There isn't single one working example on whole internet of how to perform FFT analysis of a sound file/buffer/audiobuffer in browser without need for playback. Web audio API has been changed too much to be able to use this library https://github.com/corbanbrook/dsp.js any more for example. All other clues currently don't lead to solution.

EDIT: I don't need to manipulate any of the data, just to read frequency spectrum in different moments in time of the audio. Input of solution can be any form of data(wav file, arraybuffer, audiobuffer, anything) but not stream. Expected output ideally would be array (moments in time) of arrays(freqency bin amplitudes).

  • Are you trying to measure (sample) actual audio output or raw data? The question asks for analysis. The file is static; does not change the data without user action. The purpose of analysis would be to sample actual audio output, that is, the audio output is expected to be different, or at least, the sampling record is expected to be unique, or arbitrary for each media playback, correct? Feb 16, 2019 at 18:36
  • raw data. i need to avoid output because of faster user experience.
    – okram
    Feb 16, 2019 at 18:43
  • What is the raw data, a static file not being played back, analyzed for? What do you mean by "without need for playback"? What is the requirement and expected input and output? Are you trying to manipulate a file to filter certain audio output before playing the file or having to play the media back at all to perform the filtering? Feb 16, 2019 at 18:45
  • afaik, you are right. it would actually be slower not to use the C-accelerated webaudiio api's tools, trying to mount and analize the waveforms in pure userland js. i dont even know how you would turn the mp3 into a wave. If you did go all js,use webworkers to avoid ui slowdown.
    – dandavis
    Feb 16, 2019 at 18:58
  • @okram See TensorFlow; TensorFlow.js Feb 16, 2019 at 19:00

3 Answers 3


You can do a lot with an offline audiocontext, but that will just run the whole nodes-graph as fast as possible to render a resulting chunk of audio. I don't see how an analysernode would even work in such a situation (since its audio output is useless).

Seems to me that you're correct in that you can't use the Web Audio API without actually playing the file in realtime. You would have to do the analysis yourself, there should be a lot of libraries available for that (since it's just numbercrunching). Webworkers or wasm is probably the way to go.

  • I can only find 'thin wrapper for web audio API' libraries. Do you have any personal recommendation for library that does have a documented solution for my problem?
    – okram
    Feb 16, 2019 at 19:57
  • I don't have experience with what you want to do, but doing frequency analysis is just running through numbers and not very obscure, so there should be tons of existing code in js. you shouldn't be searching for anything related to the web audio api though - we both agreed that it probably wasn't going to work with that :)
    – Eindbaas
    Feb 16, 2019 at 20:42

If you must use WebAudio, the way to do it is to use an OfflineAudioContext. Then when you need to get the frequency data, call suspend(time). Something like the following:

c = new OfflineAudioContext(....);
a = new AnalyserNode(c);
src.connect(a);  // src is the signal you want to analyze.

  .then(() => {
  .then(() => c.resume());

  .then(() => {
  .then(() => c.resume());

// More suspends if needed

// Render everything now
  .then((buffer => {
    // Maybe do something now that all the frequency data is available.

However, I think only Chrome supports suspend with an offline context.

  • Thank you, interesting to learn about this option. Unfortunately I need to go for cross-browser functionality and Firefox and Safari currently don't support suspend method on offline context according to developer.mozilla.org/en-US/docs/Web/API/OfflineAudioContext/…
    – okram
    Mar 16, 2019 at 18:26
  • Yeah, that's too bad. I did file a bug against Firefox about adding this. You could file a bug for Safari. Maybe it will get implemented some day. Mar 21, 2019 at 2:46

You need 4 things:

  • Javascript code to read in a WAV file as a binary blob

  • Code to convert slices of that blob as 16-bit samples into suitable Javascript arrays of numeric samples for an FFT

  • A Javascript implementation of a DFT or FFT of suitable size arrays for the time and frequency resolution you desire

  • Code to estimate your desired frequency and magnitude parameters as you step-and-repeat the FFT across your data slices

The first 3 can be found from web searches (Github, here, et.al.)

  • It's bullet point 3 that's the problem. Do you actually know of a JS implementation of the FFT that actually works in the browser? Because sure, then it becomes almost trivially easy (heck, use an mp3 file with AudioContext.decodeAudioData() even, since there no need for giant PCM wave files if we're going to use pure JS instead of the audio API anyway) Apr 10, 2020 at 5:17

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