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authorMatt A. Tobin <mattatobin@localhost.localdomain>2018-02-02 04:16:08 -0500
committerMatt A. Tobin <mattatobin@localhost.localdomain>2018-02-02 04:16:08 -0500
commit5f8de423f190bbb79a62f804151bc24824fa32d8 (patch)
tree10027f336435511475e392454359edea8e25895d /gfx/layers/apz/test/gtest/TestGestureDetector.cpp
parent49ee0794b5d912db1f95dce6eb52d781dc210db5 (diff)
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Add m-esr52 at 52.6.0
Diffstat (limited to 'gfx/layers/apz/test/gtest/TestGestureDetector.cpp')
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diff --git a/gfx/layers/apz/test/gtest/TestGestureDetector.cpp b/gfx/layers/apz/test/gtest/TestGestureDetector.cpp
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+++ b/gfx/layers/apz/test/gtest/TestGestureDetector.cpp
@@ -0,0 +1,638 @@
+/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
+/* vim: set sw=2 ts=8 et tw=80 : */
+/* This Source Code Form is subject to the terms of the Mozilla Public
+ * License, v. 2.0. If a copy of the MPL was not distributed with this
+ * file, You can obtain one at http://mozilla.org/MPL/2.0/. */
+
+#include "APZCBasicTester.h"
+#include "APZTestCommon.h"
+
+class APZCGestureDetectorTester : public APZCBasicTester {
+public:
+ APZCGestureDetectorTester()
+ : APZCBasicTester(AsyncPanZoomController::USE_GESTURE_DETECTOR)
+ {
+ }
+
+protected:
+ FrameMetrics GetPinchableFrameMetrics()
+ {
+ FrameMetrics fm;
+ fm.SetCompositionBounds(ParentLayerRect(200, 200, 100, 200));
+ fm.SetScrollableRect(CSSRect(0, 0, 980, 1000));
+ fm.SetScrollOffset(CSSPoint(300, 300));
+ fm.SetZoom(CSSToParentLayerScale2D(2.0, 2.0));
+ // APZC only allows zooming on the root scrollable frame.
+ fm.SetIsRootContent(true);
+ // the visible area of the document in CSS pixels is x=300 y=300 w=50 h=100
+ return fm;
+ }
+};
+
+TEST_F(APZCGestureDetectorTester, Pan_After_Pinch) {
+ SCOPED_GFX_PREF(TouchActionEnabled, bool, false);
+
+ FrameMetrics originalMetrics = GetPinchableFrameMetrics();
+ apzc->SetFrameMetrics(originalMetrics);
+
+ MakeApzcZoomable();
+
+ // Test parameters
+ float zoomAmount = 1.25;
+ float pinchLength = 100.0;
+ float pinchLengthScaled = pinchLength * zoomAmount;
+ int focusX = 250;
+ int focusY = 300;
+ int panDistance = 20;
+
+ int firstFingerId = 0;
+ int secondFingerId = firstFingerId + 1;
+
+ // Put fingers down
+ MultiTouchInput mti = MultiTouchInput(MultiTouchInput::MULTITOUCH_START, 0, TimeStamp(), 0);
+ mti.mTouches.AppendElement(CreateSingleTouchData(firstFingerId, focusX, focusY));
+ mti.mTouches.AppendElement(CreateSingleTouchData(secondFingerId, focusX, focusY));
+ apzc->ReceiveInputEvent(mti, nullptr);
+
+ // Spread fingers out to enter the pinch state
+ mti = MultiTouchInput(MultiTouchInput::MULTITOUCH_MOVE, 0, TimeStamp(), 0);
+ mti.mTouches.AppendElement(CreateSingleTouchData(firstFingerId, focusX - pinchLength, focusY));
+ mti.mTouches.AppendElement(CreateSingleTouchData(secondFingerId, focusX + pinchLength, focusY));
+ apzc->ReceiveInputEvent(mti, nullptr);
+
+ // Do the actual pinch of 1.25x
+ mti = MultiTouchInput(MultiTouchInput::MULTITOUCH_MOVE, 0, TimeStamp(), 0);
+ mti.mTouches.AppendElement(CreateSingleTouchData(firstFingerId, focusX - pinchLengthScaled, focusY));
+ mti.mTouches.AppendElement(CreateSingleTouchData(secondFingerId, focusX + pinchLengthScaled, focusY));
+ apzc->ReceiveInputEvent(mti, nullptr);
+
+ // Verify that the zoom changed, just to make sure our code above did what it
+ // was supposed to.
