176 lines
7.3 KiB
Perl
176 lines
7.3 KiB
Perl
# Slices at the XZ plane, for debugging purposes.
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package Slic3r::Test::SectionCut;
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use Moo;
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use List::Util qw(first min max);
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use Slic3r::Geometry qw(unscale);
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use Slic3r::Geometry::Clipper qw(intersection_pl);
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use SVG;
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use Slic3r::SVG;
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has 'print' => (is => 'ro', required => 1);
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has 'scale' => (is => 'ro', default => sub { 30 });
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has 'y_percent' => (is => 'ro', default => sub { 0.5 }); # Y coord of section line expressed as factor
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has 'line' => (is => 'rw');
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has '_height' => (is => 'rw');
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has '_svg' => (is => 'rw');
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has '_svg_style' => (is => 'rw', default => sub { {} });
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sub BUILD {
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my $self = shift;
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# calculate the Y coordinate of the section line
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my $bb = $self->print->bounding_box;
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my $y = ($bb->y_min + $bb->y_max) * $self->y_percent;
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# store our section line
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$self->line(Slic3r::Line->new([ $bb->x_min, $y ], [ $bb->x_max, $y ]));
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}
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sub export_svg {
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my $self = shift;
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my ($filename) = @_;
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# get bounding box of print and its height
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# (Print should return a BoundingBox3 object instead)
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my $bb = $self->print->bounding_box;
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my $print_size = $bb->size;
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$self->_height(max(map $_->print_z, map @{$_->layers}, @{$self->print->objects}));
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# initialize the SVG canvas
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$self->_svg(my $svg = SVG->new(
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width => $self->scale * unscale($print_size->x),
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height => $self->scale * $self->_height,
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));
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# set default styles
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$self->_svg_style->{'stroke-width'} = 1;
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$self->_svg_style->{'fill-opacity'} = 0.5;
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$self->_svg_style->{'stroke-opacity'} = 0.2;
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# plot perimeters
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$self->_svg_style->{'stroke'} = '#EE0000';
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$self->_svg_style->{'fill'} = '#FF0000';
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$self->_plot_group(sub { map @{$_->perimeters}, @{$_[0]->regions} });
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# plot infill
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$self->_svg_style->{'stroke'} = '#444444';
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$self->_svg_style->{'fill'} = '#454545';
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$self->_plot_group(sub { map @{$_->fills}, @{$_[0]->regions} });
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# plot support material
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$self->_svg_style->{'stroke'} = '#12EF00';
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$self->_svg_style->{'fill'} = '#22FF00';
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$self->_plot_group(sub { $_[0]->isa('Slic3r::Layer::Support') ? ($_[0]->support_fills, $_[0]->support_interface_fills) : () });
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Slic3r::open(\my $fh, '>', $filename);
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print $fh $svg->xmlify;
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close $fh;
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printf "Section cut SVG written to %s\n", $filename;
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}
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sub _plot_group {
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my $self = shift;
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my ($filter) = @_;
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my $bb = $self->print->bounding_box;
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my $g = $self->_svg->group(style => { %{$self->_svg_style} });
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foreach my $object (@{$self->print->objects}) {
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foreach my $copy (@{$object->_shifted_copies}) {
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foreach my $layer (@{$object->layers}, @{$object->support_layers}) {
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# get all ExtrusionPath objects
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my @paths = map $_->clone,
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map { ($_->isa('Slic3r::ExtrusionLoop') || $_->isa('Slic3r::ExtrusionPath::Collection')) ? @$_ : $_ }
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grep defined $_,
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$filter->($layer);
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# move paths to location of copy
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$_->polyline->translate(@$copy) for @paths;
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if (0) {
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# export plan with section line and exit
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require "Slic3r/SVG.pm";
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Slic3r::SVG::output(
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"line.svg",
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no_arrows => 1,
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lines => [ $self->line ],
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red_polylines => [ map $_->polyline, @paths ],
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);
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exit;
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}
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foreach my $path (@paths) {
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foreach my $line (@{$path->lines}) {
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my @intersections = @{intersection_pl(
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[ $self->line->as_polyline ],
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$line->grow(Slic3r::Geometry::scale $path->width/2),
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)};
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die "Intersection has more than two points!\n"
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if defined first { @$_ > 2 } @intersections;
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# turn intersections to lines
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my @lines = map Slic3r::Line->new(@$_), @intersections;
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# align intersections to canvas
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$_->translate(-$bb->x_min, 0) for @lines;
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# we want lines oriented from left to right in order to draw
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# rectangles correctly
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foreach my $line (@lines) {
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$line->reverse if $line->a->x > $line->b->x;
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}
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if ($path->is_bridge) {
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foreach my $line (@lines) {
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my $radius = $path->width / 2;
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my $width = unscale abs($line->b->x - $line->a->x);
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if ((10 * $radius) < $width) {
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# we're cutting the path in the longitudinal direction, so we've got a rectangle
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$g->rectangle(
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'x' => $self->scale * unscale($line->a->x),
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'y' => $self->scale * $self->_y($layer->print_z),
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'width' => $self->scale * $width,
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'height' => $self->scale * $radius * 2,
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'rx' => $self->scale * $radius * 0.35,
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'ry' => $self->scale * $radius * 0.35,
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);
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} else {
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$g->circle(
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'cx' => $self->scale * (unscale($line->a->x) + $radius),
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'cy' => $self->scale * $self->_y($layer->print_z - $radius),
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'r' => $self->scale * $radius,
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);
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}
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}
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} else {
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foreach my $line (@lines) {
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my $height = $path->height;
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$height = $layer->height if $height == -1;
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$g->rectangle(
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'x' => $self->scale * unscale($line->a->x),
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'y' => $self->scale * $self->_y($layer->print_z),
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'width' => $self->scale * unscale($line->b->x - $line->a->x),
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'height' => $self->scale * $height,
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'rx' => $self->scale * $height * 0.5,
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'ry' => $self->scale * $height * 0.5,
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);
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}
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}
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}
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}
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}
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}
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}
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}
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sub _y {
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my $self = shift;
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my ($y) = @_;
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return $self->_height - $y;
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}
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1;
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