Merge branch 'master' of https://github.com/prusa3d/Slic3r into scene_manipulators

This commit is contained in:
Enrico Turri 2018-03-21 08:40:21 +01:00
commit 85d158525f
7 changed files with 4 additions and 364 deletions

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@ -9,7 +9,6 @@ use List::Util qw(first);
use Slic3r::GUI::2DBed;
use Slic3r::GUI::AboutDialog;
use Slic3r::GUI::BedShapeDialog;
use Slic3r::GUI::BonjourBrowser;
use Slic3r::GUI::ConfigWizard;
use Slic3r::GUI::Controller;
use Slic3r::GUI::Controller::ManualControlDialog;

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@ -1,53 +0,0 @@
# A tiny dialog to select an OctoPrint device to print to.
package Slic3r::GUI::BonjourBrowser;
use strict;
use warnings;
use utf8;
use Wx qw(:dialog :id :misc :sizer :choicebook wxTAB_TRAVERSAL);
use Wx::Event qw(EVT_CLOSE);
use base 'Wx::Dialog';
sub new {
my $class = shift;
my ($parent, $devices) = @_;
my $self = $class->SUPER::new($parent, -1, "Device Browser", wxDefaultPosition, [350,700], wxDEFAULT_DIALOG_STYLE | wxRESIZE_BORDER);
$self->{devices} = $devices;
# label
my $text = Wx::StaticText->new($self, -1, "Choose an OctoPrint device in your network:", wxDefaultPosition, wxDefaultSize);
# selector
$self->{choice} = my $choice = Wx::Choice->new($self, -1, wxDefaultPosition, wxDefaultSize,
[ map $_->name, @{$self->{devices}} ]);
my $main_sizer = Wx::BoxSizer->new(wxVERTICAL);
$main_sizer->Add($text, 1, wxEXPAND | wxALL, 10);
$main_sizer->Add($choice, 1, wxEXPAND | wxALL, 10);
$main_sizer->Add($self->CreateButtonSizer(wxOK | wxCANCEL), 0, wxEXPAND);
$self->SetSizer($main_sizer);
$self->SetMinSize($self->GetSize);
$main_sizer->SetSizeHints($self);
# needed to actually free memory
EVT_CLOSE($self, sub {
$self->EndModal(wxID_OK);
$self->Destroy;
});
return $self;
}
sub GetValue {
my ($self) = @_;
return $self->{devices}[ $self->{choice}->GetSelection ]->address;
}
sub GetPort {
my ($self) = @_;
return $self->{devices}[ $self->{choice}->GetSelection ]->port;
}
1;

