package Slic3r::Geometry::BoundingBox; use Moo; use Slic3r::Geometry qw(X Y Z MIN MAX X1 Y1 X2 Y2); use Storable qw(); has 'extents' => (is => 'ro', required => 1); sub clone { Storable::dclone($_[0]) } # 2D sub new_from_points { my $class = shift; my ($points) = @_; my $bb = [ Slic3r::Geometry::bounding_box($points) ]; return $class->new(extents => [ [ $bb->[X1], $bb->[X2] ], [ $bb->[Y1], $bb->[Y2] ], ]); } # 3D sub new_from_points_3D { my $class = shift; my ($points) = @_; return $class->new(extents => [ Slic3r::Geometry::bounding_box_3D($points) ]); } # four-arguments 2D bb sub bb { my $self = shift; my $extents = $self->extents; return [ $extents->[X][MIN], $extents->[Y][MIN], $extents->[X][MAX], $extents->[Y][MAX] ]; } sub polygon { my $self = shift; return Slic3r::Polygon->new_from_bounding_box($self->bb); } sub rotate { my $self = shift; my ($angle, $center) = @_; # rotate the 2D bounding box polygon and leave Z unaltered my $bb_p = $self->polygon; $bb_p->rotate($angle, $center); my @bb = $bb_p->bounding_box; $self->extents->[X][MIN] = $bb[X1]; $self->extents->[Y][MIN] = $bb[Y1]; $self->extents->[X][MAX] = $bb[X2]; $self->extents->[Y][MAX] = $bb[Y2]; $self; } sub scale { my $self = shift; my ($factor) = @_; for (@{$self->extents}) { $_ *= $factor for @$_[MIN,MAX]; } $self; } sub size { my $self = shift; my $extents = $self->extents; return [ map $extents->[$_][MAX] - $extents->[$_][MIN], grep $extents->[$_], (X,Y,Z) ]; } sub center { my $self = shift; my $extents = $self->extents; return [ map +($extents->[$_][MAX] + $extents->[$_][MIN])/2, grep $extents->[$_], (X,Y,Z) ]; } sub center_2D { my $self = shift; return Slic3r::Point->new(@{$self->center}[X,Y]); } sub min_point { my $self = shift; return Slic3r::Point->new($self->extents->[X][MIN], $self->extents->[Y][MIN]); } sub max_point { my $self = shift; return Slic3r::Point->new($self->extents->[X][MAX], $self->extents->[Y][MAX]); } 1;