estoy generando un proyecto en python un visualizador de audio, sin embago me encuentro con un error al momento de correr el programa.
Este es el error:
Este es el codigo:
import wave
import struct
import sys
import numpy as np
from math import sqrt
import matplotlib
matplotlib.use('Agg')
from matplotlib import pylab
import matplotlib.pyplot as plt
filename = sys.argv[1]
if __name__ == '__main__':
# Open the wave file and get info
wave_file = wave.open(filename, 'r')
data_size = wave_file.getnframes()
sample_rate = wave_file.getframerate()
sample_width = wave_file.getsampwidth()
duration = data_size / float(sample_rate)
# Read in sample data
sound_data = wave_file.readframes(data_size)
# Close the file, as we don't need it any more
wave_file.close()
# Unpack the binary data into an array
unpack_fmt = '%dh' % (data_size)
sound_data = struct.unpack(unpack_fmt, sound_data)
# Process many samples
fouriers_per_second = 24 # Frames per second
fourier_spread = 1.0/fouriers_per_second
fourier_width = fourier_spread
fourier_width_index = fourier_width * float(sample_rate)
if len(sys.argv) < 3:
length_to_process = int(duration)-1
else:
length_to_process = float(sys.argv[2])
total_transforms = int(round(length_to_process * fouriers_per_second))
fourier_spacing = round(fourier_spread * float(sample_rate))
print ("For Fourier width of "+str(fourier_width)+" need "+str(fourier_width_index)+" samples each FFT")
print ("Doing "+str(fouriers_per_second)+" Fouriers per second")
print ("Total " + str(total_transforms * fourier_spread))
print ("Spacing: "+str(fourier_spacing))
print ("Total transforms "+str(total_transforms))
lastpoint=int(round(length_to_process*float(sample_rate)+fourier_width_index))-1
sample_size = fourier_width_index
freq = sample_rate / sample_size * np.arange(sample_size)
x_axis = range(0, 12)
def getBandWidth():
return (2.0/sample_size) * (sample_rate / 2.0)
def freqToIndex(f):
# If f (frequency is lower than the bandwidth of spectrum[0]
if f < getBandWidth()/2:
return 0
if f > (sample_rate / 2) - (getBandWidth() / 2):
return sample_size -1
fraction = float(f) / float(sample_rate)
index = round(sample_size * fraction)
return index
fft_averages = []
def average_fft_bands(fft_array):
num_bands = 12 # The number of frequency bands (12 = 1 octave)
del fft_averages[:]
for band in range(0, num_bands):
avg = 0.0
if band == 0:
lowFreq = int(0)
else:
lowFreq = int(int(sample_rate / 2) / float(2 ** (num_bands - band)))
hiFreq = int((sample_rate / 2) / float(2 ** ((num_bands-1) - band)))
lowBound = int(freqToIndex(lowFreq))
hiBound = int(freqToIndex(hiFreq))
for j in range(lowBound, hiBound):
avg += fft_array[j]
avg /= (hiBound - lowBound + 1)
fft_averages.append(avg)
for offset in range(0, total_transforms):
start = int(offset * sample_size)
end = int((offset * sample_size) + sample_size -1)
print ("Processing sample %i of %i (%d seconds)" % (offset + 1, total_transforms, end/float(sample_rate)))
sample_range = sound_data[start:end]
## FFT the data
fft_data = abs(np.fft.fft(sample_range))
# Normalise the data a second time, to make numbers sensible
fft_data *= ((2**.5)/sample_size)
plt.ylim(0, 1000)
average_fft_bands(fft_data)
y_axis = fft_averages
"""Stuff for bar graph"""
width = 0.35
p1 = plt.bar(x_axis, y_axis, width, color='r')
"""End bar graph stuff"""
filename = str('frame_%05d' % offset) + '.png'
plt.savefig(filename, dpi=100)
plt.close()
print ("DONE!")
python Bar.py ruta_del_archivo.wav? Porque por eso existe la líneafilename = sys.argv[1], para tomar el argumento de la ruta del fichero a reproducir. Si no piensas llamar a tu script así esta línea sobra o a de hacerse condicional en función de como se llame al script.