Java:

```
static int getMinSum(int elements[])
{
if (elements == null || elements.length == 0)
{
throw new IllegalArgumentException("No elements");
}
if (elements.length == 1)
{
return elements[0];
}
int minSum[] = new int[elements.length];
minSum[0] = elements[0];
minSum[1] = elements[0] + elements[1];
for (int i = 2; i < elements.length; i++)
{
minSum[i] = Math.min(minSum[i - 1] + elements[i], minSum[i - 2] + elements[i]);
}
return Math.min(minSum[elements.length - 2], minSum[elements.length - 1]);
}
```

Input:

```
int elements[] = { 1, -2, 3 };
System.out.println(getMinSum(elements));
```

Output:

```
-1
```

Case description:

We start from the index 0. We must take 1. Now we can go to index 1 or 2. Since -2 is attractive, we choose it. Now we can go to index 2 or hop it. Better hop and our sum is minimal 1 + (-2) = -1.

Another examples (pseudocode):

```
getMinSum({1, 1, 10, 1}) == 3
getMinSum({1, 1, 10, 100, 1000}) == 102
```

Algorithm:

O(n) complexity. Dynamic programming. We go from left to right filling up minSum array. Invariant: `minSum[i] = min(minSum[i - 1] + elements[i] /* move by 1 */ , minSum[i - 2] + elements[i] /* hop */ )`

.

element? Integer? Can you go from left to right only once? – Adam Stelmaszczyk Apr 26 '13 at 15:54