LayoutTests/webaudio/convolution-mono-mono.html - chromium/blink - Git at Google

 <!DOCTYPE html>

 <html>
 <head>
 <script type="text/javascript" src="resources/audio-testing.js"></script>
 <script src="../resources/js-test.js"></script>
 <script src="resources/convolution-testing.js"></script>
 </head>

 <body>

 <div id="description"></div>
 <div id="console"></div>

 <script>
 description("Tests ConvolverNode processing a mono channel with mono impulse response.");

 // To test the convolver, we convolve two square pulses together to
 // produce a triangular pulse.  To verify the result is correct we
 // check several parts of the result.  First, we make sure the initial
 // part of the result is zero (due to the latency in the convolver).
 // Next, the triangular pulse should match the theoretical result to
 // within some roundoff.  After the triangular pulse, the result
 // should be exactly zero, but round-off prevents that.  We make sure
 // the part after the pulse is sufficiently close to zero.  Finally,
 // the result should be exactly zero because the inputs are exactly
 // zero.
 function runTest() {
     if (window.testRunner) {
         testRunner.dumpAsText();
         testRunner.waitUntilDone();
     }

     window.jsTestIsAsync = true;

     // Create offline audio context.
     var context = new webkitOfflineAudioContext(2, sampleRate * renderLengthSeconds, sampleRate);

     var squarePulse = createSquarePulseBuffer(context, pulseLengthFrames);
     var trianglePulse = createTrianglePulseBuffer(context, 2 * pulseLengthFrames);

     var bufferSource = context.createBufferSource();
     bufferSource.buffer = squarePulse;

     var convolver = context.createConvolver();
     convolver.normalize = false;
     convolver.buffer = squarePulse;

     bufferSource.connect(convolver);
     convolver.connect(context.destination);

     bufferSource.noteOn(0);

     context.oncomplete = checkConvolvedResult(trianglePulse);
     context.startRendering();
 }

 runTest();
 successfullyParsed = true;

 </script>

 </body>
 </html>
	<!DOCTYPE html>

	<html>
	<head>
	<script type="text/javascript" src="resources/audio-testing.js"></script>
	<script src="../resources/js-test.js"></script>
	<script src="resources/convolution-testing.js"></script>
	</head>

	<body>

	<div id="description"></div>
	<div id="console"></div>

	<script>
	description("Tests ConvolverNode processing a mono channel with mono impulse response.");

	// To test the convolver, we convolve two square pulses together to
	// produce a triangular pulse. To verify the result is correct we
	// check several parts of the result. First, we make sure the initial
	// part of the result is zero (due to the latency in the convolver).
	// Next, the triangular pulse should match the theoretical result to
	// within some roundoff. After the triangular pulse, the result
	// should be exactly zero, but round-off prevents that. We make sure
	// the part after the pulse is sufficiently close to zero. Finally,
	// the result should be exactly zero because the inputs are exactly
	// zero.
	function runTest() {
	if (window.testRunner) {
	testRunner.dumpAsText();
	testRunner.waitUntilDone();
	}

	window.jsTestIsAsync = true;

	// Create offline audio context.
	var context = new webkitOfflineAudioContext(2, sampleRate * renderLengthSeconds, sampleRate);

	var squarePulse = createSquarePulseBuffer(context, pulseLengthFrames);
	var trianglePulse = createTrianglePulseBuffer(context, 2 * pulseLengthFrames);

	var bufferSource = context.createBufferSource();
	bufferSource.buffer = squarePulse;

	var convolver = context.createConvolver();
	convolver.normalize = false;
	convolver.buffer = squarePulse;

	bufferSource.connect(convolver);
	convolver.connect(context.destination);

	bufferSource.noteOn(0);

	context.oncomplete = checkConvolvedResult(trianglePulse);
	context.startRendering();
	}

	runTest();
	successfullyParsed = true;

	</script>

	</body>
	</html>