LayoutTests/webaudio/AudioBufferSource/audiobuffersource-loop-grain-no-duration.html - WebKit - Git at Google

 <!DOCTYPE html>
 <html>
   <head>
     <title>
       Test AudioBufferSourceNode looping without explicit duration
     </title>
     <script src="../../imported/w3c/web-platform-tests/resources/testharness.js"></script>
     <script src="../../resources/testharnessreport.js"></script>
     <script src="../resources/audit-util.js"></script>
     <script src="../resources/audit.js"></script>
   </head>
   <body>
     <script id="layout-test-code">
       // Reasonably low sample rate for the optimum test speed.
       let sampleRate = 8192;

       let audit = Audit.createTaskRunner();

       // Task: create a short linear ramp and enable looping.  The test will
       // verify that the ramp was looped the appropriate number of times.
       audit.define('loop-count', (task, should) => {
         // How many loops of the source we want to render. Any whole number
         // greater than 1 will work.
         let loopCount = 4;
         let sourceFrames = 8;
         let renderFrames = sourceFrames * loopCount;

         let context = new OfflineAudioContext(1, renderFrames, sampleRate);
         let source = context.createBufferSource();
         let linearRampBuffer = createLinearRampBuffer(context, sourceFrames);

         source.buffer = linearRampBuffer;
         source.connect(context.destination);

         // Enable looping and start the source with an offset, but without a
         // duration.  In this case, the source should loop "forever".
         // See crbug.com/457009.
         source.loop = true;
         source.start(0, 0);

         context.startRendering()
             .then(function(renderedBuffer) {
               let badIndex = -1;
               let success = true;

               let actual = renderedBuffer.getChannelData(0);
               let linearRamp = linearRampBuffer.getChannelData(0);

               // Manually create a |loopCount| copies of linear ramps.
               let expected = new Float32Array(linearRamp.length * loopCount);
               for (let i = 0; i < loopCount; i++)
                 expected.set(linearRamp, linearRamp.length * i);

               // The actual output should match the created loop.
               should(actual, 'The output of actual and expected loops')
                   .beEqualToArray(expected);
             })
             .then(() => task.done());
       });

       // Task: Test that looping an AudioBufferSource works correctly if the
       // source is started and the buffer is assigned later, but before the
       // source would start.
       audit.define('delayed-start', (task, should) => {
         let renderDuration = 2;
         let context =
             new OfflineAudioContext(2, sampleRate * renderDuration, sampleRate);
         let linearRampBuffer = createLinearRampBuffer(context, 128);

         let normal = context.createBufferSource();
         let delayed = context.createBufferSource();
         let merger = context.createChannelMerger(2);

         // Connect the normally started source to the left channel, and the
         // delayed to the right channel.
         normal.connect(merger, 0, 0);
         delayed.connect(merger, 0, 1);
         merger.connect(context.destination);

         normal.buffer = linearRampBuffer;
         normal.loop = true;
         delayed.loop = true;

         normal.start(1, 0);
         delayed.start(1, 0);

         // Assign the buffer to the delayed source node at 0.5 second.
         context.suspend(0.5).then(function() {
           delayed.buffer = linearRampBuffer;
           context.resume();
         });

         context.startRendering()
             .then(function(buffer) {
               // The left and right channel must match regardless of the timing
               // of buffer assignment.
               should(
                   buffer.getChannelData(0),
                   'The content of the left and right channel')
                   .beEqualToArray(buffer.getChannelData(1));
             })
             .then(() => task.done());
       });

       audit.run();
     </script>
   </body>
 </html>
	<!DOCTYPE html>
	<html>
	<head>
	<title>
	Test AudioBufferSourceNode looping without explicit duration
	</title>
	<script src="../../imported/w3c/web-platform-tests/resources/testharness.js"></script>
	<script src="../../resources/testharnessreport.js"></script>
	<script src="../resources/audit-util.js"></script>
	<script src="../resources/audit.js"></script>
	</head>
	<body>
	<script id="layout-test-code">
	// Reasonably low sample rate for the optimum test speed.
	let sampleRate = 8192;

	let audit = Audit.createTaskRunner();

	// Task: create a short linear ramp and enable looping. The test will
	// verify that the ramp was looped the appropriate number of times.
	audit.define('loop-count', (task, should) => {
	// How many loops of the source we want to render. Any whole number
	// greater than 1 will work.
	let loopCount = 4;
	let sourceFrames = 8;
	let renderFrames = sourceFrames * loopCount;

	let context = new OfflineAudioContext(1, renderFrames, sampleRate);
	let source = context.createBufferSource();
	let linearRampBuffer = createLinearRampBuffer(context, sourceFrames);

	source.buffer = linearRampBuffer;
	source.connect(context.destination);

	// Enable looping and start the source with an offset, but without a
	// duration. In this case, the source should loop "forever".
	// See crbug.com/457009.
	source.loop = true;
	source.start(0, 0);

	context.startRendering()
	.then(function(renderedBuffer) {
	let badIndex = -1;
	let success = true;

	let actual = renderedBuffer.getChannelData(0);
	let linearRamp = linearRampBuffer.getChannelData(0);

	// Manually create a \|loopCount\| copies of linear ramps.
	let expected = new Float32Array(linearRamp.length * loopCount);
	for (let i = 0; i < loopCount; i++)
	expected.set(linearRamp, linearRamp.length * i);

	// The actual output should match the created loop.
	should(actual, 'The output of actual and expected loops')
	.beEqualToArray(expected);
	})
	.then(() => task.done());
	});

	// Task: Test that looping an AudioBufferSource works correctly if the
	// source is started and the buffer is assigned later, but before the
	// source would start.
	audit.define('delayed-start', (task, should) => {
	let renderDuration = 2;
	let context =
	new OfflineAudioContext(2, sampleRate * renderDuration, sampleRate);
	let linearRampBuffer = createLinearRampBuffer(context, 128);

	let normal = context.createBufferSource();
	let delayed = context.createBufferSource();
	let merger = context.createChannelMerger(2);

	// Connect the normally started source to the left channel, and the
	// delayed to the right channel.
	normal.connect(merger, 0, 0);
	delayed.connect(merger, 0, 1);
	merger.connect(context.destination);

	normal.buffer = linearRampBuffer;
	normal.loop = true;
	delayed.loop = true;

	normal.start(1, 0);
	delayed.start(1, 0);

	// Assign the buffer to the delayed source node at 0.5 second.
	context.suspend(0.5).then(function() {
	delayed.buffer = linearRampBuffer;
	context.resume();
	});

	context.startRendering()
	.then(function(buffer) {
	// The left and right channel must match regardless of the timing
	// of buffer assignment.
	should(
	buffer.getChannelData(0),
	'The content of the left and right channel')
	.beEqualToArray(buffer.getChannelData(1));
	})
	.then(() => task.done());
	});

	audit.run();
	</script>
	</body>
	</html>