PrusaSlicer-NonPlainar/lib/Slic3r/Config.pm

697 lines
22 KiB
Perl

package Slic3r::Config;
use strict;
use warnings;
use utf8;
use constant PI => 4 * atan2(1, 1);
# cemetery of old config settings
our @Ignore = qw(duplicate_x duplicate_y multiply_x multiply_y);
our $Options = {
# miscellaneous options
'notes' => {
label => 'Configuration notes',
cli => 'notes=s',
type => 's',
multiline => 1,
width => 350,
height => 300,
serialize => sub { join '\n', split /\R/, $_[0] },
deserialize => sub { join "\n", split /\\n/, $_[0] },
},
# output options
'output_filename_format' => {
label => 'Output filename format',
cli => 'output-filename-format=s',
type => 's',
},
# printer options
'nozzle_diameter' => {
label => 'Nozzle diameter (mm)',
cli => 'nozzle-diameter=f',
type => 'f',
important => 1,
},
'print_center' => {
label => 'Print center (mm)',
cli => 'print-center=s',
type => 'point',
serialize => sub { join ',', @{$_[0]} },
deserialize => sub { [ split /,/, $_[0] ] },
},
'gcode_flavor' => {
label => 'G-code flavor',
cli => 'gcode-flavor=s',
type => 'select',
values => [qw(reprap teacup makerbot mach3 no-extrusion)],
labels => ['RepRap (Marlin/Sprinter)', 'Teacup', 'MakerBot', 'Mach3/EMC', 'No extrusion'],
},
'use_relative_e_distances' => {
label => 'Use relative E distances',
cli => 'use-relative-e-distances',
type => 'bool',
},
'extrusion_axis' => {
label => 'Extrusion axis',
cli => 'extrusion-axis=s',
type => 's',
},
'z_offset' => {
label => 'Z offset (mm)',
cli => 'z-offset=f',
type => 'f',
},
'gcode_arcs' => {
label => 'Use native G-code arcs',
cli => 'gcode-arcs',
type => 'bool',
},
'g0' => {
label => 'Use G0 for travel moves',
cli => 'g0',
type => 'bool',
},
'gcode_comments' => {
label => 'Verbose G-code',
cli => 'gcode-comments',
type => 'bool',
},
# filament options
'filament_diameter' => {
label => 'Diameter (mm)',
cli => 'filament-diameter=f',
type => 'f',
important => 1,
},
'extrusion_multiplier' => {
label => 'Extrusion multiplier',
cli => 'extrusion-multiplier=f',
type => 'f',
aliases => [qw(filament_packing_density)],
},
'first_layer_temperature' => {
label => 'First layer temperature (°C)',
cli => 'first-layer-temperature=i',
type => 'i',
},
'first_layer_bed_temperature' => {
label => 'First layer bed temperature (°C)',
cli => 'first-layer-bed-temperature=i',
type => 'i',
},
'temperature' => {
label => 'Temperature (°C)',
cli => 'temperature=i',
type => 'i',
important => 1,
},
'bed_temperature' => {
label => 'Bed Temperature (°C)',
cli => 'bed-temperature=i',
type => 'i',
},
# speed options
'travel_speed' => {
label => 'Travel (mm/s)',
cli => 'travel-speed=f',
type => 'f',
aliases => [qw(travel_feed_rate)],
},
'perimeter_speed' => {
label => 'Perimeters (mm/s)',
cli => 'perimeter-speed=f',
type => 'f',
aliases => [qw(perimeter_feed_rate)],
},
'small_perimeter_speed' => {
label => 'Small perimeters (mm/s)',
cli => 'small-perimeter-speed=f',
type => 'f',
},
'infill_speed' => {
label => 'Infill (mm/s)',
cli => 'infill-speed=f',
type => 'f',
aliases => [qw(print_feed_rate infill_feed_rate)],
},
'solid_infill_speed' => {
label => 'Solid infill (mm/s)',
cli => 'solid-infill-speed=f',
type => 'f',
aliases => [qw(solid_infill_feed_rate)],
},
'bridge_speed' => {
label => 'Bridges (mm/s)',
cli => 'bridge-speed=f',
type => 'f',
aliases => [qw(bridge_feed_rate)],
},
'bottom_layer_speed_ratio' => {
label => 'Bottom layer speed ratio',
cli => 'bottom-layer-speed-ratio=f',
type => 'f',
},
# acceleration options
'acceleration' => {
label => 'Enable acceleration control',
cli => 'acceleration',
