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#!/usr/bin/env python3
# Copyright 2016 Luke Phillips (lukerazor@hotmail.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.
#
# You should have received a copy of the GNU General Public License
#along with this program; if not, write to the Free Software
#Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
from lxml import etree
import inkex
import copy
import math
FOLD_GAP = 5
CROP_GAP = 2
CROP_LENGTH = 3
inkex . NSS [ u ' cs ' ] = u ' http://www.razorfoss.org/tuckboxextension/ '
def PrintDebug ( string ) :
inkex . utils . debug ( _ ( str ( string ) ) )
def RoundAndDeduplicatePoints ( points ) :
return sorted ( list ( set ( map ( lambda x : round ( x , 3 ) , points ) ) ) )
class Point ( ) :
def __init__ ( self , x , y ) :
self . x = x
self . y = y
def rotate ( self , angle , origin ) :
"""
Rotate a point counterclockwise by a given angle around a given origin .
The angle should be given in degrees .
"""
rads = math . radians ( angle )
newX = origin . x + math . cos ( rads ) * ( self . x - origin . x ) - math . sin ( rads ) * ( self . y - origin . y )
newY = origin . y + math . sin ( rads ) * ( self . x - origin . x ) + math . cos ( rads ) * ( self . y - origin . y )
return Point ( newX , newY )
def add ( self , point ) :
return Point ( self . x + point . x , self . y + point . y )
@staticmethod
def parsePoint ( pointString ) :
x , y = map ( lambda v : float ( v ) , pointString . split ( " , " ) )
return Point ( x , y )
@staticmethod
def parse ( pointString , orientationString = None ) :
p1 = Point . parsePoint ( pointString )
p = Point ( p1 . x , p1 . y )
if orientationString != None :
po = Point . parsePoint ( orientationString )
p = p1 . add ( po . rotate ( 270 , Point ( 0 , 0 ) ) )
return p
class HexGeneratorBase ( object ) :
def __init__ ( self , hexDiameter , hexMargin , bleedMargin , pageWidth , pageHeight , pageMargin , unitConverterFunc ) :
self . UnitConverterFunc = unitConverterFunc
self . HexDiameter = hexDiameter
self . HexMargin = hexMargin
self . BleedMargin = bleedMargin
self . PageWidth = pageWidth
self . PageHeight = pageHeight
self . PageMargin = pageMargin
self . ContainerWidth = - 1
self . ContainerHeight = - 1
def CalcPageLeftMargin ( self ) :
return ( self . PageWidth - self . ContentWidth ) / 2.0
def CalcPageBottomMargin ( self ) :
return ( self . PageHeight - self . ContentHeight ) / 2.0
def DrawGuide ( self , xmlParent , xpos , ypos ) :
posString = " {} , {} " . format ( xpos , ypos )
attribs = { ' position ' : posString , ' orientation ' : posString }
etree . SubElement ( xmlParent , inkex . addNS ( ' guide ' , " sodipodi " ) , attribs )
def DrawAngledGuide ( self , xmlParent , xpos , ypos , angle ) :
# Angles are taken from the horizontal axis, positive angles move clockwise
posString = " {} , {} " . format ( xpos , ypos )
orientationString = " {} , {} " . format ( math . sin ( math . radians ( angle ) ) , math . cos ( math . radians ( angle ) ) )
attribs = { ' position ' : posString , ' orientation ' : orientationString }
etree . SubElement ( xmlParent , inkex . addNS ( ' guide ' , " sodipodi " ) , attribs )
def ConvertPoint ( self , p ) :
# convert point into svg approriate values, including catering for inkscapes "alternative" axis sytem ie 0, 0 is bottom left not top left
newX = self . UnitConverterFunc ( " {} mm " . format ( p . x ) )
