Detect & Record Audio in Python

Question

I need to capture audio clips as WAV files that I can then pass to another bit of python for processing. The problem is that I need to determine when there is audio present and then record it, stop when it goes silent and then pass that file to the processing module.

I'm thinking it should be possible with the wave module to detect when there is pure silence and discard it then as soon as something other than silence is detected start recording, then when the line goes silent again stop the recording.

Just can't quite get my head around it, can anyone get me started with a basic example.

Answer 1

I believe the WAVE module does not support recording, just processing existing files. You might want to look at PyAudio for actually recording. WAV is about the world's simplest file format. In paInt16 you just get a signed integer representing a level, and closer to 0 is quieter. I can't remember if WAV files are high byte first or low byte, but something like this ought to work (sorry, I'm not really a python programmer:

from array import array

# you'll probably want to experiment on threshold
# depends how noisy the signal
threshold = 10 
maxValue = 0

asInts = array('h', data)
for i in range(len(asInts)):
   maxValue = max(maxValue, value)
if value > threshold:
    # not silence

PyAudio code for recording kept for reference:

import pyaudio
import sys

chunk = 1024
FORMAT = pyaudio.paInt16
CHANNELS = 1
RATE = 44100
RECORD_SECONDS = 5

p = pyaudio.PyAudio()

stream = p.open(format = FORMAT,
                channels = CHANNELS, 
                rate = RATE, 
                input = True,
                output = True,
                frames_per_buffer = chunk)

print "* recording"
for i in range(0, 44100 / chunk * RECORD_SECONDS):
    data = stream.read(chunk)
    # check for silence here by comparing the level with 0 (or some threshold) for 
    # the contents of data.
    # then write data or not to a file

print "* done"

stream.stop_stream()
stream.close()
p.terminate()

Answer 2

As a follow up to Nick Fortescue's answer, here's a more complete example of how to record from the microphone and process the resulting data:

from os.path import exists
from array import array
from struct import unpack, pack

import pyaudio
import wave

THRESHOLD = 500
CHUNK_SIZE = 1024
FORMAT = pyaudio.paInt16
RATE = 44100

def is_silent(L):
    "Returns `True` if below the 'silent' threshold"
    return max(L) < THRESHOLD

def normalize(L):
    "Average the volume out"
    MAXIMUM = 16384
    times = float(MAXIMUM)/max(abs(i) for i in L)

    LRtn = array('h')
    for i in L:
        LRtn.append(int(i*times))
    return LRtn

def trim(L):
    "Trim the blank spots at the start and end"
    def _trim(L):
        snd_started = False
        LRtn = array('h')

        for i in L:
            if not snd_started and abs(i)>THRESHOLD:
                snd_started = True
                LRtn.append(i)

            elif snd_started:
                LRtn.append(i)
        return LRtn

    # Trim to the left
    L = _trim(L)

    # Trim to the right
    L.reverse()
    L = _trim(L)
    L.reverse()
    return L

def add_silence(L, seconds):
    "Add silence to the start and end of `L` of length `seconds` (float)"
    LRtn = array('h', [0 for i in xrange(int(seconds*RATE))])
    LRtn.extend(L)
    LRtn.extend([0 for i in xrange(int(seconds*RATE))])
    return LRtn

def record():
    """
    Record a word or words from the microphone and 
    return the data as an array of signed shorts.

    Normalizes the audio, trims silence from the 
    start and end, and pads with 0.5 seconds of 
    blank sound to make sure VLC et al can play 
    it without getting chopped off.
    """
    p = pyaudio.PyAudio()
    stream = p.open(format=FORMAT, channels=1, rate=RATE, 
                    input=True, output=True,
                    frames_per_buffer=CHUNK_SIZE)

    num_silent = 0
    snd_started = False

    LRtn = array('h')

    while 1:
        data = stream.read(CHUNK_SIZE)
        L = unpack('<' + ('h'*(len(data)/2)), data) # little endian, signed short
        L = array('h', L)
        LRtn.extend(L)

        silent = is_silent(L)
        #print silent, num_silent, L[:10]

        if silent and snd_started:
            num_silent += 1
        elif not silent and not snd_started:
            snd_started = True

        if snd_started and num_silent > 30:
            break

    sample_width = p.get_sample_size(FORMAT)
    stream.stop_stream()
    stream.close()
    p.terminate()

    LRtn = normalize(LRtn)
    LRtn = trim(LRtn)
    LRtn = add_silence(LRtn, 0.5)
    return sample_width, LRtn

def record_to_file(path):
    "Records from the microphone and outputs the resulting data to `path`"
    sample_width, data = record()
    data = pack('<' + ('h'*len(data)), *data)

    wf = wave.open(path, 'wb')
    wf.setnchannels(1)
    wf.setsampwidth(sample_width)
    wf.setframerate(RATE)
    wf.writeframes(data)
    wf.close()

if __name__ == '__main__':
    print("please speak a word into the microphone")
    record_to_file('demo.wav')
    print("done - result written to demo.wav")

Answer 3

You might want to look at csounds, also. It has several API's, including Python. It might be able to interact with an A-D interface and gather sound samples.

Answer 4

from array import array  

# you'll probably want to experiment on threshold  
# depends how noisy the signal  
threshold = 10   
maxValue = 0  

asInts = array('h', data)  
for i in range(len(asInts)):  
   maxValue = max(maxValue, value)  
if value > threshold:  
    # not silence  

Where is the value of 'value'?