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package Slic3r::Print ;
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use strict ;
use warnings ;
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use File::Basename qw( basename fileparse ) ;
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use File::Spec ;
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use List::Util qw( min max first sum ) ;
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use Slic3r::ExtrusionPath ':roles' ;
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use Slic3r::Flow ':roles' ;
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use Slic3r::Geometry qw( X Y Z X1 Y1 X2 Y2 MIN MAX PI scale unscale chained_path
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convex_hull ) ;
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use Slic3r::Geometry::Clipper qw( diff_ex union_ex intersection_ex intersection offset
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offset2 union union_pt_chained JT_ROUND JT_SQUARE ) ;
use Slic3r::Print::State ':steps' ;
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our $ status_cb ;
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sub new {
# TODO: port PlaceholderParser methods to C++, then its own constructor
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# can call them and no need for this new() method at all
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my ( $ class ) = @ _ ;
my $ self = $ class - > _new ;
$ self - > placeholder_parser - > apply_env_variables ;
$ self - > placeholder_parser - > update_timestamp ;
return $ self ;
}
sub set_status_cb {
my ( $ class , $ cb ) = @ _ ;
$ status_cb = $ cb ;
}
sub status_cb {
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return $ status_cb // sub { } ;
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}
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sub reload_object {
my ( $ self , $ obj_idx ) = @ _ ;
# TODO: this method should check whether the per-object config and per-material configs
# have changed in such a way that regions need to be rearranged or we can just apply
# the diff and invalidate something. Same logic as apply_config()
# For now we just re-add all objects since we haven't implemented this incremental logic yet.
# This should also check whether object volumes (parts) have changed.
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my @ models_objects = map $ _ - > model_object , @ { $ self - > objects } ;
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$ self - > clear_objects ;
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$ self - > add_model_object ( $ _ ) for @ models_objects ;
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}
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# this value is not supposed to be compared with $layer->id
# since they have different semantics
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sub total_layer_count {
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my $ self = shift ;
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return max ( map $ _ - > total_layer_count , @ { $ self - > objects } ) ;
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}
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# the bounding box of objects placed in copies position
# (without taking skirt/brim/support material into account)
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sub bounding_box {
my $ self = shift ;
my @ points = ( ) ;
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foreach my $ object ( @ { $ self - > objects } ) {
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foreach my $ copy ( @ { $ object - > _shifted_copies } ) {
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push @ points ,
[ $ copy - > [ X ] , $ copy - > [ Y ] ] ,
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[ $ copy - > [ X ] + $ object - > size - > [ X ] , $ copy - > [ Y ] + $ object - > size - > [ Y ] ] ;
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}
}
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return Slic3r::Geometry::BoundingBox - > new_from_points ( [ map Slic3r::Point - > new ( @$ _ ) , @ points ] ) ;
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}
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# the total bounding box of extrusions, including skirt/brim/support material
sub total_bounding_box {
my ( $ self ) = @ _ ;
# get objects bounding box
my $ bb = $ self - > bounding_box ;
# check how much we need to increase it
my $ extra = 0 ;
if ( $ self - > has_support_material ) {
$ extra = & Slic3r::Print::SupportMaterial:: MARGIN ;
}
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$ extra = max ( $ extra , $ self - > config - > brim_width ) ;
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if ( $ self - > config - > skirts > 0 ) {
my $ skirt_flow = $ self - > skirt_flow ;
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$ extra = max ( $ extra , $ self - > config - > brim_width + $ self - > config - > skirt_distance + ( $ self - > config - > skirts * $ skirt_flow - > spacing ) ) ;
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}
if ( $ extra > 0 ) {
$ bb - > offset ( scale $ extra ) ;
}
return $ bb ;
}
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sub size {
my $ self = shift ;
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return $ self - > bounding_box - > size ;
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}
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sub process {
my ( $ self ) = @ _ ;
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$ _ - > make_perimeters for @ { $ self - > objects } ;
$ _ - > infill for @ { $ self - > objects } ;
$ _ - > generate_support_material for @ { $ self - > objects } ;
$ self - > make_skirt ;
$ self - > make_brim ; # must come after make_skirt
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# time to make some statistics
if ( 0 ) {
eval "use Devel::Size" ;
print "MEMORY USAGE:\n" ;
printf " meshes = %.1fMb\n" , List::Util:: sum ( map Devel::Size:: total_size ( $ _ - > meshes ) , @ { $ self - > objects } ) /1024/ 1024 ;
printf " layer slices = %.1fMb\n" , List::Util:: sum ( map Devel::Size:: total_size ( $ _ - > slices ) , map @ { $ _ - > layers } , @ { $ self - > objects } ) /1024/ 1024 ;
