third_party/blink/perf_tests/resources/runner.js - chromium/src - Git at Google

 // There are tests for computeStatistics() located in LayoutTests/fast/harness/perftests

 if (window.testRunner) {
     testRunner.waitUntilDone();
     testRunner.dumpAsText();
 }

 (function () {
     var logLines = null;
     var completedIterations = -1;
     var callsPerIteration = 1;
     var currentTest = null;
     var results = [];
     var jsHeapResults = [];
     var iterationCount = undefined;

     var PerfTestRunner = {};

     // To make the benchmark results predictable, we replace Math.random with a
     // 100% deterministic alternative.
     PerfTestRunner.randomSeed = PerfTestRunner.initialRandomSeed = 49734321;

     PerfTestRunner.resetRandomSeed = function() {
         PerfTestRunner.randomSeed = PerfTestRunner.initialRandomSeed
     }

     PerfTestRunner.random = Math.random = function() {
         // Robert Jenkins' 32 bit integer hash function.
         var randomSeed = PerfTestRunner.randomSeed;
         randomSeed = ((randomSeed + 0x7ed55d16) + (randomSeed << 12))  & 0xffffffff;
         randomSeed = ((randomSeed ^ 0xc761c23c) ^ (randomSeed >>> 19)) & 0xffffffff;
         randomSeed = ((randomSeed + 0x165667b1) + (randomSeed << 5))   & 0xffffffff;
         randomSeed = ((randomSeed + 0xd3a2646c) ^ (randomSeed << 9))   & 0xffffffff;
         randomSeed = ((randomSeed + 0xfd7046c5) + (randomSeed << 3))   & 0xffffffff;
         randomSeed = ((randomSeed ^ 0xb55a4f09) ^ (randomSeed >>> 16)) & 0xffffffff;
         PerfTestRunner.randomSeed = randomSeed;
         return (randomSeed & 0xfffffff) / 0x10000000;
     };

     PerfTestRunner.now = window.performance && window.performance.now ? function () { return window.performance.now(); } : Date.now;

     PerfTestRunner.logInfo = function (text) {
         if (!window.testRunner)
             this.log(text);
     }

     PerfTestRunner.loadFile = function (path) {
         var xhr = new XMLHttpRequest();
         xhr.open("GET", path, false);
         xhr.send(null);
         return xhr.responseText;
     }

     PerfTestRunner.computeStatistics = function (times, unit) {
         var data = times.slice();

         // Add values from the smallest to the largest to avoid the loss of significance
         data.sort(function(a,b){return a-b;});

         var middle = Math.floor(data.length / 2);
         var result = {
             min: data[0],
             max: data[data.length - 1],
             median: data.length % 2 ? data[middle] : (data[middle - 1] + data[middle]) / 2,
         };

         // Compute the mean and variance using Knuth's online algorithm (has good numerical stability).
         var squareSum = 0;
         result.values = times;
         result.mean = 0;
         for (var i = 0; i < data.length; ++i) {
             var x = data[i];
             var delta = x - result.mean;
             var sweep = i + 1.0;
             result.mean += delta / sweep;
             squareSum += delta * (x - result.mean);
         }
         result.variance = data.length <= 1 ? 0 : squareSum / (data.length - 1);
         result.stdev = Math.sqrt(result.variance);
         result.unit = unit || "ms";

         return result;
     }

     PerfTestRunner.logStatistics = function (values, unit, title) {
         var statistics = this.computeStatistics(values, unit);
         this.log("");
         this.log(title);
         if (statistics.values)
             this.log("values " + statistics.values.join(", ") + " " + statistics.unit);
         this.log("avg " + statistics.mean + " " + statistics.unit);
         this.log("median " + statistics.median + " " + statistics.unit);
         this.log("stdev " + statistics.stdev + " " + statistics.unit);
         this.log("min " + statistics.min + " " + statistics.unit);
         this.log("max " + statistics.max + " " + statistics.unit);
     }

     function getUsedJSHeap() {
         return console.memory.usedJSHeapSize;
     }

     PerfTestRunner.gc = function () {
         if (window.GCController)
             window.GCController.collectAll();
         else {
             function gcRec(n) {
                 if (n < 1)
                     return {};
                 var temp = {i: "ab" + i + (i / 100000)};
                 temp += "foo";
                 gcRec(n-1);
             }
             for (var i = 0; i < 1000; i++)
                 gcRec(10);
         }
     };

     function logInDocument(text) {
         if (!document.getElementById("log")) {
             var pre = document.createElement("pre");
             pre.id = "log";
             document.body.appendChild(pre);
         }
         document.getElementById("log").innerHTML += text + "\n";
     }

