countLet's call window 'minimal' if it can't be reduced. I.e., after increasing its left border or decreasing its right border it's no longer valid window (doesn't contain all elements from B). There three in your example: [0, 2], [2, 6], [6, 7]

Let's assume say that you already found leftmost minimal window [left, right]. ([0, 2] in your example) Now we'll just slide it to the right.

```
// count[x] tells how many times number 'x'
// happens between 'left' and 'right' in 'A'
while (right < N - 1) {
// move right border by 1
++right;
if (A[right] is in B) {
++count[A[right]];
}
// check if we can move left border now
while (count[A[left]] > 1) {
--count[A[left]];
++left;
}
// check if current window is optimal
if (right - left + 1 < currentMin) {
currentMin = right - left + 1;
}
}
```

This sliding works because different 'minimal' windows can't contain one another.