--- id: 587d8254367417b2b2512c6e title: Perform a Difference on Two Sets of Data challengeType: 1 forumTopicId: 301706 dashedName: perform-a-difference-on-two-sets-of-data --- # --description-- In this exercise we are going to perform a difference on 2 sets of data. We will create a method on our `Set` data structure called `difference`. A difference of sets should compare two sets and return the items present in the first set that are absent in the second. This method should take another `Set` as an argument and return the `difference` of the two sets. For example, if `setA = ['a','b','c']` and `setB = ['a','b','d','e']`, then the difference of setA and setB is: `setA.difference(setB) = ['c']`. # --hints-- Your `Set` class should have a `difference` method. ```js assert( (function () { var test = new Set(); return typeof test.difference === 'function'; })() ); ``` Your `difference` method should return the proper collection. ```js assert( (function () { var setA = new Set(); var setB = new Set(); setA.add('a'); setA.add('b'); setA.add('c'); setB.add('c'); setB.add('d'); var differenceSetAB = setA.difference(setB); return ( differenceSetAB.size() === 2 && DeepEqual(differenceSetAB.values(), ['a', 'b']) ); })() ); ``` # --seed-- ## --seed-contents-- ```js class Set { constructor() { // This will hold the set this.dictionary = {}; this.length = 0; } // This method will check for the presence of an element and return true or false has(element) { return this.dictionary[element] !== undefined; } // This method will return all the values in the set values() { return Object.keys(this.dictionary); } // This method will add an element to the set add(element) { if (!this.has(element)) { this.dictionary[element] = true; this.length++; return true; } return false; } // This method will remove an element from a set remove(element) { if (this.has(element)) { delete this.dictionary[element]; this.length--; return true; } return false; } // This method will return the size of the set size() { return this.length; } // This is our union method union(set) { const newSet = new Set(); this.values().forEach(value => { newSet.add(value); }) set.values().forEach(value => { newSet.add(value); }) return newSet; } // This is our intersection method intersection(set) { const newSet = new Set(); let largeSet; let smallSet; if (this.dictionary.length > set.length) { largeSet = this; smallSet = set; } else { largeSet = set; smallSet = this; } smallSet.values().forEach(value => { if (largeSet.dictionary[value]) { newSet.add(value); } }) return newSet; } // Only change code below this line // Only change code above this line } ``` # --solutions-- ```js class Set { constructor() { this.dictionary = {}; this.length = 0; } has(element) { return this.dictionary[element] !== undefined; } values() { return Object.keys(this.dictionary); } add(element) { if (!this.has(element)) { this.dictionary[element] = true; this.length++; return true; } return false; } remove(element) { if (this.has(element)) { delete this.dictionary[element]; this.length--; return true; } return false; } size() { return this.length; } union(set) { const newSet = new Set(); this.values().forEach(value => { newSet.add(value); }) set.values().forEach(value => { newSet.add(value); }) return newSet; } intersection(set) { const newSet = new Set(); let largeSet; let smallSet; if (this.dictionary.length > set.length) { largeSet = this; smallSet = set; } else { largeSet = set; smallSet = this; } smallSet.values().forEach(value => { if (largeSet.dictionary[value]) { newSet.add(value); } }) return newSet; } difference(set) { const newSet = new Set(); this.values().forEach(value => { if (!set.dictionary[value]) { newSet.add(value); } }) return newSet; } } ```