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#!/usr/bin/env python3
import inkex
from inkex . bezier import csplength , csparea
from lxml import etree
import re
import math
import sys
from math import log
import datetime
class LaserCheck ( inkex . EffectExtension ) :
'''
ToDos :
- inx :
- set speed manually or pick machine ( epilog ) - travel and cut speed are prefilled then
- calculate cut estimation with linear or non - linear ( epilog ) speeds > select formula or like this
- select material ( parameters - > how to ? ? ? )
- add fields for additional costs like configuring the machine or grabbing parts out of the machine ( weeding ) , etc .
- add mode select : cut , engrave
- Handlungsempfehlungen einbauen
- verweisen auf diverse plugins , die man nutzen kann :
- migrate ungrouper
- pointy paths
- cleaner
- styles to layers
- apply transforms
- epilog bbox adjust
- wege zum Pfade fixen :
- cut slower ( > muss aber auch leistung reduzieren - inb welchem umfang ? )
- sort
- chaining with touching neighbours
- remove path
- remove modes / simplify
- find duplicate lines
- visualize results as a nice SVG rendered check list page with
- red / green / grey icons ( failed , done , skipped ) and calculate some scores
- preview image
- statistics
- export as PDF
- run as script to generate quick results for users
- check for old styles which should be upgraded ( cleanup styles tool )
- check for elements which have no style attribute ( should be created ) - > ( cleanup styles tool )
- self - intersecting paths
- number of parts ( isles ) to weed in total - this is an indicator for manually picking work ; if we add bridges we have less work
- number of parts which are smaller than vector grid
- add some inkex . Desc to all elements which were checked and which have some issue . use special syntax to remove old stuff each time the check is applied again
- this code is horrible ugly stuff
- output time / cost estimations per stroke color
'''
def add_arguments ( self , pars ) :
pars . add_argument ( ' --tab ' )
pars . add_argument ( ' --machine_size ' , default = " 812x508 " )
pars . add_argument ( ' --max_cutting_speed ' , type = float , default = 120.0 )
pars . add_argument ( ' --max_travel_speed ' , type = float , default = 450.0 )
pars . add_argument ( ' --job_time_offset ' , type = float , default = 0.0 )
pars . add_argument ( ' --price_per_minute_gross ' , type = float , default = 2.0 )
pars . add_argument ( ' --vector_grid_xy ' , type = float , default = 12.0 ) #TODO
pars . add_argument ( ' --co2_power ' , type = float , default = 60.0 ) #TODO
pars . add_argument ( ' --round_times ' , type = inkex . Boolean , default = True )
pars . add_argument ( ' --show_issues_only ' , type = inkex . Boolean , default = False )
pars . add_argument ( ' --checks ' , default = " check_all " )
pars . add_argument ( ' --bbox ' , type = inkex . Boolean , default = False )
pars . add_argument ( ' --bbox_offset ' , type = float , default = 5.000 )
pars . add_argument ( ' --cutting_estimation ' , type = inkex . Boolean , default = False )
pars . add_argument ( ' --cutting_speedfactors ' , default = " 100 90 80 70 60 50 40 30 20 10 9 8 7 6 5 4 3 2 1 " )
pars . add_argument ( ' --elements_outside_canvas ' , type = inkex . Boolean , default = False )
pars . add_argument ( ' --groups_and_layers ' , type = inkex . Boolean , default = False )
pars . add_argument ( ' --nest_depth_max ' , type = int , default = 2 )
pars . add_argument ( ' --clones ' , type = inkex . Boolean , default = False )
pars . add_argument ( ' --clippaths ' , type = inkex . Boolean , default = False )
pars . add_argument ( ' --images ' , type = inkex . Boolean , default = False )
pars . add_argument ( ' --texts ' , type = inkex . Boolean , default = False )
pars . add_argument ( ' --filters ' , type = inkex . Boolean , default = False )
pars . add_argument ( ' --lowlevelstrokes ' , type = inkex . Boolean , default = False )
pars . add_argument ( ' --style_types ' , type = inkex . Boolean , default = False )
pars . add_argument ( ' --stroke_colors ' , type = inkex . Boolean , default = False )
pars . add_argument ( ' --stroke_colors_max ' , type = int , default = 3 )
pars . add_argument ( ' --stroke_widths ' , type = inkex . Boolean , default = False )
pars . add_argument ( ' --stroke_widths_max ' , type = int , default = 1 )
pars . add_argument ( ' --stroke_opacities ' , type = inkex . Boolean , default = False )
pars . add_argument ( ' --cosmestic_dashes ' , type = inkex . Boolean , default = False )
pars . add_argument ( ' --invisible_shapes ' , type = inkex . Boolean , default = False )
pars . add_argument ( ' --pointy_paths ' , type = inkex . Boolean , default = False )
pars . add_argument ( ' --transformations ' , type = inkex . Boolean , default = False )
pars . add_argument ( ' --short_paths ' , type = inkex . Boolean , default = False )
pars . add_argument ( ' --short_paths_min ' , type = float , default = 1.000 )
pars . add_argument ( ' --non_path_shapes ' , type = inkex . Boolean , default = False )
pars . add_argument ( ' --nodes_per_path ' , type = inkex . Boolean , default = False )
pars . add_argument ( ' --nodes_per_path_max ' , type = int , default = 2 )
pars . add_argument ( ' --nodes_per_path_interval ' , type = float , default = 10.000 )
def effect ( self ) :
so = self . options
machineWidth = self . svg . unittouu ( so . machine_size . split ( ' x ' ) [ 0 ] + " mm " )
machineHeight = self . svg . unittouu ( so . machine_size . split ( ' x ' ) [ 1 ] + " mm " )
selected = [ ] #total list of elements to parse
def parseChildren ( element ) :
if element not in selected :
selected . append ( element )
children = element . getchildren ( )
if children is not None :
for child in children :
if child not in selected :
selected . append ( child )
parseChildren ( child ) #go deeper and deeper
#check if we have selected elements or if we should parse the whole document instead
if len ( self . svg . selected ) == 0 :
for element in self . document . getroot ( ) . iter ( tag = etree . Element ) :
if element != self . document . getroot ( ) :
selected . append ( element )
else :
for element in self . svg . selected . values ( ) :
parseChildren ( element )
namedView = self . document . getroot ( ) . find ( inkex . addNS ( ' namedview ' , ' sodipodi ' ) )
doc_units = namedView . get ( inkex . addNS ( ' document-units ' , ' inkscape ' ) )
user_units = namedView . get ( inkex . addNS ( ' units ' ) )
pagecolor = namedView . get ( ' pagecolor ' )
inkex . utils . debug ( " ---------- Default checks " )
inkex . utils . debug ( " Document units: {} " . format ( doc_units ) )
inkex . utils . debug ( " User units: {} " . format ( user_units ) )
'''
Check for scalings
> Page size is determined by SVG root ' width ' and ' height ' .