type => 'bool',
},
'perimeter_acceleration' => {
label => 'Perimeters (mm/s²)',
cli => 'perimeter-acceleration',
type => 'f',
},
'infill_acceleration' => {
label => 'Infill (mm/s²)',
cli => 'infill-acceleration',
type => 'f',
},
# accuracy options
'layer_height' => {
label => 'Layer height (mm)',
cli => 'layer-height=f',
type => 'f',
},
'first_layer_height_ratio' => {
label => 'First layer height ratio',
cli => 'first-layer-height-ratio=f',
type => 'f',
},
'infill_every_layers' => {
label => 'Infill every N layers',
cli => 'infill-every-layers=i',
type => 'i',
},
# flow options
'extrusion_width_ratio' => {
label => 'Extrusion width (ratio over layer height; leave zero to calculate automatically)',
cli => 'extrusion-width-ratio=f',
type => 'f',
},
'bridge_flow_ratio' => {
label => 'Bridge flow ratio',
cli => 'bridge-flow-ratio=f',
type => 'f',
},
# print options
'perimeters' => {
label => 'Perimeters',
cli => 'perimeters=i',
type => 'i',
aliases => [qw(perimeter_offsets)],
},
'solid_layers' => {
label => 'Solid layers',
cli => 'solid-layers=i',
type => 'i',
},
'fill_pattern' => {
label => 'Fill pattern',
cli => 'fill-pattern=s',
type => 'select',
values => [qw(rectilinear line concentric hilbertcurve archimedeanchords octagramspiral)],
labels => [qw(rectilinear line concentric), 'hilbertcurve (slow)', 'archimedeanchords (slow)', 'octagramspiral (slow)'],
},
'solid_fill_pattern' => {
label => 'Solid fill pattern',
cli => 'solid-fill-pattern=s',
type => 'select',
values => [qw(rectilinear concentric hilbertcurve archimedeanchords octagramspiral)],
labels => [qw(rectilinear concentric), 'hilbertcurve (slow)', 'archimedeanchords (slow)', 'octagramspiral (slow)'],
},
'fill_density' => {
label => 'Fill density',
cli => 'fill-density=f',
type => 'f',
},
'fill_angle' => {
label => 'Fill angle (°)',
cli => 'fill-angle=i',
type => 'i',
},
'support_material' => {
label => 'Generate support material',
cli => 'support-material',
type => 'bool',
},
'support_material_tool' => {
label => 'Tool used to extrude support material',
cli => 'support-material-tool=i',
type => 'select',
values => [0,1],
labels => [qw(Primary Secondary)],
},
'start_gcode' => {
label => 'Start G-code',
cli => 'start-gcode=s',
type => 's',
multiline => 1,
width => 350,
height => 120,
serialize => sub { join '\n', split /\R+/, $_[0] },
deserialize => sub { join "\n", split /\\n/, $_[0] },
},
'end_gcode' => {
label => 'End G-code',
cli => 'end-gcode=s',
type => 's',
multiline => 1,
width => 350,
height => 120,
serialize => sub { join '\n', split /\R+/, $_[0] },
deserialize => sub { join "\n", split /\\n/, $_[0] },
},
'layer_gcode' => {
label => 'Layer Change G-code',
cli => 'layer-gcode=s',
type => 's',
multiline => 1,
width => 350,
height => 50,
serialize => sub { join '\n', split /\R+/, $_[0] },
deserialize => sub { join "\n", split /\\n/, $_[0] },
},
'post_process' => {
label => 'Post-processing scripts',
cli => 'post-process=s@',
type => 's@',
multiline => 1,
width => 350,
height => 60,
serialize => sub { join '; ', @{$_[0]} },
deserialize => sub { [ split /\s*;\s*/, $_[0] ] },
},
# retraction options
'retract_length' => {
label => 'Length (mm)',
cli => 'retract-length=f',
type => 'f',
},
'retract_speed' => {
label => 'Speed (mm/s)',
cli => 'retract-speed=f',
type => 'i',
},
'retract_restart_extra' => {
label => 'Extra length on restart (mm)',
cli => 'retract-restart-extra=f',
type => 'f',
},
'retract_before_travel' => {
label => 'Minimum travel after retraction (mm)',
cli => 'retract-before-travel=f',
type => 'f',
