PrusaSlicer-NonPlainar/lib/Slic3r/Format/AMF/Parser.pm

package Slic3r::Format::AMF::Parser;
use strict;
use warnings;

use base 'XML::SAX::Base';

my %xyz_index = (x => 0, y => 1, z => 2); #=

sub new {
    my $self = shift->SUPER::new(@_);
    $self->{_tree} = [];
    $self->{_objects_map} = {};  # this hash maps AMF object IDs to object indexes in $model->objects
    $self->{_instances} = {};   # apply these lazily to make sure all objects have been parsed
    $self;
}

sub start_element {
    my $self = shift;
    my $data = shift;
    
    if ($data->{LocalName} eq 'object') {
        $self->{_object} = $self->{_model}->add_object;
        $self->{_objects_map}{ $self->_get_attribute($data, 'id') } = $#{ $self->{_model}->objects };
    } elsif ($data->{LocalName} eq 'vertex') {
        $self->{_vertex} = ["", "", ""];
    } elsif ($self->{_vertex} && $data->{LocalName} =~ /^[xyz]$/ && $self->{_tree}[-1] eq 'coordinates') {
        $self->{_coordinate} = $data->{LocalName};
    } elsif ($data->{LocalName} eq 'volume') {
        $self->{_volume} = $self->{_object}->add_volume(
            material_id => $self->_get_attribute($data, 'materialid') || undef,
        );
    } elsif ($data->{LocalName} eq 'triangle') {
        $self->{_triangle} = ["", "", ""];
    } elsif ($self->{_triangle} && $data->{LocalName} =~ /^v([123])$/ && $self->{_tree}[-1] eq 'triangle') {
        $self->{_vertex_idx} = $1-1;
    } elsif ($data->{LocalName} eq 'material') {
        my $material_id = $self->_get_attribute($data, 'id') || '_';
        $self->{_material} = $self->{_model}->set_material($material_id);
    } elsif ($data->{LocalName} eq 'metadata' && $self->{_tree}[-1] eq 'material') {
        $self->{_material_metadata_type} = $self->_get_attribute($data, 'type');
        $self->{_material}->attributes->{ $self->{_material_metadata_type} } = "";
    } elsif ($data->{LocalName} eq 'constellation') {
        $self->{_constellation} = 1; # we merge all constellations as we don't support more than one
    } elsif ($data->{LocalName} eq 'instance' && $self->{_constellation}) {
        my $object_id = $self->_get_attribute($data, 'objectid');
        $self->{_instances}{$object_id} ||= [];
        push @{ $self->{_instances}{$object_id} }, $self->{_instance} = {};
    } elsif ($data->{LocalName} =~ /^(?:deltax|deltay|rz)$/ && $self->{_instance}) {
        $self->{_instance_property} = $data->{LocalName};
    }
    
    push @{$self->{_tree}}, $data->{LocalName};
}

sub characters {
    my $self = shift;
    my $data = shift;
    
    if ($self->{_vertex} && $self->{_coordinate}) {
        $self->{_vertex}[ $xyz_index{$self->{_coordinate}} ] .= $data->{Data};
    } elsif ($self->{_triangle} && defined $self->{_vertex_idx}) {
        $self->{_triangle}[ $self->{_vertex_idx} ] .= $data->{Data};
    } elsif ($self->{_material_metadata_type}) {
        $self->{_material}->attributes->{ $self->{_material_metadata_type} } .= $data->{Data};
    } elsif ($self->{_instance_property}) {
        $self->{_instance}{ $self->{_instance_property} } .= $data->{Data};
    }
}

sub end_element {
    my $self = shift;
    my $data = shift;
    
    pop @{$self->{_tree}};
    
