# finding if two words are anagrams of each other

I am looking for a method to find if two strings are anagrams of one another.

``````Ex: string1 - abcde
string2 - abced
Ans = true
Ex: string1 - abcde
string2 - abcfed
Ans = false
``````

the solution i came up with so for is to sort both the strings and compare each character from both strings till the end of either strings.It would be O(logn).I am looking for some other efficient method which doesn't change the 2 strings being compared

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Note that using a several-unique sort is O(n) for a fixed character set with O(1) (not depending on character set) stack memory use. Of course, this will still modify the two strings. –  Kaganar Jul 2 '13 at 21:43

Count the frequency of each character in the two strings. Check if the two histograms match. O(n) time, O(1) space (assuming ASCII) (Of course it is still O(1) space for Unicode but the table will become very large).

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+1 simple yet effective. Space can easily be halved by incrementing for one and decrementing for the other string and checking for 0. For unicode the Hashmap approach seems appropriate. –  Eiko Nov 21 '10 at 7:52
Having an initial string length check would help eliminate a lot of candidate strings. –  Java Enthusiast Dec 7 '12 at 23:03
as @Eiko mentioned I felt its right, but remember even If you think hashmap initial get created with some default value like 16 in JAVA as soon as table get increased it does rehashing which is overhead. Now for avoiding this you can create hashmap with initial capacity which is like creating array of that capacity, since underneath hashmap is array. Even setting initial capacity I would feel direct indexing based on character is better than calculating hash while putting char everytime in hashmap ....Let me know if I am wrong. –  MrA May 27 '13 at 16:22
Hi can you explain a bit more about "counting the frequency" and "histogram" in terms of code? –  nyus2006 Mar 25 at 19:56
@S.H. I added the code to check the anagrams by 'counting the frequency' below. –  Dinesh Appavoo Apr 29 at 23:01

Get table of prime numbers, enough to map each prime to every character. So start from 1, going through line, multiply the number by the prime representing current character. Number you'll get is only depend on characters in string but not on their order, and every unique set of characters correspond to unique number, as any number may be factored in only one way. So you can just compare two numbers to say if a strings are anagrams of each other.

Unfortunately you have to use multiprecision integer arithmetic to do this, or you get overflow or rounding which is not allowed in this method. You may use GMP for this.

Pseudocode:

``````prime[] = {2, 3, 5, 7, 11, 13, 17, 19, 23, 29, 31, 37, 41, 43, 47, 53, 59, 61, 67, 71, 73, 79, 83, 89, 97, 101}

primehash(string)
Y = 1;
foreach character in string
Y = Y * prime[character-'a']

return Y

isanagram(str1, str2)
return primehash(str1)==primehash(str2)
``````
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I don't think this will work. For instance 2 + 5 = 7 so if a = 2, b = 3, c = 5 and d = 7 if one string had a and c and the other had d then there would be a collision in your "sum". Perhaps this would hold true if you first checked that the length of each string was identical? –  runamok May 16 '13 at 18:13
Primes multiplied, not added. primehash("ac") = 2*5 = 10, primehash("d") = 7, so they're not equal. There will be NO collisions because of one-to-one relation between number and its prime factors. –  Vovanium Jun 1 '13 at 12:47
1. Create a Hashmap where key - letter and value - frequencey of letter,
2. for first string populate the hashmap (O(n))
3. for second string decrement count and remove element from hashmap O(n)
4. if hashmap is empty, the string is anagram otherwise not.
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nice idea to increment in the first run and decrement in the second. However, a hashmap is not needed here as the keys are known in advance and can be used as array indices. This will result in a faster implementation. –  Philipp Nov 21 '10 at 7:50
@Philipp That might be a very large array if we are dealing with a unicode string. –  meagar Nov 21 '10 at 7:58
Isn't this rather wasteful if you're generally comparing small strings? If the strings are on average small (like most words are) then simply turning the words into a character arrays, sorting the arrays, then comparing them for equality will likely be faster than the overhead of creating a hashmap, doing the increments & decrements & then examining the hashmap for being empty. –  Adam Parkin May 24 '13 at 5:01
@AdamParkin it's only "wasteful" memory-wise. Nowadays, memory is very cheap. The most important part (to most people) is runtime. Your way would take `O(n log n)` time due to sorting, the provided answer takes just `O(n)`. Besides creating two character arrays as you say will also take `O(n)` space. –  Ugo Jul 13 at 17:07
Yes, in terms of `O()` notation, I will grant you it's more efficient. However, that's discarding the constant factors, and oftentimes with algorithms that have better big-O runtimes have poor performance when n is small. All I was alluding to is that in this case n is probably small, so the overhead of allocating expensive collections like `HashMap`'s might be more expensive than sorting a small char array. –  Adam Parkin Jul 14 at 17:52

