Find the number of all substrings containing two unique characters.

**Edit** : I misread the question. This solution finds unique substrings with *at least* 2 unique characters

The number of substrings for a given word whose length is `len`

is given by `len * (len + 1) / 2`

sum = `len * (len + 1) / 2`

- We are looking for substrings whose length is greater than 1. The above formula includes substrings which are of length 1. We need to substract those substrings.

So the total number of 2 letter substrings now is `len * (len + 1) / 2 - l`

.

```
sum = `len * (len + 1) / 2 - l`
```

- Find the longest consecutive run of characters which are alike. Apply step
`1`

and `2`

.
Subtract this current sum from the `sum`

as obtained from step 2.

Sample implementation follows.

```
public static int allUniq2Substrings(char s[]) {
int sum = s.length * (s.length + 1) / 2 - s.length;
int sameRun = 0;
for (int i = 0, prev = -1; i < s.length; prev = s[i++]) {
if (s[i] != prev) {
sum -= sameRun * (sameRun + 1) / 2 - sameRun;
sameRun = 1;
} else {
sameRun++;
}
}
return sum - (sameRun * (sameRun + 1) / 2 - sameRun);
}
```

```
allUniq2Substrings("aaac".toCharArray());
3
allUniq2Substrings("aabc".toCharArray());
5
allUniq2Substrings("aaa".toCharArray());
0
allUniq2Substrings("abcd".toCharArray());
6
```

**Edit**
Let me try this again. I use the above **3** invariants.
This is a subproblem of finding all substrings which contain at least 2 unique characters.
I have a method posted above which gives me unique substrings for any length. I will use it to generate substrings from a set which contains at 2 unique characters.

We only need to keep track of the longest consequent run of characters whose set length is 2. ie Any permutation of 2 unique characters. The sum of such runs gives us the total number of desired substrings.

```
public static int allUniq2Substrings(char s[]) {
int sum = s.length * (s.length + 1) / 2 - s.length;
int sameRun = 0;
for (int i = 0, prev = -1; i < s.length; prev = s[i++]) {
if (s[i] != prev) {
sum -= sameRun * (sameRun + 1) / 2 - sameRun;
sameRun = 1;
} else {
sameRun++;
}
}
return sum - (sameRun * (sameRun + 1) / 2 - sameRun);
}
public static int uniq2substring(char s[]) {
int last = 0, secondLast = 0;
int sum = 0;
for (int i = 1; i < s.length; i++) {
if (s[i] != s[i - 1]) {
last = i;
break;
}
}
boolean OneTwo = false;
int oneTwoIdx = -1; //alternating pattern
for (int i = last + 1; i < s.length; ++i) {
if (s[secondLast] != s[i] && s[last] != s[i]) { //detected more than 2 uniq chars
sum += allUniq2Substrings(Arrays.copyOfRange(s, secondLast, i));
secondLast = last;
last = i;
if (OneTwo) {
secondLast = oneTwoIdx;
}
OneTwo = false;
} else if (s[i] != last) { //alternating pattern detected a*b*a
OneTwo = true;
oneTwoIdx = i;
}
}
return sum + allUniq2Substrings(Arrays.copyOfRange(s, secondLast, s.length));
}
```

```
uniq2substring("abaac".toCharArray())
6
uniq2substring("aab".toCharArray())
2
uniq2substring("aabb".toCharArray())
4
uniq2substring("ab".toCharArray())
1
```