    if ($data->{LocalName} eq 'object') {
        $self->{_object} = undef;
    } elsif ($data->{LocalName} eq 'vertex') {
        push @{$self->{_object}->vertices}, $self->{_vertex};
        $self->{_vertex} = undef;
    } elsif ($self->{_coordinate} && $data->{LocalName} =~ /^[xyz]$/) {
        $self->{_coordinate} = undef;
    } elsif ($data->{LocalName} eq 'volume') {
        $self->{_volume} = undef;
    } elsif ($data->{LocalName} eq 'triangle') {
        push @{$self->{_volume}->facets}, $self->{_triangle};
        $self->{_triangle} = undef;
    } elsif (defined $self->{_vertex_idx} && $data->{LocalName} =~ /^v[123]$/) {
        $self->{_vertex_idx} = undef;
    } elsif ($data->{LocalName} eq 'material') {
        $self->{_material} = undef;
    } elsif ($data->{LocalName} eq 'metadata' && $self->{_material}) {
        $self->{_material_metadata_type} = undef;
    } elsif ($data->{LocalName} eq 'constellation') {
        $self->{_constellation} = undef;
    } elsif ($data->{LocalName} eq 'instance') {
        $self->{_instance} = undef;
    } elsif ($data->{LocalName} =~ /^(?:deltax|deltay|rz)$/ && $self->{_instance}) {
        $self->{_instance_property} = undef;
    }
}

sub end_document {
    my $self = shift;
    
    foreach my $object_id (keys %{ $self->{_instances} }) {
        my $new_object_id = $self->{_objects_map}{$object_id};
        if (!defined $new_object_id) {
            warn "Undefined object $object_id referenced in constellation\n";
            next;
        }
        
        foreach my $instance (@{ $self->{_instances}{$object_id} }) {
            $self->{_model}->objects->[$new_object_id]->add_instance(
                rotation => $instance->{rz} || 0,
                offset   => [ $instance->{deltax} || 0, $instance->{deltay} || 0 ],
            );
        }
    }
}

sub _get_attribute {
    my $self = shift;
    my ($data, $name) = @_;
    
    return +(map $_->{Value}, grep $_->{Name} eq $name, values %{$data->{Attributes}})[0];
}

1;
Refactoring: moved Slic3r::STL and Slic3r::AMF to Slic3r::Format::* 2012-02-25 16:35:25 +00:00			`package Slic3r::Format::AMF::Parser;`
Parse AMF 2012-02-19 14:14:54 +00:00			`use strict;`
			`use warnings;`

			`use base 'XML::SAX::Base';`

			`my %xyz_index = (x => 0, y => 1, z => 2); #=`

			`sub new {`
			`my $self = shift->SUPER::new(@_);`
			`$self->{_tree} = [];`
Refactor the AMF parser so that it popolates a Model object directly. Also read constellations 2012-08-29 16:23:34 +00:00			`$self->{_objects_map} = {}; # this hash maps AMF object IDs to object indexes in $model->objects`
			`$self->{_instances} = {}; # apply these lazily to make sure all objects have been parsed`
Parse AMF 2012-02-19 14:14:54 +00:00			`$self;`
			`}`

