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g_attribs = {inkex.addNS('label','inkscape'):'MajorPosGridlines'}
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majglp = etree.SubElement(grid, 'g', g_attribs)
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#Group for major negative theta gridlines
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g_attribs = {inkex.addNS('label','inkscape'):'MajorNegGridLines'}
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majgln = etree.SubElement(grid, 'g', g_attribs)
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#Groups for minor gridlines
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if self.options.subdivs > 1:#if there are any minor gridlines
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g_attribs = {inkex.addNS('label','inkscape'):'MinorXGridlines'}
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minglx = etree.SubElement(grid, 'g', g_attribs)
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g_attribs = {inkex.addNS('label','inkscape'):'MinorPosGridlines'}
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minglp = etree.SubElement(grid, 'g', g_attribs)
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g_attribs = {inkex.addNS('label','inkscape'):'MinorNegGridlines'}
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mingln = etree.SubElement(grid, 'g', g_attribs)
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#Groups for subminor gridlines
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if self.options.subsubdivs > 1:#if there are any minor minor gridlines
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g_attribs = {inkex.addNS('label','inkscape'):'SubMinorXGridlines'}
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mminglx = etree.SubElement(grid, 'g', g_attribs)
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g_attribs = {inkex.addNS('label','inkscape'):'SubMinorPosGridlines'}
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mminglp = etree.SubElement(grid, 'g', g_attribs)
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g_attribs = {inkex.addNS('label','inkscape'):'SubMinorNegGridlines'}
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mmingln = etree.SubElement(grid, 'g', g_attribs)
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draw_SVG_rect(0, 0, self.xmax, self.ymax,
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self.options.border_th,
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colorString(self.options.border_color), 'none',
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'Border', grid) #border rectangle
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sd = self.options.subdivs #sub divs per div
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ssd = self.options.subsubdivs #subsubdivs per subdiv
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#DO THE HORIZONTAL DIVISONS======================================
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for i in range(0, self.options.x_divs): #Major x divisons
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if i>0: #dont draw first line (we made a proper border)
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# Draw the vertical line
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draw_SVG_line(dx*i, 0,
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dx*i,self.ymax,
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self.options.major_th,
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colorString(self.options.major_color),
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'MajorDiv'+str(i), majglx)
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for j in range (0, sd):
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if j>0: #not for the first loop (this loop is for the subsubdivs before the first subdiv)
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draw_SVG_line(dx*(i+j/float(sd)), 0,
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dx*(i+j/float(sd)), self.ymax,
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self.options.subdiv_th,
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colorString(self.options.subdiv_color),
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'MinorDiv'+str(i)+':'+str(j), minglx)
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for k in range (1, ssd): #subsub divs
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draw_SVG_line(dx*(i+(j*ssd+k)/((float(sd)*ssd))) , 0,
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dx*(i+(j*ssd+k)/((float(sd)*ssd))) , self.ymax,
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self.options.subsubdiv_th,
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colorString(self.options.subsubdiv_color),
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'SubminorDiv'+str(i)+':'+str(j)+':'+str(k), mminglx)
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#DO THE VERTICAL DIVISONS========================================
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for i in range(-self.options.x_divs-self.options.y_divs,
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self.options.x_divs+self.options.y_divs): #Major y divisons
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self.drawAngledGridLine(0, dy*i, self.options.grid_angle,
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self.options.major_th,
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self.options.major_color,
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'MajorYDivP'+str(i),
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majglp)
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self.drawAngledGridLine(0, dy*i, -self.options.grid_angle,
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self.options.major_th,
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self.options.major_color,
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'MajorYDivN'+str(i),
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majgln)
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for j in range (0, sd): #subdivs
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if j>0:#not for the first loop (this loop is for the subsubdivs before the first subdiv)
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self.drawAngledGridLine(0, dy*(i+j/float(sd)),
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self.options.grid_angle,
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self.options.subdiv_th,
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self.options.subdiv_color,
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'MinorYDivP'+str(i),
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minglp)
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self.drawAngledGridLine(0, dy*(i+j/float(sd)),
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-self.options.grid_angle,
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self.options.subdiv_th,
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self.options.subdiv_color,
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'MinorYDivN'+str(i),
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mingln)
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for k in range (1, ssd): #subsub divs
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self.drawAngledGridLine(0, dy*(i+(j*ssd+k)/((float(sd)*ssd))),
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self.options.grid_angle,
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self.options.subsubdiv_th,
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self.options.subsubdiv_color,
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'SubMinorYDivP'+str(i),
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mminglp)
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self.drawAngledGridLine(0, dy*(i+(j*ssd+k)/((float(sd)*ssd))),
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-self.options.grid_angle,
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self.options.subsubdiv_th,
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self.options.subsubdiv_color,
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'SubMinorYDivN'+str(i),
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mmingln)
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if __name__ == '__main__':
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Grid_Triangular().run()
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