Make setTarget followed by linear or exponential ramp continuous.

third_party/WebKit/LayoutTests/webaudio/audioparam-setTargetAtTime-continuous.html

Index: third_party/WebKit/LayoutTests/webaudio/audioparam-setTargetAtTime-continuous.html
diff --git a/third_party/WebKit/LayoutTests/webaudio/audioparam-setTargetAtTime-continuous.html b/third_party/WebKit/LayoutTests/webaudio/audioparam-setTargetAtTime-continuous.html
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+<!doctype html>
+<html>
+  <head>
+    <script src="../resources/js-test.js"></script>
+    <script src="resources/compatibility.js"></script>
+    <script src="resources/audio-testing.js"></script>
+    <script src="resources/audioparam-testing.js"></script>
+    <title>SetTarget Followed by Linear or Exponential Ramp Is Continuous</title>
+  </head>
+
+  <body>
+    <script>
+      description("Test SetTarget Followed by Linear or Exponential Ramp");
+      window.jsTestIsAsync = true;
+
+      var sampleRate = 48000;
+      var renderQuantum = 128;
+      // Test doesn't need to run for very long.
+      var renderDuration = 0.1;
+      // Where the ramp should end
+      var rampEndTime = renderDuration - .05;
+      var renderFrames = renderDuration * sampleRate;
+      var timeConstant = 0.01;
+
+      var audit = Audit.createTaskRunner();
+
+      // All of the tests start a SetTargetAtTime after one rendering quantum.  The following tests
+      // handle various cases where a linear or exponential ramp is scheduled at or after
+      // SetTargetAtTime starts.
+      
+      audit.defineTask("linear ramp replace", function (done) {
+        // Schedule a linear ramp to start at the same time as SetTargetAtTime.  This effectively
+        // replaces the SetTargetAtTime as if it never existed.
+        runTest("Linear ramp", {
+          automationFunction: function (audioparam, endValue, endTime) {
+            audioparam.linearRampToValueAtTime(endValue, endTime);
+          },
+          referenceFunction: linearResult,
+          automationTime: renderQuantum / sampleRate,
+          thresholdSetTarget: 0,
+          thresholdRamp: 1.26765e-6
+        }).then(done);
+      });
+
+      audit.defineTask("delayed linear ramp", function (done) {
+        // Schedule a linear ramp to start after the SetTargetAtTime has already started rendering.
+        // This is the main test to verify that the linear ramp is continuous with the
+        // SetTargetAtTime curve.
+        runTest("Delayed linear ramp", {
+          automationFunction: function (audioparam, endValue, endTime) {
+            audioparam.linearRampToValueAtTime(endValue, endTime);
+          },
+          referenceFunction: linearResult,
+          automationTime: 4 * renderQuantum / sampleRate,
+          thresholdSetTarget: 2.19417e-7,
+          thresholdRamp: 1.07972e-6
+        }).then(done);
+      });
+
+      audit.defineTask("expo ramp replace", function (done) {
+        // Like "linear ramp replace", but with an exponential ramp instead.
+        runTest("Exponential ramp", {
+          automationFunction: function (audioparam, endValue, endTime) {
+            audioparam.exponentialRampToValueAtTime(endValue, endTime);
+          },
+          referenceFunction: exponentialResult,
+          automationTime: renderQuantum / sampleRate,
+          thresholdSetTarget: 0,
+          thresholdRamp: 1.13249e-5
+        }).then(done);
+      });
+
+      audit.defineTask("delayed expo ramp", function (done) {
+        // Like "delayed linear ramp", but with an exponential ramp instead.
+        runTest("Delayed exponential ramp", {
+          automationFunction: function (audioparam, endValue, endTime) {
+            audioparam.exponentialRampToValueAtTime(endValue, endTime);
+          },
+          referenceFunction: exponentialResult,
+          automationTime: 4 * renderQuantum / sampleRate,
+          thresholdSetTarget: 2.19417e-7,
+          thresholdRamp: 4.17233e-6
+        }).then(done);
+      });
+
+      audit.defineTask("finish", function (done) {
+        finishJSTest();
+        done();
+      });
+
+      audit.runTasks();
+
+      function computeExpectedResult(automationTime, timeConstant, endValue, endTime, rampFunction) {
+        // The result is a constant value of 1 for one rendering quantum, then a SetTarget event
+        // lasting to |automationTime|, at which point a ramp starts which ends at |endValue|
+        // at |endTime|.  Then the rest of curve should be held constant at |endValue|.
+        var initialPart = new Array(renderQuantum);
+        initialPart.fill(1);
+
+        // Generate 1 extra frame so that we know where to start the linear ramp.  The last sample
+        // of the array is where the ramp should start from.
+        var setTargetPart = createExponentialApproachArray(renderQuantum / sampleRate,
+          automationTime + 1 / sampleRate, 1, 0, sampleRate, timeConstant);
+        var setTargetLength = setTargetPart.length;
+
+        // Generate the ramp starting at |automationTime| with a value from last value of the
+        // SetTarget curve above.
+        var rampPart = rampFunction(automationTime, endTime,
+          setTargetPart[setTargetLength - 1], endValue, sampleRate);
+
+        // Finally finish out the rest with a constant value of |endValue|, if needed.
