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#!/usr/bin/perl -w

#----------------------------------------------------------------------------
# dia2abg.pl
# Copyright (C) 2002; David Hoover.

#
# This program is free software; you can redistribute it and/or
# modify it under the terms of the GNU General Public License
# as published by the Free Software Foundation; either version 2
# of the License, or (at your option) any later version.
# 
# This program is distributed in the hope that it will be useful,





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#!/usr/bin/perl -w

#----------------------------------------------------------------------------
# dia2abg.pl
# Copyright (C) 2002; David Hoover.
# Modified      2004  Geraint Bevan.
#
# This program is free software; you can redistribute it and/or
# modify it under the terms of the GNU General Public License
# as published by the Free Software Foundation; either version 2
# of the License, or (at your option) any later version.
# 
# This program is distributed in the hope that it will be useful,
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# For more information about free software, visit http://www.fsf.org/
#----------------------------------------------------------------------------

#############################################################################
# Given a DIA diagram, the script has functions that perform the following
# MTT (model transformation tools) functions:
# 1. Write a _cmp.txt file containing component types:names
# 2. Write a _abg.m file containing an acausal bond graph suitable for input
#    to Octave.
# 3. Modify a diagram by changing causality as desired.
#############################################################################

#----------------------------------------------------------------------------
# Dia uses a unique id for each object.
# get_component_data and get_bond_data read the xml file and collect
# important information about component and bond id's, component







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# For more information about free software, visit http://www.fsf.org/
#----------------------------------------------------------------------------

#############################################################################
# Given a DIA diagram, the script has functions that perform the following
# MTT (model transformation tools) functions:
# 1. Write a _cmp.txt file containing component types:names
# 2. Write a _ibg.m file containing an acausal bond graph suitable for 
#    processing by MTT.
# 3. Modify a diagram by changing causality as desired.
#############################################################################

#----------------------------------------------------------------------------
# Dia uses a unique id for each object.
# get_component_data and get_bond_data read the xml file and collect
# important information about component and bond id's, component
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# The %bond_id_flow_causality hash is a boolean that provides the
# flow arrow-oriented causality.
#
# key=bond_id
# value=arrow-oriented flow causality.

# %mtt_bond_id_index provides a unique positive integer index for each
# Dia bond ID.  The index is written to the abg.m file for mtt.

# The %component_label_data hash is a hash of arrays.


# key=column 1 of label file

# value=list(order in label file, col1 of lbl file, col2 of lbl file, ...)
#----------------------------------------------------------------------------

#----------------------------MAIN PROGRAM------------------------------------
use strict;
use Getopt::Long;
use XML::DOM;

my (%component_id_tag, %bond_id_start_id, %bond_id_end_id,
    %component_label_data, $objects, %mtt_bond_id_index,
    %bond_id_arrow_on_start, %bond_id_flow_causality, %bond_id_effort_causality,
    %bond_id_start_label,%bond_id_end_label);

my (%component_id_type, %component_id_name, %component_id_reps, %component_id_anon);

# Parse user options:
my $diagram_name = '';
my $dia_input_file = '';
my $dia_output_file = '';
my $label_file = '';
my $component_list_file = '';
my $debug = 0;
my $create_component_list = 0;
my $create_abg = 0;
my $create_ibg = 0;
my $abg_file = '';
my $ibg_file = '';
my $change_flow_causality = '';
my $change_effort_causality = '';
GetOptions ('diagram_name=s' => \$diagram_name,
	    'dia_input_file=s' => \$dia_input_file,
	    'dia_output_file=s' => \$dia_output_file,
	    'label_file=s' => \$label_file,
	    'component_list_file=s' => \$component_list_file,
	    'debug' => \$debug,
	    'create_component_list' => \$create_component_list,
	    'create_abg' => \$create_abg,
	    'create_ibg' => \$create_ibg,
	    'abg_file=s' => \$abg_file,
	    'ibg_file=s' => \$ibg_file,
	    'change_flow_causality=s' => \$change_flow_causality,
	    'change_effort_causality=s' => \$change_effort_causality,
	    );

die usage() if $diagram_name eq '';

