Rand Stats

Tree::Binary

zef:Scimon

Actions Status

NAME

Tree::Binary - Roles for building and traversing binary trees

SYNOPSIS

use Tree::Binary;
class IntTree does Tree::Binary::Role::BinaryTree[Int] {};
my IntTree(Str) $tree = "1(2)(3)";
say $tree;
 1 
┌┴┐
2 3

DESCRIPTION

Tree::Binary is intended to be a framework that can be used as the basis for building binary trees. The core Role provided is Tree::Binary::Role::BinaryTree which encapsulates binary tree storage, traversing, parsing and rendering.

Tree::Binary::Role::BinaryTree does not include code for inserting or deleting nodes as this is dependent on the concreate class using it.

Tree::Binary

role Tree::Binary::Role::BinaryTree[
    ::ValueType=Any,
    Tree::Binary::Role::Renderer :$gist-renderer=Tree::Binary::PrettyTree,
    Tree::Binary::Role::Renderer :$Str-renderer=BasicStrRenderer,
]

The Tree::Binary::Role::BinaryTree Role accepts one postional and two named parameters :

ValueType

The type of object it should allow (defaulting to Any)

:$gist-renderer

An output renderer used for creating the Tree::Binary::Role::BinaryTree's gist representation. The default for this is Tree::Binary::PrettyTree but any class that does Tree::Binary::Role::Renderer will work.

:$Str-renderer

An output renderer used for creating the Tree::Binary::Role::BinaryTree's Str representation. The default for this is BasicStrRenderer but any class that does Tree::Binary::Role::Renderer will work.

Construction

The default constructor takes two named arguments :

ValueType :$value

The value of the current node

Array[Tree::Binary::Role::BinaryTree] :@nodes[2]

An array of 0-2 Tree::Binary::Role::BinaryTree nodes that are the children of the current node.

The role also allows for basic string coercion where a tree can be represented with the following structure.

value(node1)(node2)

Where value is a Str that can be coerced into a ValueType and node1 and node2 another Tree::Binary representation. The Str method should produce a value that can be coered into a Tree::Binary of the appropriate ValueType.

Alternate construction options using Str coercion are :

# Coercion from a Str to a Tree::Binary
my Tree::Binary(Str) $tree1 = "1(a)(£)";

# Using the from-Str constructor
my $tree2 = Tree::Binary.from-Str("1(a)(£)");

Attributes

has Positional[Tree::Binary::Role::BinaryTree] @!nodes

The child nodes

Methods

method nodes

method nodes() returns Array[Tree::Binary::Role::BinaryTree]

The child nodes of this node, undefined nodes will not be returned.

method elems

method elems() returns UInt

Returns the number of defined nodes for the current node. Note that the elems method does NOT return the count of all nodes in the tree just the current nodes children.

method elems

method elems(
    Bool :$all!
) returns UInt

With the :all flag returns the total number of nodes in the tree including the current one but not any undefined ones.

method elems

method elems(
    Bool :$leaf!
) returns UInt

With the :leaf flag returns the total number of leaf nodes

method Str

method Str() returns Str

Returns a Str representation of the tree using the :$Str-renderer parameter

method gist

method gist() returns Str

Returns the gist for this tree using the defined $gist-renderer parameter

method raku

method raku() returns Str

Returns a raku representation of the tree

method reverse

method reverse() returns Tree::Binary::Role::BinaryTree

Returns a new Tree::Binary where the node pairs have been swapped at each level

method from-Str

method from-Str(
    Str $in
) returns Tree::Binary::Role::BinaryTree

Object creation method using the Str coercion rules.

AUTHOR

Scimon Proctor simon.proctor@gmail.com

COPYRIGHT AND LICENSE

Copyright 2021 Scimon Proctor

This library is free software; you can redistribute it and/or modify it under the Artistic License 2.0.