test_stereoPannerNode.html

mozilla-central/dom/media/webaudio/test/test_stereoPannerNode.html

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Test Info:

Manifest: dom/media/webaudio/test/mochitest.toml

<!DOCTYPE HTML>

<html>

<head>

  <title>Test StereoPannerNode</title>

  <script src="/tests/SimpleTest/SimpleTest.js"></script>

  <script type="text/javascript" src="webaudio.js"></script>

  <link rel="stylesheet" type="text/css" href="/tests/SimpleTest/test.css" />

</head>

<body>

<pre id="test">

<script class="testbody" type="text/javascript">

var SR = 44100;

var BUF_SIZE = 128;

var PANNING = 0.1;

var GAIN = 0.5;

// Cheap reimplementation of some bits of the spec

function gainForPanningMonoToStereo(panning) {

  panning += 1;

  panning /= 2;

  return [ Math.cos(0.5 * Math.PI * panning),

           Math.sin(0.5 * Math.PI * panning) ];

function gainForPanningStereoToStereo(panning) {

  if (panning <= 0) {

    panning += 1.;

  return [ Math.cos(0.5 * Math.PI * panning),

           Math.sin(0.5 * Math.PI * panning) ];

function applyStereoToStereoPanning(l, r, panningValues, panning) {

  var outL, outR;

  if (panning <= 0) {

    outL = l + r * panningValues[0];

    outR = r * panningValues[1];

  } else {

    outL = l * panningValues[0];

    outR = r + l * panningValues[1];

  return [outL,outR];

function applyMonoToStereoPanning(c, panning) {

  return [c * panning[0], c * panning[1]];

// Test the DOM interface

var context = new OfflineAudioContext(1, 1, SR);

var stereoPanner = new StereoPannerNode(context);

ok(stereoPanner.pan, "The AudioParam member must exist");

is(stereoPanner.pan.value, 0.0, "Correct initial value");

is(stereoPanner.pan.defaultValue, 0.0, "Correct default value");

is(stereoPanner.channelCount, 2, "StereoPannerNode node has 2 input channels by default");

is(stereoPanner.channelCountMode, "clamped-max", "Correct channelCountMode for the StereoPannerNode");

is(stereoPanner.channelInterpretation, "speakers", "Correct channelCountInterpretation for the StereoPannerNode");

expectException(function() {

  stereoPanner.channelCount = 3;

}, DOMException.NOT_SUPPORTED_ERR);

expectException(function() {

  stereoPanner.channelCountMode = "max";

}, DOMException.NOT_SUPPORTED_ERR);

// A sine to be used to fill the buffers

function sine(t) {

  return Math.sin(440 * 2 * Math.PI * t / context.sampleRate);

// A couple mono and stereo buffers: the StereoPannerNode equation is different

// if the input is mono or stereo

var stereoBuffer = new AudioBuffer({ numberOfChannels: 2,

                                     length: BUF_SIZE,

                                     sampleRate: context.sampleRate });

var monoBuffer = new AudioBuffer({ numberOfChannels: 1,

                                   length: BUF_SIZE,

                                   sampleRate: context.sampleRate });

for (var i = 0; i < BUF_SIZE; ++i) {

  monoBuffer.getChannelData(0)[i]   =

  stereoBuffer.getChannelData(0)[i] =

  stereoBuffer.getChannelData(1)[i] = sine(i);

// Expected test vectors

function expectedBufferNoop(gain) {

  gain = gain || 1.0;

  var expectedBuffer = new AudioBuffer({ numberOfChannels: 2,

                                         length: BUF_SIZE,

                                         sampleRate: SR });

  for (var i = 0; i < BUF_SIZE; i++) {

    expectedBuffer.getChannelData(0)[i] = gain * sine(i);

    expectedBuffer.getChannelData(1)[i] = gain * sine(i);

  return expectedBuffer;

function expectedBufferForStereo(panning, gain) {

  gain = gain || 1.0;

  var expectedBuffer = new AudioBuffer({ numberOfChannels: 2,

                                         length: BUF_SIZE,

                                         sampleRate: SR });

  var gainPanning = gainForPanningStereoToStereo(panning);

  for (var i = 0; i < BUF_SIZE; i++) {

    var values = [ gain * sine(i), gain * sine(i) ];

    var processed = applyStereoToStereoPanning(values[0], values[1], gainPanning, PANNING);

    expectedBuffer.getChannelData(0)[i] = processed[0];

    expectedBuffer.getChannelData(1)[i] = processed[1];

  return expectedBuffer;

function expectedBufferForMono(panning, gain) {

  gain = gain || 1.0;

  var expectedBuffer = new AudioBuffer({ numberOfChannels: 2,

                                         length: BUF_SIZE,

                                         sampleRate: SR });

  var gainPanning = gainForPanningMonoToStereo(panning);

  gainPanning[0] *= gain;

  gainPanning[1] *= gain;

  for (var i = 0; i < BUF_SIZE; i++) {

    var value = sine(i);

    var processed = applyMonoToStereoPanning(value, gainPanning);

    expectedBuffer.getChannelData(0)[i] = processed[0];

    expectedBuffer.getChannelData(1)[i] = processed[1];

  return expectedBuffer;

// Actual test cases

var tests = [

  function monoPanningNoop(ctx, panner) {

    var monoSource = ctx.createBufferSource();

    monoSource.connect(panner);

    monoSource.buffer = monoBuffer;

    monoSource.start(0);

    return expectedBufferForMono(0);

},

  function stereoPanningNoop(ctx, panner) {

    var stereoSource = ctx.createBufferSource();

    stereoSource.connect(panner);

    stereoSource.buffer = stereoBuffer;

    stereoSource.start(0);

    return expectedBufferNoop();