printf " region slices = %.1fMb\n" , List::Util:: sum ( map Devel::Size:: total_size ( $ _ - > slices ) , map @ { $ _ - > regions } , map @ { $ _ - > layers } , @ { $ self - > objects } ) /1024/ 1024 ;
printf " perimeters = %.1fMb\n" , List::Util:: sum ( map Devel::Size:: total_size ( $ _ - > perimeters ) , map @ { $ _ - > regions } , map @ { $ _ - > layers } , @ { $ self - > objects } ) /1024/ 1024 ;
printf " fills = %.1fMb\n" , List::Util:: sum ( map Devel::Size:: total_size ( $ _ - > fills ) , map @ { $ _ - > regions } , map @ { $ _ - > layers } , @ { $ self - > objects } ) /1024/ 1024 ;
printf " print object = %.1fMb\n" , Devel::Size:: total_size ( $ self ) /1024/ 1024 ;
}
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if ( 0 ) {
eval "use Slic3r::Test::SectionCut" ;
Slic3r::Test::SectionCut - > new ( print = > $ self ) - > export_svg ( "section_cut.svg" ) ;
}
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}
sub export_gcode {
my $ self = shift ;
my % params = @ _ ;
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# prerequisites
$ self - > process ;
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# output everything to a G-code file
my $ output_file = $ self - > expanded_output_filepath ( $ params { output_file } ) ;
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$ self - > status_cb - > ( 90 , "Exporting G-code" . ( $ output_file ? " to $output_file" : "" ) ) ;
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$ self - > write_gcode ( $ params { output_fh } || $ output_file ) ;
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# run post-processing scripts
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if ( @ { $ self - > config - > post_process } ) {
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$ self - > status_cb - > ( 95 , "Running post-processing scripts" ) ;
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$ self - > config - > setenv ;
for ( @ { $ self - > config - > post_process } ) {
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Slic3r:: debugf " '%s' '%s'\n" , $ _ , $ output_file ;
system ( $ _ , $ output_file ) ;
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}
}
}
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sub export_svg {
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my $ self = shift ;
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my % params = @ _ ;
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# is this needed?
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$ self - > init_extruders ;
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$ _ - > slice for @ { $ self - > objects } ;
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my $ fh = $ params { output_fh } ;
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if ( ! $ fh ) {
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my $ output_file = $ self - > expanded_output_filepath ( $ params { output_file } ) ;
$ output_file =~ s/\.gcode$/.svg/i ;
Slic3r:: open ( \ $ fh , ">" , $ output_file ) or die "Failed to open $output_file for writing\n" ;
print "Exporting to $output_file..." unless $ params { quiet } ;
}
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my $ print_size = $ self - > size ;
print $ fh sprintf << "EOF" , unscale ( $ print_size - > [ X ] ) , unscale ( $ print_size - > [ Y ] ) ;
< ? xml version = "1.0" encoding = "UTF-8" standalone = "yes" ? >
< ! DOCTYPE svg PUBLIC "-//W3C//DTD SVG 1.0//EN" "http://www.w3.org/TR/2001/REC-SVG-20010904/DTD/svg10.dtd" >
< svg width = "%s" height = "%s" xmlns = "http://www.w3.org/2000/svg" xmlns:svg = "http://www.w3.org/2000/svg" xmlns:xlink = "http://www.w3.org/1999/xlink" xmlns:slic3r = "http://slic3r.org/namespaces/slic3r" >
< ! - -
Generated using Slic3r $ Slic3r:: VERSION
http: //s lic3r . org /
- - >
EOF
my $ print_polygon = sub {
my ( $ polygon , $ type ) = @ _ ;
printf $ fh qq{ <polygon slic3r:type="%s" points="%s" style="fill: %s" /> \ n } ,
$ type , ( join ' ' , map { join ',' , map unscale $ _ , @$ _ } @$ polygon ) ,
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( $ type eq 'contour' ? 'white' : 'black' ) ;
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} ;
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my @ layers = sort { $ a - > print_z <=> $ b - > print_z }
map { @ { $ _ - > layers } , @ { $ _ - > support_layers } }
@ { $ self - > objects } ;
my $ layer_id = - 1 ;
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my @ previous_layer_slices = ( ) ;
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for my $ layer ( @ layers ) {
$ layer_id + + ;
# TODO: remove slic3r:z for raft layers
printf $ fh qq{ <g id="layer%d" slic3r:z="%s"> \ n } , $ layer_id , unscale ( $ layer - > slice_z ) ;
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my @ current_layer_slices = ( ) ;
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# sort slices so that the outermost ones come first
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my @ slices = sort { $ a - > contour - > contains_point ( $ b - > contour - > [ 0 ] ) ? 0 : 1 } @ { $ layer - > slices } ;
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foreach my $ copy ( @ { $ layer - > object - > copies } ) {
foreach my $ slice ( @ slices ) {
my $ expolygon = $ slice - > clone ;
$ expolygon - > translate ( @$ copy ) ;
$ print_polygon - > ( $ expolygon - > contour , 'contour' ) ;
$ print_polygon - > ( $ _ , 'hole' ) for @ { $ expolygon - > holes } ;
push @ current_layer_slices , $ expolygon ;
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}
}
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# generate support material
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if ( $ self - > has_support_material && $ layer - > id > 0 ) {
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my ( @ supported_slices , @ unsupported_slices ) = ( ) ;
foreach my $ expolygon ( @ current_layer_slices ) {
my $ intersection = intersection_ex (
[ map @$ _ , @ previous_layer_slices ] ,
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[ @$ expolygon ] ,
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) ;
@$ intersection
? push @ supported_slices , $ expolygon
: push @ unsupported_slices , $ expolygon ;
}
