enamoria/specshow.py

## specshow.py
#!/usr/bin/env python
# coding: utf-8
""" This work is licensed under a Creative Commons Attribution 3.0 Unported License.
    Frank Zalkow, 2012-2013 """

# Source: http://www.frank-zalkow.de/en/code-snippets/create-audio-spectrograms-with-python.html?ckattempt=1&i=1

import numpy as np
from matplotlib import pyplot as plt
import scipy.io.wavfile as wav
from numpy.lib import stride_tricks

""" short time fourier transform of audio signal """
def stft(sig, frameSize, overlapFac=0.5, window=np.hanning):
    win = window(frameSize)
    hopSize = int(frameSize - np.floor(overlapFac * frameSize))

    # zeros at beginning (thus center of 1st window should be for sample nr. 0)
    samples = np.append(np.zeros(np.floor(frameSize/2.0)), sig)
    # cols for windowing
    cols = np.ceil( (len(samples) - frameSize) / float(hopSize)) + 1
    # zeros at end (thus samples can be fully covered by frames)
    samples = np.append(samples, np.zeros(frameSize))

    frames = stride_tricks.as_strided(samples, shape=(cols, frameSize), strides=(samples.strides[0]*hopSize, samples.strides[0])).copy()
    frames *= win

    return np.fft.rfft(frames)

""" scale frequency axis logarithmically """
def logscale_spec(spec, sr=44100, factor=20.):
    timebins, freqbins = np.shape(spec)

    scale = np.linspace(0, 1, freqbins) ** factor
    scale *= (freqbins-1)/max(scale)
    scale = np.unique(np.round(scale))

    # create spectrogram with new freq bins
    newspec = np.complex128(np.zeros([timebins, len(scale)]))
    for i in range(0, len(scale)):
        if i == len(scale)-1:
            newspec[:,i] = np.sum(spec[:,scale[i]:], axis=1)
        else:
            newspec[:,i] = np.sum(spec[:,scale[i]:scale[i+1]], axis=1)

    # list center freq of bins
    allfreqs = np.abs(np.fft.fftfreq(freqbins*2, 1./sr)[:freqbins+1])
    freqs = []
    for i in range(0, len(scale)):
        if i == len(scale)-1:
            freqs += [np.mean(allfreqs[scale[i]:])]
        else:
            freqs += [np.mean(allfreqs[scale[i]:scale[i+1]])]

    return newspec, freqs

""" plot spectrogram"""
def plotstft(audiopath, binsize=2**10, plotpath=None, colormap="jet"):
    samplerate, samples = wav.read(audiopath)
    s = stft(samples, binsize)

    sshow, freq = logscale_spec(s, factor=1.0, sr=samplerate)
    ims = 20.*np.log10(np.abs(sshow)/10e-6) # amplitude to decibel

    timebins, freqbins = np.shape(ims)

    plt.figure(figsize=(15, 7.5))
    plt.imshow(np.transpose(ims), origin="lower", aspect="auto", cmap=colormap, interpolation="none")
    plt.colorbar()

    plt.xlabel("time (s)")
    plt.ylabel("frequency (hz)")
    plt.xlim([0, timebins-1])
    plt.ylim([0, freqbins])

    xlocs = np.float32(np.linspace(0, timebins-1, 5))
    plt.xticks(xlocs, ["%.02f" % l for l in ((xlocs*len(samples)/timebins)+(0.5*binsize))/samplerate])
    ylocs = np.int16(np.round(np.linspace(0, freqbins-1, 10)))
    plt.yticks(ylocs, ["%.02f" % freq[i] for i in ylocs])

    if plotpath:
        plt.savefig(plotpath, bbox_inches="tight")
    else:
        plt.show()

    plt.clf()