# Use defaults if necessary:
$dia_input_file = $diagram_name . "_abg.dia" if ($dia_input_file eq '');
$dia_output_file = $diagram_name . "_cbg.dia" if ($dia_output_file eq '');
$label_file = $diagram_name . "_lbl.txt" if ($label_file eq '');
$abg_file = $diagram_name . "_abg.m" if ($abg_file eq '');
$ibg_file = $diagram_name . "_ibg.m" if ($ibg_file eq '');
$component_list_file = $diagram_name . "_cmp.txt" if ($component_list_file eq '');

# Start Parsing XML, and creating files:
my $dom = new XML::DOM::Parser;
my ($doc);

$doc = $dom->parsefile($dia_input_file);
$objects = get_objects_node($doc,"Bond Graph");

get_component_data($objects);
parse_component_data();

get_bond_data($objects);

create_component_list() if ($create_component_list);

if ($create_abg) {
    open (OUT,">$abg_file") ||
	die "Cannot open $abg_file for writing.\n";

    # Don't update the label file unless we are creating component list and abg simultaneously...
    if ($create_component_list) {
	print STDERR "WARNING: Label file may be stale.\n" 
	#system("abg2lbl_fig2txt -c $component_list_file $diagram_name") &&
	#system("abg2lbl_fig2txt -x $diagram_name") && die "abg2lbl_fig2txt failed.";
    }

    get_label_data();
    output_abg();
    output_bond_causality();
    parse_aliases();
    print OUT "endfunction\n";
}

if ($create_ibg) {
    open (OUT,">$ibg_file") ||
	die "Cannot open $ibg_file for writing.\n";
    # don't bother about creating cmp.m simultaneously
    # don't need getting label data
    output_ibg();
    
}   

if ($change_flow_causality ne '' || $change_effort_causality ne '') {
    open (DIA_OUT,">$dia_output_file") ||
	die "Cannot open $dia_output_file for writing.\n";







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# The %bond_id_flow_causality hash is a boolean that provides the
# flow arrow-oriented causality.
#
# key=bond_id
# value=arrow-oriented flow causality.

# %mtt_bond_id_index provides a unique positive integer index for each
# Dia bond ID.  The index is written to the ibg.m file for mtt.

# The %component_id_type, %component_id_name, %component_id_reps hashes
# store the information from _cmp.m for each component
#
# key=component_id
# value=component type, name or number of repetitions

#----------------------------------------------------------------------------

#----------------------------MAIN PROGRAM------------------------------------
use strict;
use Getopt::Long;
use XML::DOM;

my (%component_id_tag, %bond_id_start_id, %bond_id_end_id,
    $objects, %mtt_bond_id_index,
    %bond_id_arrow_on_start, %bond_id_flow_causality, %bond_id_effort_causality,
    %bond_id_start_label,%bond_id_end_label);

my (%component_id_type, %component_id_name, %component_id_reps);

# Parse user options:
my $diagram_name		= '';
my $dia_input_file		= '';
my $dia_output_file		= '';

my $component_list_file		= '';
my $debug			= 0;
my $create_component_list	= 0;

my $create_ibg			= 0;

my $ibg_file			= '';
my $change_flow_causality	= '';
my $change_effort_causality	= '';
GetOptions ('diagram_name=s'		=> \$diagram_name,
	    'dia_input_file=s'		=> \$dia_input_file,
	    'dia_output_file=s'		=> \$dia_output_file,

	    'component_list_file=s'	=> \$component_list_file,
	    'debug'			=> \$debug,
	    'create_component_list'	=> \$create_component_list,

	    'create_ibg'		=> \$create_ibg,

	    'ibg_file=s'		=> \$ibg_file,
	    'change_flow_causality=s'	=> \$change_flow_causality,
	    'change_effort_causality=s'	=> \$change_effort_causality,
	    );

die usage() if $diagram_name eq '';

# Use defaults if necessary:
$dia_input_file      = $diagram_name . "_abg.dia" if ($dia_input_file      eq '');
$dia_output_file     = $diagram_name . "_cbg.dia" if ($dia_output_file     eq '');


$ibg_file            = $diagram_name . "_ibg.m"   if ($ibg_file            eq '');
$component_list_file = $diagram_name . "_cmp.txt" if ($component_list_file eq '');