> ' viewBox ' defined in ' user units ' with the values : ( x offset , y - offset , width , height ) .
> Document scale is determined by ratio of ' width ' / ' height ' to ' viewBox ' .
'''
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inkscapeScale = self . svg . inkscape_scale #this is the "Scale:" value at "Display tab"
#docScale = self.svg.scale
#docWidth = self.svg.viewport_width
#docHeight = self.svg.viewport_height
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#inkex.utils.debug("Document scale (x/y)={:0.3f}".format(docScale))
#inkex.utils.debug("Document width={:0.3f}".format(docWidth))
vxMin , vyMin , vxMax , vyMax = self . svg . get_viewbox ( )
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#vxTotal = vxMax - vxMin
#vyTotal = vyMax - vyMin
#vScaleX = self.svg.unittouu(str(vxTotal / docWidth) + doc_units)
#vScaleXpx = self.svg.unittouu(str(vxTotal / docWidth) + "px")
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#vScaleY = vyTotal / docHeight #should/must be the same as vScaleX value
#inkex.utils.debug(vxTotal)
#inkex.utils.debug(vyTotal)
#inkex.utils.debug(vScaleY)
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#inkex.utils.debug("Document scale (x/y): {:0.5f}{} ({:0.5f}px)".format(vScaleX, doc_units, vScaleXpx))
#if round(vScaleX, 5) != 1.0:
# inkex.utils.debug("WARNING: Document scale not 100%!")
inkex . utils . debug ( " Document scale (x/y): {:0.5f} " . format ( inkscapeScale ) )
if round ( inkscapeScale , 5 ) != 1.0 :
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inkex . utils . debug ( " WARNING: Document scale not 100 % ! " )
scaleX = namedView . get ( ' scale-x ' )
if scaleX is not None :
inkex . utils . debug ( " WARNING: Document has scale-x attribute with value= {} " . format ( scaleX ) )
'''
The SVG format is highly complex and offers a lot of possibilities . Most things of SVG we do not
need for a laser cutter . Usually we need svg : path and maybe svg : image ; we can drop a lot of stuff
like svg : defs , svg : desc , gradients , etc .
'''
nonShapes = [ ]
shapes = [ ] #this may contains paths, rectangles, circles, groups and more
for element in selected :
if not isinstance ( element , inkex . ShapeElement ) :
nonShapes . append ( element )
else :
shapes . append ( element )
if so . show_issues_only is False :
inkex . utils . debug ( " {} shape elements in total " . format ( len ( shapes ) ) )
inkex . utils . debug ( " {} non-shape elements in total " . format ( len ( nonShapes ) ) )
for nonShape in nonShapes :
inkex . utils . debug ( " non-shape id= {} " . format ( nonShape . get ( ' id ' ) ) )
'''
Nearly each laser job needs a bit of border to place the material inside the laser . Often
we have to fixate on vector grid , pin grid or task plate . Thus we need tapes or pins . So we
leave some borders off the actual part geometries .
'''
if so . checks == " check_all " or so . bbox is True :
inkex . utils . debug ( " \n ---------- Borders around all elements - minimum offset {} mm from each side " . format ( so . bbox_offset ) )
bbox = inkex . BoundingBox ( )
for element in self . document . getroot ( ) . iter ( tag = etree . Element ) :
if element != self . document . getroot ( ) and isinstance ( element , inkex . ShapeElement ) and element . tag != inkex . addNS ( ' use ' , ' svg ' ) and element . get ( ' inkscape:groupmode ' ) != ' layer ' : #bbox fails for svg:use elements and layers
transform = inkex . Transform ( )
parent = element . getparent ( )
if parent is not None and isinstance ( parent , inkex . ShapeElement ) :
transform = parent . composed_transform ( )
try :
if isinstance ( element , inkex . TextElement ) or isinstance ( element , inkex . Tspan ) :
continue
else :
bbox + = element . bounding_box ( transform )
except Exception :
transform = element . composed_transform ( )
x1 , y1 = transform . apply_to_point ( [ 0 , 0 ] )
x2 , y2 = transform . apply_to_point ( [ 1 , 1 ] )
bbox + = inkex . BoundingBox ( ( x1 , x2 ) , ( y1 , y2 ) )
if abs ( bbox . width ) == math . inf or abs ( bbox . height ) == math . inf :
inkex . utils . debug ( " bounding box could not be calculated. SVG seems to be empty. " )
#else:
# inkex.utils.debug("bounding box is {}".format(bbox))
inkex . utils . debug ( " bounding box is {} " . format ( bbox ) )
page_width = self . svg . unittouu ( self . document . getroot ( ) . attrib [ ' width ' ] )
width_height = self . svg . unittouu ( self . document . getroot ( ) . attrib [ ' height ' ] )
fmm = self . svg . unittouu ( str ( so . bbox_offset ) + " mm " )
bb_left = round ( bbox . left , 3 )
bb_right = round ( bbox . right , 3 )
bb_top = round ( bbox . top , 3 )
bb_bottom = round ( bbox . bottom , 3 )
bb_width = round ( bbox . width , 3 )
bb_height = round ( bbox . height , 3 )
if bb_left > = fmm :
if so . show_issues_only is False :
inkex . utils . debug ( " left border... ok " )
else :
inkex . utils . debug ( " left border... fail: {:0.3f} mm " . format ( self . svg . uutounit ( bb_left , " mm " ) ) )
if bb_top > = fmm :
if so . show_issues_only is False :
inkex . utils . debug ( " top border... ok " )
else :
inkex . utils . debug ( " top border... fail: {:0.3f} mm " . format ( self . svg . uutounit ( bb_top , " mm " ) ) )
if bb_right + fmm < = page_width :
if so . show_issues_only is False :
inkex . utils . debug ( " right border... ok " )
else :
inkex . utils . debug ( " right border... fail: {:0.3f} mm " . format ( self . svg . uutounit ( bb_right , " mm " ) ) )
if bb_bottom + fmm < = width_height :
if so . show_issues_only is False :
inkex . utils . debug ( " bottom border... ok " )
else :
inkex . utils . debug ( " bottom border... fail: {:0.3f} mm " . format ( self . svg . uutounit ( bb_bottom , " mm " ) ) )
if bb_width < = machineWidth :
if so . show_issues_only is False :
inkex . utils . debug ( " page width... ok " )
else :
inkex . utils . debug ( " page width... fail: {:0.3f} mm " . format ( bb_width ) )
if bb_height < = machineHeight :
if so . show_issues_only is False :
inkex . utils . debug ( " page height... ok " )
else :
inkex . utils . debug ( " page height... fail: {:0.3f} mm " . format ( bb_height ) )
'''
We check for possible deep nested groups / layers , empty groups / layers or groups / layers with styles .