my @ supported_points = map @$ _ , @$ _ , @ supported_slices ;
foreach my $ expolygon ( @ unsupported_slices ) {
# look for the nearest point to this island among all
# supported points
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my $ contour = $ expolygon - > contour ;
my $ support_point = $ contour - > first_point - > nearest_point ( \ @ supported_points )
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or next ;
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my $ anchor_point = $ support_point - > nearest_point ( [ @$ contour ] ) ;
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printf $ fh qq{ <line x1="%s" y1="%s" x2="%s" y2="%s" style="stroke-width: 2; stroke: white" /> \ n } ,
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map @$ _ , $ support_point , $ anchor_point ;
}
}
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print $ fh qq{ </g> \ n } ;
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@ previous_layer_slices = @ current_layer_slices ;
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}
print $ fh "</svg>\n" ;
close $ fh ;
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print "Done.\n" unless $ params { quiet } ;
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}
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sub make_skirt {
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my $ self = shift ;
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# prerequisites
$ _ - > make_perimeters for @ { $ self - > objects } ;
$ _ - > infill for @ { $ self - > objects } ;
$ _ - > generate_support_material for @ { $ self - > objects } ;
return if $ self - > step_done ( STEP_SKIRT ) ;
$ self - > set_step_started ( STEP_SKIRT ) ;
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# since this method must be idempotent, we clear skirt paths *before*
# checking whether we need to generate them
$ self - > skirt - > clear ;
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if ( $ self - > config - > skirts == 0
&& ( ! $ self - > config - > ooze_prevention || @ { $ self - > extruders } == 1 ) ) {
$ self - > set_step_done ( STEP_SKIRT ) ;
return ;
}
$ self - > status_cb - > ( 88 , "Generating skirt" ) ;
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# First off we need to decide how tall the skirt must be.
# The skirt_height option from config is expressed in layers, but our
# object might have different layer heights, so we need to find the print_z
# of the highest layer involved.
# Note that unless skirt_height == -1 (which means it's printed on all layers)
# the actual skirt might not reach this $skirt_height_z value since the print
# order of objects on each layer is not guaranteed and will not generally
# include the thickest object first. It is just guaranteed that a skirt is
# prepended to the first 'n' layers (with 'n' = skirt_height).
# $skirt_height_z in this case is the highest possible skirt height for safety.
my $ skirt_height_z = - 1 ;
foreach my $ object ( @ { $ self - > objects } ) {
my $ skirt_height = ( $ self - > config - > skirt_height == - 1 )
? scalar ( @ { $ object - > layers } )
: min ( $ self - > config - > skirt_height , scalar ( @ { $ object - > layers } ) ) ;
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my $ highest_layer = $ object - > get_layer ( $ skirt_height - 1 ) ;
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$ skirt_height_z = max ( $ skirt_height_z , $ highest_layer - > print_z ) ;
}
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# collect points from all layers contained in skirt height
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my @ points = ( ) ;
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foreach my $ object ( @ { $ self - > objects } ) {
my @ object_points = ( ) ;
# get object layers up to $skirt_height_z
foreach my $ layer ( @ { $ object - > layers } ) {
last if $ layer - > print_z > $ skirt_height_z ;
push @ object_points , map @$ _ , map @$ _ , @ { $ layer - > slices } ;
}
# get support layers up to $skirt_height_z
foreach my $ layer ( @ { $ object - > support_layers } ) {
last if $ layer - > print_z > $ skirt_height_z ;
push @ object_points , map @ { $ _ - > polyline } , @ { $ layer - > support_fills } if $ layer - > support_fills ;
push @ object_points , map @ { $ _ - > polyline } , @ { $ layer - > support_interface_fills } if $ layer - > support_interface_fills ;
}
# repeat points for each object copy
foreach my $ copy ( @ { $ object - > _shifted_copies } ) {
my @ copy_points = map $ _ - > clone , @ object_points ;
$ _ - > translate ( @$ copy ) for @ copy_points ;
push @ points , @ copy_points ;
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}
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}
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return if @ points < 3 ; # at least three points required for a convex hull
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# find out convex hull
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my $ convex_hull = convex_hull ( \ @ points ) ;
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my @ extruded_length = ( ) ; # for each extruder
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# skirt may be printed on several layers, having distinct layer heights,
# but loops must be aligned so can't vary width/spacing
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# TODO: use each extruder's own flow
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my $ first_layer_height = $ self - > skirt_first_layer_height ;
my $ flow = $ self - > skirt_flow ;
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my $ spacing = $ flow - > spacing ;
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my $ mm3_per_mm = $ flow - > mm3_per_mm ;
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my @ extruders_e_per_mm = ( ) ;
my $ extruder_idx = 0 ;
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# draw outlines from outside to inside
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# loop while we have less skirts than required or any extruder hasn't reached the min length if any
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my $ distance = scale max ( $ self - > config - > skirt_distance , $ self - > config - > brim_width ) ;