     PerfTestRunner.log = function (text) {
         if (logLines)
             logLines.push(text);
         else
             logInDocument(text);
     }

     PerfTestRunner.logFatalError = function (text) {
         PerfTestRunner.log("FATAL: " + text);
         finish();
     }

     PerfTestRunner.assert_true = function (cond,text) {
       if (cond)
         return;
       PerfTestRunner.logFatalError(text);
     }

     PerfTestRunner.assert_false = function (cond,text) {
       PerfTestRunner.assert_true(!cond,text);
     }

     PerfTestRunner.formatException = function (text, exception) {
         return "Got an exception while " + text +
             " with name=" + exception.name +
             ", message=" + exception.message +
             "\n" + exception.stack;
     }

     PerfTestRunner.logException = function (text, exception) {
       PerfTestRunner.logFatalError(PerfTestRunner.formatException(text, exception));
     }

     PerfTestRunner.forceLayout = function(doc) {
         doc = doc || document;
         if (doc.body)
             doc.body.offsetHeight;
         else if (doc.documentElement)
             doc.documentElement.offsetHeight;
     };

     function start(test, scheduler, runner) {
         if (!test || !runner) {
             PerfTestRunner.logFatalError("Got a bad test object.");
             return;
         }
         currentTest = test;

         if (test.tracingCategories && !test.traceEventsToMeasure) {
             PerfTestRunner.logFatalError("test's tracingCategories is " +
                 "specified but test's traceEventsToMeasure is empty");
             return;
         }

         if (test.traceEventsToMeasure && !test.tracingCategories) {
             PerfTestRunner.logFatalError("test's traceEventsToMeasure is " +
                 "specified but test's tracingCategories is empty");
             return;
         }
         iterationCount = test.iterationCount || (window.testRunner ? 5 : 20);
         if (test.warmUpCount && test.warmUpCount > 0)
             completedIterations = -test.warmUpCount;
         logLines = PerfTestRunner.bufferedLog || window.testRunner ? [] : null;

         // Tests that run in workers are not impacted by the iteration control.
         if (!currentTest.runInWorker) {
             PerfTestRunner.log("Running " + iterationCount + " times");
         }

         if (test.doNotIgnoreInitialRun)
             completedIterations++;

         if (window.testRunner && window.testRunner.telemetryIsRunning) {
             testRunner.waitForTelemetry(test.tracingCategories, function() {
                 scheduleNextRun(scheduler, runner);
             });
             return;
         }

         if (test.tracingCategories) {
           PerfTestRunner.log("Tracing based metrics are specified but " +
               "tracing is not supported on this platform. To get those " +
               "metrics from this test, you can run the test using " +
               "tools/perf/run_benchmarks script.");
         }
         scheduleNextRun(scheduler, runner);
     }

     function scheduleNextRun(scheduler, runner) {
         if (!scheduler) {
             // This is an async measurement test which has its own scheduler.
             try {
                 runner();
             } catch (exception) {
               PerfTestRunner.logException("running test.run", exception);
             }
             return;
         }

         scheduler(function () {
             // This will be used by tools/perf/benchmarks/blink_perf.py to find
             // traces during the measured runs.
             if (completedIterations >= 0)
                 console.time("blink_perf");

             try {
                 if (currentTest.setup)
                     currentTest.setup();

                 var measuredValue = runner();

                 if (currentTest.teardown)
                     currentTest.teardown();
             } catch (exception) {
                 PerfTestRunner.logException("running test.run", exception);
                 return;
             }

             completedIterations++;

             try {
                 ignoreWarmUpAndLog(measuredValue);
             } catch (exception) {
                 PerfTestRunner.logException("logging the result", exception);
                 return;
             }

             if (completedIterations < iterationCount)
                 scheduleNextRun(scheduler, runner);
             else
                 finish();
         });
     }

     function ignoreWarmUpAndLog(measuredValue) {
         var labeledResult = measuredValue + " " + PerfTestRunner.unit;
         // Tests that run in workers are not impacted by the iteration control.
         if (!currentTest.runInWorker && completedIterations <= 0)
             PerfTestRunner.log("Ignoring warm-up run (" + labeledResult + ")");
         else {
             results.push(measuredValue);
             if (window.internals && !currentTest.doNotMeasureMemoryUsage) {
                 jsHeapResults.push(getUsedJSHeap());
             }
             PerfTestRunner.log(labeledResult);
         }
     }