# Start Parsing XML, and creating files:
my $dom = new XML::DOM::Parser;
my ($doc);

$doc = $dom->parsefile($dia_input_file);
$objects = get_objects_node($doc,"Bond Graph");

get_component_data($objects);
parse_component_data();

get_bond_data($objects);

create_component_list() if ($create_component_list);



















if ($create_ibg) {
    open (OUT,">$ibg_file") ||
	die "Cannot open $ibg_file for writing.\n";


    output_ibg();
    
}   

if ($change_flow_causality ne '' || $change_effort_causality ne '') {
    open (DIA_OUT,">$dia_output_file") ||
	die "Cannot open $dia_output_file for writing.\n";
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	id_cleaner();
	$val =  $_;
	print RAW $val . "\n";
    }
    close(RAW);
}


sub get_label_data {
    my ($name,@line,$i);

    print_debug("READING DATA FROM $label_file...\n");
    open (LBL,$label_file) || die "Cannot open label file: $label_file\n";

    $i=0;
    while (<LBL>) {
      chomp;
      # Get rid of commented lines:
      next if (/^(\s)*[%\#]/);
      # Get rid of empty or whitespace-only lines:
      next if (/^(\s)*$/);
      # Get rid of leading/trailing whitespace:
      s/^\s*(\S.+\S)\s*$/$1/;

      print_debug("label: $_ \n");      

      @line = split(/\s+/);
      $name = shift(@line);

      $component_label_data{$name} = [ ($i++,@line) ];
  }
    close(LBL);
}

sub parse_aliases {
    my ($name,@line,$alias);

    print OUT "# Aliases\n";
    print OUT "# A double underscore __ represents a comma\n";

    open (LBL,$label_file) || die "Cannot open label file: $label_file\n";

    while (<LBL>) {
      chomp;
      # Get rid of everything except ALIAS lines:
      next unless (s/^[%\#]ALIAS(.*)$/$1/);
      # Get rid of leading/trailing whitespace:
      s/^\s*(\S.+\S)\s*$/$1/;

      @line = split(/\s+/);
      die "Label file ALIAS entries must have 2 columns!\n" unless
	  @line == 2;

      print OUT "$diagram_name.alias.$line[1] = \"$line[0]\";\n";
  }
    close(LBL);
    print OUT "## Port domain and units\n";
    print OUT "## Explicit variable declarations\n";
}

sub get_objects_node {
    my ( $doc_node, $layer_name )= @_;
    my ($root,$layer_node,$objects);

    $root = get_first_element_subnode($doc_node);
    die "could not find top-level element dia_diagram.\n"
	unless $root->getTagName eq 'dia:diagram';
    
    $layer_node = get_first_subnode_by_nodename_attribute(0,$root,"dia:layer","name",$layer_name);
    die "I found no dia:layer named $layer_name.  Are you sure the diagram has one?\n" unless
	$layer_node->getTagName eq 'dia:layer' &&
	$layer_node->getAttributeNode("name")->getValue eq $layer_name;
    
    $objects = $layer_node->getElementsByTagName('dia:object');

    return $objects;
}

sub output_abg_header {
    my ($date);
    $date = `date`; chomp($date);

    print OUT <<"EOF";
function [${diagram_name}] =  ${diagram_name}_abg
# This function is the acausal bond graph representation of $diagram_name
# Generated by dia2abg.pl on $date
# The file is in Octave format

# Subsystems and Ports

EOF
}

sub output_ibg_header {
    my ($date);
    $date = `date`; chomp($date);

    print OUT <<"EOF";
## -*-octave-*- put Emacs into Octave mode








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	id_cleaner();
	$val =  $_;
	print RAW $val . "\n";
    }
    close(RAW);
}






















































sub get_objects_node {
    my ( $doc_node, $layer_name )= @_;
    my ($root,$layer_node,$objects);

    $root = get_first_element_subnode($doc_node);
    die "could not find top-level element dia_diagram.\n"
	unless $root->getTagName eq 'dia:diagram';
    
    $layer_node = get_first_subnode_by_nodename_attribute(0,$root,"dia:layer","name",$layer_name);
    die "I found no dia:layer named $layer_name.  Are you sure the diagram has one?\n" unless
	$layer_node->getTagName eq 'dia:layer' &&
	$layer_node->getAttributeNode("name")->getValue eq $layer_name;
    