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for ( my $ i = $ self - > config - > skirts ; $ i > 0 ; $ i - - ) {
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$ distance += scale $ spacing ;
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my $ loop = offset ( [ $ convex_hull ] , $ distance , 1 , JT_ROUND , scale ( 0.1 ) ) - > [ 0 ] ;
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$ self - > skirt - > append ( Slic3r::ExtrusionLoop - > new_from_paths (
Slic3r::ExtrusionPath - > new (
polyline = > Slic3r::Polygon - > new ( @$ loop ) - > split_at_first_point ,
role = > EXTR_ROLE_SKIRT ,
mm3_per_mm = > $ mm3_per_mm ,
width = > $ flow - > width ,
height = > $ first_layer_height ,
) ,
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) ) ;
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if ( $ self - > config - > min_skirt_length > 0 ) {
$ extruded_length [ $ extruder_idx ] || = 0 ;
if ( ! $ extruders_e_per_mm [ $ extruder_idx ] ) {
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my $ config = Slic3r::Config::GCode - > new ;
$ config - > apply_print_config ( $ self - > config ) ;
my $ extruder = Slic3r::Extruder - > new ( $ extruder_idx , $ config ) ;
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$ extruders_e_per_mm [ $ extruder_idx ] = $ extruder - > e_per_mm ( $ mm3_per_mm ) ;
}
$ extruded_length [ $ extruder_idx ] += unscale $ loop - > length * $ extruders_e_per_mm [ $ extruder_idx ] ;
$ i + + if defined first { ( $ extruded_length [ $ _ ] // 0 ) < $ self - > config - > min_skirt_length } 0 .. $# { $ self - > extruders } ;
if ( $ extruded_length [ $ extruder_idx ] >= $ self - > config - > min_skirt_length ) {
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if ( $ extruder_idx < $# { $ self - > extruders } ) {
$ extruder_idx + + ;
next ;
}
}
}
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}
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$ self - > skirt - > reverse ;
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$ self - > set_step_done ( STEP_SKIRT ) ;
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}
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sub make_brim {
my $ self = shift ;
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# prerequisites
$ _ - > make_perimeters for @ { $ self - > objects } ;
$ _ - > infill for @ { $ self - > objects } ;
$ _ - > generate_support_material for @ { $ self - > objects } ;
$ self - > make_skirt ;
return if $ self - > step_done ( STEP_BRIM ) ;
$ self - > set_step_started ( STEP_BRIM ) ;
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# since this method must be idempotent, we clear brim paths *before*
# checking whether we need to generate them
$ self - > brim - > clear ;
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if ( $ self - > config - > brim_width == 0 ) {
$ self - > set_step_done ( STEP_BRIM ) ;
return ;
}
$ self - > status_cb - > ( 88 , "Generating brim" ) ;
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# brim is only printed on first layer and uses support material extruder
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my $ first_layer_height = $ self - > skirt_first_layer_height ;
my $ flow = $ self - > skirt_flow ;
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my $ mm3_per_mm = $ flow - > mm3_per_mm ;
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my $ grow_distance = $ flow - > scaled_width / 2 ;
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my @ islands = ( ) ; # array of polygons
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foreach my $ obj_idx ( 0 .. ( $ self - > object_count - 1 ) ) {
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my $ object = $ self - > objects - > [ $ obj_idx ] ;
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my $ layer0 = $ object - > get_layer ( 0 ) ;
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my @ object_islands = (
( map $ _ - > contour , @ { $ layer0 - > slices } ) ,
) ;
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if ( @ { $ object - > support_layers } ) {
my $ support_layer0 = $ object - > support_layers - > [ 0 ] ;
push @ object_islands ,
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( map @ { $ _ - > polyline - > grow ( $ grow_distance ) } , @ { $ support_layer0 - > support_fills } )
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if $ support_layer0 - > support_fills ;
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push @ object_islands ,
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( map @ { $ _ - > polyline - > grow ( $ grow_distance ) } , @ { $ support_layer0 - > support_interface_fills } )
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if $ support_layer0 - > support_interface_fills ;
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}
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foreach my $ copy ( @ { $ object - > _shifted_copies } ) {
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push @ islands , map { $ _ - > translate ( @$ copy ) ; $ _ } map $ _ - > clone , @ object_islands ;
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}
}
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my @ loops = ( ) ;
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my $ num_loops = sprintf "%.0f" , $ self - > config - > brim_width / $ flow - > width ;
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for my $ i ( reverse 1 .. $ num_loops ) {
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# JT_SQUARE ensures no vertex is outside the given offset distance
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# -0.5 because islands are not represented by their centerlines
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# (first offset more, then step back - reverse order than the one used for
# perimeters because here we're offsetting outwards)
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push @ loops , @ { offset2 ( \ @ islands , ( $ i + 0.5 ) * $ flow - > scaled_spacing , - 1.0 * $ flow - > scaled_spacing , 100000 , JT_SQUARE ) } ;
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}
2013-05-09 12:52:56 +00:00
2014-05-08 09:07:37 +00:00
$ self - > brim - > append ( map Slic3r::ExtrusionLoop - > new_from_paths (
Slic3r::ExtrusionPath - > new (