newY = self . PageHeight - self . UnitConverterFunc ( " {} mm " . format ( p . y ) )
return Point ( newX , newY )
def DrawLine ( self , xmlParent , p1 , p2 ) :
cp1 = self . ConvertPoint ( p1 )
cp2 = self . ConvertPoint ( p2 )
pathStr = " M {} , {} {} , {} " . format ( cp1 . x , cp1 . y , cp2 . x , cp2 . y )
style = { ' stroke ' : ' #000000 ' , ' stroke-width ' : self . UnitConverterFunc ( ' 0.25mm ' ) , ' fill ' : ' none ' }
attribs = { ' style ' : str ( inkex . Style ( style ) ) , ' d ' : pathStr }
etree . SubElement ( xmlParent , inkex . addNS ( ' path ' , ' svg ' ) , attribs )
def DrawVerticleGuides ( self , xmlParent , positions , gap ) :
curPos = self . CalcPageLeftMargin ( )
lastPos = - 1
while curPos + self . ContainerWidth < = self . PageWidth - self . PageMargin :
for offset in positions :
curPos + = offset
if curPos != lastPos : # don't double draw
self . DrawGuide ( xmlParent , curPos , 0 )
lastPos = curPos
curPos + = gap
def DrawHorizontalGuides ( self , xmlParent , positions , gap ) :
curPos = self . CalcPageBottomMargin ( )
lastPos = - 1
while curPos + self . ContainerHeight < = self . PageHeight - self . PageMargin :
for offset in positions :
curPos + = offset
if curPos != lastPos : # don't double draw
self . DrawGuide ( xmlParent , 0 , curPos )
lastPos = curPos
curPos + = gap
def DrawAngledGuides ( self , xmlParent , offsetPositions , angle , gap ) :
numExtraTopContainers = 0
numExtraBottomContainers = 0
if angle > 0 :
numExtraTopContainers = math . ceil ( self . NumContainersAcross / 2.0 ) - 1
if angle < 0 :
numExtraBottomContainers = math . ceil ( self . NumContainersAcross / 2.0 ) - 1
# draw sets of guides per point avoiding duplicate lines
# NOTE: Effectivly we draw the bottom guides first and then move up (ie y is increasing)
curPos = self . CalcPageBottomMargin ( ) - numExtraBottomContainers * self . ContainerHeight
lastPos = - 1
while curPos + self . ContainerHeight < = self . PageHeight - self . PageMargin + numExtraTopContainers * self . ContainerHeight :
for offset in offsetPositions :
curPos + = offset
if curPos != lastPos : # don't double draw
self . DrawAngledGuide ( xmlParent , self . CalcPageLeftMargin ( ) + self . ContainerWidth / 2 , curPos , angle )
lastPos = curPos
curPos + = gap
def GenerateFoldLines ( self , xmlParent ) :
lines = self . GetFoldLinePositions ( )
for line in lines :
self . DrawLine ( xmlParent , line [ 0 ] , line [ 1 ] )
def GenerateCropMarks ( self , xmlParent ) :
lines = self . GetCropMarkLines ( )
for line in lines :
self . DrawLine ( xmlParent , line [ 0 ] , line [ 1 ] )
@staticmethod
def CalculateBorderVerticalOffset ( borderWidth ) :
if borderWidth == 0 :
return 0
return borderWidth / math . sin ( math . radians ( 60 ) )
@staticmethod
def CreateHexGenerator ( hexDiameter , hexMargin , bleedMargin , pageWidth , pageHeight , pageMargin , unitConverterFunc ) :
return SimpleHexGridLineGenerator ( hexDiameter , hexMargin , bleedMargin , pageWidth , pageHeight , pageMargin , unitConverterFunc )
class SimpleHexGridLineGenerator ( HexGeneratorBase ) :
def __init__ ( self , hexDiameter , hexMargin , bleedMargin , pageWidth , pageHeight , pageMargin , unitConverterFunc ) :
super ( SimpleHexGridLineGenerator , self ) . __init__ ( hexDiameter , hexMargin , bleedMargin , pageWidth , pageHeight , pageMargin , unitConverterFunc )