+ FrameMetrics zoomedMetrics = apzc->GetFrameMetrics();
+ float newZoom = zoomedMetrics.GetZoom().ToScaleFactor().scale;
+ EXPECT_EQ(originalMetrics.GetZoom().ToScaleFactor().scale * zoomAmount, newZoom);
+
+ // Now we lift one finger...
+ mti = MultiTouchInput(MultiTouchInput::MULTITOUCH_END, 0, TimeStamp(), 0);
+ mti.mTouches.AppendElement(CreateSingleTouchData(secondFingerId, focusX + pinchLengthScaled, focusY));
+ apzc->ReceiveInputEvent(mti, nullptr);
+
+ // ... and pan with the remaining finger. This pan just breaks through the
+ // distance threshold.
+ focusY += 40;
+ mti = MultiTouchInput(MultiTouchInput::MULTITOUCH_MOVE, 0, TimeStamp(), 0);
+ mti.mTouches.AppendElement(CreateSingleTouchData(firstFingerId, focusX - pinchLengthScaled, focusY));
+ apzc->ReceiveInputEvent(mti, nullptr);
+
+ // This one does an actual pan of 20 pixels
+ focusY += panDistance;
+ mti = MultiTouchInput(MultiTouchInput::MULTITOUCH_MOVE, 0, TimeStamp(), 0);
+ mti.mTouches.AppendElement(CreateSingleTouchData(firstFingerId, focusX - pinchLengthScaled, focusY));
+ apzc->ReceiveInputEvent(mti, nullptr);
+
+ // Lift the remaining finger
+ mti = MultiTouchInput(MultiTouchInput::MULTITOUCH_END, 0, TimeStamp(), 0);
+ mti.mTouches.AppendElement(CreateSingleTouchData(firstFingerId, focusX - pinchLengthScaled, focusY));
+ apzc->ReceiveInputEvent(mti, nullptr);
+
+ // Verify that we scrolled
+ FrameMetrics finalMetrics = apzc->GetFrameMetrics();
+ EXPECT_EQ(zoomedMetrics.GetScrollOffset().y - (panDistance / newZoom), finalMetrics.GetScrollOffset().y);
+
+ // Clear out any remaining fling animation and pending tasks
+ apzc->AdvanceAnimationsUntilEnd();
+ while (mcc->RunThroughDelayedTasks());
+ apzc->AssertStateIsReset();
+}
+
+TEST_F(APZCGestureDetectorTester, Pan_With_Tap) {
+ SCOPED_GFX_PREF(TouchActionEnabled, bool, false);
+
+ FrameMetrics originalMetrics = GetPinchableFrameMetrics();
+ apzc->SetFrameMetrics(originalMetrics);
+
+ // Making the APZC zoomable isn't really needed for the correct operation of
+ // this test, but it could help catch regressions where we accidentally enter
+ // a pinch state.
+ MakeApzcZoomable();
+
+ // Test parameters
+ int touchX = 250;
+ int touchY = 300;
+ int panDistance = 20;
+
+ int firstFingerId = 0;
+ int secondFingerId = firstFingerId + 1;
+
+ // Put finger down
+ MultiTouchInput mti = MultiTouchInput(MultiTouchInput::MULTITOUCH_START, 0, TimeStamp(), 0);
+ mti.mTouches.AppendElement(CreateSingleTouchData(firstFingerId, touchX, touchY));
+ apzc->ReceiveInputEvent(mti, nullptr);
+
+ // Start a pan, break through the threshold
+ touchY += 40;
+ mti = MultiTouchInput(MultiTouchInput::MULTITOUCH_MOVE, 0, TimeStamp(), 0);
+ mti.mTouches.AppendElement(CreateSingleTouchData(firstFingerId, touchX, touchY));
+ apzc->ReceiveInputEvent(mti, nullptr);
+
+ // Do an actual pan for a bit
+ touchY += panDistance;
+ mti = MultiTouchInput(MultiTouchInput::MULTITOUCH_MOVE, 0, TimeStamp(), 0);
+ mti.mTouches.AppendElement(CreateSingleTouchData(firstFingerId, touchX, touchY));
+ apzc->ReceiveInputEvent(mti, nullptr);
+
+ // Put a second finger down
+ mti = MultiTouchInput(MultiTouchInput::MULTITOUCH_START, 0, TimeStamp(), 0);
+ mti.mTouches.AppendElement(CreateSingleTouchData(firstFingerId, touchX, touchY));
+ mti.mTouches.AppendElement(CreateSingleTouchData(secondFingerId, touchX + 10, touchY));
