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=head1 NAME Tree::MultiNode -- a multi-node tree object. Most useful for modeling hierarchical data structures. =head1 SYNOPSIS use Tree::MultiNode; use strict; use warnings; my $tree = new Tree::MultiNode; my $handle = new Tree::MultiNode::Handle($tree); $handle->set_key("top"); $handle->set_value("level"); $handle->add_child("child","1"); $handle->add_child("child","2"); $handle->first(); $handle->down(); $handle->add_child("grandchild","1-1"); $handle->up(); $handle->last(); $handle->down(); $handle->add_child("grandchild","2-1"); $handle->up(); $handle->top(); &dump_tree($handle); my $depth = 0; sub dump_tree { ++$depth; my $handle = shift; my $lead = ' ' x ($depth*2); my($key,$val); ($key,$val) = $handle->get_data(); print $lead, "key: $key\n"; print $lead, "val: $val\n"; print $lead, "depth: $depth\n"; my $i; for( $i = 0; $i < scalar($handle->children); ++$i ) { $handle->down($i); &dump_tree($handle); $handle->up(); } --$depth; } =head1 DESCRIPTION Tree::MultiNode, Tree::MultiNode::Node, and MultiNode::Handle are objects modeled after C++ classes that I had written to help me model hierarchical information as data structures (such as the relationships between records in an RDBMS). The tree is basically a list of lists type data structure, where each node has a key, a value, and a list of children. The tree has no internal sorting, though all operations preserve the order of the child nodes. =head2 Creating a Tree The concept of creating a handle based on a tree lets you have multiple handles into a single tree without having to copy the tree. You have to use a handle for all operations on the tree (other than construction). When you first construct a tree, it will have a single empty node. When you construct a handle into that tree, it will set the top node in the tree as it's current node. my $tree = new Tree::MultiNode; my $handle = new Tree::MultiNode::Handle($tree); =head2 Using a Handle to Manipulate the Tree At this point, you can set the key/value in the top node, or start adding child nodes. $handle->set_key("blah"); $handle->set_value("foo"); $handle->add_child("quz","baz"); # or $handle->add_child(); add_child can take 3 parameters -- a key, a value, and a position. The key and value will set the key/value of the child on construction. If pos is passed, the new child will be inserted into the list of children. To move the handle so it points at a child (so you can start manipulating that child), there are a series of methods to call: $handle->first(); # sets the current child to the first in the list $handle->next(); # sets the next, or first if there was no next $handle->prev(); # sets the previous, or last if there was no next $handle->last(); # sets to the last child $handle->down(); # positions the handle's current node to the # current child To move back up, you can call the method up: $handle->up(); # moves to this node's parent up() will fail if the current node has no parent node. Most of the member functions return either undef to indicate failure, or some other value to indicate success. =head2 $Tree::MultiNode::debug If set to a true value, it enables debugging output in the code. This will likely be removed in future versions as the code becomes more stable. =head1 API REFERENCE =cut ################################################################################ =head2 Tree::MultiNode The tree object. =cut package Tree::MultiNode; use strict; use vars qw( $VERSION @ISA ); require 5.004; $VERSION = '1.0.13'; @ISA = (); =head2 Tree::MultiNode::new @param package name or tree object [scalar] @returns new tree object Creates a new Tree. The tree will have a single top level node when created. The first node will have no value (undef) in either it's key or it's value. my $tree = new Tree::MultiNode; =cut sub new { my $this = shift; my $class = ref($this) || $this; my $self = {}; bless $self, $class; $self->{'top'} = Tree::MultiNode::Node->new(); return $self; } # # this destructor is for clearing the circular references between # the tree, the nodes, and their children. # sub DESTROY { my $self = shift; $self->{'top'}->_clearrefs() if $self->{'top'}; } 