- use pyproject.toml to define project metadata and setuptools-specific configuration, removing the need for a setup.py file
- move sources in conventional src/ directory
- rework stubs so that they're visible downstream. PEP-561 doesn't support top-level .pyi files, so I made a dummy package instead `alsaaudio-stubs`
snd_pcm_hw_params_get_sbits gives the number of significant bits, not
the actual number of bits stored. Change to snd_pcm_format_physical_width.
This fixes a bug where, for example on my hardware:
format = 'S32_LE'
significant bits = 24
physical bits = 32
the program will segfault because the allocated buffer is too small.
while it's usually not actually necessary to generate a stereo signal
(alsa's default plughw device will happily duplicate it for us), we
still do it for demo purposes, just because.
a more realistic demo would actually use numpy, as that's what the
library will most likely be used with, but anyway.
the thread in the background actually needs time to do something
sensible. this is most easily achieved by simply sleeping in the
foreground thread.
i addition to the 440 Hz tone, also play 1 kHz, to demonstrate how
the change() function is used.
there is no need to be pedantic about the period size, especially with
a blocking device. what's more, attempting to set it on an already
playing device would error out, and it would be rather counter-
productive to temporarily stop it.
we *really* should not paper over underruns, as they require attention.
however, the previous attempt (c2a6b6e) caused an exception to be thrown
(see #130), which was a bit excessive, and was consequently reverted
(438e52e).
so instead we make the handling consistent with what we do in read():
return the verbatim -EPIPE in this case. this can be simply ignored, and
the next write will resume the stream, so this is mostly backwards-
compatible (the failing write will be discarded and would need
repeating, but that will just cause a skip after the interruption,
which does not seem particularly relevant).
as a drive-by, again stop using snd_pcm_recover(), as it still just
obfuscates the snd_pcm_prepare() call it does in the end.
the `else` branch of the return value handling cascade got lost in
commit 438e52e, leading to us returning None on success.
rather than restoring the old code exactly, delay the construction
of the final return code object. this is more consistent with
alsapcm_read() and overall nicer.
