Let the array be of size N, indexed as 1...N

Let f(n) be the function, that provides the answer for max sum of sub array (1...n), such that no two left over elements are consecutive.

```
f(n) = max (a[n-1] + f(n-2), a(n) + f(n-1))
```

In first option, which is - {a[n-1] + f(n-2)}, we are leaving the last element, and due to condition given in question selecting the second last element.

In the second option, which is - {a(n) + f(n-1)} we are selecting the last element of the subarray, so we have an option to select/deselect the second last element.

Now starting from the base case :

```
f(0) = 0 [Subarray (1..0) doesn't exist]
f(1) = (a[1] > 0 ? a[1] : 0); [Subarray (1..1)]
f(2) = max( a(2) + 0, a[1] + f(1)) [Choosing atleast one of them]
```

Moving forward we can calculate any f(n), where n = 1...N, and store them to calculate next results. And yes, obviously, the case f(N) will give us the answer.

```
Time complexity o(n)
Space complexity o(n)
```