self . HexWidth = math . sqrt ( 3 ) * ( hexDiameter / 2 )
self . ContainerWidth = self . HexWidth + 2 * bleedMargin
self . ContainerHeight = hexDiameter + 2 * HexGeneratorBase . CalculateBorderVerticalOffset ( bleedMargin )
# num across
# num down
self . NumContainersAcross = int ( ( self . PageWidth - 2 * self . PageMargin ) / / self . ContainerWidth ) # round down division
self . NumContainersDown = int ( ( self . PageHeight - 2 * self . PageMargin ) / / self . ContainerHeight ) # round down division
# content sizes
self . ContentWidth = self . NumContainersAcross * self . ContainerWidth
self . ContentHeight = self . NumContainersDown * self . ContainerHeight
def GenerateGuides ( self , xmlParent ) :
verticalGuideOffsets = [
0 ,
self . BleedMargin ,
self . HexMargin ,
self . HexWidth - 2 * self . HexMargin ,
self . HexMargin ,
self . BleedMargin
]
bleedVerticalOffset = HexGeneratorBase . CalculateBorderVerticalOffset ( self . BleedMargin )
hexMarginVerticalOffset = HexGeneratorBase . CalculateBorderVerticalOffset ( self . HexMargin )
horizontalGuideOffsets = [
0 ,
bleedVerticalOffset ,
hexMarginVerticalOffset ,
self . HexDiameter - 2 * hexMarginVerticalOffset ,
hexMarginVerticalOffset ,
bleedVerticalOffset
]
self . DrawVerticleGuides ( xmlParent , verticalGuideOffsets , 0 )
self . DrawAngledGuides ( xmlParent , horizontalGuideOffsets , - 30 , 0 )
self . DrawAngledGuides ( xmlParent , horizontalGuideOffsets , 30 , 0 )
def GetFoldLinePositions ( self ) :
return [ ] # no fold lines in simple grid
def GetCropMarkLines ( self ) :
lines = [ ]
leftMargin = self . CalcPageLeftMargin ( )
bottomMargin = self . CalcPageBottomMargin ( )
bleedVerticalOffset = HexGeneratorBase . CalculateBorderVerticalOffset ( self . BleedMargin )
def CalcOppositeDeltaGivenAdjacentDelta ( xdelta , angle ) :
return math . tan ( math . radians ( angle ) ) * xdelta
#---------------------------------------------------------------------------------
#determine all vertical crop marks, duplicates possible
# figure out the xpos'
vertical_xpos = [ ]
for idx in range ( self . NumContainersAcross ) :
leftX = self . BleedMargin
rightX = leftX + self . HexWidth
containerOffset = leftMargin + idx * self . ContainerWidth
vertical_xpos . append ( containerOffset + leftX )
vertical_xpos . append ( containerOffset + rightX )
vertical_xpos = RoundAndDeduplicatePoints ( vertical_xpos )
# add to list of lines
vertical_ypos = [ bottomMargin - CROP_GAP , self . PageHeight - bottomMargin + CROP_GAP + CROP_LENGTH ]
for xpos in vertical_xpos :
for ypos in vertical_ypos :
lines . append ( [
Point ( xpos , ypos ) ,
Point ( xpos , ypos - CROP_LENGTH )
] )
#---------------------------------------------------------------------------------
# figure out NW, SW, NE and SE crop marks for both sides of the page
vertical_ypos_nw = [ ]
vertical_ypos_sw = [ ]
vertical_ypos_ne = [ ]
vertical_ypos_se = [ ]
yoffset = CalcOppositeDeltaGivenAdjacentDelta ( self . ContainerWidth / 2 + CROP_GAP , 30 )
lastColumnHasHalfStep = ( self . NumContainersAcross % 2 ) == 0 # an even numbered containers across means that the last column is 1/2 a continer up and has 1 less container
staggeredContainerOffset = 0
if lastColumnHasHalfStep :
staggeredContainerOffset = self . ContainerHeight / 2
for idx in range ( self . NumContainersDown ) :