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@ -1,177 +0,0 @@
# 2D cut in the XZ plane through the toolpaths.
# For debugging purposes.
package Slic3r::Test::SectionCut;
use Moo;
use List::Util qw(first min max);
use Slic3r::Geometry qw(unscale);
use Slic3r::Geometry::Clipper qw(intersection_pl);
use SVG;
use Slic3r::SVG;
has 'print' => (is => 'ro', required => 1);
has 'scale' => (is => 'ro', default => sub { 30 });
has 'y_percent' => (is => 'ro', default => sub { 0.5 }); # Y coord of section line expressed as factor
has 'line' => (is => 'rw');
has '_height' => (is => 'rw');
has '_svg' => (is => 'rw');
has '_svg_style' => (is => 'rw', default => sub { {} });
sub BUILD {
my $self = shift;
# calculate the Y coordinate of the section line
my $bb = $self->print->bounding_box;
my $y = ($bb->y_min + $bb->y_max) * $self->y_percent;
# store our section line
$self->line(Slic3r::Line->new([ $bb->x_min, $y ], [ $bb->x_max, $y ]));
}
sub export_svg {
my $self = shift;
my ($filename) = @_;
# get bounding box of print and its height
# (Print should return a BoundingBox3 object instead)
my $bb = $self->print->bounding_box;
my $print_size = $bb->size;
$self->_height(max(map $_->print_z, map @{$_->layers}, @{$self->print->objects}));
# initialize the SVG canvas
$self->_svg(my $svg = SVG->new(
width => $self->scale * unscale($print_size->x),
height => $self->scale * $self->_height,
));
# set default styles
$self->_svg_style->{'stroke-width'} = 1;
$self->_svg_style->{'fill-opacity'} = 0.5;
$self->_svg_style->{'stroke-opacity'} = 0.2;
# plot perimeters
$self->_svg_style->{'stroke'} = '#EE0000';
$self->_svg_style->{'fill'} = '#FF0000';
$self->_plot_group(sub { map @{$_->perimeters}, @{$_[0]->regions} });
# plot infill
$self->_svg_style->{'stroke'} = '#444444';
$self->_svg_style->{'fill'} = '#454545';
$self->_plot_group(sub { map @{$_->fills}, @{$_[0]->regions} });
# plot support material
$self->_svg_style->{'stroke'} = '#12EF00';
$self->_svg_style->{'fill'} = '#22FF00';
$self->_plot_group(sub { $_[0]->isa('Slic3r::Layer::Support') ? ($_[0]->support_fills) : () });
Slic3r::open(\my $fh, '>', $filename);
print $fh $svg->xmlify;
close $fh;
printf "Section cut SVG written to %s\n", $filename;
}
sub _plot_group {
my $self = shift;
my ($filter) = @_;
my $bb = $self->print->bounding_box;
my $g = $self->_svg->group(style => { %{$self->_svg_style} });
foreach my $object (@{$self->print->objects}) {
foreach my $copy (@{$object->_shifted_copies}) {
foreach my $layer (@{$object->layers}, @{$object->support_layers}) {
# get all ExtrusionPath objects
my @paths = map $_->clone,
map { ($_->isa('Slic3r::ExtrusionLoop') || $_->isa('Slic3r::ExtrusionPath::Collection')) ? @$_ : $_ }
grep defined $_,
$filter->($layer);
# move paths to location of copy
$_->polyline->translate(@$copy) for @paths;
if (0) {
# export plan with section line and exit
require "Slic3r/SVG.pm";
Slic3r::SVG::output(
"line.svg",
no_arrows => 1,
lines => [ $self->line ],
red_polylines => [ map $_->polyline, @paths ],
);
exit;
}
foreach my $path (@paths) {
foreach my $line (@{$path->lines}) {
my @intersections = @{intersection_pl(
[ $self->line->as_polyline ],
$line->grow(Slic3r::Geometry::scale $path->width/2),
)};
die "Intersection has more than two points!\n"
if defined first { @$_ > 2 } @intersections;
# turn intersections to lines
my @lines = map Slic3r::Line->new(@$_), @intersections;
# align intersections to canvas
$_->translate(-$bb->x_min, 0) for @lines;
# we want lines oriented from left to right in order to draw
# rectangles correctly
foreach my $line (@lines) {
$line->reverse if $line->a->x > $line->b->x;
}
if ($path->is_bridge) {
foreach my $line (@lines) {
my $radius = $path->width / 2;
my $width = unscale abs($line->b->x - $line->a->x);
if ((10 * $radius) < $width) {
# we're cutting the path in the longitudinal direction, so we've got a rectangle
$g->rectangle(
'x' => $self->scale * unscale($line->a->x),
'y' => $self->scale * $self->_y($layer->print_z),
'width' => $self->scale * $width,
'height' => $self->scale * $radius * 2,
'rx' => $self->scale * $radius * 0.35,
'ry' => $self->scale * $radius * 0.35,
);
} else {
$g->circle(
'cx' => $self->scale * (unscale($line->a->x) + $radius),
'cy' => $self->scale * $self->_y($layer->print_z - $radius),
'r' => $self->scale * $radius,
);
}
}
} else {
foreach my $line (@lines) {
my $height = $path->height;
$height = $layer->height if $height == -1;
$g->rectangle(
'x' => $self->scale * unscale($line->a->x),
'y' => $self->scale * $self->_y($layer->print_z),
'width' => $self->scale * unscale($line->b->x - $line->a->x),
'height' => $self->scale * $height,
'rx' => $self->scale * $height * 0.5,
'ry' => $self->scale * $height * 0.5,
);
}
}
}
}
}
}
}
}
sub _y {
my $self = shift;
my ($y) = @_;
return $self->_height - $y;
}
1;

