278 lines
11 KiB
Python
278 lines
11 KiB
Python
#!/usr/bin/env python3
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from inkscape_helper.Coordinate import Coordinate
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import inkscape_helper.Effect as eff
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import inkscape_helper.SVG as svg
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from inkscape_helper.Ellipse import Ellipse
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from inkscape_helper.Line import Line
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from inkscape_helper.EllipticArc import EllipticArc
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from math import *
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import inkex
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#Note: keep in mind that SVG coordinates start in the top-left corner i.e. with an inverted y-axis
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# first define some SVG primitives
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greenStyle = svg.green_style
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def _makeCurvedSurface(topLeft, w, h, cutSpacing, hCutCount, thickness, parent, invertNotches = False, centralRib = False):
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width = Coordinate(w, 0)
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height = Coordinate(0, h)
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wCutCount = int(floor(w / cutSpacing))
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if wCutCount % 2 == 0:
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wCutCount += 1 # make sure we have an odd number of cuts
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xCutDist = w / wCutCount
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xSpacing = Coordinate(xCutDist, 0)
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ySpacing = Coordinate(0, cutSpacing)
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cut = height / hCutCount - ySpacing
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plateThickness = Coordinate(0, thickness)
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notchEdges = []
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topHCuts = []
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bottomHCuts = []
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p = svg.Path()
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for cutIndex in range(wCutCount):
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if (cutIndex % 2 == 1) != invertNotches: # make a notch here
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inset = plateThickness
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else:
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inset = Coordinate(0, 0)
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# A-column of cuts
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aColStart = topLeft + xSpacing * cutIndex
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notchEdges.append((aColStart - topLeft).x)
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if cutIndex > 0: # no cuts at x == 0
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p.move_to(aColStart, True)
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p.line_to(cut / 2)
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for j in range(hCutCount - 1):
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pos = aColStart + cut / 2 + ySpacing + (cut + ySpacing) * j
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p.move_to(pos, True)
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p.line_to(cut)
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p.move_to(aColStart + height - cut / 2, True)
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p.line_to(cut / 2)
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# B-column of cuts, offset by half the cut length; these cuts run in the opposite direction
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bColStart = topLeft + xSpacing * cutIndex + xSpacing / 2
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for j in reversed(range(hCutCount)):
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end = bColStart + ySpacing / 2 + (cut + ySpacing) * j
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start = end + cut
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if centralRib and hCutCount % 2 == 0 and cutIndex % 2 == 1:
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holeTopLeft = start + (ySpacing - plateThickness - xSpacing) / 2
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if j == hCutCount // 2 - 1:
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start -= plateThickness / 2
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p.move_to(holeTopLeft + plateThickness + xSpacing, True)
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p.line_to(-xSpacing)
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p.move_to(holeTopLeft, True)
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p.line_to(xSpacing)
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elif j == hCutCount // 2:
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end += plateThickness / 2
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if j == 0: # first row
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end += inset
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elif j == hCutCount - 1: # last row
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start -= inset
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p.move_to(start, True)
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p.line_to(end, True)
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#horizontal cuts (should be done last)
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topHCuts.append((aColStart + inset, aColStart + inset + xSpacing))
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bottomHCuts.append((aColStart + height - inset, aColStart + height - inset + xSpacing))
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# draw the outline
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for c in reversed(bottomHCuts):
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p.move_to(c[1], True)
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p.line_to(c[0], True)
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p.move_to(topLeft + height, True)
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p.line_to(-height)
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for c in topHCuts:
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p.move_to(c[0], True)
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p.line_to(c[1], True)