+ apzc->ReceiveInputEvent(mti, nullptr);
+
+ // Lift the second finger
+ mti = MultiTouchInput(MultiTouchInput::MULTITOUCH_END, 0, TimeStamp(), 0);
+ mti.mTouches.AppendElement(CreateSingleTouchData(secondFingerId, touchX + 10, touchY));
+ apzc->ReceiveInputEvent(mti, nullptr);
+
+ // Bust through the threshold again
+ touchY += 40;
+ mti = MultiTouchInput(MultiTouchInput::MULTITOUCH_MOVE, 0, TimeStamp(), 0);
+ mti.mTouches.AppendElement(CreateSingleTouchData(firstFingerId, touchX, touchY));
+ apzc->ReceiveInputEvent(mti, nullptr);
+
+ // Do some more actual panning
+ touchY += panDistance;
+ mti = MultiTouchInput(MultiTouchInput::MULTITOUCH_MOVE, 0, TimeStamp(), 0);
+ mti.mTouches.AppendElement(CreateSingleTouchData(firstFingerId, touchX, touchY));
+ apzc->ReceiveInputEvent(mti, nullptr);
+
+ // Lift the first finger
+ mti = MultiTouchInput(MultiTouchInput::MULTITOUCH_END, 0, TimeStamp(), 0);
+ mti.mTouches.AppendElement(CreateSingleTouchData(firstFingerId, touchX, touchY));
+ apzc->ReceiveInputEvent(mti, nullptr);
+
+ // Verify that we scrolled
+ FrameMetrics finalMetrics = apzc->GetFrameMetrics();
+ float zoom = finalMetrics.GetZoom().ToScaleFactor().scale;
+ EXPECT_EQ(originalMetrics.GetScrollOffset().y - (panDistance * 2 / zoom), finalMetrics.GetScrollOffset().y);
+
+ // Clear out any remaining fling animation and pending tasks
+ apzc->AdvanceAnimationsUntilEnd();
+ while (mcc->RunThroughDelayedTasks());
+ apzc->AssertStateIsReset();
+}
+
+class APZCFlingStopTester : public APZCGestureDetectorTester {
+protected:
+ // Start a fling, and then tap while the fling is ongoing. When
+ // aSlow is false, the tap will happen while the fling is at a
+ // high velocity, and we check that the tap doesn't trigger sending a tap
+ // to content. If aSlow is true, the tap will happen while the fling
+ // is at a slow velocity, and we check that the tap does trigger sending
+ // a tap to content. See bug 1022956.
+ void DoFlingStopTest(bool aSlow) {
+ int touchStart = 50;
+ int touchEnd = 10;
+
+ // Start the fling down.
+ Pan(apzc, touchStart, touchEnd);
+ // The touchstart from the pan will leave some cancelled tasks in the queue, clear them out
+
+ // If we want to tap while the fling is fast, let the fling advance for 10ms only. If we want
+ // the fling to slow down more, advance to 2000ms. These numbers may need adjusting if our
+ // friction and threshold values change, but they should be deterministic at least.
+ int timeDelta = aSlow ? 2000 : 10;
+ int tapCallsExpected = aSlow ? 2 : 1;
+
+ // Advance the fling animation by timeDelta milliseconds.
+ ParentLayerPoint pointOut;
+ AsyncTransform viewTransformOut;
+ apzc->SampleContentTransformForFrame(&viewTransformOut, pointOut, TimeDuration::FromMilliseconds(timeDelta));
+
+ // Deliver a tap to abort the fling. Ensure that we get a SingleTap
+ // call out of it if and only if the fling is slow.
+ EXPECT_CALL(*mcc, HandleTap(TapType::eSingleTap, _, 0, apzc->GetGuid(), _)).Times(tapCallsExpected);
+ Tap(apzc, ScreenIntPoint(10, 10), 0);
+ while (mcc->RunThroughDelayedTasks());
+
+ // Deliver another tap, to make sure that taps are flowing properly once
+ // the fling is aborted.
+ Tap(apzc, ScreenIntPoint(100, 100), 0);
+ while (mcc->RunThroughDelayedTasks());
+
+ // Verify that we didn't advance any further after the fling was aborted, in either case.
