Difference between revisions of "Projects/Nepomuk"

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In any case, it allows to quickly access unwatched episodes.
 
In any case, it allows to quickly access unwatched episodes.
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=== Tool to gather annotation statistics about selected files ===
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Quoting blog comment as an example: ''"I am using Nepomuk to tag/rate schoolwork from my students. For every paper/file I tag it with seen/unseen and rate it with the actual grade I want to give (0-5). When I have seen them all, I collect the results into a spreadsheet. It would make my life (even) easier if, by selecting a bunch of file I could have a summary (one I could save in some text form) of all ratings/tags for each file in the selection."''
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One could think of an action in Dolphin (for a first prototype this is always a good idea) which triggers a collection of all metadata which is then layed out according to the user's wishes: html, plain text, odt, whatever.
  
 
=== FIXME: add ideas ===
 
=== FIXME: add ideas ===

Revision as of 11:43, 22 May 2009

Nepomuk logo big.png

Contents

About Nepomuk

This page is dedicated to Nepomuk development ideas, progress, experiments, and is a general starting point for new developers.

For general information about the Nepomuk project see the dedicated Nepomuk homepage.


Developer Coordination

The Nepomuk project is maintained by Sebastian Trueg of Mandriva.


Documentation

The following links provide good reads for getting used to the Nepomuk system and its APIs.


ToDo

Nepomuk is a rather young project with a notorious shortage in developers. There are many tasks and subprojects to get ones hands dirty on. Unlike other projects like Plasma, however, developing for Nepomuk is not easy. One has to read up on a lot of things and fight some day-to-day annoyances. But: helping with the development will improve the situation in any case.

If you are interested in working on a task in this list, please contact Sebastian Trueg.

Low level Nepomuk Development Tasks

The low-level development tasks are those that are not directly reflected in the GUI or even in the API used by most developers. However, they are important in terms of performance, scalability, and compatibility.

Soprano Transaction Support

Soprano is the RDF database framework used in Nepomuk. Currently Soprano does not support transactions, i.e. sets of commands that can be rolled back. An experimental development branch exists which already contains new API for transaction support (while keeping BC).

It still misses an implementation of the transaction support in Soprano backends (Sesame2 and Virtuoso) and in the client/server architecture.

Multi-threaded Storage service

At the moment the Nepomuk storage service is single-threaded. This slows down the system when more than one application tries to access data. Making the Soprano server implementation (which the Nepomuk service is based on) multi-threaded should not be that hard, knowing that the storage backend (sesame2) is already thread-safe.

General Nepomuk

Catching all file moves

Nepomuk uses an RDF database for all data. This includes file metadata. Files are referenced by URL. The problem with this is that when a file is moved or renamed we have to realize this and update the metadata accordingly (update the URL in the database).

For KIO this is fairly simple since we have KDirNotify. The Nepomuk filewatch service takes care of this and updates the metadata whenever KIO moves or deletes a file.

However, if a file is moved by a non-KDE application (typical example: the shell via the mv command) the filewatch service does not notice it and the file -> metadata link is gone. This is a bad situation which sadly cannot be solved easily. Systems like inotify are too restricted.

Thus, while having a more powerful replacement for inotify would be great, in the meantime we should work with what we got.

The idea is to create a Nepomuk service that tries very hard to find file moves. It would regularly check the database for dangling metadata and then try to find the file using all kinds of evidence:

  • file name matching
  • xattrs if available (this would mean that Nepomuk::Resource also needs to set the xattrs at some point)
  • checksums, maybe the checksum of the first N bytes or something like that to speed the process up
  • compare metadata extracted by strigi
  • etc.

All this information should be used to generate a score which indicates the certainty of the file matching. Then the final decision would have to be made by the user.

Hints:

  • Try to detect if a complete folder has been moved (or deleted) and do not ask the user for every single file.

Handling of external storage

A typical problem with the way Nepomuk handles files and file metadata are removable storage devices. They can be mounted at different paths on different systems. But still one wants to keep the metadata stored in Nepomuk. If possible one would even want to be able to search for files saved on an USB stick even if it is not plugged in.