'''
if so . checks == " check_all " or so . groups_and_layers is True :
inkex . utils . debug ( " \n ---------- Groups and layers " )
global md
md = 0
def maxDepth ( element , level ) :
global md
if ( level == md ) :
md + = 1
for child in element :
maxDepth ( child , level + 1 )
maxDepth ( self . document . getroot ( ) , - 1 )
if so . show_issues_only is False :
inkex . utils . debug ( " Maximum group depth= {} " . format ( md - 1 ) )
if md - 1 > so . nest_depth_max :
inkex . utils . debug ( " Warning: maximum allowed group depth reached: {} " . format ( so . nest_depth_max ) )
groups = [ ]
layers = [ ]
for element in selected :
if element . tag == inkex . addNS ( ' g ' , ' svg ' ) :
if element . get ( ' inkscape:groupmode ' ) == ' layer ' :
layers . append ( element )
else :
groups . append ( element )
if so . show_issues_only is False :
inkex . utils . debug ( " {} groups in total " . format ( len ( groups ) ) )
inkex . utils . debug ( " {} layers in total " . format ( len ( layers ) ) )
#check for empty groups
for group in groups :
if len ( group ) == 0 :
inkex . utils . debug ( " id= {} is empty group " . format ( group . get ( ' id ' ) ) )
#check for empty layers
for layer in layers :
if len ( layer ) == 0 :
inkex . utils . debug ( " id= {} is empty layer " . format ( layer . get ( ' id ' ) ) )
'''
Style scheme in svg . We can style elements by . . .
- " style " attribute for elements like svg : path
- dedicated attributes for elements like svg : path
- " style " attributes or dedicated attributes at group level
- css class together with svg : style elements
For a cleaner file we should avoid to mess up . Best is to define styles
at svg : path level or using properly defined css classes
We can use " Cleanup Styles " and " Styles To Layers " extension to change this behaviour .
'''
if so . checks == " check_all " or so . style_types is True :
inkex . utils . debug ( " \n ---------- Style types " )
groupStyles = [ ]
svgStyleElements = [ ]
styleInNonGroupLayerShapes = [ ]
dedicatedStylesInNonGroupLayerShapes = [ ]
dedicatedStyleDict = [ ]
dedicatedStyleDict . extend ( [ ' opacity ' , ' stroke ' , ' stroke-opacity ' , ' stroke-width ' , ' stroke-dasharray ' , ' stroke-dashoffset ' , ' stroke-linecap ' , ' stroke-linejoin ' , ' stroke-miterlimit ' , ' fill ' , ' fill-opacity ' ] )
for element in selected :
if element . tag == inkex . addNS ( ' g ' , ' svg ' ) :
if element . style is not None and element . style != " " : #style may also be just empty (weird, but was validated on 21.12.2021)
groupStyles . append ( element )
if element . tag == inkex . addNS ( ' style ' , ' svg ' ) :
svgStyleElements . append ( element )
for element in shapes :
if element . tag != inkex . addNS ( ' g ' , ' svg ' ) :
if element . style is not None :
styleInNonGroupLayerShapes . append ( element )
for dedicatedStyleItem in dedicatedStyleDict :
if element . attrib . has_key ( str ( dedicatedStyleItem ) ) :
dedicatedStylesInNonGroupLayerShapes . append ( element )
if so . show_issues_only is False :
inkex . utils . debug ( " {} groups/layers with style in total " . format ( len ( groupStyles ) ) )
inkex . utils . debug ( " {} svg:style elements in total " . format ( len ( svgStyleElements ) ) )
inkex . utils . debug ( " {} shapes using style attribute in total " . format ( len ( svgStyleElements ) ) )
inkex . utils . debug ( " {} shapes using dedicated style attributes in total " . format ( len ( dedicatedStylesInNonGroupLayerShapes ) ) )
for groupStyle in groupStyles :
inkex . utils . debug ( " group id= {} has style " . format ( groupStyle . get ( ' id ' ) ) )
for svgStyleElement in svgStyleElements :
inkex . utils . debug ( " id= {} is svg:style element " . format ( svgStyleElement . get ( ' id ' ) ) )
for styleInNonGroupLayerShape in styleInNonGroupLayerShapes :
inkex . utils . debug ( " id= {} has style attribute " . format ( styleInNonGroupLayerShape . get ( ' id ' ) ) )
for dedicatedStylesInNonGroupLayerShape in dedicatedStylesInNonGroupLayerShapes :
inkex . utils . debug ( " id= {} used dedicated style attribute(s) " . format ( dedicatedStylesInNonGroupLayerShape . get ( ' id ' ) ) )
'''
Clones should be unlinked because they cause similar issues like transformations
'''
if so . checks == " check_all " or so . clones is True :
inkex . utils . debug ( " \n ---------- Clones (svg:use) - maybe unlink " )
uses = [ ]
for element in selected :
if element . tag == inkex . addNS ( ' use ' , ' svg ' ) :
uses . append ( element )
if so . show_issues_only is False :
inkex . utils . debug ( " {} svg:use clones in total " . format ( len ( uses ) ) )
for use in uses :
inkex . utils . debug ( " id= {} " . format ( use . get ( ' id ' ) ) )
'''
Clip paths are neat to visualize things , but they do not perform a real path cutting .
Please perform real intersections to have an intact target geometry .