    $objects = $layer_node->getElementsByTagName('dia:object');

    return $objects;
}
















sub output_ibg_header {
    my ($date);
    $date = `date`; chomp($date);

    print OUT <<"EOF";
## -*-octave-*- put Emacs into Octave mode

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sub output_ibg_footer {
    print OUT <<"EOF";
endfunction
EOF
}

sub output_component {
    my ($NM,$type,$cr,$arg,$rep,$stat,$connections,$subsys_or_port) = @_;

    $_=$NM; remove_brackets(); $NM = $_;

    my $pretty_name = ($subsys_or_port eq "ports") ? "Port" : "Component";

	print OUT <<"EOF";
# $pretty_name $NM
  ${diagram_name}.${subsys_or_port}.${NM}.type = "$type";
  ${diagram_name}.${subsys_or_port}.${NM}.cr = "$cr";
  ${diagram_name}.${subsys_or_port}.${NM}.arg = "$arg";
  ${diagram_name}.${subsys_or_port}.${NM}.repetitions = $rep;
  ${diagram_name}.${subsys_or_port}.${NM}.status = $stat;
  ${diagram_name}.${subsys_or_port}.${NM}.connections = [$connections];
    
EOF
}

sub sort_components {
    my ($type1, $str1, $subsys_or_port1,
	$type2, $str2, $subsys_or_port2,
	$retval);
    
    $type1 = $component_id_type{$a};
    $type2 = $component_id_type{$b};

    $str1 = $component_id_tag{$a};
    $str2 = $component_id_tag{$b};

    ($subsys_or_port1, $_) = id_to_name($a);
    ($subsys_or_port2, $_) = id_to_name($b);

    print "${str1}: ${subsys_or_port1}\n";
    print "${str2}: ${subsys_or_port2}\n";

    # 1 junctions go last
    if (($type1 eq '1') and ($type2 ne '1')) {
	$retval = +1;
    } elsif (($type1 ne '1') and ($type2 eq '1')) {
	$retval = -1;
    # 0 junctions go before them
    } elsif (($type1 eq '0') and ($type2 ne '0')) {
	$retval = +1;
    } elsif (($type1 ne '0') and ($type2 eq '0')) {
	$retval = -1;
    # ports go first
    } elsif (($subsys_or_port1 ne 'ports') and
	     ($subsys_or_port2 eq 'ports')) {
	$retval = +1;
    } elsif (($subsys_or_port1 eq 'ports') and
	     ($subsys_or_port2 ne 'ports')) {
	$retval = -1;
    # sort by type:name
    } else {
	$retval = ($str1 cmp $str2);
    }

    return $retval;
}

sub output_abg {
    my ($cr,$rep,$stat,$NM,$type,$arg,$bond_id,$start,$end,@clist,$connections,
	$strlength,$subsys_or_port);

    print_debug("WRITING OUTPUT TO STDIO...\n");
    $stat = "-1";

    output_abg_header();
    
    # order component id's alphabetically by (type:name)
    my (@id_list);
    @id_list = keys (%component_id_tag);
    @id_list = sort sort_components @id_list;

    foreach my $id (@id_list) {
	($subsys_or_port,$_) = id_to_name($id);
	remove_brackets(); $NM = $_;

	$type = $component_id_type{$id};

	$cr = "" unless defined($cr = $component_label_data{$NM}[1]);
	$arg = "" unless defined($arg = $component_label_data{$NM}[2]);
	$rep = $component_id_reps{$id};

	@clist = ();
	while (($bond_id,$start) = each(%bond_id_start_id)) {
	    push(@clist, ($bond_id_arrow_on_start{$bond_id} ? -1 : 1) *
		 $mtt_bond_id_index{$bond_id}) if $start eq $id;
	}
	while (($bond_id,$end) = each(%bond_id_end_id)) {
	    
	    push(@clist, ($bond_id_arrow_on_start{$bond_id} ? 1 : -1) *
		 $mtt_bond_id_index{$bond_id}) if $end eq $id;
	}
	$connections = join(" ",@clist);

	output_component($NM,$type,$cr,$arg,$rep,$stat,$connections,$subsys_or_port);
    }
    
