The OP here mentions in the final post (4th or so para from bottom):
"Now one thing that always bothered me about this is all the child pointer checking. There are usually a lot of null pointers, and waiting on memory access to fill the cache with zeros just seems stupid. Over time I added a byte that contains a 1 or 0 to tell if each of the pointers is NULL. At first this just reduced the cache waste. However, I've managed cram 9 distance comparisons, 8 pointer bits, and 3 direction bits all through some tables and logic to generate a single switch variable that allows the cases to skip the pointer checks and only call the relevant children directly. It is in fact faster than the above, but a lot harder to explain if you haven't seen this version."
He is referring to octrees as the data structure for real-time volume rendering. These would be allocated on the heap, due to their size. What I am trying to figure out is:
(a) Are his assumptions in terms of waiting on memory access, valid? My understanding is that he's referring to waiting on a full run out to main memory to fetch data, since he's assuming it won't be found in the cache due to generally not-too-good locality of reference when using dynamically-allocated octrees (common for this data structure in this sort of application).
(b) Should (a) prove to be true, I am trying to figure out how this workaround
Over time I added a byte that contains a 1 or 0 to tell if each of the pointers is NULL.
would be implemented without still using the heap, and thus still incurring the same overhead, since I assume it would need to be stored in the octree node.