'''
if so . checks == " check_all " or so . clippaths is True :
inkex . utils . debug ( " \n ---------- Clippings (svg:clipPath) - please replace with real cut paths " )
clipPaths = [ ]
for element in selected :
if element . tag == inkex . addNS ( ' clipPath ' , ' svg ' ) :
clipPaths . append ( element )
if so . show_issues_only is False :
inkex . utils . debug ( " {} svg:clipPath in total " . format ( len ( clipPaths ) ) )
for clipPath in clipPaths :
inkex . utils . debug ( " id= {} " . format ( clipPath . get ( ' id ' ) ) )
'''
Sometimes images look like vector but they are ' nt. In case you dont want to perform engraving, either
check to drop or trace to vector paths
'''
if so . checks == " check_all " or so . images is True :
inkex . utils . debug ( " \n ---------- Images (svg:image) - maybe trace to svg " )
images = [ ]
for element in selected :
if element . tag == inkex . addNS ( ' image ' , ' svg ' ) :
images . append ( element )
if so . show_issues_only is False :
inkex . utils . debug ( " {} svg:image in total " . format ( len ( images ) ) )
for image in images :
inkex . utils . debug ( " image id= {} " . format ( image . get ( ' id ' ) ) )
'''
Low level strokes cannot be properly edited in Inkscape ( no node handles ) . Converting helps
'''
if so . checks == " check_all " or so . lowlevelstrokes is True :
inkex . utils . debug ( " \n ---------- Low level strokes (svg:line/polyline/polygon) - maybe convert to path " )
lowlevels = [ ]
for element in selected :
if element . tag in ( inkex . addNS ( ' line ' , ' svg ' ) , inkex . addNS ( ' polyline ' , ' svg ' ) , inkex . addNS ( ' polygon ' , ' svg ' ) ) :
lowlevels . append ( element )
if so . show_issues_only is False :
inkex . utils . debug ( " {} low level strokes in total " . format ( len ( lowlevels ) ) )
for lowlevel in lowlevels :
inkex . utils . debug ( " id= {} " . format ( lowlevel . get ( ' id ' ) ) )
'''
Texts cause problems when sharing with other people . You must ensure that everyone has the
font files installed you used . Convert to paths avoids this issue and guarantees same result
everywhere .
'''
if so . checks == " check_all " or so . texts is True :
inkex . utils . debug ( " \n ---------- Texts (should be converted to paths) " )
texts = [ ]
for element in selected :
if element . tag == inkex . addNS ( ' text ' , ' svg ' ) :
texts . append ( element )
if so . show_issues_only is False :
inkex . utils . debug ( " {} svg:text in total " . format ( len ( texts ) ) )
for text in texts :
inkex . utils . debug ( " id= {} " . format ( text . get ( ' id ' ) ) )
'''
Filters on elements let Epilog Software Suite always think vectors should get to raster image data . That might be good sometimes ,
but not in usual case .
'''
if so . checks == " check_all " or so . filters is True :
inkex . utils . debug ( " \n ---------- Filters (should be removed to keep vector characterism) " )
filter_elements = [ ]
for element in selected :
if element . tag == inkex . addNS ( ' filter ' , ' svg ' ) :
filter_elements . append ( element )
filter_styles = [ ]
if so . show_issues_only is False :
inkex . utils . debug ( " {} filters (as svg:filter) in total " . format ( len ( filter_elements ) ) )
for filter_element in filter_elements :
inkex . utils . debug ( " id= {} " . format ( filter_element . get ( ' id ' ) ) )
for element in selected :
filter_style = [ element , element . style . get ( ' filter ' ) ]
if filter_style [ 1 ] is None or filter_style [ 1 ] == " none " :
filter_style [ 1 ] = " none "
if filter_style [ 1 ] != " none " and filter_style not in filter_styles :
filter_styles . append ( filter_style )
if so . show_issues_only is False :
inkex . utils . debug ( " {} filters (in styles) in total " . format ( len ( filter_styles ) ) )
for filter_style in filter_styles :
inkex . utils . debug ( " id= {} , filter= {} " . format ( filter_style [ 0 ] . get ( ' id ' ) , filter_style [ 1 ] ) )
'''
The more stroke colors the more laser job configuration is required . Reduce the SVG file
to a minimum of stroke colors to be quicker . Note that a None stroke might be same like #000000 but thats not guaranteed
'''
if so . checks == " check_all " or so . stroke_colors is True :
inkex . utils . debug ( " \n ---------- Stroke colors ( {} are allowed) " . format ( so . stroke_colors_max ) )
strokeColors = [ ]
for element in shapes :
strokeColor = element . style . get ( ' stroke ' )
if strokeColor not in strokeColors : #we also add None (default value is #000000 then) and "none" values.
strokeColors . append ( strokeColor )
if so . show_issues_only is False :
inkex . utils . debug ( " {} different stroke colors in total " . format ( len ( strokeColors ) ) )
if len ( strokeColors ) > so . stroke_colors_max :
for strokeColor in strokeColors :
inkex . utils . debug ( " stroke color {} " . format ( strokeColor ) )
'''
Different stroke widths might behave the same like different stroke colors . Reduce to a minimum set .
Ideally all stroke widths are set to 1 pixel .
'''
if so . checks == " check_all " or so . stroke_widths is True :
inkex . utils . debug ( " \n ---------- Stroke widths ( {} are allowed) " . format ( so . stroke_widths_max ) )
strokeWidths = [ ]
for element in shapes :
strokeWidth = element . style . get ( ' stroke-width ' )
if strokeWidth not in strokeWidths : #we also add None and "none" values. Default width for None value seems to be 1px
strokeWidths . append ( strokeWidth )
if so . show_issues_only is False :
inkex . utils . debug ( " {} different stroke widths in total " . format ( len ( strokeWidths ) ) )
if len ( strokeWidths ) > so . stroke_widths_max :
for strokeWidth in strokeWidths :
if strokeWidth is None :
inkex . utils . debug ( " stroke width default (system standard value) " )
elif strokeWidth == " none " :
inkex . utils . debug ( " stroke width none (invisible) " )
else :
swConverted = self . svg . uutounit ( float ( self . svg . unittouu ( strokeWidth ) ) ) #possibly w/o units. we unify to some internal float. The value "none" converts to 0.0
inkex . utils . debug ( " stroke width {} px ( {} mm) " . format (
round ( self . svg . uutounit ( swConverted , " px " ) , 4 ) ,
round ( self . svg . uutounit ( swConverted , " mm " ) , 4 ) ,
) )
'''
Cosmetic dashes cause simulation issues and are no real cut paths . It ' s similar to the thing
with clip paths . Please convert lines to real dash segments if you want to laser them .
