The idea is to monitor FPS in the rendering loop (by measuring intervals between `requestAnimationFrame`

calls) and decreasing or increasing DPR accordingly.

"Monitoring" means recording those intervals into an array, removing min/max values (to avoid peaks), taking an average and comparing it with predefined thresholds.

```
const highFrequencyThreshold = 20; // ~50 FPS
const lowFrequencyThreshold = 34; // ~30 FPS
const minDpr = 0.5;
const maxDpr = window.devicePixelRatio;
const deltaDpr = 0.1;
const relaxPeriod = 4000;
const accumulatorLength = 20;
const frameTimestamp = performance.now();
const frequencyAccumulator = [];
const lastUpdatedAt = null;
const renderer = new WebGLRenderer({
antialias: true,
});
renderer.setPixelRatio(window.devicePixelRatio);
renderer.setSize(window.innerWidth, window.innerHeight);
document.body.appendChild(renderer.domElement);
animate();
function animate(timestamp: number = performance.now()) {
requestAnimationFrame(animate);
monitor(frameTimestamp, timestamp);
frameTimestamp = timestamp;
// animation calculations and rendering
// ...
}
function monitor(frameTimestamp: number, now: number) {
collectFrequency(now - frameTimestamp);
// accumulator is not fully filled
if (frequencyAccumulator.length < accumulatorLength) {
return;
}
// an update happened recently
if (now - lastUpdatedAt < relaxPeriod) {
return;
}
const dpr = renderer.getPixelRatio();
const frequencyMedian = median(...frequencyAccumulator);
if (frequencyMedian > lowFrequencyThreshold && dpr > minDpr) {
updateDpr(dpr, -deltaDpr, now);
} else if (frequencyMedian < highFrequencyThreshold && dpr < maxDpr) {
updateDpr(dpr, deltaDpr, now);
}
}
function collectFrequency(frequency: number) {
if (frequency > 0) {
frequencyAccumulator.push(frequency);
}
if (frequencyAccumulator.length > accumulatorLength) {
frequencyAccumulator.shift();
}
}
function updateDpr(dpr: number, delta: number, now: number) {
renderer.setPixelRatio(dpr + delta);
frequencyAccumulator = [];
lastUpdatedAt = now;
}
function median(...elements: number[]): number {
const indexOfMin = elements.indexOf(Math.min(...elements));
const indexOfMax = elements.indexOf(Math.max(...elements));
const noMinMax = elements.filter((_, index) => index !== indexOfMin && index !== indexOfMax);
return average(...noMinMax);
}
function average(...elements: number[]): number {
return elements.reduce((sum, value) => sum + value, 0) / elements.length;
}
```

Note that updating the DPR could result in short-time animation freezing.

Also, something more clever could be used for balancing the DPR value (rather than calling the `updateDpr()`

with linear step of `0.1`

), e.g. bisectional search.