    # calculate string length of longest component name (for octave):
    $strlength=0;
    foreach my $id (@id_list) {
	my $name = id_to_name($id);
	$strlength = length($name) if length($name) > $strlength;
    };

    print OUT "# Ordered list of Port names\n";
    my $i=1;
    foreach my $id (@id_list) {
	my ($subsys_or_port,$name) = id_to_name($id);
	if ($subsys_or_port eq "ports") {
	    $_ = $name; remove_brackets(); $name = $_;
	    print OUT "  " . $diagram_name . ".portlist($i,:)" . ' = "'
		. $name . " " x ($strlength - length($name)) . '";' . "\n";
	    $i++;
	}
    }
    print OUT "\n";

    print OUT "# Ordered list of subsystem names\n";
    $i=1;
    foreach my $id (@id_list) {
	my ($subsys_or_port,$name) = id_to_name($id);
	if ($subsys_or_port eq "subsystems") {
	    print OUT "  " . $diagram_name . ".subsystemlist($i,:)" . ' = "'
		. $name . " " x ($strlength - length($name)) . '";' . "\n";
	    $i++;
	}
    }
    print OUT "\n";
}

sub output_ibg {
    my ($key,$component,$type,$name,
	%reverse_mtt_bond_id_index,$mtt_bond_id,$dia_bond_id,
	@bonds,
	$bond_id,$start,$end,$id,
	$head,$head_component,$head_type,$head_name,
	$tail,$tail_component,$tail_type,$tail_name,







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sub output_ibg_footer {
    print OUT <<"EOF";
endfunction
EOF
}






































































































































sub output_ibg {
    my ($key,$component,$type,$name,
	%reverse_mtt_bond_id_index,$mtt_bond_id,$dia_bond_id,
	@bonds,
	$bond_id,$start,$end,$id,
	$head,$head_component,$head_type,$head_name,
	$tail,$tail_component,$tail_type,$tail_name,
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	    "  ${diagram_name}.bonds.bond${mtt_bond_id_index{$dia_bond_id}}." .
	    "causality.flow = \"$flow_causality\";\n\n";
    }
    
    output_ibg_footer();
}

sub output_bond_causality {
    my ($mtt_bond_id,$dia_bond_id,$mtt_flow_causality,$mtt_effort_causality,
	%reverse_mtt_bond_id_index);

    print OUT "# Bonds\n";
    print OUT "  $diagram_name.bonds = [\n";

    %reverse_mtt_bond_id_index = reverse(%mtt_bond_id_index);

    while (($mtt_bond_id,$dia_bond_id) = each(%reverse_mtt_bond_id_index)) {
	$mtt_flow_causality = $bond_id_flow_causality{$dia_bond_id};
	$mtt_effort_causality = $bond_id_effort_causality{$dia_bond_id};

	print OUT "      $mtt_effort_causality $mtt_flow_causality\n";
    }
    print OUT "      ];\n\n";
}

sub get_component_data {
    my ( $objects_node )= @_;
    my($obj,$id,$attr,$comp,$strattr,$str_elem,$string);

    print_debug("READING COMPONENTS FROM $dia_input_file...\n");
    for my $i (0..$objects_node->getLength-1) {
      $obj = $objects_node->item($i);







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	    "  ${diagram_name}.bonds.bond${mtt_bond_id_index{$dia_bond_id}}." .
	    "causality.flow = \"$flow_causality\";\n\n";
    }
    
    output_ibg_footer();
}



















sub get_component_data {
    my ( $objects_node )= @_;
    my($obj,$id,$attr,$comp,$strattr,$str_elem,$string);

    print_debug("READING COMPONENTS FROM $dia_input_file...\n");
    for my $i (0..$objects_node->getLength-1) {
      $obj = $objects_node->item($i);
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      $string = get_first_text_subnode($str_elem);
      $component_id_tag{$id} = $string->getData;
  }
    die "There are no components!\n" unless keys(%component_id_tag) > 0;
}

sub parse_component_data {
    my (%anon_index, $id, $component, $anonymous);

    while (($id, $component) = each (%component_id_tag)) {
	$_ = $component;
	id_cleaner();
	$component = $_;
	my ($type_name, $repetitions) = split (/\*/, $component);
	if (! $repetitions) {
	    $type_name = $component;
	    $repetitions = 1;
	}
	my ($type, $name) = split (/:/, $type_name);
	if (! $name) {
	    $type = $type_name;
	    if (! defined ($anon_index{$type})) {
		$anon_index{$type} = 1;
		$name = "mtt${type}";
	    } else {
		my $num = ++$anon_index{$type};
		$name = "mtt${type}_${num}";
	    }
	    $anonymous = 1;
	} else {
	    $anonymous = 0;
	}
	$component_id_type{$id} = $type;
	$component_id_name{$id} = $name;
	$component_id_reps{$id} = $repetitions;
	$component_id_anon{$id} = $anonymous;
    }
}

