src/third_party/web_platform_tests/media-source/mediasource-sequencemode-append-buffer.html - cobalt - Git at Google

 <!DOCTYPE html>
 <html>
     <head>
         <title>SourceBuffer.mode == "sequence" test cases.</title>
         <script src="/resources/testharness.js"></script>
         <script src="/resources/testharnessreport.js"></script>
         <script src="mediasource-util.js"></script>
     </head>
     <body>
         <div id="log"></div>
         <script>
           function mediasource_sequencemode_test(testFunction, description, options)
           {
               return mediasource_testafterdataloaded(function(test, mediaElement, mediaSource, segmentInfo, sourceBuffer, mediaData)
               {
                   assert_greater_than(segmentInfo.media.length, 3, "at least 3 media segments for supported type");
                   mediaElement.addEventListener("error", test.unreached_func("Unexpected event 'error'"));
                   sourceBuffer.mode = "sequence";
                   assert_equals(sourceBuffer.mode, "sequence", "mode after setting it to \"sequence\"");

                   var initSegment = MediaSourceUtil.extractSegmentData(mediaData, segmentInfo.init);
                   test.expectEvent(sourceBuffer, "updatestart", "initSegment append started.");
                   test.expectEvent(sourceBuffer, "update", "initSegment append success.");
                   test.expectEvent(sourceBuffer, "updateend", "initSegment append ended.");
                   sourceBuffer.appendBuffer(initSegment);
                   test.waitForExpectedEvents(function()
                   {
                       assert_equals(sourceBuffer.timestampOffset, 0, "timestampOffset initially 0");
                       testFunction(test, mediaElement, mediaSource, segmentInfo, sourceBuffer, mediaData);
                   });
               }, description, options);
           }

           function append_segment(test, sourceBuffer, mediaData, info, callback)
           {
               var mediaSegment = MediaSourceUtil.extractSegmentData(mediaData, info);
               test.expectEvent(sourceBuffer, "updatestart", "media segment append started.");
               test.expectEvent(sourceBuffer, "update", "media segment append success.");
               test.expectEvent(sourceBuffer, "updateend", "media segment append ended.");
               sourceBuffer.appendBuffer(mediaSegment);
               test.waitForExpectedEvents(callback);
           }

           function threeDecimalPlaces(number)
           {
               return Number(number.toFixed(3));
           }

           // Verifies expected times to 3 decimal places before and after mediaSource.endOfStream(),
           // and calls |callback| on success.
           function verify_offset_and_buffered(test, mediaSource, sourceBuffer,
                                               expectedTimestampOffset, expectedBufferedRangeStartTime,
                                               expectedBufferedRangeMaxEndTimeBeforeEOS,
                                               expectedBufferedRangeEndTimeAfterEOS,
                                               callback) {
               assert_equals(threeDecimalPlaces(sourceBuffer.timestampOffset),
                             threeDecimalPlaces(expectedTimestampOffset),
                             "expectedTimestampOffset");

               // Prior to EOS, the buffered range end time may not have fully reached the next media
               // segment's timecode (adjusted by any timestampOffset). It should not exceed it though.
               // Therefore, an exact assertBufferedEquals() will not work here.
               assert_equals(sourceBuffer.buffered.length, 1, "sourceBuffer.buffered has 1 range before EOS");
               assert_equals(threeDecimalPlaces(sourceBuffer.buffered.start(0)),
                             threeDecimalPlaces(expectedBufferedRangeStartTime),
                             "sourceBuffer.buffered range begins where expected before EOS");
               assert_less_than_equal(threeDecimalPlaces(sourceBuffer.buffered.end(0)),
                                      threeDecimalPlaces(expectedBufferedRangeMaxEndTimeBeforeEOS),
                                      "sourceBuffer.buffered range ends at or before expected upper bound before EOS");

               test.expectEvent(mediaSource, "sourceended", "mediaSource endOfStream");
               mediaSource.endOfStream();
               test.waitForExpectedEvents(function()
               {
                   assertBufferedEquals(sourceBuffer,
                                        "{ [" + expectedBufferedRangeStartTime.toFixed(3) + ", " + expectedBufferedRangeEndTimeAfterEOS.toFixed(3) + ") }",
                                        "sourceBuffer.buffered after EOS");
                   callback();
               });
           }