     function finish() {
         try {
             // The blink_perf timer is only started for non-worker test.
             if (!currentTest.runInWorker)
                 console.timeEnd("blink_perf");
             if (currentTest.description)
                 PerfTestRunner.log("Description: " + currentTest.description);
             PerfTestRunner.logStatistics(results, PerfTestRunner.unit, "Time:");
             if (jsHeapResults.length) {
                 PerfTestRunner.logStatistics(jsHeapResults, "bytes", "JS Heap:");
             }
             if (logLines)
                 logLines.forEach(logInDocument);
             window.scrollTo(0, document.body.offsetHeight);
             if (currentTest.done)
                 currentTest.done();
         } catch (exception) {
             logInDocument(PerfTestRunner.formatException("finalizing the test", exception));
         }

         if (window.testRunner) {
             if (currentTest.traceEventsToMeasure &&
                 testRunner.telemetryIsRunning) {
                 testRunner.stopTracingAndMeasure(
                     currentTest.traceEventsToMeasure, function() {
                         testRunner.notifyDone();
                     });
             } else {
                 testRunner.notifyDone();
             }
         }
     }

     PerfTestRunner.startMeasureValuesAsync = function (test) {
         PerfTestRunner.unit = test.unit;
         start(test, undefined, function() { test.run() });
     }

     PerfTestRunner.measureValueAsync = function (measuredValue) {
         completedIterations++;

         try {
             ignoreWarmUpAndLog(measuredValue);
         } catch (exception) {
             PerfTestRunner.logFatalError("Got an exception while logging the result with name=" + exception.name + ", message=" + exception.message);
             return;
         }

         if (completedIterations >= iterationCount)
             finish();
     }

     PerfTestRunner.addRunTestStartMarker = function () {
       if (!window.testRunner || !window.testRunner.telemetryIsRunning)
           return;
       if (completedIterations < 0)
           console.time('blink_perf.runTest.warmup');
       else
           console.time('blink_perf.runTest');
     };

     PerfTestRunner.addRunTestEndMarker = function () {
       if (!window.testRunner || !window.testRunner.telemetryIsRunning)
           return;
       if (completedIterations < 0)
           console.timeEnd('blink_perf.runTest.warmup');
       else
           console.timeEnd('blink_perf.runTest');
     };


     PerfTestRunner.measureFrameTime = function (test) {
         PerfTestRunner.unit = "ms";
         PerfTestRunner.bufferedLog = true;
         test.warmUpCount = test.warmUpCount || 5;
         test.iterationCount = test.iterationCount || 10;
         // Force gc before starting the test to avoid the measured time from
         // being affected by gc performance. See crbug.com/667811#c16.
         PerfTestRunner.gc();
         start(test, requestAnimationFrame, measureFrameTimeOnce);
     }

     PerfTestRunner.measureInnerRAFTime = function (test) {
         PerfTestRunner.unit = "ms";
         PerfTestRunner.bufferedLog = true;
         test.warmUpCount = test.warmUpCount || 5;
         test.iterationCount = test.iterationCount || 10;
         // Force gc before starting the test to avoid the measured time from
         // being affected by gc performance. See crbug.com/667811#c16.
         PerfTestRunner.gc();
         start(test, requestAnimationFrame, measureTimeOnce);
     }

     var lastFrameTime = -1;
     function measureFrameTimeOnce() {
         var now = PerfTestRunner.now();
         var result = lastFrameTime == -1 ? -1 : now - lastFrameTime;
         lastFrameTime = now;
         PerfTestRunner.addRunTestStartMarker();

         var returnValue = currentTest.run();
         requestAnimationFrame(function() {
             PerfTestRunner.addRunTestEndMarker();
         });
         if (returnValue - 0 === returnValue) {
             if (returnValue < 0)
                 PerfTestRunner.log("runFunction returned a negative value: " + returnValue);
             return returnValue;
         }

         return result;
     }

     PerfTestRunner.measureTime = function (test) {
         PerfTestRunner.unit = "ms";
         PerfTestRunner.bufferedLog = true;
         start(test, zeroTimeoutScheduler, measureTimeOnce);
     }

     PerfTestRunner.measureValue = function (test) {
         PerfTestRunner.unit = test.unit;
         start(test, zeroTimeoutScheduler, measureTimeOnce);
     }

     function zeroTimeoutScheduler(task) {
         setTimeout(task, 0);
     }

     function measureTimeOnce() {
         // Force gc before measuring time to avoid interference between tests.
         PerfTestRunner.gc();

