mightyscape-1.2/extensions/fablabchemnitz/living_hinge/living_hinge.py

#!/usr/bin/env python3
"""
hinge_cuts.py
A module for creating lines to laser cut living hinges

Copyright (C) 2013 Mark Endicott; drphonon@gmail.com

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.

For a copy of the GNU General Public License
write to the Free Software
Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307  USA
"""

"""
Change in version 0.2.
Changed self.unittouu to self.svg.unittouu
and self.uutounit to self.uutounit
to make it work with Inkscape 0.91
Thanks to Pete Prodoehl for pointing this out.
"""

"""
Change in version 0.3
Add a direction option so the cuts can be done in the X or Y direction.
Modification by Sylvain GARNAVAULT; garnav@wanadoo.fr
"""

"""
Change in version 0.4.
Python3 / inkscape 1.0 migration
"""
__version__ = "0.4"

import inkex
import gettext
_ = gettext.gettext

from lxml import etree
from inkex import Rectangle

class LivingHinge(inkex.EffectExtension):

  def add_arguments(self, pars):
      pars.add_argument('--direction',default='y',help='cuts direction')
      pars.add_argument('--unit',default='mm',help='units of measurement')
      pars.add_argument('--cut_length',type=float, default=0,help='length of the cuts for the hinge.')
      pars.add_argument('--gap_length',type=float, default=0,help='separation distance between successive hinge cuts.')
      pars.add_argument('--sep_distance',type=float, default=0,help='distance between successive lines of hinge cuts.')

  def effect(self):

    unit=self.options.unit
    # which direction are we cutting
    dir = self.options.direction
    # starting cut length. Will be adjusted for get an integer number of cuts in the y-direction.
    l = self.svg.unittouu(str(self.options.cut_length) + unit)
    # cut separation in the y-direction
    d = self.svg.unittouu(str(self.options.gap_length) + unit)
    # starting separation between lines of cuts in the x-direction. Will be adjusted to get an integer
    # number of cut lines in the x-direction.
    dd = self.svg.unittouu(str(self.options.sep_distance) + unit)

    # get selected nodes
    if self.svg.selected:
      # put lines on the current layer
      for id, element in self.svg.selection.filter(Rectangle).items():
      #        inkex.utils.debug("id:" + id)
      #         for key in node.attrib.keys():
      #           inkex.utils.debug(key + ": " + element.get(key))
        bbox = element.bounding_box()

        # calculate the cut lines for the hinge
        if (dir=="y"):
          lines, l_actual, d_actual, dd_actual = self.calcYCutLines(bbox.left, bbox.top, bbox.width, bbox.height, l, d, dd)
        else:
          lines, l_actual, d_actual, dd_actual = self.calcXCutLines(bbox.left, bbox.top, bbox.width, bbox.height, l, d, dd)

        s = ''
        for line in lines:
          s = s + "M %s, %s L %s, %s " % (line['x1'], line['y1'], line['x2'], line['y2'])
        style = { 'stroke': '#000000', 'fill': 'none', 'stroke-width': self.svg.unittouu("0.1 mm")}
        drw = {'style':str(inkex.Style(style)), 'd': s}
        hinge = etree.SubElement(element.getparent(), inkex.addNS('path', 'svg'), drw)
        desc = etree.SubElement(hinge, inkex.addNS('desc', 'svg'))
        desc.text = "Hinge cut parameters: actual(requested)\n" \
          "cut length: %.2f %s (%.2f %s)\n" \
          "gap length: %.2f %s (%.2f %s)\n" \
          "separation distance: %.2f %s (%.2f %s)" % (self.svg.uutounit(l_actual, unit), unit, self.svg.uutounit(l, unit), unit,
                                 self.svg.uutounit(d_actual, unit), unit, self.svg.uutounit(d, unit), unit,
                                 self.svg.uutounit(dd_actual, unit), unit, self.svg.uutounit(dd, unit), unit)
    else:
      inkex.utils.debug("No rectangle(s) have been selected.")

  def calcYCutLines(self, x, y, dx, dy, l, d, dd):
    """
    Return a list of cut lines as dicts. Each dict contains the end points for one cut line.
    [{x1, y1, x2, y2}, ... ]

    Parameters
    x, y: the coordinates of the lower left corner of the bounding rect
    dx, dy: width and height of the bounding rect
    l: the nominal length of a cut line
    d: the separation between cut lines in the y-direction
    dd: the nominal separation between cut lines in the x-direction

    l will be adjusted so that there is an integral number of cuts in the y-direction.
    dd will be adjusted so that there is an integral number of cuts in the x-direction.
    """
    ret = []

