I have algorithms that works with dynamically growing lists (contiguous memory like a C++ vector, Java ArrayList or C# List). Until recently, these algorithms would insert new values into the middle of the lists. Of course, this was usually a very slow operation. Every time an item was added, all the items after it needed to be shifted to a higher index. Do this a few times for each algorithm and things get really slow.
My realization was that I could add the new items to the end of the list and then rotate them into position later. That's one option!
Another option, when I know how many items I'm adding ahead of time, is to add that many items to the back, shift the existing items and then perform the algorithm in-place in the hole I've made for myself. The negative is that I have to add some default value to the end of the list and then just overwrite them.
I did a quick analysis of these options and concluded that the second option is more efficient. My reasoning was that the rotation with the first option would result in in-place swaps (requiring a temporary). My only concern with the second option is that I am creating a bunch of default values that just get thrown away. Most of the time, these default values will be null or a mem-filled value type.
However, I'd like someone else familiar with algorithms to tell me which approach would be faster. Or, perhaps there's an even more efficient solution I haven't considered.