package Chemistry::File::MDLMol;
$VERSION = '0.20';
# $Id: MDLMol.pm,v 1.11 2005/05/20 19:08:45 itubert Exp $
use base "Chemistry::File";
use Chemistry::Mol;
use Carp;
use List::Util;
use strict;
use warnings;
our $DEBUG = 0;
=head1 NAME
Chemistry::File::MDLMol - MDL molfile reader/writer
=head1 SYNOPSIS
use Chemistry::File::MDLMol;
# read a molecule
my $mol = Chemistry::Mol->read('myfile.mol');
# write a molecule
$mol->write("myfile.mol");
# use a molecule as a query for substructure matching
use Chemistry::Pattern;
use Chemistry::Ring;
Chemistry::Ring::aromatize_mol($mol);
my $patt = Chemistry::Pattern->read('query.mol');
if ($patt->match($mol)) {
print "it matches!\n";
}
=cut
Chemistry::Mol->register_format(mdl => __PACKAGE__);
=head1 DESCRIPTION
MDL Molfile (V2000) reader/writer.
This module automatically registers the 'mdl' format with Chemistry::Mol.
The first three lines of the molfile are stored as $mol->name,
$mol->attr("mdlmol/line2"), and $mol->attr("mdlmol/comment").
This version only reads and writes some of the information available in a
molfile: it reads coordinats, atom and bond types, charges, radicals, and atom
lists. It does not read other things such as stereochemistry, 3d properties,
isotopes, etc.
This module is part of the PerlMol project, L<http://www.perlmol.org>.
=head2 Query properties
The MDL molfile format supports query properties such as atom lists, and
special bond types such as "single or double", "single or aromatic", "double or
aromatic", "ring bond", or "any". These properties are supported by this module
in conjunction with L<Chemistry::Pattern>. However, support for query properies
is currently read-only, and the other properties listed in the specification
are not supported yet.
When an atom or a bond uses one of these special query options, the condition
is represented as a Perl subroutine. The generated code can be read from the
'mdlmol/test_sub' attribute:
$atom->attr('mdlmol/test_sub');
$bond->attr('mdlmol/test_sub');
This may be useful for debugging, such as when an atom doesn't seem to match as
expected.
=cut
# some constants, based on tables from the file format specification
my %OLD_CHARGE_MAP = (
1 => 3,
2 => 2,
3 => 1,
4 => 0,
5 => -1,
6 => -2,
7 => -3,
);
my %BOND_TYPE_EXPR = (
4 => '($bond->aromatic)',
5 => '($bond->order == 1 or $bond->order == 2)',
6 => '($bond->order == 1 or $bond->aromatic)',
7 => '($bond->order == 2 or $bond->aromatic)',
8 => '(1)',
);
my %BOND_TOPOLOGY_EXPR = (
1 => '@{$bond->attr("ring/rings")||[]}',
2 => '! @{$bond->attr("ring/rings")||[]}',
);
sub read_mol {
my ($self, $fh, %opts) = @_;
return if $fh->eof;
%opts = ( slurp => 1, %opts );
my $mol_class = $opts{mol_class} || "Chemistry::Mol";
my $atom_class = $opts{atom_class} || $mol_class->atom_class;
my $bond_class = $opts{bond_class} || $mol_class->bond_class;
local $_;
my $mol = $mol_class->new();
# header
my $name = <$fh>; chomp $name;
my $line2 = <$fh>; chomp $line2;
my $comment = <$fh>; chomp $comment;
$mol->name($name);
$mol->attr("mdlmol/line2", $line2);
$mol->attr("mdlmol/comment", $comment);
# counts line
defined ($_ = <$fh>) or croak "unexpected end of file";
my ($na, $nb) = unpack("A3A3", $_);
my %old_charges;
my %old_radicals;
# atom block
for my $i (1 .. $na) { # for each atom...
defined (my $line = <$fh>) or croak "unexpected end of file";
my ($x, $y, $z, $symbol, $mass, $charge)
= unpack("A10A10A10xA3A2A3", $line);
$old_charges{$i} = $OLD_CHARGE_MAP{$charge}
if $OLD_CHARGE_MAP{$charge};
$old_radicals{$i} = 2
if $charge && $charge == 4;
$mol->new_atom(
symbol => $symbol,
coords => [$x*1, $y*1, $z*1],
);
}
# bond block
for my $i (1 .. $nb) { # for each bond...
