PrusaSlicer-NonPlainar/lib/Slic3r/Layer.pm

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package Slic3r::Layer;
use Moo;
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use List::Util qw(first);
use Slic3r::Geometry::Clipper qw(union_ex);
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has 'id' => (is => 'rw', required => 1, trigger => 1); # sequential number of layer, 0-based
has 'object' => (is => 'ro', weak_ref => 1, required => 1);
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has 'regions' => (is => 'ro', default => sub { [] });
has 'slicing_errors' => (is => 'rw');
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has 'slice_z' => (is => 'lazy');
has 'print_z' => (is => 'lazy');
has 'height' => (is => 'lazy');
has 'flow' => (is => 'ro', default => sub { $Slic3r::flow });
# collection of expolygons generated by slicing the original geometry;
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# also known as 'islands' (all regions are merged here)
has 'slices' => (is => 'rw');
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# ordered collection of extrusion paths to fill surfaces for support material
has 'support_islands' => (is => 'rw');
has 'support_fills' => (is => 'rw');
has 'support_interface_fills' => (is => 'rw');
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sub _trigger_id {
my $self = shift;
$_->_trigger_layer for @{$self->regions || []};
}
# Z used for slicing in scaled coordinates
sub _build_slice_z {
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my $self = shift;
if ($self->id == 0) {
return $Slic3r::Config->get_value('first_layer_height') / 2 / &Slic3r::SCALING_FACTOR;
}
return ($Slic3r::Config->get_value('first_layer_height') + (($self->id-1) * $Slic3r::Config->layer_height) + ($Slic3r::Config->layer_height/2))
/ &Slic3r::SCALING_FACTOR; #/
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}
# Z used for printing in scaled coordinates
sub _build_print_z {
my $self = shift;
return ($Slic3r::Config->get_value('first_layer_height') + ($self->id * $Slic3r::Config->layer_height)) / &Slic3r::SCALING_FACTOR;
}
# layer height in unscaled coordinates
sub _build_height {
my $self = shift;
return $self->id == 0 ? $Slic3r::Config->get_value('first_layer_height') : $Slic3r::Config->layer_height;
}
# layer height of interface paths in unscaled coordinates
sub support_material_interface_height {
my $self = shift;
return $self->height if $self->id == 0;
# this is not very correct because:
# - we should sum our height with the actual upper layers height (which might be different)
# - we should use the actual flow of the upper layer bridges, not the default one
# ...but we're close enough for now
return 2*$self->height - $self->flow->nozzle_diameter;
}
# Z used for printing support material interface in scaled coordinates
sub support_material_interface_z {
my $self = shift;
return $self->print_z - ($self->height - $self->support_material_interface_height) / &Slic3r::SCALING_FACTOR;
}
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sub region {
my $self = shift;
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my ($region_id) = @_;
for (my $i = @{$self->regions}; $i <= $region_id; $i++) {
$self->regions->[$i] //= Slic3r::Layer::Region->new(
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layer => $self,
region => $self->object->print->regions->[$i],
);
}
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return $self->regions->[$region_id];
}
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# merge all regions' slices to get islands
sub make_slices {
my $self = shift;
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# optimization for single-region layers
my @regions_with_slices = grep { @{$_->slices} } @{$self->regions};
if (@regions_with_slices == 1) {
$self->slices([ map $_->expolygon, @{$regions_with_slices[0]->slices} ]);
return;
}
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$self->slices(union_ex([ map $_->p, map @{$_->slices}, @{$self->regions} ]));
}
sub make_perimeters {
my $self = shift;
Slic3r::debugf "Making perimeters for layer %d\n", $self->id;
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$_->make_perimeters for @{$self->regions};
}
sub support_islands_enclose_line {
my $self = shift;
my ($line) = @_;
return (first { $_->encloses_line($line) } @{$self->support_islands}) ? 1 : 0;
}
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1;