+        var finalPart = new Array(Math.floor((renderDuration - endTime) * sampleRate));
+        finalPart.fill(endValue);
+
+        // Return the four parts separately for testing.
+        return {
+          initialPart: initialPart,
+          setTargetPart: setTargetPart.slice(0, setTargetLength - 1),
+          rampPart: rampPart,
+          tailPart: finalPart
+        };
+      }
+
+      function linearResult(automationTime, timeConstant, endValue, endTime) {
+        return computeExpectedResult(automationTime, timeConstant, endValue, endTime, createLinearRampArray);
+      }
+
+      function exponentialResult(automationTime, timeConstant, endValue, endTime) {
+        return computeExpectedResult(automationTime, timeConstant, endValue, endTime, createExponentialRampArray);
+      }
+
+      // Run test to verify that a SetTarget followed by a ramp produces a continuous curve.
+      // |prefix| is a string to use as a prefix for the messages. |options| is a dictionary
+      // describing how the test is run:
+      //
+      //   |options.automationFunction|
+      //     The function to use to start the automation, which should be a linear or exponential
+      //     ramp automation.  This function has three arguments:
+      //       audioparam - the AudioParam to be automated
+      //       endValue   - the end value of the ramp
+      //       endTime    - the end time fo the ramp.
+      //   |options.referenceFunction|
+      //     The function to generated the expected result.  This function has four arguments:
+      //       automationTime - the value of  |options.automationTime|
+      //       timeConstant   - time constant used for SetTargetAtTime
+      //       rampEndValue   - end value for the ramp (same value used for automationFunction)
+      //       rampEndTime    - end time for the ramp (same value used for automationFunction)
+      //   |options.automationTime|
+      //     Time at which the |automationFunction| is called to start the automation.
+      //   |options.thresholdSetTarget|
+      //     Threshold to use for verifying that the initial (if any) SetTargetAtTime portion had
+      //     the correct values.
+      //   |options.thresholdRamp|
+      //     Threshold to use for verifying that the ramp portion had the correct values.
+      function runTest(prefix, options) {
+        var automationFunction = options.automationFunction;
+        var referenceFunction = options.referenceFunction;
+        var automationTime = options.automationTime;
+        var thresholdSetTarget = options.thresholdSetTarget || 0;
+        var thresholdRamp = options.thresholdRamp || 0;
+
+        // End value for the ramp.  Fairly arbitrary, but should be distinctly different from the
+        // target value for SetTargetAtTime and the initial value of gain.gain.
+        var rampEndValue = 2;
+        var context = new OfflineAudioContext(1, renderFrames, sampleRate);
+
+        // A constant source of amplitude 1.
+        var source = context.createBufferSource();
+        source.buffer = createConstantBuffer(context, 1, 1);
+        source.loop = true;
+
+        var gain = context.createGain();
+
+        // The SetTarget starts after one rendering quantum.
+        gain.gain.setTargetAtTime(0, renderQuantum / context.sampleRate, timeConstant);
+
+        // Schedule the ramp at |automationTime|.  If this time is past the first rendering quantum,
+        // the SetTarget event will run for a bit before running the ramp.  Otherwise, the SetTarget
+        // should be completely replaced by the ramp.
+        context.suspend(automationTime)
+          .then(function () {
+            automationFunction(gain.gain, rampEndValue, rampEndTime);
+            context.resume();
+          });
+
+        source.connect(gain);
+        gain.connect(context.destination);
+
+        source.start();
+
+        return context.startRendering().then(function (resultBuffer) {
+          var success = true;
+          var result = resultBuffer.getChannelData(0);
+          var expected = referenceFunction(automationTime, timeConstant, rampEndValue, rampEndTime);
+
+          // Verify each part of the curve separately.
+          var startIndex = 0;
+          var length = expected.initialPart.length;
+
+          // Verify that the initial part of the curve is constant.
+          success = Should(prefix + ": Initial part", result.slice(0, length))
+            .beCloseToArray(expected.initialPart, 0) && success;
+
+          // Verify the SetTarget part of the curve, if the SetTarget did actually run.
+          startIndex += length;
+          length = expected.setTargetPart.length;
+          if (length) {
+            success = Should(prefix + ": SetTarget part", result.slice(startIndex, startIndex +
+                length))
+              .beCloseToArray(expected.setTargetPart, thresholdSetTarget) && success;
+          } else {
+            testPassed("SetTarget part was correctly replaced by the ramp");
+          }
+
+          // Verify the ramp part of the curve
+          startIndex += length;
+          length = expected.rampPart.length;
+          success = Should(prefix, result.slice(startIndex, startIndex + length), {
+              verbose: true
+            }).beCloseToArray(expected.rampPart, thresholdRamp) && success;
+
+          // Verify that the end of the curve after the ramp (if any) is a constant.
+          startIndex += length;
+          success = Should(prefix + ": Tail part", result.slice(startIndex))
+            .beCloseToArray(expected.tailPart, 0) && success;
+
+          if (success)
+            testPassed(prefix + " preceded by SetTarget is continuous.\n");
+          else
+            testFailed(prefix + " preceded by SetTarget was not continuous.\n");
+        });
+      }
+    </script>
+  </body>
+</html>