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I want to create a tree of the CD content in memory using structures and std::vector, for both directories and files. I won't scan the files in detail, i'm only interested if they are directories or regular files.

What is the best and fastest approach for this ? Would a recursive scan make the CD unit head jump around the drive looking for files/folder ?

I want to reduce CD unit head jumps and to make it as fast as possible. BTW: I'm using UNIX and C/C++.

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Let the OS do its job (it has a better knowledge of the effective media structure (multi-session CDs, for example). Start with these APIs:… – Adriano Repetti Feb 22 '13 at 16:36
If you knew how the data is physically arranged on the disc, you could read it in that particular order, but as you usually don't know, recursive descent would be best. – bash.d Feb 22 '13 at 16:37
Copy the FAT-equivalent structure (maybe with dd) on your hard drive, then recursively read the tree from the HD. That means copy the beginning of the ISO structure up to a point (that I don't know) into a .iso file on your HD, ie the table without the data, then read the iso - never tried myself... but that should prevent the "jumps" – ringø Feb 22 '13 at 17:00
up vote 3 down vote accepted

According to the ISO 9660 specification:

Contained within the primary volume descriptor is the root directory record describing the location of the contiguous root directory. (As in UNIX, directories appear as files for the operating system?s special use). Directory entries are successively stored within this region. Evaluation of the ISO 9660 filenames is begun at this location. The root directory is stored as an extent, or sequential series of sectors, that contains each of the directory entries appearing in the root

Given this information, I would assume that it is fairly unavoidable to have head jumps. You will be starting at this top level directory, say Track X Sector Y, scan to find the first directory to traverse, and moving downward on the disk. So the head will be jumping whenever you dive further into the tree regardless of how your 'diving'. If there was a way to scan the disk based on track and then on sector, that would provide benefit, but I'm unsure how to do that and if its even worth the implementation.

Your decision affects performance not so much on the CDFS, but rather your process overhead. Recursion incurs the overhead of allocating to the stack, and there are memory implications there. But as far as the CDFS, it seems to be less in your control.

I would say go with recursion as it makes logical sense for tree traversals

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He'll have to test but from what you wrote it seems smartest to read the whole directory first at each level, then recurse. So Cumatru, don't read one entry at a time and recurse as soon as you find a directory. Read one whole directory, then recurse. – Zan Lynx Feb 22 '13 at 17:08
correct :) fun little algorithm to implement – 75inchpianist Feb 22 '13 at 17:12
it is to note that this only refers to the root, however. I couldn't find if the organization is similar for child directories, though I imagine CDFS uses extents for fast sequential access, so it probably does. – 75inchpianist Feb 22 '13 at 17:13
Based on the description, you'd be better off with a breadth-first or pre-order search, reading all of the contiguous entries in each dir level, then recursively reading each subdir within the parent dir. That way you're not partially reading a dir, then skipping to a subdir, then skipping back to read the rest of the parent dir. – David R Tribble Feb 22 '13 at 18:19
so, what Zan Lynx said. – 75inchpianist Feb 22 '13 at 18:21

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