I did a similar thing recently and used the
ds = audiere.open_device()
os = ds.open_array(input, fs)
This will open the first available audio device, since you're on windows it's probably DirectSound.
input is just a numpy array,
fs is the sampling frequency (since the input is a raw array you'll need to specify that).
os.play() is a non-blocking call so you can print your txt or whatever you need to do at the same time, there are other methods to pause/stop etc. To play other file types I simply converted them to wav first.
Here's how I unpacked the wav file
input: wave filename as string
output: left, right, params
unpacks a wave file and return left and right channels as arrays
(in case of a mono file, left and right channels will be copies)
params returns a tuple containing:
-number of audio channels (1 for mono, 2 for stereo)
-sample width in bytes
-sampling frequency in Hz
-number of audio frames
import sndhdr, os, wave, struct
from scipy import array
assert os.path.isfile(fname), "file location must be valid"
assert sndhdr.what(fname) == 'wav', "file must have valid header"
wav = wave.open(fname)
params = (nchannels,sampwidth,rate,nframes,comp,compname) = wav.getparams()
frames = wav.readframes(nframes*nchannels)
out = struct.unpack_from ("%dh" % nframes*nchannels, frames)
if nchannels == 2:
left = array(out[0::2])
right = array(out[1::2])
elif nchannels == 1:
right = left = array(out)
assert 0, "number of channels must be 1 or 2"
return left, right, params
So for example to make
fs you could go:
from scipy import c_
left, right, params = wave_unpack(fn)
fs = params
left_float = left.astype('f')/2**15
right_float = right.astype('f')/2**15
stereo = c_[left_float, right_float]
input = mono = stereo.mean(1)
This suited me but my requirements were for FFT input, not karaoke :)
audiere has stereo playback just by giving a 2-dim array.