leftContainerOffset = idx * self . ContainerHeight + bottomMargin
rightContainerOffset = leftContainerOffset + staggeredContainerOffset
bottomY = bleedVerticalOffset
topY = self . ContainerHeight - bleedVerticalOffset
vertical_ypos_nw . append ( leftContainerOffset + topY + yoffset )
vertical_ypos_nw . append ( leftContainerOffset + bottomY + yoffset )
vertical_ypos_sw . append ( leftContainerOffset + topY - yoffset )
vertical_ypos_sw . append ( leftContainerOffset + bottomY - yoffset )
vertical_ypos_ne . append ( rightContainerOffset + topY + yoffset )
vertical_ypos_ne . append ( rightContainerOffset + bottomY + yoffset )
vertical_ypos_se . append ( rightContainerOffset + topY - yoffset )
vertical_ypos_se . append ( rightContainerOffset + bottomY - yoffset )
# sort out a staggered last col
if lastColumnHasHalfStep : # if it's a half step column we need to remove the last container and add acouple of extra lines
vertical_ypos_ne = vertical_ypos_ne [ : - 2 ]
vertical_ypos_se = vertical_ypos_se [ : - 2 ]
vertical_ypos_ne . append ( max ( vertical_ypos_ne ) + 2 * bleedVerticalOffset )
vertical_ypos_se . append ( min ( vertical_ypos_se ) - 2 * bleedVerticalOffset )
# remove duplicate positions
vertical_ypos_nw = RoundAndDeduplicatePoints ( vertical_ypos_nw )
vertical_ypos_sw = RoundAndDeduplicatePoints ( vertical_ypos_sw )
vertical_ypos_ne = RoundAndDeduplicatePoints ( vertical_ypos_ne )
vertical_ypos_se = RoundAndDeduplicatePoints ( vertical_ypos_se )
# add to list of lines
xpos_left = leftMargin - CROP_GAP
xpos_right = self . PageWidth - leftMargin + CROP_GAP
yoffset = CalcOppositeDeltaGivenAdjacentDelta ( CROP_LENGTH , 30 )
for ypos in vertical_ypos_nw :
lines . append ( [
Point ( xpos_left , ypos ) ,
Point ( xpos_left - CROP_LENGTH , ypos + yoffset )
] )
for ypos in vertical_ypos_sw :
lines . append ( [
Point ( xpos_left , ypos ) ,
Point ( xpos_left - CROP_LENGTH , ypos - yoffset )
] )
for ypos in vertical_ypos_ne :
lines . append ( [
Point ( xpos_right , ypos ) ,
Point ( xpos_right + CROP_LENGTH , ypos + yoffset )
] )
for ypos in vertical_ypos_se :
lines . append ( [
Point ( xpos_right , ypos ) ,
Point ( xpos_right + CROP_LENGTH , ypos - yoffset )
] )
#---------------------------------------------------------------------------------
# figure out NW, SW, NE and SE crop marks for top and bottom of the page
xpos_nw = [ ]
xpos_sw = [ ]
xpos_ne = [ ]
xpos_se = [ ]
xoffset_near = CalcOppositeDeltaGivenAdjacentDelta ( bleedVerticalOffset + CROP_GAP , 60 )
xoffset_far = CalcOppositeDeltaGivenAdjacentDelta ( self . ContainerHeight - bleedVerticalOffset + CROP_GAP , 60 )
for idx in range ( 0 , self . NumContainersAcross , 2 ) : #we only need to do every other container because of the stepping
containerOffset = idx * self . ContainerWidth + leftMargin
topY = self . ContainerHeight - bleedVerticalOffset
bottomY = bleedVerticalOffset
xpos = self . ContainerWidth / 2
xpos_nw . append ( containerOffset + xpos - xoffset_near )
xpos_nw . append ( containerOffset + xpos - xoffset_far )
xpos_sw . append ( containerOffset + xpos - xoffset_near )
xpos_sw . append ( containerOffset + xpos - xoffset_far )
xpos_ne . append ( containerOffset + xpos + xoffset_near )
xpos_ne . append ( containerOffset + xpos + xoffset_far )
xpos_se . append ( containerOffset + xpos + xoffset_near )
xpos_se . append ( containerOffset + xpos + xoffset_far )