+ ParentLayerPoint finalPointOut;
+ apzc->SampleContentTransformForFrame(&viewTransformOut, finalPointOut);
+ EXPECT_EQ(pointOut.x, finalPointOut.x);
+ EXPECT_EQ(pointOut.y, finalPointOut.y);
+
+ apzc->AssertStateIsReset();
+ }
+
+ void DoFlingStopWithSlowListener(bool aPreventDefault) {
+ MakeApzcWaitForMainThread();
+
+ int touchStart = 50;
+ int touchEnd = 10;
+ uint64_t blockId = 0;
+
+ // Start the fling down.
+ Pan(apzc, touchStart, touchEnd, false, nullptr, nullptr, &blockId);
+ apzc->ConfirmTarget(blockId);
+ apzc->ContentReceivedInputBlock(blockId, false);
+
+ // Sample the fling a couple of times to ensure it's going.
+ ParentLayerPoint point, finalPoint;
+ AsyncTransform viewTransform;
+ apzc->SampleContentTransformForFrame(&viewTransform, point, TimeDuration::FromMilliseconds(10));
+ apzc->SampleContentTransformForFrame(&viewTransform, finalPoint, TimeDuration::FromMilliseconds(10));
+ EXPECT_GT(finalPoint.y, point.y);
+
+ // Now we put our finger down to stop the fling
+ TouchDown(apzc, ScreenIntPoint(10, 10), mcc->Time(), &blockId);
+
+ // Re-sample to make sure it hasn't moved
+ apzc->SampleContentTransformForFrame(&viewTransform, point, TimeDuration::FromMilliseconds(10));
+ EXPECT_EQ(finalPoint.x, point.x);
+ EXPECT_EQ(finalPoint.y, point.y);
+
+ // respond to the touchdown that stopped the fling.
+ // even if we do a prevent-default on it, the animation should remain stopped.
+ apzc->ContentReceivedInputBlock(blockId, aPreventDefault);
+
+ // Verify the page hasn't moved
+ apzc->SampleContentTransformForFrame(&viewTransform, point, TimeDuration::FromMilliseconds(70));
+ EXPECT_EQ(finalPoint.x, point.x);
+ EXPECT_EQ(finalPoint.y, point.y);
+
+ // clean up
+ TouchUp(apzc, ScreenIntPoint(10, 10), mcc->Time());
+
+ apzc->AssertStateIsReset();
+ }
+};
+
+TEST_F(APZCFlingStopTester, FlingStop) {
+ SCOPED_GFX_PREF(APZFlingMinVelocityThreshold, float, 0.0f);
+ DoFlingStopTest(false);
+}
+
+TEST_F(APZCFlingStopTester, FlingStopTap) {
+ SCOPED_GFX_PREF(APZFlingMinVelocityThreshold, float, 0.0f);
+ DoFlingStopTest(true);
+}
+
+TEST_F(APZCFlingStopTester, FlingStopSlowListener) {
+ SCOPED_GFX_PREF(APZFlingMinVelocityThreshold, float, 0.0f);
+ DoFlingStopWithSlowListener(false);
+}
+
+TEST_F(APZCFlingStopTester, FlingStopPreventDefault) {
+ SCOPED_GFX_PREF(APZFlingMinVelocityThreshold, float, 0.0f);
+ DoFlingStopWithSlowListener(true);
+}
+
+TEST_F(APZCGestureDetectorTester, ShortPress) {
+ MakeApzcUnzoomable();
+
+ MockFunction<void(std::string checkPointName)> check;
+ {
+ InSequence s;
+ // This verifies that the single tap notification is sent after the
+ // touchup is fully processed. The ordering here is important.
+ EXPECT_CALL(check, Call("pre-tap"));
+ EXPECT_CALL(check, Call("post-tap"));
+ EXPECT_CALL(*mcc, HandleTap(TapType::eSingleTap, LayoutDevicePoint(10, 10), 0, apzc->GetGuid(), _)).Times(1);
+ }
+
+ check.Call("pre-tap");
+ TapAndCheckStatus(apzc, ScreenIntPoint(10, 10), TimeDuration::FromMilliseconds(100));
+ check.Call("post-tap");
+
+ apzc->AssertStateIsReset();
+}
+
+TEST_F(APZCGestureDetectorTester, MediumPress) {
+ MakeApzcUnzoomable();
+
+ MockFunction<void(std::string checkPointName)> check;
+ {
+ InSequence s;
+ // This verifies that the single tap notification is sent after the
+ // touchup is fully processed. The ordering here is important.
