Merged sound.stream_recording and sound.record.

This commit is contained in:
Fabio Manganiello 2023-06-12 13:06:02 +02:00
parent a415c5b231
commit be794316a8
Signed by: blacklight
GPG key ID: D90FBA7F76362774
2 changed files with 20 additions and 184 deletions

View file

@ -32,7 +32,7 @@ class SoundRoute(StreamingRoute):
@contextmanager @contextmanager
def _audio_stream(self, **kwargs) -> Generator[None, None, None]: def _audio_stream(self, **kwargs) -> Generator[None, None, None]:
response = send_request( response = send_request(
'sound.stream_recording', 'sound.record',
dtype='int16', dtype='int16',
**kwargs, **kwargs,
) )

View file

@ -1,8 +1,8 @@
import os import os
import queue import queue
import stat import stat
import tempfile
import time import time
import warnings
from enum import Enum from enum import Enum
from threading import Thread, Event, RLock from threading import Thread, Event, RLock
@ -438,7 +438,20 @@ class SoundPlugin(Plugin):
self.stop_playback([stream_index]) self.stop_playback([stream_index])
@action @action
def stream_recording( def stream_recording(self, *args, **kwargs):
"""
Deprecated alias for :meth:`.record`.
"""
warnings.warn(
'sound.stream_recording is deprecated, use sound.record instead',
DeprecationWarning,
stacklevel=1,
)
return self.record(*args, **kwargs)
@action
def record(
self, self,
device: Optional[str] = None, device: Optional[str] = None,
fifo: Optional[str] = None, fifo: Optional[str] = None,
@ -451,6 +464,7 @@ class SoundPlugin(Plugin):
channels: int = 1, channels: int = 1,
redis_queue: Optional[str] = None, redis_queue: Optional[str] = None,
format: str = 'wav', format: str = 'wav',
stream: bool = True,
): ):
""" """
Return audio data from an audio source Return audio data from an audio source
@ -474,6 +488,8 @@ class SoundPlugin(Plugin):
:param redis_queue: If set, the audio chunks will also be published to :param redis_queue: If set, the audio chunks will also be published to
this Redis channel, so other consumers can process them downstream. this Redis channel, so other consumers can process them downstream.
:param format: Audio format. Supported: wav, mp3, ogg, aac. Default: wav. :param format: Audio format. Supported: wav, mp3, ogg, aac. Default: wav.
:param stream: If True (default), then the audio will be streamed to an
HTTP endpoint too (default: ``/sound/stream<.format>``).
""" """
self.recording_paused_changed.clear() self.recording_paused_changed.clear()
@ -563,7 +579,7 @@ class SoundPlugin(Plugin):
continue continue
f.write(data) f.write(data)
if redis_queue: if redis_queue and stream:
get_redis().publish(redis_queue, data) get_redis().publish(redis_queue, data)
except queue.Empty: except queue.Empty:
@ -574,186 +590,6 @@ class SoundPlugin(Plugin):
Thread(target=streaming_thread).start() Thread(target=streaming_thread).start()
@action
def record(
self,
outfile=None,
duration=None,
device=None,
sample_rate=None,
format=None,
blocksize=None,
latency='high',
channels=1,
subtype='PCM_24',
):
"""
Records audio to a sound file (support formats: wav, raw)
:param outfile: Sound file (default: the method will create a temporary file with the recording)
:type outfile: str
:param duration: Recording duration in seconds (default: record until stop event)
:type duration: float
:param device: Input device (default: default configured device or system default audio input if not configured)
:type device: int or str
:param sample_rate: Recording sample rate (default: device default rate)
:type sample_rate: int
:param format: Audio format (default: WAV)
:type format: str
:param blocksize: Audio block size (default: configured `input_blocksize` or 2048)
:type blocksize: int
:param latency: Device latency in seconds (default: the device's default high latency)
:type latency: float
:param channels: Number of channels (default: 1)
:type channels: int
:param subtype: Recording subtype - see `Soundfile docs - Subtypes
<https://pysoundfile.readthedocs.io/en/0.9.0/#soundfile.available_subtypes>`_
for a list of the available subtypes (default: PCM_24)
:type subtype: str
"""
def recording_thread(
outfile,
duration,
device,
sample_rate,
format,
blocksize,
latency,
channels,
subtype,
):
self.recording_paused_changed.clear()
if outfile:
outfile = os.path.abspath(os.path.expanduser(outfile))
if os.path.isfile(outfile):
self.logger.info('Removing existing audio file %s', outfile)
os.unlink(outfile)
else:
outfile = tempfile.NamedTemporaryFile(
prefix='recording_',
suffix='.wav',
delete=False,
dir=tempfile.gettempdir(),
).name
if device is None:
device = self.input_device
if device is None:
device = self._get_default_device('input')
if sample_rate is None:
dev_info = sd.query_devices(device, 'input')
sample_rate = int(dev_info['default_samplerate'])
if blocksize is None:
blocksize = self.input_blocksize
q = queue.Queue()
def audio_callback(indata, frames, duration, status):
while self._get_recording_state() == RecordingState.PAUSED:
self.recording_paused_changed.wait()
if status:
self.logger.warning('Recording callback status: %s', status)
q.put(
{
'timestamp': time.time(),
'frames': frames,
'time': duration,
'data': indata.copy(),
}
)
try:
with sf.SoundFile(
outfile,
mode='w',
samplerate=sample_rate,
format=format,
channels=channels,
subtype=subtype,
) as f:
with sd.InputStream(
samplerate=sample_rate,
device=device,
channels=channels,
callback=audio_callback,
latency=latency,
blocksize=blocksize,
):
self.start_recording()
get_bus().post(SoundRecordingStartedEvent(filename=outfile))
self.logger.info(
'Started recording from device [%s] to [%s]',
device,
outfile,
)
recording_started_time = time.time()
while (
self._get_recording_state() != RecordingState.STOPPED
and (
duration is None
or time.time() - recording_started_time < duration
)
):
while self._get_recording_state() == RecordingState.PAUSED:
self.recording_paused_changed.wait()
get_args = (
{
'block': True,
'timeout': max(
0,
duration
- (time.time() - recording_started_time),
),
}
if duration is not None
else {}
)
data = q.get(**get_args)
if data and time.time() - data.get('timestamp') <= 1.0:
# Only write the block if the latency is still acceptable
f.write(data['data'])
f.flush()
except queue.Empty:
self.logger.warning('Recording timeout: audio callback failed?')
finally:
self.stop_recording()
get_bus().post(SoundRecordingStoppedEvent(filename=outfile))
Thread(
target=recording_thread,
args=(
outfile,
duration,
device,
sample_rate,
format,
blocksize,
latency,
channels,
subtype,
),
).start()
@action @action
def recordplay( def recordplay(
self, self,