         PerfTestRunner.addRunTestStartMarker();
         var start = PerfTestRunner.now();
         var returnValue = currentTest.run();
         var end = PerfTestRunner.now();
         PerfTestRunner.addRunTestEndMarker();

         if (returnValue - 0 === returnValue) {
             if (returnValue < 0)
                 PerfTestRunner.log("runFunction returned a negative value: " + returnValue);
             return returnValue;
         }

         return end - start;
     }

     PerfTestRunner.measureRunsPerSecond = function (test) {
         PerfTestRunner.unit = "runs/s";
         start(test, zeroTimeoutScheduler, measureRunsPerSecondOnce);
     }

     function measureRunsPerSecondOnce() {
         var timeToRun = 750;
         var totalTime = 0;
         var numberOfRuns = 0;

         while (totalTime < timeToRun) {
             totalTime += callRunAndMeasureTime(callsPerIteration);
             numberOfRuns += callsPerIteration;
             if (completedIterations < 0 && totalTime < 100)
                 callsPerIteration = Math.max(10, 2 * callsPerIteration);
         }

         return numberOfRuns * 1000 / totalTime;
     }

     function callRunAndMeasureTime(callsPerIteration) {
         // Force gc before measuring time to avoid interference between tests.
         PerfTestRunner.gc();

         var startTime = PerfTestRunner.now();
         for (var i = 0; i < callsPerIteration; i++)
             currentTest.run();
         return PerfTestRunner.now() - startTime;
     }


     PerfTestRunner.measurePageLoadTime = function(test) {
         var file = PerfTestRunner.loadFile(test.path);
         test.run = function() {
             if (!test.chunkSize)
                 this.chunkSize = 50000;

             var chunks = [];
             // The smaller the chunks the more style resolves we do.
             // Smaller chunk sizes will show more samples in style resolution.
             // Larger chunk sizes will show more samples in line layout.
             // Smaller chunk sizes run slower overall, as the per-chunk overhead is high.
             var chunkCount = Math.ceil(file.length / this.chunkSize);
             for (var chunkIndex = 0; chunkIndex < chunkCount; chunkIndex++) {
                 var chunk = file.substr(chunkIndex * this.chunkSize, this.chunkSize);
                 chunks.push(chunk);
             }

             PerfTestRunner.logInfo("Testing " + file.length + " byte document in " + chunkCount + " " + this.chunkSize + " byte chunks.");

             var iframe = document.createElement("iframe");
             document.body.appendChild(iframe);

             iframe.sandbox = '';  // Prevent external loads which could cause write() to return before completing the parse.
             iframe.style.width = "600px"; // Have a reasonable size so we're not line-breaking on every character.
             iframe.style.height = "800px";
             iframe.contentDocument.open();

             for (var chunkIndex = 0; chunkIndex < chunks.length; chunkIndex++) {
                 iframe.contentDocument.write(chunks[chunkIndex]);
                 PerfTestRunner.forceLayout(iframe.contentDocument);
             }

             iframe.contentDocument.close();
             document.body.removeChild(iframe);
         };

         PerfTestRunner.measureTime(test);
     }

     // Used for tests that run in workers.
     // 1. Call this method to trigger the test. It should be used together
     //    with |WorkerTestHelper.measureRunsPerSecond()| which is defined in
     //    src/third_party/blink/perf_tests/resources/worker-test-helper.js.
     // 2. The iteration control parameters (test.iterationCount,
     //    test.doNotIgnoreInitialRun, and test.warmUpCount) are ignored.
     //    Use parameters of |measureRunsPerSecond()| to control iteration.
     // 3. Test result should be sent to the page where the test is triggered.
     //    Then the result should be recorded by |recordResultFromWorker()| to
     //    finish the test.
     PerfTestRunner.startMeasureValuesInWorker = function (test) {
         PerfTestRunner.unit = test.unit;
         test.runInWorker = true;
         start(test, undefined, function() { test.run(); });
     }

     // Used for tests that run in workers.
     // This method records the result posted from worker thread and finishes the test.
     PerfTestRunner.recordResultFromWorker = function(result) {
         if (result.error) {
             PerfTestRunner.logFatalError(result.error);
             return;
         }

         PerfTestRunner.log("Running " + result.values.length + " times");
         try {
             result.values.forEach((value) => {
                 ignoreWarmUpAndLog(value);
             });
         } catch (exception) {
             PerfTestRunner.logFatalError("Got an exception while logging the result with name=" + exception.name + ", message=" + exception.message);
             return;
         }

         finish();
     }

     window.PerfTestRunner = PerfTestRunner;
 })();
	// There are tests for computeStatistics() located in LayoutTests/fast/harness/perftests

	if (window.testRunner) {
	testRunner.waitUntilDone();
	testRunner.dumpAsText();
	}