+ EXPECT_CALL(check, Call("pre-tap"));
+ EXPECT_CALL(check, Call("post-tap"));
+ EXPECT_CALL(*mcc, HandleTap(TapType::eSingleTap, LayoutDevicePoint(10, 10), 0, apzc->GetGuid(), _)).Times(1);
+ }
+
+ check.Call("pre-tap");
+ TapAndCheckStatus(apzc, ScreenIntPoint(10, 10), TimeDuration::FromMilliseconds(400));
+ check.Call("post-tap");
+
+ apzc->AssertStateIsReset();
+}
+
+class APZCLongPressTester : public APZCGestureDetectorTester {
+protected:
+ void DoLongPressTest(uint32_t aBehavior) {
+ MakeApzcUnzoomable();
+
+ uint64_t blockId = 0;
+
+ nsEventStatus status = TouchDown(apzc, ScreenIntPoint(10, 10), mcc->Time(), &blockId);
+ EXPECT_EQ(nsEventStatus_eConsumeDoDefault, status);
+
+ if (gfxPrefs::TouchActionEnabled() && status != nsEventStatus_eConsumeNoDefault) {
+ // SetAllowedTouchBehavior() must be called after sending touch-start.
+ nsTArray<uint32_t> allowedTouchBehaviors;
+ allowedTouchBehaviors.AppendElement(aBehavior);
+ apzc->SetAllowedTouchBehavior(blockId, allowedTouchBehaviors);
+ }
+ // Have content "respond" to the touchstart
+ apzc->ContentReceivedInputBlock(blockId, false);
+
+ MockFunction<void(std::string checkPointName)> check;
+
+ {
+ InSequence s;
+
+ EXPECT_CALL(check, Call("preHandleLongTap"));
+ blockId++;
+ EXPECT_CALL(*mcc, HandleTap(TapType::eLongTap, LayoutDevicePoint(10, 10), 0, apzc->GetGuid(), blockId)).Times(1);
+ EXPECT_CALL(check, Call("postHandleLongTap"));
+
+ EXPECT_CALL(check, Call("preHandleLongTapUp"));
+ EXPECT_CALL(*mcc, HandleTap(TapType::eLongTapUp, LayoutDevicePoint(10, 10), 0, apzc->GetGuid(), _)).Times(1);
+ EXPECT_CALL(check, Call("postHandleLongTapUp"));
+ }
+
+ // Manually invoke the longpress while the touch is currently down.
+ check.Call("preHandleLongTap");
+ mcc->RunThroughDelayedTasks();
+ check.Call("postHandleLongTap");
+
+ // Dispatching the longpress event starts a new touch block, which
+ // needs a new content response and also has a pending timeout task
+ // in the queue. Deal with those here. We do the content response first
+ // with preventDefault=false, and then we run the timeout task which
+ // "loses the race" and does nothing.
+ apzc->ContentReceivedInputBlock(blockId, false);
+ mcc->AdvanceByMillis(1000);
+
+ // Finally, simulate lifting the finger. Since the long-press wasn't
+ // prevent-defaulted, we should get a long-tap-up event.
+ check.Call("preHandleLongTapUp");
+ status = TouchUp(apzc, ScreenIntPoint(10, 10), mcc->Time());
+ mcc->RunThroughDelayedTasks();
+ EXPECT_EQ(nsEventStatus_eConsumeDoDefault, status);
+ check.Call("postHandleLongTapUp");
+
+ apzc->AssertStateIsReset();
+ }
+
+ void DoLongPressPreventDefaultTest(uint32_t aBehavior) {
+ MakeApzcUnzoomable();
+
+ EXPECT_CALL(*mcc, RequestContentRepaint(_)).Times(0);
+
+ int touchX = 10,
+ touchStartY = 10,
+ touchEndY = 50;
+
+ uint64_t blockId = 0;
+ nsEventStatus status = TouchDown(apzc, ScreenIntPoint(touchX, touchStartY), mcc->Time(), &blockId);
+ EXPECT_EQ(nsEventStatus_eConsumeDoDefault, status);
+
+ if (gfxPrefs::TouchActionEnabled() && status != nsEventStatus_eConsumeNoDefault) {
+ // SetAllowedTouchBehavior() must be called after sending touch-start.
+ nsTArray<uint32_t> allowedTouchBehaviors;
+ allowedTouchBehaviors.AppendElement(aBehavior);
+ apzc->SetAllowedTouchBehavior(blockId, allowedTouchBehaviors);
+ }
+ // Have content "respond" to the touchstart
+ apzc->ContentReceivedInputBlock(blockId, false);
+
+ MockFunction<void(std::string checkPointName)> check;
+
+ {
+ InSequence s;
+
+ EXPECT_CALL(check, Call("preHandleLongTap"));
+ blockId++;
+ EXPECT_CALL(*mcc, HandleTap(TapType::eLongTap, LayoutDevicePoint(touchX, touchStartY), 0, apzc->GetGuid(), blockId)).Times(1);
+ EXPECT_CALL(check, Call("postHandleLongTap"));
+ }
+
+ // Manually invoke the longpress while the touch is currently down.