    # use l as a starting guess. Adjust it so that we get an integer number of cuts in the y-direction
    # First compute the number of cuts in the y-direction using l. This will not in general be an integer.
    p = (dy-d)/(d+l)
    #round p to the nearest integer
    p = round(p)
    #compute the new l that will result in p cuts in the y-direction.
    if p == 0:
        p = 1 #avoid divison by zero
    l = (dy-d)/p - d

    # use dd as a starting guess. Adjust it so that we get an even integer number of cut lines in the x-direction.
    p = dx/dd
    p = round(p)
    if p % 2 == 1:
      p = p + 1
    dd = dx/p

    #
    # Column A cuts
    #
    currx = 0
    donex = False
    while not donex:
      doney = False
      starty = 0
      endy = (l + d)/2.0
      while not doney:
        if endy >= dy:
          endy = dy
        # Add the end points of the line
        ret.append({'x1' : x + currx, 'y1' : y + starty, 'x2': x + currx, 'y2': y + endy})
        starty = endy + d
        endy = starty + l
        if starty >= dy:
          doney = True
      currx = currx + dd * 2.0
      if currx - dx > dd:
        donex = True
#        inkex.utils.debug("lastx: " + str(lastx) + "; currx: " + str(currx))
    #
    #Column B cuts
    #
    currx = dd
    donex = False
    while not donex:
      doney = False
      starty = d
      endy = starty + l
      while not doney:
        if endy >= dy:
          endy = dy
        # create a line
        ret.append({'x1' : x + currx, 'y1' : y + starty, 'x2': x + currx, 'y2': y + endy})
        starty = endy + d
        endy = starty + l
        if starty >= dy:
          doney = True
      currx = currx + dd*2.0
      if currx > dx:
        donex = True

    return (ret, l, d, dd)


  def calcXCutLines(self, x, y, dx, dy, l, d, dd):
    """
    Return a list of cut lines as dicts. Each dict contains the end points for one cut line.
    [{x1, y1, x2, y2}, ... ]

    Parameters
    x, y: the coordinates of the lower left corner of the bounding rect
    dx, dy: width and height of the bounding rect
    l: the nominal length of a cut line
    d: the separation between cut lines in the x-direction
    dd: the nominal separation between cut lines in the y-direction

    l will be adjusted so that there is an integral number of cuts in the x-direction.
    dd will be adjusted so that there is an integral number of cuts in the y-direction.
    """
    ret = []


    # use l as a starting guess. Adjust it so that we get an integer number of cuts in the y-direction
    # First compute the number of cuts in the x-direction using l. This will not in general be an integer.
    p = (dx-d)/(d+l)
    #round p to the nearest integer
    p = round(p)
    #compute the new l that will result in p cuts in the x-direction.
    if p == 0:
        p = 1 #avoid divison by zero
    l = (dx-d)/p - d

    # use dd as a starting guess. Adjust it so that we get an even integer number of cut lines in the y-direction.
    p = dy/dd
    p = round(p)
    if p % 2 == 1:
      p = p + 1
    dd = dy/p

    #
    # Rows A cuts
    #
    curry = 0
    doney = False
    while not doney:
      donex = False
      startx = 0
      endx = (l + d)/2.0
      while not donex:
        if endx >= dx:
          endx = dx
        # Add the end points of the line
        ret.append({'x1' : x + startx, 'y1' : y + curry, 'x2': x + endx, 'y2': y + curry})
        startx = endx + d
        endx = startx + l
        if startx >= dx:
          donex = True
      curry = curry + dd * 2.0
      if curry - dy > dd:
        doney = True

    #
    # Rows B cuts
    #
    curry = dd
    doney = False
    while not doney:
      donex = False
      startx = d
      endx = startx + l
      while not donex:
        if endx >= dx:
          endx = dx
        # create a line
        ret.append({'x1' : x + startx, 'y1' : y + curry, 'x2': x + endx, 'y2': y + curry})
        startx = endx + d
        endx = startx + l
        if startx >= dx:
          donex = True
      curry = curry + dd*2.0
      if curry > dy:
        doney = True

    return (ret, l, d, dd)

if __name__ == '__main__':
    LivingHinge().run()
several fixes and more extensions from 1.1 back again 2022-09-02 03:15:14 +02:00			`#!/usr/bin/env python3`
			`"""`
			`hinge_cuts.py`
			`A module for creating lines to laser cut living hinges`

