I want to represent an audio file in an image with a maximum size of 180×180 pixels.

I want to generate this image so that it somehow gives a representation of the audio file, think of it like SoundCloud's waveform (amplitude graph)?.

Screenshot of Soundcloud's player

I wonder if any of you have something for this. I have been searching around for a bit, mainly "audio visualization" and "audio thumbnailing", but I have not found anything useful.

I first posted this to ux.stackexchange.com, this is my attempt to reach any programmers working on this.

  • Do you want to make a tool to do this or do you want a pre-existing solution? – Koof Feb 8 '12 at 20:32
  • That's not a spectrogram, it's an amplitude graph. Spectrograms of audio are three-d: usually time on the x-axis, frequency on y, and amplitude represented by color. – Josh Caswell Feb 8 '12 at 20:34
  • Thank you Josh Caswell, as you see, I was unsure about the name of this representation of a waveform. – joar Feb 8 '12 at 21:07
  • @Koof - It does not matter, any ideas would be helpful. – joar Feb 8 '12 at 21:49
  • You're welcome. Thought that clarification would probably help your search. – Josh Caswell Feb 8 '12 at 22:34
up vote 2 down vote accepted

Take a look at this blog post about wav2png.py.

You could also break up the audio into a chunks and measure the RMS (a measure of loudness). let's say you want an image that is 180 pixels wide.

I'll use pydub, a light-weight wrapper I wrote around the std lib wave modeule:

from pydub import AudioSegment

# first I'll open the audio file
sound = AudioSegment.from_mp3("some_song.mp3")

# break the sound 180 even chunks (or however
# many pixels wide the image should be)
chunk_length = len(sound) / 180

loudness_of_chunks = []
for i in range(180):
    start = i * chunk_length
    end = chunk_start + chunk_length

    chunk = sound[start:end]

the for loop can be represented as the following list comprehension, I just wanted it to be clear:

loudness_of_chunks = [
    sound[ i*chunk_length : (i+1)*chunk_length ].rms
    for i in range(180)]

Now the only think left to do is scale the RMS down to a 0 - 180 scale (since you want the image to be 180px tall)

max_rms = max(loudness_of_chunks)

scaled_loudness = [ (loudness / max_rms) * 180 for loudness in loudness_of_chunks]

I'll leave the drawing of the actual pixels to you, I'm not very experienced with PIL or ImageMagik :/

  • Convert max_rms to a float first. It helps. – Remco Oct 8 '15 at 13:40

Based on Jiaaro's answer (thanks for writing pydub!), and built for web2py here's my two cents:

def generate_waveform():
    img_width = 1170
    img_height = 140
    line_color = 180
    filename = os.path.join(request.folder,'static','sounds','adg3.mp3')

    # first I'll open the audio file
    sound = pydub.AudioSegment.from_mp3(filename)

    # break the sound 180 even chunks (or however
    # many pixels wide the image should be)
    chunk_length = len(sound) / img_width

    loudness_of_chunks = [
        sound[ i*chunk_length : (i+1)*chunk_length ].rms
        for i in range(img_width)
    max_rms = float(max(loudness_of_chunks))
    scaled_loudness = [ round(loudness * img_height/ max_rms)  for loudness in loudness_of_chunks]

    # now convert the scaled_loudness to an image
    im = Image.new('L',(img_width, img_height),color=255)
    draw = ImageDraw.Draw(im)
    for x,rms in enumerate(scaled_loudness):
        y0 = img_height - rms
        y1 = img_height
        draw.line((x,y0,x,y1), fill=line_color, width=1)
    buffer = cStringIO.StringIO()
    del draw
    im = im.filter(ImageFilter.SMOOTH).filter(ImageFilter.DETAIL)
    return response.stream(buffer, filename=filename+'.png')

Your Answer


By clicking "Post Your Answer", you acknowledge that you have read our updated terms of service, privacy policy and cookie policy, and that your continued use of the website is subject to these policies.

Not the answer you're looking for? Browse other questions tagged or ask your own question.