# plotstft("my_audio_file.wav")s
plotstft("3-dua-tre-tu-5-den-8-tuoi-mang-quan-ao-my-tom-bo-nha-ra-di_silence_47.wav")
	#!/usr/bin/env python
	# coding: utf-8
	""" This work is licensed under a Creative Commons Attribution 3.0 Unported License.
	Frank Zalkow, 2012-2013 """

	# Source: http://www.frank-zalkow.de/en/code-snippets/create-audio-spectrograms-with-python.html?ckattempt=1&i=1

	import numpy as np
	from matplotlib import pyplot as plt
	import scipy.io.wavfile as wav
	from numpy.lib import stride_tricks

	""" short time fourier transform of audio signal """
	def stft(sig, frameSize, overlapFac=0.5, window=np.hanning):
	win = window(frameSize)
	hopSize = int(frameSize - np.floor(overlapFac * frameSize))

	# zeros at beginning (thus center of 1st window should be for sample nr. 0)
	samples = np.append(np.zeros(np.floor(frameSize/2.0)), sig)
	# cols for windowing
	cols = np.ceil( (len(samples) - frameSize) / float(hopSize)) + 1
	# zeros at end (thus samples can be fully covered by frames)
	samples = np.append(samples, np.zeros(frameSize))

	frames = stride_tricks.as_strided(samples, shape=(cols, frameSize), strides=(samples.strides[0]*hopSize, samples.strides[0])).copy()
	frames *= win

	return np.fft.rfft(frames)

	""" scale frequency axis logarithmically """
	def logscale_spec(spec, sr=44100, factor=20.):
	timebins, freqbins = np.shape(spec)

	scale = np.linspace(0, 1, freqbins) ** factor
	scale *= (freqbins-1)/max(scale)
	scale = np.unique(np.round(scale))

	# create spectrogram with new freq bins
	newspec = np.complex128(np.zeros([timebins, len(scale)]))
	for i in range(0, len(scale)):
	if i == len(scale)-1:
	newspec[:,i] = np.sum(spec[:,scale[i]:], axis=1)
	else:
	newspec[:,i] = np.sum(spec[:,scale[i]:scale[i+1]], axis=1)

	# list center freq of bins
	allfreqs = np.abs(np.fft.fftfreq(freqbins*2, 1./sr)[:freqbins+1])
	freqs = []
	for i in range(0, len(scale)):
	if i == len(scale)-1:
	freqs += [np.mean(allfreqs[scale[i]:])]
	else:
	freqs += [np.mean(allfreqs[scale[i]:scale[i+1]])]

	return newspec, freqs

	""" plot spectrogram"""
	def plotstft(audiopath, binsize=2**10, plotpath=None, colormap="jet"):
	samplerate, samples = wav.read(audiopath)
	s = stft(samples, binsize)

	sshow, freq = logscale_spec(s, factor=1.0, sr=samplerate)
	ims = 20.*np.log10(np.abs(sshow)/10e-6) # amplitude to decibel

	timebins, freqbins = np.shape(ims)

	plt.figure(figsize=(15, 7.5))
	plt.imshow(np.transpose(ims), origin="lower", aspect="auto", cmap=colormap, interpolation="none")
	plt.colorbar()

	plt.xlabel("time (s)")
	plt.ylabel("frequency (hz)")
	plt.xlim([0, timebins-1])
	plt.ylim([0, freqbins])

	xlocs = np.float32(np.linspace(0, timebins-1, 5))
	plt.xticks(xlocs, ["%.02f" % l for l in ((xlocslen(samples)/timebins)+(0.5binsize))/samplerate])
	ylocs = np.int16(np.round(np.linspace(0, freqbins-1, 10)))
	plt.yticks(ylocs, ["%.02f" % freq[i] for i in ylocs])

	if plotpath:
	plt.savefig(plotpath, bbox_inches="tight")
	else:
	plt.show()

	plt.clf()

	# plotstft("my_audio_file.wav")s
	plotstft("3-dua-tre-tu-5-den-8-tuoi-mang-quan-ao-my-tom-bo-nha-ra-di_silence_47.wav")