1; ################################################################################ package Tree::MultiNode::Node; use strict; use Carp; =head2 Tree::MultiNode::Node Please note that the Node object is used internally by the MultiNode object. Though you have the ability to interact with the nodes, it is unlikely that you should need to. That being said, the interface is documented here anyway. =cut =head2 Tree::MultiNode::Node::new new($) @param package name or node object to clone [scalar] @returns new node object new($$) @param key [scalar] @param value [scalar] @returns new node object Creates a new Node. There are three behaviors for new. A constructor with no arguments creates a new, empty node. A single argument of another node object will create a clone of the node object. If two arguments are passed, the first is stored as the key, and the second is stored as the value. # clone an existing node my $node = new Tree::MultiNode::Node($oldNode); # or my $node = $oldNode->new(); # create a new node my $node = new Tree::MultiNode::Node; my $node = new Tree::MultiNode::Node("fname"); my $node = new Tree::MultiNode::Node("fname","Larry"); =cut sub new { my $this = shift; my $class = ref($this) || $this; my $self = {}; bless $self, $class; my $node = shift; if( ref($node) eq "Tree::MultiNode::Node" ) { # become a copy of that node... $self->_clone($node); } else { my($key,$value); $key = $node; $value = shift; print __PACKAGE__, "::new() key,val = $key,$value\n" if $Tree::MultiNode::debug; $self->{'children'} = []; $self->{'parent'} = undef; $self->{'key'} = $key || undef; $self->{'value'} = defined $value ? $value : undef; } return $self; } # # internal method for making the current node a clone of another # node... # sub _clone { my $self = shift; my $them = shift; $self->{'parent'} = $them->parent; $self->{'children'} = [$them->children]; $self->{'key'} = $them->key; $self->{'value'} = $them->value; } =head2 Tree::MultiNode::Node::key @param key [scalar] @returns the key [scalar] Used to set, or retrieve the key for a node. If a parameter is passed, it sets the key for the node. The value of the key member is always returned. print $node3->key(), "\n"; # 'fname' =cut sub key { my($self,$key) = @_; if(@_>1) { print __PACKAGE__, "::key() setting key: $key on $self\n" if $Tree::MultiNode::debug; $self->{'key'} = $key; } return $self->{'key'}; } =head2 Tree::MultiNode::Node::value @param the value to set [scalar] @returns the value [scalar] Used to set, or retrieve the value for a node. If a parameter is passed, it sets the value for the node. The value of the value member is always returned. print $node3->value(), "\n"; # 'Larry' =cut sub value { my $self = shift; my $value = shift; if( defined $value ) { print __PACKAGE__, "::value() setting value: $value on $self\n" if $Tree::MultiNode::debug; $self->{'value'} = $value; } return $self->{'value'}; } =head2 Tree::MultiNode::Node::clear_key @returns the deleted key Clears the key member by deleting it. $node3->clear_key(); =cut sub clear_key { my $self = shift; return delete $self->{'key'}; } =head2 Tree::MultiNode::Node::clear_value @returns the deleted value Clears the value member by deleting it. $node3->clear_value(); =cut sub clear_value { my $self = shift; return delete $self->{'value'}; } =head2 Tree::MultiNode::Node::children @returns reference to children [array reference] Returns a reference to the array that contains the children of the node object. $array_ref = $node3->children(); =cut sub children { my $self = shift; return $self->{'children'}; } =head2 Tree::MultiNode::Node::child_keys Tree::MultiNode::Node::child_values Tree::MultiNode::Node::child_kv_pairs These functions return arrays consisting of the appropriate data from the child nodes. my @keys = $handle->child_keys(); my @vals = $handle->child_values(); my %kv_pairs = $handle->child_kv_pairs(); =cut sub child_keys { my $self = shift; my $children = $self->{'children'}; my @keys; my $node; foreach $node (@$children) { push @keys, $node->key(); } return @keys; } sub child_values { my $self = shift; my $children = $self->{'children'}; my @values; my $node; foreach $node (@$children) { push @values, $node->value(); } return @values; } sub child_kv_pairs { my $self = shift; my $children = $self->{'children'}; my %h; my $node; foreach $node (@$children) { $h{$node->key()} = $node->value(); } return %h; } =head2 Tree::MultiNode::Node::child_key_positions This function returns a hash table that consists of the child keys as the hash keys, and the position in the child array as the value. This allows for a quick and dirty way of looking up the position of a given key in the child list. my %h = $node->child_key_positions(); =cut sub child_key_positions { my $self = shift; my $children = $self->{'children'}; my(%h,$i,$node); $i = 0; foreach $node (@$children) { $h{$node->key()} = $i++; } return %h; } =head2 Tree::MultiNode::Node::parent Returns a reference to the parent node of the current node. $node_parent = $node3->parent(); =cut sub parent { my $self = shift; return $self->{'parent'}; } =head2 Tree::MultiNode::Node::dump Used for diagnostics, it prints out the members of the node. $node3->dump(); =cut sub dump { my $self = shift; print "[dump] key: ", $self->{'key'}, "\n"; print "[dump] val: ", $self->{'value'}, "\n"; print "[dump] parent: ", $self->{'parent'}, "\n"; print "[dump] children: ", $self->{'children'}, "\n"; } sub _clearrefs { my $self = shift; delete $self->{'parent'}; foreach my $child ( @{$self->children()} ) { $child->_clearrefs(); } delete $self->{'children'}; } 1; ################################################################################ package Tree::MultiNode::Handle; use strict; use Carp; =head2 Tree::MultiNode::Handle Handle is used as a 'pointer' into the tree. It has a few attributes that it keeps track of. These are: 1. the top of the tree 2. the current node 3. the current child node 4. the depth of the current node The top of the tree never changes, and you can reset the handle to point back at the top of the tree by calling the top() method. The current node is where the handle is 'pointing' in the tree. The current node is changed with functions like top(), down(), and up(). The current child node is used for traversing downward into the tree. The members first(), next(), prev(), last(), and position() can be used to set the current child, and then traverse down into it. The depth of the current node is a measure of the length of the path from the top of the tree to the current node, i.e., the top of the node has a depth of 0, each of its children has a depth of 1, etc. =cut =head2 Tree::MultiNode::Handle::New Constructs a new handle. You must pass a tree object to Handle::New. my $tree = new Tree::MultiNode; my $handle = new Tree::MultiNode::Handle($tree); =cut sub new { my $this = shift; my $class = ref($this) || $this; my $self = {}; bless $self, $class; my $data = shift; print __PACKAGE__, "::new() ref($data) is: ", ref($data), "\n" if $Tree::MultiNode::debug; if( ref($data) eq "Tree::MultiNode::Handle" ) { $self->_clone($data); } else { unless( ref($data) eq "Tree::MultiNode" ) { confess "Error, invalid Tree::MultiNode reference: $data\n"; } $self->{'tree'} = $data; $self->{'curr_pos'} = undef; $self->{'curr_node'} = $data->{'top'}; $self->{'curr_child'} = undef; $self->{'curr_depth'} = 0; } return $self; } # # internal method for making the current handle a copy of another # handle... # sub _clone { my $self = shift; my $them = shift; print __PACKAGE__, "::_clone() cloning: $them\n" if $Tree::MultiNode::debug; print __PACKAGE__, "::_clone() depth: ",$them->{'curr_depth'},"\n" if $Tree::MultiNode::debug; $self->{'tree'} = $them->{'tree'}; $self->{'curr_pos'} = $them->{'curr_pos'}; $self->{'curr_node'} = $them->{'curr_node'}; $self->{'curr_child'} = $them->{'curr_child'}; $self->{'curr_depth'} = $them->{'curr_depth'}; return 1; } =head2 Tree::MultiNode::Handle::tree Returns the tree that was used to construct the node. Useful if you're trying to create another node into the tree. my $handle2 = new Tree::MultiNode::Handle($handle->tree()); =cut sub tree { my $self = shift; return $self->{'tree'}; } =head2 Tree::MultiNode::Handle::get_data Retrieves both the key, and value (as an array) for the current node. my ($key,$val) = $handle->get_data(); =cut sub get_data { my $self = shift; my $node = $self->{'curr_node'}; return($node->key,$node->value); } =head2 Tree::MultiNode::Handle::get_key Retrieves the key for the current node. $key = $handle->get_key(); =cut sub get_key { my $self = shift; my $node = $self->{'curr_node'}; my $key = $node->key(); print __PACKAGE__, "::get_key() getting from $node : $key\n" if $Tree::MultiNode::debug; return $key; } =head2 Tree::MultiNode::Handle::set_key Sets the key for the current node. $handle->set_key("lname"); =cut sub set_key { my $self = shift; my $key = shift; my $node = $self->{'curr_node'}; print __PACKAGE__, "::set_key() setting key \"$key\" on: $node\n" if $Tree::MultiNode::debug; return $node->key($key); } =head2 Tree::MultiNode::Handle::get_value Retrieves the value for the current node. $val = $handle->get_value(); =cut sub get_value { my $self = shift; my $node = $self->{'curr_node'}; my $value = $node->value(); print __PACKAGE__, "::get_value() getting from $node : $value\n", if $Tree::MultiNode::debug; return $value; } =head2 Tree::MultiNode::Handle::set_value Sets the value for the current node. $handle->set_value("Wall"); =cut sub set_value { my $self = shift; my $value = shift; my $node = $self->{'curr_node'}; print __PACKAGE__, "::set_value() setting value \"$value\" on: $node\n" if $Tree::MultiNode::debug; return $node->value($value); } =head2 Tree::MultiNode::Handle::get_child get_child takes an optional parameter which is the position of the child that is to be retrieved. If this position is not specified, get_child attempts to return the current child. get_child returns a Node object. my $child_node = $handle->get_child(); =cut sub get_child { my $self = shift; my $children = $self->{'curr_node'}->children; my $pos = shift || $self->{'curr_pos'}; print __PACKAGE__, "::get_child() children: $children $pos\n" if $Tree::MultiNode::debug; unless( defined $children ) { return undef; } unless( defined $pos && $pos <= $#{$children} ) { my $num = $#{$children}; confess "Error, $pos is an invalid position [$num] $children.\n"; } print __PACKAGE__, "::get_child() returning [$pos]: ", ${$children}[$pos], "\n" if $Tree::MultiNode::debug; return( ${$children}[$pos] ); } =head2 Tree::MultiNode::Handle::add_child This member adds a new child node to the end of the array of children for the current node. There are three optional parameters: - a key - a value - a position If passed, the key and value will be set in the new child. If a position is passed, the new child will be inserted into the current array of children at the position specified. $handle->add_child(); # adds a blank child $handle->add_child("language","perl"); # adds a child to the end $handle->add_child("language","C++",0); # adds a child to the front =cut sub add_child { my $self = shift; my($key,$value,$pos) = @_; my $children = $self->{'curr_node'}->children; print __PACKAGE__, "::add_child() children: $children\n" if $Tree::MultiNode::debug; my $curr_pos = $self->{'curr_pos'}; my $curr_node = $self->{'curr_node'}; my $child = Tree::MultiNode::Node->new($key,$value); $child->{'parent'} = $curr_node; print __PACKAGE__, "::add_child() adding child $child ($key,$value) ", "to: $children\n" if $Tree::MultiNode::debug; if(defined $pos) { print __PACKAGE__, "::add_child() adding at $pos $child\n" if $Tree::MultiNode::debug; unless($pos <= $#{$children}) { my $num = $#{$children}; confess "Position $pos is invalid for child position [$num] $children.\n"; } splice( @{$children}, $pos, 1, $child, ${$children}[$pos] ); } else { print __PACKAGE__, "::add_child() adding at end $child\n" if $Tree::MultiNode::debug; push @{$children}, $child; } print __PACKAGE__, "::add_child() children:", join(',',@{$self->{'curr_node'}->children}), "\n" if $Tree::MultiNode::debug; } =head2 Tree::MultiNode::Handle::add_child_node Recently added via RT # 5435 -- Currently in need of proper documentation and test patches I've patched Tree::MultiNode 1.0.10 to add a method I'm currently calling add_child_node(). It works just like add_child() except it takes either a Tree::MultiNode::Node or a Tree::MultiNode object instead. I found this extremely useful when using recursion to populate a tree. It could also be used to subsume any tree into another tree, so this touches on the topic of the other bug item here asking for methods to copy/move trees/nodes. =cut sub add_child_node { my $self = shift; my($child,$pos) = @_; my $children = $self->{'curr_node'}->children; print __PACKAGE__, "::add_child_node() children: $children\n" if $Tree::MultiNode::debug; my $curr_pos = $self->{'curr_pos'}; my $curr_node = $self->{'curr_node'}; if(ref($child) eq 'Tree::MultiNode') { my $top = $child->{'top'}; $child->{'top'} = undef; $child = $top; } confess "Invalid child argument.