'''
if so . checks == " check_all " or so . cosmestic_dashes is True :
inkex . utils . debug ( " \n ---------- Cosmetic dashes - should be converted to paths " )
strokeDasharrays = [ ]
for element in shapes :
strokeDasharray = element . style . get ( ' stroke-dasharray ' )
if strokeDasharray is not None and strokeDasharray != ' none ' and strokeDasharray not in strokeDasharrays :
strokeDasharrays . append ( strokeDasharray )
if so . show_issues_only is False :
inkex . utils . debug ( " {} different stroke dash arrays in total " . format ( len ( strokeDasharrays ) ) )
for strokeDasharray in strokeDasharrays :
inkex . utils . debug ( " stroke dash array {} " . format ( strokeDasharray ) )
'''
Shapes / paths with the same color like the background , 0 % opacity , etc . lead to strange
laser cutting results , like duplicated edges , enlarged laser times and more . Please double
check for such occurences .
Please transfer styles from layers / groups level to element level ! You can use " Cleanup Styles " extension to do that
'''
if so . checks == " check_all " or so . invisible_shapes is True :
inkex . utils . debug ( " \n ---------- Invisible shapes " )
invisibles = [ ]
for element in shapes :
if element . tag not in ( inkex . addNS ( ' tspan ' , ' svg ' ) ) and element . get ( ' inkscape:groupmode ' ) != ' layer ' and not isinstance ( element , inkex . Group ) :
strokeAttr = element . get ( ' stroke ' ) #same information could be in regular attribute instead nested in style attribute
if strokeAttr is None or strokeAttr == " none " :
strokeVis = 0
elif strokeAttr in ( ' #ffffff ' , ' white ' , ' rgb(255,255,255) ' ) :
strokeVis = 0
else :
strokeVis = 1
stroke = element . style . get ( ' stroke ' )
if stroke is not None :
if stroke == " none " :
strokeVis = 0
elif stroke in ( ' #ffffff ' , ' white ' , ' rgb(255,255,255) ' ) :
strokeVis = 0
else :
strokeVis = 1
strokeWidthAttr = element . get ( ' stroke-width ' ) #same information could be in regular attribute instead nested in style attribute
if strokeWidthAttr == " none " :
widthVis = 0
elif strokeWidthAttr is not None and self . svg . unittouu ( strokeWidthAttr ) < 0.005 : #really thin (0,005pc = 0,080px)
widthVis = 0
else :
widthVis = 1
stroke_width = element . style . get ( ' stroke-width ' )
if stroke_width is not None :
if stroke_width == " none " :
widthVis = 0
elif stroke_width is not None and self . svg . unittouu ( stroke_width ) < 0.005 : #really thin (0,005pc = 0,080px)
widthVis = 0
else :
widthVis = 1
strokeOpacityAttr = element . get ( ' stroke-opacity ' ) #same information could be in regular attribute instead nested in style attribute
if strokeOpacityAttr == " none " :
strokeOpacityVis = 0
elif strokeOpacityAttr is not None and self . svg . unittouu ( strokeOpacityAttr ) < 0.05 : #nearly invisible (<5% opacity)
strokeOpacityVis = 0
else :
strokeOpacityVis = 1
stroke_opacity = element . style . get ( ' stroke-opacity ' )
if stroke_opacity is not None :
if stroke_opacity == " none " : #none means visible!
strokeOpacityVis = 1
elif stroke_opacity is not None and self . svg . unittouu ( stroke_opacity ) < 0.05 : #nearly invisible (<5% opacity)
strokeOpacityVis = 0
else :
strokeOpacityVis = 1
if pagecolor == ' #ffffff ' :
invisColors = [ pagecolor , ' white ' , ' rgb(255,255,255) ' ]
else :
invisColors = [ pagecolor ] #we could add some parser to convert pagecolor to rgb/hsl/cmyk
fillAttr = element . get ( ' fill ' ) #same information could be in regular attribute instead nested in style attribute
if fillAttr is None or fillAttr == " none " :
fillVis = 0
elif fillAttr in invisColors :
fillVis = 0
else :
fillVis = 1
fill = element . style . get ( ' fill ' )
if fill is not None :
if fill == " none " : #none means invisible! (opposite of stroke behaviour)
fillVis = 0
elif fill in invisColors :
fillVis = 0
else :
fillVis = 1
fillOpacityAttr = element . get ( ' fill-opacity ' ) #same information could be in regular attribute instead nested in style attribute
if fillOpacityAttr == " none " :
fillOpacityVis = 0
elif strokeOpacityAttr is not None and self . svg . unittouu ( fillOpacityAttr ) < 0.05 : #nearly invisible (<5% opacity)
fillOpacityVis = 0
else :
fillOpacityVis = 1
fill_opacity = element . style . get ( ' fill-opacity ' )
if fill_opacity is not None :
if fill_opacity == " none " :
fillOpacityVis = 0
elif fill_opacity is not None and self . svg . unittouu ( fill_opacity ) < 0.05 : #nearly invisible (<5% opacity)
fillOpacityVis = 0
else :
fillOpacityVis = 1
display = element . style . get ( ' display ' )
if display == " none " :
displayVis = 0
else :
displayVis = 1
displayAttr = element . get ( ' display ' ) #same information could be in regular attribute instead nested in style attribute
if displayAttr == " none " :
displayAttrVis = 0
else :
displayAttrVis = 1
#check for svg:path elements which have consistent slope (straight lines) and no a defined fill and no stroke. such (poly)lines are still not visible
pathVis = 1
if element . tag == inkex . addNS ( ' path ' , ' svg ' ) and fillVis == 1 and strokeVis == 0 :
segments = element . path . to_arrays ( )
chars = set ( ' aAcCqQtTsS ' )
if not any ( ( c in chars ) for c in str ( element . path ) ) : #skip beziers (we only check for polylines)
slopes = [ ]
for i in range ( 0 , len ( segments ) ) :
if i > 0 :
if segments [ i ] [ 0 ] . lower ( ) == ' z ' or segments [ i - 1 ] [ 0 ] . lower ( ) == ' z ' :
continue #skip closed contours in combined path
x1 , y1 , x2 , y2 = segments [ i - 1 ] [ 1 ] [ 0 ] , segments [ i - 1 ] [ 1 ] [ 1 ] , segments [ i ] [ 1 ] [ 0 ] , segments [ i ] [ 1 ] [ 1 ]
if x1 < x2 :
p0 = [ x1 , y1 ]
p1 = [ x2 , y2 ]
else :
p0 = [ x2 , y2 ]
p1 = [ x1 , y1 ]
dx = p1 [ 0 ] - p0 [ 0 ]
if dx == 0 :
slope = sys . float_info . max #vertical
else :
slope = ( p1 [ 1 ] - p0 [ 1 ] ) / dx
slope = round ( slope , 6 )
if slope not in slopes :
slopes . append ( slope )
if len ( slopes ) < 2 :
