I have an assignment that wants me to write an ternary search algorithm and compute its time complexity afterwards. I was able to write an algorithm for it but I couldn't come up with any ideas how to compute its complexity. I think I didn't understand the concept of big-theta notation.

Here is my code: It works like binary search but only divides the list into there pieces and continues the search like that.

```
*some list which contains n increasingly-ordered integers;*
int num;
int min = 1;
int max = n;
int middle1 = (2*min+max)/3;
int middle2 = (min+2*max)/3;
cin >> num; //num is the number that is wanted to be found
while (middle1 != middle2)
{
middle1 = (2*min+max)/3;
middle2 = (min+2*max)/3;
if(num <= list[middle1])
max = middle1;
else if(num >list[middle1] && num <= list[middle2])
{
min= middle1;
max = middle2;
}
else
min = middle2;
}
if(num == list[max])
cout << "your number is found in the "<< max <<"th location\n";
else
cout << "number cannot be found";
```

If you could explain how to determine its complexity in terms of big-theta notation, it would be very helpful for me.