			`sub start_element {`
			`my $self = shift;`
			`my $data = shift;`

Refactor the AMF parser so that it popolates a Model object directly. Also read constellations 2012-08-29 16:23:34 +00:00			`if ($data->{LocalName} eq 'object') {`
			`$self->{_object} = $self->{_model}->add_object;`
			`$self->{_objects_map}{ $self->_get_attribute($data, 'id') } = $#{ $self->{_model}->objects };`
			`} elsif ($data->{LocalName} eq 'vertex') {`
Parse AMF 2012-02-19 14:14:54 +00:00			`$self->{_vertex} = ["", "", ""];`
			`} elsif ($self->{_vertex} && $data->{LocalName} =~ /^[xyz]$/ && $self->{_tree}[-1] eq 'coordinates') {`
			`$self->{_coordinate} = $data->{LocalName};`
Parse and write multi-material AMF files. Convert multiple STL files into a single multi-material AMF 2012-02-20 15:43:45 +00:00			`} elsif ($data->{LocalName} eq 'volume') {`
Refactor the AMF parser so that it popolates a Model object directly. Also read constellations 2012-08-29 16:23:34 +00:00			`$self->{_volume} = $self->{_object}->add_volume(`
			`material_id => $self->_get_attribute($data, 'materialid') \|\| undef,`
			`);`
Parse AMF 2012-02-19 14:14:54 +00:00			`} elsif ($data->{LocalName} eq 'triangle') {`
Do not store normals and save a lot of memory 2012-05-20 09:05:16 +00:00			`$self->{_triangle} = ["", "", ""];`
Parse AMF 2012-02-19 14:14:54 +00:00			`} elsif ($self->{_triangle} && $data->{LocalName} =~ /^v([123])$/ && $self->{_tree}[-1] eq 'triangle') {`
Do not store normals and save a lot of memory 2012-05-20 09:05:16 +00:00			`$self->{_vertex_idx} = $1-1;`
Parse and write multi-material AMF files. Convert multiple STL files into a single multi-material AMF 2012-02-20 15:43:45 +00:00			`} elsif ($data->{LocalName} eq 'material') {`
Refactor the AMF parser so that it popolates a Model object directly. Also read constellations 2012-08-29 16:23:34 +00:00			`my $material_id = $self->_get_attribute($data, 'id') \|\| '_';`
Large refactoring to allow processing multimaterial files 2012-09-22 17:04:36 +00:00			`$self->{_material} = $self->{_model}->set_material($material_id);`
Parse and write multi-material AMF files. Convert multiple STL files into a single multi-material AMF 2012-02-20 15:43:45 +00:00			`} elsif ($data->{LocalName} eq 'metadata' && $self->{_tree}[-1] eq 'material') {`
			`$self->{_material_metadata_type} = $self->_get_attribute($data, 'type');`
Large refactoring to allow processing multimaterial files 2012-09-22 17:04:36 +00:00			`$self->{_material}->attributes->{ $self->{_material_metadata_type} } = "";`
Refactor the AMF parser so that it popolates a Model object directly. Also read constellations 2012-08-29 16:23:34 +00:00			`} elsif ($data->{LocalName} eq 'constellation') {`
			`$self->{_constellation} = 1; # we merge all constellations as we don't support more than one`
			`} elsif ($data->{LocalName} eq 'instance' && $self->{_constellation}) {`
			`my $object_id = $self->_get_attribute($data, 'objectid');`
			`$self->{_instances}{$object_id} \|\|= [];`
			`push @{ $self->{_instances}{$object_id} }, $self->{_instance} = {};`
			`} elsif ($data->{LocalName} =~ /^(?:deltax\|deltay\|rz)$/ && $self->{_instance}) {`
			`$self->{_instance_property} = $data->{LocalName};`
Parse AMF 2012-02-19 14:14:54 +00:00			`}`

			`push @{$self->{_tree}}, $data->{LocalName};`
			`}`

			`sub characters {`
			`my $self = shift;`
			`my $data = shift;`

			`if ($self->{_vertex} && $self->{_coordinate}) {`
			`$self->{_vertex}[ $xyz_index{$self->{_coordinate}} ] .= $data->{Data};`
			`} elsif ($self->{_triangle} && defined $self->{_vertex_idx}) {`
			`$self->{_triangle}[ $self->{_vertex_idx} ] .= $data->{Data};`
Parse and write multi-material AMF files. Convert multiple STL files into a single multi-material AMF 2012-02-20 15:43:45 +00:00			`} elsif ($self->{_material_metadata_type}) {`
Large refactoring to allow processing multimaterial files 2012-09-22 17:04:36 +00:00			`$self->{_material}->attributes->{ $self->{_material_metadata_type} } .= $data->{Data};`
Refactor the AMF parser so that it popolates a Model object directly. Also read constellations 2012-08-29 16:23:34 +00:00			`} elsif ($self->{_instance_property}) {`
			`$self->{_instance}{ $self->{_instance_property} } .= $data->{Data};`
Parse AMF 2012-02-19 14:14:54 +00:00			`}`
			`}`

