Интеграция с Python SpeechRecognition Snowboy, похоже, нарушена
Я работаю над созданием личного помощника на Python. Похоже, что библиотека Python SpeechRecognition имеет встроенное распознавание Snowboy, но похоже, что она не работает. Вот мой код. (Обратите внимание, что проблема в том, что функция listen() никогда не возвращается).
import speech_recognition as sr
from SnowboyDependencies import snowboydecoder
def get_text():
with sr.Microphone(sample_rate = 48000) as source:
audio = r.listen(source, snowboy_configuration=("SnowboyDependencies", {hotword_path})) #PROBLEM HERE
try:
text = r.recognize_google(audio).lower()
except:
text = none
print("err")
return text
Я покопался в SpeechRecognition и обнаружил, где существует проблема, но я не уверен, как ее исправить, потому что я не очень знаком с тонкостями библиотеки. Проблема в том, что sr.listen никогда не возвращается. Похоже, что обнаружение горячих слов Snowboy работает на 100%, потому что программа проходит дальше этого момента, когда я говорю свое горячее слово. Вот исходный код. Я добавил свои собственные комментарии, чтобы попытаться подробнее описать проблему. Я добавил три комментария, и все они заключены в многострочную рамку #.
def listen(self, source, timeout=None, phrase_time_limit=None, snowboy_configuration=None):
"""
Records a single phrase from ``source`` (an ``AudioSource`` instance) into an ``AudioData`` instance, which it returns.
This is done by waiting until the audio has an energy above ``recognizer_instance.energy_threshold`` (the user has started speaking), and then recording until it encounters ``recognizer_instance.pause_threshold`` seconds of non-speaking or there is no more audio input. The ending silence is not included.
The ``timeout`` parameter is the maximum number of seconds that this will wait for a phrase to start before giving up and throwing an ``speech_recognition.WaitTimeoutError`` exception. If ``timeout`` is ``None``, there will be no wait timeout.
The ``phrase_time_limit`` parameter is the maximum number of seconds that this will allow a phrase to continue before stopping and returning the part of the phrase processed before the time limit was reached. The resulting audio will be the phrase cut off at the time limit. If ``phrase_timeout`` is ``None``, there will be no phrase time limit.
The ``snowboy_configuration`` parameter allows integration with `Snowboy <https://snowboy.kitt.ai/>`__, an offline, high-accuracy, power-efficient hotword recognition engine. When used, this function will pause until Snowboy detects a hotword, after which it will unpause. This parameter should either be ``None`` to turn off Snowboy support, or a tuple of the form ``(SNOWBOY_LOCATION, LIST_OF_HOT_WORD_FILES)``, where ``SNOWBOY_LOCATION`` is the path to the Snowboy root directory, and ``LIST_OF_HOT_WORD_FILES`` is a list of paths to Snowboy hotword configuration files (`*.pmdl` or `*.umdl` format).
This operation will always complete within ``timeout + phrase_timeout`` seconds if both are numbers, either by returning the audio data, or by raising a ``speech_recognition.WaitTimeoutError`` exception.
"""
assert isinstance(source, AudioSource), "Source must be an audio source"
assert source.stream is not None, "Audio source must be entered before listening, see documentation for ``AudioSource``; are you using ``source`` outside of a ``with`` statement?"
assert self.pause_threshold >= self.non_speaking_duration >= 0
if snowboy_configuration is not None:
assert os.path.isfile(os.path.join(snowboy_configuration[0], "snowboydetect.py")), "``snowboy_configuration[0]`` must be a Snowboy root directory containing ``snowboydetect.py``"
for hot_word_file in snowboy_configuration[1]:
assert os.path.isfile(hot_word_file), "``snowboy_configuration[1]`` must be a list of Snowboy hot word configuration files"
seconds_per_buffer = float(source.CHUNK) / source.SAMPLE_RATE
pause_buffer_count = int(math.ceil(self.pause_threshold / seconds_per_buffer)) # number of buffers of non-speaking audio during a phrase, before the phrase should be considered complete
phrase_buffer_count = int(math.ceil(self.phrase_threshold / seconds_per_buffer)) # minimum number of buffers of speaking audio before we consider the speaking audio a phrase
non_speaking_buffer_count = int(math.ceil(self.non_speaking_duration / seconds_per_buffer)) # maximum number of buffers of non-speaking audio to retain before and after a phrase
# read audio input for phrases until there is a phrase that is long enough
elapsed_time = 0 # number of seconds of audio read
buffer = b"" # an empty buffer means that the stream has ended and there is no data left to read
##################################################
######THE ISSIE IS THAT THIS LOOP NEVER EXITS#####
##################################################
while True:
frames = collections.deque()
if snowboy_configuration is None:
# store audio input until the phrase starts
while True:
# handle waiting too long for phrase by raising an exception
elapsed_time += seconds_per_buffer
if timeout and elapsed_time > timeout:
raise WaitTimeoutError("listening timed out while waiting for phrase to start")
buffer = source.stream.read(source.CHUNK)
if len(buffer) == 0: break # reached end of the stream
frames.append(buffer)
if len(frames) > non_speaking_buffer_count: # ensure we only keep the needed amount of non-speaking buffers
frames.popleft()
# detect whether speaking has started on audio input
energy = audioop.rms(buffer, source.SAMPLE_WIDTH) # energy of the audio signal
if energy > self.energy_threshold: break
# dynamically adjust the energy threshold using asymmetric weighted average
if self.dynamic_energy_threshold:
damping = self.dynamic_energy_adjustment_damping ** seconds_per_buffer # account for different chunk sizes and rates
target_energy = energy * self.dynamic_energy_ratio
self.energy_threshold = self.energy_threshold * damping + target_energy * (1 - damping)
else:
# read audio input until the hotword is said
#############################################################
########THIS IS WHERE THE HOTWORD DETECTION OCCURRS. HOTWORDS ARE DETECTED. I KNOW THIS BECAUSE THE PROGRAM PROGRESSES PAST THIS PART.