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p.move_to(topLeft + width, True)
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p.line_to(height)
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group = svg.group(parent)
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p.path(group)
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notchEdges.append(w)
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return notchEdges
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def _makeNotchedEllipse(center, ellipse, start_theta, thickness, notches, parent, invertNotches):
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start_theta += pi # rotate 180 degrees to put the lid on the topside
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ell_radius = Coordinate(ellipse.x_radius, ellipse.y_radius)
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ell_radius_t = ell_radius + Coordinate(thickness, thickness)
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theta = ellipse.theta_from_dist(start_theta, notches[0])
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ell_point = center + ellipse.coordinate_at_theta(theta)
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prev_offset = ellipse.tangent(theta) * thickness
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p = svg.Path()
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p.move_to(ell_point, absolute=True)
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for n in range(len(notches) - 1):
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theta = ellipse.theta_from_dist(start_theta, notches[n + 1])
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ell_point = center + ellipse.coordinate_at_theta(theta)
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notch_offset = ellipse.tangent(theta) * thickness
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notch_point = ell_point + notch_offset
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if (n % 2 == 0) != invertNotches:
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p.arc_to(ell_radius, ell_point, absolute=True)
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prev_offset = notch_offset
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else:
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p.line_to(prev_offset)
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p.arc_to(ell_radius_t, notch_point, absolute=True)
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p.line_to(-notch_offset)
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p.path(parent)
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class EllipticalBox(eff.Effect):
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"""
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Creates a new layer with the drawings for a parametrically generaded box.
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"""
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def __init__(self):
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options = [
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['unit', str, 'mm', 'Unit, one of: cm, mm, in, ft, ...'],
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['thickness', float, '3.0', 'Material thickness'],
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['width', float, '100', 'Box width'],
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['height', float, '100', 'Box height'],
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['depth', float, '100', 'Box depth'],
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['cut_dist', float, '1.5', 'Distance between cuts on the wrap around. Note that this value will change slightly to evenly fill up the available space.'],
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['auto_cut_dist', inkex.Boolean, 'false', 'Automatically set the cut distance based on the curvature.'], # in progress
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['cut_nr', int, '3', 'Number of cuts across the depth of the box.'],
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['lid_angle', float, '120', 'Angle that forms the lid (in degrees, measured from centerpoint of the ellipse)'],
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['body_ribcount', int, '0', 'Number of ribs in the body'],
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['lid_ribcount', int, '0', 'Number of ribs in the lid'],
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['invert_lid_notches', inkex.Boolean, 'false', 'Invert the notch pattern on the lid (keeps the lid from sliding sideways)'],
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['central_rib_lid', inkex.Boolean, 'false', 'Create a central rib in the lid'],
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['central_rib_body', inkex.Boolean, 'false', 'Create a central rib in the body']
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]
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eff.Effect.__init__(self, options)
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def effect(self):
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"""
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Draws as basic elliptical box, based on provided parameters
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"""
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# input sanity check
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error = False
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if min(self.options.height, self.options.width, self.options.depth) == 0:
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eff.errormsg('Error: Dimensions must be non zero')
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error = True
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if self.options.cut_nr < 1:
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eff.errormsg('Error: Number of cuts should be at least 1')
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error = True
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if (self.options.central_rib_lid or self.options.central_rib_body) and self.options.cut_nr % 2 == 1:
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eff.errormsg('Error: Central rib is only valid with an even number of cuts')
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error = True
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if self.options.unit not in self.knownUnits:
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eff.errormsg('Error: unknown unit. '+ self.options.unit)
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error = True
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if error:
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exit()
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# convert units
