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so I asked everything in the title:

I have a wave file (written by PyAudio from an input audio) and I want to convert it in float data corresponding of the sound level (amplitude) to do some fourier transformation etc...

Anyone have an idea to convert WAVE data to float?

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I have identified two decent ways of doing this.

Method 1: using the wavefile module

Use this method if you don't mind installing some extra libraries which involved a bit of messing around on my Mac but which was easy on my Ubuntu server.


import wavefile

# returns the contents of the wav file as a double precision float array
def wav_to_floats(filename = 'file1.wav'):
    w = wavefile.load(filename)
    return w[1][0]

signal = wav_to_floats(sys.argv[1])
print "read "+str(len(signal))+" frames"
print  "in the range "+str(min(signal))+" to "+str(min(signal))

Method 2: using the wave module

Use this method if you want less module install hassles.

Reads a wav file from the filesystem and converts it into floats in the range -1 to 1. It works with 16 bit files and if they are > 1 channel, will interleave the samples in the same way they are found in the file. For other bit depths, change the 'h' in the argument to struct.unpack according to the table at the bottom of this page:


It will not work for 24 bit files as there is no data type that is 24 bit, so there is no way to tell struct.unpack what to do.

import wave
import struct
import sys

def wav_to_floats(wave_file):
    w = wave.open(wave_file)
    astr = w.readframes(w.getnframes())
    # convert binary chunks to short 
    a = struct.unpack("%ih" % (w.getnframes()* w.getnchannels()), astr)
    a = [float(val) / pow(2, 15) for val in a]
    return a

# read the wav file specified as first command line arg
signal = wav_to_floats(sys.argv[1])
print "read "+str(len(signal))+" frames"
print  "in the range "+str(min(signal))+" to "+str(min(signal))
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Most wave files are in PCM 16-bit integer format.

What you will want to:

  • Parse the header to known which format it is (check the link from Xophmeister)
  • Read the data, take the integer values and convert them to float

Integer values range from -32768 to 32767, and you need to convert to values from -1.0 to 1.0 in floating points.

I don't have the code in python, however in C++, here is a code excerpt if the PCM data is 16-bit integer, and convert it to float (32-bit):

short* pBuffer = (short*)pReadBuffer;

const float ONEOVERSHORTMAX = 3.0517578125e-5f; // 1/32768 
unsigned int uFrameRead = dwRead / m_fmt.Format.nBlockAlign;

for ( unsigned int i = 0; i < uFrameCount * m_fmt.Format.nChannels; ++i )
    short i16In = pBuffer[i];
    out_pBuffer[i] = (float)i16In * ONEOVERSHORTMAX;

Be careful with stereo files, as the stereo PCM data in wave files is interleaved, meaning the data looks like LRLRLRLRLRLRLRLR (instead of LLLLLLLLRRRRRRRR). You may or may not need to de-interleave depending what you do with the data.

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I spent hours trying to find the answer to this. The solution turns out to be really simple: struct.unpack is what you're looking for. The final code will look something like this:

rawdata=stream.read()                  # The raw PCM data in need of conversion
from struct import unpack              # Import unpack -- this is what does the conversion
npts=len(rawdata)                      # Number of data points to be converted
formatstr='%ih' % npts                 # The format to convert the data; use '%iB' for unsigned PCM
int_data=unpack(formatstr,rawdata)     # Convert from raw PCM to integer tuple

Most of the credit goes to Interpreting WAV Data. The only trick is getting the format right for unpack: it has to be the right number of bytes and the right format (signed or unsigned).

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The Microsoft WAVE format is fairly well documented. See https://ccrma.stanford.edu/courses/422/projects/WaveFormat/ for example. It wouldn't take much to write a file parser to open and interpret the data to get the information you require... That said, it's almost certainly been done before, so I'm sure someone will give an "easier" answer ;)

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