Skip to content

Latest commit

 

History

History
 
 

Radix Tree

Folders and files

NameName
Last commit message
Last commit date

parent directory

..
 
 
 
 
 
 
 
 

Radix Tree

A radix tree is a tree where a node can have any number of children. Each edge leading from a node to a child has a label (usually a string). A radix tree is often used to store strings or IP addresses. By traversing from the root to any leaf in the tree, concatenating all the labels of edges along the way, you can find any string.

This is an example of a radix tree (image from wikipedia.org):

Implemenation

The radix tree is represented by a RadixTree object. This class has one member variable, root, of type Root. The Root is the object at the top of every RadixTree.

Every other node is of type Edge and is a child (or child of a child, etc.) of the root.

The difference between Edge and Root is that edges have a label (of type String) and a reference to a parent node.

This approach is a little different from the conventional way of creating tree data structures but is easier to wrap your head around (see the picture above).

Operations

Typical operations on a radix tree are:

  • lookup
  • insertion
  • deletion
  • find predecessor
  • find successor
  • find all strings with common prefix

The running time of lookup, insertion, and deletion is O(k) where k is the length of the key. This is different from most trees because these operations usually run in O(log n) time where n is the number of nodes in the tree.

Lookup

The find() function returns true if the string you are searching for is in the tree and false if it is not.

Every RadixTree contains at the very least the empty string "" so find("") will always return true.

A string is considered "in the tree" if the text you are searching for is a concatenation of Edge labels while traversing downwards, or a prefix of that concatenation.

For example, if you look at the example tree above, find("roma") will return true because it is a prefix of the traversal "r" -> "om" -> "an".

On the other hand, find("romans") will return false.

Insertion

The insert() function lets you add new strings to the radix tree.

This function returns true if the string you are trying to insert was successfully inserted into the RadixTree and false if the string is already in the tree.

Deletion

The remove() removes a string from the tree. When a string is removed, any other strings that have a prefix of the removed string are removed as well.

For example, remove("rom") will also remove "roman", "rome", and "romulus" if those strings are in the tree as well. Calling remove("") will remove all strings in the tree.

printTree()

You can use the printTree() function to visualize the tree. This function is a little buggy and not perfect yet but gets the job done thus far.

Helper functions

The sharedPrefix() function is a non-member function in the RadixTree.swift file. It takes in two String objects and returns the shared prefix between them.

For example, sharedPrefix("apples", "oranges") will return "", and sharedPrefix("court", "coral") will return "co".

This function is used in the implementation of the find(), insert(), and remove() functions.

See also

Radix Tree - Wikipedia

Written for Swift Algorithm Club by Steven Scally