# How can I find the number of unique characters in a string?

I have found nothing particular for this purpose.

I am trying to figure out a function that counts each of the characters' occurrences in a string, so that I can pull them out at the end from the length to find how many homogeneous characters are used in that string.

I've tried with nested loop, the first to apply and the second to scan the string and conditionally fulfill the character if it does not appear elsewhere in the string:

``````size_t CountUniqueCharacters(char *str)
{
int i,j;
char unique[CHAR_MAX];
for(i=strlen(str); i>=0; i--)
{
for(j=strlen(str); j>=0; j--)
{
if(str[i] != unique[j])
unique[j] = str[i];
}
}
return strlen(unique);
}
``````

This didn't work well.

This is useful if you are willing to limit someone to type lazy names such as `"aaaaaaaaaaaaa"`.

• This really isn't much of a question, it's rather close to "can I have teh codez" which is not generally optimal for this forum. Commented Jul 4, 2014 at 11:19
• I didn't asked for "teh codes" the little title cleary says what is the question. Looking for a function or method.. i haven't said i need a full code. A pseudo-code would work for me too. Commented Jul 4, 2014 at 11:21
• I don't entirely understand the question (the second sentence makes no sense to me) - are you looking for a method that takes a string and a character and returns the number of occurrences of the character in the string? Commented Jul 4, 2014 at 11:23
• @Daniel noo.. as the title says "all the character occurrences". Which means something like.. `char* str = "Cannono";` `printf("%i", ccnt(str));` Which returns 4 because in "Cannono" we have 4 different characters. Commented Jul 4, 2014 at 11:25
• Oh, you're looking for the number of unique characters in the string. What have you tried? Commented Jul 4, 2014 at 11:26

Here's a simple C++ solution. This method has O(n) complexity:

``````int countDistinct(string s)
{

unordered_map<char, int> m;

for (int i = 0; i < s.length(); i++) {
m[s[i]]++;
}

return m.size();
}
``````
• You should analyze the complexity of `unordered_map` mechanism, so that the overall complexity does not lead to O(n), I think. Commented May 30, 2021 at 7:04
• This answer is unnecessarily long, you don't need to keep track of frequencies and therefore can use a unordered_set. See my answer below that is shorter with the same time complexity. Commented Sep 27, 2021 at 3:18

This method has `O(n^2)` complexity, but it's very possible (though a bit more complex) to do this in `O(n)`.

``````int CountUniqueCharacters(char* str){
int count = 0;

for (int i = 0; i < strlen(str); i++){
bool appears = false;
for (int j = 0; j < i; j++){
if (str[j] == str[i]){
appears = true;
break;
}
}

if (!appears){
count++;
}
}

return count;
}
``````

The method iterates over all the characters in the string - for each character, it checks if the character appeared in any of the previous characters. If it didn't, then the character is unique, and the count is incremented.

• I did exactly the same thing, but with one logical mistake.. didn't put the condition inside the first loop after the second one. Commented Jul 4, 2014 at 11:38

I find the following way of counting distinct characters, very simple and in `O(n)`. Here the logic is, just traverse through the character array, and for each character make its count `1`, even if it repeats, just override the value with `1` only. After you are done with traversing, just sum all the character occurance.

``````int count_distinc_char(const char *a){
int c_arr[MAX_CHAR] = {0};
int i, count = 0;
for( i = 0; a[i] != '\0'; i++){
c_arr[a[i] - 'a'] = 1;
}
for( i = 0; i < MAX_CHAR; i++){
count += c_arr[i];
}
return count;
}
``````

well you can use a HashSet or unordered_set for the purpose but it has a worst case time complexity of O(N). Hence, its best to use an array of 256 memory locations or `arr[256]`. This gives the desired output in O(256)~ O(1) time

If you're using C++, here's a one-liner that has optimal time complexity:

``````int numUniqeChars = std::unordered_set<char>(std::begin(str), std::end(str)).size();

