The difference in performance won't be noticable, but both lookups and
modifications in these things are much faster once you have more than
one or two elements.
This should not be causing any issues, but it seems like some people
skip the locale setup step in the Arch installation guide and then end
up with a distro without any locales, with invalid locales, or with a
non-generated locale. glibc and libstd++ fall back to the C locale when
this happens, but Boost.Process triggers one of the edge cases where
this doesn't happen. https://github.com/boostorg/process/pull/179 fixes
this in Boost.Process, but it will be a while until this is in every
distro's copy of Boost.
https://svn.boost.org/trac10/changeset/72855
This is needed as a workaround to support Waves VST3 plugins.
Right now does does not actually fix the issue because the arguments are
not updated in the subclasses. The next commit will fix this.
We sadly cannot call `shared_library()` and `executable()` in these
subdirectories while still maintaining the same `build/` directory
structure, but this is still much cleaner. All of the other build
artifacts are now also gone from the root of `build/` so it's cleaner
overall.
At some point Doom Emacs broke on-save formatting with lsp-mode in
certain circumstances, and I made these changes with wgrep so apparently
they were never formatted.
Since we're using the XDG base dir package in yabridgectl we were
already doing this there, so it makes sense to also do this in yabridge
itself even though it's very unlikely the user will have this set.
These critical notifications don't expire under KDE Plasma, which would
mean that you'd get absolutely flooded with notifications you have to
manually close when something is wrong.
This makes the initialization message reflect the correct Wine version
when using a `WINELOADER` script to change between Wine versions
depending on the Wine prefix.
Ardour apparently always calls `effMainsChanged()` with a value argument
of 0 when unloading the plugin, regardless of whether it has actually
initialized audio processing before that point.
In the same way as 50c25c1cf0 did it for
VST2 plugins. Input and output audio data is now stored in a shared
memory buffer instead of being sent over the sockets. This reduces the
bridging overhead to a minimum since copying data was the most expensive
operation we were doing and we now only need to copy the entire buffer
once per processing cycle.
We now use shared memory to store the input and output audio buffers.
This means that we have to copy less data every processing cycle, since
a single copy to and a single copy from the shared memory object
suffices now. This should reduce the DSP load for VST2
plugins (especially when used in a plugin group) marginally to
significantly depending on the plugins used and the system
configuration.
Robbert van der Helm