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unit = self.options.unit
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H = self.svg.unittouu(str(self.options.height) + unit)
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W = self.svg.unittouu(str(self.options.width) + unit)
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D = self.svg.unittouu(str(self.options.depth) + unit)
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thickness = self.svg.unittouu(str(self.options.thickness) + unit)
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cutSpacing = self.svg.unittouu(str(self.options.cut_dist) + unit)
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cutNr = self.options.cut_nr
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doc_root = self.document.getroot()
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layer = svg.layer(doc_root, 'Elliptical Box')
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ell = Ellipse(W/2, H/2)
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#body and lid
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lidAngleRad = self.options.lid_angle * 2 * pi / 360
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lid_start_theta = ell.theta_at_angle(pi / 2 - lidAngleRad / 2)
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lid_end_theta = ell.theta_at_angle(pi / 2 + lidAngleRad / 2)
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lidLength = ell.dist_from_theta(lid_start_theta, lid_end_theta)
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bodyLength = ell.dist_from_theta(lid_end_theta, lid_start_theta)
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# do not put elements right at the edge of the page
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xMargin = 3
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yMargin = 3
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bottom_grp = svg.group(layer)
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top_grp = svg.group(layer)
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bodyNotches = _makeCurvedSurface(Coordinate(xMargin, yMargin), bodyLength, D, cutSpacing, cutNr,
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thickness, bottom_grp, False, self.options.central_rib_body)
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lidNotches = _makeCurvedSurface(Coordinate(xMargin, D + 2 * yMargin), lidLength, D, cutSpacing, cutNr,
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thickness, top_grp, not self.options.invert_lid_notches,
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self.options.central_rib_lid)
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# create elliptical sides
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sidesGrp = svg.group(layer)
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elCenter = Coordinate(xMargin + thickness + W / 2, 2 * D + H / 2 + thickness + 3 * yMargin)
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# indicate the division between body and lid
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p = svg.Path()
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if self.options.invert_lid_notches:
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p.move_to(elCenter + ell.coordinate_at_theta(lid_start_theta + pi), True)
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p.line_to(elCenter, True)
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p.line_to(elCenter + ell.coordinate_at_theta(lid_end_theta + pi), True)
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else:
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angleA = ell.theta_from_dist(lid_start_theta, lidNotches[1])
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angleB = ell.theta_from_dist(lid_start_theta, lidNotches[-2])
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p.move_to(elCenter + ell.coordinate_at_theta(angleA + pi), True)
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p.line_to(elCenter, True)
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p.line_to(elCenter + ell.coordinate_at_theta(angleB + pi), True)
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_makeNotchedEllipse(elCenter, ell, lid_end_theta, thickness, bodyNotches, sidesGrp, False)
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_makeNotchedEllipse(elCenter, ell, lid_start_theta, thickness, lidNotches, sidesGrp,
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not self.options.invert_lid_notches)
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p.path(sidesGrp, greenStyle)
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# ribs
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if self.options.central_rib_lid or self.options.central_rib_body:
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innerRibCenter = Coordinate(xMargin + thickness + W / 2, 2 * D + 1.5 * (H + 2 *thickness) + 4 * yMargin)
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innerRibGrp = svg.group(layer)
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outerRibCenter = Coordinate(2 * xMargin + 1.5 * (W + 2 * thickness),
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2 * D + 1.5 * (H + 2 * thickness) + 4 * yMargin)
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outerRibGrp = svg.group(layer)
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if self.options.central_rib_lid:
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_makeNotchedEllipse(innerRibCenter, ell, lid_start_theta, thickness, lidNotches, innerRibGrp, False)
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_makeNotchedEllipse(outerRibCenter, ell, lid_start_theta, thickness, lidNotches, outerRibGrp, True)
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if self.options.central_rib_body:
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spacer = Coordinate(0, 10)
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_makeNotchedEllipse(innerRibCenter + spacer, ell, lid_end_theta, thickness, bodyNotches, innerRibGrp, False)
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_makeNotchedEllipse(outerRibCenter + spacer, ell, lid_end_theta, thickness, bodyNotches, outerRibGrp, True)
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if self.options.central_rib_lid or self.options.central_rib_body:
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svg.text(sidesGrp, elCenter, 'side (duplicate this)')
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svg.text(innerRibGrp, innerRibCenter, 'inside rib')
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svg.text(outerRibGrp, outerRibCenter, 'outside rib')
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if __name__ == '__main__':
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EllipticalBox().run() |