polyline = > Slic3r::Polygon - > new ( @$ _ ) - > split_at_first_point ,
role = > EXTR_ROLE_SKIRT ,
mm3_per_mm = > $ mm3_per_mm ,
width = > $ flow - > width ,
height = > $ first_layer_height ,
) ,
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) , reverse @ { union_pt_chained ( \ @ loops ) } ) ;
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$ self - > set_step_done ( STEP_BRIM ) ;
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}
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sub skirt_first_layer_height {
my ( $ self ) = @ _ ;
return $ self - > objects - > [ 0 ] - > config - > get_abs_value ( 'first_layer_height' ) ;
}
sub skirt_flow {
my ( $ self ) = @ _ ;
return Slic3r::Flow - > new_from_width (
width = > ( $ self - > config - > first_layer_extrusion_width || $ self - > regions - > [ 0 ] - > config - > perimeter_extrusion_width ) ,
role = > FLOW_ROLE_PERIMETER ,
nozzle_diameter = > $ self - > config - > get_at ( 'nozzle_diameter' , $ self - > objects - > [ 0 ] - > config - > support_material_extruder - 1 ) ,
layer_height = > $ self - > skirt_first_layer_height ,
bridge_flow_ratio = > 0 ,
) ;
}
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sub write_gcode {
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my $ self = shift ;
my ( $ file ) = @ _ ;
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# open output gcode file if we weren't supplied a file-handle
my $ fh ;
if ( ref $ file eq 'IO::Scalar' ) {
$ fh = $ file ;
} else {
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Slic3r:: open ( \ $ fh , ">" , $ file )
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or die "Failed to open $file for writing\n" ;
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# enable UTF-8 output since user might have entered Unicode characters in fields like notes
binmode $ fh , ':utf8' ;
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}
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2014-03-24 16:52:14 +00:00
2011-12-01 21:20:48 +00:00
# write some information
my @ lt = localtime ;
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printf $ fh "; generated by Slic3r $Slic3r::VERSION on %04d-%02d-%02d at %02d:%02d:%02d\n\n" ,
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$ lt [ 5 ] + 1900 , $ lt [ 4 ] + 1 , $ lt [ 3 ] , $ lt [ 2 ] , $ lt [ 1 ] , $ lt [ 0 ] ;
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print $ fh "; $_\n" foreach split /\R/ , $ self - > config - > notes ;
print $ fh "\n" if $ self - > config - > notes ;
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my $ first_object = $ self - > objects - > [ 0 ] ;
my $ layer_height = $ first_object - > config - > layer_height ;
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for my $ region_id ( 0 .. $# { $ self - > regions } ) {
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printf $ fh "; external perimeters extrusion width = %.2fmm\n" ,
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$ self - > regions - > [ $ region_id ] - > flow ( FLOW_ROLE_EXTERNAL_PERIMETER , $ layer_height , 0 , 0 , - 1 , $ first_object ) - > width ;
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printf $ fh "; perimeters extrusion width = %.2fmm\n" ,
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$ self - > regions - > [ $ region_id ] - > flow ( FLOW_ROLE_PERIMETER , $ layer_height , 0 , 0 , - 1 , $ first_object ) - > width ;
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printf $ fh "; infill extrusion width = %.2fmm\n" ,
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$ self - > regions - > [ $ region_id ] - > flow ( FLOW_ROLE_INFILL , $ layer_height , 0 , 0 , - 1 , $ first_object ) - > width ;
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printf $ fh "; solid infill extrusion width = %.2fmm\n" ,
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$ self - > regions - > [ $ region_id ] - > flow ( FLOW_ROLE_SOLID_INFILL , $ layer_height , 0 , 0 , - 1 , $ first_object ) - > width ;
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printf $ fh "; top infill extrusion width = %.2fmm\n" ,
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$ self - > regions - > [ $ region_id ] - > flow ( FLOW_ROLE_TOP_SOLID_INFILL , $ layer_height , 0 , 0 , - 1 , $ first_object ) - > width ;
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printf $ fh "; support material extrusion width = %.2fmm\n" ,
$ self - > objects - > [ 0 ] - > support_material_flow - > width
if $ self - > has_support_material ;
printf $ fh "; first layer extrusion width = %.2fmm\n" ,
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$ self - > regions - > [ $ region_id ] - > flow ( FLOW_ROLE_PERIMETER , $ layer_height , 0 , 1 , - 1 , $ self - > objects - > [ 0 ] ) - > width
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if $ self - > regions - > [ $ region_id ] - > config - > first_layer_extrusion_width ;
print $ fh "\n" ;
}
# prepare the helper object for replacing placeholders in custom G-code and output filename
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$ self - > placeholder_parser - > update_timestamp ;
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# estimate the total number of layer changes
# TODO: only do this when M73 is enabled
my $ layer_count ;
if ( $ self - > config - > complete_objects ) {
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$ layer_count = sum ( map { $ _ - > total_layer_count * @ { $ _ - > copies } } @ { $ self - > objects } ) ;
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} else {
# if sequential printing is not enable, all copies of the same object share the same layer change command(s)
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$ layer_count = sum ( map { $ _ - > total_layer_count } @ { $ self - > objects } ) ;
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}
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# set up our helper object
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my $ gcodegen = Slic3r::GCode - > new (
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placeholder_parser = > $ self - > placeholder_parser ,
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layer_count = > $ layer_count ,
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enable_cooling_markers = > 1 ,
