imsurinder90/stt3.py

## stt3.py
from pocketsphinx.pocketsphinx import *
from sphinxbase.sphinxbase import *

import os
import pyaudio
import wave
import audioop
from collections import deque
import time
import math
from pocketsphinx import LiveSpeech, get_model_path


"""
Written by Sophie Li, 2016
http://blog.justsophie.com/python-speech-to-text-with-pocketsphinx/
"""

class SpeechDetector:
    def __init__(self):
        # Microphone stream config.
        self.CHUNK = 1024  # CHUNKS of bytes to read each time from mic
        self.FORMAT = pyaudio.paInt16
        self.CHANNELS = 1
        self.RATE = 16000

        self.SILENCE_LIMIT = 1  # Silence limit in seconds. The max ammount of seconds where
                           # only silence is recorded. When this time passes the
                           # recording finishes and the file is decoded

        self.PREV_AUDIO = 0.5  # Previous audio (in seconds) to prepend. When noise
                          # is detected, how much of previously recorded audio is
                          # prepended. This helps to prevent chopping the beginning
                          # of the phrase.

        self.THRESHOLD = 4500
        self.num_phrases = -1

        # These will need to be modified according to where the pocketsphinx folder is
        MODELDIR = get_model_path()  # pocketsphinx/model"
        DATADIR = os.path.join(MODELDIR, "../test/data")  # "pocketsphinx/test/data"

        # Create a decoder with certain model
        config = Decoder.default_config()
        config.set_string('-hmm', os.path.join(MODELDIR, 'en-us'))
        config.set_string('-lm', os.path.join(MODELDIR, 'en-us.lm.bin'))
        config.set_string('-dict', os.path.join(MODELDIR, 'cmudict-en-us.dict'))

        # Creaders decoder object for streaming data.
        self.decoder = Decoder(config)

    def setup_mic(self, num_samples=50):
        """ Gets average audio intensity of your mic sound. You can use it to get
            average intensities while you're talking and/or silent. The average
            is the avg of the .2 of the largest intensities recorded.
        """
        print("Getting intensity values from mic.")
        p = pyaudio.PyAudio()
        stream = p.open(format=self.FORMAT,
                        channels=self.CHANNELS,
                        rate=self.RATE,
                        input=True,
                        frames_per_buffer=self.CHUNK)

        values = [math.sqrt(abs(audioop.avg(stream.read(self.CHUNK), 4)))
                  for x in range(num_samples)]
        values = sorted(values, reverse=True)
        r = sum(values[:int(num_samples * 0.2)]) / int(num_samples * 0.2)
        print(" Finished ")
        print(" Average audio intensity is ", r)
        stream.close()
        p.terminate()

        if r < 3000:
            self.THRESHOLD = 3500
        else:
            self.THRESHOLD = r + 100

    def save_speech(self, data, p):
        """
        Saves mic data to temporary WAV file. Returns filename of saved
        file
        """
        filename = 'output_'+str(int(time.time()))
        # writes data to WAV file
        data = b''.join(data)
        # data = "".join(str(data))
        wf = wave.open(filename + '.wav', 'wb')
        wf.setnchannels(1)
        wf.setsampwidth(p.get_sample_size(pyaudio.paInt16))
        wf.setframerate(16000)  # TODO make this value a function parameter?
        wf.writeframes(data)
        wf.close()
        return filename + '.wav'

    def decode_phrase(self, wav_file):
        self.decoder.start_utt()
        stream = open(wav_file, "rb")
        while True:
          buf = stream.read(1024)
          if buf:
            self.decoder.process_raw(buf, False, False)
          else:
            break
        self.decoder.end_utt()
        words = []
        [words.append(seg.word) for seg in self.decoder.seg()]
        return words

    def run(self):
        """
        Listens to Microphone, extracts phrases from it and calls pocketsphinx
        to decode the sound
        """
        self.setup_mic()

        #Open stream
        p = pyaudio.PyAudio()
        stream = p.open(format=self.FORMAT,
                        channels=self.CHANNELS,
                        rate=self.RATE,
                        input=True,
                        frames_per_buffer=self.CHUNK)
        print("* Mic set up and listening. ")

        audio2send = []
        cur_data = ''  # current chunk of audio data
        rel = self.RATE/self.CHUNK
        slid_win = deque(maxlen=int(self.SILENCE_LIMIT * rel))
        # Prepend audio from 0.5 seconds before noise was detected
        prev_audio = deque(maxlen=int(self.PREV_AUDIO * rel))
        started = False

        while True:
            cur_data = stream.read(self.CHUNK)
            slid_win.append(math.sqrt(abs(audioop.avg(cur_data, 4))))

            if sum([x > self.THRESHOLD for x in slid_win]) > 0:
                if started is False:
                    print("Starting recording of phrase")
                    started = True
                audio2send.append(cur_data)

            elif started:
                print("Finished recording, decoding phrase")
                filename = self.save_speech(list(prev_audio) + audio2send, p)
                r = self.decode_phrase(filename)
                print("DETECTED: ", r)

                # Removes temp audio file
                os.remove(filename)
                # Reset all
                started = False
                slid_win = deque(maxlen=int(self.SILENCE_LIMIT * rel))
                prev_audio = deque(maxlen=int(0.5 * rel))
                audio2send = []
                print("Listening ...")

