# Find most common pair of characters in a string

i have written the following function

``````//O(n^2)
void MostCommonPair(char * cArr , char * ch1 , char * ch2 , int * amount)
{
int count , max = 0;
char cCurrent , cCurrent2;
int i = 0 , j;
while(*(cArr + i + 1) != '\0')
{
cCurrent = *(cArr + i);
cCurrent2 = *(cArr + i + 1);
for(j = i , count = 0 ; *(cArr + j + 1) != '\0' ; j++)
{
if(cCurrent ==  *(cArr + j) && cCurrent2 ==  *(cArr + j + 1))
{
count++;
}
}
if(count > max)
{
*ch1 = cCurrent;
*ch2 = cCurrent2;
max = *amount = count;
}
i++;
}
}
``````

for the following input

"xdshahaalohalobscxbsbsbs"

ch1 = b ch2 = s amount = 4

but in my opinion the function is very un efficient , is there a way to go through the string only once or to reduce the run size to O(n)?

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note that the OP is looking for the contiguous PAIR of characters with the highest count. –  hatchet Dec 20 '12 at 20:23

Since `char` can hold up to 256 values, you can set up a two-dimensional table of [256*256] counters, run through your string once, incrementing the counter that corresponds to each pair of character in the string. Then you can go through the table of 256x256 numbers, pick the largest count, and know to what pair it belongs by looking at its position in the 2D array. Since the size of the counter table is fixed to a constant value independent of the length of the string, that operation is `O(1)`, even though it requires two nested loops.

``````int count[256][256];
memset(count, 0, sizeof(count));
const char *str = "xdshahaalohalobscxbsbsbs";
for (const char *p = str ; *(p+1) ; p++) {
count[(int)*p][(int)*(p+1)]++;
}
int bestA = 0, bestB = 0;
for (int i = 0 ; i != 256 ; i++) {
for (int j = 0 ; j != 256 ; j++) {
if (count[i][j] > count[bestA][bestB]) {
bestA = i;
bestB = j;
}
}
}
printf("'%c%c' : %d times\n", bestA, bestB, count[bestA][bestB]);
``````

Here is a link to a demo on ideone.

Keep in mind that although this is the fastest possible solution asymptotically (i.e. it's `O(N)`, and you cannot make it faster than `O(N)`) the performance is not going to be good for shorter strings. In fact, your solution will beat it hands-down on inputs shorter than approximately 256 characters, probably even more. There is a number of optimizations that you can apply to this code, but I decided against adding them on to keep the main idea of the code clearly visible in its purest and simplest form.

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but the two characters with the highest counts may not be paired anywhere in the string. He's looking for the pair with the highest count. –  hatchet Dec 20 '12 at 20:20
@hatchet Ah, you are right. This is now fixed. –  dasblinkenlight Dec 20 '12 at 20:22
It's O(n), but there are inputs for which the performance will be very bad. For this algorithm it's short strings. A string of 5 chars, it will iterate through the 5 chars, then iterate through 65K counts. –  hatchet Dec 20 '12 at 20:35
@hatchet That is very true. Sometimes, the asymptotic performance is really good, but the constant additional time required for setup or to harvest the data is a deal breaker. In particular, this algorithm will perform worse than the native one for strings shorter than 256 characters. –  dasblinkenlight Dec 20 '12 at 20:38
You might improve this by keeping another array of 256 that just keeps count of individual chars. If the count of a char is 0 or less than the current best, then you don't need to look at any pairs for which it is the first char when you do your look through the counts. –  hatchet Dec 20 '12 at 20:39

If you want O(n) runtime you can use a hashtable (For example, Java's HashMap)

• Iterate through your string exactly once, 1 character at a time O(n)
• For each character visited, look ahead by exactly 1 more character (This is thus your character pair - just concatenate them) O(1)
• For each such character pair found, first look for it in the hashtable: O(1)
• If it's not in the hashtable yet, add it in with the character pair as the key, and `int 1` as the value (this counts the number of times you've seen it in the string). O(1)
• If it's already in the hashtable, increment its value O(1)
• After you are done looking through the string, check the hashtable for the pair with the highest count. O(m) (where `m` is the number of possible pairings; `m <= n` necessarily)
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Yes, you can do this in approximately linear time by keeping a running count.

Does that help?

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Assuming by most "common pair" you mean the most common set of two sequential characters

At pseudo-code level you want to

`````` Read the first character into the "second character" register
while(there is data)
store the old second character as the new first character
read the next character as the second one
increment the count associated with this pair
Select the most common pair
``````

So what you need is an efficient algorythm for storing and counts associated with character pairs and finding the most common one.

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