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) ;
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$ gcodegen - > apply_print_config ( $ self - > config ) ;
$ gcodegen - > set_extruders ( $ self - > extruders ) ;
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print $ fh $ gcodegen - > writer - > set_fan ( 0 , 1 ) if $ self - > config - > cooling && $ self - > config - > disable_fan_first_layers ;
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2013-07-31 16:55:23 +00:00
# set bed temperature
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if ( ( my $ temp = $ self - > config - > first_layer_bed_temperature ) && $ self - > config - > start_gcode !~ /M(?:190|140)/i ) {
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printf $ fh $ gcodegen - > writer - > set_bed_temperature ( $ temp , 1 ) ;
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}
# set extruder(s) temperature before and after start G-code
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my $ print_first_layer_temperature = sub {
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my ( $ wait ) = @ _ ;
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return if $ self - > config - > start_gcode =~ /M(?:109|104)/i ;
for my $ t ( @ { $ self - > extruders } ) {
my $ temp = $ self - > config - > get_at ( 'first_layer_temperature' , $ t ) ;
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$ temp += $ self - > config - > standby_temperature_delta if $ self - > config - > ooze_prevention ;
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printf $ fh $ gcodegen - > writer - > set_temperature ( $ temp , $ wait , $ t ) if $ temp > 0 ;
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}
} ;
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$ print_first_layer_temperature - > ( 0 ) ;
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printf $ fh "%s\n" , $ gcodegen - > placeholder_parser - > process ( $ self - > config - > start_gcode ) ;
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$ print_first_layer_temperature - > ( 1 ) ;
# set other general things
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print $ fh $ gcodegen - > writer - > preamble ;
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2012-08-23 13:42:58 +00:00
# initialize a motion planner for object-to-object travel moves
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if ( $ self - > config - > avoid_crossing_perimeters ) {
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my $ distance_from_objects = 1 ;
# compute the offsetted convex hull for each object and repeat it for each copy.
my @ islands = ( ) ;
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foreach my $ obj_idx ( 0 .. ( $ self - > object_count - 1 ) ) {
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my $ convex_hull = convex_hull ( [
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map @ { $ _ - > contour } , map @ { $ _ - > slices } , @ { $ self - > objects - > [ $ obj_idx ] - > layers } ,
2013-02-04 18:33:30 +00:00
] ) ;
# discard layers only containing thin walls (offset would fail on an empty polygon)
if ( @$ convex_hull ) {
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my $ expolygon = Slic3r::ExPolygon - > new ( $ convex_hull ) ;
my @ island = @ { $ expolygon - > offset_ex ( scale $ distance_from_objects , 1 , JT_SQUARE ) } ;
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foreach my $ copy ( @ { $ self - > objects - > [ $ obj_idx ] - > _shifted_copies } ) {
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push @ islands , map { my $ c = $ _ - > clone ; $ c - > translate ( @$ copy ) ; $ c } @ island ;
2013-02-04 18:33:30 +00:00
}
2012-08-23 13:42:58 +00:00
}
}
2014-10-27 09:34:51 +00:00
$ gcodegen - > init_external_mp ( union_ex ( [ map @$ _ , @ islands ] ) ) ;
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}
2013-09-18 18:03:59 +00:00
# calculate wiping points if needed
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if ( $ self - > config - > ooze_prevention ) {
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my @ skirt_points = map @$ _ , map @$ _ , @ { $ self - > skirt } ;
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if ( @ skirt_points ) {
my $ outer_skirt = convex_hull ( \ @ skirt_points ) ;
my @ skirts = ( ) ;
foreach my $ extruder_id ( @ { $ self - > extruders } ) {
push @ skirts , my $ s = $ outer_skirt - > clone ;
$ s - > translate ( map scale ( $ _ ) , @ { $ self - > config - > get_at ( 'extruder_offset' , $ extruder_id ) } ) ;
}
my $ convex_hull = convex_hull ( [ map @$ _ , @ skirts ] ) ;
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my $ oozeprev = Slic3r::GCode::OozePrevention - > new (
standby_points = > [ map $ _ - > clone , map @$ _ , map $ _ - > subdivide ( scale 10 ) , @ { offset ( [ $ convex_hull ] , scale 3 ) } ] ,
) ;
$ gcodegen - > ooze_prevention ( $ oozeprev ) ;
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}
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}
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# prepare the layer processor
my $ layer_gcode = Slic3r::GCode::Layer - > new (
print = > $ self ,
gcodegen = > $ gcodegen ,
) ;
2012-05-20 18:07:39 +00:00
2014-03-24 16:52:14 +00:00
# set initial extruder only after custom start G-code
print $ fh $ gcodegen - > set_extruder ( $ self - > extruders - > [ 0 ] ) ;
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# do all objects for each layer
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if ( $ self - > config - > complete_objects ) {
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# print objects from the smallest to the tallest to avoid collisions
# when moving onto next object starting point
2014-05-06 08:07:18 +00:00
my @ obj_idx = sort { $ self - > objects - > [ $ a ] - > size - > [ Z ] <=> $ self - > objects - > [ $ b ] - > size - > [ Z ] } 0 .. ( $ self - > object_count - 1 ) ;
2012-02-25 20:01:00 +00:00
2012-05-20 18:07:39 +00:00
my $ finished_objects = 0 ;
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for my $ obj_idx ( @ obj_idx ) {
2014-05-26 13:19:13 +00:00
my $ object = $ self - > objects - > [ $ obj_idx ] ;
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for my $ copy ( @ { $ self - > objects - > [ $ obj_idx ] - > _shifted_copies } ) {