\n" if(ref($child) ne 'Tree::MultiNode::Node'); $child->{'parent'} = $curr_node; print __PACKAGE__, "::add_child_node() adding child $child ", "to: $children\n" if $Tree::MultiNode::debug; if(defined $pos) { print __PACKAGE__, "::add_child_node() adding at $pos $child\n" if $Tree::MultiNode::debug; unless($pos <= $#{$children}) { my $num = $#{$children}; confess "Position $pos is invalid for child position [$num] $children.\n"; } splice( @{$children}, $pos, 1, $child, ${$children}[$pos] ); } else { print __PACKAGE__, "::add_child_node() adding at end $child\n" if $Tree::MultiNode::debug; push @{$children}, $child; } print __PACKAGE__, "::add_child_node() children:", join(',',@{$self->{'curr_node'}->children}), "\n" if $Tree::MultiNode::debug; } =head2 Tree::MultiNode::Handle::depth Gets the depth for the current node. my $depth = $handle->depth(); =cut sub depth { my $self = shift; my $node = $self->{'curr_node'}; print __PACKAGE__, "::depth() getting depth \"$self->{'curr_depth'}\" ", "on: $node\n" if $Tree::MultiNode::debug; return $self->{'curr_depth'}; } =head2 Tree::MultiNode::Handle::select Sets the current child via a specified value -- basically it iterates through the array of children, looking for a match. You have to supply the key to look for, and optionally a sub ref to find it. The default for this sub is sub { return shift eq shift; } Which is sufficient for testing the equality of strings (the most common thing that I think will get stored in the tree). If you're storing multiple data types as keys, you'll have to write a sub that figures out how to perform the comparisons in a sane manner. The code reference should take two arguments, and compare them -- return false if they don't match, and true if they do. $handle->select('lname', sub { return shift eq shift; } ); =cut sub select { my $self = shift; my $key = shift; my $code = shift || sub { return shift eq shift; } ; my($child,$pos); my $found = undef; $pos = 0; foreach $child ($self->children()) { if( $code->($key,$child->key()) ) { $self->{'curr_pos'} = $pos; $self->{'curr_child'} = $child; ++$found; last; } ++$pos; } return $found; } =head2 Tree::MultiNode::Handle::position Sets, or retrieves the current child position. print "curr child pos is: ", $handle->position(), "\n"; $handle->position(5); # sets the 6th child as the current child =cut sub position { my $self = shift; my $pos = shift; print __PACKAGE__, "::position() $self $pos\n" if $Tree::MultiNode::debug; unless( defined $pos ) { return $self->{'curr_pos'}; } my $children = $self->{'curr_node'}->children; print __PACKAGE__, "::position() children: $children\n" if $Tree::MultiNode::debug; print __PACKAGE__, "::position() position is $pos ", $#{$children}, "\n" if $Tree::MultiNode::debug; unless( $pos <= $#{$children} ) { my $num = $#{$children}; confess "Error, $pos is invalid [$num] $children.\n"; } $self->{'curr_pos'} = $pos; $self->{'curr_child'} = $self->get_child($pos); return $self->{'curr_pos'}; } =head2 Tree::MultiNode::Handle::first Tree::MultiNode::Handle::next Tree::MultiNode::Handle::prev Tree::MultiNode::Handle::last These functions manipulate the current child member. first() sets the first child as the current child, while last() sets the last. next(), and prev() will move to the next/prev child respectively. If there is no current child node, next() will have the same effect as first(), and prev() will operate as last(). prev() fails if the current child is the first child, and next() fails if the current child is the last child -- i.e., they do not wrap around. These functions will fail if there are no children for the current node. $handle->first(); # sets to the 0th child $handle->next(); # to the 