			`sub end_element {`
			`my $self = shift;`
			`my $data = shift;`

			`pop @{$self->{_tree}};`

Refactor the AMF parser so that it popolates a Model object directly. Also read constellations 2012-08-29 16:23:34 +00:00			`if ($data->{LocalName} eq 'object') {`
			`$self->{_object} = undef;`
			`} elsif ($data->{LocalName} eq 'vertex') {`
			`push @{$self->{_object}->vertices}, $self->{_vertex};`
Parse AMF 2012-02-19 14:14:54 +00:00			`$self->{_vertex} = undef;`
			`} elsif ($self->{_coordinate} && $data->{LocalName} =~ /^[xyz]$/) {`
			`$self->{_coordinate} = undef;`
Parse and write multi-material AMF files. Convert multiple STL files into a single multi-material AMF 2012-02-20 15:43:45 +00:00			`} elsif ($data->{LocalName} eq 'volume') {`
			`$self->{_volume} = undef;`
Parse AMF 2012-02-19 14:14:54 +00:00			`} elsif ($data->{LocalName} eq 'triangle') {`
Refactor the AMF parser so that it popolates a Model object directly. Also read constellations 2012-08-29 16:23:34 +00:00			`push @{$self->{_volume}->facets}, $self->{_triangle};`
Parse AMF 2012-02-19 14:14:54 +00:00			`$self->{_triangle} = undef;`
Refactoring: new Slic3r::Model class to represent files 2012-08-29 14:49:38 +00:00			`} elsif (defined $self->{_vertex_idx} && $data->{LocalName} =~ /^v[123]$/) {`
Parse AMF 2012-02-19 14:14:54 +00:00			`$self->{_vertex_idx} = undef;`
Parse and write multi-material AMF files. Convert multiple STL files into a single multi-material AMF 2012-02-20 15:43:45 +00:00			`} elsif ($data->{LocalName} eq 'material') {`
			`$self->{_material} = undef;`
			`} elsif ($data->{LocalName} eq 'metadata' && $self->{_material}) {`
			`$self->{_material_metadata_type} = undef;`
Refactor the AMF parser so that it popolates a Model object directly. Also read constellations 2012-08-29 16:23:34 +00:00			`} elsif ($data->{LocalName} eq 'constellation') {`
			`$self->{_constellation} = undef;`
			`} elsif ($data->{LocalName} eq 'instance') {`
			`$self->{_instance} = undef;`
			`} elsif ($data->{LocalName} =~ /^(?:deltax\|deltay\|rz)$/ && $self->{_instance}) {`
			`$self->{_instance_property} = undef;`
			`}`
			`}`

			`sub end_document {`
			`my $self = shift;`

			`foreach my $object_id (keys %{ $self->{_instances} }) {`
			`my $new_object_id = $self->{_objects_map}{$object_id};`
Finish GUI decoupling 2012-09-12 14:30:44 +00:00			`if (!defined $new_object_id) {`
Refactor the AMF parser so that it popolates a Model object directly. Also read constellations 2012-08-29 16:23:34 +00:00			`warn "Undefined object $object_id referenced in constellation\n";`
			`next;`
			`}`

			`foreach my $instance (@{ $self->{_instances}{$object_id} }) {`
			`$self->{_model}->objects->[$new_object_id]->add_instance(`
			`rotation => $instance->{rz} \|\| 0,`
Finish GUI decoupling 2012-09-12 14:30:44 +00:00			`offset => [ $instance->{deltax} \|\| 0, $instance->{deltay} \|\| 0 ],`
Refactor the AMF parser so that it popolates a Model object directly. Also read constellations 2012-08-29 16:23:34 +00:00			`);`
			`}`
Parse AMF 2012-02-19 14:14:54 +00:00			`}`
Parse and write multi-material AMF files. Convert multiple STL files into a single multi-material AMF 2012-02-20 15:43:45 +00:00			`}`

			`sub _get_attribute {`
			`my $self = shift;`
			`my ($data, $name) = @_;`
Parse AMF 2012-02-19 14:14:54 +00:00
Parse and write multi-material AMF files. Convert multiple STL files into a single multi-material AMF 2012-02-20 15:43:45 +00:00			`return +(map $_->{Value}, grep $_->{Name} eq $name, values %{$data->{Attributes}})[0];`
Parse AMF 2012-02-19 14:14:54 +00:00			`}`

			`1;`