- - http://msdn.microsoft.com/en-us/library/ms724290.aspx suggest
- modern Windowses support atime-equivalents, so a Windows port is
- possible in principle.
- + For a full Windows port, would need to modify the current
- structure a lot, to abstract away (at least) memory-mapping of
- files, details of disk scan procedure, networking for httpd.
- Unclear what the right UI would be on Windows, too;
- command-line exactly as now might be considered just a
- _little_ unfriendly. Or perhaps not.
- + Alternatively, a much easier approach would be to write a
- Windows version of just the --scan-dump mode, which does a
- filesystem scan via the Windows API and generates a valid
- agedu dump file on standard output. Then one would simply feed
- that over the network connection of one's choice to the rest
- of agedu running on Unix as usual.
+ - abstracting away all the Unix calls so as to enable a full
+ Windows port. We can already do the difficult bit on Windows
+ (scanning the filesystem and retrieving atime-analogues).
+ Everything else is just coding - albeit quite a _lot_ of coding,
+ since the Unix assumptions are woven quite tightly into the
+ current code.
+ + If nothing else, it's unclear what the user interface properly
+ ought to be in a Windows port of agedu. A command-line job
+ exactly like the Unix version might be useful to some people,
+ but would certainly be strange and confusing to others.
+
+ - it might conceivably be useful to support a choice of indexing
+ strategies. The current "continuous index" mechanism' tradeoff of
+ taking O(N log N) space in order to be able to support any age
+ cutoff you like is not going to be ideal for everybody. A second
+ more conventional "discrete index" mechanism which allows the
+ user to specify a number of fixed cutoffs and just indexes each
+ directory on those alone would undoubtedly be a useful thing for
+ large-scale users. This will require considerable thought about
+ how to make the indexers pluggable at both index-generation time
+ and query time.
+ * however, now we have the cut-down version of the continuous
+ index, the space saving is less compelling.
+
+ - A user requested what's essentially a VFS layer: given multiple
+ index files and a map of how they fit into an overall namespace,
+ we should be able to construct the right answers for any query
+ about the resulting aggregated hierarchy by doing at most
+ O(number of indexes * normal number of queries) work.
+
+ - Support for filtering the scan by ownership and permissions. The
+ index data structure can't handle this, so we can't build a
+ single index file admitting multiple subset views; but a user
+ suggested that the scan phase could record information about
+ ownership and permissions in the dump file, and then the indexing
+ phase could filter down to a particular sub-view - which would at
+ least allow the construction of various subset indices from one
+ dump file, without having to redo the full disk scan which is the
+ most time-consuming part of all.