The steps are:

1. check the length of of both the words/strings if they are equal then only proceed to check for anagram else do nothing
2. sort both the words/strings and then compare

JAVA CODE TO THE SAME:

``````/*
* To change this template, choose Tools | Templates
* and open the template in the editor.
*/
package anagram;

import java.io.IOException;
import java.util.Arrays;

/**
*
* @author Sunshine
*/
public class Anagram {

/**
* @param args the command line arguments
*/
public static void main(String[] args) throws IOException {
// TODO code application logic here
System.out.println("Enter the first string");
System.out.println("Enter the Second string");
char c1[] = null;
char c2[] = null;
if (s1.length() == s2.length()) {

c1 = s1.toCharArray();
c2 = s2.toCharArray();

Arrays.sort(c1);
Arrays.sort(c2);

if (Arrays.equals(c1, c2)) {
System.out.println("Both strings are equal and hence they have anagram");
} else {
System.out.println("Sorry No anagram in the strings entred");
}

} else {
System.out.println("Sorry the string do not have anagram");
}
}
}
``````
-

C#

``````public static bool AreAnagrams(string s1, string s2)
{
if (s1 == null) throw new ArgumentNullException("s1");
if (s2 == null) throw new ArgumentNullException("s2");

var chars = new Dictionary<char, int>();
foreach (char c in s1)
{
if (!chars.ContainsKey(c))
chars[c] = 0;
chars[c]++;
}
foreach (char c in s2)
{
if (!chars.ContainsKey(c))
return false;
chars[c]--;
}

return chars.Values.All(i => i == 0);
}
``````

Some tests:

``````[TestMethod]
public void TestAnagrams()
{
Assert.IsTrue(StringUtil.AreAnagrams("anagramm", "nagaramm"));
Assert.IsTrue(StringUtil.AreAnagrams("anzagramm", "nagarzamm"));
Assert.IsTrue(StringUtil.AreAnagrams("anz121agramm", "nag12arz1amm"));
Assert.IsFalse(StringUtil.AreAnagrams("anagram", "nagaramm"));
Assert.IsFalse(StringUtil.AreAnagrams("nzagramm", "nagarzamm"));
Assert.IsFalse(StringUtil.AreAnagrams("anzagramm", "nag12arz1amm"));
}
``````
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``````static bool IsAnagram(string s1, string s2)
{

if (s1.Length != s2.Length)
return false;
else
{
int sum1 = 0;
for (int i = 0; i < s1.Length; i++)
sum1 += (int)s1[i]-(int)s2[i];
if (sum1 == 0)
return true;
else
return false;
}
}
``````
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Best Solution to check whether 2 strings are Anagram or not. :) –  user2605539 Mar 16 at 17:44
Lets `str1 = "az"` and `str2 = "by"`. This approach will then fail. –  Sinstein Oct 4 at 7:11

Well you can probably improve the best case and average case substantially just by checking the length first, then a quick checksum on the digits (not something complex, as that will probably be worse order than the sort, just a summation of ordinal values), then sort, then compare.

If the strings are very short the checksum expense will be not greatly dissimilar to the sort in many languages.

-

```a = "lai d"
b = "di al"
sorteda = []
sortedb = []
for i in a:
if i != " ":
sorteda.append(i)
if c == len(b):
for x in b:
c -= 1
if x != " ":
sortedb.append(x)
sorteda.sort(key = str.lower)
sortedb.sort(key = str.lower)

print sortedb
print sorteda

print sortedb == sorteda
```
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Your choices in strings might earn you enough offensive flags that your answer is removed. Please consider revising. I do, however understand why they are convenient for your example. –  Tim Post Apr 30 '11 at 6:01
ok I changed my anagram just for the sake of it deeming to be offensive! –  AAF Apr 30 '11 at 9:40

How about Xor'ing both the strings??? This will definitely be of O(n)

``````char* arr1="ab cde";
int n1=strlen(arr1);
char* arr2="edcb a";
int n2=strlen(arr2);
// to check for anagram;
int c=0;
int i=0, j=0;
if(n1!=n2)
printf("\nNot anagram");
else {
while(i<n1 || j<n2)
{
c^= ((int)arr1[i] ^ (int)arr2[j]);
i++;
j++;
}
}

if(c==0) {
printf("\nAnagram");
}
else printf("\nNot anagram");
``````

}

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I think this approach will not work always. Consider an example below: str1="aa" and str2="bb" then a^b^a^b (xor of strings) will be zero but these are not anagrams !! –  Black_Rider Jan 12 '13 at 18:01
this is not a solution –  siddhusingh Jul 16 '13 at 9:41

Code to find whether two words are anagrams:

Logic explained already in few answers and few asking for the code. This solution produce the result in O(n) time.

This approach counts the no of occurrences of each character and store it in the respective ASCII location for each string. And then compare the two array counts. If it is not equal the given strings are not anagrams.

