I'm trying to make an iterator that performs breadth-first traversal of all the files and folders inside a particular folder. I've already done this with depth-first traversal, which returns, for example:
\A \A\1 \A\1\x \A\1\y \A\2 \B \B\1
Now I'm trying to make a program that would instead return the results breadth-first: (or level-by-level)
\A \B \A\1 \A\2 \B\1 \A\1\x \A\1\y
for the same hierarchy. However, I've come across a stumbling block: Assuming I want these to happen in the correct order (and specifically, not the reverse order), I cannot find any way to perform this action without ultimately needing O(n) memory, where n is the number of files/folders on the drive, because it seems to me that I would ultimately need to keep the entire drive hierarchy in memory at some point, whereas for DFS, I can entirely ignore all entries that I enumerate previously at the same level in the hierarchy.
So my question is: Is there a better-than-linear way to use memory in order to traverse the folder?