def ReadWavFile(filename):
''' Read wav data from the file at filename. '''
return M.wavread(filename)
import os
import numpy as np
import marlib.matlab as M
import mirlib.feature_extraction.eventDetect as ed
import mirlib.FFTParams as fftparams
from matplotlib.pylab import *
#inputfile = '../audio_files/GV02_A_Format4min.wav'
inputfile = '../audio_files/wburgShort.wav'
if not os.path.exists(inputfile):
raise Exception("FILE DOES NOT EXIST, TRY AGAIN")
[x, fs] = M.wavread(inputfile)
# FFT Parameters
N = 2048
hopDenom = 2
zp = 0
winfunc=np.hamming
fftParams = fftparams.FFTParams(fs, N, hopDenom, zp, winfunc)
#peaks = z.envelopeFollowEnergy(winLen,hopSize) # the old way
z = ed.onsetDetect(fftParams)
events = z.findEventLocations(x)
xConcat = x[(events)]
def ReadWavFile(filename):
''' Read wav data from the file at filename. '''
return M.wavread(filename)
from numpy import *
from matplotlib.pyplot import *
import marlib.matlab as M
import scipy as sp
import math
import mirlib.FFTParams as fftparams
import mirlib.feature_extraction.calcLoudness as cl
[x,fs] = M.wavread('../audio_files/WB_12-15_342pm10mins.wav')
winLen = 4096*8
hopSize = winLen
# FFT Parameters
N = 4096*8
hopDenom = 1.
hopSize = N/float(hopDenom)
zp = 0
winfunc=np.hamming
fftParams = fftparams.FFTParams(fs, N, hopDenom, zp, winfunc)
#[x,fs] = M.wavread('RZABR40.wav')
#[x,fs] = M.wavread('RZABR40pad.wav')
z = cl.SoneCalculator(x, fftParams)
sonVec = z.calcSoneLoudness()
close()
import os
import numpy as np
import marlib.matlab as M
import mirlib.feature_extraction.eventDetect as ed
import mirlib.FFTParams as fftparams
from matplotlib.pylab import *
#inputfile = '../audio_files/GV02_A_Format4min.wav'
inputfile = '../audio_files/wburgShort.wav'
if not os.path.exists(inputfile):
raise Exception("FILE DOES NOT EXIST, TRY AGAIN")
[x, fs] = M.wavread(inputfile)
# FFT Parameters
N = 2048
hopDenom = 2
zp = 0
winfunc = np.hamming
fftParams = fftparams.FFTParams(fs, N, hopDenom, zp, winfunc)
#peaks = z.envelopeFollowEnergy(winLen,hopSize) # the old way
z = ed.onsetDetect(fftParams)
events = z.findEventLocations(x)
xConcat = x[(events)]
M.wavwrite(xConcat, "segs.wav", fs)
from numpy import *
from matplotlib.pyplot import *
import marlib.matlab as M
import scipy as sp
import math
import mirlib.FFTParams as fftparams
import mirlib.feature_extraction.calcLoudness as cl
[x, fs] = M.wavread('../audio_files/WB_12-15_342pm10mins.wav')
winLen = 4096 * 8
hopSize = winLen
# FFT Parameters
N = 4096 * 8
hopDenom = 1.
hopSize = N / float(hopDenom)
zp = 0
winfunc = np.hamming
fftParams = fftparams.FFTParams(fs, N, hopDenom, zp, winfunc)
#[x,fs] = M.wavread('RZABR40.wav')
#[x,fs] = M.wavread('RZABR40pad.wav')
z = cl.SoneCalculator(x, fftParams)
sonVec = z.calcSoneLoudness()
close()
fig = figure()
ax1 = fig.add_subplot(111)
signalTime = arange(z.y.size)