+ check.Call("preHandleLongTap");
+ mcc->RunThroughDelayedTasks();
+ check.Call("postHandleLongTap");
+
+ // There should be a TimeoutContentResponse task in the queue still,
+ // waiting for the response from the longtap event dispatched above.
+ // Send the signal that content has handled the long-tap, and then run
+ // the timeout task (it will be a no-op because the content "wins" the
+ // race. This takes the place of the "contextmenu" event.
+ apzc->ContentReceivedInputBlock(blockId, true);
+ mcc->AdvanceByMillis(1000);
+
+ MultiTouchInput mti = CreateMultiTouchInput(MultiTouchInput::MULTITOUCH_MOVE, mcc->Time());
+ mti.mTouches.AppendElement(SingleTouchData(0, ParentLayerPoint(touchX, touchEndY), ScreenSize(0, 0), 0, 0));
+ status = apzc->ReceiveInputEvent(mti, nullptr);
+ EXPECT_EQ(nsEventStatus_eConsumeDoDefault, status);
+
+ EXPECT_CALL(*mcc, HandleTap(TapType::eSingleTap, LayoutDevicePoint(touchX, touchEndY), 0, apzc->GetGuid(), _)).Times(0);
+ status = TouchUp(apzc, ScreenIntPoint(touchX, touchEndY), mcc->Time());
+ EXPECT_EQ(nsEventStatus_eConsumeDoDefault, status);
+
+ ParentLayerPoint pointOut;
+ AsyncTransform viewTransformOut;
+ apzc->SampleContentTransformForFrame(&viewTransformOut, pointOut);
+
+ EXPECT_EQ(ParentLayerPoint(), pointOut);
+ EXPECT_EQ(AsyncTransform(), viewTransformOut);
+
+ apzc->AssertStateIsReset();
+ }
+};
+
+TEST_F(APZCLongPressTester, LongPress) {
+ SCOPED_GFX_PREF(TouchActionEnabled, bool, false);
+ DoLongPressTest(mozilla::layers::AllowedTouchBehavior::NONE);
+}
+
+TEST_F(APZCLongPressTester, LongPressWithTouchAction) {
+ SCOPED_GFX_PREF(TouchActionEnabled, bool, true);
+ DoLongPressTest(mozilla::layers::AllowedTouchBehavior::HORIZONTAL_PAN
+ | mozilla::layers::AllowedTouchBehavior::VERTICAL_PAN
+ | mozilla::layers::AllowedTouchBehavior::PINCH_ZOOM);
+}
+
+TEST_F(APZCLongPressTester, LongPressPreventDefault) {
+ SCOPED_GFX_PREF(TouchActionEnabled, bool, false);
+ DoLongPressPreventDefaultTest(mozilla::layers::AllowedTouchBehavior::NONE);
+}
+
+TEST_F(APZCLongPressTester, LongPressPreventDefaultWithTouchAction) {
+ SCOPED_GFX_PREF(TouchActionEnabled, bool, true);
+ DoLongPressPreventDefaultTest(mozilla::layers::AllowedTouchBehavior::HORIZONTAL_PAN
+ | mozilla::layers::AllowedTouchBehavior::VERTICAL_PAN
+ | mozilla::layers::AllowedTouchBehavior::PINCH_ZOOM);
+}
+
+TEST_F(APZCGestureDetectorTester, DoubleTap) {
+ MakeApzcWaitForMainThread();
+ MakeApzcZoomable();
+
+ EXPECT_CALL(*mcc, HandleTap(TapType::eSingleTap, LayoutDevicePoint(10, 10), 0, apzc->GetGuid(), _)).Times(0);