pathVis = 0
if element . style is not None : #f if the style attribute is not set at all, the element will be visible with default black color fill and w/o stroke
if ( strokeVis == 0 or widthVis == 0 or strokeOpacityVis == 0 ) :
strokeInvis = True
else :
strokeInvis = False
if ( fillVis == 0 or fillOpacityVis == 0 ) :
fillInvis = True
else :
fillInvis = False
flags = " id= {} ,strokeVis= {} ,widthVis= {} ,strokeOpacityVis= {} =>strokeInvisble: {} |fillVis= {} ,fillOpacityVis= {} =>fillInvisble: {} |displayVis= {} ,displayAttrVis=, {} |pathVis= {} " \
. format ( element . get ( ' id ' ) , strokeVis , widthVis , strokeOpacityVis , strokeInvis , fillVis , fillOpacityVis , fillInvis , displayVis , displayAttrVis , pathVis )
if strokeInvis is True and fillInvis is True :
if element not in invisibles :
invisibles . append ( flags )
if displayVis == 0 or displayAttrVis == 0 :
if element not in invisibles :
invisibles . append ( flags )
if pathVis == 0 :
if element not in invisibles :
invisibles . append ( flags )
if so . show_issues_only is False :
inkex . utils . debug ( " {} invisible shapes in total " . format ( len ( invisibles ) ) )
for invisible in invisibles :
inkex . utils . debug ( invisible )
'''
Additionally , stroke opacities less than 1.0 cause problems in most laser softwares . Please
adjust all strokes to use full opacity .
'''
if so . checks == " check_all " or so . stroke_opacities is True :
inkex . utils . debug ( " \n ---------- Objects with stroke transparencies < 1.0 - should be set to 1.0 " )
transparencies = [ ]
2023-12-26 23:42:54 +01:00
for element in shapes :
strokeOpacityAttr = element . get ( ' stroke-opacity ' ) #same information could be in regular attribute instead nested in style attribute
if strokeOpacityAttr is not None and strokeOpacityAttr not in transparencies :
if float ( strokeOpacityAttr ) < 1.0 :
transparencies . append ( [ element , strokeOpacityAttr ] )
2022-11-06 01:33:32 +01:00
stroke_opacity = element . style . get ( ' stroke-opacity ' )
2023-12-26 23:42:54 +01:00
if stroke_opacity is not None and stroke_opacity not in transparencies :
2022-11-06 01:33:32 +01:00
if stroke_opacity != " none " :
if float ( stroke_opacity ) < 1.0 :
transparencies . append ( [ element , stroke_opacity ] )
if so . show_issues_only is False :
inkex . utils . debug ( " {} objects with stroke transparencies < 1.0 in total " . format ( len ( transparencies ) ) )
for transparency in transparencies :
inkex . utils . debug ( " id= {} , transparency= {} " . format ( transparency [ 0 ] . get ( ' id ' ) , transparency [ 1 ] ) )
'''
We look for paths which are just points . Those are useless in case of lasercutting .
Note : this scan only works for paths , not for subpaths . If so , you need to break apart before
'''
if so . checks == " check_all " or so . pointy_paths is True :
inkex . utils . debug ( " \n ---------- Pointy paths - should be deleted " )
pointyPaths = [ ]
for element in shapes :
if isinstance ( element , inkex . PathElement ) :
p = element . path
commandsCoords = p . to_arrays ( )
if len ( commandsCoords ) == 1 or \
( len ( commandsCoords ) == 2 and commandsCoords [ 0 ] [ 1 ] == commandsCoords [ 1 ] [ 1 ] ) or \
( len ( commandsCoords ) == 2 and commandsCoords [ - 1 ] [ 0 ] == ' Z ' ) or \
( len ( commandsCoords ) == 3 and commandsCoords [ 0 ] [ 1 ] == commandsCoords [ 1 ] [ 1 ] and commandsCoords [ 2 ] [ 1 ] == ' Z ' ) :
pointyPaths . append ( element )
if so . show_issues_only is False :
inkex . utils . debug ( " {} pointy paths in total " . format ( len ( pointyPaths ) ) )
for pointyPath in pointyPaths :
inkex . utils . debug ( " id= {} " . format ( pointyPath . get ( ' id ' ) ) )
'''
Transformations often lead to wrong stroke widths or mis - rendering in end software . The best we
can do with a final SVG is to remove all relative translations , rotations and scalings . We should
apply absolute coordinates only .
'''
if so . checks == " check_all " or so . transformations is True :
inkex . utils . debug ( " \n ---------- Transformations - should be applied to absolute " )
transformations = [ ]
for element in shapes :
if element . get ( ' transform ' ) is not None :
transformations . append ( element )
if so . show_issues_only is False :
inkex . utils . debug ( " {} transformation in total " . format ( len ( transformations ) ) )
for transformation in transformations :
inkex . utils . debug ( " transformation in id= {} " . format ( transformation . get ( ' id ' ) ) )
'''
Really short paths can cause issues with laser cutter mechanics and should be avoided to
have healthier stepper motor belts , etc .
'''
if so . checks == " check_all " or so . short_paths is True :
inkex . utils . debug ( " \n ---------- Short paths (< {} mm) " . format ( so . short_paths_min ) )
shortPaths = [ ]
totalLength = 0
totalDropLength = 0
for element in shapes :
if isinstance ( element , inkex . PathElement ) :
slengths , stotal = csplength ( element . path . transform ( element . composed_transform ( ) ) . to_superpath ( ) )
totalLength + = stotal
if stotal < self . svg . unittouu ( str ( so . short_paths_min ) + " mm " ) :
shortPaths . append ( [ element , stotal ] )
totalDropLength + = stotal
if so . show_issues_only is False :
inkex . utils . debug ( " {} short paths in total " . format ( len ( shortPaths ) ) )
if totalDropLength > 0 :
inkex . utils . debug ( " {:0.2f} % o f total ( {:0.2f} mm / {:0.2f} mm) " . format ( totalDropLength / totalLength , self . svg . uutounit ( str ( totalDropLength ) , " mm " ) , self . svg . uutounit ( str ( totalLength ) , " mm " ) ) )
for shortPath in shortPaths :
inkex . utils . debug ( " id= {} , length= {} mm " . format ( shortPath [ 0 ] . get ( ' id ' ) , round ( self . svg . uutounit ( str ( shortPath [ 1 ] ) , " mm " ) , 3 ) ) )
'''
Really short paths can cause issues with laser cutter mechanics and should be avoided to
have healthier stepper motor belts , etc .