``````public boolean isAnagram(String str1, String str2)
{
//To get the no of occurrences of each character and store it in their ASCII location
int[] strCountArr1=getASCIICountArr(str1);
int[] strCountArr2=getASCIICountArr(str2);

//To Test whether the two arrays have the same count of characters. Array size 256 since ASCII 256 unique values
for(int i=0;i<256;i++)
{
if(strCountArr1[i]!=strCountArr2[i])
return false;
}
return true;
}

public int[] getASCIICountArr(String str)
{
char c;
//Array size 256 for ASCII
int[] strCountArr=new int[256];
for(int i=0;i<str.length();i++)
{
c=str.charAt(i);
c=Character.toUpperCase(c);// If both the cases are considered to be the same
strCountArr[(int)c]++; //To increment the count in the character's ASCII location
}
return strCountArr;
}
``````
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@ S. H. - I added the code for O(n) solution here –  Dinesh Appavoo Apr 21 at 5:36
OH!!! This is what "histogram" means in this particular case. Thank you for that. But one question tho, this solution is O(N) space complexity how come the top comment says it's O(1)??? –  nyus2006 Apr 30 at 23:18
@S.H.- Array size is 256 for all strings. If you give one million characters in a string, still it will store in a array of size 256 which is a constant. So the complexity is O(1) space. –  Dinesh Appavoo May 1 at 0:25
yes you are correct, O(256) is asymptotically O(1). Thank you! –  nyus2006 May 2 at 1:37

Using an ASCII hash-map that allows O(1) look-up for each char.

The java example listed above is converting to lower-case that seems incomplete. I have an example in C that simply initializes a hash-map array for ASCII values to '-1'

If string2 is different in length than string 1, no anagrams

Else, we update the appropriate hash-map values to 0 for each char in string1 and string2

Then for each char in string1, we update the count in hash-map. Similarily, we decrement the value of the count for each char in string2.

The result should have values set to 0 for each char if they are anagrams. if not, some positive value set by string1 remains

``````#include <stdio.h>
#include <stdlib.h>
#include <string.h>

#define ARRAYMAX 128

#define True    1
#define False   0
#define Infinity    -1

int isAnagram(const char *string1,
const char *string2) {

int str1len = strlen(string1);
int str2len = strlen(string2);

if (str1len != str2len) /* Simple string length test */
return False;

int * ascii_hashtbl = malloc((sizeof(int) * ARRAYMAX));
if (ascii_hashtbl == NULL) {
fprintf(stderr, "Memory allocation failed\n");
return -1;
}
memset((void *)ascii_hashtbl, -1, sizeof(int) * ARRAYMAX);
int index = 0;
while (index < str1len) { /* Populate hash_table for each ASCII value
in string1*/
ascii_hashtbl[(int)string1[index]] = 0;
ascii_hashtbl[(int)string2[index]] = 0;
index++;
}
index = index - 1;
while (index >= 0) {
ascii_hashtbl[(int)string1[index]]++; /* Increment something */
ascii_hashtbl[(int)string2[index]]--; /* Decrement something */
index--;
}
/* Use hash_table to compare string2 */
index = 0;
while (index < str1len) {
if (ascii_hashtbl[(int)string1[index]] != 0) {
/* some char is missing in string2 from string1 */
free(ascii_hashtbl);
ascii_hashtbl = NULL;
return False;
}
index++;
}
free(ascii_hashtbl);
ascii_hashtbl = NULL;
return True;
}

int main () {
char array1[100], array2[100];
int flag;

printf("Enter the string\n");
gets(array1);
printf("Enter another string\n");
gets(array2);
flag = isAnagram(array1, array2);
if (flag == 1)
printf("%s and %s are anagrams.\n", array1, array2);
else if (flag == 0)
printf("%s and %s are not anagrams.\n", array1, array2);

return 0;
}
``````
-

I guess your sorting algorithm is not really O(log n), is it?

The best you can get is O(n) for your algorithm, because you have to check every character.

You might use two tables to store the counts of each letter in every word, fill it with O(n) and compare it with O(1).

-

It seems that the following implementation works too, can you check?