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@ -1,129 +0,0 @@
#!/usr/bin/perl
# This script generates section cuts from a given G-Code file
use strict;
use warnings;
BEGIN {
use FindBin;
use lib "$FindBin::Bin/../lib";
use local::lib "$FindBin::Bin/../local-lib";
}
use Getopt::Long qw(:config no_auto_abbrev);
use List::Util qw(max);
use Slic3r;
use Slic3r::Geometry qw(X Y);
use Slic3r::Geometry::Clipper qw(JT_SQUARE);
use Slic3r::Test;
use SVG;
my %opt = (
layer_height => 0.2,
extrusion_width => 0.5,
scale => 30,
);
{
my %options = (
'help' => sub { usage() },
'layer-height|h=f' => \$opt{layer_height},
'extrusion-width|w=f' => \$opt{extrusion_width},
'scale|s=i' => \$opt{scale},
);
GetOptions(%options) or usage(1);
$ARGV[0] or usage(1);
}
{
my $input_file = $ARGV[0];
my $output_file = $input_file;
$output_file =~ s/\.(?:gcode|gco|ngc|g)$/.svg/;
# read paths
my %paths = (); # z => [ path, path ... ]
Slic3r::GCode::Reader->new->parse(io($input_file)->all, sub {
my ($self, $cmd, $args, $info) = @_;
if ($cmd eq 'G1' && $info->{extruding}) {
$paths{ $self->Z } ||= [];
push @{ $paths{ $self->Z } }, Slic3r::Line->new(
[ $self->X, $self->Y ],
[ $info->{new_X}, $info->{new_Y} ],
);
}
});
# calculate print extents
my $bounding_box = Slic3r::Geometry::BoundingBox->new_from_points([ map @$_, map @$_, values %paths ]);
# calculate section line
my $section_y = $bounding_box->center->[Y];
my $section_line = [
[ $bounding_box->x_min, $section_y ],
[ $bounding_box->x_max, $section_y ],
];
# initialize output
my $max_z = max(keys %paths);
my $svg = SVG->new(
width => $opt{scale} * $bounding_box->size->[X],
height => $opt{scale} * $max_z,
);
# put everything into a group
my $g = $svg->group(style => {
'stroke-width' => 1,
'stroke' => '#444444',
'fill' => 'grey',
});
# draw paths
foreach my $z (sort keys %paths) {
foreach my $line (@{ $paths{$z} }) {
my @intersections = @{intersection_pl(
[ $section_line ],
[ _grow($line, $opt{extrusion_width}/2) ],
)};
$g->rectangle(
'x' => $opt{scale} * ($_->[0][X] - $bounding_box->x_min),
'y' => $opt{scale} * ($max_z - $z),
'width' => $opt{scale} * abs($_->[1][X] - $_->[0][X]),
'height' => $opt{scale} * $opt{layer_height},
'rx' => $opt{scale} * $opt{layer_height} * 0.35,
'ry' => $opt{scale} * $opt{layer_height} * 0.35,
) for @intersections;
}
}
# write output
Slic3r::open(\my $fh, '>', $output_file);
print $fh $svg->xmlify;
close $fh;
printf "Section cut SVG written to %s\n", $output_file;
}
# replace built-in Line->grow method which relies on int_offset()
sub _grow {
my ($line, $distance) = @_;
my $polygon = [ @$line, CORE::reverse @$line[1..($#$line-1)] ];
return @{Math::Clipper::offset([$polygon], $distance, 100000, JT_SQUARE, 2)};
}
sub usage {
my ($exit_code) = @_;
print <<"EOF";
Usage: gcode_sectioncut.pl [ OPTIONS ] file.gcode
--help Output this usage screen and exit
--layer-height, -h Use the specified layer height
--extrusion-width, -w Use the specified extrusion width
--scale Factor for converting G-code units to SVG units
EOF
exit ($exit_code || 0);
}
__END__

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@ -23,7 +23,7 @@
try {
THIS->do_export(print, path);
} catch (std::exception& e) {
croak(e.what());
croak("%s\n", e.what());
}
%};
void do_export_w_preview(Print *print, const char *path, GCodePreviewData *preview_data)

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@ -18,7 +18,7 @@
try {
RETVAL = THIS->process(str, 0);
} catch (std::exception& e) {
croak(e.what());
croak("%s\n", e.what());
}
%};
@ -27,7 +27,7 @@
try {
RETVAL = THIS->evaluate_boolean_expression(str, THIS->config());
} catch (std::exception& e) {
croak(e.what());
croak("%s\n", e.what());
}
%};
};

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@ -212,7 +212,7 @@ _constant()
try {
RETVAL = THIS->output_filepath(path);
} catch (std::exception& e) {
croak(e.what());
croak("%s\n", e.what());
}
%};