# Dia stores its attributes in a strange way, not using typical xml attributes.
sub get_dia_attribute_value {
    my ($type, $attribute_node )= @_;
    my ($subnode);







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      $string = get_first_text_subnode($str_elem);
      $component_id_tag{$id} = $string->getData;
  }
    die "There are no components!\n" unless keys(%component_id_tag) > 0;
}

sub parse_component_data {
    my (%anon_index, $id, $component);

    while (($id, $component) = each (%component_id_tag)) {
	$_ = $component;
	id_cleaner();
	$component = $_;
	my ($type_name, $repetitions) = split (/\*/, $component);
	if (! $repetitions) {
	    $type_name = $component;
	    $repetitions = 1;
	}
	my ($type, $name) = split (/:/, $type_name);
	if (! $name) {
	    $type = $type_name;
	    if (! defined ($anon_index{$type})) {
		$anon_index{$type} = 1;
		$name = "mtt${type}";
	    } else {
		my $num = ++$anon_index{$type};
		$name = "mtt${type}_${num}";
	    }



	}
	$component_id_type{$id} = $type;
	$component_id_name{$id} = $name;
	$component_id_reps{$id} = $repetitions;

    }
}

# Dia stores its attributes in a strange way, not using typical xml attributes.
sub get_dia_attribute_value {
    my ($type, $attribute_node )= @_;
    my ($subnode);
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	$subnode->getNodeType == TEXT_NODE;
}

sub id_cleaner {
    s/#?([^#]*)#?/$1/;
}

sub remove_brackets {
    s/^\[([^\]]*)\]$/$1/;
}

# If 1 LHS argument is used, it returns component name.  If 2 are used, it return
# "subsystem" or "port" depending on whether brackets are found in the name.
sub id_to_name {
    my ( $id )= @_;
    my($type,$name);
    
    $type = $component_id_type{$id};
    $name = $component_id_name{$id};

    if(!defined($name)) { $name = $id };

    return ( ($name =~ /^\[[^\]]*\]$/ ? "ports" : "subsystems" ),$name);
}

sub print_debug {
    print STDERR $_[0] if ($debug);
}

sub usage {
    return 
	"\n" .
	"Usage: dia2abg.pl --diagram_name <diagram_name> [options]\n" .
	"Options:\n" .
	"\t--dia_input_file <dia_input_file>\n" .
	"\t--label_file <label_file>\n" .
	"\t--component_list_file\n" .
	"\t--create_component_list\n" .
	"\t--create_abg\n" .
	"\t--debug\n" .
	"\t--abg_file <abg_file>\n" .
	"\t--change_flow_causality <bond causality spec>\n" .
	"\t--change_effort_causality <bond causality spec>\n" .
	"\n" .
	"\t\tBond causality spec:\n" .
	"\t\t 'bond:causality;bond:causality;...'\n" .
	"\t\tbond:\n" .
	"\t\t [mtt_bond_id|all]\n" .







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	$subnode->getNodeType == TEXT_NODE;
}

sub id_cleaner {
    s/#?([^#]*)#?/$1/;
}



















sub print_debug {
    print STDERR $_[0] if ($debug);
}

sub usage {
    return 
	"\n" .
	"Usage: dia2abg.pl --diagram_name <diagram_name> [options]\n" .
	"Options:\n" .
	"\t--dia_input_file <dia_input_file>\n" .

	"\t--component_list_file\n" .
	"\t--create_component_list\n" .
	"\t--create_ibg\n" .
	"\t--debug\n" .
	"\t--ibg_file <ibg_file>\n" .
	"\t--change_flow_causality <bond causality spec>\n" .
	"\t--change_effort_causality <bond causality spec>\n" .
	"\n" .
	"\t\tBond causality spec:\n" .
	"\t\t 'bond:causality;bond:causality;...'\n" .
	"\t\tbond:\n" .
	"\t\t [mtt_bond_id|all]\n" .

MTT: Model Transformation Tools
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