+ EXPECT_CALL(*mcc, HandleTap(TapType::eDoubleTap, LayoutDevicePoint(10, 10), 0, apzc->GetGuid(), _)).Times(1);
+
+ uint64_t blockIds[2];
+ DoubleTapAndCheckStatus(apzc, ScreenIntPoint(10, 10), &blockIds);
+
+ // responses to the two touchstarts
+ apzc->ContentReceivedInputBlock(blockIds[0], false);
+ apzc->ContentReceivedInputBlock(blockIds[1], false);
+
+ apzc->AssertStateIsReset();
+}
+
+TEST_F(APZCGestureDetectorTester, DoubleTapNotZoomable) {
+ MakeApzcWaitForMainThread();
+ MakeApzcUnzoomable();
+
+ EXPECT_CALL(*mcc, HandleTap(TapType::eSingleTap, LayoutDevicePoint(10, 10), 0, apzc->GetGuid(), _)).Times(1);
+ EXPECT_CALL(*mcc, HandleTap(TapType::eSecondTap, LayoutDevicePoint(10, 10), 0, apzc->GetGuid(), _)).Times(1);
+ EXPECT_CALL(*mcc, HandleTap(TapType::eDoubleTap, LayoutDevicePoint(10, 10), 0, apzc->GetGuid(), _)).Times(0);
+
+ uint64_t blockIds[2];
+ DoubleTapAndCheckStatus(apzc, ScreenIntPoint(10, 10), &blockIds);
+
+ // responses to the two touchstarts
+ apzc->ContentReceivedInputBlock(blockIds[0], false);
+ apzc->ContentReceivedInputBlock(blockIds[1], false);
+
+ apzc->AssertStateIsReset();
+}
+
+TEST_F(APZCGestureDetectorTester, DoubleTapPreventDefaultFirstOnly) {
+ MakeApzcWaitForMainThread();
+ MakeApzcZoomable();
+
+ EXPECT_CALL(*mcc, HandleTap(TapType::eSingleTap, LayoutDevicePoint(10, 10), 0, apzc->GetGuid(), _)).Times(1);
+ EXPECT_CALL(*mcc, HandleTap(TapType::eDoubleTap, LayoutDevicePoint(10, 10), 0, apzc->GetGuid(), _)).Times(0);
+
+ uint64_t blockIds[2];
+ DoubleTapAndCheckStatus(apzc, ScreenIntPoint(10, 10), &blockIds);
+
+ // responses to the two touchstarts
+ apzc->ContentReceivedInputBlock(blockIds[0], true);
+ apzc->ContentReceivedInputBlock(blockIds[1], false);
+
+ apzc->AssertStateIsReset();
+}
+
+TEST_F(APZCGestureDetectorTester, DoubleTapPreventDefaultBoth) {
+ MakeApzcWaitForMainThread();
+ MakeApzcZoomable();
+
+ EXPECT_CALL(*mcc, HandleTap(TapType::eSingleTap, LayoutDevicePoint(10, 10), 0, apzc->GetGuid(), _)).Times(0);
+ EXPECT_CALL(*mcc, HandleTap(TapType::eDoubleTap, LayoutDevicePoint(10, 10), 0, apzc->GetGuid(), _)).Times(0);
+
+ uint64_t blockIds[2];
+ DoubleTapAndCheckStatus(apzc, ScreenIntPoint(10, 10), &blockIds);
+
+ // responses to the two touchstarts
+ apzc->ContentReceivedInputBlock(blockIds[0], true);
+ apzc->ContentReceivedInputBlock(blockIds[1], true);
+
+ apzc->AssertStateIsReset();
+}
+
+// Test for bug 947892
+// We test whether we dispatch tap event when the tap is followed by pinch.
