mirror of
https://github.com/classilla/tenfourfox.git
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264 lines
8.0 KiB
HTML
264 lines
8.0 KiB
HTML
<!DOCTYPE HTML>
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<html>
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<head>
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<title>Test StereoPannerNode</title>
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<script type="text/javascript" src="/tests/SimpleTest/SimpleTest.js"></script>
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<script type="text/javascript" src="webaudio.js"></script>
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<link rel="stylesheet" type="text/css" href="/tests/SimpleTest/test.css" />
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</head>
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<body>
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<pre id="test">
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<script class="testbody" type="text/javascript">
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var SR = 44100;
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var BUF_SIZE = 128;
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var PANNING = 0.1;
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var GAIN = 0.5;
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// Cheap reimplementation of some bits of the spec
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function gainForPanningMonoToStereo(panning) {
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panning += 1;
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panning /= 2;
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return [ Math.cos(0.5 * Math.PI * panning),
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Math.sin(0.5 * Math.PI * panning) ];
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}
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function gainForPanningStereoToStereo(panning) {
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if (panning <= 0) {
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panning += 1.;
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}
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return [ Math.cos(0.5 * Math.PI * panning),
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Math.sin(0.5 * Math.PI * panning) ];
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}
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function applyStereoToStereoPanning(l, r, panningValues, panning) {
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var outL, outR;
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if (panning <= 0) {
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outL = l + r * panningValues[0];
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outR = r * panningValues[1];
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} else {
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outL = l * panningValues[0];
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outR = r + l * panningValues[1];
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}
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return [outL,outR];
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}
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function applyMonoToStereoPanning(c, panning) {
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return [c * panning[0], c * panning[1]];
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}
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// Test the DOM interface
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var context = new OfflineAudioContext(1, 1, SR);
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var stereoPanner = context.createStereoPanner();
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ok(stereoPanner.pan, "The AudioParam member must exist");
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is(stereoPanner.pan.value, 0.0, "Correct initial value");
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is(stereoPanner.pan.defaultValue, 0.0, "Correct default value");
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is(stereoPanner.channelCount, 2, "StereoPannerNode node has 2 input channels by default");
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is(stereoPanner.channelCountMode, "clamped-max", "Correct channelCountMode for the StereoPannerNode");
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is(stereoPanner.channelInterpretation, "speakers", "Correct channelCountInterpretation for the StereoPannerNode");
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expectException(function() {
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stereoPanner.channelCount = 3;
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}, DOMException.NOT_SUPPORTED_ERR);
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expectException(function() {
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stereoPanner.channelCountMode = "max";
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}, DOMException.NOT_SUPPORTED_ERR);
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// A sine to be used to fill the buffers
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function sine(t) {
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return Math.sin(440 * 2 * Math.PI * t / context.sampleRate);
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}
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// A couple mono and stereo buffers: the StereoPannerNode equation is different
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// if the input is mono or stereo
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var stereoBuffer = context.createBuffer(2, BUF_SIZE, context.sampleRate);
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var monoBuffer = context.createBuffer(1, BUF_SIZE, context.sampleRate);
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for (var i = 0; i < BUF_SIZE; ++i) {
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monoBuffer.getChannelData(0)[i] =
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stereoBuffer.getChannelData(0)[i] =
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stereoBuffer.getChannelData(1)[i] = sine(i);
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}
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// Expected test vectors
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function expectedBufferNoop(gain) {
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gain = gain || 1.0;
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var expectedBuffer = context.createBuffer(2, BUF_SIZE, SR);
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for (var i = 0; i < BUF_SIZE; i++) {
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expectedBuffer.getChannelData(0)[i] = gain * sine(i);
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expectedBuffer.getChannelData(1)[i] = gain * sine(i);
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}
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return expectedBuffer;
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}
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function expectedBufferForStereo(gain) {
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gain = gain || 1.0;
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var expectedBuffer = context.createBuffer(2, BUF_SIZE, SR);
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var gainPanning = gainForPanningStereoToStereo(PANNING);
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gainPanning[0] *= gain;
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gainPanning[1] *= gain;
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for (var i = 0; i < BUF_SIZE; i++) {
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var values = [ sine(i), sine(i) ];
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var processed = applyStereoToStereoPanning(values[0], values[1], gainPanning, PANNING);
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expectedBuffer.getChannelData(0)[i] = processed[0];
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expectedBuffer.getChannelData(1)[i] = processed[1];
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}
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return expectedBuffer;
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}
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function expectedBufferForMono(gain) {
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gain = gain || 1.0;
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var expectedBuffer = context.createBuffer(2, BUF_SIZE, SR);
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var gainPanning = gainForPanningMonoToStereo(PANNING);
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gainPanning[0] *= gain;
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gainPanning[1] *= gain;
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for (var i = 0; i < BUF_SIZE; i++) {
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var value = sine(i);
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var processed = applyMonoToStereoPanning(value, gainPanning);
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expectedBuffer.getChannelData(0)[i] = processed[0];
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expectedBuffer.getChannelData(1)[i] = processed[1];
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}
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return expectedBuffer;
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}
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// Actual test cases
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var tests = [
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function monoPanningNoop(ctx, panner) {
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var monoSource = ctx.createBufferSource();
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monoSource.connect(panner);
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monoSource.buffer = monoBuffer;
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monoSource.start(0);
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return expectedBufferNoop();
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},