	(function () {
	var logLines = null;
	var completedIterations = -1;
	var callsPerIteration = 1;
	var currentTest = null;
	var results = [];
	var jsHeapResults = [];
	var iterationCount = undefined;

	var PerfTestRunner = {};

	// To make the benchmark results predictable, we replace Math.random with a
	// 100% deterministic alternative.
	PerfTestRunner.randomSeed = PerfTestRunner.initialRandomSeed = 49734321;

	PerfTestRunner.resetRandomSeed = function() {
	PerfTestRunner.randomSeed = PerfTestRunner.initialRandomSeed
	}

	PerfTestRunner.random = Math.random = function() {
	// Robert Jenkins' 32 bit integer hash function.
	var randomSeed = PerfTestRunner.randomSeed;
	randomSeed = ((randomSeed + 0x7ed55d16) + (randomSeed << 12)) & 0xffffffff;
	randomSeed = ((randomSeed ^ 0xc761c23c) ^ (randomSeed >>> 19)) & 0xffffffff;
	randomSeed = ((randomSeed + 0x165667b1) + (randomSeed << 5)) & 0xffffffff;
	randomSeed = ((randomSeed + 0xd3a2646c) ^ (randomSeed << 9)) & 0xffffffff;
	randomSeed = ((randomSeed + 0xfd7046c5) + (randomSeed << 3)) & 0xffffffff;
	randomSeed = ((randomSeed ^ 0xb55a4f09) ^ (randomSeed >>> 16)) & 0xffffffff;
	PerfTestRunner.randomSeed = randomSeed;
	return (randomSeed & 0xfffffff) / 0x10000000;
	};

	PerfTestRunner.now = window.performance && window.performance.now ? function () { return window.performance.now(); } : Date.now;

	PerfTestRunner.logInfo = function (text) {
	if (!window.testRunner)
	this.log(text);
	}

	PerfTestRunner.loadFile = function (path) {
	var xhr = new XMLHttpRequest();
	xhr.open("GET", path, false);
	xhr.send(null);
	return xhr.responseText;
	}

	PerfTestRunner.computeStatistics = function (times, unit) {
	var data = times.slice();

	// Add values from the smallest to the largest to avoid the loss of significance
	data.sort(function(a,b){return a-b;});

	var middle = Math.floor(data.length / 2);
	var result = {
	min: data[0],
	max: data[data.length - 1],
	median: data.length % 2 ? data[middle] : (data[middle - 1] + data[middle]) / 2,
	};

	// Compute the mean and variance using Knuth's online algorithm (has good numerical stability).
	var squareSum = 0;
	result.values = times;
	result.mean = 0;
	for (var i = 0; i < data.length; ++i) {
	var x = data[i];
	var delta = x - result.mean;
	var sweep = i + 1.0;
	result.mean += delta / sweep;
	squareSum += delta * (x - result.mean);
	}
	result.variance = data.length <= 1 ? 0 : squareSum / (data.length - 1);
	result.stdev = Math.sqrt(result.variance);
	result.unit = unit \|\| "ms";

	return result;
	}

	PerfTestRunner.logStatistics = function (values, unit, title) {
	var statistics = this.computeStatistics(values, unit);
	this.log("");
	this.log(title);
	if (statistics.values)
	this.log("values " + statistics.values.join(", ") + " " + statistics.unit);
	this.log("avg " + statistics.mean + " " + statistics.unit);
	this.log("median " + statistics.median + " " + statistics.unit);
	this.log("stdev " + statistics.stdev + " " + statistics.unit);
	this.log("min " + statistics.min + " " + statistics.unit);
	this.log("max " + statistics.max + " " + statistics.unit);
	}

	function getUsedJSHeap() {
	return console.memory.usedJSHeapSize;
	}

	PerfTestRunner.gc = function () {
	if (window.GCController)
	window.GCController.collectAll();
	else {
	function gcRec(n) {
	if (n < 1)
	return {};
	var temp = {i: "ab" + i + (i / 100000)};
	temp += "foo";
	gcRec(n-1);
	}
	for (var i = 0; i < 1000; i++)
	gcRec(10);
	}
	};

	function logInDocument(text) {
	if (!document.getElementById("log")) {
	var pre = document.createElement("pre");
	pre.id = "log";
	document.body.appendChild(pre);
	}
	document.getElementById("log").innerHTML += text + "\n";
	}

