It looks like you've got the right idea. Your code is a little tough to follow though, try using more descriptive variable names in the future :) It makes it easier on every one.

Here's my quick and dirty solution:

```
def calcAverages(listOfNums):
outputList = []
for i in range(len(listOfNums)):
if i == 0:
outputList.append((listOfNums[0] + listOfNums[1]) / 2.)
elif i == len(listOfNums)-1:
outputList.append((listOfNums[i] + listOfNums[i-1]) / 2.)
else:
outputList.append((listOfNums[i-1] +
listOfNums[i] +
listOfNums[i+1]) / 3.)
return outputList
if __name__ == '__main__':
listOne = [5, 1, 3, 8, 4, 7, 20, 12]
print calcAverages(listOne)
```

I opted for a `for`

loop instead of a `while`

. This doesn't make a big difference, but I feel the syntax is easier to follow.

```
for i in range(len(listOfNums)):
```

We create a loop which will iterate over the length of the input list.

Next we handle the two "special" cases: the beginning and end of the list.

```
if i == 0:
outputList.append((listOfNums[0] + listOfNums[1]) / 2.)
elif i == len(listOfNums)-1:
outputList.append((listOfNums[i] + listOfNums[i-1]) / 2.)
```

So, if our index is 0, we're at the beginning, and so we add the value of the currect index, `0`

, and the next highest `1`

, average it, and append it to our output list.

If our index is equal to the length of out list - 1 (we use -1 because lists are indexed starting at 0, while length is not. Without the -1, we would get an IndexOutOfRange error.) we know we're on the last element. And thus, we take the value at that position, add it to the value at the previous position in the list, and finally append the average of those numbers to the output list.

```
else:
outputList.append((listOfNums[i-1] +
listOfNums[i] +
listOfNums[i+1]) / 3.)
```

Finally, for all of the other cases, we simply grab the value at the current index, and those immediately above and below it, and then append the averaged result to our output list.