Peck Sidara from Epilog :
" Most of the acceleration of speed occurs from the 1-20 % r ange, there is a difference between say 30 % a nd 90 %s peed
but due to the many variables ( length of nodes , shape and contour of nodes ) , you may not see a noticable difference in time .
Additional variables include acceleration , deceleration and how our laser handles / translates the vector data . "
'''
if so . checks == " check_all " or so . cutting_estimation is True :
inkex . utils . debug ( " \n ---------- Cutting time estimation (Epilog Lasers) " )
totalCuttingLength = 0
totalTravelLength = 0
cuttingPathCount = 0
travelPathCount = 0
for element in shapes :
if isinstance ( element , inkex . PathElement ) :
slengths , stotal = csplength ( element . path . transform ( element . composed_transform ( ) ) . to_superpath ( ) )
if " -travelLine " in element . get ( ' id ' ) : #we use that id scheme together with the extension "Draw Directions / Travel Moves"
totalTravelLength + = stotal
travelPathCount + = 1
elif " markerId- " in element . get ( ' id ' ) :
pass #we skip the path "markerId-<nr>", possibly generated by the extension "Draw Directions / Travel Moves
else :
totalCuttingLength + = stotal
cuttingPathCount + = 1
totalLength = totalCuttingLength + totalTravelLength
v_travel = so . max_travel_speed #this is always at maximum
inkex . utils . debug ( " total cutting paths= {} " . format ( cuttingPathCount ) )
inkex . utils . debug ( " total travel paths= {} " . format ( travelPathCount ) )
inkex . utils . debug ( " (measured) cutting length (mm) = {:0.2f} mm " . format ( self . svg . uutounit ( str ( totalCuttingLength ) , " mm " ) , self . svg . uutounit ( str ( totalCuttingLength ) , " mm " ) ) )
inkex . utils . debug ( " (measured) travel length (mm) = {:0.2f} mm " . format ( self . svg . uutounit ( str ( totalTravelLength ) , " mm " ) , self . svg . uutounit ( str ( totalTravelLength ) , " mm " ) ) )
inkex . utils . debug ( " (measured) total length (mm) = {:0.2f} mm " . format ( self . svg . uutounit ( str ( totalLength ) , " mm " ) , self . svg . uutounit ( str ( totalLength ) , " mm " ) ) )
inkex . utils . debug ( " travel speed= {:06.2f} mm/s " . format ( v_travel ) )
''' from https://www.epiloglaser.com/assets/downloads/fusion-material-settings.pdf
" Speed Settings: The speed setting scale of 1 % to 100 % i s not linear –
i . e . 100 % speed will not be twice as fast as 50 % speed . This non - linear
scale is very useful in compensating for the different factors that affect engraving time . "
'''
speedFactors = [ ]
try :
for speed in re . findall ( r " [+]? \ d* \ . \ d+| \ d+ " , self . options . cutting_speedfactors ) : #allow only positive values
if float ( speed ) > 0 :
speedFactors . append ( float ( speed ) )
speedFactors = sorted ( speedFactors ) [ : : - 1 ]
except :
inkex . utils . debug ( " Error parsing cutting estimation speeds. Please try again! " )
exit ( 1 )
for speedFactor in speedFactors :
speedFactorR = speedFactor / 100.0
adjusted_speed = 480.0 / so . max_cutting_speed #empiric - found out by trying for hours ...
empiric_scale = 1 + ( speedFactorR * * 2 ) / 15.25 #empiric - found out by trying for hours ...
v_cut = so . max_cutting_speed * speedFactorR
tsec_cut = ( self . svg . uutounit ( str ( totalCuttingLength ) ) / ( adjusted_speed * so . max_cutting_speed * speedFactorR ) ) * empiric_scale
tsec_travel = self . svg . uutounit ( str ( totalTravelLength ) ) / v_travel
tsec_total = so . job_time_offset + tsec_cut + tsec_travel
minutes , seconds = divmod ( tsec_total , 60 ) # split the seconds to minutes and seconds
seconds_for_price = seconds
#round seconds up to 30 or 60
if so . round_times is True :
if seconds_for_price < 30 :
seconds_for_price = 30
if seconds_for_price > 30 and seconds_for_price != 60 :
seconds_for_price = 60
partial_minutes = round ( seconds_for_price / 60 * 2 ) / 2
costs = so . price_per_minute_gross * ( minutes + partial_minutes )
if " {:02.0f} " . format ( seconds ) == " 60 " : #for formatting reasons
seconds = 0
minutes + = 1
inkex . utils . debug ( " @ {:05.1f} % (cut= {:06.2f} mm/s > {:03.0f} min {:02.0f} sec | cost= {:02.0f} € " . format ( speedFactor , v_cut , minutes , seconds , costs ) )
''' Measurements from Epilog Software Suite
We are using a huge SVG graphic with 100 meters ( = 100.000 mm ) of lines .
The following speeds are getting precalculated ( travel moves = 0 mm ) :
@ 100 % = 13 : 45 = 825 s - > 121 , 21 mm / s
@ 090 % = 15 : 12 = 912 s - > 109 , 65 mm / s
@ 080 % = 17 : 01 = 1021 s - > 97 , 94 mm / s
@ 070 % = 19 : 21 = 1161 s - > 86 , 13 mm / s
@ 060 % = 22 : 28 = 1348 s - > 74 , 18 mm / s
@ 050 % = 26 : 49 = 1609 s - > 62 , 15 mm / s
@ 040 % = 33 : 21 = 2001 s - > 49 , 98 mm / s
@ 030 % = 44 : 13 = 2653 s - > 37 , 69 mm / s
@ 020 % = 65 : 51 = 3951 s - > 25 , 31 mm / s
@ 010 % = 130 : 52 = 7852 s - > 12 , 74 mm / s
@ 009 % = 145 : 21 = 8721 s - > 11 , 47 mm / s
@ 008 % = 163 : 27 = 9807 s - > 10 , 20 mm / s
@ 007 % = 186 : 44 = 11204 s - > 8 , 93 mm / s
@ 006 % = 217 : 48 = 13068 s - > 7 , 65 mm / s
@ 005 % = 261 : 18 = 15678 s - > 6 , 38 mm / s
@ 004 % = 326 : 34 = 19594 s - > 5 , 10 mm / s
@ 003 % = 435 : 21 = 26121 s - > 3 , 83 mm / s
@ 002 % = 652 : 57 = 39177 s - > 2 , 55 mm / s
@ 001 % = 1305 : 49 = 78349 s - > 1 , 28 mm / s
It does not matter how slow we configure the laser , the job time estimation always has the same amount of travel time
( if we have some travel moves to perform ) , so the travel speed is always constant . The max . travel speed of Fusion Pro 32
is between 425 mm / s and 460 mm / s ( measured by Mario by hand at different laser jobs ) .
