AnalyserNode: getFloatFrequencyData() method
The getFloatFrequencyData() method of the AnalyserNode Interface copies the current frequency data into a Float32Array array passed into it. Each array value is a sample, the magnitude of the signal at a particular time.
Each item in the array represents the decibel value for a specific frequency. The frequencies are spread linearly from 0 to 1/2 of the sample rate. For example, for a 48000 Hz sample rate, the last item of the array will represent the decibel value for 24000 Hz.
If you need higher performance and don't care about precision, you can use AnalyserNode.getByteFrequencyData() instead, which works on a Uint8Array.
Syntax
getFloatFrequencyData(array)
Parameters
-
array
-
The Float32Array that the frequency domain data will be copied to. For any sample which is silent, the value is -Infinity. If the array has fewer elements than the AnalyserNode.frequencyBinCount, excess elements are dropped. If it has more elements than needed, excess elements are ignored.
Return value
Examples
const audioCtx = new AudioContext();
const analyser = audioCtx.createAnalyser();
const myDataArray = new Float32Array(analyser.frequencyBinCount);
analyser.getFloatFrequencyData(myDataArray);
Drawing a spectrum
The following example shows basic usage of an AudioContext to connect a MediaElementAudioSourceNode to an AnalyserNode. While the audio is playing, we collect the frequency data repeatedly with requestAnimationFrame() and draw a "winamp bar graph style" to a <canvas> element.
For more complete applied examples/information, check out our Voice-change-O-matic demo (see app.js lines 108–193 for relevant code).
<!doctype html>
<body>
<script>
const audioCtx = new AudioContext();
const audioEle = new Audio();
audioEle.src = "my-audio.mp3";
audioEle.autoplay = true;
audioEle.preload = "auto";
const audioSourceNode = audioCtx.createMediaElementSource(audioEle);
const analyserNode = audioCtx.createAnalyser();
analyserNode.fftSize = 256;
const bufferLength = analyserNode.frequencyBinCount;
const dataArray = new Float32Array(bufferLength);
audioSourceNode.connect(analyserNode);
analyserNode.connect(audioCtx.destination);
const canvas = document.createElement("canvas");
canvas.style.position = "absolute";
canvas.style.top = "0";
canvas.style.left = "0";
canvas.width = window.innerWidth;
canvas.height = window.innerHeight;
document.body.appendChild(canvas);
const canvasCtx = canvas.getContext("2d");
canvasCtx.clearRect(0, 0, canvas.width, canvas.height);
function draw() {
requestAnimationFrame(draw);
analyserNode.getFloatFrequencyData(dataArray);
canvasCtx.fillStyle = "rgb(0, 0, 0)";
canvasCtx.fillRect(0, 0, canvas.width, canvas.height);
const barWidth = (canvas.width / bufferLength) * 2.5;
let posX = 0;
for (let i = 0; i < bufferLength; i++) {
const barHeight = (dataArray[i] + 140) * 2;
canvasCtx.fillStyle =
"rgb(" + Math.floor(barHeight + 100) + ", 50, 50)";
canvasCtx.fillRect(
posX,
canvas.height - barHeight / 2,
barWidth,
barHeight / 2,
);
posX += barWidth + 1;
}
}
draw();
</script>
</body>
Specifications
Browser compatibility
|
Desktop |
Mobile |
|
Chrome |
Edge |
Firefox |
Internet Explorer |
Opera |
Safari |
WebView Android |
Chrome Android |
Firefox for Android |
Opera Android |
Safari on IOS |
Samsung Internet |
getFloatFrequencyData |
14 |
12 |
25 |
No |
15 |
6 |
4.4.3 |
18 |
25 |
14 |
6 |
1.0 |
See also