PrusaSlicer-NonPlainar/lib/Slic3r/Fill/Rectilinear.pm

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package Slic3r::Fill::Rectilinear;
use Moo;
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extends 'Slic3r::Fill::Base';
has 'cache' => (is => 'rw', default => sub {{}});
use Slic3r::Geometry qw(A B X Y scale unscale scaled_epsilon);
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sub fill_surface {
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my $self = shift;
my ($surface, %params) = @_;
# rotate polygons so that we can work with vertical lines here
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my $expolygon = $surface->expolygon->clone;
my $rotate_vector = $self->infill_direction($surface);
$self->rotate_points($expolygon, $rotate_vector);
my ($expolygon_off) = $expolygon->offset_ex(scale $params{flow_spacing}/2);
return {} if !defined $expolygon_off; # skip some very small polygons (which shouldn't arrive here)
my $flow_spacing = $params{flow_spacing};
my $min_spacing = scale $params{flow_spacing};
my $distance_between_lines = $min_spacing / $params{density};
my $line_oscillation = $distance_between_lines - $min_spacing;
my $is_line_pattern = $self->isa('Slic3r::Fill::Line');
my $cache_id = sprintf "d%s_s%.2f_a%.2f",
$params{density}, $params{flow_spacing}, $rotate_vector->[0][0];
if (!$self->cache->{$cache_id}) {
# compute bounding box
my $bounding_box;
{
my $bb_polygon = $self->bounding_box->polygon;
$bb_polygon->scale(sqrt 2);
$self->rotate_points($bb_polygon, $rotate_vector);
$bounding_box = $bb_polygon->bounding_box;
}
# define flow spacing according to requested density
if ($params{density} == 1 && !$params{dont_adjust}) {
$distance_between_lines = $self->adjust_solid_spacing(
width => $bounding_box->size->[X],
distance => $distance_between_lines,
);
$flow_spacing = unscale $distance_between_lines;
}
# generate the basic pattern
my $x = $bounding_box->x_min;
my @vertical_lines = ();
for (my $i = 0; $x <= $bounding_box->x_max + scaled_epsilon; $i++) {
my $vertical_line = Slic3r::Line->new([$x, $bounding_box->y_max], [$x, $bounding_box->y_min]);
if ($is_line_pattern && $i % 2) {
$vertical_line->[A][X] += $line_oscillation;
$vertical_line->[B][X] -= $line_oscillation;
}
push @vertical_lines, $vertical_line;
$x += $distance_between_lines;
}
$self->cache->{$cache_id} = [@vertical_lines];
}
# clip paths against a slightly offsetted expolygon, so that the first and last paths
# are kept even if the expolygon has vertical sides
my @paths = @{ Boost::Geometry::Utils::polygon_multi_linestring_intersection(
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+($expolygon->offset_ex(scaled_epsilon))[0]->arrayref_pp, # TODO: we should use all the resulting expolygons and clip the linestrings to a multipolygon object
[ @{ $self->cache->{$cache_id} } ],
) };
# connect lines
unless ($params{dont_connect}) {
my $collection = Slic3r::Polyline::Collection->new(
polylines => [ map Slic3r::Polyline->new(@$_), @paths ],
);
@paths = ();
my $tolerance = 10 * scaled_epsilon;
my $diagonal_distance = $distance_between_lines * 2;
my $can_connect = $is_line_pattern
? sub {
($_[X] >= ($distance_between_lines - $line_oscillation) - $tolerance) && ($_[X] <= ($distance_between_lines + $line_oscillation) + $tolerance)
&& $_[Y] <= $diagonal_distance
}
: sub { $_[X] <= $diagonal_distance && $_[Y] <= $diagonal_distance };
foreach my $path ($collection->chained_path) {
if (@paths) {
my @distance = map abs($path->[0][$_] - $paths[-1][-1][$_]), (X,Y);
# TODO: we should also check that both points are on a fill_boundary to avoid
# connecting paths on the boundaries of internal regions
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if ($can_connect->(@distance)
&& $expolygon_off->encloses_line(Slic3r::Line->new($paths[-1][-1], $path->[0]), $tolerance)) {
push @{$paths[-1]}, @$path;
next;
}
}
push @paths, $path;
}
}
# paths must be rotated back
$self->rotate_points_back(\@paths, $rotate_vector);
return { flow_spacing => $flow_spacing }, @paths;
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}
1;