# Change the volume of a wav file in python

I have a 2 seconds 16bit single channel 8khz wav file and I need to change its volume.

It should be quite straightforward, because changing the volume is the same as changing the amplitude of the signal, and I just need to attenuate it, that is to multiply it for a number between 0 and 1. But it doesn't work: the new sound is lower but VERY full of noise. What am I doing wrong?

Here is my code:

``````import wave, numpy, struct

# Open
w = wave.open("input.wav","rb")
p = w.getparams()
f = p[3] # number of frames
w.close()

# Edit
s = numpy.fromstring(s, numpy.int16) * 5 / 10  # half amplitude
s = struct.pack('h'*len(s), *s)

# Save
w = wave.open("output.wav","wb")
w.setparams(p)
w.writeframes(s)
w.close()
``````

Thank you guys!

• Why are you using `* 5 / 10` instead of `/ 2`? Commented Nov 11, 2012 at 8:27
• If I had to guess, I'd say that the `* 5` part is clipping and overflowing. Commented Nov 11, 2012 at 8:28
• Are you reading the file in the correct endianness? WAV files are little-endian. Using the other endian will halve the sample and add a LOT of noise. Commented Nov 11, 2012 at 8:33
• Oh my...!! Sorry for posting that... The response was too easy. By doing this: s = numpy.fromstring(s, numpy.int16) * 5 / 10 # half amplitude The signal is saturated, because I multiplied the integers before dividing them. A solution: s = numpy.fromstring(s, numpy.int16) / 10 * 5 # half amplitude Be careful, this does NOT work as the division results zero: s = numpy.fromstring(s, numpy.int16) * (5 / 10) # half amplitude I keep it here in case it helps someone else. Commented Nov 11, 2012 at 8:33
• Jan, because they are supposed to be vars: 5 is desired volume and 10 is original volume. Commented Nov 11, 2012 at 8:34

You can do that like so:

``````from pydub import AudioSegment

song = AudioSegment.from_wav("never_gonna_give_you_up.wav")

# reduce volume by 10 dB
song_10_db_quieter = song - 10

# but let's make him *very* quiet
song = song - 36

# save the output
song.export("quieter.wav", "wav")
``````
• Could you attenuate Mr. Astley by 36dB instead?
– msw
Commented Dec 5, 2012 at 22:59
• @msw sure that would be `song = song - 36` Commented Dec 5, 2012 at 23:10

As you can see in the comments of the question, there are several solutions, some more efficient.

The problem was immediately detected by Jan Dvorak ("the * 5 part is clipping and overflowing") and the straightforward solution was:

``````s = numpy.fromstring(s, numpy.int16) / 10 * 5
``````

In this case, this solution was perfect for me, just good enough.

Thank you all folks!

This can be done with the `audioop` module in Python's standard library. This way, no dependencies like `pydub` or `numpy` are needed.

``````import wave, audioop

factor = 0.5

with wave.open('input.wav', 'rb') as wav:
p = wav.getparams()
with wave.open('output.wav', 'wb') as audio:
audio.setparams(p)
audio.writeframesraw( audioop.mul(frames, p.sampwidth, factor))
``````
• This is basically what pydub does under the hood Commented Feb 11, 2021 at 10:45

The code which makes sound louder plus filter low and high frequencies

``````from pydub import AudioSegment

audio_file = "first.mp3"

song = AudioSegment.from_mp3(audio_file)

new = song.low_pass_filter(1000)

new1 = new.high_pass_filter(1000)

# increae volume by 6 dB
song_6_db_quieter = new1 + 6

# save the output
song_6_db_quieter.export("C://Users//User//Desktop//second.mp3", "mp3")
``````

Simple amplification can also be done easily with `librosa`:

``````import librosa
import soundfile as sf