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

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package Slic3r::Fill::Honeycomb;
use Moo;
extends 'Slic3r::Fill::Base';
with qw(Slic3r::Fill::WithDirection);
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has 'cache' => (is => 'rw', default => sub {{}});
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use Slic3r::Geometry qw(PI X Y MIN MAX scale scaled_epsilon);
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use Slic3r::Geometry::Clipper qw(intersection intersection_pl);
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sub angles () { [0, PI/3, PI/3*2] }
sub fill_surface {
my $self = shift;
my ($surface, %params) = @_;
my $rotate_vector = $self->infill_direction($surface);
# cache hexagons math
my $cache_id = sprintf "d%s_s%s", $params{density}, $self->spacing;
my $m;
if (!($m = $self->cache->{$cache_id})) {
$m = $self->cache->{$cache_id} = {};
my $min_spacing = scale($self->spacing);
$m->{distance} = $min_spacing / $params{density};
$m->{hex_side} = $m->{distance} / (sqrt(3)/2);
$m->{hex_width} = $m->{distance} * 2; # $m->{hex_width} == $m->{hex_side} * sqrt(3);
my $hex_height = $m->{hex_side} * 2;
$m->{pattern_height} = $hex_height + $m->{hex_side};
$m->{y_short} = $m->{distance} * sqrt(3)/3;
$m->{x_offset} = $min_spacing / 2;
$m->{y_offset} = $m->{x_offset} * sqrt(3)/3;
$m->{hex_center} = Slic3r::Point->new($m->{hex_width}/2, $m->{hex_side});
}
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my @polygons = ();
{
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# adjust actual bounding box to the nearest multiple of our hex pattern
# and align it so that it matches across layers
my $bounding_box = $surface->expolygon->bounding_box;
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{
# rotate bounding box according to infill direction
my $bb_polygon = $bounding_box->polygon;
$bb_polygon->rotate($rotate_vector->[0][0], $m->{hex_center});
$bounding_box = $bb_polygon->bounding_box;
# extend bounding box so that our pattern will be aligned with other layers
# $bounding_box->[X1] and [Y1] represent the displacement between new bounding box offset and old one
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$bounding_box->merge_point(Slic3r::Point->new(
$bounding_box->x_min - ($bounding_box->x_min % $m->{hex_width}),
$bounding_box->y_min - ($bounding_box->y_min % $m->{pattern_height}),
));
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}
my $x = $bounding_box->x_min;
while ($x <= $bounding_box->x_max) {
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my $p = [];
my @x = ($x + $m->{x_offset}, $x + $m->{distance} - $m->{x_offset});
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for (1..2) {
@$p = reverse @$p; # turn first half upside down
my @p = ();
for (my $y = $bounding_box->y_min; $y <= $bounding_box->y_max; $y += $m->{y_short} + $m->{hex_side} + $m->{y_short} + $m->{hex_side}) {
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push @$p,
[ $x[1], $y + $m->{y_offset} ],
[ $x[0], $y + $m->{y_short} - $m->{y_offset} ],
[ $x[0], $y + $m->{y_short} + $m->{hex_side} + $m->{y_offset} ],
[ $x[1], $y + $m->{y_short} + $m->{hex_side} + $m->{y_short} - $m->{y_offset} ],
[ $x[1], $y + $m->{y_short} + $m->{hex_side} + $m->{y_short} + $m->{hex_side} + $m->{y_offset} ];
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}
@x = map $_ + $m->{distance}, reverse @x; # draw symmetrical pattern
$x += $m->{distance};
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}
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push @polygons, Slic3r::Polygon->new(@$p);
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}
$_->rotate(-$rotate_vector->[0][0], $m->{hex_center}) for @polygons;
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}
my @paths;
if ($params{complete}) {
# we were requested to complete each loop;
# in this case we don't try to make more continuous paths
@paths = map $_->split_at_first_point,
@{intersection([ $surface->p ], \@polygons)};
} else {
# consider polygons as polylines without re-appending the initial point:
# this cuts the last segment on purpose, so that the jump to the next
# path is more straight
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@paths = @{intersection_pl(
[ map Slic3r::Polyline->new(@$_), @polygons ],
[ @{$surface->expolygon} ],
)};
# connect paths
if (@paths) { # prevent calling leftmost_point() on empty collections
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my $collection = Slic3r::Polyline::Collection->new(@paths);
@paths = ();
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foreach my $path (@{$collection->chained_path_from($collection->leftmost_point, 0)}) {
if (@paths) {
# distance between first point of this path and last point of last path
my $distance = $paths[-1]->last_point->distance_to($path->first_point);
if ($distance <= $m->{hex_width}) {
$paths[-1]->append_polyline($path);
next;
}
}
# make a clone before $collection goes out of scope
push @paths, $path->clone;
}
}
# clip paths again to prevent connection segments from crossing the expolygon boundaries
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@paths = @{intersection_pl(
\@paths,
[ map @$_, @{$surface->expolygon->offset_ex(scaled_epsilon)} ],
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)};
}
return @paths;
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}
1;