``````
• did you meant `int numUniqeChars = std::size(std::unordered_set<char>(std::begin(str), std::end(str)));`
– gov
Commented Sep 28, 2021 at 20:55
• @gov yeah, thanks for catching that, fixed now. Commented Sep 28, 2021 at 20:56
• as `std::size` is not supported in c++11, you can use `std::unordered_set<char> uset(std::begin(str), std::end(str)); int numUniqeChars = uset.size();`
– gov
Commented Sep 28, 2021 at 20:58
• @gov good callout, I changed the answer to make it work on older versions of C++. Commented Sep 29, 2021 at 5:28

Create a linked list to store the characters found in the string and its occurences with the node structure as follow,

``````struct tagCharOccurence
{
char ch;
unsigned int iCount;
};
``````

Now read all the characters in a string one by one and as you read one character check if it is present in your linked list, if yes then increase its count and if character is not found in linked list then insert a new node with 'ch' set to read character and count initialized to one.

In this way you'll get the count of occurences of each character in single pass only. You can now use the linked list to print the characters as many times as its has been encountered.

I just came across this question while looking for some other stuff on Stack Overflow. But I still post a solution which might be helpful to some:

This is also used for implementation of huffman conding here. There you need to know the frequency of each character, so a bit more than what you need.

``````#include <climits>
const int UniqueSymbols = 1 << CHAR_BIT;
const char* SampleString = "this is an example for huffman encoding";
``````

Left shift operator shifts lhs (i.e. 1) `CHAR_BIT` times to the left, hence multiplying with 2^8 (on most computers) which is 256, as there are 256 unique symbols in UTF-8

and in your `main` you have

``````int main() {
// Build frequency table
int frequencies[UniqueSymbols] = {0};
const char* ptr = SampleString;
while (*ptr != '\0') {
++frequencies[*ptr++];
}
}
``````

I found it quite minimal and helpful. The only downside is that the size of `frequencies` is 256 here, uniqueness is then just checking which value is 1.

• Thanks for your follow-up. This seems like a variant of a lookup table. Their downsides are usually the huge chunk of memory being used, but are quite fast and easy to implement. Commented Sep 10, 2018 at 9:47

In this algorithm, the cost is lower and the speed is higher. Because every time a search is done in a smaller string. It also does not need compare between strings or "split" or "(list or array)".

``````QString out = "";
QString str = "Does he not know that God sees?";
while (str.size() > 0) {
out += str[0];
str = str.replace(str[0],"",Qt::CaseInsensitive);
}
qDebug() << out << out.size();
``````

output: "Does hntkwaG?" 13

ignore Case Insensitive and use , between letters.

``````QString out = "";
QString str = "Does he not know that God sees?";
while (str.size() > 0) {
out += str[0];
if(str.size() != 1)
out += ',';
str = str.replace(str[0],"");
}
qDebug() << out;
``````

output: "D,o,e,s, ,h,n,t,k,w,a,G,d,?"

To sort, refer to this link: Sort filenames naturally with Qt

Here is source code of the C Program to Count the Number of Unique Words. The C program is successfully compiled and run on a Linux system

``````int i = 0, e, j, d, k, space = 0;

char a[50], b[15][20], c[15][20];

fflush(stdin);

scanf("%[^\n]s", a);

for (i = 0;a[i] != '\0';i++)        //loop to count no of words

{

if (a[i] =  = ' ')

space++;

}

i = 0;

for (j = 0;j<(space + 1);i++, j++)    //loop to store each word into an 2D array

{

k = 0;

while (a[i] != '\0')

{

if (a[i] == ' ')

{

break;

}

else

{

b[j][k++] = a[i];

i++;

}

}

b[j][k] = '\0';

}

i = 0;

strcpy(c[i], b[i]);

for (e = 1;e <= j;e++)        //loop to check whether the string is already present in the 2D array or not

{

for (d = 0;d <= i;d++)

{

if (strcmp(c[i], b[e]) == 0)

break;

else

{

i++;

strcpy(c[i], b[e]);

break;

}

}

}

printf("\nNumber of unique words in %s are:%d", a, i);

return 0;
``````