Apparently this can actually make a difference in some cases, and the
C++ Core Guideliens recommend doing this on all default constructors,
destructors, and all functions that can not throw (and thus also don't
allocate).
Since that makes it much clearer what we're actually doing. With old
`cache_time_info` was actually caching the response, but now we're
querying it before the plugin has even requested the information.
We'll periodically copy the scheduling priorities from the host's audio
threads to the Wine plugin host's audio threads. The overhead of doing
this is about 1 microsecond on my system, so doing this every cycle
really adds up. But getting the Unix epoch time and comparing some
timestamps has a neglegible overhead, so this should give you the best
of both worlds.
Next we'll do the same thing for VST3 plugins.
As suggested by @jhernberg
To account for the differences in VST2 plugins and VST3 modules we had
to wrap most of our old functions from `src/plugin/utils.h` in a new
`PluginInfo` struct that gathers all of this information while taking
into account the differences between VST2 and VST3 plugins.
With this change things are also a lot more organized. We can just query
the plugin information we need rather than having to store things
separately or having to recalculate things. This also moved the
responsibility of all the weird `WINEPREFIX` behaviour to a single place
instead of having it spread around `utils.pp`, the initialisation
message, and `host-procoess.cpp`.
Robbert van der Helm