1st child $handle->prev(); # back to the 0th child $handle->last(); # go straight to the last child. =cut sub first { my $self = shift; $self->{'curr_pos'} = 0; $self->{'curr_child'} = $self->get_child(0); print __PACKAGE__, "::first() set child[",$self->{'curr_pos'},"]: ", $self->{'curr_child'}, "\n" if $Tree::MultiNode::debug; return $self->{'curr_pos'}; } sub next { my $self = shift; my $pos = $self->{'curr_pos'} + 1; my $children = $self->{'curr_node'}->children; print __PACKAGE__, "::next() children: $children\n" if $Tree::MultiNode::debug; unless( $pos >= 0 && $pos <= $#{$children} ) { return undef; } $self->{'curr_pos'} = $pos; $self->{'curr_child'} = $self->get_child($pos); return $self->{'curr_pos'}; } sub prev { my $self = shift; my $pos = $self->{'curr_pos'} - 1; my $children = $self->{'curr_node'}->children; print __PACKAGE__, "::prev() children: $children\n" if $Tree::MultiNode::debug; unless( $pos >= 0 && $pos <= $#{$children} ) { return undef; } $self->{'curr_pos'} = $pos; $self->{'curr_child'} = $self->get_child($pos); return $self->{'curr_pos'}; } sub last { my $self = shift; my $children = $self->{'curr_node'}->children; my $pos = $#{$children}; print __PACKAGE__, "::last() children [$pos]: $children\n" if $Tree::MultiNode::debug; $self->{'curr_pos'} = $pos; $self->{'curr_child'} = $self->get_child($pos); return $self->{'curr_pos'}; } =head2 Tree::MultiNode::Handle::down down() moves the handle to point at the current child node. It fails if there is no current child node. When down() is called, the current child becomes invalid (undef). $handle->down(); =cut sub down { my $self = shift; my $pos = shift; my $node = $self->{'curr_node'}; return undef unless defined $node; my $children = $node->children; print __PACKAGE__, "::down() children: $children\n" if $Tree::MultiNode::debug; if( defined $pos ) { unless( defined $self->position($pos) ) { confess "Error, $pos was an invalid position.\n"; } } $self->{'curr_pos'} = undef; $self->{'curr_node'} = $self->{'curr_child'}; $self->{'curr_child'} = undef; ++$self->{'curr_depth'}; print __PACKAGE__, "::down() set to: ", $self->{'curr_node'}, "\n" if $Tree::MultiNode::debug; return 1; } =head2 Tree::MultiNode::Handle::up down() moves the handle to point at the parent of the current node. It fails if there is no parent node. When up() is called, the current child becomes invalid (undef). $handle->up(); =cut sub up { my $self = shift; my $node = $self->{'curr_node'}; return undef unless defined $node; my $parent = $node->parent(); unless( defined $parent ) { return undef; } $self->{'curr_pos'} = undef; $self->{'curr_node'} = $parent; $self->{'curr_child'} = undef; --$self->{'curr_depth'}; return 1; } =head2 Tree::MultiNode::Handle::top Resets the handle to point back at the top of the tree. When top() is called, the current child becomes invalid (undef). $handle->top(); =cut sub top { my $self = shift; my $tree = $self->{'tree'}; $self->{'curr_pos'} = undef; $self->{'curr_node'} = $tree->{'top'}; $self->{'curr_child'} = undef; $self->{'curr_depth'} = 0; return 1; } =head2 Tree::MultiNode::Handle::children This returns an array of Node objects that represents the children of the current Node. Unlike Node::children(), the array Handle::children() is not a reference to an array, but an array. Useful if you need to iterate through the children of the current node. print "There are: ", scalar($handle->children()), " children\n"; foreach $child ($handle->children()) { print $child->key(), " : ", $child->value(), "\n"; } =cut sub children { my $self = shift; my $node = $self->{'curr_node'}; return undef unless defined $node; my $children = $node->children; return @{$children}; } =head2 Tree::MultiNode::Handle::child_key_positions This function returns a hash table that consists of the child keys as the hash keys, and the position in the child array as the value. This allows for a quick and dirty way of looking up the position of a given key in the child list. my %h = $handle->child_key_positions(); =cut sub child_key_positions { my $self = shift; my $node = $self->{'curr_node'}; return $node->child_key_positions(); } =head2 Tree::MultiNode::Handle::get_child_key Returns the key at