#############################################################
snowboy_location, snowboy_hot_word_files = snowboy_configuration
buffer, delta_time = self.snowboy_wait_for_hot_word(snowboy_location, snowboy_hot_word_files, source, timeout)
elapsed_time += delta_time
if len(buffer) == 0: break # reached end of the stream
frames.append(buffer)
# read audio input until the phrase ends
pause_count, phrase_count = 0, 0
phrase_start_time = elapsed_time
while True:
# handle phrase being too long by cutting off the audio
elapsed_time += seconds_per_buffer
if phrase_time_limit and elapsed_time - phrase_start_time > phrase_time_limit:
break
buffer = source.stream.read(source.CHUNK)
if len(buffer) == 0: break # reached end of the stream
frames.append(buffer)
phrase_count += 1
# check if speaking has stopped for longer than the pause threshold on the audio input
energy = audioop.rms(buffer, source.SAMPLE_WIDTH) # unit energy of the audio signal within the buffer
if energy > self.energy_threshold:
pause_count = 0
else:
pause_count += 1
if pause_count > pause_buffer_count: # end of the phrase
break
# check how long the detected phrase is, and retry listening if the phrase is too short
phrase_count -= pause_count # exclude the buffers for the pause before the phrase
####################################################################3
#######THE FOLLOWING CONDITION IS NEVER MET THEREFORE THE LOOP NEVER EXITS AND THE FUNCTION NEVER RETURNS################
############################################################################
if phrase_count >= phrase_buffer_count or len(buffer) == 0: break # phrase is long enough or we've reached the end of the stream, so stop listening
# obtain frame data
for i in range(pause_count - non_speaking_buffer_count): frames.pop() # remove extra non-speaking frames at the end
frame_data = b"".join(frames)
return AudioData(frame_data, source.SAMPLE_RATE, source.SAMPLE_WIDTH)
Проблема в том, что основной цикл while в listen() никогда не завершается. Я не знаю почему. Обратите внимание, что модуль SpeechRecognition работает безупречно, когда я не интегрирую Snowboy. Также обратите внимание, что Snowboy безупречно работает сам по себе.
Я также предоставляю метод speech_recognition.snowboy_wait_for_hot_word(), поскольку проблема может быть здесь.
def snowboy_wait_for_hot_word(self, snowboy_location, snowboy_hot_word_files, source, timeout=None):
print("made it")
# load snowboy library (NOT THREAD SAFE)
sys.path.append(snowboy_location)
import snowboydetect
sys.path.pop()
detector = snowboydetect.SnowboyDetect(
resource_filename=os.path.join(snowboy_location, "resources", "common.res").encode(),
model_str=",".join(snowboy_hot_word_files).encode()
)
detector.SetAudioGain(1.0)
detector.SetSensitivity(",".join(["0.4"] * len(snowboy_hot_word_files)).encode())
snowboy_sample_rate = detector.SampleRate()
elapsed_time = 0
seconds_per_buffer = float(source.CHUNK) / source.SAMPLE_RATE
resampling_state = None
# buffers capable of holding 5 seconds of original and resampled audio
five_seconds_buffer_count = int(math.ceil(5 / seconds_per_buffer))
frames = collections.deque(maxlen=five_seconds_buffer_count)
resampled_frames = collections.deque(maxlen=five_seconds_buffer_count)
while True:
elapsed_time += seconds_per_buffer
if timeout and elapsed_time > timeout:
raise WaitTimeoutError("listening timed out while waiting for hotword to be said")
buffer = source.stream.read(source.CHUNK)
if len(buffer) == 0: break # reached end of the stream
frames.append(buffer)
# resample audio to the required sample rate
resampled_buffer, resampling_state = audioop.ratecv(buffer, source.SAMPLE_WIDTH, 1, source.SAMPLE_RATE, snowboy_sample_rate, resampling_state)
resampled_frames.append(resampled_buffer)
# run Snowboy on the resampled audio
snowboy_result = detector.RunDetection(b"".join(resampled_frames))
assert snowboy_result != -1, "Error initializing streams or reading audio data"
if snowboy_result > 0: break # wake word found
return b"".join(frames), elapsed_time
Я запускаю python 3.7 на Raspberry pi 3B+ под управлением Raspbian Buster Lite (ядро 4.19.36). Пожалуйста, спросите, могу ли я предоставить дополнительную информацию.