Trie.js - super simple JavaScript implementation

Trie.js

// Trie.js - super simple JS implementation
// https://en.wikipedia.org/wiki/Trie

// -----------------------------------------

// we start with the TrieNode
function TrieNode(key) {
  // the "key" value will be the character in sequence
  this.key = key;
  
  // we keep a reference to parent
  this.parent = null;
  
  // we have hash of children
  this.children = {};
  
  // check to see if the node is at the end
  this.end = false;
}

// iterates through the parents to get the word.
// time complexity: O(k), k = word length
TrieNode.prototype.getWord = function() {
  var output = [];
  var node = this;
  
  while (node !== null) {
    output.unshift(node.key);
    node = node.parent;
  }
  
  return output.join('');
};

// -----------------------------------------

// we implement Trie with just a simple root with null value.
function Trie() {
  this.root = new TrieNode(null);
}

// inserts a word into the trie.
// time complexity: O(k), k = word length
Trie.prototype.insert = function(word) {
  var node = this.root; // we start at the root 😬
  
  // for every character in the word
  for(var i = 0; i < word.length; i++) {
    // check to see if character node exists in children.
    if (!node.children[word[i]]) {
      // if it doesn't exist, we then create it.
      node.children[word[i]] = new TrieNode(word[i]);
      
      // we also assign the parent to the child node.
      node.children[word[i]].parent = node;
    }
    
    // proceed to the next depth in the trie.
    node = node.children[word[i]];
    
    // finally, we check to see if it's the last word.
    if (i == word.length-1) {
      // if it is, we set the end flag to true.
      node.end = true;
    }
  }
};

// check if it contains a whole word.
// time complexity: O(k), k = word length
Trie.prototype.contains = function(word) {
  var node = this.root;
  
  // for every character in the word
  for(var i = 0; i < word.length; i++) {
    // check to see if character node exists in children.
    if (node.children[word[i]]) {
      // if it exists, proceed to the next depth of the trie.
      node = node.children[word[i]];
    } else {
      // doesn't exist, return false since it's not a valid word.
      return false;
    }
  }
  
  // we finished going through all the words, but is it a whole word?
  return node.end;
};

// returns every word with given prefix
// time complexity: O(p + n), p = prefix length, n = number of child paths
Trie.prototype.find = function(prefix) {
  var node = this.root;
  var output = [];
  
  // for every character in the prefix
  for(var i = 0; i < prefix.length; i++) {
    // make sure prefix actually has words
    if (node.children[prefix[i]]) {
      node = node.children[prefix[i]];
    } else {
      // there's none. just return it.
      return output;
    }
  }
  
  // recursively find all words in the node
  findAllWords(node, output);
  
  return output;
};

// recursive function to find all words in the given node.
function findAllWords(node, arr) {
  // base case, if node is at a word, push to output
  if (node.end) {
    arr.unshift(node.getWord());
  }
  
  // iterate through each children, call recursive findAllWords
  for (var child in node.children) {
    findAllWords(node.children[child], arr);
  }
}

// -----------------------------------------

// instantiate our trie
var trie = new Trie();

// insert few values
trie.insert("hello");
trie.insert("helium");

// check contains method
console.log(trie.contains("helium"));  // true
console.log(trie.contains("kickass")); // false

// check find method
console.log(trie.find("hel"));  // [ 'helium', 'hello' ]
console.log(trie.find("hell")); // [ 'hello' ]

I'm too new to JS not to ask: does this need a destroy() method of some sort?

I agree with @Cxarli, an explicit license would be nice.

class TrieNode {
  constructor(key) {
    // the "key" value will be the character in sequence
    this.key = key;

    // we keep a reference to parent
    this.parent = null;

    // we have hash of children
    this.children = {};

    // check to see if the node is at the end
    this.end = false;
  }

  getWord() {
    let output = [];
    let node = this;

    while (node !== null) {
      output.unshift(node.key)
      node = node.parent
    }

    return output.join('')
  }
}

class Trie {
  constructor() {
    this.base = new TrieNode(null)
  }

  insert(word) {
    let node = this.base

    const points = Array.from(word)

    for (const i in points) {
      const point = points[i]
      if (!node.children[point]) {
        node.children[point] = new TrieNode(point)
        node.children[point].parent = node
      }

      node = node.children[point]

      if (i == word.length - 1) {
        node.end = true
      }
    }
  }

  contains(word) {
    let node = this.base

    const points = Array.from(word)

    for (const i in points) {
      const point = points[i]

      if (node.children[point]) {
        node = node.children[point]
      } else {
        return false
      }
    }

    return node.end;
  }

  find(prefix) {
    let node = this.base
    let output = []

    const points = Array.from(prefix)

    for (const i in points) {
      const point = points[i]

      // make sure prefix actually has words
      if (node.children[point]) {
        node = node.children[point]
      } else {
        // there's none. just return it.
        return output
      }
    }

    const stack = [node]
    while (stack.length) {
      node = stack.shift()
      // base case, if node is at a word, push to output
      if (node.end) {
        output.unshift(node.getWord())
      }

      // iterate through each children, call recursive findAllWords
      for (var child in node.children) {
        stack.push(node.children[child])
      }
    }

    return output
  }
}