The blog entry about removable storage in Nepomuk already discusses this problem and shows some existing code in KDE's playground which tries to tackle this problem.

However, one actually needs more. The system would have to be embedded into KIO to make sure the metadata cache on the removable storage device is always up-to-date. Also it is directly related to the problem of relative vs. absolute file URLs.

Relative vs. Absolute File URLs

Currently Nepomuk uses the absolute file URLs as URI identifiers for the resources representing the files in the Nepomuk RDF store. The file ~/test.png for example has the resource URI file:///home/<username>/test.png. This is nice in many situations since one can simply use the file URL to query file metadata but on the other hand we need to change a lot of triples whenever the file is moved (not to mention the removable storage problem above).

Thus, the idea is to use random URI identifiers for new file resources and store the file path relative to the mount point. This would solve the above problem with removable devices and make updates after file moves simpler (only update the path).

This problem should probably be tackled by introducing a class Nepomuk::File as a subclass to Nepomuk::Resource which handles all these special file stuff like making sure we have a correct nao:filePath property and so on (currently all that is done with an if clause in Nepomuk::Resource.

GUI

Better tagging widget

Currently there is a tagging widget in kdelibs which is pretty ugly and not even used. Then there is the tag cloud used in Dolphin. The latter was already criticized for not being appropriate in that situation.

Thus, it would be great to make Nepomuk::TagWidget a nice and usable (maybe talk to the usability people) widget that can then be used in Dolphin, Gwenview, and pretty much any application that wants to tag resources.

Ideas

There are many ideas on how to improve the Nepomuk system or on how to use it. This is the place to list them all.

Feel free to add your own ideas. Please leave your name in case someone wants to contact you for details or a discussion of the idea.

Remember download locations

As blogged before remembering the download location and the referrer web page is a pretty good idea. The most pressing problem at the moment is finishing the download ontology.

Giving the user the option to tag either at the download dialogue and/or the kuiserver download notification would make it easier to tag instantly rather than waiting for the file to download and then rmembering to come back when it's finished and tag then. When bookmarking in Firefox, FF adds some suggested tags (fairly accurately too!) which the user can delet / add to. I suggest the same for downloaded files. This way, the web pages meta tags / title can be used for suggestions if the user doesn't feel like tagging , doesn't know about it, or just to speed the process up.

Use Nepomuk in the KDE Menu

One could think of using nepomuk search in the KMenu to look for applications or even files or persons.

Remember Usage of movie/sound files

Media players such as Dragonplayer or Amarok could remember when movie/sound files have been watched/listened to. The last time is interesting but maybe also a history.

In any case, it allows to quickly access unwatched episodes.

Tool to gather annotation statistics about selected files

Quoting blog comment as an example: "I am using Nepomuk to tag/rate schoolwork from my students. For every paper/file I tag it with seen/unseen and rate it with the actual grade I want to give (0-5). When I have seen them all, I collect the results into a spreadsheet. It would make my life (even) easier if, by selecting a bunch of file I could have a summary (one I could save in some text form) of all ratings/tags for each file in the selection."

One could think of an action in Dolphin (for a first prototype this is always a good idea) which triggers a collection of all metadata which is then layed out according to the user's wishes: html, plain text, odt, whatever.

FIXME: add ideas

Potential Idea: Standalone Search Application

  • could a developer please confirm this and move it up?

Create a standalone search application using Nepomuk. Currently, the KDE desktop does not have a clear application that will search the user's entire hard drive for a file. One application that implements this well is Beagle in Gnome. Krunner already has much of the code implemented, but only searches a certain amount of directories deep (2?). This standalone application would provide the full search. This application could also be the place for implementing the tagging idea above.

Potential Idea: Nepomuk based backup system

I know the support for external storage is still at its first steps but i think it has a huge potential for an intelligent backup system. The point here is that Nepomuk could "know" that a certain file on a certain device is the backup of a local file. Then, when the device is available it would trigger an automatic update of the backup. The user could, for example, just tag a folder with "Backup" and the system would ask where to back it up and perform all the necessary tasks. Backup history and recovery could then be done inside the Nepomuk resource. The key point here is really the fact that the system would "know" what a backup is, recognize one when it sees it and know what to do with it.


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