# remove duplicate positions
xpos_nw = RoundAndDeduplicatePoints ( xpos_nw )
xpos_sw = RoundAndDeduplicatePoints ( xpos_sw )
xpos_ne = RoundAndDeduplicatePoints ( xpos_ne )
xpos_se = RoundAndDeduplicatePoints ( xpos_se )
# add to list of lines
ypos_bottom = bottomMargin - CROP_GAP
ypos_top = self . PageHeight - bottomMargin + CROP_GAP
yoffset = CalcOppositeDeltaGivenAdjacentDelta ( CROP_LENGTH , 30 )
for xpos in xpos_nw :
if xpos > 0 and xpos < self . PageWidth :
lines . append ( [
Point ( xpos , ypos_top ) ,
Point ( xpos - CROP_LENGTH , ypos_top + yoffset )
] )
for xpos in xpos_sw :
if xpos > 0 and xpos < self . PageWidth :
lines . append ( [
Point ( xpos , ypos_bottom ) ,
Point ( xpos - CROP_LENGTH , ypos_bottom - yoffset )
] )
for xpos in xpos_ne :
if xpos > 0 and xpos < self . PageWidth :
lines . append ( [
Point ( xpos , ypos_top ) ,
Point ( xpos + CROP_LENGTH , ypos_top + yoffset )
] )
for xpos in xpos_se :
if xpos > 0 and xpos < self . PageWidth :
lines . append ( [
Point ( xpos , ypos_bottom ) ,
Point ( xpos + CROP_LENGTH , ypos_bottom - yoffset )
] )
#---------------------------------------------------------------------------------
return lines
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class HexTiles ( inkex . EffectExtension ) :
def add_arguments ( self , pars ) :
pars . add_argument ( ' -d ' , ' --hex_diameter ' , type = float , dest = ' HexDiameter ' )
pars . add_argument ( ' -c ' , ' --hex_margin ' , type = float , dest = ' HexMargin ' )
pars . add_argument ( ' -b ' , ' --bleed_margin ' , type = float , dest = ' BleedMargin ' )
pars . add_argument ( ' -p ' , ' --page_margin ' , type = float , dest = ' PageMargin ' )
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def effect ( self ) :
# find dimensions of page
pageWidth = self . svg . uutounit ( self . svg . width , " mm " )
pageHeight = self . svg . uutounit ( self . svg . height , " mm " )
opt = self . options
guideParent = self . document . xpath ( ' //sodipodi:namedview ' , namespaces = inkex . NSS ) [ 0 ]
### GUIDES
# remove all the existing guides
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[ node . delete ( ) for node in self . document . xpath ( ' //sodipodi:guide ' , namespaces = inkex . NSS ) ]
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# create the object generator
gen = HexGeneratorBase . CreateHexGenerator ( opt . HexDiameter , opt . HexMargin , opt . BleedMargin , pageWidth , pageHeight , opt . PageMargin , self . svg . unittouu )
gen . GenerateGuides ( guideParent )
### CROP MARKS
# remove any existing 'Crop marks' layer
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[ node . delete ( ) for node in self . document . xpath ( " //svg:g[@inkscape:label= ' Crop Marks ' ] " , namespaces = inkex . NSS ) ]
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svg = self . document . xpath ( ' //svg:svg ' , namespaces = inkex . NSS ) [ 0 ]
layer = etree . SubElement ( svg , inkex . addNS ( ' g ' , " svg " ) , { } )
layer . set ( inkex . addNS ( ' label ' , ' inkscape ' ) , " Crop Marks " )
layer . set ( inkex . addNS ( ' groupmode ' , ' inkscape ' ) , ' layer ' )
#layer.set(inkex.addNS('insensitive', 'sodipodi'), 'true')
gen . GenerateCropMarks ( layer )
if __name__ == ' __main__ ' :
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HexTiles ( ) . run ( )