#!/usr/bin/perl # This script exports experimental G-code for wireframe printing # (inspired by the brilliant WirePrint concept) use strict; use warnings; BEGIN { use FindBin; use lib "$FindBin::Bin/../lib"; } use Getopt::Long qw(:config no_auto_abbrev); use Slic3r; use Slic3r::ExtrusionPath ':roles'; use Slic3r::Geometry qw(scale unscale X Y PI); my %opt = ( step_height => 5, nozzle_angle => 30, nozzle_width => 10, first_layer_height => 0.3, ); { my %options = ( 'help' => sub { usage() }, 'output|o=s' => \$opt{output_file}, 'step-height|h=f' => \$opt{step_height}, 'nozzle-angle|a=f' => \$opt{nozzle_angle}, 'nozzle-width|w=f' => \$opt{nozzle_width}, 'first-layer-height=f' => \$opt{first_layer_height}, ); GetOptions(%options) or usage(1); $opt{output_file} or usage(1); $ARGV[0] or usage(1); } { # load model my $model = Slic3r::Model->read_from_file($ARGV[0]); $model->center_instances_around_point(Slic3r::Pointf->new(100,100)); my $mesh = $model->mesh; $mesh->translate(0, 0, -$mesh->bounding_box->z_min); # get slices my @z = (); my $z_max = $mesh->bounding_box->z_max; for (my $z = $opt{first_layer_height}; $z <= $z_max; $z += $opt{step_height}) { push @z, $z; } my @slices = @{$mesh->slice(\@z)}; my $flow = Slic3r::Flow->new( width => 0.35, height => 0.35, nozzle_diameter => 0.35, bridge => 1, ); my $config = Slic3r::Config::Print->new; $config->set('gcode_comments', 1); open my $fh, '>', $opt{output_file}; my $gcodegen = Slic3r::GCode->new( enable_loop_clipping => 0, # better bonding ); $gcodegen->apply_print_config($config); $gcodegen->set_extruders([0]); print $fh $gcodegen->set_extruder(0); print $fh $gcodegen->writer->preamble; my $e = $gcodegen->writer->extruder->e_per_mm3 * $flow->mm3_per_mm; foreach my $layer_id (0..$#z) { my $z = $z[$layer_id]; foreach my $island (@{$slices[$layer_id]}) { foreach my $polygon (@$island) { if ($layer_id > 0) { # find the lower polygon that we want to connect to this one my $lower = $slices[$layer_id-1]->[0]->contour; # 't was easy, wasn't it? my $lower_z = $z[$layer_id-1]; { my @points = (); # keep all points with strong angles { my @pp = @$polygon; foreach my $i (0..$#pp) { push @points, $pp[$i-1] if abs($pp[$i-1]->ccw_angle($pp[$i-2], $pp[$i]) - PI) > PI/3; } } $polygon = Slic3r::Polygon->new(@points); } #$polygon = Slic3r::Polygon->new(@{$polygon->split_at_first_point->equally_spaced_points(scale $opt{nozzle_width})}); # find vertical lines my @vertical = (); foreach my $point (@{$polygon}) { push @vertical, Slic3r::Line->new($point->projection_onto_polygon($lower), $point); } next if !@vertical; my @points = (); foreach my $line (@vertical) { push @points, Slic3r::Pointf3->new( unscale($line->a->x), unscale($line->a->y), #)) $lower_z, ); push @points, Slic3r::Pointf3->new( unscale($line->b->x), unscale($line->b->y), #)) $z, ); } # reappend first point as destination of the last diagonal segment push @points, Slic3r::Pointf3->new( unscale($vertical[0]->a->x), unscale($vertical[0]->a->y), #)) $lower_z, ); # move to the position of the first vertical line print $fh $gcodegen->writer->travel_to_xyz(shift @points); # extrude segments foreach my $point (@points) { print $fh $gcodegen->writer->extrude_to_xyz($point, $e * $gcodegen->writer->get_position->distance_to($point)); } } } print $fh $gcodegen->writer->travel_to_z($z); foreach my $polygon (@$island) { #my $polyline = $polygon->split_at_vertex(Slic3r::Point->new_scale(@{$gcodegen->writer->get_position}[0,1])); my $polyline = $polygon->split_at_first_point; print $fh $gcodegen->writer->travel_to_xy(Slic3r::Pointf->new_unscale(@{ $polyline->first_point }), "move to first contour point"); foreach my $line (@{$polyline->lines}) { my $point = Slic3r::Pointf->new_unscale(@{ $line->b }); print $fh $gcodegen->writer->extrude_to_xy($point, $e * unscale($line->length)); } } } } close $fh; } sub usage { my ($exit_code) = @_; print <<"EOF"; Usage: wireframe.pl [ OPTIONS ] file.stl --help Output this usage screen and exit --output, -o Write to the specified file --step-height, -h Use the specified step height --nozzle-angle, -a Max nozzle angle --nozzle-width, -w External nozzle diameter EOF exit ($exit_code || 0); } __END__