},
'retract_lift' => {
label => 'Lift Z (mm)',
cli => 'retract-lift=f',
type => 'f',
},
# cooling options
'cooling' => {
label => 'Enable cooling',
cli => 'cooling',
type => 'bool',
},
'min_fan_speed' => {
label => 'Min fan speed (%)',
cli => 'min-fan-speed=i',
type => 'i',
},
'max_fan_speed' => {
label => 'Max fan speed (%)',
cli => 'max-fan-speed=i',
type => 'i',
},
'bridge_fan_speed' => {
label => 'Bridge fan speed (%)',
cli => 'bridge-fan-speed=i',
type => 'i',
},
'fan_below_layer_time' => {
label => 'Enable fan if layer print time is below (approximate seconds)',
cli => 'fan-below-layer-time=i',
type => 'i',
},
'slowdown_below_layer_time' => {
label => 'Slow down if layer print time is below (approximate seconds)',
cli => 'slowdown-below-layer-time=i',
type => 'i',
},
'min_print_speed' => {
label => 'Min print speed (mm/s)',
cli => 'min-print-speed=f',
type => 'i',
},
'disable_fan_first_layers' => {
label => 'Disable fan for the first N layers',
cli => 'disable-fan-first-layers=i',
type => 'i',
},
'fan_always_on' => {
label => 'Keep fan always on',
cli => 'fan-always-on',
type => 'bool',
},
# skirt options
'skirts' => {
label => 'Loops',
cli => 'skirts=i',
type => 'i',
},
'skirt_distance' => {
label => 'Distance from object (mm)',
cli => 'skirt-distance=f',
type => 'i',
},
'skirt_height' => {
label => 'Skirt height (layers)',
cli => 'skirt-height=i',
type => 'i',
},
# transform options
'scale' => {
label => 'Scale',
cli => 'scale=f',
type => 'f',
},
'rotate' => {
label => 'Rotate (°)',
cli => 'rotate=i',
type => 'i',
},
'duplicate_mode' => {
label => 'Duplicate',
gui_only => 1,
type => 'select',
values => [qw(no autoarrange grid)],
labels => ['No', 'Autoarrange', 'Grid'],
},
'duplicate' => {
label => 'Copies (autoarrange)',
cli => 'duplicate=i',
type => 'i',
},
'bed_size' => {
label => 'Bed size for autoarrange (mm)',
cli => 'bed-size=s',
type => 'point',
serialize => sub { join ',', @{$_[0]} },
deserialize => sub { [ split /,/, $_[0] ] },
},
'duplicate_grid' => {
label => 'Copies (grid)',
cli => 'duplicate-grid=s',
type => 'point',
serialize => sub { join ',', @{$_[0]} },
deserialize => sub { [ split /,/, $_[0] ] },
},
'duplicate_distance' => {
label => 'Distance between copies',
cli => 'duplicate-distance=f',
type => 'i',
aliases => [qw(multiply_distance)],
},
};
sub get {
my $class = @_ == 2 ? shift : undef;
my ($opt_key) = @_;
no strict 'refs';
return ${"Slic3r::$opt_key"};
}
sub set {
my $class = @_ == 3 ? shift : undef;
my ($opt_key, $value) = @_;
no strict 'refs';
${"Slic3r::$opt_key"} = $value;
}
sub serialize {
my $class = @_ == 2 ? shift : undef;
my ($opt_key) = @_;
return $Options->{$opt_key}{serialize}
? $Options->{$opt_key}{serialize}->(get($opt_key))
: get($opt_key);
}
sub deserialize {
my $class = @_ == 3 ? shift : undef;
my ($opt_key, $value) = @_;
return $Options->{$opt_key}{deserialize}
? set($opt_key, $Options->{$opt_key}{deserialize}->($value))
: set($opt_key, $value);
}
sub save {
my $class = shift;
my ($file) = @_;
open my $fh, '>', $file;
binmode $fh, ':utf8';
foreach my $opt (sort keys %$Options) {
next if $Options->{$opt}{gui_only};
my $value = get($opt);
$value = $Options->{$opt}{serialize}->($value) if $Options->{$opt}{serialize};
printf $fh "%s = %s\n", $opt, $value;
}
close $fh;
}
sub load {
my $class = shift;
my ($file) = @_;
my %ignore = map { $_ => 1 } @Ignore;
local $/ = "\n";
open my $fh, '<', $file;
binmode $fh, ':utf8';
while (<$fh>) {
s/\R+$//;
next if /^\s+/;
next if /^$/;
next if /^\s*#/;
/^(\w+) = (.*)/ or die "Unreadable configuration file (invalid data at line $.)\n";
