1

DISCLAIMER

Hey everyone, I understand that there are few Javascript questions/answers that deal with figuring out the how to find if two words are anagrams.

I'm not just looking for a function that figures out whether two words/strings are anagrams. I'm looking for a function that will be quicker than the one provided below. Currently, I believe the time complexity of the function below is O (n log n).

I'd like to figure out a function that has a time complexity of O(n) or something that has a runtime that is quicker than the one provided.

CODE

const isAnagram = (str1, str2) => {

  str1 = str1.toLowerCase();
  str2 = str2.toLowerCase();


  if (str1.length !== str2.length) {
     return false
  }

  let sortStr1 = str1.split('').sort().join('').trim();
  let sortStr2 = str2.split('').sort().join('').trim();

  return sortStr1 === sortStr2
 };

console.log(isAnagram('dog', 'goD')); //true
6
  • use O(n) sort and your code is O(n). what you've tried by the way :/ Apr 24, 2019 at 4:48
  • sorry im not sure what you mean by that
    – mph85
    Apr 24, 2019 at 4:49
  • something like en.wikipedia.org/wiki/Counting_sort does gives you O(n) sort complexity. Apr 24, 2019 at 4:50
  • so are you saying my method does return a time complexity of O(n)?
    – mph85
    Apr 24, 2019 at 4:52
  • yes if you use O(n) sorting method. Apr 24, 2019 at 4:52

2 Answers 2

5

You can try counting based algorithm.

const isAnagram = (str1, str2) => {

  str1 = str1.toLowerCase();
  str2 = str2.toLowerCase();
  //and remove any char you think not important (like space) here
  
  if (str1.length !== str2.length) return false
  
  let counting = {}
  for(let c of str1) 
     if(counting[c]) ++counting[c]
     else counting[c] = 1
  
  for(let c of str2)
     if(counting[c]) --counting[c]
     else return false
  
  return true
};

console.log(isAnagram('dog', 'goD')); //true
console.log(isAnagram('eleven plus two', 'twelve plus one')); //true
console.log(isAnagram('dog', 'hot')); //false
console.log(isAnagram('banana', 'nana')); //false

16
  • I believe this will give us a time complexity of O(n^2)?
    – mph85
    Apr 24, 2019 at 4:57
  • @mph85 why? where you get it from? Apr 24, 2019 at 4:58
  • no my mistake, i was thinking it was nested, but it's not
    – mph85
    Apr 24, 2019 at 5:04
  • what is going on in the if statements? if(counting[c]) --counting[c] What does this mean? and the following else counting[c] = 1?
    – mph85
    Apr 24, 2019 at 5:16
  • @mph85 first if(counting[c]) means if(c in counting), second if(counting[c]) means if(c in counting && c != 0) Apr 24, 2019 at 5:19
1

Here is another possible idea that comes from: An Algorithm for Finding Anagrams and is based on the fundamental theorem of arithmetic that states:

Every integer greater than 1 either is a prime number itself or can be represented as the product of prime numbers and that, moreover, this representation is unique, up to (except for) the order of the factors.

So, if we assign each letter in the alphabet to a prime number, and then compute the product of these numbers, this number will be unique ( because of the fundamental theorem of arithmetic). That means that for a multiset of letters, the product of prime numbers for each letter in that multiset is unique. Then, if two words or sentences have the same number, these two words or sentences are anagrams of each other.

Implementation:

let letters = {"a":2, "b":3, "c":5, "d":7, "e":11, "f":13, "g":17, "h":19, "i":23, "j":29, "k":31, "l":37, "m":41, "n":43, "o":47, "p":53, "q":59, "r":61, "s":67, "t":71, "u":73, "v":79, "w":83, "x":89, "y":97, "z":101};

const isAnagram = (str1, str2) =>
{
    str1 = str1.toLowerCase();
    str2 = str2.toLowerCase();            
    let repStr1 = 1, repStr2 = 1;

    for (let i = 0; i < Math.max(str1.length, str2.length); i++)
    {
        repStr1 *= (str1[i] && letters[str1[i]]) ? letters[str1[i]] : 1;
        repStr2 *= (str2[i] && letters[str2[i]]) ? letters[str2[i]] : 1;
    }

    return (repStr1 === repStr2);
};

console.log("[dog, goD] Anagrams?", isAnagram('dog', 'goD'));
console.log("[dogo, goD] Anagrams?", isAnagram('dogo', 'goD')); 
console.log("[Roast Beef, Eat for BSE] Anagrams?", isAnagram('Roast Beef', 'Eat for BSE'));
.as-console {background-color:black !important; color:lime;}
.as-console-wrapper {max-height:100% !important; top:0;}

Advantages

  • Accepts anagrams of different lengths (check third example).
  • Is O(n) (only one loop is required).

Disadvantages

  • Won't work for large expressions, there will be an overflow on the generated number.
  • Needs a predefined dictionary between letters and primer numbers.
  • Won't work for expression that contains rare characters, unless you extend the dictionary, but the overflow will become more frequently.
1
  • 2
    I think this is palindromic, not anagram? Apr 24, 2019 at 5:05

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

Not the answer you're looking for? Browse other questions tagged or ask your own question.