+TEST_F(APZCGestureDetectorTester, TapFollowedByPinch) {
+ MakeApzcZoomable();
+
+ EXPECT_CALL(*mcc, HandleTap(TapType::eSingleTap, LayoutDevicePoint(10, 10), 0, apzc->GetGuid(), _)).Times(1);
+
+ Tap(apzc, ScreenIntPoint(10, 10), TimeDuration::FromMilliseconds(100));
+
+ int inputId = 0;
+ MultiTouchInput mti;
+ mti = CreateMultiTouchInput(MultiTouchInput::MULTITOUCH_START, mcc->Time());
+ mti.mTouches.AppendElement(SingleTouchData(inputId, ParentLayerPoint(20, 20), ScreenSize(0, 0), 0, 0));
+ mti.mTouches.AppendElement(SingleTouchData(inputId + 1, ParentLayerPoint(10, 10), ScreenSize(0, 0), 0, 0));
+ apzc->ReceiveInputEvent(mti, nullptr);
+
+ mti = CreateMultiTouchInput(MultiTouchInput::MULTITOUCH_END, mcc->Time());
+ mti.mTouches.AppendElement(SingleTouchData(inputId, ParentLayerPoint(20, 20), ScreenSize(0, 0), 0, 0));
+ mti.mTouches.AppendElement(SingleTouchData(inputId + 1, ParentLayerPoint(10, 10), ScreenSize(0, 0), 0, 0));
+ apzc->ReceiveInputEvent(mti, nullptr);
+
+ apzc->AssertStateIsReset();
+}
+
+TEST_F(APZCGestureDetectorTester, TapFollowedByMultipleTouches) {
+ MakeApzcZoomable();
+
+ EXPECT_CALL(*mcc, HandleTap(TapType::eSingleTap, LayoutDevicePoint(10, 10), 0, apzc->GetGuid(), _)).Times(1);
+
+ Tap(apzc, ScreenIntPoint(10, 10), TimeDuration::FromMilliseconds(100));
+
+ int inputId = 0;
+ MultiTouchInput mti;
+ mti = CreateMultiTouchInput(MultiTouchInput::MULTITOUCH_START, mcc->Time());
+ mti.mTouches.AppendElement(SingleTouchData(inputId, ParentLayerPoint(20, 20), ScreenSize(0, 0), 0, 0));
+ apzc->ReceiveInputEvent(mti, nullptr);
+
+ mti = CreateMultiTouchInput(MultiTouchInput::MULTITOUCH_START, mcc->Time());
+ mti.mTouches.AppendElement(SingleTouchData(inputId, ParentLayerPoint(20, 20), ScreenSize(0, 0), 0, 0));
+ mti.mTouches.AppendElement(SingleTouchData(inputId + 1, ParentLayerPoint(10, 10), ScreenSize(0, 0), 0, 0));
+ apzc->ReceiveInputEvent(mti, nullptr);
+
+ mti = CreateMultiTouchInput(MultiTouchInput::MULTITOUCH_END, mcc->Time());
+ mti.mTouches.AppendElement(SingleTouchData(inputId, ParentLayerPoint(20, 20), ScreenSize(0, 0), 0, 0));
+ mti.mTouches.AppendElement(SingleTouchData(inputId + 1, ParentLayerPoint(10, 10), ScreenSize(0, 0), 0, 0));
+ apzc->ReceiveInputEvent(mti, nullptr);
+
+ apzc->AssertStateIsReset();
+}
+
+TEST_F(APZCGestureDetectorTester, LongPressInterruptedByWheel) {
+ // Since we try to allow concurrent input blocks of different types to
+ // co-exist, the wheel block shouldn't interrupt the long-press detection.
+ // But more importantly, this shouldn't crash, which is what it did at one
+ // point in time.
+ EXPECT_CALL(*mcc, HandleTap(TapType::eLongTap, _, _, _, _)).Times(1);
+
+ uint64_t touchBlockId = 0;
+ uint64_t wheelBlockId = 0;
+ nsEventStatus status = TouchDown(apzc, ScreenIntPoint(10, 10), mcc->Time(), &touchBlockId);
+ if (gfxPrefs::TouchActionEnabled() && status != nsEventStatus_eConsumeNoDefault) {
+ SetDefaultAllowedTouchBehavior(apzc, touchBlockId);
+ }
+ mcc->AdvanceByMillis(10);
+ Wheel(apzc, ScreenIntPoint(10, 10), ScreenPoint(0, -10), mcc->Time(), &wheelBlockId);
+ EXPECT_NE(touchBlockId, wheelBlockId);
+ mcc->AdvanceByMillis(1000);
+}
+
+TEST_F(APZCGestureDetectorTester, TapTimeoutInterruptedByWheel) {
+ // In this test, even though the wheel block comes right after the tap, the
+ // tap should still be dispatched because it completes fully before the wheel
+ // block arrived.
+ EXPECT_CALL(*mcc, HandleTap(TapType::eSingleTap, LayoutDevicePoint(10, 10), 0, apzc->GetGuid(), _)).Times(1);
+
+ // We make the APZC zoomable so the gesture detector needs to wait to
+ // distinguish between tap and double-tap. During that timeout is when we
+ // insert the wheel event.
+ MakeApzcZoomable();
+
+ uint64_t touchBlockId = 0;
+ uint64_t wheelBlockId = 0;
+ Tap(apzc, ScreenIntPoint(10, 10), TimeDuration::FromMilliseconds(100),
+ nullptr, &touchBlockId);
+ mcc->AdvanceByMillis(10);
+ Wheel(apzc, ScreenIntPoint(10, 10), ScreenPoint(0, -10), mcc->Time(), &wheelBlockId);
+ EXPECT_NE(touchBlockId, wheelBlockId);
+ while (mcc->RunThroughDelayedTasks());
+}