2012-05-20 18:07:39 +00:00
# move to the origin position for the copy we're going to print.
# this happens before Z goes down to layer 0 again, so that
# no collision happens hopefully.
if ( $ finished_objects > 0 ) {
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$ gcodegen - > set_origin ( Slic3r::Pointf - > new ( map unscale $ copy - > [ $ _ ] , X , Y ) ) ;
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print $ fh $ gcodegen - > retract ;
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print $ fh $ gcodegen - > travel_to (
$ object - > _copies_shift - > negative ,
undef ,
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'move to origin position for next object' ,
) ;
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}
2013-04-03 23:17:44 +00:00
my $ buffer = Slic3r::GCode::CoolingBuffer - > new (
2014-03-24 16:52:14 +00:00
config = > $ self - > config ,
2013-04-03 23:17:44 +00:00
gcodegen = > $ gcodegen ,
) ;
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my @ layers = sort { $ a - > print_z <=> $ b - > print_z } @ { $ object - > layers } , @ { $ object - > support_layers } ;
for my $ layer ( @ layers ) {
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# if we are printing the bottom layer of an object, and we have already finished
# another one, set first layer temperatures. this happens before the Z move
# is triggered, so machine has more time to reach such temperatures
2013-03-10 14:36:52 +00:00
if ( $ layer - > id == 0 && $ finished_objects > 0 ) {
2014-10-28 20:47:09 +00:00
printf $ fh $ gcodegen - > writer - > set_bed_temperature ( $ self - > config - > first_layer_bed_temperature ) ,
2014-03-24 16:52:14 +00:00
if $ self - > config - > first_layer_bed_temperature ;
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$ print_first_layer_temperature - > ( ) ;
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}
2013-05-31 10:18:33 +00:00
print $ fh $ buffer - > append (
$ layer_gcode - > process_layer ( $ layer , [ $ copy ] ) ,
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$ layer - > object - > ptr ,
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$ layer - > id ,
$ layer - > print_z ,
) ;
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}
2013-04-03 23:17:44 +00:00
print $ fh $ buffer - > flush ;
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$ finished_objects + + ;
}
}
} else {
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# order objects using a nearest neighbor search
2014-03-24 16:52:14 +00:00
my @ obj_idx = @ { chained_path ( [ map Slic3r::Point - > new ( @ { $ _ - > _shifted_copies - > [ 0 ] } ) , @ { $ self - > objects } ] ) } ;
2013-06-03 19:54:55 +00:00
# sort layers by Z
2013-07-29 18:49:54 +00:00
my % layers = ( ) ; # print_z => [ [layers], [layers], [layers] ] by obj_idx
2014-05-06 08:07:18 +00:00
foreach my $ obj_idx ( 0 .. ( $ self - > object_count - 1 ) ) {
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my $ object = $ self - > objects - > [ $ obj_idx ] ;
foreach my $ layer ( @ { $ object - > layers } , @ { $ object - > support_layers } ) {
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$ layers { $ layer - > print_z } || = [] ;
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$ layers { $ layer - > print_z } [ $ obj_idx ] || = [] ;
push @ { $ layers { $ layer - > print_z } [ $ obj_idx ] } , $ layer ;
2013-06-03 19:54:55 +00:00
}
}
2013-04-03 23:17:44 +00:00
my $ buffer = Slic3r::GCode::CoolingBuffer - > new (
2014-03-24 16:52:14 +00:00
config = > $ self - > config ,
2013-04-03 23:17:44 +00:00
gcodegen = > $ gcodegen ,
) ;
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foreach my $ print_z ( sort { $ a <=> $ b } keys % layers ) {
foreach my $ obj_idx ( @ obj_idx ) {
2013-07-29 18:49:54 +00:00
foreach my $ layer ( @ { $ layers { $ print_z } [ $ obj_idx ] // [] } ) {
print $ fh $ buffer - > append (
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$ layer_gcode - > process_layer ( $ layer , $ layer - > object - > _shifted_copies ) ,
2014-06-10 14:17:34 +00:00
$ layer - > object - > ptr . ref ( $ layer ) , # differentiate $obj_id between normal layers and support layers
2013-07-29 18:49:54 +00:00
$ layer - > id ,
$ layer - > print_z ,
) ;
}
2013-06-03 19:54:55 +00:00
}
2013-05-18 14:57:44 +00:00
}
2013-04-03 23:17:44 +00:00
print $ fh $ buffer - > flush ;
2011-09-03 18:47:38 +00:00
}
# write end commands to file
2014-10-18 15:41:21 +00:00
print $ fh $ gcodegen - > retract ;