the specified position, or from the corresponding child node. my $key = $handle->get_child_key(); =cut sub get_child_key { my $self = shift; my $pos = shift; $pos = $self->{'curr_pos'} unless defined $pos; my $node = $self->get_child($pos); return defined $node ? $node->key() : undef; } =head2 Tree::MultiNode::Handle::get_child_value Returns the value at the specified position, or from the corresponding child node. my $value = $handle->get_child_value(); =cut sub get_child_value { my $self = shift; my $pos = shift || $self->{'curr_pos'}; print __PACKAGE__, "::sub get_child_value() pos is: $pos\n" if $Tree::MultiNode::debug; my $node = $self->get_child($pos); return defined $node ? $node->value() : undef; } =head2 Tree::MultiNode::Handle::remove_child Returns Tree::MultiNode::Node::child_kv_paris() for the current node for this handle. my %pairs = $handle->kv_pairs(); =cut sub kv_pairs { my $self = shift; my $node = $self->{'curr_node'}; return $node->child_kv_pairs(); } =head2 Tree::MultiNode::Handle::remove_child =cut sub remove_child { my $self = shift; my $pos = shift || $self->{'curr_pos'}; print __PACKAGE__, "::remove_child() pos is: $pos\n" if $Tree::MultiNode::debug; my $children = $self->{'curr_node'}->children; unless( defined $children ) { return undef; } unless( defined $pos && $pos >= 0 && $pos <= $#{$children} ) { my $num = $#{$children}; confess "Error, $pos is an invalid position [$num] $children.\n"; } my $node = splice(@{$children},$pos,1); return ($node->key,$node->value); } =head2 Tree::MultiNode::Handle::child_keys Returns the keys from the current node's children. Returns undef if there is no current node. =cut sub child_keys { my $self = shift; my $node = $self->{'curr_node'}; return undef unless $node; return $node->child_keys(); } =head2 Tree::MultiNode::Handle::traverse $handle->traverse(sub { my $h = pop; printf "%sk: %s v: %s\n",(' ' x $handle->depth()),$h->get_data(); }); Traverse takes a subroutine reference, and will visit each node of the tree, starting with the node the handle currently points to, recursively down from the current position of the handle. Each time the subroutine is called, it will be passed a handle which points to the node to be visited. Any additional arguments after the sub ref will be passed to the traverse function _before_ the handle is passed. This should allow you to pass constant arguments to the sub ref. Modifying the node that the handle points to will cause traverse to work from the new node forward. =cut sub traverse { my($self,$subref,@args) = @_; confess "Error, invalid sub ref: $subref\n" unless 'CODE' eq ref($subref); # operate on a cloned handle return Tree::MultiNode::Handle->new($self)->_traverseImpl($subref,@args); } sub _traverseImpl { my($self,$subref,@args) = @_; $subref->( @args, $self ); for(my $i = 0; $i < scalar($self->children); ++$i ) { $self->down($i); $self->_traverseImpl($subref,@args); $self->up(); } return; } =head2 Tree::MultiNode::Handle::traverse or to have the subref to be a method on an object (and still pass the object's 'self' to the method). $handle->traverse( \&Some::Object::method, $obj, $const1, \%const2 ); ... sub method { my $handle = pop; my $self = shift; my $const1 = shift; my $const2 = shift; # do something } =cut sub otraverse { my($self,$subref,@args) = @_; confess "Error, invalid sub ref: $subref\n" unless 'CODE' eq ref($subref); # operate on a cloned handle return Tree::MultiNode::Handle->new($self)->_otraverseImpl($subref,@args); } sub _otraverseImpl { my($self,$obj,$method,@args) = @_; $obj->$method( @args, $self ); for(my $i = 0; $i < scalar($self->children); ++$i ) { $self->down($i); $self->_otraverseImpl($obj,$method,@args); $self->up(); } return; } =head1 SEE ALSO Algorithms in C++ Robert Sedgwick Addison Wesley 1992 ISBN 0201510596 The Art of Computer Programming, Volume 1: Fundamental Algorithms, third edition, Donald E. Knuth =head1 AUTHORS Kyle R. Burton <mortis@voicenet.com> (initial version, and maintenence) Daniel X. Pape <dpape@canis.uiuc.edu> (see Changes file from the source archive) Eric Joanis <joanis@cs.toronto.edu> Todd Rinaldo <toddr@cpan.org> =head1 BUGS - There is currently no way to remove a child node. =cut 1;