``````int histogram[256] = {0};
for (int i = 0; i < strlen(str1); ++i) {
/* Just inc and dec every char count and
* check the histogram against 0 in the 2nd loop */
++histo[str1[i]];
--histo[str2[i]];
}

for (int i = 0; i < 256; ++i) {
if (histo[i] != 0)
return 0; /* not an anagram */
}

return 1; /* an anagram */
``````
-
why cant you check? –  Inbar Rose Nov 18 '12 at 10:27
Doesn't this presume ASCII encoding (isn't that why the array is 256 elements wide)? –  Adam Parkin May 23 '13 at 21:14
``````/* Program to find the strings are anagram or not*/
/* Author Senthilkumar M*/

Eg.
Anagram:
str1 = stackoverflow
str2 = overflowstack

Not anagram:`enter code here`
str1 = stackforflow
str2 = stacknotflow

int is_anagram(char *str1, char *str2)
{
int l1 = strlen(str1);
int l2 = strlen(str2);
int s1 = 0, s2 = 0;
int i = 0;

/* if both the string are not equal it is not anagram*/
if(l1 != l2) {
return 0;
}
/* sum up the character in the strings
if the total sum of the two strings is not equal
it is not anagram */
for( i = 0; i < l1; i++) {
s1 += str1[i];
s2 += str2[i];
}
if(s1 != s2) {
return 0;
}
return 1;
}
``````
-

If both strings are of equal length proceed, if not then the strings are not anagrams.

Iterate each string while summing the ordinals of each character. If the sums are equal then the strings are anagrams.

Example:

``````    public Boolean AreAnagrams(String inOne, String inTwo) {

bool result = false;

if(inOne.Length == inTwo.Length) {

int sumOne = 0;
int sumTwo = 0;

for(int i = 0; i < inOne.Length; i++) {

sumOne += (int)inOne[i];
sumTwo += (int)inTwo[i];
}

result = sumOne == sumTwo;
}

return result;
}
``````
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Generally, white space is ignored in anagrams. This means that length is not the criterion. One famous anagram: "William Shakespeare" is anagram with "I am a weakish speller". I suppose that spaces should be allowed if problem statement doesn't say the opposite. –  Zoran Horvat Dec 18 '13 at 21:47

For known (and small) sets of valid letters (e.g. ASCII) use a table with counts associated with each valid letter. First string increments counts, second string decrements counts. Finally iterate through the table to see if all counts are zero (strings are anagrams) or there are non-zero values (strings are not anagrams). Make sure to convert all characters to uppercase (or lowercase, all the same) and to ignore white space.

For a large set of valid letters, such as Unicode, do not use table but rather use a hash table. It has O(1) time to add, query and remove and O(n) space. Letters from first string increment count, letters from second string decrement count. Count that becomes zero is removed form the hash table. Strings are anagrams if at the end hash table is empty. Alternatively, search terminates with negative result as soon as any count becomes negative.

Here is the detailed explanation and implementation in C#: Testing If Two Strings are Anagrams

-

Another little Idea :

``````bool anagram3(string a , string b )
{
if(a.size() != b.size())
return false;

int sum = 0;

for(int i = 0; i < a.size(); i++)
{
sum += (a[i] * 26);
sum -= (b[i] * 26);
}

return sum == 0;
}
``````
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Okay, so pretend we have 2 strings, "bbbb" and "aacc", and a=1, b=2, c=3. 0+52=52. 52-26=26. 26+52=78. 78-26=52. 52+52=104. 104-78=26. 26+52=78. 78-78=0. By your logic, they should be anagrams. However, they are not. –  emilyk Jan 6 at 6:26

How about converting into the int value of the character and sum up :

If the value of sum are equals then they are anagram to each other.

``````def are_anagram1(s1, s2):
return [False, True][sum([ord(x) for x in s1]) == sum([ord(x) for x in s2])]

s1 = 'james'
s2 = 'amesj'
print are_anagram1(s1,s2)
``````

This solution works only for 'A' to 'Z' and 'a' to 'z'.

-
This doesn't work. It returns `True` for the strings `'ac'` and `'bb'`. –  Ray Toal Sep 6 at 17:27

in java we can also do it like this and its very simple logic

``````import java.util.*;

class Anagram
{
public static void main(String args[]) throws Exception
{
Boolean FLAG=true;

Scanner sc= new Scanner(System.in);

System.out.println("Enter 1st string");

String s1=sc.nextLine();

System.out.println("Enter 2nd string");

String s2=sc.nextLine();

int i,j;
i=s1.length();
j=s2.length();

if(i==j)
{
for(int k=0;k<i;k++)
{
for(int l=0;l<i;l++)
{
if(s1.charAt(k)==s2.charAt(l))
{
FLAG=true;
break;
}
else
FLAG=false;
}
}
}
else
FLAG=false;
if(FLAG)
System.out.println("Given Strings are anagrams");
else
System.out.println("Given Strings are not anagrams");
}
}
``````
-
This code has a bug. It says that 12343 and 12344 are anagrams, but they are not. The inner loop should account for the fact a specific character has already been counted in comparison against the first string. –  lreeder Jul 4 '13 at 15:50