=head1 NAME
PPIx::Regexp::Node - Represent a container
=head1 SYNOPSIS
use PPIx::Regexp::Dumper;
PPIx::Regexp::Dumper->new( 'qr{(foo)}' )->print();
=head1 INHERITANCE
C<PPIx::Regexp::Node> is a
L<PPIx::Regexp::Element|PPIx::Regexp::Element>.
C<PPIx::Regexp::Node> is the parent of L<PPIx::Regexp|PPIx::Regexp>,
L<PPIx::Regexp::Node::Range|PPIx::Regexp::Node::Range> and
L<PPIx::Regexp::Structure|PPIx::Regexp::Structure>.
=head1 DESCRIPTION
This class represents a structural element that contains other classes.
It is an abstract class, not instantiated by the lexer.
=head1 METHODS
This class provides the following public methods. Methods not documented
here are private, and unsupported in the sense that the author reserves
the right to change or remove them without notice.
=cut
package PPIx::Regexp::Node;
use strict;
use warnings;
use base qw{ PPIx::Regexp::Element };
use Carp;
use List::Util qw{ max };
use PPIx::Regexp::Constant qw{ MINIMUM_PERL };
use PPIx::Regexp::Util qw{ __instance };
use Scalar::Util qw{ refaddr };
our $VERSION = '0.047';
sub _new {
my ( $class, @children ) = @_;
ref $class and $class = ref $class;
foreach my $elem ( @children ) {
__instance( $elem, 'PPIx::Regexp::Element' ) or return;
}
my $self = {
children => \@children,
};
bless $self, $class;
foreach my $elem ( @children ) {
$elem->_parent( $self );
}
return $self;
}
=head2 child
my $kid = $node->child( 0 );
This method returns the child at the given index. The indices start from
zero, and negative indices are from the end of the list, so that
C<< $node->child( -1 ) >> returns the last child of the node.
=cut
sub child {
my ( $self, $inx ) = @_;
defined $inx or $inx = 0;
return $self->{children}[$inx];
}
=head2 children
This method returns the children of the Node. If called in scalar
context it returns the number of children.
=cut
sub children {
my ( $self ) = @_;
return @{ $self->{children} };
}
=head2 contains
print $node->contains( $elem ) ? "yes\n" : "no\n";
This method returns true if the given element is contained in the node,
or false otherwise.
=cut
sub contains {
my ( $self, $elem ) = @_;
__instance( $elem, 'PPIx::Regexp::Element' ) or return;
my $addr = refaddr( $self );
while ( $elem = $elem->parent() ) {
$addr == refaddr( $elem ) and return 1;
}
return;
}
sub content {
my ( $self ) = @_;
return join( '', map{ $_->content() } $self->elements() );
}
=head2 elements
This method returns the elements in the Node. For a
C<PPIx::Regexp::Node> proper, it is the same as C<children()>.
=cut
{
no warnings qw{ once };
*elements = \&children;
}
=head2 find
my $rslt = $node->find( 'PPIx::Regexp::Token::Literal' );
my $rslt = $node->find( 'Token::Literal' );
my $rslt = $node->find( sub {
return $_[1]->isa( 'PPIx::Regexp::Token::Literal' )
&& $_[1]->ordinal < ord(' ');
} );
This method finds things.
If given a string as argument, it is assumed to be a class name
(possibly without the leading 'PPIx::Regexp::'), and all elements of the
given class are found.
If given a code reference, that code reference is called once for each
element, and passed C<$self> and the element. The code should return
true to accept the element, false to reject it, and ( for subclasses of
C<PPIx::Regexp::Node>) C<undef> to prevent recursion into the node. If
the code throws an exception, you get nothing back from this method.
Either way, the return is a reference to the list of things found, a
false (but defined) value if nothing was found, or C<undef> if an error
occurred.
=cut
sub _find_routine {
my ( $want ) = @_;
ref $want eq 'CODE' and return $want;
ref $want and return;
$want =~ m/ \A PPIx::Regexp:: /smx
or $want = 'PPIx::Regexp::' . $want;
return sub {
return __instance( $_[1], $want ) ? 1 : 0;
};
}
sub find {
my ( $self, $want ) = @_;
$want = _find_routine( $want ) or return;
my @found;
# We use a recursion to find what we want. PPI::Node uses an
# iteration.
foreach my $elem ( $self->elements() ) {
my $rslt = eval { $want->( $self, $elem ) }
and push @found, $elem;
$@ and return;
__instance( $elem, 'PPIx::Regexp::Node' ) or next;
defined $rslt or next;
$rslt = $elem->find( $want )
and push @found, @{ $rslt };
}
return @found ? \@found : 0;
}
=head2 find_parents
my $rslt = $node->find_parents( sub {
return $_[1]->isa( 'PPIx::Regexp::Token::Operator' )
&& $_[1]->content() eq '|';
} );
This convenience method takes the same arguments as C<find>, but instead
of the found objects themselves returns their parents. No parent will
appear more than once in the output.
The return is a reference to the array of parents if any were found. If
none were found the return is false but defined. If an error occurred
the return is C<undef>.
