prettier + other stuff

2025-11-30 11:55:40 -08:00
parent 9f64715a13
commit e976a1f52d
1 changed files with 93 additions and 59 deletions
--- a/tuner.js
+++ b/tuner.js
@@ -18,14 +18,16 @@ const NOTE_NAMES = [
 // We don't care about fundamentals above 4kHz, so setting a lower sample rate
 // gives us finer-grained FFT buckets
 const TARGET_SAMPLE_RATE = 8000;
+const TIMEOUT = 120; // 2-minute screen timeout
+const NOISE_THRESHOLD = -60; // dBFS threshold for valid pitch detection
+const SMOOTHING_FACTOR = 0.8; // Smoothing factor for frequency stability
+const MAX_HISTORY = 5; // Moving median filter window size

-// 2 minute screen timeout
-const TIMEOUT = 120;
+let dom_frequency, dom_rate, dom_note, dom_tune;
+let lastFrequency = null;
+const history = [];

-let dom_frequency;
-let dom_rate;
-let dom_note;
-let dom_tune;
+let wakeLock = null;

 const setup = () => {
  document.body.onclick = undefined;
@@ -38,49 +40,59 @@ const setup = () => {

  if (navigator?.mediaDevices?.getUserMedia) {
    navigator.mediaDevices
-      .getUserMedia({
-        audio: true,
-      })
-      .then(handleStream, (err) => {
-        console.error("Error calling getUserMedia", err);
-      })
-      .then(aquireWakeLock);
+      .getUserMedia({ audio: true })
+      .then(handleStream)
+      .then(aquireWakeLock)
+      .catch((err) => console.error("Error getting user media:", err));
  }
 };

-const aquireWakeLock = ({ interval, stream }) => {
+// Function to request wake lock
+const requestWakeLock = async () => {
+  try {
+    wakeLock = await navigator.wakeLock.request("screen");
+    wakeLock.addEventListener("release", () =>
+      console.log("Wake Lock released")
+    );
+  } catch (err) {
+    console.error("Failed to acquire wake lock:", err);
+  }
+};
+
+// Function to acquire wake lock and re-request if lost
+const aquireWakeLock = async ({ interval, stream }) => {
  if (navigator?.wakeLock?.request) {
-    try {
-      navigator.wakeLock.request("screen").then(
-        (wakeLock) =>
-          setTimeout(() => {
-            clearInterval(interval);
-            wakeLock.release();
-            stream.getTracks().forEach((track) => track.stop());
-            dom_note.innerHTML = "Tap to Start";
-            document.body.onclick = setup;
-            dom_tune.innerHTML = "";
-            dom_frequency.innerHTML = "";
-          }, TIMEOUT * 1000),
-        (err) => console.error("Error requesting wakeLock", err)
-      );
-    } catch (err) {}
+    await requestWakeLock();
+
+    document.addEventListener("visibilitychange", async () => {
+      if (wakeLock !== null && document.visibilityState === "visible") {
+        await requestWakeLock();
+      }
+    });
+
+    setTimeout(() => {
+      clearInterval(interval);
+      if (wakeLock) wakeLock.release();
+      stream.getTracks().forEach((track) => track.stop());
+      dom_note.innerHTML = "Tap to Start";
+      document.body.onclick = setup;
+      dom_tune.innerHTML = "";
+      dom_frequency.innerHTML = "";
+    }, TIMEOUT * 1000);
  }
 };

+// Handle incoming audio stream
 const handleStream = (stream) => {
-  const audioContext = new AudioContext({
-    sampleRate: TARGET_SAMPLE_RATE,
-  });
-
+  const audioContext = new AudioContext({ sampleRate: TARGET_SAMPLE_RATE });
  const analyser = audioContext.createAnalyser();
  analyser.fftSize = 32768;
  analyser.minDecibels = -90;
  analyser.maxDecibels = -10;
  analyser.smoothingTimeConstant = 0;
+
  const bufferLength = analyser.frequencyBinCount;
  const data = new Uint8Array(bufferLength);
-
  const source = audioContext.createMediaStreamSource(stream);
  source.connect(analyser);