my $key = $1;
next if $ignore{$key};
if (!exists $Options->{$key}) {
$key = +(grep { $Options->{$_}{aliases} && grep $_ eq $key, @{$Options->{$_}{aliases}} }
keys %$Options)[0] or warn "Unknown option $1 at line $.\n";
}
next unless $key;
my $opt = $Options->{$key};
set($key, $opt->{deserialize} ? $opt->{deserialize}->($2) : $2);
}
close $fh;
}
sub validate_cli {
my $class = shift;
my ($opt) = @_;
for (qw(start end layer)) {
if (defined $opt->{$_."_gcode"}) {
if ($opt->{$_."_gcode"} eq "") {
set($_."_gcode", "");
} else {
die "Invalid value for --${_}-gcode: file does not exist"
if !-e $opt->{$_."_gcode"};
open my $fh, "<", $opt->{$_."_gcode"};
$opt->{$_."_gcode"} = do { local $/; <$fh> };
close $fh;
}
}
}
}
sub validate {
my $class = shift;
# -j, --threads
die "Invalid value for --threads\n"
if defined $Slic3r::threads && $Slic3r::threads < 1;
die "Your perl wasn't built with multithread support\n"
if defined $Slic3r::threads && !$Slic3r::have_threads;
# --layer-height
die "Invalid value for --layer-height\n"
if $Slic3r::layer_height <= 0;
die "--layer-height must be a multiple of print resolution\n"
if $Slic3r::layer_height / $Slic3r::resolution % 1 != 0;
# --first-layer-height-ratio
die "Invalid value for --first-layer-height-ratio\n"
if $Slic3r::first_layer_height_ratio < 0;
# --filament-diameter
die "Invalid value for --filament-diameter\n"
if $Slic3r::filament_diameter < 1;
# --nozzle-diameter
die "Invalid value for --nozzle-diameter\n"
if $Slic3r::nozzle_diameter < 0;
die "--layer-height can't be greater than --nozzle-diameter\n"
if $Slic3r::layer_height > $Slic3r::nozzle_diameter;
die "First layer height can't be greater than --nozzle-diameter\n"
if ($Slic3r::layer_height * $Slic3r::first_layer_height_ratio) > $Slic3r::nozzle_diameter;
die "First layer height can't be zero or negative\n"
if ($Slic3r::layer_height * $Slic3r::first_layer_height_ratio) <= 0;
if ($Slic3r::extrusion_width_ratio) {
$Slic3r::flow_width = $Slic3r::layer_height * $Slic3r::extrusion_width_ratio;
} else {
# here we calculate a sane default by matching the flow speed (at the nozzle)
# and the feed rate
my $volume = ($Slic3r::nozzle_diameter**2) * PI/4;
my $shape_threshold = $Slic3r::nozzle_diameter * $Slic3r::layer_height
+ ($Slic3r::layer_height**2) * PI/4;
if ($volume >= $shape_threshold) {
# rectangle with semicircles at the ends
$Slic3r::flow_width = (($Slic3r::nozzle_diameter**2) * PI + ($Slic3r::layer_height**2) * (4 - PI)) / (4 * $Slic3r::layer_height);
} else {
# rectangle with squished semicircles at the ends
$Slic3r::flow_width = $Slic3r::nozzle_diameter * ($Slic3r::nozzle_diameter/$Slic3r::layer_height - 4/PI + 1);
}
my $min_flow_width = $Slic3r::nozzle_diameter * 1.05;
my $max_flow_width = $Slic3r::nozzle_diameter * 1.4;
$Slic3r::flow_width = $max_flow_width if $Slic3r::flow_width > $max_flow_width;
$Slic3r::flow_width = $min_flow_width if $Slic3r::flow_width < $min_flow_width;
}
if ($Slic3r::flow_width >= ($Slic3r::nozzle_diameter + $Slic3r::layer_height)) {
# rectangle with semicircles at the ends
$Slic3r::min_flow_spacing = $Slic3r::flow_width - $Slic3r::layer_height * (1 - PI/4);
} else {
# rectangle with shrunk semicircles at the ends
$Slic3r::min_flow_spacing = $Slic3r::flow_width * (1 - PI/4) + $Slic3r::nozzle_diameter * PI/4;
}
$Slic3r::flow_spacing = $Slic3r::flow_width - $Slic3r::overlap_factor * ($Slic3r::flow_width - $Slic3r::min_flow_spacing);
Slic3r::debugf "Flow width = $Slic3r::flow_width\n";
Slic3r::debugf "Flow spacing = $Slic3r::flow_spacing\n";