},

  function monoPanningNoopWithGain(ctx, panner) {

    var monoSource = ctx.createBufferSource();

    var gain = ctx.createGain();

    gain.gain.value = GAIN;

    monoSource.connect(gain);

    gain.connect(panner);

    monoSource.buffer = monoBuffer;

    monoSource.start(0);

    return expectedBufferForMono(0, GAIN);

},

  function stereoPanningNoopWithGain(ctx, panner) {

    var stereoSource = ctx.createBufferSource();

    var gain = ctx.createGain();

    gain.gain.value = GAIN;

    stereoSource.connect(gain);

    gain.connect(panner);

    stereoSource.buffer = stereoBuffer;

    stereoSource.start(0);

    return expectedBufferNoop(GAIN);

},

  function stereoPanningAutomation(ctx, panner) {

    var stereoSource = ctx.createBufferSource();

    stereoSource.connect(panner);

    stereoSource.buffer = stereoBuffer;

    panner.pan.setValueAtTime(0.1, 0.0);

    stereoSource.start(0);

    return expectedBufferForStereo(PANNING);

},

  function stereoPanning(ctx, panner) {

    var stereoSource = ctx.createBufferSource();

    stereoSource.buffer = stereoBuffer;

    stereoSource.connect(panner);

    panner.pan.value = 0.1;

    stereoSource.start(0);

    return expectedBufferForStereo(PANNING);

},

  function monoPanningAutomation(ctx, panner) {

    var monoSource = ctx.createBufferSource();

    monoSource.connect(panner);

    monoSource.buffer = monoBuffer;

    panner.pan.setValueAtTime(PANNING, 0.0);

    monoSource.start(0);

    return expectedBufferForMono(PANNING);

},

  function monoPanning(ctx, panner) {

    var monoSource = ctx.createBufferSource();

    monoSource.connect(panner);

    monoSource.buffer = monoBuffer;

    panner.pan.value = 0.1;

    monoSource.start(0);

    return expectedBufferForMono(PANNING);

},

  function monoPanningWithGain(ctx, panner) {

    var monoSource = ctx.createBufferSource();

    var gain = ctx.createGain();

    gain.gain.value = GAIN;

    monoSource.connect(gain);

    gain.connect(panner);

    monoSource.buffer = monoBuffer;

    panner.pan.value = 0.1;

    monoSource.start(0);

    return expectedBufferForMono(PANNING, GAIN);

},

  function stereoPanningWithGain(ctx, panner) {

    var stereoSource = ctx.createBufferSource();

    var gain = ctx.createGain();

    gain.gain.value = GAIN;

    stereoSource.connect(gain);

    gain.connect(panner);

    stereoSource.buffer = stereoBuffer;

    panner.pan.value = 0.1;

    stereoSource.start(0);

    return expectedBufferForStereo(PANNING, GAIN);

},

  function monoPanningWithGainAndAutomation(ctx, panner) {

    var monoSource = ctx.createBufferSource();

    var gain = ctx.createGain();

    gain.gain.value = GAIN;

    monoSource.connect(gain);

    gain.connect(panner);

    monoSource.buffer = monoBuffer;

    panner.pan.setValueAtTime(PANNING, 0);

    monoSource.start(0);

    return expectedBufferForMono(PANNING, GAIN);

},

  function stereoPanningWithGainAndAutomation(ctx, panner) {

    var stereoSource = ctx.createBufferSource();

    var gain = ctx.createGain();

    gain.gain.value = GAIN;

    stereoSource.connect(gain);

    gain.connect(panner);

    stereoSource.buffer = stereoBuffer;

    panner.pan.setValueAtTime(PANNING, 0);

    stereoSource.start(0);

    return expectedBufferForStereo(PANNING, GAIN);

},

  function bug_1783181(ctx, panner) {

    const length = 128;

    const buffer = new AudioBuffer({ length, numberOfChannels: 2, sampleRate: ctx.sampleRate });

    buffer.copyToChannel(new Float32Array([1, 0.5, 0, -0.5, -1]), 0);

    buffer.copyToChannel(new Float32Array([-0.5, -0.25, 0, 0.25, 0.5]), 1);

    const audioBufferSourceNode = new AudioBufferSourceNode(ctx, { buffer });

    audioBufferSourceNode.connect(panner);

    panner.pan.setValueAtTime(0.5, 0);

    panner.pan.setValueAtTime(0, 2 / ctx.sampleRate);

    panner.pan.linearRampToValueAtTime(1, 5 / ctx.sampleRate);

    panner.pan.cancelScheduledValues(3 / ctx.sampleRate);

    audioBufferSourceNode.start(0);

    const expected = new AudioBuffer({ length, numberOfChannels: 2, sampleRate: ctx.sampleRate });

    expected.copyToChannel(new Float32Array([ 0.7071067690849304, 0.3535533845424652, 0, -0.5, -1 ]), 0);

    expected.copyToChannel(new Float32Array([ 0.20710676908493042, 0.10355338454246521, 0, 0.25, 0.5 ]), 1);

    return expected;

];

var finished = 0;

function finish() {

  if (++finished == tests.length) {

    SimpleTest.finish();

tests.forEach(function(f) {

  var ac = new OfflineAudioContext(2, BUF_SIZE, SR);

  var panner = ac.createStereoPanner();

  panner.connect(ac.destination);

  var expected = f(ac, panner);

  ac.oncomplete = function(e) {

    info(f.name);

    compareBuffers(e.renderedBuffer, expected);

    finish();

};

  ac.startRendering()

});

SimpleTest.waitForExplicitFinish();

</script>

</pre>

<pre id=dump>

</pre>

</body>

</html>