           mediasource_sequencemode_test(function(test, mediaElement, mediaSource, segmentInfo, sourceBuffer, mediaData)
           {
               assert_equals(segmentInfo.media[0].timecode, 0, "segment starts at time 0");
               append_segment(test, sourceBuffer, mediaData, segmentInfo.media[0], function()
               {
                   verify_offset_and_buffered(test, mediaSource, sourceBuffer,
                                              0, 0,
                                              segmentInfo.media[1].timecode + sourceBuffer.timestampOffset,
                                              segmentInfo.media[0].highest_end_time + sourceBuffer.timestampOffset,
                                              test.done);
               });
           }, "Test sequence AppendMode appendBuffer(first media segment)");

           mediasource_sequencemode_test(function(test, mediaElement, mediaSource, segmentInfo, sourceBuffer, mediaData)
           {
               assert_greater_than(segmentInfo.media[1].timecode, 0, "segment starts after time 0");
               append_segment(test, sourceBuffer, mediaData, segmentInfo.media[1], function()
               {
                   verify_offset_and_buffered(test, mediaSource, sourceBuffer,
                                              -segmentInfo.media[1].timecode, 0,
                                              segmentInfo.media[2].timecode + sourceBuffer.timestampOffset,
                                              segmentInfo.media[1].highest_end_time + sourceBuffer.timestampOffset,
                                              test.done);
               });
           }, "Test sequence AppendMode appendBuffer(second media segment)");

           mediasource_sequencemode_test(function(test, mediaElement, mediaSource, segmentInfo, sourceBuffer, mediaData)
           {
               assert_greater_than(segmentInfo.media[1].timecode, 0, "segment starts after time 0");
               append_segment(test, sourceBuffer, mediaData, segmentInfo.media[1], function()
               {
                   assert_equals(segmentInfo.media[0].timecode, 0, "segment starts at time 0");
                   append_segment(test, sourceBuffer, mediaData, segmentInfo.media[0], function()
                   {
                       // Current timestampOffset should reflect offset required to put media[0]
                       // immediately after media[1]'s highest frame end timestamp (as was adjusted
                       // by an earlier timestampOffset).
                       verify_offset_and_buffered(test, mediaSource, sourceBuffer,
                                                  segmentInfo.media[1].highest_end_time - segmentInfo.media[1].timecode, 0,
                                                  segmentInfo.media[1].timecode + sourceBuffer.timestampOffset,
                                                  segmentInfo.media[0].highest_end_time + sourceBuffer.timestampOffset,
                                                  test.done);
                   })
               });
           }, "Test sequence AppendMode appendBuffer(second media segment, then first media segment)");
         </script>
     </body>
 </html>
	<!DOCTYPE html>
	<html>
	<head>
	<title>SourceBuffer.mode == "sequence" test cases.</title>
	<script src="/resources/testharness.js"></script>
	<script src="/resources/testharnessreport.js"></script>
	<script src="mediasource-util.js"></script>
	</head>
	<body>
	<div id="log"></div>
	<script>
	function mediasource_sequencemode_test(testFunction, description, options)
	{
	return mediasource_testafterdataloaded(function(test, mediaElement, mediaSource, segmentInfo, sourceBuffer, mediaData)
	{
	assert_greater_than(segmentInfo.media.length, 3, "at least 3 media segments for supported type");
	mediaElement.addEventListener("error", test.unreached_func("Unexpected event 'error'"));
	sourceBuffer.mode = "sequence";
	assert_equals(sourceBuffer.mode, "sequence", "mode after setting it to \"sequence\"");

	var initSegment = MediaSourceUtil.extractSegmentData(mediaData, segmentInfo.init);
	test.expectEvent(sourceBuffer, "updatestart", "initSegment append started.");
	test.expectEvent(sourceBuffer, "update", "initSegment append success.");
	test.expectEvent(sourceBuffer, "updateend", "initSegment append ended.");
	sourceBuffer.appendBuffer(initSegment);
	test.waitForExpectedEvents(function()
	{
	assert_equals(sourceBuffer.timestampOffset, 0, "timestampOffset initially 0");
	testFunction(test, mediaElement, mediaSource, segmentInfo, sourceBuffer, mediaData);
	});
	}, description, options);
	}

	function append_segment(test, sourceBuffer, mediaData, info, callback)
	{
	var mediaSegment = MediaSourceUtil.extractSegmentData(mediaData, info);
	test.expectEvent(sourceBuffer, "updatestart", "media segment append started.");
	test.expectEvent(sourceBuffer, "update", "media segment append success.");
	test.expectEvent(sourceBuffer, "updateend", "media segment append ended.");
	sourceBuffer.appendBuffer(mediaSegment);
	test.waitForExpectedEvents(callback);
	}

	function threeDecimalPlaces(number)
	{
	return Number(number.toFixed(3));
	}

	// Verifies expected times to 3 decimal places before and after mediaSource.endOfStream(),
	// and calls \|callback\| on success.
	function verify_offset_and_buffered(test, mediaSource, sourceBuffer,
	expectedTimestampOffset, expectedBufferedRangeStartTime,
	expectedBufferedRangeMaxEndTimeBeforeEOS,
	expectedBufferedRangeEndTimeAfterEOS,
	callback) {
	assert_equals(threeDecimalPlaces(sourceBuffer.timestampOffset),
	threeDecimalPlaces(expectedTimestampOffset),
	"expectedTimestampOffset");