If the laser is in X = 0 Y = 0 the jobs needs ~ 2 seconds to start moving and firing the laser . We use this as constant offset
'''
'''
Paths with a high amount of nodes will cause issues because each node means slowing down / speeding up the laser mechanics
'''
if so . checks == " check_all " or so . nodes_per_path is True :
inkex . utils . debug ( " \n ---------- Heavy node-loaded paths (allowed: {} node(s) per {} mm) - should be simplified " . format ( so . nodes_per_path_max , round ( so . nodes_per_path_interval , 3 ) ) )
heavyPaths = [ ]
for element in shapes :
if isinstance ( element , inkex . PathElement ) :
slengths , stotal = csplength ( element . path . transform ( element . composed_transform ( ) ) . to_superpath ( ) )
nodes = len ( element . path )
if stotal > 0 : #ignore pointy paths, which might generate zero length paths. Use the pointy path check to find them!
if nodes / stotal > so . nodes_per_path_max / self . svg . unittouu ( str ( so . nodes_per_path_interval ) + " mm " ) :
heavyPaths . append ( [ element , nodes , stotal ] )
if so . show_issues_only is False :
inkex . utils . debug ( " {} Heavy node-loaded paths in total " . format ( len ( heavyPaths ) ) )
for heavyPath in heavyPaths :
inkex . utils . debug ( " id= {} , nodes= {} , length= {} mm, density= {} nodes/mm " . format (
heavyPath [ 0 ] . get ( ' id ' ) ,
heavyPath [ 1 ] ,
round ( self . svg . uutounit ( str ( heavyPath [ 2 ] ) , " mm " ) , 3 ) ,
round ( heavyPath [ 1 ] / self . svg . uutounit ( str ( heavyPath [ 2 ] ) , " mm " ) , 3 )
)
)
'''
Elements outside canvas or touching the border . These are critical because they won ' t be lasered or not correctly lasered
'''
if so . checks == " check_all " or so . elements_outside_canvas is True :
inkex . utils . debug ( " \n ---------- Elements outside canvas or touching the border " )
elementsOutside = [ ]
for element in shapes :
if element . tag != inkex . addNS ( ' g ' , ' svg ' ) :
ebbox = element . bounding_box ( element . composed_transform ( ) )
if ebbox is not None : #pointy paths for example could generate non-bbox shapes. So we ignore them here
precision = 3
#inkex.utils.debug("{} | bbox: left = {:0.3f} right = {:0.3f} top = {:0.3f} bottom = {:0.3f}".format(element.get('id'), ebbox.left, ebbox.right, ebbox.top, ebbox.bottom))
#pagew = round(self.svg.unittouu(self.svg.get('width')), precision)
#pageh = round(self.svg.unittouu(self.svg.get('height')), precision)
vxMin , vyMin , vxMax , vyMax = self . svg . get_viewbox ( )
pagew = round ( vxMax - vxMin , precision )
pageh = round ( vyMax - vyMin , precision )
if round ( ebbox . right , precision ) == 0 or \
round ( ebbox . left , precision ) == pagew or \
round ( ebbox . top , precision ) == 0 or \
round ( ebbox . bottom , precision ) == pageh :
elementsOutside . append ( [ element , " touching " ] )
elif \
round ( ebbox . right , precision ) < 0 or \
round ( ebbox . left , precision ) > pagew or \
round ( ebbox . top , precision ) < 0 or \
round ( ebbox . bottom , precision ) > pageh :
elementsOutside . append ( [ element , " fully outside " ] )
else : #fully inside or partially inside/outside. we check if one or more corners is outside the canvas
rightOutside = False
leftOutside = False
topOutside = False
bottomOutside = False
if round ( ebbox . right , precision ) < 0 or round ( ebbox . right , precision ) > pagew :
rightOutside = True
if round ( ebbox . left , precision ) < 0 or round ( ebbox . left , precision ) > pagew :
leftOutside = True
if round ( ebbox . top , precision ) < 0 or round ( ebbox . top , precision ) > pageh :
topOutside = True
if round ( ebbox . bottom , precision ) < 0 or round ( ebbox . bottom , precision ) > pageh :
bottomOutside = True
if rightOutside is True or leftOutside is True or topOutside is True or bottomOutside is True :
elementsOutside . append ( [ element , " partially outside " ] )
if so . show_issues_only is False :
inkex . utils . debug ( " {} Elements outside canvas or touching the border in total " . format ( len ( elementsOutside ) ) )
for elementOutside in elementsOutside :
inkex . utils . debug ( " id= {} , status= {} " . format (
elementOutside [ 0 ] . get ( ' id ' ) ,
elementOutside [ 1 ]
)
)
'''
Shapes like rectangles , ellipses , arcs , spirals should be converted to svg : path to have more
convenience in the file
'''
if so . checks == " check_all " or so . non_path_shapes is True :
inkex . utils . debug ( " \n ---------- Non-path shapes - should be converted to paths " )
nonPathShapes = [ ]
for element in shapes :
if not isinstance ( element , inkex . PathElement ) and not isinstance ( element , inkex . Group ) :
nonPathShapes . append ( element )
if so . show_issues_only is False :
inkex . utils . debug ( " {} non-path shapes in total " . format ( len ( nonPathShapes ) ) )
for nonPathShape in nonPathShapes :
inkex . utils . debug ( " id= {} " . format ( nonPathShape . get ( ' id ' ) ) )
exit ( 0 )
if __name__ == ' __main__ ' :
LaserCheck ( ) . run ( )
