It's been two months since I published a new version of SBWG (and therefore since I worked enough on it to make me feel that an increase in the version number may be justified). I hardly get around to working on it, lately. But when I do, I try to make some solid small steps towards the improvements I wish do be done to SBWG.
So, now there is a new version (0.10.11) but I haven't published it yet because before I do I want to test it a bit more when I'm not as fucking tired as I am right now. Writing this entry could actually be considered part of the testing that I still want to do. But as I said, I'm fucking tired right now. So I'll continue this entry another time.
Edit 2022-09-12: I did some tests with fake content offline and feel confident that I fixed more than I broke in this version. I'll add it to the project page soon.
Two long procrastinate areas that have been overdue to get fixed for a while now are permanent caching and parallelisation. For permanent caching, the bugs that I found are fixed. Aggressive caching with option `--cache` (`-C`) works and certain groups can be selected (excluding others) for permanent caching. In my test this speeds up everyday web site re-generations by up to 100%. But it also means the user has to be aware of the cache files that persist after SBWG is done and will be used the next time. Changes to existing entries will not take effect without removing the relevant cache files. For parallelisation, the bugs that I found and that affect the generated HTML are fixed. I still consider parallel mode to be experimental. Sometimes messages on stdout are weird or cut off. But who uses very verbose mode and looks at every message anyway? Parallelisation is functional and usable is what I mean to say. In my test on a Core i5 with 4 cores (8 threads) it speeds up everyday web site re-generation by around 380% with default settings. It depends a lot on how much of web site generation is generating thumbnails and other image sizes of file attachments or gallery images. Those aren't sped up that much because the CPU already is the bottleneck for those. HTML file generation profits more from having more parallel threads than CPU cores (or threads) running.