=cut
sub find_parents {
my ( $self, $want ) = @_;
my $found;
$found = $self->find( $want ) or return $found;
my %parents;
my @rslt;
foreach my $elem ( @{ $found } ) {
my $dad = $elem->parent() or next;
$parents{ refaddr( $dad ) }++
or push @rslt, $dad;
}
return \@rslt;
}
=head2 find_first
This method has the same arguments as L</find>, but returns either a
reference to the first element found, a false (but defined) value if no
elements were found, or C<undef> if an error occurred.
=cut
sub find_first {
my ( $self, $want ) = @_;
$want = _find_routine( $want ) or return;
# We use a recursion to find what we want. PPI::Node uses an
# iteration.
foreach my $elem ( $self->elements() ) {
my $rslt = eval { $want->( $self, $elem ) }
and return $elem;
$@ and return;
__instance( $elem, 'PPIx::Regexp::Node' ) or next;
defined $rslt or next;
defined( $rslt = $elem->find_first( $want ) )
or return;
$rslt and return $rslt;
}
return 0;
}
=head2 first_element
This method returns the first element in the node.
=cut
sub first_element {
my ( $self ) = @_;
return $self->{children}[0];
}
=head2 last_element
This method returns the last element in the node.
=cut
sub last_element {
my ( $self ) = @_;
return $self->{children}[-1];
}
=head2 perl_version_introduced
This method returns the maximum value of C<perl_version_introduced>
returned by any of its elements. In other words, it returns the minimum
version of Perl under which this node is valid. If there are no
elements, 5.000 is returned, since that is the minimum value of Perl
supported by this package.
=cut
sub perl_version_introduced {
my ( $self ) = @_;
return max( MINIMUM_PERL,
map { $_->perl_version_introduced() } $self->elements() );
}
=head2 perl_version_removed
This method returns the minimum defined value of C<perl_version_removed>
returned by any of the node's elements. In other words, it returns the
lowest version of Perl in which this node is C<not> valid. If there are
no elements, or if no element has a defined C<perl_version_removed>,
C<undef> is returned.
=cut
sub perl_version_removed {
my ( $self ) = @_;
my $max;
foreach my $elem ( $self->elements() ) {
if ( defined ( my $ver = $elem->perl_version_removed() ) ) {
if ( defined $max ) {
$ver < $max and $max = $ver;
} else {
$max = $ver;
}
}
}
return $max;
}
=head2 schild
This method returns the significant child at the given index; that is,
C<< $node->schild(0) >> returns the first significant child,
C<< $node->schild(1) >> returns the second significant child, and so on.
Negative indices count from the end.
=cut
sub schild {
my ( $self, $inx ) = @_;
defined $inx or $inx = 0;
my $kids = $self->{children};
if ( $inx >= 0 ) {
my $loc = 0;
while ( exists $kids->[$loc] ) {
$kids->[$loc]->significant() or next;
--$inx >= 0 and next;
return $kids->[$loc];
} continue {
$loc++;
}
} else {
my $loc = -1;
while ( exists $kids->[$loc] ) {
$kids->[$loc]->significant() or next;
$inx++ < -1 and next;
return $kids->[$loc];
} continue {
--$loc;
}
}
return;
}
=head2 schildren
This method returns the significant children of the node.
=cut
sub schildren {
my ( $self ) = @_;
if ( wantarray ) {
return ( grep { $_->significant() } @{ $self->{children} } );
} elsif ( defined wantarray ) {
my $kids = 0;
foreach ( @{ $self->{children} } ) {
$_->significant() and $kids++;
}
return $kids;
} else {
return;
}
}
sub tokens {
my ( $self ) = @_;
return ( map { $_->tokens() } $self->elements() );
}
sub unescaped_content {
my ( $self ) = @_;
return join '', map { $_->unescaped_content() } $self->elements();
}
# Help for nav();
sub _nav {
my ( $self, $child ) = @_;
refaddr( $child->parent() ) == refaddr( $self )
or return;
my ( $method, $inx ) = $child->_my_inx()
or return;
return ( $method => [ $inx ] );
}
sub __error {
my ( $self ) = @_; # second argument unused
confess 'Programming error - __error() must be overridden',
' for class ', ref $self;
}
# Called by the lexer once it has done its worst to all the tokens.
# Called as a method with no arguments. The return is the number of
# parse failures discovered when finalizing.
sub __PPIX_LEXER__finalize {
my ( $self ) = @_;
my $rslt = 0;
foreach my $elem ( $self->elements() ) {
$rslt += $elem->__PPIX_LEXER__finalize();
}
return $rslt;
}
# Called by the lexer to record the capture number.
sub __PPIX_LEXER__record_capture_number {
my ( $self, $number ) = @_;
foreach my $kid ( $self->children() ) {
$number = $kid->__PPIX_LEXER__record_capture_number( $number );
}
return $number;
}
1;
__END__
=head1 SUPPORT
Support is by the author. Please file bug reports at
L<http://rt.cpan.org>, or in electronic mail to the author.
=head1 AUTHOR
Thomas R. Wyant, III F<wyant at cpan dot org>
=head1 COPYRIGHT AND LICENSE
Copyright (C) 2009-2016 by Thomas R. Wyant, III
This program is free software; you can redistribute it and/or modify it
under the same terms as Perl 5.10.0. For more details, see the full text
of the licenses in the directory LICENSES.
This program is distributed in the hope that it will be useful, but
without any warranty; without even the implied warranty of
merchantability or fitness for a particular purpose.
=cut
# ex: set textwidth=72 :