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function stereoPanningNoop(ctx, panner) {
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var stereoSource = ctx.createBufferSource();
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stereoSource.connect(panner);
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stereoSource.buffer = stereoBuffer;
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stereoSource.start(0);
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return expectedBufferNoop();
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},
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function monoPanningNoopWithGain(ctx, panner) {
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var monoSource = ctx.createBufferSource();
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var gain = ctx.createGain();
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gain.gain.value = GAIN;
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monoSource.connect(gain);
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gain.connect(panner);
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monoSource.buffer = monoBuffer;
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monoSource.start(0);
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return expectedBufferNoop(GAIN);
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},
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function stereoPanningNoopWithGain(ctx, panner) {
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var stereoSource = ctx.createBufferSource();
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var gain = ctx.createGain();
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gain.gain.value = GAIN;
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stereoSource.connect(gain);
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gain.connect(panner);
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stereoSource.buffer = stereoBuffer;
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stereoSource.start(0);
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return expectedBufferNoop(GAIN);
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},
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function stereoPanningAutomation(ctx, panner) {
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var stereoSource = ctx.createBufferSource();
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stereoSource.connect(panner);
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stereoSource.buffer = stereoBuffer;
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panner.pan.setValueAtTime(0.1, 0.0);
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stereoSource.start(0);
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return expectedBufferForStereo();
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},
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function stereoPanning(ctx, panner) {
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var stereoSource = ctx.createBufferSource();
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stereoSource.buffer = stereoBuffer;
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stereoSource.connect(panner);
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panner.pan.value = 0.1;
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stereoSource.start(0);
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return expectedBufferForStereo();
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},
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function monoPanningAutomation(ctx, panner) {
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var monoSource = ctx.createBufferSource();
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monoSource.connect(panner);
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monoSource.buffer = monoBuffer;
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panner.pan.setValueAtTime(PANNING, 0.0);
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monoSource.start(0);
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return expectedBufferForMono();
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},
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function monoPanning(ctx, panner) {
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var monoSource = ctx.createBufferSource();
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monoSource.connect(panner);
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monoSource.buffer = monoBuffer;
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panner.pan.value = 0.1;
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monoSource.start(0);
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return expectedBufferForMono();
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},
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function monoPanningWithGain(ctx, panner) {
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var monoSource = ctx.createBufferSource();
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var gain = ctx.createGain();
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gain.gain.value = GAIN;
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monoSource.connect(gain);
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gain.connect(panner);
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monoSource.buffer = monoBuffer;
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panner.pan.value = 0.1;
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monoSource.start(0);
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return expectedBufferForMono(GAIN);
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},
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function stereoPanningWithGain(ctx, panner) {
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var stereoSource = ctx.createBufferSource();
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var gain = ctx.createGain();
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gain.gain.value = GAIN;
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stereoSource.connect(gain);
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gain.connect(panner);
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stereoSource.buffer = stereoBuffer;
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panner.pan.value = 0.1;
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stereoSource.start(0);
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return expectedBufferForStereo(GAIN);
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},
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function monoPanningWithGainAndAutomation(ctx, panner) {
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var monoSource = ctx.createBufferSource();
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var gain = ctx.createGain();
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gain.gain.value = GAIN;
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monoSource.connect(gain);
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gain.connect(panner);
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monoSource.buffer = monoBuffer;
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panner.pan.setValueAtTime(PANNING, 0);
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monoSource.start(0);
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return expectedBufferForMono(GAIN);
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},
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function stereoPanningWithGainAndAutomation(ctx, panner) {
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var stereoSource = ctx.createBufferSource();
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var gain = ctx.createGain();
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gain.gain.value = GAIN;
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stereoSource.connect(gain);
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gain.connect(panner);
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stereoSource.buffer = stereoBuffer;
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panner.pan.setValueAtTime(PANNING, 0);
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stereoSource.start(0);
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return expectedBufferForStereo(GAIN);
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}
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];
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var finished = 0;
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function finish() {
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if (++finished == tests.length) {
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SimpleTest.finish();
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}
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}
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tests.forEach(function(f) {
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var ac = new OfflineAudioContext(2, BUF_SIZE, SR);
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var panner = ac.createStereoPanner();
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panner.connect(ac.destination);
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var expected = f(ac, panner);
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ac.oncomplete = function(e) {
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info(f.name);
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compareBuffers(e.renderedBuffer, expected);
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finish();
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};
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ac.startRendering()
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});
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SimpleTest.waitForExplicitFinish();
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</script>
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</pre>
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<pre id=dump>
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</pre>
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</body>
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</html>
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