	PerfTestRunner.log = function (text) {
	if (logLines)
	logLines.push(text);
	else
	logInDocument(text);
	}

	PerfTestRunner.logFatalError = function (text) {
	PerfTestRunner.log("FATAL: " + text);
	finish();
	}

	PerfTestRunner.assert_true = function (cond,text) {
	if (cond)
	return;
	PerfTestRunner.logFatalError(text);
	}

	PerfTestRunner.assert_false = function (cond,text) {
	PerfTestRunner.assert_true(!cond,text);
	}

	PerfTestRunner.formatException = function (text, exception) {
	return "Got an exception while " + text +
	" with name=" + exception.name +
	", message=" + exception.message +
	"\n" + exception.stack;
	}

	PerfTestRunner.logException = function (text, exception) {
	PerfTestRunner.logFatalError(PerfTestRunner.formatException(text, exception));
	}

	PerfTestRunner.forceLayout = function(doc) {
	doc = doc \|\| document;
	if (doc.body)
	doc.body.offsetHeight;
	else if (doc.documentElement)
	doc.documentElement.offsetHeight;
	};

	function start(test, scheduler, runner) {
	if (!test \|\| !runner) {
	PerfTestRunner.logFatalError("Got a bad test object.");
	return;
	}
	currentTest = test;

	if (test.tracingCategories && !test.traceEventsToMeasure) {
	PerfTestRunner.logFatalError("test's tracingCategories is " +
	"specified but test's traceEventsToMeasure is empty");
	return;
	}

	if (test.traceEventsToMeasure && !test.tracingCategories) {
	PerfTestRunner.logFatalError("test's traceEventsToMeasure is " +
	"specified but test's tracingCategories is empty");
	return;
	}
	iterationCount = test.iterationCount \|\| (window.testRunner ? 5 : 20);
	if (test.warmUpCount && test.warmUpCount > 0)
	completedIterations = -test.warmUpCount;
	logLines = PerfTestRunner.bufferedLog \|\| window.testRunner ? [] : null;

	// Tests that run in workers are not impacted by the iteration control.
	if (!currentTest.runInWorker) {
	PerfTestRunner.log("Running " + iterationCount + " times");
	}

	if (test.doNotIgnoreInitialRun)
	completedIterations++;

	if (window.testRunner && window.testRunner.telemetryIsRunning) {
	testRunner.waitForTelemetry(test.tracingCategories, function() {
	scheduleNextRun(scheduler, runner);
	});
	return;
	}

	if (test.tracingCategories) {
	PerfTestRunner.log("Tracing based metrics are specified but " +
	"tracing is not supported on this platform. To get those " +
	"metrics from this test, you can run the test using " +
	"tools/perf/run_benchmarks script.");
	}
	scheduleNextRun(scheduler, runner);
	}

	function scheduleNextRun(scheduler, runner) {
	if (!scheduler) {
	// This is an async measurement test which has its own scheduler.
	try {
	runner();
	} catch (exception) {
	PerfTestRunner.logException("running test.run", exception);
	}
	return;
	}

	scheduler(function () {
	// This will be used by tools/perf/benchmarks/blink_perf.py to find
	// traces during the measured runs.
	if (completedIterations >= 0)
	console.time("blink_perf");

	try {
	if (currentTest.setup)
	currentTest.setup();

	var measuredValue = runner();

	if (currentTest.teardown)
	currentTest.teardown();
	} catch (exception) {
	PerfTestRunner.logException("running test.run", exception);
	return;
	}

	completedIterations++;

	try {
	ignoreWarmUpAndLog(measuredValue);
	} catch (exception) {
	PerfTestRunner.logException("logging the result", exception);
	return;
	}

	if (completedIterations < iterationCount)
	scheduleNextRun(scheduler, runner);
	else
	finish();
	});
	}

	function ignoreWarmUpAndLog(measuredValue) {
	var labeledResult = measuredValue + " " + PerfTestRunner.unit;
	// Tests that run in workers are not impacted by the iteration control.
	if (!currentTest.runInWorker && completedIterations <= 0)
	PerfTestRunner.log("Ignoring warm-up run (" + labeledResult + ")");
	else {
	results.push(measuredValue);
	if (window.internals && !currentTest.doNotMeasureMemoryUsage) {
	jsHeapResults.push(getUsedJSHeap());
	}
	PerfTestRunner.log(labeledResult);
	}
	}

