chromium/src/third_party/blink/web_tests/webaudio/Analyser/automatic-pull-node.html - manifest_repos/chromium_src - Git at Google

 <!DOCTYPE html>
 <html>
   <head>
     <title>
       automatic-pull-node.html
     </title>
     <script src="../../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">
       // This test verifies that the AudioBasicInspectorNode based nodes work
       // correctly

       let audit = Audit.createTaskRunner();

       let sampleRate = 44100.0;
       // We carefully arrange the renderLengthInFrames to be a multiple of the
       // AudioNode rendering quantum (AudioNode::ProcessingSizeInFrames) so that
       // AudioSourceNode will not feed tailing zeroes into the context and fail
       // this test.
       let renderLengthInFrames = 256;
       let fftSize = 64;

       let audioDataOne = 255;   // Audio data 1.0 in Uint8 format will be 255.
       let audioDataZero = 128;  // Audio data 0 in Uint8 format will be 128.

       let context;
       let constantBuffer;
       let bufferSource;
       let analyser;

       function constructCommonGraph() {
         // Create offline audio context.
         context = new OfflineAudioContext(1, renderLengthInFrames, sampleRate);
         constantBuffer = createConstantBuffer(context, renderLengthInFrames, 1);

         bufferSource = context.createBufferSource();
         bufferSource.buffer = constantBuffer;

         analyser = context.createAnalyser();
         analyser.fftSize = fftSize;

         bufferSource.connect(analyser);
       }

       function test1Finished(should) {
         let timeDomainData = new Uint8Array(fftSize);
         analyser.getByteTimeDomainData(timeDomainData);

         should(
             timeDomainData[0] >= audioDataOne,
             'RealtimeAnalyserNode got pulled when connected from upstream node but not to downstream node')
             .beTrue();
       }

       // To verify the realtimeAnalyser can pull data when there is an upstream
       // node connected to it but it's not connected to a downstream node.
       audit.define('test1', function(task, should) {
         constructCommonGraph();

         bufferSource.start(0);

         context.startRendering()
             .then(function() {
               test1Finished(should);
             })
             .then(task.done.bind(task));
       });

       function test2Finished(should) {
         let timeDomainData = new Uint8Array(fftSize);
         analyser.getByteTimeDomainData(timeDomainData);

         should(
             timeDomainData[0] >= audioDataOne,
             'RealtimeAnalyserNode got pulled when connected from upstream node and to destination node')
             .beTrue();
       }

       // To verify the realtimeAnalyser can process normally when there is an
       // upstream node connected to it and it's also connected to a downstream
       // node which ultimately connect to audio destination.
       audit.define('test2', function(task, should) {
         constructCommonGraph();

         analyser.connect(context.destination);

         bufferSource.start(0);

         context.startRendering()
             .then(function() {
               test2Finished(should);
             })
             .then(task.done.bind(task));
       });

       function test3Finished(should) {
         let timeDomainData = new Uint8Array(fftSize);
         analyser.getByteTimeDomainData(timeDomainData);

         // If realtimeAnalyser hasn't pulled any data, the data in buffer will
         // be 0.
         should(
             timeDomainData[0] == audioDataZero,
             'RealtimeAnalyserNode didn\'t get pulled when it should not')
             .beTrue();
         ;
       }

       // To verify the realtimeAnalyser will stop pulling if it is connected to
       // a downstream node which is not ultimatly connected to any audio
       // destination.
       audit.define('test3', function(task, should) {
         constructCommonGraph();

         let gain = context.createGain();
         analyser.connect(gain);

         bufferSource.start(0);

         context.startRendering()
             .then(function() {
               test3Finished(should);
             })
             .then(task.done.bind(task));
       });

       audit.run();
     </script>
   </body>
 </html>
	<!DOCTYPE html>
	<html>
	<head>
	<title>
	automatic-pull-node.html
	</title>
	<script src="../../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">
	// This test verifies that the AudioBasicInspectorNode based nodes work
	// correctly

	let audit = Audit.createTaskRunner();

	let sampleRate = 44100.0;
	// We carefully arrange the renderLengthInFrames to be a multiple of the
	// AudioNode rendering quantum (AudioNode::ProcessingSizeInFrames) so that
	// AudioSourceNode will not feed tailing zeroes into the context and fail
	// this test.
	let renderLengthInFrames = 256;
	let fftSize = 64;

	let audioDataOne = 255; // Audio data 1.0 in Uint8 format will be 255.
	let audioDataZero = 128; // Audio data 0 in Uint8 format will be 128.

	let context;
	let constantBuffer;
	let bufferSource;
	let analyser;

	function constructCommonGraph() {
	// Create offline audio context.
	context = new OfflineAudioContext(1, renderLengthInFrames, sampleRate);
	constantBuffer = createConstantBuffer(context, renderLengthInFrames, 1);

	bufferSource = context.createBufferSource();
	bufferSource.buffer = constantBuffer;

	analyser = context.createAnalyser();
	analyser.fftSize = fftSize;

	bufferSource.connect(analyser);
	}

	function test1Finished(should) {
	let timeDomainData = new Uint8Array(fftSize);
	analyser.getByteTimeDomainData(timeDomainData);

	should(
	timeDomainData[0] >= audioDataOne,
	'RealtimeAnalyserNode got pulled when connected from upstream node but not to downstream node')
	.beTrue();
	}

	// To verify the realtimeAnalyser can pull data when there is an upstream
	// node connected to it but it's not connected to a downstream node.
	audit.define('test1', function(task, should) {
	constructCommonGraph();

	bufferSource.start(0);

	context.startRendering()
	.then(function() {
	test1Finished(should);
	})
	.then(task.done.bind(task));
	});

	function test2Finished(should) {
	let timeDomainData = new Uint8Array(fftSize);
	analyser.getByteTimeDomainData(timeDomainData);

	should(
	timeDomainData[0] >= audioDataOne,
	'RealtimeAnalyserNode got pulled when connected from upstream node and to destination node')
	.beTrue();
	}

	// To verify the realtimeAnalyser can process normally when there is an
	// upstream node connected to it and it's also connected to a downstream
	// node which ultimately connect to audio destination.
	audit.define('test2', function(task, should) {
	constructCommonGraph();

	analyser.connect(context.destination);

	bufferSource.start(0);

	context.startRendering()
	.then(function() {
	test2Finished(should);
	})
	.then(task.done.bind(task));
	});

	function test3Finished(should) {
	let timeDomainData = new Uint8Array(fftSize);
	analyser.getByteTimeDomainData(timeDomainData);

	// If realtimeAnalyser hasn't pulled any data, the data in buffer will
	// be 0.
	should(
	timeDomainData[0] == audioDataZero,
	'RealtimeAnalyserNode didn\'t get pulled when it should not')
	.beTrue();
	;
	}

	// To verify the realtimeAnalyser will stop pulling if it is connected to
	// a downstream node which is not ultimatly connected to any audio
	// destination.
	audit.define('test3', function(task, should) {
	constructCommonGraph();

	let gain = context.createGain();
	analyser.connect(gain);

	bufferSource.start(0);

	context.startRendering()
	.then(function() {
	test3Finished(should);
	})
	.then(task.done.bind(task));
	});

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