	// Prior to EOS, the buffered range end time may not have fully reached the next media
	// segment's timecode (adjusted by any timestampOffset). It should not exceed it though.
	// Therefore, an exact assertBufferedEquals() will not work here.
	assert_equals(sourceBuffer.buffered.length, 1, "sourceBuffer.buffered has 1 range before EOS");
	assert_equals(threeDecimalPlaces(sourceBuffer.buffered.start(0)),
	threeDecimalPlaces(expectedBufferedRangeStartTime),
	"sourceBuffer.buffered range begins where expected before EOS");
	assert_less_than_equal(threeDecimalPlaces(sourceBuffer.buffered.end(0)),
	threeDecimalPlaces(expectedBufferedRangeMaxEndTimeBeforeEOS),
	"sourceBuffer.buffered range ends at or before expected upper bound before EOS");

	test.expectEvent(mediaSource, "sourceended", "mediaSource endOfStream");
	mediaSource.endOfStream();
	test.waitForExpectedEvents(function()
	{
	assertBufferedEquals(sourceBuffer,
	"{ [" + expectedBufferedRangeStartTime.toFixed(3) + ", " + expectedBufferedRangeEndTimeAfterEOS.toFixed(3) + ") }",
	"sourceBuffer.buffered after EOS");
	callback();
	});
	}

	mediasource_sequencemode_test(function(test, mediaElement, mediaSource, segmentInfo, sourceBuffer, mediaData)
	{
	assert_equals(segmentInfo.media[0].timecode, 0, "segment starts at time 0");
	append_segment(test, sourceBuffer, mediaData, segmentInfo.media[0], function()
	{
	verify_offset_and_buffered(test, mediaSource, sourceBuffer,
	0, 0,
	segmentInfo.media[1].timecode + sourceBuffer.timestampOffset,
	segmentInfo.media[0].highest_end_time + sourceBuffer.timestampOffset,
	test.done);
	});
	}, "Test sequence AppendMode appendBuffer(first media segment)");

	mediasource_sequencemode_test(function(test, mediaElement, mediaSource, segmentInfo, sourceBuffer, mediaData)
	{
	assert_greater_than(segmentInfo.media[1].timecode, 0, "segment starts after time 0");
	append_segment(test, sourceBuffer, mediaData, segmentInfo.media[1], function()
	{
	verify_offset_and_buffered(test, mediaSource, sourceBuffer,
	-segmentInfo.media[1].timecode, 0,
	segmentInfo.media[2].timecode + sourceBuffer.timestampOffset,
	segmentInfo.media[1].highest_end_time + sourceBuffer.timestampOffset,
	test.done);
	});
	}, "Test sequence AppendMode appendBuffer(second media segment)");

	mediasource_sequencemode_test(function(test, mediaElement, mediaSource, segmentInfo, sourceBuffer, mediaData)
	{
	assert_greater_than(segmentInfo.media[1].timecode, 0, "segment starts after time 0");
	append_segment(test, sourceBuffer, mediaData, segmentInfo.media[1], function()
	{
	assert_equals(segmentInfo.media[0].timecode, 0, "segment starts at time 0");
	append_segment(test, sourceBuffer, mediaData, segmentInfo.media[0], function()
	{
	// Current timestampOffset should reflect offset required to put media[0]
	// immediately after media[1]'s highest frame end timestamp (as was adjusted
	// by an earlier timestampOffset).
	verify_offset_and_buffered(test, mediaSource, sourceBuffer,
	segmentInfo.media[1].highest_end_time - segmentInfo.media[1].timecode, 0,
	segmentInfo.media[1].timecode + sourceBuffer.timestampOffset,
	segmentInfo.media[0].highest_end_time + sourceBuffer.timestampOffset,
	test.done);
	})
	});
	}, "Test sequence AppendMode appendBuffer(second media segment, then first media segment)");
	</script>
	</body>
	</html>