			`Copyright (C) 2013 Mark Endicott; drphonon@gmail.com`

			`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.`

			`For a copy of the GNU General Public License`
			`write to the Free Software`
			`Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA`
			`"""`

fix issue #80 2023-08-19 17:43:40 +02:00			`"""`
several fixes and more extensions from 1.1 back again 2022-09-02 03:15:14 +02:00			`Change in version 0.2.`
			`Changed self.unittouu to self.svg.unittouu`
			`and self.uutounit to self.uutounit`
			`to make it work with Inkscape 0.91`
			`Thanks to Pete Prodoehl for pointing this out.`
			`"""`

fix issue #80 2023-08-19 17:43:40 +02:00			`"""`
several fixes and more extensions from 1.1 back again 2022-09-02 03:15:14 +02:00			`Change in version 0.3`
			`Add a direction option so the cuts can be done in the X or Y direction.`
			`Modification by Sylvain GARNAVAULT; garnav@wanadoo.fr`
			`"""`

fix issue #80 2023-08-19 17:43:40 +02:00			`"""`
several fixes and more extensions from 1.1 back again 2022-09-02 03:15:14 +02:00			`Change in version 0.4.`
			`Python3 / inkscape 1.0 migration`
			`"""`
fix issue #80 2023-08-19 17:43:40 +02:00			`__version__ = "0.4"`
several fixes and more extensions from 1.1 back again 2022-09-02 03:15:14 +02:00
			`import inkex`
			`import gettext`
			`_ = gettext.gettext`

			`from lxml import etree`
fix issue #80 2023-08-19 17:43:40 +02:00			`from inkex import Rectangle`
several fixes and more extensions from 1.1 back again 2022-09-02 03:15:14 +02:00
			`class LivingHinge(inkex.EffectExtension):`
fix issue #80 2023-08-19 17:43:40 +02:00
several fixes and more extensions from 1.1 back again 2022-09-02 03:15:14 +02:00			`def add_arguments(self, pars):`
			`pars.add_argument('--direction',default='y',help='cuts direction')`
			`pars.add_argument('--unit',default='mm',help='units of measurement')`
			`pars.add_argument('--cut_length',type=float, default=0,help='length of the cuts for the hinge.')`
			`pars.add_argument('--gap_length',type=float, default=0,help='separation distance between successive hinge cuts.')`
			`pars.add_argument('--sep_distance',type=float, default=0,help='distance between successive lines of hinge cuts.')`

			`def effect(self):`
fix issue #80 2023-08-19 17:43:40 +02:00
several fixes and more extensions from 1.1 back again 2022-09-02 03:15:14 +02:00			`unit=self.options.unit`
			`# which direction are we cutting`
			`dir = self.options.direction`
			`# starting cut length. Will be adjusted for get an integer number of cuts in the y-direction.`
			`l = self.svg.unittouu(str(self.options.cut_length) + unit)`
			`# cut separation in the y-direction`
			`d = self.svg.unittouu(str(self.options.gap_length) + unit)`
			`# starting separation between lines of cuts in the x-direction. Will be adjusted to get an integer`
			`# number of cut lines in the x-direction.`
			`dd = self.svg.unittouu(str(self.options.sep_distance) + unit)`
fix issue #80 2023-08-19 17:43:40 +02:00
several fixes and more extensions from 1.1 back again 2022-09-02 03:15:14 +02:00			`# get selected nodes`
			`if self.svg.selected:`
fix issue #80 2023-08-19 17:43:40 +02:00			`# put lines on the current layer`
fix division by zero error 2023-08-21 11:20:24 +02:00			`for id, element in self.svg.selection.filter(Rectangle).items():`
several fixes and more extensions from 1.1 back again 2022-09-02 03:15:14 +02:00			`# inkex.utils.debug("id:" + id)`
			`# for key in node.attrib.keys():`
fix division by zero error 2023-08-21 11:20:24 +02:00			`# inkex.utils.debug(key + ": " + element.get(key))`
			`bbox = element.bounding_box()`
fix issue #80 2023-08-19 17:43:40 +02:00
several fixes and more extensions from 1.1 back again 2022-09-02 03:15:14 +02:00			`# calculate the cut lines for the hinge`
			`if (dir=="y"):`
			`lines, l_actual, d_actual, dd_actual = self.calcYCutLines(bbox.left, bbox.top, bbox.width, bbox.height, l, d, dd)`
			`else:`
			`lines, l_actual, d_actual, dd_actual = self.calcXCutLines(bbox.left, bbox.top, bbox.width, bbox.height, l, d, dd)`