Slic3r::debugf "Min flow spacing = $Slic3r::min_flow_spacing\n";
# --perimeters
die "Invalid value for --perimeters\n"
if $Slic3r::perimeters < 0;
# --solid-layers
die "Invalid value for --solid-layers\n"
if $Slic3r::solid_layers < 0;
# --print-center
die "Invalid value for --print-center\n"
if !ref $Slic3r::print_center
&& (!$Slic3r::print_center || $Slic3r::print_center !~ /^\d+,\d+$/);
$Slic3r::print_center = [ split /[,x]/, $Slic3r::print_center ]
if !ref $Slic3r::print_center;
# --fill-pattern
die "Invalid value for --fill-pattern\n"
if !exists $Slic3r::Fill::FillTypes{$Slic3r::fill_pattern};
# --solid-fill-pattern
die "Invalid value for --solid-fill-pattern\n"
if !exists $Slic3r::Fill::FillTypes{$Slic3r::solid_fill_pattern};
# --fill-density
die "Invalid value for --fill-density\n"
if $Slic3r::fill_density < 0 || $Slic3r::fill_density > 1;
# --infill-every-layers
die "Invalid value for --infill-every-layers\n"
if $Slic3r::infill_every_layers !~ /^\d+$/ || $Slic3r::infill_every_layers < 1;
die "Maximum infill thickness can't exceed nozzle diameter\n"
if $Slic3r::infill_every_layers * $Slic3r::layer_height > $Slic3r::nozzle_diameter;
# --scale
die "Invalid value for --scale\n"
if $Slic3r::scale <= 0;
# --bed-size
die "Invalid value for --bed-size\n"
if !ref $Slic3r::bed_size
&& (!$Slic3r::bed_size || $Slic3r::bed_size !~ /^\d+,\d+$/);
$Slic3r::bed_size = [ split /[,x]/, $Slic3r::bed_size ]
if !ref $Slic3r::bed_size;
# --duplicate-grid
die "Invalid value for --duplicate-grid\n"
if !ref $Slic3r::duplicate_grid
&& (!$Slic3r::duplicate_grid || $Slic3r::duplicate_grid !~ /^\d+,\d+$/);
$Slic3r::duplicate_grid = [ split /[,x]/, $Slic3r::duplicate_grid ]
if !ref $Slic3r::duplicate_grid;
# --duplicate
die "Invalid value for --duplicate or --duplicate-grid\n"
if !$Slic3r::duplicate || $Slic3r::duplicate < 1 || !$Slic3r::duplicate_grid
|| (grep !$_, @$Slic3r::duplicate_grid);
die "Use either --duplicate or --duplicate-grid (using both doesn't make sense)\n"
if $Slic3r::duplicate > 1 && $Slic3r::duplicate_grid && (grep $_ && $_ > 1, @$Slic3r::duplicate_grid);
$Slic3r::duplicate_mode = 'autoarrange' if $Slic3r::duplicate > 1;
$Slic3r::duplicate_mode = 'grid' if grep $_ && $_ > 1, @$Slic3r::duplicate_grid;
# --duplicate-distance
die "Invalid value for --duplicate-distance\n"
if $Slic3r::duplicate_distance < 1;
# --skirt-height
die "Invalid value for --skirt-height\n"
if $Slic3r::skirt_height < 0;
# --bridge-flow-ratio
die "Invalid value for --bridge-flow-ratio\n"
if $Slic3r::bridge_flow_ratio <= 0;
$Slic3r::first_layer_temperature //= $Slic3r::temperature; #/
$Slic3r::first_layer_bed_temperature //= $Slic3r::bed_temperature; #/
# G-code flavors
$Slic3r::extrusion_axis = 'A' if $Slic3r::gcode_flavor eq 'mach3';
$Slic3r::extrusion_axis = '' if $Slic3r::gcode_flavor eq 'no-extrusion';
# legacy with existing config files
$Slic3r::small_perimeter_speed ||= $Slic3r::perimeter_speed;
$Slic3r::bridge_speed ||= $Slic3r::infill_speed;
$Slic3r::solid_infill_speed ||= $Slic3r::infill_speed;
}
sub replace_options {
my $class = shift;
my ($string, $more_variables) = @_;
if ($more_variables) {
my $variables = join '|', keys %$more_variables;
$string =~ s/\[($variables)\]/$more_variables->{$1}/eg;
}
# build a regexp to match the available options
my $options = join '|',
grep !$Slic3r::Config::Options->{$_}{multiline},
keys %$Slic3r::Config::Options;
# use that regexp to search and replace option names with option values
$string =~ s/\[($options)\]/Slic3r::Config->serialize($1)/eg;
return $string;
}
1;