PrusaSlicer-NonPlainar/lib/Slic3r/Fill.pm

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package Slic3r::Fill;
use Moo;
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use Slic3r::Fill::ArchimedeanChords;
use Slic3r::Fill::Base;
use Slic3r::Fill::Concentric;
use Slic3r::Fill::Flowsnake;
use Slic3r::Fill::HilbertCurve;
use Slic3r::Fill::Line;
use Slic3r::Fill::OctagramSpiral;
use Slic3r::Fill::PlanePath;
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use Slic3r::Fill::Rectilinear;
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use Slic3r::Fill::Rectilinear2;
use Slic3r::Geometry qw(shortest_path);
use Slic3r::Geometry::Clipper qw(union_ex diff_ex);
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use XXX;
has 'print' => (is => 'ro', required => 1);
has 'fillers' => (is => 'rw', default => sub { {} });
our %FillTypes = (
archimedeanchords => 'Slic3r::Fill::ArchimedeanChords',
rectilinear => 'Slic3r::Fill::Rectilinear',
rectilinear2 => 'Slic3r::Fill::Rectilinear2',
flowsnake => 'Slic3r::Fill::Flowsnake',
octagramspiral => 'Slic3r::Fill::OctagramSpiral',
hilbertcurve => 'Slic3r::Fill::HilbertCurve',
line => 'Slic3r::Fill::Line',
concentric => 'Slic3r::Fill::Concentric',
);
sub BUILD {
my $self = shift;
$self->fillers->{$_} ||= $FillTypes{$_}->new(print => $self->print)
for ('rectilinear', $Slic3r::fill_pattern, $Slic3r::solid_fill_pattern);
}
sub make_fill {
my $self = shift;
my ($layer) = @_;
my $max_print_dimension = $self->print->max_length * sqrt(2);
for (values %{$self->fillers}) {
$_->layer($layer);
$_->max_print_dimension($max_print_dimension);
}
printf "Filling layer %d:\n", $layer->id;
# merge overlapping surfaces
my @surfaces = ();
{
my @surfaces_with_bridge_angle = grep defined $_->bridge_angle, @{$layer->fill_surfaces};
foreach my $group (Slic3r::Surface->group({merge_solid => 1}, @{$layer->fill_surfaces})) {
my $union = union_ex([ map $_->p, @$group ]);
# subtract surfaces having a defined bridge_angle from any other
if (@surfaces_with_bridge_angle && !defined $group->[0]->bridge_angle) {
$union = diff_ex(
[ map @$_, @$union ],
[ map $_->p, @surfaces_with_bridge_angle ],
);
}
# subtract any other surface already processed
$union = diff_ex(
[ map @$_, @$union ],
[ map $_->p, @surfaces ],
);
push @surfaces, map Slic3r::Surface->cast_from_expolygon($_,
surface_type => $group->[0]->surface_type,
bridge_angle => $group->[0]->bridge_angle,
depth_layers => $group->[0]->depth_layers,
), @$union;
}
}
# organize infill surfaces using a shortest path search
@surfaces = @{shortest_path([
map [ $_->contour->points->[0], $_ ], @surfaces,
])};
SURFACE: foreach my $surface (@surfaces) {
my $filler = $Slic3r::fill_pattern;
my $density = $Slic3r::fill_density;
my $flow_width = $Slic3r::flow_width;
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my $is_bridge = $layer->id > 0 && $surface->surface_type eq 'bottom';
my $is_solid = $surface->surface_type =~ /^(top|bottom)$/;
# force 100% density and rectilinear fill for external surfaces
if ($surface->surface_type ne 'internal') {
$density = 1;
$filler = $is_bridge ? 'rectilinear' : $Slic3r::solid_fill_pattern;
$flow_width = $Slic3r::nozzle_diameter if $is_bridge;
} else {
next SURFACE unless $density > 0;
}
my @paths = $self->fillers->{$filler}->fill_surface(
$surface,
density => $density,
flow_width => $flow_width,
);
# save into layer
push @{ $layer->fills }, Slic3r::ExtrusionPath::Collection->new(
paths => [
map Slic3r::ExtrusionPath->cast(
[ @$_ ],
role => ($is_bridge ? 'bridge' : $is_solid ? 'solid-fill' : 'fill'),
depth_layers => $surface->depth_layers,
), @paths,
],
);
$layer->fills->[-1]->cleanup;
}
}
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1;