			`s = ''`
			`for line in lines:`
			`s = s + "M %s, %s L %s, %s " % (line['x1'], line['y1'], line['x2'], line['y2'])`
			`style = { 'stroke': '#000000', 'fill': 'none', 'stroke-width': self.svg.unittouu("0.1 mm")}`
			`drw = {'style':str(inkex.Style(style)), 'd': s}`
fix transformation error in living_hinge 2023-08-21 11:49:46 +02:00			`hinge = etree.SubElement(element.getparent(), inkex.addNS('path', 'svg'), drw)`
several fixes and more extensions from 1.1 back again 2022-09-02 03:15:14 +02:00			`desc = etree.SubElement(hinge, inkex.addNS('desc', 'svg'))`
			`desc.text = "Hinge cut parameters: actual(requested)\n" \`
			`"cut length: %.2f %s (%.2f %s)\n" \`
			`"gap length: %.2f %s (%.2f %s)\n" \`
fix issue #80 2023-08-19 17:43:40 +02:00			`"separation distance: %.2f %s (%.2f %s)" % (self.svg.uutounit(l_actual, unit), unit, self.svg.uutounit(l, unit), unit,`
several fixes and more extensions from 1.1 back again 2022-09-02 03:15:14 +02:00			`self.svg.uutounit(d_actual, unit), unit, self.svg.uutounit(d, unit), unit,`
			`self.svg.uutounit(dd_actual, unit), unit, self.svg.uutounit(dd, unit), unit)`
			`else:`
			`inkex.utils.debug("No rectangle(s) have been selected.")`
fix issue #80 2023-08-19 17:43:40 +02:00
several fixes and more extensions from 1.1 back again 2022-09-02 03:15:14 +02:00			`def calcYCutLines(self, x, y, dx, dy, l, d, dd):`
			`"""`
			`Return a list of cut lines as dicts. Each dict contains the end points for one cut line.`
			`[{x1, y1, x2, y2}, ... ]`
fix issue #80 2023-08-19 17:43:40 +02:00
several fixes and more extensions from 1.1 back again 2022-09-02 03:15:14 +02:00			`Parameters`
			`x, y: the coordinates of the lower left corner of the bounding rect`
			`dx, dy: width and height of the bounding rect`
			`l: the nominal length of a cut line`
			`d: the separation between cut lines in the y-direction`
			`dd: the nominal separation between cut lines in the x-direction`
fix issue #80 2023-08-19 17:43:40 +02:00
several fixes and more extensions from 1.1 back again 2022-09-02 03:15:14 +02:00			`l will be adjusted so that there is an integral number of cuts in the y-direction.`
			`dd will be adjusted so that there is an integral number of cuts in the x-direction.`
			`"""`
			`ret = []`
fix issue #80 2023-08-19 17:43:40 +02:00
several fixes and more extensions from 1.1 back again 2022-09-02 03:15:14 +02:00			`# use l as a starting guess. Adjust it so that we get an integer number of cuts in the y-direction`
			`# First compute the number of cuts in the y-direction using l. This will not in general be an integer.`
			`p = (dy-d)/(d+l)`
			`#round p to the nearest integer`
			`p = round(p)`
			`#compute the new l that will result in p cuts in the y-direction.`
			`if p == 0:`
			`p = 1 #avoid divison by zero`
			`l = (dy-d)/p - d`
fix issue #80 2023-08-19 17:43:40 +02:00
several fixes and more extensions from 1.1 back again 2022-09-02 03:15:14 +02:00			`# use dd as a starting guess. Adjust it so that we get an even integer number of cut lines in the x-direction.`
			`p = dx/dd`
			`p = round(p)`
			`if p % 2 == 1:`
			`p = p + 1`
			`dd = dx/p`
fix issue #80 2023-08-19 17:43:40 +02:00
several fixes and more extensions from 1.1 back again 2022-09-02 03:15:14 +02:00			`#`
			`# Column A cuts`
			`#`
			`currx = 0`
			`donex = False`
			`while not donex:`
			`doney = False`
			`starty = 0`
			`endy = (l + d)/2.0`
			`while not doney:`
			`if endy >= dy:`
			`endy = dy`
			`# Add the end points of the line`
			`ret.append({'x1' : x + currx, 'y1' : y + starty, 'x2': x + currx, 'y2': y + endy})`
			`starty = endy + d`
			`endy = starty + l`
			`if starty >= dy:`
			`doney = True`
			`currx = currx + dd * 2.0`
			`if currx - dx > dd:`
			`donex = True`
			`# inkex.utils.debug("lastx: " + str(lastx) + "; currx: " + str(currx))`
			`#`
			`#Column B cuts`
			`#`
			`currx = dd`
			`donex = False`
			`while not donex:`
			`doney = False`
			`starty = d`
			`endy = starty + l`
			`while not doney:`
			`if endy >= dy:`
			`endy = dy`
			`# create a line`
			`ret.append({'x1' : x + currx, 'y1' : y + starty, 'x2': x + currx, 'y2': y + endy})`
			`starty = endy + d`
			`endy = starty + l`
			`if starty >= dy:`
			`doney = True`
			`currx = currx + dd*2.0`
			`if currx > dx:`
			`donex = True`
fix issue #80 2023-08-19 17:43:40 +02:00
several fixes and more extensions from 1.1 back again 2022-09-02 03:15:14 +02:00			`return (ret, l, d, dd)`
fix issue #80 2023-08-19 17:43:40 +02:00
several fixes and more extensions from 1.1 back again 2022-09-02 03:15:14 +02:00
			`def calcXCutLines(self, x, y, dx, dy, l, d, dd):`
			`"""`
			`Return a list of cut lines as dicts. Each dict contains the end points for one cut line.`
			`[{x1, y1, x2, y2}, ... ]`
fix issue #80 2023-08-19 17:43:40 +02:00
several fixes and more extensions from 1.1 back again 2022-09-02 03:15:14 +02:00			`Parameters`
			`x, y: the coordinates of the lower left corner of the bounding rect`
			`dx, dy: width and height of the bounding rect`
			`l: the nominal length of a cut line`
			`d: the separation between cut lines in the x-direction`
			`dd: the nominal separation between cut lines in the y-direction`
fix issue #80 2023-08-19 17:43:40 +02:00
several fixes and more extensions from 1.1 back again 2022-09-02 03:15:14 +02:00			`l will be adjusted so that there is an integral number of cuts in the x-direction.`
			`dd will be adjusted so that there is an integral number of cuts in the y-direction.`
			`"""`
			`ret = []`