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print $ fh $ gcodegen - > writer - > set_fan ( 0 ) ;
2014-03-24 16:52:14 +00:00
printf $ fh "%s\n" , $ gcodegen - > placeholder_parser - > process ( $ self - > config - > end_gcode ) ;
2014-11-06 20:06:09 +00:00
print $ fh $ gcodegen - > writer - > update_progress ( $ gcodegen - > layer_count , $ gcodegen - > layer_count , 1 ) ; # 100%
2014-03-24 16:52:14 +00:00
$ self - > total_used_filament ( 0 ) ;
$ self - > total_extruded_volume ( 0 ) ;
2014-10-28 20:47:09 +00:00
foreach my $ extruder ( @ { $ gcodegen - > writer - > extruders } ) {
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my $ used_filament = $ extruder - > used_filament ;
my $ extruded_volume = $ extruder - > extruded_volume ;
2014-03-24 16:52:14 +00:00
2013-08-28 18:13:18 +00:00
printf $ fh "; filament used = %.1fmm (%.1fcm3)\n" ,
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$ used_filament , $ extruded_volume / 1000 ;
$ self - > total_used_filament ( $ self - > total_used_filament + $ used_filament ) ;
$ self - > total_extruded_volume ( $ self - > total_extruded_volume + $ extruded_volume ) ;
2013-08-28 18:13:18 +00:00
}
2011-12-20 14:29:15 +00:00
2014-03-24 16:52:14 +00:00
# append full config
print $ fh "\n" ;
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foreach my $ config ( $ self - > config , $ self - > default_object_config , $ self - > default_region_config ) {
foreach my $ opt_key ( sort @ { $ config - > get_keys } ) {
next if $ Slic3r:: Config:: Options - > { $ opt_key } { shortcut } ;
printf $ fh "; %s = %s\n" , $ opt_key , $ config - > serialize ( $ opt_key ) ;
}
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}
2011-09-03 18:47:38 +00:00
# close our gcode file
close $ fh ;
}
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# this method will return the supplied input file path after expanding its
2012-04-30 12:56:01 +00:00
# format variables with their values
sub expanded_output_filepath {
my $ self = shift ;
2014-03-24 16:52:14 +00:00
my ( $ path ) = @ _ ;
2012-09-12 14:30:44 +00:00
2014-03-24 16:52:14 +00:00
return undef if ! @ { $ self - > objects } ;
my $ input_file = first { defined $ _ } map $ _ - > model_object - > input_file , @ { $ self - > objects } ;
return undef if ! defined $ input_file ;
my $ filename = my $ filename_base = basename ( $ input_file ) ;
$ filename_base =~ s/\.[^.]+$// ; # without suffix
my $ extra = {
input_filename = > $ filename ,
input_filename_base = > $ filename_base ,
} ;
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if ( $ path && - d $ path ) {
# if output path is an existing directory, we take that and append
# the specified filename format
$ path = File::Spec - > join ( $ path , $ self - > config - > output_filename_format ) ;
} elsif ( ! $ path ) {
# if no explicit output file was defined, we take the input
# file directory and append the specified filename format
$ path = ( fileparse ( $ input_file ) ) [ 1 ] . $ self - > config - > output_filename_format ;
} else {
# path is a full path to a file so we use it as it is
}
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# make sure we use an up-to-date timestamp
$ self - > placeholder_parser - > update_timestamp ;
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return $ self - > placeholder_parser - > process ( $ path , $ extra ) ;
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}
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# This method assigns extruders to the volumes having a material
# but not having extruders set in the material config.
sub auto_assign_extruders {
my ( $ self , $ model_object ) = @ _ ;
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# only assign extruders if object has more than one volume
return if @ { $ model_object - > volumes } == 1 ;
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my $ extruders = scalar @ { $ self - > config - > nozzle_diameter } ;
foreach my $ i ( 0 .. $# { $ model_object - > volumes } ) {
my $ volume = $ model_object - > volumes - > [ $ i ] ;
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if ( $ volume - > material_id ne '' ) {
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my $ material = $ model_object - > model - > get_material ( $ volume - > material_id ) ;
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my $ config = $ material - > config ;
my $ extruder_id = $ i + 1 ;
$ config - > set_ifndef ( 'extruder' , $ extruder_id ) ;
}
}
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}
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1 ;