no warnings 'numeric';
defined ($_ = <$fh>) or croak "unexpected end of file";
my ($a1, $a2, $type, $stereo, $topology, $rxn)
= map {$_*1} unpack("A3A3A3A3x3A3A3", $_);
my $order = $type =~ /^[123]$/ ? $type : 1;
my $bond = $mol->new_bond(
type => $type,
atoms => [$mol->atoms($a1,$a2)],
order => $order,
);
if ($mol->isa('Chemistry::Pattern')) {
$self->bond_expr($bond, $i, $type, $topology);
}
}
# properties block
while (<$fh>) {
if (/^M END/ or /^\$\$\$\$/) {
last;
} elsif (/^M (...)/) { # generic extended property handler
if ($1 eq 'CHG' or $1 eq 'RAD'){ # XXX
# clear old-style info
%old_radicals = ();
%old_charges = ();
}
my $method = "M_$1";
$self->$method($mol, $_) if $self->can($method);
}
}
# add old-style charges and radicals if they still apply
while (my ($key, $val) = each %old_charges) {
$mol->atoms($key)->formal_charge($val);
}
while (my ($key, $val) = each %old_radicals) {
$mol->atoms($key)->formal_radical($val);
}
# make sure we get to the end of the file
if ($opts{slurp}) {
1 while <$fh>;
}
$mol->add_implicit_hydrogens;
return $mol;
}
sub bond_expr {
my ($self, $bond, $i, $type, $topology) = @_;
my @bond_exprs;
my $s = $BOND_TOPOLOGY_EXPR{$topology};
push @bond_exprs, $s if $s;
$s = $BOND_TYPE_EXPR{$type};
push @bond_exprs, $s if $s;
if (@bond_exprs) {
my $expr = join " and ", @bond_exprs;
my $sub_txt = <<SUB;
sub {
no warnings;
my (\$patt, \$bond) = \@_;
$expr;
};
SUB
print "MDLMol bond($i) sub: <<<<$sub_txt>>>\n" if $DEBUG;
$bond->attr('mdlmol/test_sub' => $sub_txt);
$bond->test_sub(eval $sub_txt);
}
}
sub M_CHG {
my ($self, $mol, $line) = @_;
my ($m, $type, $n, %data) = split " ", $line;
while (my ($key, $val) = each %data) {
$mol->atoms($key)->formal_charge($val);
}
}
sub M_RAD {
my ($self, $mol, $line) = @_;
my ($m, $type, $n, %data) = split " ", $line;
while (my ($key, $val) = each %data) {
$mol->atoms($key)->formal_radical($val);
}
}
sub M_ALS {
my ($self, $mol, $line) = @_;
return unless $line =~ /^M ALS (...)(...) (.)/;
my ($n, $cnt, $exclude) = ($1, $2, $3);
my @symbols;
$exclude = $exclude =~ /^[Tt]$/ ? '!' : '';
# parse the symbols out of the atom list line
for my $i (0 .. $cnt-1) {
my $s = substr $_, 16+$i*4, 4;
$s =~ s/\s+//g;
push @symbols, $s;
}
# save attr
$mol->atoms($n)->attr('mdlmol/atom_list' => $_);
# create test sub
if ($mol->isa('Chemistry::Pattern')) {
my $sub_txt = <<SUB;
sub{
my (\$patt, \$atom) = \@_;
my \$sym = \$atom->symbol;
$exclude (List::Util::first {\$sym eq \$_} \@symbols);
};
SUB
print "MDLMol atom($n) sub: <<<<$sub_txt>>>\n" if $DEBUG;
print "MDLMol symbol list: (@symbols)\n" if $DEBUG;
$mol->atoms($n)->attr('mdlmol/test_sub' => $sub_txt);
$mol->atoms($n)->test_sub(eval $sub_txt);
}
}
sub name_is {
my ($self, $fname) = @_;
$fname =~ /\.mol$/i;
}
sub file_is {
my ($self, $fname) = @_;
$fname =~ /\.mol$/i;
}
sub write_string {
my ($self, $mol, %opts) = @_;
no warnings 'uninitialized';
my $s = sprintf "%s\n perlmol \n\n", $mol->name;
$s .= sprintf "%3i%3i%3i%3i%3i%3i%3i%3i%3i%3i%3i%6s\n",
0+$mol->atoms, 0+$mol->bonds,
0, 0, 0, 0, 0, 0, 0, 0, 999, "V2000"; # "counts" line
my $i = 1;
my %idx_map;
my @charged_atoms;
my @radical_atoms;
for my $atom ($mol->atoms) {
my ($x, $y, $z) = $atom->coords->array;
$s .= sprintf
"%10.4f%10.4f%10.4f %-3s%2i%3i%3i%3i%3i%3i%3i%3i%3i%3i%3i%3i\n",
$x, $y, $z, $atom->symbol,
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0;
push @charged_atoms, $i if $atom->formal_charge;
push @radical_atoms, $i if $atom->formal_radical;
$idx_map{$atom->id} = $i++;
}
for my $bond ($mol->bonds) {
my ($a1, $a2) = map {$idx_map{$_->id}} $bond->atoms;
$s .= sprintf "%3i%3i%3i%3i%3i%3i%3i\n",
$a1, $a2, $bond->order,
0, 0, 0, 0;
}
while (@charged_atoms) {
my $n = @charged_atoms > 8 ? 8 : @charged_atoms;
$s .= "M CHG $n";
for my $key (splice @charged_atoms, 0, $n) {
$s .= sprintf "%4d%4d", $key, $mol->atoms($key)->formal_charge;
}
$s .= "\n";
}
while (@radical_atoms) {
my $n = @radical_atoms > 8 ? 8 : @radical_atoms;
$s .= "M RAD $n";
for my $key (splice @radical_atoms, 0, $n) {
$s .= sprintf "%4d%4d", $key, $mol->atoms($key)->formal_radical;
}
$s .= "\n";
}
$s .= "M END\n";
$s;
}
1;
=head1 VERSION
0.20
=head1 SEE ALSO
L<Chemistry::Mol>
The MDL file format specification.
L<http://www.mdl.com/downloads/public/ctfile/ctfile.pdf> or
Arthur Dalby et al., J. Chem. Inf. Comput. Sci, 1992, 32, 244-255.
The PerlMol website L<http://www.perlmol.org/>
=head1 AUTHOR
Ivan Tubert-Brohman <itub@cpan.org>
=head1 COPYRIGHT
Copyright (c) 2005 Ivan Tubert-Brohman. All rights reserved. This program is
free software; you can redistribute it and/or modify it under the same terms as
Perl itself.
=cut