			`# use l as a starting guess. Adjust it so that we get an integer number of cuts in the y-direction`
			`# First compute the number of cuts in the x-direction using l. This will not in general be an integer.`
			`p = (dx-d)/(d+l)`
			`#round p to the nearest integer`
			`p = round(p)`
			`#compute the new l that will result in p cuts in the x-direction.`
fix division by zero error 2023-08-21 11:20:24 +02:00			`if p == 0:`
			`p = 1 #avoid divison by zero`
several fixes and more extensions from 1.1 back again 2022-09-02 03:15:14 +02:00			`l = (dx-d)/p - d`

			`# use dd as a starting guess. Adjust it so that we get an even integer number of cut lines in the y-direction.`
			`p = dy/dd`
			`p = round(p)`
			`if p % 2 == 1:`
			`p = p + 1`
			`dd = dy/p`

			`#`
			`# Rows A cuts`
			`#`
			`curry = 0`
			`doney = False`
			`while not doney:`
			`donex = False`
			`startx = 0`
			`endx = (l + d)/2.0`
			`while not donex:`
			`if endx >= dx:`
			`endx = dx`
			`# Add the end points of the line`
			`ret.append({'x1' : x + startx, 'y1' : y + curry, 'x2': x + endx, 'y2': y + curry})`
			`startx = endx + d`
			`endx = startx + l`
			`if startx >= dx:`
			`donex = True`
			`curry = curry + dd * 2.0`
			`if curry - dy > dd:`
			`doney = True`

			`#`
			`# Rows B cuts`
			`#`
			`curry = dd`
			`doney = False`
			`while not doney:`
			`donex = False`
			`startx = d`
			`endx = startx + l`
			`while not donex:`
			`if endx >= dx:`
			`endx = dx`
			`# create a line`
			`ret.append({'x1' : x + startx, 'y1' : y + curry, 'x2': x + endx, 'y2': y + curry})`
			`startx = endx + d`
			`endx = startx + l`
			`if startx >= dx:`
			`donex = True`
			`curry = curry + dd*2.0`
			`if curry > dy:`
			`doney = True`

			`return (ret, l, d, dd)`

			`if __name__ == '__main__':`
			`LivingHinge().run()`