package Chemistry::InternalCoords::Builder;
$VERSION = '0.18';
use strict;
use warnings;
#use diagnostics;
use Chemistry::Bond::Find 'find_bonds';
use Chemistry::Canonicalize 'canonicalize';
use Chemistry::InternalCoords;
use List::Util qw(first reduce);
use base 'Exporter';
our @EXPORT_OK = qw(build_zmat);
our %EXPORT_TAGS = ( all => \@EXPORT_OK );
=head1 NAME
Chemistry::InternalCoords::Builder - Build a Z-matrix from cartesian
coordinates
=head1 SYNOPSIS
use Chemistry::InternalCoords::Builder 'build_zmat';
# $mol is a Chemistry::Mol object
build_zmat($mol);
# don't change the atom order!
build_zmat($mol, bfs => 0);
=head1 DESCRIPTION
This module builds a Z-matrix from the cartesian coordinates of a molecule,
making sure that atoms are defined in a way that allows for efficient structure
optimizations and Monte Carlo sampling.
By default, the algorithm tries to start at the center of the molecule and
builds outward in a breadth-first fashion. Improper dihedrals are used to
ensure clean rotation of groups without distortion. All distance and angle
references use real bonds and bond angles where possible (the exception being
disconnected structures).
This module is part of the PerlMol project, L<http://www.perlmol.org/>.
=head1 FUNCTIONS
These functions may be exported, although nothing is exported by default.
To export all functions, use the ":all" tag.
=over
=item build_zmat($mol, %options)
Build a Z-matrix from the cartesian coordinates of the molecule. Side effect
warning: by default, this function modifies the molecule heavily! First, it
finds the bonds if there are no bonds defined already (for example, if the
structure came from and XYZ file with no bond information). Second, it
canonicalizes the molecule, as a means of finding the "topological center".
Third, it builds the Z-matrix using a breadth-first search. Fourth, it sorts
the atoms in the molecule in the order that they were defined in the Z-matrix.
Options:
=over
=item bfs
Default: true. Follow the procedure described above. If bfs is false, then
the atom order is not modified (that is, the atoms are added sequentially in
the order in which they appear in the connection table, instead of using the
breadth-first search).
=item sort
Default: true. Do the canonicalization step as described above. This option
only applies when bfs => 1, otherwise it has no effect. If false and bfs => 1,
the breadth-first search is done, but starting at the first atom in the
connection table.
=back
=cut
sub build_zmat {
my ($mol, %opts) = @_;
%opts = (sort => 1, bfs => 1, %opts);
find_bonds($mol) unless $mol->bonds;
if ($opts{bfs}) {
my @atoms = $mol->atoms;
if ($opts{sort}) {
canonicalize($mol);
@atoms = sort {
$b->attr("canon/class") <=> $a->attr("canon/class")
} @atoms;
}
my $ats = [];
for my $atom (@atoms) {
next if $atom->attr("zmat/index");
zmat_bfs($mol, $atom, $ats);
}
$mol->sort_atoms( sub {
$_[0]->attr("zmat/index") <=> $_[1]->attr("zmat/index")
});
} else {
zmat_seq($mol);
}
}
sub zmat_seq {
my ($mol) = @_;
my $i = 0;
my @atoms;
for my $atom ($mol->atoms) {
$atom->attr("zmat/index", ++$i);
add_ic($atom, \@atoms);
push @atoms, $atom;
}
}
sub zmat_bfs {
my ($mol, $origin, $atoms) = @_;
my @q = $origin;
my $i = @$atoms;
push @$atoms, $origin;
$origin->attr("zmat/index", ++$i);
add_ic($origin, $atoms);
while (my $atom = shift @q) {
#print "at $atom with $i\n";
for my $nei (sorted_neighbors($atom)) {
unless ($nei->attr("zmat/index")) {
$nei->attr("zmat/index", ++$i);
add_ic($nei, $atoms);
push @q, $nei;
push @$atoms, $nei;
}
}
}
$atoms;
}
# $atoms is the list of atoms that have been added so far
sub add_ic {
my ($atom, $atoms) = @_;
my $ic;
my $n = $atom->attr("zmat/index");
if ($n == 1) {
$ic = Chemistry::InternalCoords->new($atom);
} elsif ($n == 2) {
$ic = Chemistry::InternalCoords->new($atom, find_length($atom, $atoms));
} elsif ($n == 3) {
$ic = Chemistry::InternalCoords->new(
$atom, find_angle($atom, $atoms));
} else {
$ic = Chemistry::InternalCoords->new(
$atom, find_dihedral($atom, $atoms));
}
$atom->internal_coords($ic);
}
# Choose a good length reference for $atom
sub find_length {
my ($atom, $atoms) = @_;
my $ref = first { $_->attr("zmat/index") } $atom->neighbors;
unless ($ref) {
$ref = ${
reduce { $a->[0] < $b->[0] ? $a : $b }
map { [$atom->distance($_)] }
grep { $_ ne $atom } @$atoms;
}[1];
}
($ref, scalar $atom->distance($ref));
}
# Choose a good angle (and length) reference for $atom
sub find_angle {
my ($atom, $atoms) = @_;
my ($len_ref, $len_val) = find_length(@_);
my $ang_ref =
first {
$_->attr("zmat/index") && $_ ne $len_ref && $_ ne $atom
} $len_ref->neighbors($atom), @$atoms;
my $ang_val = $atom->angle_deg($len_ref, $ang_ref);
($len_ref, $len_val, $ang_ref, $ang_val);
}
# Choose a good dihedral (and angle and length) reference for $atom
sub find_dihedral {
my ($atom, $atoms) = @_;
my ($len_ref, $len_val, $ang_ref, $ang_val) = find_angle(@_);
my $dih_ref =
first {
$_->attr("zmat/index") && $_ ne $len_ref
&& $_ ne $ang_ref && $_ ne $atom
} $len_ref->neighbors($atom), $ang_ref->neighbors($len_ref), @$atoms;
my $dih_val = $atom->dihedral_deg($len_ref, $ang_ref, $dih_ref);
($len_ref, $len_val, $ang_ref, $ang_val, $dih_ref, $dih_val);
}
sub sorted_neighbors {
my ($atom) = @_;
my @bn = $atom->neighbors;
@bn = sort {
$b->attr("canon/class") <=> $a->attr("canon/class")
} @bn;
@bn;
}
1;
=back
=head1 VERSION
0.18
=head1 CAVEATS
This version may not work properly for big molecules, because the
canonicalization step has a size limit.
=head1 TO DO
Some improvements for handling disconnected structures, such as making sure
that the intermolecular distance is short.
Allowing more control over how much the molecule will be modified: sort or not,
canonicalize or not...
=head1 SEE ALSO
L<Chemistry::Mol>, L<Chemistry::Atom>, L<Chemistry::InternalCoords>,
L<Chemistry::Bond::Find>, L<Chemistry::Canonicalize>,
L<http://www.perlmol.org/>.
=head1 AUTHOR
Ivan Tubert-Brohman E<lt>itub@cpan.orgE<gt>
=head1 COPYRIGHT
Copyright (c) 2004 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