            else:
                prev_audio.append(cur_data)

        print("* Done listening")
        stream.close()
        p.terminate()

if __name__ == "__main__":
    sd = SpeechDetector()
    sd.run()
	from pocketsphinx.pocketsphinx import *
	from sphinxbase.sphinxbase import *

	import os
	import pyaudio
	import wave
	import audioop
	from collections import deque
	import time
	import math
	from pocketsphinx import LiveSpeech, get_model_path


	"""
	Written by Sophie Li, 2016
	http://blog.justsophie.com/python-speech-to-text-with-pocketsphinx/
	"""

	class SpeechDetector:
	def __init__(self):
	# Microphone stream config.
	self.CHUNK = 1024 # CHUNKS of bytes to read each time from mic
	self.FORMAT = pyaudio.paInt16
	self.CHANNELS = 1
	self.RATE = 16000

	self.SILENCE_LIMIT = 1 # Silence limit in seconds. The max ammount of seconds where
	# only silence is recorded. When this time passes the
	# recording finishes and the file is decoded

	self.PREV_AUDIO = 0.5 # Previous audio (in seconds) to prepend. When noise
	# is detected, how much of previously recorded audio is
	# prepended. This helps to prevent chopping the beginning
	# of the phrase.

	self.THRESHOLD = 4500
	self.num_phrases = -1

	# These will need to be modified according to where the pocketsphinx folder is
	MODELDIR = get_model_path() # pocketsphinx/model"
	DATADIR = os.path.join(MODELDIR, "../test/data") # "pocketsphinx/test/data"

	# Create a decoder with certain model
	config = Decoder.default_config()
	config.set_string('-hmm', os.path.join(MODELDIR, 'en-us'))
	config.set_string('-lm', os.path.join(MODELDIR, 'en-us.lm.bin'))
	config.set_string('-dict', os.path.join(MODELDIR, 'cmudict-en-us.dict'))

	# Creaders decoder object for streaming data.
	self.decoder = Decoder(config)

	def setup_mic(self, num_samples=50):
	""" Gets average audio intensity of your mic sound. You can use it to get
	average intensities while you're talking and/or silent. The average
	is the avg of the .2 of the largest intensities recorded.
	"""
	print("Getting intensity values from mic.")
	p = pyaudio.PyAudio()
	stream = p.open(format=self.FORMAT,
	channels=self.CHANNELS,
	rate=self.RATE,
	input=True,
	frames_per_buffer=self.CHUNK)

	values = [math.sqrt(abs(audioop.avg(stream.read(self.CHUNK), 4)))
	for x in range(num_samples)]
	values = sorted(values, reverse=True)
	r = sum(values[:int(num_samples * 0.2)]) / int(num_samples * 0.2)
	print(" Finished ")
	print(" Average audio intensity is ", r)
	stream.close()
	p.terminate()

	if r < 3000:
	self.THRESHOLD = 3500
	else:
	self.THRESHOLD = r + 100

	def save_speech(self, data, p):
	"""
	Saves mic data to temporary WAV file. Returns filename of saved
	file
	"""
	filename = 'output_'+str(int(time.time()))
	# writes data to WAV file
	data = b''.join(data)
	# data = "".join(str(data))
	wf = wave.open(filename + '.wav', 'wb')
	wf.setnchannels(1)
	wf.setsampwidth(p.get_sample_size(pyaudio.paInt16))
	wf.setframerate(16000) # TODO make this value a function parameter?
	wf.writeframes(data)
	wf.close()
	return filename + '.wav'

	def decode_phrase(self, wav_file):
	self.decoder.start_utt()
	stream = open(wav_file, "rb")
	while True:
	buf = stream.read(1024)
	if buf:
	self.decoder.process_raw(buf, False, False)
	else:
	break
	self.decoder.end_utt()
	words = []
	[words.append(seg.word) for seg in self.decoder.seg()]
	return words

	def run(self):
	"""
	Listens to Microphone, extracts phrases from it and calls pocketsphinx
	to decode the sound
	"""
	self.setup_mic()

	#Open stream
	p = pyaudio.PyAudio()
	stream = p.open(format=self.FORMAT,
	channels=self.CHANNELS,
	rate=self.RATE,
	input=True,
	frames_per_buffer=self.CHUNK)
	print("* Mic set up and listening. ")

	audio2send = []
	cur_data = '' # current chunk of audio data
	rel = self.RATE/self.CHUNK
	slid_win = deque(maxlen=int(self.SILENCE_LIMIT * rel))
	# Prepend audio from 0.5 seconds before noise was detected
	prev_audio = deque(maxlen=int(self.PREV_AUDIO * rel))
	started = False

	while True:
	cur_data = stream.read(self.CHUNK)
	slid_win.append(math.sqrt(abs(audioop.avg(cur_data, 4))))

	if sum([x > self.THRESHOLD for x in slid_win]) > 0:
	if started is False:
	print("Starting recording of phrase")
	started = True
	audio2send.append(cur_data)

	elif started:
	print("Finished recording, decoding phrase")
	filename = self.save_speech(list(prev_audio) + audio2send, p)
	r = self.decode_phrase(filename)
	print("DETECTED: ", r)

	# Removes temp audio file
	os.remove(filename)
	# Reset all
	started = False
	slid_win = deque(maxlen=int(self.SILENCE_LIMIT * rel))
	prev_audio = deque(maxlen=int(0.5 * rel))
	audio2send = []
	print("Listening ...")

	else:
	prev_audio.append(cur_data)

	print("* Done listening")
	stream.close()
	p.terminate()

	if __name__ == "__main__":
	sd = SpeechDetector()
	sd.run()