I'm read a buffer of bytes from data recorded through my computer's microphone (2 channels) using
pyaudio example taken from site.
import pyaudio import wave CHUNK = 1024 FORMAT = pyaudio.paInt16 CHANNELS = 2 RATE = 44100 RECORD_SECONDS = 5 WAVE_OUTPUT_FILENAME = "output.wav" p = pyaudio.PyAudio() stream = p.open(format=FORMAT, channels=CHANNELS, rate=RATE, input=True, frames_per_buffer=CHUNK) print("* recording") frames =  for i in range(0, int(RATE / CHUNK * RECORD_SECONDS)): data = stream.read(CHUNK) frames.append(data) print("* done recording") print frames
frames looks like this:
['\x00\xfd\xff\xff.....\xfc\xff\xff', '\xff\xfc\xff\xff......\xfc\xff\xff', ... ]
or if I change
CHUNK = 1:
['\x00\xfd\xff\xff', '\xff\xfc\xff\xff', '\x00\xfd\xcc\xcf']
though of course much longer. I suspect that the bytes are interleaved for each channel so I think I need to break them out in pairs of two.
What I'd like is an array like this:
np.array([ [123, 43], [3, 433], [43, 66] ])
where the first column is the values from the first channel, and the second from the second channel. how do I go about interpreting these encoded values (with
CHUNK set to a reasonable value like 1024)?
I'm quite confused. I used the below to change the
format list of strings into a single string of space-separated hex values, but there appears to be an odd number of them...which wouldn't happen if there are two values, one for each channel (would be even number):
fms = ''.join(frames) fms_string = ''.join( [ "%02X " % ord( x ) for x in fms ] ).strip() fms_list = fms_string.split(" ") print len(fms_list) # this prints an ODD number...
I tried a simpler route and tried this:
import array fstring = ''.join(frames) wave_nums = array.array('h', fstring) # this correctly returns list of ints! print len(wave_nums)
I tried this for different recording times and got the following (confusing results):
RECORD_SECONDS = 2 ---> len(wave_nums) is 132300 (132300 / 44100 = 3 seconds of frames) RECORD_SECONDS = 4 ---> len(wave_nums) is 308700 (308700 / 44100 = 7 seconds of frames) RECORD_SECONDS = 5 ---> len(wave_nums) is 396900 (396900 / 44100 = 9 seconds of frames)
which implies that I'm getting a number of frames consistent with
2*(number of seconds recording) - 1 seconds...how is this possible?