	function finish() {
	try {
	// The blink_perf timer is only started for non-worker test.
	if (!currentTest.runInWorker)
	console.timeEnd("blink_perf");
	if (currentTest.description)
	PerfTestRunner.log("Description: " + currentTest.description);
	PerfTestRunner.logStatistics(results, PerfTestRunner.unit, "Time:");
	if (jsHeapResults.length) {
	PerfTestRunner.logStatistics(jsHeapResults, "bytes", "JS Heap:");
	}
	if (logLines)
	logLines.forEach(logInDocument);
	window.scrollTo(0, document.body.offsetHeight);
	if (currentTest.done)
	currentTest.done();
	} catch (exception) {
	logInDocument(PerfTestRunner.formatException("finalizing the test", exception));
	}

	if (window.testRunner) {
	if (currentTest.traceEventsToMeasure &&
	testRunner.telemetryIsRunning) {
	testRunner.stopTracingAndMeasure(
	currentTest.traceEventsToMeasure, function() {
	testRunner.notifyDone();
	});
	} else {
	testRunner.notifyDone();
	}
	}
	}

	PerfTestRunner.startMeasureValuesAsync = function (test) {
	PerfTestRunner.unit = test.unit;
	start(test, undefined, function() { test.run() });
	}

	PerfTestRunner.measureValueAsync = function (measuredValue) {
	completedIterations++;

	try {
	ignoreWarmUpAndLog(measuredValue);
	} catch (exception) {
	PerfTestRunner.logFatalError("Got an exception while logging the result with name=" + exception.name + ", message=" + exception.message);
	return;
	}

	if (completedIterations >= iterationCount)
	finish();
	}

	PerfTestRunner.addRunTestStartMarker = function () {
	if (!window.testRunner \|\| !window.testRunner.telemetryIsRunning)
	return;
	if (completedIterations < 0)
	console.time('blink_perf.runTest.warmup');
	else
	console.time('blink_perf.runTest');
	};

	PerfTestRunner.addRunTestEndMarker = function () {
	if (!window.testRunner \|\| !window.testRunner.telemetryIsRunning)
	return;
	if (completedIterations < 0)
	console.timeEnd('blink_perf.runTest.warmup');
	else
	console.timeEnd('blink_perf.runTest');
	};


	PerfTestRunner.measureFrameTime = function (test) {
	PerfTestRunner.unit = "ms";
	PerfTestRunner.bufferedLog = true;
	test.warmUpCount = test.warmUpCount \|\| 5;
	test.iterationCount = test.iterationCount \|\| 10;
	// Force gc before starting the test to avoid the measured time from
	// being affected by gc performance. See crbug.com/667811#c16.
	PerfTestRunner.gc();
	start(test, requestAnimationFrame, measureFrameTimeOnce);
	}

	PerfTestRunner.measureInnerRAFTime = function (test) {
	PerfTestRunner.unit = "ms";
	PerfTestRunner.bufferedLog = true;
	test.warmUpCount = test.warmUpCount \|\| 5;
	test.iterationCount = test.iterationCount \|\| 10;
	// Force gc before starting the test to avoid the measured time from
	// being affected by gc performance. See crbug.com/667811#c16.
	PerfTestRunner.gc();
	start(test, requestAnimationFrame, measureTimeOnce);
	}

	var lastFrameTime = -1;
	function measureFrameTimeOnce() {
	var now = PerfTestRunner.now();
	var result = lastFrameTime == -1 ? -1 : now - lastFrameTime;
	lastFrameTime = now;
	PerfTestRunner.addRunTestStartMarker();

	var returnValue = currentTest.run();
	requestAnimationFrame(function() {
	PerfTestRunner.addRunTestEndMarker();
	});
	if (returnValue - 0 === returnValue) {
	if (returnValue < 0)
	PerfTestRunner.log("runFunction returned a negative value: " + returnValue);
	return returnValue;
	}

	return result;
	}

	PerfTestRunner.measureTime = function (test) {
	PerfTestRunner.unit = "ms";
	PerfTestRunner.bufferedLog = true;
	start(test, zeroTimeoutScheduler, measureTimeOnce);
	}

	PerfTestRunner.measureValue = function (test) {
	PerfTestRunner.unit = test.unit;
	start(test, zeroTimeoutScheduler, measureTimeOnce);
	}

	function zeroTimeoutScheduler(task) {
	setTimeout(task, 0);
	}

	function measureTimeOnce() {
	// Force gc before measuring time to avoid interference between tests.
	PerfTestRunner.gc();