@@ -89,9 +101,9 @@ const handleStream = (stream) => {
  return { interval, stream };
 };

+// Tuning function
 const tune = (analyser, data) => () => {
  analyser.getByteFrequencyData(data);
-
  const rate = analyser.context.sampleRate;
  dom_rate.innerText = rate / 1000;

@@ -99,26 +111,53 @@ const tune = (analyser, data) => () => {
  let max = 0;
  let maxBucket = -1;

+  // Use harmonic sum instead of product for better fundamental detection
  data.forEach((value, bucket) => {
-    let j = 2;
-    let product = value;
-    while (bucket > 1 && j * bucket < data.length && j < 8) {
-      product *= data[j * bucket];
-      j += 1;
+    let sum = value;
+    for (let j = 2; j < 8 && j * bucket < data.length; j++) {
+      sum += data[j * bucket]; // Sum harmonics instead of multiplying
    }
-    const geoMean = Math.pow(product, 1 / (j - 1));

-    if (geoMean > max) {
-      max = geoMean;
+    if (sum > max) {
+      max = sum;
      maxBucket = bucket;
    }
  });

-  if (maxBucket === -1) {
-    return;
+  if (maxBucket === -1) return;
+
+  // Ignore weak signals (noise threshold)
+  let maxDb = 20 * Math.log10(max);
+  if (maxDb < NOISE_THRESHOLD) return;
+
+  // Quadratic Peak Interpolation
+  let delta = 0;
+  if (maxBucket > 0 && maxBucket < data.length - 1) {
+    let left = data[maxBucket - 1];
+    let center = data[maxBucket];
+    let right = data[maxBucket + 1];
+
+    delta = (0.5 * (right - left)) / (2 * center - left - right);
  }

-  const frequency = maxBucket * bucketWidth;
+  let frequency = (maxBucket + delta) * bucketWidth;
+
+  // Apply exponential smoothing
+  if (lastFrequency !== null) {
+    frequency =
+      SMOOTHING_FACTOR * lastFrequency + (1 - SMOOTHING_FACTOR) * frequency;
+  }
+  lastFrequency = frequency;
+
+  // Moving Median Filter
+  history.push(frequency);
+  if (history.length > MAX_HISTORY) {
+    history.shift();
+  }
+  frequency = history.slice().sort((a, b) => a - b)[
+    Math.floor(history.length / 2)
+  ];
+
  dom_frequency.innerText = `${Number.parseFloat(frequency).toFixed(2)} Hz`;

  const semitones = frequencyToSemitones(frequency);
@@ -129,36 +168,31 @@ const tune = (analyser, data) => () => {
  document.body.className = semitonesToClassname(semitones, margin);
 };

+// Converts frequency to MIDI semitone number
 const frequencyToSemitones = (frequency) =>
  12 * Math.log2(frequency / 440) + 69;

+// Converts semitones to a note name
 const semitonesToNote = (semitones) => {
-  const rounded = Math.round(semitones - 69);
-
-  const index = rounded >= 0 ? rounded % 12 : (12 + (rounded % 12)) % 12;
-
-  return NOTE_NAMES[index];
+  let noteIndex = Math.round(semitones) % 12;
+  if (noteIndex < 0) noteIndex += 12;
+  return NOTE_NAMES[noteIndex];
 };

+// Calculates tuning error in cents
 const errorPercentage = (semitones, margin) => {
  const rounded = Math.round(semitones);
-
  const cents = Math.round((semitones - rounded) * 100);
  const accuracy = Number.parseFloat(margin * 100).toFixed(1);
  const sign = cents > 0 ? "+" : "";
-
  return `${sign}${cents} cents ± ${accuracy}`;
 };

+// Determines if the note is flat or sharp
 const semitonesToClassname = (semitones, margin) => {
  const rounded = Math.round(semitones);
  const error = Math.abs(semitones - rounded);
-
  const ok = margin > 0.05 ? margin : 0.05;
-
-  if (error <= ok) {
-    return "";
-  }
-
+  if (error <= ok) return "";
  return Math.round(semitones) > semitones ? "flat" : "sharp";
 };