	PerfTestRunner.addRunTestStartMarker();
	var start = PerfTestRunner.now();
	var returnValue = currentTest.run();
	var end = PerfTestRunner.now();
	PerfTestRunner.addRunTestEndMarker();

	if (returnValue - 0 === returnValue) {
	if (returnValue < 0)
	PerfTestRunner.log("runFunction returned a negative value: " + returnValue);
	return returnValue;
	}

	return end - start;
	}

	PerfTestRunner.measureRunsPerSecond = function (test) {
	PerfTestRunner.unit = "runs/s";
	start(test, zeroTimeoutScheduler, measureRunsPerSecondOnce);
	}

	function measureRunsPerSecondOnce() {
	var timeToRun = 750;
	var totalTime = 0;
	var numberOfRuns = 0;

	while (totalTime < timeToRun) {
	totalTime += callRunAndMeasureTime(callsPerIteration);
	numberOfRuns += callsPerIteration;
	if (completedIterations < 0 && totalTime < 100)
	callsPerIteration = Math.max(10, 2 * callsPerIteration);
	}

	return numberOfRuns * 1000 / totalTime;
	}

	function callRunAndMeasureTime(callsPerIteration) {
	// Force gc before measuring time to avoid interference between tests.
	PerfTestRunner.gc();

	var startTime = PerfTestRunner.now();
	for (var i = 0; i < callsPerIteration; i++)
	currentTest.run();
	return PerfTestRunner.now() - startTime;
	}


	PerfTestRunner.measurePageLoadTime = function(test) {
	var file = PerfTestRunner.loadFile(test.path);
	test.run = function() {
	if (!test.chunkSize)
	this.chunkSize = 50000;

	var chunks = [];
	// The smaller the chunks the more style resolves we do.
	// Smaller chunk sizes will show more samples in style resolution.
	// Larger chunk sizes will show more samples in line layout.
	// Smaller chunk sizes run slower overall, as the per-chunk overhead is high.
	var chunkCount = Math.ceil(file.length / this.chunkSize);
	for (var chunkIndex = 0; chunkIndex < chunkCount; chunkIndex++) {
	var chunk = file.substr(chunkIndex * this.chunkSize, this.chunkSize);
	chunks.push(chunk);
	}

	PerfTestRunner.logInfo("Testing " + file.length + " byte document in " + chunkCount + " " + this.chunkSize + " byte chunks.");

	var iframe = document.createElement("iframe");
	document.body.appendChild(iframe);

	iframe.sandbox = ''; // Prevent external loads which could cause write() to return before completing the parse.
	iframe.style.width = "600px"; // Have a reasonable size so we're not line-breaking on every character.
	iframe.style.height = "800px";
	iframe.contentDocument.open();

	for (var chunkIndex = 0; chunkIndex < chunks.length; chunkIndex++) {
	iframe.contentDocument.write(chunks[chunkIndex]);
	PerfTestRunner.forceLayout(iframe.contentDocument);
	}

	iframe.contentDocument.close();
	document.body.removeChild(iframe);
	};

	PerfTestRunner.measureTime(test);
	}

	// Used for tests that run in workers.
	// 1. Call this method to trigger the test. It should be used together
	// with \|WorkerTestHelper.measureRunsPerSecond()\| which is defined in
	// src/third_party/blink/perf_tests/resources/worker-test-helper.js.
	// 2. The iteration control parameters (test.iterationCount,
	// test.doNotIgnoreInitialRun, and test.warmUpCount) are ignored.
	// Use parameters of \|measureRunsPerSecond()\| to control iteration.
	// 3. Test result should be sent to the page where the test is triggered.
	// Then the result should be recorded by \|recordResultFromWorker()\| to
	// finish the test.
	PerfTestRunner.startMeasureValuesInWorker = function (test) {
	PerfTestRunner.unit = test.unit;
	test.runInWorker = true;
	start(test, undefined, function() { test.run(); });
	}

	// Used for tests that run in workers.
	// This method records the result posted from worker thread and finishes the test.
	PerfTestRunner.recordResultFromWorker = function(result) {
	if (result.error) {
	PerfTestRunner.logFatalError(result.error);
	return;
	}

	PerfTestRunner.log("Running " + result.values.length + " times");
	try {
	result.values.forEach((value) => {
	ignoreWarmUpAndLog(value);
	});
	} catch (exception) {
	PerfTestRunner.logFatalError("Got an exception while logging the result with name=" + exception.name + ", message=" + exception.message);
	return;
	}

	finish();
	}

	window.PerfTestRunner = PerfTestRunner;
	})();